From 3363fab7438a17e336dbaf57fc3c8fa64114b94b Mon Sep 17 00:00:00 2001 From: Vyacheslav Bocharov Date: Wed, 29 Jun 2022 09:26:35 +0300 Subject: [PATCH 3/7] Copy and update amlogic-2019 aml partition/keyman code to mainline --- cmd/aml_mmc.c | 3542 ++ cmd/storage.c | 1503 + common/aml_dt.c | 600 + common/partitions.c | 206 + disk/part_aml.c | 110 + drivers/amlogic/Kconfig | 14 + drivers/amlogic/Makefile | 5 + drivers/amlogic/keymanage/Kconfig | 21 + drivers/amlogic/keymanage/Makefile | 32 + drivers/amlogic/keymanage/key_manage.c | 689 + drivers/amlogic/keymanage/key_manage.h | 61 + drivers/amlogic/keymanage/key_manage_i.h | 65 + drivers/amlogic/keymanage/key_unify.c | 610 + drivers/amlogic/keymanage/km_dts.c | 392 + drivers/amlogic/keymanage/km_efuse_key.c | 156 + drivers/amlogic/keymanage/km_provision_key.c | 102 + drivers/amlogic/keymanage/km_secure_key.c | 263 + .../amlogic/keymanage/km_secure_key_2015.c | 118 + drivers/amlogic/storagekey/Kconfig | 2 + drivers/amlogic/storagekey/Makefile | 3 + drivers/amlogic/storagekey/normal_key.c | 672 + drivers/amlogic/storagekey/normal_key.h | 49 + drivers/amlogic/storagekey/securestorage.c | 389 + drivers/amlogic/storagekey/storagekey.c | 587 + drivers/efuse/Kconfig | 4 + drivers/efuse/Makefile | 9 + drivers/efuse/aml_efuse.c | 123 + drivers/efuse/bl31_apis.c | 474 + drivers/efuse/efuse.c | 141 + drivers/efuse/efuse_usr_space_api.c | 379 + drivers/mmc/aml_emmc_partition.c | 1715 + drivers/mmc/mmc_aml copy.c | 3299 ++ drivers/mmc/mmc_aml.c | 416 + drivers/mmc/storage_emmc.c | 946 + include/amlogic/aml_cec.h | 86 + include/amlogic/aml_efuse.h | 79 + include/amlogic/aml_gpio.h | 54 + include/amlogic/aml_hdmirx.h | 19 + include/amlogic/aml_irblaster.h | 29 + include/amlogic/aml_is31fl32xx.h | 9 + include/amlogic/aml_led.h | 68 + include/amlogic/aml_mmc.h | 105 + include/amlogic/aml_mtd.h | 31 + include/amlogic/aml_nand.h | 24 + include/amlogic/aml_rsv.h | 106 + include/amlogic/aml_tlv.h | 157 + include/amlogic/aml_v2_burning.h | 31 + include/amlogic/aml_v3_burning.h | 14 + include/amlogic/amlkey_if.h | 85 + include/amlogic/anti-rollback.h | 40 + include/amlogic/asm/bl31_apis.h | 166 + include/amlogic/asm/clock.h | 41 + include/amlogic/asm/cpu_config.h | 101 + include/amlogic/asm/cpu_sdio.h | 264 + include/amlogic/asm/efuse.h | 62 + include/amlogic/asm/io.h | 118 + include/amlogic/asm/register.h | 98 + include/amlogic/asm/regs.h | 32964 ++++++++++++++++ include/amlogic/asm/romboot.h | 53 + include/amlogic/asm/sd_emmc.h | 136 + include/amlogic/asm/secure_apb.h | 4235 ++ include/amlogic/auge_sound.h | 24 + include/amlogic/blxx2bl33_param.h | 27 + include/amlogic/canvas.h | 68 + include/amlogic/color.h | 51 + include/amlogic/cpu_id.h | 90 + include/amlogic/enc_clk_config.h | 1 + include/amlogic/fb.h | 399 + include/amlogic/instaboot.h | 24 + include/amlogic/jtag.h | 61 + include/amlogic/keyunify.h | 56 + include/amlogic/media/vout/aml_cvbs.h | 13 + include/amlogic/media/vout/aml_vinfo.h | 148 + include/amlogic/media/vout/aml_vmode.h | 98 + include/amlogic/media/vout/aml_vout.h | 25 + .../amlogic/media/vout/hdmitx/hdmi_common.h | 655 + include/amlogic/media/vout/hdmitx/hdmitx.h | 11 + .../amlogic/media/vout/hdmitx/hdmitx_ext.h | 6 + .../amlogic/media/vout/hdmitx/hdmitx_module.h | 106 + .../amlogic/media/vout/hdmitx/hdmitx_reg.h | 1041 + include/amlogic/media/vout/hdmitx/mach_reg.h | 625 + include/amlogic/media/vout/lcd/aml_lcd.h | 168 + include/amlogic/media/vout/lcd/bl_extern.h | 88 + include/amlogic/media/vout/lcd/bl_ldim.h | 118 + include/amlogic/media/vout/lcd/lcd_extern.h | 116 + include/amlogic/media/vout/lcd/lcd_vout.h | 520 + include/amlogic/media/vpp/vpp.h | 24 + include/amlogic/media/vpu/vpu.h | 11 + include/amlogic/saradc.h | 103 + include/amlogic/secure_storage.h | 46 + include/amlogic/sound.h | 180 + include/amlogic/spicc.h | 44 + include/amlogic/spifc.h | 44 + include/amlogic/storage.h | 501 + include/amlogic/storagekey.h | 57 + include/amlogic/store_wrapper.h | 56 + include/amlstorage/emmc_partitions.h | 271 + include/amlstorage/emmc_storage.h | 76 + include/amlstorage/partition_table.h | 72 + 99 files changed, 62896 insertions(+) create mode 100644 cmd/aml_mmc.c create mode 100644 cmd/storage.c create mode 100644 common/aml_dt.c create mode 100644 common/partitions.c create mode 100644 disk/part_aml.c create mode 100644 drivers/amlogic/Kconfig create mode 100644 drivers/amlogic/Makefile create mode 100644 drivers/amlogic/keymanage/Kconfig create mode 100644 drivers/amlogic/keymanage/Makefile create mode 100644 drivers/amlogic/keymanage/key_manage.c create mode 100644 drivers/amlogic/keymanage/key_manage.h create mode 100644 drivers/amlogic/keymanage/key_manage_i.h create mode 100644 drivers/amlogic/keymanage/key_unify.c create mode 100644 drivers/amlogic/keymanage/km_dts.c create mode 100644 drivers/amlogic/keymanage/km_efuse_key.c create mode 100644 drivers/amlogic/keymanage/km_provision_key.c create mode 100644 drivers/amlogic/keymanage/km_secure_key.c create mode 100644 drivers/amlogic/keymanage/km_secure_key_2015.c create mode 100644 drivers/amlogic/storagekey/Kconfig create mode 100644 drivers/amlogic/storagekey/Makefile create mode 100644 drivers/amlogic/storagekey/normal_key.c create mode 100644 drivers/amlogic/storagekey/normal_key.h create mode 100644 drivers/amlogic/storagekey/securestorage.c create mode 100644 drivers/amlogic/storagekey/storagekey.c create mode 100644 drivers/efuse/Kconfig create mode 100644 drivers/efuse/Makefile create mode 100644 drivers/efuse/aml_efuse.c create mode 100644 drivers/efuse/bl31_apis.c create mode 100644 drivers/efuse/efuse.c create mode 100644 drivers/efuse/efuse_usr_space_api.c create mode 100644 drivers/mmc/aml_emmc_partition.c create mode 100644 drivers/mmc/mmc_aml copy.c create mode 100644 drivers/mmc/mmc_aml.c create mode 100644 drivers/mmc/storage_emmc.c create mode 100644 include/amlogic/aml_cec.h create mode 100644 include/amlogic/aml_efuse.h create mode 100644 include/amlogic/aml_gpio.h create mode 100644 include/amlogic/aml_hdmirx.h create mode 100644 include/amlogic/aml_irblaster.h create mode 100644 include/amlogic/aml_is31fl32xx.h create mode 100644 include/amlogic/aml_led.h create mode 100644 include/amlogic/aml_mmc.h create mode 100644 include/amlogic/aml_mtd.h create mode 100644 include/amlogic/aml_nand.h create mode 100644 include/amlogic/aml_rsv.h create mode 100644 include/amlogic/aml_tlv.h create mode 100644 include/amlogic/aml_v2_burning.h create mode 100644 include/amlogic/aml_v3_burning.h create mode 100644 include/amlogic/amlkey_if.h create mode 100644 include/amlogic/anti-rollback.h create mode 100644 include/amlogic/asm/bl31_apis.h create mode 100644 include/amlogic/asm/clock.h create mode 100644 include/amlogic/asm/cpu_config.h create mode 100644 include/amlogic/asm/cpu_sdio.h create mode 100644 include/amlogic/asm/efuse.h create mode 100644 include/amlogic/asm/io.h create mode 100644 include/amlogic/asm/register.h create mode 100644 include/amlogic/asm/regs.h create mode 100644 include/amlogic/asm/romboot.h create mode 100644 include/amlogic/asm/sd_emmc.h create mode 100644 include/amlogic/asm/secure_apb.h create mode 100644 include/amlogic/auge_sound.h create mode 100644 include/amlogic/blxx2bl33_param.h create mode 100644 include/amlogic/canvas.h create mode 100644 include/amlogic/color.h create mode 100644 include/amlogic/cpu_id.h create mode 100644 include/amlogic/enc_clk_config.h create mode 100644 include/amlogic/fb.h create mode 100644 include/amlogic/instaboot.h create mode 100644 include/amlogic/jtag.h create mode 100644 include/amlogic/keyunify.h create mode 100644 include/amlogic/media/vout/aml_cvbs.h create mode 100644 include/amlogic/media/vout/aml_vinfo.h create mode 100644 include/amlogic/media/vout/aml_vmode.h create mode 100644 include/amlogic/media/vout/aml_vout.h create mode 100644 include/amlogic/media/vout/hdmitx/hdmi_common.h create mode 100644 include/amlogic/media/vout/hdmitx/hdmitx.h create mode 100644 include/amlogic/media/vout/hdmitx/hdmitx_ext.h create mode 100644 include/amlogic/media/vout/hdmitx/hdmitx_module.h create mode 100644 include/amlogic/media/vout/hdmitx/hdmitx_reg.h create mode 100644 include/amlogic/media/vout/hdmitx/mach_reg.h create mode 100644 include/amlogic/media/vout/lcd/aml_lcd.h create mode 100644 include/amlogic/media/vout/lcd/bl_extern.h create mode 100644 include/amlogic/media/vout/lcd/bl_ldim.h create mode 100644 include/amlogic/media/vout/lcd/lcd_extern.h create mode 100644 include/amlogic/media/vout/lcd/lcd_vout.h create mode 100644 include/amlogic/media/vpp/vpp.h create mode 100644 include/amlogic/media/vpu/vpu.h create mode 100644 include/amlogic/saradc.h create mode 100644 include/amlogic/secure_storage.h create mode 100644 include/amlogic/sound.h create mode 100644 include/amlogic/spicc.h create mode 100644 include/amlogic/spifc.h create mode 100644 include/amlogic/storage.h create mode 100644 include/amlogic/storagekey.h create mode 100644 include/amlogic/store_wrapper.h create mode 100644 include/amlstorage/emmc_partitions.h create mode 100644 include/amlstorage/emmc_storage.h create mode 100644 include/amlstorage/partition_table.h diff --git a/cmd/aml_mmc.c b/cmd/aml_mmc.c new file mode 100644 index 0000000000..db9927e912 --- /dev/null +++ b/cmd/aml_mmc.c @@ -0,0 +1,3542 @@ +/* + * (C) Copyright 2003 + * Kyle Harris, kharris@nexus-tech.net + * + * See file CREDITS for list of people who contributed to this + * project. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation; either version 2 of + * the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, + * MA 02111-1307 USA + */ + +#include +#include +#include +#include +#include +#include +#include +#include "../drivers/mmc/mmc_private.h" +#include +#include +#include +#include +#include +//#include +#include +#include + +/* info system. */ +#define dtb_err(fmt, ...) printf( "%s()-%d: " fmt , \ + __func__, __LINE__, ##__VA_ARGS__) + +#define dtb_wrn(fmt, ...) printf( "%s()-%d: " fmt , \ + __func__, __LINE__, ##__VA_ARGS__) + +/* for detail debug info */ +#define dtb_info(fmt, ...) printf( "%s()-%d: " fmt , \ + __func__, __LINE__, ##__VA_ARGS__) + +#define fb_err(fmt, ...) printf("%s()-%d: " fmt , \ + __func__, __LINE__, ##__VA_ARGS__) +#define CONFIG_SYS_MMC_ENV_DEV 1 +struct aml_dtb_rsv { + u8 data[DTB_BLK_SIZE*DTB_BLK_CNT - 4*sizeof(u32)]; + u32 magic; + u32 version; + u32 timestamp; + u32 checksum; +}; + +struct aml_dtb_info { + u32 stamp[2]; + u8 valid[2]; +}; + +#define stamp_after(a,b) ((int)(b) - (int)(a) < 0) +/* glb dtb infos */ +static struct aml_dtb_info dtb_infos = {{0, 0}, {0, 0}}; + +#define CONFIG_SECURITYKEY + +#if !defined(CONFIG_SYS_MMC_BOOT_DEV) + #define CONFIG_SYS_MMC_BOOT_DEV (CONFIG_SYS_MMC_ENV_DEV) +#endif + +#define GXB_START_BLK 0 +#define GXL_START_BLK 1 + +/* max 2MB for emmc in blks */ +#define UBOOT_SIZE (0x1000) + + +extern int mmc_key_write(unsigned char *buf, unsigned int size, uint32_t *actual_lenth); +extern int mmc_key_read(unsigned char *buf, unsigned int size, uint32_t *actual_lenth); + +/* move this out to storage */ +//int info_disprotect = 0; + + +int mmc_read_status(struct mmc *mmc, int timeout) +{ + struct mmc_cmd cmd; + int err, retries = 5; + int status; + + cmd.cmdidx = MMC_CMD_SEND_STATUS; + cmd.resp_type = MMC_RSP_R1; + if (!mmc_host_is_spi(mmc)) + cmd.cmdarg = mmc->rca << 16; + do { + err = mmc_send_cmd(mmc, &cmd, NULL); + if (!err) { + if ((cmd.response[0] & MMC_STATUS_RDY_FOR_DATA) && + (cmd.response[0] & MMC_STATUS_CURR_STATE) != + MMC_STATE_PRG) + break; + else if (cmd.response[0] & MMC_STATUS_MASK) { + printf("Status Error: 0x%08X\n", + cmd.response[0]); + return -18; + } + } else if (--retries < 0) + return err; + + udelay(1000); + + } while (timeout--); + + status = (cmd.response[0] & MMC_STATUS_CURR_STATE) >> 9; + printf("CURR STATE:%d, status = 0x%x\n", status, cmd.response[0]); + + if (timeout <= 0) { + printf("read status Timeout waiting card ready\n"); + return -19; + } + if (cmd.response[0] & MMC_STATUS_SWITCH_ERROR) { + printf("mmc status swwitch error status =0x%x\n", status); + return -21; + } + return 0; +} + +bool emmckey_is_protected (struct mmc *mmc) +{ +#ifdef CONFIG_STORE_COMPATIBLE +#ifdef CONFIG_SECURITYKEY + if (info_disprotect & DISPROTECT_KEY) { + printf("%s(): disprotect\n", __func__); + return 0; + }else{ + printf("%s(): protect\n", __func__); + return 1; + } +#else + return 0; +#endif +#else +#ifdef CONFIG_SECURITYKEY + //return mmc->key_protect; + return 0; /* fixme, */ +#else + return 0; +#endif +#endif +} + +unsigned emmc_cur_partition = 0; + + +static int get_off_size(struct mmc * mmc, char * name, uint64_t offset, uint64_t size, u64 * blk, u64 * cnt, u64 * sz_byte) +{ + struct partitions *part_info = NULL; + uint64_t off = 0; + int blk_shift = 0; + + blk_shift = ffs(mmc->read_bl_len) - 1; + // printf("blk_shift:%d , off:0x%llx , size:0x%llx.\n ",blk_shift,off,size ); + part_info = find_mmc_partition_by_name(name); + if (part_info == NULL) { + printf("get partition info failed !!\n"); + return -1; + } + off = part_info->offset + offset; + + // printf("part_info->offset:0x%llx , off:0x%llx , size:0x%llx.\n",part_info->offset ,off,size); + + *blk = off >> blk_shift ; + *cnt = size >> blk_shift ; + *sz_byte = size - ((*cnt) << blk_shift) ; + + // printf("get_partition_off_size : blk:0x%llx , cnt:0x%llx.\n",*blk,*cnt); + return 0; +} + +static int get_partition_size(unsigned char* name, uint64_t* addr) +{ + struct partitions *part_info = NULL; + part_info = find_mmc_partition_by_name((char *)name); + if (part_info == NULL) { + printf("get partition info failed !!\n"); + return -1; + } + + *addr = part_info->size >> 9; // unit: 512 bytes + return 0; +} + +static inline int isstring(char *p) +{ + char *endptr = p; + while (*endptr != '\0') { + if (!(((*endptr >= '0') && (*endptr <= '9')) + || ((*endptr >= 'a') && (*endptr <= 'f')) + || ((*endptr >= 'A') && (*endptr <= 'F')) + || (*endptr == 'x') || (*endptr == 'X'))) + return 1; + endptr++; + } + + return 0; +} + +/* + erase bootloader on user/boot0/boot1 which indicate by map. + bit 0: user + bit 1: boot0 + bit 2: boot1 +*/ +int amlmmc_erase_bootloader(int dev, int map) +{ + int ret = 0, i, count = 3; + int blk_shift; + unsigned long n; + char *partname[3] = {"user", "boot0", "boot1"}; + // cpu_id_t cpu_id = get_cpu_id(); + struct mmc *mmc = find_mmc_device(dev); + + /* do nothing */ + if (0 == map) + goto _out; + + if (!mmc) { + printf("%s() %d: not valid emmc %d\n", __func__, __LINE__, dev); + ret = -1; + goto _out; + } + /* make sure mmc is initilized! */ + ret = mmc_init(mmc); + if (ret) { + printf("%s() %d: emmc %d init %d\n", __func__, __LINE__, dev, ret); + ret = -2; + goto _out; + } + + blk_shift = ffs(mmc->read_bl_len) -1; + /* erase bootloader in user/boot0/boot1 */ + for (i = 0; i < count; i++) { + if (map & (0x1 << i)) { + if (!blk_select_hwpart_devnum(UCLASS_MMC, 1, i)) { + lbaint_t start = 0, blkcnt; + + blkcnt = mmc->capacity >> blk_shift; + if (0 == i) { + struct partitions *part_info; + /* get info by partition */ + part_info = find_mmc_partition_by_name(MMC_BOOT_NAME); + if (part_info == NULL) { + printf("%s() %d: error!!\n", __func__, __LINE__); + /* fixme, do somthing! */ + continue; + } else { + start = part_info->offset>> blk_shift; + blkcnt = part_info->size>> blk_shift; + if (1) { //cpu_id.family_id >= MESON_CPU_MAJOR_ID_GXL) { + start = GXL_START_BLK; + blkcnt -= GXL_START_BLK; + } + } + } +/* some customer may use boot1 higher 2M as private data. */ +#ifdef CONFIG_EMMC_BOOT1_TOUCH_REGION + if (2 == i && CONFIG_EMMC_BOOT1_TOUCH_REGION <= mmc->capacity) { + blkcnt = CONFIG_EMMC_BOOT1_TOUCH_REGION >> blk_shift; + } +#endif/* CONFIG_EMMC_BOOT1_TOUCH_REGION */ +#ifdef CONFIG_AML_GPT + if (i == 0) + continue; +#endif + printf("Erasing blocks " LBAFU " to " LBAFU " @ %s\n", + start, blkcnt, partname[i]); + n = blk_derase(mmc_get_blk_desc(mmc), start, blkcnt); + if (n != 0) { + printf("mmc erase %s failed\n", partname[i]); + ret = -3; + break; + } + } else + printf("%s() %d: switch dev %d to %s fail\n", + __func__, __LINE__, dev, partname[i]); + } + } + /* try to switch back to user. */ + blk_select_hwpart(mmc->dev, 0); + +_out: + return ret; +} + +/* + write bootloader on user/boot0/boot1 which indicate by map. + bit 0: user + bit 1: boot0 + bit 2: boot1 +*/ +int amlmmc_write_bootloader(int dev, int map, unsigned int size, const void *src) +{ + int ret = 0, i, count = 3; + unsigned long n; + char *partname[3] = {"user", "boot0", "boot1"}; + struct mmc *mmc = find_mmc_device(dev); + lbaint_t start = GXB_START_BLK, blkcnt; + //cpu_id_t cpu_id = get_cpu_id(); + + /* do nothing */ + if (0 == map) + goto _out; + + if (!mmc) { + printf("%s() %d: not valid emmc %d\n", __func__, __LINE__, dev); + ret = -1; + goto _out; + } + /* make sure mmc is initilized! */ + ret = mmc_init(mmc); + if (ret) { + printf("%s() %d: emmc %d init %d\n", __func__, __LINE__, dev, ret); + ret = -2; + goto _out; + } + + if(1) //(cpu_id.family_id >= MESON_CPU_MAJOR_ID_GXL) + start = GXL_START_BLK; + blkcnt = (size + mmc->read_bl_len - 1) / mmc->read_bl_len; + + /* erase bootloader in user/boot0/boot1 */ + for (i = 0; i < count; i++) { + if (map & (0x1 << i)) { + if (!blk_select_hwpart_devnum(UCLASS_MMC, 1, i)) { +/* some customer may use boot1 higher 2M as private data. */ +#ifdef CONFIG_EMMC_BOOT1_TOUCH_REGION + if (2 == i && CONFIG_EMMC_BOOT1_TOUCH_REGION <= size) { + printf("%s(), size %d exceeds TOUCH_REGION %d, skip\n", + __func__, size, CONFIG_EMMC_BOOT1_TOUCH_REGION); + break; + } +#endif /* CONFIG_EMMC_BOOT1_TOUCH_REGION */ +#ifdef CONFIG_AML_GPT + if (i == 0) + continue; +#endif + printf("Wrting blocks " LBAFU " to " LBAFU " @ %s\n", + start, blkcnt, partname[i]); + n = blk_dwrite(mmc_get_blk_desc(mmc), start, blkcnt, src); + if (n != blkcnt) { + printf("mmc write %s failed\n", partname[i]); + ret = -3; + break; + } + } else + printf("%s() %d: switch dev %d to %s fail\n", + __func__, __LINE__, dev, partname[i]); + } + } + /* try to switch back to user. */ + blk_select_hwpart(mmc->dev, 0); + +_out: + return ret; +} + +static int amlmmc_erase_in_dev(int argc, char *const argv[]) +{ + int dev = 0; + u64 cnt = 0, blk = 0, n = 0; + struct mmc *mmc; + + dev = simple_strtoul(argv[2], NULL, 10); + blk = simple_strtoull(argv[3], NULL, 16); + cnt = simple_strtoull(argv[4], NULL, 16); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + mmc = find_mmc_device(dev); + + if (!mmc) + return 1; + + printf("MMC erase: dev # %d, start_erase_address(in block) # %#llx,\ + several blocks # %lld will be erased ...\n ", + dev, blk, cnt); + + mmc_init(mmc); + + if (cnt != 0) + n = blk_derase(mmc_get_blk_desc(mmc), blk, cnt); + + printf("dev # %d, %s, several blocks erased %s\n", + dev, " ", (n == 0) ? "OK" : "ERROR"); + + return (n == 0) ? 0 : 1; +} + +static int amlmmc_erase_in_card(int argc, char *const argv[]) +{ + int dev = 0; + u64 cnt = 0, blk = 0, n = 0; + /*sz_byte =0;*/ + char *name = NULL; + u64 offset_addr = 0, size = 0; + struct mmc *mmc; + int tmp_shift; + + name = argv[2]; + dev = find_dev_num_by_partition_name (name); + offset_addr = simple_strtoull(argv[3], NULL, 16); + size = simple_strtoull(argv[4], NULL, 16); + mmc = find_mmc_device(dev); + + tmp_shift = ffs(mmc->read_bl_len) -1; + cnt = size >> tmp_shift; + blk = offset_addr >> tmp_shift; + /* sz_byte = size - (cnt<= part_info->size) { + printf("Start address out #%s# partition'address region,(addr_byte < 0x%llx)\n", + name, part_info->size); + return 1; + } + if ((offset_addr+size) > part_info->size) { + printf("End address exceeds #%s# partition,(offset = 0x%llx,size = 0x%llx)\n", + name, part_info->offset,part_info->size); + return 1; + } + get_off_size(mmc, name, offset_addr, size, &blk, &cnt, &sz_byte); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + + if (!mmc) + return 1; + + printf("MMC erase: dev # %d, start_erase_address(in block) # %#llx,\ + several blocks # %lld will be erased ...\n ", + dev, blk, cnt); + + mmc_init(mmc); + + if (cnt != 0) + n = blk_derase(mmc_get_blk_desc(mmc), blk, cnt); + + printf("dev # %d, %s, several blocks erased %s\n", + dev, argv[2], (n == 0) ? "OK" : "ERROR"); + return (n == 0) ? 0 : 1; +} + +static int amlmmc_erase_by_add(int argc, char *const argv[]) +{ + int ret = 0; + + if (argc != 5) + return CMD_RET_USAGE; + + if (isdigit(argv[2][0])) + ret = amlmmc_erase_in_dev(argc, argv); + else if (strcmp(argv[2], "card") == 0) + ret = amlmmc_erase_in_card(argc, argv); + else if (isstring(argv[2])) + ret = amlmmc_erase_in_part(argc, argv); + + return ret; +} + +static int amlmmc_erase_non_loader(int argc, char *const argv[]) +{ + int dev; + u32 n = 0; + int blk_shift; + u64 blk = 0, start_blk = 0; + struct partitions *part_info; + struct mmc *mmc; + + dev = 1; + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + mmc = find_mmc_device(dev); + + if (!mmc) + return 1; + + mmc_init(mmc); + + blk_shift = ffs(mmc->read_bl_len) -1; + part_info = find_mmc_partition_by_name(MMC_BOOT_NAME); + + if (part_info == NULL) { + start_blk = 0; + printf("no uboot partition for eMMC boot, just erase from 0\n"); + } + else + start_blk = (part_info->offset + part_info->size) >> blk_shift; + + if (emmckey_is_protected(mmc)) { + part_info = find_mmc_partition_by_name(MMC_RESERVED_NAME); + if (part_info == NULL) { + return 1; + } + blk = part_info->offset; + // it means: there should be other partitions before reserve-partition. + if (blk > 0) + blk -= PARTITION_RESERVED; + blk >>= blk_shift; + blk -= start_blk; + // (1) erase all the area before reserve-partition + if (blk > 0) + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, blk); + if (n == 0) { // not error + // (2) erase all the area after reserve-partition + start_blk = (part_info->offset + part_info->size + PARTITION_RESERVED) + >> blk_shift; + u64 erase_cnt = (mmc->capacity >> blk_shift) - start_blk; + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, erase_cnt); + } + } else { + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, 0); // erase the whole card + } + return (n == 0) ? 0 : 1; +} + +static int amlmmc_erase_single_part(int argc, char *const argv[]) +{ + char *name = NULL; + int dev; + u32 n = 0; + int blk_shift; + u64 cnt = 0, blk = 0; + struct partitions *part_info; + struct mmc *mmc; + name = argv[2]; + dev = find_dev_num_by_partition_name(name); + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + mmc = find_mmc_device(dev); + + if (!mmc) + return 1; + + mmc_init(mmc); + + blk_shift = ffs(mmc->read_bl_len) -1; + if (emmckey_is_protected(mmc) + && (strncmp(name, MMC_RESERVED_NAME, sizeof(MMC_RESERVED_NAME)) == 0x00)) { + printf("\"%s-partition\" is been protecting and should no be erased!\n", + MMC_RESERVED_NAME); + return 1; + } + + part_info = find_mmc_partition_by_name(name); + if (part_info == NULL) { + return 1; + } + + blk = part_info->offset >> blk_shift; + if (emmc_cur_partition && !strncmp(name, "bootloader", strlen("bootloader"))) + cnt = 0; + else + cnt = part_info->size >> blk_shift; + n = blk_derase(mmc_get_blk_desc(mmc), blk, cnt); + + return (n == 0) ? 0 : 1; +} + +static int amlmmc_erase_whole(int argc, char *const argv[]) +{ + char *name = NULL; + int dev; + u32 n = 0; + int blk_shift; + //u64 cnt = 0, + u64 blk = 0, start_blk = 0; + struct partitions *part_info; + struct mmc *mmc; + int map; + + name = "logo"; + dev = find_dev_num_by_partition_name(name); + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + mmc_init(mmc); + blk_shift = ffs(mmc->read_bl_len) -1; + start_blk = 0; + + if (emmckey_is_protected(mmc)) { + part_info = find_mmc_partition_by_name(MMC_RESERVED_NAME); + if (part_info == NULL) { + return 1; + } + blk = part_info->offset; + // it means: there should be other partitions before reserve-partition. + if (blk > 0) + blk -= PARTITION_RESERVED; + blk >>= blk_shift; + blk -= start_blk; + // (1) erase all the area before reserve-partition + if (blk > 0) + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, blk); + if (n == 0) { // not error + // (2) erase all the area after reserve-partition + start_blk = (part_info->offset + part_info->size + PARTITION_RESERVED) + >> blk_shift; + u64 erase_cnt = (mmc->capacity >> blk_shift) - start_blk; + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, erase_cnt); + } + } else { + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, 0); // erase the whole card + } + map = AML_BL_BOOT; + if (n == 0) + n = amlmmc_erase_bootloader(dev, map); + if (n) + printf("erase bootloader in boot partition failed\n"); + return (n == 0) ? 0 : 1; +} + +static int amlmmc_erase_non_cache(int arc, char *const argv[]) +{ + char *name = NULL; + int dev; + u32 n = 0; + int blk_shift; + u64 blk = 0, start_blk = 0; + struct partitions *part_info; + struct mmc *mmc; + int map; + + name = "logo"; + dev = find_dev_num_by_partition_name(name); + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + mmc_init(mmc); + blk_shift = ffs(mmc->read_bl_len) -1; + if (emmckey_is_protected(mmc)) { + part_info = find_mmc_partition_by_name(MMC_RESERVED_NAME); + if (part_info == NULL) { + return 1; + } + + blk = part_info->offset; + // it means: there should be other partitions before reserve-partition. + if (blk > 0) { + blk -= PARTITION_RESERVED; + } + blk >>= blk_shift; + blk -= start_blk; + // (1) erase all the area before reserve-partition + if (blk > 0) { + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, blk); + // printf("(1) erase blk: 0 --> %llx %s\n", blk, (n == 0) ? "OK" : "ERROR"); + } + if (n == 0) { // not error + // (2) erase all the area after reserve-partition + part_info = find_mmc_partition_by_name(MMC_CACHE_NAME); + if (part_info == NULL) { + return 1; + } + start_blk = (part_info->offset + part_info->size + PARTITION_RESERVED) + >> blk_shift; + u64 erase_cnt = (mmc->capacity >> blk_shift) - start_blk; + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, erase_cnt); + } + } else { + n = blk_derase(mmc_get_blk_desc(mmc), start_blk, 0); // erase the whole card + } + map = AML_BL_BOOT; + if (n == 0) { + n = amlmmc_erase_bootloader(dev, map); + if (n) + printf("erase bootloader in boot partition failed\n"); + } + return (n == 0) ? 0 : 1; +} + +static int amlmmc_erase_dev(int argc, char *const argv[]) +{ + return amlmmc_erase_whole(argc, argv); +} + +static int amlmmc_erase_allbootloader(int argc, char*const argv[]) +{ + int map; + int rc; + char *name = NULL; + int dev; + map = AML_BL_ALL; + + name = "bootloader"; + dev = find_dev_num_by_partition_name(name); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + rc = amlmmc_erase_bootloader(dev, map); + return rc; +} + +static int amlmmc_erase_by_part(int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + + if (argc != 3) + return ret; + + if (isdigit(argv[2][0])) + ret = amlmmc_erase_dev(argc, argv); + else if (strcmp(argv[2], "whole") == 0) + ret = amlmmc_erase_whole(argc, argv); + else if (strcmp(argv[2], "non_cache") == 0) + ret = amlmmc_erase_non_cache(argc, argv); + else if (strcmp(argv[2], "non_loader") == 0) + ret = amlmmc_erase_non_loader(argc, argv); + else if (strcmp(argv[2], "allbootloader") == 0) + ret = amlmmc_erase_allbootloader(argc, argv); + else + ret = amlmmc_erase_single_part(argc, argv); + return ret; +} + +static int do_amlmmc_erase(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + + if (argc == 3) + ret = amlmmc_erase_by_part(argc, argv); + else if (argc == 5) + ret = amlmmc_erase_by_add(argc, argv); + + return ret; +} + +static int amlmmc_write_in_part(int argc, char *const argv[]) +{ + int dev; + void *addr = NULL; + u64 cnt = 0, n = 0, blk = 0, sz_byte = 0; + char *name = NULL; + u64 offset = 0, size = 0; + //cpu_id_t cpu_id = get_cpu_id(); + struct mmc *mmc; + + name = argv[2]; + if (strcmp(name, "bootloader") == 0) + dev = CONFIG_SYS_MMC_BOOT_DEV; + else + dev = find_dev_num_by_partition_name (name); + addr = (void *)simple_strtoul(argv[3], NULL, 16); + offset = simple_strtoull(argv[4], NULL, 16); + size = simple_strtoull(argv[5], NULL, 16); + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + + if (strcmp(name, "bootloader") == 0) { + cnt = UBOOT_SIZE; + if (1) { //(cpu_id.family_id >= MESON_CPU_MAJOR_ID_GXL) { + blk = GXL_START_BLK; + cnt -= GXL_START_BLK; + } + else + blk = GXB_START_BLK; + } else + get_off_size(mmc, name, offset, size, &blk, &cnt, &sz_byte); + + mmc_init(mmc); + n = blk_dwrite(mmc_get_blk_desc(mmc), blk, cnt, addr); + //write sz_byte bytes + if ((n == cnt) && (sz_byte != 0)) { + // printf("sz_byte=%#llx bytes\n",sz_byte); + void *addr_tmp = malloc(mmc->write_bl_len); + void *addr_byte = (void*)(addr+cnt*(mmc->write_bl_len)); + ulong start_blk = blk+cnt; + + if (addr_tmp == NULL) { + printf("mmc write: malloc fail\n"); + return 1; + } + + if (blk_dread(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // read 1 block + free(addr_tmp); + printf("mmc read 1 block fail\n"); + return 1; + } + + memcpy(addr_tmp, addr_byte, sz_byte); + if (blk_dwrite(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // write 1 block + free(addr_tmp); + printf("mmc write 1 block fail\n"); + return 1; + } + free(addr_tmp); + } + //printf("%#llx blocks , %#llx bytes written: %s\n", n, sz_byte, (n==cnt) ? "OK" : "ERROR"); + return (n == cnt) ? 0 : 1; +} + +static int amlmmc_write_in_card(int argc, char *const argv[]) +{ + int dev; + void *addr = NULL; + u64 cnt = 0, n = 0, blk = 0, sz_byte = 0; + char *name = NULL; + u64 offset = 0, size = 0; + struct mmc *mmc; + + name = argv[2]; + dev = find_dev_num_by_partition_name (name); + addr = (void *)simple_strtoul(argv[3], NULL, 16); + offset = simple_strtoull(argv[4], NULL, 16); + size = simple_strtoull(argv[5], NULL, 16); + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + + int blk_shift = ffs( mmc->read_bl_len) -1; + cnt = size >> blk_shift; + blk = offset >> blk_shift; + sz_byte = size - (cnt<write_bl_len); + void *addr_byte = (void*)(addr+cnt*(mmc->write_bl_len)); + ulong start_blk = blk+cnt; + + if (addr_tmp == NULL) { + printf("mmc write: malloc fail\n"); + return 1; + } + + if (blk_dread(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // read 1 block + free(addr_tmp); + printf("mmc read 1 block fail\n"); + return 1; + } + + memcpy(addr_tmp, addr_byte, sz_byte); + if (blk_dwrite(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // write 1 block + free(addr_tmp); + printf("mmc write 1 block fail\n"); + return 1; + } + free(addr_tmp); + } + //printf("%#llx blocks , %#llx bytes written: %s\n", n, sz_byte, (n==cnt) ? "OK" : "ERROR"); + return (n == cnt) ? 0 : 1; +} + +static int amlmmc_write_in_dev(int argc, char *const argv[]) +{ + int dev; + void *addr = NULL; + u64 cnt = 0, n = 0, blk = 0; + struct mmc *mmc; + dev = simple_strtoul(argv[2], NULL, 10); + addr = (void *)simple_strtoul(argv[3], NULL, 16); + blk = simple_strtoull(argv[4], NULL, 16); + cnt = simple_strtoull(argv[5], NULL, 16); + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + + //printf("MMC write: dev # %d, block # %#llx, count # %#llx ... ", + //dev, blk, cnt); + + mmc_init(mmc); + + n = blk_dwrite(mmc_get_blk_desc(mmc), blk, cnt, addr); + return (n == cnt) ? 0 : 1; +} + +static int do_amlmmc_write(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + int ret = 0; + if (argc != 6) + return CMD_RET_USAGE; + + if (isdigit(argv[2][0])) + ret = amlmmc_write_in_dev(argc, argv); + else if (strcmp(argv[2], "card") == 0) + ret = amlmmc_write_in_card(argc, argv); + else if (isstring(argv[2])) + ret = amlmmc_write_in_part(argc, argv); + + return ret; +} + +static int amlmmc_read_in_dev(int argc, char *const argv[]) +{ + int dev; + void *addr = NULL; + u64 cnt =0, n = 0, blk = 0; + struct mmc *mmc; + + dev = simple_strtoul(argv[2], NULL, 10); + addr = (void *)simple_strtoul(argv[3], NULL, 16); + blk = simple_strtoull(argv[4], NULL, 16); + cnt = simple_strtoull(argv[5], NULL, 16); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + n = blk_dread(mmc_get_blk_desc(mmc), blk, cnt, addr); + return (n == cnt) ? 0 : 1; +} + +static int amlmmc_read_in_card(int argc, char *const argv[]) +{ + int dev; + void *addr = NULL; + //u32 flag =0; + u64 cnt =0, n = 0, blk = 0, sz_byte = 0; + char *name = NULL; + u64 offset = 0, size = 0; + int blk_shift; + struct mmc *mmc; + void *addr_tmp; + void *addr_byte; + ulong start_blk; + + name = argv[2]; + dev = find_dev_num_by_partition_name (name); + addr = (void *)simple_strtoul(argv[3], NULL, 16); + size = simple_strtoull(argv[5], NULL, 16); + offset = simple_strtoull(argv[4], NULL, 16); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + + blk_shift = ffs( mmc->read_bl_len) - 1; + cnt = size >> blk_shift; + blk = offset >> blk_shift; + sz_byte = size - (cnt<read_bl_len); + addr_byte = (void *)(addr+cnt*(mmc->read_bl_len)); + start_blk = blk+cnt; + if (addr_tmp == NULL) { + printf("mmc read: malloc fail\n"); + return 1; + } + if (blk_dread(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // read 1 block + free(addr_tmp); + printf("mmc read 1 block fail\n"); + return 1; + } + memcpy(addr_byte, addr_tmp, sz_byte); + free(addr_tmp); + } + return (n == cnt) ? 0 : 1; +} + +static int amlmmc_read_in_part(int argc, char *const argv[]) +{ + int dev; + void *addr = NULL; + u64 cnt = 0, n = 0, blk = 0, sz_byte = 0; + char *name = NULL; + u64 offset = 0, size = 0; + struct mmc *mmc; + void *addr_tmp; + void *addr_byte; + ulong start_blk; + + name = argv[2]; + dev = find_dev_num_by_partition_name (name); + addr = (void *)simple_strtoul(argv[3], NULL, 16); + offset = simple_strtoull(argv[4], NULL, 16); + size = simple_strtoull(argv[5], NULL, 16); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + + get_off_size(mmc, name, offset, size, &blk, &cnt, &sz_byte); + mmc_init(mmc); + n = blk_dread(mmc_get_blk_desc(mmc), blk, cnt, addr); + + //read sz_byte bytes + if ((n == cnt) && (sz_byte != 0)) { + /*printf("sz_byte=%#llx bytes\n",sz_byte);*/ + addr_tmp = malloc(mmc->read_bl_len); + addr_byte = (void *)(addr+cnt*(mmc->read_bl_len)); + start_blk = blk+cnt; + + if (addr_tmp == NULL) { + printf("mmc read: malloc fail\n"); + return 1; + } + + if (blk_dread(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // read 1 block + free(addr_tmp); + printf("mmc read 1 block fail\n"); + return 1; + } + + memcpy(addr_byte, addr_tmp, sz_byte); + free(addr_tmp); + } + return (n == cnt) ? 0 : 1; +} + +static int do_amlmmc_read(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + int ret = 0; + if (argc != 6) + return CMD_RET_USAGE; + + if (isdigit(argv[2][0])) + ret = amlmmc_read_in_dev(argc, argv); + else if (strcmp(argv[2], "card") == 0) + ret = amlmmc_read_in_card(argc, argv); + else if (isstring(argv[2])) + ret = amlmmc_read_in_part(argc, argv); + + return ret; +} + +static int do_amlmmc_env(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + printf("herh\n"); + env_relocate(); + return 0; +} + +static int do_amlmmc_list(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + print_mmc_devices('\n'); + return 0; +} + +static int do_amlmmc_size(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + char *name; + uint64_t* addr = NULL; + int dev; + struct mmc *mmc = NULL; + + if (argc != 4) + return CMD_RET_USAGE; + + name = argv[2]; + addr = (uint64_t *)simple_strtoul(argv[3], NULL, 16); + if (!strcmp(name, "wholeDev")) { + dev = CONFIG_SYS_MMC_BOOT_DEV; + mmc = find_mmc_device(dev); + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + mmc_init(mmc); + + *addr = mmc->capacity >> 9; // unit: 512 bytes + return 0; + } + return get_partition_size((unsigned char *)name, addr); +} + +static int amlmmc_get_ext_csd(int argc, char *const argv[]) +{ + int ret= 0; + u8 ext_csd[512] = {0}; + int dev, byte; + struct mmc *mmc; + + if (argc != 4) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + byte = simple_strtoul(argv[3], NULL, 10); + mmc = find_mmc_device(dev); + + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + mmc_init(mmc); + ret = mmc_get_ext_csd(mmc, ext_csd); + printf("read EXT_CSD byte[%d] val[0x%x] %s\n", + byte, ext_csd[byte], (ret == 0) ? "ok" : "fail"); + ret = ret || ret; + return ret; +} + +static int amlmmc_set_ext_csd(int argc, char *const argv[]) +{ + int ret = 0; + int dev, byte; + struct mmc *mmc; + int val; + + if (argc != 5) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + byte = simple_strtoul(argv[3], NULL, 10); + val = simple_strtoul(argv[4], NULL, 16); + if ((byte > 191) || (byte < 0)) { + printf("byte is not able to write!\n"); + return 1; + } + + mmc = find_mmc_device(dev); + + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + + mmc_init(mmc); + + ret = mmc_set_ext_csd(mmc, byte, val); + printf("write EXT_CSD byte[%d] val[0x%x] %s\n", + byte, val, (ret == 0) ? "ok" : "fail"); + ret =ret || ret; + return ret; +} + +static int do_amlmmc_ext_csd(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + + if (argc == 4) + ret = amlmmc_get_ext_csd(argc,argv); + else if (argc == 5) + ret = amlmmc_set_ext_csd(argc,argv); + + return ret; +} + +static int do_amlmmc_switch(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + int rc = 0; + int dev; + struct mmc *mmc; + + if (argc != 4) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + mmc = find_mmc_device(dev); + + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + + mmc_init(mmc); + printf("mmc switch to "); + + if (strcmp(argv[3], "boot0") == 0) { + rc = mmc_switch_part(mmc, 1); + if (rc == 0) { + emmc_cur_partition = 1; + printf("boot0 success\n"); + } else { + printf("boot0 failed\n"); + } + } + else if(strcmp(argv[3], "boot1") == 0) { + rc = mmc_switch_part(mmc, 2); + if (rc == 0) { + emmc_cur_partition = 2; + printf("boot1 success\n"); + } else { + printf("boot1 failed\n"); + } + } + else if(strcmp(argv[3], "user") == 0) { + rc = mmc_switch_part(mmc, 0); + if (rc == 0) { + emmc_cur_partition = 0; + printf("user success\n"); + } else { + printf("user failed\n"); + } + } +#ifdef CONFIG_SUPPORT_EMMC_RPMB + else if(strcmp(argv[3], "rpmb") == 0) { + rc = mmc_switch_part(mmc, 3); + if (rc == 0) { + emmc_cur_partition = 3; + printf("rpmb success\n"); + } else { + printf("rpmb failed\n"); + } + } +#endif + else + printf("%s failed\n", argv[3]); + return rc; +} + +static int do_amlmmc_controller(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + /*int dev; + struct mmc *mmc; + struct aml_card_sd_info *aml_priv; + struct sd_emmc_global_regs *sd_emmc_reg; + + if (argc != 3) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + mmc = find_mmc_device(dev); + + if (!mmc) + return 1; + + aml_priv = mmc->priv; + sd_emmc_reg = aml_priv->sd_emmc_reg; + + printf("sd_emmc_reg->gclock = 0x%x\n", sd_emmc_reg->gclock); + printf("sd_emmc_reg->gdelay = 0x%x\n", sd_emmc_reg->gdelay); + printf("sd_emmc_reg->gadjust = 0x%x\n", sd_emmc_reg->gadjust); + printf("sd_emmc_reg->gcalout = 0x%x\n", sd_emmc_reg->gcalout); + if (!mmc->has_init) { + printf("mmc dev %d has not been initialed\n", dev); + return 1; + } + printf("sd_emmc_reg->gstart = 0x%x\n", sd_emmc_reg->gstart); + printf("sd_emmc_reg->gcfg = 0x%x\n", sd_emmc_reg->gcfg); + printf("sd_emmc_reg->gstatus = 0x%x\n", sd_emmc_reg->gstatus); + printf("sd_emmc_reg->girq_en = 0x%x\n", sd_emmc_reg->girq_en); + printf("sd_emmc_reg->gcmd_cfg = 0x%x\n", sd_emmc_reg->gcmd_cfg); + printf("sd_emmc_reg->gcmd_arg = 0x%x\n", sd_emmc_reg->gcmd_arg); + printf("sd_emmc_reg->gcmd_dat = 0x%x\n", sd_emmc_reg->gcmd_dat); + printf("sd_emmc_reg->gcmd_rsp0 = 0x%x\n", sd_emmc_reg->gcmd_rsp0); + printf("sd_emmc_reg->gcmd_rsp1 = 0x%x\n", sd_emmc_reg->gcmd_rsp1); + printf("sd_emmc_reg->gcmd_rsp2 = 0x%x\n", sd_emmc_reg->gcmd_rsp2); + printf("sd_emmc_reg->gcmd_rsp3 = 0x%x\n", sd_emmc_reg->gcmd_rsp3);*/ + return 0; +} + +static int do_amlmmc_response(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + /*int dev; + struct mmc *mmc; + struct aml_card_sd_info *aml_priv; + struct sd_emmc_global_regs *sd_emmc_reg; + + if (argc != 3) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + mmc = find_mmc_device(dev); + + if (!mmc) + return 1; + if (!mmc->has_init) { + printf("mmc dev %d has not been initialed\n", dev); + return 1; + } + + aml_priv = mmc->priv; + sd_emmc_reg = aml_priv->sd_emmc_reg; + + printf("last cmd = %d, response0 = 0x%x\n", + (sd_emmc_reg->gcmd_cfg & 0x3f), sd_emmc_reg->gcmd_rsp0);*/ + return 0; +} + +static int do_amlmmc_status(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + int rc = 0; + int dev; + struct mmc *mmc; + + if (argc != 3) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + mmc = find_mmc_device(dev); + + if (!mmc) + return 1; + if (!mmc->has_init) { + printf("mmc dev %d has not been initialed\n", dev); + return 1; + } + rc = mmc_read_status(mmc, 1000); + if (rc) + return 1; + else + return 0; +} + +static int do_amlmmc_part(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int dev; + struct blk_desc *mmc_dev; + struct mmc *mmc; + + if (argc != 3) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + mmc = find_mmc_device(dev); + + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + mmc_init(mmc); + mmc_dev = mmc_get_blk_desc(mmc); + if (mmc_dev != NULL && + mmc_dev->type != DEV_TYPE_UNKNOWN) { + part_print(mmc_dev); + return 0; + } + puts("get mmc type error!\n"); + return 1; +} + +static int do_amlmmc_rescan(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int dev; + struct mmc *mmc; + + if (argc != 3) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + + if (dev < 0) { + printf("Cannot find dev.\n"); + return 1; + } + + mmc = find_mmc_device(dev); + + if (!mmc) + return 1; + mmc->has_init =0; + return mmc_init(mmc); +} + +#ifdef CONFIG_SECURITYKEY +static int do_amlmmc_key(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + struct mmc *mmc; + int dev; + + //char *name = "logo"; + dev = CONFIG_SYS_MMC_BOOT_DEV; + mmc = find_mmc_device(dev); + if (!mmc) { + printf("device %d is invalid\n",dev); + return 1; + } + //mmc->key_protect = 0; +#ifdef CONFIG_STORE_COMPATIBLE + info_disprotect |= DISPROTECT_KEY; //disprotect + printf("emmc disprotect key\n"); +#endif + return 0; +} +#endif + +static int set_write_prot(struct mmc *mmc, u64 start) +{ + struct mmc_cmd cmd; + int err; + + cmd.cmdidx = MMC_CMD_SET_WRITE_PROTECT; + cmd.cmdarg = start; + cmd.resp_type = MMC_RSP_R1b; + + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + goto err_out; + + return 0; + +err_out: + puts("Failed: mmc write protect failed\n"); + return err; +} + +static int set_us_wp_en(struct mmc *mmc, u8 *ext_csd, u8 wp_enable_type) +{ + u8 index = EXT_CSD_USER_WP; + u8 user_wp = ext_csd[index]; + user_wp = user_wp & (~WP_ENABLE_MASK); + user_wp = user_wp | wp_enable_type; + int err = 0; + err = mmc_set_ext_csd(mmc, index, user_wp); + if (err) + printf("Failed: set write protect enable failed\n"); + return err; +} + +static int mmc_set_us_perm_wp_dis(struct mmc *mmc, u8 *ext_csd) +{ + u8 usr_wp = ext_csd[EXT_CSD_USER_WP]; + u8 perm_disable_bit = US_PERM_WP_DIS_BIT; + + int err; + if (usr_wp & perm_disable_bit) + return 0; + + usr_wp = usr_wp | perm_disable_bit; + err = mmc_set_ext_csd(mmc, EXT_CSD_USER_WP, usr_wp); + if (err) { + printf("Failed: set permanent write protect disable failed\n"); + return 1; + } + return 0; +} + +static int mmc_is_us_pwr_wp_dis(u8 user_wp) +{ + return user_wp & US_PWR_WP_DIS_BIT; +} + +static int mmc_is_us_perm_wp_dis(u8 user_wp) +{ + return user_wp & US_PERM_WP_DIS_BIT; +} + +static int check_wp_type(u8 *addr, u8 wp_type, u64 set_protect_cnt) +{ + u8 type_mask = WP_TYPE_MASK; + u64 cnt = set_protect_cnt; + u8 times = 0; + u8 index = 7; + u8 cur_group_wp_type = addr[index]; + + while (cnt != 0) { + if (wp_type != ((type_mask)&(cur_group_wp_type))) { + return 1; + } + if (times == 3) { + times = 0; + index--; + cur_group_wp_type = addr[index]; + } + else { + cur_group_wp_type = cur_group_wp_type >> 2; + times++; + } + cnt--; + } + return 0; +} + +static int set_register_to_temporary(struct mmc *mmc, u8 *ext_csd) +{ + int err; + u8 wp_enable_type = WP_TEMPORARY_EN_BIT; + err = set_us_wp_en(mmc, ext_csd, wp_enable_type); + if (err) + printf("Failed: set temporary write protect failed\n"); + return err; +} + +static int set_register_to_pwr(struct mmc *mmc, u8 *ext_csd) +{ + int err; + u8 user_wp = ext_csd[EXT_CSD_USER_WP]; + u8 wp_enable_type = WP_POWER_ON_EN_BIT; + if (mmc_is_us_pwr_wp_dis(user_wp)) { + printf("Failed: power on protection had been disabled\n"); + return 1; + } + + err = mmc_set_us_perm_wp_dis(mmc, ext_csd); + if (err) { + printf("Failed: set permanent protection diable failed\n"); + return 1; + } + + err = set_us_wp_en(mmc, ext_csd, wp_enable_type); + if (err) { + printf("Failed: set power on write protect enable failed\n"); + return 1; + } + return 0; +} + +static int set_register_to_perm(struct mmc *mmc, u8 *ext_csd) +{ + int err; + u8 wp_enable_type = WP_PERM_EN_BIT; + u8 user_wp = ext_csd[EXT_CSD_USER_WP]; + + if (mmc_is_us_perm_wp_dis(user_wp)) { + printf("Failed: Permanent protection had been disabled\n"); + return 1; + } + + err = set_us_wp_en(mmc, ext_csd, wp_enable_type); + if (err) { + printf("Failed: set permanent write protect enable failed\n"); + return 1; + } + return 0; +} + +static int set_wp_register(struct mmc *mmc, u8 *ext_csd, u8 wp_type) +{ + int ret = 1; + if (wp_type == WP_POWER_ON_TYPE) + ret = set_register_to_pwr(mmc, ext_csd); + else if (wp_type == WP_PERMANENT_TYPE) + ret = set_register_to_perm(mmc, ext_csd); + else if (wp_type == WP_TEMPORARY_TYPE) + ret = set_register_to_temporary(mmc, ext_csd); + return ret; +} + +static u64 write_protect_group_size(struct mmc *mmc, u8 *ext_csd) +{ + int erase_group_def = ext_csd[EXT_CSD_ERASE_GROUP_DEF]; + u64 write_protect_group_size; + int wp_grp_size = mmc->csd[2] & WP_GRP_SIZE_MASK; + int hc_wp_grp_size = ext_csd[EXT_CSD_HC_WP_GRP_SIZE]; + + if (erase_group_def == 0) + write_protect_group_size = (wp_grp_size + 1) * mmc->erase_grp_size; + else + write_protect_group_size = hc_wp_grp_size * mmc->erase_grp_size; + + return write_protect_group_size; +} + +int is_write_protect_valid(u8 *ext_csd) +{ + u8 class_6_ctrl = ext_csd[EXT_CSD_CLASS_6_CTRL]; + if (class_6_ctrl == 0) + return 1; + return 0; +} + +static int compute_write_protect_range(struct mmc *mmc, char *name, + u8 *ext_csd, u64 *wp_grp_size_addr, u64 *start_addr, u64 *end) +{ + int blk_shift; + struct partitions *part_info; + u64 cnt; + u64 start = *start_addr; + u64 align_start = *start_addr; + u64 wp_grp_size = *wp_grp_size_addr; + u64 group_num ; + u64 partition_end; + + wp_grp_size = write_protect_group_size(mmc, ext_csd); + + blk_shift = ffs(mmc->read_bl_len) -1; + + part_info = find_mmc_partition_by_name(name); + if (part_info == NULL) + return 1; + + start = part_info->offset >> blk_shift; + printf("start:%d wp_grp_size:%d",(int)start,(int)wp_grp_size); + if ((start % wp_grp_size)) { + align_start = (start + wp_grp_size - 1) / wp_grp_size * wp_grp_size; + printf("Caution! The partition start address isn't' aligned" + "to group size\n" + "the start address is change from 0x%llx to 0x%llx\n", + start, align_start); + } else { + align_start = start; + } + if (emmc_cur_partition && !strncmp(name, "bootloader", strlen("bootloader"))) + cnt =0; + else + cnt = part_info->size >> blk_shift; + if (cnt < wp_grp_size) { + printf("Caution: The partition size is 0x%llx sector smaller than " + "the group size 0x%llx sector, \n" + "so the partition can't be protect\n", cnt, wp_grp_size); + return 1; + } + + *start_addr = align_start; + *wp_grp_size_addr = wp_grp_size; + partition_end = start + cnt - 1; + group_num = (cnt - (align_start - start)) / wp_grp_size; + *end = align_start + group_num * wp_grp_size - 1; + + if (partition_end != *end) { + printf("Caution! The boundary of partition isn't aligned with write " + "protected group,\n" + "so the write protected boundry of the " + "partition is 0x%llx, rather than 0x%llx\n", + *end, partition_end); + } + + printf("write_protect group size is 0x%llx sector\n", wp_grp_size); + printf("The %s partition write protect group number is %lld\n", name, group_num); +#ifdef WP_DEBUG + printf("the start address is 0x%llx, group size is 0x%llx, end is 0x%llx\n", + *start_addr, *wp_grp_size_addr, *end); +#endif + return 0; +} + +static int send_wp_prot_type(struct mmc *mmc, void *dst, u64 blk) +{ + struct mmc_cmd cmd; + int err; + struct mmc_data data; + + cmd.cmdidx = MMC_CMD_SEND_WRITE_PROT_TYPE; + cmd.cmdarg = blk; + cmd.resp_type = MMC_RSP_R1; + + data.dest = dst; + data.blocks = 1; + data.blocksize = 8; + data.flags = MMC_DATA_READ; + + err = mmc_send_cmd(mmc, &cmd, &data); + if (err) + goto err_out; + + return 0; + +err_out: + puts("Failed: mmc send write protect type failed\n"); + return err; +} + +static int is_wp_set_failed(struct mmc *mmc, u8 wp_type, u64 start, u64 group_cnt) +{ + u8 *addr = NULL; + u8 err = 0; + + addr = malloc(sizeof(u64)); + if (addr == NULL) { + printf("Failed: malloc failed\n"); + return 1; + } + + err = send_wp_prot_type(mmc, addr, start); + if (err) + goto err_out; + +#ifdef WP_DEBUG + int i; + for (i = 0; i < 8; i++) + printf("write_protect status is %x\n", ((u8 *)addr)[i]); +#endif + if (check_wp_type(addr, wp_type, group_cnt)) { + printf("Failed: Write Protection set failed\n"); + goto err_out; + } + return 0; + +err_out: + free(addr); + return 1; +} + +static int send_part_wp_type(struct mmc *mmc, char *name) +{ + int err = 0; + u8 ext_csd[512] = {0}; + u64 wp_grp_size, start, part_end; + u64 group_start; + void *addr = NULL; + int i; + int ret; + + ret = mmc_get_ext_csd(mmc, ext_csd); + if (ret) { + printf("Failed: get ext_csd failed\n"); + return 1; + } + + if (!is_write_protect_valid(ext_csd)) { + printf("Failed: CLASS_6_CTRL isn't '0' " + "write protect process is invalid\n"); + return 1; + } + + addr = malloc(sizeof(u64)); + if (addr == NULL) { + printf("Failed: malloc failed\n"); + return 1; + } + + err = compute_write_protect_range(mmc, name, ext_csd, + &wp_grp_size, &start, &part_end); + if (err) + return 1; + + group_start = start; + + while ((group_start + wp_grp_size - 1) <= part_end) { + err = send_wp_prot_type(mmc, addr, group_start); + if (err) + return 1; + printf("The write protect type for the 32 groups after 0x%llx is: \n0x", + group_start); + for (i = 0; i < 8; i++) + printf("%02x", ((u8*)addr)[i]); + printf("\n"); + group_start += 32 * wp_grp_size; + } + return 0; +} + +static int send_add_wp_type(struct mmc *mmc, u64 start, u64 cnt) +{ + u8 ext_csd[512] = {0}; + u64 wp_grp_size = 0; + u64 part_end = 0; + u64 group_start; + u64 mmc_boundary; + int blk_shift; + void *addr = NULL; + int i; + int ret; + + ret = mmc_get_ext_csd(mmc, ext_csd); + if (ret) { + printf("Failed: get ext_csd failed\n"); + return 1; + } + + if (!is_write_protect_valid(ext_csd)) { + printf("Failed: CLASS_6_CTRL isn't '0' " + "write protect process is invalid\n"); + return 1; + } + + addr = malloc(sizeof(u64)); + if (addr == NULL) { + printf("Failed: malloc failed\n"); + return 1; + } + + wp_grp_size = write_protect_group_size(mmc, ext_csd); + + if ((start % wp_grp_size)) { + group_start = (start + wp_grp_size - 1) / wp_grp_size * wp_grp_size; + printf("Caution! The partition start address isn't' aligned" + "to group size\n" + "the start address is change from 0x%llx to 0x%llx\n", + start, group_start); + part_end = group_start + (cnt - 1) * wp_grp_size - 1; + printf("The write protect group number is 0x%llx, rather than 0x%lld\n", + cnt - 1, cnt); + } else { + group_start = start; + part_end = group_start + cnt * wp_grp_size - 1; + } + + blk_shift = ffs(mmc->read_bl_len) - 1; + mmc_boundary = mmc->capacity>>blk_shift; + + if ((part_end + 1) > mmc_boundary) { + printf("Error: the operation cross the boundary of mmc\n"); + return 1; + } + + while ((group_start + wp_grp_size - 1) <= part_end) { + ret = send_wp_prot_type(mmc, addr, group_start); + if (ret) + return 1; + printf("The write protect type for the 32 groups after 0x%llx is: \n0x", + group_start); + for (i = 0; i < 8; i++) + printf("%02x", ((u8*)addr)[i]); + printf("\n"); + group_start += 32 * wp_grp_size; + } + return 0; +} + +static int set_part_write_protect(struct mmc *mmc, u8 wp_type, char *name) +{ + int err = 0; + u8 ext_csd[512] = {0}; + u8 group_num = 32; + u64 wp_grp_size, start, part_end; + u64 group_start; + u64 check_group_start; + u64 set_protect_cnt = 0; + + err = mmc_get_ext_csd(mmc, ext_csd); + if (err) { + printf("Failed: get ext_csd failed\n"); + return 1; + } + + if (!is_write_protect_valid(ext_csd)) { + printf("Failed: CLASS_6_CTRL isn't '0' " + "write protect process is invalid\n"); + return 1; + } + + err = compute_write_protect_range(mmc, name, ext_csd, + &wp_grp_size, &start, &part_end); + if (err) + return 1; + + group_start = start; + err = set_wp_register(mmc, ext_csd, wp_type); + if (err) + return 1; + while ((group_start + wp_grp_size - 1) <= part_end) { + err = set_write_prot(mmc, group_start); + if (err) + return 1; + group_start += wp_grp_size; + set_protect_cnt++; +//check write protect type every 32 group + if (set_protect_cnt % 32 == 0) { + check_group_start = group_start - group_num * wp_grp_size; + err = is_wp_set_failed(mmc, wp_type, check_group_start, group_num); + if (err) + return 1; + } + } + + group_num = set_protect_cnt % 32; + check_group_start = group_start - group_num * wp_grp_size; + + if (group_num) { + err = is_wp_set_failed(mmc, wp_type, check_group_start, group_num); + if (err) + return 1; + } + + return 0; +} + +static int set_add_write_protect(struct mmc *mmc, u8 wp_type, u64 start, u64 cnt) +{ + int err = 0; + u8 ext_csd[512] = {0}; + int group_num = 32; + u64 wp_grp_size, part_end; + u64 group_start; + u64 check_group_start; + u64 set_protect_cnt = 0; + u64 mmc_boundary = 0; + int blk_shift; + err = mmc_get_ext_csd(mmc, ext_csd); + + if (err) { + printf("Failed: get ext_csd failed\n"); + return 1; + } + + if (!is_write_protect_valid(ext_csd)) { + printf("Failed: CLASS_6_CTRL isn't '0' " + "write protect process is invalid\n"); + return 1; + } + + if (err) + return 1; + + wp_grp_size = write_protect_group_size(mmc, ext_csd); + + if ((start % wp_grp_size)) { + group_start = (start + wp_grp_size - 1) / wp_grp_size * wp_grp_size; + printf("Caution! The partition start address isn't' aligned" + "to group size\n" + "the start address is change from 0x%llx to 0x%llx\n", + start, group_start); + part_end = group_start + (cnt - 1) * wp_grp_size - 1; + printf("The write protect group number is 0x%llx, rather than 0x%lld\n", + cnt - 1, cnt); + } else { + group_start = start; + part_end = group_start + cnt * wp_grp_size - 1; + } + + blk_shift = ffs(mmc->read_bl_len) - 1; + mmc_boundary = mmc->capacity>>blk_shift; + + if ((part_end + 1) > mmc_boundary) { + printf("Error: the operation cross the boundary of mmc\n"); + return 1; + } + + err = set_wp_register(mmc, ext_csd, wp_type); + if (err) + return 1; + + while ((group_start + wp_grp_size - 1) <= part_end) { + err = set_write_prot(mmc, group_start); + if (err) + return 1; + group_start += wp_grp_size; + set_protect_cnt++; +//check write protect type every 32 group + if (set_protect_cnt % 32 == 0) { + check_group_start = group_start - group_num * wp_grp_size; + err = is_wp_set_failed(mmc, wp_type, check_group_start, group_num); + if (err) + return 1; + } + } + + group_num = set_protect_cnt % 32; + check_group_start = group_start - group_num * wp_grp_size; + + if (group_num) { + err = is_wp_set_failed(mmc, wp_type, check_group_start, group_num); + if (err) + return 1; + } + + return 0; +} + +static int do_amlmmc_write_protect(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + struct mmc *mmc; + int dev = 1; + char *name = NULL; + char *wp_type_str = NULL; + u8 write_protect_type; + u64 start, cnt; + + if (argc > 5 || argc < 4) + return ret; + if (argc == 4) { + name = argv[2]; + wp_type_str = argv[3]; + dev = find_dev_num_by_partition_name(name); + if (dev < 0) { + printf("Error: Cannot find dev.\n"); + return CMD_RET_USAGE; + } + } else { + start = simple_strtoull(argv[2], NULL, 16); + cnt = simple_strtoull(argv[3], NULL, 0); + wp_type_str = argv[4]; + } + + mmc = find_mmc_device(dev); + + if (IS_SD(mmc)) { + mmc = find_mmc_device(~dev); + if (IS_SD(mmc)) { + printf("SD card can not be write protect\n"); + return 1; + } + } + + if (!mmc) + return 1; + + mmc_init(mmc); + if (!mmc) + return 1; + + if (strcmp(wp_type_str, "temporary") == 0) + write_protect_type = WP_TEMPORARY_TYPE; + else if (strcmp(wp_type_str, "power_on") == 0 ) + write_protect_type = WP_POWER_ON_TYPE; + else if (strcmp(wp_type_str, "permanent") == 0) + write_protect_type = WP_PERMANENT_TYPE; + else + return ret; + + if (argc == 4) + ret = set_part_write_protect(mmc, write_protect_type, name); + else + ret = set_add_write_protect(mmc, write_protect_type, start, cnt); + + return ret; +} + +static int clear_write_prot_per_group(struct mmc *mmc, u64 blk) +{ + struct mmc_cmd cmd; + int err; + + cmd.cmdidx = MMC_CMD_CLR_WRITE_PROT; + cmd.cmdarg = blk; + cmd.resp_type = MMC_RSP_R1b; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + return err; +} + +static int set_part_clear_wp(struct mmc *mmc, char *name) +{ + int err = 0; + u8 ext_csd[512] = {0}; + u8 group_num = 32; + u64 wp_grp_size, start, part_end; + u64 group_start; + u64 check_group_start; + u64 set_protect_cnt = 0; + u8 wp_type = WP_CLEAR_TYPE; + + err = mmc_get_ext_csd(mmc, ext_csd); + if (err) { + printf("get ext_csd failed\n"); + return 1; + } + + if (!is_write_protect_valid(ext_csd)) { + printf("CLASS_6_CTRL isn't '0' write protect process is invalid\n"); + return 1; + } + + err = compute_write_protect_range(mmc, name, ext_csd, + &wp_grp_size, &start, &part_end); + if (err) + return 1; + + group_start = start; +/* + if (!is_wp_type_temporary(ext_csd)) { + printf("The write protect can't be clear\n"); + return 1; + } +*/ + while ((group_start + wp_grp_size - 1) <= part_end) { + err = clear_write_prot_per_group(mmc, group_start); + if (err) { + printf("Error: The write protect can't be clear\n"); + return 1; + } + group_start += wp_grp_size; + set_protect_cnt++; +//check write protect type every 32 group + if (set_protect_cnt % 32 == 0) { + check_group_start = group_start - group_num * wp_grp_size; + err = is_wp_set_failed(mmc, wp_type, check_group_start, group_num); + if (err) + return 1; + } + } + + group_num = set_protect_cnt % 32; + check_group_start = group_start - group_num * wp_grp_size; + + if (group_num) { + err = is_wp_set_failed(mmc, wp_type, check_group_start, group_num); + if (err) + return 1; + } + + return 0; +} + +static int set_add_clear_wp(struct mmc *mmc, u64 start, u64 cnt) +{ + int err = 0; + u8 ext_csd[512] = {0}; + u8 group_num = 32; + u64 wp_grp_size, part_end; + u64 group_start; + u64 check_group_start; + u64 set_protect_cnt = 0; + u8 wp_type = WP_CLEAR_TYPE; + int blk_shift; + u64 mmc_boundary; + + err = mmc_get_ext_csd(mmc, ext_csd); + if (err) { + printf("get ext_csd failed\n"); + return 1; + } + + if (!is_write_protect_valid(ext_csd)) { + printf("CLASS_6_CTRL isn't '0' write protect process is invalid\n"); + return 1; + } + + wp_grp_size = write_protect_group_size(mmc, ext_csd); + + if ((start % wp_grp_size)) { + group_start = (start + wp_grp_size - 1) / wp_grp_size * wp_grp_size; + printf("Caution! The partition start address isn't' aligned" + "to group size\n" + "the start address is change from 0x%llx to 0x%llx\n", + start, group_start); + part_end = group_start + (cnt - 1) * wp_grp_size - 1; + printf("The write protect group number is 0x%llx, rather than 0x%lld\n", + cnt - 1, cnt); + } else { + group_start = start; + part_end = group_start + cnt * wp_grp_size - 1; + } + + blk_shift = ffs(mmc->read_bl_len) - 1; + mmc_boundary = mmc->capacity>>blk_shift; + + if ((part_end + 1) > mmc_boundary) { + printf("Error: the operation cross the boundary of mmc\n"); + return 1; + } + + while ((group_start + wp_grp_size - 1) <= part_end) { + err = clear_write_prot_per_group(mmc, group_start); + if (err) { + printf("Error: The write protect can't be clear\n"); + return 1; + } + group_start += wp_grp_size; + set_protect_cnt++; +//check write protect type every 32 group + if (set_protect_cnt % 32 == 0) { + check_group_start = group_start - group_num * wp_grp_size; + err = is_wp_set_failed(mmc, wp_type, check_group_start, group_num); + if (err) + return 1; + } + } + + group_num = set_protect_cnt % 32; + check_group_start = group_start - group_num * wp_grp_size; + + if (group_num) { + err = is_wp_set_failed(mmc, wp_type, check_group_start, group_num); + if (err) + return 1; + } + + return 0; +} + +static int do_amlmmc_clear_wp(struct cmd_tbl *cmdtp, int flag, int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + struct mmc *mmc; + int dev = 1; + char *name = NULL; + u64 start, cnt; + + if (argc < 3 || argc > 4) + return ret; + + if (argc == 3) { + name = argv[2]; + dev = find_dev_num_by_partition_name(name); + if (dev < 0) { + printf("Error: Cannot find dev.\n"); + return CMD_RET_USAGE; + } + } else { + start = simple_strtoull(argv[2], NULL, 16); + cnt = simple_strtoull(argv[3], NULL, 10); + } + + mmc = find_mmc_device(dev); + if (!mmc) + return 1; + + if (IS_SD(mmc)) { + mmc = find_mmc_device(~dev); + if (IS_SD(mmc)) { + printf("SD card can not be write protect\n"); + return 1; + } + } + + mmc_init(mmc); + if (!mmc) + return 1; + + if (argc == 3) + ret = set_part_clear_wp(mmc, name); + else + ret = set_add_clear_wp(mmc, start, cnt); + + return ret; +} + +static int send_write_prot_status_group(struct mmc *mmc, u64 blk) +{ + struct mmc_cmd cmd; + struct mmc_data data; + int err; + void *addr = NULL; + int i = 0; + addr = malloc(4*sizeof(u8)); + + if (addr == NULL) { + printf("Failed: malloc failed\n"); + return 1; + } + + cmd.cmdidx = MMC_CMD_SEND_WRITE_PROT; + cmd.cmdarg = blk; + cmd.resp_type = MMC_RSP_R1; + + data.dest = addr; + data.blocks = 1; + data.blocksize = 4; + data.flags = MMC_DATA_READ; + + err = mmc_send_cmd(mmc, &cmd, &data); + if (err) + goto err_out; + + printf("The write protect type for the 32 groups after 0x%llx is:\n0x", + blk); + for (i = 0 ; i < 4; i++) + printf("%02x", ((u8 *)addr)[i]); + printf("\n"); + + free(addr); + return 0; +err_out: + free(addr); + return 1; +} + +static int send_part_wp_status(struct mmc *mmc, char *name) +{ + int err = 0; + u8 ext_csd[512] = {0}; + u64 wp_grp_size, start, part_end; + u64 group_start; + + err = mmc_get_ext_csd(mmc, ext_csd); + if (err) { + printf("Failed: get ext_csd failed\n"); + return 1; + } + + if (!is_write_protect_valid(ext_csd)) { + printf("Failed: CLASS_6_CTRL isn't '0' " + "write protect process is invalid\n"); + return 1; + } + + err = compute_write_protect_range(mmc, name, ext_csd, + &wp_grp_size, &start, &part_end); + if (err) + return 1; + + group_start = start; + + while ((group_start + wp_grp_size - 1) <= part_end) { + err = send_write_prot_status_group(mmc, group_start); + if (err) + return 1; + group_start += 32 * wp_grp_size; + } + + return 0; +} + +static int send_add_wp_status(struct mmc *mmc, u64 start, u64 cnt) +{ + int err = 0; + u8 ext_csd[512] = {0}; + u64 wp_grp_size, part_end; + u64 group_start; + int blk_shift; + u64 mmc_boundary; + err = mmc_get_ext_csd(mmc, ext_csd); + if (err) { + printf("Failed: get ext_csd failed\n"); + return 1; + } + + if (!is_write_protect_valid(ext_csd)) { + printf("Failed: CLASS_6_CTRL isn't '0' " + "write protect process is invalid\n"); + return 1; + } + + wp_grp_size = write_protect_group_size(mmc, ext_csd); + + if ((start % wp_grp_size)) { + group_start = (start + wp_grp_size - 1) / wp_grp_size * wp_grp_size; + printf("Caution! The partition start address isn't' aligned" + "to group size\n" + "the start address is change from 0x%llx to 0x%llx\n", + start, group_start); + part_end = group_start + (cnt - 1) * wp_grp_size - 1; + printf("The write protect group number is 0x%llx, rather than 0x%lld\n", + cnt - 1, cnt); + } else { + group_start = start; + part_end = group_start + cnt * wp_grp_size - 1; + } + + blk_shift = ffs(mmc->read_bl_len) - 1; + mmc_boundary = mmc->capacity>>blk_shift; + + if ((part_end + 1) > mmc_boundary) { + printf("Error: the operation cross the boundary of mmc\n"); + return 1; + } + + while ((group_start + wp_grp_size - 1) <= part_end) { + err = send_write_prot_status_group(mmc, group_start); + if (err) + return 1; + group_start += 32 * wp_grp_size; + } + + return 0; +} + +static int do_amlmmc_send_wp_status(struct cmd_tbl *cmdtp, + int flag, int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + struct mmc *mmc; + int dev = 1; + char *name = NULL; + u64 start, cnt; + + if (argc < 3 || argc > 4) + return ret; + + if (argc == 3) { + name = argv[2]; + dev = find_dev_num_by_partition_name(name); + if (dev < 0) { + printf("Error: Cannot find dev.\n"); + return 1; + } + } else { + start = simple_strtoull(argv[2], NULL, 16); + cnt = simple_strtoull(argv[3], NULL, 0); + } + + mmc = find_mmc_device(dev); + + if (IS_SD(mmc)) { + mmc = find_mmc_device(~dev); + if (IS_SD(mmc)) { + printf("SD card can not be write protect\n"); + return 1; + } + } + + if (!mmc) + return 1; + + mmc_init(mmc); + if (!mmc) + return 1; + + if (argc == 3) + ret = send_part_wp_status(mmc, name); + else + ret = send_add_wp_status(mmc, start, cnt); + + if (ret) { + printf("Failed: send partition write protect status failed\n"); + } + + return ret; +} + +static int do_amlmmc_send_wp_type(struct cmd_tbl *cmdtp, + int flag, int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + struct mmc *mmc; + int dev = 1; + char *name = NULL; + u64 start, cnt; + + if (argc < 3 || argc > 4) + return ret; + + if (argc == 3) { + name = argv[2]; + dev = find_dev_num_by_partition_name(name); + if (dev < 0) { + printf("Error: Cannot find dev.\n"); + return 1; + } + } else { + start = simple_strtoull(argv[2], NULL, 16); + cnt = simple_strtoull(argv[3], NULL, 0); + } + + mmc = find_mmc_device(dev); + + if (!mmc) + return 1; + + if (IS_SD(mmc)) { + mmc = find_mmc_device(~dev); + if (IS_SD(mmc)) { + printf("SD card can not be write protect\n"); + return 1; + } + } + + mmc_init(mmc); + if (!mmc) + return 1; + if (argc == 3) + ret = send_part_wp_type(mmc, name); + else + ret = send_add_wp_type(mmc, start, cnt); + + if (ret) { + printf("Failed: send parittion write protect type failed\n"); + } + + return ret; +} + +static int set_driver_strength(struct mmc *mmc, int strength) +{ + int ret = 0; + u8 ext_csd[512] = {0}; + u8 strength_type = 0; + u8 driver_strength; + u8 hs_timing = 0; + ret = mmc_get_ext_csd(mmc, ext_csd); + if (ret) { + printf("get ext_csd failed\n"); + return ret; + } + strength_type = 1 << strength; + driver_strength = ext_csd[EXT_CSD_DRIVER_STRENGTH]; + if (0 == (strength_type & driver_strength)) { + printf("Failed: This device didn't support strength type %d\n", strength); + return 1; + } + + hs_timing = ext_csd[EXT_CSD_HS_TIMING]; + if ((hs_timing >> 4) > 0) { + printf("Failed: The driver strength has been set already, \ + please reset the device\n"); + return 1; + } + + hs_timing = hs_timing | (strength << 4); + + ret = mmc_set_ext_csd(mmc, EXT_CSD_HS_TIMING, hs_timing); + if (ret) { + printf("set ext_csd hs_timing field failed\n"); + return ret; + } + ret = mmc_get_ext_csd(mmc, ext_csd); + if (ret) { + printf("get ext_csd failed\n"); + return ret; + } + printf("The ext_csd[HS_TIMING] has been set to 0x%x\n", + ext_csd[EXT_CSD_HS_TIMING]); + return ret; +} + +static int get_driver_strength(struct mmc *mmc) +{ + int ret = 0; + u8 ext_csd[512] = {0}; + u8 support_ds_type = 0; + u8 cur_driver_strength; + u8 hs_timing = 0; + ret = mmc_get_ext_csd(mmc, ext_csd); + if (ret) { + printf("get ext_csd failed\n"); + return ret; + } + + support_ds_type = ext_csd[EXT_CSD_DRIVER_STRENGTH]; + + hs_timing = ext_csd[EXT_CSD_HS_TIMING]; + cur_driver_strength = hs_timing >> 4; + + printf("current strength type is: "); + int strength_type = 0; + while (support_ds_type) { + if (support_ds_type & 1) { + if (cur_driver_strength == strength_type) + printf("[%d] ", strength_type); + else + printf("%d ", strength_type); + } + strength_type++; + support_ds_type = support_ds_type >> 1; + } + printf("\n"); + return ret; +} + +static int amlmmc_set_driver_strength(int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + int dev, strength; + struct mmc *mmc; + + if (argc != 4) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + strength = simple_strtoul(argv[3], NULL, 10); + mmc = find_mmc_device(dev); + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + mmc_init(mmc); + if (!mmc) + return 1; + + ret = set_driver_strength(mmc, strength); + + return ret; +} + +static int amlmmc_get_driver_strength(int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + int dev; + struct mmc *mmc; + + if (argc != 3) + return CMD_RET_USAGE; + + dev = simple_strtoul(argv[2], NULL, 10); + mmc = find_mmc_device(dev); + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + mmc_init(mmc); + if (!mmc) + return 1; + + ret = get_driver_strength(mmc); + + return ret; +} + +static int do_amlmmc_driver_strength(struct cmd_tbl *cmdtp, + int flag, int argc, char *const argv[]) +{ + int ret = CMD_RET_USAGE; + + if (argc == 3) + ret = amlmmc_get_driver_strength(argc,argv); + else if (argc == 4) + ret = amlmmc_set_driver_strength(argc,argv); + + return ret; +} + +static struct cmd_tbl cmd_amlmmc[] = { + U_BOOT_CMD_MKENT(read, 6, 0, do_amlmmc_read, "", ""), + U_BOOT_CMD_MKENT(write, 6, 0, do_amlmmc_write, "", ""), + U_BOOT_CMD_MKENT(erase, 5, 0, do_amlmmc_erase, "", ""), + U_BOOT_CMD_MKENT(rescan, 3, 0, do_amlmmc_rescan, "", ""), + U_BOOT_CMD_MKENT(part, 3, 0, do_amlmmc_part, "", ""), + U_BOOT_CMD_MKENT(list, 2, 0, do_amlmmc_list, "", ""), + U_BOOT_CMD_MKENT(switch, 4, 0, do_amlmmc_switch, "", ""), + U_BOOT_CMD_MKENT(status, 3, 0, do_amlmmc_status, "", ""), + U_BOOT_CMD_MKENT(ext_csd, 5, 0, do_amlmmc_ext_csd, "", ""), + U_BOOT_CMD_MKENT(response, 3, 0, do_amlmmc_response, "", ""), + U_BOOT_CMD_MKENT(controller, 3, 0, do_amlmmc_controller, "", ""), + U_BOOT_CMD_MKENT(size, 4, 0, do_amlmmc_size, "", ""), + U_BOOT_CMD_MKENT(env, 2, 0, do_amlmmc_env, "", ""), + U_BOOT_CMD_MKENT(write_protect, 5, 0, do_amlmmc_write_protect, "", ""), + U_BOOT_CMD_MKENT(send_wp_status, 4, 0, do_amlmmc_send_wp_status, "", ""), + U_BOOT_CMD_MKENT(send_wp_type, 4, 0, do_amlmmc_send_wp_type, "", ""), + U_BOOT_CMD_MKENT(clear_wp, 4, 0, do_amlmmc_clear_wp, "", ""), + U_BOOT_CMD_MKENT(ds, 4, 0, do_amlmmc_driver_strength, "", ""), +#ifdef CONFIG_SECURITYKEY + U_BOOT_CMD_MKENT(key, 2, 0, do_amlmmc_key, "", ""), +#endif +}; + +static int do_amlmmcops(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + struct cmd_tbl *cp; + + cp = find_cmd_tbl(argv[1], cmd_amlmmc, ARRAY_SIZE(cmd_amlmmc)); + + if (cp == NULL || argc > cp->maxargs) + return CMD_RET_USAGE; + + if (flag == CMD_FLAG_REPEAT && !cmd_is_repeatable(cp)) + return CMD_RET_SUCCESS; + + return cp->cmd(cmdtp, flag, argc, argv); +} + +U_BOOT_CMD( + amlmmc, 6, 1, do_amlmmcops, + "AMLMMC sub system", + "read ram_addr addr_byte# cnt_byte\n" + "amlmmc write ram_addr addr_byte# cnt_byte\n" + "amlmmc erase addr_byte# cnt_byte\n" + "amlmmc erase /\n" + "amlmmc rescan \n" + "amlmmc part - show partition infomation of mmc\n" + "amlmmc list - lists available devices\n" + "amlmmc env - display env partition offset\n" + "amlmmc switch - part name : boot0, boot1, user\n" + "amlmmc status - read sd/emmc device status\n" + "amlmmc ext_csd - read sd/emmc device EXT_CSD [byte]\n" + "amlmmc ext_csd - write sd/emmc device EXT_CSD [byte] value\n" + "amlmmc response - read sd/emmc last command response\n" + "amlmmc controller - read sd/emmc controller register\n" + "amlmmc write_protect \n" + " - set write protect on partition through power_on or temporary\n" + "amlmmc write_protect \n" + " - set write protect on specified address through power_on or temporary\n" + "amlmmc send_wp_status send protect status of partition\n" + "amlmmc send_wp_status send protect status on specified address\n" + "amlmmc send_wp_type send protect type of partition\n" + "amlmmc send_wp_type send protect type on specified address\n" + "amlmmc clear_wp clear write protect of partition\n" + "amlmmc clear_wp clear write protect on specified addresst\n" + "amlmmc ds set driver strength\n" +#ifdef CONFIG_SECURITYKEY + "amlmmc key - disprotect key partition\n" +#endif +); + +/* dtb read&write operation with backup updates */ +static u32 _calc_dtb_checksum(struct aml_dtb_rsv * dtb) +{ + int i = 0; + int size = sizeof(struct aml_dtb_rsv) - sizeof(u32); + u32 * buffer; + u32 checksum = 0; + + if ((u64)dtb % 4 != 0) { + BUG(); + } + + size = size >> 2; + buffer = (u32*) dtb; + while (i < size) + checksum += buffer[i++]; + + return checksum; +} + +static int _verify_dtb_checksum(struct aml_dtb_rsv * dtb) +{ + u32 checksum; + + checksum = _calc_dtb_checksum(dtb); + dtb_info("calc %x, store %x\n", checksum, dtb->checksum); + + return !(checksum == dtb->checksum); +} + +static int _dtb_read(struct mmc *mmc, u64 blk, u64 cnt, void * addr) +{ + int dev = EMMC_DTB_DEV; + u64 n; + n = blk_dread(mmc_get_blk_desc(mmc), blk, cnt, addr); + if (n != cnt) { + dtb_err("%s: dev # %d, block # %#llx, count # %#llx ERROR!\n", + __func__, dev, blk, cnt); + } + + return (n != cnt); +} + +static int _dtb_write(struct mmc *mmc, u64 blk, u64 cnt, void * addr) +{ + int dev = EMMC_DTB_DEV; + u64 n; + n = blk_dwrite(mmc_get_blk_desc(mmc), blk, cnt, addr); + if (n != cnt) { + dtb_err("%s: dev # %d, block # %#llx, count # %#llx ERROR!\n", + __func__, dev, blk, cnt); + } + + return (n != cnt); +} + +static struct mmc *_dtb_init(void) +{ + struct mmc *mmc = find_mmc_device(EMMC_DTB_DEV); + if (!mmc) { + dtb_err("not find mmc\n"); + return NULL; + } + + if (mmc_init(mmc)) { + dtb_err("mmc init failed\n"); + return NULL; + } + return mmc; +} + +static int dtb_read_shortcut(struct mmc * mmc, void *addr) +{ + u64 blk, cnt, dtb_glb_offset; + int dev = EMMC_DTB_DEV; + struct aml_dtb_info *info = &dtb_infos; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + dtb_glb_offset = part->offset + vpart->offset; + /* short cut */ + if (info->valid[0]) { + dtb_info("short cut in...\n"); + blk = dtb_glb_offset / mmc->read_bl_len; + cnt = vpart->size / mmc->read_bl_len; + if (_dtb_read(mmc, blk, cnt, addr)) { + dtb_err("%s: dev # %d, block # %#llx,cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + /*try dtb2 if it's valid */ + if (info->valid[1]) { + blk = (dtb_glb_offset + vpart->size) / mmc->read_bl_len; + cnt = vpart->size / mmc->read_bl_len; + if (_dtb_read(mmc, blk, cnt, addr)) { + dtb_err("%s: dev # %d, block # %#llx, cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + return -1; + } + } + } + return 0; + } + return -2; +} + +static int update_dtb_info(struct mmc *mmc, void *addr) +{ + int ret = 0, dev = EMMC_DTB_DEV; + u64 blk, cnt, dtb_glb_offset; + struct aml_dtb_rsv * dtb = (struct aml_dtb_rsv *) addr; + struct aml_dtb_info *info = &dtb_infos; + int cpy = 1, valid = 0; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + dtb_glb_offset = part->offset + vpart->offset; + + while (cpy >= 0) { + blk = (dtb_glb_offset + cpy * (vpart->size)) / mmc->read_bl_len; + cnt = vpart->size / mmc->read_bl_len; + ret = _dtb_read(mmc, blk, cnt, addr); + if (ret) { + dtb_err("%s: dev # %d, block # %#llx, cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + } else { + ret = _verify_dtb_checksum(dtb); + /* check magic avoid whole 0 issue */ + if (!ret && (dtb->magic != 0)) { + info->stamp[cpy] = dtb->timestamp; + info->valid[cpy] = 1; + } + else + dtb_wrn("cpy %d is not valid\n", cpy); + } + valid += info->valid[cpy]; + cpy --; + } + return valid; +} + +static int update_invalid_dtb(struct mmc *mmc, void *addr) +{ + int ret = 0, dev = EMMC_DTB_DEV; + u64 blk, cnt, dtb_glb_offset; + struct aml_dtb_rsv * dtb = (struct aml_dtb_rsv *) addr; + struct aml_dtb_info *info = &dtb_infos; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + dtb_glb_offset = part->offset + vpart->offset; + cnt = vpart->size / mmc->read_bl_len; + + if (info->valid[1]) { + blk = (dtb_glb_offset + vpart->size) / mmc->read_bl_len; + if (_dtb_read(mmc, blk, cnt, addr)) { + dtb_err("%s: dev # %d, block # %#llx,cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + ret = -2; + } + /* fixme, update the invalid one - dtb1 */ + blk = (dtb_glb_offset) / mmc->read_bl_len; + if (_dtb_write(mmc, blk, cnt, addr)) { + dtb_err("%s: dev # %d, block # %#llx,cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + ret = -4; + } + info->valid[0] = 1; + info->stamp[0] = dtb->timestamp; + ret = 0; + } else { + dtb_info("update dtb2"); + blk = (dtb_glb_offset + vpart->size) / mmc->read_bl_len; + if (_dtb_write(mmc, blk, cnt, addr)) { + dtb_err("%s: dev # %d, block # %#llx,cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + ret = -2; + } + info->valid[1] = 1; + info->stamp[1] = dtb->timestamp; + } + return ret; +} + +int update_old_dtb(struct mmc *mmc, void *addr) +{ + int ret = 0, dev = EMMC_DTB_DEV; + u64 blk, cnt, dtb_glb_offset; + struct aml_dtb_rsv * dtb = (struct aml_dtb_rsv *) addr; + struct aml_dtb_info *info = &dtb_infos; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + dtb_glb_offset = part->offset + vpart->offset; + cnt = vpart->size / mmc->read_bl_len; + if (stamp_after(info->stamp[1], info->stamp[0])) { + blk = (dtb_glb_offset + vpart->size) / mmc->read_bl_len; + if (_dtb_read(mmc, blk, cnt, addr)) { + dtb_err("%s: dev # %d, block # %#llx,cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + ret = -3; + } + /*update dtb1*/ + blk = dtb_glb_offset / mmc->read_bl_len; + if (_dtb_write(mmc, blk, cnt, addr)) { + dtb_err("%s: dev # %d, block # %#llx,cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + ret = -3; + } + info->stamp[0] = dtb->timestamp; + ret = 0; + } else if (stamp_after(info->stamp[0], info->stamp[1])) { + /*update dtb2*/ + blk = (dtb_glb_offset + vpart->size) / mmc->read_bl_len; + if (_dtb_write(mmc, blk, cnt, addr)) { + dtb_err("%s: dev # %d, block # %#llx,cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + ret = -3; + } + info->stamp[1] = dtb->timestamp; + } else { + dtb_info("do nothing\n"); + } + return ret; +} + +int dtb_read(void *addr) +{ + int ret = 0; + int valid = 0; + struct mmc *mmc; + + mmc = _dtb_init(); + if (mmc == NULL) + return -10; + + if (dtb_read_shortcut(mmc, addr) == 0) + return ret; + + valid = update_dtb_info(mmc, addr); + dtb_info("total valid %d\n", valid); + /* check valid */ + switch (valid) { + /* none is valid, using the 1st one for compatibility*/ + case 0: + ret = -1; + goto _out; + break; + /* only 1 is valid, using the valid one */ + case 1: + update_invalid_dtb(mmc, addr); + break; + /* both are valid, pickup new one. */ + case 2: + update_old_dtb(mmc, addr); + break; + default: + dtb_err("impossble valid values.\n"); + BUG(); + break; + } +_out: + return ret; +} + + +int dtb_write(void *addr) +{ + int ret = 0; + struct aml_dtb_rsv * dtb = (struct aml_dtb_rsv *) addr; + struct aml_dtb_info *info = &dtb_infos; + u64 blk, cnt, dtb_glb_offset; + int cpy, valid; + struct mmc * mmc; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + dtb_glb_offset = part->offset + vpart->offset; + + mmc = _dtb_init(); + if (NULL == mmc) + return -10; + + /* stamp */ + valid = info->valid[0] + info->valid[1]; + dtb_info("valid %d\n", valid); + if (0 == valid) + dtb->timestamp = 0; + else if (1 == valid) { + dtb->timestamp = 1 + info->stamp[info->valid[0]?0:1]; + } else { + /* both are valid */ + if (info->stamp[0] != info->stamp[1]) { + dtb_wrn("timestamp are not same %d:%d\n", + info->stamp[0], info->stamp[1]); + dtb->timestamp = 1 + stamp_after(info->stamp[1], info->stamp[0])? + info->stamp[1]:info->stamp[0]; + } else + dtb->timestamp = 1 + info->stamp[0]; + } + /*setting version and magic*/ + dtb->version = 1; /* base version */ + dtb->magic = 0x00447e41; /*A~D\0*/ + dtb->checksum = _calc_dtb_checksum(dtb); + dtb_info("new stamp %d, checksum 0x%x, version %d, magic %s\n", + dtb->timestamp, dtb->checksum, dtb->version, (char *)&dtb->magic); + + for (cpy = 0; cpy < DTB_COPIES; cpy++) { + blk = (dtb_glb_offset + cpy * (vpart->size)) / mmc->read_bl_len; + cnt = vpart->size / mmc->read_bl_len; + ret |= _dtb_write(mmc, blk, cnt, addr); + info->valid[cpy] = 1; + info->stamp[cpy] = dtb->timestamp; + } + + return ret; +} + +extern int check_valid_dts(unsigned char *buffer); +int renew_partition_tbl(unsigned char *buffer) +{ + int ret = 0; + + unsigned char *temp = NULL; + if (!buffer) + return 1; + temp = malloc (AML_DTB_IMG_MAX_SZ); + if (!temp) + return 1; + memcpy(temp, buffer, AML_DTB_IMG_MAX_SZ); + /* todo, check new dts imcoming.... */ + ret = check_valid_dts(temp); + free(temp); + /* todo, check new dts imcoming.... */ +/* ret = check_valid_dts(buffer);*/ + /* only the dts new is valid */ + if (!ret) { + free_partitions(); + get_partition_from_dts(buffer); + if (0 == mmc_device_init(_dtb_init())) { + printf("partition table success\n"); + ret = 0; + goto _out; + } + printf("partition table error\n"); + ret = 1; + } + +_out: + return ret; +} + +int do_amlmmc_dtb_key(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int dev, ret = 0; + void *addr = NULL; + u64 cnt = 0, n = 0, blk = 0; + //u64 size; + struct partitions *part = NULL; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + + switch (argc) { + case 3: + if (strcmp(argv[1], "erase") == 0) { + if (strcmp(argv[2], "dtb") == 0) { + printf("start erase dtb......\n"); + dev = EMMC_DTB_DEV; + struct mmc *mmc = find_mmc_device(dev); + if (!mmc) { + printf("not find mmc\n"); + return 1; + } + blk = (part->offset + vpart->offset) / mmc->read_bl_len; + cnt = (vpart->size * 2) / mmc->read_bl_len; + if (cnt != 0) + n = blk_derase(mmc_get_blk_desc(mmc), blk, cnt); + printf("dev # %d, %s, several blocks erased %s\n", + dev, (flag == 0) ? " ":(argv[2]),(n == 0) ? "OK" : "ERROR"); + return (n == 0) ? 0 : 1; + }else if (strcmp(argv[2], "key") == 0){ + printf("start erase key......\n"); + dev = 1; + struct mmc *mmc = find_mmc_device(dev); + if (!mmc) { + printf("not find mmc\n"); + return 1; + } + n = mmc_key_erase(); + printf("dev # %d, %s, several blocks erased %s\n", + dev, (flag == 0) ? " ":(argv[2]),(n == 0) ? "OK" : "ERROR"); + return (n == 0) ? 0 : 1; + } + } else if (strcmp(argv[1], "cali_pattern") == 0) { + + if (strcmp(argv[2], "write") == 0) { + dev = EMMC_DTB_DEV; + struct mmc *mmc = find_mmc_device(dev); + if (!mmc) { + printf("not find mmc\n"); + return 1; + } + vpart = aml_get_virtual_partition_by_name(MMC_PATTERN_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + addr = (void *)malloc(vpart->size); + if (addr == NULL) { + printf("cali_pattern malloc fail\n"); + return 1; + } + mmc_write_cali_mattern(addr); + blk = (part->offset + vpart->offset) / mmc->read_bl_len; + cnt = vpart->size / mmc->read_bl_len; + if (cnt != 0) + n = blk_dwrite(mmc_get_blk_desc(mmc), blk, cnt, addr); + printf("dev # %d, %s, several calibration pattern blocks write %s\n", + dev, (flag == 0) ? " ":(argv[2]),(n == cnt) ? "OK" : "ERROR"); + free(addr); + return (n == cnt) ? 0 : 1; + } + } + case 4: + addr = (void *)simple_strtoul(argv[2], NULL, 16); + if (strcmp(argv[1], "dtb_read") == 0) { + /* fixme, */ + ret = dtb_read(addr); + return 0; + + } else if (strcmp(argv[1], "dtb_write") == 0) { + /* fixme, should we check the return value? */ + ret = dtb_write(addr); + ret |= renew_partition_tbl(addr); + return ret; + } + return 0; + default: + break; + } + return 1; +} + +/* update partition table in reserved partition. */ +__weak int emmc_update_ept(unsigned char *buffer) +{ + int ret = 0; + +#ifndef DTB_BIND_KERNEL + dtb_write(buffer); +#endif + ret = renew_partition_tbl(buffer); + return ret; +} + +/* fixme, should use renew_partition_tbl here! */ +__weak int emmc_update_mbr(unsigned char *buffer) +{ + int ret = 0; + //cpu_id_t cpu_id = get_cpu_id(); + + if (0) { //(cpu_id.family_id < MESON_CPU_MAJOR_ID_GXL) { + ret = -1; + printf("MBR not support, try dtb\n"); + goto _out; + } +#ifndef DTB_BIND_KERNEL + dtb_write(buffer); +#endif + ret = get_partition_from_dts(buffer); + if (ret) { + printf("Fail to get partition talbe from dts\n"); + goto _out; + } + ret = mmc_device_init(_dtb_init()); + printf("%s: update mbr %s\n", __func__, ret?"Fail":"Success"); +_out: + return ret; +} + +int emmc_erase_rsv(struct mmc *mmc, char *rsv_part) +{ + u64 cnt = 0, n = 0, blk = 0; + struct partitions *part = NULL; + struct virtual_partition *vpart = NULL; + + if (rsv_part == NULL) + return -1; + + vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + if (strcmp(rsv_part, "dtb") == 0) { + blk = (part->offset + vpart->offset) / mmc->read_bl_len; + cnt = (vpart->size * 2) / mmc->read_bl_len; + if (cnt != 0) + n = blk_derase(mmc_get_blk_desc(mmc), blk, cnt); + printf("%s is erased %s\n", + rsv_part, (n == 0) ? "OK" : "ERROR"); + return (n == 0) ? 0 : 1; + } else if (strcmp(rsv_part, "key") == 0) { + n = mmc_key_erase(); + printf("%s is erased %s\n", + rsv_part, (n == 0) ? "OK" : "ERROR"); + return (n == 0) ? 0 : 1; + } + return 1; +} + +int do_emmc_erase(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int dev; + u64 cnt = 0, n = 0, blk = 0; + //u64 size; + struct partitions *part = NULL; + struct virtual_partition *vpart = NULL; + struct mmc *mmc; + if (argc != 3) + return CMD_RET_USAGE; + + vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + if (strcmp(argv[2], "dtb") == 0) { + printf("start erase dtb......\n"); + dev = EMMC_DTB_DEV; + mmc = find_mmc_device(dev); + if (!mmc) { + printf("not find mmc\n"); + return 1; + } + blk = (part->offset + vpart->offset) / mmc->read_bl_len; + cnt = (vpart->size * 2) / mmc->read_bl_len; + if (cnt != 0) + n = blk_derase(mmc_get_blk_desc(mmc), blk, cnt); + printf("dev # %d, %s, several blocks erased %s\n", + dev, (flag == 0) ? " ":(argv[2]),(n == 0) ? "OK" : "ERROR"); + return (n == 0) ? 0 : 1; + } else if (strcmp(argv[2], "key") == 0) { + printf("start erase key......\n"); + dev = 1; + mmc = find_mmc_device(dev); + if (!mmc) { + printf("not find mmc\n"); + return 1; + } + n = mmc_key_erase(); + printf("dev # %d, %s, several blocks erased %s\n", + dev, (flag == 0) ? " ":(argv[2]),(n == 0) ? "OK" : "ERROR"); + return (n == 0) ? 0 : 1; + } + return 1; +} + +int do_emmc_dtb_read(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + void *addr = NULL; + + if (argc != 4) + return CMD_RET_USAGE; + + addr = (void *)simple_strtoul(argv[2], NULL, 16); + ret = dtb_read(addr); + return ret; +} + +int do_emmc_dtb_write(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + void *addr = NULL; + + if (argc != 4) + return CMD_RET_USAGE; + + addr = (void *)simple_strtoul(argv[2], NULL, 16); + ret = dtb_write(addr); + ret |= renew_partition_tbl(addr); + return ret; +} + +static int _fastboot_context_read(struct mmc *mmc, u64 blk, + u64 cnt, void *addr) +{ + int dev = EMMC_FASTBOOT_CONTEXT_DEV; + u64 n; + + n = blk_dread(mmc_get_blk_desc(mmc), blk, cnt, addr); + if (n != cnt) { + fb_err("%s: dev # %d, block # %#llx, count # %#llx ERROR!\n", + __func__, dev, blk, cnt); + } + + return n != cnt; +} + +int fastboot_context_read(void *buf, size_t size) +{ + uint32_t crc_result; + struct mmc *mmc; + struct FastbootContext *fb_cont; + int fb_size = sizeof(struct FastbootContext); + u64 blk, cnt, fb_glb_offset; + int dev = EMMC_FASTBOOT_CONTEXT_DEV; + struct partitions *part = NULL; + struct virtual_partition *vpart = NULL; + + mmc = find_mmc_device(dev); + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + + if (mmc_init(mmc)) { + printf("%s() %d: emmc init failed\n", __func__, __LINE__); + return 1; + } + + vpart = aml_get_virtual_partition_by_name(MMC_FASTBOOT_CONTEXT_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + fb_glb_offset = part->offset + vpart->offset; + + blk = fb_glb_offset / mmc->read_bl_len; + cnt = size / mmc->read_bl_len; + + if (_fastboot_context_read(mmc, blk, cnt, buf)) + return 1; + + fb_cont = (struct FastbootContext *)buf; + crc_result = crc32(0, buf, fb_size - 4); + + if (crc_result != fb_cont->crc32) { + printf("%s %d: crc checksum ERROR!\n", __func__, __LINE__); + return 1; + } + return 0; +} + + +int do_emmc_fb_read(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + void *addr = NULL; + u64 size; + + if (argc != 4) + return CMD_RET_USAGE; + + addr = (void *)simple_strtoul(argv[2], NULL, 16); + size = simple_strtoull(argv[3], NULL, 16); + ret = fastboot_context_read(addr, size); + return ret; +} + +static int _fastboot_context_write(struct mmc *mmc, u64 blk, + u64 cnt, void *addr) +{ + int dev = EMMC_FASTBOOT_CONTEXT_DEV; + int n; + + n = blk_dwrite(mmc_get_blk_desc(mmc), blk, cnt, addr); + + if (n != cnt) { + fb_err("%s: dev # %d, block # %#llx,cnt # %#llx ERROR!\n", + __func__, dev, blk, cnt); + } + + return n != cnt; +} + +int fastboot_context_write(void *buf, size_t size) +{ + int ret = 0; + struct FastbootContext *fb_cont = (struct FastbootContext *)buf; + u64 blk, cnt, fb_glb_offset; + struct mmc *mmc; + struct partitions *part = NULL; + struct virtual_partition *vpart = NULL; + int dev = EMMC_FASTBOOT_CONTEXT_DEV; + int fb_size = sizeof(struct FastbootContext); + + mmc = find_mmc_device(dev); + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + + ret = mmc_init(mmc); + if (ret) { + printf("%s() %d: emmc init failed\n", __func__, __LINE__); + return 1; + } + + vpart = aml_get_virtual_partition_by_name(MMC_FASTBOOT_CONTEXT_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + fb_glb_offset = part->offset + vpart->offset; + fb_cont->crc32 = crc32(0, buf, fb_size - 4); + blk = fb_glb_offset / mmc->read_bl_len; + cnt = size / mmc->read_bl_len; + ret = _fastboot_context_write(mmc, blk, cnt, buf); + + return ret; +} + +int do_emmc_fb_write(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + void *addr = NULL; + u64 size; + + if (argc != 4) + return CMD_RET_USAGE; + + addr = (void *)simple_strtoul(argv[2], NULL, 16); + size = simple_strtoull(argv[3], NULL, 16); + ret = fastboot_context_write(addr, size); + return ret; +} + +int do_emmc_key_read(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + void *addr = NULL; + u64 size; + uint32_t *actual_lenth=0; + + if (argc != 4) + return CMD_RET_USAGE; + + addr = (void *)simple_strtoul(argv[2], NULL, 16); + size = simple_strtoull(argv[3], NULL, 16); + printf("enter emmc key read !!\n"); + printf("addr:%p size:%llx\n",addr,size); + ret = mmc_key_read(addr, size,actual_lenth); + printf("ret:%d\n",ret); + return ret; +} + +int do_emmc_key_write(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) { + + int ret = 0; + void *addr = NULL; + u64 size; + uint32_t *actual_lenth=0; + + if (argc != 4) + return CMD_RET_USAGE; + + addr = (void *)simple_strtoul(argv[2], NULL, 16); + size = simple_strtoull(argv[3], NULL, 16); + ret = mmc_key_write(addr, size,actual_lenth); + return ret; + + +} + + + + +static struct cmd_tbl cmd_emmc[] = { + U_BOOT_CMD_MKENT(dtb_read, 4, 0, do_emmc_dtb_read, "", ""), + U_BOOT_CMD_MKENT(dtb_write, 4, 0, do_emmc_dtb_write, "", ""), + U_BOOT_CMD_MKENT(erase, 3, 0, do_emmc_erase, "", ""), + U_BOOT_CMD_MKENT(fastboot_read, 4, 0, do_emmc_fb_read, "", ""), + U_BOOT_CMD_MKENT(fastboot_write, 4, 0, do_emmc_fb_write, "", ""), + U_BOOT_CMD_MKENT(key_read, 4, 0, do_emmc_key_read, "", ""), + U_BOOT_CMD_MKENT(key_write, 4, 0, do_emmc_key_write, "", ""), +}; + +static int do_emmc_dtb_key(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + struct cmd_tbl *cp; + + cp = find_cmd_tbl(argv[1], cmd_emmc, ARRAY_SIZE(cmd_emmc)); + + if (cp == NULL || argc > cp->maxargs) + return CMD_RET_USAGE; + if (flag == CMD_FLAG_REPEAT && !cmd_is_repeatable(cp)) + return CMD_RET_SUCCESS; + return cp->cmd(cmdtp, flag, argc, argv); +} + + +U_BOOT_CMD( + emmc, 4, 1, do_emmc_dtb_key, + "EMMC sub system", + "dtb_read addr size\n" + "emmc dtb_write addr size\n" + "emmc erase dtb\n" + "emmc erase key\n" + "emmc fastboot_read addr size\n" + "emmc fastboot_write addr size\n" + "emmc key_read addr size\n" + "emmc key_write addr size\n" +); + diff --git a/cmd/storage.c b/cmd/storage.c new file mode 100644 index 0000000000..98147fbe22 --- /dev/null +++ b/cmd/storage.c @@ -0,0 +1,1503 @@ +// SPDX-License-Identifier: (GPL-2.0+ OR MIT) +/* + * Storage interface module + * + * Copyright (C) 2018 Amlogic Corporation + * + */ +#include +#include +#include +//#include +#include +#include +#include +#include + +#include +#include +//#include +#include +#include + +#undef pr_info +#define pr_info printf + +#ifdef CONFIG_SPI_FLASH +extern int spi_nor_pre(void); +extern int spi_nor_probe(u32 init_flag); +#endif + +#ifdef CONFIG_SPI_NAND +extern int spi_nand_pre(void); +extern int spi_nand_probe(u32 init_flag); +#endif + +#ifdef CONFIG_MTD_SPI_NAND +extern int spi_nand_pre(void); +extern int spi_nand_probe(u32 init_flag); +#endif + +#ifdef CONFIG_AML_NAND +extern int amlnf_pre(void); +extern int amlnf_probe(u32 init_flag); +#endif + +#ifdef CONFIG_MESON_NFC +extern int nand_pre(void); +extern int nand_probe(uint32_t init_flag); +#endif + +#ifdef CONFIG_MMC_MESON_GX +extern int emmc_pre(void); +extern int emmc_probe(u32 init_flag); +#endif + +#ifdef CONFIG_MMC_MESON_GX +extern int sdcard_pre(void); +extern int sdcard_probe(u32 init_flag); +#endif +/* for info protect, fixme later */ +int info_disprotect = 0; + +static struct storage_t *current; +static struct device_node_t device_list[] = { +#ifdef CONFIG_MESON_NFC + {BOOT_NAND_MTD, "mtd", nand_pre, nand_probe}, +#endif +#ifdef CONFIG_AML_NAND + {BOOT_NAND_NFTL, "nftl", amlnf_pre, amlnf_probe}, +#endif +#ifdef CONFIG_SPI_NAND + /* old drivers will be removed later */ + {BOOT_SNAND, "spi-nand", spi_nand_pre, spi_nand_probe}, +#endif +#ifdef CONFIG_MTD_SPI_NAND + {BOOT_SNAND, "spi-nand", spi_nand_pre, spi_nand_probe}, +#endif +#if CONFIG_SPI_FLASH + {BOOT_SNOR, "spi-nor", spi_nor_pre, spi_nor_probe}, +#endif +#if 0 + {BOOT_SD, "sd", sdcard_pre, sdcard_probe}, +#endif + +#ifdef CONFIG_MMC_MESON_GX + {BOOT_EMMC, "emmc", emmc_pre, emmc_probe}, +#endif + +}; + +int store_register(struct storage_t *store_dev) +{ + if (!store_dev) + return 1; + if (!current) { + INIT_LIST_HEAD(&store_dev->list); + current = store_dev; + return 0; + } + /** + * the head node will not be a valid node + * usually when we use the list, but in storage + * interface module, we init the device node as + * a head instead a global list_head pointer, + * it should be traversaled. + */ + if (store_dev == current) + return 0; + struct storage_t *dev; + + if (store_dev->type == current->type) + return 1; + list_for_each_entry(dev, ¤t->list, list) { + if (dev == store_dev) + return 0; + else if (dev->type == store_dev->type) + return 1; + } + list_add_tail(&store_dev->list, ¤t->list); + current = store_dev; + return 0; +} + +void store_unregister(struct storage_t *store_dev) +{ + if (store_dev == current) { + if (list_empty_careful(&store_dev->list)) { + current = NULL; + } else { + current = list_entry((current->list).next, + struct storage_t, list); + list_del_init(&store_dev->list); + } + } else { + list_del_init(&store_dev->list); + } +} + +int sheader_need(void) +{ + //const cpu_id_t cpuid = get_cpu_id(); + //const int familyId = cpuid.family_id; + + return 0; //(MESON_CPU_MAJOR_ID_SC2 == familyId); +} + +unsigned char *ubootdata = NULL; +void sheader_load(void *addr) +{ + ubootdata = addr; +} + +/* + * storage header which size is 512B + * is bind into the tail of bl2.bin. + * @addr: uboot address. + */ +static p_payload_info_t parse_uboot_sheader(void *addr) +{ + p_payload_info_t pInfo = (p_payload_info_t)(addr + BL2_SIZE); + + if (AML_MAGIC_HDR_L == pInfo->hdr.nMagicL && + AML_MAGIC_HDR_R == pInfo->hdr.nMagicR) { + printf("aml log : bootloader blxx mode!\n"); + return pInfo; + } + return NULL; +} + +boot_area_entry_t general_boot_part_entry[MAX_BOOT_AREA_ENTRIES] = { + {BOOT_BL2, BOOT_AREA_BB1ST, 0, BOOT_FIRST_BLOB_SIZE}, + {BOOT_BL2E, BOOT_AREA_BL2E, 0, 0x40000}, + {BOOT_BL2X, BOOT_AREA_BL2X, 0, 0x40000}, + {BOOT_DDRFIP, BOOT_AREA_DDRFIP, 0, 0x40000}, + {BOOT_DEVFIP, BOOT_AREA_DEVFIP, 0, 0x300000}, +}; + +struct boot_layout general_boot_layout = {.boot_entry = general_boot_part_entry}; +struct storage_startup_parameter g_ssp; +struct storage_bl *g_storage = NULL; + +static void storage_boot_layout_debug_info( + struct boot_layout *boot_layout) +{ + boot_area_entry_t *boot_entry = boot_layout->boot_entry; + int i; + + printf("boot area list: \n"); + for (i = 0; i < MAX_BOOT_AREA_ENTRIES && boot_entry[i].size; i++) { + printf("%10s ", boot_entry[i].name); + printf("%10llx ", boot_entry[i].offset); + printf("%10llx\n", boot_entry[i].size); + } +} + +/* use STORAGE_ROUND_UP, y must be power of 2 */ +#define STORAGE_ROUND_UP_IF_UNALIGN(x, y) ((x) = (((x) + (y) - 1) & (~(y - 1)))) +#define NAND_RSV_OFFSET 1024 +#define ALIGN_SIZE (4096) +static int storage_boot_layout_rebuild(struct boot_layout *boot_layout, + unsigned int bl2e_size, + unsigned int bl2x_size) +{ + struct storage_startup_parameter *ssp = &g_ssp; + boot_area_entry_t *boot_entry = boot_layout->boot_entry; + uint64_t align_size, reserved_size = 0; + uint8_t i, cal_copy = ssp->boot_bakups; + + align_size = ALIGN_SIZE; + if ((ssp->boot_device == BOOT_NAND_NFTL) || + (ssp->boot_device == BOOT_NAND_MTD)) { + reserved_size = ssp->sip.nsp.layout_reserve_size; + align_size = ((NAND_RSV_OFFSET / cal_copy) * ssp->sip.nsp.page_size); + printf("reserved_size:0x%llx 0x%llx\n", reserved_size, align_size); + } else if (ssp->boot_device == BOOT_SNAND) { + reserved_size = ssp->sip.snasp.layout_reserve_size; + align_size = ((NAND_RSV_OFFSET / cal_copy) * ssp->sip.snasp.pagesize); + } else if (ssp->boot_device == BOOT_EMMC) { + ssp->boot_entry[0].offset = boot_entry[0].offset += + BL2_CORE_BASE_OFFSET_EMMC; + cal_copy = 1; + } + STORAGE_ROUND_UP_IF_UNALIGN(boot_entry[0].size, align_size); + ssp->boot_entry[0].size = boot_entry[0].size; + printf("ssp->boot_entry[0] offset:0x%x, size:0x%x\n", + ssp->boot_entry[0].offset, ssp->boot_entry[0].size); + printf("cal_copy:0x%x\n", cal_copy); + printf("align_size:0x%llx\n", align_size); + printf("reserved_size:0x%llx\n", reserved_size); + if ((ssp->boot_device == BOOT_NAND_NFTL) || + (ssp->boot_device == BOOT_NAND_MTD)) + align_size = ssp->sip.nsp.block_size; + else if (ssp->boot_device == BOOT_SNAND) + align_size = ssp->sip.snasp.pagesize * + ssp->sip.snasp.pages_per_eraseblock; + printf("align_size2:%llu\n", align_size); + + boot_entry[BOOT_AREA_BL2E].size = bl2e_size; + boot_entry[BOOT_AREA_BL2X].size = bl2x_size; + + for (i = 1; i < MAX_BOOT_AREA_ENTRIES && boot_entry[i - 1].size; i++) { + STORAGE_ROUND_UP_IF_UNALIGN(boot_entry[i].size, align_size); + boot_entry[i].offset = boot_entry[i-1].offset + + boot_entry[i-1].size * cal_copy + reserved_size; + reserved_size = 0; + ssp->boot_entry[i].size = boot_entry[i].size; + ssp->boot_entry[i].offset = boot_entry[i].offset; + } + + return 0; +} + +/* use STORAGE_ROUND_UP, y must be power of 2 */ +#define STORAGE_ROUND_UP_IF_UNALIGN(x, y) ((x) = (((x) + (y) - 1) & (~(y - 1)))) +#define NAND_RSV_OFFSET 1024 +#define ALIGN_SIZE (4096) +static int storage_boot_layout_general_setting(struct boot_layout *boot_layout, + int need_build) +{ + //struct storage_startup_parameter *ssp = &g_ssp; + boot_area_entry_t *boot_entry = boot_layout->boot_entry; + struct storage_boot_entry *sbentry = g_ssp.boot_entry; + p_payload_info_t pInfo = parse_uboot_sheader(ubootdata);; + p_payload_info_hdr_t hdr = &pInfo->hdr; + p_payload_info_item_t pItem = pInfo->arrItems; + int offPayload = 0, szPayload = 0; + unsigned int bl2e_size, bl2x_size; + char name[8] = {0}; + int nIndex = 0; + + if (need_build == BOOT_ID_USB) { + for (nIndex = 1, pItem += 1; + nIndex < hdr->byItemNum; ++nIndex, ++pItem) { + memcpy(name, &pItem->nMagic, sizeof(unsigned int)); + offPayload = pItem->nOffset; + if (nIndex == BOOT_AREA_BL2E) + bl2e_size = pItem->nPayLoadSize; + if (nIndex == BOOT_AREA_BL2X) + bl2x_size = pItem->nPayLoadSize; + szPayload = pItem->nPayLoadSize; + pr_info("Item[%d]%4s offset 0x%08x sz 0x%x\n", + nIndex, name, offPayload, szPayload); + } + storage_boot_layout_rebuild(boot_layout, bl2e_size, bl2x_size); + } else { + /* may be sdcard boot and also have to rebuild layout */ + if (need_build == BOOT_ID_SDCARD) { + bl2e_size = sbentry[BOOT_AREA_BL2E].size; + bl2x_size = sbentry[BOOT_AREA_BL2X].size; + printf("bl2e_size=%x bl2x_size=%x current->type=%d\n", + bl2e_size, bl2x_size, current->type); + storage_boot_layout_rebuild(boot_layout, + bl2e_size, bl2x_size); + return 0; + } + /* normal boot */ + for (nIndex = 0; + nIndex < MAX_BOOT_AREA_ENTRIES && sbentry->size; + nIndex++, sbentry++) { + boot_entry[nIndex].size = sbentry->size; + boot_entry[nIndex].offset = sbentry->offset; + } + } + + return 0; +} + +uint8_t emmc_boot_seqs_tbl[8][2] = { + {0, 3}, {0, 2}, {0, 3}, {0, 1}, + {1, 2}, {1, 1}, {2, 1}, {0, 0} + }; + +static int _get_emmc_boot_seqs(void) +{ + uint8_t ebcfg = 0; + if (IS_FEAT_DIS_EMMC_USER()) + ebcfg |= (1<<2); + if (IS_FEAT_DIS_EMMC_BOOT_0()) + ebcfg |= (1<<1); + if (IS_FEAT_DIS_EMMC_BOOT_1()) + ebcfg |= (1<<0); + + return ebcfg; +} + +static int storage_get_emmc_boot_seqs(void) +{ + return emmc_boot_seqs_tbl[_get_emmc_boot_seqs()][1];; +} + +static int storage_get_emmc_boot_start(void) +{ + return emmc_boot_seqs_tbl[_get_emmc_boot_seqs()][0];; +} + +#define NAND_RSV_BLOCK_NUM 48 +#define NSP_PAGE0_DISABLE 1 +extern unsigned char *ubootdata; +static int storage_get_and_parse_ssp(int *need_build) // boot_device: +{ + struct storage_startup_parameter *ssp = &g_ssp; + union storage_independent_parameter *sip; + static struct param_e *storage_param_e; + int usb_boot = *need_build; + + memset(ssp, 0, sizeof(struct storage_startup_parameter)); + if (!usb_boot) { + storage_param_e = param_of(STORAGE_PARAM_TPYE); + if (!storage_param_e) + return -1; + memcpy(ssp, storage_param_e->data, + sizeof(struct storage_startup_parameter)); + /* may be sdcard boot and also have to rebuild layout */ + if (ssp->boot_device == BOOT_ID_SDCARD || + ssp->boot_device == BOOT_ID_USB) { + /* need change the storage base here */ + *need_build = ssp->boot_device; + } + } + + if (*need_build) { + sip = &ssp->sip; + ssp->boot_device = current->type; + switch (ssp->boot_device) { + case BOOT_EMMC: + ssp->boot_bakups = storage_get_emmc_boot_seqs(); + break; + case BOOT_SNOR: + if (IS_FEAT_EN_4BL2_SNOR()) + ssp->boot_bakups = 4; + if (IS_FEAT_DIS_NBL2_SNOR()) + ssp->boot_bakups = 1; + break; + case BOOT_SNAND: + if (IS_FEAT_EN_8BL2_SNAND()) + ssp->boot_bakups = 8; + if (IS_FEAT_DIS_NBL2_SNAND()) + ssp->boot_bakups = 1; + sip->snasp.pagesize = current->info.write_unit; + sip->snasp.pages_per_eraseblock = + current->info.erase_unit / current->info.write_unit; + sip->snasp.eraseblocks_per_lun = + (current->info.caps >> 20) / current->info.erase_unit; + sip->snasp.planes_per_lun = 1; + sip->snasp.luns_per_target = 1; + sip->snasp.ntargets = 1; + sip->snasp.layout_reserve_size = + NAND_RSV_BLOCK_NUM * current->info.erase_unit; + break; + case BOOT_NAND_NFTL: + case BOOT_NAND_MTD: + if (IS_FEAT_DIS_8BL2_NAND()) + ssp->boot_bakups = 4; + if (IS_FEAT_DIS_NBL2_NAND()) + ssp->boot_bakups = 1; + ssp->boot_bakups = 8; //FIXIT?? efuse do not work now. + sip->nsp.page_size = current->info.write_unit; + sip->nsp.block_size = current->info.erase_unit; + sip->nsp.pages_per_block = + current->info.erase_unit / current->info.write_unit; + sip->nsp.layout_reserve_size = + NAND_RSV_BLOCK_NUM * sip->nsp.block_size; + sip->nsp.page0_disable = NSP_PAGE0_DISABLE; + break; + default: + /* do nothing. */ + break; + } + + } + + /* sanity check */ + + printf("boot_device:%d\n", ssp->boot_device); + printf("boot_seq:%d\n", ssp->boot_seq); + printf("boot_bakups:%d\n", ssp->boot_bakups); + printf("rebuid_id :%d\n", *need_build); + + return 0; +} + +int storage_post_init(void) +{ + int ret = -1; + int need_build = 0; + + ret = storage_get_and_parse_ssp(&need_build); + if (ret < 0) + return -1; + storage_boot_layout_general_setting(&general_boot_layout, need_build); + storage_boot_layout_debug_info(&general_boot_layout); + + return ret; +} + +int store_init(u32 init_flag) +{ + // cpu_id_t cpu_id = get_cpu_id(); + int i, ret = 0; + u8 record = 0; + + /*1. pre scan*/ + for (i = 0; i < ARRAY_SIZE(device_list); i++) { + if (!device_list[i].pre()) { + record |= BIT(i); + } + } + + if (!record) { + pr_info("No Valid storage device\n"); + return record; + } + + if (0) //(cpu_id.family_id == MESON_CPU_MAJOR_ID_SC2) + storage_post_init(); + + /*2. Enter the probe of the valid device*/ + for (i = 0; i < ARRAY_SIZE(device_list); i++) { + if (record & BIT(i)) { + ret = device_list[i].probe(init_flag); + if (ret) + pr_info("the 0x%x storage device probe failed\n", + device_list[i].index); + } + } + + return record; +} + +static struct storage_t *store_get_current(void) +{ + return current; +} + +int store_set_device(enum boot_type_e type) +{ + struct list_head *entry; + struct storage_t *dev, *store_dev = store_get_current(); + + if (!store_dev) { + pr_info("%s %d no current device\n", __func__, __LINE__); + return 1; + } + if (store_dev->type == type) + return 0; + list_for_each(entry, &store_dev->list) { + dev = list_entry(entry, struct storage_t, list); + if (dev->type == type) { + current = dev; + return 0; + } + } + pr_info("%s %d please confirm the %d device is valid\n", + __func__, __LINE__, type); + return 1; +} + +enum boot_type_e store_get_type(void) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return BOOT_NONE; + } + + return store->type; +} + +int store_get_device_info(struct storage_info_t *info) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + + memcpy((char *)info, (char *)&store->info, + sizeof(struct storage_info_t)); + return 0; +} + +int store_get_device_bootloader_mode(void) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return -1; + } + return store->info.mode; +} + +int store_read(const char *name, loff_t off, size_t size, void *buf) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->read(name, off, size, buf); +} + +int store_write(const char *name, loff_t off, size_t size, void *buf) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->write(name, off, size, buf); +} + +int store_erase(const char *name, loff_t off, size_t size, int scrub) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->erase(name, off, size, scrub); +} + +u64 store_part_size(const char *name) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->get_part_size(name); +} + +u8 store_boot_copy_num(const char *name) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->get_copies(name); +} + + +#ifndef SYSCTRL_SEC_STATUS_REG2 +static u32 fake_reg = 0; +#define SYSCTRL_SEC_STATUS_REG2 (&fake_reg) +#endif +u8 store_boot_copy_start(void) +{ + struct storage_t *store = store_get_current(); + //cpu_id_t cpu_id = get_cpu_id(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 0; + } + if (store->type != BOOT_EMMC) + return 0; + if (0) // (cpu_id.family_id == MESON_CPU_MAJOR_ID_SC2) + return storage_get_emmc_boot_start(); + return 0; +} + +u8 store_bootup_bootidx(const char *name) +{ + // cpu_id_t cpu_id = get_cpu_id(); + u8 bl2_idx = 0, fip_idx = 0; + u32 val = 0; + + if (0) { // cpu_id.family_id == MESON_CPU_MAJOR_ID_SC2) { + bl2_idx = readl(SYSCTRL_SEC_STATUS_REG2) & 0xF; + //TODO: fixme after robust devfip is finished. + fip_idx = bl2_idx; + } else { + /* accroding to the: + commit 975b4acbcfa686601999d56843471d98e9c0a2cd + storage: robust boot: record bootlog in SEC_AO_SEC_GP_CFG2 [1/2] + PD#SWPL-4850 + ... + record the bootup bl2/fip into SEC_AO_SEC_GP_CFG2 + bit[27-25] bl2 + bit[24-22] fip + */ + val = readl(SEC_AO_SEC_GP_CFG2); + bl2_idx = (val >> 25) & 0x7; + fip_idx = (val >> 22) & 0x7; + } + if (!strncmp(name, "bl2", sizeof("bl2")) || + !strncmp(name, "spl", sizeof("spl"))) + return bl2_idx; + else + return fip_idx; +} + +void store_restore_bootidx(void) +{ + // cpu_id_t cpu_id = get_cpu_id(); + if (0) { // (cpu_id.family_id == MESON_CPU_MAJOR_ID_SC2) { + extern void aml_set_bootsequence(uint32_t val); + aml_set_bootsequence(0x55); + } + return; +} + +u64 store_boot_copy_size(const char *name) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->get_copy_size(name); +} + +int store_boot_read(const char *name, u8 copy, size_t size, void *buf) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->boot_read(name, copy, size, buf); +} + +int store_boot_write(const char *name, u8 copy, size_t size, void *buf) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->boot_write(name, copy, size, buf); +} + +int store_boot_erase(const char *name, u8 copy) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->boot_erase(name, copy); +} + +u32 store_rsv_size(const char *name) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->get_rsv_size(name); +} + +int store_rsv_read(const char *name, size_t size, void *buf) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->read_rsv(name, size, buf); +} + +int store_rsv_write(const char *name, size_t size, void *buf) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->write_rsv(name, size, buf); +} + +int store_rsv_erase(const char *name) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->erase_rsv(name); +} + +int store_rsv_protect(const char *name, bool ops) +{ + struct storage_t *store = store_get_current(); + + if (!store) { + pr_info("%s %d please init storage device first\n", + __func__, __LINE__); + return 1; + } + return store->protect_rsv(name, ops); +} + +static int do_store_init(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + u32 init_flag = 1; + u8 ret = 0; + + if (unlikely(argc != 2 && argc != 3)) + return CMD_RET_USAGE; + + if (argc == 3) + init_flag = simple_strtoul(argv[2], NULL, 10); + + /*Returns a nonzero value: device index*/ + if (store_init(init_flag)) + ret = 0; + else ret = 1; + return ret; +} + +void store_print_device(struct storage_t *store_dev) +{ + int i; + + for (i = 0; i < ARRAY_SIZE(device_list); i++) + if (store_dev->type & device_list[i].index) + pr_info("device type: [%s]\n", device_list[i].type); + pr_info("name %s\n", store_dev->info.name); + pr_info("id :"); + for (i = 0; i < ARRAY_SIZE(store_dev->info.id); i++) + pr_info(" 0x%x", store_dev->info.id[i]); + pr_info("\n"); + pr_info("read unit %d\n", store_dev->info.read_unit); + pr_info("write unit %d\n", store_dev->info.write_unit); + pr_info("erase unit %d\n", store_dev->info.erase_unit); + pr_info("total size %lld\n", store_dev->info.caps); + if (store_dev->info.mode) + pr_info("bootloader in discrete mode : %d\n", + store_dev->info.mode); + else + pr_info("bootloader in compact mode : %d\n", + store_dev->info.mode); +} + +static int do_store_device(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + if (argc == 2) { + struct storage_t *store_dev, *dev; + struct list_head *entry; + + store_dev = store_get_current(); + pr_info("current device:\n"); + pr_info("----------------------------------\n"); + store_print_device(store_dev); + pr_info("----------------------------------\n"); + list_for_each(entry, &store_dev->list) { + dev = list_entry(entry, struct storage_t, list); + pr_info("valid device:\n"); + pr_info("----------------------------------\n"); + store_print_device(dev); + pr_info("----------------------------------\n"); + } + return 0; + } else if (argc == 3) { + char *name = NULL; + int i = 0, ret = 0; + name = argv[2]; + for (i = 0; i < ARRAY_SIZE(device_list); i++) + if (!strcmp(name, device_list[i].type)) { + + ret = store_set_device(device_list[i].index); + if (!ret) { + pr_info("now current device is: %s\n", + name); + return 0; + } + } + pr_info("%s %d no such device: %s\n", + __func__, __LINE__, name); + return ret; + } + return CMD_RET_USAGE; +} + +static int do_store_partition(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store_dev; + int i = 0, partitions = 0; + int ret = 0; + char name[16]; + + if (argc > 2) + return CMD_RET_USAGE; + else { + store_dev = store_get_current(); + if (store_dev->get_part_count) + partitions = store_dev->get_part_count(); + pr_info("%d partitions of device %s:\n", + partitions, store_dev->info.name); + + if (store_dev->list_part_name) + ret = store_dev->list_part_name(i, name); + + return ret; + } +} + +#ifdef CONFIG_AML_MTD +extern int is_mtd_store_boot_area(const char *part_name); +#endif +static int do_store_erase(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store = store_get_current(); + unsigned long offset; + size_t size = 0; + char *name = NULL; + char *s; + int scrub_flag = 0, ret; + unsigned long time; + + const char *scrub = + "Warning: scrub_flag is 1!!!!" + "scrub operation!!!\n" + "will erase oob area\n" + "There is no reliable way to recover them.\n" + " " + "are sure of what you are doing!\n" + "\nReally erase this NAND flash? \n"; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + if (strncmp(argv[1], "scrub", 5) == 0) + scrub_flag = 1; + + if (scrub_flag == 1) { + puts(scrub); + if (!confirm_yesno()) { + printf("erase aborted\n"); + return 1; + } + } + + /*store erase.chip*/ + s = strchr(argv[1], '.'); + if (s != NULL && strcmp(s, ".chip") == 0) { + offset = 0; + } else { + /*store erase normal, partition name can't NULL*/ + if (unlikely(argc != 5)) + return CMD_RET_USAGE; + + size = (size_t)simple_strtoul(argv[argc - 1], NULL, 16); + offset = simple_strtoul(argv[argc - 2], NULL, 16); + name = argv[2]; +#ifdef CONFIG_AML_MTD + if (is_mtd_store_boot_area(name)) { + pr_info("%s %d please enter normal partition name except tpl area!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } +#endif + } + + time = get_timer(0); + ret = store->erase(name, offset, size, scrub_flag); + time = get_timer(time); + + if (size != 0) + printf("%lu bytes ", size); + + printf("erased in %lu ms", time); + if ((time > 0) && (size != 0)) { + puts(" ("); + print_size(div_u64(size, time) * 1000, "/s"); + puts(")"); + } + puts("\n"); + + return ret; +} + +static int do_store_read(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store = store_get_current(); + unsigned long offset, addr, time; + size_t size; + char *name = NULL; + int ret; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + if (unlikely(argc != 5 && argc != 6)) + return CMD_RET_USAGE; + + addr = simple_strtoul(argv[2], NULL, 16); + size = (size_t)simple_strtoul(argv[argc - 1], NULL, 16); + offset = simple_strtoul(argv[argc - 2], NULL, 16); + if (argc == 6) + name = argv[3]; +#ifdef CONFIG_AML_MTD + if (is_mtd_store_boot_area(name)) { + pr_info("%s %d please enter normal partition name except tpl area!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } +#endif + time = get_timer(0); + ret = store->read(name, offset, size, (u_char *)addr); + time = get_timer(time); + + if (size != 0) + printf("%lu bytes ", size); + + printf("read in %lu ms", time); + if ((time > 0) && (size != 0)) { + puts(" ("); + print_size(div_u64(size, time) * 1000, "/s"); + puts(")"); + } + puts("\n"); + + return ret; +} + +static int name2index(struct boot_layout *boot_layout, const char *img) +{ + boot_area_entry_t *boot_entry = NULL; + int i; + + boot_entry = boot_layout->boot_entry; + for (i = 1; i < MAX_BOOT_AREA_ENTRIES && boot_entry[i].size; i++) { + if (!strncmp(img, boot_entry[i].name, strlen(boot_entry[i].name))) + return i; + } + + return -1; +} + +static int do_store_write_bl2img(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store = store_get_current(); + unsigned long offset, addr; + size_t size, size_src; + char *name = NULL; + int ret = -1, index; + struct boot_layout *boot_layout = &general_boot_layout; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + addr = simple_strtoul(argv[2], NULL, 16); + name = argv[3]; + size = simple_strtoul(argv[4], NULL, 16); + + index = name2index(&general_boot_layout, name); + offset = boot_layout->boot_entry[index].offset; + size_src = boot_layout->boot_entry[index].size; + printf("[%s] offset:0x%lx, index:%d\n", name, offset, index); + + if (size_src != size) + printf("new img size:0x%lx != img src:0x%lx\n", size, size_src); + + ret = store->boot_write(name, offset, size, (u_char *)addr); + + return ret; +} + +int store_write_bl2img(void* addr, const char *name, size_t size) +{ + struct storage_t *store = store_get_current(); + unsigned long offset; + size_t size_src; + int ret = -1, index; + struct boot_layout *boot_layout = &general_boot_layout; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + index = name2index(&general_boot_layout, name); + offset = boot_layout->boot_entry[index].offset; + size_src = boot_layout->boot_entry[index].size; + printf("[%s] offset:0x%lx, index:%d\n", name, offset, index); + + if (size_src != size) + printf("new img size:0x%zx != img src:0x%zx\n", size, size_src); + + ret = store->boot_write(name, offset, size, (u_char *)addr); + if (size != 0) + printf("[%s][%d]%lx bytes\n", __func__, __LINE__, size); + + return ret; +} + +static int do_store_write(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store = store_get_current(); + unsigned long offset, addr, time; + size_t size; + char *name = NULL; + int ret; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + if (unlikely(argc != 5 && argc != 6)) + return CMD_RET_USAGE; + + addr = simple_strtoul(argv[2], NULL, 16); + offset = simple_strtoul(argv[argc - 2], NULL, 16); + size = (size_t)simple_strtoul(argv[argc - 1], NULL, 16); + if (argc == 6) + name = argv[3]; +#ifdef CONFIG_AML_MTD + if (is_mtd_store_boot_area(name)) { + pr_info("%s %d please enter normal partition name except tpl area!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } +#endif + time = get_timer(0); + ret = store->write(name, offset, size, (u_char *)addr); + time = get_timer(time); + + if (size != 0) + printf("%lu bytes ", size); + + printf("write in %lu ms", time); + if ((time > 0) && (size != 0)) { + puts(" ("); + print_size(div_u64(size, time) * 1000, "/s"); + puts(")"); + } + puts("\n"); + + return ret; +} + +static int do_store_boot_read(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store = store_get_current(); + unsigned long addr; + size_t size; + u8 cpy; + char *name; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + if (unlikely(argc != 6)) + return CMD_RET_USAGE; + + name = argv[2]; + addr = (unsigned long)simple_strtoul(argv[3], NULL, 16); + cpy = (u8)simple_strtoul(argv[4], NULL, 16); + size = (size_t)simple_strtoul(argv[5], NULL, 16); + + return store->boot_read(name, cpy, size, (u_char *)addr); +} + +static int bl2x_mode_check_header(p_payload_info_t pInfo) +{ + p_payload_info_hdr_t hdr = &pInfo->hdr; + const int nItemNum = hdr->byItemNum; + p_payload_info_item_t pItem = pInfo->arrItems; + u8 i = 0; + int sz_payload = 0; + uint64_t align_size = 1; + struct storage_startup_parameter *ssp = &g_ssp; + u8 cal_copy = ssp->boot_bakups; + + printf("\naml log : info parse...\n"); + printf("\tsztimes : %s\n",hdr->szTimeStamp); + printf("\tversion : %d\n",hdr->byVersion); + printf("\tItemNum : %d\n",nItemNum); + printf("\tSize : %d(0x%x)\n", hdr->nSize, hdr->nSize); + if (nItemNum > 8 || nItemNum < 3) { + pr_info("illegal nitem num %d\n", nItemNum); + return __LINE__; + } + if (ssp->boot_device == BOOT_NAND_MTD) + align_size = ((NAND_RSV_OFFSET / cal_copy) * ssp->sip.nsp.page_size); + else if (ssp->boot_device == BOOT_SNAND) + align_size = ((NAND_RSV_OFFSET / cal_copy) * ssp->sip.snasp.pagesize); + + sz_payload = pItem->nPayLoadSize; + STORAGE_ROUND_UP_IF_UNALIGN(sz_payload, align_size); + if (sz_payload > ssp->boot_entry[0].size) + return __LINE__; + if (ssp->boot_device == BOOT_NAND_MTD) + align_size = ssp->sip.nsp.block_size; + else if (ssp->boot_device == BOOT_SNAND) + align_size = ssp->sip.snasp.pagesize * + ssp->sip.snasp.pages_per_eraseblock; + ++pItem; + + for (i = 1; i < nItemNum; i++, ++pItem) { + sz_payload = pItem->nPayLoadSize; + STORAGE_ROUND_UP_IF_UNALIGN(sz_payload, align_size); + if (sz_payload > ssp->boot_entry[i].size) + return __LINE__; + } + + return 0; +} + +static int _store_boot_write(const char *part_name, u8 cpy, size_t size, void *addr) +{ + // cpu_id_t cpu_id = get_cpu_id(); + enum boot_type_e medium_type = store_get_type(); + struct storage_startup_parameter *ssp = &g_ssp; + //struct storage_boot_entry *boot_entry = ssp->boot_entry; + //u8 i; + int ret = 0; + struct storage_t *store = store_get_current(); + int bl2_size = BL2_SIZE; + int bl2_cpynum = 0; + int tpl_per_size = CONFIG_TPL_SIZE_PER_COPY; + int tpl_cpynum = 0; + int bootloader_maxsize = 0; + + if (store_get_device_bootloader_mode() != DISCRETE_BOOTLOADER) + return store->boot_write(part_name, cpy, size, (u_char *)addr); + + if (BOOT_NAND_MTD == medium_type || BOOT_SNAND == medium_type) + tpl_cpynum = CONFIG_NAND_TPL_COPY_NUM; + else if (medium_type == BOOT_SNOR) + tpl_cpynum = CONFIG_NOR_TPL_COPY_NUM; + + if (0) { // cpu_id.family_id == MESON_CPU_MAJOR_ID_SC2) { + bl2_cpynum = ssp->boot_bakups; + } else { + bootloader_maxsize = bl2_size + tpl_per_size; + bl2_cpynum = CONFIG_BL2_COPY_NUM; + if (size > bootloader_maxsize) { + pr_info("bootloader sz 0x%lx too large,max sz 0x%x\n", + size, bootloader_maxsize); + return CMD_RET_FAILURE; + } + } + + if ((cpy >= tpl_cpynum || cpy >= bl2_cpynum) && (cpy != BOOT_OPS_ALL)) { + pr_info("update copy %d invalid, must < min(%d, %d)\n", + cpy, tpl_cpynum, bl2_cpynum); + return CMD_RET_FAILURE; + } + + p_payload_info_t pinfo = parse_uboot_sheader((u8 *)addr); + + if (!pinfo) { + ret = store->boot_write("tpl", cpy, size - bl2_size, (u_char *)(addr +bl2_size)); + if (ret) { + pr_info("failed update tpl\n"); + return CMD_RET_FAILURE; + } + } else { + if (bl2x_mode_check_header(pinfo)) { + pr_info("!!!warning bl2xx size is bigger than bl2x layout size\n"); + pr_info("plase check bl2x,or erase flash and turn off\n"); + pr_info("then turn on, and update uboot again\n"); + return CMD_RET_FAILURE; + } + + char name[8]; + int nindex = 0; + p_payload_info_hdr_t hdr = &pinfo->hdr; + p_payload_info_item_t pitem = pinfo->arrItems; + int off_payload = 0; + int sz_payload = 0; + + memset(name, 0, 8); + for (nindex = 1, pitem +=1; nindex < hdr->byItemNum; ++nindex, ++pitem) { + memcpy(name, &pitem->nMagic, sizeof(unsigned int)); + off_payload = pitem->nOffset; + sz_payload = pitem->nPayLoadSize; + pr_info("item[%d]%4s offset 0x%08x sz 0x%x\n", + nindex, name, off_payload, sz_payload); + if (!sz_payload) + continue; + ret = store->boot_write(general_boot_part_entry[nindex].name, cpy, sz_payload, (u_char *)(addr + off_payload)); + if (ret) { + pr_info("Fail in flash payload %s\n",name); + return CMD_RET_FAILURE; + } + } + } + + ret = store->boot_write("bl2", cpy, bl2_size, (u_char *)addr); + if (ret) { + pr_info("Fail in flash payload bl2\n"); + return CMD_RET_FAILURE; + } + return ret; + +} + +static int do_store_boot_write(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store = store_get_current(); + unsigned long addr; + size_t size; + u8 cpy = BOOT_OPS_ALL; + char *name; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + if (unlikely(argc != 5 && argc != 6)) + return CMD_RET_USAGE; + + name = argv[2]; + addr = (unsigned long)simple_strtoul(argv[3], NULL, 16); + size = (size_t)simple_strtoul(argv[argc - 1], NULL, 16); + if (argc == 6) + cpy = (u8)simple_strtoul(argv[4], NULL, 16); + + if (strcmp(name, "bootloader") == 0) { + return _store_boot_write(name, cpy, size, (u_char *)addr); + } + + return store->boot_write(name, cpy, size, (u_char *)addr); +} + +static int do_store_boot_erase(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store = store_get_current(); + u8 cpy = BOOT_OPS_ALL; + char *name; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + if (unlikely(argc != 3 && argc != 4)) + return CMD_RET_USAGE; + + name = argv[2]; + if (argc == 4) + cpy = (u8)simple_strtoul(argv[3], NULL, 16); + + return store->boot_erase(name, cpy); +} + +static int do_store_rsv_ops(struct cmd_tbl *cmdtp, + int flag, int argc, char * const argv[]) +{ + struct storage_t *store = store_get_current(); + char *name = NULL; + + if (!store) { + pr_info("%s %d please init your storage device first!\n", + __func__, __LINE__); + return CMD_RET_FAILURE; + } + + if (!strcmp(argv[2], "erase")) { + if (argc == 3) + ; + else if (argc == 4) + name = argv[3]; + else + return CMD_RET_USAGE; + return store->erase_rsv(name); + } else if (!strcmp(argv[2], "read") || + !strcmp(argv[2], "write")) { + u8 cmd = strcmp(argv[2], "read") ? 0 : 1; + unsigned long addr = simple_strtoul(argv[4], NULL, 16); + size_t size = (size_t)simple_strtoul(argv[5], NULL, 16); + + name = argv[3]; + if (unlikely(argc != 6)) + return CMD_RET_USAGE; + if (cmd) + return store->read_rsv(name, size, (u_char *)addr); + else + return store->write_rsv(name, size, (u_char *)addr); + } else if (!strcmp(argv[2], "protect")) { + bool flag = false; + char *ops; + + if (unlikely(argc != 4 && argc != 5)) + return CMD_RET_USAGE; + + name = (argc == 4) ? NULL : argv[3]; + ops = argv[argc - 1]; + if (!strcmp(ops, "on")) + flag = true; + else if (!strcmp(ops, "off")) + flag = false; + return store->protect_rsv(name, flag); + } + return CMD_RET_USAGE; +} + +static struct cmd_tbl cmd_store_sub[] = { + U_BOOT_CMD_MKENT(init, 4, 0, do_store_init, "", ""), + U_BOOT_CMD_MKENT(device, 4, 0, do_store_device, "", ""), + U_BOOT_CMD_MKENT(partition, 3, 0, do_store_partition, "", ""), + U_BOOT_CMD_MKENT(scrub, 5, 0, do_store_erase, "", ""), + U_BOOT_CMD_MKENT(erase, 5, 0, do_store_erase, "", ""), + U_BOOT_CMD_MKENT(read, 6, 0, do_store_read, "", ""), + U_BOOT_CMD_MKENT(write, 7, 0, do_store_write, "", ""), + U_BOOT_CMD_MKENT(write_bl2img, 5, 0, do_store_write_bl2img, "", ""), + U_BOOT_CMD_MKENT(boot_read, 6, 0, do_store_boot_read, "", ""), + U_BOOT_CMD_MKENT(boot_write, 6, 0, do_store_boot_write, "", ""), + U_BOOT_CMD_MKENT(boot_erase, 4, 0, do_store_boot_erase, "", ""), + U_BOOT_CMD_MKENT(rsv, 6, 0, do_store_rsv_ops, "", ""), +}; + +static int do_store(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + struct cmd_tbl *c; + + if (argc < 2) + return CMD_RET_USAGE; + + c = find_cmd_tbl(argv[1], cmd_store_sub, ARRAY_SIZE(cmd_store_sub)); + if (c) + return c->cmd(cmdtp, flag, argc, argv); + + return CMD_RET_USAGE; +} + +U_BOOT_CMD(store, CONFIG_SYS_MAXARGS, 1, do_store, + "STORE sub-system:", + "store init [flag]\n" + " init storage device\n" + "store device [name]\n" + " show or set storage device\n" + " 'store device' command will list\n" + " all valid storage device and print.\n" + " 'store device [name]' will set the\n" + " [name] device to the current device\n" + "store partition\n" + " show partitions of current device\n" + "store read addr [partition name] off size\n" + " read 'size' bytes from offset 'off'\n" + " of device/partition 'partition name' to.\n" + " address 'addr' of memory.\n" + " if partition name not value. read start with\n" + " offset in normal logic area,if tpl area exist\n" + " read offset at end of tpl area\n" + "store write addr [partition name] off size\n" + " write 'size' bytes to offset 'off' of\n" + " device/partition [partition name] from\n" + " address 'addr' of memory.\n" + " if partition name not value. write start with\n" + " offset in normal logic area,if tpl area exist\n" + " write offset at end of tpl area\n" + "store erase partition name off size.\n" + " erase 'size' bytes from offset 'off'\n" + " of device/partition [partition name]\n" + " partition name must't NULL\n" + "store scrub partition name off size.\n" + " erase 'size' bytes from offset 'off'\n" + " of device/partition [partition name]\n" + " includes oob area if the device has.\n" + " partition name must't NULL\n" + "store erase.chip\n" + " erase all nand chip,except bad block\n" + "store scrub.chip\n" + " erase all nand chip,include bad block\n" + "store boot_read name addr copy size\n" + " read 'size' bytes from 'copy'th backup\n" + " in name partition, 'copy' can't be null.\n" + " name:\n" + " in discrete mode: 'bl2'/'tpl'(fip)\n" + " in compact mode: 'bootloader'\n" + "store boot_write name addr [copy] size\n" + " write 'size' bytes to 'copy'th backup\n" + " in [name] partition from address\n" + " 'addr' of memory. when the optional 'copy'\n" + " is null, it will writes to all copies\n" + " name:\n" + " in discrete mode:\n" + " 'bl2/bl2e/bl2x/ddrfip/tpl(fip), only update part\n" + " 'bootloader', update whole uboot.bin, in this case\n" + " @copy:if used, must < min(tplCpyNum, Bl2CpyNum), update only the specified copy\n" + " if not used, update all the copies of bl2 bl2e bl2x ddrfip tpl!\n" + " in compact mode: 'bootloader'\n" + "store boot_erase name [copy]\n" + " erase the name info from 'copy'th backup\n" + " when the optional 'copy' not value, it\n" + " will erase all copies.\n" + " name:\n" + " in discrete mode: \n" + " 'bl2'/'tpl'(fip): erase bl2/tpl partition\n" + " 'bootloader':erase bl2 + tpl partition\n" + " in compact mode: 'bootloader'\n" + "store rsv read name addr size\n" + " read 'size' bytes 'name' rsv info\n" + " to address 'addr' of memory\n" + " 'name' could be key/dtb/env etc...\n" + "store rsv write name addr size\n" + " write 'size' bytes 'name' rsv info\n" + " from address 'addr' of memory\n" + "store rsv erase name\n" + " erase 'name' rsv info\n" + " name must't null\n" + "store rsv protect name on/off\n" + " turn on/off the rsv info protection\n" + " name must't null\n" +); diff --git a/common/aml_dt.c b/common/aml_dt.c new file mode 100644 index 0000000000..a6888999d4 --- /dev/null +++ b/common/aml_dt.c @@ -0,0 +1,600 @@ +/* +* Copyright (C) 2017 Amlogic, Inc. All rights reserved. +* * +This program is free software; you can redistribute it and/or modify +* it under the terms of the GNU General Public License as published by +* the Free Software Foundation; either version 2 of the License, or +* (at your option) any later version. +* * +This program is distributed in the hope that it will be useful, but WITHOUT +* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or +* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for +* more details. +* * +You should have received a copy of the GNU General Public License along +* with this program; if not, write to the Free Software Foundation, Inc., +* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. +* * +Description: +*/ +#include +#include +#include +#include +#include +#include +#include +#include +#include + +//#define AML_DT_DEBUG +#ifdef AML_DT_DEBUG +#define dbg_printf(...) printf(__VA_ARGS__) +#else +#define dbg_printf(...) ((void)0) +#endif + +#define AML_MULTI_DTB_API_NEW +//#define AML_MULTI_DTB_CHECK_CMD //command for multi-dtb test + +#ifdef AML_MULTI_DTB_API_NEW + +/*for multi-dtb gzip buffer*/ +#define GUNZIP_BUF_SIZE (1<<20) /*1MB is enough?*/ + +/*magic for multi-dtb*/ +#define MAGIC_GZIP_MASK (0x0000FFFF) +#define MAGIC_GZIP_ID (0x00008B1F) +#define IS_GZIP_PACKED(nMagic) (MAGIC_GZIP_ID == (MAGIC_GZIP_MASK & nMagic)) +#define MAGIC_DTB_SGL_ID (0xedfe0dd0) +#define MAGIC_DTB_MLT_ID (0x5f4c4d41) + +/*amlogic multi-dtb version*/ +#define AML_MUL_DTB_VER_1 (1) +#define AML_MUL_DTB_VER_2 (2) + +/*max char for dtb name, fixed to soc_package_board format*/ +#define AML_MAX_DTB_NAME_SIZE (128) +#define AML_DTB_TOKEN_MAX_COUNT (AML_MAX_DTB_NAME_SIZE>>1) + +typedef struct{ + unsigned int nMagic; + unsigned int nVersion; + unsigned int nDTBCount; +}st_dtb_hdr_t,*p_st_dtb_hdr_t; + +/*v1,v2 multi-dtb only support max to 3 tokens for each DTB name*/ +#define MULTI_DTB_TOKEN_MAX_COUNT (3) +#define MULTI_DTB_TOKEN_UNIT_SIZE_V1 (4) //v1 support 4bytes for each token +#define MULTI_DTB_TOKEN_UNIT_SIZE_V2 (16) //v2 support 16bytes for each token + +/*v1 multi-dtb*/ +typedef struct{ + unsigned char szToken[MULTI_DTB_TOKEN_MAX_COUNT][MULTI_DTB_TOKEN_UNIT_SIZE_V1]; + int nDTBOffset; + int nDTBIMGSize; +}st_dtb_token_v1_t,*p_st_dtb_token_v1_t; + +typedef struct{ + st_dtb_hdr_t hdr; + st_dtb_token_v1_t dtb[1]; +}st_dtb_v1_t,*p_st_dtb_v1_t; + + +/*v2 multi-dtb*/ +typedef struct{ + unsigned char szToken[MULTI_DTB_TOKEN_MAX_COUNT][MULTI_DTB_TOKEN_UNIT_SIZE_V2]; + int nDTBOffset; + int nDTBIMGSize; +}st_dtb_token_v2_t,*p_st_dtb_token_v2_t; + +typedef struct{ + st_dtb_hdr_t hdr; + st_dtb_token_v2_t dtb[1]; +}st_dtb_v2_t,*p_st_dtb_v2_t; + + +/*to get the valid DTB index with matched DTB name*/ +static int get_dtb_index(const char aml_dt_buf[128],unsigned long fdt_addr) +{ + int nReturn = -1; + + if (!aml_dt_buf) + goto exit; + + p_st_dtb_hdr_t pDTBHdr = (p_st_dtb_hdr_t)fdt_addr; + char sz_aml_dt_msb[10][MULTI_DTB_TOKEN_UNIT_SIZE_V2]; + memset(sz_aml_dt_msb,0,sizeof(sz_aml_dt_msb)); + + /* split aml_dt with token '_', e.g "tm2-revb_t962x3_ab301" */ + //printf(" aml_dt : %s\n",aml_dt_buf); + + char *tokens[AML_DTB_TOKEN_MAX_COUNT]; + char sz_temp[AML_MAX_DTB_NAME_SIZE+4]; + memset(tokens,0,sizeof(tokens)); + memset(sz_temp,0,sizeof(sz_temp)); + strncpy(sz_temp,aml_dt_buf,128); + int i,j; + int nLen = strlen(sz_temp); + sz_temp[nLen]='_'; + sz_temp[nLen+1]='\0'; + nLen +=1; + tokens[0]=sz_temp; + for (i = 1; i < sizeof(tokens)/sizeof(tokens[0]); i++) + { + tokens[i] = strstr(tokens[i-1],"_"); + if (!tokens[i]) + break; + + *tokens[i]='\0'; + + tokens[i]=tokens[i]+1; + + if (!(*tokens[i])) + { + tokens[i] = 0; + break; + } + } + + //for (i=0;i<10 && tokens[i];++i) + // printf("token-%d:%s\n",i,tokens[i]); + + int nTokenLen = 0; + + switch (pDTBHdr->nVersion) + { + case AML_MUL_DTB_VER_1: + { + nTokenLen = MULTI_DTB_TOKEN_UNIT_SIZE_V1; + }break; + case AML_MUL_DTB_VER_2: + { + nTokenLen = MULTI_DTB_TOKEN_UNIT_SIZE_V2; + }break; + default: goto exit; break; + } + + + for (i = 0;i> ((3-m)<<3)) & 0xFF; + + /*replace 0 with 0x20*/ + for (m=0;mnVersion) + { + case AML_MUL_DTB_VER_1: + { + p_st_dtb_v1_t pDTB_V1 = (p_st_dtb_v1_t)fdt_addr; + for (i=0;i< pDTB_V1->hdr.nDTBCount;++i) + { + if (!memcmp(pDTB_V1->dtb[i].szToken,sz_aml_dt_msb, + MULTI_DTB_TOKEN_MAX_COUNT*nTokenLen)) + { + nReturn = i; + break; + } + } + + }break; + case AML_MUL_DTB_VER_2: + { + p_st_dtb_v2_t pDTB_V2 = (p_st_dtb_v2_t)fdt_addr; + for (i=0;i< pDTB_V2->hdr.nDTBCount;++i) + { + if (!memcmp(pDTB_V2->dtb[i].szToken,sz_aml_dt_msb, + MULTI_DTB_TOKEN_MAX_COUNT*nTokenLen)) + { + nReturn = i; + break; + } + } + + }break; + default: goto exit; break; + } + +exit: + + return nReturn; + +} + +unsigned long __attribute__((unused)) get_multi_dt_entry(unsigned long fdt_addr) +{ + unsigned long lReturn = 0; //return buffer for valid DTB; + void * gzip_buf = NULL; + unsigned long pInputFDT = fdt_addr; + p_st_dtb_hdr_t pDTBHdr = (p_st_dtb_hdr_t)pInputFDT; + unsigned long unzip_size = GUNZIP_BUF_SIZE; + + printf(" Amlogic Multi-DTB tool\n"); + + /* first check the blob header, support GZIP format */ + if ( IS_GZIP_PACKED(pDTBHdr->nMagic)) + { + printf(" GZIP format, decompress...\n"); + gzip_buf = malloc(GUNZIP_BUF_SIZE); + if (!gzip_buf) + { + printf(" ERROR! fail to allocate memory for GUNZIP...\n"); + goto exit; + } + memset(gzip_buf, 0, GUNZIP_BUF_SIZE); + if (gunzip(gzip_buf, GUNZIP_BUF_SIZE, (void *)pInputFDT, &unzip_size) < 0) + { + printf(" ERROR! GUNZIP process fail...\n"); + goto exit; + } + if (unzip_size > GUNZIP_BUF_SIZE) + { + printf(" ERROR! GUNZIP overflow...\n"); + goto exit; + } + //memcpy((void*)fdt_addr,gzip_buf,unzip_size); + pInputFDT = (unsigned long)gzip_buf; + pDTBHdr = (p_st_dtb_hdr_t)pInputFDT; + } + + + switch (pDTBHdr->nMagic) + { + case MAGIC_DTB_SGL_ID: + { + printf(" Single DTB detected\n"); + + if (fdt_addr != (unsigned long)pInputFDT) //in case of GZIP single DTB + memcpy((void*)fdt_addr,(void*)pInputFDT,unzip_size); + + lReturn = fdt_addr; + + }break; + case MAGIC_DTB_MLT_ID: + { + printf(" Multi DTB detected.\n"); + printf(" Multi DTB tool version: v%d.\n", pDTBHdr->nVersion); + printf(" Support %d DTBS.\n", pDTBHdr->nDTBCount); + + + /* check and set aml_dt */ + char aml_dt_buf[AML_MAX_DTB_NAME_SIZE+4]; + memset(aml_dt_buf, 0, sizeof(aml_dt_buf)); + + /* update 2016.07.27, checkhw and setenv everytime, + or else aml_dt will set only once if it is reserved */ + extern int checkhw(char * name); +#if 1 + if (checkhw(aml_dt_buf) < 0 || strlen(aml_dt_buf) <= 0) + { + printf(" Get env aml_dt failed!\n"); + goto exit; + } +#else + char *aml_dt = getenv(AML_DT_UBOOT_ENV); + /* if aml_dt not exist or env not ready, get correct dtb by name */ + if (NULL == aml_dt) + checkhw(aml_dt_buf); + else + memcpy(aml_dt_buf, aml_dt, + (strlen(aml_dt)>AML_MAX_DTB_NAME_SIZE?AML_MAX_DTB_NAME_SIZE:(strlen(aml_dt)+1))); +#endif + + int dtb_match_num = get_dtb_index(aml_dt_buf,(unsigned long)pInputFDT); + + /*check valid dtb index*/ + if (dtb_match_num < 0 || dtb_match_num >= pDTBHdr->nDTBCount) + { + printf(" NOT found matched DTB for \"%s\"\n",aml_dt_buf); + goto exit; + } + + printf(" Found DTB for \"%s\"\n",aml_dt_buf); + + switch (pDTBHdr->nVersion) + { + case AML_MUL_DTB_VER_1: + { + p_st_dtb_v1_t pDTB_V1 = (p_st_dtb_v1_t)pInputFDT; + lReturn = pDTB_V1->dtb[dtb_match_num].nDTBOffset + pInputFDT; + + if (pInputFDT != fdt_addr) + { + memcpy((void*)fdt_addr, (void*)lReturn,pDTB_V1->dtb[dtb_match_num].nDTBIMGSize); + lReturn = fdt_addr; + } + + }break; + case AML_MUL_DTB_VER_2: + { + p_st_dtb_v2_t pDTB_V2 = (p_st_dtb_v2_t)pInputFDT; + lReturn = pDTB_V2->dtb[dtb_match_num].nDTBOffset + pInputFDT; + + if (pInputFDT != fdt_addr) + { + memcpy((void*)fdt_addr, (void*)lReturn,pDTB_V2->dtb[dtb_match_num].nDTBIMGSize); + lReturn = fdt_addr; + } + + }break; + default: + { + printf(" Invalid Multi-DTB Version [%d]!\n", + pDTBHdr->nVersion); + goto exit; + }break; + } + + }break; + default: goto exit; break; + } + +exit: + + if (gzip_buf) + { + free(gzip_buf); + gzip_buf = 0; + } + + return lReturn; +} + +#else //#ifdef AML_MULTI_DTB_API_NEW + +#define AML_DT_IND_LENGTH_V1 4 /*fixed*/ +#define AML_DT_IND_LENGTH_V2 16 /*fixed*/ + +#define AML_DT_IND_LENGTH 16 +#define AML_DT_ID_VARI_TOTAL 3 //Total 3 strings +#define AML_DT_EACH_ID_INT (AML_DT_IND_LENGTH / 4) + +/*Latest version: v2*/ +#define AML_DT_VERSION_OFFSET 4 +#define AML_DT_TOTAL_DTB_OFFSET 8 +#define AML_DT_FIRST_DTB_OFFSET 12 +//#define AML_DT_DTB_HEADER_SIZE (8+(AML_DT_IND_LENGTH * AML_DT_ID_VARI_TOTAL)) +#define AML_DT_DTB_DT_INFO_OFFSET 0 +//#define AML_DT_DTB_OFFSET_OFFSET (AML_DT_IND_LENGTH * AML_DT_ID_VARI_TOTAL) +//#define AML_DT_DTB_SIZE_OFFSET 16 + +#define AML_DT_UBOOT_ENV "aml_dt" +#define DT_HEADER_MAGIC 0xedfe0dd0 /*header of dtb file*/ +#define AML_DT_HEADER_MAGIC 0x5f4c4d41 /*"AML_", multi dtbs supported*/ + +#define IS_GZIP_FORMAT(data) ((data & (0x0000FFFF)) == (0x00008B1F)) +#define GUNZIP_BUF_SIZE (0x500000) /* 5MB */ +#define DTB_MAX_SIZE (AML_DTB_IMG_MAX_SZ) + +//#define readl(addr) (*(volatile unsigned int*)(addr)) +extern int checkhw(char * name); + +unsigned long __attribute__((unused)) + get_multi_dt_entry(unsigned long fdt_addr){ + unsigned int dt_magic = readl(fdt_addr); + unsigned int dt_total = 0; + unsigned int dt_tool_version = 0; + unsigned int gzip_format = 0; + void * gzip_buf = NULL; + unsigned long dt_entry = fdt_addr; + + printf(" Amlogic multi-dtb tool\n"); + + /* first check the file header, support GZIP format */ + gzip_format = IS_GZIP_FORMAT(dt_magic); + if (gzip_format) { + printf(" GZIP format, decompress...\n"); + gzip_buf = malloc(GUNZIP_BUF_SIZE); + memset(gzip_buf, 0, GUNZIP_BUF_SIZE); + unsigned long unzip_size = GUNZIP_BUF_SIZE; + gunzip(gzip_buf, GUNZIP_BUF_SIZE, (void *)fdt_addr, &unzip_size); + dbg_printf(" DBG: unzip_size: 0x%x\n", (unsigned int)unzip_size); + if (unzip_size > GUNZIP_BUF_SIZE) { + printf(" Warning! GUNZIP overflow...\n"); + } + fdt_addr = (unsigned long)gzip_buf; + dt_magic = readl(fdt_addr); + } + + dbg_printf(" DBG: fdt_addr: 0x%x\n", (unsigned int)fdt_addr); + dbg_printf(" DBG: dt_magic: 0x%x\n", (unsigned int)dt_magic); + + /*printf(" Process device tree. dt magic: %x\n", dt_magic);*/ + if (dt_magic == DT_HEADER_MAGIC) {/*normal dtb*/ + printf(" Single dtb detected\n"); + if (gzip_format) { + memcpy((void *)dt_entry, (void *)fdt_addr, DTB_MAX_SIZE); + fdt_addr = dt_entry; + if (gzip_buf) + free(gzip_buf); + } + return fdt_addr; + } + else if (dt_magic == AML_DT_HEADER_MAGIC) {/*multi dtb*/ + printf(" Multi dtb detected\n"); + /* check and set aml_dt */ + int i = 0; + char *aml_dt_buf; + aml_dt_buf = (char *)malloc(sizeof(char)*64); + printf("Multi dtb malloc aml_dt_buf addr = %p\n", aml_dt_buf); + memset(aml_dt_buf, 0, sizeof(aml_dt_buf)); + + /* update 2016.07.27, checkhw and setenv everytime, + or else aml_dt will set only once if it is reserved */ +#if 1 + checkhw(aml_dt_buf); +#else + char *aml_dt = getenv(AML_DT_UBOOT_ENV); + /* if aml_dt not exist or env not ready, get correct dtb by name */ + if (NULL == aml_dt) + checkhw(aml_dt_buf); + else + memcpy(aml_dt_buf, aml_dt, (strlen(aml_dt)>64?64:(strlen(aml_dt)+1))); +#endif + + unsigned int aml_dt_len = aml_dt_buf ? strlen(aml_dt_buf) : 0; + if (aml_dt_len <= 0) { + printf(" Get env aml_dt failed!\n"); + if (aml_dt_buf) + free(aml_dt_buf); + if (gzip_buf) + free(gzip_buf); + return fdt_addr; + } + + /*version control, compatible with v1*/ + dt_tool_version = readl(fdt_addr + AML_DT_VERSION_OFFSET); + unsigned int aml_each_id_length=0; + unsigned int aml_dtb_offset_offset; + unsigned int aml_dtb_header_size; + if (dt_tool_version == 1) + aml_each_id_length = 4; + else if(dt_tool_version == 2) + aml_each_id_length = 16; + + aml_dtb_offset_offset = aml_each_id_length * AML_DT_ID_VARI_TOTAL; + aml_dtb_header_size = 8+(aml_each_id_length * AML_DT_ID_VARI_TOTAL); + printf(" Multi dtb tool version: v%d .\n", dt_tool_version); + + /*fdt_addr + 0x8: num of dtbs*/ + dt_total = readl(fdt_addr + AML_DT_TOTAL_DTB_OFFSET); + printf(" Support %d dtbs.\n", dt_total); + + /* split aml_dt to 3 strings */ + char *tokens[3] = {NULL, NULL, NULL}; + for (i = 0; i < AML_DT_ID_VARI_TOTAL; i++) { + tokens[i] = strsep(&aml_dt_buf, "_"); + } + //if (aml_dt_buf) + //free(aml_dt_buf); + printf(" aml_dt soc: %s platform: %s variant: %s\n", tokens[0], tokens[1], tokens[2]); + + /*match and print result*/ + char **dt_info; + dt_info = (char **)malloc(sizeof(char *)*AML_DT_ID_VARI_TOTAL); + for (i = 0; i < AML_DT_ID_VARI_TOTAL; i++) + dt_info[i] = (char *)malloc(sizeof(char)*aml_each_id_length); + unsigned int dtb_match_num = 0xffff; + unsigned int x = 0, y = 0, z = 0; //loop counter + unsigned int read_data; + for (i = 0; i < dt_total; i++) { + for (x = 0; x < AML_DT_ID_VARI_TOTAL; x++) { + for (y = 0; y < aml_each_id_length; y+=4) { + read_data = readl(fdt_addr + AML_DT_FIRST_DTB_OFFSET + \ + i * aml_dtb_header_size + AML_DT_DTB_DT_INFO_OFFSET + \ + (x * aml_each_id_length) + y); + dt_info[x][y+0] = (read_data >> 24) & 0xff; + dt_info[x][y+1] = (read_data >> 16) & 0xff; + dt_info[x][y+2] = (read_data >> 8) & 0xff; + dt_info[x][y+3] = (read_data >> 0) & 0xff; + } + for (z=0; z 1) + loadaddr = simple_strtoul(argv[1],NULL,16); + + check_valid_dts((void*)loadaddr); + + return 0; +} + +U_BOOT_CMD( + dtb_chk, //command name + 2, //maxargs + 0, //repeatable + do_test, //command function + "multi-dtb check command", //description + " argv: dtb_chk \n" //usage + " do dtb check, which already loaded at .\n" +); +#endif //#ifdef AML_MULTI_DTB_CHECK_CMD diff --git a/common/partitions.c b/common/partitions.c new file mode 100644 index 0000000000..25ad5e447d --- /dev/null +++ b/common/partitions.c @@ -0,0 +1,206 @@ +#include +#include +#include +#include +#include +#include +#include + +#ifdef CONFIG_MULTI_DTB + extern unsigned long get_multi_dt_entry(unsigned long fdt_addr); +#endif + +struct partitions_data{ + int nr; + struct partitions *parts; +}; + +struct partitions *part_table = NULL; +static int parts_total_num; +int has_boot_slot = 0; +int has_system_slot = 0; +bool dynamic_partition = false; +bool vendor_boot_partition = false; + +int get_partitions_table(struct partitions **table) +{ + int ret = 0; + if (part_table && parts_total_num) { + *table = part_table; + ret = parts_total_num; + } + return ret; +} +int get_partition_count(void) +{ + return parts_total_num; +} +struct partitions *get_partitions(void) +{ + return part_table; +} + +void free_partitions(void) +{ + if (part_table) + free(part_table); + part_table = NULL; +} + +#ifndef IS_FEAT_BOOT_VERIFY +#define IS_FEAT_BOOT_VERIFY() 0 +#endif// #ifndef IS_FEAT_BOOT_VERIFY + +/* + return 0 if dts is valid + other value are falure. +*/ +int check_valid_dts(unsigned char *buffer) +{ + int ret = -__LINE__; + char *dt_addr; + /* fixme, a work around way */ + unsigned char *sbuffer = (unsigned char *)env_get_hex("loadaddr", 0x1000000 + 0x100000); + /* g12a merge to trunk, use trunk code */ + //unsigned char *sbuffer = (unsigned char *)0x1000000; + + if (IS_FEAT_BOOT_VERIFY()) { + memcpy(sbuffer, buffer, AML_DTB_IMG_MAX_SZ); + flush_cache((unsigned long)sbuffer, AML_DTB_IMG_MAX_SZ); + ret = aml_sec_boot_check(AML_D_P_IMG_DECRYPT, (long unsigned)sbuffer, AML_DTB_IMG_MAX_SZ, 0); + if (ret) { + printf("\n %s() %d: Decrypt dtb: Sig Check %d\n", __func__, __LINE__, ret); + return -__LINE__; + } + memcpy(buffer, sbuffer, AML_DTB_IMG_MAX_SZ); + } +#ifdef CONFIG_MULTI_DTB + dt_addr = (char *)get_multi_dt_entry((unsigned long)buffer); +#else + dt_addr = (char *)buffer; +#endif + pr_debug("start dts,buffer=%p,dt_addr=%p\n", buffer, dt_addr); + ret = fdt_check_header(dt_addr); + if ( ret < 0 ) + printf("%s: %s\n",__func__,fdt_strerror(ret)); + /* fixme, is it 0 when ok? */ + return ret; +} + +int get_partition_from_dts(unsigned char *buffer) +{ + char *dt_addr; + int nodeoffset,poffset=0; + int *parts_num; + char propname[8]; + const uint32_t *phandle; + const char *uname; + const char *usize; + const char *umask; + int index; + int ret = -1; + + if ( buffer == NULL) + goto _err; + + ret = check_valid_dts(buffer); + printf("%s() %d: ret %d\n",__func__, __LINE__, ret); + if ( ret < 0 ) + { + printf("%s() %d: ret %d\n",__func__, __LINE__, ret); + goto _err; + } +#ifdef CONFIG_MULTI_DTB + dt_addr = (char *)get_multi_dt_entry((unsigned long)buffer); +#else + dt_addr = (char *)buffer; +#endif + nodeoffset = fdt_path_offset(dt_addr, "/partitions"); + if (nodeoffset < 0) + { + printf("%s: not find /partitions node %s.\n",__func__,fdt_strerror(nodeoffset)); + ret = -1; + goto _err; + } + parts_num = (int *)fdt_getprop(dt_addr, nodeoffset, "parts", NULL); + printf("parts: %d\n",be32_to_cpup((u32*)parts_num)); + + if (parts_num > 0) + { + part_table = (struct partitions *)malloc(sizeof(struct partitions)*(be32_to_cpup((u32*)parts_num))); + if (!part_table) { + printk("%s part_table alloc _err\n",__func__); + //kfree(data); + return -1; + } + memset(part_table, 0, sizeof(struct partitions)*(be32_to_cpup((u32*)parts_num))); + parts_total_num = be32_to_cpup((u32*)parts_num); + } + dynamic_partition = false; + env_set("partiton_mode","normal"); + vendor_boot_partition = false; + env_set("vendor_boot_mode","false"); + for (index = 0; index < be32_to_cpup((u32*)parts_num); index++) + { + sprintf(propname,"part-%d", index); + + phandle = fdt_getprop(dt_addr, nodeoffset, propname, NULL); + if (!phandle) { + printf("don't find match part-%d\n",index); + goto _err; + } + if (phandle) { + poffset = fdt_node_offset_by_phandle(dt_addr, be32_to_cpup((u32*)phandle)); + if (!poffset) { + printf("%s:%d,can't find device node\n",__func__,__LINE__); + goto _err; + } + } + uname = fdt_getprop(dt_addr, poffset, "pname", NULL); + //printf("%s:%d uname: %s\n",__func__,__LINE__, uname); + /* a string but not */ + usize = fdt_getprop(dt_addr, poffset, "size", NULL); + //printf("%s:%d size: 0x%x 0x%x\n",__func__,__LINE__, be32_to_cpup((u32*)usize), be32_to_cpup((((u32*)usize)+1))); + umask = fdt_getprop(dt_addr, poffset, "mask", NULL); + //printf("%s:%d mask: 0x%x\n",__func__,__LINE__, be32_to_cpup((u32*)umask)); + /* fill parition table */ + if (uname != NULL) + memcpy(part_table[index].name, uname, strlen(uname)); + part_table[index].size = ((unsigned long)be32_to_cpup((u32*)usize) << 32) | (unsigned long)be32_to_cpup((((u32*)usize)+1)); + part_table[index].mask_flags = be32_to_cpup((u32*)umask); + printf("%02d:%10s\t%016llx %01x\n", index, uname, part_table[index].size, part_table[index].mask_flags); + + if (strcmp(uname, "boot_a") == 0) { + has_boot_slot = 1; + printf("set has_boot_slot = 1\n"); + } + else if (strcmp(uname, "boot") == 0) { + has_boot_slot = 0; + printf("set has_boot_slot = 0\n"); + } + if (strcmp(uname, "system_a") == 0) + has_system_slot = 1; + else if (strcmp(uname, "system") == 0) + has_system_slot = 0; + + if (strcmp(uname, "super") == 0) { + dynamic_partition = true; + env_set("partiton_mode","dynamic"); + printf("enable dynamic_partition\n"); + } + + if (strncmp(uname, "vendor_boot", 11) == 0) { + vendor_boot_partition = true; + env_set("vendor_boot_mode","true"); + printf("enable vendor_boot\n"); + } + } + return 0; + +_err: + if (part_table != NULL) { + free(part_table); + part_table = NULL; + } + return ret; +} diff --git a/disk/part_aml.c b/disk/part_aml.c new file mode 100644 index 0000000000..828a1b2d5c --- /dev/null +++ b/disk/part_aml.c @@ -0,0 +1,110 @@ +/* + * (C) Copyright 2001 + * Yonghui.yu , Amlogic Inc, yonghui.yu@amlogic.com. + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include + +#ifdef CONFIG_HAVE_BLOCK_DEVICE +extern int get_part_info_from_tbl(struct blk_desc * dev_desc, + int part_num, struct disk_partition * info); +int get_part_info_by_name(struct blk_desc *dev_desc, + const char *name, struct disk_partition *info); +#define AML_PART_DEBUG (0) + +#if (AML_PART_DEBUG) +#define PRINTF(fmt,args...) printf (fmt ,##args) +#else +#define PRINTF(fmt,args...) +#endif + +#define AML_SEC_SIZE (512) +#define MAGIC_OFFSET (1) + +/* read back boot partitons */ +static int _get_partition_info_aml(struct blk_desc * dev_desc, + int part_num, struct disk_partition * info, int verb) +{ + int ret = 0; + + if (UCLASS_MMC != dev_desc->if_type) + return -1; + + info->blksz=dev_desc->blksz; + sprintf ((char *)info->type, "U-Boot"); + /* using partition name in partition tables */ + ret = get_part_info_from_tbl(dev_desc, part_num, info); + if (ret) { + /*printf ("** Partition %d not found on device %d **\n", + part_num,dev_desc->devnum);*/ + return -1; + } + + PRINTF(" part %d found @ %lx size %lx\n",part_num,info->start,info->size); + return 0; +} + +int get_partition_info_aml(struct blk_desc * dev_desc, + int part_num, struct disk_partition * info) +{ + return(_get_partition_info_aml(dev_desc, part_num, info, 1)); +} + +int get_partition_info_aml_by_name(struct blk_desc *dev_desc, + const char *name, struct disk_partition *info) +{ + return (get_part_info_by_name(dev_desc, + name, info)); +} + +void print_part_aml(struct blk_desc * dev_desc) +{ + struct disk_partition info; + int i; + if (_get_partition_info_aml(dev_desc,0,&info,0) == -1) { + printf("** No boot partition found on device %d **\n",dev_desc->devnum); + return; + } + printf("Part Start Sect x Size Type name\n"); + i=0; + do { + printf(" %02d " LBAFU " " LBAFU " %6ld %.32s %.32s\n", + i++, info.start, info.size, info.blksz, info.type, info.name); + } while (_get_partition_info_aml(dev_desc,i,&info,0)!=-1); +} +#define AML_MPT_OFFSET (73728) /* 36M */ +/* fix 40Mbyte to check the MPT magic */ +int test_part_aml (struct blk_desc *dev_desc) +{ + ALLOC_CACHE_ALIGN_BUFFER(char, buffer, dev_desc->blksz); + if (blk_dread(dev_desc, AML_MPT_OFFSET, 1, (ulong *) buffer) != 1) + return -1; + if (!strncmp(buffer, "MPT", 3)) + return 1; // FIXME: return negative result for AML partition for normal u-boot bootsequence + return 1; +} + + +U_BOOT_PART_TYPE(aml) = { + .name = "AML", + .part_type = PART_TYPE_AML, + .max_entries = AML_ENTRY_NUMBERS, + .get_info = get_partition_info_aml, + .print = print_part_aml, + .test = test_part_aml, +}; + +#endif diff --git a/drivers/amlogic/Kconfig b/drivers/amlogic/Kconfig new file mode 100644 index 0000000000..ff94c4b85e --- /dev/null +++ b/drivers/amlogic/Kconfig @@ -0,0 +1,14 @@ +menu "AMLOGIC Drivers" + +config AML_DRIVER + bool "AML drivers Support" + select SHA1 + select SHA256 + help + Enable support for the Amlogic drivers. + +source "drivers/amlogic/keymanage/Kconfig" + +source "drivers/amlogic/storagekey/Kconfig" + +endmenu diff --git a/drivers/amlogic/Makefile b/drivers/amlogic/Makefile new file mode 100644 index 0000000000..544cc608b5 --- /dev/null +++ b/drivers/amlogic/Makefile @@ -0,0 +1,5 @@ +# SPDX-License-Identifier: GPL-2.0+ + +obj-$(CONFIG_UNIFY_KEY_MANAGE) += keymanage/ + +obj-$(CONFIG_SECURE_STORAGE) += storagekey/ diff --git a/drivers/amlogic/keymanage/Kconfig b/drivers/amlogic/keymanage/Kconfig new file mode 100644 index 0000000000..0c77689ae4 --- /dev/null +++ b/drivers/amlogic/keymanage/Kconfig @@ -0,0 +1,21 @@ +menuconfig UNIFY_KEY_MANAGE + bool "Amlogic unifykey" + depends on OF_LIBFDT + help + This enables support for keyman (Amlogic key manage), + A driver providing APIs for flash key and efuse key +if UNIFY_KEY_MANAGE + config AML_SECURITY_KEY + depends on SECURE_STORAGE + bool "Amlogic flash key" + default y + select SHA256 + select SHA1 + help + "security key wrapper for APIs bl31" + config KEYMAN_PROVISION_KEY + bool "Amlogic burn provision key" + default n + help + "provision key wrapper for burn tool" +endif #if UNIFY_KEY_MANAGE diff --git a/drivers/amlogic/keymanage/Makefile b/drivers/amlogic/keymanage/Makefile new file mode 100644 index 0000000000..08dd44eaec --- /dev/null +++ b/drivers/amlogic/keymanage/Makefile @@ -0,0 +1,32 @@ +# +# (C) Copyright 2000-2007 +# Wolfgang Denk, DENX Software Engineering, wd@denx.de. +# +# See file CREDITS for list of people who contributed to this +# project. +# +# This program is free software; you can redistribute it and/or +# modify it under the terms of the GNU General Public License as +# published by the Free Software Foundation; either version 2 of +# the License, or (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program; if not, write to the Free Software +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, +# MA 02111-1307 USA +# + +obj-$(CONFIG_UNIFY_KEY_MANAGE) += aml_key_manage.o + +aml_key_manage-y = key_unify.o +aml_key_manage-y += key_manage.o +aml_key_manage-$(CONFIG_OF_LIBFDT) += km_dts.o +aml_key_manage-$(CONFIG_EFUSE) += km_efuse_key.o +aml_key_manage-$(CONFIG_AML_SECURITY_KEY) += km_secure_key.o +aml_key_manage-$(CONFIG_KEYMAN_PROVISION_KEY) += km_provision_key.o + diff --git a/drivers/amlogic/keymanage/key_manage.c b/drivers/amlogic/keymanage/key_manage.c new file mode 100644 index 0000000000..f8e0700b0a --- /dev/null +++ b/drivers/amlogic/keymanage/key_manage.c @@ -0,0 +1,689 @@ +/* + * \file key_encrypt_decrypt.c + * \brief encrypt a key before burn to target deive, + * decrypt a key after read from target device + * + * \version 1.0.0 + * \date 15/07/17 + * \author Sam.Wu + * + * Copyright (c) 2015 Amlogic. All Rights Reserved. + * + */ +#include "key_manage_i.h" +#include +#include +#include +#include +#include + + +#if defined(CONFIG_AML_SECURITY_KEY) +extern int _burn_key_in_type_hdcp2(const char* keyname, + void* databuf, const unsigned bufLen, char* decryptBuf); +extern int _read_key_in_type_hdcp2(const char* keyname, + void* databuf, const unsigned bufLen, char* decryptBuf); +extern int _km_hdcp2_size(void); +#else +static int _burn_key_in_type_hdcp2(const char* keyname, + void* databuf, const unsigned bufLen, char* decryptBuf) +{ + KM_ERR("CONFIG_AML_SECURITY_KEY undefined\n"); + return -__LINE__; +} +static int _read_key_in_type_hdcp2(const char* keyname, + void* databuf, const unsigned bufLen, char* decryptBuf) +{ + KM_ERR("CONFIG_AML_SECURITY_KEY undefined\n"); + return -__LINE__; +} +int _km_hdcp2_size(void) +{ + KM_ERR("CONFIG_AML_SECURITY_KEY undefined\n"); + return 0; +} +#endif// #if defined(CONFIG_AML_SECURITY_KEY) + +enum _KmUsrKeyType{ + KM_USER_KEY_TYPE_MAC = 0 ,//key format is all ascii, and splitted by : + KM_USER_KEY_TYPE_SHA1 ,//key format is end with 20 bytes sha1sum + KM_USER_KEY_TYPE_HDCP2 ,//special case, can only identified with name + KM_USER_KEY_TYPE_RAW ,//raw format which can burn to target directly +}; + +static const char* _cfgKeyTypes[] = { + [KM_USER_KEY_TYPE_MAC] = "mac" , + [KM_USER_KEY_TYPE_SHA1] = "sha1" , + [KM_USER_KEY_TYPE_HDCP2] = "hdcp2" , + [KM_USER_KEY_TYPE_RAW] = "raw" , +}; +#define _SUPPORTED_CFG_TYPES_NUM ( sizeof(_cfgKeyTypes) / sizeof(char*) ) + + +static int km_get_user_key_format(const char* srcKeyName, int* key_type) +{ + int ret = 0; + int srcKeyType = 0; + const char* cfgType = NULL; + + cfgType = keymanage_dts_get_key_type (srcKeyName) ; + if (NULL == cfgType) { + KM_ERR("Fail in get keytype cfg in dts for key[%s]\n", srcKeyName); + return __LINE__; + } + + for (srcKeyType = 0; srcKeyType < _SUPPORTED_CFG_TYPES_NUM; ++srcKeyType) + { + ret = strcmp(cfgType, _cfgKeyTypes[srcKeyType]); + if (!ret) break; + } + if (srcKeyType == _SUPPORTED_CFG_TYPES_NUM) { + KM_ERR("prop key-type[%s] unsupported in key[%s]\n", cfgType, srcKeyName); + return __LINE__; + } + + if (KM_USER_KEY_TYPE_RAW == srcKeyType) + { + do + { + ret = !strcmp(srcKeyName, "mac") || !strcmp(srcKeyName, "mac_bt") || !strcmp(srcKeyName, "mac_wifi"); + if (ret) { srcKeyType = KM_USER_KEY_TYPE_MAC; break; } + + /*ret = !strcmp(srcKeyName, "hdcp") ;*/ + /*if (ret) { srcKeyType = KM_USER_KEY_TYPE_SHA1; break; }*/ + + ret = !strcmp(srcKeyName, "hdcp2") ; + if (ret) { srcKeyType = KM_USER_KEY_TYPE_HDCP2; break; } + + }while(0); + } + + *key_type = srcKeyType; + return 0; +} + +#if 1//START MAC +const int _UsrMacKeyLen = 17; + +//key manager user interface: mac format check and change format if needed +static int _burn_key_in_type_mac(const char* keyname, const char* srcKeyVal, const unsigned srcKeyLen, void* decryptBuf) +{ + int ret = 0; + int index = 0; + ssize_t targetKeyLen = 0; + char* dstKeyVal = (char*)decryptBuf; + + if (_UsrMacKeyLen != srcKeyLen) { + KM_ERR("mac len %d is invalid, must be %d\n", srcKeyLen, _UsrMacKeyLen); + return -EINVAL; + } + + for (index = 0; index < _UsrMacKeyLen; index += 3) + { + int k = 0; + const char* p = srcKeyVal + index; + for (k = 0; k < 2; ++k) { + const char c = *p++; + if (!isxdigit(c)) { + KM_ERR("mac str(%s) fmt err at index[%d]\n", srcKeyVal, index + k); + return __LINE__; + } + } + if (':' != *p && index + k < _UsrMacKeyLen) { + KM_ERR("mac str(%s) fmt err at index[%d], must be :, but %c\n", srcKeyVal, index + 2, *p); + return __LINE__; + } + } + + enum key_manager_dev_e keyDev = keymanage_dts_get_key_device(keyname); + if (KEY_M_MAX_DEV == keyDev) { + KM_ERR("Fail get key dev for key[%s]\n", keyname); + return __LINE__; + } + if (KEY_M_EFUSE_NORMAL != keyDev) { targetKeyLen = _UsrMacKeyLen; } + else + {//efusekey, check configure size + ret = key_unify_query_size(keyname, &targetKeyLen); + if (ret) { + KM_ERR("Fail at get key size, ret=%d\n", ret); + return __LINE__; + } + + if (6 != targetKeyLen && targetKeyLen != _UsrMacKeyLen) { + KM_ERR("efuse key[%s] len %zd err\n", keyname, targetKeyLen); + return __LINE__; + } + } + + if (_UsrMacKeyLen == targetKeyLen) {//say its target not efuse ? + ret = key_unify_write(keyname, srcKeyVal, srcKeyLen); + return ret; + } + + KM_DBG("targetKeyLen=%zd\n", targetKeyLen); + for (index = 0; index < targetKeyLen; ++index) { + char theByteStr[4] ; + theByteStr[0] = srcKeyVal[index * 3 + 0]; + theByteStr[1] = srcKeyVal[index * 3 + 1]; + theByteStr[2] = '\0'; + unsigned byteSum = 0; + + byteSum = simple_strtoul(theByteStr, NULL, 16); + KM_DBG("byteSum[%d]=0x%x\n", index, byteSum); + if (byteSum > 0xff) { + KM_ERR("theByteStr=%s err\n", theByteStr); + return __LINE__; + } + dstKeyVal[index] = byteSum; + } + + ret = key_unify_write(keyname, dstKeyVal, targetKeyLen); + return ret; +} + +//Return value: key size that user wanted, ok if > 0 +static int _read_key_in_type_mac(const char* keyname, char* databuf, const unsigned bufLen, char* decryptBuf) +{ + int ret = 0; + int index = 0; + ssize_t keyDevSz = 0; + + if (_UsrMacKeyLen > bufLen) { + KM_ERR("mac len %d is invalid, must be %d\n", bufLen, _UsrMacKeyLen); + return -__LINE__; + } + + ret = key_unify_query_size (keyname, &keyDevSz) ; + if (ret) { + KM_ERR("Fail in get key sz, ret=%d\n", ret); + return -__LINE__; + } + + ret = key_unify_read (keyname, decryptBuf, (unsigned)keyDevSz) ; + if (ret) { + KM_ERR("fail in read key[%s]\n", keyname); + return -__LINE__; + } + + if (_UsrMacKeyLen == keyDevSz) { + memcpy(databuf, decryptBuf, keyDevSz); + return 0; + } + + databuf[0] = '\0'; + for (index = 0; index < keyDevSz; ++index) + { + const unsigned byteSum = decryptBuf[index]; + + sprintf(databuf, "%s%02x:", databuf, byteSum); + } + + return ret; +} +#endif//END MAC + +#if 1//Start sha1sum +//key value which end up 20 bytes sha1sum +//check the sha1sum and remove it after checked ok +static int _burn_key_in_type_sha1(const char* keyname, void* databuf, const unsigned bufLen, char* decryptBuf) +{ + int ret = 0; + const unsigned srcKeyLen = bufLen; + const char* srcKeyVal = (char*)databuf; + const unsigned shaSumLen = 20; + const unsigned licLen = srcKeyLen - shaSumLen; + const u8* orgSum = (u8*)srcKeyVal + licLen; + u8 genSum[shaSumLen]; + + if (srcKeyLen <= 20) { + KM_ERR("Err key len %d for sha1 fmt\n", srcKeyLen); + return __LINE__; + } + + sha1_csum((u8*)srcKeyVal, licLen, genSum); + + ret = memcmp(orgSum, genSum, shaSumLen); + if (ret) { + const unsigned fmtStrLen = shaSumLen * 2 + 2; + char org_sha1Str[fmtStrLen + 2]; + char gen_sha1Str[fmtStrLen + 2]; + int byteIndex = 0; + + org_sha1Str[0] = gen_sha1Str[0] = '\0'; + for (byteIndex = 0; byteIndex < shaSumLen; ++byteIndex) + { + sprintf(org_sha1Str, "%s%02x", org_sha1Str, orgSum[byteIndex]); + sprintf(gen_sha1Str, "%s%02x", gen_sha1Str, genSum[byteIndex]); + } + KM_ERR("sha1sum, orgSum[%s] != genSum[%s]\n", org_sha1Str, gen_sha1Str); + + return __LINE__; + } + KM_MSG("Verify key with sha1sum OK\n"); + + ret = key_unify_write(keyname, srcKeyVal, licLen); + return ret; +} +#endif//END sha1sum +/* * + * APIs of key manage +*/ + +int key_manage_init(const char* seednum, const char* dtbaddr) +{ + int ret = key_unify_init(seednum, dtbaddr); + + return ret; +} + +int key_manage_exit(void) +{ + return key_unify_uninit(); +} + +int key_manage_write(const char* keyname, const void* keydata, const unsigned dataLen) +{ + int ret = 0; + int srcKeyType; + char* decryptBuf = NULL; + const int DecryptBufMaxLen = 64<<10; + + ret = key_unify_query_key_has_configure(keyname); + if (!ret) { + KM_ERR ("There isn't cfg for key[%s]\n", keyname) ; + return __LINE__; + } + + ret = km_get_user_key_format(keyname, &srcKeyType); + if (ret) { + KM_ERR ("Fail in get user key type\n") ; + return __LINE__; + } + + decryptBuf = (char*)malloc(DecryptBufMaxLen); + switch (srcKeyType) + { + case KM_USER_KEY_TYPE_MAC: + { + ret = _burn_key_in_type_mac(keyname, (char*)keydata, dataLen, decryptBuf); + } + break; + + case KM_USER_KEY_TYPE_SHA1: + { + ret = _burn_key_in_type_sha1(keyname, (char*)keydata, dataLen, decryptBuf); + } + break; + + case KM_USER_KEY_TYPE_HDCP2: + { + ret = _burn_key_in_type_hdcp2(keyname, (char*)keydata, dataLen, decryptBuf); + } + break; + + case KM_USER_KEY_TYPE_RAW: + { + ret = key_unify_write(keyname, (char*)keydata, dataLen); + } + break; + } + + free(decryptBuf); + return ret; +} + +int key_manage_read(const char* keyname, void* keydata, const unsigned bufLen) +{ + int ret = 0; + ssize_t keysize = 0; + int srcKeyType = 0; + char* decryptBuf = NULL; + const int DecryptBufMaxLen = 64<<10; + + ret = key_manage_query_size(keyname, &keysize); + if (ret) { + KM_ERR ("Fail in query key size for key[%s]\n", keyname) ; + return __LINE__; + } + if (keysize > bufLen) { + KM_ERR ("keysize %zd > bufLen %d\n", keysize, bufLen) ; + return __LINE__; + } + + ret = km_get_user_key_format(keyname, &srcKeyType); + if (ret) { + KM_ERR ("Fail in get user key type\n") ; + return __LINE__; + } + + decryptBuf = (char*)malloc(DecryptBufMaxLen); + switch (srcKeyType) + { + case KM_USER_KEY_TYPE_MAC: + { + ret = _read_key_in_type_mac(keyname, (char*)keydata, (unsigned)keysize, decryptBuf); + } + break; + + case KM_USER_KEY_TYPE_HDCP2: + { + ret = _read_key_in_type_hdcp2(keyname, keydata, (unsigned)keysize, decryptBuf); + } + break; + + case KM_USER_KEY_TYPE_SHA1: + case KM_USER_KEY_TYPE_RAW: + default: + { + ret = key_unify_read(keyname, keydata, (unsigned)keysize); + } + break; + } + + free(decryptBuf); + return ret; +} + +int key_manage_query_size(const char* keyname, ssize_t* keysize) +{ + int ret = 0; + int exist = 0; + int srcKeyType = 0; + + ret = key_manage_query_exist(keyname, &exist); + if (ret) { + KM_ERR ("Fail in query key exist\n") ; + return __LINE__; + } + if (!exist) { + KM_ERR ("key[%s] not programed yet\n", keyname) ; + return __LINE__; + } + + ret = km_get_user_key_format(keyname, &srcKeyType); + if (ret) { + KM_ERR ("Fail in get user key type\n") ; + return __LINE__; + } + + switch (srcKeyType) + { + case KM_USER_KEY_TYPE_MAC: + { + *keysize = _UsrMacKeyLen; + } + break; + + case KM_USER_KEY_TYPE_HDCP2: + { + *keysize = _km_hdcp2_size(); + } + break; + + case KM_USER_KEY_TYPE_RAW: + case KM_USER_KEY_TYPE_SHA1: + default: + ret = key_unify_query_size(keyname, keysize); + } + + return ret; +} + +int key_manage_query_exist(const char* keyname, int* exist) +{ + int ret = 0; + + ret = key_unify_query_key_has_configure(keyname); + if (!ret) { + KM_ERR ("There isn't dts cfg for key[%s]\n", keyname) ; + return __LINE__; + } + + ret = key_unify_query_exist(keyname, exist); + + return ret; +} + +int key_manage_query_secure(const char* keyname, int* isSecure) +{ + int ret = 0; + int exist = 0; + + ret = key_manage_query_exist(keyname, &exist); + if (ret) { + KM_ERR ("Fail in query key exist, ret=%d\n", ret) ; + return __LINE__; + } + if (!exist) { + KM_ERR ("Key[%s] not programed yet\n", keyname) ; + return __LINE__; + } + + ret = key_unify_query_secure(keyname, isSecure); + + return ret; +} + +int key_manage_query_canOverWrite(const char* keyname, int* canOverWrite) +{ + return key_unify_query_canOverWrite(keyname, canOverWrite); +} + +static int do_keyman_init(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + const char* seedNum = argv[1]; + const char* dtbAddr = argc > 2 ? argv[2] : NULL; + + if (argc < 2) return CMD_RET_USAGE; + + ret = key_manage_init(seedNum, dtbAddr); + return ret; +} + +static int do_keyman_exit(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + return key_manage_exit(); +} + +//read keyname addr +//fmt can be hex/str, if str, env keyname will be setted +static int do_keyman_read(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + const char* keyname = argv[1]; + char* dataBuf = NULL; + const char* dataFmt = argc > 3 ? argv[3] : NULL; + ssize_t keyLen = 0; + if (argc < 3) return CMD_RET_USAGE; + + dataBuf = (char*)simple_strtoul(argv[2], NULL, 16); + if (!dataBuf) { + KM_ERR("Fail in parse argv[2] to dataBuf\n"); + return __LINE__; + } + + ret = key_manage_query_size(keyname, &keyLen); + if (ret) { + KM_DBG("Fail get sz for[%s]\n", keyname);//here occure in booting if key not burned yet! + return __LINE__; + } + ret = key_manage_read(keyname, dataBuf, keyLen); + if (ret) { + KM_ERR("Fail in read key[%s] at sz %zd\n", keyname, keyLen); + return __LINE__; + } + if (dataFmt) + { + if (!strcmp("hex", dataFmt)) + { + _keyman_buf_to_hex_ascii((uint8_t*)dataBuf, keyLen, NULL); + return 0; + } + else if(!strcmp("str", dataFmt)) + { + int i = 0; + + dataBuf[keyLen] = '\0'; + for (; i < keyLen; ++i) { + ret = isascii(dataBuf[i]); + if (!ret) { + KM_MSG("key value has non ascii, can't pr\n"); + return CMD_RET_FAILURE; + } + } + env_set(keyname, dataBuf);//setenv for bootargs + KM_DBG("env:%s=%s\n", keyname, dataBuf); + return 0; + } + else KM_MSG("Err key dataFmt(%s)\n", dataFmt); + } + + return ret ? CMD_RET_FAILURE : CMD_RET_SUCCESS; +} + +//argv: 1 2 3 +//write keyname size addr +//write keyname hex/str value +static int do_keyman_write(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + const char* keyname = argv[1]; + const char* databuf = NULL; + char* tmpBuf = NULL; + const char* inputFmt = argv[2]; + unsigned dataLen = 0; + if (argc < 4) return CMD_RET_USAGE; + + if (!strcmp("hex", inputFmt)) + { + databuf = argv[3]; + dataLen = strlen(databuf) / 2; + + tmpBuf = (char*)malloc(dataLen); + ret = _keyman_hex_ascii_to_buf(databuf, tmpBuf, dataLen); + if (ret) { + KM_ERR("Fail in change hex argv[3] to bin, err=%d\n", ret); + free(tmpBuf); + return CMD_RET_FAILURE; + } + databuf = tmpBuf; + } + else if(!strcmp("str", inputFmt)) + { + databuf = argv[3]; + dataLen = strlen(databuf); + + const char* p = databuf; + for (; *p; ++p) { + if (!isascii(*p)) { + KM_ERR("inputFmt is %s, but argv[3] contain non ascii\n", inputFmt); + return CMD_RET_FAILURE; + } + } + KM_DBG("str:%s, len=%d\n", databuf, dataLen); + } + else + { + dataLen = simple_strtoul(argv[2], NULL, 0); + if (!dataLen) { + KM_ERR("dataLen err\n"); + return __LINE__; + } + if (dataLen > (64*1024)) { + KM_ERR("keylen 0x%x too large!\n", dataLen); + return __LINE__; + } + databuf = (char*)simple_strtoul(argv[3], NULL, 16); + } + + ret = key_manage_write(keyname, databuf, dataLen); + if (tmpBuf) free(tmpBuf) ; + return ret ? CMD_RET_FAILURE : CMD_RET_SUCCESS; +} + +//query: 1 2 +// exist keyname +// secure keyname +// size keyname +static int do_keyman_query(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + const char* cmd = argv[1]; + const char* keyname = argv[2]; + if (argc < 3) return CMD_RET_USAGE; + + if (!strcmp("exist", cmd)) + { + int exist = 0; + ret = key_manage_query_exist(keyname, &exist); + if (ret) { + KM_ERR("Fail in query key exist, err=%d", ret); + return CMD_RET_FAILURE; + } + KM_MSG("key[%s] is %s Exist\n", keyname, exist ? "" : "NOT"); + ret = exist ? CMD_RET_SUCCESS : CMD_RET_FAILURE; + } + else if(!strcmp("secure", cmd)) + { + int isSecure = 0; + ret = key_manage_query_secure(keyname, &isSecure); + if (ret) { + KM_ERR("Fail in query key secure, err=%d\n", ret); + return CMD_RET_FAILURE; + } + KM_MSG("key[%s] is %s Secure\n", keyname, isSecure ? "" : "NOT"); + ret = isSecure ? CMD_RET_SUCCESS : CMD_RET_FAILURE; + } + else if(!strcmp("size", cmd)) + { + ssize_t keysize = 0; + ret = key_manage_query_size(keyname, &keysize); + if (ret) { + KM_ERR("Fail in query key size, err=%d\n", ret); + return CMD_RET_FAILURE; + } + KM_MSG("key[%s] size is %zd\n", keyname, keysize); + ret = keysize ? CMD_RET_SUCCESS : CMD_RET_FAILURE; + } + else return CMD_RET_USAGE; + + return ret; +} + +static struct cmd_tbl cmd_keyman_sub[] = { + U_BOOT_CMD_MKENT(init, 3, 0, do_keyman_init, "", ""), + U_BOOT_CMD_MKENT(exit, 2, 0, do_keyman_exit, "", ""), + U_BOOT_CMD_MKENT(read, 4, 0, do_keyman_read, "", ""), + U_BOOT_CMD_MKENT(write, 4, 0, do_keyman_write, "", ""), + U_BOOT_CMD_MKENT(query, 3, 0, do_keyman_query, "", ""), +}; + +static int do_keymanage(struct cmd_tbl * cmdtp, int flag, int argc, char * const argv[]) +{ + struct cmd_tbl *c; + + if (argc < 2) return CMD_RET_USAGE; + + c = find_cmd_tbl(argv[1], cmd_keyman_sub, ARRAY_SIZE(cmd_keyman_sub)); + + if (!c) { return CMD_RET_USAGE;} + + return c->cmd(cmdtp, flag, --argc, ++argv); +} + +U_BOOT_CMD( + keyman, //command name + 5, //maxargs + 0, //repeatable + do_keymanage, //command function + "Unify key ops interfaces based dts cfg", //description + " argv: \n" //usage + " init seedNum \n" + " read keyname addr \n" + " write keyname size addr \n" + " write keyname hex/str value\n" + " query exist/secure/size keyname\n" + " exit \n" +); + diff --git a/drivers/amlogic/keymanage/key_manage.h b/drivers/amlogic/keymanage/key_manage.h new file mode 100644 index 0000000000..ab482f45a0 --- /dev/null +++ b/drivers/amlogic/keymanage/key_manage.h @@ -0,0 +1,61 @@ +#ifndef __KEY_MANAGE_H__ +#define __KEY_MANAGE_H__ + +enum key_manager_dev_e{ + KEY_M_UNKNOW_DEV=0, + KEY_M_EFUSE_NORMAL, + KEY_M_SECURE_KEY, //secure nandkey/emmckey + KEY_M_NORAML_KEY, //non-secure nandkey/emmckey + KEY_M_PROVISION_KEY, //provision key + KEY_M_MAX_DEV, +}; + +/*key data format*/ +enum key_manager_df_e{ + KEY_M_HEXDATA=0, + KEY_M_HEXASCII, + KEY_M_ALLASCII, + KEY_M_MAX_DF, +}; + +enum key_manager_permit_e{ + KEY_M_PERMIT_READ = (1<<0), + KEY_M_PERMIT_WRITE = (1<<1), + KEY_M_PERMIT_DEL = (1<<2), + KEY_M_PERMIT_MASK = 0Xf, +}; + +enum key_manager_type_e{ + KEY_M_TYPE_NORMAL = 0 , + KEY_M_TYPE_MAC , + KEY_M_TYPE_SHA1 , + KEY_M_TYPE_HDCP2 , + + KEY_M_TYPE_TOTAL_NUM +}; + +#define KEY_UNIFY_NAME_LEN 48 +#define KEY_UNIFY_TYPE_LEN_MAX ( 16 - 1 ) + +struct key_item_t{ + char name[KEY_UNIFY_NAME_LEN]; + char keyType[KEY_UNIFY_TYPE_LEN_MAX + 1];//mac/sha1/hdcp2/normal + char encType[KEY_UNIFY_TYPE_LEN_MAX + 1];//mac/sha1/hdcp2/normal + int id; + unsigned int dev; //key save in device //efuse, + unsigned int datFmt; //data format + unsigned int permit; + int flag; + int reserv;//reserve and align to 64 +}; + +struct key_info_t{ + int key_num; + int efuse_version; + int key_flag; + int encrypt_type; +}; + + +#endif // #ifndef __KEY_MANAGE_H__ + diff --git a/drivers/amlogic/keymanage/key_manage_i.h b/drivers/amlogic/keymanage/key_manage_i.h new file mode 100644 index 0000000000..73404c1dbf --- /dev/null +++ b/drivers/amlogic/keymanage/key_manage_i.h @@ -0,0 +1,65 @@ +/* + * \file key_manage_i.h + * \brief common included files for key manager + * + * \version 1.0.0 + * \date 15/06/30 + * \author Sam.Wu + * + * Copyright (c) 2015 Amlogic. All Rights Reserved. + * + */ +#ifndef __KEY_MANAGE_I_H__ +#define __KEY_MANAGE_I_H__ + +#include +#include +#include +#include +#include +#include "key_manage.h" +#include +#include + +#define KM_DBG(fmt ...) //printf("[KM]Dbg:"fmt) +#define KM_MSG(fmt ...) printf("[KM]Msg:"fmt) +#define KM_ERR(fmt ...) printf("[KM]Error:f[%s]L%d:", __func__, __LINE__),printf(fmt) + +int _keyman_hex_ascii_to_buf(const char* input, char* buf, const unsigned bufSz); +int _keyman_buf_to_hex_ascii(const uint8_t* pdata, const unsigned dataLen, char* fmtStr/*pr if NULL*/); + +int keymanage_dts_parse(const void* dt_addr); +enum key_manager_df_e keymanage_dts_get_key_fmt(const char *keyname); +enum key_manager_dev_e keymanage_dts_get_key_device(const char *keyname); +const char* keymanage_dts_get_key_type(const char* keyname); +const char* keymanage_dts_get_enc_type(const char* keyname); +char unifykey_get_efuse_version(void); +int unifykey_get_encrypt_type(void); + +int keymanage_efuse_init(const char *buf, int len); +int keymange_efuse_exit(void); +int keymanage_efuse_write(const char *keyname, const void* keydata, unsigned int datalen); +int keymanage_efuse_exist(const char* keyname); +ssize_t keymanage_efuse_size(const char* keyname); +int keymanage_efuse_query_can_read(const char* keyname); +int keymanage_efuse_read(const char *keyname, void* databuf, const unsigned bufsz); + +int keymanage_securekey_init(const char* buf, int len); +int keymanage_securekey_exit(void); +int keymanage_secukey_write(const char *keyname, const void* keydata, unsigned int datalen); +ssize_t keymanage_secukey_size(const char* keyname); +int keymanage_secukey_exist(const char* keyname); +int keymanage_secukey_can_read(const char* keyname); +int keymanage_secukey_read(const char* keyname, void* databuf, unsigned buflen); + +//provision key ops +int keymanage_provision_init(const char *buf, int len); +int keymanage_provision_exit(void); +int keymanage_provision_write(const char *keyname, const void* keydata, unsigned int datalen); +ssize_t keymanage_provision_size(const char* keyname); +int keymanage_provision_exist(const char* keyname); +int keymanage_provision_query_can_read(const char* keyname); +int keymanage_provision_read(const char *keyname, void* databuf, const unsigned bufSz); + +#endif//#ifndef __KEY_MANAGE_I_H__ + diff --git a/drivers/amlogic/keymanage/key_unify.c b/drivers/amlogic/keymanage/key_unify.c new file mode 100644 index 0000000000..069fff08dd --- /dev/null +++ b/drivers/amlogic/keymanage/key_unify.c @@ -0,0 +1,610 @@ +/* + * Unify interfaces for read/write nandkey/emmckey/efuse key + */ +#include "key_manage_i.h" +#include +#include +#include +#include + +#define KEY_NO_EXIST 0 +#define KEY_BURNED 1 + +#define KEY_READ_PERMIT 10 +#define KEY_READ_PROHIBIT 11 + +#define KEY_WRITE_MASK (0x0f<<4) +#define KEY_WRITE_PERMIT (10<<4) +#define KEY_WRITE_PROHIBIT (11<<4) + +typedef struct _devKeyOps{ + int (*pInitFunc) (const char* buf, int len); + int (*pUninitFunc)(void); + int (*pWriteFunc)(const char *keyname, const void* keydata, unsigned int datalen); + ssize_t (*pGetSize)(const char* keyname); + int (*pKeyExist)(const char* keyname); + int (*pKeyCanRead)(const char* keyname); + int (*pReadFunc)(const char* keyname, void* dataBuf, unsigned buflen); + + //Fields: + int can_overwrite;//is OTP + +}KmDevKeyOps; + +static KmDevKeyOps _SecukeyOps = { + .pInitFunc = keymanage_securekey_init , + .pUninitFunc = keymanage_securekey_exit , + .pWriteFunc = keymanage_secukey_write , + .pGetSize = keymanage_secukey_size , + .pKeyExist = keymanage_secukey_exist , + .pKeyCanRead = keymanage_secukey_can_read , + .pReadFunc = keymanage_secukey_read , + + .can_overwrite = 1 , +}; + +#if defined(CONFIG_EFUSE) +static KmDevKeyOps _efuseKeyOps = { + .pInitFunc = keymanage_efuse_init , + .pUninitFunc = keymange_efuse_exit , + .pWriteFunc = keymanage_efuse_write , + .pGetSize = keymanage_efuse_size , + .pKeyExist = keymanage_efuse_exist , + .pKeyCanRead = keymanage_efuse_query_can_read , + .pReadFunc = keymanage_efuse_read , + + .can_overwrite = 0 , +}; +#endif//#if defined(CONFIG_EFUSE) + +#if defined(CONFIG_KEYMAN_PROVISION_KEY) +static KmDevKeyOps _provisionKeyOps = { + .pInitFunc = keymanage_provision_init , + .pUninitFunc = keymanage_provision_exit , + .pWriteFunc = keymanage_provision_write , + .pGetSize = keymanage_provision_size , + .pKeyExist = keymanage_provision_exist , + .pKeyCanRead = keymanage_provision_query_can_read , + .pReadFunc = keymanage_provision_read , + + .can_overwrite = 1 , +}; +#endif//#if defined(CONFIG_KEYMAN_PROVISION_KEY) + +#define _KM_DEV_INDEX_SECUREKEY 0 +#define _KM_DEV_INDEX_PROVISION 1 +#if defined(CONFIG_KEYMAN_PROVISION_KEY) +#define _KM_DEV_INDEX_EFUSE 2 +#else +#define _KM_DEV_INDEX_EFUSE 1 +#endif//#if defined(CONFIG_KEYMAN_PROVISION_KEY) + +static KmDevKeyOps* _km_devKeyOpsArr[] = { + [_KM_DEV_INDEX_SECUREKEY] = &_SecukeyOps, +#if defined(CONFIG_KEYMAN_PROVISION_KEY) + [_KM_DEV_INDEX_PROVISION] = &_provisionKeyOps, +#endif//#if defined(CONFIG_KEYMAN_PROVISION_KEY) +#if defined(CONFIG_EFUSE) + [_KM_DEV_INDEX_EFUSE] = &_efuseKeyOps, +#endif//#if defined(CONFIG_EFUSE) +}; + +static const int _KM_DEVCNT = sizeof(_km_devKeyOpsArr) / sizeof(_km_devKeyOpsArr[0]); + +int _keyman_hex_ascii_to_buf(const char* input, char* buf, const unsigned bufSz) +{ + int ret = 0; + const char* tmpStr = input; + const unsigned inputLen = strlen(input); + int i = 0; + + if (!inputLen) { + KM_ERR("err input len 0\n"); + return __LINE__; + } + if (inputLen & 1) { + KM_ERR("inputLen %d not even\n", inputLen); + return __LINE__; + } + if (bufSz * 2 > inputLen) { + KM_ERR("bufSz %d not enough\n", bufSz); + return __LINE__; + } + for (tmpStr = input; *tmpStr; ++tmpStr) + { + char c = *tmpStr; + ret = isxdigit(c); + if (!ret) { + KM_ERR("input(%s) contain non xdigit, c=%c\n", input, c); + return __LINE__; + } + } + + for (i = 0; i < inputLen; i += 2) + { + char tmpByte[8]; + tmpByte[2] = '\0'; + tmpByte[0] = input[i]; + tmpByte[1] = input[i + 1]; + + const unsigned val = simple_strtoul(tmpByte, NULL, 16); + if (val > 0xff) { + KM_ERR("Exception: val 0x%x > 0xff\n", val); + return __LINE__; + } + buf[i>>1] = val; + } + + return 0; +} + +int _keyman_buf_to_hex_ascii(const uint8_t* pdata, const unsigned dataLen, char* fmtStr/*pr if NULL*/) +{ + if (NULL == fmtStr) //Only print + { + int i = 0; + KM_MSG("key len is %d, hex value in hexdump:", dataLen); + for (; i < dataLen; ++i, ++pdata) + { + if (!(i & 0xf)) printf("\n\t[0x%04x]:\t\t", i); + printf("%02x ", *pdata); + } + printf("\n"); + } + else + { + int i = 0; + + *fmtStr = '\0'; + for (; i < dataLen; ++i, ++pdata) + { + sprintf(fmtStr, "%s%02x", fmtStr, *pdata); + } + } + + return 0; +} + +/* + * function name: key_unify_init + * buf : input + * len : > 0 + * return : >=0: ok, other: fail + * */ +int key_unify_init(const char* seedStr, const char* dtbLoadaddr) +{ + int err=EINVAL; + int i; + uint64_t seedNum = 0; + + if (!dtbLoadaddr) + { + dtbLoadaddr = (char*) env_get_ulong("fdtcontroladdr", 16, CFG_SYS_SDRAM_BASE + (16U<<20)); + } + + if (keymanage_dts_parse(dtbLoadaddr)) { + KM_DBG("Fail parse /unifykey at addr[0x%p]\n", dtbLoadaddr); + return err; + } + + seedNum = simple_strtoull(seedStr, NULL, 0); + if (!seedNum) { + KM_ERR("Seed is 0 err\n"); + return __LINE__; + } + + if (amlkey_if_init(dtbLoadaddr)) { + KM_ERR("amlkey interface init fail\n"); + return __LINE__; + } + + for (i=0; i < _KM_DEVCNT; i++) + { + KmDevKeyOps* theDevOps = _km_devKeyOpsArr[i]; + err = theDevOps->pInitFunc((char*)&seedNum, sizeof(uint64_t)/sizeof(char)); + if (err) { + KM_ERR("Device[%d] init failed, err=%d\n", i, err); + return err; + } + } + + return 0; +} + +/* function name: key_unify_uninit + * functiion : uninit + * return : >=0 ok, <0 fail + * */ +int key_unify_uninit(void) +{ + int err=-EINVAL; + int i; + + for (i=0; i < _KM_DEVCNT; i++) + { + KmDevKeyOps* theDevOps = _km_devKeyOpsArr[i]; + err = theDevOps->pUninitFunc(); + if (err) { + KM_ERR("device[%d] unini fail\n", i); + /*return err;*/ + } + } + + return 0; +} + +static const KmDevKeyOps* _get_km_ops_by_name(const char* keyname) +{ + KmDevKeyOps* theDevOps = NULL; + + //step 1: get device ops by configured key-device + enum key_manager_dev_e theDevice = keymanage_dts_get_key_device(keyname); + + switch (theDevice) + { + case KEY_M_EFUSE_NORMAL: + { + theDevOps = _km_devKeyOpsArr[_KM_DEV_INDEX_EFUSE]; + } + break; + + case KEY_M_NORAML_KEY: + case KEY_M_SECURE_KEY: + { + theDevOps = _km_devKeyOpsArr[_KM_DEV_INDEX_SECUREKEY]; + } + break; + + case KEY_M_PROVISION_KEY: + theDevOps = _km_devKeyOpsArr[_KM_DEV_INDEX_PROVISION]; + break; + + case KEY_M_UNKNOW_DEV: + default: + KM_ERR("key %s not know device %d\n", keyname, theDevice); + return NULL; + } + + return theDevOps; +} + +int key_unify_query_key_has_configure(const char* keyname) +{ + return _get_km_ops_by_name(keyname) ? 1 : 0; +} + +/* funtion name: key_unify_write + * keyname : key name is ascii string + * keydata : key data buf + * datalen : key buf len + * return 0: ok, -0x1fe: no space, other fail + * + * Step 1: Get burn target from dtb + * Step 2: check whether can burned, OTP can't burned twice + * 2.1)check is programmed yet, burn directly if not programmed yet. + * 2.2)if programmed yet, check if OTP + * Step 3: burn the key to the target + * */ +int key_unify_write(const char *keyname, const void* keydata, const unsigned datalen) +{ + int err=0; + const KmDevKeyOps* theDevOps = NULL; + + theDevOps = _get_km_ops_by_name(keyname); + if (!theDevOps) { + KM_ERR("key[%s] no cfg in dts\n", keyname); + return __LINE__; + } + + if (!theDevOps->can_overwrite) { + KM_DBG("can't overwrite\n"); + int ret = theDevOps->pKeyExist(keyname); + if (ret) { + KM_ERR("OTP key[%s] already existed, can't program twice!\n", keyname); + return __LINE__; + } + } + + err = theDevOps->pWriteFunc(keyname, keydata, datalen); + + return err; +} + +/* + *function name: key_unify_read + * keyname : key name is ascii string + * keydata : key data buf + * datalen : key buf len + * reallen : key real len + * return : <0 fail, >=0 ok + * */ +int key_unify_read(const char *keyname, void* keydata, const unsigned bufLen) +{ + int err=0; + const KmDevKeyOps* theDevOps = NULL; + + theDevOps = _get_km_ops_by_name(keyname); + if (!theDevOps) { + KM_ERR("key[%s] no cfg in dts\n", keyname); + return __LINE__; + } + + int ret = theDevOps->pKeyExist(keyname); + if (!ret) { + KM_ERR("key[%s] not programed yet\n", keyname); + return __LINE__; + } + + ret = theDevOps->pKeyCanRead(keyname); + if (!ret) { + KM_ERR("key[%s] can't read as it's secure\n", keyname); + return __LINE__; + } + + const ssize_t keySz = theDevOps->pGetSize(keyname); + if (keySz > bufLen && bufLen) { + KM_ERR("keySz[%lu] > bufLen[%d]\n", keySz, bufLen); + return __LINE__; + } + + err = theDevOps->pReadFunc(keyname, keydata, keySz); + + return err; +} + +int key_unify_query_size(const char* keyname, ssize_t* keysize) +{ + const KmDevKeyOps* theDevOps = NULL; + + theDevOps = _get_km_ops_by_name(keyname); + if (!theDevOps) { + KM_ERR("key[%s] not cfg in dts\n", keyname); + return __LINE__; + } + +#if 0 + int ret = theDevOps->pKeyCanRead(keyname); + if (!ret) { + KM_ERR("key[%s] can't read as it's secure\n", keyname); + return __LINE__; + } +#endif + + *keysize = theDevOps->pGetSize(keyname); + + return 0; +} + +int key_unify_query_exist(const char* keyname, int* exist) +{ + const KmDevKeyOps* theDevOps = NULL; + + theDevOps = _get_km_ops_by_name (keyname) ; + if (!theDevOps) { + KM_ERR("key[%s] not cfg in dts\n", keyname); + return __LINE__; + } + + *exist = theDevOps->pKeyExist(keyname); + + return 0; +} + +int key_unify_query_secure(const char* keyname, int* isSecure) +{ + const KmDevKeyOps* theDevOps = NULL; + + theDevOps = _get_km_ops_by_name (keyname) ; + if (!theDevOps) { + KM_ERR("key[%s] no cfg in dts\n", keyname); + return __LINE__; + } + + int ret = theDevOps->pKeyExist (keyname) ; + if (!ret) { + KM_ERR("key[%s] not programed yet\n", keyname); + return __LINE__; + } + + *isSecure = !theDevOps->pKeyCanRead (keyname) ; + if (!ret) { + KM_ERR ("key[%s] can't read as it's secure\n", keyname) ; + return __LINE__; + } + + return 0; +} + +int key_unify_query_canOverWrite(const char* keyname, int* canOverWrite) +{ + const KmDevKeyOps* theDevOps = NULL; + + theDevOps = _get_km_ops_by_name(keyname); + if (!theDevOps) { + KM_ERR("key[%s] no cfg in dts\n", keyname); + return __LINE__; + } + + *canOverWrite = theDevOps->can_overwrite; + return 0; +} + +int do_keyunify (struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int err; + char *cmd; + int ret = 0; + + if (argc < 2) return CMD_RET_USAGE; + + cmd = argv[1]; + //keyman init seedNum + if (!strcmp(cmd,"init")) + { + if (argc < 3) { + return CMD_RET_USAGE; + } + const char* seedNum = argv[2]; + const char* dtbLoadaddr = argc > 3 ? argv[3] : NULL; + err = key_unify_init(seedNum, dtbLoadaddr); + return err ? CMD_RET_FAILURE : CMD_RET_SUCCESS; + } + + //keyunify write keyname addr + //keyunify write keyname hexascii + if (!strcmp(cmd,"write")) + { + if (argc < 4) return CMD_RET_USAGE; + + const char* keyname = argv[2]; + const char* keyData = (char*)simple_strtoul(argv[3], NULL, 16); + unsigned len = argc > 4 ? simple_strtoul(argv[4], NULL, 0) : 0; + char* dataBuf = NULL; + + if (argc == 4) + { + const char* hexascii = argv[3]; + + len = strlen(hexascii) / 2; + dataBuf = (char*)malloc(len); + if (!dataBuf) { + KM_ERR("Fail in malloc len %d\n", len); + return CMD_RET_FAILURE; + } + + err = _keyman_hex_ascii_to_buf(hexascii, dataBuf, len); + if (err) { + KM_ERR("Fail in decrypt hexascii to buf, err=%d\n", err); + free(dataBuf); + return CMD_RET_FAILURE; + } + keyData = dataBuf; + } + + KM_DBG("write key[%s], addr=%p, len=%d\n", keyname, keyData, len); + err = key_unify_write(keyname, keyData, len); + if (err ) { + KM_ERR("%s key write fail, err=%d\n", keyname, err); + return CMD_RET_FAILURE; + } + if (dataBuf)free(dataBuf) ; + + return CMD_RET_SUCCESS; + } + + //keyman query size/secure/exist keyname + if (!strcmp(cmd,"query")) + { + if (argc < 4) return CMD_RET_USAGE; + + const char* subCmd = argv[2]; + const char* keyname = argv[3]; + + ret = CMD_RET_FAILURE; + if (!strcmp("size", subCmd)) + { + ssize_t keysize = 0; + err = key_unify_query_size(keyname, &keysize); + if (!err) { + ret = CMD_RET_SUCCESS; + KM_MSG("key[%s] is %u bytes\n", keyname, (unsigned)keysize); + } + } + else if(!strcmp("secure", subCmd)) + { + int isSecure = 0; + + err = key_unify_query_secure(keyname, &isSecure); + if (!err) { + ret = CMD_RET_SUCCESS; + KM_MSG("key[%s] is %s Secure\n", keyname, isSecure ? "DO" : "NON"); + } + } + else if(!strcmp("exist", subCmd)) + { + int exist = 0; + err = key_unify_query_exist(keyname, &exist); + if (!err) { + ret = CMD_RET_SUCCESS; + KM_MSG("key[%s] is %s existed\n", keyname, exist ? "DO" : "NON"); + } + } + else{ + return CMD_RET_USAGE; + } + + return ret; + } + + //keyman read keyname memAddr + if (!strcmp(cmd,"read")) + { + if (argc < 4) return CMD_RET_USAGE; + + const char* keyname = argv[2]; + void* keydata = (void*)simple_strtoul(argv[3], NULL, 16); + + ssize_t keysize = 0; + err = key_unify_query_size(keyname, &keysize); + if (err) { + KM_ERR("Fail in get keysz, err=%d\n", err); + return __LINE__; + } + + err = key_unify_read(keyname, keydata, (unsigned)keysize); + if (err) { + KM_ERR("%s key read fail\n", keyname); + return CMD_RET_FAILURE; + } + _keyman_buf_to_hex_ascii(keydata, (unsigned)keysize, NULL); + + return err; + } + + if (!strcmp(cmd,"uninit")) + { + return key_unify_uninit(); + } + + return CMD_RET_USAGE; +} + +U_BOOT_CMD( + keyunify, CONFIG_SYS_MAXARGS, 1, do_keyunify, + "key unify sub-system", + "init seedNum [dtbAddr] --init the drivers\n" + "keyunify uninit - init key in device\n" + "keyunify write keyname data ---- wirte key data. len non-exist if data is ascii str\n" + "keyunify read keyname data-addr \n" +); + + +#if !defined(CONFIG_AML_SECURITY_KEY) +int keymanage_securekey_init(const char* buf, int len) { return -EINVAL; } +int keymanage_securekey_exit(void){ return -EINVAL; } +int keymanage_secukey_write(const char *keyname, const void* keydata, unsigned int datalen){ return -EINVAL; } +ssize_t keymanage_secukey_size(const char* keyname){ return 0; } +int keymanage_secukey_exist(const char* keyname){ return 0; } +int keymanage_secukey_can_read(const char* keyname){ return 0; } +int keymanage_secukey_read(const char* keyname, void* dataBuf, unsigned buflen){ return -EINVAL; } +#endif// #if CONFIG_AML_SECURITY_KEY + +#if !defined(CONFIG_EFUSE) +int keymanage_efuse_init(const char *buf, int len) { return -EINVAL; } +int keymange_efuse_exit(void) {return -EINVAL;} +int keymanage_efuse_write(const char *keyname, const void* keydata, unsigned int datalen) { return -EINVAL; } +int keymanage_efuse_exist(const char* keyname) { return -EINVAL; } +ssize_t keymanage_efuse_size(const char* keyname) { return 0; } +int keymanage_efuse_read(const char *keyname, void* dataBuf, const unsigned bufsz) { return -EINVAL; } +int keymanage_efuse_query_is_burned(const char* keyname) { return -EINVAL; } +int keymanage_efuse_query_can_read(const char* keyname) { return -EINVAL; } +#endif// #ifdef CONFIG_EFUSE + +#if !defined(CONFIG_OF_LIBFDT) +int keymanage_dts_parse(const void* dt_addr){ return -EINVAL; } +enum key_manager_df_e keymanage_dts_get_key_fmt(const char *keyname){ return -EINVAL; } +enum key_manager_dev_e keymanage_dts_get_key_device(const char *keyname){ return -EINVAL; } +char unifykey_get_efuse_version(void) { return -1; } +#endif//#ifdef CONFIG_OF_LIBFDT + + diff --git a/drivers/amlogic/keymanage/km_dts.c b/drivers/amlogic/keymanage/km_dts.c new file mode 100644 index 0000000000..d2a2186147 --- /dev/null +++ b/drivers/amlogic/keymanage/km_dts.c @@ -0,0 +1,392 @@ +#include "key_manage_i.h" +//#include +#include + +#define UNIFYKEY_DATAFORMAT_HEXDATA "hexdata" +#define UNIFYKEY_DATAFORMAT_HEXASCII "hexascii" +#define UNIFYKEY_DATAFORMAT_ALLASCII "allascii" + +#define UNIFYKEY_DEVICE_EFUSEKEY "efuse" +#define UNIFYKEY_DEVICE_NORMAL "normal" +#define UNIFYKEY_DEVICE_SECURESKEY "secure" +#define UNIFYKEY_DEVICE_PROVISIONKEY "provision" + +#define UNIFYKEY_PERMIT_READ "read" +#define UNIFYKEY_PERMIT_WRITE "write" +#define UNIFYKEY_PERMIT_DEL "del" + +static struct key_info_t unify_key_info={.key_num =0, .key_flag = 0, .efuse_version = -1, .encrypt_type = 0}; +static struct key_item_t *unifykey_item=NULL; +static struct key_item_t* _defProvisonItem =NULL;//keyname start with "KEY_PROVISION_" and device is "provison" +#define _PROVSION_DEFAULT_KEY_NAME "KEY_PROVISION_XXX" + +static int unifykey_item_verify_check(struct key_item_t *key_item) +{ + if (!key_item) { + KM_ERR("unify key item is invalid\n"); + return -1; + } + + if (!key_item->name || (key_item->dev == KEY_M_UNKNOW_DEV) ||(key_item->datFmt == KEY_M_MAX_DF)) { + KM_ERR("unify key item is invalid\n"); + return -1; + } + + return 0; +} + +static struct key_item_t *unifykey_find_item_by_name(const char *name) +{ + struct key_item_t *pre_item; + int i = 0; + const unsigned cnt = unify_key_info.key_num; + + for (pre_item = unifykey_item; i < cnt; ++pre_item, ++i) + { + if (!strcmp(pre_item->name,name)) { + return pre_item; + } + } + + if (!strncmp(_PROVSION_DEFAULT_KEY_NAME, name, strlen(_PROVSION_DEFAULT_KEY_NAME) - 3)) { + return _defProvisonItem; + } + return NULL; +} + +enum key_manager_df_e keymanage_dts_get_key_fmt(const char *keyname) +{ + struct key_item_t *key_manage; + enum key_manager_df_e keyValFmt = KEY_M_MAX_DF; + + if (!unify_key_info.key_flag) { + KM_ERR("/unify not parsed yet!\n"); + return KEY_M_MAX_DF; + } + + key_manage = unifykey_find_item_by_name(keyname); + if (key_manage == NULL) { + KM_ERR ("%s key name is not exist\n", keyname) ; + return keyValFmt; + } + if (unifykey_item_verify_check(key_manage)) { + KM_ERR ("%s key name is invalid\n", keyname) ; + return keyValFmt; + } + + keyValFmt = key_manage->datFmt; + return keyValFmt; +} + +//which device does the key stored in +enum key_manager_dev_e keymanage_dts_get_key_device(const char *keyname) +{ + struct key_item_t *key_manage; + + if (!unify_key_info.key_flag) { + KM_ERR("/unify not parsed yet!\n"); + return KEY_M_MAX_DEV; + } + key_manage = unifykey_find_item_by_name(keyname); + if (key_manage == NULL) { + KM_ERR("%s key name is not exist\n",keyname); + return KEY_M_MAX_DEV; + } + if (unifykey_item_verify_check(key_manage)) { + KM_ERR("%s key name is invalid\n",keyname); + return KEY_M_MAX_DEV; + } + + return key_manage->dev; +} + +const char* keymanage_dts_get_enc_type(const char* keyname) +{ + struct key_item_t *key_manage; + + if (!unify_key_info.key_flag) { + KM_ERR("/unify not parsed yet!\n"); + return NULL; + } + key_manage = unifykey_find_item_by_name(keyname); + if (key_manage == NULL) { + KM_ERR("%s key name is not exist\n",keyname); + return NULL; + } + + return key_manage->encType; +} + +const char* keymanage_dts_get_key_type(const char* keyname) +{ + struct key_item_t *key_manage; + + if (!unify_key_info.key_flag) { + KM_ERR("/unify not parsed yet!\n"); + return NULL; + } + key_manage = unifykey_find_item_by_name(keyname); + if (key_manage == NULL) { + KM_ERR("%s key name is not exist\n",keyname); + return NULL; + } + + return key_manage->keyType; +} + +char unifykey_get_efuse_version(void) +{ + char ver=0; + + if (!unify_key_info.key_flag) { + KM_ERR("/unify not parsed yet!\n"); + return 0; + } + + if (unify_key_info.efuse_version != -1) { + ver = (char)unify_key_info.efuse_version; + } + return ver; +} + +int unifykey_get_encrypt_type(void) +{ + return unify_key_info.encrypt_type; +} + +static int unifykey_item_dt_parse(const void* dt_addr,int nodeoffset,int id,char *item_path) +{ + struct key_item_t *temp_item=NULL; + char *propdata; + struct fdt_property *prop; + int count; + + temp_item = unifykey_item + id; + + propdata = (char*)fdt_getprop(dt_addr, nodeoffset, "key-encrypt", NULL); + if (propdata) { + count = strlen(propdata); + if ( count > KEY_UNIFY_TYPE_LEN_MAX ) { + KM_ERR("key-encrypt [%s] too long\n", propdata); + return __LINE__; + } + memcpy(temp_item->encType, propdata, count); + } + + propdata = (char*)fdt_getprop(dt_addr, nodeoffset, "key-name",NULL); + if (!propdata) { + printf("%s get key-name fail,%s:%d\n",item_path,__func__,__LINE__); + return __LINE__; + } + + count = strlen(propdata); + if (count >= KEY_UNIFY_NAME_LEN) { + KM_ERR("key-name strlen (%d) > max(%d) at key_%d\n", count, KEY_UNIFY_NAME_LEN - 1, id); + return __LINE__; + } + memcpy(temp_item->name, propdata, count); + temp_item->name[count] = 0; + + propdata = (char*)fdt_getprop(dt_addr, nodeoffset, "key-device",NULL); + if (!propdata) { + KM_ERR("%s get key-device fail at key_%d\n",item_path, id); + return __LINE__; + } + + if (strcmp(propdata,UNIFYKEY_DEVICE_EFUSEKEY) == 0) { + temp_item->dev = KEY_M_EFUSE_NORMAL; + } + else if(strcmp(propdata,UNIFYKEY_DEVICE_SECURESKEY) == 0){ + temp_item->dev = KEY_M_SECURE_KEY; + } + else if(strcmp(propdata,UNIFYKEY_DEVICE_NORMAL) == 0){ + temp_item->dev = KEY_M_NORAML_KEY; + } + else{ + KM_ERR("key-device %s is unknown at key_%d\n", propdata, id); + return __LINE__; + } + + propdata = (char*)fdt_getprop((const void *)dt_addr, nodeoffset, "key-type",NULL); + if (!propdata) //prop 'key-type' not configured, default to raw except special names + { + strcpy(temp_item->keyType, "raw"); + } + else + { + const int keyTypeLen = strlen(propdata); + if (keyTypeLen > KEY_UNIFY_TYPE_LEN_MAX) { + KM_ERR("key[%s]cfg key-type[%s] sz %d > max %d\n", temp_item->name, propdata, keyTypeLen, KEY_UNIFY_TYPE_LEN_MAX); + return __LINE__; + } + strcpy(temp_item->keyType, propdata); + } + + prop = (struct fdt_property*)fdt_get_property((const void *)dt_addr,nodeoffset,"key-permit",NULL) ; + if (!prop) { + KM_ERR("%s get key-permit fail at key_%d\n",item_path, id); + return __LINE__; + } + + temp_item->permit = 0; + const int propLen = prop->len > 512 ? strnlen(prop->data, 512) : prop->len; + if (fdt_stringlist_contains(prop->data, propLen, UNIFYKEY_PERMIT_READ)) { + temp_item->permit |= KEY_M_PERMIT_READ; + } + if (fdt_stringlist_contains(prop->data, propLen, UNIFYKEY_PERMIT_WRITE)) { + temp_item->permit |= KEY_M_PERMIT_WRITE; + } + if (fdt_stringlist_contains(prop->data, propLen, UNIFYKEY_PERMIT_DEL)) { + temp_item->permit |= KEY_M_PERMIT_DEL; + } + + temp_item->id = id; + + KM_DBG("key[%02d] keyname %s, %d\n", id, temp_item->name, temp_item->dev); + + return 0; +} + +static int unifykey_item_create(const void* dt_addr,int num) +{ + int ret = 0; + int i,nodeoffset; + char item_path[100]; + + for (i=0;i= 0) { + fdt_for_each_subnode(child, dt_addr, provisionOffset) { + provisionNum++; + } + } + unify_key_info.key_num = unifykeyNum + provisionNum; + KM_MSG("key_num: %d\n", unify_key_info.key_num); + + unify_key_info.encrypt_type = -1; + encrypt_type = (char*)fdt_getprop((const void *)dt_addr, nodeoffset, "unifykey-encrypt",NULL); + if (encrypt_type) { + unify_key_info.encrypt_type = be32_to_cpup((unsigned int*)encrypt_type); + } + + if (unify_key_info.key_num <= 0) { + KM_ERR("unifykey-num is not configured\n"); + return __LINE__; + } + if (unify_key_info.key_num > 256) { + KM_ERR("Cfg key_num is %d > 32,pls check!\n", unify_key_info.key_num); + return __LINE__; + } + + if (unifykey_item) { + free(unifykey_item); + } + const unsigned keyInfBufLen = unify_key_info.key_num * sizeof(struct key_item_t); + unifykey_item = (struct key_item_t*)malloc(keyInfBufLen); + memset(unifykey_item, 0 , keyInfBufLen); + + ret = unifykey_item_create(dt_addr,unifykeyNum); + unify_key_info.key_flag = ret ? 0 : 1; + + if (provisionOffset >= 0) + { + KM_DBG("dts: in find /provisionkey.\n"); + + int defPermits = 0; + const struct fdt_property *prop = fdt_get_property(dt_addr, provisionOffset,"key-permit-default",NULL) ; + if (prop) { + const int propLen = prop->len > 512 ? strnlen(prop->data, 512) : prop->len; + if (fdt_stringlist_contains(prop->data, propLen, UNIFYKEY_PERMIT_READ)) { + defPermits |= KEY_M_PERMIT_READ; + } + if (fdt_stringlist_contains(prop->data, propLen, UNIFYKEY_PERMIT_WRITE)) { + defPermits |= KEY_M_PERMIT_WRITE; + } + if (fdt_stringlist_contains(prop->data, propLen, UNIFYKEY_PERMIT_DEL)) { + defPermits |= KEY_M_PERMIT_DEL; + } + } + + int node = 0; + int id = unifykeyNum; + int szlen = 0; + fdt_for_each_subnode(node, dt_addr, provisionOffset) { + int len = 0; + const char* keyName = fdt_get_name(dt_addr, node, &len); + KM_DBG("provisionkey[%s] len %d\n", keyName, len); + + struct key_item_t *pItem= unifykey_item + id; + + szlen = strnlen(keyName, KEY_UNIFY_NAME_LEN - 1); + memcpy(pItem->name, keyName, szlen); + if (szlen < KEY_UNIFY_NAME_LEN) pItem->name[szlen] = '\0'; + + strcpy(pItem->keyType, "raw"); + pItem->dev = KEY_M_PROVISION_KEY; + pItem->permit = defPermits; + pItem->id = id++; + if (!strcmp(_PROVSION_DEFAULT_KEY_NAME, keyName)) _defProvisonItem = pItem; + } + + if ((node < 0) && (node != -FDT_ERR_NOTFOUND)) { + KM_ERR("in parse /provisionkey, err(%s)\n", fdt_strerror(node)); + return __LINE__; + } + } + + return ret; +} + diff --git a/drivers/amlogic/keymanage/km_efuse_key.c b/drivers/amlogic/keymanage/km_efuse_key.c new file mode 100644 index 0000000000..c5c1e53baf --- /dev/null +++ b/drivers/amlogic/keymanage/km_efuse_key.c @@ -0,0 +1,156 @@ +/* + * \file km_efuse_key.c + * \brief efuse key ops for key manage + * + * \version 1.0.0 + * \date 15/06/30 + * \author Sam.Wu + * + * Copyright (c) 2015 Amlogic. All Rights Reserved. + * + */ +#include "key_manage_i.h" +#include +#include + +#include +#include + +#define SECURE_BOOT_KEY_NAME "secure_boot_set" + +extern int efuse_usr_api_init_dtb(const char* dt_addr); +extern int efuse_usr_api_get_cfg_key_size(const char* keyname, unsigned* pSz); +extern int efuse_usr_api_write_key(const char* keyname, const void* keydata, const unsigned dataSz); +extern int efuse_usr_api_read_key(const char* keyname, void* databuf, const unsigned bufSz); + +int keymanage_efuse_init(const char *buf, int len) +{ + char ver; + int ret = 0; + + const char* dtbLoadAddr; + dtbLoadAddr = (char*) env_get_ulong("fdtcontroladdr", 16, CFG_SYS_SDRAM_BASE + (16U<<20)); + + ret = efuse_usr_api_init_dtb(dtbLoadAddr); + if (ret) { + KM_ERR("efuse init failed\n"); + return __LINE__; + } + + ver = unifykey_get_efuse_version(); + if (ver == 0) { + KM_DBG("efuse version not cfg\n"); + return 0; + } + + //TODO: program the efuse version + + return ret; +} + +int keymange_efuse_exit(void) +{ + return 0; +} + +//must be hexdata if stored in efuse +int keymanage_efuse_write(const char *keyname, const void* keydata, unsigned int datalen) +{ + int ret = 0; + + if (!strcmp(SECURE_BOOT_KEY_NAME, keyname)) + { + char _cmdbuf[96]; + sprintf(_cmdbuf, "efuse %s %p", keyname, keydata); + ret = run_command(_cmdbuf, 0);; + } + else + { + ret = efuse_usr_api_write_key(keyname, keydata, datalen); + } + + return ret; +} + +ssize_t keymanage_efuse_size(const char* keyname) +{ + int ret = 0; + unsigned cfgSz = 0; + + ret = efuse_usr_api_get_cfg_key_size(keyname, &cfgSz); + if (ret || !cfgSz) { + KM_ERR("Fail at get cfg size for efuse key[%s]\n", keyname); + return 0; + } + + return cfgSz; +} + +int keymanage_efuse_exist(const char* keyname) +{ + + if (!strcmp(SECURE_BOOT_KEY_NAME, keyname)) + { + const unsigned long cfg10 = IS_FEAT_BOOT_VERIFY(); + KM_MSG("cfg10=0x%lX\n", cfg10); + return ( cfg10 ); + } + else + { + int ret = 0; + const ssize_t cfgSz = keymanage_efuse_size(keyname); + char* databuf = NULL; + int isEmpty = 1; + int i = 0; + + databuf = (char*)malloc(cfgSz); + if (!databuf) { + KM_ERR("Fail to alloc bufsz 0x%x for key %s\n", (unsigned)cfgSz, keyname); + return 0; + } + ret = keymanage_efuse_read(keyname, databuf, cfgSz); + if (ret) { + KM_ERR("Fail at read key[%s]\n", keyname); + goto _exit; + } + for (i = 0; i < cfgSz && isEmpty; ++i) { + isEmpty = !databuf[i]; + } + +_exit: + free(databuf); + return !isEmpty; + } + + return __LINE__; +} + +int keymanage_efuse_query_can_read(const char* keyname) +{ + if (!strcmp(SECURE_BOOT_KEY_NAME, keyname)) + { + return 0; + } + else + { + return 1;//user space always can be read + } +} + +//data format is hexdata +int keymanage_efuse_read(const char *keyname, void* databuf, const unsigned bufSz) +{ + int ret = 0; + unsigned cfgSz = 0; + + cfgSz = keymanage_efuse_size(keyname); + if (cfgSz > bufSz) { + KM_ERR("buf sz 0x%x < dts cfg sz 0x%x\n", bufSz, cfgSz); + return __LINE__; + } + + ret = efuse_usr_api_read_key(keyname, databuf, cfgSz); + + return ret; +} + diff --git a/drivers/amlogic/keymanage/km_provision_key.c b/drivers/amlogic/keymanage/km_provision_key.c new file mode 100644 index 0000000000..954a42b28a --- /dev/null +++ b/drivers/amlogic/keymanage/km_provision_key.c @@ -0,0 +1,102 @@ +/* +* Copyright (C) 2017 Amlogic, Inc. All rights reserved. +* * +This program is free software; you can redistribute it and/or modify +* it under the terms of the GNU General Public License as published by +* the Free Software Foundation; either version 2 of the License, or +* (at your option) any later version. +* * +This program is distributed in the hope that it will be useful, but WITHOUT +* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or +* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for +* more details. +* * +You should have received a copy of the GNU General Public License along +* with this program; if not, write to the Free Software Foundation, Inc., +* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. +* * +Description: +*/ + +#include "key_manage_i.h" +#include + +#define _CMD_BUF_LEN 512 +static char _cmdBuf[_CMD_BUF_LEN]; + +int keymanage_provision_init(const char *buf, int len) +{ + KM_DBG("f(%s)L%d\n", __func__, __LINE__); + return 0; +} + +int keymanage_provision_exit(void) +{ + KM_DBG("f(%s)L%d\n", __func__, __LINE__); + return 0; +} + +//must be hexdata if stored in efuse +int keymanage_provision_write(const char *keyname, const void* keydata, unsigned int datalen) +{ + KM_DBG("f(%s)L%d\n", __func__, __LINE__); + + snprintf(_cmdBuf, _CMD_BUF_LEN, "factory_provision write %s 0x%p 0x%x", keyname, keydata, datalen); + int iRet = run_command(_cmdBuf, 0); + KM_MSG("factory provision[%s], query sta=%d\n", keyname, iRet); + + return iRet; +} + +ssize_t keymanage_provision_size(const char* keyname) +{ + KM_DBG("f(%s)L%d\n", __func__, __LINE__); + uint32_t retBuf[12]; + snprintf(_cmdBuf, _CMD_BUF_LEN, "factory_provision query %s 0x%p", keyname, retBuf); + int iRet = run_command(_cmdBuf, 0); + if (iRet) { + KM_MSG("factory provision[%s], query sta=%d\n", keyname, iRet); + return 0; + } + + return retBuf[0]; +} + +int keymanage_provision_exist(const char* keyname) +{ + KM_DBG("f(%s)L%d\n", __func__, __LINE__); + snprintf(_cmdBuf, _CMD_BUF_LEN, "factory_provision query %s", keyname); + int iRet = run_command(_cmdBuf, 0); + if (iRet) KM_MSG("factory provision[%s], query sta=%d\n", keyname, iRet); + + return !iRet; +} + +int keymanage_provision_query_can_read(const char* keyname) +{ + KM_DBG("f(%s)L%d\n", __func__, __LINE__); + + return 0;//always cannot be read +} + +//read hash instead of actual value +int keymanage_provision_read(const char *keyname, void* databuf, const unsigned bufSz) +{ + KM_DBG("f(%s)L%d\n", __func__, __LINE__); + uint32_t retBuf[12]; + snprintf(_cmdBuf, _CMD_BUF_LEN, "factory_provision query %s 0x%p", keyname, retBuf); + int iRet = run_command(_cmdBuf, 0); + if (iRet) { + KM_MSG("factory provision[%s], query sta=%d\n", keyname, iRet); + return __LINE__; + } + if (bufSz < 32) { + KM_ERR("bufsz %d not enough for sha256sum\n", bufSz); + return -__LINE__; + } + + KM_MSG("provision read return sha256sum, but not original data\n"); + memcpy(databuf, retBuf + 1, 32); + return 0;// +} + diff --git a/drivers/amlogic/keymanage/km_secure_key.c b/drivers/amlogic/keymanage/km_secure_key.c new file mode 100644 index 0000000000..f33652b1b6 --- /dev/null +++ b/drivers/amlogic/keymanage/km_secure_key.c @@ -0,0 +1,263 @@ +/* + * \file km_secure_key.c + * \brief secure storage key ops for key manage + * + * \version 1.0.0 + * \date 15/06/30 + * \author Sam.Wu + * + * Copyright (c) 2015 Amlogic. All Rights Reserved. + * + */ +#include "key_manage_i.h" +#include +#include + +int keymanage_securekey_init(const char* buf, int len) +{ + int encrypt_type; + + encrypt_type = unifykey_get_encrypt_type(); + return amlkey_init((uint8_t*)buf, len, encrypt_type); //confirm +} + +int keymanage_securekey_exit(void) +{ + return 0; +} + +int keymanage_secukey_write(const char *keyname, const void* keydata, unsigned int datalen) +{ + int ret = 0; + uint8_t origSum[SHA256_SUM_LEN]; + const int isSecure = ( KEY_M_SECURE_KEY == keymanage_dts_get_key_device(keyname) ) ? 1 : 0; + const int isEncrypt= strlen(keymanage_dts_get_enc_type(keyname)) ? 1 : 0; + const unsigned int keyAttr = ( isSecure << 0 ) | ( isEncrypt << 8 ); + ssize_t writenLen = 0; + + if (isSecure) + { + sha256_context ctx; + sha256_starts(&ctx); + sha256_update(&ctx, keydata, datalen); + sha256_finish(&ctx, origSum); + } + + KM_MSG("isEncrypt=%s\n", keymanage_dts_get_enc_type(keyname)); + KM_DBG("%s, keyname=%s, keydata=%p, datalen=%d, isSecure=%d\n", __func__, keyname, keydata, datalen, isSecure); + KM_MSG("keyAttr is 0x%08X\n", keyAttr); + writenLen = amlkey_write((uint8_t*)keyname, (uint8_t*)keydata, datalen, keyAttr); + if (writenLen != datalen) { + KM_ERR("Want to write %u bytes, but only %zd Bytes\n", datalen, writenLen); + return __LINE__; + } + + if (isSecure) + { + uint8_t genSum[SHA256_SUM_LEN]; + + ret = amlkey_hash_4_secure((uint8_t*)keyname, genSum); + if (ret) { + KM_ERR("Failed when gen hash for secure key[%s], ret=%d\n", keyname, ret); + return __LINE__; + } + + ret = memcmp(origSum, genSum, SHA256_SUM_LEN); + if (ret) + { + int index = 0; + char origSum_str[SHA256_SUM_LEN * 2 + 2]; + char genSum_str[SHA256_SUM_LEN * 2 + 2]; + + origSum_str[0] = genSum_str[0] = '\0'; + for (index = 0; index < SHA256_SUM_LEN; ++index) { + + sprintf(origSum_str, "%s%02x", origSum_str, origSum[index]); + sprintf(genSum_str, "%s%02x", genSum_str, genSum[index]); + } + + KM_ERR("Failed in check hash, origSum[%s] != genSum[%s]\n", origSum_str, genSum_str); + return __LINE__; + } + KM_MSG("OK in check sha1256 in burn key[%s]\n", keyname); + } + + return ret; +} + +ssize_t keymanage_secukey_size(const char* keyname) +{ + return amlkey_size((uint8_t*)keyname); //actully size +} + +int keymanage_secukey_exist(const char* keyname) +{ + return amlkey_isexsit((uint8_t*)keyname); //exsit 1, non 0 +} + +int keymanage_secukey_can_read(const char* keyname) +{ + return !amlkey_issecure((uint8_t*)keyname); //secure 1, non 0 +} + +int keymanage_secukey_read(const char* keyname, void* databuf, unsigned buflen) +{ + int ret = 0; + + ret = keymanage_secukey_can_read(keyname); + if (!ret) { + KM_ERR("key[%s] can't read, is configured secured?\n", keyname); + return __LINE__; + } + + const ssize_t readLen = amlkey_read((uint8_t*)keyname, (uint8_t*)databuf, buflen); + if (readLen != buflen) { + KM_ERR("key[%s], want read %u Bytes, but %zd bytes\n", keyname, buflen, readLen); + return __LINE__; + } + + return 0; +} + +#if 1//hdcp2 rx start +#define HDCP2_RX_LC128_LEN (36) +#define HDCP2_RX_KEY_LEN (862) +#pragma pack(push, 1) +typedef struct _Hdcp2RxKeyFmt{ + unsigned version; + char lc128[HDCP2_RX_LC128_LEN]; + char keyVal[HDCP2_RX_KEY_LEN]; +}Hdcp2RxKeyFmt_t; +#pragma pack(pop) + +#define HDCP2_RX_KEY_TOTAL_LEN sizeof(Hdcp2RxKeyFmt_t) +#define HDCP2_RX_KEY_LC128_NAME "hdcp2lc128" +#define HDCP2_RX_KEY_NAME "hdcp2key" +#define HDCP2_RX_KEY_VERSION (0x02000000U) +#define HDCP2_VERSION_LEN ( 4 ) + +static char generalDataChange(const char input) +{ + int i; + char result = 0; + + for (i=0; i<8; i++) { + if ((input & (1< bufLen) { + KM_ERR("hdcp2 rx len unsupported. want %d but get %d\n", keyLen, bufLen); + return __LINE__; + } + if (HDCP2_RX_KEY_VERSION != pHdcp2RxKey->version) { + KM_ERR("Version value 0x%x is error, should be 0x%x\n", pHdcp2RxKey->version, HDCP2_RX_KEY_VERSION); + return __LINE__; + } + + hdcp2DataEncryption(keyLen, databuf, decryptBuf); + KM_MSG("Ecnrypt hdcp2 END.\n"); + pHdcp2RxKey = (Hdcp2RxKeyFmt_t*)decryptBuf; + + const uint8_t* tmpName = (uint8_t*)HDCP2_RX_KEY_LC128_NAME; + unsigned tmpLen = HDCP2_RX_LC128_LEN; + unsigned isSecure = 0; + ssize_t retLen = 0; + retLen = amlkey_write(tmpName, (uint8_t*)&pHdcp2RxKey->lc128, tmpLen , isSecure); + if (retLen != tmpLen) { + KM_ERR ("Fail in write hdcp2 lc128, retLen %zd != want len %d\n", retLen, tmpLen) ; + return __LINE__; + } + + tmpName = (uint8_t*)HDCP2_RX_KEY_NAME; + tmpLen = HDCP2_RX_KEY_LEN; + retLen = amlkey_write(tmpName, (uint8_t*)&pHdcp2RxKey->keyVal, tmpLen , isSecure); + if (retLen != tmpLen) { + KM_ERR ("Fail in write hdcp2 key, retLen %zd != want len %d\n", retLen, tmpLen) ; + return __LINE__; + } + + tmpLen = HDCP2_VERSION_LEN; + retLen = amlkey_write((uint8_t*)keyname, (uint8_t*)&pHdcp2RxKey->version, tmpLen, isSecure); + if (retLen != tmpLen) { + KM_ERR ("Fail in write hdcp2 key, retLen %zd != want len %d\n", retLen, tmpLen) ; + return __LINE__; + } + + return 0; +} + +int _read_key_in_type_hdcp2(const char* keyname, void* databuf, const unsigned bufLen, char* decryptBuf) +{ + const unsigned srcKeyLen = HDCP2_RX_KEY_TOTAL_LEN; + Hdcp2RxKeyFmt_t* pHdcp2RxKey = (Hdcp2RxKeyFmt_t*)decryptBuf; + const uint8_t* tmpName = NULL; + int tmpLen = 0; + + if (bufLen < srcKeyLen) { + KM_ERR("hdcp2 rx len unsupported. want %d but only %d\n", srcKeyLen, bufLen); + return __LINE__; + } + + ssize_t retLen = 0; + tmpName = (uint8_t*)keyname; + tmpLen = HDCP2_VERSION_LEN; + retLen = amlkey_read(tmpName, (uint8_t*)&pHdcp2RxKey->version, tmpLen); + if (retLen != tmpLen) { + KM_ERR ("Fail in read key[%s] at len %d\n", tmpName, tmpLen) ; + return __LINE__; + } + + tmpName = (uint8_t*)HDCP2_RX_KEY_NAME; + tmpLen = HDCP2_RX_KEY_LEN; + retLen = amlkey_read(tmpName, (uint8_t*)&pHdcp2RxKey->keyVal, tmpLen); + if (retLen != tmpLen) { + KM_ERR ("Fail in read key[%s] at len %d\n", tmpName, tmpLen) ; + return __LINE__; + } + + tmpName = (uint8_t*)HDCP2_RX_KEY_LC128_NAME; + tmpLen = HDCP2_RX_LC128_LEN; + retLen = amlkey_read(tmpName, (uint8_t*)&pHdcp2RxKey->lc128, tmpLen); + if (retLen != tmpLen) { + KM_ERR ("Fail in read key[%s] at len %d\n", tmpName, tmpLen) ; + return __LINE__; + } + + hdcp2DataDecryption(srcKeyLen, (char*)pHdcp2RxKey, databuf); + + return 0; +} +int _km_hdcp2_size(void) +{ + return HDCP2_RX_KEY_TOTAL_LEN; +} +#endif//hdcp2 rx end + + diff --git a/drivers/amlogic/keymanage/km_secure_key_2015.c b/drivers/amlogic/keymanage/km_secure_key_2015.c new file mode 100644 index 0000000000..5baabb88f0 --- /dev/null +++ b/drivers/amlogic/keymanage/km_secure_key_2015.c @@ -0,0 +1,118 @@ +/* SPDX-License-Identifier: (GPL-2.0+ OR MIT) */ +/* + * drivers/keymanage/km_secure_key.c + * + * Copyright (C) 2020 Amlogic, Inc. All rights reserved. + * + */ + +#include "key_manage_i.h" +#include +#include + +int keymanage_securekey_init(const char* buf, int len) +{ + int encrypt_type; + + encrypt_type = unifykey_get_encrypt_type(); + return amlkey_init((uint8_t*)buf, len, encrypt_type); //confirm +} + +int keymanage_securekey_exit(void) +{ + return 0; +} + +int keymanage_secukey_write(const char *keyname, const void* keydata, unsigned int datalen) +{ + int ret = 0; + uint8_t origSum[SHA256_SUM_LEN]; + const int isSecure = ( KEY_M_SECURE_KEY == keymanage_dts_get_key_device(keyname) ) ? 1 : 0; + const int isEncrypt= strlen(keymanage_dts_get_enc_type(keyname)) ? 1 : 0; + const unsigned int keyAttr = ( isSecure << 0 ) | ( isEncrypt << 8 ); + ssize_t writenLen = 0; + + if (isSecure) + { + sha256_context ctx; + sha256_starts(&ctx); + sha256_update(&ctx, keydata, datalen); + sha256_finish(&ctx, origSum); + } + + KM_MSG("isEncrypt=%s\n", keymanage_dts_get_enc_type(keyname)); + KM_DBG("%s, keyname=%s, keydata=%p, datalen=%d, isSecure=%d\n", __func__, keyname, keydata, datalen, isSecure); + KM_MSG("keyAttr is 0x%08X\n", keyAttr); + writenLen = amlkey_write((uint8_t*)keyname, (uint8_t*)keydata, datalen, keyAttr); + if (writenLen != datalen) { + KM_ERR("Want to write %u bytes, but only %zd Bytes\n", datalen, writenLen); + return __LINE__; + } + + if (isSecure) + { + uint8_t genSum[SHA256_SUM_LEN]; + + ret = amlkey_hash_4_secure((uint8_t*)keyname, genSum); + if (ret) { + KM_ERR("Failed when gen hash for secure key[%s], ret=%d\n", keyname, ret); + return __LINE__; + } + + ret = memcmp(origSum, genSum, SHA256_SUM_LEN); + if (ret) + { + int index = 0; + char origSum_str[SHA256_SUM_LEN * 2 + 2]; + char genSum_str[SHA256_SUM_LEN * 2 + 2]; + + origSum_str[0] = genSum_str[0] = '\0'; + for (index = 0; index < SHA256_SUM_LEN; ++index) { + + sprintf(origSum_str, "%s%02x", origSum_str, origSum[index]); + sprintf(genSum_str, "%s%02x", genSum_str, genSum[index]); + } + + KM_ERR("Failed in check hash, origSum[%s] != genSum[%s]\n", origSum_str, genSum_str); + return __LINE__; + } + KM_MSG("OK in check sha1256 in burn key[%s]\n", keyname); + } + + return ret; +} + +ssize_t keymanage_secukey_size(const char* keyname) +{ + return amlkey_size((uint8_t*)keyname); //actully size +} + +int keymanage_secukey_exist(const char* keyname) +{ + return amlkey_isexsit((uint8_t*)keyname); //exsit 1, non 0 +} + +int keymanage_secukey_can_read(const char* keyname) +{ + return !amlkey_issecure((uint8_t*)keyname); //secure 1, non 0 +} + +int keymanage_secukey_read(const char* keyname, void* databuf, unsigned buflen) +{ + int ret = 0; + + ret = keymanage_secukey_can_read(keyname); + if (!ret) { + KM_ERR("key[%s] can't read, is configured secured?\n", keyname); + return __LINE__; + } + + const ssize_t readLen = amlkey_read((uint8_t*)keyname, (uint8_t*)databuf, buflen); + if (readLen != buflen) { + KM_ERR("key[%s], want read %u Bytes, but %zd bytes\n", keyname, buflen, readLen); + return __LINE__; + } + + return 0; +} + diff --git a/drivers/amlogic/storagekey/Kconfig b/drivers/amlogic/storagekey/Kconfig new file mode 100644 index 0000000000..311ab7e8ec --- /dev/null +++ b/drivers/amlogic/storagekey/Kconfig @@ -0,0 +1,2 @@ +config SECURE_STORAGE + bool "Amlogic bl31 storage key" diff --git a/drivers/amlogic/storagekey/Makefile b/drivers/amlogic/storagekey/Makefile new file mode 100644 index 0000000000..6e7ccb4ba3 --- /dev/null +++ b/drivers/amlogic/storagekey/Makefile @@ -0,0 +1,3 @@ +obj-$(CONFIG_SECURE_STORAGE) += storagekey.o +obj-$(CONFIG_SECURE_STORAGE) += securestorage.o +obj-$(CONFIG_SECURE_STORAGE) += normal_key.o diff --git a/drivers/amlogic/storagekey/normal_key.c b/drivers/amlogic/storagekey/normal_key.c new file mode 100644 index 0000000000..9e40c8fdfe --- /dev/null +++ b/drivers/amlogic/storagekey/normal_key.c @@ -0,0 +1,672 @@ +/* + * drivers/storagekey/normal_key.c + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#include +#include +#include +#include +#include +#include "normal_key.h" + +#undef pr_info +#define pr_info(fmt ...) printf("[KM]Msg:"fmt) +#undef pr_err +#define pr_err(fmt ...) printf("[KM]Error:f[%s]L%d:", __func__, __LINE__),printf(fmt) + +#define DBG 0 + +/* Storage BLOCK RAW HEAD: fixed 512B*/ +#define ENC_TYPE_DEFAULT 0 +#define ENC_TYPE_EFUSE 1 +#define ENC_TYPE_FIXED 2 + +#define STORAGE_BLOCK_RAW_HEAD_SIZE 512 + +#define BLOCK_VERSION_0 0 + +#define ERR_HEADER 0x1 +#define ERR_KEYMEMFAIL 0x2 +#define ERR_KEYRDFAIL 0x4 +#define ERR_KEYCHKFAIL 0x8 +#define ERR_ENCHDFAIL 0x10 +#define ERR_DATASZ 0x20 +struct storage_block_raw_head { + u8 mark[16]; /* AMLNORMAL*/ + u32 version; + u32 enctype; /*from EFUSE, from default, from fixed*/ + u32 keycnt; + u32 initcnt; + u32 wrtcnt; + u32 errcnt; + u32 flags; + u8 headhash[32]; + u8 hash[32]; +}; + +/* Storage BLOCK ENC HEAD: fixed 512B*/ +#define STORAGE_BLOCK_ENC_HEAD_SIZE 512 +struct storage_block_enc_head { + u32 blocksize; + u32 flashsize; +}; + +/* Storage Format: TLV*/ +enum emTLVTag { + EMTLVNONE, + + EMTLVHEAD, + EMTLVHEADSIZE, + + EMTLVOBJECT, + EMTLVOBJNAMESIZE, + EMTLVOBJNAME, + EMTLVOBJDATASIZE, + EMTLVOBJDATABUF, + EMTLVOBJTYPE, + EMTLVOBJATTR, + EMTLVOBJHASHBUF, + + EMTLVHEADFLASHSIZE, +}; + +struct storage_node { + struct list_head node; + struct storage_object object; +}; + +static LIST_HEAD(keys); +static int blockinited; +static struct storage_block_raw_head rawhead; +static struct storage_block_enc_head enchead; +static char *blockmark = "AMLNORMAL"; + +#if DBG +static void dump_raw_head(struct storage_block_raw_head *prawhead) +{ + pr_info("rawhead:\n"); + pr_info("mark: %s\n", prawhead->mark); + pr_info("keycnt: %u\n", prawhead->keycnt); + pr_info("initcnt: %u\n", prawhead->initcnt); + pr_info("wrtcnt: %u\n", prawhead->wrtcnt); + pr_info("errcnt: %u\n", prawhead->errcnt); + pr_info("flags: 0x%x\n", prawhead->flags); +} + +static void dump_enc_head(struct storage_block_enc_head *penchead) +{ + pr_info("enchead:\n"); + pr_info("blocksize: %u\n", penchead->blocksize); + pr_info("flashsize: %u\n", penchead->flashsize); +} + +static void dump_mem(const u8 *p, int len) +{ + int idx = 0, j, tmp; + char buf[64]; + int total; + + while (idx < len) { + total = 0; + tmp = min(((int)len - idx), 16); + for (j = 0; j < tmp; j++) + total += snprintf(buf + total, 64 - total, + "%02x ", p[idx + j]); + buf[total] = 0; + pr_info("%s\n", buf); + idx += tmp; + } +} + +static void dump_object(struct storage_object *obj) +{ + pr_info("key: [%u, %.*s, %x, %x, %u]\n", + obj->namesize, obj->namesize, obj->name, + obj->type, obj->attribute, obj->datasize); + if (obj->dataptr) { + pr_info("data:\n"); + dump_mem(obj->dataptr, obj->datasize); + } +} +#endif + +static u32 Tlv_WriteUint32(u8 *output, s32 len, + u32 tag, u32 value) +{ + u32 *out = (u32 *)output; + + if (len < 12) + return 0; + + out[0] = tag; + out[1] = 4; + out[2] = value; + return 12; +} + +static u32 Tlv_WriteBuf(u8 *output, s32 len, + u32 tag, + u32 length, u8 *input) +{ + u8 *out = output; + u32 tmplen = (((length + 3) / 4) * 4); + + if (len < (s32)(8 + tmplen)) + return 0; + + *((u32 *)out) = tag; + *((u32 *)(out + 4)) = tmplen; + memset(out + 8, 0, tmplen); + memcpy(out + 8, input, length); + + return tmplen + 8; +} + +static u32 Tlv_ReadTl(u8 *input, int32_t len, + u32 *tag, u32 *length, + u32 *idx) +{ + if (len < 8) + return 0; + + *tag = *((u32 *)input); + *length = *((u32 *)(input + 4)); + + if ((8 + *length) > len) + return 0; + *idx += 8; + + return 8; +} + +static u32 Tlv_ReadHead(u8 *input, int32_t len, + struct storage_block_enc_head *pblockhead) +{ + u32 tag; + u32 sum; + u32 length; + u32 idx = 0; + u32 ret; + + ret = Tlv_ReadTl(input, len, + &tag, &sum, &idx); + if (!ret) + return 0; + + if (tag != EMTLVHEAD) + return 0; + + sum += ret; + while (idx < sum) { + ret = Tlv_ReadTl(input + idx, len - idx, + &tag, &length, &idx); + if (!ret) + return 0; + + switch (tag) { + case EMTLVHEADSIZE: + pblockhead->blocksize = *((u32 *)(input + idx)); + break; + case EMTLVHEADFLASHSIZE: + pblockhead->flashsize = *((u32 *)(input + idx)); + break; + default: + break; + } + idx += length; + } + return sum; +} + +static u32 Tlv_ReadObject(u8 *input, int32_t len, + struct storage_object *pcontent) +{ + u32 tag; + u32 length; + u32 sum; + u32 idx = 0; + u32 ret; + + memset(pcontent, 0, sizeof(*pcontent)); + ret = Tlv_ReadTl(input, len, + &tag, &sum, &idx); + if (!ret) + return 0; + + if (tag != EMTLVOBJECT) + return 0; + + sum += ret; + while (idx < sum) { + ret = Tlv_ReadTl(input + idx, len - idx, + &tag, &length, &idx); + if (!ret) + goto tlv_readkeycontent_err; + + switch (tag) { + case EMTLVOBJNAMESIZE: + pcontent->namesize = *((u32 *)(input + idx)); + break; + case EMTLVOBJNAME: + memset(pcontent->name, 0, MAX_OBJ_NAME_LEN); + memcpy(pcontent->name, input + idx, pcontent->namesize); + break; + case EMTLVOBJTYPE: + pcontent->type = *((u32 *)(input + idx)); + break; + case EMTLVOBJATTR: + pcontent->attribute = *((u32 *)(input + idx)); + break; + case EMTLVOBJDATASIZE: + pcontent->datasize = *((u32 *)(input + idx)); + break; + case EMTLVOBJHASHBUF: + if (length != 32) + goto tlv_readkeycontent_err; + memcpy(pcontent->hashptr, input + idx, length); + break; + case EMTLVOBJDATABUF: + pcontent->dataptr = malloc(pcontent->datasize); + if (!pcontent->dataptr) + goto tlv_readkeycontent_err; + memcpy(pcontent->dataptr, + input + idx, pcontent->datasize); + break; + default: + break; + } + idx += length; + } + return sum; + +tlv_readkeycontent_err: + free(pcontent->dataptr); + return 0; +} + +#define WRT_UINT32(tag, field) \ + ({ \ + u32 __tmp; \ + __tmp = Tlv_WriteUint32(output + idx, len - idx, \ + tag, field); \ + if (__tmp) \ + idx += __tmp; \ + __tmp; \ + }) + +#define WRT_BUF(tag, buflen, buf) \ + ({ \ + u32 __tmp; \ + __tmp = Tlv_WriteBuf(output + idx, len - idx, \ + tag, buflen, buf); \ + if (__tmp) \ + idx += __tmp; \ + __tmp; \ + }) + +u32 Tlv_WriteHead(struct storage_block_enc_head *enchead, + u8 *output, int32_t len) +{ + u32 *sum; + u32 idx = 0; + + if (len < 8) + return 0; + + *(u32 *)output = EMTLVHEAD; + sum = (u32 *)(output + 4); + idx += 8; + + if (!WRT_UINT32(EMTLVHEADSIZE, enchead->blocksize)) + return 0; + if (!WRT_UINT32(EMTLVHEADFLASHSIZE, enchead->flashsize)) + return 0; + + *sum = idx - 8; + return idx; +} + +u32 Tlv_WriteObject(struct storage_object *object, + u8 *output, int32_t len) +{ + u32 *sum; + u32 idx = 0; + + if (len < 8) + return 0; + + *(u32 *)output = EMTLVOBJECT; + sum = (u32 *)(output + 4); + idx += 8; + + if (object->namesize != 0) { + if (!WRT_UINT32(EMTLVOBJNAMESIZE, object->namesize)) + return 0; + if (!WRT_BUF(EMTLVOBJNAME, object->namesize, + (u8 *)object->name)) + return 0; + } + + if (object->dataptr && object->datasize != 0) { + if (!WRT_UINT32(EMTLVOBJDATASIZE, object->datasize)) + return 0; + if (!WRT_BUF(EMTLVOBJDATABUF, object->datasize, + object->dataptr)) + return 0; + } + + if (!WRT_BUF(EMTLVOBJHASHBUF, 32, object->hashptr)) + return 0; + if (!WRT_UINT32(EMTLVOBJTYPE, object->type)) + return 0; + if (!WRT_UINT32(EMTLVOBJATTR, object->attribute)) + return 0; + + *sum = idx - 8; + return idx; +} + +static int normalkey_hash(u8 *data, u32 len, u8 *hash) +{ + sha256_context ctx; + sha256_starts(&ctx); + sha256_update(&ctx, data, len); + sha256_finish(&ctx, hash); + return 0; +} + +int normalkey_init(void) +{ + if (blockinited) + return 0; + + blockinited = 1; + return 0; +} + +void normalkey_deinit(void) +{ + struct storage_node *pos, *n; + + if (!blockinited) + return; + + blockinited = 0; + + list_for_each_entry_safe(pos, n, &keys, node) { + list_del(&pos->node); + free(pos->object.dataptr); + free(pos); + } +} + +struct storage_object *normalkey_get(const u8 *name) +{ + struct storage_node *pos; + struct storage_object *obj; + u32 len; + + if (!name) + return NULL; + + len = strlen((const char*)name); + list_for_each_entry(pos, &keys, node) { + obj = &pos->object; + if (len == obj->namesize && + !memcmp(name, obj->name, len)) + return obj; + } + + return NULL; +} + +int normalkey_add(const u8 *name, u8 *buffer, u32 len, u32 attr) +{ + struct storage_object *obj; + struct storage_node *node; + u32 namelen; + u8 *data; + + if (blockinited != 2) + return -1; + + if (!name || !buffer || !len || (attr & OBJ_ATTR_SECURE)) + return -1; + + namelen = strlen((const char*)name); + if (namelen > MAX_OBJ_NAME_LEN) + return -1; + + obj = normalkey_get(name); + if (obj) { + if (attr != obj->attribute) + return -1; + if (len > obj->datasize) { + data = malloc(len); + if (!data) + return -1; + free(obj->dataptr); + obj->dataptr = data; + } + } else { + node = malloc(sizeof(*node)); + if (!node) + return -1; + data = malloc(len); + if (!data) { + free(node); + return -1; + } + obj = &node->object; + memcpy(obj->name, name, namelen); + obj->namesize = namelen; + obj->attribute = attr; + obj->type = OBJ_TYPE_GENERIC; + obj->dataptr = data; + list_add(&node->node, &keys); + } + obj->datasize = len; + memcpy(obj->dataptr, buffer, len); + normalkey_hash(buffer, len, obj->hashptr); + return 0; +} + +int normalkey_del(const u8 *name) +{ + struct storage_object *obj; + struct storage_node *node; + + if (blockinited != 2) + return -1; + + obj = normalkey_get(name); + if (!obj) + return -1; + + node = container_of(obj, struct storage_node, object); + list_del(&node->node); + free(obj->dataptr); + free(node); + + return 0; +} + +int normalkey_readfromblock(void *block, unsigned long size) +{ + struct storage_block_raw_head *prawhead; + u8 *penchead, *pdata; + struct storage_node *node = NULL; + u8 hash[32]; + u32 idx; + u32 ret; + + if (blockinited != 1) + return -1; + + prawhead = (struct storage_block_raw_head *)block; + penchead = (u8 *)block + STORAGE_BLOCK_RAW_HEAD_SIZE; + pdata = penchead + STORAGE_BLOCK_ENC_HEAD_SIZE; + + if (!block || size <= + (STORAGE_BLOCK_ENC_HEAD_SIZE + STORAGE_BLOCK_RAW_HEAD_SIZE)) + return -1; + + blockinited = 2; + + memset(&rawhead, 0, sizeof(rawhead)); + strncpy((char*)rawhead.mark, blockmark, 15); + rawhead.version = BLOCK_VERSION_0; + + enchead.flashsize = size; + if (strcmp((const char *)prawhead->mark, blockmark) != 0) { + pr_info("mark is not found\n"); + return 0; + } + + normalkey_hash((u8 *)prawhead, sizeof(*prawhead) - 64, + rawhead.headhash); + if (memcmp(rawhead.headhash, prawhead->headhash, 32)) { + pr_info("rawhead hash check fail\n"); + rawhead.flags |= ERR_HEADER; + } else { + pr_info("rawhead hash check successful\n"); + rawhead.keycnt = prawhead->keycnt; + rawhead.initcnt = prawhead->initcnt; + rawhead.wrtcnt = prawhead->wrtcnt; + rawhead.errcnt = prawhead->errcnt; + rawhead.flags = prawhead->flags; + } + + rawhead.initcnt++; + +#if DBG + dump_raw_head(&rawhead); +#endif + + normalkey_hash(penchead, size - STORAGE_BLOCK_RAW_HEAD_SIZE, + rawhead.hash); + if (memcmp(rawhead.hash, prawhead->hash, 32)) { + pr_info("data hash check fail\n"); + rawhead.errcnt++; + return 0; + } + + ret = Tlv_ReadHead(penchead, STORAGE_BLOCK_ENC_HEAD_SIZE, + &enchead); + if (!ret) { + pr_info("read head fail\n"); + rawhead.flags |= ERR_ENCHDFAIL; + return 0; + } + +#if DBG + dump_enc_head(&enchead); +#endif + + if (size < (enchead.blocksize + STORAGE_BLOCK_ENC_HEAD_SIZE + + STORAGE_BLOCK_RAW_HEAD_SIZE)) { + rawhead.flags |= ERR_DATASZ; + return 0; + } + + idx = 0; + while (idx < enchead.blocksize) { + struct storage_object *obj = NULL; + + if (!node) { + node = malloc(sizeof(*node)); + if (!node) { + rawhead.flags |= ERR_KEYMEMFAIL; + break; + } + } + obj = &node->object; + ret = Tlv_ReadObject(pdata + idx, + enchead.blocksize - idx, obj); + if (!ret) { + rawhead.flags |= ERR_KEYRDFAIL; + break; + } + idx += ret; + + normalkey_hash(obj->dataptr, obj->datasize, hash); + if (memcmp(hash, obj->hashptr, 32)) { + free(obj->dataptr); + rawhead.flags |= ERR_KEYCHKFAIL; + continue; + } +#if DBG + dump_object(obj); +#endif + list_add(&node->node, &keys); + node = NULL; + } + + free(node); + return 0; +} + +int normalkey_writetoblock(void *block, unsigned long size) +{ + u8 *prawhead; + u8 *penchead, *pdata; + struct storage_object *obj = NULL; + struct storage_node *node = NULL; + u32 idx; + u32 ret; + + if (blockinited != 2) + return -1; + + prawhead = (u8 *)block; + penchead = prawhead + STORAGE_BLOCK_RAW_HEAD_SIZE; + pdata = penchead + STORAGE_BLOCK_ENC_HEAD_SIZE; + + if (!block || size <= + (STORAGE_BLOCK_ENC_HEAD_SIZE + STORAGE_BLOCK_RAW_HEAD_SIZE)) + return -1; + + enchead.flashsize = size; + size -= (STORAGE_BLOCK_ENC_HEAD_SIZE + STORAGE_BLOCK_RAW_HEAD_SIZE); + idx = 0; + rawhead.keycnt = 0; + list_for_each_entry(node, &keys, node) { + obj = &node->object; + ret = Tlv_WriteObject(obj, pdata + idx, size - idx); + if (!ret) + return -1; + idx += ret; + rawhead.keycnt++; + } + enchead.blocksize = idx; + + ret = Tlv_WriteHead(&enchead, penchead, STORAGE_BLOCK_ENC_HEAD_SIZE); + if (!ret) + return -1; + + rawhead.wrtcnt++; + normalkey_hash((u8 *)&rawhead, sizeof(rawhead) - 64, + rawhead.headhash); + normalkey_hash(penchead, + enchead.flashsize - STORAGE_BLOCK_RAW_HEAD_SIZE, + rawhead.hash); + memcpy(prawhead, &rawhead, sizeof(rawhead)); + + return 0; +} diff --git a/drivers/amlogic/storagekey/normal_key.h b/drivers/amlogic/storagekey/normal_key.h new file mode 100644 index 0000000000..18772db67e --- /dev/null +++ b/drivers/amlogic/storagekey/normal_key.h @@ -0,0 +1,49 @@ +/* + * drivers/amlogic/storagekey/normal_key.h + * + * Copyright (C) 2017 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + */ + +#ifndef _AML_NORMAL_KEY_H_ +#define _AML_NORMAL_KEY_H_ + +#define MAX_OBJ_NAME_LEN 80 + +/*Attribute*/ +#define OBJ_ATTR_SECURE BIT(0) +#define OBJ_ATTR_OTP BIT(1) +#define OBJ_ATTR_ENC BIT(8) + +/* Type */ +#define OBJ_TYPE_GENERIC 0xA00000BF + +struct storage_object { + char name[MAX_OBJ_NAME_LEN]; + u32 namesize; + u32 attribute; /*secure, OTP*/ + u32 type; /*AES, RSA, GENERIC, ...*/ + u32 datasize; + u8 *dataptr; + u8 hashptr[32]; +}; + +int normalkey_init(void); +void normalkey_deinit(void); +struct storage_object *normalkey_get(const u8 *name); +int normalkey_add(const u8 *name, u8 *buffer, u32 len, u32 attr); +int normalkey_del(const u8 *name); +int normalkey_readfromblock(void *block, unsigned long size); +int normalkey_writetoblock(void *block, unsigned long size); + +#endif diff --git a/drivers/amlogic/storagekey/securestorage.c b/drivers/amlogic/storagekey/securestorage.c new file mode 100644 index 0000000000..c65fee5586 --- /dev/null +++ b/drivers/amlogic/storagekey/securestorage.c @@ -0,0 +1,389 @@ +#include +#include +#include + +// TODO: refactor +#include +#include + +static uint64_t storage_share_in_base; +static uint64_t storage_share_out_base; +static uint64_t storage_share_block_base; +static uint64_t storage_share_block_size; +static int32_t storage_init_status; + +static uint64_t bl31_storage_ops(uint64_t function_id) +{ + asm volatile( + __asmeq("%0", "x0") + "smc #0\n" + : "+r" (function_id)); + + return function_id; +} +uint64_t bl31_storage_ops2(uint64_t function_id, uint64_t arg1) +{ + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x1") + "smc #0\n" + : "+r" (function_id) + : "r"(arg1)); + + return function_id; +} +uint64_t bl31_storage_ops3(uint64_t function_id, uint64_t arg1, uint32_t arg2) +{ + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x1") + __asmeq("%2", "x2") + "smc #0\n" + : "+r" (function_id) + : "r"(arg1), "r"(arg2)); + + return function_id; +} + +static uint64_t bl31_storage_write(uint8_t *keyname, uint8_t *keybuf, + uint32_t keylen, uint32_t keyattr) +{ + uint32_t *input = (uint32_t *)storage_share_in_base; + uint8_t *data; + uint32_t namelen; + + namelen = strlen((const char *)keyname); + *input++ = namelen; + *input++ = keylen; + *input++ = keyattr; + data = (uint8_t *)input; + memcpy(data, keyname, namelen); + data += namelen; + memcpy(data, keybuf, keylen); + return bl31_storage_ops(SECURITY_KEY_WRITE); +} + +static uint64_t bl31_storage_read(uint8_t *keyname, uint8_t *keybuf, + uint32_t keylen, uint32_t *readlen) +{ + uint32_t *input = (uint32_t *)storage_share_in_base; + uint32_t *output = (uint32_t *)storage_share_out_base; + uint32_t namelen; + uint8_t *name, *buf; + uint64_t ret; + + namelen = strlen((const char *)keyname); + *input++ = namelen; + *input++ = keylen; + name = (uint8_t *)input; + memcpy(name, keyname, namelen); + ret = bl31_storage_ops(SECURITY_KEY_READ); + if (ret == RET_OK) { + *readlen = *output; + buf = (uint8_t *)(output+1); + memcpy(keybuf, buf, *readlen); + } + return ret; +} + +static uint64_t bl31_storage_query(uint8_t *keyname, uint32_t *retval) +{ + uint32_t *input = (uint32_t *)storage_share_in_base; + uint32_t *output = (uint32_t *)storage_share_out_base; + uint32_t namelen; + uint8_t *name; + uint64_t ret; + + namelen = strlen((const char *)keyname); + *input++ = namelen; + name = (uint8_t *)input; + memcpy(name, keyname, namelen); + ret = bl31_storage_ops(SECURITY_KEY_QUERY); + if (ret == RET_OK) + *retval = *output; + return ret; +} + +static uint64_t bl31_storage_status(uint8_t *keyname, uint32_t *retval) +{ + uint32_t *input = (uint32_t *)storage_share_in_base; + uint32_t *output = (uint32_t *)storage_share_out_base; + uint32_t namelen; + uint8_t *name; + uint64_t ret; + + namelen = strlen((const char *)keyname); + *input++ = namelen; + name = (uint8_t *)input; + memcpy(name, keyname, namelen); + ret = bl31_storage_ops(SECURITY_KEY_STATUS); + if (ret == RET_OK) + *retval = *output; + return ret; +} +static uint64_t bl31_storage_tell(uint8_t *keyname, uint32_t *retval) +{ + uint32_t *input = (uint32_t *)storage_share_in_base; + uint32_t *output = (uint32_t *)storage_share_out_base; + uint32_t namelen; + uint8_t *name; + uint64_t ret; + + namelen = strlen((const char *)keyname); + *input++ = namelen; + name = (uint8_t *)input; + memcpy(name, keyname, namelen); + ret = bl31_storage_ops(SECURITY_KEY_TELL); + if (ret == RET_OK) + *retval = *output; + return ret; +} + +static uint64_t bl31_storage_verify(uint8_t *keyname, uint8_t *hashbuf) +{ + uint32_t *input = (uint32_t *)storage_share_in_base; + uint32_t *output = (uint32_t *)storage_share_out_base; + uint32_t namelen; + uint8_t *name; + uint64_t ret; + + namelen = strlen((const char *)keyname); + *input++ = namelen; + name = (uint8_t *)input; + memcpy(name, keyname, namelen); + ret = bl31_storage_ops(SECURITY_KEY_VERIFY); + + if (ret == RET_OK) + memcpy(hashbuf, (uint8_t *)output, 32); + return ret; +} + +static uint64_t bl31_storage_list(uint8_t *listbuf, + uint32_t outlen, uint32_t *readlen) +{ + uint32_t *output = (uint32_t *)storage_share_out_base; + uint64_t ret; + + ret = bl31_storage_ops(SECURITY_KEY_LIST); + if (ret == RET_OK) { + if (*output > outlen) + *readlen = outlen; + else + *readlen = *output; + memcpy(listbuf, (uint8_t *)(output+1), *readlen); + } + return ret; +} + +static uint64_t bl31_storage_remove(uint8_t *keyname) +{ + uint32_t *input = (uint32_t *)storage_share_in_base; + uint32_t namelen; + uint8_t *name; + + namelen = strlen((const char *)keyname); + *input++ = namelen; + name = (uint8_t *)input; + memcpy(name, keyname, namelen); + return bl31_storage_ops(SECURITY_KEY_REMOVE); +} + +static inline int32_t smc_to_ns_errno(uint64_t errno) +{ + int32_t ret = (int32_t)(errno&0xffffffff); + return ret; +} + +void secure_storage_init(void) +{ + storage_share_in_base = + bl31_storage_ops(GET_SHARE_STORAGE_IN_BASE); + storage_share_out_base = + bl31_storage_ops(GET_SHARE_STORAGE_OUT_BASE); + storage_share_block_base = + bl31_storage_ops(GET_SHARE_STORAGE_BLOCK_BASE); + storage_share_block_size = + bl31_storage_ops(GET_SHARE_STORAGE_BLOCK_SIZE); + + if (storage_share_in_base == SMC_UNK + || storage_share_out_base == SMC_UNK + || storage_share_block_base == SMC_UNK + || storage_share_block_size == SMC_UNK) + storage_init_status = -1; + else + storage_init_status = 1; +} + +void *secure_storage_getbuffer(uint32_t *size) +{ + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) { + storage_share_block_size = + bl31_storage_ops(GET_SHARE_STORAGE_BLOCK_SIZE); + *size = (uint32_t)storage_share_block_size; + return (void *)storage_share_block_base; + } + else { + *size = 0; + return NULL; + } +} +void secure_storage_notifier(void) +{ + bl31_storage_ops(SECURITY_KEY_NOTIFY); +} + +void secure_storage_notifier_ex(uint32_t storagesize, uint32_t rsvarg) +{ + bl31_storage_ops3(SECURITY_KEY_NOTIFY_EX, storagesize, rsvarg); +} + +int32_t secure_storage_write(uint8_t *keyname, uint8_t *keybuf, + uint32_t keylen, uint32_t keyattr) +{ + uint32_t ret; + + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) + ret = bl31_storage_write(keyname, keybuf, keylen, keyattr); + else + ret = RET_EUND; + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_read(uint8_t *keyname, uint8_t *keybuf, + uint32_t keylen, uint32_t *readlen) +{ + uint64_t ret; + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) + ret = bl31_storage_read(keyname, keybuf, keylen, readlen); + else + ret = RET_EUND; + + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_query(uint8_t *keyname, uint32_t *retval) +{ + uint64_t ret; + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) + ret = bl31_storage_query(keyname, retval); + else + ret = RET_EUND; + + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_status(uint8_t *keyname, uint32_t *retval) +{ + uint64_t ret; + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) + ret = bl31_storage_status(keyname, retval); + else + ret = RET_EUND; + + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_tell(uint8_t *keyname, uint32_t *retval) +{ + uint64_t ret; + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) + ret = bl31_storage_tell(keyname, retval); + else + ret = RET_EUND; + + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_verify(uint8_t *keyname, uint8_t *hashbuf) +{ + uint64_t ret; + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) + ret = bl31_storage_verify(keyname, hashbuf); + else + ret = RET_EUND; + + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_list(uint8_t *listbuf, + uint32_t buflen, uint32_t *readlen) +{ + uint64_t ret; + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) + ret = bl31_storage_list(listbuf, buflen, readlen); + else + ret = RET_EUND; + + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_remove(uint8_t *keyname) +{ + uint64_t ret; + if (storage_init_status == 0) + secure_storage_init(); + + if (storage_init_status == 1) + ret = bl31_storage_remove(keyname); + else + ret = RET_EUND; + + return smc_to_ns_errno(ret); +} + +void secure_storage_set_info(uint32_t info) +{ + register uint64_t x0 asm("x0")= SET_STORAGE_INFO; + register uint64_t x1 asm("x1") = info; + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x1") + "smc #0\n" + : :"r" (x0), "r"(x1)); + +} + +int32_t secure_storage_set_enctype(uint32_t type) +{ + uint64_t ret; + ret = bl31_storage_ops2(SECURITY_KEY_SET_ENCTYPE, type); + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_get_enctype(void) +{ + uint64_t ret; + ret = bl31_storage_ops(SECURITY_KEY_GET_ENCTYPE); + return smc_to_ns_errno(ret); +} + +int32_t secure_storage_version(void) +{ + uint64_t ret; + ret = bl31_storage_ops(SECURITY_KEY_VERSION); + return smc_to_ns_errno(ret); +} diff --git a/drivers/amlogic/storagekey/storagekey.c b/drivers/amlogic/storagekey/storagekey.c new file mode 100644 index 0000000000..646ad3f0de --- /dev/null +++ b/drivers/amlogic/storagekey/storagekey.c @@ -0,0 +1,587 @@ +/* + * drivers/storagekey/storagekey.c + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +/* extern from bl31 */ +/* + * when RET_OK + * query: retval=1: key exsit,=0: key not exsitï¼› + * tell: retvak = key size + * status: retval=1: secure, retval=0: non-secure + + */ + +#include +#include +#include +#include +#include +#include +#ifdef CONFIG_STORE_COMPATIBLE +#include +#endif +#include "normal_key.h" + +/* key buffer status */ +/* bit0, dirty flag*/ +#define KEYBUFFER_CLEAN (0 << 0) +#define KEYBUFFER_DIRTY (1 << 0) +#define SECUESTORAGE_HEAD_SIZE (256) +#define SECUESTORAGE_WHOLE_SIZE (0x40000) + +struct storagekey_info_t { + uint8_t * buffer; + uint32_t size; + uint32_t status; +}; + +static struct storagekey_info_t storagekey_info = { + .buffer = NULL, + /* default size */ + .size = SECUESTORAGE_WHOLE_SIZE, + .status = KEYBUFFER_CLEAN, +}; + +/** + *1.init + * return ok 0, fail 1 + */ +static int32_t _amlkey_init(uint8_t *seed, uint32_t len, int encrypt_type) +{ + int32_t ret = 0; + uint32_t buffer_size, actual_size; + + /* do nothing for now*/ + printf("%s() enter!\n", __func__); + if (storagekey_info.buffer != NULL) { + printf("%s() %d: already init!\n", __func__, __LINE__); + goto _out; + } + + /* get buffer from bl31 */ + storagekey_info.buffer = secure_storage_getbuffer(&buffer_size); + if (storagekey_info.buffer == NULL) { + printf("%s() %d: can't get buffer from bl31!\n", + __func__, __LINE__); + ret = -1; + goto _out; + } + + if (encrypt_type == -1) + encrypt_type = 0; + secure_storage_set_enctype(encrypt_type); + actual_size = store_rsv_size("key"); + printf("%s %d actual_size: 0x%x\n", __func__, __LINE__, + actual_size); + + storagekey_info.size = min_t(uint32_t, actual_size, buffer_size); + ret = store_rsv_read("key", storagekey_info.size, storagekey_info.buffer); + /* When the key is invalid at the first burn, it should be initialized again. */ + if (ret == RSV_UNVAIL) + ret = 0; + if (ret) { + printf("amlkey init rsv read key faill\n"); + /* memset head info for bl31 */ + memset(storagekey_info.buffer, 0, SECUESTORAGE_HEAD_SIZE); + ret = 0; + goto _out; + } + + secure_storage_notifier_ex(storagekey_info.size, 0); + + storagekey_info.buffer = secure_storage_getbuffer(&buffer_size); + if (buffer_size != storagekey_info.size) { + ret = -1; + goto _out; + } + +#ifdef CONFIG_STORE_COMPATIBLE + info_disprotect &= ~DISPROTECT_KEY; //protect +#endif +_out: + return ret; +} + +/** + *2. query if the key already programmed + * return: exsit 1, non 0 + */ +static int32_t _amlkey_isexsit(const uint8_t * name) +{ + int32_t ret = 0; + uint32_t retval; + + if ( NULL == name ) { + printf("%s() %d, invalid key ", __func__, __LINE__); + return 0; + } + + ret = secure_storage_query((uint8_t *)name, &retval); + if (ret) { + printf("%s() %d: ret %d\n", __func__, __LINE__, ret); + retval = 0; + } + + return (int32_t)retval; +} + +static uint32_t _amlkey_get_attr(const uint8_t * name) +{ + int32_t ret = 0; + uint32_t retval; + + if ( NULL == name ) { + printf("%s() %d, invalid key ", __func__, __LINE__); + return 0; + } + + ret = secure_storage_status((uint8_t *)name, &retval); + if (ret) { + printf("%s() %d: ret %d\n", __func__, __LINE__, ret); + retval = 0; + } + + return retval; +} + +/** + * 3.1 query if the prgrammed key is secure. key must exsit! + * return secure 1, non 0; + */ +int32_t amlkey_issecure(const uint8_t * name) +{ + return (amlkey_get_attr(name)&UNIFYKEY_ATTR_SECURE_MASK); +} + +/** + * 3.2 query if the prgrammed key is encrypt + * return encrypt 1, non-encrypt 0; + */ +int32_t amlkey_isencrypt(const uint8_t * name) +{ + return (amlkey_get_attr(name)&UNIFYKEY_ATTR_ENCRYPT_MASK); +} +/** + * 4. actual bytes of key value + * return actual size. + */ +static ssize_t _amlkey_size(const uint8_t *name) +{ + ssize_t size = 0; + int32_t ret = 0; + uint32_t retval; + + if ( NULL == name ) { + printf("%s() %d, invalid key ", __func__, __LINE__); + return 0; + } + + ret = secure_storage_tell((uint8_t *)name, &retval); + if (ret) { + printf("%s() %d: ret %d\n", __func__, __LINE__, ret); + retval = 0; + } + size = (ssize_t)retval; + return size; +} + +/** + *5. read non-secure key in bytes, return bytes readback actully. + * return actual size read back. + */ +static ssize_t _amlkey_read(const uint8_t *name, uint8_t *buffer, uint32_t len) +{ + int32_t ret = 0; + ssize_t retval = 0; + uint32_t actul_len; + + if ( NULL == name ) { + printf("%s() %d, invalid key ", __func__, __LINE__); + return 0; + } + ret = secure_storage_read((uint8_t *)name, buffer, len, &actul_len); + if (ret) { + printf("%s() %d: return %d\n", __func__, __LINE__, ret); + retval = 0; + goto _out; + } + retval = actul_len; +_out: + return retval; +} + +/** + * 6.write secure/non-secure key in bytes , return bytes readback actully + * attr: bit0, secure/non-secure; + * bit8, encrypt/non-encrypt; + * return actual size write down. + */ +static ssize_t _amlkey_write(const uint8_t *name, uint8_t *buffer, uint32_t len, uint32_t attr) +{ + int32_t ret = 0; + ssize_t retval = 0; + uint32_t actual_size; + + if ( NULL == name ) { + printf("%s() %d, invalid key ", __func__, __LINE__); + return retval; + } + ret = secure_storage_write((uint8_t *)name, buffer, len, attr); + if (ret) { + printf("%s() %d: return %d\n", __func__, __LINE__, ret); + retval = 0; + goto _out; + } else { + retval = (ssize_t)len; + /* write down! */ + if (storagekey_info.buffer != NULL) { + ret = store_rsv_write("key", storagekey_info.size, storagekey_info.buffer); + if (ret) { + printf("%s() %d, store_key_write fail\n", + __func__, __LINE__); + retval = 0; + } + actual_size = storagekey_info.size; + } + } +_out: + return retval; +} +/** + * 7. get the hash value of programmed secure key | 32bytes length, sha256 + * return success 0, fail -1 + */ +static int32_t _amlkey_hash_4_secure(const uint8_t * name, uint8_t * hash) +{ + int32_t ret = 0; + + ret = secure_storage_verify((uint8_t *)name, hash); + + return ret; +} + +/** + * 7. del key by name + * return success 0, fail -1 + */ +static int32_t _amlkey_del(const uint8_t * name) +{ + int32_t ret = 0; + uint32_t actual_size; + + ret = secure_storage_remove((uint8_t *)name); + if ((ret == 0) && (storagekey_info.buffer != NULL)) { + /* flush back */ + ret = store_rsv_write("key", storagekey_info.size, storagekey_info.buffer); + if (ret) { + printf("%s() %d, store_key_write fail\n", + __func__, __LINE__); + } + } else { + printf("%s() %d, remove key fail\n", + __func__, __LINE__); + } + + return ret; +} + + + +#define DEFINE_MUTEX(...) +#define mutex_lock(...) +#define mutex_unlock(...) +#define PAGE_ALIGNED(a) (((a)&0xFFF)==0) +#undef pr_info +#define pr_info(fmt ...) printf("[KM]Msg:"fmt) +#undef pr_err +#define pr_err(fmt ...) printf("[KM]Error:f[%s]L%d:", __func__, __LINE__),printf(fmt) + +#define DEF_NORMAL_BLOCK_SIZE (256 * 1024) +//static DEFINE_MUTEX(normalkey_lock); +static uint32_t normal_blksz = DEF_NORMAL_BLOCK_SIZE; +static uint32_t normal_flashsize = DEF_NORMAL_BLOCK_SIZE; +static uint8_t *normal_block; + +static int _store_key_read(uint8_t * buffer, uint32_t length, uint32_t *actual_lenth) +{ + int ret; + uint32_t actual_size; + actual_size = store_rsv_size("key"); + if (actual_size <= 1024) + return -1; + + length = min_t(uint32_t, actual_size, length); + ret = store_rsv_read("key", length, buffer); + /* When the key is invalid at the first burn, it should be initialized again. */ + if (ret && ret != RSV_UNVAIL) { + printf("amlkey init rsv read key faill\n"); + return -1; + } + if (actual_lenth) + *actual_lenth = length; + return 0; +} +static int _store_key_write(uint8_t * buffer, uint32_t length, uint32_t *actual_lenth) +{ + int32_t ret; + ret = store_rsv_write("key", length, buffer); + if (ret) + return -1; + if (actual_lenth) + *actual_lenth = length; + return 0; +} + +static int32_t _amlkey_init_normal(uint8_t *seed, uint32_t len, int encrypt_type) +{ + static int inited = 0; + int ret; + + if (inited) + return 0; + inited = 1; + + if (!normal_block) + return -1; + + if (normalkey_init()) + return -1; + + mutex_lock(&normalkey_lock); + ret = _store_key_read(normal_block, + normal_blksz, + &normal_flashsize); + if (ret) { + pr_err("read storage fail\n"); + goto finish; + } + + ret = normalkey_readfromblock(normal_block, normal_flashsize); + if (ret) { + pr_err("init block key fail\n"); + goto finish; + } + +#ifdef CONFIG_STORE_COMPATIBLE + info_disprotect &= ~DISPROTECT_KEY; //protect +#endif + ret = 0; +finish: + if (ret) + normalkey_deinit(); + mutex_unlock(&normalkey_lock); + + return ret; +} + +static int32_t _amlkey_exist_normal(const uint8_t *name) +{ + struct storage_object *obj; + + mutex_lock(&normalkey_lock); + obj = normalkey_get(name); + mutex_unlock(&normalkey_lock); + + return !!obj; +} + +static uint32_t _amlkey_get_attr_normal(const uint8_t *name) +{ + uint32_t attr = 0; + struct storage_object *obj; + + mutex_lock(&normalkey_lock); + obj = normalkey_get(name); + if (obj) + attr = obj->attribute; + mutex_unlock(&normalkey_lock); + + return attr; +} + +static ssize_t _amlkey_size_normal(const uint8_t *name) +{ + unsigned int size = 0; + struct storage_object *obj; + + mutex_lock(&normalkey_lock); + obj = normalkey_get(name); + if (obj) + size = obj->datasize; + mutex_unlock(&normalkey_lock); + + return size; +} + +static ssize_t _amlkey_read_normal(const uint8_t *name, uint8_t *buffer, uint32_t len) +{ + unsigned int size = 0; + struct storage_object *obj; + + mutex_lock(&normalkey_lock); + obj = normalkey_get(name); + if (obj && len >= obj->datasize) { + size = obj->datasize; + memcpy(buffer, obj->dataptr, size); + } + mutex_unlock(&normalkey_lock); + + return size; +} + +static ssize_t _amlkey_write_normal(const uint8_t *name, uint8_t *buffer, + uint32_t len, uint32_t attr) +{ + int ret; + uint32_t wrtsz = 0; + + if (attr & OBJ_ATTR_SECURE) { + pr_err("can't write secure key\n"); + return 0; + } + + mutex_lock(&normalkey_lock); + ret = normalkey_add(name, buffer, len, attr); + if (ret) { + pr_err("write key fail\n"); + ret = 0; + goto unlock; + } + + ret = normalkey_writetoblock(normal_block, normal_flashsize); + if (ret) { + pr_err("write block fail\n"); + ret = 0; + goto unlock; + } + + ret = _store_key_write(normal_block, + normal_flashsize, + &wrtsz); + if (ret) { + pr_err("write storage fail\n"); + ret = 0; + goto unlock; + } + ret = len; +unlock: + mutex_unlock(&normalkey_lock); + return ret; +} + +static int32_t _amlkey_hash_normal(const uint8_t *name, uint8_t *hash) +{ + int ret = -1; + struct storage_object *obj; + + mutex_lock(&normalkey_lock); + obj = normalkey_get(name); + if (obj) { + ret = 0; + memcpy(hash, obj->hashptr, 32); + } + mutex_unlock(&normalkey_lock); + + return ret; +} + +int normal_key_init(const void* dt_addr) +{ + uint32_t blksz = 0; + int nodeoffset; + char *pblksz; + + if (!dt_addr || fdt_check_header(dt_addr)!= 0) { + goto blkalloc; + } + + nodeoffset = fdt_path_offset(dt_addr, "/unifykey"); + if (nodeoffset < 0) { + goto blkalloc; + } + + pblksz = (char*)fdt_getprop((const void *)dt_addr, nodeoffset, "blocksize",NULL); + if (pblksz) { + blksz = be32_to_cpup((unsigned int*)pblksz); + } + + if (blksz && PAGE_ALIGNED(blksz)) { + normal_blksz = blksz; + pr_info("block size from config: %x\n", blksz); + } + +blkalloc: + normal_block = malloc(normal_blksz); + if (!normal_block) { + pr_err("malloc block buffer fail: %x\n", normal_blksz); + return -1; + } + + return 0; +} + +enum amlkey_if_type { + IFTYPE_SECURE_STORAGE, + IFTYPE_NORMAL_STORAGE, + IFTYPE_MAX +}; + +struct amlkey_if amlkey_ifs[] = { + [IFTYPE_SECURE_STORAGE] = { + .init = _amlkey_init, + .exsit = _amlkey_isexsit, + .get_attr = _amlkey_get_attr, + .size = _amlkey_size, + .read = _amlkey_read, + .write = _amlkey_write, + .hash = _amlkey_hash_4_secure, + }, + [IFTYPE_NORMAL_STORAGE] = { + .init = _amlkey_init_normal, + .exsit = _amlkey_exist_normal, + .get_attr = _amlkey_get_attr_normal, + .size = _amlkey_size_normal, + .read = _amlkey_read_normal, + .write = _amlkey_write_normal, + .hash = _amlkey_hash_normal, + } +}; + +struct amlkey_if *amlkey_if = &amlkey_ifs[IFTYPE_SECURE_STORAGE]; +int amlkey_if_init(const void* dt_addr) +{ + static int inited = 0; + uint32_t buffer_size; + int ret = 0; + + if (inited) + return 0; + inited = 1; + + if (secure_storage_getbuffer(&buffer_size)) { + amlkey_if = &amlkey_ifs[IFTYPE_SECURE_STORAGE]; + return ret; + } + + pr_info("normal key used!\n"); + ret = normal_key_init(dt_addr); + amlkey_if = &amlkey_ifs[IFTYPE_NORMAL_STORAGE]; + + return ret; +} diff --git a/drivers/efuse/Kconfig b/drivers/efuse/Kconfig new file mode 100644 index 0000000000..3ee40478a1 --- /dev/null +++ b/drivers/efuse/Kconfig @@ -0,0 +1,4 @@ +config EFUSE + bool "AML EFUSE Support" + help + Enable support for the Amlogic EFUSE controller. diff --git a/drivers/efuse/Makefile b/drivers/efuse/Makefile new file mode 100644 index 0000000000..62ab0325ba --- /dev/null +++ b/drivers/efuse/Makefile @@ -0,0 +1,9 @@ +# SPDX-License-Identifier: GPL-2.0+ + +obj-$(CONFIG_EFUSE) += aml_efuse.o + +obj-$(CONFIG_EFUSE) += efuse.o + +obj-$(CONFIG_EFUSE) += efuse_usr_space_api.o + +obj-$(CONFIG_EFUSE) += bl31_apis.o diff --git a/drivers/efuse/aml_efuse.c b/drivers/efuse/aml_efuse.c new file mode 100644 index 0000000000..a553a201f7 --- /dev/null +++ b/drivers/efuse/aml_efuse.c @@ -0,0 +1,123 @@ +/* + * Copyright (C) 2014-2018 Amlogic, Inc. All rights reserved. + * + * All information contained herein is Amlogic confidential. + * + * This software is provided to you pursuant to Software License Agreement + * (SLA) with Amlogic Inc ("Amlogic"). This software may be used + * only in accordance with the terms of this agreement. + * + * Redistribution and use in source and binary forms, with or without + * modification is strictly prohibited without prior written permission from + * Amlogic. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ +/* + * + * Copyright (C) 2018 Amlogic, Inc. All rights reserved. +*/ + +#include +#include +#include +#include + +//weak function for EFUSE license query +//all following functions are defined with "weak" for customization of each SoC +//EFUSE_LICX --> AO_SEC_SD_CFG10/9 --> EFUSE mirror +int __attribute__((weak)) IS_FEAT_BOOT_VERIFY(void) +{ + #ifndef ADDR_IS_FEAT_BOOT_VERIFY + #ifdef EFUSE_LIC0 + #define ADDR_IS_FEAT_BOOT_VERIFY (EFUSE_LIC0) + #define OSET_IS_FEAT_BOOT_VERIFY (0) + #elif defined(OTP_LIC0) + #define ADDR_IS_FEAT_BOOT_VERIFY (OTP_LIC0) + #define OSET_IS_FEAT_BOOT_VERIFY (0) + #else + #define ADDR_IS_FEAT_BOOT_VERIFY (AO_SEC_SD_CFG10) + #define OSET_IS_FEAT_BOOT_VERIFY (4) + #endif + #endif + + return ((readl(ADDR_IS_FEAT_BOOT_VERIFY) >> OSET_IS_FEAT_BOOT_VERIFY) & 1); + + #undef ADDR_IS_FEAT_BOOT_VERIFY + #undef OSET_IS_FEAT_BOOT_VERIFY +} +int __attribute__((weak)) IS_FEAT_BOOT_ENCRYPT(void) +{ + #ifndef ADDR_IS_FEAT_BOOT_ENCRYPT + #ifdef EFUSE_LIC0 + #define ADDR_IS_FEAT_BOOT_ENCRYPT (EFUSE_LIC0) + #define OSET_IS_FEAT_BOOT_ENCRYPT (1) + #elif defined(OTP_LIC0) + #define ADDR_IS_FEAT_BOOT_ENCRYPT (OTP_LIC0) + #define OSET_IS_FEAT_BOOT_ENCRYPT (1) + #else + #define ADDR_IS_FEAT_BOOT_ENCRYPT (AO_SEC_SD_CFG10) + #define OSET_IS_FEAT_BOOT_ENCRYPT (28) + #endif + #endif + + return ((readl(ADDR_IS_FEAT_BOOT_ENCRYPT) >> OSET_IS_FEAT_BOOT_ENCRYPT) & 1); + + #undef ADDR_IS_FEAT_BOOT_ENCRYPT + #undef OSET_IS_FEAT_BOOT_ENCRYPT +} + +int __attribute__((weak)) IS_FEAT_DIS_EMMC_USER(void) +{ + return 0; +} + +int __attribute__((weak)) IS_FEAT_DIS_EMMC_BOOT_0(void) +{ + return 0; +} + +int __attribute__((weak)) IS_FEAT_DIS_EMMC_BOOT_1(void) +{ + return 0; +} + +int __attribute__((weak)) IS_FEAT_EN_4BL2_SNOR(void) +{ + return 0; +} + +int __attribute__((weak)) IS_FEAT_DIS_NBL2_SNOR(void) +{ + return 0; +} + +int __attribute__((weak)) IS_FEAT_EN_8BL2_SNAND(void) +{ + return 0; +} + +int __attribute__((weak)) IS_FEAT_DIS_NBL2_SNAND(void) +{ + return 0; +} + +int __attribute__((weak)) IS_FEAT_DIS_8BL2_NAND(void) +{ + return 0; +} + +int __attribute__((weak)) IS_FEAT_DIS_NBL2_NAND(void) +{ + return 1; +} diff --git a/drivers/efuse/bl31_apis.c b/drivers/efuse/bl31_apis.c new file mode 100644 index 0000000000..18f6fc6968 --- /dev/null +++ b/drivers/efuse/bl31_apis.c @@ -0,0 +1,474 @@ +/* + * arch/arm/cpu/armv8/txlx/bl31_apis.c + * + * Copyright (C) 2014-2017 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +/* + * Trustzone API + */ + +#include +#include +#include +#include +#include +#include + +static long sharemem_input_base; +static long sharemem_output_base; + +long get_sharemem_info(unsigned long function_id) +{ + asm volatile( + __asmeq("%0", "x0") + "smc #0\n" + : "+r" (function_id)); + + return function_id; +} + +int32_t set_boot_params(const keymaster_boot_params *boot_params) +{ + const unsigned cmd = SET_BOOT_PARAMS; + + if (!boot_params) + return -1; + + if (!sharemem_input_base) + sharemem_input_base = + get_sharemem_info(GET_SHARE_MEM_INPUT_BASE); + + memcpy((void *)sharemem_input_base, + (const void *)boot_params, sizeof(keymaster_boot_params)); + + asm __volatile__("" : : : "memory"); + register uint64_t x0 asm("x0") = cmd; + register uint64_t x1 asm("x1") = sizeof(keymaster_boot_params); + do { + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x0") + __asmeq("%2", "x1") + "smc #0\n" + : "=r"(x0) + : "r"(x0), "r"(x1)); + } while (0); + + return (!x0)? -1: 0; +} + +#ifdef CONFIG_EFUSE +int32_t meson_trustzone_efuse(struct efuse_hal_api_arg *arg) +{ + int ret; + unsigned cmd, offset, size; + unsigned long *retcnt = (unsigned long *)(arg->retcnt_phy); + + if (!sharemem_input_base) + sharemem_input_base = + get_sharemem_info(GET_SHARE_MEM_INPUT_BASE); + if (!sharemem_output_base) + sharemem_output_base = + get_sharemem_info(GET_SHARE_MEM_OUTPUT_BASE); + + if (arg->cmd == EFUSE_HAL_API_READ) + cmd = EFUSE_READ; + else if (arg->cmd == EFUSE_HAL_API_WRITE) + cmd = EFUSE_WRITE; + else + cmd = EFUSE_WRITE_PATTERN; + offset = arg->offset; + size = arg->size; + + if (arg->cmd == EFUSE_HAL_API_WRITE) + memcpy((void *)sharemem_input_base, + (const void *)arg->buffer_phy, size); + asm __volatile__("" : : : "memory"); + + register uint64_t x0 asm("x0") = cmd; + register uint64_t x1 asm("x1") = offset; + register uint64_t x2 asm("x2") = size; + do { + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x0") + __asmeq("%2", "x1") + __asmeq("%3", "x2") + "smc #0\n" + : "=r"(x0) + : "r"(x0), "r"(x1), "r"(x2)); + } while (0); + ret = x0; + *retcnt = x0; + + if ((arg->cmd == EFUSE_HAL_API_READ) && (ret != 0)) + memcpy((void *)arg->buffer_phy, + (const void *)sharemem_output_base, ret); + + if (!ret) + return -1; + else + return 0; +} + +int32_t meson_trustzone_efuse_get_max(struct efuse_hal_api_arg *arg) +{ + int32_t ret; + unsigned cmd; + + if (arg->cmd == EFUSE_HAL_API_USER_MAX) + cmd = EFUSE_USER_MAX; + + asm __volatile__("" : : : "memory"); + + register uint64_t x0 asm("x0") = cmd; + + do { + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x0") + "smc #0\n" + : "=r"(x0) + : "r"(x0)); + } while (0); + ret = x0; + + if (!ret) + return -1; + else + return ret; +} + +ssize_t meson_trustzone_efuse_writepattern(const char *buf, size_t count) +{ + struct efuse_hal_api_arg arg; + unsigned long retcnt; + + if (count != EFUSE_BYTES) + return 0; /* Past EOF */ + + arg.cmd = EFUSE_HAL_API_WRITE_PATTERN; + arg.offset = 0; + arg.size = count; + arg.buffer_phy = (unsigned long)buf; + arg.retcnt_phy = (unsigned long)&retcnt; + int ret; + ret = meson_trustzone_efuse(&arg); + return ret; +} +#endif + +uint64_t meson_trustzone_efuse_check(unsigned char *addr) +{ + uint64_t ret = 0; + struct sram_hal_api_arg arg = {}; + + arg.cmd = SRAM_HAL_API_CHECK_EFUSE; + arg.req_len = 0x1000000; + arg.res_len = 0; + arg.req_phy_addr = (unsigned long)addr; + arg.res_phy_addr = (unsigned long)NULL; + + asm __volatile__("" : : : "memory"); + + register uint64_t x0 asm("x0") = CALL_TRUSTZONE_HAL_API; + register uint64_t x1 asm("x1") = TRUSTZONE_HAL_API_SRAM; + register uint64_t x2 asm("x2") = (unsigned long)(&arg); + do { + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x0") + __asmeq("%2", "x1") + __asmeq("%3", "x2") + "smc #0\n" + : "=r"(x0) + : "r"(x0), "r"(x1), "r"(x2)); + } while (0); + + ret = x0; + + return ret; +} + +void debug_efuse_cmd(unsigned long cmd) +{ + asm volatile( + __asmeq("%0", "x0") + "smc #0\n" + : : "r" (cmd)); +} + +void bl31_debug_efuse_write_pattern(const char *buf) +{ + if (!sharemem_input_base) + sharemem_input_base = + get_sharemem_info(GET_SHARE_MEM_INPUT_BASE); + memcpy((void *)sharemem_input_base, (const void *)buf, 512); + + debug_efuse_cmd(DEBUG_EFUSE_WRITE_PATTERN); +} + +void bl31_debug_efuse_read_pattern(char *buf) +{ + if (!sharemem_output_base) + sharemem_output_base = + get_sharemem_info(GET_SHARE_MEM_OUTPUT_BASE); + debug_efuse_cmd(DEBUG_EFUSE_READ_PATTERN); + + memcpy((void *)buf, (const void *)sharemem_output_base, 512); +} + +void aml_set_jtag_state(unsigned state, unsigned select) +{ + uint64_t command; + if (state == JTAG_STATE_ON) + command = JTAG_ON; + else + command = JTAG_OFF; + asm __volatile__("" : : : "memory"); + + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x1") + "smc #0\n" + : : "r" (command), "r"(select)); +} + +unsigned aml_get_reboot_reason(void) +{ + unsigned reason; + uint64_t ret; + + register uint64_t x0 asm("x0") = GET_REBOOT_REASON; + asm volatile( + __asmeq("%0", "x0") + "smc #0\n" + :"+r"(x0)); + ret = x0; + reason = (unsigned)(ret&0xffffffff); + return reason; +} + +void set_viu_probe_enable(void) +{ + register uint64_t x0 asm("x0") = VIU_PREOBE_EN; + + asm volatile( + __asmeq("%0", "x0") + "smc #0\n" + :"+r"(x0)); +} +unsigned aml_reboot(uint64_t function_id, uint64_t arg0, uint64_t arg1, uint64_t arg2) +{ + register long x0 asm("x0") = function_id; + register long x1 asm("x1") = arg0; + register long x2 asm("x2") = arg1; + register long x3 asm("x3") = arg2; + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x1") + __asmeq("%2", "x2") + __asmeq("%3", "x3") + "smc #0\n" + : "+r" (x0) + : "r" (x1), "r" (x2), "r" (x3)); + + return function_id; +} + +void aml_set_reboot_reason(uint64_t function_id, uint64_t arg0, uint64_t arg1, uint64_t arg2) +{ + register long x0 asm("x0") = function_id; + register long x1 asm("x1") = arg0; + register long x2 asm("x2") = arg1; + register long x3 asm("x3") = arg2; + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x1") + __asmeq("%2", "x2") + __asmeq("%3", "x3") + "smc #0\n" + : "+r" (x0) + : "r" (x1), "r" (x2), "r" (x3)); + + return ; +} + +unsigned long aml_sec_boot_check(unsigned long nType, + unsigned long pBuffer, + unsigned long nLength, + unsigned long nOption) +{ + uint64_t ret = 1; + +//#define AML_SECURE_LOG_TE + +#if defined(AML_SECURE_LOG_TE) + #define AML_GET_TE(a) do{a = *((volatile unsigned int*)0xc1109988);}while(0); + unsigned nT1,nT2,nT3; +#else + #define AML_GET_TE(...) +#endif + + AML_GET_TE(nT1); + + asm __volatile__("" : : : "memory"); + + register uint64_t x0 asm("x0") = AML_DATA_PROCESS; + register uint64_t x1 asm("x1") = nType; + register uint64_t x2 asm("x2") = pBuffer; + register uint64_t x3 asm("x3") = nLength; + register uint64_t x4 asm("x4") = nOption; + + do { + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x0") + __asmeq("%2", "x1") + __asmeq("%3", "x2") + __asmeq("%4", "x3") + __asmeq("%5", "x4") + "smc #0\n" + : "=r"(x0) + : "r"(x0), "r"(x1), "r"(x2),"r"(x3),"r"(x4)); + } while (0); + + ret = x0; + + AML_GET_TE(nT2);; + + flush_dcache_range((unsigned long )pBuffer, (unsigned long )pBuffer+nLength); + + AML_GET_TE(nT3); + +#if defined(AML_SECURE_LOG_TE) + printf("aml log : dec use %d(us) , flush cache used %d(us)\n", + nT2 - nT1, nT3 - nT2); +#endif + + return ret; +} + +void set_usb_boot_function(unsigned long command) +{ + register long x0 asm("x0") = SET_USB_BOOT_FUNC; + register long x1 asm("x1") = command; + + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x1") + "smc #0\n" + : "+r" (x0) + : "r" (x1)); +} + +void aml_system_off(void) +{ + /* TODO: Add poweroff capability */ + aml_reboot(0x82000042, 1, 0, 0); + aml_reboot(0x84000008, 0, 0, 0); +} + +int __get_chip_id(unsigned char *buff, unsigned int size) +{ + if (buff == NULL || size < 16) + return -1; + + if (!sharemem_output_base) + sharemem_output_base = + get_sharemem_info(GET_SHARE_MEM_OUTPUT_BASE); + + if (sharemem_output_base) { + register long x0 asm("x0") = GET_CHIP_ID; + register long x1 asm("x1") = 2; + + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x1") + "smc #0\n" + : "+r" (x0) + : "r" (x1)); + + if (x0 == 0) { + int version = *((unsigned int *)sharemem_output_base); + + if (version == 2) { + memcpy(buff, (void *)sharemem_output_base + 4, 16); + } + else { + /** + * Legacy 12-byte chip ID read out, transform data + * to expected order format. + */ + uint32_t chip_info = readl(P_AO_SEC_SD_CFG8); + uint8_t *ch; + int i; + + ((uint32_t *)buff)[0] = + ((chip_info & 0xff000000) | // Family ID + ((chip_info << 8) & 0xff0000) | // Chip Revision + ((chip_info >> 8) & 0xff00)); // Package ID + + ((uint32_t *)buff)[0] = htonl(((uint32_t *)buff)[0]); + + /* Transform into expected order for display */ + ch = (uint8_t *)(sharemem_output_base + 4); + for (i = 0; i < 12; i++) + buff[i + 4] = ch[11 - i]; + } + + return 0; + } + } + + return -1; +} + +int32_t get_avbkey_from_fip(uint8_t *buf, uint32_t buflen) +{ + const unsigned cmd = GET_AVBKEY_FROM_FIP; + uint32_t retlen = 0; + uint32_t ret = 0; + + if (!buf) + return -1; + + if (!sharemem_output_base) + sharemem_output_base = + get_sharemem_info(GET_SHARE_MEM_OUTPUT_BASE); + + asm __volatile__("" : : : "memory"); + register uint64_t x0 asm("x0") = cmd; + do { + asm volatile( + __asmeq("%0", "x0") + __asmeq("%1", "x0") + "smc #0\n" + : "=r"(x0) + : "r"(x0)); + } while (0); + + if (!x0) + ret = -1; + retlen = x0; + + if (ret != -1 && buflen >= retlen) + memcpy(buf, (const void *)sharemem_output_base, retlen); + + return ret; +} diff --git a/drivers/efuse/efuse.c b/drivers/efuse/efuse.c new file mode 100644 index 0000000000..5560bcd384 --- /dev/null +++ b/drivers/efuse/efuse.c @@ -0,0 +1,141 @@ +/* + * drivers/efuse/efuse.c + * + * Copyright (C) 2018 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#include +#include +#include +#include +#include + +char efuse_buf[EFUSE_BYTES] = {0}; + +ssize_t efuse_read(char *buf, size_t count, loff_t *ppos) +{ + unsigned int pos = *ppos; + + struct efuse_hal_api_arg arg; + unsigned int retcnt; + int ret; + + arg.cmd = EFUSE_HAL_API_READ; + arg.offset = pos; + arg.size = count; + arg.buffer_phy = (unsigned long)buf; + arg.retcnt_phy = (unsigned long)&retcnt; + ret = meson_trustzone_efuse(&arg); + if (ret == 0) { + *ppos += retcnt; + return retcnt; + } else{ + return ret; + } +} + +ssize_t efuse_write(const char *buf, size_t count, loff_t *ppos) +{ + unsigned int pos = *ppos; + + if ((pos & 0xffff) >= EFUSE_BYTES) + return 0; /* Past EOF */ + if (count > EFUSE_BYTES - pos) + count = EFUSE_BYTES - pos; + if (count > EFUSE_BYTES) + return -1; + + struct efuse_hal_api_arg arg; + unsigned int retcnt; + + arg.cmd = EFUSE_HAL_API_WRITE; + arg.offset = pos; + arg.size = count; + arg.buffer_phy = (unsigned long)buf; + arg.retcnt_phy = (unsigned long)&retcnt; + int ret; + + ret = meson_trustzone_efuse(&arg); + if (ret == 0) { + *ppos = retcnt; + return retcnt; + } else{ + return ret; + } +} + +int efuse_read_usr(char *buf, size_t count, loff_t *ppos) +{ + char data[EFUSE_BYTES]; + char *pdata = NULL; + int ret; + loff_t pos; + + memset(data, 0, count); + + pdata = data; + pos = *ppos; + ret = efuse_read(pdata, count, (loff_t *)&pos); + + memcpy(buf, data, count); + + return ret; +} + +int efuse_write_usr(char *buf, size_t count, loff_t *ppos) +{ + char data[EFUSE_BYTES]; + char *pdata = NULL; + char *penc = NULL; + int ret; + loff_t pos; + + if (count == 0) { + printf("data length: 0 is error!\n"); + return -1; + } + + memset(data, 0, EFUSE_BYTES); + memset(efuse_buf, 0, EFUSE_BYTES); + + memcpy(data, buf, count); + pdata = data; + penc = efuse_buf; + + memcpy(penc, pdata, count); + pos = *ppos; + + ret = efuse_write(efuse_buf, count, (loff_t *)&pos); + + return ret; +} + +uint32_t efuse_get_max(void) +{ + struct efuse_hal_api_arg arg; + int ret; + + arg.cmd = EFUSE_HAL_API_USER_MAX; + + ret = meson_trustzone_efuse_get_max(&arg); + if (ret == 0) { + printf("ERROR: can not get efuse user max bytes!!!\n"); + return -1; + } else{ + return ret; + } +} diff --git a/drivers/efuse/efuse_usr_space_api.c b/drivers/efuse/efuse_usr_space_api.c new file mode 100644 index 0000000000..241b6d0be4 --- /dev/null +++ b/drivers/efuse/efuse_usr_space_api.c @@ -0,0 +1,379 @@ +/* + * \file efuse_usr_space_api.c + * \brief support read/write user space using keyname mode + * mapping keyname to offset by looking /efusekey in dtb + * + * \version 1.0.0 + * \date 15/07/14 + * \author Sam.Wu + * + * Copyright (c) 2015 Amlogic. All Rights Reserved. + * + */ +#include +#include +#include +#include +#include +#include +#include + +#define EFUSE_DBG(fmt...) //printf("[EFUSE_DBG]"fmt) +#define EFUSE_MSG(fmt...) printf("[EFUSE_MSG]"fmt) +#define EFUSE_ERR(fmt...) printf("[EFUSE_ERR]f(%s)L%d:", __func__, __LINE__),printf(fmt) + +struct efusekey_info{ + char keyname[32]; + unsigned offset; + unsigned size; +}; + +static struct _efuseCfgInf{ + unsigned initMaigc;//magic to indicate whether inited + unsigned totalCfgKeyNums; + struct efusekey_info * pKeyInf; +} +_efuseKeyInfos = {.totalCfgKeyNums = 0, .pKeyInf = NULL}; + +int efuse_usr_api_init_dtb(const char* dt_addr) +{ + int nodeoffset, poffset = 0; + char propname[32]; + const void* phandle; + int ret; + int index; + uint32_t max_size; + unsigned efusekeynum = 0; + struct efusekey_info * efusekey_infos = NULL; + + ret = fdt_check_header(dt_addr); + if (ret < 0) { + EFUSE_ERR("fdt check failed [%s]\n", fdt_strerror(ret)); + return __LINE__; + } + _efuseKeyInfos.initMaigc = 0; + + nodeoffset = fdt_path_offset(dt_addr, "/efusekey"); + if (nodeoffset < 0) { + EFUSE_ERR("not find /efusekey node [%s].\n", fdt_strerror(nodeoffset)); + return __LINE__; + } + + phandle = fdt_getprop(dt_addr, nodeoffset, "keynum", NULL); + efusekeynum = be32_to_cpup((u32 *)phandle); + EFUSE_MSG("keynum is %x\n", efusekeynum); + + if (efusekey_infos) free(efusekey_infos) ; + efusekey_infos = (struct efusekey_info *)malloc(sizeof (struct efusekey_info) *efusekeynum); + if (!efusekey_infos) { + EFUSE_ERR("malloc err\n"); + return __LINE__; + } + + max_size = efuse_get_max(); + + for (index = 0; index < efusekeynum; index++) + { + struct efusekey_info* theKeyInf = efusekey_infos + index; + sprintf(propname, "key%d", index); + /* printf("%s: propname: %s\n",__func__,propname); */ + phandle = fdt_getprop(dt_addr, nodeoffset, propname, NULL); + if (!phandle) { + EFUSE_ERR("don't find match %s\n", propname); + goto err; + } + poffset = fdt_node_offset_by_phandle(dt_addr, + be32_to_cpup((u32 *)phandle)); + if (!poffset) { + EFUSE_ERR("can't find device node for key[%s]\n", propname); + goto err; + } + + + phandle = fdt_getprop(dt_addr, poffset, "keyname", NULL); + if (!phandle) { + EFUSE_ERR("Can't find keyname for key[%d]\n", index); + goto err; + } + strcpy(theKeyInf->keyname, phandle); + + phandle = fdt_getprop(dt_addr, poffset, "offset", NULL); + if (!phandle) { + EFUSE_ERR("Can't find offset for key[%s]\n", theKeyInf->keyname); + goto err; + } + theKeyInf->offset = be32_to_cpup((u32 *)phandle); + + phandle = fdt_getprop(dt_addr, poffset, "size", NULL); + if (!phandle) { + EFUSE_ERR("Can't find size for key[%s]\n", theKeyInf->keyname); + goto err; + } + theKeyInf->size = be32_to_cpup((u32 *)phandle); + + EFUSE_DBG("key[%02d] name=%12s, offset=0x%04x, size=0x%04x\n", + index, theKeyInf->keyname, theKeyInf->offset, theKeyInf->size); + if (theKeyInf->offset + theKeyInf->size > max_size) { + EFUSE_ERR("\n offset (0x%x) + size (0x%x) > max [0x%x]!\n", theKeyInf->offset, theKeyInf->size, max_size); + return __LINE__; + } + } + + _efuseKeyInfos.totalCfgKeyNums = efusekeynum; + _efuseKeyInfos.pKeyInf = efusekey_infos; + EFUSE_DBG("%s success!\n", __func__); + _efuseKeyInfos.initMaigc = 0xee; + return 0; + +err: + free(efusekey_infos); + EFUSE_ERR("%s error!\n", __func__); + return -1; +} + +static int _get_cfg_key_inf_byname(const char* keyname, const struct efusekey_info ** pKeyInf) +{ + int index = 0; + struct efusekey_info* theKeyInf = _efuseKeyInfos.pKeyInf; + int ret = 0; + + if (0xee != _efuseKeyInfos.initMaigc) { + EFUSE_ERR("Pls init first.\n"); + return __LINE__; + } + for (; index < _efuseKeyInfos.totalCfgKeyNums; ++index, ++theKeyInf) + { + const char* theKeyname = theKeyInf->keyname; + ret = strcmp(theKeyname, keyname); + if (ret) continue; + + *pKeyInf = theKeyInf; + return 0; + } + + EFUSE_ERR("efuse keyname(%s) not configured\n", keyname); + return __LINE__;//Not found the matched name +} + +int efuse_usr_api_get_cfg_key_size(const char* keyname, unsigned* pSz) +{ + int ret = 0; + const struct efusekey_info* theCfgKeyInf = NULL; + + ret = _get_cfg_key_inf_byname(keyname, &theCfgKeyInf); + if (ret) { + EFUSE_ERR("not name cfg in dts.\n"); + return __LINE__; + } + + *pSz = theCfgKeyInf->size; + return 0; +} + +int efuse_usr_api_write_key(const char* keyname, const void* keydata, const unsigned dataSz) +{ + int ret = 0; + const struct efusekey_info* theCfgKeyInf = NULL; + + ret = _get_cfg_key_inf_byname(keyname, &theCfgKeyInf); + if (ret) { + EFUSE_ERR("not name cfg in dts.\n"); + return __LINE__; + } + if (dataSz != theCfgKeyInf->size) { + EFUSE_ERR("dataSz 0x%x != cfg size 0x%x\n", dataSz, theCfgKeyInf->size); + return __LINE__; + } + + ret = efuse_write_usr((char*)keydata, theCfgKeyInf->size, (loff_t*)&theCfgKeyInf->offset); + if (ret < 0) { + EFUSE_ERR("error: efuse write fail.\n"); + return __LINE__; + } + + return 0; +} + +//usrefuse read mac $loadaddr (size) +int efuse_usr_api_read_key(const char* keyname, void* databuf, const unsigned bufSz) +{ + int ret = 0; + const struct efusekey_info* theCfgKeyInf = NULL; + loff_t offset = 0; + + ret = _get_cfg_key_inf_byname(keyname, &theCfgKeyInf); + if (ret) { + EFUSE_ERR("not name cfg in dts.\n"); + return __LINE__; + } + const unsigned cfgCnt = theCfgKeyInf->size; + if (cfgCnt > bufSz && bufSz) { + EFUSE_ERR("cfg size 0x%x > bufsz 0x%x\n", cfgCnt, bufSz); + return __LINE__; + } + EFUSE_DBG("keyname=%s, databuf=%p, bufSz=%d, cfgCnt=%u\n", keyname, databuf, bufSz, cfgCnt); + + offset = theCfgKeyInf->offset; + memset(databuf, cfgCnt, 0); + ret = efuse_read_usr((char*)databuf, cfgCnt, &offset); + if (ret == -1) { + EFUSE_ERR("ERROR: efuse read user data fail!, size=%u, offset=%llu\n", cfgCnt, offset); + return __LINE__; + } + + if (ret != cfgCnt) { + EFUSE_ERR("ERROR: read %d byte(s) not wanted %d byte(s) data\n", ret, cfgCnt); + return __LINE__; + } + + return 0; +} + +static int hex_ascii_to_buf(const char* input, uint8_t* buf, const unsigned bufSz) +{ + int ret = 0; + const char* tmpStr = input; + const unsigned inputLen = strlen(input); + int i = 0; + + if (!inputLen) { + EFUSE_ERR("err input len 0\n"); + return __LINE__; + } + if ( ((inputLen>>1)<<1) != inputLen ) { + EFUSE_ERR("inputLen %d not even\n", inputLen); + return __LINE__; + } + if (bufSz * 2 > inputLen) { + EFUSE_ERR("bufSz %d not enough\n", bufSz); + return __LINE__; + } + for (tmpStr = input; *tmpStr; ++tmpStr) + { + char c = *tmpStr; + ret = isxdigit(c); + if (!ret) { + EFUSE_ERR("input(%s) contain non xdigit, c=%c\n", input, c); + return __LINE__; + } + } + + for (i = 0; i < inputLen; i += 2) + { + char tmpByte[8]; + tmpByte[2] = '\0'; + tmpByte[0] = input[i]; + tmpByte[1] = input[i + 1]; + + const unsigned val = simple_strtoul(tmpByte, NULL, 16); + if (val > 0xff) { + EFUSE_ERR("Exception: val 0x%x > 0xff\n", val); + return __LINE__; + } + buf[i>>1] = val; + } + + return 0; +} + +static int do_usr_efuse_api(struct cmd_tbl *cmdtp, int flag, int argc, char * const argv[]) +{ + int ret = 0; + const char* subcmd = argv[1]; + if (argc < 2) return CMD_RET_USAGE; + + if (!strcmp("init", subcmd)) + { + const char* dtbLoadAddr = NULL; + if (argc > 2) + { + dtbLoadAddr = (char*)simple_strtoul(argv[2], NULL, 0); + } + else + { + dtbLoadAddr = env_get("dtb_mem_addr"); + if (!dtbLoadAddr) { + env_set("dtb_mem_addr", simple_itoa(CFG_SYS_SDRAM_BASE + (16U<<20))); + } + dtbLoadAddr = (char*)simple_strtoul(dtbLoadAddr, NULL, 0); + } + ret = efuse_usr_api_init_dtb(dtbLoadAddr); + } + else if(!strcmp("size", subcmd)) + { + const char* keyname = argv[2]; + unsigned keysize = argc > 3 ? simple_strtoul(argv[3], NULL, 0) : 0; + + ret = efuse_usr_api_get_cfg_key_size(keyname, &keysize); + EFUSE_MSG("keysize=%d\n", keysize); + } + else if(!strcmp("read", subcmd)) + { + if (argc < 4) return CMD_RET_USAGE; + const char* keyname = argv[2]; + char* databuf = (char*)simple_strtoul(argv[3], NULL, 16); + unsigned bufSz = argc > 4 ? simple_strtoul(argv[4], NULL, 0) : 0; + + if (!bufSz) + { + ret = efuse_usr_api_get_cfg_key_size(keyname, &bufSz); + if (ret) { + EFUSE_ERR("Fail in get sz for key[%s]\n", keyname); + return __LINE__; + } + } + + ret = efuse_usr_api_read_key(keyname, databuf, bufSz); + if (!ret) + { + int i = 0; + printf("efuse read data"); + for (i = 0; i < bufSz; i++) { + if (i%8 == 0) printf("\n[0x%02x]:", i); + printf("%02x ", databuf[i]); + } + printf("\n"); + } + } + else if(!strcmp("write", subcmd)) + { + if (argc < 4) return CMD_RET_USAGE; + const char* keyname = argv[2]; + char* keydata = (char*)simple_strtoul(argv[3], NULL, 16); + unsigned bufSz = argc > 4 ? simple_strtoul(argv[4], NULL, 0) : 0; + uint8_t* tmpBuf = NULL; + + if (!bufSz) + { + const char* input = argv[3]; + bufSz = ( strlen(input) >> 1 ); + tmpBuf = malloc(bufSz); + + ret = hex_ascii_to_buf(input, tmpBuf, bufSz); + if (ret) { + EFUSE_ERR("Failed in change hex ascii to buf\n"); + return __LINE__; + } + keydata = (char*)tmpBuf; + } + ret = efuse_usr_api_write_key(keyname, keydata, bufSz); + if (tmpBuf) free(tmpBuf) ; + } + + return ret ? CMD_RET_FAILURE : CMD_RET_SUCCESS; +} + +U_BOOT_CMD( + efuse_user, + 5, //max argc + 1, //repeatable + do_usr_efuse_api, + "efuse user space read write ops", + "init --- init efuse user space\n" + "size keyname --- get key size configured in dts\n" + "read keyname addr --- read key value to mem addr \n" + "write --- write key value\n" + " efuse_user write keyname hexstring --- write key value in hex string\n" + " efuse_user write keyname addr size --- write key value, U need load you key value into mem addr first\n" +); + diff --git a/drivers/mmc/aml_emmc_partition.c b/drivers/mmc/aml_emmc_partition.c new file mode 100644 index 0000000000..550042adb3 --- /dev/null +++ b/drivers/mmc/aml_emmc_partition.c @@ -0,0 +1,1715 @@ +/* + * Copyright 2016, Amlogic Inc + * yonghui.yu + * + * Based vaguely on the Linux code + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "mmc_private.h" +#include +#include +#include +#include + +DECLARE_GLOBAL_DATA_PTR; +/* using mbr*/ +#define CONFIG_PTBL_MBR (1) +#if (CONFIG_PTBL_MBR) + /* cmpare partition name? */ + #define CONFIG_CMP_PARTNAME (0) + /* cmpare partition mask */ + #define CONFIG_CMP_PARTMASK (0) +#else + #define CONFIG_CMP_PARTNAME (1) + #define CONFIG_CMP_PARTMASK (1) +#endif +/* debug info*/ +#define CONFIG_MPT_DEBUG (0) +#define GPT_PRIORITY (1) + +#define apt_err(fmt, ...) printf( "%s()-%d: " fmt , \ + __func__, __LINE__, ##__VA_ARGS__) + +#define apt_wrn(fmt, ...) printf( "%s()-%d: " fmt , \ + __func__, __LINE__, ##__VA_ARGS__) +#if (CONFIG_MPT_DEBUG) +/* for detail debug info */ +#define apt_info(fmt, ...) printf( "%s()-%d: " fmt , \ + __func__, __LINE__, ##__VA_ARGS__) +#else +#define apt_info(fmt, ...) +#endif + +/* creat MBR for emmc */ +#define MAX_PNAME_LEN (16) +#define MAX_PART_COUNT (32) + +/* + Global offset of reserved partition is 36MBytes + since MMC_BOOT_PARTITION_RESERVED is 32MBytes and + MMC_BOOT_DEVICE_SIZE is 4MBytes. + MMC_RESERVED_SIZE is 64MBytes for now. + layout detail inside reserved partition. + 0x000000 - 0x003fff: partition table + 0x004000 - 0x03ffff: storage key area (16k offset & 256k size) + 0x400000 - 0x47ffff: dtb area (4M offset & 512k size) + 0x480000 - 64MBytes: resv for other usage. + ... + */ +/* +#define RSV_DTB_OFFSET_GLB (SZ_1M*40) +#define RSV_DTB_SIZE (512*1024UL) +#define RSV_PTBL_OFFSET (SZ_1M*0) +#define RSV_PTBL_SIZE (16*1024UL) +#define RSV_SKEY_OFFSET (16*1024UL) +#define RSV_SKEY_SIZE (256*1024UL) +#define RSV_DTB_OFFSET (SZ_1M*4) +*/ + +/* virtual partitions which are in "reserved" */ +#define MAX_MMC_VIRTUAL_PART_CNT (5) + + +/* BinaryLayout of partition table stored in rsv area */ +struct ptbl_rsv { + char magic[4]; /* MPT */ + unsigned char version[12]; /* binary version */ + int count; /* partition count in using */ + int checksum; + struct partitions partitions[MAX_MMC_PART_NUM]; +}; + +/* partition table for innor usage*/ +struct _iptbl { + struct partitions *partitions; + int count; /* partition count in use */ +}; + +unsigned device_boot_flag = 0xff; +bool is_partition_checked = false; + +#ifndef CONFIG_AML_MMC_INHERENT_PART +/* fixme, name should be changed as aml_inherent_ptbl */ +struct partitions emmc_partition_table[] = { +#ifndef CONFIG_AML_GPT + PARTITION_ELEMENT(MMC_BOOT_NAME, MMC_BOOT_DEVICE_SIZE, 0), +#endif + PARTITION_ELEMENT(MMC_RESERVED_NAME, MMC_RESERVED_SIZE, 0), + /* prior partitions, same partition name with dts*/ + /* partition size will be overide by dts*/ + PARTITION_ELEMENT(MMC_CACHE_NAME, 0, 0), + PARTITION_ELEMENT(MMC_ENV_NAME, MMC_ENV_SIZE, 0), +}; + +struct virtual_partition virtual_partition_table[] = { + /* partition for name idx, off & size will not be used! */ +#if (CONFIG_PTBL_MBR) + VIRTUAL_PARTITION_ELEMENT(MMC_MBR_NAME, MMC_MBR_OFFSET, MMC_MBR_SIZE), +#endif + VIRTUAL_PARTITION_ELEMENT(MMC_BOOT_NAME0, 0, 0), + VIRTUAL_PARTITION_ELEMENT(MMC_BOOT_NAME1, 0, 0), + + /* virtual partition in reserved partition, take care off and size */ +#ifdef CONFIG_AML_PARTITION + VIRTUAL_PARTITION_ELEMENT(MMC_TABLE_NAME, MMC_TABLE_OFFSET, MMC_TABLE_SIZE), +#endif + VIRTUAL_PARTITION_ELEMENT(MMC_KEY_NAME, EMMCKEY_RESERVE_OFFSET, MMC_KEY_SIZE), + VIRTUAL_PARTITION_ELEMENT(MMC_PATTERN_NAME, CALI_PATTERN_OFFSET, CALI_PATTERN_SIZE), + VIRTUAL_PARTITION_ELEMENT(MMC_MAGIC_NAME, MAGIC_OFFSET, MAGIC_SIZE), + VIRTUAL_PARTITION_ELEMENT(MMC_RANDOM_NAME, RANDOM_OFFSET, RANDOM_SIZE), +#ifndef DTB_BIND_KERNEL + VIRTUAL_PARTITION_ELEMENT(MMC_DTB_NAME, DTB_OFFSET, DTB_SIZE), +#endif + VIRTUAL_PARTITION_ELEMENT(MMC_FASTBOOT_CONTEXT_NAME, + FASTBOOT_CONTEXT_OFFSET, FASTBOOT_CONTEXT_SIZE), + VIRTUAL_PARTITION_ELEMENT(MMC_DDR_PARAMETER_NAME,DDR_PARAMETER_OFFSET, DDR_PARAMETER_SIZE), +}; + +int get_emmc_partition_arraysize(void) +{ + return ARRAY_SIZE(emmc_partition_table); +} + +int get_emmc_virtual_partition_arraysize(void) +{ + return ARRAY_SIZE(virtual_partition_table); +} + +#endif + +void __attribute__((unused)) _dump_part_tbl(struct partitions *p, int count) +{ + int i = 0; + apt_info("count %d\n", count); + while (i < count) { + printf("%02d %10s %016llx %016llx\n", i, p[i].name, p[i].offset, p[i].size); + i++; + } + return; +} + +static int _get_part_index_by_name(struct partitions *tbl, + int cnt, const char *name) +{ + int i=0; + struct partitions *part = NULL; + + while (i < cnt) { + part = &tbl[i]; + if (!strcmp(name, part->name)) { + apt_info("find %s @ tbl[%d]\n", name, i); + break; + } + i++; + }; + if (i == cnt) { + i = -1; + apt_wrn("do not find match in table %s\n", name); + } + return i; +} + + + +static struct partitions *_find_partition_by_name(struct partitions *tbl, + int cnt, const char *name) +{ + int i = 0; + struct partitions *part = NULL; + + while (i < cnt) { + + part = &tbl[i]; + if (!strcmp(name, part->name)) { + apt_info("find %s @ tbl[%d]\n", name, i); + break; + } + i++; + }; + if (i == cnt) { + part = NULL; + apt_wrn("do not find match in table %s\n", name); + } + return part; +} + +/* fixme, must called after offset was calculated. */ +static ulong _get_inherent_offset(const char *name) +{ + struct partitions *part; + + part = _find_partition_by_name(emmc_partition_table, + get_emmc_partition_arraysize(), name); + if (NULL == part) + return -1; + else + return part->offset; +} +/* partition table (Emmc Partition Table) */ +struct _iptbl *p_iptbl_ept = NULL; + +/* trans byte into lba manner for rsv area read/write */ +#ifdef CONFIG_AML_PARTITION +static ulong _mmc_rsv_read(struct mmc *mmc, ulong offset, ulong size, void * buffer) +{ + lbaint_t _blk, _cnt; + if (0 == size) + return 0; + + _blk = offset / mmc->read_bl_len; + _cnt = size / mmc->read_bl_len; + _cnt = blk_dread(mmc_get_blk_desc(mmc), _blk, _cnt, buffer); + + return (ulong)(_cnt * mmc->read_bl_len); +} + +static ulong _mmc_rsv_write(struct mmc *mmc, ulong offset, ulong size, void * buffer) +{ + lbaint_t _blk, _cnt; + if (0 == size) + return 0; + + _blk = offset / mmc->read_bl_len; + _cnt = size / mmc->read_bl_len; + _cnt = blk_dwrite(mmc_get_blk_desc(mmc), _blk, _cnt, buffer); + + return (ulong)(_cnt * mmc->read_bl_len); +} +#endif + + +static struct partitions * get_ptbl_from_dtb(struct mmc *mmc) +{ + struct partitions * ptbl = NULL; +#ifdef CONFIG_AML_PARTITION +#ifndef DTB_BIND_KERNEL + unsigned char * buffer = NULL; + ulong ret, offset; + struct virtual_partition *vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + + /* try get dtb table from ddr, which may exsit while usb burning */ + if (NULL == get_partitions()) { + /* if failed, try rsv dtb area then. */ + buffer = malloc(vpart->size * DTB_COPIES); + if (NULL == buffer) { + apt_err("Can not alloc enough buffer\n"); + goto _err; + } + offset = _get_inherent_offset(MMC_RESERVED_NAME) + vpart->offset; + ret = _mmc_rsv_read(mmc, offset, (vpart->size * DTB_COPIES), buffer); + if (ret != (vpart->size * DTB_COPIES)) { + apt_err("Can not alloc enough buffer\n"); + goto _err1; + } + /* parse it */ + if (get_partition_from_dts(buffer)) { + apt_err("get partition table from dts failed. try from internal dts\n"); + if (buffer) + free(buffer); + buffer = (char*) env_get_ulong("fdtcontroladdr", 16, CFG_SYS_SDRAM_BASE + (16U<<20)); + if (get_partition_from_dts(buffer)) { + apt_err("get partition table from internal dts failed.\n"); + goto _err; + } + buffer = NULL; + } + /* double check part_table(glb) */ + if (NULL == get_partitions()) { + goto _err1; + } + apt_info("get partition table from dts successfully\n"); + + if (buffer) + free(buffer); + buffer = NULL; + } +#endif +#endif + /* asign partition info to *ptbl */ + ptbl = get_partitions(); + return ptbl; +#ifdef CONFIG_AML_PARTITION +#ifndef DTB_BIND_KERNEL +_err1: + if (buffer) + free(buffer); +_err: + free (ptbl); + return NULL; +#endif +#endif +} + + + + +static struct partitions *is_prio_partition(struct _iptbl *list, struct partitions *part) +{ + int i; + struct partitions *plist = NULL; + + if (list->count == 0) + goto _out; + + apt_info("count %d\n", list->count); + for (i=0; icount; i++) { + plist = &list->partitions[i]; + apt_info("%d: %s, %s\n", i, part->name, plist->name); + if (!strcmp(plist->name, part->name)) { + apt_info("%s is prio in list[%d]\n", part->name, i); + break; + } + } + if (i == list->count) + plist = NULL; +_out: + return plist; +} + +/* calculate offset of each partitions. + bottom is a flag for considering + */ +static int _calculate_offset(struct mmc *mmc, struct _iptbl *itbl, u32 bottom) +{ + int i; + struct partitions *part; + ulong gap = PARTITION_RESERVED; + int ret = 0; + + if (itbl->count <= 0) + return -1; + part = itbl->partitions; +#if (CONFIG_MPT_DEBUG) + _dump_part_tbl(part, itbl->count); +#endif + +#if CONFIG_AML_GPT + part->offset = RESERVED_GPT_OFFSET; +#endif + + if (!strcmp(part->name, "bootloader")) { + part->offset = 0; + gap = MMC_BOOT_PARTITION_RESERVED; + } + for (i=1; icount; i++) { + /**/ + part[i].offset = part[i-1].offset + part[i-1].size + gap; + /* check capicity overflow ?*/ + if (((part[i].offset + part[i].size) > mmc->capacity) || + (part[i].size == -1)) { + part[i].size = mmc->capacity - part[i].offset; + /* reserv space @ the bottom */ + if (bottom && (part[i].size > MMC_BOTTOM_RSV_SIZE)) { + apt_info("reserv %d bytes at bottom\n", MMC_BOTTOM_RSV_SIZE); + part[i].size -= MMC_BOTTOM_RSV_SIZE; + } + break; + } + gap = PARTITION_RESERVED; + } + if (i < (itbl->count - 1)) { + apt_err("too large partition table for current emmc, overflow!\n"); + ret = -1; + } +#if (CONFIG_MPT_DEBUG) + _dump_part_tbl(part, itbl->count); +#endif + return ret; +} + +static void compose_ept(struct _iptbl *dtb, struct _iptbl *inh, + struct _iptbl *ept) +{ + int i; + struct partitions *partition = NULL; + struct partitions *dst, *src, *prio; + + /* overide inh info by dts */ + apt_info("dtb %p, inh %p, ept %p\n", dtb, inh, ept); + apt_info("ept->partitions %p\n", ept->partitions); + partition = ept->partitions; + apt_info("partition %p\n", partition); + for (i=0; icount %d\n", i, ept->count); + dst = &partition[ept->count]; + src = (i < inh->count) ? &inh->partitions[i]:&dtb->partitions[i-inh->count]; + + prio = is_prio_partition(ept, src); + if (prio) { + /* overide prio partition by new */ + apt_info("override %d: %s\n", ept->count, prio->name); + //*prio = *src; + dst = prio; + } else + ept->count ++; + *dst = *src; + if (-1 == src->size) { + apt_info("break! %s\n", src->name); + break; + } + } + + return; +} +#ifdef CONFIG_AML_PARTITION +static int _get_version(unsigned char * s) +{ + int version = 0; + if (!strncmp((char *)s, MMC_MPT_VERSION_2, sizeof(MMC_MPT_VERSION_2))) + version = 2; + else if (!strncmp((char *)s, MMC_MPT_VERSION_1, sizeof(MMC_MPT_VERSION_1))) + version = 1; + else + version = -1; + + return version; +} + +/* calc checksum. + there's a bug on v1 which did not calculate all the partitios. + */ +static int _calc_iptbl_check_v2(struct partitions * part, int count) +{ + int ret = 0, i; + int size = count * sizeof(struct partitions) >> 2; + int *buf = (int *)part; + + for (i = 0; i < size; i++) + ret +=buf[i]; + + return ret; +} + +static int _calc_iptbl_check_v1(struct partitions *part, int count) +{ + int i, j; + u32 checksum = 0, *p; + + for (i = 0; i < count; i++) { + p = (u32*)part; + /*BUG here, do not fix it!!*/ + for (j = sizeof(struct partitions)/sizeof(checksum); j > 0; j--) { + checksum += *p; + p++; + } + } + + return checksum; +} + +static int _calc_iptbl_check(struct partitions * part, int count, int version) +{ + if (1 == version) + return _calc_iptbl_check_v1(part, count); + else if (2 == version) + return _calc_iptbl_check_v2(part, count); + else + return -1; +} + +/* ept is malloced out side */ +static int _cpy_iptbl(struct _iptbl * dst, struct _iptbl * src) +{ + int ret = 0; + if (!dst || !src) { + apt_err("invalid arg %s\n", !dst ? "dst" : "src"); + ret = -1; + goto _out; + } + if (!dst->partitions || !src->partitions) { + apt_err("invalid arg %s->partitions\n", !dst ? "dst" : "src"); + ret = -2; + goto _out; + } + + dst->count = src->count; + memcpy(dst->partitions, src->partitions, sizeof(struct partitions) * src->count); + +_out: + return ret; +} + + +/* get ptbl from rsv area from emmc */ +static int get_ptbl_rsv(struct mmc *mmc, struct _iptbl *rsv) +{ + struct ptbl_rsv * ptbl_rsv = NULL; + uchar * buffer = NULL; + ulong size, offset; + int checksum, version, ret = 0; + struct virtual_partition *vpart = aml_get_virtual_partition_by_name(MMC_TABLE_NAME); + + size = (sizeof(struct ptbl_rsv) + 511) / 512 * 512; + if (vpart->size < size) { + apt_err("too much partitons\n"); + ret = -1; + goto _out; + } + buffer = malloc(size); + if (NULL == buffer) { + apt_err("no enough memory for ptbl rsv\n"); + ret = -2; + goto _out; + } + /* read it from emmc. */ + offset = _get_inherent_offset(MMC_RESERVED_NAME) + vpart->offset; + if (size != _mmc_rsv_read(mmc, offset, size, buffer)) { + apt_err("read ptbl from rsv failed\n"); + ret = -3; + goto _out; + } + + ptbl_rsv = (struct ptbl_rsv *) buffer; + apt_info("magic %3.3s, version %8.8s, checksum %x\n", ptbl_rsv->magic, + ptbl_rsv->version, ptbl_rsv->checksum); + /* fixme, check magic ?*/ + if (strncmp(ptbl_rsv->magic, MMC_PARTITIONS_MAGIC, sizeof(MMC_PARTITIONS_MAGIC))) { + apt_err("magic faild %s, %3.3s\n", MMC_PARTITIONS_MAGIC, ptbl_rsv->magic); + ret = -4; + goto _out; + } + /* check version*/ + version = _get_version(ptbl_rsv->version); + if (version < 0) { + apt_err("version faild %s, %3.3s\n", MMC_PARTITIONS_MAGIC, ptbl_rsv->magic); + ret = -5; + goto _out; + } + if (ptbl_rsv->count > MAX_MMC_PART_NUM) { + apt_err("invalid partition count %d\n", ptbl_rsv->count); + ret = -1; + goto _out; + } + /* check sum */ + checksum = _calc_iptbl_check(ptbl_rsv->partitions, ptbl_rsv->count, version); + if (checksum != ptbl_rsv->checksum) { + apt_err("checksum faild 0x%x, 0x%x\n", ptbl_rsv->checksum, checksum); + ret = -6; + goto _out; + } + + rsv->count = ptbl_rsv->count; + memcpy(rsv->partitions, ptbl_rsv->partitions, rsv->count * sizeof(struct partitions)); + +_out: + if (buffer) + free (buffer); + return ret; +} + + +/* update partition tables from src + if success, return 0; + else, return 1 + */ +static int update_ptbl_rsv(struct mmc *mmc, struct _iptbl *src) +{ + struct ptbl_rsv *ptbl_rsv = NULL; + uchar *buffer; + ulong size, offset; + int ret = 0, version; + struct virtual_partition *vpart = aml_get_virtual_partition_by_name(MMC_TABLE_NAME); + + size = (sizeof(struct ptbl_rsv) + 511) / 512 * 512; + buffer = malloc(size); + if (NULL == buffer) { + apt_err("no enough memory for ptbl rsv\n"); + return -1; + } + memset(buffer, 0 , size); + /* version, magic and checksum */ + ptbl_rsv = (struct ptbl_rsv *) buffer; + strcpy((char *)ptbl_rsv->version, MMC_MPT_VERSION); + strcpy(ptbl_rsv->magic, MMC_PARTITIONS_MAGIC); + if (src->count > MAX_MMC_PART_NUM) { + apt_err("too much partitions\n"); + ret = -1; + goto _err; + } + ptbl_rsv->count = src->count; + memcpy(ptbl_rsv->partitions, src->partitions, + sizeof(struct partitions)*src->count); + version = _get_version(ptbl_rsv->version); + ptbl_rsv->checksum = _calc_iptbl_check(src->partitions, src->count, version); + /* write it to emmc. */ + apt_info("magic %3.3s, version %8.8s, checksum %x\n", ptbl_rsv->magic, ptbl_rsv->version, ptbl_rsv->checksum); + offset = _get_inherent_offset(MMC_RESERVED_NAME) + vpart->offset; + if (_mmc_rsv_write(mmc, offset, size, buffer) != size) { + apt_err("write ptbl to rsv failed\n"); + ret = -1; + goto _err; + } +_err: + free (buffer); + return ret; +} + +static void _free_iptbl(struct _iptbl *iptbl) +{ + if (iptbl && iptbl->partitions) { + free(iptbl->partitions); + iptbl->partitions = NULL; + } + if (iptbl) { + free(iptbl); + iptbl = NULL; + } + + return; +} + +#endif +static int _cmp_partition(struct partitions *dst, struct partitions *src, int overide) +{ + int ret = 0; +#if (CONFIG_CMP_PARTNAME) + if (strncmp(dst->name, src->name, sizeof(src->name))) + ret = -2; +#endif + if (dst->size != src->size) + ret = -3; + if (dst->offset != src->offset) + ret = -4; +#if (CONFIG_CMP_PARTMASK) + if (dst->mask_flags != src->mask_flags) + ret = -5; +#endif + + if (ret && (!overide)) { + apt_err("name: %10.10s<->%10.10s\n", dst->name, src->name); + apt_err("size: %llx<->%llx\n", dst->size, src->size); + apt_err("offset: %llx<->%llx\n", dst->offset, src->offset); + apt_err("mask: %08x<->%08x\n", dst->mask_flags, src->mask_flags); + } + + if (overide) { + *dst = *src; + ret = 0; + } + + return ret; +} + +/* compare partition tables + if same, do nothing then return 0; + else, print the diff ones and return -x + -1:count + -2:name + -3:size + -4:offset + */ +static int _cmp_iptbl(struct _iptbl * dst, struct _iptbl * src) +{ + int ret = 0, i = 0; + struct partitions *dstp; + struct partitions *srcp; + + if (dst->count != src->count) { + apt_err("partition count is not same %d:%d\n", dst->count, src->count); + ret = -1; + goto _out; + } + + while (i < dst->count) { + dstp = &dst->partitions[i]; + srcp = &src->partitions[i]; + ret = _cmp_partition(dstp, srcp, 0); + if (ret) { + apt_err("partition %d has changed\n", i); + break; + } + i++; + } + +_out: + return ret; +} + + +/* iptbl buffer opt. */ +static int _zalloc_iptbl(struct _iptbl **_iptbl) +{ + int ret = 0; + struct _iptbl *iptbl; + struct partitions *partition = NULL; + + partition = malloc(sizeof(struct partitions)*MAX_PART_COUNT); + if (NULL == partition) { + ret = -1; + apt_err("no enough memory for partitions\n"); + goto _out; + } + + iptbl = malloc(sizeof(struct _iptbl)); + if (NULL == iptbl) { + ret = -2; + apt_err("no enough memory for ept\n"); + free(partition); + goto _out; + } + memset(partition, 0, sizeof(struct partitions)*MAX_PART_COUNT); + memset(iptbl, 0, sizeof(struct _iptbl)); + + iptbl->partitions = partition; + apt_info("iptbl %p, partition %p, iptbl->partitions %p\n", + iptbl, partition, iptbl->partitions); + *_iptbl = iptbl; +_out: + return ret; +} + + +/* + * fixme, need check space size later. + */ + +static inline int le32_to_int(unsigned char *le32) +{ + return ((le32[3] << 24) + + (le32[2] << 16) + + (le32[1] << 8) + + le32[0] + ); +} + +static int test_block_type(unsigned char *buffer) +{ + int slot; + struct dos_partition *p; + + if ((buffer[DOS_PART_MAGIC_OFFSET + 0] != 0x55) || + (buffer[DOS_PART_MAGIC_OFFSET + 1] != 0xaa) ) { + return (-1); + } /* no DOS Signature at all */ + p = (struct dos_partition *)&buffer[DOS_PART_TBL_OFFSET]; + for (slot = 0; slot < 3; slot++) { + if (p->boot_ind != 0 && p->boot_ind != 0x80) { + if (!slot && + (strncmp((char *)&buffer[DOS_PBR_FSTYPE_OFFSET], + "FAT", 3) == 0 || + strncmp((char *)&buffer[DOS_PBR32_FSTYPE_OFFSET], + "FAT32", 5) == 0)) { + return DOS_PBR; /* is PBR */ + } else { + return -1; + } + } + } + return DOS_MBR; /* Is MBR */ +} + +//DOS_MBR OR DOS_PBR +/* + * re-constructe iptbl from mbr&ebr infos. + * memory for iptbl_mbr must be alloced outside. + * + */ +static void _construct_ptbl_by_mbr(struct mmc *mmc, struct _iptbl *iptbl_mbr) +{ + int ret,i; + int flag = 0; + lbaint_t read_offset = 0; + int part_num = 0; + int primary_num = 0; + uint64_t logic_start = 0; + uint64_t externed_start = 0; + struct dos_partition *pt; + struct partitions *partitions = iptbl_mbr->partitions; + + apt_info("aml MBR&EBR debug...\n"); + ALLOC_CACHE_ALIGN_BUFFER(unsigned char, buffer, 512); + for (;;) { + apt_info("**%02d: read_offset %016llx\n", part_num, (uint64_t)read_offset<<9); + ret = blk_dread(mmc_get_blk_desc(mmc), read_offset, 1, buffer); + if (read_offset == 0) + flag = 1; + else + flag = 0; + /* debug code */ + // print_buffer(0,buffer,1,512,16); + if (ret != 1) { + apt_err("ret %d fail to read current ebr&mbr from emmc! \n", ret); + break; + } + ret = test_block_type(buffer); + if (ret != 0 && ret != 1) { + apt_err("invalid magic value: 0x%02x%02x\n", + buffer[DOS_PART_MAGIC_OFFSET], buffer[DOS_PART_MAGIC_OFFSET + 1]); + break; + } + + pt = (dos_partition_t *)(&buffer[0] + DOS_PART_TBL_OFFSET); + for (i = 0; i < 4; i++, pt++) { + if ( (pt->boot_ind == 0x00 || pt->boot_ind == 0x80) && pt->sys_ind == 0x83 ) { + //emmc_partition[part_num]->name = NULL; + partitions[part_num].offset = ((uint64_t)(le32_to_int(pt->start4)+read_offset) << 9ULL); + partitions[part_num].size = (uint64_t)le32_to_int(pt->size4) << 9ULL; + partitions[part_num].mask_flags = pt->sys_ind; + + apt_info("--partition[%d]: %016llx, %016llx, 0x%08x \n", + part_num, partitions[part_num].offset, + partitions[part_num].size, + le32_to_int(pt->size4)); + part_num++; + if ( flag ) + primary_num++; + }else{/* get the next externed partition info */ + if ( pt->boot_ind == 0x00 && pt->sys_ind == 0x05) { + logic_start = (uint64_t)le32_to_int (pt->start4); + //logic_size = (uint64_t)le32_to_int (pt->size4); + } + } + } + /* mbr & ebr debug infos */ + apt_info("******%02d: read_offset=%016llx, logic_start=%016llx\n", + part_num,(uint64_t)read_offset*512ULL,logic_start*512ULL); + + if (part_num == primary_num) { + externed_start = logic_start; + read_offset = externed_start; + }else + read_offset = externed_start + logic_start; + if (logic_start == 0) + break; + logic_start = 0; + + } + iptbl_mbr->count = part_num; + apt_info("iptbl_mbr->count = %d\n", iptbl_mbr->count); + + return; +} + +static int __attribute__((unused)) _check_ptbl_mbr(struct mmc *mmc, struct _iptbl *ept) +{ + int ret = 0; + /* re-constructed by mbr */ + struct _iptbl *iptbl_mbr = NULL, *ept2 = NULL; + struct partitions *partitions = NULL; + int i,j; + + iptbl_mbr = malloc(sizeof(struct _iptbl)); + if (NULL == iptbl_mbr) { + apt_err("no enough memory for iptbl_mbr\n"); + return -1; + } + memset(iptbl_mbr , 0, sizeof(struct _iptbl)); + partitions = (struct partitions *)malloc(sizeof(struct partitions) * DOS_PARTITION_COUNT); + if (NULL == partitions) { + apt_err("no enough memory for partitions\n"); + free(iptbl_mbr); + return -1; + } + memset(partitions, 0, sizeof(struct partitions) * DOS_PARTITION_COUNT); + iptbl_mbr->partitions = partitions; + + _construct_ptbl_by_mbr(mmc, iptbl_mbr); + if (iptbl_mbr->count > 0) + { + ret = 0; + goto _check_return; + } + + ept2 = (struct _iptbl*) malloc(sizeof(struct _iptbl)); + if (!ept2) + return -1; + + ept2 -> partitions = (struct partitions*) malloc (sizeof(struct partitions) * ept->count); + if (!ept2->partitions) + return -1; + memset (ept2->partitions, 0, sizeof(struct partitions) * ept->count); + ept2 -> count = 0; + + for (i=4,j=0;icount;i++) + { + apt_info("-!check partition name %s\n",ept->partitions[i].name); + memcpy(&ept2->partitions[j],&ept->partitions[i], sizeof(struct partitions)); + j++; + + } + ept2->count = j; + + ret = _cmp_iptbl(iptbl_mbr, ept2); + if (ept2->partitions) + free (ept2->partitions); + if (ept2) + free (ept2); + + if (partitions) + free(partitions); + if (iptbl_mbr) + free(iptbl_mbr); + _check_return: + apt_wrn("MBR is %s\n", ret?"Improper!":"OK!"); + return ret; +} + +/* construct a partition table entry of EBR */ +static int _construct_ebr_1st_entry(struct _iptbl *p_iptbl,struct dos_partition *p_ebr, int part_num ) +{ + uint64_t start_offset = 0; + uint64_t logic_size = 0; + + p_ebr->boot_ind = 0x00; + p_ebr->sys_ind = 0x83; + /* Starting = relative offset between this EBR sector and the first sector of the logical partition + * the gap between two partition is a fixed value of PARTITION_RESERVED ,otherwise the emmc partiton + * is different with reserved */ + start_offset = PARTITION_RESERVED >> 9; + /* Number of sectors = total count of sectors for this logical partition */ + // logic_size = (p_iptbl->partitions[part_num].size) >> 9ULL; + logic_size = lldiv(p_iptbl->partitions[part_num].size, 512); + apt_info("*** %02d: size 0x%016llx, logic_size 0x%016llx\n", part_num, p_iptbl->partitions[part_num].size, logic_size); + memcpy((unsigned char *)(p_ebr->start4), &start_offset, 4); + memcpy((unsigned char *)(p_ebr->size4), &logic_size, 4); + return 0; +} + +static int _construct_ebr_2nd_entry(struct _iptbl *p_iptbl, struct dos_partition *p_ebr, int part_num) +{ + uint64_t start_offset = 0; + uint64_t logic_size = 0; + + if ((part_num+2) > p_iptbl->count) + return 0; + + p_ebr->boot_ind = 0x00; + p_ebr->sys_ind = 0x05; + /* Starting sector = LBA address of next EBR minus LBA address of extended partition's first EBR */ + start_offset = (p_iptbl->partitions[part_num+1].offset - PARTITION_RESERVED - + (p_iptbl->partitions[3].offset - PARTITION_RESERVED)) >> 9; + /* total count of sectors for next logical partition, but count starts from the next EBR sector */ + logic_size = (p_iptbl->partitions[part_num+1].size + PARTITION_RESERVED) >> 9; + + memcpy((unsigned char *)(p_ebr->start4), &start_offset, 4); + memcpy((unsigned char *)(p_ebr->size4), &logic_size, 4); + + return 0; +} + +/* construct a partition table entry of MBR OR EBR */ +static int _construct_mbr_entry(struct _iptbl *p_iptbl, struct dos_partition *p_entry, int part_num) +{ + uint64_t start_offset = 0; + uint64_t primary_size = 0; + uint64_t externed_size = 0; + int i; + /* the entry is active or not */ + if (part_num == 0 ) + p_entry->boot_ind = 0x00; + else + p_entry->boot_ind = 0x00; + + if (part_num == 3) {/* the logic partion entry */ + /* the entry type */ + p_entry->sys_ind = 0x05; + start_offset = (p_iptbl->partitions[3].offset - PARTITION_RESERVED) >> 9; + for ( i = 3;i< p_iptbl->count;i++) + externed_size = p_iptbl->partitions[i].size >> 9; + + memcpy((unsigned char *)p_entry->start4, &start_offset, 4); + memcpy((unsigned char *)p_entry->size4, &externed_size, 4); + }else{/* the primary partion entry */ + /* the entry type */ + p_entry->sys_ind = 0x83; + start_offset = (p_iptbl->partitions[part_num].offset) >> 9; + primary_size = (p_iptbl->partitions[part_num].size)>>9; + memcpy((unsigned char *)p_entry->start4, &start_offset, 4); + memcpy((unsigned char *)p_entry->size4, &primary_size, 4); + } + + return 0; +} + +static int _construct_mbr_or_ebr(struct _iptbl *p_iptbl, struct dos_mbr_or_ebr *p_br, + int part_num, int type) +{ + int i; + + apt_info("!!!++++ %0d(%0d) my count:%i\n",part_num, p_iptbl->count,p_iptbl->count<4?p_iptbl->count:4); + if (DOS_MBR == type) { + /* constuct a integral MBR */ + for (i = 0; i< ((p_iptbl->count<4)?p_iptbl->count:4) ; i++) + _construct_mbr_entry(p_iptbl, &p_br->part_entry[i], i); + + }else{ + /* constuct a integral EBR */ + p_br->bootstart[DOS_PBR32_FSTYPE_OFFSET] = 'F'; + p_br->bootstart[DOS_PBR32_FSTYPE_OFFSET + 1] = 'A'; + p_br->bootstart[DOS_PBR32_FSTYPE_OFFSET + 2] = 'T'; + p_br->bootstart[DOS_PBR32_FSTYPE_OFFSET + 3] = '3'; + p_br->bootstart[DOS_PBR32_FSTYPE_OFFSET + 4] = '2'; + + _construct_ebr_1st_entry(p_iptbl, &p_br->part_entry[0], part_num); + _construct_ebr_2nd_entry(p_iptbl, &p_br->part_entry[1], part_num); + } + + p_br->magic[0] = 0x55 ; + p_br->magic[1] = 0xAA ; + return 0; +} + +static __attribute__((unused)) int _update_ptbl_mbr(struct mmc *mmc, struct _iptbl *p_iptbl) +{ + int ret = 0, start_blk = 0, blk_cnt = 1; + unsigned char *src; + int i,j; + struct dos_mbr_or_ebr *mbr; + struct _iptbl *ptb ; + struct _iptbl *ptb2; + + ptb = p_iptbl; + ptb2 = (struct _iptbl*) malloc(sizeof(struct _iptbl)); + + ptb2 -> partitions = (struct partitions*) malloc (sizeof(struct partitions) * ptb->count); + memset (ptb2->partitions, 0, sizeof(struct partitions) * ptb->count); + ptb2 -> count = 0; + + for (i=4,j=0;icount;i++) + { + apt_info("-!check partition name %s\n",ptb->partitions[i].name); + memcpy(&ptb2->partitions[j],&ptb->partitions[i], sizeof(struct partitions)); + j++; + + } + ptb2->count = j; + ptb = ptb2; + + mbr = malloc(sizeof(struct dos_mbr_or_ebr)); + + for (i=0;icount;i++) { + apt_info("-update MBR-: partition[%02d]: %016llx - %016llx skipped:%s name:%s parts count:%02d\n",i, + ptb->partitions[i].offset, ptb->partitions[i].size, ptb->partitions[i].size==0? "yes" :"no", ptb->partitions[i].name, ptb->count); + } + + for (i = 0;i < ptb->count;) { + apt_info("!!!!--- update_ptbl_mbr %02d (%02d)\n", i, ptb->count); + memset(mbr ,0 ,sizeof(struct dos_mbr_or_ebr)); + if (i == 0) { + _construct_mbr_or_ebr(ptb, mbr, i, 0); + i = i+2; + } else + _construct_mbr_or_ebr(ptb, mbr, i, 2); + src = (unsigned char *)mbr; + apt_info("--%s(): %02d(%02d), off %x\n", __func__, i, ptb->count, start_blk); + ret = blk_dwrite(mmc_get_blk_desc(mmc), start_blk, blk_cnt, src); + i++; + if (ret != blk_cnt) { + apt_err("write current MBR failed! ret: %d != cnt: %d\n",ret,blk_cnt); + break; + } + start_blk = (ptb->partitions[i].offset - PARTITION_RESERVED) >> 9; + apt_info("!!!!end update_ptbl_mbr %02d (%02d)\n", i, ptb->count); + } + free(mbr); + free(ptb->partitions); + free(ptb); + + ret = !ret; + if (ret) + apt_err("write MBR failed!\n"); + else + apt_err("write MBR ok!!!!\n"); + + return ret; +} + +#ifdef CONFIG_AML_GPT +int is_gpt_changed(struct mmc *mmc, struct _iptbl *p_iptbl_ept) +{ + int i, k; + gpt_entry *gpt_pte = NULL; + size_t efiname_len; + struct _iptbl *ept = p_iptbl_ept; + struct partitions *partitions = ept->partitions; + int parts_num = ept->count; + uint64_t offset; + uint64_t size; + char name[PARTNAME_SZ]; + int gpt_changed = 0; + struct blk_desc *dev_desc = mmc_get_blk_desc(mmc); + ALLOC_CACHE_ALIGN_BUFFER_PAD(gpt_header, gpt_head, 1, dev_desc->blksz); + + if (!dev_desc) { + printf("%s: Invalid Argument(s)\n", __func__); + return 1; + } + + if (is_gpt_valid(dev_desc, GPT_PRIMARY_PARTITION_TABLE_LBA, + gpt_head, &gpt_pte) != 1) { + printf("%s: ***ERROR:Invalid GPT ***\n", __func__); + if (is_gpt_valid(dev_desc, (dev_desc->lba - 1), + gpt_head, &gpt_pte) != 1) { + printf("%s: ***ERROR: Invalid Backup GPT ***\n", + __func__); + return 1; + } else { + printf("%s: *** Using Backup GPT ***\n", + __func__); + } + //return 1; + } + for (i = 0; i < le32_to_cpu(gpt_head->num_partition_entries); i++) { + if (!is_pte_valid(&gpt_pte[i])) + break; + + offset = le64_to_cpu(gpt_pte[i].starting_lba<<9ULL); + if (partitions[i].offset != offset) { + printf("Caution! GPT offset had been changed\n"); + gpt_changed = 1; + break; + } + + size = ((le64_to_cpu(gpt_pte[i].ending_lba)+1) - + le64_to_cpu(gpt_pte[i].starting_lba)) << 9ULL; + if (i == parts_num - 1) { + if ((partitions[i].size - GPT_TOTAL_SIZE) != size) { + printf("Caution! GPT size had been changed\n"); + gpt_changed = 1; + break; + } + } else { + if (partitions[i].size != size) { + printf("Caution! GPT size had been changed\n"); + gpt_changed = 1; + break; + } + } + + /* partition name */ + efiname_len = sizeof(gpt_pte[i].partition_name) + / sizeof(efi_char16_t); + + memset(name, 0, PARTNAME_SZ); + for (k = 0; k < efiname_len; k++) + name[k] = (char)gpt_pte[i].partition_name[k]; + if (strcmp(name, partitions[i].name) != 0) { + printf("Caution! GPT name had been changed\n"); + gpt_changed = 1; + break; + } + + } + if ((i != parts_num) && (gpt_changed == 0)) { + gpt_changed = 1; + printf("Caution! GPT number had been changed\n"); + } + + free(gpt_pte); + return gpt_changed; +} +int is_gpt_broken(struct mmc *mmc) +{ + gpt_entry *gpt_pte = NULL; + int broken_status = 0; + struct blk_desc *dev_desc = mmc_get_blk_desc(mmc); + ALLOC_CACHE_ALIGN_BUFFER_PAD(gpt_header, gpt_head, 1, dev_desc->blksz); + + if (!dev_desc) { + printf("%s: Invalid Argument(s)\n", __func__); + return 1; + } + + if (is_gpt_valid(dev_desc, GPT_PRIMARY_PARTITION_TABLE_LBA, + gpt_head, &gpt_pte) != 1) { + broken_status += 1; + printf("%s: ***ERROR:Invalid GPT ***\n", __func__); + } + if (is_gpt_valid(dev_desc, (dev_desc->lba - 1), + gpt_head, &gpt_pte) != 1) { + printf("%s: ***ERROR: Invalid Backup GPT ***\n", + __func__); + broken_status += 2; + } + + if (broken_status != 3) + free(gpt_pte); + return broken_status; + +} + +int fill_ept_by_gpt(struct mmc *mmc, struct _iptbl *p_iptbl_ept) +{ + struct blk_desc *dev_desc = mmc_get_blk_desc(mmc); + ALLOC_CACHE_ALIGN_BUFFER_PAD(gpt_header, gpt_head, 1, dev_desc->blksz); + gpt_entry *gpt_pte = NULL; + int i, k; + size_t efiname_len, dosname_len; + struct _iptbl *ept = p_iptbl_ept; + struct partitions *partitions = ept->partitions; + + if (!dev_desc) { + printf("%s: Invalid Argument(s)\n", __func__); + return 1; + } + + if (is_gpt_valid(dev_desc, GPT_PRIMARY_PARTITION_TABLE_LBA, + gpt_head, &gpt_pte) != 1) { + printf("%s: ***ERROR:Invalid GPT ***\n", __func__); + if (is_gpt_valid(dev_desc, (dev_desc->lba - 1), + gpt_head, &gpt_pte) != 1) { + printf("%s: ***ERROR: Invalid Backup GPT ***\n", + __func__); + return 1; + } else { + printf("%s: *** Using Backup GPT ***\n", + __func__); + } + //return 1; + } + + for (i = 0; i < le32_to_cpu(gpt_head->num_partition_entries); i++) { + if (!is_pte_valid(&gpt_pte[i])) + break; + + partitions[i].offset = le64_to_cpu(gpt_pte[i].starting_lba<<9ULL); + partitions[i].size = ((le64_to_cpu(gpt_pte[i].ending_lba)+1) - + le64_to_cpu(gpt_pte[i].starting_lba)) << 9ULL; + /* mask flag */ + partitions[i].mask_flags = (uint32_t)le64_to_cpu(gpt_pte[i].attributes.fields.reserved); + /* partition name */ + efiname_len = sizeof(gpt_pte[i].partition_name) + / sizeof(efi_char16_t); + dosname_len = sizeof(partitions[i].name); + + memset(partitions[i].name, 0, sizeof(partitions[i].name)); + for (k = 0; k < min(dosname_len, efiname_len); k++) + partitions[i].name[k] = (char)gpt_pte[i].partition_name[k]; + + } + ept->count = i; + free(gpt_pte); + return 0; +} + +void trans_ept_to_diskpart(struct _iptbl *ept, struct disk_partition *disk_part) { + struct partitions *part = ept->partitions; + int count = ept->count; + int i; + for (i = 0; i < count; i++) { + disk_part[i].start = part[i].offset >> 9; + strcpy((char *)disk_part[i].name, part[i].name); + /* store maskflag into type, 8bits ONLY! */ + disk_part[i].type[0] = (uchar)part[i].mask_flags; + #ifdef CONFIG_PARTITION_TYPE_GUID + strcpy((char *)disk_part[i].type_guid, part[i].name); + #endif + #ifdef CONFIG_RANDOM_UUID + gen_rand_uuid_str(disk_part[i].uuid, UUID_STR_FORMAT_STD); + #endif + disk_part[i].bootable = 0; + if ( i == (count - 1)) + disk_part[i].size = 0; + else + disk_part[i].size = (part[i].size) >> 9; + } + return; +} + + + + +#endif + +/*************************************************** + * init partition table for emmc device. + * returns 0 means ok. + * other means failure. + *************************************************** + * work flows: + * source of logic partition table(LPT) is from dts + * no matter MACRO is on/off + * 1. try to get LPT from dtb + * 1.1 if dtb exist, compose ept by LPT&inh + * 1.2 if not, go ahead + * 2. try to get ept from emmc rsv partition + * 2.1 if not: + * 2.1.1 when dtb exists + * 2.1.1.1 check ept with dtb + * 2.1.1.2 update rsv if needed + * 2.1.1 without dtb, exit + * 2.2 if got: + * 2.2.1 try to reconstruct ept by MBR + * 2.2.2 check it with ept + * 2.2.3 update MBR if needed + *************************************************** + * when normal boot: + * without dtb, with rsv, with MBR + * when blank emmc: + * without dtb, without rsv, without MBR + * when burning MBR on a blank emmc: + * with dtb, without rsv, without MBR + * when burning MBR on a emmc with rsv: + * with dtb, with rsv, without MBR + * when burning MBR on a emmc with rsv&MBR: + * with dtb, with rsv, with MBR + ***************************************************/ +int mmc_device_init (struct mmc *mmc) +{ + int ret = 1; +#if (CONFIG_PTBL_MBR) || (!CONFIG_AML_PARTITION) + //cpu_id_t cpu_id = get_cpu_id(); +#endif + /* partition table from dtb/code/emmc rsv */ + struct _iptbl iptbl_dtb, iptbl_inh; + + /* calculate inherent offset */ + iptbl_inh.count = get_emmc_partition_arraysize(); + if (iptbl_inh.count) { + iptbl_inh.partitions = emmc_partition_table; + _calculate_offset(mmc, &iptbl_inh, 0); + } + apt_info("inh count %d\n", iptbl_inh.count); +#if (CONFIG_MPT_DEBUG) + apt_info("inherent partition table\n"); + _dump_part_tbl(iptbl_inh.partitions, iptbl_inh.count); +#endif + /* For re-entry */ + if (NULL == p_iptbl_ept) { + ret = _zalloc_iptbl(&p_iptbl_ept); + if (ret) + goto _out; + } else { + p_iptbl_ept->count = 0; + memset(p_iptbl_ept->partitions, 0, + sizeof(struct partitions)*MAX_PART_COUNT); + } + + /* try to get partition table from dtb(ddr or emmc) */ + iptbl_dtb.partitions = get_ptbl_from_dtb(mmc); + /* construct ept by dtb if exist */ + if (iptbl_dtb.partitions) { + iptbl_dtb.count = get_partition_count(); + apt_info("dtb %p, count %d\n", iptbl_dtb.partitions, iptbl_dtb.count); + /* reserved partition must exist! */ + if (iptbl_inh.count) { + compose_ept(&iptbl_dtb, &iptbl_inh, p_iptbl_ept); + if (0 == p_iptbl_ept->count) { + apt_err("compose partition table failed!\n"); + goto _out; + } + /* calculate offset infos. considering GAPs */ + if (_calculate_offset(mmc, p_iptbl_ept, 1)) { + goto _out; + } + #if (CONFIG_MPT_DEBUG) + apt_info("ept partition table\n"); + _dump_part_tbl(p_iptbl_ept->partitions, p_iptbl_ept->count); + #endif + } else { + /* report fail, because there is no reserved partitions */ + apt_err("compose partition table failed!\n"); + ret = -1; + goto _out; + } + } else + apt_wrn("get partition table from dtb failed\n"); +#ifndef CONFIG_AML_PARTITION + if (0) { //(cpu_id.family_id < MESON_CPU_MAJOR_ID_G12B) { + printf("CONFIG_AML_PARTITION should define before G12B\n"); + goto _out; + } +#endif + +#ifdef CONFIG_AML_PARTITION + int update = 1; + struct _iptbl *p_iptbl_rsv = NULL; + /* try to get partiton table from rsv */ + ret = _zalloc_iptbl(&p_iptbl_rsv); + if (ret) + goto _out; + ret = get_ptbl_rsv(mmc, p_iptbl_rsv); + apt_info("!!!! after call get_ptbl_rsv got %i parts\n",p_iptbl_rsv->count); + + if (p_iptbl_rsv->count) { + /* dtb exist, p_iptbl_ept already inited */ + if (iptbl_dtb.partitions) { + ret = _cmp_iptbl(p_iptbl_ept, p_iptbl_rsv); + if (!ret) { + update = 0; + } + } else { + /* without dtb, update ept with rsv */ + apt_info("!!!! call _cpy_iptbl from rsv to ept %i\n",p_iptbl_rsv->count); + _cpy_iptbl(p_iptbl_ept, p_iptbl_rsv); + update = 0; + } + } else { + /* without dtb& rsv */ + if (!iptbl_dtb.partitions) { + apt_err("dtb&rsv are not exist, no LPT source\n"); + ret = -9; + goto _out; + } + } + + if (update && iptbl_dtb.partitions) { + apt_wrn("update rsv with dtb!\n"); + ret = update_ptbl_rsv(mmc, p_iptbl_ept); + } +#endif + //apt_wrn("ept source is %s\n", (ept_source == p_iptbl_ept)?"ept":"rsv"); +#if (CONFIG_PTBL_MBR) + /* 1st sector was reserved by romboot after gxl */ + if (1) { //(cpu_id.family_id >= MESON_CPU_MAJOR_ID_GXL) { + if (_check_ptbl_mbr(mmc, p_iptbl_ept)) { + apt_info("!!!! after _check_ptbl_mbr, see %i ept parts, check result %i\n",p_iptbl_ept->count, _check_ptbl_mbr(mmc, p_iptbl_ept)); + /*fixme, comaptible for mbr&ebr */ + ret |= _update_ptbl_mbr(mmc, p_iptbl_ept); + apt_wrn("MBR Updated!\n"); + } + } +#endif +#ifdef CONFIG_AML_GPT + char *str_disk_guid; + int gpt_priority = GPT_PRIORITY; + struct disk_partition *disk_partition; + int dcount = p_iptbl_ept->count; + struct blk_desc *dev_desc = mmc_get_blk_desc(mmc); + disk_partition = calloc(1, PAD_TO_BLOCKSIZE(sizeof(struct disk_partition) * dcount, dev_desc)); + trans_ept_to_diskpart(p_iptbl_ept, disk_partition); + str_disk_guid = malloc(UUID_STR_LEN + 1); + if (str_disk_guid == NULL) { + free(disk_partition); + return -ENOMEM; + } +#ifdef CONFIG_RANDOM_UUID + gen_rand_uuid_str(str_disk_guid, UUID_STR_FORMAT_STD); +#endif + if (part_test_efi(mmc_get_blk_desc(mmc)) != 0) { + ret = gpt_restore(mmc_get_blk_desc(mmc), str_disk_guid, disk_partition, dcount); + printf("GPT IS RESTORED %s\n", ret ? "Failed!" : "OK!"); + } else if (is_gpt_changed(mmc, p_iptbl_ept)) { + if (gpt_priority) { + fill_ept_by_gpt(mmc, p_iptbl_ept); + printf("and gpt has higher priority, so ept had been update\n"); + } else { + gpt_restore(mmc_get_blk_desc(mmc), str_disk_guid, disk_partition, dcount); + printf("but EPT has higher priority, so gpt had been recover\n"); + } + } + + int broken_status = is_gpt_broken(mmc); + if (broken_status != 0 && broken_status != 3) { + fill_ept_by_gpt(mmc, p_iptbl_ept); + free(disk_partition); + dcount = p_iptbl_ept->count; + disk_partition = calloc(1, PAD_TO_BLOCKSIZE(sizeof(struct disk_partition) * dcount, dev_desc)); + trans_ept_to_diskpart(p_iptbl_ept, disk_partition); + ret = gpt_restore(mmc_get_blk_desc(mmc), str_disk_guid, disk_partition, p_iptbl_ept->count); + if (broken_status == 1) + printf("The first gpt has been restore\n"); + else if (broken_status == 2) + printf("The second gpt has been restore\n"); + else + printf("Both gpt has been restore\n"); + } + + free(str_disk_guid); + free(disk_partition); +#endif + /* init part again */ + apt_info("!!!! init part again\n"); + part_init(mmc_get_blk_desc(mmc)); + +_out: +#ifdef CONFIG_AML_PARTITION + if (p_iptbl_rsv) + _free_iptbl(p_iptbl_rsv); +#endif + return ret; +} + + +struct partitions *find_mmc_partition_by_name (char const *name) +{ + struct partitions *partition = NULL; + + apt_info("p_iptbl_ept %p\n", p_iptbl_ept); + if (NULL == p_iptbl_ept) { + goto _out; + } + partition = p_iptbl_ept->partitions; + partition = _find_partition_by_name(partition, + p_iptbl_ept->count, name); + apt_info("partition %p\n", partition); + if (!partition) { + partition = _find_partition_by_name(emmc_partition_table, + get_emmc_partition_arraysize(), name); + } + apt_info("partition %p\n", partition); +_out: + return partition; +} + +/* + find virtual partition in inherent table. +*/ +int find_virtual_partition_by_name (char const *name, struct partitions *partition) +{ + int ret = 0; + ulong offset; + struct virtual_partition *vpart = aml_get_virtual_partition_by_name(MMC_DTB_NAME); + if (NULL == partition) + return -1; + + offset = _get_inherent_offset(MMC_RESERVED_NAME); + if (-1 == offset) { + apt_err("can't find %s in inherent\n", MMC_RESERVED_NAME); + return -1; + } + + if (!strcmp(name, "dtb")) { + strcpy(partition->name, name); + partition->offset = offset + vpart->offset; + partition->size = (vpart->size * DTB_COPIES); + } + + return ret; +} + +int find_dev_num_by_partition_name (char const *name) +{ + int dev = -1; + + /* card */ + if (!strcmp(name, MMC_CARD_PARTITION_NAME)) { + dev = 0; + } else { /* eMMC OR TSD */ + /* partition name is valid */ + if (find_mmc_partition_by_name(name)) { + dev = 1; + } + } + return dev; +} + +static inline uint64_t get_part_size(struct partitions *part, int num) +{ + return part[num].size; +} + +static inline uint64_t get_part_offset(struct partitions *part, int num) +{ + return part[num].offset; +} + +static inline char * get_part_name(struct partitions *part, int num) +{ + return (char *)part[num].name; +} + +int get_part_info_from_tbl(struct blk_desc *dev_desc, + int num, struct disk_partition *info) +{ + int ret = 0; + struct partitions *part; + + if (NULL == p_iptbl_ept) + return -1; + if (num > (p_iptbl_ept->count-1)) + return -1; + part = p_iptbl_ept->partitions; + + /*get partition info by index! */ + info->start = (lbaint_t)(get_part_offset(part, num)/dev_desc->blksz); + info->size = (lbaint_t)(get_part_size(part, num)/dev_desc->blksz); + info->blksz = dev_desc->blksz; + strcpy((char *)info->name, get_part_name(part, num)); + + return ret; +} +#if (CONFIG_MPT_DEBUG) +void show_partition_info(struct disk_partition *info) +{ + printf("----------%s----------\n", __func__); + printf("name %10s\n", info->name); + printf("blksz " LBAFU "\n", info->blksz); + printf("sart %ld\n", info->start); + printf("size %ld\n", info->size); + printf("----------end----------\n"); +} +#endif + + +struct partitions *aml_get_partition_by_name(const char *name) +{ + struct partitions *partition = NULL; + partition = _find_partition_by_name(emmc_partition_table, + get_emmc_partition_arraysize(), name); + if (partition == NULL) + apt_wrn("do not find match in inherent table %s\n", name); + return partition; +} + +struct virtual_partition *aml_get_virtual_partition_by_name(const char *name) +{ + int i = 0, cnt; + struct virtual_partition *part = NULL; + cnt = get_emmc_virtual_partition_arraysize(); + while (i < cnt) { + + part = &virtual_partition_table[i]; + if (!strcmp(name, part->name)) { + apt_info("find %10s @ tbl[%d]\n", name, i); + break; + } + i++; + }; + if (i == cnt) { + part = NULL; + apt_wrn("do not find match in table %10s\n", name); + } + return part; +} + +int get_part_info_by_name(struct blk_desc *dev_desc, + const char *name, struct disk_partition *info) +{ + struct partitions *partition = NULL; + struct partitions virtual; + int ret = 0; + cpu_id_t cpu_id = get_cpu_id(); + + partition = find_mmc_partition_by_name((char *)name); + if (partition) { + info->start = (lbaint_t)(partition->offset/dev_desc->blksz); + info->size = (lbaint_t)(partition->size/dev_desc->blksz); + info->blksz = dev_desc->blksz; + strcpy((char *)info->name, partition->name); + } else if (!find_virtual_partition_by_name((char *)name, &virtual)) { + /* try virtual partitions */ + apt_wrn("Got %s in virtual table\n", name); + info->start = (lbaint_t)(virtual.offset/dev_desc->blksz); + info->size = (lbaint_t)(virtual.size/dev_desc->blksz); + info->blksz = dev_desc->blksz; + strcpy((char *)info->name, virtual.name); + } else { + /* all partitions were tried, fail */ + ret = -1; + goto _out; + } + /* for bootloader */ + if ((0 == info->start) && (cpu_id.family_id >= MESON_CPU_MAJOR_ID_GXL)) { + info->start = 1; + info->size -= 1; + } + +#if (CONFIG_MPT_DEBUG) + show_partition_info(info); +#endif +_out: + return ret; +} + + +/* + * get the partition number by name + * return value + * < 0 means no partition found + * >= 0 means valid partition + */ +__weak int get_partition_num_by_name(char const *name) +{ + int ret = -1; + struct partitions *partition = NULL; + + if (NULL == p_iptbl_ept) + goto _out; + partition = p_iptbl_ept->partitions; + ret = _get_part_index_by_name(partition, + p_iptbl_ept->count, name); +_out: + return ret; +} + +/* + * get the partition info by number + * return value + * < 0 means no partition found + * >= 0 means valid partition + */ +__weak struct partitions *get_partition_info_by_num(const int num) +{ + struct partitions *partition = NULL; + + if ((NULL == p_iptbl_ept) + || (num >= p_iptbl_ept->count)) + goto _out; + partition = &p_iptbl_ept->partitions[num]; + +_out: + return partition; +} diff --git a/drivers/mmc/mmc_aml copy.c b/drivers/mmc/mmc_aml copy.c new file mode 100644 index 0000000000..66c0203dc6 --- /dev/null +++ b/drivers/mmc/mmc_aml copy.c @@ -0,0 +1,3299 @@ +// SPDX-License-Identifier: GPL-2.0+ +/* + * Copyright 2008, Freescale Semiconductor, Inc + * Andy Fleming + * + * Based vaguely on the Linux code + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "mmc_private.h" +#include +#include +#include +#include +#include + +struct aml_pattern aml_pattern_table[] = { + AML_PATTERN_ELEMENT(MMC_PATTERN_NAME, CALI_PATTERN), + AML_PATTERN_ELEMENT(MMC_MAGIC_NAME, MAGIC_PATTERN), + AML_PATTERN_ELEMENT(MMC_RANDOM_NAME, RANDOM_PATTERN), +}; +static int mmc_set_signal_voltage(struct mmc *mmc, uint signal_voltage); +static int mmc_power_cycle(struct mmc *mmc); +#if !CONFIG_IS_ENABLED(MMC_TINY) +static int mmc_select_mode_and_width(struct mmc *mmc, uint card_caps); +#endif + +extern int emmc_probe(uint32_t init_flag); + +bool emmckey_is_access_range_legal (struct mmc *mmc, ulong start, lbaint_t blkcnt) { + ulong key_start_blk, key_end_blk; + u64 key_glb_offset; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + if (IS_MMC(mmc)) { + vpart = aml_get_virtual_partition_by_name(MMC_KEY_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + key_glb_offset = part->offset + vpart->offset; + key_start_blk = (key_glb_offset / MMC_BLOCK_SIZE); + key_end_blk = ((key_glb_offset + vpart->size) / MMC_BLOCK_SIZE - 1); + if (!(info_disprotect & DISPROTECT_KEY)) { + if ((key_start_blk <= (start + blkcnt -1)) + && (key_end_blk >= start) + && (blkcnt != start)) { + pr_info("%s, keys %ld, keye %ld, start %ld, blkcnt %ld\n", + mmc->cfg->name, key_start_blk, + key_end_blk, start, blkcnt); + pr_err("Emmckey: Access range is illegal!\n"); + return 0; + } + } + } + return 1; +} + +int emmc_boot_chk(struct mmc *mmc) +{ + u32 val = 0; + + if (strcmp(mmc->dev->name, "emmc")) + return 0; + + val = readl(SEC_AO_SEC_GP_CFG0); + pr_info("SEC_AO_SEC_GP_CFG0 = %x\n", val); + if ((val & 0xf) == 0x1) + return 1; + + return 0; +} + +#if CONFIG_IS_ENABLED(MMC_TINY) +static struct mmc mmc_static; +struct mmc *find_mmc_device(int dev_num) +{ + return &mmc_static; +} + +void mmc_do_preinit(void) +{ + struct mmc *m = &mmc_static; +#ifdef CONFIG_FSL_ESDHC_ADAPTER_IDENT + mmc_set_preinit(m, 1); +#endif + if (m->preinit) + mmc_start_init(m); +} + +struct blk_desc *mmc_get_blk_desc(struct mmc *mmc) +{ + return &mmc->block_dev; +} +#endif + +#if !CONFIG_IS_ENABLED(DM_MMC) + +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) +static int mmc_wait_dat0(struct mmc *mmc, int state, int timeout) +{ + return -ENOSYS; +} +#endif + +__weak int board_mmc_getwp(struct mmc *mmc) +{ + return -1; +} + +int mmc_getwp(struct mmc *mmc) +{ + int wp; + + wp = board_mmc_getwp(mmc); + + if (wp < 0) { + if (mmc->cfg->ops->getwp) + wp = mmc->cfg->ops->getwp(mmc); + else + wp = 0; + } + + return wp; +} + +__weak int board_mmc_getcd(struct mmc *mmc) +{ + return -1; +} +#endif + +#ifdef CONFIG_MMC_TRACE +void mmmc_trace_before_send(struct mmc *mmc, struct mmc_cmd *cmd) +{ + pr_info("CMD_SEND:%d\n", cmd->cmdidx); + pr_info("\t\tARG\t\t\t 0x%08X\n", cmd->cmdarg); +} + +void mmmc_trace_after_send(struct mmc *mmc, struct mmc_cmd *cmd, int ret) +{ + int i; + u8 *ptr; + + if (ret) { + pr_info("\t\tRET\t\t\t %d\n", ret); + } else { + switch (cmd->resp_type) { + case MMC_RSP_NONE: + pr_info("\t\tMMC_RSP_NONE\n"); + break; + case MMC_RSP_R1: + pr_info("\t\tMMC_RSP_R1,5,6,7 \t 0x%08X \n", + cmd->response[0]); + break; + case MMC_RSP_R1b: + pr_info("\t\tMMC_RSP_R1b\t\t 0x%08X \n", + cmd->response[0]); + break; + case MMC_RSP_R2: + pr_info("\t\tMMC_RSP_R2\t\t 0x%08X \n", + cmd->response[0]); + pr_info("\t\t \t\t 0x%08X \n", + cmd->response[1]); + pr_info("\t\t \t\t 0x%08X \n", + cmd->response[2]); + pr_info("\t\t \t\t 0x%08X \n", + cmd->response[3]); + pr_info("\n"); + pr_info("\t\t\t\t\tDUMPING DATA\n"); + for (i = 0; i < 4; i++) { + int j; + pr_info("\t\t\t\t\t%03d - ", i*4); + ptr = (u8 *)&cmd->response[i]; + ptr += 3; + for (j = 0; j < 4; j++) + pr_info("%02X ", *ptr--); + pr_info("\n"); + } + break; + case MMC_RSP_R3: + pr_info("\t\tMMC_RSP_R3,4\t\t 0x%08X \n", + cmd->response[0]); + break; + default: + pr_info("\t\tERROR MMC rsp not supported\n"); + break; + } + } +} + +void mmc_trace_state(struct mmc *mmc, struct mmc_cmd *cmd) +{ + int status; + + status = (cmd->response[0] & MMC_STATUS_CURR_STATE) >> 9; + pr_info("CURR STATE:%d\n", status); +} +#endif + +#if CONFIG_IS_ENABLED(MMC_VERBOSE) || defined(DEBUG) +const char *mmc_mode_name(enum bus_mode mode) +{ + static const char *const names[] = { + [MMC_LEGACY] = "MMC legacy", + [SD_LEGACY] = "SD Legacy", + [MMC_HS] = "MMC High Speed (26MHz)", + [SD_HS] = "SD High Speed (50MHz)", + [UHS_SDR12] = "UHS SDR12 (25MHz)", + [UHS_SDR25] = "UHS SDR25 (50MHz)", + [UHS_SDR50] = "UHS SDR50 (100MHz)", + [UHS_SDR104] = "UHS SDR104 (208MHz)", + [UHS_DDR50] = "UHS DDR50 (50MHz)", + [MMC_HS_52] = "MMC High Speed (52MHz)", + [MMC_DDR_52] = "MMC DDR52 (52MHz)", + [MMC_HS_200] = "HS200 (200MHz)", + [MMC_HS_400] = "HS400 (200MHz)", + }; + + if (mode >= MMC_MODES_END) + return "Unknown mode"; + else + return names[mode]; +} +#endif + +static uint mmc_mode2freq(struct mmc *mmc, enum bus_mode mode) +{ + static const int freqs[] = { + [MMC_LEGACY] = 25000000, + [SD_LEGACY] = 25000000, + [MMC_HS] = 26000000, + [SD_HS] = 50000000, + [MMC_HS_52] = 52000000, + [MMC_DDR_52] = 52000000, + [UHS_SDR12] = 25000000, + [UHS_SDR25] = 50000000, + [UHS_SDR50] = 100000000, + [UHS_DDR50] = 50000000, + [UHS_SDR104] = 208000000, + [MMC_HS_200] = 200000000, + [MMC_HS_400] = 200000000, + }; + + if (mode == MMC_LEGACY) + return mmc->legacy_speed; + else if (mode >= MMC_MODES_END) + return 0; + else + return freqs[mode]; +} + +static int mmc_select_mode(struct mmc *mmc, enum bus_mode mode) +{ + mmc->selected_mode = mode; + mmc->tran_speed = mmc_mode2freq(mmc, mode); + mmc->ddr_mode = mmc_is_mode_ddr(mode); + pr_debug("selecting mode %s (freq : %d MHz)\n", mmc_mode_name(mode), + mmc->tran_speed / 1000000); + return 0; +} + +#if !CONFIG_IS_ENABLED(DM_MMC) +int mmc_send_cmd(struct mmc *mmc, struct mmc_cmd *cmd, struct mmc_data *data) +{ + int ret; + + mmmc_trace_before_send(mmc, cmd); + ret = mmc->cfg->ops->send_cmd(mmc, cmd, data); + mmmc_trace_after_send(mmc, cmd, ret); + + return ret; +} +#endif + +int mmc_send_status(struct mmc *mmc, int timeout) +{ + struct mmc_cmd cmd; + int err, retries = 5; + int status; + cmd.cmdidx = MMC_CMD_SEND_STATUS; + cmd.resp_type = MMC_RSP_R1; + if (!mmc_host_is_spi(mmc)) + cmd.cmdarg = mmc->rca << 16; + + while (1) { + err = mmc_send_cmd(mmc, &cmd, NULL); + if (!err) { + if ((cmd.response[0] & MMC_STATUS_RDY_FOR_DATA) && + (cmd.response[0] & MMC_STATUS_CURR_STATE) != + MMC_STATE_PRG) + break; + + if (cmd.response[0] & MMC_STATUS_MASK) { +#if !defined(CONFIG_SPL_BUILD) || defined(CONFIG_SPL_LIBCOMMON_SUPPORT) + pr_err("Status Error: 0x%08X\n", + cmd.response[0]); +#endif + return -ECOMM; + } + } else if (--retries < 0) + return err; + + if (timeout-- <= 0) + break; + + udelay(1000); + } + + mmc_trace_state(mmc, &cmd); + if (timeout <= 0) { +#if !defined(CONFIG_SPL_BUILD) || defined(CONFIG_SPL_LIBCOMMON_SUPPORT) + pr_debug("Timeout waiting card ready\n"); +#endif + return -ETIMEDOUT; + } + status = (cmd.response[0] & MMC_STATUS_CURR_STATE) >> 9; + if (cmd.response[0] & MMC_STATUS_SWITCH_ERROR) { + pr_err("mmc status switch error status =0x%x\n", status); + return -21; + } + return 0; +} + +int mmc_set_blocklen(struct mmc *mmc, int len) +{ + struct mmc_cmd cmd; + int err; + + if (mmc->ddr_mode) + return 0; + + cmd.cmdidx = MMC_CMD_SET_BLOCKLEN; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = len; + + err = mmc_send_cmd(mmc, &cmd, NULL); + +#ifdef CONFIG_MMC_QUIRKS + if (err && (mmc->quirks & MMC_QUIRK_RETRY_SET_BLOCKLEN)) { + int retries = 4; + /* + * It has been seen that SET_BLOCKLEN may fail on the first + * attempt, let's try a few more time + */ + do { + err = mmc_send_cmd(mmc, &cmd, NULL); + if (!err) + break; + } while (retries--); + } +#endif + + return err; +} + +#ifdef MMC_SUPPORTS_TUNING +static const u8 tuning_blk_pattern_4bit[] = { + 0xff, 0x0f, 0xff, 0x00, 0xff, 0xcc, 0xc3, 0xcc, + 0xc3, 0x3c, 0xcc, 0xff, 0xfe, 0xff, 0xfe, 0xef, + 0xff, 0xdf, 0xff, 0xdd, 0xff, 0xfb, 0xff, 0xfb, + 0xbf, 0xff, 0x7f, 0xff, 0x77, 0xf7, 0xbd, 0xef, + 0xff, 0xf0, 0xff, 0xf0, 0x0f, 0xfc, 0xcc, 0x3c, + 0xcc, 0x33, 0xcc, 0xcf, 0xff, 0xef, 0xff, 0xee, + 0xff, 0xfd, 0xff, 0xfd, 0xdf, 0xff, 0xbf, 0xff, + 0xbb, 0xff, 0xf7, 0xff, 0xf7, 0x7f, 0x7b, 0xde, +}; + +static const u8 tuning_blk_pattern_8bit[] = { + 0xff, 0xff, 0x00, 0xff, 0xff, 0xff, 0x00, 0x00, + 0xff, 0xff, 0xcc, 0xcc, 0xcc, 0x33, 0xcc, 0xcc, + 0xcc, 0x33, 0x33, 0xcc, 0xcc, 0xcc, 0xff, 0xff, + 0xff, 0xee, 0xff, 0xff, 0xff, 0xee, 0xee, 0xff, + 0xff, 0xff, 0xdd, 0xff, 0xff, 0xff, 0xdd, 0xdd, + 0xff, 0xff, 0xff, 0xbb, 0xff, 0xff, 0xff, 0xbb, + 0xbb, 0xff, 0xff, 0xff, 0x77, 0xff, 0xff, 0xff, + 0x77, 0x77, 0xff, 0x77, 0xbb, 0xdd, 0xee, 0xff, + 0xff, 0xff, 0xff, 0x00, 0xff, 0xff, 0xff, 0x00, + 0x00, 0xff, 0xff, 0xcc, 0xcc, 0xcc, 0x33, 0xcc, + 0xcc, 0xcc, 0x33, 0x33, 0xcc, 0xcc, 0xcc, 0xff, + 0xff, 0xff, 0xee, 0xff, 0xff, 0xff, 0xee, 0xee, + 0xff, 0xff, 0xff, 0xdd, 0xff, 0xff, 0xff, 0xdd, + 0xdd, 0xff, 0xff, 0xff, 0xbb, 0xff, 0xff, 0xff, + 0xbb, 0xbb, 0xff, 0xff, 0xff, 0x77, 0xff, 0xff, + 0xff, 0x77, 0x77, 0xff, 0x77, 0xbb, 0xdd, 0xee, +}; + +int mmc_send_tuning(struct mmc *mmc, u32 opcode, int *cmd_error) +{ + struct mmc_cmd cmd; + struct mmc_data data; + const u8 *tuning_block_pattern; + int size, err; + + if (mmc->bus_width == 8) { + tuning_block_pattern = tuning_blk_pattern_8bit; + size = sizeof(tuning_blk_pattern_8bit); + } else if (mmc->bus_width == 4) { + tuning_block_pattern = tuning_blk_pattern_4bit; + size = sizeof(tuning_blk_pattern_4bit); + } else { + return -EINVAL; + } + + ALLOC_CACHE_ALIGN_BUFFER(u8, data_buf, size); + + cmd.cmdidx = opcode; + cmd.cmdarg = 0; + cmd.resp_type = MMC_RSP_R1; + + data.dest = (void *)data_buf; + data.blocks = 1; + data.blocksize = size; + data.flags = MMC_DATA_READ; + + err = mmc_send_cmd(mmc, &cmd, &data); + if (err) + return err; + + if (memcmp(data_buf, tuning_block_pattern, size)) + return -EIO; + + return 0; +} +#endif + +static int mmc_read_blocks(struct mmc *mmc, void *dst, lbaint_t start, + lbaint_t blkcnt) +{ + struct mmc_cmd cmd; + struct mmc_data data; + + if (blkcnt > 1) + cmd.cmdidx = MMC_CMD_READ_MULTIPLE_BLOCK; + else + cmd.cmdidx = MMC_CMD_READ_SINGLE_BLOCK; + + if (mmc->high_capacity) + cmd.cmdarg = start; + else + cmd.cmdarg = start * mmc->read_bl_len; + + cmd.resp_type = MMC_RSP_R1; + + data.dest = dst; + data.blocks = blkcnt; + data.blocksize = mmc->read_bl_len; + data.flags = MMC_DATA_READ; + + if (mmc_send_cmd(mmc, &cmd, &data)) + return 0; + + if (blkcnt > 1) { + cmd.cmdidx = MMC_CMD_STOP_TRANSMISSION; + cmd.cmdarg = 0; + cmd.resp_type = MMC_RSP_R1b; + if (mmc_send_cmd(mmc, &cmd, NULL)) { +#if !defined(CONFIG_SPL_BUILD) || defined(CONFIG_SPL_LIBCOMMON_SUPPORT) + pr_err("mmc fail to send stop cmd\n"); +#endif + return 0; + } + } + + return blkcnt; +} + +#if CONFIG_IS_ENABLED(BLK) +ulong mmc_bread(struct udevice *dev, lbaint_t start, lbaint_t blkcnt, void *dst) +#else +ulong mmc_bread(struct blk_desc *block_dev, lbaint_t start, lbaint_t blkcnt, + void *dst) +#endif +{ +#if CONFIG_IS_ENABLED(BLK) + struct blk_desc *block_dev = dev_get_uclass_platdata(dev); +#endif + int dev_num = block_dev->devnum; + int err; + lbaint_t cur, blocks_todo = blkcnt; + + if (blkcnt == 0) + return 0; + + struct mmc *mmc = find_mmc_device(dev_num); + if (!mmc) + return 0; + + if (CONFIG_IS_ENABLED(MMC_TINY)) + err = mmc_switch_part(mmc, block_dev->hwpart); + else + err = blk_dselect_hwpart(block_dev, block_dev->hwpart); + + if (err < 0) + return 0; + + if ((start + blkcnt) > block_dev->lba) { +#if !defined(CONFIG_SPL_BUILD) || defined(CONFIG_SPL_LIBCOMMON_SUPPORT) + pr_err("MMC: block number 0x" LBAF " exceeds max(0x" LBAF ")\n", + start + blkcnt, block_dev->lba); +#endif + return 0; + } + + if (mmc_set_blocklen(mmc, mmc->read_bl_len)) { + pr_debug("%s: Failed to set blocklen\n", __func__); + return 0; + } + if (!emmckey_is_access_range_legal(mmc, start, blkcnt)) + return 0; + + do { + cur = (blocks_todo > mmc->cfg->b_max) ? + mmc->cfg->b_max : blocks_todo; + if (mmc_read_blocks(mmc, dst, start, cur) != cur) { + pr_debug("%s: Failed to read blocks\n", __func__); + return 0; + } + blocks_todo -= cur; + start += cur; + dst += cur * mmc->read_bl_len; + } while (blocks_todo > 0); + + return blkcnt; +} + +static int mmc_go_idle(struct mmc *mmc) +{ + struct mmc_cmd cmd; + int err; + + udelay(1000); + + cmd.cmdidx = MMC_CMD_GO_IDLE_STATE; + cmd.cmdarg = 0; + cmd.resp_type = MMC_RSP_NONE; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + + udelay(2000); + + return 0; +} + +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) +static int mmc_switch_voltage(struct mmc *mmc, int signal_voltage) +{ + struct mmc_cmd cmd; + int err = 0; + + /* + * Send CMD11 only if the request is to switch the card to + * 1.8V signalling. + */ + if (signal_voltage == MMC_SIGNAL_VOLTAGE_330) + return mmc_set_signal_voltage(mmc, signal_voltage); + + cmd.cmdidx = SD_CMD_SWITCH_UHS18V; + cmd.cmdarg = 0; + cmd.resp_type = MMC_RSP_R1; + + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + return err; + + if (!mmc_host_is_spi(mmc) && (cmd.response[0] & MMC_STATUS_ERROR)) + return -EIO; + + /* + * The card should drive cmd and dat[0:3] low immediately + * after the response of cmd11, but wait 100 us to be sure + */ + err = mmc_wait_dat0(mmc, 0, 100); + if (err == -ENOSYS) + udelay(100); + else if (err) + return -ETIMEDOUT; + + /* + * During a signal voltage level switch, the clock must be gated + * for 5 ms according to the SD spec + */ + mmc_set_clock(mmc, mmc->clock, MMC_CLK_DISABLE); + + err = mmc_set_signal_voltage(mmc, signal_voltage); + if (err) + return err; + + /* Keep clock gated for at least 10 ms, though spec only says 5 ms */ + mdelay(10); + mmc_set_clock(mmc, mmc->clock, MMC_CLK_ENABLE); + + /* + * Failure to switch is indicated by the card holding + * dat[0:3] low. Wait for at least 1 ms according to spec + */ + err = mmc_wait_dat0(mmc, 1, 1000); + if (err == -ENOSYS) + udelay(1000); + else if (err) + return -ETIMEDOUT; + + return 0; +} +#endif + +static int sd_send_op_cond(struct mmc *mmc, bool uhs_en) +{ + int timeout = 1000; + int err; + struct mmc_cmd cmd; + + while (1) { + cmd.cmdidx = MMC_CMD_APP_CMD; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = 0; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + + cmd.cmdidx = SD_CMD_APP_SEND_OP_COND; + cmd.resp_type = MMC_RSP_R3; + + /* + * Most cards do not answer if some reserved bits + * in the ocr are set. However, Some controller + * can set bit 7 (reserved for low voltages), but + * how to manage low voltages SD card is not yet + * specified. + */ + cmd.cmdarg = mmc_host_is_spi(mmc) ? 0 : + (mmc->cfg->voltages & 0xff8000); + + if (mmc->version == SD_VERSION_2) + cmd.cmdarg |= OCR_HCS; + + if (uhs_en) + cmd.cmdarg |= OCR_S18R; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + + if (cmd.response[0] & OCR_BUSY) + break; + + if (timeout-- <= 0) + return -EOPNOTSUPP; + + udelay(1000); + } + + if (mmc->version != SD_VERSION_2) + mmc->version = SD_VERSION_1_0; + + if (mmc_host_is_spi(mmc)) { /* read OCR for spi */ + cmd.cmdidx = MMC_CMD_SPI_READ_OCR; + cmd.resp_type = MMC_RSP_R3; + cmd.cmdarg = 0; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + } + + mmc->ocr = cmd.response[0]; + +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) + if (uhs_en && !(mmc_host_is_spi(mmc)) && (cmd.response[0] & 0x41000000) + == 0x41000000) { + err = mmc_switch_voltage(mmc, MMC_SIGNAL_VOLTAGE_180); + if (err) + return err; + } +#endif + + mmc->high_capacity = ((mmc->ocr & OCR_HCS) == OCR_HCS); + mmc->rca = 0; + + return 0; +} + +static int mmc_send_op_cond_iter(struct mmc *mmc, int use_arg) +{ + struct mmc_cmd cmd; + int err; + + cmd.cmdidx = MMC_CMD_SEND_OP_COND; + cmd.resp_type = MMC_RSP_R3; + cmd.cmdarg = 0; + if (use_arg && !mmc_host_is_spi(mmc)) + cmd.cmdarg = OCR_HCS | + (mmc->cfg->voltages & + (mmc->ocr & OCR_VOLTAGE_MASK)) | + (mmc->ocr & OCR_ACCESS_MODE); + + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + return err; + mmc->ocr = cmd.response[0]; + return 0; +} + +static int mmc_send_op_cond(struct mmc *mmc) +{ + int err, i; + + /* Some cards seem to need this */ + mmc_go_idle(mmc); + + /* Asking to the card its capabilities */ + for (i = 0; i < 2; i++) { + err = mmc_send_op_cond_iter(mmc, i != 0); + if (err) + return err; + + /* exit if not busy (flag seems to be inverted) */ + if (mmc->ocr & OCR_BUSY) + break; + } + mmc->op_cond_pending = 1; + return 0; +} + +static int mmc_complete_op_cond(struct mmc *mmc) +{ + struct mmc_cmd cmd; + int timeout = 1000; + ulong start; + int err; + + mmc->op_cond_pending = 0; + if (!(mmc->ocr & OCR_BUSY)) { + /* Some cards seem to need this */ + mmc_go_idle(mmc); + + start = get_timer(0); + while (1) { + err = mmc_send_op_cond_iter(mmc, 1); + if (err) + return err; + if (mmc->ocr & OCR_BUSY) + break; + if (get_timer(start) > timeout) + return -EOPNOTSUPP; + udelay(100); + } + } + + if (mmc_host_is_spi(mmc)) { /* read OCR for spi */ + cmd.cmdidx = MMC_CMD_SPI_READ_OCR; + cmd.resp_type = MMC_RSP_R3; + cmd.cmdarg = 0; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + + mmc->ocr = cmd.response[0]; + } + + mmc->version = MMC_VERSION_UNKNOWN; + + mmc->high_capacity = ((mmc->ocr & OCR_HCS) == OCR_HCS); + mmc->rca = 1; + + return 0; +} + +static int mmc_send_ext_csd(struct mmc *mmc, u8 *ext_csd) +{ + struct mmc_cmd cmd; + struct mmc_data data; + int err; + + /* Get the Card Status Register */ + cmd.cmdidx = MMC_CMD_SEND_EXT_CSD; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = 0; + + data.dest = (char *)ext_csd; + data.blocks = 1; + data.blocksize = MMC_MAX_BLOCK_LEN; + data.flags = MMC_DATA_READ; + + err = mmc_send_cmd(mmc, &cmd, &data); + + return err; +} + +int mmc_get_ext_csd(struct mmc *mmc, u8 *ext_csd) +{ + return mmc_send_ext_csd(mmc, ext_csd); +} + +int mmc_switch(struct mmc *mmc, u8 set, u8 index, u8 value) +{ + struct mmc_cmd cmd; + int timeout = 1000; + int retries = 3; + int ret; + + cmd.cmdidx = MMC_CMD_SWITCH; + cmd.resp_type = MMC_RSP_R1b; + cmd.cmdarg = (MMC_SWITCH_MODE_WRITE_BYTE << 24) | + (index << 16) | + (value << 8); + + while (retries > 0) { + ret = mmc_send_cmd(mmc, &cmd, NULL); + + /* Waiting for the ready status */ + if (!ret) { + ret = mmc_send_status(mmc, timeout); + return ret; + } + + retries--; + } + + return ret; + +} + +#if !CONFIG_IS_ENABLED(MMC_TINY) +u8 ext_csd_w[] = {191, 187, 185, 183, 179, 178, 177, 175, + 173, 171, 169, 167, 165, 164, 163, 162, + 161, 156, 155, 143, 140, 136, 134, 133, + 132, 131, 62, 59, 56, 52, 37, 34, + 33, 32, 31, 30, 29, 22, 17, 16, 15}; + +int mmc_set_ext_csd(struct mmc *mmc, u8 index, u8 value) +{ + int ret = -21, i; + + for (i = 0; i < sizeof(ext_csd_w); i++) { + if (ext_csd_w[i] == index) + break; + } + if (i != sizeof(ext_csd_w)) + ret = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, index, value); + + return ret; +} + +static int mmc_set_card_speed(struct mmc *mmc, enum bus_mode mode) +{ + int err; + int speed_bits; + + ALLOC_CACHE_ALIGN_BUFFER(u8, test_csd, MMC_MAX_BLOCK_LEN); + + switch (mode) { + case MMC_HS: + case MMC_HS_52: + case MMC_DDR_52: + speed_bits = EXT_CSD_TIMING_HS; + break; +#if CONFIG_IS_ENABLED(MMC_HS200_SUPPORT) + case MMC_HS_200: + speed_bits = EXT_CSD_TIMING_HS200; + break; +#endif +#if CONFIG_IS_ENABLED(MMC_HS400_SUPPORT) + case MMC_HS_400: + speed_bits = EXT_CSD_TIMING_HS400; + break; +#endif + case MMC_LEGACY: + speed_bits = EXT_CSD_TIMING_LEGACY; + break; + default: + return -EINVAL; + } + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, EXT_CSD_HS_TIMING, + speed_bits); + if (err) + return err; + + if ((mode == MMC_HS) || (mode == MMC_HS_52)) { + /* Now check to see that it worked */ + err = mmc_send_ext_csd(mmc, test_csd); + if (err) + return err; + + /* No high-speed support */ + if (!test_csd[EXT_CSD_HS_TIMING]) + return -ENOTSUPP; + } + + return 0; +} + +static int mmc_get_capabilities(struct mmc *mmc) +{ + u8 *ext_csd = mmc->ext_csd; + char cardtype; + + mmc->card_caps = MMC_MODE_1BIT | MMC_CAP(MMC_LEGACY); + + if (mmc_host_is_spi(mmc)) + return 0; + + /* Only version 4 supports high-speed */ + if (mmc->version < MMC_VERSION_4) + return 0; + + if (!ext_csd) { + pr_err("No ext_csd found!\n"); /* this should enver happen */ + return -ENOTSUPP; + } + + mmc->card_caps |= MMC_MODE_4BIT | MMC_MODE_8BIT; + + cardtype = ext_csd[EXT_CSD_CARD_TYPE]; + mmc->cardtype = cardtype; + +#if CONFIG_IS_ENABLED(MMC_HS200_SUPPORT) + if (cardtype & (EXT_CSD_CARD_TYPE_HS200_1_2V | + EXT_CSD_CARD_TYPE_HS200_1_8V)) { + mmc->card_caps |= MMC_MODE_HS200; + } +#endif +#if CONFIG_IS_ENABLED(MMC_HS400_SUPPORT) + if (cardtype & (EXT_CSD_CARD_TYPE_HS400_1_2V | + EXT_CSD_CARD_TYPE_HS400_1_8V)) { + mmc->card_caps |= MMC_MODE_HS400; + } +#endif + if (cardtype & EXT_CSD_CARD_TYPE_52) { + if (cardtype & EXT_CSD_CARD_TYPE_DDR_52) + mmc->card_caps |= MMC_MODE_DDR_52MHz; + mmc->card_caps |= MMC_MODE_HS_52MHz; + } + if (cardtype & EXT_CSD_CARD_TYPE_26) + mmc->card_caps |= MMC_MODE_HS; + + return 0; +} +#endif + +static int mmc_set_capacity(struct mmc *mmc, int part_num) +{ + switch (part_num) { + case 0: + mmc->capacity = mmc->capacity_user; + break; + case 1: + case 2: + mmc->capacity = mmc->capacity_boot; + break; + case 3: + mmc->capacity = mmc->capacity_rpmb; + break; + case 4: + case 5: + case 6: + case 7: + mmc->capacity = mmc->capacity_gp[part_num - 4]; + break; + default: + return -1; + } + + mmc_get_blk_desc(mmc)->lba = lldiv(mmc->capacity, mmc->read_bl_len); + + return 0; +} + +int mmc_switch_part(struct mmc *mmc, unsigned int part_num) +{ + int ret; + + ret = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, EXT_CSD_PART_CONF, + (mmc->part_config & ~PART_ACCESS_MASK) + | (part_num & PART_ACCESS_MASK)); + + /* + * Set the capacity if the switch succeeded or was intended + * to return to representing the raw device. + */ + if ((ret == 0) || ((ret == -ENODEV) && (part_num == 0))) { + ret = mmc_set_capacity(mmc, part_num); + mmc_get_blk_desc(mmc)->hwpart = part_num; + } + + return ret; +} + +#if CONFIG_IS_ENABLED(MMC_HW_PARTITIONING) +int mmc_hwpart_config(struct mmc *mmc, + const struct mmc_hwpart_conf *conf, + enum mmc_hwpart_conf_mode mode) +{ + u8 part_attrs = 0; + u32 enh_size_mult; + u32 enh_start_addr; + u32 gp_size_mult[4]; + u32 max_enh_size_mult; + u32 tot_enh_size_mult = 0; + u8 wr_rel_set; + int i, pidx, err; + ALLOC_CACHE_ALIGN_BUFFER(u8, ext_csd, MMC_MAX_BLOCK_LEN); + + if (mode < MMC_HWPART_CONF_CHECK || mode > MMC_HWPART_CONF_COMPLETE) + return -EINVAL; + + if (IS_SD(mmc) || (mmc->version < MMC_VERSION_4_41)) { + pr_err("eMMC >= 4.4 required for enhanced user data area\n"); + return -EMEDIUMTYPE; + } + + if (!(mmc->part_support & PART_SUPPORT)) { + pr_err("Card does not support partitioning\n"); + return -EMEDIUMTYPE; + } + + if (!mmc->hc_wp_grp_size) { + pr_err("Card does not define HC WP group size\n"); + return -EMEDIUMTYPE; + } + + /* check partition alignment and total enhanced size */ + if (conf->user.enh_size) { + if (conf->user.enh_size % mmc->hc_wp_grp_size || + conf->user.enh_start % mmc->hc_wp_grp_size) { + pr_err("User data enhanced area not HC WP group " + "size aligned\n"); + return -EINVAL; + } + part_attrs |= EXT_CSD_ENH_USR; + enh_size_mult = conf->user.enh_size / mmc->hc_wp_grp_size; + if (mmc->high_capacity) { + enh_start_addr = conf->user.enh_start; + } else { + enh_start_addr = (conf->user.enh_start << 9); + } + } else { + enh_size_mult = 0; + enh_start_addr = 0; + } + tot_enh_size_mult += enh_size_mult; + + for (pidx = 0; pidx < 4; pidx++) { + if (conf->gp_part[pidx].size % mmc->hc_wp_grp_size) { + pr_err("GP%i partition not HC WP group size " + "aligned\n", pidx+1); + return -EINVAL; + } + gp_size_mult[pidx] = conf->gp_part[pidx].size / mmc->hc_wp_grp_size; + if (conf->gp_part[pidx].size && conf->gp_part[pidx].enhanced) { + part_attrs |= EXT_CSD_ENH_GP(pidx); + tot_enh_size_mult += gp_size_mult[pidx]; + } + } + + if (part_attrs && ! (mmc->part_support & ENHNCD_SUPPORT)) { + pr_err("Card does not support enhanced attribute\n"); + return -EMEDIUMTYPE; + } + + err = mmc_send_ext_csd(mmc, ext_csd); + if (err) + return err; + + max_enh_size_mult = + (ext_csd[EXT_CSD_MAX_ENH_SIZE_MULT+2] << 16) + + (ext_csd[EXT_CSD_MAX_ENH_SIZE_MULT+1] << 8) + + ext_csd[EXT_CSD_MAX_ENH_SIZE_MULT]; + if (tot_enh_size_mult > max_enh_size_mult) { + pr_err("Total enhanced size exceeds maximum (%u > %u)\n", + tot_enh_size_mult, max_enh_size_mult); + return -EMEDIUMTYPE; + } + + /* The default value of EXT_CSD_WR_REL_SET is device + * dependent, the values can only be changed if the + * EXT_CSD_HS_CTRL_REL bit is set. The values can be + * changed only once and before partitioning is completed. */ + wr_rel_set = ext_csd[EXT_CSD_WR_REL_SET]; + if (conf->user.wr_rel_change) { + if (conf->user.wr_rel_set) + wr_rel_set |= EXT_CSD_WR_DATA_REL_USR; + else + wr_rel_set &= ~EXT_CSD_WR_DATA_REL_USR; + } + for (pidx = 0; pidx < 4; pidx++) { + if (conf->gp_part[pidx].wr_rel_change) { + if (conf->gp_part[pidx].wr_rel_set) + wr_rel_set |= EXT_CSD_WR_DATA_REL_GP(pidx); + else + wr_rel_set &= ~EXT_CSD_WR_DATA_REL_GP(pidx); + } + } + + if (wr_rel_set != ext_csd[EXT_CSD_WR_REL_SET] && + !(ext_csd[EXT_CSD_WR_REL_PARAM] & EXT_CSD_HS_CTRL_REL)) { + puts("Card does not support host controlled partition write " + "reliability settings\n"); + return -EMEDIUMTYPE; + } + + if (ext_csd[EXT_CSD_PARTITION_SETTING] & + EXT_CSD_PARTITION_SETTING_COMPLETED) { + pr_err("Card already partitioned\n"); + return -EPERM; + } + + if (mode == MMC_HWPART_CONF_CHECK) + return 0; + + /* Partitioning requires high-capacity size definitions */ + if (!(ext_csd[EXT_CSD_ERASE_GROUP_DEF] & 0x01)) { + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_ERASE_GROUP_DEF, 1); + + if (err) + return err; + + ext_csd[EXT_CSD_ERASE_GROUP_DEF] = 1; + + /* update erase group size to be high-capacity */ + mmc->erase_grp_size = + ext_csd[EXT_CSD_HC_ERASE_GRP_SIZE] * 1024; + } + + /* all OK, write the configuration */ + for (i = 0; i < 4; i++) { + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_ENH_START_ADDR+i, + (enh_start_addr >> (i*8)) & 0xFF); + if (err) + return err; + } + for (i = 0; i < 3; i++) { + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_ENH_SIZE_MULT+i, + (enh_size_mult >> (i*8)) & 0xFF); + if (err) + return err; + } + for (pidx = 0; pidx < 4; pidx++) { + for (i = 0; i < 3; i++) { + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_GP_SIZE_MULT+pidx*3+i, + (gp_size_mult[pidx] >> (i*8)) & 0xFF); + if (err) + return err; + } + } + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_PARTITIONS_ATTRIBUTE, part_attrs); + if (err) + return err; + + if (mode == MMC_HWPART_CONF_SET) + return 0; + + /* The WR_REL_SET is a write-once register but shall be + * written before setting PART_SETTING_COMPLETED. As it is + * write-once we can only write it when completing the + * partitioning. */ + if (wr_rel_set != ext_csd[EXT_CSD_WR_REL_SET]) { + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_WR_REL_SET, wr_rel_set); + if (err) + return err; + } + + /* Setting PART_SETTING_COMPLETED confirms the partition + * configuration but it only becomes effective after power + * cycle, so we do not adjust the partition related settings + * in the mmc struct. */ + + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_PARTITION_SETTING, + EXT_CSD_PARTITION_SETTING_COMPLETED); + if (err) + return err; + + return 0; +} +#endif + +#if !CONFIG_IS_ENABLED(DM_MMC) +int mmc_getcd(struct mmc *mmc) +{ + int cd; + + cd = board_mmc_getcd(mmc); + + if (cd < 0) { + if (mmc->cfg->ops->getcd) + cd = mmc->cfg->ops->getcd(mmc); + else + cd = 1; + } + + return cd; +} +#endif + +#if !CONFIG_IS_ENABLED(MMC_TINY) +static int sd_switch(struct mmc *mmc, int mode, int group, u8 value, u8 *resp) +{ + struct mmc_cmd cmd; + struct mmc_data data; + + /* Switch the frequency */ + cmd.cmdidx = SD_CMD_SWITCH_FUNC; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = (mode << 31) | 0xffffff; + cmd.cmdarg &= ~(0xf << (group * 4)); + cmd.cmdarg |= value << (group * 4); + + data.dest = (char *)resp; + data.blocksize = 64; + data.blocks = 1; + data.flags = MMC_DATA_READ; + + return mmc_send_cmd(mmc, &cmd, &data); +} + +static int sd_get_capabilities(struct mmc *mmc) +{ + int err; + struct mmc_cmd cmd; + ALLOC_CACHE_ALIGN_BUFFER(__be32, scr, 2); + ALLOC_CACHE_ALIGN_BUFFER(__be32, switch_status, 16); + struct mmc_data data; + int timeout; +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) + u32 sd3_bus_mode; +#endif + + mmc->card_caps = MMC_MODE_1BIT | MMC_CAP(SD_LEGACY); + + if (mmc_host_is_spi(mmc)) + return 0; + + /* Read the SCR to find out if this card supports higher speeds */ + cmd.cmdidx = MMC_CMD_APP_CMD; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = mmc->rca << 16; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + + cmd.cmdidx = SD_CMD_APP_SEND_SCR; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = 0; + + timeout = 3; + +retry_scr: + data.dest = (char *)scr; + data.blocksize = 8; + data.blocks = 1; + data.flags = MMC_DATA_READ; + + err = mmc_send_cmd(mmc, &cmd, &data); + + if (err) { + if (timeout--) + goto retry_scr; + + return err; + } + + mmc->scr[0] = __be32_to_cpu(scr[0]); + mmc->scr[1] = __be32_to_cpu(scr[1]); + + switch ((mmc->scr[0] >> 24) & 0xf) { + case 0: + mmc->version = SD_VERSION_1_0; + break; + case 1: + mmc->version = SD_VERSION_1_10; + break; + case 2: + mmc->version = SD_VERSION_2; + if ((mmc->scr[0] >> 15) & 0x1) + mmc->version = SD_VERSION_3; + break; + default: + mmc->version = SD_VERSION_1_0; + break; + } + + if (mmc->scr[0] & SD_DATA_4BIT) + mmc->card_caps |= MMC_MODE_4BIT; + + /* Version 1.0 doesn't support switching */ + if (mmc->version == SD_VERSION_1_0) + return 0; + + timeout = 4; + while (timeout--) { + err = sd_switch(mmc, SD_SWITCH_CHECK, 0, 1, + (u8 *)switch_status); + + if (err) + return err; + + /* The high-speed function is busy. Try again */ + if (!(__be32_to_cpu(switch_status[7]) & SD_HIGHSPEED_BUSY)) + break; + } + + /* If high-speed isn't supported, we return */ + if (__be32_to_cpu(switch_status[3]) & SD_HIGHSPEED_SUPPORTED) + mmc->card_caps |= MMC_CAP(SD_HS); + +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) + /* Version before 3.0 don't support UHS modes */ + if (mmc->version < SD_VERSION_3) + return 0; + + sd3_bus_mode = __be32_to_cpu(switch_status[3]) >> 16 & 0x1f; + if (sd3_bus_mode & SD_MODE_UHS_SDR104) + mmc->card_caps |= MMC_CAP(UHS_SDR104); + if (sd3_bus_mode & SD_MODE_UHS_SDR50) + mmc->card_caps |= MMC_CAP(UHS_SDR50); + if (sd3_bus_mode & SD_MODE_UHS_SDR25) + mmc->card_caps |= MMC_CAP(UHS_SDR25); + if (sd3_bus_mode & SD_MODE_UHS_SDR12) + mmc->card_caps |= MMC_CAP(UHS_SDR12); + if (sd3_bus_mode & SD_MODE_UHS_DDR50) + mmc->card_caps |= MMC_CAP(UHS_DDR50); +#endif + + return 0; +} + +static int sd_set_card_speed(struct mmc *mmc, enum bus_mode mode) +{ + int err; + + ALLOC_CACHE_ALIGN_BUFFER(uint, switch_status, 16); + int speed; + + /* SD version 1.00 and 1.01 does not support CMD 6 */ + if (mmc->version == SD_VERSION_1_0) + return 0; + + switch (mode) { + case SD_LEGACY: + speed = UHS_SDR12_BUS_SPEED; + break; + case SD_HS: + speed = HIGH_SPEED_BUS_SPEED; + break; +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) + case UHS_SDR12: + speed = UHS_SDR12_BUS_SPEED; + break; + case UHS_SDR25: + speed = UHS_SDR25_BUS_SPEED; + break; + case UHS_SDR50: + speed = UHS_SDR50_BUS_SPEED; + break; + case UHS_DDR50: + speed = UHS_DDR50_BUS_SPEED; + break; + case UHS_SDR104: + speed = UHS_SDR104_BUS_SPEED; + break; +#endif + default: + return -EINVAL; + } + + err = sd_switch(mmc, SD_SWITCH_SWITCH, 0, speed, (u8 *)switch_status); + if (err) + return err; + + if (((__be32_to_cpu(switch_status[4]) >> 24) & 0xF) != speed) + return -ENOTSUPP; + + return 0; +} + +static int sd_select_bus_width(struct mmc *mmc, int w) +{ + int err; + struct mmc_cmd cmd; + + if ((w != 4) && (w != 1)) + return -EINVAL; + + cmd.cmdidx = MMC_CMD_APP_CMD; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = mmc->rca << 16; + + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + return err; + + cmd.cmdidx = SD_CMD_APP_SET_BUS_WIDTH; + cmd.resp_type = MMC_RSP_R1; + if (w == 4) + cmd.cmdarg = 2; + else if (w == 1) + cmd.cmdarg = 0; + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + return err; + + return 0; +} +#endif + +#if CONFIG_IS_ENABLED(MMC_WRITE) +static int sd_read_ssr(struct mmc *mmc) +{ + static const unsigned int sd_au_size[] = { + 0, SZ_16K / 512, SZ_32K / 512, + SZ_64K / 512, SZ_128K / 512, SZ_256K / 512, + SZ_512K / 512, SZ_1M / 512, SZ_2M / 512, + SZ_4M / 512, SZ_8M / 512, (SZ_8M + SZ_4M) / 512, + SZ_16M / 512, (SZ_16M + SZ_8M) / 512, SZ_32M / 512, + SZ_64M / 512, + }; + int err, i; + struct mmc_cmd cmd; + ALLOC_CACHE_ALIGN_BUFFER(uint, ssr, 16); + struct mmc_data data; + int timeout = 3; + unsigned int au, eo, et, es; + + cmd.cmdidx = MMC_CMD_APP_CMD; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = mmc->rca << 16; + + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + return err; + + cmd.cmdidx = SD_CMD_APP_SD_STATUS; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = 0; + +retry_ssr: + data.dest = (char *)ssr; + data.blocksize = 64; + data.blocks = 1; + data.flags = MMC_DATA_READ; + + err = mmc_send_cmd(mmc, &cmd, &data); + if (err) { + if (timeout--) + goto retry_ssr; + + return err; + } + + for (i = 0; i < 16; i++) + ssr[i] = be32_to_cpu(ssr[i]); + + au = (ssr[2] >> 12) & 0xF; + if ((au <= 9) || (mmc->version == SD_VERSION_3)) { + mmc->ssr.au = sd_au_size[au]; + es = (ssr[3] >> 24) & 0xFF; + es |= (ssr[2] & 0xFF) << 8; + et = (ssr[3] >> 18) & 0x3F; + if (es && et) { + eo = (ssr[3] >> 16) & 0x3; + mmc->ssr.erase_timeout = (et * 1000) / es; + mmc->ssr.erase_offset = eo * 1000; + } + } else { + pr_debug("Invalid Allocation Unit Size.\n"); + } + + return 0; +} +#endif +/* frequency bases */ +/* divided by 10 to be nice to platforms without floating point */ +static const int fbase[] = { + 10000, + 100000, + 1000000, + 10000000, +}; + +/* Multiplier values for TRAN_SPEED. Multiplied by 10 to be nice + * to platforms without floating point. + */ +static const u8 multipliers[] = { + 0, /* reserved */ + 10, + 12, + 13, + 15, + 20, + 25, + 30, + 35, + 40, + 45, + 50, + 55, + 60, + 70, + 80, +}; + +static inline int bus_width(uint cap) +{ + if (cap == MMC_MODE_8BIT) + return 8; + if (cap == MMC_MODE_4BIT) + return 4; + if (cap == MMC_MODE_1BIT) + return 1; + pr_warn("invalid bus witdh capability 0x%x\n", cap); + return 0; +} + +#if !CONFIG_IS_ENABLED(DM_MMC) +#ifdef MMC_SUPPORTS_TUNING +static int mmc_execute_tuning(struct mmc *mmc, uint opcode) +{ + return -ENOTSUPP; +} +#endif + +static void mmc_send_init_stream(struct mmc *mmc) +{ +} + +static int mmc_set_ios(struct mmc *mmc) +{ + int ret = 0; + + if (mmc->cfg->ops->set_ios) + ret = mmc->cfg->ops->set_ios(mmc); + + return ret; +} +#endif + +int mmc_set_clock(struct mmc *mmc, uint clock, bool disable) +{ + if (!disable) { + if (clock > mmc->cfg->f_max) + clock = mmc->cfg->f_max; + + if (clock < mmc->cfg->f_min) + clock = mmc->cfg->f_min; + } + + mmc->clock = clock; + mmc->clk_disable = disable; + + pr_debug("clock is %s (%dHz)\n", + disable ? "disabled" : "enabled", clock); + + return mmc_set_ios(mmc); +} + +static int mmc_set_bus_width(struct mmc *mmc, uint width) +{ + mmc->bus_width = width; + + return mmc_set_ios(mmc); +} + +#if CONFIG_IS_ENABLED(MMC_VERBOSE) || defined(DEBUG) +/* + * helper function to display the capabilities in a human + * friendly manner. The capabilities include bus width and + * supported modes. + */ +void mmc_dump_capabilities(const char *text, uint caps) +{ + enum bus_mode mode; + + pr_debug("%s: widths [", text); + if (caps & MMC_MODE_8BIT) + pr_debug("8, "); + if (caps & MMC_MODE_4BIT) + pr_debug("4, "); + if (caps & MMC_MODE_1BIT) + pr_debug("1, "); + pr_debug("\b\b] modes ["); + for (mode = MMC_LEGACY; mode < MMC_MODES_END; mode++) + if (MMC_CAP(mode) & caps) + pr_debug("%s, ", mmc_mode_name(mode)); + pr_debug("\b\b]\n"); +} +#endif + +struct mode_width_tuning { + enum bus_mode mode; + uint widths; +#ifdef MMC_SUPPORTS_TUNING + uint tuning; +#endif +}; + +#if CONFIG_IS_ENABLED(MMC_IO_VOLTAGE) +int mmc_voltage_to_mv(enum mmc_voltage voltage) +{ + switch (voltage) { + case MMC_SIGNAL_VOLTAGE_000: return 0; + case MMC_SIGNAL_VOLTAGE_330: return 3300; + case MMC_SIGNAL_VOLTAGE_180: return 1800; + case MMC_SIGNAL_VOLTAGE_120: return 1200; + } + return -EINVAL; +} + +static int mmc_set_signal_voltage(struct mmc *mmc, uint signal_voltage) +{ + int err; + + if (mmc->signal_voltage == signal_voltage) + return 0; + + mmc->signal_voltage = signal_voltage; + err = mmc_set_ios(mmc); + if (err) + pr_debug("unable to set voltage (err %d)\n", err); + + return err; +} +#else +static inline int mmc_set_signal_voltage(struct mmc *mmc, uint signal_voltage) +{ + return 0; +} +#endif + +#if !CONFIG_IS_ENABLED(MMC_TINY) +static const struct mode_width_tuning sd_modes_by_pref[] = { +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) +#ifdef MMC_SUPPORTS_TUNING + { + .mode = UHS_SDR104, + .widths = MMC_MODE_4BIT | MMC_MODE_1BIT, + .tuning = MMC_CMD_SEND_TUNING_BLOCK + }, +#endif + { + .mode = UHS_SDR50, + .widths = MMC_MODE_4BIT | MMC_MODE_1BIT, + }, + { + .mode = UHS_DDR50, + .widths = MMC_MODE_4BIT | MMC_MODE_1BIT, + }, + { + .mode = UHS_SDR25, + .widths = MMC_MODE_4BIT | MMC_MODE_1BIT, + }, +#endif + { + .mode = SD_HS, + .widths = MMC_MODE_4BIT | MMC_MODE_1BIT, +#ifdef MMC_SUPPORTS_TUNING + .tuning = MMC_SD_HS_TUNING +#endif + }, +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) + { + .mode = UHS_SDR12, + .widths = MMC_MODE_4BIT | MMC_MODE_1BIT, + }, +#endif + { + .mode = SD_LEGACY, + .widths = MMC_MODE_4BIT | MMC_MODE_1BIT, + } +}; + +#define for_each_sd_mode_by_pref(caps, mwt) \ + for (mwt = sd_modes_by_pref;\ + mwt < sd_modes_by_pref + ARRAY_SIZE(sd_modes_by_pref);\ + mwt++) \ + if (caps & MMC_CAP(mwt->mode)) + +static int sd_select_mode_and_width(struct mmc *mmc, uint card_caps) +{ + int err; + uint widths[] = {MMC_MODE_4BIT, MMC_MODE_1BIT}; + const struct mode_width_tuning *mwt; +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) + bool uhs_en = (mmc->ocr & OCR_S18R) ? true : false; +#else + bool uhs_en = false; +#endif + uint caps; + +#ifdef DEBUG + mmc_dump_capabilities("sd card", card_caps); + mmc_dump_capabilities("host", mmc->host_caps); +#endif + + /* Restrict card's capabilities by what the host can do */ + caps = card_caps & mmc->host_caps; + + if (!uhs_en) + caps &= ~UHS_CAPS; + + for_each_sd_mode_by_pref(caps, mwt) { + uint *w; + + for (w = widths; w < widths + ARRAY_SIZE(widths); w++) { + if (*w & caps & mwt->widths) { + pr_debug("trying mode %s width %d (at %d MHz)\n", + mmc_mode_name(mwt->mode), + bus_width(*w), + mmc_mode2freq(mmc, mwt->mode) / 1000000); + + /* configure the bus width (card + host) */ + err = sd_select_bus_width(mmc, bus_width(*w)); + if (err) + goto error; + mmc_set_bus_width(mmc, bus_width(*w)); + + /* configure the bus mode (card) */ + err = sd_set_card_speed(mmc, mwt->mode); + if (err) + goto error; + + /* configure the bus mode (host) */ + mmc_select_mode(mmc, mwt->mode); + mmc_set_clock(mmc, mmc->tran_speed, + MMC_CLK_ENABLE); + +#ifdef MMC_SUPPORTS_TUNING + /* execute tuning if needed */ + if (mwt->tuning && !mmc_host_is_spi(mmc)) { + err = mmc_execute_tuning(mmc, + mwt->tuning); + if (err) { + pr_debug("tuning failed\n"); + goto error; + } + } +#endif + +#if CONFIG_IS_ENABLED(MMC_WRITE) + err = sd_read_ssr(mmc); + if (err) + pr_warn("unable to read ssr\n"); +#endif + if (!err) + return 0; + +error: + /* revert to a safer bus speed */ + mmc_select_mode(mmc, SD_LEGACY); + mmc_set_clock(mmc, mmc->tran_speed, + MMC_CLK_ENABLE); + } + } + } + + pr_err("unable to select a mode\n"); + return -ENOTSUPP; +} + +/* + * read the compare the part of ext csd that is constant. + * This can be used to check that the transfer is working + * as expected. + */ +static int mmc_read_and_compare_ext_csd(struct mmc *mmc) +{ + int err; + const u8 *ext_csd = mmc->ext_csd; + ALLOC_CACHE_ALIGN_BUFFER(u8, test_csd, MMC_MAX_BLOCK_LEN); + + if (mmc->version < MMC_VERSION_4) + return 0; + + err = mmc_send_ext_csd(mmc, test_csd); + if (err) + return err; + + /* Only compare read only fields */ + if (ext_csd[EXT_CSD_PARTITIONING_SUPPORT] + == test_csd[EXT_CSD_PARTITIONING_SUPPORT] && + ext_csd[EXT_CSD_HC_WP_GRP_SIZE] + == test_csd[EXT_CSD_HC_WP_GRP_SIZE] && + ext_csd[EXT_CSD_REV] + == test_csd[EXT_CSD_REV] && + ext_csd[EXT_CSD_HC_ERASE_GRP_SIZE] + == test_csd[EXT_CSD_HC_ERASE_GRP_SIZE] && + memcmp(&ext_csd[EXT_CSD_SEC_CNT], + &test_csd[EXT_CSD_SEC_CNT], 4) == 0) + return 0; + + return -EBADMSG; +} + +#if CONFIG_IS_ENABLED(MMC_IO_VOLTAGE) +static int mmc_set_lowest_voltage(struct mmc *mmc, enum bus_mode mode, + uint32_t allowed_mask) +{ + u32 card_mask = 0; + + switch (mode) { + case MMC_HS_400: + case MMC_HS_200: + if (mmc->cardtype & (EXT_CSD_CARD_TYPE_HS200_1_8V | + EXT_CSD_CARD_TYPE_HS400_1_8V)) + card_mask |= MMC_SIGNAL_VOLTAGE_180; + if (mmc->cardtype & (EXT_CSD_CARD_TYPE_HS200_1_2V | + EXT_CSD_CARD_TYPE_HS400_1_2V)) + card_mask |= MMC_SIGNAL_VOLTAGE_120; + break; + case MMC_DDR_52: + if (mmc->cardtype & EXT_CSD_CARD_TYPE_DDR_1_8V) + card_mask |= MMC_SIGNAL_VOLTAGE_330 | + MMC_SIGNAL_VOLTAGE_180; + if (mmc->cardtype & EXT_CSD_CARD_TYPE_DDR_1_2V) + card_mask |= MMC_SIGNAL_VOLTAGE_120; + break; + default: + card_mask |= MMC_SIGNAL_VOLTAGE_330; + break; + } + + while (card_mask & allowed_mask) { + enum mmc_voltage best_match; + + best_match = 1 << (ffs(card_mask & allowed_mask) - 1); + if (!mmc_set_signal_voltage(mmc, best_match)) + return 0; + + allowed_mask &= ~best_match; + } + + return -ENOTSUPP; +} +#else +static inline int mmc_set_lowest_voltage(struct mmc *mmc, enum bus_mode mode, + uint32_t allowed_mask) +{ + return 0; +} +#endif + +static const struct mode_width_tuning mmc_modes_by_pref[] = { +#if CONFIG_IS_ENABLED(MMC_HS400_SUPPORT) + { + .mode = MMC_HS_400, + .widths = MMC_MODE_8BIT, + .tuning = MMC_CMD_SEND_TUNING_BLOCK_HS200 + }, +#endif +#if CONFIG_IS_ENABLED(MMC_HS200_SUPPORT) + { + .mode = MMC_HS_200, + .widths = MMC_MODE_8BIT | MMC_MODE_4BIT, + .tuning = MMC_CMD_SEND_TUNING_BLOCK_HS200 + }, +#endif + { + .mode = MMC_DDR_52, + .widths = MMC_MODE_8BIT | MMC_MODE_4BIT, + }, + { + .mode = MMC_HS_52, + .widths = MMC_MODE_8BIT | MMC_MODE_4BIT | MMC_MODE_1BIT, +#ifdef MMC_SUPPORTS_TUNING + .tuning = MMC_SD_HS_TUNING +#endif + }, + { + .mode = MMC_HS, + .widths = MMC_MODE_8BIT | MMC_MODE_4BIT | MMC_MODE_1BIT, + }, + { + .mode = MMC_LEGACY, + .widths = MMC_MODE_8BIT | MMC_MODE_4BIT | MMC_MODE_1BIT, + } +}; + +#define for_each_mmc_mode_by_pref(caps, mwt) \ + for (mwt = mmc_modes_by_pref;\ + mwt < mmc_modes_by_pref + ARRAY_SIZE(mmc_modes_by_pref);\ + mwt++) \ + if (caps & MMC_CAP(mwt->mode)) + +static const struct ext_csd_bus_width { + uint cap; + bool is_ddr; + uint ext_csd_bits; +} ext_csd_bus_width[] = { + {MMC_MODE_8BIT, true, EXT_CSD_DDR_BUS_WIDTH_8}, + {MMC_MODE_4BIT, true, EXT_CSD_DDR_BUS_WIDTH_4}, + {MMC_MODE_8BIT, false, EXT_CSD_BUS_WIDTH_8}, + {MMC_MODE_4BIT, false, EXT_CSD_BUS_WIDTH_4}, + {MMC_MODE_1BIT, false, EXT_CSD_BUS_WIDTH_1}, +}; + +#if CONFIG_IS_ENABLED(MMC_HS400_SUPPORT) +static int mmc_select_hs400(struct mmc *mmc) +{ + int err; + + /* Set timing to HS200 for tuning */ + err = mmc_set_card_speed(mmc, MMC_HS_200); + if (err) + return err; + + /* configure the bus mode (host) */ + mmc_select_mode(mmc, MMC_HS_200); + mmc_set_clock(mmc, mmc->tran_speed, false); + + /* execute tuning if needed */ + err = mmc_execute_tuning(mmc, MMC_CMD_SEND_TUNING_BLOCK_HS200); + if (err) { + pr_debug("tuning failed\n"); + return err; + } + + /* Set back to HS */ + mmc_set_card_speed(mmc, MMC_HS); + mmc_set_clock(mmc, mmc_mode2freq(mmc, MMC_HS), false); + + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, EXT_CSD_BUS_WIDTH, + EXT_CSD_BUS_WIDTH_8 | EXT_CSD_DDR_FLAG); + if (err) + return err; + + err = mmc_set_card_speed(mmc, MMC_HS_400); + if (err) + return err; + + mmc_select_mode(mmc, MMC_HS_400); + err = mmc_set_clock(mmc, mmc->tran_speed, false); + if (err) + return err; + + return 0; +} +#else +static int mmc_select_hs400(struct mmc *mmc) +{ + return -ENOTSUPP; +} +#endif + +#define for_each_supported_width(caps, ddr, ecbv) \ + for (ecbv = ext_csd_bus_width;\ + ecbv < ext_csd_bus_width + ARRAY_SIZE(ext_csd_bus_width);\ + ecbv++) \ + if ((ddr == ecbv->is_ddr) && (caps & ecbv->cap)) + +static int mmc_select_mode_and_width(struct mmc *mmc, uint card_caps) +{ + int err; + const struct mode_width_tuning *mwt; + const struct ext_csd_bus_width *ecbw; + +#ifdef DEBUG + mmc_dump_capabilities("mmc", card_caps); + mmc_dump_capabilities("host", mmc->host_caps); +#endif + + /* Restrict card's capabilities by what the host can do */ + card_caps &= mmc->host_caps; + + /* Only version 4 of MMC supports wider bus widths */ + if (mmc->version < MMC_VERSION_4) + return 0; + + if (!mmc->ext_csd) { + pr_debug("No ext_csd found!\n"); /* this should enver happen */ + return -ENOTSUPP; + } + + for_each_mmc_mode_by_pref(card_caps, mwt) { + for_each_supported_width(card_caps & mwt->widths, + mmc_is_mode_ddr(mwt->mode), ecbw) { + enum mmc_voltage old_voltage; + pr_debug("trying mode %s width %d (at %d MHz)\n", + mmc_mode_name(mwt->mode), + bus_width(ecbw->cap), + mmc_mode2freq(mmc, mwt->mode) / 1000000); + old_voltage = mmc->signal_voltage; + err = mmc_set_lowest_voltage(mmc, mwt->mode, + MMC_ALL_SIGNAL_VOLTAGE); + if (err) + continue; + + /* configure the bus width (card + host) */ + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_BUS_WIDTH, + ecbw->ext_csd_bits & ~EXT_CSD_DDR_FLAG); + if (err) + goto error; + mmc_set_bus_width(mmc, bus_width(ecbw->cap)); + + if (mwt->mode == MMC_HS_400) { + err = mmc_select_hs400(mmc); + if (err) { + pr_err("Select HS400 failed %d\n", err); + goto error; + } + } else { + /* configure the bus speed (card) */ + err = mmc_set_card_speed(mmc, mwt->mode); + if (err) + goto error; + + /* + * configure the bus width AND the ddr mode + * (card). The host side will be taken care + * of in the next step + */ + if (ecbw->ext_csd_bits & EXT_CSD_DDR_FLAG) { + err = mmc_switch(mmc, + EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_BUS_WIDTH, + ecbw->ext_csd_bits); + if (err) + goto error; + } + + /* configure the bus mode (host) */ + mmc_select_mode(mmc, mwt->mode); + mmc_set_clock(mmc, mmc->tran_speed, + MMC_CLK_ENABLE); +#ifdef MMC_SUPPORTS_TUNING + + /* execute tuning if needed */ + if (mwt->tuning) { + err = mmc_execute_tuning(mmc, + mwt->tuning); + if (err) { + pr_debug("tuning failed\n"); + goto error; + } + } +#endif + } + + /* do a transfer to check the configuration */ + err = mmc_read_and_compare_ext_csd(mmc); + if (!err) + return 0; +error: + mmc_set_signal_voltage(mmc, old_voltage); + /* if an error occured, revert to a safer bus mode */ + mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_BUS_WIDTH, EXT_CSD_BUS_WIDTH_1); + mmc_select_mode(mmc, MMC_LEGACY); + mmc_set_bus_width(mmc, 1); + } + } + + pr_err("unable to select a mode\n"); + + return -ENOTSUPP; +} +#endif + +#if CONFIG_IS_ENABLED(MMC_TINY) +DEFINE_CACHE_ALIGN_BUFFER(u8, ext_csd_bkup, MMC_MAX_BLOCK_LEN); +#endif + +static int mmc_startup_v4(struct mmc *mmc) +{ + int err, i; + u64 capacity; + bool has_parts = false; + bool part_completed; + static const u32 mmc_versions[] = { + MMC_VERSION_4, + MMC_VERSION_4_1, + MMC_VERSION_4_2, + MMC_VERSION_4_3, + MMC_VERSION_4_4, + MMC_VERSION_4_41, + MMC_VERSION_4_5, + MMC_VERSION_5_0, + MMC_VERSION_5_1 + }; + +#if CONFIG_IS_ENABLED(MMC_TINY) + u8 *ext_csd = ext_csd_bkup; + + if (IS_SD(mmc) || mmc->version < MMC_VERSION_4) + return 0; + + if (!mmc->ext_csd) + memset(ext_csd_bkup, 0, sizeof(ext_csd_bkup)); + + err = mmc_send_ext_csd(mmc, ext_csd); + if (err) + goto error; + + /* store the ext csd for future reference */ + if (!mmc->ext_csd) + mmc->ext_csd = ext_csd; +#else + ALLOC_CACHE_ALIGN_BUFFER(u8, ext_csd, MMC_MAX_BLOCK_LEN); + + if (IS_SD(mmc) || (mmc->version < MMC_VERSION_4)) + return 0; + + /* check ext_csd version and capacity */ + err = mmc_send_ext_csd(mmc, ext_csd); + if (err) + goto error; + + /* store the ext csd for future reference */ + if (!mmc->ext_csd) + mmc->ext_csd = malloc(MMC_MAX_BLOCK_LEN); + if (!mmc->ext_csd) + return -ENOMEM; + memcpy(mmc->ext_csd, ext_csd, MMC_MAX_BLOCK_LEN); +#endif + if (ext_csd[EXT_CSD_REV] >= ARRAY_SIZE(mmc_versions)) + return -EINVAL; + + mmc->version = mmc_versions[ext_csd[EXT_CSD_REV]]; + + if (mmc->version >= MMC_VERSION_4_2) { + /* + * According to the JEDEC Standard, the value of + * ext_csd's capacity is valid if the value is more + * than 2GB + */ + capacity = ext_csd[EXT_CSD_SEC_CNT] << 0 + | ext_csd[EXT_CSD_SEC_CNT + 1] << 8 + | ext_csd[EXT_CSD_SEC_CNT + 2] << 16 + | ext_csd[EXT_CSD_SEC_CNT + 3] << 24; + capacity *= MMC_MAX_BLOCK_LEN; + if ((capacity >> 20) > 2 * 1024) + mmc->capacity_user = capacity; + } + + /* The partition data may be non-zero but it is only + * effective if PARTITION_SETTING_COMPLETED is set in + * EXT_CSD, so ignore any data if this bit is not set, + * except for enabling the high-capacity group size + * definition (see below). + */ + part_completed = !!(ext_csd[EXT_CSD_PARTITION_SETTING] & + EXT_CSD_PARTITION_SETTING_COMPLETED); + + /* store the partition info of emmc */ + mmc->part_support = ext_csd[EXT_CSD_PARTITIONING_SUPPORT]; + if ((ext_csd[EXT_CSD_PARTITIONING_SUPPORT] & PART_SUPPORT) || + ext_csd[EXT_CSD_BOOT_MULT]) + mmc->part_config = ext_csd[EXT_CSD_PART_CONF]; + if (part_completed && + (ext_csd[EXT_CSD_PARTITIONING_SUPPORT] & ENHNCD_SUPPORT)) + mmc->part_attr = ext_csd[EXT_CSD_PARTITIONS_ATTRIBUTE]; + + mmc->capacity_boot = ext_csd[EXT_CSD_BOOT_MULT] << 17; + + mmc->capacity_rpmb = ext_csd[EXT_CSD_RPMB_MULT] << 17; + + for (i = 0; i < 4; i++) { + int idx = EXT_CSD_GP_SIZE_MULT + i * 3; + uint mult = (ext_csd[idx + 2] << 16) + + (ext_csd[idx + 1] << 8) + ext_csd[idx]; + if (mult) + has_parts = true; + if (!part_completed) + continue; + mmc->capacity_gp[i] = mult; + mmc->capacity_gp[i] *= + ext_csd[EXT_CSD_HC_ERASE_GRP_SIZE]; + mmc->capacity_gp[i] *= ext_csd[EXT_CSD_HC_WP_GRP_SIZE]; + mmc->capacity_gp[i] <<= 19; + } + +#ifndef CONFIG_SPL_BUILD + if (part_completed) { + mmc->enh_user_size = + (ext_csd[EXT_CSD_ENH_SIZE_MULT + 2] << 16) + + (ext_csd[EXT_CSD_ENH_SIZE_MULT + 1] << 8) + + ext_csd[EXT_CSD_ENH_SIZE_MULT]; + mmc->enh_user_size *= ext_csd[EXT_CSD_HC_ERASE_GRP_SIZE]; + mmc->enh_user_size *= ext_csd[EXT_CSD_HC_WP_GRP_SIZE]; + mmc->enh_user_size <<= 19; + mmc->enh_user_start = + (ext_csd[EXT_CSD_ENH_START_ADDR + 3] << 24) + + (ext_csd[EXT_CSD_ENH_START_ADDR + 2] << 16) + + (ext_csd[EXT_CSD_ENH_START_ADDR + 1] << 8) + + ext_csd[EXT_CSD_ENH_START_ADDR]; + if (mmc->high_capacity) + mmc->enh_user_start <<= 9; + } +#endif + + /* dev life time estimate type A/B */ + mmc->dev_lifetime_est_typ_a + = ext_csd[EXT_CSD_DEV_LIFETIME_EST_TYP_A]; + mmc->dev_lifetime_est_typ_b + = ext_csd[EXT_CSD_DEV_LIFETIME_EST_TYP_B]; + + /* + * Host needs to enable ERASE_GRP_DEF bit if device is + * partitioned. This bit will be lost every time after a reset + * or power off. This will affect erase size. + */ + if (part_completed) + has_parts = true; + if ((ext_csd[EXT_CSD_PARTITIONING_SUPPORT] & PART_SUPPORT) && + (ext_csd[EXT_CSD_PARTITIONS_ATTRIBUTE] & PART_ENH_ATTRIB)) + has_parts = true; + if (has_parts) { + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, + EXT_CSD_ERASE_GROUP_DEF, 1); + + if (err) + goto error; + + ext_csd[EXT_CSD_ERASE_GROUP_DEF] = 1; + } + + if (ext_csd[EXT_CSD_ERASE_GROUP_DEF] & 0x01) { +#if CONFIG_IS_ENABLED(MMC_WRITE) + /* Read out group size from ext_csd */ + mmc->erase_grp_size = + ext_csd[EXT_CSD_HC_ERASE_GRP_SIZE] * 1024; +#endif + /* + * if high capacity and partition setting completed + * SEC_COUNT is valid even if it is smaller than 2 GiB + * JEDEC Standard JESD84-B45, 6.2.4 + */ + if (mmc->high_capacity && part_completed) { + capacity = (ext_csd[EXT_CSD_SEC_CNT]) | + (ext_csd[EXT_CSD_SEC_CNT + 1] << 8) | + (ext_csd[EXT_CSD_SEC_CNT + 2] << 16) | + (ext_csd[EXT_CSD_SEC_CNT + 3] << 24); + capacity *= MMC_MAX_BLOCK_LEN; + mmc->capacity_user = capacity; + } + } +#if CONFIG_IS_ENABLED(MMC_WRITE) + else { + /* Calculate the group size from the csd value. */ + int erase_gsz, erase_gmul; + erase_gsz = (mmc->csd[2] & 0x00007c00) >> 10; + erase_gmul = (mmc->csd[2] & 0x000003e0) >> 5; + mmc->erase_grp_size = (erase_gsz + 1) + * (erase_gmul + 1); + } +#endif +#if CONFIG_IS_ENABLED(MMC_HW_PARTITIONING) + mmc->hc_wp_grp_size = 1024 + * ext_csd[EXT_CSD_HC_ERASE_GRP_SIZE] + * ext_csd[EXT_CSD_HC_WP_GRP_SIZE]; +#endif + + mmc->wr_rel_set = ext_csd[EXT_CSD_WR_REL_SET]; + + return 0; +error: + if (mmc->ext_csd) { +#if !CONFIG_IS_ENABLED(MMC_TINY) + free(mmc->ext_csd); +#endif + mmc->ext_csd = NULL; + } + return err; +} + +static int mmc_startup(struct mmc *mmc) +{ + int err, i; + uint mult, freq; + u64 cmult, csize; + struct mmc_cmd cmd; + struct blk_desc *bdesc; + +#ifdef CONFIG_MMC_SPI_CRC_ON + if (mmc_host_is_spi(mmc)) { /* enable CRC check for spi */ + cmd.cmdidx = MMC_CMD_SPI_CRC_ON_OFF; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = 1; + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + return err; + } +#endif + +#ifdef CONFIG_MMC_FBOOT + if (emmc_boot_chk(mmc)) { + mmc_switch_part(mmc, 0); + + /* disSelect the card, and put it into detect Mode */ + if (!mmc_host_is_spi(mmc)) { /* cmd not supported in spi */ + cmd.cmdidx = MMC_CMD_SELECT_CARD; + cmd.resp_type = MMC_RSP_NONE; + cmd.cmdarg = 0; + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + } + + /* Put the Card in Identify Mode */ + cmd.cmdidx = MMC_CMD_SEND_CID; + cmd.resp_type = MMC_RSP_R2; + cmd.cmdarg = mmc->rca << 16; + + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + return err; + + memcpy(mmc->cid, cmd.response, 16); + } else { +#endif + /* Put the Card in Identify Mode */ + cmd.cmdidx = mmc_host_is_spi(mmc) ? MMC_CMD_SEND_CID : + MMC_CMD_ALL_SEND_CID; /* cmd not supported in spi */ + cmd.resp_type = MMC_RSP_R2; + cmd.cmdarg = 0; + + err = mmc_send_cmd(mmc, &cmd, NULL); + +#ifdef CONFIG_MMC_QUIRKS + if (err && (mmc->quirks & MMC_QUIRK_RETRY_SEND_CID)) { + int retries = 4; + /* + * It has been seen that SEND_CID may fail on the first + * attempt, let's try a few more time + */ + do { + err = mmc_send_cmd(mmc, &cmd, NULL); + if (!err) + break; + } while (retries--); + } +#endif + + if (err) + return err; + + memcpy(mmc->cid, cmd.response, 16); + + /* + * For MMC cards, set the Relative Address. + * For SD cards, get the Relatvie Address. + * This also puts the cards into Standby State + */ + if (!mmc_host_is_spi(mmc)) { /* cmd not supported in spi */ + cmd.cmdidx = SD_CMD_SEND_RELATIVE_ADDR; + cmd.cmdarg = mmc->rca << 16; + cmd.resp_type = MMC_RSP_R6; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + + if (IS_SD(mmc)) + mmc->rca = (cmd.response[0] >> 16) & 0xffff; + } +#ifdef CONFIG_MMC_FBOOT + } +#endif + + /* Get the Card-Specific Data */ + cmd.cmdidx = MMC_CMD_SEND_CSD; + cmd.resp_type = MMC_RSP_R2; + cmd.cmdarg = mmc->rca << 16; + + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + + mmc->csd[0] = cmd.response[0]; + mmc->csd[1] = cmd.response[1]; + mmc->csd[2] = cmd.response[2]; + mmc->csd[3] = cmd.response[3]; + + if (mmc->version == MMC_VERSION_UNKNOWN) { + int version = (cmd.response[0] >> 26) & 0xf; + + switch (version) { + case 0: + mmc->version = MMC_VERSION_1_2; + break; + case 1: + mmc->version = MMC_VERSION_1_4; + break; + case 2: + mmc->version = MMC_VERSION_2_2; + break; + case 3: + mmc->version = MMC_VERSION_3; + break; + case 4: + mmc->version = MMC_VERSION_4; + break; + default: + mmc->version = MMC_VERSION_1_2; + break; + } + } + + /* divide frequency by 10, since the mults are 10x bigger */ + freq = fbase[(cmd.response[0] & 0x7)]; + mult = multipliers[((cmd.response[0] >> 3) & 0xf)]; + + mmc->legacy_speed = freq * mult; + mmc_select_mode(mmc, MMC_LEGACY); + + mmc->dsr_imp = ((cmd.response[1] >> 12) & 0x1); + mmc->read_bl_len = 1 << ((cmd.response[1] >> 16) & 0xf); +#if CONFIG_IS_ENABLED(MMC_WRITE) + + if (IS_SD(mmc)) + mmc->write_bl_len = mmc->read_bl_len; + else + mmc->write_bl_len = 1 << ((cmd.response[3] >> 22) & 0xf); +#endif + + if (mmc->high_capacity) { + csize = (mmc->csd[1] & 0x3f) << 16 + | (mmc->csd[2] & 0xffff0000) >> 16; + cmult = 8; + } else { + csize = (mmc->csd[1] & 0x3ff) << 2 + | (mmc->csd[2] & 0xc0000000) >> 30; + cmult = (mmc->csd[2] & 0x00038000) >> 15; + } + + mmc->capacity_user = (csize + 1) << (cmult + 2); + mmc->capacity_user *= mmc->read_bl_len; + mmc->capacity_boot = 0; + mmc->capacity_rpmb = 0; + for (i = 0; i < 4; i++) + mmc->capacity_gp[i] = 0; + + if (mmc->read_bl_len > MMC_MAX_BLOCK_LEN) + mmc->read_bl_len = MMC_MAX_BLOCK_LEN; + +#if CONFIG_IS_ENABLED(MMC_WRITE) + if (mmc->write_bl_len > MMC_MAX_BLOCK_LEN) + mmc->write_bl_len = MMC_MAX_BLOCK_LEN; +#endif + + if ((mmc->dsr_imp) && (0xffffffff != mmc->dsr)) { + cmd.cmdidx = MMC_CMD_SET_DSR; + cmd.cmdarg = (mmc->dsr & 0xffff) << 16; + cmd.resp_type = MMC_RSP_NONE; + if (mmc_send_cmd(mmc, &cmd, NULL)) + pr_warn("MMC: SET_DSR failed\n"); + } + + /* Select the card, and put it into Transfer Mode */ + if (!mmc_host_is_spi(mmc)) { /* cmd not supported in spi */ + cmd.cmdidx = MMC_CMD_SELECT_CARD; + cmd.resp_type = MMC_RSP_R1; + cmd.cmdarg = mmc->rca << 16; + err = mmc_send_cmd(mmc, &cmd, NULL); + + if (err) + return err; + } + + /* + * For SD, its erase group is always one sector + */ +#if CONFIG_IS_ENABLED(MMC_WRITE) + mmc->erase_grp_size = 1; +#endif + mmc->part_config = MMCPART_NOAVAILABLE; + + err = mmc_startup_v4(mmc); + if (err) + return err; + + err = mmc_set_capacity(mmc, mmc_get_blk_desc(mmc)->hwpart); + if (err) + return err; + +#if CONFIG_IS_ENABLED(MMC_TINY) + mmc_set_clock(mmc, mmc->legacy_speed, false); + mmc_select_mode(mmc, IS_SD(mmc) ? SD_LEGACY : MMC_LEGACY); + mmc_set_bus_width(mmc, 1); +#else + if (IS_SD(mmc)) { + err = sd_get_capabilities(mmc); + if (err) + return err; + err = sd_select_mode_and_width(mmc, mmc->card_caps); + } else { + err = mmc_get_capabilities(mmc); + if (err) + return err; + mmc_select_mode_and_width(mmc, mmc->card_caps); + } +#endif + if (err) + return err; + + mmc->best_mode = mmc->selected_mode; + + /* Fix the block length for DDR mode */ + if (mmc->ddr_mode) { + mmc->read_bl_len = MMC_MAX_BLOCK_LEN; +#if CONFIG_IS_ENABLED(MMC_WRITE) + mmc->write_bl_len = MMC_MAX_BLOCK_LEN; +#endif + } + + /* fill in device description */ + bdesc = mmc_get_blk_desc(mmc); + bdesc->lun = 0; + bdesc->hwpart = 0; + bdesc->type = 0; + bdesc->blksz = mmc->read_bl_len; + bdesc->log2blksz = LOG2(bdesc->blksz); + bdesc->lba = lldiv(mmc->capacity, mmc->read_bl_len); +#if !defined(CONFIG_SPL_BUILD) || \ + (defined(CONFIG_SPL_LIBCOMMON_SUPPORT) && \ + !defined(CONFIG_USE_TINY_PRINTF)) + sprintf(bdesc->vendor, "Man %06x Snr %04x%04x", + mmc->cid[0] >> 24, (mmc->cid[2] & 0xffff), + (mmc->cid[3] >> 16) & 0xffff); + sprintf(bdesc->product, "%c%c%c%c%c%c", mmc->cid[0] & 0xff, + (mmc->cid[1] >> 24), (mmc->cid[1] >> 16) & 0xff, + (mmc->cid[1] >> 8) & 0xff, mmc->cid[1] & 0xff, + (mmc->cid[2] >> 24) & 0xff); + sprintf(bdesc->revision, "%d.%d", (mmc->cid[2] >> 20) & 0xf, + (mmc->cid[2] >> 16) & 0xf); +#else + bdesc->vendor[0] = 0; + bdesc->product[0] = 0; + bdesc->revision[0] = 0; +#endif + +#if !defined(CONFIG_DM_MMC) && (!defined(CONFIG_SPL_BUILD) || defined(CONFIG_SPL_LIBDISK_SUPPORT)) + part_init(bdesc); +#endif + + return 0; +} + +static int mmc_send_if_cond(struct mmc *mmc) +{ + struct mmc_cmd cmd; + int err; + + cmd.cmdidx = SD_CMD_SEND_IF_COND; + /* We set the bit if the host supports voltages between 2.7 and 3.6 V */ + cmd.cmdarg = ((mmc->cfg->voltages & 0xff8000) != 0) << 8 | 0xaa; + cmd.resp_type = MMC_RSP_R7; + + err = mmc_send_cmd(mmc, &cmd, NULL); + if (err) + return err; + + if ((cmd.response[0] & 0xff) != 0xaa) + return -EOPNOTSUPP; + else + mmc->version = SD_VERSION_2; + + return 0; +} + +#if !CONFIG_IS_ENABLED(DM_MMC) +/* board-specific MMC power initializations. */ +__weak void board_mmc_power_init(void) +{ +} +#endif + +static int mmc_power_init(struct mmc *mmc) +{ +#if CONFIG_IS_ENABLED(DM_MMC) +#if CONFIG_IS_ENABLED(DM_REGULATOR) + int ret; + + ret = device_get_supply_regulator(mmc->dev, "vmmc-supply", + &mmc->vmmc_supply); + if (ret) + pr_debug("%s: No vmmc supply\n", mmc->dev->name); + + ret = device_get_supply_regulator(mmc->dev, "vqmmc-supply", + &mmc->vqmmc_supply); + if (ret) + pr_debug("%s: No vqmmc supply\n", mmc->dev->name); +#endif +#else /* !CONFIG_DM_MMC */ + /* + * Driver model should use a regulator, as above, rather than calling + * out to board code. + */ + board_mmc_power_init(); +#endif + return 0; +} + +/* + * put the host in the initial state: + * - turn on Vdd (card power supply) + * - configure the bus width and clock to minimal values + */ +static void mmc_set_initial_state(struct mmc *mmc) +{ + int err; + + /* First try to set 3.3V. If it fails set to 1.8V */ + err = mmc_set_signal_voltage(mmc, MMC_SIGNAL_VOLTAGE_330); + if (err != 0) + err = mmc_set_signal_voltage(mmc, MMC_SIGNAL_VOLTAGE_180); + if (err != 0) + pr_warn("mmc: failed to set signal voltage\n"); + + mmc_select_mode(mmc, MMC_LEGACY); + mmc_set_bus_width(mmc, 1); + mmc_set_clock(mmc, 0, MMC_CLK_ENABLE); +} + +static int mmc_power_on(struct mmc *mmc) +{ +#if CONFIG_IS_ENABLED(DM_MMC) && CONFIG_IS_ENABLED(DM_REGULATOR) + if (mmc->vmmc_supply) { + int ret = regulator_set_enable(mmc->vmmc_supply, true); + + if (ret) { + puts("Error enabling VMMC supply\n"); + return ret; + } + } +#endif + return 0; +} + +static int mmc_power_off(struct mmc *mmc) +{ + mmc_set_clock(mmc, 0, MMC_CLK_DISABLE); +#if CONFIG_IS_ENABLED(DM_MMC) && CONFIG_IS_ENABLED(DM_REGULATOR) + if (mmc->vmmc_supply) { + int ret = regulator_set_enable(mmc->vmmc_supply, false); + + if (ret) { + pr_debug("Error disabling VMMC supply\n"); + return ret; + } + } +#endif + return 0; +} + +static int mmc_power_cycle(struct mmc *mmc) +{ + int ret; + + ret = mmc_power_off(mmc); + if (ret) + return ret; + /* + * SD spec recommends at least 1ms of delay. Let's wait for 2ms + * to be on the safer side. + */ + udelay(2000); + return mmc_power_on(mmc); +} + +int mmc_get_op_cond(struct mmc *mmc) +{ + bool uhs_en = supports_uhs(mmc->cfg->host_caps); + int err; + + if (mmc->has_init) + return 0; + +#ifdef CONFIG_FSL_ESDHC_ADAPTER_IDENT + mmc_adapter_card_type_ident(); +#endif + err = mmc_power_init(mmc); + if (err) + return err; + +#ifdef CONFIG_MMC_QUIRKS + mmc->quirks = MMC_QUIRK_RETRY_SET_BLOCKLEN | + MMC_QUIRK_RETRY_SEND_CID; +#endif + + err = mmc_power_cycle(mmc); + if (err) { + /* + * if power cycling is not supported, we should not try + * to use the UHS modes, because we wouldn't be able to + * recover from an error during the UHS initialization. + */ + pr_debug("Unable to do a full power cycle. Disabling the UHS modes for safety\n"); + uhs_en = false; + mmc->host_caps &= ~UHS_CAPS; + err = mmc_power_on(mmc); + } + if (err) + return err; + +#if CONFIG_IS_ENABLED(DM_MMC) + /* The device has already been probed ready for use */ +#else + /* made sure it's not NULL earlier */ + err = mmc->cfg->ops->init(mmc); + if (err) + return err; +#endif + mmc->ddr_mode = 0; + +retry: + mmc_set_initial_state(mmc); + mmc_send_init_stream(mmc); + + /* Reset the Card */ + err = mmc_go_idle(mmc); + if (err) + return err; + + /* The internal partition reset to user partition(0) at every CMD0*/ + mmc_get_blk_desc(mmc)->hwpart = 0; + + /* Test for SD version 2 */ + err = mmc_send_if_cond(mmc); + + /* Now try to get the SD card's operating condition */ + err = sd_send_op_cond(mmc, uhs_en); + if (err && uhs_en) { + uhs_en = false; + mmc_power_cycle(mmc); + goto retry; + } + + /* If the command timed out, we check for an MMC card */ + if (err == -ETIMEDOUT) { + err = mmc_send_op_cond(mmc); + + if (err) { +#if !defined(CONFIG_SPL_BUILD) || defined(CONFIG_SPL_LIBCOMMON_SUPPORT) + pr_err("Card did not respond to voltage select!\n"); +#endif + return -EOPNOTSUPP; + } + } + + return err; +} + +int mmc_start_init(struct mmc *mmc) +{ + bool no_card; + int err = 0; + + /* + * all hosts are capable of 1 bit bus-width and able to use the legacy + * timings. + */ + mmc->host_caps = mmc->cfg->host_caps | MMC_CAP(SD_LEGACY) | + MMC_CAP(MMC_LEGACY) | MMC_MODE_1BIT; + +#if !defined(CONFIG_MMC_BROKEN_CD) + /* we pretend there's no card when init is NULL */ + no_card = mmc_getcd(mmc) == 0; +#else + no_card = 0; +#endif +#if !CONFIG_IS_ENABLED(DM_MMC) + no_card = no_card || (mmc->cfg->ops->init == NULL); +#endif + if (no_card) { + mmc->has_init = 0; +#if !defined(CONFIG_SPL_BUILD) || defined(CONFIG_SPL_LIBCOMMON_SUPPORT) + pr_err("MMC: no card present\n"); +#endif + return -ENOMEDIUM; + } + +#ifdef CONFIG_MMC_FBOOT + if (emmc_boot_chk(mmc)) { + mmc->high_capacity = 1; + mmc->rca = 1; + mmc->version = MMC_VERSION_UNKNOWN; + } else +#endif + err = mmc_get_op_cond(mmc); + + if (!err) + mmc->init_in_progress = 1; + + return err; +} + +static int mmc_complete_init(struct mmc *mmc) +{ + int err = 0; + + mmc->init_in_progress = 0; + if (mmc->op_cond_pending) + err = mmc_complete_op_cond(mmc); + + if (!err) + err = mmc_startup(mmc); + if (err) + mmc->has_init = 0; + else + mmc->has_init = 1; + return err; +} + +void mmc_write_cali_mattern(void *addr, struct aml_pattern *table) +{ + int i = 0; + unsigned int s = 10; + u32 *mattern = (u32 *)addr; + struct virtual_partition *vpart = + aml_get_virtual_partition_by_name(table->name); + for (i = 0;i < (vpart->size)/4 - 1;i++) { + if (!strcmp(table->name, "random")) + mattern[i] = rand_r(&s); + else + mattern[i] = table->pattern; + } + mattern[i] = crc32(0, (u8 *)addr, (vpart->size - 4)); + return; +} + +int mmc_pattern_check(struct mmc *mmc, struct aml_pattern *table) +{ + void *addr = NULL; + u64 cnt = 0, n = 0, blk = 0; + u32 *buf = NULL; + u32 crc32_s = 0; + struct partitions *part = NULL; + struct virtual_partition *vpart = NULL; + + vpart = aml_get_virtual_partition_by_name(table->name); + + addr = (void *)malloc(vpart->size); + if (!addr) { + printf("%s malloc failed\n", table->name); + return 1; + } + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + blk = (part->offset + vpart->offset) / mmc->read_bl_len; + cnt = vpart->size / mmc->read_bl_len; + n = blk_dread(mmc_get_blk_desc(mmc), blk, cnt, addr); + if (n != cnt) { + printf("read pattern failed\n"); + free(addr); + return 1; + } else { + buf = (u32 *)addr; + crc32_s = crc32(0, (u8 *)addr, (vpart->size - 4)); + if (crc32_s != buf[vpart->size/4 - 1]) { + printf("check %s failed,need to write\n", + table->name); + mmc_write_cali_mattern(addr, table); + n = blk_dwrite(mmc_get_blk_desc(mmc), blk, cnt, addr); + printf("several 0x%x pattern blocks write %s\n", + table->pattern, (n == cnt) ? "OK" : "ERROR"); + } + printf("crc32_s:0x%x == storage crc_pattern:0x%x!!!\n", + crc32_s, buf[vpart->size/4 - 1]); + } + free(addr); + return (n == cnt) ? 0 : 1; +} + +int mmc_init(struct mmc *mmc) +{ + int err = 0, i; + __maybe_unused ulong start; +#if CONFIG_IS_ENABLED(DM_MMC) + struct mmc_uclass_priv *upriv = dev_get_uclass_priv(mmc->dev); + + upriv->mmc = mmc; +#endif + if (mmc->has_init) + return 0; + + start = get_timer(0); + + if (!mmc->init_in_progress) + err = mmc_start_init(mmc); + + if (!err) + err = mmc_complete_init(mmc); + if (err) + pr_info("%s: %d, time %lu\n", __func__, err, get_timer(start)); + info_disprotect |= DISPROTECT_KEY; + if (IS_MMC(mmc)) { + if (!is_partition_checked) { + if (mmc_device_init(mmc) == 0) { + is_partition_checked = true; + pr_info("eMMC/TSD partition table have been checked OK!\n"); + for (i = 0; i < ARRAY_SIZE(aml_pattern_table); i++) + mmc_pattern_check(mmc, &aml_pattern_table[i]); + } + } + } + info_disprotect &= ~DISPROTECT_KEY; + return err; + +} + +ulong mmc_ffu_write(int dev_num, lbaint_t start, lbaint_t blkcnt, const void *src) +{ + struct mmc_cmd cmd; + struct mmc_data data; + int ret, timeout = 1000; + struct mmc *mmc = find_mmc_device(dev_num); + if (!mmc || !blkcnt) + return 0; + + printf("mmc ffu start = %lx, cnt = %lx, addr = %p\n", start, blkcnt, src); + + cmd.cmdidx = MMC_CMD_SET_BLOCK_COUNT; + cmd.cmdarg = blkcnt & 0xFFFF; + cmd.resp_type = MMC_RSP_R1; + ret = mmc_send_cmd(mmc, &cmd, NULL); + if (ret) { + printf("mmc set blkcnt failed\n"); + return 0; + } + + cmd.cmdidx = MMC_CMD_WRITE_MULTIPLE_BLOCK; + cmd.cmdarg = start; + cmd.resp_type = MMC_RSP_R1b; + + data.src = src; + data.blocks = blkcnt; + data.blocksize = mmc->write_bl_len; + data.flags = MMC_DATA_WRITE; + + ret = mmc_send_cmd(mmc, &cmd, &data); + if (ret) { + printf("mmc write failed\n"); + return 0; + } + + /* Waiting for the ready status */ + if (mmc_send_status(mmc, timeout)) + return 0; + + return blkcnt; +} + +int mmc_ffu_op(int dev, u64 ffu_ver, void *addr, u64 cnt) +{ + int err, i, supported_modes, fw_cfg, ffu_status; + u64 fw_ver = 0, n; + u8 ext_csd_ffu[512] = {0}; + lbaint_t ffu_addr=0; + struct mmc *mmc = find_mmc_device(dev); + if (!mmc) + return -ENODEV; + + printf("ffu update start\n"); + /* check Manufacturer MID */ + if ((mmc->cid[0] >> 24) == SAMSUNG_MID) { + ffu_addr = SAMSUNG_FFU_ADDR; + } else if ((mmc->cid[0] >> 24) == KINGSTON_MID) { + ffu_addr = KINGSTON_FFU_ADDR; + } else if ((mmc->cid[0] >> 24) == BIWIN_MID) { + ffu_addr = BIWIN_FFU_ADDR; + } else { + printf("FFU update for this manufacturer not support yet\n"); + return -1; + } + + /* + * check FFU Supportability + * check FFU Prohibited or not + * check current firmware version + */ + memset(ext_csd_ffu, 0, 512); + err = mmc_get_ext_csd(mmc, ext_csd_ffu); + if (err) + return err; + + supported_modes = ext_csd_ffu[EXT_CSD_SUPPORTED_MODES] & 0x1; + fw_cfg = ext_csd_ffu[EXT_CSD_FW_CFG] & 0x1; + for (i = 0; i < 8; i++) { + fw_ver |= ext_csd_ffu[EXT_CSD_FW_VERSION + 7 - i]; + if (i < 7) + fw_ver <<= 8; + } + if ((mmc->cid[0] >> 24) == BIWIN_MID) + fw_ver = ((fw_ver >> 16) & 0xffffffff); + printf("old fw_ver = %llx\n", fw_ver); + if (!supported_modes || fw_cfg || (fw_ver >= ffu_ver)) + return -1; + + /* Set FFU Mode */ + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, EXT_CSD_MODE_CFG, 1); + if (err) { + printf("Failed: set FFU mode\n"); + return err; + } + + /* Write patch file at one write command */ + n = mmc_ffu_write(dev, ffu_addr, cnt, addr); + if (n != cnt) { + printf("target is %llx block, but only %llx block has been write\n", cnt, n); + return -1; + } + + memset(ext_csd_ffu, 0, 512); + err = mmc_get_ext_csd(mmc, ext_csd_ffu); + if (err) + return err; + + for (i = 0; i < 8; i++) { + fw_ver |= ext_csd_ffu[EXT_CSD_FW_VERSION + 7 - i]; + if (i < 7) + fw_ver <<= 8; + } + if ((mmc->cid[0] >> 24) == BIWIN_MID) + fw_ver = ((fw_ver >> 16) & 0xffffffff); + printf("new fw_ver = %llx\n", fw_ver); + if ((mmc->cid[0] >> 24) == SAMSUNG_MID) { + /* Set Normal Mode */ + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, EXT_CSD_MODE_CFG, 0); + if (err) + return err; + } + + /* reset devices */ + err = mmc_go_idle(mmc); + if (err) + return err; + + /* Initialization */ + mmc->has_init = 0; + err = mmc_init(mmc); + if (err) + return err; + + /* Read ffu_status, check ffu_version */ + memset(ext_csd_ffu, 0, 512); + err = mmc_get_ext_csd(mmc, ext_csd_ffu); + if (err) + return err; + ffu_status = ext_csd_ffu[EXT_CSD_FFU_STATUS] & 0xff; + fw_ver = 0; + for (i = 0; i < 8; i++) { + fw_ver |= ext_csd_ffu[EXT_CSD_FW_VERSION + 7 - i]; + if (i < 7) + fw_ver <<= 8; + } + if ((mmc->cid[0] >> 24) == BIWIN_MID) + fw_ver = ((fw_ver >> 16) & 0xffffffff); + printf("new fw_ver = %llx\n", fw_ver); + if (ffu_status || (fw_ver != ffu_ver)) + return ffu_status; + + printf("FFU update ok!\n"); + return 0; +} + +int mmc_set_dsr(struct mmc *mmc, u16 val) +{ + mmc->dsr = val; + return 0; +} + +/* CPU-specific MMC initializations */ +__weak int cpu_mmc_init(bd_t *bis) +{ + return -1; +} + +/* board-specific MMC initializations. */ +__weak int board_mmc_init(bd_t *bis) +{ + return -1; +} + +void mmc_set_preinit(struct mmc *mmc, int preinit) +{ + mmc->preinit = preinit; +} + +#if CONFIG_IS_ENABLED(DM_MMC) +static int mmc_probe(bd_t *bis) +{ + int ret, i; + struct uclass *uc; + struct udevice *dev; + + ret = uclass_get(UCLASS_MMC, &uc); + if (ret) + return ret; + + /* + * Try to add them in sequence order. Really with driver model we + * should allow holes, but the current MMC list does not allow that. + * So if we request 0, 1, 3 we will get 0, 1, 2. + */ + for (i = 0; ; i++) { + ret = uclass_get_device_by_seq(UCLASS_MMC, i, &dev); + if (ret == -ENODEV) + break; + } + uclass_foreach_dev(dev, uc) { + ret = device_probe(dev); + if (ret) + pr_err("%s - probe failed: %d\n", dev->name, ret); + } + + return 0; +} +#else +static int mmc_probe(bd_t *bis) +{ + if (board_mmc_init(bis) < 0) + cpu_mmc_init(bis); + + return 0; +} +#endif + +int mmc_initialize(bd_t *bis) +{ + static int initialized = 0; + int ret; + if (initialized) /* Avoid initializing mmc multiple times */ + return 0; + initialized = 1; + +#if !CONFIG_IS_ENABLED(BLK) +#if !CONFIG_IS_ENABLED(MMC_TINY) + mmc_list_init(); +#endif +#endif + ret = mmc_probe(bis); + if (ret) + return ret; + +#ifndef CONFIG_SPL_BUILD + //print_mmc_devices(','); +#endif + + mmc_do_preinit(); + return 0; +} + +#ifdef CONFIG_CMD_BKOPS_ENABLE +int mmc_set_bkops_enable(struct mmc *mmc) +{ + int err; + ALLOC_CACHE_ALIGN_BUFFER(u8, ext_csd, MMC_MAX_BLOCK_LEN); + + err = mmc_send_ext_csd(mmc, ext_csd); + if (err) { + puts("Could not get ext_csd register values\n"); + return err; + } + + if (!(ext_csd[EXT_CSD_BKOPS_SUPPORT] & 0x1)) { + puts("Background operations not supported on device\n"); + return -EMEDIUMTYPE; + } + + if (ext_csd[EXT_CSD_BKOPS_EN] & 0x1) { + puts("Background operations already enabled\n"); + return 0; + } + + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, EXT_CSD_BKOPS_EN, 1); + if (err) { + puts("Failed to enable manual background operations\n"); + return err; + } + + puts("Enabled manual background operations\n"); + + return 0; +} +#endif + +extern unsigned long blk_dwrite(struct blk_desc *block_dev, lbaint_t start, + lbaint_t blkcnt, const void *buffer); + +int mmc_key_write(unsigned char *buf, unsigned int size, uint32_t *actual_lenth) +{ + ulong start, start_blk, blkcnt, ret; + unsigned char * temp_buf = buf; + int i = 2, dev = EMMC_DTB_DEV; + struct partitions * part = NULL; + struct mmc *mmc; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_KEY_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + + mmc = find_mmc_device(dev); + + start = part->offset + vpart->offset; + start_blk = (start / MMC_BLOCK_SIZE); + blkcnt = (size / MMC_BLOCK_SIZE); + info_disprotect |= DISPROTECT_KEY; + do { + ret = blk_dwrite(mmc_get_blk_desc(mmc), start_blk, blkcnt, temp_buf); + if (ret != blkcnt) { + pr_err("[%s] %d, mmc_bwrite error\n", + __func__, __LINE__); + return 1; + } + start_blk += vpart->size / MMC_BLOCK_SIZE; + } while (--i); + info_disprotect &= ~DISPROTECT_KEY; + return 0; +} + + + + +extern unsigned long blk_derase(struct blk_desc *block_dev, lbaint_t start, + lbaint_t blkcnt); + +int mmc_key_erase(void) +{ + ulong start, start_blk, blkcnt, ret; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + struct mmc *mmc; + vpart = aml_get_virtual_partition_by_name(MMC_KEY_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + int dev = EMMC_DTB_DEV; + + mmc = find_mmc_device(dev); + start = part->offset + vpart->offset; + start_blk = (start / MMC_BLOCK_SIZE); + blkcnt = (vpart->size / MMC_BLOCK_SIZE) * 2;//key and backup key + info_disprotect |= DISPROTECT_KEY; + ret = blk_derase(mmc_get_blk_desc(mmc), start_blk, blkcnt); + info_disprotect &= ~DISPROTECT_KEY; + if (ret) { + pr_err("[%s] %d mmc_berase error\n", + __func__, __LINE__); + return 1; + } + return 0; +} + + +int mmc_key_read(unsigned char *buf, unsigned int size, uint32_t *actual_lenth) +{ + ulong start, start_blk, blkcnt, ret; + int dev = EMMC_DTB_DEV; + unsigned char *temp_buf = buf; + struct partitions * part = NULL; + struct mmc *mmc; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_KEY_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + + mmc = find_mmc_device(dev); + *actual_lenth = 0x40000;/*key size is 256KB*/ + start = part->offset + vpart->offset; + start_blk = (start / MMC_BLOCK_SIZE); + blkcnt = (size / MMC_BLOCK_SIZE); + info_disprotect |= DISPROTECT_KEY; + ret = blk_dread(mmc_get_blk_desc(mmc), start_blk, blkcnt, temp_buf); + info_disprotect &= ~DISPROTECT_KEY; + if (ret != blkcnt) { + pr_err("[%s] %d, mmc_bread error\n", + __func__, __LINE__); + return 1; + } + return 0; +} + + + diff --git a/drivers/mmc/mmc_aml.c b/drivers/mmc/mmc_aml.c new file mode 100644 index 0000000000..a9b0ff780f --- /dev/null +++ b/drivers/mmc/mmc_aml.c @@ -0,0 +1,416 @@ +// SPDX-License-Identifier: GPL-2.0+ +/* + * Copyright 2008, Freescale Semiconductor, Inc + * Andy Fleming + * + * Based vaguely on the Linux code + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "mmc_private.h" +#include +#include +#include +#include +#include + +static int mmc_set_signal_voltage(struct mmc *mmc, uint signal_voltage); + +extern int emmc_probe(uint32_t init_flag); + +bool emmckey_is_access_range_legal (struct mmc *mmc, ulong start, lbaint_t blkcnt) { + ulong key_start_blk, key_end_blk; + u64 key_glb_offset; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + if (IS_MMC(mmc)) { + vpart = aml_get_virtual_partition_by_name(MMC_KEY_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + key_glb_offset = part->offset + vpart->offset; + key_start_blk = (key_glb_offset / MMC_BLOCK_SIZE); + key_end_blk = ((key_glb_offset + vpart->size) / MMC_BLOCK_SIZE - 1); + if (!(info_disprotect & DISPROTECT_KEY)) { + if ((key_start_blk <= (start + blkcnt -1)) + && (key_end_blk >= start) + && (blkcnt != start)) { + pr_info("%s, keys %ld, keye %ld, start %ld, blkcnt %ld\n", + mmc->cfg->name, key_start_blk, + key_end_blk, start, blkcnt); + pr_err("Emmckey: Access range is illegal!\n"); + return 0; + } + } + } + return 1; +} + +int emmc_boot_chk(struct mmc *mmc) +{ + u32 val = 0; + + if (strcmp(mmc->dev->name, "emmc")) + return 0; + + val = readl(SEC_AO_SEC_GP_CFG0); + pr_info("SEC_AO_SEC_GP_CFG0 = %x\n", val); + if ((val & 0xf) == 0x1) + return 1; + + return 0; +} + +#if CONFIG_IS_ENABLED(MMC_TINY) +static struct mmc mmc_static; +struct mmc *find_mmc_device(int dev_num) +{ + return &mmc_static; +} + +void mmc_do_preinit(void) +{ + struct mmc *m = &mmc_static; +#ifdef CONFIG_FSL_ESDHC_ADAPTER_IDENT + mmc_set_preinit(m, 1); +#endif + if (m->preinit) + mmc_start_init(m); +} + +struct blk_desc *mmc_get_blk_desc(struct mmc *mmc) +{ + return &mmc->block_dev; +} +#endif + +#if !CONFIG_IS_ENABLED(DM_MMC) + +#if CONFIG_IS_ENABLED(MMC_UHS_SUPPORT) +static int mmc_wait_dat0(struct mmc *mmc, int state, int timeout) +{ + return -ENOSYS; +} +#endif + +__weak int board_mmc_getwp(struct mmc *mmc) +{ + return -1; +} + +int mmc_getwp(struct mmc *mmc) +{ + int wp; + + wp = board_mmc_getwp(mmc); + + if (wp < 0) { + if (mmc->cfg->ops->getwp) + wp = mmc->cfg->ops->getwp(mmc); + else + wp = 0; + } + + return wp; +} + +__weak int board_mmc_getcd(struct mmc *mmc) +{ + return -1; +} +#endif + +#ifdef CONFIG_MMC_TRACE +void mmmc_trace_before_send(struct mmc *mmc, struct mmc_cmd *cmd) +{ + pr_info("CMD_SEND:%d\n", cmd->cmdidx); + pr_info("\t\tARG\t\t\t 0x%08X\n", cmd->cmdarg); +} + +void mmmc_trace_after_send(struct mmc *mmc, struct mmc_cmd *cmd, int ret) +{ + int i; + u8 *ptr; + + if (ret) { + pr_info("\t\tRET\t\t\t %d\n", ret); + } else { + switch (cmd->resp_type) { + case MMC_RSP_NONE: + pr_info("\t\tMMC_RSP_NONE\n"); + break; + case MMC_RSP_R1: + pr_info("\t\tMMC_RSP_R1,5,6,7 \t 0x%08X \n", + cmd->response[0]); + break; + case MMC_RSP_R1b: + pr_info("\t\tMMC_RSP_R1b\t\t 0x%08X \n", + cmd->response[0]); + break; + case MMC_RSP_R2: + pr_info("\t\tMMC_RSP_R2\t\t 0x%08X \n", + cmd->response[0]); + pr_info("\t\t \t\t 0x%08X \n", + cmd->response[1]); + pr_info("\t\t \t\t 0x%08X \n", + cmd->response[2]); + pr_info("\t\t \t\t 0x%08X \n", + cmd->response[3]); + pr_info("\n"); + pr_info("\t\t\t\t\tDUMPING DATA\n"); + for (i = 0; i < 4; i++) { + int j; + pr_info("\t\t\t\t\t%03d - ", i*4); + ptr = (u8 *)&cmd->response[i]; + ptr += 3; + for (j = 0; j < 4; j++) + pr_info("%02X ", *ptr--); + pr_info("\n"); + } + break; + case MMC_RSP_R3: + pr_info("\t\tMMC_RSP_R3,4\t\t 0x%08X \n", + cmd->response[0]); + break; + default: + pr_info("\t\tERROR MMC rsp not supported\n"); + break; + } + } +} + +#endif + +int mmc_get_ext_csd(struct mmc *mmc, u8 *ext_csd) +{ + return mmc_send_ext_csd(mmc, ext_csd); +} + +#if !CONFIG_IS_ENABLED(MMC_TINY) +u8 ext_csd_w[] = {191, 187, 185, 183, 179, 178, 177, 175, + 173, 171, 169, 167, 165, 164, 163, 162, + 161, 156, 155, 143, 140, 136, 134, 133, + 132, 131, 62, 59, 56, 52, 37, 34, + 33, 32, 31, 30, 29, 22, 17, 16, 15}; + +int mmc_set_ext_csd(struct mmc *mmc, u8 index, u8 value) +{ + int ret = -21, i; + + for (i = 0; i < sizeof(ext_csd_w); i++) { + if (ext_csd_w[i] == index) + break; + } + if (i != sizeof(ext_csd_w)) + ret = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, index, value); + + return ret; +} + + +#endif + +#if !CONFIG_IS_ENABLED(DM_MMC) +#ifdef MMC_SUPPORTS_TUNING +static int mmc_execute_tuning(struct mmc *mmc, uint opcode) +{ + return -ENOTSUPP; +} +#endif + +static int mmc_set_ios(struct mmc *mmc) +{ + int ret = 0; + + if (mmc->cfg->ops->set_ios) + ret = mmc->cfg->ops->set_ios(mmc); + + return ret; +} +#endif + +struct mode_width_tuning { + enum bus_mode mode; + uint widths; +#ifdef MMC_SUPPORTS_TUNING + uint tuning; +#endif +}; + +#if CONFIG_IS_ENABLED(MMC_IO_VOLTAGE) +int mmc_voltage_to_mv(enum mmc_voltage voltage) +{ + switch (voltage) { + case MMC_SIGNAL_VOLTAGE_000: return 0; + case MMC_SIGNAL_VOLTAGE_330: return 3300; + case MMC_SIGNAL_VOLTAGE_180: return 1800; + case MMC_SIGNAL_VOLTAGE_120: return 1200; + } + return -EINVAL; +} + +static int mmc_set_signal_voltage(struct mmc *mmc, uint signal_voltage) +{ + int err; + + if (mmc->signal_voltage == signal_voltage) + return 0; + + mmc->signal_voltage = signal_voltage; + err = mmc_set_ios(mmc); + if (err) + pr_debug("unable to set voltage (err %d)\n", err); + + return err; +} +#else +static inline int mmc_set_signal_voltage(struct mmc *mmc, uint signal_voltage) +{ + return 0; +} +#endif + +#if !CONFIG_IS_ENABLED(DM_MMC) +/* board-specific MMC power initializations. */ +__weak void board_mmc_power_init(void) +{ +} +#endif + +#ifdef CONFIG_CMD_BKOPS_ENABLE +int mmc_set_bkops_enable(struct mmc *mmc) +{ + int err; + ALLOC_CACHE_ALIGN_BUFFER(u8, ext_csd, MMC_MAX_BLOCK_LEN); + + err = mmc_send_ext_csd(mmc, ext_csd); + if (err) { + puts("Could not get ext_csd register values\n"); + return err; + } + + if (!(ext_csd[EXT_CSD_BKOPS_SUPPORT] & 0x1)) { + puts("Background operations not supported on device\n"); + return -EMEDIUMTYPE; + } + + if (ext_csd[EXT_CSD_BKOPS_EN] & 0x1) { + puts("Background operations already enabled\n"); + return 0; + } + + err = mmc_switch(mmc, EXT_CSD_CMD_SET_NORMAL, EXT_CSD_BKOPS_EN, 1); + if (err) { + puts("Failed to enable manual background operations\n"); + return err; + } + + puts("Enabled manual background operations\n"); + + return 0; +} +#endif + +extern unsigned long blk_dwrite(struct blk_desc *block_dev, lbaint_t start, + lbaint_t blkcnt, const void *buffer); + +int mmc_key_write(unsigned char *buf, unsigned int size, uint32_t *actual_lenth) +{ + ulong start, start_blk, blkcnt, ret; + unsigned char * temp_buf = buf; + int i = 2, dev = EMMC_DTB_DEV; + struct partitions * part = NULL; + struct mmc *mmc; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_KEY_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + + mmc = find_mmc_device(dev); + + start = part->offset + vpart->offset; + start_blk = (start / MMC_BLOCK_SIZE); + blkcnt = (size / MMC_BLOCK_SIZE); + info_disprotect |= DISPROTECT_KEY; + do { + ret = blk_dwrite(mmc_get_blk_desc(mmc), start_blk, blkcnt, temp_buf); + if (ret != blkcnt) { + pr_err("[%s] %d, mmc_bwrite error\n", + __func__, __LINE__); + return 1; + } + start_blk += vpart->size / MMC_BLOCK_SIZE; + } while (--i); + info_disprotect &= ~DISPROTECT_KEY; + return 0; +} + +extern unsigned long blk_derase(struct blk_desc *block_dev, lbaint_t start, + lbaint_t blkcnt); + +int mmc_key_erase(void) +{ + ulong start, start_blk, blkcnt, ret; + struct partitions * part = NULL; + struct virtual_partition *vpart = NULL; + struct mmc *mmc; + vpart = aml_get_virtual_partition_by_name(MMC_KEY_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + int dev = EMMC_DTB_DEV; + + mmc = find_mmc_device(dev); + start = part->offset + vpart->offset; + start_blk = (start / MMC_BLOCK_SIZE); + blkcnt = (vpart->size / MMC_BLOCK_SIZE) * 2;//key and backup key + info_disprotect |= DISPROTECT_KEY; + ret = blk_derase(mmc_get_blk_desc(mmc), start_blk, blkcnt); + info_disprotect &= ~DISPROTECT_KEY; + if (ret) { + pr_err("[%s] %d mmc_berase error\n", + __func__, __LINE__); + return 1; + } + return 0; +} + + +int mmc_key_read(unsigned char *buf, unsigned int size, uint32_t *actual_lenth) +{ + ulong start, start_blk, blkcnt, ret; + int dev = EMMC_DTB_DEV; + unsigned char *temp_buf = buf; + struct partitions * part = NULL; + struct mmc *mmc; + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(MMC_KEY_NAME); + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + + mmc = find_mmc_device(dev); + *actual_lenth = 0x40000;/*key size is 256KB*/ + start = part->offset + vpart->offset; + start_blk = (start / MMC_BLOCK_SIZE); + blkcnt = (size / MMC_BLOCK_SIZE); + info_disprotect |= DISPROTECT_KEY; + ret = blk_dread(mmc_get_blk_desc(mmc), start_blk, blkcnt, temp_buf); + info_disprotect &= ~DISPROTECT_KEY; + if (ret != blkcnt) { + pr_err("[%s] %d, mmc_bread error\n", + __func__, __LINE__); + return 1; + } + return 0; +} + + + diff --git a/drivers/mmc/storage_emmc.c b/drivers/mmc/storage_emmc.c new file mode 100644 index 0000000000..d938066e49 --- /dev/null +++ b/drivers/mmc/storage_emmc.c @@ -0,0 +1,946 @@ +// SPDX-License-Identifier: (GPL-2.0+ OR MIT) +#include +#include +#include +#include +#include +#include +#include + +#include +#include + + +#define USER_PARTITION 0 +#define BOOT0_PARTITION 1 +#define BOOT1_PARTITION 2 +#define RPMB_PARTITION 3 + +#define NOMAL_INIT 0 +#define ERASE_ALL 3 +#define ERASE_RESERVED 2 + +#define GXB_START_BLK 0 +#define GXL_START_BLK 1 +#define STORAGE_EMMC 1 +/* max 2MB for emmc in blks */ +#define UBOOT_SIZE (0x1000) +#define BLOCK_SIZE 512 + + + + + +extern int find_dev_num_by_partition_name (char const *name); +extern struct partitions *get_partition_info_by_num(const int num); +extern bool emmckey_is_protected(struct mmc *mmc); +extern int info_disprotect; +extern int dtb_read(void *addr); +extern int dtb_write(void *addr); +extern int renew_partition_tbl(unsigned char *buffer); + +static int storage_range_check(struct mmc *mmc,char const *part_name,loff_t offset, size_t *size,loff_t *off) { + + struct partitions *part_info = NULL; + + //cpu_id_t cpu_id = get_cpu_id(); + + + if (strcmp(part_name, "bootloader") == 0) { + *off = 0; + if (1) { //if (cpu_id.family_id >= MESON_CPU_MAJOR_ID_GXL) { + *off += 512; + } + if (*size == 0) { + *size =mmc->capacity_boot; + if (1) { //if (cpu_id.family_id >= MESON_CPU_MAJOR_ID_GXL) { + *size = *size - 512; + } + } + } else { + part_info = find_mmc_partition_by_name(part_name); + if (!part_info) { + printf("error partition name!\n"); + return 1; + } + if ((part_info->mask_flags & PART_PROTECT_FLAG) && + !(info_disprotect & DISPROTECT_KEY)) { + printf("%s is protected, pls open it in Dts\n", + part_info->name); + return 1; + } + + *off = part_info->offset+offset; + if (offset >= part_info->size) { + printf("Start address out #%s# partition'address region,(off < 0x%llx)\n", + part_name, part_info->size); + return 1; + } + if ((*off+*size) > (part_info->size+part_info->offset)) { + printf("End address exceeds #%s# partition,(offset = 0x%llx,size = 0x%llx)\n", + part_name, part_info->offset,part_info->size); + return 1; + } + + if (*size == 0) { + *size = part_info->size - offset; + } + } + return 0; +} + + + +static int storage_rsv_range_check(char const *part_name, size_t *size,loff_t *off) { + + struct partitions *part = NULL; + struct virtual_partition *vpart = NULL; + + + vpart = aml_get_virtual_partition_by_name(part_name); + + if (!vpart) { + printf("error partition name!\n"); + return 1; + } + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + if (!part) { + printf("error partition name!\n"); + return 1; + } + *off = part->offset + vpart->offset; + if ((*size) > vpart->size) { + printf("End address exceeds #%s# partition,(offset = 0x%llx,size = 0x%llx)\n", + part_name, vpart->offset,vpart->size); + return 1; + } + if (*size == 0) + *size = vpart->size; + return 0; +} + + +static int storage_byte_read(struct mmc *mmc,loff_t off, size_t size,void *addr) { + + int blk_shift = 0; + u64 cnt = 0, n = 0, blk = 0, sz_byte = 0; + ulong start_blk; + void *addr_tmp; + void *addr_byte; + + blk_shift = ffs(mmc->read_bl_len) - 1; + blk = off >> blk_shift ; + cnt = size >> blk_shift ; + sz_byte = size - ((cnt) << blk_shift) ; + mmc_init(mmc); + + pr_info("blk:%lld cnt:%lld \n",blk,cnt); + n = blk_dread(mmc_get_blk_desc(mmc), blk, cnt, addr); + if ((n == cnt) && (sz_byte != 0)) { + /*printf("sz_byte=%#llx bytes\n",sz_byte);*/ + addr_tmp = malloc(mmc->read_bl_len); + addr_byte = (void *)(addr+cnt*(mmc->read_bl_len)); + start_blk = blk+cnt; + + if (addr_tmp == NULL) { + printf("mmc read: malloc fail\n"); + return 1; + } + + if (blk_dread(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // read 1 block + free(addr_tmp); + printf("mmc read 1 block fail\n"); + return 1; + } + + memcpy(addr_byte, addr_tmp, sz_byte); + free(addr_tmp); + } + return (n == cnt) ? 0 : 1; + + +} + +static int storage_byte_write(struct mmc *mmc,loff_t off, size_t size,void *addr) { + + int blk_shift = 0; + u64 cnt = 0, n = 0, blk = 0, sz_byte = 0; + + blk_shift = ffs(mmc->read_bl_len) - 1; + blk = off >> blk_shift ; + cnt = size >> blk_shift ; + sz_byte = size - ((cnt) << blk_shift); + mmc_init(mmc); + pr_info("blk:%lld cnt:%lld \n",blk,cnt); + + n = blk_dwrite(mmc_get_blk_desc(mmc), blk, cnt, addr); + if ((n == cnt) && (sz_byte != 0)) { + // printf("sz_byte=%#llx bytes\n",sz_byte); + void *addr_tmp = malloc(mmc->write_bl_len); + void *addr_byte = (void*)(addr+cnt*(mmc->write_bl_len)); + ulong start_blk = blk+cnt; + + if (addr_tmp == NULL) { + printf("mmc write: malloc fail\n"); + return 1; + } + + if (blk_dread(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // read 1 block + free(addr_tmp); + printf("mmc read 1 block fail\n"); + return 1; + } + + memcpy(addr_tmp, addr_byte, sz_byte); + if (blk_dwrite(mmc_get_blk_desc(mmc), start_blk, 1, addr_tmp) != 1) { // write 1 block + free(addr_tmp); + printf("mmc write 1 block fail\n"); + return 1; + } + free(addr_tmp); + } + //printf("%#llx blocks , %#llx bytes written: %s\n", n, sz_byte, (n==cnt) ? "OK" : "ERROR"); + return (n == cnt) ? 0 : 1; +} + + +static int storage_byte_erase(struct mmc *mmc,loff_t off, size_t size) { + + int blk_shift = 0; + u64 cnt = 0, n = 0, blk = 0; + + blk_shift = ffs(mmc->read_bl_len) - 1; + blk = off >> blk_shift ; + cnt = size >> blk_shift ; + mmc_init(mmc); + pr_info("blk:%lld cnt:%lld \n",blk,cnt); + if (cnt) + n = blk_derase(mmc_get_blk_desc(mmc), blk, cnt); + printf("%lld blocks erased: %s\n", cnt, (n == 0) ? "OK" : "ERROR"); + return (n == 0) ? 0 : 1; +} + +static int storage_erase_in_part(char const *part_name, loff_t off, size_t size) +{ + int ret = 1; + struct mmc *mmc; + loff_t offset; + + mmc = find_mmc_device(STORAGE_EMMC); + if (!mmc) + return 1; + + ret = storage_range_check(mmc,part_name, off, &size, &offset); + if (ret) + return ret; + + ret = storage_byte_erase(mmc, offset, size); + return (ret == 0) ? 0 : 1; +} + + + +static int storage_read_in_part(char const *part_name, loff_t off, size_t size, void *dest) +{ + int ret =1; + struct mmc *mmc; + loff_t offset; + + mmc = find_mmc_device(STORAGE_EMMC); + if (!mmc) + return 1; + + ret = storage_range_check(mmc,part_name,off,&size,&offset); + + if (ret) return ret; + + ret = storage_byte_read(mmc, offset, size, dest); + + return ret; +} + + +static int storage_write_in_part(char const *part_name, loff_t off, size_t size, void *source) +{ + int ret = 1; + loff_t offset; + struct mmc *mmc; + + mmc = find_mmc_device(STORAGE_EMMC); + if (!mmc) { + printf("Cannot find mmc. \n"); + return 1; + } + ret = storage_range_check(mmc,part_name, off, &size, &offset); + if (ret) return ret; + + ret = storage_byte_write(mmc, offset, size, source); + return ret; +} + +static int storage_mmc_erase_user(struct mmc *mmc) { + int ret = 0, i; + struct partitions *part_info = NULL; + + if (info_disprotect & DISPROTECT_KEY) {//key disprotect,erase all + ret = blk_derase(mmc_get_blk_desc(mmc), 0, 0); + } else {//key protect partition with the protect_flag + for (i = 0;;i++) { + part_info = get_partition_info_by_num(i); + if (part_info == NULL) + break; + if (!strcmp("reserved", part_info->name)) { + printf("Part:reserved is skiped\n"); + continue; + } + if (part_info->mask_flags & PART_PROTECT_FLAG) { + printf("Part:%s is protected\n", part_info->name); + continue; + } + ret = blk_derase(mmc_get_blk_desc(mmc), + part_info->offset / BLOCK_SIZE, + part_info->size / BLOCK_SIZE); + printf("Erased: %s %s\n", + part_info->name, + (ret == 0)? "OK" : "ERR"); + } + } + printf("User partition erased: %s\n", (ret == 0) ? "OK" : "ERROR"); + return ret; +} + +static int storage_mmc_erase(int flag, struct mmc *mmc) { + + int ret = 0; + loff_t off = 0; + size_t size = 0; + + if (flag >= ERASE_ALL) {//erase all except reserved + ret = storage_mmc_erase_user(mmc); + if (ret != 0) { + return -1; + } + + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, BOOT0_PARTITION); + if (ret) goto R_SWITCH_BACK; + ret = blk_derase(mmc_get_blk_desc(mmc), 0, 0); + printf("boot0 partition erased: %s\n", (ret == 0) ? "OK" : "ERROR"); + + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, BOOT1_PARTITION); + + if (ret) goto R_SWITCH_BACK; + ret = blk_derase(mmc_get_blk_desc(mmc), 0, 0); + printf("boot1 partition erased: %s\n", (ret == 0) ? "OK" : "ERROR"); +R_SWITCH_BACK: + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, USER_PARTITION); + + } else if (flag == ERASE_RESERVED) {//erase reserved + + info_disprotect |= DISPROTECT_KEY; + ret = storage_rsv_range_check("reserved", &size, &off); + if (ret != 0) { + return -1; + } + ret = storage_erase_in_part("reserved", off, size); + info_disprotect &= ~DISPROTECT_KEY; + } + + return ret; + + +} + + + +int mmc_storage_init(unsigned char init_flag) { + + int ret =1; + struct mmc *mmc; + mmc = find_mmc_device(STORAGE_EMMC); + mmc->has_init=0; + pinctrl_select_state(mmc->dev, "default"); + if (!mmc) { + return -1; + } + ret = mmc_init(mmc); + if (ret != 0) { + return -1; + } + ret = storage_mmc_erase(init_flag, mmc); + return ret; +} + + + + + +uint64_t mmc_storage_get_part_size(const char *part_name) { + + struct partitions *part_info = NULL; + + part_info = find_mmc_partition_by_name(part_name); + + if (part_info == NULL) { + printf("get partition info failed !!\n"); + return -1; + } + return part_info->size; +} + +int mmc_storage_read(const char *part_name, loff_t off, size_t size, void *dest) { + + int ret=1; + struct mmc *mmc; + mmc = find_mmc_device(STORAGE_EMMC); + + if (!mmc) + return 1; + + if (!part_name) {//the operating object is the device,the unit of operation is block. + info_disprotect |= DISPROTECT_KEY; + ret = blk_dread(mmc_get_blk_desc(mmc), off, size, dest); + info_disprotect &= ~DISPROTECT_KEY; + printf("%d blocks read: %s\n", ret, (ret == size) ? "OK" : "ERROR"); + return (ret == size) ? 0 : 1; + + } else {//the opering object is partition,the unit of operation is byte. + ret = storage_read_in_part(part_name, off,size, dest); + } + + return ret; + +} + + +int mmc_storage_write(const char *part_name, loff_t off, size_t size, void *source) { + + int ret=1; + + struct mmc *mmc; + mmc = find_mmc_device(STORAGE_EMMC); + if (!mmc) + return 1; + + if (!part_name) {//the operating object is the device,the unit of operation is block. + info_disprotect |= DISPROTECT_KEY; + ret = blk_dwrite(mmc_get_blk_desc(mmc), off, size, source); + info_disprotect &= ~DISPROTECT_KEY; + printf("%d blocks written: %s\n", ret, (ret == size) ? "OK" : "ERROR"); + return (ret == size) ? 0 : 1; + } else {//the opering object is partition,the unit of operation is byte. + ret = storage_write_in_part(part_name, off, size, source); + } + return ret; +} + +int mmc_storage_erase(const char *part_name, loff_t off, size_t size, int scrub_flag) { + + int ret=1; + struct mmc *mmc; + mmc = find_mmc_device(STORAGE_EMMC); + if (!mmc) + return 1; + + if (!part_name) {//the operating object is the device,the unit of operation is block. + ret = storage_mmc_erase(ERASE_ALL, mmc); + return (ret == 0) ? 0 : 1; + } else {//the opering object is partition,the unit of operation is byte. + ret = storage_erase_in_part(part_name, off, size); + } + return ret; +} + +uint8_t mmc_storage_get_copies(const char *part_name) { + + char ret=3; + + return ret; + +} + + +uint64_t mmc_get_copy_size(const char *part_name) { + + struct partitions *part_info = NULL; + +#ifdef CONFIG_AML_GPT + return UBOOT_SIZE*512; +#else + part_info = find_mmc_partition_by_name("bootloader"); + if (part_info == NULL) { + printf("get partition info failed !!\n"); + return -1; + } + return part_info->size; +#endif +} + +/* dtb read&write operation with backup updates */ +static u32 _calc_boot_info_checksum(struct storage_emmc_boot_info *boot_info) +{ + u32 *buffer = (u32*)boot_info; + u32 checksum = 0; + int i = 0; + + do { + checksum += buffer[i]; + } while (i++ < ((EMMC_BOOT_INFO_SIZE >> 2) - 2)); + + return checksum; +} + +static int fill_mask8_part(struct part_property *mask8) +{ + struct partitions *part; + int i = 0, mask8_cnt = 0; + + part = get_partition_info_by_num(i); + while (part) { + if ((part->mask_flags == 8) + && (mask8_cnt++ < BOOTINFO_MAX_PARTITIONS)) { + strncpy(mask8->name, part->name, strlen(part->name)); + mask8->addr = part->offset / MMC_BLOCK_SIZE; + mask8->size = part->size / MMC_BLOCK_SIZE; + mask8++; + } + if (mask8_cnt == BOOTINFO_MAX_PARTITIONS) + break; + i++; + part = get_partition_info_by_num(i); + } + + return mask8_cnt; +} + +static int amlmmc_write_info_sector(struct mmc *mmc) +{ + struct storage_emmc_boot_info *boot_info; + struct virtual_partition *ddr_part; + struct partitions *part; + /* partitons with mask = 8 need to fill to bootinfo */ + struct part_property *mask8; + int mask8_partition_count; + u8 *buffer; + int ret = 0, i; + + buffer = malloc(MMC_BLOCK_SIZE); + if (!buffer) + return -ENOMEM; + + memset(buffer, 0, sizeof(*boot_info)); + boot_info = (struct storage_emmc_boot_info *)buffer; + part = aml_get_partition_by_name(MMC_RESERVED_NAME); + boot_info->rsv_base_addr = part->offset / MMC_BLOCK_SIZE; + ddr_part = aml_get_virtual_partition_by_name(MMC_DDR_PARAMETER_NAME); + boot_info->ddr.addr = ddr_part->offset / MMC_BLOCK_SIZE; + boot_info->ddr.size = ddr_part->size / MMC_BLOCK_SIZE; + + mask8 = boot_info->parts; + mask8_partition_count = fill_mask8_part(mask8); + + boot_info->version = 1; + boot_info->checksum = _calc_boot_info_checksum(boot_info); + + printf("boot_info.rsv_base_addr:\t%04x\n", boot_info->rsv_base_addr); + printf("boot_info.ddr.addr:%04x\n", boot_info->ddr.addr); + printf("boot_info.ddr.size:%04x\n", boot_info->ddr.size); + printf("boot info: parts %d\n", mask8_partition_count); + for (i = 0; i < mask8_partition_count; i++) { + printf("boot_info.part[%d]\n", i); + printf("\t.name:%s\n", boot_info->parts[i].name); + printf("\t.addr:%04x\n", boot_info->parts[i].addr); + printf("\t.size:%04x\n", boot_info->parts[i].size); + } + printf("boot_info.version:%04x\n", boot_info->version); + printf("boot_info.checksum:%04x\n", boot_info->checksum); + + if (blk_dwrite(mmc_get_blk_desc(mmc), 0, 1, buffer) != 1) + ret = -EIO; + + free(buffer); + return ret; +} + +int mmc_boot_read(const char *part_name, uint8_t cpy, size_t size, void *dest) { + + char ret=1; + int i; + + if (cpy == 0) + cpy = 1; + else if (cpy == 1) + cpy = 2; + else if (cpy == 2) + cpy = 4; + else if (cpy == 0xff) + cpy = 7; + for (i=0;i<3;i++) {//cpy: + + if (cpy & 1) { + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, i); + if (ret) goto R_SWITCH_BACK; +#ifdef CONFIG_AML_GPT + if (i == 0) + continue; +#endif + ret = storage_read_in_part(part_name, 0, size, dest); + + if (ret != 0) { + printf("storage read bootloader failed \n"); + goto R_SWITCH_BACK; + } + } + cpy = cpy >> 1; + } + + +R_SWITCH_BACK: + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, USER_PARTITION); + if (ret != 0) { + printf("switch part failed \n"); + return -1; + } + + return ret; + +} + +int mmc_boot_write(const char *part_name, uint8_t cpy, size_t size, void *source) { + + char ret=1; + int i = 0; + struct mmc *mmc; + + mmc = find_mmc_device(STORAGE_EMMC); + + if (cpy == 0) + cpy = 1; + else if (cpy == 1) + cpy = 2; + else if (cpy == 2) + cpy = 4; + else if (cpy == 0xff) + cpy = 7; + + for (i=0;i<3;i++) {//cpy:bin 100 is oprate boot1,bin 010 is oprate boot0,bin 001 is oprate user bootloader.bin 111 is operate all boot. + + if (cpy & 1) { + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, i); + if (ret) goto W_SWITCH_BACK; +#ifdef CONFIG_EMMC_BOOT1_TOUCH_REGION + if (i == 2) { + size = CONFIG_EMMC_BOOT1_TOUCH_REGION; + } +#endif +#ifdef CONFIG_AML_GPT + if (i == 0) + continue; +#endif + ret = storage_write_in_part(part_name, 0, size, source); + + if (ret != 0) { + printf("storage write bootloader failed \n"); + goto W_SWITCH_BACK; + } + if (i != 0) + amlmmc_write_info_sector(mmc); + } + cpy = cpy >> 1; + } + + +W_SWITCH_BACK: + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, USER_PARTITION); + if (ret != 0) { + printf("switch part failed \n"); + return -1; + } + + return ret; + +} + +int mmc_boot_erase(const char *part_name, uint8_t cpy) { + + char ret=1; + int i; + size_t size = 0; + + if (cpy == 0) + cpy = 1; + else if (cpy == 1) + cpy = 2; + else if (cpy == 2) + cpy = 4; + else if (cpy == 0xff) + cpy = 7; + for (i=0;i<3;i++) {//cpy: + + if (cpy & 1) { + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, i); + if (ret) goto E_SWITCH_BACK; +#ifdef CONFIG_EMMC_BOOT1_TOUCH_REGION + if (i == 2) { + size = CONFIG_EMMC_BOOT1_TOUCH_REGION; + } +#endif +#ifdef CONFIG_AML_GPT + if (i == 0) + continue; +#endif + ret = storage_erase_in_part(part_name, 0, size); + + if (ret != 0) { + printf("storage read bootloader failed \n"); + goto E_SWITCH_BACK; + } + } + cpy = cpy >> 1; + } + + +E_SWITCH_BACK: + ret = blk_select_hwpart_devnum(UCLASS_MMC, STORAGE_EMMC, USER_PARTITION); + if (ret != 0) { + printf("switch part faild \n"); + return -1; + } + + + return ret; +} + +uint32_t mmc_get_rsv_size(const char *rsv_name) { + + struct virtual_partition *vpart = NULL; + vpart = aml_get_virtual_partition_by_name(rsv_name); + printf("the %s partition size is:%llx byte\n",rsv_name,vpart->size); + return vpart->size; + +} + +static inline int env_read(size_t size, void *buf) { + return storage_read_in_part("env", 0, size, buf); +} + +static inline int env_write(size_t size, void *buf) { + return storage_write_in_part("env", 0, size, buf); +} + +int mmc_read_rsv(const char *rsv_name, size_t size, void *buf) { + + char ret=1; + struct mmc *mmc; + loff_t off =0; + /*unsigned long dtImgAddr = simple_strtoul(buf, NULL, 16);*/ + ret = !strcmp("env", rsv_name) || !strcmp("key", rsv_name) + || !strcmp("dtb", rsv_name)||!strcmp("fastboot", rsv_name) + ||!strcmp("ddr-parameter", rsv_name); + if (!ret) return 1; + + mmc = find_mmc_device(STORAGE_EMMC); + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + + if (!strcmp("env", rsv_name)) { + ret = env_read(size, buf); + return ret; + } + + ret = storage_rsv_range_check(rsv_name, &size, &off); + if (ret) return ret; + if (!strcmp("dtb", rsv_name)) { + ret = dtb_read(buf); + return ret; + } + + if (!strcmp("key", rsv_name)) + info_disprotect |= DISPROTECT_KEY; + ret = storage_byte_read(mmc, off, size, buf); + if (!strcmp("key", rsv_name)) + info_disprotect &= ~DISPROTECT_KEY; + if (ret != 0) { + printf("read resv failed\n"); + } + + return ret; +} +int mmc_write_rsv(const char *rsv_name, size_t size, void *buf) { + + char ret=1; + + struct mmc *mmc; + loff_t off = 0; + + ret = !strcmp("env", rsv_name) || !strcmp("key", rsv_name) + || !strcmp("dtb", rsv_name)||!strcmp("fastboot", rsv_name) + ||!strcmp("ddr-parameter", rsv_name); + if (!ret) + return 1; + mmc = find_mmc_device(STORAGE_EMMC); + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + + if (!strcmp("env", rsv_name)) { + ret = env_write(size, buf); + return ret; + } + + ret = storage_rsv_range_check(rsv_name, &size, &off); + if (ret) return ret; + + if (!strcmp("dtb", rsv_name)) { + ret = dtb_write(buf); + ret |= renew_partition_tbl(buf); + } else { + if (!strcmp("key", rsv_name)) + info_disprotect |= DISPROTECT_KEY; + ret = storage_byte_write(mmc, off, size, buf); + if (!strcmp("key", rsv_name)) + info_disprotect &= ~DISPROTECT_KEY; + } + + if (ret != 0) + printf("write rsv failed\n"); + + return ret; +} +int mmc_erase_rsv(const char *rsv_name) { + + char ret=1; + struct mmc *mmc; + loff_t off = 0; + size_t size = 0; + ret = !strcmp("key", rsv_name) || !strcmp("dtb", rsv_name) + ||!strcmp("fastboot", rsv_name) + ||!strcmp("ddr-parameter", rsv_name); + if (!ret) return 1; + mmc = find_mmc_device(STORAGE_EMMC); + if (!mmc) { + puts("no mmc devices available\n"); + return 1; + } + ret = storage_rsv_range_check(rsv_name, &size, &off); + if (ret) return ret; + if (!strcmp("key", rsv_name)) + info_disprotect |= DISPROTECT_KEY; + ret = storage_byte_erase(mmc, off, size); + if (!strcmp("key", rsv_name)) + info_disprotect &= ~DISPROTECT_KEY; + if (ret != 0) { + printf("erase resv failed\n"); + } + return ret; +} + +int mmc_protect_rsv(const char *rsv_name, bool ops) { + + char ret=1; + ret = strcmp("key", rsv_name); + if (ret) return 1; + + if (ops) { + + info_disprotect &= ~DISPROTECT_KEY; + printf("Protect the key partition!\n"); + } else { + info_disprotect |= DISPROTECT_KEY; + printf("Disprotect the key partition!\n"); + } + return ret; + +} + +void config_storage_dev_func(struct storage_t *dev, struct mmc* mmc) +{ + /******basic info*******/ + dev->type = BOOT_EMMC; + printf("store flag: %d, types: %d\n", dev->init_flag, dev->type); + /*dev->info.name = mmc->cid[0] & 0xff, + (mmc->cid[1] >> 24), (mmc->cid[1] >> 16) & 0xff, + (mmc->cid[1] >> 8) & 0xff, mmc->cid[1] & 0xff; + dev->info.id = mmc->cid[0] >> 24;*/ + dev->info.read_unit = mmc->read_bl_len; + dev->info.write_unit = mmc->write_bl_len; + dev->info.erase_unit = mmc->erase_grp_size; + dev->info.caps = mmc->capacity_user; + dev->info.mode = COMPACT_BOOTLOADER; + + dev->get_part_size = mmc_storage_get_part_size; + dev->read = mmc_storage_read; + dev->write = mmc_storage_write; + dev->erase = mmc_storage_erase; + + dev->get_copies = mmc_storage_get_copies; + dev->get_copy_size = mmc_get_copy_size; + dev->boot_read = mmc_boot_read; + dev->boot_write = mmc_boot_write; + dev->boot_erase = mmc_boot_erase; + + dev->get_rsv_size = mmc_get_rsv_size; + dev->read_rsv = mmc_read_rsv; + dev->write_rsv = mmc_write_rsv; + dev->erase_rsv = mmc_erase_rsv; + dev->protect_rsv = mmc_protect_rsv; + + return; +} + +DECLARE_GLOBAL_DATA_PTR; +int sdcard_pre(void) +{ + return 0; +} + + +int sdcard_probe(uint32_t init_flag) +{ + return 0; +} + +int emmc_pre(void) +{ + char ret = 1; + struct mmc *mmc; + static struct storage_t *storage_dev = NULL; + + mmc_initialize(gd->bd); + mmc = find_mmc_device(STORAGE_EMMC); + mmc->has_init = 0; + ret = mmc_start_init(mmc); + if (ret == 0) { + /*struct store_operation *storage_opera = NULL;*/ + storage_dev = kzalloc(sizeof(struct storage_t), GFP_KERNEL); + if (storage_dev == NULL) { + printf("malloc failed for storage_dev\n"); + ret = -1; + return ret; + } + config_storage_dev_func(storage_dev, mmc); + store_register(storage_dev); + printf("emmc init success!\n"); + } else + printf("emmc init fail!\n"); + return ret; +} + + +int emmc_probe(uint32_t init_flag) +{ + char ret = 0; + + ret = mmc_storage_init(init_flag); /*flag 0*/ + if (ret) { + printf("mmc init failed ret:%x\n", ret); + goto exit_error; + } + printf("emmc probe success\n"); + +exit_error: + return ret; +} + diff --git a/include/amlogic/aml_cec.h b/include/amlogic/aml_cec.h new file mode 100644 index 0000000000..4f0b2bd3a1 --- /dev/null +++ b/include/amlogic/aml_cec.h @@ -0,0 +1,86 @@ +/* + * include/amlogic/aml_cec.h + * + * Copyright (C) 2012 AMLOGIC, INC. All Rights Reserved. + * Author: hongmin hua + * + * This program is free software; you can redistribute it and/or modify + * it under the smems of the GNU General Public License as published by + * the Free Software Foundation; version 2 of the License. + */ + + +#ifndef _AML_CEC_H +#define _AML_CEC_H + +/* + * CEC OPCODES + */ +#define CEC_OC_ABORT_MESSAGE 0xFF +#define CEC_OC_ACTIVE_SOURCE 0x82 +#define CEC_OC_CEC_VERSION 0x9E +#define CEC_OC_CLEAR_ANALOGUE_TIMER 0x33 +#define CEC_OC_CLEAR_DIGITAL_TIMER 0x99 +#define CEC_OC_CLEAR_EXTERNAL_TIMER 0xA1 +#define CEC_OC_DECK_CONTROL 0x42 +#define CEC_OC_DECK_STATUS 0x1B +#define CEC_OC_DEVICE_VENDOR_ID 0x87 +#define CEC_OC_FEATURE_ABORT 0x00 +#define CEC_OC_GET_CEC_VERSION 0x9F +#define CEC_OC_GET_MENU_LANGUAGE 0x91 +#define CEC_OC_GIVE_AUDIO_STATUS 0x71 +#define CEC_OC_GIVE_DECK_STATUS 0x1A +#define CEC_OC_GIVE_DEVICE_POWER_STATUS 0x8F +#define CEC_OC_GIVE_DEVICE_VENDOR_ID 0x8C +#define CEC_OC_GIVE_OSD_NAME 0x46 +#define CEC_OC_GIVE_PHYSICAL_ADDRESS 0x83 +#define CEC_OC_GIVE_SYSTEM_AUDIO_MODE_STATUS 0x7D +#define CEC_OC_GIVE_TUNER_DEVICE_STATUS 0x08 +#define CEC_OC_IMAGE_VIEW_ON 0x04 +#define CEC_OC_INACTIVE_SOURCE 0x9D +#define CEC_OC_MENU_REQUEST 0x8D +#define CEC_OC_MENU_STATUS 0x8E +#define CEC_OC_PLAY 0x41 +#define CEC_OC_POLLING_MESSAGE 0xFC /* Fake Code - has no OP Code and requires only the header byte */ +#define CEC_OC_RECORD_OFF 0x0B +#define CEC_OC_RECORD_ON 0x09 +#define CEC_OC_RECORD_STATUS 0x0A +#define CEC_OC_RECORD_TV_SCREEN 0x0F +#define CEC_OC_REPORT_AUDIO_STATUS 0x7A +#define CEC_OC_REPORT_PHYSICAL_ADDRESS 0x84 +#define CEC_OC_REPORT_POWER_STATUS 0x90 +#define CEC_OC_REQUEST_ACTIVE_SOURCE 0x85 +#define CEC_OC_ROUTING_CHANGE 0x80 +#define CEC_OC_ROUTING_INFORMATION 0x81 +#define CEC_OC_SELECT_ANALOGUE_SERVICE 0x92 +#define CEC_OC_SELECT_DIGITAL_SERVICE 0x93 +#define CEC_OC_SET_ANALOGUE_TIMER 0x34 +#define CEC_OC_SET_AUDIO_RATE 0x9A +#define CEC_OC_SET_DIGITAL_TIMER 0x97 +#define CEC_OC_SET_EXTERNAL_TIMER 0xA2 +#define CEC_OC_SET_MENU_LANGUAGE 0x32 +#define CEC_OC_SET_OSD_NAME 0x47 +#define CEC_OC_SET_OSD_STRING 0x64 +#define CEC_OC_SET_STREAM_PATH 0x86 +#define CEC_OC_SET_SYSTEM_AUDIO_MODE 0x72 +#define CEC_OC_SET_TIMER_PROGRAM_TITLE 0x67 +#define CEC_OC_STANDBY 0x36 +#define CEC_OC_SYSTEM_AUDIO_MODE_REQUEST 0x70 +#define CEC_OC_SYSTEM_AUDIO_MODE_STATUS 0x7E +#define CEC_OC_TEXT_VIEW_ON 0x0D +#define CEC_OC_TIMER_CLEARED_STATUS 0x43 +#define CEC_OC_TIMER_STATUS 0x35 +#define CEC_OC_TUNER_DEVICE_STATUS 0x07 +#define CEC_OC_TUNER_STEP_DECREMENT 0x06 +#define CEC_OC_TUNER_STEP_INCREMENT 0x05 +#define CEC_OC_USER_CONTROL_PRESSED 0x44 +#define CEC_OC_USER_CONTROL_RELEASED 0x45 +#define CEC_OC_VENDOR_COMMAND 0x89 +#define CEC_OC_VENDOR_COMMAND_WITH_ID 0xA0 +#define CEC_OC_VENDOR_REMOTE_BUTTON_DOWN 0x8A +#define CEC_OC_VENDOR_REMOTE_BUTTON_UP 0x8B + +int cec_hw_init(int logic_addr, unsigned char fun_cfg); + +#endif/*_AML_CEC_H*/ + diff --git a/include/amlogic/aml_efuse.h b/include/amlogic/aml_efuse.h new file mode 100644 index 0000000000..4dece0725d --- /dev/null +++ b/include/amlogic/aml_efuse.h @@ -0,0 +1,79 @@ + +/* + * + * Copyright (C) 2018 Amlogic, Inc. All rights reserved. +*/ + +#ifndef __BL2_EFUSE_H__ +#define __BL2_EFUSE_H__ + +#if 0 +//just keep following CFG10/9 for new API implement +#define IS_FEAT_USB_PD_CHK_ENABLE() (readl(AO_SEC_SD_CFG10) & (1 << 1)) +#define IS_FEAT_THERMAL_CALIBRATED() (readl(AO_SEC_SD_CFG10) & (1 << 2)) +#define IS_FEAT_BOOT_VERIFY() (readl(AO_SEC_SD_CFG10) & (1 << 4)) +#define IS_FEAT_ROOT_KEY_BURNED() (readl(AO_SEC_SD_CFG10) & (1 << 5)) +#define IS_FEAT_PLL_SET_BURNED() (readl(AO_SEC_SD_CFG10) & (1 << 6)) +#define IS_FEAT_M3_PLL_ENABLE() (readl(AO_SEC_SD_CFG10) & (1 << 7)) +#define IS_FEAT_M4_PLL_ENABLE() (readl(AO_SEC_SD_CFG10) & (1 << 7)) +#define IS_FEAT_A53_PLL_ENABLE() (readl(AO_SEC_SD_CFG10) & (1 << 8)) +#define IS_FEAT_NAMD_EXT_CMD_BURNED() (readl(AO_SEC_SD_CFG10) & (1 << 9)) +#define IS_FEAT_JTG_PD_CHK_ENABLE() (readl(AO_SEC_SD_CFG10) & (1 << 11)) +#define IS_FEAT_JTG_ENABLE() (readl(AO_SEC_SD_CFG10) & (1 << 12)) +#define IS_FEAT_CHIP_ID_BURNED (readl(AO_SEC_SD_CFG10) & (1 << 13)) +#define IS_FEAT_DTS_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 14)) +#define IS_FEAT_DISK_ENC_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 15)) +#define IS_FEAT_DOLBY_AUDIO_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 16)) +#define IS_FEAT_SCN_PD_CHK_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 17)) +#define IS_FEAT_USB_BOOT_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 19)) +#define IS_FEAT_SPI_BOOT_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 20)) +#define IS_FEAT_RECOVERY_BOOT_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 21)) +#define IS_FEAT_SD_BOOT_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 22)) +#define IS_FEAT_NAND_EMMC_BOOT_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 23)) +#define IS_FEAT_ANTIROLLBACK_ENABLE (readl(AO_SEC_SD_CFG10) & (1 << 25)) +#define IS_FEAT_BOOT_ENCRYPT() (readl(AO_SEC_SD_CFG10) & (1 << 28)) +#define IS_FEAT_A53_L1_ENABLE() (readl(AO_SEC_SD_CFG10) & (1 << 29)) +#define IS_FEAT_KEY_LDR_INIT() (readl(AO_SEC_SD_CFG10) & (1 << 30)) +#define IS_FEAT_AP_COLD_BOOT_LOCK() (readl(AO_SEC_SD_CFG10) & (1 << 31)) +#define IS_FEAT_BOOT_M3_ENCRYPT() (readl(AO_SEC_SD_CFG9) & (1 << 5)) +#define IS_FEAT_BOOT_M4_ENCRYPT() (readl(AO_SEC_SD_CFG9) & (1 << 6)) +#define IS_FEAT_NAND_BL2_BKP_RETRY() (readl(AO_SEC_SD_CFG9) & (1 << 10)) +#define IS_FEAT_EMMC_BL2_BKP_RETRY() (readl(AO_SEC_SD_CFG9) & (1 << 11)) +#define IS_FEAT_SCAN_DISABLE() (readl(AO_SEC_SD_CFG9) & (1 << 12)) +#define IS_FEAT_NAND_128P_DISABLE() (readl(AO_SEC_SD_CFG9) & (1 << 13)) +#define IS_FEAT_EMMC_LAST_ENABLE() (readl(AO_SEC_SD_CFG9) & (1 << 14)) +#define IS_FEAT_HIGH_USB_ENABLE() (readl(AO_SEC_SD_CFG9) & (1 << 15)) +#define IS_FEAT_BOOT_M3_VERIFY() (readl(AO_SEC_SD_CFG9) & (1 << 16)) +#define IS_FEAT_BOOT_M4_VERIFY() (readl(AO_SEC_SD_CFG9) & (1 << 17)) +#define IS_FEAT_CORNOR_INFO_BURNED() (readl(AO_SEC_SD_CFG9) & (1 << 19)) +#define IS_FEAT_SCK_BURNED() (readl(AO_SEC_SD_CFG9) & (1 << 20)) +#define IS_FEAT_BLK0_WR_LOCKED() (readl(AO_SEC_SD_CFG9) & (1 << 21)) +#define IS_FEAT_M4_DISABLE() (readl(AO_SEC_SD_CFG9) & (1 << 22)) +#define IS_FEAT_M4_SP_MODE_ENABLE() (readl(AO_SEC_SD_CFG9) & (1 << 23)) +#define IS_FEAT_A53_CLK_12G() (readl(AO_SEC_SD_CFG9) & (1 << 24)) +#define IS_FEAT_A53_CLK_15G() (readl(AO_SEC_SD_CFG9) & (1 << 25)) +#define IS_FEAT_A53_CLK_20G() (readl(AO_SEC_SD_CFG9) & (1 << 26)) +#define IS_FEAT_USB_PLL_ENABLE() (readl(AO_SEC_SD_CFG9) & (1 << 27)) +#define IS_FEAT_RMA_ENABLE() (readl(AO_SEC_SD_CFG9) & (1 << 28)) +#define IS_FEAT_OPS_CLI_BURNED() (readl(AO_SEC_SD_CFG9) & (1 << 29)) +#define IS_FEAT_M4_UNLOCK_ENABLE() (readl(AO_SEC_SD_CFG9) & (1 << 31)) +#define IS_FEAT_DISABLE_PRINT() (readl(EFUSE_LIC0) & (1 << 22))) +#endif + +//weak function for each SoC implement +//Unify EFUSE license query API +//all following functions are defined with "weak" for customization of each SoC +//EFUSE_LICX --> AO_SEC_SD_CFG10/9 --> EFUSE mirror +int IS_FEAT_BOOT_VERIFY(void); +int IS_FEAT_BOOT_ENCRYPT(void); +int IS_FEAT_DIS_EMMC_USER(void); +int IS_FEAT_DIS_EMMC_BOOT_0(void); +int IS_FEAT_DIS_EMMC_BOOT_1(void); +int IS_FEAT_EN_4BL2_SNOR(void); +int IS_FEAT_DIS_NBL2_SNOR(void); +int IS_FEAT_EN_8BL2_SNAND(void); +int IS_FEAT_DIS_NBL2_SNAND(void); +int IS_FEAT_DIS_8BL2_NAND(void); +int IS_FEAT_DIS_NBL2_NAND(void); + +#endif /* __BL2_EFUSE_H__ */ diff --git a/include/amlogic/aml_gpio.h b/include/amlogic/aml_gpio.h new file mode 100644 index 0000000000..c1e1ed1ef5 --- /dev/null +++ b/include/amlogic/aml_gpio.h @@ -0,0 +1,54 @@ +#ifndef __AML_GPIO__ +#define __AML_GPIO__ +#include +/** + * struct meson_reg_desc - a register descriptor + * + * @reg: register offset in the regmap + * @bit: bit index in register + * + * The structure describes the information needed to control pull, + * pull-enable, direction, etc. for a single pin + */ +struct meson_reg_desc { + unsigned int reg; + unsigned int bit; +}; + +/** + * enum meson_reg_type - type of registers encoded in @meson_reg_desc + */ +enum meson_reg_type { + REG_PULLEN, + REG_PULL, + REG_DIR, + REG_OUT, + REG_IN, + NUM_REG, +}; + + + + +struct meson_bank { + const char *name; + unsigned int first; + unsigned int last; + struct meson_reg_desc regs[NUM_REG]; +}; +#define GPIO_REG_BIT(reg, bit) ((reg<<5)|bit) +#define GPIO_REG(value) ((value>>5)) +#define GPIO_BIT(value) ((value&0x1F)) +//#define BIT(bit) (1< + * + * This program is free software; you can redistribute it and/or modify + * it under the smems of the GNU General Public License as published by + * the Free Software Foundation; version 2 of the License. + */ + +#ifndef _AML_HDMIRX_H +#define _AML_HDMIRX_H + +void hdmirx_hw_init(unsigned int port_map, + unsigned char *pedid_data, + int edid_size); + +#endif /* _AML_HDMIRX_H */ diff --git a/include/amlogic/aml_irblaster.h b/include/amlogic/aml_irblaster.h new file mode 100644 index 0000000000..b2c4ef703e --- /dev/null +++ b/include/amlogic/aml_irblaster.h @@ -0,0 +1,29 @@ +#ifndef __AML_IRBLATER_H +#define __AML_IRBLATER_H + +#define MAX_WINDOWS_LEN 512 +struct aml_irblaster_drv_s { + unsigned int protocol; + unsigned int frequency; + unsigned int sendvalue; + unsigned int windows[MAX_WINDOWS_LEN]; + unsigned int windows_num; + unsigned int dutycycle; + unsigned int openflag; + int (*open)(void); + int (*close)(void); + int (*test)(unsigned int); + int (*send)(unsigned int); + int (*setprotocol)(char *); + const char *(*getprocotol)(void); + int (*setfrequency)(unsigned int); + unsigned int (*getfrequency)(void); + void (*print_windows)(void); + int (*read_reg)(volatile unsigned int *, unsigned int); + int (*write_reg)(volatile unsigned int *, unsigned int); +}; + +struct aml_irblaster_drv_s *aml_irblaster_get_driver(void); +#endif + + diff --git a/include/amlogic/aml_is31fl32xx.h b/include/amlogic/aml_is31fl32xx.h new file mode 100644 index 0000000000..6211ebc956 --- /dev/null +++ b/include/amlogic/aml_is31fl32xx.h @@ -0,0 +1,9 @@ +#ifndef __AML_IS31F132XX +#define __AML_IS31F132XX + +#define IS31F132XX_DEVICE_ADDR 0x3c + +void board_is31fl32xx_init(void); +void board_is31fl32xx_light_on(void); + +#endif diff --git a/include/amlogic/aml_led.h b/include/amlogic/aml_led.h new file mode 100644 index 0000000000..b2f3bda3f7 --- /dev/null +++ b/include/amlogic/aml_led.h @@ -0,0 +1,68 @@ +#ifndef __AML_LED_H__ +#define __AML_LED_H__ + +#define LED_TIMER_INTERVAL 10 //ms + +#define LED_EVENT_NULL 0 +#define LED_EVENT_OFF 1 +#define LED_EVENT_ON 2 +#define LED_EVENT_FLASH 3 +#define LED_EVENT_BREATH 4 + +#define SHUTDOWN_MODE 0 +#define SUSPEND_RESUME_MODE 1 +#define RECOVERY_MODE 2 + + +enum led_workmode { + LWM_OFF, + LWM_ON, + LWM_FLASH, + LWM_BREATH, + LWM_NULL, +}; + +/* s,b,w type is enum led_workmode */ +#define lwm_set_standby(mode, s) do {mode |= (s) << 0;} while(0) +#define lwm_set_booting(mode, b) do {mode |= (b) << 4;} while(0) +#define lwm_set_working(mode, w) do {mode |= (w) << 8;} while(0) +#define lwm_set_suspend(mode, s) do {mode |= (s) << 12;} while(0) + +#define lwm_get_standby(mode) (((mode) >> 0) & 0xF) +#define lwm_get_booting(mode) (((mode) >> 4) & 0xF) +#define lwm_get_working(mode) (((mode) >> 8) & 0xF) +#define lwm_get_suspend(mode) (((mode) >> 12) & 0xF) + +struct coord { + int x; + int y; +}; + +struct aml_led_config { + int off_brightness; + int on_brightness; + int flash_off_brightness; + int flash_off_time; + int flash_on_brightness; + int flash_on_time; + struct coord *breath_inflections; + int breath_inflections_num; + void (*set_brightness)(int brightness); +}; + +#define LED_EVENT_BUF_SIZE 3 +struct aml_led { + int event[LED_EVENT_BUF_SIZE]; + int event_data[LED_EVENT_BUF_SIZE]; + int state; + int brightness; + int time; + int count; + struct aml_led_config *config; +}; + +void aml_led_init(struct aml_led *led, struct aml_led_config *config); +void aml_led_timer_proc(struct aml_led *led); +void aml_led_event(struct aml_led *led, int event, int event_data); + +#endif \ No newline at end of file diff --git a/include/amlogic/aml_mmc.h b/include/amlogic/aml_mmc.h new file mode 100644 index 0000000000..4d7801c04e --- /dev/null +++ b/include/amlogic/aml_mmc.h @@ -0,0 +1,105 @@ +/* + * Copyright (C) 2017 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * yonghui.yu@amlogic.com + */ + + +#ifndef __AML_MMC_H__ +#define __AML_MMC_H__ + +#include + + +/* bootloader operation */ +#define AML_BL_USER (0x1 << 0) +#define AML_BL_BOOT0 (0x1 << 1) +#define AML_BL_BOOT1 (0x1 << 2) +#define AML_BL_BOOT (0x6) +#define AML_BL_ALL (0x7) + +/** For actul partitions with mask 8 store into bootinfo + * name: partition name. + * addr: sector addr of the partition + * size: sector cont of the partition +*/ +struct part_property +{ + char name[8]; + uint32_t addr; + uint32_t size; +}; +#define PART_PROPERTY_SIZE sizeof(struct part_property) +#define BOOTINFO_MAX_PARTITIONS (4) +#define BOOTINFO_PARITIONS_SIZE (PART_PROPERTY_SIZE * BOOTINFO_MAX_PARTITIONS) + + +#define VPART_PROPERTY_SIZE sizeof(struct vpart_property) +struct vpart_property { + u32 addr; + u32 size; +}; + +/* + * sizeof(struct storage_emmc_boot_info) is strictly + * smaller than or equal to one sector. we will bind + * it in one sector with u-boot.bin together and + * write into boot loader area. + * @rsv_base_addr : the sector address of reserved area + * @dtb : the sector address and size of dtb property + * @ddr : the sector address and size of ddr property + */ +#define EMMC_BOOT_INFO_SIZE 512 +struct storage_emmc_boot_info { + u32 version; + u32 rsv_base_addr; + struct vpart_property dtb; + struct vpart_property ddr; + + struct part_property parts[BOOTINFO_MAX_PARTITIONS]; + uint8_t reserved[512 - 2 * VPART_PROPERTY_SIZE - BOOTINFO_PARITIONS_SIZE - 12]; + u32 checksum; +}; + +int amlmmc_write_bootloader(int dev, int map, + unsigned int size, const void *src); +int amlmmc_erase_bootloader(int dev, int map); + + +/* interface on reserved area. */ +void mmc_write_cali_mattern(void *addr); + +/* dtb operation */ +int dtb_write(void *addr); + +/* emmc key operation */ +int mmc_key_read(unsigned char *buf, + unsigned int size, uint32_t *actual_lenth); +int mmc_key_write(unsigned char *buf, + unsigned int size, uint32_t *actual_lenth); +int mmc_key_erase(void); + +/* partition operation */ +int renew_partition_tbl(unsigned char *buffer); +int find_dev_num_by_partition_name (char const *name); + +#ifdef CONFIG_AML_PARTITION +int emmc_update_mbr(unsigned char *buffer); +#endif + +/*mmc ext_csd register operation*/ +int mmc_get_ext_csd(struct mmc *mmc, u8 *ext_csd); +int mmc_set_ext_csd(struct mmc *mmc, u8 index, u8 value); + + + +#endif /* __AML_MMC_H__ */ diff --git a/include/amlogic/aml_mtd.h b/include/amlogic/aml_mtd.h new file mode 100644 index 0000000000..4eb17e4fa2 --- /dev/null +++ b/include/amlogic/aml_mtd.h @@ -0,0 +1,31 @@ +/* SPDX-License-Identifier: GPL-2.0+ */ +/* + * Header file of amlogic mtd driver + * + * Copyright (C) 2018 Amlogic Corporation + * + * Licensed under the GPL-2 or later. + * + */ + +#ifndef __AMLMTD_H_ +#define __AMLMTD_H_ +#define BOOT_TOTAL_PAGES 1024 + +#define CONFIG_BL2_COPY_NUM 8 +#define CONFIG_TPL_SIZE_PER_COPY 0x200000 +#define CONFIG_NOR_TPL_COPY_NUM 1 //for spi-nor +#define CONFIG_NAND_TPL_COPY_NUM 4 // for slc & spi-nand + +#define BOOT_LOADER "bootloader" +#define BOOT_BL2 "bl2" +#define BOOT_SPL "spl" +#define BOOT_BL2E "bl2e" +#define BOOT_BL2X "bl2x" +#define BOOT_DDRFIP "ddrfip" +#define BOOT_DEVFIP "devfip" +#define BOOT_TPL "tpl" +#define BOOT_FIP "fip" +#define MAX_MTD_CNT 2 + +#endif/* __AMLMTD_H_ */ diff --git a/include/amlogic/aml_nand.h b/include/amlogic/aml_nand.h new file mode 100644 index 0000000000..8be3974681 --- /dev/null +++ b/include/amlogic/aml_nand.h @@ -0,0 +1,24 @@ +/* + * Copyright (C) 2017 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + */ +#ifndef __AML_NAND_H__ +#define __AML_NAND_H__ + +int amlnf_dtb_save(u8 *buf, unsigned int len); +int amlnf_dtb_erase(void); +int get_boot_num(struct mtd_info *mtd, size_t rwsize); + +/*#define RESERVED_BLOCK_NUM 48*/ + +#endif/* __AML_NAND_H__ */ diff --git a/include/amlogic/aml_rsv.h b/include/amlogic/aml_rsv.h new file mode 100644 index 0000000000..7e17c83435 --- /dev/null +++ b/include/amlogic/aml_rsv.h @@ -0,0 +1,106 @@ +/* SPDX-License-Identifier: GPL-2.0+ */ +/* + * Header file of amlogic reserve manager + * + * Copyright (C) 2018 Amlogic Corporation + * + * Licensed under the GPL-2 or later. + * + */ + +#ifndef __MESON_RSV_H_ +#define __MESON_RSV_H_ + +#define NAND_RSV_BLOCK_NUM 48 + +#define NAND_GAP_BLOCK_NUM 4 +#define NAND_BBT_BLOCK_NUM 4 +#define NAND_ENV_BLOCK_NUM 8 +#define NAND_KEY_BLOCK_NUM 8 +#define NAND_DTB_BLOCK_NUM 4 + +#define BBT_NAND_MAGIC "nbbt" +#define ENV_NAND_MAGIC "nenv" +#define KEY_NAND_MAGIC "nkey" +#define SEC_NAND_MAGIC "nsec" +#define DTB_NAND_MAGIC "ndtb" + +/*define abnormal state for reserved area*/ +#define POWER_ABNORMAL_FLAG 0x01 +#define ECC_ABNORMAL_FLAG 0x02 + + +struct meson_rsv_info_t { + struct mtd_info *mtd; + struct valid_node_t *nvalid; + struct free_node_t *nfree; + unsigned int start; + unsigned int end; + unsigned int size; + char name[8]; + u_char valid; + u_char init; + void *handler; +}; + +struct valid_node_t { + s16 ec; + s16 blk_addr; + s16 page_addr; + int timestamp; + s16 status; +}; + +struct free_node_t { + unsigned int index; + s16 ec; + s16 blk_addr; + int dirty_flag; + struct free_node_t *next; +}; + +struct oobinfo_t { + char name[4]; + s16 ec; + unsigned timestamp:15; + unsigned status_page:1; +}; + +struct meson_rsv_handler_t { + struct mtd_info *mtd; + unsigned long long fn_bitmask; + struct free_node_t *free_node[NAND_RSV_BLOCK_NUM]; + struct meson_rsv_info_t *bbt; +#ifndef CONFIG_ENV_IS_IN_NAND + struct meson_rsv_info_t *env; +#endif + struct meson_rsv_info_t *key; + struct meson_rsv_info_t *dtb; + void *priv; +}; + +int meson_rsv_bbt_read(u_char *dest, size_t size); +int meson_rsv_key_read(u_char *dest, size_t size); +int meson_rsv_env_read(u_char *dest, size_t size); +int meson_rsv_dtb_read(u_char *dest, size_t size); +/* do not provide bbt write operates */ +int meson_rsv_key_write(u_char *source, size_t size); +int meson_rsv_env_write(u_char *source, size_t size); +int meson_rsv_dtb_write(u_char *source, size_t size); +uint32_t meson_rsv_bbt_size(void); +uint32_t meson_rsv_key_size(void); +uint32_t meson_rsv_env_size(void); +uint32_t meson_rsv_dtb_size(void); +/* do not provide bbt erase operates */ +int meson_rsv_key_erase(void); +int meson_rsv_env_erase(void); +int meson_rsv_dtb_erase(void); +int meson_rsv_check(struct meson_rsv_info_t *rsv_info); +int meson_rsv_init(struct mtd_info *mtd, struct meson_rsv_handler_t *handler); +int meson_rsv_scan(struct meson_rsv_info_t *rsv_info); +int meson_rsv_read(struct meson_rsv_info_t *rsv_info, u_char *buf); +int meson_rsv_save(struct meson_rsv_info_t *rsv_info, u_char *buf); +int meson_rsv_write(struct meson_rsv_info_t *rsv_info, u_char *buf); +int meson_rsv_erase_protect(struct meson_rsv_handler_t *handler, +uint32_t block_addr); +#endif/* __MESON_RSV_H_ */ diff --git a/include/amlogic/aml_tlv.h b/include/amlogic/aml_tlv.h new file mode 100644 index 0000000000..93fa0a305f --- /dev/null +++ b/include/amlogic/aml_tlv.h @@ -0,0 +1,157 @@ +/* + * Copyright (C) 2018 Amlogic, Inc. All rights reserved. + * + * All information contained herein is Amlogic confidential. + * + * This software is provided to you pursuant to Software License Agreement + * (SLA) with Amlogic Inc ("Amlogic"). This software may be used + * only in accordance with the terms of this agreement. + * + * Redistribution and use in source and binary forms, with or without + * modification is strictly prohibited without prior written permission from + * Amlogic. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + * Created by haixiang.bao@amlogic.com + * + * Revision history: 1. 2018.05.31 v0.1 init for transfer data from BL2 to BL3X + * + */ + + +#ifndef __AMLOGIC_TLV_H_ +#define __AMLOGIC_TLV_H_ + +typedef struct __s_bl2_tlv_item_t{ + unsigned int nType; //type: user defined, should sync between BL2 and BL3X + unsigned int nLength; //length: length of szContent, no alignment + unsigned int nStoreLength; //length: length of szContent, alignment to 16 + unsigned char szRserved1[4];//reserved for future + struct __s_bl2_tlv_item_t * pNextItem;//next item, list for fetch all quickly + unsigned char szContent[4]; //data transfered from BL2 +}s_bl2_tlv_item_t; + +typedef struct __s_bl2_to_bl3x_hdr_t{ + unsigned int nMagic; //magic for identify itself, AML_BL2_TMASTER_MAGIC (@BL2) + unsigned int nVersion; //version for control + unsigned int nHeadSize; //sizeof(this) + unsigned char szRserved1[4]; //reserved for furture + + unsigned char szBL2Info[96]; //BL2 build information + + s_bl2_tlv_item_t * pNextBlob; //next active valid blob item + unsigned int nTLVCount; //current valid TLV item number + unsigned int nTotalSize; //total size of all TLV items + unsigned char szSHA2TLV[32]; //SHA2 of all TLV items, size is nTotalSize + +} s_bl2_to_bl3x_hdr_t; + +typedef struct __s_bl2_to_bl3x_send_t{ + + s_bl2_to_bl3x_hdr_t hdr; + + unsigned char szSHA2Head[32]; + + s_bl2_tlv_item_t blob[1]; + +} s_bl2_to_bl3x_send_t; + +typedef enum{ + e_ok_ret = 0, + + e_err_not_support = 0x01, + + e_err_no_item = 0x10, + e_err_sha_hdr = 0x11, + e_err_sha_tlv = 0x12, + + e_err_in_data = 0x20, + e_err_in_size = 0x21, + e_err_over_size=0x22, + e_err_item_exit=0x23, + +}e_ret_type; + +typedef enum{ + e_t_ap_ver = 0x10, + e_t_scp_ver = 0x11, + e_t_sp_ver = 0x12, + e_t_bl2z_ver = 0x13, + e_t_bl30_ver = 0x14, + e_t_bl301_ver = 0x15, + e_t_bl31_ver = 0x16, + e_t_bl32_ver = 0x17, + e_t_bl33_ver = 0x18, + + e_t_root_aes = 0x20, + e_t_root_rsa_sha_all = 0x21, + e_t_root_rsa_sha = 0x22, + e_t_root_rsa_puk = 0x23, + + e_t_user_aes = 0x30, + e_t_user_rsa_sha_all = 0x31, + e_t_user_rsa_sha = 0x32, + e_t_user_rsa_puk = 0x33, + + e_t_bl30_rsa_puk = 0x50, + e_t_bl30_aes = 0x51, + + e_t_bl31_rsa_puk = 0x60, + e_t_bl31_aes = 0x61, + + e_t_bl32_rsa_puk = 0x70, + e_t_bl32_aes = 0x71, + + e_t_bl33_rsa_puk = 0x80, + e_t_bl33_aes = 0x81, + + + //.... + +}e_item_type; + + +//magic ID +#define AML_BL2_TMASTER_MAGIC (0x324c4240) //@BL2 + +//major & minor version +#define AML_BL2_TMASTER_MAJ_VER (0x00) //major version +#define AML_BL2_TMASTER_MIN_VER (0x01) //minor version +#define AML_BL2_TMASTER_VERSION ((AML_BL2_TMASTER_MAJ_VER << 16) |\ + AML_BL2_TMASTER_MIN_VER) //major << 16 | minor version + +//item data length alignment +#define AML_BL2_TMASTER_ITEM_UNIT_LEN (16) +#define AML_BL2_TMASTER_ITEM_ALIGN_LEN(len) ((len) + (AML_BL2_TMASTER_ITEM_UNIT_LEN-1)) & (~(AML_BL2_TMASTER_ITEM_UNIT_LEN-1)) + +//CFG reg to store DDR address +#define AML_BL2_TMASTER_CFG_REG (AO_SEC_GP_CFG6) + +//DDR buffer size +#ifndef AML_BL2_TMASTER_DDR_MLEN +#define AML_BL2_TMASTER_DDR_MLEN ((1<<20) - sizeof(s_bl2_to_bl3x_send_t)) //1MB for transfer data from BL2 to BL3X +#endif + +//flag to pass BL2 build info to BL3X +//#define CONFIG_AML_TLV_BL2_VER_INFO + +//IMPORTANT: BECAUSE THOSE FUNCTIONS WILL USE DDR AS STORAGE(DEFAULT) THEN +// ALL THE APIS MSUT BE USED AFTER DDR INIT DONE +//global APIs to pad & fetch item +//pad item with data, type and length +e_ret_type aml_append_item(unsigned int nType, unsigned int nLength, unsigned char *pData); +//fetch item with type +e_ret_type aml_fetch_item(unsigned int nType, s_bl2_tlv_item_t **ppItem); + +#endif /* __AMLOGIC_TLV_H_ */ diff --git a/include/amlogic/aml_v2_burning.h b/include/amlogic/aml_v2_burning.h new file mode 100644 index 0000000000..1ecdad65b0 --- /dev/null +++ b/include/amlogic/aml_v2_burning.h @@ -0,0 +1,31 @@ +/* + * \file aml_v2_burning.h + * \brief common interfaces for version burning + * + * \version 1.0.0 + * \date 09/15/2013 + * \author Sam.Wu + * + * Copyright (c) 2013 Amlogic. All Rights Reserved. + * + */ + +//is the uboot loaded from usb otg +int is_tpl_loaded_from_usb(void); + +//is the uboot loaded from sdcard mmc 0 +//note only sdmmc supported by romcode when external device boot +int is_tpl_loaded_from_ext_sdmmc(void); + +//Check if uboot loaded from external sdmmc or usb otg +int aml_burn_check_uboot_loaded_for_burn(int flag); + +int aml_burn_factory_producing(int flag, bd_t* bis); + +//usb producing mode, if tpl loaded from usb pc tool and auto enter producing mode +int aml_try_factory_usb_burning(int flag, bd_t* bis); + +//Auto enter sdcard burning if booted from sdcard and aml_sdc_burn.ini existed +int aml_try_factory_sdcard_burning(int flag, bd_t* bis); + + diff --git a/include/amlogic/aml_v3_burning.h b/include/amlogic/aml_v3_burning.h new file mode 100644 index 0000000000..545ef33b1c --- /dev/null +++ b/include/amlogic/aml_v3_burning.h @@ -0,0 +1,14 @@ +/* + * \file aml_v3_burning.h + * \brief v3 burning entry + * + * \version 1.0.0 + * \date 2018/12/20 + * \author Sam.Wu + * + * Copyright (c) 2018 Amlogic. All Rights Reserved. + * + */ + +int aml_v3_factory_usb_burning(int flag, bd_t* bis); + diff --git a/include/amlogic/amlkey_if.h b/include/amlogic/amlkey_if.h new file mode 100644 index 0000000000..d15bbe7eee --- /dev/null +++ b/include/amlogic/amlkey_if.h @@ -0,0 +1,85 @@ +/* + * \file amlkey_if.h + * \brief APIs of secure key for users + * + * \version 1.0.0 + * \date 15/07/10 + * \author Sam.Wu + * + * Copyright (c) 2015 Amlogic. All Rights Reserved. + * + */ +#ifndef __AMLKEY_IF_H__ +#define __AMLKEY_IF_H__ + +#define AMLKEY_NAME_LEN_MAX (80) + +struct amlkey_if { + int32_t (*init)(uint8_t *seed, uint32_t len, int encrypt_type); + int32_t (*exsit)(const uint8_t *name); + ssize_t (*size)(const uint8_t *name); + uint32_t (*get_attr)(const uint8_t *name); + ssize_t (*read)(const uint8_t *name, uint8_t *buffer, uint32_t len); + ssize_t (*write)(const uint8_t *name, uint8_t *buffer, uint32_t len, uint32_t attr); + int32_t (*hash)(const uint8_t *name, uint8_t *hash); +}; + +extern struct amlkey_if *amlkey_if; + +static inline uint32_t amlkey_get_attr(const uint8_t *name) +{ + return amlkey_if->get_attr(name); +} + +int amlkey_if_init(const void* dt_addr); + +//1.init +static inline int32_t amlkey_init(uint8_t *seed, uint32_t len, int encrypt_type) +{ + return amlkey_if->init(seed, len, encrypt_type); +} + +//2. query if the key already programmed, exsit 1, non 0 +static inline int32_t amlkey_isexsit(const uint8_t * name) +{ + return amlkey_if->exsit(name); +} + +//3. query attr, key must exsit before those functions were called. + //3.1 whether the prgrammed key is secure, secure 1, non 0 +int32_t amlkey_issecure(const uint8_t * name); + + //3.2 whether the prgrammed key is encrypt, encrypt 1, non 0 +int32_t amlkey_isencrypt(const uint8_t * name); + +//4. actual bytes of key value +static inline ssize_t amlkey_size(const uint8_t *name) +{ + return amlkey_if->size(name); +} + +//5. read non-secure key in bytes, return byets readback actully. +static inline ssize_t amlkey_read(const uint8_t *name, uint8_t *buffer, uint32_t len) +{ + return amlkey_if->read(name, buffer, len); +} + +//6.write key with attribute in bytes , return byets readback actully + //attr: bit0: secure/non-secure; + // bit8: encrypt/non-encrypt +#define UNIFYKEY_ATTR_SECURE_MASK (1<<0) +#define UNIFYKEY_ATTR_ENCRYPT_MASK (1<<8) +static inline ssize_t amlkey_write(const uint8_t *name, uint8_t *buffer, uint32_t len, + uint32_t attr) +{ + return amlkey_if->write(name, buffer, len, attr); +} + +//7. get the hash value of programmed secure key | 32bytes length, sha256 +static inline int32_t amlkey_hash_4_secure(const uint8_t *name, uint8_t *hash) +{ + return amlkey_if->hash(name, hash); +} + +#endif// #ifndef __AMLKEY_IF_H__ + diff --git a/include/amlogic/anti-rollback.h b/include/amlogic/anti-rollback.h new file mode 100644 index 0000000000..95d42651ea --- /dev/null +++ b/include/amlogic/anti-rollback.h @@ -0,0 +1,40 @@ +/* + * Copyright (C) 2014-2017 Amlogic, Inc. All rights reserved. + * + * All information contained herein is Amlogic confidential. + * + * This software is provided to you pursuant to Software License Agreement + * (SLA) with Amlogic Inc ("Amlogic"). This software may be used + * only in accordance with the terms of this agreement. + * + * Redistribution and use in source and binary forms, with or without + * modification is strictly prohibited without prior written permission from + * Amlogic. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef __ANTI_ROLLBACK_ +#define __ANTI_ROLLBACK_ + +#include + +bool check_antirollback(uint32_t kernel_version); + +bool set_avb_antirollback(uint32_t index, uint32_t version); +bool get_avb_antirollback(uint32_t index, uint32_t* version); +bool get_avb_lock_state(uint32_t* lock_state); +bool avb_lock(void); +bool avb_unlock(void); + +#endif diff --git a/include/amlogic/asm/bl31_apis.h b/include/amlogic/asm/bl31_apis.h new file mode 100644 index 0000000000..4227494b93 --- /dev/null +++ b/include/amlogic/asm/bl31_apis.h @@ -0,0 +1,166 @@ + +/* + * arch/arm/include/asm/arch-txl/bl31_apis.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +/* + * Trustzone API + * + * Copyright (C) 2012 Amlogic, Inc. + * + * Author: Platform-SH@amlogic.com + * + */ + +#ifndef __GXBB_BL31_APIS_H +#define __GXBB_BL31_APIS_H + +#include + +/*#define SRAM_READ 0x82000010 +#define CORE_RD_REV1 0x82000011 +#define SRAM_ACS_READ 0x82000012 +#define SRAM_ACS_INDIRECT_READ 0x82000013*/ + +#define GET_SHARE_MEM_INPUT_BASE 0x82000020 +#define GET_SHARE_MEM_OUTPUT_BASE 0x82000021 +#define GET_REBOOT_REASON 0x82000022 +#define GET_SHARE_STORAGE_IN_BASE 0x82000023 +#define GET_SHARE_STORAGE_OUT_BASE 0x82000024 +#define GET_SHARE_STORAGE_BLOCK_BASE 0x82000025 +#define GET_SHARE_STORAGE_MESSAGE_BASE 0x82000026 +#define GET_SHARE_STORAGE_BLOCK_SIZE 0x82000027 +#define SET_STORAGE_INFO 0x82000028 +#define SET_REBOOT_REASON 0x82000049 + +/* Set Reboot Reason then Reboot*/ +#define PSCI_SYS_REBOOT 0x84000009 + +/* SECUREOS DEFINITION*/ +/* SMC Identifiers for non-secure world functions */ +#define CALL_TRUSTZONE_HAL_API 0x5 + +/* EFUSE */ +#define EFUSE_READ 0x82000030 +#define EFUSE_WRITE 0x82000031 +#define EFUSE_WRITE_PATTERN 0x82000032 +#define EFUSE_USER_MAX 0x82000033 + +#define DEBUG_EFUSE_WRITE_PATTERN 0x820000F0 +#define DEBUG_EFUSE_READ_PATTERN 0x820000F1 + +/* JTAG*/ +#define JTAG_ON 0x82000040 +#define JTAG_OFF 0x82000041 + +#define SET_USB_BOOT_FUNC 0x82000043 + /* USB BOOT FUNC sub command list*/ + #define CLEAR_USB_BOOT 1 + #define FORCE_USB_BOOT 2 + #define RUN_COMD_USB_BOOT 3 + #define PANIC_DUMP_USB_BOOT 4 + +#define GET_CHIP_ID 0x82000044 +/* Security Key*/ +#define SECURITY_KEY_QUERY 0x82000060 +#define SECURITY_KEY_READ 0x82000061 +#define SECURITY_KEY_WRITE 0x82000062 +#define SECURITY_KEY_TELL 0x82000063 +#define SECURITY_KEY_VERIFY 0x82000064 +#define SECURITY_KEY_STATUS 0x82000065 +#define SECURITY_KEY_NOTIFY 0x82000066 +#define SECURITY_KEY_LIST 0x82000067 +#define SECURITY_KEY_REMOVE 0x82000068 +#define SECURITY_KEY_NOTIFY_EX 0x82000069 +#define SECURITY_KEY_SET_ENCTYPE 0x8200006A +#define SECURITY_KEY_GET_ENCTYPE 0x8200006B +#define SECURITY_KEY_VERSION 0x8200006C + +/*viu probe en*/ +#define VIU_PREOBE_EN 0x82000080 + +/* KEYMASTER */ +#define SET_BOOT_PARAMS 0x82000072 +#define SHA256_DIGEST_SIZE 32 +typedef struct { + uint32_t device_locked; + uint32_t verified_boot_state; + uint8_t verified_boot_key[SHA256_DIGEST_SIZE]; + uint8_t verified_boot_hash[SHA256_DIGEST_SIZE]; +} keymaster_boot_params; + +/* Secure HAL APIs */ +#define TRUSTZONE_HAL_API_SRAM 0x400 + + +#define SRAM_HAL_API_CHECK_EFUSE 0x403 +struct sram_hal_api_arg { + unsigned int cmd; + unsigned int req_len; + unsigned int res_len; + unsigned long req_phy_addr; + unsigned long res_phy_addr; + unsigned long ret_phy_addr; +}; + +#define JTAG_STATE_ON 0 +#define JTAG_STATE_OFF 1 +#define JTAG_M3_AO 0 +#define JTAG_M3_EE 1 +#define JTAG_A53_AO 2 +#define JTAG_A53_EE 3 +#define CLUSTER_BIT 2 + +#define GET_AVBKEY_FROM_FIP 0x820000b0 + +///////////////////////////////////////////////////////////////////////////////// +#define AML_DATA_PROCESS (0x820000FF) + #define AML_D_P_W_EFUSE_SECURE_BOOT (0x10) + #define AML_D_P_W_EFUSE_PASSWORD (0x11) + #define AML_D_P_W_EFUSE_CUSTOMER_ID (0x12) + #define AML_D_P_W_EFUSE_AMLOGIC (0x20) + #define AML_D_P_IMG_DECRYPT (0x40) + #define AML_D_P_UPGRADE_CHECK (0x80) + #define AML_D_Q_IMG_SIG_HDR_SIZE (0x100) + +#define GXB_EFUSE_PATTERN_SIZE (0x500) +#define GXB_IMG_SIZE (24<<20) +#define GXB_IMG_LOAD_ADDR (0x1080000) + #define GXB_IMG_DEC_KNL (1<<0) + #define GXB_IMG_DEC_RMD (1<<1) + #define GXB_IMG_DEC_DTB (1<<2) + #define GXB_IMG_DEC_ALL (GXB_IMG_DEC_KNL|GXB_IMG_DEC_RMD|GXB_IMG_DEC_DTB) + +#define __asmeq(x, y) ".ifnc " x "," y " ; .err ; .endif\n\t" + +void aml_set_jtag_state(unsigned state, unsigned select); +unsigned aml_get_reboot_reason(void); +unsigned aml_reboot(uint64_t function_id, uint64_t arg0, uint64_t arg1, uint64_t arg2); +void aml_set_reboot_reason(uint64_t function_id, uint64_t arg0, uint64_t arg1, uint64_t arg2); +unsigned long aml_sec_boot_check(unsigned long ,unsigned long ,unsigned long,unsigned long ); +long get_sharemem_info(unsigned long); +void set_usb_boot_function(unsigned long command); +void aml_system_off(void); + +void bl31_get_chipid(unsigned int *, unsigned int *, + unsigned int *, unsigned int *); +void set_viu_probe_enable(void); +int32_t set_boot_params(const keymaster_boot_params*); +int32_t get_avbkey_from_fip(uint8_t *buf, uint32_t buflen); +#endif diff --git a/include/amlogic/asm/clock.h b/include/amlogic/asm/clock.h new file mode 100644 index 0000000000..3a24778206 --- /dev/null +++ b/include/amlogic/asm/clock.h @@ -0,0 +1,41 @@ +/* SPDX-License-Identifier: GPL-2.0+ */ +/* + * Copyright 2018 - AmLogic, Inc. + */ +#ifndef _ARCH_MESON_G12A_CLOCK_H_ +#define _ARCH_MESON_G12A_CLOCK_H_ + +/* + * Clock controller register offsets + * + * Register offsets from the data sheet are listed in comment blocks below. + * Those offsets must be multiplied by 4 before adding them to the base address + * to get the right value + */ + +#define HHI_GCLK_MPEG0 0x140 /* 0x50 offset in data sheet1 */ +#define HHI_GCLK_MPEG1 0x144 /* 0x51 offset in data sheet1 */ +#define HHI_GCLK_MPEG2 0x148 /* 0x52 offset in data sheet1 */ +#define HHI_GCLK_OTHER 0x150 /* 0x54 offset in data sheet1 */ +#define HHI_FIX_PLL_CNTL0 0x2A0 /* 0xa8 offset in data sheet1 */ +#define HHI_FIX_PLL_CNTL1 0x2A4 /* 0xa9 offset in data sheet1 */ +#define HHI_SYS_PLL_CNTL0 0x2f4 /* 0xbd offset in data sheet1 */ +#define HHI_SYS_PLL_CNTL1 0x2f8 /* 0xbe offset in data sheet1 */ +#define HHI_SYS_PLL_CNTL2 0x2fc /* 0xbf offset in data sheet1 */ +#define HHI_SYS_PLL_CNTL3 0x300 /* 0xc0 offset in data sheet1 */ +#define HHI_SYS_PLL_CNTL4 0x304 /* 0xc1 offset in data sheet1 */ +#define HHI_SYS_PLL_CNTL5 0x308 /* 0xc2 offset in data sheet1 */ +#define HHI_SYS_PLL_CNTL6 0x30c /* 0xc3 offset in data sheet1 */ +#define HHI_SPICC_CLK_CNTL 0x3dc /* 0xf7 offset in data sheet1 */ +#define HHI_NAND_CLK_CNTL 0x25c /* 0x97 offset in data sheet1 */ +#define HHI_SD_EMMC_CLK_CNTL 0x264 /* 0x99 offset in data sheet1 */ + +#define CLKID_UNREALIZED 0xfff + +/* AO registers */ +#define AO_SAR_CLK 0x90 +#define AO_CLK_GATE0 0x4c + +ulong meson_measure_clk_rate(unsigned int clk); + +#endif diff --git a/include/amlogic/asm/cpu_config.h b/include/amlogic/asm/cpu_config.h new file mode 100644 index 0000000000..7e7c758f86 --- /dev/null +++ b/include/amlogic/asm/cpu_config.h @@ -0,0 +1,101 @@ + +/* + * arch/arm/include/asm/arch-txl/cpu_config.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#ifndef _BOOT_ROM_CONFIG_H_ +#define _BOOT_ROM_CONFIG_H_ + +/*********************************************************** + * The following constants are GXBB definition + **********************************************************/ +#define ROMBOOT_START 0xD9040000 +#define ROM_SIZE (64*1024) +#define ROMBOOT_END (ROMBOOT_START+ROM_SIZE) + +/*********************************************************** + * AHB-SRAM Total Size 80KB, layout shown as below + * + * ROMCODE use the top 32KB + * + * [ 128] 0xD901_3F80 - 0xD901_3FFF Reserved + * [ 128] 0xD901_3F00 - 0xD901_3F7F CPUs Boot Entry + * [ 256] 0xD901_3E00 - 0xD901_3EFF Debug Info + * [ 512] 0xD901_3C00 - 0xD901_3DFF eFuse mirror + * [ 1K] 0xD901_3800 - 0xD901_3BFF Secure Mailbox (3) + * [ 1K] 0xD901_3400 - 0xD901_37FF High Mailbox (2) * + * [ 1K] 0xD901_3000 - 0xD901_33FF High Mailbox (1) * + * [ 26K] 0xD900_C800 - 0xD901_2FFF BL1 Stack, BSS + * [ 1K] 0xD900_C400 - 0xD900_C7FF NAND, USB Buffer + * [ 1K] 0xD900_C000 - 0xD900_C3FF Reserved + * + **********************************************************/ +#define RAM_START 0xD9000000 +#define RAM_SIZE (80 * 1024) +#define BL1_RAM_START (RAM_START + 0xC000) +#define BL1_RAM_SIZE (32 * 1024) +#define BL1_RAM_END (BL1_RAM_START + BL1_RAM_SIZE) +#define BSS_START (BL1_RAM_START + (2 * 1024)) +#define BSS_SIZE (18 * 1024) +#define _STACK_END (BSS_START + BSS_SIZE + 8*1024) +#define BL1_EFUSE_MIRROR (BL1_RAM_END - 1024) +#define P_SHARED_EFUSE_MIRROR (volatile uint32_t *)(BL1_EFUSE_MIRROR) +#define BL1_DEBUG_BUFFER (BL1_RAM_END - 512) +#define CPU_BOOT_ENTRY (BL1_DEBUG_BUFFER + 256) +#define P_SHARED_DEBUG_BUFF (volatile uint32_t *)(BL1_DEBUG_BUFFER) +#define BL1_SEC_MBX (BL1_RAM_END - 2*1024) +#define BL1_NAND_BUFF (BL1_RAM_START + 1024) +#define BL1_USB_BUFF (BL1_NAND_BUFF) + +#define MEMORY_LOC RAM_START + +#define SRAM_DEBUG_BUFF_SIZE 256 + +/* BL2 SPL size */ +#define BL2_SIZE (64 * 1024) + +//for signature test +//#define CONFIG_AML_SIG_TEST_BUILD + +/* Software SHA2 */ +#define CONFIG_SHA2_SW + +/* Hardware SHA2 */ +#define CONFIG_SHA2_HW +#define SHA2_HW_UPDATE_API + +/* Keep timer config in conf.h */ +#define CONFIG_TIMER + +/* Bootrom debug info */ +#define CONFIG_DEBUG_INFO + +/* Mincrypt RSA library */ +//#define CONFIG_MINCRYPT + +/* PolarSSL RSA library */ +#define CONFIG_POLARSSL_RSA + +#ifdef CONFIG_POLARSSL_RSA +#ifndef CONFIG_MALLOC +#define CONFIG_MALLOC +#endif /* ! CONFIG_MALLOC */ +#endif /* CONFIG_POLARSSL_RSA */ + +#endif /* _BOOT_ROM_CONFIG_H_ */ diff --git a/include/amlogic/asm/cpu_sdio.h b/include/amlogic/asm/cpu_sdio.h new file mode 100644 index 0000000000..baf8706584 --- /dev/null +++ b/include/amlogic/asm/cpu_sdio.h @@ -0,0 +1,264 @@ + +/* + * arch/arm/include/asm/arch-txl/cpu_sdio.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#ifndef __CPU_SDIO_H__ +#define __CPU_SDIO_H__ + +#define SD_EMMC_BASE_A 0xFFE03000 +#define SD_EMMC_BASE_B 0xFFE05000 +#define SD_EMMC_BASE_C 0xFFE07000 + +#define SDIO_PORT_A 0 +#define SDIO_PORT_B 1 +#define SDIO_PORT_C 2 + +#if 0 +#define SD_EMMC_RXD_ERROR 1 +#define SD_EMMC_TXD_ERROR 1<<1 +#define SD_EMMC_DESC_ERROR 1<<2 +#define SD_EMMC_RESP_CRC_ERROR 1<<3 +#define SD_EMMC_RESP_TIMEOUT_ERROR 1<<4 +#define SD_EMMC_DESC_TIMEOUT_ERROR 1<<5 +#endif + +struct sd_emmc_global_regs { + volatile uint32_t gclock; // 0x00 + volatile uint32_t gdelay; // 0x04 + volatile uint32_t gdelay1; //0x08 + volatile uint32_t gadjust; // 0x0c + volatile uint32_t gcalout; // 0x10 + volatile uint32_t reserved_14[11]; // 0x14~0x3c + volatile uint32_t gstart; // 0x40 + volatile uint32_t gcfg; // 0x44 + volatile uint32_t gstatus; // 0x48 + volatile uint32_t girq_en; // 0x4c + volatile uint32_t gcmd_cfg; // 0x50 + volatile uint32_t gcmd_arg; // 0x54 + volatile uint32_t gcmd_dat; // 0x58 + volatile uint32_t gcmd_rsp0; // 0x5c + volatile uint32_t gcmd_rsp1; // 0x60 + volatile uint32_t gcmd_rsp2; // 0x64 + volatile uint32_t gcmd_rsp3; // 0x68 + volatile uint32_t reserved_6c; // 0x6c + volatile uint32_t gcurr_cfg; // 0x70 + volatile uint32_t gcurr_arg; // 0x74 + volatile uint32_t gcurr_dat; // 0x78 + volatile uint32_t gcurr_rsp; // 0x7c + volatile uint32_t gnext_cfg; // 0x80 + volatile uint32_t gnext_arg; // 0x84 + volatile uint32_t gnext_dat; // 0x88 + volatile uint32_t gnext_rsp; // 0x8c + volatile uint32_t grxd; // 0x90 + volatile uint32_t gtxd; // 0x94 + volatile uint32_t reserved_98[90]; // 0x98~0x1fc + volatile uint32_t gdesc[128]; // 0x200 + volatile uint32_t gping[128]; // 0x400 + volatile uint32_t gpong[128]; // 0x800 +}; + +union sd_emmc_setup { + uint32_t d32; + struct { + unsigned bw:3; + unsigned fast:1; + unsigned par:3; + unsigned hcs:1; + unsigned sd:1; + unsigned sdhc:1; + unsigned type:6; + unsigned rca:16; + } b; +}; + +struct sd_emmc_desc_info{ + uint32_t cmd_info; + uint32_t cmd_arg; + uint32_t data_addr; + uint32_t resp_addr; +}; + +struct cmd_cfg{ + uint32_t length:9; + uint32_t block_mode:1; + uint32_t r1b:1; + uint32_t end_of_chain:1; + uint32_t timeout:4; + uint32_t no_resp:1; + uint32_t no_cmd:1; + uint32_t data_io:1; + uint32_t data_wr:1; + uint32_t resp_nocrc:1; + uint32_t resp_128:1; + uint32_t resp_num:1; + uint32_t data_num:1; + uint32_t cmd_index:6; + uint32_t error:1; + uint32_t owner:1; +}; + +struct sd_emmc_status{ + uint32_t rxd_err:8; /*[7:0] RX data CRC error per wire, for multiple block read, the CRC errors are ORed together.*/ + uint32_t txd_err:1; /*[8] TX data CRC error, for multiple block write, any one of blocks CRC error. */ + uint32_t desc_err:1; /*[9] SD/eMMC controller doesn¡¯t own descriptor. The owner bit is ¡°0¡±, set cfg_ignore_owner to ignore this error.*/ + uint32_t resp_err:1; /*[10] Response CRC error.*/ + uint32_t resp_timeout:1; /*[11] No response received before time limit. The timeout limit is set by cfg_resp_timeout.*/ + uint32_t desc_timeout:1; /*[12] Descriptor execution time over time limit. The timeout limit is set by descriptor itself.*/ + /* Consider the multiple block read/write, set the proper timeout limits.*/ + uint32_t end_of_chain:1; /*[13] End of Chain IRQ, Normal IRQ. */ + uint32_t desc_irq:1; /*[14] This descriptor requests an IRQ, Normal IRQ, the descriptor chain execution keeps going on.*/ + uint32_t irq_sdio:1; /*[15] SDIO device uses DAT[1] to request IRQ. */ + uint32_t dat_i:8; /*[23:16] Input data signals. */ + uint32_t cmd_i:1; /*[24] nput response signal. */ + uint32_t ds:1; /*[25] Input data strobe. */ + uint32_t bus_fsm:4; /*[29:26] BUS fsm */ + uint32_t desc_wr_rdy:1; /*[30] Descriptor write back process is done and it is ready for CPU to read.*/ + uint32_t core_rdy:1; /*[31] desc_busy or sd_emmc_irq or bus_fsm is not idle.*/ +};//__attribute__((__may_alias__)); + + +struct sd_emmc_clock{ + uint32_t div:6; /*[5:0] Clock divider. Frequency = clock source/cfg_div, Maximum divider 63. */ + /*Clock off: cfg_div==0, the clock is disabled */ + /*Divider bypass: cfg_div==1, clock source is used as core clock without divider. */ + uint32_t src:2; /*[7:6] Clock source, 0: Crystal 24MHz, 1: Fix PLL, 850MHz*/ + /* 2: MPLL, <637MHz, used for 400MHz exactly. 3: different PLL */ + uint32_t core_phase:2; /*[9:8] Core clock phase. 0: 0 phase, 1: 90 phase, 2: 180 phase, 3: 270 phase.*/ + uint32_t tx_phase:2; /*[11:10] TX clock phase. 0: 0 phase, 1: 90 phase, 2: 180 phase, 3: 270 phase.*/ + uint32_t rx_phase:2; /*[13:12] RX clock phase. 0: 0 phase, 1: 90 phase, 2: 180 phase, 3: 270 phase.*/ + uint32_t reserved14:2; + uint32_t tx_delay:6; /*[21:16] TX clock delay line. 0: no delay, n: delay n*200ps. Maximum delay 3ns.*/ + uint32_t rx_delay:6; /*[27:22] RX clock delay line. 0: no delay, n: delay n*200ps. Maximum delay 3ns.*/ + uint32_t always_on:1; /*[28] 1: Keep clock always on. 0: Clock on/off controlled by activities. */ + /*Any APB3 access or descriptor execution will keep clock on.*/ + uint32_t irq_sdio_sleep:1; /*[29] 1: enable IRQ sdio when in sleep mode. */ + uint32_t irq_sdio_sleep_ds:1;/*[30] 1:enable ds as irq*/ + uint32_t reserved26:1; +}; + +struct sd_emmc_delay{ + uint32_t dat0:6; /*[3:0] Data 0 delay line. */ + uint32_t dat1:6; /*[7:4] Data 1 delay line. */ + uint32_t dat2:6; /*[11:8] Data 2 delay line. */ + uint32_t dat3:6; /*[15:12] Data 3 delay line. */ + uint32_t dat4:6; /*[19:16] Data 4 delay line. */ + uint32_t spare:2; +}; + +struct sd_emmc_delay1{ + uint32_t dat5:6; /*[23:20] Data 5 delay line. */ + uint32_t dat6:6; /*[27:24] Data 6 delay line. */ + uint32_t dat7:6; /*[31:28] Data 7 delay line. */ + uint32_t dat8:6; /*[31:28] Data 7 delay line. */ + uint32_t dat9:6; /*[31:28] Data 7 delay line. */ + uint32_t spare:2; +}; + +struct sd_emmc_adjust{ + uint32_t cmd_delay:4; /*[3:0] Command delay line. */ + uint32_t ds_delay:4; /*[7:4] DS delay line. */ + uint32_t cali_sel:4; /*[11:8] Select one signal to be tested.*/ + /*Signals are labeled from 0 to 9 the same as delay lines. */ + uint32_t cali_enable:1; /*[12] Enable calibration. */ + uint32_t adj_enable:1; /*[13] Adjust interface timing by resampling the input signals. */ + uint32_t cali_rise:1; /*[14] 1: test the rising edge. 0: test the falling edge. */ + uint32_t ds_enable:1; /*[15] Sampling the DAT based on DS in HS400 mode*/ + uint32_t adj_delay:6; /*[21:16] Resample the input signals when clock index==adj_delay. */ + uint32_t adj_auto:1; /*[22] Use cali_dut first falling edge to adjust the timing */ + /*set cali_enable to 1 to use this function*/ + uint32_t reserved23:9; +}; + + +struct sd_emmc_calout{ + uint32_t cali_idx:6; /*[5:0] Calibration reading. The event happens at this index. */ + uint32_t reserved6:1; + uint32_t cali_vld:1; /*[7] The reading is valid. */ + uint32_t cali_setup:8; /*[15:8] Copied from BASE+0x8 [15:8] include cali_sel, cali_enable, adj_enable, cali_rise. */ + uint32_t reserved16:16; +}; + + +struct sd_emmc_start{ + uint32_t init:1; /*[0] 1: Read descriptor from internal SRAM, limited to 32 descriptors. */ + /* 0: Read descriptor from external DDR */ + uint32_t busy:1; /*[1] 1: Start command chain execution process. 0: Stop */ + uint32_t addr:30; /*[31:2] Descriptor address, the last 2 bits are 0, 4 bytes aligned. */ + /* When internal SRAM is used, the valid address range is from 0x200~0x3ff */ + /* When external DDR is used, the valid address is anywhere in DDR, the length of chain is unlimited.*/ +};//__attribute__((__may_alias__)); + + +struct sd_emmc_config{ + uint32_t bus_width:2; /*[1:0] 0: 1 bit, 1: 4 bits, 2: 8 bits, 3: 2 bits (not supported)*/ + uint32_t ddr:1; /*[2] 1: DDR mode, 0: SDR mode */ + uint32_t dc_ugt:1; /*[3] 1: DDR access urgent, 0: DDR access normal. */ + uint32_t bl_len:4; /*[7:4] Block length 2^cfg_bl_len, because internal buffer size is limited to 512 bytes, the cfg_bl_len <=9. */ + uint32_t resp_timeout:4; /*[11:8] Wait response till 2^cfg_resp_timeout core clock cycles. Maximum 32768 core cycles. */ + uint32_t rc_cc:4; /*[15:12] Wait response-command, command-command gap before next command, 2^cfg_rc_cc core clock cycles. */ + uint32_t out_fall:1; /*[16] DDR mode only. The command and TXD start from rising edge. Set 1 to start from falling edge. */ + uint32_t blk_gap_ip:1; /*[17] 1: Enable SDIO data block gap interrupt period. 0: Disabled.*/ + uint32_t spare:1; /*[18] Spare, ??? need check*/ + uint32_t ignore_owner:1; /*[19] Use this descriptor even if its owner bit is ¡°0¡±.*/ + uint32_t chk_ds:1; /*[20] Check data strobe in HS400.*/ + uint32_t cmd_low:1; /*[21] Hold CMD as output Low, eMMC boot mode.*/ + uint32_t stop_clk:1; /*[22] 1: stop clock. 0: normal clock.*/ + /*In normal mode, the clock is automatically on/off during reading mode to back off reading in case of*/ + /*DDR slow response, stop clock is used in voltage switch.*/ + uint32_t auto_clk:1; /*[23] 1: when BUS is idle and no descriptor is available, turn off clock, to save power.*/ + /* 0: core clock is always on.*/ + uint32_t txd_add_err:1; /*[24] TXD add error test*/ + /*Test feature, should not be used in normal condition.*/ + /*It will inverted the first CRC bits of the 3rd block.*/ + /*Block index starts from 0, 1, 2, ¡­*/ + uint32_t txd_retry:1; /*[25] When TXD CRC error, host sends the block again.*/ + /*The total number of retries of one descriptor is limited to 15, */ + /*after 15 retries, the TXD_err is set to high.*/ + uint32_t revd:8; /*[31:26] reved*/ +};//__attribute__((__may_alias__)); + + +struct sd_emmc_irq_en{ + uint32_t rxd_err:8; /*[7:0] RX data CRC error per wire.*/ + uint32_t txd_err:1; /*[8] TX data CRC error. */ + uint32_t desc_err:1; /*[9] SD/eMMC controller doesn¡¯t own descriptor. */ + uint32_t resp_err:1; /*[10] Response CRC error.*/ + uint32_t resp_timeout:1; /*[11] No response received before time limit. */ + uint32_t desc_timeout:1; /*[12] Descriptor execution time over time limit. */ + uint32_t end_of_chain:1; /*[13] End of Chain IRQ. */ + uint32_t desc_irq:1; /*[14] This descriptor requests an IRQ. */ + uint32_t irq_sdio:1; /*[15] Enable sdio interrupt. */ + uint32_t revd:16; /*[31:16] reved*/ +}; + +struct sd_emmc_data_info{ + uint32_t cnt:10; /*[9:0] Rxd words received from BUS. Txd words received from DDR.*/ + uint32_t blk:9; /*[24:16] Rxd Blocks received from BUS. Txd blocks received from DDR.*/ + uint32_t revd:30; /*[31:17] Reved. */ +}; + + +struct sd_emmc_card_info{ + uint32_t txd_cnt:10; /*[9:0] Txd BUS cycle counter. */ + uint32_t txd_blk:9; /*[24:16] Txd BUS block counter.*/ + uint32_t revd:30; /*[31:17] Reved. */ +}; + +#endif diff --git a/include/amlogic/asm/efuse.h b/include/amlogic/asm/efuse.h new file mode 100644 index 0000000000..b5ea02723f --- /dev/null +++ b/include/amlogic/asm/efuse.h @@ -0,0 +1,62 @@ + +/* + * arch/arm/include/asm/arch-txl/efuse.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#ifndef __EFUSE_H +#define __EFUSE_H + +#include +#include + +/* efuse HAL_API arg */ +struct efuse_hal_api_arg { + unsigned int cmd; /* R/W */ + unsigned int offset; + unsigned int size; + unsigned long buffer_phy; + unsigned long retcnt_phy; +}; + + +#define EFUSE_BYTES 512 /* (EFUSE_BITS/8) */ + +#define EFUSE_HAL_API_READ 0 +#define EFUSE_HAL_API_WRITE 1 +#define EFUSE_HAL_API_WRITE_PATTERN 2 +#define EFUSE_HAL_API_USER_MAX 3 + +#define EFUSE_USER_MASK (0x1 << 16) +#define EFUSE_THERMAL_MASK (0x1 << 17) +#define EFUSE_THERMAL_VERFLAG_MASK (0x1 << 18) +#define EFUSE_ENCRYPT_MASK (0x1 << 19) + +//#define ASSIST_HW_REV 0x1f53 + +int efuse_read_usr(char *buf, size_t count, loff_t *ppos); +int efuse_write_usr(char *buf, size_t count, loff_t *ppos); +uint32_t efuse_get_max(void); +ssize_t efuse_read(char *buf, size_t count, loff_t *ppos); +ssize_t efuse_write(const char *buf, size_t count, loff_t *ppos); + +int32_t meson_trustzone_efuse(struct efuse_hal_api_arg *arg); +int32_t meson_trustzone_efuse_get_max(struct efuse_hal_api_arg *arg); + +#endif + diff --git a/include/amlogic/asm/io.h b/include/amlogic/asm/io.h new file mode 100644 index 0000000000..8640303b51 --- /dev/null +++ b/include/amlogic/asm/io.h @@ -0,0 +1,118 @@ + +/* + * arch/arm/include/asm/arch-txl/io.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#ifndef __MACH_MESSON_REGS_IO_H +#define __MACH_MESSON_REGS_IO_H + +#ifndef __ASSEMBLY__ + +#include +#define IO_CBUS_BASE (0xFFD00000L) +#define IO_AXI_BUS_BASE (0xFFB00000L) /* gpv */ +#define IO_AHB_BUS_BASE (0xFF500000L) /* usb0 */ +#define IO_APB_BUS_BASE (0xFFFC0000L) /* AHB SRAM, sec/sys ahb? txlx_mem_map.xlsx */ +#define IO_APB_HDMI_BUS_BASE (0xFFE00000L) /* */ +#define IO_VPU_BUS_BASE (0xFF900000L) /* VPU */ + +#define CBUS_REG_OFFSET(reg) ((reg) << 2) +#define CBUS_REG_ADDR(reg) (IO_CBUS_BASE + CBUS_REG_OFFSET(reg)) + +#define AXI_REG_OFFSET(reg) ((reg) << 2) +#define AXI_REG_ADDR(reg) (IO_AXI_BUS_BASE + AXI_REG_OFFSET(reg)) + +#define AHB_REG_OFFSET(reg) ((reg) << 2) +#define AHB_REG_ADDR(reg) (IO_AHB_BUS_BASE + AHB_REG_OFFSET(reg)) + +#define VPU_REG_OFFSET(reg) ((reg) << 2) +#define VPU_REG_ADDR(reg) (IO_VPU_BUS_BASE + VPU_REG_OFFSET(reg)) + + +#define APB_REG_OFFSET(reg) (reg) +#define APB_REG_ADDR(reg) (IO_APB_BUS_BASE + APB_REG_OFFSET(reg)) +#define APB_REG_ADDR_VALID(reg) (((unsigned long)(reg) & 3) == 0) + +#define APB_HDMI_REG_OFFSET(reg) (reg) +#define APB_HDMI_REG_ADDR(reg) (IO_APB_HDMI_BUS_BASE + APB_HDMI_REG_OFFSET(reg)) +#define APB_HDMI_REG_ADDR_VALID(reg) (((unsigned long)(reg) & 3) == 0) + + +#define WRITE_CBUS_REG(reg, val) __raw_writel(val, CBUS_REG_ADDR(reg)) +#define READ_CBUS_REG(reg) (__raw_readl(CBUS_REG_ADDR(reg))) +#define WRITE_CBUS_REG_BITS(reg, val, start, len) \ + WRITE_CBUS_REG(reg, (READ_CBUS_REG(reg) & ~(((1L<<(len))-1)<<(start)) )| ((unsigned)((val)&((1L<<(len))-1)) << (start))) +#define READ_CBUS_REG_BITS(reg, start, len) \ + ((READ_CBUS_REG(reg) >> (start)) & ((1L<<(len))-1)) +#define CLEAR_CBUS_REG_MASK(reg, mask) WRITE_CBUS_REG(reg, (READ_CBUS_REG(reg)&(~(mask)))) +#define SET_CBUS_REG_MASK(reg, mask) WRITE_CBUS_REG(reg, (READ_CBUS_REG(reg)|(mask))) + +#define WRITE_AXI_REG(reg, val) __raw_writel(val, AXI_REG_ADDR(reg)) +#define READ_AXI_REG(reg) (__raw_readl(AXI_REG_ADDR(reg))) +#define WRITE_AXI_REG_BITS(reg, val, start, len) \ + WRITE_AXI_REG(reg, (READ_AXI_REG(reg) & ~(((1L<<(len))-1)<<(start)) )| ((unsigned)((val)&((1L<<(len))-1)) << (start))) +#define READ_AXI_REG_BITS(reg, start, len) \ + ((READ_AXI_REG(reg) >> (start)) & ((1L<<(len))-1)) +#define CLEAR_AXI_REG_MASK(reg, mask) WRITE_AXI_REG(reg, (READ_AXI_REG(reg)&(~(mask)))) +#define SET_AXI_REG_MASK(reg, mask) WRITE_AXI_REG(reg, (READ_AXI_REG(reg)|(mask))) + +#define WRITE_AHB_REG(reg, val) __raw_writel(val, AHB_REG_ADDR(reg)) +#define READ_AHB_REG(reg) (__raw_readl(AHB_REG_ADDR(reg))) +#define WRITE_AHB_REG_BITS(reg, val, start, len) \ + WRITE_AHB_REG(reg, (READ_AHB_REG(reg) & ~(((1L<<(len))-1)<<(start)) )| ((unsigned)((val)&((1L<<(len))-1)) << (start))) +#define READ_AHB_REG_BITS(reg, start, len) \ + ((READ_AHB_REG(reg) >> (start)) & ((1L<<(len))-1)) +#define CLEAR_AHB_REG_MASK(reg, mask) WRITE_AHB_REG(reg, (READ_AHB_REG(reg)&(~(mask)))) +#define SET_AHB_REG_MASK(reg, mask) WRITE_AHB_REG(reg, (READ_AHB_REG(reg)|(mask))) + +#define WRITE_APB_REG(reg, val) __raw_writel(val, APB_REG_ADDR(reg)) +#define READ_APB_REG(reg) (__raw_readl(APB_REG_ADDR(reg))) +#define WRITE_APB_REG_BITS(reg, val, start, len) \ + WRITE_APB_REG(reg, (READ_APB_REG(reg) & ~(((1L<<(len))-1)<<(start)) )| ((unsigned)((val)&((1L<<(len))-1)) << (start))) +#define READ_APB_REG_BITS(reg, start, len) \ + ((READ_APB_REG(reg) >> (start)) & ((1L<<(len))-1)) +#define CLEAR_APB_REG_MASK(reg, mask) WRITE_APB_REG(reg, (READ_APB_REG(reg)&(~(mask)))) +#define SET_APB_REG_MASK(reg, mask) WRITE_APB_REG(reg, (READ_APB_REG(reg)|(mask))) + +#define WRITE_APB_HDMI_REG(reg, val) __raw_writel(val, APB_HDMI_REG_ADDR(reg)) +#define READ_APB_HDMI_REG(reg) (__raw_readl(APB_HDMI_REG_ADDR(reg))) +#define WRITE_APB_HDMI_REG_BITS(reg, val, start, len) \ + WRITE_APB_HDMI_REG(reg, (READ_APB_HDMI_REG(reg) & ~(((1L<<(len))-1)<<(start)) )| ((unsigned)((val)&((1L<<(len))-1)) << (start))) +#define READ_APB_HDMI_REG_BITS(reg, start, len) \ + ((READ_APB_HDMI_REG(reg) >> (start)) & ((1L<<(len))-1)) +#define CLEAR_APB_HDMI_REG_MASK(reg, mask) WRITE_APB_HDMI_REG(reg, (READ_APB_HDMI_REG(reg)&(~(mask)))) +#define SET_APB_HDMI_REG_MASK(reg, mask) WRITE_APB_HDMI_REG(reg, (READ_APB_HDMI_REG(reg)|(mask))) + +/* for back compatible alias */ +#define WRITE_MPEG_REG(reg, val) \ + WRITE_CBUS_REG(reg, val) +#define READ_MPEG_REG(reg) \ + READ_CBUS_REG(reg) +#define WRITE_MPEG_REG_BITS(reg, val, start, len) \ + WRITE_CBUS_REG_BITS(reg, val, start, len) +#define READ_MPEG_REG_BITS(reg, start, len) \ + READ_CBUS_REG_BITS(reg, start, len) +#define CLEAR_MPEG_REG_MASK(reg, mask) \ + CLEAR_CBUS_REG_MASK(reg, mask) +#define SET_MPEG_REG_MASK(reg, mask) \ + SET_CBUS_REG_MASK(reg, mask) +#endif + + +#endif diff --git a/include/amlogic/asm/register.h b/include/amlogic/asm/register.h new file mode 100644 index 0000000000..aa342a50fd --- /dev/null +++ b/include/amlogic/asm/register.h @@ -0,0 +1,98 @@ + +/* + * arch/arm/include/asm/arch-txl/register.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#ifndef __REGISTER_H__ +#define __REGISTER_H__ + +#define IO_CBUS_BASE 0xFFD00000 +#define IO_AXI_BUS_BASE 0xFFB00000 +#define IO_AHB_BUS_BASE 0xFF500000 +#define IO_APB_BUS_BASE 0xFFFC0000 +#define IO_APB_HDMI_BUS_BASE 0xFFE00000 +#define IO_VPU_BUS_BASE 0xFF900000 + +#define CBUS_REG_OFFSET(reg) ((reg) << 2) +#define CBUS_REG_ADDR(reg) (IO_CBUS_BASE + CBUS_REG_OFFSET(reg)) + +#if 0 +/* below UART0,UART1,AO_UART is m8 addr,it is placed is for compiling pass */ +/* ------------------------------- +// UART0 +// ---------------------------- */ +#define UART0_WFIFO 0x2130 +#define UART0_RFIFO 0x2131 +#define UART0_CONTROL 0x2132 +#define UART0_STATUS 0x2133 +#define UART0_MISC 0x2134 +#define UART0_REG5 0x2135 +/* ---------------------------- +// UART1 +----------------------------*/ +#define UART1_WFIFO 0x2137 +#define UART1_RFIFO 0x2138 +#define UART1_CONTROL 0x2139 +#define UART1_STATUS 0x213a +#define UART1_MISC 0x213b +#define UART1_REG5 0x213c + +/* ------------------------------------------------------ + The following are handled by $periphs/rtl/periphs_reg.v + ---------------------------------------- */ +#define PREG_CTLREG0_ADDR 0x2000 +#define P_PREG_CTLREG0_ADDR CBUS_REG_ADDR(PREG_CTLREG0_ADDR) + +/* ---------------------------- + clock measure (4) + ---------------------------- */ +#define MSR_CLK_DUTY 0x21d6 +#define MSR_CLK_REG0 0x21d7 +#define MSR_CLK_REG1 0x21d8 +#define MSR_CLK_REG2 0x21d9 +#define P_MSR_CLK_DUTY CBUS_REG_ADDR(MSR_CLK_DUTY) +#define P_MSR_CLK_REG0 CBUS_REG_ADDR(MSR_CLK_REG0) +#define P_MSR_CLK_REG1 CBUS_REG_ADDR(MSR_CLK_REG1) +#define P_MSR_CLK_REG2 CBUS_REG_ADDR(MSR_CLK_REG2) +#endif + +#if 0 +/* -------------------------------- + * AO uart + * -------------------------------*/ +#define IO_AOBUS_BASE 0xc8100000 ///1M + +#define AOBUS_REG_OFFSET(reg) ((reg) ) +#define AOBUS_REG_ADDR(reg) (IO_AOBUS_BASE + AOBUS_REG_OFFSET(reg)) + +#define AO_UART_WFIFO ((0x01 << 10) | (0x30 << 2)) ///../ucode/c_always_on_pointer.h:89 +#define P_AO_UART_WFIFO AOBUS_REG_ADDR(AO_UART_WFIFO) +#define AO_UART_RFIFO ((0x01 << 10) | (0x31 << 2)) ///../ucode/c_always_on_pointer.h:90 +#define P_AO_UART_RFIFO AOBUS_REG_ADDR(AO_UART_RFIFO) +#define AO_UART_CONTROL ((0x01 << 10) | (0x32 << 2)) ///../ucode/c_always_on_pointer.h:91 +#define P_AO_UART_CONTROL AOBUS_REG_ADDR(AO_UART_CONTROL) +#define AO_UART_STATUS ((0x01 << 10) | (0x33 << 2)) ///../ucode/c_always_on_pointer.h:92 +#define P_AO_UART_STATUS AOBUS_REG_ADDR(AO_UART_STATUS) +#define AO_UART_MISC ((0x01 << 10) | (0x34 << 2)) ///../ucode/c_always_on_pointer.h:93 +#define P_AO_UART_MISC AOBUS_REG_ADDR(AO_UART_MISC) +#define AO_UART_REG5 ((0x01 << 10) | (0x35 << 2)) ///../ucode/c_always_on_pointer.h:94 +#define P_AO_UART_REG5 AOBUS_REG_ADDR(AO_UART_REG5) +#endif + +#endif //__REGISTER_H__ diff --git a/include/amlogic/asm/regs.h b/include/amlogic/asm/regs.h new file mode 100644 index 0000000000..26df3071cc --- /dev/null +++ b/include/amlogic/asm/regs.h @@ -0,0 +1,32964 @@ +// ---------------------------------------------------------------------- +// regs.h header +// +// bus base define, update manually +// +// ---------------------------------------------------------------------- +// +#ifndef _BASE_REGISTER +#define _BASE_REGISTER +#define REG_BASE_AOBUS (0xFF800000L) +#define REG_BASE_PERIPHS (0xFF634000L) +#define REG_BASE_CBUS (0xFFD00000L) +#define REG_BASE_HIU (0xFF63C000L) +#define REG_BASE_VCBUS (0xFF900000L) +#define DMC_REG_BASE (0xFF638000L) +#define REG_BASE_DSI_HOST (0xFFD00000L)/* 0xFFD07000L*/ + +#endif /*_BASE_REGISTER*/ + +#ifndef REG_OTHERS +#define REG_OTHERS +/* other regs */ +#define SPI_START_ADDR 0xFB000000 +#define P_SPI_START_ADDR (volatile unsigned int *)0xFB000000 + +#endif /*REG_OTHERS*/ + +// ---------------------------------------------------------------------- +// This file is automatically generated from the script: +// +// ./create_headers_from_register_map_h.pl +// +// and was applied to the file +// +// ./register_map.h +// +// DO NOT EDIT!!!!! +// ---------------------------------------------------------------------- +// +#ifdef REGISTER_H +#else +#define REGISTER_H +#endif + +// ---------------------------------------------------------------------- +// This file is automatically generated from the script: +// +// ./create_headers_from_dos_params_h.pl +// +// and was applied to the file +// +// ./dos_param.h +// +// DO NOT EDIT!!!!! +// ---------------------------------------------------------------------- +// +#ifdef DOS_REGISTER_H +#else +#define DOS_REGISTER_H + + +// +// Reading file: ./dos_param.h +// +//------------------------------------------------------------------------------ +// Define all modules' base address under DOS +// APB allocation from 32'hd0050000 +//------------------------------------------------------------------------------ +// Define base address for VDEC module under DOS: +// DOS_VDEC_ASSIST_BASE_ADDR 14'h0000 +// DOS_VDEC_MDEC_BASE_ADDR 14'h0900 +// DOS_VDEC_VLD_BASE_ADDR 14'h0c00 +// DOS_VDEC_IQIDCT_BASE_ADDR 14'h0e00 +// DOS_VDEC_VCPU_BASE_ADDR 14'h0300 +// DOS_VDEC_RESERVED_BASE_ADDR 14'h0f00 // Do not use this offset +// Define base address for DOS top-level register module: +// DOS_TOP_BASE_ADDR 14'h3f00 +//------------------------------------------------------------------------------ +// VDEC_ASSIST module level register offset +//------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_ASSIST_CBUS_BASE = 0x00 +// ----------------------------------------------- +#define VDEC_ASSIST_MMC_CTRL0 (0x0001) +#define P_VDEC_ASSIST_MMC_CTRL0 (volatile unsigned int *)((0x0001 << 2) + 0xff620000) +#define VDEC_ASSIST_MMC_CTRL1 (0x0002) +#define P_VDEC_ASSIST_MMC_CTRL1 (volatile unsigned int *)((0x0002 << 2) + 0xff620000) +#define VDEC_ASSIST_MMC_CTRL2 (0x0003) +#define P_VDEC_ASSIST_MMC_CTRL2 (volatile unsigned int *)((0x0003 << 2) + 0xff620000) +#define VDEC_ASSIST_MMC_CTRL3 (0x0004) +#define P_VDEC_ASSIST_MMC_CTRL3 (volatile unsigned int *)((0x0004 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT0 (0x0025) +#define P_VDEC_ASSIST_AMR1_INT0 (volatile unsigned int *)((0x0025 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT1 (0x0026) +#define P_VDEC_ASSIST_AMR1_INT1 (volatile unsigned int *)((0x0026 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT2 (0x0027) +#define P_VDEC_ASSIST_AMR1_INT2 (volatile unsigned int *)((0x0027 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT3 (0x0028) +#define P_VDEC_ASSIST_AMR1_INT3 (volatile unsigned int *)((0x0028 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT4 (0x0029) +#define P_VDEC_ASSIST_AMR1_INT4 (volatile unsigned int *)((0x0029 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT5 (0x002a) +#define P_VDEC_ASSIST_AMR1_INT5 (volatile unsigned int *)((0x002a << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT6 (0x002b) +#define P_VDEC_ASSIST_AMR1_INT6 (volatile unsigned int *)((0x002b << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT7 (0x002c) +#define P_VDEC_ASSIST_AMR1_INT7 (volatile unsigned int *)((0x002c << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT8 (0x002d) +#define P_VDEC_ASSIST_AMR1_INT8 (volatile unsigned int *)((0x002d << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INT9 (0x002e) +#define P_VDEC_ASSIST_AMR1_INT9 (volatile unsigned int *)((0x002e << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INTA (0x002f) +#define P_VDEC_ASSIST_AMR1_INTA (volatile unsigned int *)((0x002f << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INTB (0x0030) +#define P_VDEC_ASSIST_AMR1_INTB (volatile unsigned int *)((0x0030 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INTC (0x0031) +#define P_VDEC_ASSIST_AMR1_INTC (volatile unsigned int *)((0x0031 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INTD (0x0032) +#define P_VDEC_ASSIST_AMR1_INTD (volatile unsigned int *)((0x0032 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INTE (0x0033) +#define P_VDEC_ASSIST_AMR1_INTE (volatile unsigned int *)((0x0033 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR1_INTF (0x0034) +#define P_VDEC_ASSIST_AMR1_INTF (volatile unsigned int *)((0x0034 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT0 (0x0035) +#define P_VDEC_ASSIST_AMR2_INT0 (volatile unsigned int *)((0x0035 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT1 (0x0036) +#define P_VDEC_ASSIST_AMR2_INT1 (volatile unsigned int *)((0x0036 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT2 (0x0037) +#define P_VDEC_ASSIST_AMR2_INT2 (volatile unsigned int *)((0x0037 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT3 (0x0038) +#define P_VDEC_ASSIST_AMR2_INT3 (volatile unsigned int *)((0x0038 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT4 (0x0039) +#define P_VDEC_ASSIST_AMR2_INT4 (volatile unsigned int *)((0x0039 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT5 (0x003a) +#define P_VDEC_ASSIST_AMR2_INT5 (volatile unsigned int *)((0x003a << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT6 (0x003b) +#define P_VDEC_ASSIST_AMR2_INT6 (volatile unsigned int *)((0x003b << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT7 (0x003c) +#define P_VDEC_ASSIST_AMR2_INT7 (volatile unsigned int *)((0x003c << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT8 (0x003d) +#define P_VDEC_ASSIST_AMR2_INT8 (volatile unsigned int *)((0x003d << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INT9 (0x003e) +#define P_VDEC_ASSIST_AMR2_INT9 (volatile unsigned int *)((0x003e << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INTA (0x003f) +#define P_VDEC_ASSIST_AMR2_INTA (volatile unsigned int *)((0x003f << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INTB (0x0040) +#define P_VDEC_ASSIST_AMR2_INTB (volatile unsigned int *)((0x0040 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INTC (0x0041) +#define P_VDEC_ASSIST_AMR2_INTC (volatile unsigned int *)((0x0041 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INTD (0x0042) +#define P_VDEC_ASSIST_AMR2_INTD (volatile unsigned int *)((0x0042 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INTE (0x0043) +#define P_VDEC_ASSIST_AMR2_INTE (volatile unsigned int *)((0x0043 << 2) + 0xff620000) +#define VDEC_ASSIST_AMR2_INTF (0x0044) +#define P_VDEC_ASSIST_AMR2_INTF (volatile unsigned int *)((0x0044 << 2) + 0xff620000) +#define VDEC_ASSIST_MBX_SSEL (0x0045) +#define P_VDEC_ASSIST_MBX_SSEL (volatile unsigned int *)((0x0045 << 2) + 0xff620000) +#define VDEC_ASSIST_TIMER0_LO (0x0060) +#define P_VDEC_ASSIST_TIMER0_LO (volatile unsigned int *)((0x0060 << 2) + 0xff620000) +#define VDEC_ASSIST_TIMER0_HI (0x0061) +#define P_VDEC_ASSIST_TIMER0_HI (volatile unsigned int *)((0x0061 << 2) + 0xff620000) +#define VDEC_ASSIST_TIMER1_LO (0x0062) +#define P_VDEC_ASSIST_TIMER1_LO (volatile unsigned int *)((0x0062 << 2) + 0xff620000) +#define VDEC_ASSIST_TIMER1_HI (0x0063) +#define P_VDEC_ASSIST_TIMER1_HI (volatile unsigned int *)((0x0063 << 2) + 0xff620000) +#define VDEC_ASSIST_DMA_INT (0x0064) +#define P_VDEC_ASSIST_DMA_INT (volatile unsigned int *)((0x0064 << 2) + 0xff620000) +#define VDEC_ASSIST_DMA_INT_MSK (0x0065) +#define P_VDEC_ASSIST_DMA_INT_MSK (volatile unsigned int *)((0x0065 << 2) + 0xff620000) +#define VDEC_ASSIST_DMA_INT2 (0x0066) +#define P_VDEC_ASSIST_DMA_INT2 (volatile unsigned int *)((0x0066 << 2) + 0xff620000) +#define VDEC_ASSIST_DMA_INT_MSK2 (0x0067) +#define P_VDEC_ASSIST_DMA_INT_MSK2 (volatile unsigned int *)((0x0067 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX0_IRQ_REG (0x0070) +#define P_VDEC_ASSIST_MBOX0_IRQ_REG (volatile unsigned int *)((0x0070 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX0_CLR_REG (0x0071) +#define P_VDEC_ASSIST_MBOX0_CLR_REG (volatile unsigned int *)((0x0071 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX0_MASK (0x0072) +#define P_VDEC_ASSIST_MBOX0_MASK (volatile unsigned int *)((0x0072 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX0_FIQ_SEL (0x0073) +#define P_VDEC_ASSIST_MBOX0_FIQ_SEL (volatile unsigned int *)((0x0073 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX1_IRQ_REG (0x0074) +#define P_VDEC_ASSIST_MBOX1_IRQ_REG (volatile unsigned int *)((0x0074 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX1_CLR_REG (0x0075) +#define P_VDEC_ASSIST_MBOX1_CLR_REG (volatile unsigned int *)((0x0075 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX1_MASK (0x0076) +#define P_VDEC_ASSIST_MBOX1_MASK (volatile unsigned int *)((0x0076 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX1_FIQ_SEL (0x0077) +#define P_VDEC_ASSIST_MBOX1_FIQ_SEL (volatile unsigned int *)((0x0077 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX2_IRQ_REG (0x0078) +#define P_VDEC_ASSIST_MBOX2_IRQ_REG (volatile unsigned int *)((0x0078 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX2_CLR_REG (0x0079) +#define P_VDEC_ASSIST_MBOX2_CLR_REG (volatile unsigned int *)((0x0079 << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX2_MASK (0x007a) +#define P_VDEC_ASSIST_MBOX2_MASK (volatile unsigned int *)((0x007a << 2) + 0xff620000) +#define VDEC_ASSIST_MBOX2_FIQ_SEL (0x007b) +#define P_VDEC_ASSIST_MBOX2_FIQ_SEL (volatile unsigned int *)((0x007b << 2) + 0xff620000) +//------------------------------------------------------------------------------ +// VDEC2_ASSIST module level register offset +//------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC2_ASSIST_CBUS_BASE = 0x00 +// ----------------------------------------------- +#define VDEC2_ASSIST_MMC_CTRL0 (0x2001) +#define P_VDEC2_ASSIST_MMC_CTRL0 (volatile unsigned int *)((0x2001 << 2) + 0xff620000) +#define VDEC2_ASSIST_MMC_CTRL1 (0x2002) +#define P_VDEC2_ASSIST_MMC_CTRL1 (volatile unsigned int *)((0x2002 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT0 (0x2025) +#define P_VDEC2_ASSIST_AMR1_INT0 (volatile unsigned int *)((0x2025 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT1 (0x2026) +#define P_VDEC2_ASSIST_AMR1_INT1 (volatile unsigned int *)((0x2026 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT2 (0x2027) +#define P_VDEC2_ASSIST_AMR1_INT2 (volatile unsigned int *)((0x2027 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT3 (0x2028) +#define P_VDEC2_ASSIST_AMR1_INT3 (volatile unsigned int *)((0x2028 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT4 (0x2029) +#define P_VDEC2_ASSIST_AMR1_INT4 (volatile unsigned int *)((0x2029 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT5 (0x202a) +#define P_VDEC2_ASSIST_AMR1_INT5 (volatile unsigned int *)((0x202a << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT6 (0x202b) +#define P_VDEC2_ASSIST_AMR1_INT6 (volatile unsigned int *)((0x202b << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT7 (0x202c) +#define P_VDEC2_ASSIST_AMR1_INT7 (volatile unsigned int *)((0x202c << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT8 (0x202d) +#define P_VDEC2_ASSIST_AMR1_INT8 (volatile unsigned int *)((0x202d << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INT9 (0x202e) +#define P_VDEC2_ASSIST_AMR1_INT9 (volatile unsigned int *)((0x202e << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INTA (0x202f) +#define P_VDEC2_ASSIST_AMR1_INTA (volatile unsigned int *)((0x202f << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INTB (0x2030) +#define P_VDEC2_ASSIST_AMR1_INTB (volatile unsigned int *)((0x2030 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INTC (0x2031) +#define P_VDEC2_ASSIST_AMR1_INTC (volatile unsigned int *)((0x2031 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INTD (0x2032) +#define P_VDEC2_ASSIST_AMR1_INTD (volatile unsigned int *)((0x2032 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INTE (0x2033) +#define P_VDEC2_ASSIST_AMR1_INTE (volatile unsigned int *)((0x2033 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR1_INTF (0x2034) +#define P_VDEC2_ASSIST_AMR1_INTF (volatile unsigned int *)((0x2034 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT0 (0x2035) +#define P_VDEC2_ASSIST_AMR2_INT0 (volatile unsigned int *)((0x2035 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT1 (0x2036) +#define P_VDEC2_ASSIST_AMR2_INT1 (volatile unsigned int *)((0x2036 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT2 (0x2037) +#define P_VDEC2_ASSIST_AMR2_INT2 (volatile unsigned int *)((0x2037 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT3 (0x2038) +#define P_VDEC2_ASSIST_AMR2_INT3 (volatile unsigned int *)((0x2038 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT4 (0x2039) +#define P_VDEC2_ASSIST_AMR2_INT4 (volatile unsigned int *)((0x2039 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT5 (0x203a) +#define P_VDEC2_ASSIST_AMR2_INT5 (volatile unsigned int *)((0x203a << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT6 (0x203b) +#define P_VDEC2_ASSIST_AMR2_INT6 (volatile unsigned int *)((0x203b << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT7 (0x203c) +#define P_VDEC2_ASSIST_AMR2_INT7 (volatile unsigned int *)((0x203c << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT8 (0x203d) +#define P_VDEC2_ASSIST_AMR2_INT8 (volatile unsigned int *)((0x203d << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INT9 (0x203e) +#define P_VDEC2_ASSIST_AMR2_INT9 (volatile unsigned int *)((0x203e << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INTA (0x203f) +#define P_VDEC2_ASSIST_AMR2_INTA (volatile unsigned int *)((0x203f << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INTB (0x2040) +#define P_VDEC2_ASSIST_AMR2_INTB (volatile unsigned int *)((0x2040 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INTC (0x2041) +#define P_VDEC2_ASSIST_AMR2_INTC (volatile unsigned int *)((0x2041 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INTD (0x2042) +#define P_VDEC2_ASSIST_AMR2_INTD (volatile unsigned int *)((0x2042 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INTE (0x2043) +#define P_VDEC2_ASSIST_AMR2_INTE (volatile unsigned int *)((0x2043 << 2) + 0xff620000) +#define VDEC2_ASSIST_AMR2_INTF (0x2044) +#define P_VDEC2_ASSIST_AMR2_INTF (volatile unsigned int *)((0x2044 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBX_SSEL (0x2045) +#define P_VDEC2_ASSIST_MBX_SSEL (volatile unsigned int *)((0x2045 << 2) + 0xff620000) +#define VDEC2_ASSIST_TIMER0_LO (0x2060) +#define P_VDEC2_ASSIST_TIMER0_LO (volatile unsigned int *)((0x2060 << 2) + 0xff620000) +#define VDEC2_ASSIST_TIMER0_HI (0x2061) +#define P_VDEC2_ASSIST_TIMER0_HI (volatile unsigned int *)((0x2061 << 2) + 0xff620000) +#define VDEC2_ASSIST_TIMER1_LO (0x2062) +#define P_VDEC2_ASSIST_TIMER1_LO (volatile unsigned int *)((0x2062 << 2) + 0xff620000) +#define VDEC2_ASSIST_TIMER1_HI (0x2063) +#define P_VDEC2_ASSIST_TIMER1_HI (volatile unsigned int *)((0x2063 << 2) + 0xff620000) +#define VDEC2_ASSIST_DMA_INT (0x2064) +#define P_VDEC2_ASSIST_DMA_INT (volatile unsigned int *)((0x2064 << 2) + 0xff620000) +#define VDEC2_ASSIST_DMA_INT_MSK (0x2065) +#define P_VDEC2_ASSIST_DMA_INT_MSK (volatile unsigned int *)((0x2065 << 2) + 0xff620000) +#define VDEC2_ASSIST_DMA_INT2 (0x2066) +#define P_VDEC2_ASSIST_DMA_INT2 (volatile unsigned int *)((0x2066 << 2) + 0xff620000) +#define VDEC2_ASSIST_DMA_INT_MSK2 (0x2067) +#define P_VDEC2_ASSIST_DMA_INT_MSK2 (volatile unsigned int *)((0x2067 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX0_IRQ_REG (0x2070) +#define P_VDEC2_ASSIST_MBOX0_IRQ_REG (volatile unsigned int *)((0x2070 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX0_CLR_REG (0x2071) +#define P_VDEC2_ASSIST_MBOX0_CLR_REG (volatile unsigned int *)((0x2071 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX0_MASK (0x2072) +#define P_VDEC2_ASSIST_MBOX0_MASK (volatile unsigned int *)((0x2072 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX0_FIQ_SEL (0x2073) +#define P_VDEC2_ASSIST_MBOX0_FIQ_SEL (volatile unsigned int *)((0x2073 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX1_IRQ_REG (0x2074) +#define P_VDEC2_ASSIST_MBOX1_IRQ_REG (volatile unsigned int *)((0x2074 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX1_CLR_REG (0x2075) +#define P_VDEC2_ASSIST_MBOX1_CLR_REG (volatile unsigned int *)((0x2075 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX1_MASK (0x2076) +#define P_VDEC2_ASSIST_MBOX1_MASK (volatile unsigned int *)((0x2076 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX1_FIQ_SEL (0x2077) +#define P_VDEC2_ASSIST_MBOX1_FIQ_SEL (volatile unsigned int *)((0x2077 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX2_IRQ_REG (0x2078) +#define P_VDEC2_ASSIST_MBOX2_IRQ_REG (volatile unsigned int *)((0x2078 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX2_CLR_REG (0x2079) +#define P_VDEC2_ASSIST_MBOX2_CLR_REG (volatile unsigned int *)((0x2079 << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX2_MASK (0x207a) +#define P_VDEC2_ASSIST_MBOX2_MASK (volatile unsigned int *)((0x207a << 2) + 0xff620000) +#define VDEC2_ASSIST_MBOX2_FIQ_SEL (0x207b) +#define P_VDEC2_ASSIST_MBOX2_FIQ_SEL (volatile unsigned int *)((0x207b << 2) + 0xff620000) +//------------------------------------------------------------------------------ +// HCODEC_ASSIST module level register offset +//------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_ASSIST_CBUS_BASE = 0x00 +// ----------------------------------------------- +#define HCODEC_ASSIST_MMC_CTRL0 (0x1001) +#define P_HCODEC_ASSIST_MMC_CTRL0 (volatile unsigned int *)((0x1001 << 2) + 0xff620000) +#define HCODEC_ASSIST_MMC_CTRL1 (0x1002) +#define P_HCODEC_ASSIST_MMC_CTRL1 (volatile unsigned int *)((0x1002 << 2) + 0xff620000) +#define HCODEC_ASSIST_MMC_CTRL2 (0x1003) +#define P_HCODEC_ASSIST_MMC_CTRL2 (volatile unsigned int *)((0x1003 << 2) + 0xff620000) +#define HCODEC_ASSIST_MMC_CTRL3 (0x1004) +#define P_HCODEC_ASSIST_MMC_CTRL3 (volatile unsigned int *)((0x1004 << 2) + 0xff620000) +//cfg_soft_rst = mfdin_reg0_crst[0]; // Soft Reset +//cfg_cg_cfe = mfdin_reg0_crst[1]; // Clock Gating Forcing Enable +//cfg_dbuf_rst = mfdin_reg0_crst[2]; // Reset DBUF information +#define HCODEC_MFDIN_REG0_CRST (0x1008) +#define P_HCODEC_MFDIN_REG0_CRST (volatile unsigned int *)((0x1008 << 2) + 0xff620000) +//cfg_iformat = mfdin_reg1_ctrl[3:0]; // Data In Format: 0 :CANVAS 422 YCbCr<-one canvas, + // 1 :CANVAS 444 YCbCr(or RGB)<-one canvas, + // 2 :CANVAS 420 Y<-one CrCb<-one (NV21) + // 3 :CANVAS 420 Y<-one CbCr<-one (NV12) + // 4 :CANVAS 420 Y<-one Cb<-one Cr<-one + // 5 :CANVAS 444 Y<-one Cb<-one Cr<-one + // 6 : Reserved for other canvas mode + // 7 : should combine with cfg_ifmt_extra, for 10-12bits + // 8 :LINEAR RGB888 (24bit) + // 9 :LINEAR RGB565 (16bit) + // 10:LINEAR YUV422 + // 11:LINEAR YUV420 (Note:Legacy mode not supported) + // 12~15: Reserved for other linear mode +//cfg_oformat = mfdin_reg1_ctrl[5:4]; // Data Out Format: 0:420 1:422 2:444 3:reserved +//cfg_dsample_enable= mfdin_reg1_ctrl[6]; // Downsample Enable +//cfg_dsample_trunc = mfdin_reg1_ctrl[7]; // Downsample Addition Option: 0:Round 1:Truncated +//cfg_block_ysize = mfdin_reg1_ctrl[8]; // 0:block-y-size=16, 1:block-y-size=8(for JPEG's efficiency) +//cfg_interp_enable = mfdin_reg1_ctrl[9]; // Chroma Interpolation Enable +//cfg_interp_mode = mfdin_reg1_ctrl[11:10];// 0:average round 1:average truncated 2:repeat left 3:repeat right +//cfg_r2y_enable = mfdin_reg1_ctrl[12]; // RGb->YUV Enable +//cfg_r2y_mode = mfdin_reg1_ctrl[14:13];// RGb->YUV Mode +//cfg_rgb565_mode = mfdin_reg1_ctrl[15]; // RGB565 mode: 0:fill zero in tail 1:fill zero in head +//cfg_ifmt_extra = mfdin_reg1_ctrl[17:16];// when cfg_iformat==7, + // 0: CANVAS 12bit 422, YCbCr<-one canvas{...Y1[11:0],C1[11:0],Y0[11:0],C0[11:0]} + // 1: CANVAS 10bit 444, YCbCr<-one canvas{...2'b0,Y0[9:0],U0[9:0],V0[9:0]} + // 2: CANVAS 10bit 422, YCbCr<-one canvas{...Y1[9:0],C1[9:0],Y0[9:0],C0[9:0]} +//cfg_reserved1 = mfdin_reg1_ctrl[18]; // Reserved +//cfg_nr_enable = mfdin_reg1_ctrl[19]; // Noise Reduction Enable +//cfg_outofpic = mfdin_reg1_ctrl[28:20];// Out Of Picture Control: [8]mode:0:extend 1:fixed, [7:0]fixed value +//cfg_rd_blktype = mfdin_reg1_ctrl[30:29];// Block Type: 0:H264_I_PIC_ALL_4x4, 1:H264_P_PIC_Y_16x16_C_8x8, 2:JPEG_ALL_8x8, 3:Reserved +//cfg_rd_nonycintl = mfdin_reg1_ctrl[31]; // 0:YC interleaved 1:YC non-interleaved(for JPEG) +#define HCODEC_MFDIN_REG1_CTRL (0x1009) +#define P_HCODEC_MFDIN_REG1_CTRL (volatile unsigned int *)((0x1009 << 2) + 0xff620000) +//mfdin_reg2: DEBUG Only Status +#define HCODEC_MFDIN_REG2_STAT (0x100a) +#define P_HCODEC_MFDIN_REG2_STAT (volatile unsigned int *)((0x100a << 2) + 0xff620000) +//cfg_canvas_index0 = mfdin_reg3_canv[7:0]; //canvas index 0 +//cfg_canvas_index1 = mfdin_reg3_canv[15:8]; //canvas index 1 +//cfg_canvas_index2 = mfdin_reg3_canv[23:16];//canvas index 2 +//cfg_canv_idx0_bppx = mfdin_reg3_canv[25:24];//canvas bytes per pixel in x direction for index0, 0:half 1:1 2:2 3:3 +//cfg_canv_idx1_bppx = mfdin_reg3_canv[27:26];//canvas bytes per pixel in x direction for index1, 0:half 1:1 2:2 3:3 +//cfg_canv_idx0_bppy = mfdin_reg3_canv[29:28];//canvas bytes per pixel in y direction for index0, 0:half 1:1 2:2 3:3 +//cfg_canv_idx1_bppy = mfdin_reg3_canv[31:30];//canvas bytes per pixel in y direction for index1, 0:half 1:1 2:2 3:3 +#define HCODEC_MFDIN_REG3_CANV (0x100b) +#define P_HCODEC_MFDIN_REG3_CANV (volatile unsigned int *)((0x100b << 2) + 0xff620000) +//cfg_bytes_per_line = mfdin_reg4_lnr0[15:0]; //linear Bytes per line +//cfg_linear_bytes4p = mfdin_reg4_lnr0[17:16]; //linear (Bytes per pixel) - 1 +//cfg_linear_dbl2line = mfdin_reg4_lnr0[18]; //linear double size for odd line +#define HCODEC_MFDIN_REG4_LNR0 (0x100c) +#define P_HCODEC_MFDIN_REG4_LNR0 (volatile unsigned int *)((0x100c << 2) + 0xff620000) +//cfg_base_address = mfdin_reg5_lnr1[31:0]; //linear base address +#define HCODEC_MFDIN_REG5_LNR1 (0x100d) +#define P_HCODEC_MFDIN_REG5_LNR1 (volatile unsigned int *)((0x100d << 2) + 0xff620000) +//assign cfg_r2y_trunc = mfdin_reg6_dcfg[9]; //RGb->YUV Addition Option: 0:Round 1:Truncated +//assign cfg_dma_ugt = mfdin_reg6_dcfg[8]; //DMA Urgent +//assign cfg_dma_thread_id = mfdin_reg6_dcfg[7:6]; //DMA Thread ID +//assign cfg_dma_burst_num = mfdin_reg6_dcfg[5:0]; //DMA Burst Number +#define HCODEC_MFDIN_REG6_DCFG (0x100e) +#define P_HCODEC_MFDIN_REG6_DCFG (volatile unsigned int *)((0x100e << 2) + 0xff620000) +//cfg_soft_cmd = mfdin_reg7_scmd; // Soft Command [28]selfcleared start,[27:14]dmb_x,[13:0]dmb_y +#define HCODEC_MFDIN_REG7_SCMD (0x100f) +#define P_HCODEC_MFDIN_REG7_SCMD (volatile unsigned int *)((0x100f << 2) + 0xff620000) +//cfg_pic_xsize = mfdin_reg8_dmbl[23:12]; //pixel (x,y) at the begining of last dmb in the picturem, picture x size +//cfg_pic_ysize = mfdin_reg8_dmbl[11:0]; //picture y size +#define HCODEC_MFDIN_REG8_DMBL (0x1010) +#define P_HCODEC_MFDIN_REG8_DMBL (volatile unsigned int *)((0x1010 << 2) + 0xff620000) +//cfg_endian = mfdin_reg9_endn; //Endian Control +#define HCODEC_MFDIN_REG9_ENDN (0x1011) +#define P_HCODEC_MFDIN_REG9_ENDN (volatile unsigned int *)((0x1011 << 2) + 0xff620000) +//cfg_canv_biasx = mfdin_rega_cav1[23:12]; //canvas bias address x +//cfg_canv_biasy = mfdin_rega_cav1[11:0]; //canvas bias address y +#define HCODEC_MFDIN_REGA_CAV1 (0x1012) +#define P_HCODEC_MFDIN_REGA_CAV1 (volatile unsigned int *)((0x1012 << 2) + 0xff620000) +//cfg_amp_en = mfdin_regb_ampc[24]; //Amplitude Enable +//cfg_amp_cy = mfdin_regb_ampc[23:16]; //Amplitude Coeff Y +//cfg_amp_cu = mfdin_regb_ampc[15:8]; //Amplitude Coeff U +//cfg_amp_cv = mfdin_regb_ampc[7:0]; //Amplitude Coeff V +#define HCODEC_MFDIN_REGB_AMPC (0x1013) +#define P_HCODEC_MFDIN_REGB_AMPC (volatile unsigned int *)((0x1013 << 2) + 0xff620000) +//cfg_mb_end = mfdin_regc_mblp; // Soft Command [28]mb end enable,[27:14]dmb_x,[13:0]dmb_y +#define HCODEC_MFDIN_REGC_MBLP (0x1014) +#define P_HCODEC_MFDIN_REGC_MBLP (volatile unsigned int *)((0x1014 << 2) + 0xff620000) +// cfg_y_snr_en = mfdin_reg0d[0]; +// cfg_y_snr_err_norm = mfdin_reg0d[1]; +// [3:0] cfg_y_snr_gau_bld_core = mfdin_reg0d[5:2]; +// [7:0] cfg_y_snr_gau_bld_ofst = mfdin_reg0d[13:6]; +// [5:0] cfg_y_snr_gau_bld_rate = mfdin_reg0d[19:14]; +// [5:0] cfg_y_snr_gau_alp0_min = mfdin_reg0d[25:20]; +// [5:0] cfg_y_snr_gau_alp0_max = mfdin_reg0d[31:26]; +#define HCODEC_MFDIN_REG0D (0x1015) +#define P_HCODEC_MFDIN_REG0D (volatile unsigned int *)((0x1015 << 2) + 0xff620000) +// cfg_y_tnr_en = mfdin_reg0e[0]; +// cfg_y_tnr_mc_en = mfdin_reg0e[1]; +// cfg_y_tnr_txt_mode = mfdin_reg0e[2]; +// [3:0] cfg_y_tnr_mot_sad_margin = mfdin_reg0e[6:3]; +// [5:0] cfg_y_tnr_alpha_min = mfdin_reg0e[12:7]; +// [5:0] cfg_y_tnr_alpha_max = mfdin_reg0e[18:13]; +// [5:0] cfg_y_tnr_deghost_os = mfdin_reg0e[24:19]; +#define HCODEC_MFDIN_REG0E (0x1016) +#define P_HCODEC_MFDIN_REG0E (volatile unsigned int *)((0x1016 << 2) + 0xff620000) +// [3:0] cfg_y_tnr_mot_cortxt_rate = mfdin_reg0f[3:0]; +// [7:0] cfg_y_tnr_mot_distxt_ofst = mfdin_reg0f[15:8]; +// [3:0] cfg_y_tnr_mot_distxt_rate = mfdin_reg0f[7:4]; +// [7:0] cfg_y_tnr_mot_dismot_ofst = mfdin_reg0f[23:16]; +// [7:0] cfg_y_tnr_mot_frcsad_lock = mfdin_reg0f[31:24]; +#define HCODEC_MFDIN_REG0F (0x1017) +#define P_HCODEC_MFDIN_REG0F (volatile unsigned int *)((0x1017 << 2) + 0xff620000) +// [7:0] cfg_y_tnr_mot2alp_frc_gain = mfdin_reg10[7:0]; +// [7:0] cfg_y_tnr_mot2alp_nrm_gain = mfdin_reg10[15:8]; +// [7:0] cfg_y_tnr_mot2alp_dis_gain = mfdin_reg10[23:16]; +// [5:0] cfg_y_tnr_mot2alp_dis_ofst = mfdin_reg10[29:24]; +#define HCODEC_MFDIN_REG10 (0x1018) +#define P_HCODEC_MFDIN_REG10 (volatile unsigned int *)((0x1018 << 2) + 0xff620000) +// [7:0] cfg_y_bld_beta2alp_rate = mfdin_reg11[7:0]; +// [5:0] cfg_y_bld_beta_min = mfdin_reg11[13:8]; +// [5:0] cfg_y_bld_beta_max = mfdin_reg11[19:14]; +#define HCODEC_MFDIN_REG11 (0x1019) +#define P_HCODEC_MFDIN_REG11 (volatile unsigned int *)((0x1019 << 2) + 0xff620000) +// REG12~16 for Chroma, same as Luma +#define HCODEC_MFDIN_REG12 (0x101a) +#define P_HCODEC_MFDIN_REG12 (volatile unsigned int *)((0x101a << 2) + 0xff620000) +#define HCODEC_MFDIN_REG13 (0x101b) +#define P_HCODEC_MFDIN_REG13 (volatile unsigned int *)((0x101b << 2) + 0xff620000) +#define HCODEC_MFDIN_REG14 (0x101c) +#define P_HCODEC_MFDIN_REG14 (volatile unsigned int *)((0x101c << 2) + 0xff620000) +#define HCODEC_MFDIN_REG15 (0x101d) +#define P_HCODEC_MFDIN_REG15 (volatile unsigned int *)((0x101d << 2) + 0xff620000) +#define HCODEC_MFDIN_REG16 (0x101e) +#define P_HCODEC_MFDIN_REG16 (volatile unsigned int *)((0x101e << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT0 (0x1025) +#define P_HCODEC_ASSIST_AMR1_INT0 (volatile unsigned int *)((0x1025 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT1 (0x1026) +#define P_HCODEC_ASSIST_AMR1_INT1 (volatile unsigned int *)((0x1026 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT2 (0x1027) +#define P_HCODEC_ASSIST_AMR1_INT2 (volatile unsigned int *)((0x1027 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT3 (0x1028) +#define P_HCODEC_ASSIST_AMR1_INT3 (volatile unsigned int *)((0x1028 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT4 (0x1029) +#define P_HCODEC_ASSIST_AMR1_INT4 (volatile unsigned int *)((0x1029 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT5 (0x102a) +#define P_HCODEC_ASSIST_AMR1_INT5 (volatile unsigned int *)((0x102a << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT6 (0x102b) +#define P_HCODEC_ASSIST_AMR1_INT6 (volatile unsigned int *)((0x102b << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT7 (0x102c) +#define P_HCODEC_ASSIST_AMR1_INT7 (volatile unsigned int *)((0x102c << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT8 (0x102d) +#define P_HCODEC_ASSIST_AMR1_INT8 (volatile unsigned int *)((0x102d << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INT9 (0x102e) +#define P_HCODEC_ASSIST_AMR1_INT9 (volatile unsigned int *)((0x102e << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INTA (0x102f) +#define P_HCODEC_ASSIST_AMR1_INTA (volatile unsigned int *)((0x102f << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INTB (0x1030) +#define P_HCODEC_ASSIST_AMR1_INTB (volatile unsigned int *)((0x1030 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INTC (0x1031) +#define P_HCODEC_ASSIST_AMR1_INTC (volatile unsigned int *)((0x1031 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INTD (0x1032) +#define P_HCODEC_ASSIST_AMR1_INTD (volatile unsigned int *)((0x1032 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INTE (0x1033) +#define P_HCODEC_ASSIST_AMR1_INTE (volatile unsigned int *)((0x1033 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR1_INTF (0x1034) +#define P_HCODEC_ASSIST_AMR1_INTF (volatile unsigned int *)((0x1034 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT0 (0x1035) +#define P_HCODEC_ASSIST_AMR2_INT0 (volatile unsigned int *)((0x1035 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT1 (0x1036) +#define P_HCODEC_ASSIST_AMR2_INT1 (volatile unsigned int *)((0x1036 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT2 (0x1037) +#define P_HCODEC_ASSIST_AMR2_INT2 (volatile unsigned int *)((0x1037 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT3 (0x1038) +#define P_HCODEC_ASSIST_AMR2_INT3 (volatile unsigned int *)((0x1038 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT4 (0x1039) +#define P_HCODEC_ASSIST_AMR2_INT4 (volatile unsigned int *)((0x1039 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT5 (0x103a) +#define P_HCODEC_ASSIST_AMR2_INT5 (volatile unsigned int *)((0x103a << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT6 (0x103b) +#define P_HCODEC_ASSIST_AMR2_INT6 (volatile unsigned int *)((0x103b << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT7 (0x103c) +#define P_HCODEC_ASSIST_AMR2_INT7 (volatile unsigned int *)((0x103c << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT8 (0x103d) +#define P_HCODEC_ASSIST_AMR2_INT8 (volatile unsigned int *)((0x103d << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INT9 (0x103e) +#define P_HCODEC_ASSIST_AMR2_INT9 (volatile unsigned int *)((0x103e << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INTA (0x103f) +#define P_HCODEC_ASSIST_AMR2_INTA (volatile unsigned int *)((0x103f << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INTB (0x1040) +#define P_HCODEC_ASSIST_AMR2_INTB (volatile unsigned int *)((0x1040 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INTC (0x1041) +#define P_HCODEC_ASSIST_AMR2_INTC (volatile unsigned int *)((0x1041 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INTD (0x1042) +#define P_HCODEC_ASSIST_AMR2_INTD (volatile unsigned int *)((0x1042 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INTE (0x1043) +#define P_HCODEC_ASSIST_AMR2_INTE (volatile unsigned int *)((0x1043 << 2) + 0xff620000) +#define HCODEC_ASSIST_AMR2_INTF (0x1044) +#define P_HCODEC_ASSIST_AMR2_INTF (volatile unsigned int *)((0x1044 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBX_SSEL (0x1045) +#define P_HCODEC_ASSIST_MBX_SSEL (volatile unsigned int *)((0x1045 << 2) + 0xff620000) +#define HCODEC_ASSIST_TIMER0_LO (0x1060) +#define P_HCODEC_ASSIST_TIMER0_LO (volatile unsigned int *)((0x1060 << 2) + 0xff620000) +#define HCODEC_ASSIST_TIMER0_HI (0x1061) +#define P_HCODEC_ASSIST_TIMER0_HI (volatile unsigned int *)((0x1061 << 2) + 0xff620000) +#define HCODEC_ASSIST_TIMER1_LO (0x1062) +#define P_HCODEC_ASSIST_TIMER1_LO (volatile unsigned int *)((0x1062 << 2) + 0xff620000) +#define HCODEC_ASSIST_TIMER1_HI (0x1063) +#define P_HCODEC_ASSIST_TIMER1_HI (volatile unsigned int *)((0x1063 << 2) + 0xff620000) +#define HCODEC_ASSIST_DMA_INT (0x1064) +#define P_HCODEC_ASSIST_DMA_INT (volatile unsigned int *)((0x1064 << 2) + 0xff620000) +#define HCODEC_ASSIST_DMA_INT_MSK (0x1065) +#define P_HCODEC_ASSIST_DMA_INT_MSK (volatile unsigned int *)((0x1065 << 2) + 0xff620000) +#define HCODEC_ASSIST_DMA_INT2 (0x1066) +#define P_HCODEC_ASSIST_DMA_INT2 (volatile unsigned int *)((0x1066 << 2) + 0xff620000) +#define HCODEC_ASSIST_DMA_INT_MSK2 (0x1067) +#define P_HCODEC_ASSIST_DMA_INT_MSK2 (volatile unsigned int *)((0x1067 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX0_IRQ_REG (0x1070) +#define P_HCODEC_ASSIST_MBOX0_IRQ_REG (volatile unsigned int *)((0x1070 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX0_CLR_REG (0x1071) +#define P_HCODEC_ASSIST_MBOX0_CLR_REG (volatile unsigned int *)((0x1071 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX0_MASK (0x1072) +#define P_HCODEC_ASSIST_MBOX0_MASK (volatile unsigned int *)((0x1072 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX0_FIQ_SEL (0x1073) +#define P_HCODEC_ASSIST_MBOX0_FIQ_SEL (volatile unsigned int *)((0x1073 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX1_IRQ_REG (0x1074) +#define P_HCODEC_ASSIST_MBOX1_IRQ_REG (volatile unsigned int *)((0x1074 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX1_CLR_REG (0x1075) +#define P_HCODEC_ASSIST_MBOX1_CLR_REG (volatile unsigned int *)((0x1075 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX1_MASK (0x1076) +#define P_HCODEC_ASSIST_MBOX1_MASK (volatile unsigned int *)((0x1076 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX1_FIQ_SEL (0x1077) +#define P_HCODEC_ASSIST_MBOX1_FIQ_SEL (volatile unsigned int *)((0x1077 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX2_IRQ_REG (0x1078) +#define P_HCODEC_ASSIST_MBOX2_IRQ_REG (volatile unsigned int *)((0x1078 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX2_CLR_REG (0x1079) +#define P_HCODEC_ASSIST_MBOX2_CLR_REG (volatile unsigned int *)((0x1079 << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX2_MASK (0x107a) +#define P_HCODEC_ASSIST_MBOX2_MASK (volatile unsigned int *)((0x107a << 2) + 0xff620000) +#define HCODEC_ASSIST_MBOX2_FIQ_SEL (0x107b) +#define P_HCODEC_ASSIST_MBOX2_FIQ_SEL (volatile unsigned int *)((0x107b << 2) + 0xff620000) +//------------------------------------------------------------------------------ +// MDEC module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: mdec_regs.h +// +//======================================================================== +// MDEC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_MDEC_CBUS_BASE = 0x09 +// ----------------------------------------------- +#define MC_CTRL_REG (0x0900) +#define P_MC_CTRL_REG (volatile unsigned int *)((0x0900 << 2) + 0xff620000) +#define MC_MB_INFO (0x0901) +#define P_MC_MB_INFO (volatile unsigned int *)((0x0901 << 2) + 0xff620000) +#define MC_PIC_INFO (0x0902) +#define P_MC_PIC_INFO (volatile unsigned int *)((0x0902 << 2) + 0xff620000) +#define MC_HALF_PEL_ONE (0x0903) +#define P_MC_HALF_PEL_ONE (volatile unsigned int *)((0x0903 << 2) + 0xff620000) +#define MC_HALF_PEL_TWO (0x0904) +#define P_MC_HALF_PEL_TWO (volatile unsigned int *)((0x0904 << 2) + 0xff620000) +#define POWER_CTL_MC (0x0905) +#define P_POWER_CTL_MC (volatile unsigned int *)((0x0905 << 2) + 0xff620000) +#define MC_CMD (0x0906) +#define P_MC_CMD (volatile unsigned int *)((0x0906 << 2) + 0xff620000) +#define MC_CTRL0 (0x0907) +#define P_MC_CTRL0 (volatile unsigned int *)((0x0907 << 2) + 0xff620000) +#define MC_PIC_W_H (0x0908) +#define P_MC_PIC_W_H (volatile unsigned int *)((0x0908 << 2) + 0xff620000) +#define MC_STATUS0 (0x0909) +#define P_MC_STATUS0 (volatile unsigned int *)((0x0909 << 2) + 0xff620000) +#define MC_STATUS1 (0x090a) +#define P_MC_STATUS1 (volatile unsigned int *)((0x090a << 2) + 0xff620000) +#define MC_CTRL1 (0x090b) +#define P_MC_CTRL1 (volatile unsigned int *)((0x090b << 2) + 0xff620000) +#define MC_MIX_RATIO0 (0x090c) +#define P_MC_MIX_RATIO0 (volatile unsigned int *)((0x090c << 2) + 0xff620000) +#define MC_MIX_RATIO1 (0x090d) +#define P_MC_MIX_RATIO1 (volatile unsigned int *)((0x090d << 2) + 0xff620000) +#define MC_DP_MB_XY (0x090e) +#define P_MC_DP_MB_XY (volatile unsigned int *)((0x090e << 2) + 0xff620000) +#define MC_OM_MB_XY (0x090f) +#define P_MC_OM_MB_XY (volatile unsigned int *)((0x090f << 2) + 0xff620000) +#define PSCALE_RST (0x0910) +#define P_PSCALE_RST (volatile unsigned int *)((0x0910 << 2) + 0xff620000) +#define PSCALE_CTRL (0x0911) +#define P_PSCALE_CTRL (volatile unsigned int *)((0x0911 << 2) + 0xff620000) +#define PSCALE_PICI_W (0x0912) +#define P_PSCALE_PICI_W (volatile unsigned int *)((0x0912 << 2) + 0xff620000) +#define PSCALE_PICI_H (0x0913) +#define P_PSCALE_PICI_H (volatile unsigned int *)((0x0913 << 2) + 0xff620000) +#define PSCALE_PICO_W (0x0914) +#define P_PSCALE_PICO_W (volatile unsigned int *)((0x0914 << 2) + 0xff620000) +#define PSCALE_PICO_H (0x0915) +#define P_PSCALE_PICO_H (volatile unsigned int *)((0x0915 << 2) + 0xff620000) +#define PSCALE_PICO_START_X (0x0916) +#define P_PSCALE_PICO_START_X (volatile unsigned int *)((0x0916 << 2) + 0xff620000) +#define PSCALE_PICO_START_Y (0x0917) +#define P_PSCALE_PICO_START_Y (volatile unsigned int *)((0x0917 << 2) + 0xff620000) +#define PSCALE_DUMMY (0x0918) +#define P_PSCALE_DUMMY (volatile unsigned int *)((0x0918 << 2) + 0xff620000) +#define PSCALE_FILT0_COEF0 (0x0919) +#define P_PSCALE_FILT0_COEF0 (volatile unsigned int *)((0x0919 << 2) + 0xff620000) +#define PSCALE_FILT0_COEF1 (0x091a) +#define P_PSCALE_FILT0_COEF1 (volatile unsigned int *)((0x091a << 2) + 0xff620000) +#define PSCALE_CMD_CTRL (0x091b) +#define P_PSCALE_CMD_CTRL (volatile unsigned int *)((0x091b << 2) + 0xff620000) +#define PSCALE_CMD_BLK_X (0x091c) +#define P_PSCALE_CMD_BLK_X (volatile unsigned int *)((0x091c << 2) + 0xff620000) +#define PSCALE_CMD_BLK_Y (0x091d) +#define P_PSCALE_CMD_BLK_Y (volatile unsigned int *)((0x091d << 2) + 0xff620000) +#define PSCALE_STATUS (0x091e) +#define P_PSCALE_STATUS (volatile unsigned int *)((0x091e << 2) + 0xff620000) +#define PSCALE_BMEM_ADDR (0x091f) +#define P_PSCALE_BMEM_ADDR (volatile unsigned int *)((0x091f << 2) + 0xff620000) +#define PSCALE_BMEM_DAT (0x0920) +#define P_PSCALE_BMEM_DAT (volatile unsigned int *)((0x0920 << 2) + 0xff620000) +#define PSCALE_DRAM_BUF_CTRL (0x0921) +#define P_PSCALE_DRAM_BUF_CTRL (volatile unsigned int *)((0x0921 << 2) + 0xff620000) +#define PSCALE_MCMD_CTRL (0x0922) +#define P_PSCALE_MCMD_CTRL (volatile unsigned int *)((0x0922 << 2) + 0xff620000) +#define PSCALE_MCMD_XSIZE (0x0923) +#define P_PSCALE_MCMD_XSIZE (volatile unsigned int *)((0x0923 << 2) + 0xff620000) +#define PSCALE_MCMD_YSIZE (0x0924) +#define P_PSCALE_MCMD_YSIZE (volatile unsigned int *)((0x0924 << 2) + 0xff620000) +#define PSCALE_RBUF_START_BLKX (0x0925) +#define P_PSCALE_RBUF_START_BLKX (volatile unsigned int *)((0x0925 << 2) + 0xff620000) +#define PSCALE_RBUF_START_BLKY (0x0926) +#define P_PSCALE_RBUF_START_BLKY (volatile unsigned int *)((0x0926 << 2) + 0xff620000) +//`define PSCALE_RBUF_MB_WIDTH 8'h27 +#define PSCALE_PICO_SHIFT_XY (0x0928) +#define P_PSCALE_PICO_SHIFT_XY (volatile unsigned int *)((0x0928 << 2) + 0xff620000) +#define PSCALE_CTRL1 (0x0929) +#define P_PSCALE_CTRL1 (volatile unsigned int *)((0x0929 << 2) + 0xff620000) +//Bit 15, wmask enable +//Bit 14:13, filt0 srckey_less, +//Bit 12:11, filt1 srckey_less, in the case of the interpolated data is equal distance to +//key data and normal data, 00: select normal data, 01: select right data, 10: select key data +//Bit 10:9, srckey mode, 00: equal, 01: less than or equal, 10: great than or equal +//Bit 8, src key enable +//Bit 7:0, y src key +#define PSCALE_SRCKEY_CTRL0 (0x092a) +#define P_PSCALE_SRCKEY_CTRL0 (volatile unsigned int *)((0x092a << 2) + 0xff620000) +//Bit 15:8, cb src key +//Bit 7:0, cr src key +#define PSCALE_SRCKEY_CTRL1 (0x092b) +#define P_PSCALE_SRCKEY_CTRL1 (volatile unsigned int *)((0x092b << 2) + 0xff620000) +//Bit 22:16 canvas_rd_addr2 +//Bit 14:8 canvas_rd_addr1 +//Bit 6:0 canvas_rd_addr1 +#define PSCALE_CANVAS_RD_ADDR (0x092c) +#define P_PSCALE_CANVAS_RD_ADDR (volatile unsigned int *)((0x092c << 2) + 0xff620000) +//Bit 22:16 canvas_wr_addr2 +//Bit 14:8 canvas_wr_addr1 +//Bit 6:0 canvas_wr_addr1 +#define PSCALE_CANVAS_WR_ADDR (0x092d) +#define P_PSCALE_CANVAS_WR_ADDR (volatile unsigned int *)((0x092d << 2) + 0xff620000) +//bit 13:8 pscale thread ID and token +//bit 7 disable write response count adding to busy bit +//bit 5:0 pscale prearbitor burst num +#define PSCALE_CTRL2 (0x092e) +#define P_PSCALE_CTRL2 (volatile unsigned int *)((0x092e << 2) + 0xff620000) +// 31 - use_omem_mb_xy_auto +//23:16 - omem_max_mb_x +//15:8 - omem_mb_y_auto +// 7:0 - omem_mb_x_auto +#define HDEC_MC_OMEM_AUTO (0x0930) +#define P_HDEC_MC_OMEM_AUTO (volatile unsigned int *)((0x0930 << 2) + 0xff620000) +#define HDEC_MC_MBRIGHT_IDX (0x0931) +#define P_HDEC_MC_MBRIGHT_IDX (volatile unsigned int *)((0x0931 << 2) + 0xff620000) +#define HDEC_MC_MBRIGHT_RD (0x0932) +#define P_HDEC_MC_MBRIGHT_RD (volatile unsigned int *)((0x0932 << 2) + 0xff620000) +#define MC_MPORT_CTRL (0x0940) +#define P_MC_MPORT_CTRL (volatile unsigned int *)((0x0940 << 2) + 0xff620000) +#define MC_MPORT_DAT (0x0941) +#define P_MC_MPORT_DAT (volatile unsigned int *)((0x0941 << 2) + 0xff620000) +#define MC_WT_PRED_CTRL (0x0942) +#define P_MC_WT_PRED_CTRL (volatile unsigned int *)((0x0942 << 2) + 0xff620000) +#define MC_MBBOT_ST_EVEN_ADDR (0x0944) +#define P_MC_MBBOT_ST_EVEN_ADDR (volatile unsigned int *)((0x0944 << 2) + 0xff620000) +#define MC_MBBOT_ST_ODD_ADDR (0x0945) +#define P_MC_MBBOT_ST_ODD_ADDR (volatile unsigned int *)((0x0945 << 2) + 0xff620000) +#define MC_DPDN_MB_XY (0x0946) +#define P_MC_DPDN_MB_XY (volatile unsigned int *)((0x0946 << 2) + 0xff620000) +#define MC_OMDN_MB_XY (0x0947) +#define P_MC_OMDN_MB_XY (volatile unsigned int *)((0x0947 << 2) + 0xff620000) +#define MC_HCMDBUF_H (0x0948) +#define P_MC_HCMDBUF_H (volatile unsigned int *)((0x0948 << 2) + 0xff620000) +#define MC_HCMDBUF_L (0x0949) +#define P_MC_HCMDBUF_L (volatile unsigned int *)((0x0949 << 2) + 0xff620000) +#define MC_HCMD_H (0x094a) +#define P_MC_HCMD_H (volatile unsigned int *)((0x094a << 2) + 0xff620000) +#define MC_HCMD_L (0x094b) +#define P_MC_HCMD_L (volatile unsigned int *)((0x094b << 2) + 0xff620000) +#define MC_IDCT_DAT (0x094c) +#define P_MC_IDCT_DAT (volatile unsigned int *)((0x094c << 2) + 0xff620000) +#define MC_CTRL_GCLK_CTRL (0x094d) +#define P_MC_CTRL_GCLK_CTRL (volatile unsigned int *)((0x094d << 2) + 0xff620000) +#define MC_OTHER_GCLK_CTRL (0x094e) +#define P_MC_OTHER_GCLK_CTRL (volatile unsigned int *)((0x094e << 2) + 0xff620000) +//Bit 29:24, mbbot thread ID and token +//Bit 21:16, mc read/write thread ID and token +//Bit 13:8, mbbot pre-arbitor burst number +//Bit 5:0, mc pre-arbitor burst number +#define MC_CTRL2 (0x094f) +#define P_MC_CTRL2 (volatile unsigned int *)((0x094f << 2) + 0xff620000) +// `define DBLK_QUANT 8'h76 // ONLY for $ucode/real/amrisc/rv.s, reg value from apollo +//`define ANC1_CANVAS_ADDR 8'h80 +//`define ANC2_CANVAS_ADDR 8'h81 +//`define REC_CANVAS_ADDR 8'h89 +//`define MDEC_PIC_W 8'h8c +//`define MDEC_PIC_H 8'h8d +// mdec_pic_dc_mux_ctrl[31] -- mcr_hevc_mode +#define MDEC_PIC_DC_MUX_CTRL (0x098d) +#define P_MDEC_PIC_DC_MUX_CTRL (volatile unsigned int *)((0x098d << 2) + 0xff620000) +#define MDEC_PIC_DC_CTRL (0x098e) +#define P_MDEC_PIC_DC_CTRL (volatile unsigned int *)((0x098e << 2) + 0xff620000) +#define MDEC_PIC_DC_STATUS (0x098f) +#define P_MDEC_PIC_DC_STATUS (volatile unsigned int *)((0x098f << 2) + 0xff620000) +#define ANC0_CANVAS_ADDR (0x0990) +#define P_ANC0_CANVAS_ADDR (volatile unsigned int *)((0x0990 << 2) + 0xff620000) +#define ANC1_CANVAS_ADDR (0x0991) +#define P_ANC1_CANVAS_ADDR (volatile unsigned int *)((0x0991 << 2) + 0xff620000) +#define ANC2_CANVAS_ADDR (0x0992) +#define P_ANC2_CANVAS_ADDR (volatile unsigned int *)((0x0992 << 2) + 0xff620000) +#define ANC3_CANVAS_ADDR (0x0993) +#define P_ANC3_CANVAS_ADDR (volatile unsigned int *)((0x0993 << 2) + 0xff620000) +#define ANC4_CANVAS_ADDR (0x0994) +#define P_ANC4_CANVAS_ADDR (volatile unsigned int *)((0x0994 << 2) + 0xff620000) +#define ANC5_CANVAS_ADDR (0x0995) +#define P_ANC5_CANVAS_ADDR (volatile unsigned int *)((0x0995 << 2) + 0xff620000) +#define ANC6_CANVAS_ADDR (0x0996) +#define P_ANC6_CANVAS_ADDR (volatile unsigned int *)((0x0996 << 2) + 0xff620000) +#define ANC7_CANVAS_ADDR (0x0997) +#define P_ANC7_CANVAS_ADDR (volatile unsigned int *)((0x0997 << 2) + 0xff620000) +#define ANC8_CANVAS_ADDR (0x0998) +#define P_ANC8_CANVAS_ADDR (volatile unsigned int *)((0x0998 << 2) + 0xff620000) +#define ANC9_CANVAS_ADDR (0x0999) +#define P_ANC9_CANVAS_ADDR (volatile unsigned int *)((0x0999 << 2) + 0xff620000) +#define ANC10_CANVAS_ADDR (0x099a) +#define P_ANC10_CANVAS_ADDR (volatile unsigned int *)((0x099a << 2) + 0xff620000) +#define ANC11_CANVAS_ADDR (0x099b) +#define P_ANC11_CANVAS_ADDR (volatile unsigned int *)((0x099b << 2) + 0xff620000) +#define ANC12_CANVAS_ADDR (0x099c) +#define P_ANC12_CANVAS_ADDR (volatile unsigned int *)((0x099c << 2) + 0xff620000) +#define ANC13_CANVAS_ADDR (0x099d) +#define P_ANC13_CANVAS_ADDR (volatile unsigned int *)((0x099d << 2) + 0xff620000) +#define ANC14_CANVAS_ADDR (0x099e) +#define P_ANC14_CANVAS_ADDR (volatile unsigned int *)((0x099e << 2) + 0xff620000) +#define ANC15_CANVAS_ADDR (0x099f) +#define P_ANC15_CANVAS_ADDR (volatile unsigned int *)((0x099f << 2) + 0xff620000) +#define ANC16_CANVAS_ADDR (0x09a0) +#define P_ANC16_CANVAS_ADDR (volatile unsigned int *)((0x09a0 << 2) + 0xff620000) +#define ANC17_CANVAS_ADDR (0x09a1) +#define P_ANC17_CANVAS_ADDR (volatile unsigned int *)((0x09a1 << 2) + 0xff620000) +#define ANC18_CANVAS_ADDR (0x09a2) +#define P_ANC18_CANVAS_ADDR (volatile unsigned int *)((0x09a2 << 2) + 0xff620000) +#define ANC19_CANVAS_ADDR (0x09a3) +#define P_ANC19_CANVAS_ADDR (volatile unsigned int *)((0x09a3 << 2) + 0xff620000) +#define ANC20_CANVAS_ADDR (0x09a4) +#define P_ANC20_CANVAS_ADDR (volatile unsigned int *)((0x09a4 << 2) + 0xff620000) +#define ANC21_CANVAS_ADDR (0x09a5) +#define P_ANC21_CANVAS_ADDR (volatile unsigned int *)((0x09a5 << 2) + 0xff620000) +#define ANC22_CANVAS_ADDR (0x09a6) +#define P_ANC22_CANVAS_ADDR (volatile unsigned int *)((0x09a6 << 2) + 0xff620000) +#define ANC23_CANVAS_ADDR (0x09a7) +#define P_ANC23_CANVAS_ADDR (volatile unsigned int *)((0x09a7 << 2) + 0xff620000) +#define ANC24_CANVAS_ADDR (0x09a8) +#define P_ANC24_CANVAS_ADDR (volatile unsigned int *)((0x09a8 << 2) + 0xff620000) +#define ANC25_CANVAS_ADDR (0x09a9) +#define P_ANC25_CANVAS_ADDR (volatile unsigned int *)((0x09a9 << 2) + 0xff620000) +#define ANC26_CANVAS_ADDR (0x09aa) +#define P_ANC26_CANVAS_ADDR (volatile unsigned int *)((0x09aa << 2) + 0xff620000) +#define ANC27_CANVAS_ADDR (0x09ab) +#define P_ANC27_CANVAS_ADDR (volatile unsigned int *)((0x09ab << 2) + 0xff620000) +#define ANC28_CANVAS_ADDR (0x09ac) +#define P_ANC28_CANVAS_ADDR (volatile unsigned int *)((0x09ac << 2) + 0xff620000) +#define ANC29_CANVAS_ADDR (0x09ad) +#define P_ANC29_CANVAS_ADDR (volatile unsigned int *)((0x09ad << 2) + 0xff620000) +#define ANC30_CANVAS_ADDR (0x09ae) +#define P_ANC30_CANVAS_ADDR (volatile unsigned int *)((0x09ae << 2) + 0xff620000) +#define ANC31_CANVAS_ADDR (0x09af) +#define P_ANC31_CANVAS_ADDR (volatile unsigned int *)((0x09af << 2) + 0xff620000) +#define DBKR_CANVAS_ADDR (0x09b0) +#define P_DBKR_CANVAS_ADDR (volatile unsigned int *)((0x09b0 << 2) + 0xff620000) +#define DBKW_CANVAS_ADDR (0x09b1) +#define P_DBKW_CANVAS_ADDR (volatile unsigned int *)((0x09b1 << 2) + 0xff620000) +#define REC_CANVAS_ADDR (0x09b2) +#define P_REC_CANVAS_ADDR (volatile unsigned int *)((0x09b2 << 2) + 0xff620000) +//28:24, read/write, current canvas idx, used in h264 only now +//23:0, read only, current canvas address, 23:16, Cr canvas addr, 15:8, Cb canvas addr, 7:0, Y canvas addr +#define CURR_CANVAS_CTRL (0x09b3) +#define P_CURR_CANVAS_CTRL (volatile unsigned int *)((0x09b3 << 2) + 0xff620000) +#define MDEC_PIC_DC_THRESH (0x09b8) +#define P_MDEC_PIC_DC_THRESH (volatile unsigned int *)((0x09b8 << 2) + 0xff620000) +#define MDEC_PICR_BUF_STATUS (0x09b9) +#define P_MDEC_PICR_BUF_STATUS (volatile unsigned int *)((0x09b9 << 2) + 0xff620000) +#define MDEC_PICW_BUF_STATUS (0x09ba) +#define P_MDEC_PICW_BUF_STATUS (volatile unsigned int *)((0x09ba << 2) + 0xff620000) +#define MCW_DBLK_WRRSP_CNT (0x09bb) +#define P_MCW_DBLK_WRRSP_CNT (volatile unsigned int *)((0x09bb << 2) + 0xff620000) +#define MC_MBBOT_WRRSP_CNT (0x09bc) +#define P_MC_MBBOT_WRRSP_CNT (volatile unsigned int *)((0x09bc << 2) + 0xff620000) +#define MDEC_PICW_BUF2_STATUS (0x09bd) +#define P_MDEC_PICW_BUF2_STATUS (volatile unsigned int *)((0x09bd << 2) + 0xff620000) +#define WRRSP_FIFO_PICW_DBK (0x09be) +#define P_WRRSP_FIFO_PICW_DBK (volatile unsigned int *)((0x09be << 2) + 0xff620000) +#define WRRSP_FIFO_PICW_MC (0x09bf) +#define P_WRRSP_FIFO_PICW_MC (volatile unsigned int *)((0x09bf << 2) + 0xff620000) +#define AV_SCRATCH_0 (0x09c0) +#define P_AV_SCRATCH_0 (volatile unsigned int *)((0x09c0 << 2) + 0xff620000) +#define AV_SCRATCH_1 (0x09c1) +#define P_AV_SCRATCH_1 (volatile unsigned int *)((0x09c1 << 2) + 0xff620000) +#define AV_SCRATCH_2 (0x09c2) +#define P_AV_SCRATCH_2 (volatile unsigned int *)((0x09c2 << 2) + 0xff620000) +#define AV_SCRATCH_3 (0x09c3) +#define P_AV_SCRATCH_3 (volatile unsigned int *)((0x09c3 << 2) + 0xff620000) +#define AV_SCRATCH_4 (0x09c4) +#define P_AV_SCRATCH_4 (volatile unsigned int *)((0x09c4 << 2) + 0xff620000) +#define AV_SCRATCH_5 (0x09c5) +#define P_AV_SCRATCH_5 (volatile unsigned int *)((0x09c5 << 2) + 0xff620000) +#define AV_SCRATCH_6 (0x09c6) +#define P_AV_SCRATCH_6 (volatile unsigned int *)((0x09c6 << 2) + 0xff620000) +#define AV_SCRATCH_7 (0x09c7) +#define P_AV_SCRATCH_7 (volatile unsigned int *)((0x09c7 << 2) + 0xff620000) +#define AV_SCRATCH_8 (0x09c8) +#define P_AV_SCRATCH_8 (volatile unsigned int *)((0x09c8 << 2) + 0xff620000) +#define AV_SCRATCH_9 (0x09c9) +#define P_AV_SCRATCH_9 (volatile unsigned int *)((0x09c9 << 2) + 0xff620000) +#define AV_SCRATCH_A (0x09ca) +#define P_AV_SCRATCH_A (volatile unsigned int *)((0x09ca << 2) + 0xff620000) +#define AV_SCRATCH_B (0x09cb) +#define P_AV_SCRATCH_B (volatile unsigned int *)((0x09cb << 2) + 0xff620000) +#define AV_SCRATCH_C (0x09cc) +#define P_AV_SCRATCH_C (volatile unsigned int *)((0x09cc << 2) + 0xff620000) +#define AV_SCRATCH_D (0x09cd) +#define P_AV_SCRATCH_D (volatile unsigned int *)((0x09cd << 2) + 0xff620000) +#define AV_SCRATCH_E (0x09ce) +#define P_AV_SCRATCH_E (volatile unsigned int *)((0x09ce << 2) + 0xff620000) +#define AV_SCRATCH_F (0x09cf) +#define P_AV_SCRATCH_F (volatile unsigned int *)((0x09cf << 2) + 0xff620000) +#define AV_SCRATCH_G (0x09d0) +#define P_AV_SCRATCH_G (volatile unsigned int *)((0x09d0 << 2) + 0xff620000) +#define AV_SCRATCH_H (0x09d1) +#define P_AV_SCRATCH_H (volatile unsigned int *)((0x09d1 << 2) + 0xff620000) +#define AV_SCRATCH_I (0x09d2) +#define P_AV_SCRATCH_I (volatile unsigned int *)((0x09d2 << 2) + 0xff620000) +#define AV_SCRATCH_J (0x09d3) +#define P_AV_SCRATCH_J (volatile unsigned int *)((0x09d3 << 2) + 0xff620000) +#define AV_SCRATCH_K (0x09d4) +#define P_AV_SCRATCH_K (volatile unsigned int *)((0x09d4 << 2) + 0xff620000) +#define AV_SCRATCH_L (0x09d5) +#define P_AV_SCRATCH_L (volatile unsigned int *)((0x09d5 << 2) + 0xff620000) +#define AV_SCRATCH_M (0x09d6) +#define P_AV_SCRATCH_M (volatile unsigned int *)((0x09d6 << 2) + 0xff620000) +#define AV_SCRATCH_N (0x09d7) +#define P_AV_SCRATCH_N (volatile unsigned int *)((0x09d7 << 2) + 0xff620000) +// bit[29:24] A_brst_num_co_mb +// bit[21:16] A_id_co_mb +// bit[11:0] wrrsp_count_co_mb +#define WRRSP_CO_MB (0x09d8) +#define P_WRRSP_CO_MB (volatile unsigned int *)((0x09d8 << 2) + 0xff620000) +// bit[29:24] A_brst_num_dcac +// bit[21:16] A_id_dcac +// bit[11:0] wrrsp_count_dcac +#define WRRSP_DCAC (0x09d9) +#define P_WRRSP_DCAC (volatile unsigned int *)((0x09d9 << 2) + 0xff620000) +// bit[11:0] wrrsp_count_vld +#define WRRSP_VLD (0x09da) +#define P_WRRSP_VLD (volatile unsigned int *)((0x09da << 2) + 0xff620000) +// doublew_cfg0[0]; // Second Channel Enable, 1:Enable 0:Disable +// doublew_cfg0[3:1]; // [2:0] Endian Control for Luma +// doublew_cfg0[5:4]; // [1:0] Pixel sel by horizontal, 0x:1/2 10:left 11:right +// doublew_cfg0[7:6]; // [1:0] Pixel sel by vertical, 0x:1/2 10:up 11:down +// doublew_cfg0[8]; // Size by horizontal, 0:original size 1: 1/2 shrunken size +// doublew_cfg0[9]; // Size by vertical, 0:original size 1: 1/2 shrunken size +// doublew_cfg0[10]; // 1:Round 0:Truncation +// doublew_cfg0[11]; // DMA Urgent +// doublew_cfg0[17:12]; // [5:0] DMA Burst Number +// doublew_cfg0[23:18]; // [5:0] DMA ID +// doublew_cfg0[26:24]; // [2:0] Endian Control for Chroma +// doublew_cfg0[27]; // Source from, 1:MCW 0:DBLK +// doublew_cfg0[29:28]; // [1:0] 0x:select both top and bottom 10:select top 11:select bottom +// doublew_cfg0[30]; // 0:no merge 1:automatic merge +// doublew_cfg0[31]; // 0:Y addr no change 1:Y addr divided to half +#define MDEC_DOUBLEW_CFG0 (0x09db) +#define P_MDEC_DOUBLEW_CFG0 (volatile unsigned int *)((0x09db << 2) + 0xff620000) +// doublew_cfg1[7:0]; // [7:0] DMA Canvas Address for Luma +// doublew_cfg1[15:8]; // [7:0] DMA Canvas Address for Chroma +// doublew_cfg1[16]; // Disable 1st Write - +// doublew_cfg1[17]; // Reverse to original version - +// doublew_cfg1[18]; // DMA Address Mode - 0:Canvas Mode 1:Non-Canvas Mode +#define MDEC_DOUBLEW_CFG1 (0x09dc) +#define P_MDEC_DOUBLEW_CFG1 (volatile unsigned int *)((0x09dc << 2) + 0xff620000) +// doublew_cfg2[11:0]; //[11:0] vertical flip initial value +// doublew_cfg2[15]; // vertical flip enable +// doublew_cfg2[24:16]; // [8:0] horizontal flip initial value +// doublew_cfg2[31]; // horizontal flip enable +#define MDEC_DOUBLEW_CFG2 (0x09dd) +#define P_MDEC_DOUBLEW_CFG2 (volatile unsigned int *)((0x09dd << 2) + 0xff620000) +// doublew_cfg3[31:0]; //[31:0] non-canvas start address for Luma - +#define MDEC_DOUBLEW_CFG3 (0x09de) +#define P_MDEC_DOUBLEW_CFG3 (volatile unsigned int *)((0x09de << 2) + 0xff620000) +// doublew_cfg4[31:0]; //[31:0] non-canvas start address for Chroma - +#define MDEC_DOUBLEW_CFG4 (0x09df) +#define P_MDEC_DOUBLEW_CFG4 (volatile unsigned int *)((0x09df << 2) + 0xff620000) +// doublew_cfg5[12:0]; //[12:0] non-canvas picture width for Luma - +// doublew_cfg5[28:16]; //[12:0] non-canvas picture width for Chroma - +#define MDEC_DOUBLEW_CFG5 (0x09e0) +#define P_MDEC_DOUBLEW_CFG5 (volatile unsigned int *)((0x09e0 << 2) + 0xff620000) +// doublew_cfg6: reserved +#define MDEC_DOUBLEW_CFG6 (0x09e1) +#define P_MDEC_DOUBLEW_CFG6 (volatile unsigned int *)((0x09e1 << 2) + 0xff620000) +// doublew_cfg7: reserved +#define MDEC_DOUBLEW_CFG7 (0x09e2) +#define P_MDEC_DOUBLEW_CFG7 (volatile unsigned int *)((0x09e2 << 2) + 0xff620000) +// doublew_status[11:0];//[11:0] wrrsp_count_doublew +// doublew_status[12]; // doublew_status_busy +// doublew_status[13]; // doublew_status_error +#define MDEC_DOUBLEW_STATUS (0x09e3) +#define P_MDEC_DOUBLEW_STATUS (volatile unsigned int *)((0x09e3 << 2) + 0xff620000) +#define MDEC_EXTIF_CFG0 (0x09e4) +#define P_MDEC_EXTIF_CFG0 (volatile unsigned int *)((0x09e4 << 2) + 0xff620000) +#define MDEC_EXTIF_CFG1 (0x09e5) +#define P_MDEC_EXTIF_CFG1 (volatile unsigned int *)((0x09e5 << 2) + 0xff620000) +#define MDEC_EXTIF_STS0 (0x09e6) +#define P_MDEC_EXTIF_STS0 (volatile unsigned int *)((0x09e6 << 2) + 0xff620000) +//====================================== +// MC Control Register Bits +// +//====================================== +// For bits, just copy the defines...don't translate to addresses + #define MC_ENABLE 0x0001 + //`define MC_RESET 16'h0002 + #define SKIP_MB 0x0004 + +//====================================== +// MB Info Register Bits +// +//====================================== + #define INTRA_MB 0x0001 + + #define BWD_PRED 0x0004 + #define FWD_PRED 0x0008 + + #define FLD_MOT 0x0100 + #define FRM_16x8_MOT 0x0200 + #define DUAL_PRM_MOT 0x0300 + + #define FRM_DCT 0x0000 // Bit 10 + #define FLD_DCT 0x0400 + +//====================================== +// MB Info Register Bits +// +//====================================== + #define I_PIC 0x0001 + #define P_PIC 0x0002 + #define B_PIC 0x0003 + + #define FLD_PIC 0x0000 // Bit 8 + #define FRM_PIC 0x0100 +//======================================================================== +// DBLK Register: 12'h950 - 12'h97f +//======================================================================== +#define DBLK_RST (0x0950) +#define P_DBLK_RST (volatile unsigned int *)((0x0950 << 2) + 0xff620000) +#define DBLK_CTRL (0x0951) +#define P_DBLK_CTRL (volatile unsigned int *)((0x0951 << 2) + 0xff620000) +#define DBLK_MB_WID_HEIGHT (0x0952) +#define P_DBLK_MB_WID_HEIGHT (volatile unsigned int *)((0x0952 << 2) + 0xff620000) +#define DBLK_STATUS (0x0953) +#define P_DBLK_STATUS (volatile unsigned int *)((0x0953 << 2) + 0xff620000) +#define DBLK_CMD_CTRL (0x0954) +#define P_DBLK_CMD_CTRL (volatile unsigned int *)((0x0954 << 2) + 0xff620000) +#define DBLK_MB_XY (0x0955) +#define P_DBLK_MB_XY (volatile unsigned int *)((0x0955 << 2) + 0xff620000) +#define DBLK_QP (0x0956) +#define P_DBLK_QP (volatile unsigned int *)((0x0956 << 2) + 0xff620000) +#define DBLK_Y_BHFILT (0x0957) +#define P_DBLK_Y_BHFILT (volatile unsigned int *)((0x0957 << 2) + 0xff620000) +#define DBLK_Y_BHFILT_HIGH (0x0958) +#define P_DBLK_Y_BHFILT_HIGH (volatile unsigned int *)((0x0958 << 2) + 0xff620000) +#define DBLK_Y_BVFILT (0x0959) +#define P_DBLK_Y_BVFILT (volatile unsigned int *)((0x0959 << 2) + 0xff620000) +#define DBLK_CB_BFILT (0x095a) +#define P_DBLK_CB_BFILT (volatile unsigned int *)((0x095a << 2) + 0xff620000) +#define DBLK_CR_BFILT (0x095b) +#define P_DBLK_CR_BFILT (volatile unsigned int *)((0x095b << 2) + 0xff620000) +#define DBLK_Y_HFILT (0x095c) +#define P_DBLK_Y_HFILT (volatile unsigned int *)((0x095c << 2) + 0xff620000) +#define DBLK_Y_HFILT_HIGH (0x095d) +#define P_DBLK_Y_HFILT_HIGH (volatile unsigned int *)((0x095d << 2) + 0xff620000) +#define DBLK_Y_VFILT (0x095e) +#define P_DBLK_Y_VFILT (volatile unsigned int *)((0x095e << 2) + 0xff620000) +#define DBLK_CB_FILT (0x095f) +#define P_DBLK_CB_FILT (volatile unsigned int *)((0x095f << 2) + 0xff620000) +#define DBLK_CR_FILT (0x0960) +#define P_DBLK_CR_FILT (volatile unsigned int *)((0x0960 << 2) + 0xff620000) +#define DBLK_BETAX_QP_SEL (0x0961) +#define P_DBLK_BETAX_QP_SEL (volatile unsigned int *)((0x0961 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL0 (0x0962) +#define P_DBLK_CLIP_CTRL0 (volatile unsigned int *)((0x0962 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL1 (0x0963) +#define P_DBLK_CLIP_CTRL1 (volatile unsigned int *)((0x0963 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL2 (0x0964) +#define P_DBLK_CLIP_CTRL2 (volatile unsigned int *)((0x0964 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL3 (0x0965) +#define P_DBLK_CLIP_CTRL3 (volatile unsigned int *)((0x0965 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL4 (0x0966) +#define P_DBLK_CLIP_CTRL4 (volatile unsigned int *)((0x0966 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL5 (0x0967) +#define P_DBLK_CLIP_CTRL5 (volatile unsigned int *)((0x0967 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL6 (0x0968) +#define P_DBLK_CLIP_CTRL6 (volatile unsigned int *)((0x0968 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL7 (0x0969) +#define P_DBLK_CLIP_CTRL7 (volatile unsigned int *)((0x0969 << 2) + 0xff620000) +#define DBLK_CLIP_CTRL8 (0x096a) +#define P_DBLK_CLIP_CTRL8 (volatile unsigned int *)((0x096a << 2) + 0xff620000) +#define DBLK_STATUS1 (0x096b) +#define P_DBLK_STATUS1 (volatile unsigned int *)((0x096b << 2) + 0xff620000) +#define DBLK_GCLK_FREE (0x096c) +#define P_DBLK_GCLK_FREE (volatile unsigned int *)((0x096c << 2) + 0xff620000) +#define DBLK_GCLK_OFF (0x096d) +#define P_DBLK_GCLK_OFF (volatile unsigned int *)((0x096d << 2) + 0xff620000) +#define DBLK_AVSFLAGS (0x096e) +#define P_DBLK_AVSFLAGS (volatile unsigned int *)((0x096e << 2) + 0xff620000) +// bit 15:0 +#define DBLK_CBPY (0x0970) +#define P_DBLK_CBPY (volatile unsigned int *)((0x0970 << 2) + 0xff620000) +// bit 11:8 -- deblk_cbpy_bottom +// bit 7:4 -- deblk_cbpy_left +// bit 3:0 -- deblk_cbpy_top +#define DBLK_CBPY_ADJ (0x0971) +#define P_DBLK_CBPY_ADJ (volatile unsigned int *)((0x0971 << 2) + 0xff620000) +// bit 7:0 -- deblk_cbpc +#define DBLK_CBPC (0x0972) +#define P_DBLK_CBPC (volatile unsigned int *)((0x0972 << 2) + 0xff620000) +// bit 15 -- bottom_mb +// bit 14 -- left_mb +// bit 13 -- top_mb +// bit 12 -- reserved +// bit 11:8 -- deblk_cbpc_bottom +// bit 7:4 -- deblk_cbpc_left +// bit 3:0 -- deblk_cbpc_top +#define DBLK_CBPC_ADJ (0x0973) +#define P_DBLK_CBPC_ADJ (volatile unsigned int *)((0x0973 << 2) + 0xff620000) +// bit 15:8 -- deblk_hmvd -- {left_1, left_0, below_1, below_0, block3-0} +// bit 7:0 -- deblk_vmvd -- {top_1, top_0, below_1, below_0, block3-0} +#define DBLK_VHMVD (0x0974) +#define P_DBLK_VHMVD (volatile unsigned int *)((0x0974 << 2) + 0xff620000) +// bit 13:12 -- right_vmvd +// bit 11 -- right_above_vmvd +// bit 10 -- left_below_hmvd +// bit 9 -- disable_dblk_luma +// bit 8 -- disable_dblk_chroma +// bit 7 -- bBelowRefDiff +// bit 6 -- bLeftRefDiff +// bit 5 -- bAboveRefDiff +// bit 4 -- reserved +// bit 3 -- s_below +// bit 2 -- s_left +// bit 1 -- s_above +// bit 0 -- s +#define DBLK_STRONG (0x0975) +#define P_DBLK_STRONG (volatile unsigned int *)((0x0975 << 2) + 0xff620000) +// bit 14:10 -- PQUANT +// bit 9:5 -- left_PQUANT +// bit 4:0 -- top_PQUANT +#define DBLK_RV8_QUANT (0x0976) +#define P_DBLK_RV8_QUANT (volatile unsigned int *)((0x0976 << 2) + 0xff620000) +#define DBLK_CBUS_HCMD2 (0x0977) +#define P_DBLK_CBUS_HCMD2 (volatile unsigned int *)((0x0977 << 2) + 0xff620000) +#define DBLK_CBUS_HCMD1 (0x0978) +#define P_DBLK_CBUS_HCMD1 (volatile unsigned int *)((0x0978 << 2) + 0xff620000) +#define DBLK_CBUS_HCMD0 (0x0979) +#define P_DBLK_CBUS_HCMD0 (volatile unsigned int *)((0x0979 << 2) + 0xff620000) +#define DBLK_VLD_HCMD2 (0x097a) +#define P_DBLK_VLD_HCMD2 (volatile unsigned int *)((0x097a << 2) + 0xff620000) +#define DBLK_VLD_HCMD1 (0x097b) +#define P_DBLK_VLD_HCMD1 (volatile unsigned int *)((0x097b << 2) + 0xff620000) +#define DBLK_VLD_HCMD0 (0x097c) +#define P_DBLK_VLD_HCMD0 (volatile unsigned int *)((0x097c << 2) + 0xff620000) +#define DBLK_OST_YBASE (0x097d) +#define P_DBLK_OST_YBASE (volatile unsigned int *)((0x097d << 2) + 0xff620000) +#define DBLK_OST_CBCRDIFF (0x097e) +#define P_DBLK_OST_CBCRDIFF (volatile unsigned int *)((0x097e << 2) + 0xff620000) +//13:8 dblk thread ID and token +//5:0 dblk prearbitor burst num +#define DBLK_CTRL1 (0x097f) +#define P_DBLK_CTRL1 (volatile unsigned int *)((0x097f << 2) + 0xff620000) +// MCRCC_CTL1 +// 31:3 +// 2 +// 1 +// 0 +#define MCRCC_CTL1 (0x0980) +#define P_MCRCC_CTL1 (volatile unsigned int *)((0x0980 << 2) + 0xff620000) +// MCRCC_CTL2 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define MCRCC_CTL2 (0x0981) +#define P_MCRCC_CTL2 (volatile unsigned int *)((0x0981 << 2) + 0xff620000) +// MCRCC_CTL3 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define MCRCC_CTL3 (0x0982) +#define P_MCRCC_CTL3 (volatile unsigned int *)((0x0982 << 2) + 0xff620000) +// bit[31:10] reserved +// bit[9:0] sw_clock_gating control +// [9] vdec clk_en for assist and cbus. +// [8] vdec clk_en for ddr +// [7] vdec clk_en for vcpu +// [6] vdec clk_en for assist +// [5] vdec clk_en for dblk +// [4] vdec clk_en for iqidct +// [3] vdec clk_en for mc +// [2] vdec clk_en for pic_dc +// [1] vdec clk_en for psc +// [0] vdec clk_en for vld +#define GCLK_EN (0x0983) +#define P_GCLK_EN (volatile unsigned int *)((0x0983 << 2) + 0xff620000) +// [0] Reserved +// [1] Reserved +// [2] Reset assist, mdec's CBUS +// [3] Reset mdec's VLD +// [4] Reset mdec's VLD +// [5] Reset mdec's VLD +// [6] Reset mdec's IQIDCT +// [7] Reset mdec's MC +// [8] Reset mdec's DBLK +// [9] Reset mdec's PIC_DC +// [10] Reset mdec's Pscale +// [11] Reset vcpu's MCPU +// [12] Reset vcpu's CCPU +// [13] Reset mmc_pre_arb +#define MDEC_SW_RESET (0x0984) +#define P_MDEC_SW_RESET (volatile unsigned int *)((0x0984 << 2) + 0xff620000) +//DBLK last address 12'h97f +// +// Closing file: mdec_regs.h +// +//------------------------------------------------------------------------------ +// VLD module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: vld_regs.h +// +//======================================================================== +// VLD module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_VLD_CBUS_BASE = 0x0c +// ----------------------------------------------- +#define VLD_STATUS_CTRL (0x0c00) +#define P_VLD_STATUS_CTRL (volatile unsigned int *)((0x0c00 << 2) + 0xff620000) +// +// bit 10 -- use_old_shift_en +// bit 9 -- output_mv_not_pmv +// bit 8:5 -- force_zigzag +// bit 4 -- force_zigzag_en +// bit 3 -- disable_viff_anempty_int +// bit 2 -- disable_m2_ac_coeff_one_cycle +// bit 1 -- forced_reset force reset pmv +// bit 0 -- mpeg_type 0:mpeg1 1: mpeg2 +#define MPEG1_2_REG (0x0c01) +#define P_MPEG1_2_REG (volatile unsigned int *)((0x0c01 << 2) + 0xff620000) +#define F_CODE_REG (0x0c02) +#define P_F_CODE_REG (volatile unsigned int *)((0x0c02 << 2) + 0xff620000) +#define PIC_HEAD_INFO (0x0c03) +#define P_PIC_HEAD_INFO (volatile unsigned int *)((0x0c03 << 2) + 0xff620000) +#define SLICE_VER_POS_PIC_TYPE (0x0c04) +#define P_SLICE_VER_POS_PIC_TYPE (volatile unsigned int *)((0x0c04 << 2) + 0xff620000) +#define QP_VALUE_REG (0x0c05) +#define P_QP_VALUE_REG (volatile unsigned int *)((0x0c05 << 2) + 0xff620000) +#define MBA_INC (0x0c06) +#define P_MBA_INC (volatile unsigned int *)((0x0c06 << 2) + 0xff620000) +#define MB_MOTION_MODE (0x0c07) +#define P_MB_MOTION_MODE (volatile unsigned int *)((0x0c07 << 2) + 0xff620000) +//`define PACKET_BYTE_COUNT 8'h08 +// bit 15 -- force_search_startcode_en +// bit 14 -- int_cpu_when_error (before do anything) +// bit 13 -- vld_error_reset +// bit 12 -- return_on_slice_header +// bit 6 -- jpeg_ff00_en +// bit 5:0 -- vld_power_ctl +#define POWER_CTL_VLD (0x0c08) +#define P_POWER_CTL_VLD (volatile unsigned int *)((0x0c08 << 2) + 0xff620000) +#define MB_WIDTH (0x0c09) +#define P_MB_WIDTH (volatile unsigned int *)((0x0c09 << 2) + 0xff620000) +#define SLICE_QP (0x0c0a) +#define P_SLICE_QP (volatile unsigned int *)((0x0c0a << 2) + 0xff620000) +// `define MB_X_MB_Y 8'h0b /* current MBX and MBY */ +#define PRE_START_CODE (0x0c0b) +#define P_PRE_START_CODE (volatile unsigned int *)((0x0c0b << 2) + 0xff620000) +#define SLICE_START_BYTE_01 (0x0c0c) +#define P_SLICE_START_BYTE_01 (volatile unsigned int *)((0x0c0c << 2) + 0xff620000) +#define SLICE_START_BYTE_23 (0x0c0d) +#define P_SLICE_START_BYTE_23 (volatile unsigned int *)((0x0c0d << 2) + 0xff620000) +#define RESYNC_MARKER_LENGTH (0x0c0e) +#define P_RESYNC_MARKER_LENGTH (volatile unsigned int *)((0x0c0e << 2) + 0xff620000) +// bit[6:5] - frame/field info, 01 - top, 10 - bottom, 11 - frame +// bit[4:0] - buffer ID +// L0_BUFF_ID_0, L0_BUFF_ID_1, L1_BUFF_ID_0, L1_BUFF_ID_1 +#define DECODER_BUFFER_INFO (0x0c0f) +#define P_DECODER_BUFFER_INFO (volatile unsigned int *)((0x0c0f << 2) + 0xff620000) +#define FST_FOR_MV_X (0x0c10) +#define P_FST_FOR_MV_X (volatile unsigned int *)((0x0c10 << 2) + 0xff620000) +#define FST_FOR_MV_Y (0x0c11) +#define P_FST_FOR_MV_Y (volatile unsigned int *)((0x0c11 << 2) + 0xff620000) +#define SCD_FOR_MV_X (0x0c12) +#define P_SCD_FOR_MV_X (volatile unsigned int *)((0x0c12 << 2) + 0xff620000) +#define SCD_FOR_MV_Y (0x0c13) +#define P_SCD_FOR_MV_Y (volatile unsigned int *)((0x0c13 << 2) + 0xff620000) +#define FST_BAK_MV_X (0x0c14) +#define P_FST_BAK_MV_X (volatile unsigned int *)((0x0c14 << 2) + 0xff620000) +#define FST_BAK_MV_Y (0x0c15) +#define P_FST_BAK_MV_Y (volatile unsigned int *)((0x0c15 << 2) + 0xff620000) +#define SCD_BAK_MV_X (0x0c16) +#define P_SCD_BAK_MV_X (volatile unsigned int *)((0x0c16 << 2) + 0xff620000) +#define SCD_BAK_MV_Y (0x0c17) +#define P_SCD_BAK_MV_Y (volatile unsigned int *)((0x0c17 << 2) + 0xff620000) +// Bit 7:4 -- read_buffer_interlace 0-progressive, 1-interlace, used in VC1 +// bit 3 -- disable_new_stcode_search_fix // From GXM +// bit 2 -- weighting_prediction +// bit 1 -- mb_weighting_flag +// bit 0 -- slice_weighting_flag +#define VLD_DECODE_CONTROL (0x0c18) +#define P_VLD_DECODE_CONTROL (volatile unsigned int *)((0x0c18 << 2) + 0xff620000) +#define VLD_REVERVED_19 (0x0c19) +#define P_VLD_REVERVED_19 (volatile unsigned int *)((0x0c19 << 2) + 0xff620000) +#define VIFF_BIT_CNT (0x0c1a) +#define P_VIFF_BIT_CNT (volatile unsigned int *)((0x0c1a << 2) + 0xff620000) +#define BYTE_ALIGN_PEAK_HI (0x0c1b) +#define P_BYTE_ALIGN_PEAK_HI (volatile unsigned int *)((0x0c1b << 2) + 0xff620000) +#define BYTE_ALIGN_PEAK_LO (0x0c1c) +#define P_BYTE_ALIGN_PEAK_LO (volatile unsigned int *)((0x0c1c << 2) + 0xff620000) +#define NEXT_ALIGN_PEAK (0x0c1d) +#define P_NEXT_ALIGN_PEAK (volatile unsigned int *)((0x0c1d << 2) + 0xff620000) +// bit 31 : byte_aligned_zero_23_from_org // From GXM +// bit 30 : force_shift_out_drop_flag_zero // From GXM +// bit 29 : en_st_protect_from_org // From GXM +// bit 28 : enable_halt_decode_start_voff +// bit 27 : disable_C_pred_check +// bit 26 : disable_I4_pred_check +// bit 25 : disable_I16_pred_check +// bit 24 : check_avs_1st_drop +// bit 23 : enable_cabac_protect // From GXM +// bit 22 : enable_avs_drop_more +// bit 21 : reset_avs_drop_ptr +// bit 20 : reset_cabac_use_next_at_end_req +// bit 19 : vc1_inv_intra_co_mb_ref_rd +// bit 18 : vc1_inv_co_mb_ref_rd +// bit 17 : vc1_inv_intra_co_mb_ref_wr +// bit 16 : vc1_inv_co_mb_ref_wr +// bit 15 : disable_mv_cal_begin_only +// bit 14 : avs_drop_enable +// bit 13:12 : avs_drop_ptr +// bit 11:8 : avs_demu_ctl_reg +// bit 7 : avs_enable +// bit 6 : disable_dblk_hcmd +// bit 5 : disable_mc_hcmd +// bit 4 : first_mode3_set enable +// bit 3 : first_mode3 +// bit 2:1 : vc1_profile 0-SP, 1-MP, 2-reserved, 3-AP +// bit 0 : vc1_enable +#define VC1_CONTROL_REG (0x0c1e) +#define P_VC1_CONTROL_REG (volatile unsigned int *)((0x0c1e << 2) + 0xff620000) +#define PMV1_X (0x0c20) +#define P_PMV1_X (volatile unsigned int *)((0x0c20 << 2) + 0xff620000) +#define PMV1_Y (0x0c21) +#define P_PMV1_Y (volatile unsigned int *)((0x0c21 << 2) + 0xff620000) +#define PMV2_X (0x0c22) +#define P_PMV2_X (volatile unsigned int *)((0x0c22 << 2) + 0xff620000) +#define PMV2_Y (0x0c23) +#define P_PMV2_Y (volatile unsigned int *)((0x0c23 << 2) + 0xff620000) +#define PMV3_X (0x0c24) +#define P_PMV3_X (volatile unsigned int *)((0x0c24 << 2) + 0xff620000) +#define PMV3_Y (0x0c25) +#define P_PMV3_Y (volatile unsigned int *)((0x0c25 << 2) + 0xff620000) +#define PMV4_X (0x0c26) +#define P_PMV4_X (volatile unsigned int *)((0x0c26 << 2) + 0xff620000) +#define PMV4_Y (0x0c27) +#define P_PMV4_Y (volatile unsigned int *)((0x0c27 << 2) + 0xff620000) +// Can't use the same address for different defines +// Therefore, create a single define that covers both +// Only appears to be used in micro-code since the VLD hardware is +// hard coded. +// `define M4_TABLE_SELECT 8'h28 // Does this exist in HW ? Added from register_mp2.h +// `define M4_TABLE_OUTPUT 8'h28 // Does this exist in HW ? Added from register_mp2.h +#define M4_TABLE_SELECT (0x0c28) +#define P_M4_TABLE_SELECT (volatile unsigned int *)((0x0c28 << 2) + 0xff620000) +#define M4_CONTROL_REG (0x0c29) +#define P_M4_CONTROL_REG (volatile unsigned int *)((0x0c29 << 2) + 0xff620000) +#define BLOCK_NUM (0x0c2a) +#define P_BLOCK_NUM (volatile unsigned int *)((0x0c2a << 2) + 0xff620000) +#define PATTERN_CODE (0x0c2b) +#define P_PATTERN_CODE (volatile unsigned int *)((0x0c2b << 2) + 0xff620000) +#define MB_INFO (0x0c2c) +#define P_MB_INFO (volatile unsigned int *)((0x0c2c << 2) + 0xff620000) +#define VLD_DC_PRED (0x0c2d) +#define P_VLD_DC_PRED (volatile unsigned int *)((0x0c2d << 2) + 0xff620000) +#define VLD_ERROR_MASK (0x0c2e) +#define P_VLD_ERROR_MASK (volatile unsigned int *)((0x0c2e << 2) + 0xff620000) +#define VLD_DC_PRED_C (0x0c2f) +#define P_VLD_DC_PRED_C (volatile unsigned int *)((0x0c2f << 2) + 0xff620000) +#define LAST_SLICE_MV_ADDR (0x0c30) +#define P_LAST_SLICE_MV_ADDR (volatile unsigned int *)((0x0c30 << 2) + 0xff620000) +#define LAST_MVX (0x0c31) +#define P_LAST_MVX (volatile unsigned int *)((0x0c31 << 2) + 0xff620000) +#define LAST_MVY (0x0c32) +#define P_LAST_MVY (volatile unsigned int *)((0x0c32 << 2) + 0xff620000) +#define VLD_C38 (0x0c38) +#define P_VLD_C38 (volatile unsigned int *)((0x0c38 << 2) + 0xff620000) +#define VLD_C39 (0x0c39) +#define P_VLD_C39 (volatile unsigned int *)((0x0c39 << 2) + 0xff620000) +#define VLD_STATUS (0x0c3a) +#define P_VLD_STATUS (volatile unsigned int *)((0x0c3a << 2) + 0xff620000) +#define VLD_SHIFT_STATUS (0x0c3b) +#define P_VLD_SHIFT_STATUS (volatile unsigned int *)((0x0c3b << 2) + 0xff620000) +// `define VLD_SHIFT_INFO 8'h3b // Does this exist in HW ? used in $ucode/mpeg4 +#define VOFF_STATUS (0x0c3c) +#define P_VOFF_STATUS (volatile unsigned int *)((0x0c3c << 2) + 0xff620000) +#define VLD_C3D (0x0c3d) +#define P_VLD_C3D (volatile unsigned int *)((0x0c3d << 2) + 0xff620000) +#define VLD_DBG_INDEX (0x0c3e) +#define P_VLD_DBG_INDEX (volatile unsigned int *)((0x0c3e << 2) + 0xff620000) +// vld_buff_info -- (index == 0) +// Bit11] halt_decode_start_voff +// Bit10] C_pred_error +// Bit[9] I4_pred_error +// Bit[8] I16_pred_error +// Bit[7:6] mv_UR_ready_cnt; +// Bit[5] vld_wr_idx +// Bit[4] iq_rd_idx +// Bit[3] vld_vi_block_rdy_1 +// Bit[2] vld_vi_block_rdy_2 +// Bit[1] voff_empty_1 +// Bit[0] voff_empty_2 +// cabac_buff_info_0 -- (index == 1) +// Bit[31] shift_data_ready +// Bit[30:29] Reserved +// Bit[28:24] cabac_buffer_ptr +// Bit[23:0] cabac_buffer +// cabac_buff_info_1 -- (index == 2) +// Bit[31:29] Reserved +// Bit[28:20] Drange +// Bit[19:16] bin_count_4 +// Bit[15:13] Reserved +// Bit[12:6] context_mem_do +// Bit[5:3] coeff_state +// Bit[2:0] mvd_state +// h264_mv_present -- (index == 3) +// Bit[31:16] mv_present_l0 +// Bit[15:0] mv_present_l1 +// h264_mv_cal_info_0 -- (index == 4) +// [31:28] mv_cal_state +// [27:24] direct_spatial_cnt +// Bit[23:21] Reserved +// Bit[20] mv_UR_ready_for_mv_cal +// Bit[19] co_mb_mem_ready_for_mv_cal +// Bit[18] mc_dblk_cmd_if_busy +// Bit[17] h264_co_mb_wr_busy +// Bit[16] H264_cbp_blk_ready +// Bit[15] mc_hcmd_rrdy +// Bit[14] mc_hcmd_srdy +// Bit[13] mc_cmd_if_ready +// Bit[12] mc_hcmd_mv_available +// Bit[11:8] mc_cmd_if_state +// Bit[7] dblk_hcmd_rrdy +// Bit[6] dblk_hcmd_srdy +// Bit[5] dblk_cmd_if_ready +// Bit[4] dblk_hcmd_mv_available +// Bit[3:0] dblk_cmd_if_state +// h264_mv_cal_info_1 -- (index == 5) +// Bit[31:29] Reserved +// Bit[28:24] total_mvd_num_l0 +// Bit[23:21] Reserved +// Bit[20:16] mv_cal_ptr_l0 +// Bit[15:13] Reserved +// Bit[12:8] mc_hcmd_ptr_l0 +// Bit[7:5] Reserved +// Bit[4:0] dblk_hcmd_ptr_l0 +// h264_mv_cal_info_2 -- (index == 6) +// Bit[31:29] Reserved +// Bit[28:24] total_mvd_num_l1 +// Bit[23:21] Reserved +// Bit[20:16] mv_cal_ptr_l1 +// Bit[15:13] Reserved +// Bit[12:8] mc_hcmd_ptr_l1 +// Bit[7:5] Reserved +// Bit[4:0] dblk_hcmd_ptr_l1 +// h264_co_mb_info -- (index == 7) +// Bit[31:26] Reserved +// Bit[25] mv_scale_cal_busy +// Bit[24:20] co_mv_count +// Bit[19:16] co_mv_process_state +// Bit[15] h264_co_mb_rd_busy +// Bit[15] h264_co_mb_rd_ready +// Bit[13:12] co_mv_transfer_block_cnt +// Bit[11:8] co_mv_transfer_ptr +// Bit[7] co_mv_POC_l1_busy +// Bit[6] h264_weight_scale_cal_en +// Bit[5] weight_cal_busy +// Bit[4] weight_cal_not_finished +// Bit[3:0] weight_process_state +#define VLD_DBG_DATA (0x0c3f) +#define P_VLD_DBG_DATA (volatile unsigned int *)((0x0c3f << 2) + 0xff620000) +// -------------------------------------------- +// VIFIFO DDR Interface +// -------------------------------------------- +// The VIFIFO start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define VLD_MEM_VIFIFO_START_PTR (0x0c40) +#define P_VLD_MEM_VIFIFO_START_PTR (volatile unsigned int *)((0x0c40 << 2) + 0xff620000) +// The current pointer points so some location between the START and END +// pointers. The current pointer is a BYTE pointer. That is, you can +// point to any BYTE address within the START/END range +#define VLD_MEM_VIFIFO_CURR_PTR (0x0c41) +#define P_VLD_MEM_VIFIFO_CURR_PTR (volatile unsigned int *)((0x0c41 << 2) + 0xff620000) +#define VLD_MEM_VIFIFO_END_PTR (0x0c42) +#define P_VLD_MEM_VIFIFO_END_PTR (volatile unsigned int *)((0x0c42 << 2) + 0xff620000) +#define VLD_MEM_VIFIFO_BYTES_AVAIL (0x0c43) +#define P_VLD_MEM_VIFIFO_BYTES_AVAIL (volatile unsigned int *)((0x0c43 << 2) + 0xff620000) +// VIFIFO FIFO Control +// bit [31:24] viff_empty_int_enable_cpu[7:0] +// bit [23:16] viff_empty_int_enable_amrisc[7:0] +// -bit 23 Video BUFFER < 0x400 Bytes +// -bit 22 Video BUFFER < 0x200 Bytes +// -bit 21 Video BUFFER < 0x100 Bytes +// -bit 20 Video BUFFER < 0x80 Bytes +// -bit 19 Video BUFFER < 0x40 Bytes +// -bit 18 Video BUFFER < 0x20 Bytes +// -bit 17 vififo < 16 double words +// -bit 16 vififo < 8 double words +// bit [15:13] unused +// bit [12] A_urgent +// bit [11] transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request +// bit [10] use_level Set this bit to 1 to enable filling of the FIFO controlled by the buffer +// level control. If this bit is 0, then use bit[1] to control the enabling of filling +// bit [9] Data Ready. This bit is set when data can be popped +// bit [8] fill busy This bit will be high when we're fetching data from the DDR memory +// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +// After that you can pulse cntl_init to start over +// bit [7] init_with_cntl_init +// bit [6] reserved +// bits [5:3] endian: see $lib/rtl/ddr_endian.v +// bit [2] cntl_empty_en Set to 1 to enable reading the DDR memory FIFO +// Set cntl_empty_en = cntl_fill_en = 0 when pulsing cntl_init +// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +// and read masks, set this bit to 1 and then to 0 +// NOTE: You don't need to pulse cntl_init if only the start address is +// being changed +#define VLD_MEM_VIFIFO_CONTROL (0x0c44) +#define P_VLD_MEM_VIFIFO_CONTROL (volatile unsigned int *)((0x0c44 << 2) + 0xff620000) +// -------------------------------------------- +// VIFIFO Buffer Level Manager +// -------------------------------------------- +#define VLD_MEM_VIFIFO_WP (0x0c45) +#define P_VLD_MEM_VIFIFO_WP (volatile unsigned int *)((0x0c45 << 2) + 0xff620000) +#define VLD_MEM_VIFIFO_RP (0x0c46) +#define P_VLD_MEM_VIFIFO_RP (volatile unsigned int *)((0x0c46 << 2) + 0xff620000) +#define VLD_MEM_VIFIFO_LEVEL (0x0c47) +#define P_VLD_MEM_VIFIFO_LEVEL (volatile unsigned int *)((0x0c47 << 2) + 0xff620000) +// +// bit [8] use_parser_video2_wp +// bit [7] vbuf2_out_manual +// bit [6] vbuf_out_manual +// bit [5] empty (ReadOnly) +// bit [4] full (ReadOnly) +// bit [3:2] reserved +// bit [1] manual mode Set to 1 for manual write pointer mode +// bit [0] Init Set high then low after everything has been initialized +#define VLD_MEM_VIFIFO_BUF_CNTL (0x0c48) +#define P_VLD_MEM_VIFIFO_BUF_CNTL (volatile unsigned int *)((0x0c48 << 2) + 0xff620000) +// bit 31:16 -- drop_bytes +// bit 15:14 -- drop_status (Read-Only) +// bit 13:12 -- sync_match_position (Read-Only) +// bit 11:6 -- reserved +// bit 5:4 -- TIME_STAMP_NUMBER, 0-32bits, 1-64bits, 2-96bits, 3-128bits +// bit 3 -- stamp_soft_reset +// bit 2 -- TIME_STAMP_length_enable +// bit 1 -- TIME_STAMP_sync64_enable +// bit 0 -- TIME_STAMP_enable +#define VLD_TIME_STAMP_CNTL (0x0c49) +#define P_VLD_TIME_STAMP_CNTL (volatile unsigned int *)((0x0c49 << 2) + 0xff620000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_0 +#define VLD_TIME_STAMP_SYNC_0 (0x0c4a) +#define P_VLD_TIME_STAMP_SYNC_0 (volatile unsigned int *)((0x0c4a << 2) + 0xff620000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_1 +#define VLD_TIME_STAMP_SYNC_1 (0x0c4b) +#define P_VLD_TIME_STAMP_SYNC_1 (volatile unsigned int *)((0x0c4b << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_0 +#define VLD_TIME_STAMP_0 (0x0c4c) +#define P_VLD_TIME_STAMP_0 (volatile unsigned int *)((0x0c4c << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_1 +#define VLD_TIME_STAMP_1 (0x0c4d) +#define P_VLD_TIME_STAMP_1 (volatile unsigned int *)((0x0c4d << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_2 +#define VLD_TIME_STAMP_2 (0x0c4e) +#define P_VLD_TIME_STAMP_2 (volatile unsigned int *)((0x0c4e << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_3 +#define VLD_TIME_STAMP_3 (0x0c4f) +#define P_VLD_TIME_STAMP_3 (volatile unsigned int *)((0x0c4f << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_LENGTH +#define VLD_TIME_STAMP_LENGTH (0x0c50) +#define P_VLD_TIME_STAMP_LENGTH (volatile unsigned int *)((0x0c50 << 2) + 0xff620000) +// bit 15:0 vififo_rd_count +#define VLD_MEM_VIFIFO_WRAP_COUNT (0x0c51) +#define P_VLD_MEM_VIFIFO_WRAP_COUNT (volatile unsigned int *)((0x0c51 << 2) + 0xff620000) +// bit 29:24 A_brst_num +// bit 21:16 A_id +// bit 15:0 level_hold +#define VLD_MEM_VIFIFO_MEM_CTL (0x0c52) +#define P_VLD_MEM_VIFIFO_MEM_CTL (volatile unsigned int *)((0x0c52 << 2) + 0xff620000) +#define VLD_MEM_VBUF_RD_PTR (0x0c53) +#define P_VLD_MEM_VBUF_RD_PTR (volatile unsigned int *)((0x0c53 << 2) + 0xff620000) +#define VLD_MEM_VBUF2_RD_PTR (0x0c54) +#define P_VLD_MEM_VBUF2_RD_PTR (volatile unsigned int *)((0x0c54 << 2) + 0xff620000) +#define VLD_MEM_SWAP_ADDR (0x0c55) +#define P_VLD_MEM_SWAP_ADDR (volatile unsigned int *)((0x0c55 << 2) + 0xff620000) +// bit[23:16] - swap_d_count (Read Only) +// bit[15:8] - swap_a_count (Read Only) +// bit [7] - swap busy (Read Only) +// bit [6:2] - reserved +// bit [1] - 1 - STORE to Memory, 0 - LOAD from Memory +// bit [0] - swap active +#define VLD_MEM_SWAP_CTL (0x0c56) +#define P_VLD_MEM_SWAP_CTL (volatile unsigned int *)((0x0c56 << 2) + 0xff620000) +// +// Closing file: vld_regs.h +// +//------------------------------------------------------------------------------ +// IQ/IDCT module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: iqidct_regs.h +// +//======================================================================== +// IQ/IDCT module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_IQIDCT_CBUS_BASE = 0x0e +// ----------------------------------------------- +#define VCOP_CTRL_REG (0x0e00) +#define P_VCOP_CTRL_REG (volatile unsigned int *)((0x0e00 << 2) + 0xff620000) +#define QP_CTRL_REG (0x0e01) +#define P_QP_CTRL_REG (volatile unsigned int *)((0x0e01 << 2) + 0xff620000) +#define INTRA_QUANT_MATRIX (0x0e02) +#define P_INTRA_QUANT_MATRIX (volatile unsigned int *)((0x0e02 << 2) + 0xff620000) +#define NON_I_QUANT_MATRIX (0x0e03) +#define P_NON_I_QUANT_MATRIX (volatile unsigned int *)((0x0e03 << 2) + 0xff620000) +#define DC_SCALER (0x0e04) +#define P_DC_SCALER (volatile unsigned int *)((0x0e04 << 2) + 0xff620000) +#define DC_AC_CTRL (0x0e05) +#define P_DC_AC_CTRL (volatile unsigned int *)((0x0e05 << 2) + 0xff620000) +// `define RV_AI_CTRL 8'h05 // ONLY for $ucode/real/amrisc/rv.s reg value from apollo +#define DC_AC_SCALE_MUL (0x0e06) +#define P_DC_AC_SCALE_MUL (volatile unsigned int *)((0x0e06 << 2) + 0xff620000) +#define DC_AC_SCALE_DIV (0x0e07) +#define P_DC_AC_SCALE_DIV (volatile unsigned int *)((0x0e07 << 2) + 0xff620000) +// `define DC_AC_SCALE_RESULT 8'h06 +// `define RESERVED_E07 8'h07 +#define POWER_CTL_IQIDCT (0x0e08) +#define P_POWER_CTL_IQIDCT (volatile unsigned int *)((0x0e08 << 2) + 0xff620000) +#define RV_AI_Y_X (0x0e09) +#define P_RV_AI_Y_X (volatile unsigned int *)((0x0e09 << 2) + 0xff620000) +#define RV_AI_U_X (0x0e0a) +#define P_RV_AI_U_X (volatile unsigned int *)((0x0e0a << 2) + 0xff620000) +#define RV_AI_V_X (0x0e0b) +#define P_RV_AI_V_X (volatile unsigned int *)((0x0e0b << 2) + 0xff620000) +// bit 15:0 will count up when rv_ai_mb finished when non zero +// and rv_ai_mb_finished_int will be generate when this is not zero +#define RV_AI_MB_COUNT (0x0e0c) +#define P_RV_AI_MB_COUNT (volatile unsigned int *)((0x0e0c << 2) + 0xff620000) +// For H264 I in PB picture Use -- dma type : h264_next_intra_dma +#define NEXT_INTRA_DMA_ADDRESS (0x0e0d) +#define P_NEXT_INTRA_DMA_ADDRESS (volatile unsigned int *)((0x0e0d << 2) + 0xff620000) +// Bit 16 -- dcac_dma_read_cache_disable +// Bit 15 -- dcac_dma_urgent +// Bit 14 -- nv21_swap +// Bit 13 -- nv21_top_dma +// Bit 12 -- reset_rv_ai_wait_rd_data +// Bit 11 -- set_rv_ai_wait_rd_data [12:11] = 3 means only dec 1 (For Skipped MB of MBAFF) +// Bit 10 -- rv_ai_wait_rd_data (Read Only) +// Bit 9 -- enable_rv_ai_wait_rd_data +// Bit 8 -- disable_vc1_mv_update +// Bit 7 -- pred_dc_signed +// Bit 6 -- inc_vld_ready_count +// Bit 5 -- dec_vld_ready_count +// Bit 4 -- disable_ref_bidir_fix +// Bit 3 -- disable_MV_UL_l1_bot_fix +// Bit 2 -- disable_mb_aff_fix +// Bit 1 -- canvas_addr_7 +// Bit 0 -- constrained_intra_pred_flag for H264 +#define IQIDCT_CONTROL (0x0e0e) +#define P_IQIDCT_CONTROL (volatile unsigned int *)((0x0e0e << 2) + 0xff620000) +// Bit[31:19] Reserved +// Bit[18] iq_waiting +// Bit[17] iq_om_wr_idx +// Bit[16] iq_om_rd_idx +// Bit[15] iq_om_busy +// Bit[14] iq_om_2_busy +// Bit[13] idx_fifo_0 +// Bit[12] idx_fifo_1 +// Bit[11] idx_fifo_2 +// Bit[10] idx_fifo_3 +// Bit[9] idx_fifo_4 +// Bit[8] idx_fifo_5 +// Bit[7] idx_fifo_6 +// Bit[6] idx_fifo_7 +// Bit[5:3] idx_fifo_wp +// Bit[2:0] idx_fifo_rp +#define IQIDCT_DEBUG_INFO_0 (0x0e0f) +#define P_IQIDCT_DEBUG_INFO_0 (volatile unsigned int *)((0x0e0f << 2) + 0xff620000) +// For RTL Simulation Only +#define DEBLK_CMD (0x0e10) +#define P_DEBLK_CMD (volatile unsigned int *)((0x0e10 << 2) + 0xff620000) +// Bit[15+16] ds_mc_valid_2 +// Bit[14+16] new_idct1_rd_idx_2 +// Bit[13+16] new_idct1_wr_idx_2 +// Bit[12+16] idct1_buff0_busy_2 +// Bit[11+16] idct1_buff1_busy_2 +// Bit[10+16] new_idct1_busy_2 +// Bit[9+16] iq_om_8val_2 +// Bit[8+16] idct1_pipe_busy_2 +// Bit[7+16] wait_mb_left_finish_hold_2 +// Bit[6+16] new_idct2_rd_idx_2 +// Bit[5+16] new_idct2_wr_idx_2 +// Bit[4+16] idct2_buff0_busy_2 +// Bit[3+16] idct2_buff1_busy_2 +// Bit[2+16] idct2_en_2 +// Bit[1+16] new_idct2_busy_2 +// Bit[0+16] new_idct1_ready_2 +// Bit[15] ds_mc_valid_1 +// Bit[14] new_idct1_rd_idx_1 +// Bit[13] new_idct1_wr_idx_1 +// Bit[12] idct1_buff0_busy_1 +// Bit[11] idct1_buff1_busy_1 +// Bit[10] new_idct1_busy_1 +// Bit[9] iq_om_8val_1 +// Bit[8] idct1_pipe_busy_1 +// Bit[7] wait_mb_left_finish_hold_1 +// Bit[6] new_idct2_rd_idx_1 +// Bit[5] new_idct2_wr_idx_1 +// Bit[4] idct2_buff0_busy_1 +// Bit[3] idct2_buff1_busy_1 +// Bit[2] idct2_en_1 +// Bit[1] new_idct2_busy_1 +// Bit[0] new_idct1_ready_1 +#define IQIDCT_DEBUG_IDCT (0x0e11) +#define P_IQIDCT_DEBUG_IDCT (volatile unsigned int *)((0x0e11 << 2) + 0xff620000) +// bit 31 -- convas_enable +// bit 30:24 -- convas_x_count ( 8 pixels / 64 bits ) +// bit 23:16 -- convas_y_count +// bit 15 -- dcac_dma_busy +// bit 14 -- dcac_dma_read_cache_active +// bit 13:8 -- dcac_dma_count +// bit 7 -- dcac_dma_rw +// bit 6 -- dcac_skip_read_mode +// bit 5:0 -- dcac_dma_offset +#define DCAC_DMA_CTRL (0x0e12) +#define P_DCAC_DMA_CTRL (volatile unsigned int *)((0x0e12 << 2) + 0xff620000) +// when (convas_enable == 0 ) +// bit 31:0 dcac_dma_addr +// when (convas_enable == 1 ) +// bit 31:25 canvas_addr (7 bits) +// bit 24:12 convas_y_start ( 13 btis ) +// bit 11:0 convas_x_start ( 12 btis ) +#define DCAC_DMA_ADDRESS (0x0e13) +#define P_DCAC_DMA_ADDRESS (volatile unsigned int *)((0x0e13 << 2) + 0xff620000) +// bit 7:0 -- dcac_cpu_addr +#define DCAC_CPU_ADDRESS (0x0e14) +#define P_DCAC_CPU_ADDRESS (volatile unsigned int *)((0x0e14 << 2) + 0xff620000) +// bit 31:0 -- dcac_cpu_data +#define DCAC_CPU_DATA (0x0e15) +#define P_DCAC_CPU_DATA (volatile unsigned int *)((0x0e15 << 2) + 0xff620000) +// bit 31:19 -- reserved +// bit 18:16 -- block_num_reg -- Read-Only +// bit 15:0 -- dcac_mb_count +#define DCAC_MB_COUNT (0x0e16) +#define P_DCAC_MB_COUNT (volatile unsigned int *)((0x0e16 << 2) + 0xff620000) +// bit 31:18 -- reserved +// For H264 : +// bit 17:2 -- h264_quant +// bit 11:6 -- h264_quant_c +// bit 5:0 -- h264_quant_c +// For VC1 : +// bit 17 -- qindex_GT_8 +// bit 16 -- HalfQPStep +// bit 15:12 -- eQuantMode +// bit 11:6 -- AltPQuant +// bit 5:0 -- PQuant +// +#define IQ_QUANT (0x0e17) +#define P_IQ_QUANT (volatile unsigned int *)((0x0e17 << 2) + 0xff620000) +// bit 31:24 -- bitplane_width +// bit 23:16 -- bitplane_height +// bit 15:14 -- bitplane_start_x +// bit 13:12 -- bitplane_start_y +// bit 11:4 -- reserved +// bit 3:1 -- bitplane_type +// bit 0 -- bitplane_busy +#define VC1_BITPLANE_CTL (0x0e18) +#define P_VC1_BITPLANE_CTL (volatile unsigned int *)((0x0e18 << 2) + 0xff620000) +// bit 24:16 -- wq_param1 +// bit 8: 0 -- wq_param0 +#define AVSP_IQ_WQ_PARAM_01 (0x0e19) +#define P_AVSP_IQ_WQ_PARAM_01 (volatile unsigned int *)((0x0e19 << 2) + 0xff620000) +// bit 24:16 -- wq_param3 +// bit 8: 0 -- wq_param2 +#define AVSP_IQ_WQ_PARAM_23 (0x0e1a) +#define P_AVSP_IQ_WQ_PARAM_23 (volatile unsigned int *)((0x0e1a << 2) + 0xff620000) +// bit 24:16 -- wq_param5 +// bit 8: 0 -- wq_param4 +#define AVSP_IQ_WQ_PARAM_45 (0x0e1b) +#define P_AVSP_IQ_WQ_PARAM_45 (volatile unsigned int *)((0x0e1b << 2) + 0xff620000) +// bit 31 -- weight_quant_en +// bit 17:16 -- current_scene_model +// bit 12: 8 -- chroma_qp_delta_cr +// bit 4: 0 -- chroma_qp_delta_cb +#define AVSP_IQ_CTL (0x0e1c) +#define P_AVSP_IQ_CTL (volatile unsigned int *)((0x0e1c << 2) + 0xff620000) + #define RAM_TEST_CMD 0x002 + #define RAM_TEST_ADDR 0x003 + #define RAM_TEST_DATAH 0x004 + #define RAM_TEST_DATAL 0x005 + + #define RAM_TEST_RD_CMD 0x0000 + #define RAM_TEST_WR_CMD 0x8000 + #define IDCT_TM2_PT0 0x0001 + #define IDCT_TM2_PT1 0x0002 + #define IDCT_TM1_PT0 0x0004 + #define IDCT_TM1_PT1 0x0008 + #define IQ_OMEM_PT0 0x0010 + #define IQ_OMEM_PT1 0x0020 + #define MC_IMEM_PT0 0x0040 + #define ALL_RAM_PTS 0x007f +//====================================== +// VCOP Control Register Bits +// +//====================================== + //`define IQIDCT_RESET 16'h0001 // Bit 0 + #define QM_WEN 0x0002 // Bit 1 + #define IQIDCT_ENABLE 0x0004 // Bit 2 + #define INTRA_QM 0x0008 // Bit 3 0 = Use default; 1 = use loaded + #define NINTRA_QM 0x0010 // Bit 4 0 = Use default; 1 = use loaded +//====================================== +// QP Control Register Bits +// +//====================================== + #define INTRA_MODE 0x0080 // Bit 7 +// Duplicate Address: When actually used +// please move to a different address +// `define FLD_DCT_TYPE 16'h0100 // Bit 8 0 = Frame DCT; 1 = field DCT +// +// Closing file: iqidct_regs.h +// +//------------------------------------------------------------------------------ +// VCPU module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: vcpu_regs.h +// +//======================================================================== +// VCPU module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_VCPU_CBUS_BASE = 0x03 +// ----------------------------------------------- +#define MSP (0x0300) +#define P_MSP (volatile unsigned int *)((0x0300 << 2) + 0xff620000) +#define MPSR (0x0301) +#define P_MPSR (volatile unsigned int *)((0x0301 << 2) + 0xff620000) +#define MINT_VEC_BASE (0x0302) +#define P_MINT_VEC_BASE (volatile unsigned int *)((0x0302 << 2) + 0xff620000) +#define MCPU_INTR_GRP (0x0303) +#define P_MCPU_INTR_GRP (volatile unsigned int *)((0x0303 << 2) + 0xff620000) +#define MCPU_INTR_MSK (0x0304) +#define P_MCPU_INTR_MSK (volatile unsigned int *)((0x0304 << 2) + 0xff620000) +#define MCPU_INTR_REQ (0x0305) +#define P_MCPU_INTR_REQ (volatile unsigned int *)((0x0305 << 2) + 0xff620000) +#define MPC_P (0x0306) +#define P_MPC_P (volatile unsigned int *)((0x0306 << 2) + 0xff620000) +#define MPC_D (0x0307) +#define P_MPC_D (volatile unsigned int *)((0x0307 << 2) + 0xff620000) +#define MPC_E (0x0308) +#define P_MPC_E (volatile unsigned int *)((0x0308 << 2) + 0xff620000) +#define MPC_W (0x0309) +#define P_MPC_W (volatile unsigned int *)((0x0309 << 2) + 0xff620000) +#define MINDEX0_REG (0x030a) +#define P_MINDEX0_REG (volatile unsigned int *)((0x030a << 2) + 0xff620000) +#define MINDEX1_REG (0x030b) +#define P_MINDEX1_REG (volatile unsigned int *)((0x030b << 2) + 0xff620000) +#define MINDEX2_REG (0x030c) +#define P_MINDEX2_REG (volatile unsigned int *)((0x030c << 2) + 0xff620000) +#define MINDEX3_REG (0x030d) +#define P_MINDEX3_REG (volatile unsigned int *)((0x030d << 2) + 0xff620000) +#define MINDEX4_REG (0x030e) +#define P_MINDEX4_REG (volatile unsigned int *)((0x030e << 2) + 0xff620000) +#define MINDEX5_REG (0x030f) +#define P_MINDEX5_REG (volatile unsigned int *)((0x030f << 2) + 0xff620000) +#define MINDEX6_REG (0x0310) +#define P_MINDEX6_REG (volatile unsigned int *)((0x0310 << 2) + 0xff620000) +#define MINDEX7_REG (0x0311) +#define P_MINDEX7_REG (volatile unsigned int *)((0x0311 << 2) + 0xff620000) +#define MMIN_REG (0x0312) +#define P_MMIN_REG (volatile unsigned int *)((0x0312 << 2) + 0xff620000) +#define MMAX_REG (0x0313) +#define P_MMAX_REG (volatile unsigned int *)((0x0313 << 2) + 0xff620000) +#define MBREAK0_REG (0x0314) +#define P_MBREAK0_REG (volatile unsigned int *)((0x0314 << 2) + 0xff620000) +#define MBREAK1_REG (0x0315) +#define P_MBREAK1_REG (volatile unsigned int *)((0x0315 << 2) + 0xff620000) +#define MBREAK2_REG (0x0316) +#define P_MBREAK2_REG (volatile unsigned int *)((0x0316 << 2) + 0xff620000) +#define MBREAK3_REG (0x0317) +#define P_MBREAK3_REG (volatile unsigned int *)((0x0317 << 2) + 0xff620000) +#define MBREAK_TYPE (0x0318) +#define P_MBREAK_TYPE (volatile unsigned int *)((0x0318 << 2) + 0xff620000) +#define MBREAK_CTRL (0x0319) +#define P_MBREAK_CTRL (volatile unsigned int *)((0x0319 << 2) + 0xff620000) +#define MBREAK_STAUTS (0x031a) +#define P_MBREAK_STAUTS (volatile unsigned int *)((0x031a << 2) + 0xff620000) +#define MDB_ADDR_REG (0x031b) +#define P_MDB_ADDR_REG (volatile unsigned int *)((0x031b << 2) + 0xff620000) +#define MDB_DATA_REG (0x031c) +#define P_MDB_DATA_REG (volatile unsigned int *)((0x031c << 2) + 0xff620000) +#define MDB_CTRL (0x031d) +#define P_MDB_CTRL (volatile unsigned int *)((0x031d << 2) + 0xff620000) +#define MSFTINT0 (0x031e) +#define P_MSFTINT0 (volatile unsigned int *)((0x031e << 2) + 0xff620000) +#define MSFTINT1 (0x031f) +#define P_MSFTINT1 (volatile unsigned int *)((0x031f << 2) + 0xff620000) +#define CSP (0x0320) +#define P_CSP (volatile unsigned int *)((0x0320 << 2) + 0xff620000) +#define CPSR (0x0321) +#define P_CPSR (volatile unsigned int *)((0x0321 << 2) + 0xff620000) +#define CINT_VEC_BASE (0x0322) +#define P_CINT_VEC_BASE (volatile unsigned int *)((0x0322 << 2) + 0xff620000) +#define CCPU_INTR_GRP (0x0323) +#define P_CCPU_INTR_GRP (volatile unsigned int *)((0x0323 << 2) + 0xff620000) +#define CCPU_INTR_MSK (0x0324) +#define P_CCPU_INTR_MSK (volatile unsigned int *)((0x0324 << 2) + 0xff620000) +#define CCPU_INTR_REQ (0x0325) +#define P_CCPU_INTR_REQ (volatile unsigned int *)((0x0325 << 2) + 0xff620000) +#define CPC_P (0x0326) +#define P_CPC_P (volatile unsigned int *)((0x0326 << 2) + 0xff620000) +#define CPC_D (0x0327) +#define P_CPC_D (volatile unsigned int *)((0x0327 << 2) + 0xff620000) +#define CPC_E (0x0328) +#define P_CPC_E (volatile unsigned int *)((0x0328 << 2) + 0xff620000) +#define CPC_W (0x0329) +#define P_CPC_W (volatile unsigned int *)((0x0329 << 2) + 0xff620000) +#define CINDEX0_REG (0x032a) +#define P_CINDEX0_REG (volatile unsigned int *)((0x032a << 2) + 0xff620000) +#define CINDEX1_REG (0x032b) +#define P_CINDEX1_REG (volatile unsigned int *)((0x032b << 2) + 0xff620000) +#define CINDEX2_REG (0x032c) +#define P_CINDEX2_REG (volatile unsigned int *)((0x032c << 2) + 0xff620000) +#define CINDEX3_REG (0x032d) +#define P_CINDEX3_REG (volatile unsigned int *)((0x032d << 2) + 0xff620000) +#define CINDEX4_REG (0x032e) +#define P_CINDEX4_REG (volatile unsigned int *)((0x032e << 2) + 0xff620000) +#define CINDEX5_REG (0x032f) +#define P_CINDEX5_REG (volatile unsigned int *)((0x032f << 2) + 0xff620000) +#define CINDEX6_REG (0x0330) +#define P_CINDEX6_REG (volatile unsigned int *)((0x0330 << 2) + 0xff620000) +#define CINDEX7_REG (0x0331) +#define P_CINDEX7_REG (volatile unsigned int *)((0x0331 << 2) + 0xff620000) +#define CMIN_REG (0x0332) +#define P_CMIN_REG (volatile unsigned int *)((0x0332 << 2) + 0xff620000) +#define CMAX_REG (0x0333) +#define P_CMAX_REG (volatile unsigned int *)((0x0333 << 2) + 0xff620000) +#define CBREAK0_REG (0x0334) +#define P_CBREAK0_REG (volatile unsigned int *)((0x0334 << 2) + 0xff620000) +#define CBREAK1_REG (0x0335) +#define P_CBREAK1_REG (volatile unsigned int *)((0x0335 << 2) + 0xff620000) +#define CBREAK2_REG (0x0336) +#define P_CBREAK2_REG (volatile unsigned int *)((0x0336 << 2) + 0xff620000) +#define CBREAK3_REG (0x0337) +#define P_CBREAK3_REG (volatile unsigned int *)((0x0337 << 2) + 0xff620000) +#define CBREAK_TYPE (0x0338) +#define P_CBREAK_TYPE (volatile unsigned int *)((0x0338 << 2) + 0xff620000) +#define CBREAK_CTRL (0x0339) +#define P_CBREAK_CTRL (volatile unsigned int *)((0x0339 << 2) + 0xff620000) +#define CBREAK_STAUTS (0x033a) +#define P_CBREAK_STAUTS (volatile unsigned int *)((0x033a << 2) + 0xff620000) +#define CDB_ADDR_REG (0x033b) +#define P_CDB_ADDR_REG (volatile unsigned int *)((0x033b << 2) + 0xff620000) +#define CDB_DATA_REG (0x033c) +#define P_CDB_DATA_REG (volatile unsigned int *)((0x033c << 2) + 0xff620000) +#define CDB_CTRL (0x033d) +#define P_CDB_CTRL (volatile unsigned int *)((0x033d << 2) + 0xff620000) +#define CSFTINT0 (0x033e) +#define P_CSFTINT0 (volatile unsigned int *)((0x033e << 2) + 0xff620000) +#define CSFTINT1 (0x033f) +#define P_CSFTINT1 (volatile unsigned int *)((0x033f << 2) + 0xff620000) +#define IMEM_DMA_CTRL (0x0340) +#define P_IMEM_DMA_CTRL (volatile unsigned int *)((0x0340 << 2) + 0xff620000) +#define IMEM_DMA_ADR (0x0341) +#define P_IMEM_DMA_ADR (volatile unsigned int *)((0x0341 << 2) + 0xff620000) +#define IMEM_DMA_COUNT (0x0342) +#define P_IMEM_DMA_COUNT (volatile unsigned int *)((0x0342 << 2) + 0xff620000) +// bit[29:24] A_brst_num_imem +// bit[21:16] A_id_imem +// bit[11:0] wrrsp_count_imem (reserved) +#define WRRSP_IMEM (0x0343) +#define P_WRRSP_IMEM (volatile unsigned int *)((0x0343 << 2) + 0xff620000) +#define LMEM_DMA_CTRL (0x0350) +#define P_LMEM_DMA_CTRL (volatile unsigned int *)((0x0350 << 2) + 0xff620000) +#define LMEM_DMA_ADR (0x0351) +#define P_LMEM_DMA_ADR (volatile unsigned int *)((0x0351 << 2) + 0xff620000) +#define LMEM_DMA_COUNT (0x0352) +#define P_LMEM_DMA_COUNT (volatile unsigned int *)((0x0352 << 2) + 0xff620000) +// bit[29:24] A_brst_num_lmem +// bit[21:16] A_id_lmem +// bit[11:0] wrrsp_count_lmem +#define WRRSP_LMEM (0x0353) +#define P_WRRSP_LMEM (volatile unsigned int *)((0x0353 << 2) + 0xff620000) +#define MAC_CTRL1 (0x0360) +#define P_MAC_CTRL1 (volatile unsigned int *)((0x0360 << 2) + 0xff620000) +#define ACC0REG1 (0x0361) +#define P_ACC0REG1 (volatile unsigned int *)((0x0361 << 2) + 0xff620000) +#define ACC1REG1 (0x0362) +#define P_ACC1REG1 (volatile unsigned int *)((0x0362 << 2) + 0xff620000) +#define MAC_CTRL2 (0x0370) +#define P_MAC_CTRL2 (volatile unsigned int *)((0x0370 << 2) + 0xff620000) +#define ACC0REG2 (0x0371) +#define P_ACC0REG2 (volatile unsigned int *)((0x0371 << 2) + 0xff620000) +#define ACC1REG2 (0x0372) +#define P_ACC1REG2 (volatile unsigned int *)((0x0372 << 2) + 0xff620000) +#define CPU_TRACE (0x0380) +#define P_CPU_TRACE (volatile unsigned int *)((0x0380 << 2) + 0xff620000) +// +// Closing file: vcpu_regs.h +// +//------------------------------------------------------------------------------ +// HENC module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: henc_regs.h +// +//======================================================================== +// MDEC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_HENC_CBUS_BASE = 0x0a +// ----------------------------------------------- +#define HENC_SCRATCH_0 (0x1ac0) +#define P_HENC_SCRATCH_0 (volatile unsigned int *)((0x1ac0 << 2) + 0xff620000) +#define HENC_SCRATCH_1 (0x1ac1) +#define P_HENC_SCRATCH_1 (volatile unsigned int *)((0x1ac1 << 2) + 0xff620000) +#define HENC_SCRATCH_2 (0x1ac2) +#define P_HENC_SCRATCH_2 (volatile unsigned int *)((0x1ac2 << 2) + 0xff620000) +#define HENC_SCRATCH_3 (0x1ac3) +#define P_HENC_SCRATCH_3 (volatile unsigned int *)((0x1ac3 << 2) + 0xff620000) +#define HENC_SCRATCH_4 (0x1ac4) +#define P_HENC_SCRATCH_4 (volatile unsigned int *)((0x1ac4 << 2) + 0xff620000) +#define HENC_SCRATCH_5 (0x1ac5) +#define P_HENC_SCRATCH_5 (volatile unsigned int *)((0x1ac5 << 2) + 0xff620000) +#define HENC_SCRATCH_6 (0x1ac6) +#define P_HENC_SCRATCH_6 (volatile unsigned int *)((0x1ac6 << 2) + 0xff620000) +#define HENC_SCRATCH_7 (0x1ac7) +#define P_HENC_SCRATCH_7 (volatile unsigned int *)((0x1ac7 << 2) + 0xff620000) +#define HENC_SCRATCH_8 (0x1ac8) +#define P_HENC_SCRATCH_8 (volatile unsigned int *)((0x1ac8 << 2) + 0xff620000) +#define HENC_SCRATCH_9 (0x1ac9) +#define P_HENC_SCRATCH_9 (volatile unsigned int *)((0x1ac9 << 2) + 0xff620000) +#define HENC_SCRATCH_A (0x1aca) +#define P_HENC_SCRATCH_A (volatile unsigned int *)((0x1aca << 2) + 0xff620000) +#define HENC_SCRATCH_B (0x1acb) +#define P_HENC_SCRATCH_B (volatile unsigned int *)((0x1acb << 2) + 0xff620000) +#define HENC_SCRATCH_C (0x1acc) +#define P_HENC_SCRATCH_C (volatile unsigned int *)((0x1acc << 2) + 0xff620000) +#define HENC_SCRATCH_D (0x1acd) +#define P_HENC_SCRATCH_D (volatile unsigned int *)((0x1acd << 2) + 0xff620000) +#define HENC_SCRATCH_E (0x1ace) +#define P_HENC_SCRATCH_E (volatile unsigned int *)((0x1ace << 2) + 0xff620000) +#define HENC_SCRATCH_F (0x1acf) +#define P_HENC_SCRATCH_F (volatile unsigned int *)((0x1acf << 2) + 0xff620000) +#define HENC_SCRATCH_G (0x1ad0) +#define P_HENC_SCRATCH_G (volatile unsigned int *)((0x1ad0 << 2) + 0xff620000) +#define HENC_SCRATCH_H (0x1ad1) +#define P_HENC_SCRATCH_H (volatile unsigned int *)((0x1ad1 << 2) + 0xff620000) +#define HENC_SCRATCH_I (0x1ad2) +#define P_HENC_SCRATCH_I (volatile unsigned int *)((0x1ad2 << 2) + 0xff620000) +#define HENC_SCRATCH_J (0x1ad3) +#define P_HENC_SCRATCH_J (volatile unsigned int *)((0x1ad3 << 2) + 0xff620000) +#define HENC_SCRATCH_K (0x1ad4) +#define P_HENC_SCRATCH_K (volatile unsigned int *)((0x1ad4 << 2) + 0xff620000) +#define HENC_SCRATCH_L (0x1ad5) +#define P_HENC_SCRATCH_L (volatile unsigned int *)((0x1ad5 << 2) + 0xff620000) +#define HENC_SCRATCH_M (0x1ad6) +#define P_HENC_SCRATCH_M (volatile unsigned int *)((0x1ad6 << 2) + 0xff620000) +#define HENC_SCRATCH_N (0x1ad7) +#define P_HENC_SCRATCH_N (volatile unsigned int *)((0x1ad7 << 2) + 0xff620000) +// bit [7:0] data_feed_buff_id +#define IE_DATA_FEED_BUFF_INFO (0x1ad8) +#define P_IE_DATA_FEED_BUFF_INFO (volatile unsigned int *)((0x1ad8 << 2) + 0xff620000) +// +// Closing file: henc_regs.h +// +//------------------------------------------------------------------------------ +// VLC module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: vlc_regs.h +// +//======================================================================== +// VLC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_VLC_CBUS_BASE = 0x0d +// ----------------------------------------------- +// Bit[31:28] - henc_status +// Bit[27:8] - reserved +// Bit[7] mc_hcmd_buff_enable +// Bit[6] mc_hcmd_use_mc_hcmd_buff +// Bit[5] mc_hcmd_use_mc_hcmd_hw_start +// Bit[4] no_mc_out_null_non_skipped_mb +// Bit[3] mc_out_even_skipped_mb +// Bit[2] - hcmd_enable +// Bit[1] - vlc_control_enable (0 will treat as soft_reset) +// Bit[0] - vlc_input_enable (enable input interface) +#define VLC_STATUS_CTRL (0x1d00) +#define P_VLC_STATUS_CTRL (volatile unsigned int *)((0x1d00 << 2) + 0xff620000) +// Bit [31] - small_luma_ignore_chroma +// Bit[30:16] - Reserved +// Bit [15] - enable_free_clk_mc_hcmd_buff +// Bit [14] - enable_free_clk_reg +// Bit [13] - enable_free_clk_stream +// Bit [12] - enable_free_clk_pre_buff +// Bit [11] - enable_free_clk_vb_buff +// Bit [10] - enable_free_clk_dc_input +// Bit [9] - enable_free_clk_input +// Bit [8] - enable_free_clk_mv_cal +// Bit [7] - enable_free_clk_status +// Bit [6] - enable_free_clk_mc_dblk_cmd_if +// Bit [5] - disable_mvd_enc_finished +// Bit [4] - I16MB_share_ipred_mode_with_I4MB +// Bit [3] - fixed_picture_qp +// Bit [2] - use_set_b8_mode ( not used now) +// Bit [1] - use_set_mb_skip_run +// Bit [0] - pop_coeff_even_all_zero +#define VLC_CONFIG (0x1d01) +#define P_VLC_CONFIG (volatile unsigned int *)((0x1d01 << 2) + 0xff620000) +// -------------------------------------------- +// Bitstream DDR Interface +// -------------------------------------------- +#define VLC_VB_START_PTR (0x1d10) +#define P_VLC_VB_START_PTR (volatile unsigned int *)((0x1d10 << 2) + 0xff620000) +#define VLC_VB_END_PTR (0x1d11) +#define P_VLC_VB_END_PTR (volatile unsigned int *)((0x1d11 << 2) + 0xff620000) +#define VLC_VB_WR_PTR (0x1d12) +#define P_VLC_VB_WR_PTR (volatile unsigned int *)((0x1d12 << 2) + 0xff620000) +// Read Only, VLC_VB_SW_RD_PTR or VLC_VB_HW_RD_PTR +#define VLC_VB_RD_PTR (0x1d13) +#define P_VLC_VB_RD_PTR (volatile unsigned int *)((0x1d13 << 2) + 0xff620000) +#define VLC_VB_SW_RD_PTR (0x1d14) +#define P_VLC_VB_SW_RD_PTR (volatile unsigned int *)((0x1d14 << 2) + 0xff620000) +// Read Only +#define VLC_VB_LEFT (0x1d15) +#define P_VLC_VB_LEFT (volatile unsigned int *)((0x1d15 << 2) + 0xff620000) +// VB FIFO Control +// bit [31:24] vb_full_int_enable_cpu[7:0] +// bit [23:16] vb_full_int_enable_amrisc[7:0] +// -bit 23 Video BUFFER LEFT < 0x400 Bytes +// -bit 22 Video BUFFER LEFT < 0x200 Bytes +// -bit 21 Video BUFFER LEFT < 0x100 Bytes +// -bit 20 Video BUFFER LEFT < 0x80 Bytes +// -bit 19 Video BUFFER LEFT < 0x40 Bytes +// -bit 18 Video BUFFER LEFT < 0x20 Bytes +// -bit 17 vbfifo left < 16 double words (8x64bits) +// -bit 16 vbfifo left < 8 double words (4x64bits) +// bit [15] wr_ptr_int_enable_cpu +// bit [14] wr_ptr_int_enable_amrisc +// bit [13] wr_ptr_int (Read Only, write 1 will clear) +// bit [12] vb_full_int_enable_cpu(Read Only) +// bit [11] vb_full_int_enable_amrisc(Read Only) +// bit [10] reserved +// bit [9] use_vb_hw_rd_ptr +// bit [8] vb_always_ready Set to 1 to ignore vb_level blocking DDR write +// bit [7] vb_ready_for_transfer (Read Only) +// bit [6] data_ready_for_transfer (Read Only) +// bits [5:3] vb_endian Set VB Endian inside DDR memory +// bit [2] vb_write_busy Read Only - indicate DDR write busy +// bit [1] vb_write_en Set to 1 to enable writing data to DDR memory +// bit [0] vb_soft_reset Soft reset +#define VLC_VB_CONTROL (0x1d16) +#define P_VLC_VB_CONTROL (volatile unsigned int *)((0x1d16 << 2) + 0xff620000) +// bit 31 transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request // default : 0 +// bit 30 A_urgent // default : 0 +// bit 29:24 A_brst_num // default : 0x3f +// bit 23:22 reserved +// bit 21:16 A_id // default : 0x20 +// bit 15:0 vb_left_hold // default : 0 +#define VLC_VB_MEM_CTL (0x1d17) +#define P_VLC_VB_MEM_CTL (volatile unsigned int *)((0x1d17 << 2) + 0xff620000) +// vb_wr_ptr address to generate interrupt +#define VLC_VB_INT_PTR (0x1d18) +#define P_VLC_VB_INT_PTR (volatile unsigned int *)((0x1d18 << 2) + 0xff620000) +// bit[31:12] reserved +// bit[11:0] vlc_wrrsp_count +#define VLC_WRRSP (0x1d19) +#define P_VLC_WRRSP (volatile unsigned int *)((0x1d19 << 2) + 0xff620000) +#define VLC_TOTAL_BYTES (0x1d1a) +#define P_VLC_TOTAL_BYTES (volatile unsigned int *)((0x1d1a << 2) + 0xff620000) +// bit [31:26] reserved +// bit [25] vb_flush +// bit [24] vb_reg_ready +// bit [23:16] vb_buff_left -- Read only +// bit [15:8] vb_buff_wr_point -- RW +// bit [7:0] vb_buff_rd_point -- RW +#define VLC_VB_BUFF (0x1d1b) +#define P_VLC_VB_BUFF (volatile unsigned int *)((0x1d1b << 2) + 0xff620000) +// bit[31] flush_vlc_pre_buff +// bit[30:27] reserved +// bit[26:24] vb_pre_buff_level +// bit[23:0] vb_pre_buff_data[55:32] +#define VLC_VB_PRE_BUFF_HI (0x1d1c) +#define P_VLC_VB_PRE_BUFF_HI (volatile unsigned int *)((0x1d1c << 2) + 0xff620000) +// bit[31:0] vb_pre_buff_data[31:0] +#define VLC_VB_PRE_BUFF_LOW (0x1d1d) +#define P_VLC_VB_PRE_BUFF_LOW (volatile unsigned int *)((0x1d1d << 2) + 0xff620000) +// bit[31] stream_encap_enable // 0x0000(00-03) will be changed to 0x000003(00-03) if enabled +// bit[30:29] stream_encap_delay // delay bytes for encap used +// bit[28:24] stream_buff_point +// bit[23:0] stream_buff_data +#define VLC_STREAM_BUFF (0x1d1e) +#define P_VLC_STREAM_BUFF (volatile unsigned int *)((0x1d1e << 2) + 0xff620000) +// bit[31] push_stream_block - Read Only (Will set if vb_buff full) +// bit[30] push_stream_busy - Read Only (busy when output one byte from stream_buf (max 2 clocks for 8 bits push) +// bit[29:28] stream_encap_status - Read Only +// bit[27:21] reserved +// Long Mode : (Amrisc need movilo and mvihi high to set stream_info) +// bit[20:16] push_stream_long_length (0 or 31 : Mid or Short mode) +// bit[15:0] push_stream_data +// Mid Mode : (Amrisc need movi to set stream_info) +// bit[15:12]] push_stream_mid_length (1-12 : mid mode active, 0-short mode, 15 - byte align) +// bit[11:0] push_stream_data +// Short Mode : (Amrisc can use mtspi to push stream directely) +// bit[7:5] push_stream_short_length (0-5 : short length, else - invalid) +// bit[4:0] push_stream_data +#define VLC_PUSH_STREAM (0x1d1f) +#define P_VLC_PUSH_STREAM (volatile unsigned int *)((0x1d1f << 2) + 0xff620000) +// bit[15:8] ELEMENT_LENGTH +// bit[7:1] reserved +// bit[0] Write - push start, Read - Push Busy +#define VLC_PUSH_ELEMENT (0x1d20) +#define P_VLC_PUSH_ELEMENT (volatile unsigned int *)((0x1d20 << 2) + 0xff620000) +#define VLC_ELEMENT_DATA (0x1d21) +#define P_VLC_ELEMENT_DATA (volatile unsigned int *)((0x1d21 << 2) + 0xff620000) +// bit[7] hcmd_intra_use_sw_info +// bit[6] hcmd_use_sw_info +// bit[5] always_use_info_0_cbp_blk +// bit[4] always_update_info_0_cbp_blk +// bit[3] reset_left_mb_wr +// bit[2] reset_top_mb_wr +// bit[1] set_left_mb_wr +// bit[0] set_top_mb_wr +#define VLC_SPECIAL_CTL (0x1d22) +#define P_VLC_SPECIAL_CTL (volatile unsigned int *)((0x1d22 << 2) + 0xff620000) +// bit[28] left_intra +// bit[27:22] left_quant +// bit[21:16] left_quant_c +// bit[12] top_intra +// bit[11:6] top_quant +// bit[5:0] top_quant_c +#define VLC_HCMD_T_L_INFO (0x1d23) +#define P_VLC_HCMD_T_L_INFO (volatile unsigned int *)((0x1d23 << 2) + 0xff620000) +// bit[12] cur_intra +// bit[11:6] cur_quant +// bit[5:0] cur_quant_c +#define VLC_HCMD_CUR_INFO (0x1d24) +#define P_VLC_HCMD_CUR_INFO (volatile unsigned int *)((0x1d24 << 2) + 0xff620000) +// bit[13] top_left_info_in_data_mv_cal +// bit[12] only_use_info_0_top_left_in_I +// bit[11] top_left_info_in_data +// bit[10] early_mix_mc_hcmd +// bit[9] update_top_left_mix +// bit[8] p_top_left_mix +// bit[7] mv_cal_mixed_type +// bit[6] mc_hcmd_mixed_type +// bit[5] use_seperate_int_control +// bit[4] hcmd_intra_use_q_info +// bit[3] hcmd_left_use_prev_info +// bit[2] hcmd_use_q_info +// bit[1] use_q_delta_quant +// bit[0] detect_I16_from_I4 +#define VLC_ADV_CONFIG (0x1d25) +#define P_VLC_ADV_CONFIG (volatile unsigned int *)((0x1d25 << 2) + 0xff620000) +// 31 - use_hcmd_mb_xy_auto +//23:16 - hcmd_max_mb_x +//15:8 - hcmd_mb_y_auto +// 7:0 - hcmd_mb_x_auto +#define VLC_HCMD_MBXY_AUTO (0x1d26) +#define P_VLC_HCMD_MBXY_AUTO (volatile unsigned int *)((0x1d26 << 2) + 0xff620000) +// bit[31:0] vlc_int_control_inter -- will be used when use_seperate_int_control is set +#define VLC_INT_CONTROL_INTER (0x1d2f) +#define P_VLC_INT_CONTROL_INTER (volatile unsigned int *)((0x1d2f << 2) + 0xff620000) +// -------------------------------------------- +// Picture VLC +// -------------------------------------------- +// (&(int|(~AND_enable))|(|(int&OR_enable))) +// bit[31] OR interrupt Enable Reserved +// bit[30] OR interrupt Enable for mv_busy +// bit[29] OR interrupt Enable for b8_mode_busy +// bit[28] OR interrupt Enable for mb_skip_run_busy +// bit[27] OR interrupt Enable for cbp_busy +// bit[26] OR interrupt Enable for Reserved +// bit[25] OR interrupt Enable for Reserved +// bit[24] OR interrupt Enable for mb_info_busy +// bit[23] AND interrupt Enable Reserved +// bit[22] AND interrupt Enable for mv_busy +// bit[21] AND interrupt Enable for b8_mode_busy +// bit[20] AND interrupt Enable for mb_skip_run_busy +// bit[19] AND interrupt Enable for cbp_busy +// bit[18] AND interrupt Enable for Reserved +// bit[17] AND interrupt Enable for Reserved +// bit[16] AND interrupt Enable for mb_info_busy +// bit[15] OR interrupt Enable Reserved +// bit[14] OR interrupt Enable for mvd +// bit[13] OR interrupt Enable for b8_mode +// bit[12] OR interrupt Enable for mb_skip_run +// bit[11] OR interrupt Enable for cbp_ready +// bit[10] OR interrupt Enable for c_ipred_mode_ready +// bit[9] OR interrupt Enable for ipred_mode_ready +// bit[8] OR interrupt Enable for mb_info_ready +// bit[7] AND interrupt Enable Reserved +// bit[6] AND interrupt Enable for mvd +// bit[5] AND interrupt Enable for b8_mode +// bit[4] AND interrupt Enable for mb_skip_run +// bit[3] AND interrupt Enable for cbp_ready +// bit[2] AND interrupt Enable for c_ipred_mode_ready +// bit[1] AND interrupt Enable for ipred_mode_ready +// bit[0] AND interrupt Enable for mb_info_ready +#define VLC_INT_CONTROL (0x1d30) +#define P_VLC_INT_CONTROL (volatile unsigned int *)((0x1d30 << 2) + 0xff620000) +// Bit[31:16] picture_height +// Bit[15:0] picture_width +#define VLC_PIC_SIZE (0x1d31) +#define P_VLC_PIC_SIZE (volatile unsigned int *)((0x1d31 << 2) + 0xff620000) +// [31:16] Reserved +// [15:3] pic_width_in_mbs_minus1 +// [2:0] picture_type +#define VLC_PIC_INFO (0x1d32) +#define P_VLC_PIC_INFO (volatile unsigned int *)((0x1d32 << 2) + 0xff620000) +// Bit[31:16] MB_NR +// Bit[15:8] MBY +// Bit[7:0] MBX +#define VLC_PIC_POSITION (0x1d33) +#define P_VLC_PIC_POSITION (volatile unsigned int *)((0x1d33 << 2) + 0xff620000) +// Bit[31] MV_busy +// Bit[30:6] Reserved +// Bit[15] Reserved +// Bit[14] vlc_input_MV_busy +// Bit[13] vlc_input_b8_mode_busy +// Bit[12] vlc_input_mb_skip_run_busy +// Bit[11] vlc_input_cbp_busy +// Bit[10] Reserved +// Bit[9] Reserved +// Bit[8] vlc_input_mb_info_busy +// Bit[7] Reserved +// Bit[6] mvd +// Bit[5] b8_mode +// Bit[4] mb_skip_run +// Bit[3] cbp +// Bit[2] c_ipred_mode +// Bit[1] ipred_mode +// Bit[0] mb_info ( mb_type, mb_x, mb_y) +#define VLC_INPUT_STATUS (0x1d34) +#define P_VLC_INPUT_STATUS (volatile unsigned int *)((0x1d34 << 2) + 0xff620000) +// Bit[31:28] detected_mb_type +// Bit[27:16] mb_y +// Bit[15:4] mb_x +// Bit[3:0] mb_type +#define VLC_MB_INFO (0x1d35) +#define P_VLC_MB_INFO (volatile unsigned int *)((0x1d35 << 2) + 0xff620000) +// commnad 0 -- no pending +// normal command + 1 is pending command +// +// bit 31:28 -- pending command 7 +// bit 27:24 -- pending command 6 +// bit 23:20 -- pending command 5 +// bit 19:16 -- pending command 4 +// bit 15:12 -- pending command 3 +// bit 11:8 -- pending command 2 +// bit 7:4 -- pending command 1 +// bit 3:0 -- pending command 0 +#define VLC_ENC_PEND_CMD (0x1d36) +#define P_VLC_ENC_PEND_CMD (volatile unsigned int *)((0x1d36 << 2) + 0xff620000) +// For I Slice +// Bit[31:16] Reserved +// Bit[15:0] IntraType +#define HENC_TOP_INFO_0 (0x1d37) +#define P_HENC_TOP_INFO_0 (volatile unsigned int *)((0x1d37 << 2) + 0xff620000) +#define HENC_LEFT_INFO_0 (0x1d38) +#define P_HENC_LEFT_INFO_0 (volatile unsigned int *)((0x1d38 << 2) + 0xff620000) +// For I Slice +// Bit[31:24] V_nnz +// Bit[23:16] U_nnz +// Bit[15:0] Y_nnz +#define HENC_TOP_INFO_1 (0x1d39) +#define P_HENC_TOP_INFO_1 (volatile unsigned int *)((0x1d39 << 2) + 0xff620000) +#define HENC_LEFT_INFO_1 (0x1d3a) +#define P_HENC_LEFT_INFO_1 (volatile unsigned int *)((0x1d3a << 2) + 0xff620000) +// bit[63:0] ipred_mode +#define VLC_IPRED_MODE_HI (0x1d3b) +#define P_VLC_IPRED_MODE_HI (volatile unsigned int *)((0x1d3b << 2) + 0xff620000) +#define VLC_IPRED_MODE_LO (0x1d3c) +#define P_VLC_IPRED_MODE_LO (volatile unsigned int *)((0x1d3c << 2) + 0xff620000) +// bit[15:8] SE delta quant +// bit[7:0] UE delta quant +#define VLC_DELTA_QP (0x1d3d) +#define P_VLC_DELTA_QP (volatile unsigned int *)((0x1d3d << 2) + 0xff620000) +// bit[31:16] Reserved +// bit[15:12] Reserved +// bit[11:8] c_ipred_mode +// bit[7:0] cbp +#define VLC_MB_HEADER_INFO (0x1d3e) +#define P_VLC_MB_HEADER_INFO (volatile unsigned int *)((0x1d3e << 2) + 0xff620000) +// bit[31:16] mb_skip_run +// bit[15:0] b8_mode +#define VLC_P_MB_HEADER_INFO (0x1d3f) +#define P_VLC_P_MB_HEADER_INFO (volatile unsigned int *)((0x1d3f << 2) + 0xff620000) +// bit[31] write_ptr_update +// bit[30] read_ptr_update +// bit[29:20] coeff_buf_level +// bit[19:10] coeff_buf_write_ptr +// bit[9:0] coeff_buf_read_ptr +#define VLC_COEFF_BUF_STATUS (0x1d40) +#define P_VLC_COEFF_BUF_STATUS (volatile unsigned int *)((0x1d40 << 2) + 0xff620000) +// bit[31:10] Reserved +// bit[9:0] read_req_addr +#define VLC_COEFF_RD_REQ (0x1d41) +#define P_VLC_COEFF_RD_REQ (volatile unsigned int *)((0x1d41 << 2) + 0xff620000) +// bit[20] - coeff_buf_read_finished +// bit[19] - coeff_first +// bit[18:4] - coeff_level +// bit[3:0] - coeff_run +#define VLC_COEFF (0x1d42) +#define P_VLC_COEFF (volatile unsigned int *)((0x1d42 << 2) + 0xff620000) +// bit[31] - coeff_info_ready +// bit[30:25] - Reserved +// bit[24:15] - block_begin_addr +// bit[14:11] - trailing_one_sign +// bit[10:6] - total_coeff +// bit[5:4] - trailing_ones +// bit[3:0] - total_zeros +#define VLC_COEFF_INFO (0x1d43) +#define P_VLC_COEFF_INFO (volatile unsigned int *)((0x1d43 << 2) + 0xff620000) +// bit[31] write_ptr_update +// bit[30] read_ptr_update +// bit[29:25] Reserved +// bit[24:20] dc_buf_level -- 0-16 +// bit[19:15] Reserved +// bit[14:10] dc_buf_write_ptr +// bit[9:5] Reserved +// bit[4:0] dc_buf_read_ptr +#define VLC_DC_BUF_STATUS (0x1d44) +#define P_VLC_DC_BUF_STATUS (volatile unsigned int *)((0x1d44 << 2) + 0xff620000) +// bit[31:10] Reserved +// bit[9:4] Reserved +// bit[3:0] read_req_addr +#define VLC_DC_RD_REQ (0x1d45) +#define P_VLC_DC_RD_REQ (volatile unsigned int *)((0x1d45 << 2) + 0xff620000) +// bit[31:17] - Reserved +// bit[16] - dc_first +// bit[15:1] - dc_level +// bit[0] - dc_type 0 - CDC, 1 - LDC +#define VLC_DC (0x1d46) +#define P_VLC_DC (volatile unsigned int *)((0x1d46 << 2) + 0xff620000) +// bit[31] - dc_info_ready +// bit[30:25] - Reserved +// bit[24:20] - Reserved +// bit[19:15] - dc_idx_begin_addr +// bit[14:11] - dc_trailing_one_sign +// bit[10:6] - dc_total_coeff +// bit[5:4] - dc_trailing_ones +// bit[3:0] - dc_total_zeros +#define VLC_DC_INFO (0x1d47) +#define P_VLC_DC_INFO (volatile unsigned int *)((0x1d47 << 2) + 0xff620000) +// bit[31:4] - Reserved +// bit[3:0] - mv_rw_idx (auto increment when read/write VLC_MV) +#define VLC_MV_INDEX (0x1d48) +#define P_VLC_MV_INDEX (volatile unsigned int *)((0x1d48 << 2) + 0xff620000) +// bit[31:16] - MVY +// bit[15:0] - MVX +#define VLC_MV (0x1d49) +#define P_VLC_MV (volatile unsigned int *)((0x1d49 << 2) + 0xff620000) +// bit[31:16] - MVY +// bitp15:0] - MVX +// Write to HENC_TOP_MV_0 will cause previous U->UL, UR->U, and UR write +// Read will read U MV only +#define HENC_TOP_MV_0 (0x1d4a) +#define P_HENC_TOP_MV_0 (volatile unsigned int *)((0x1d4a << 2) + 0xff620000) +#define HENC_TOP_MV_1 (0x1d4b) +#define P_HENC_TOP_MV_1 (volatile unsigned int *)((0x1d4b << 2) + 0xff620000) +#define HENC_TOP_MV_2 (0x1d4c) +#define P_HENC_TOP_MV_2 (volatile unsigned int *)((0x1d4c << 2) + 0xff620000) +#define HENC_TOP_MV_3 (0x1d4d) +#define P_HENC_TOP_MV_3 (volatile unsigned int *)((0x1d4d << 2) + 0xff620000) +#define HENC_LEFT_MV_0 (0x1d4e) +#define P_HENC_LEFT_MV_0 (volatile unsigned int *)((0x1d4e << 2) + 0xff620000) +#define HENC_LEFT_MV_1 (0x1d4f) +#define P_HENC_LEFT_MV_1 (volatile unsigned int *)((0x1d4f << 2) + 0xff620000) +#define HENC_LEFT_MV_2 (0x1d50) +#define P_HENC_LEFT_MV_2 (volatile unsigned int *)((0x1d50 << 2) + 0xff620000) +#define HENC_LEFT_MV_3 (0x1d51) +#define P_HENC_LEFT_MV_3 (volatile unsigned int *)((0x1d51 << 2) + 0xff620000) +// Bit[31:1] Reserved +// Bit[0] top_left_mv_ready +#define TOP_LEFT_READY (0x1d52) +#define P_TOP_LEFT_READY (volatile unsigned int *)((0x1d52 << 2) + 0xff620000) +// Bit[31:16] Reserved +// Bit[15:0] mb_skip_run +#define MB_SKIP_RUN (0x1d53) +#define P_MB_SKIP_RUN (volatile unsigned int *)((0x1d53 << 2) + 0xff620000) +// Bit[31:16] Reserved +// Bit[15] Reserved +// Bit[14:13] rd_struct // 00 - frame, 10 - top field, 11 - bottom field +// Bit[12:11] wr_struct // 00 - frame, 10 - top field, 11 - bottom field +// Bit[10:5] mv_buff_id +// Bit[4:0] mv_ref +#define VLC_HCMD_CONFIG (0x1d54) +#define P_VLC_HCMD_CONFIG (volatile unsigned int *)((0x1d54 << 2) + 0xff620000) +// Bit[9:0] h264_dblk_info +#define VLC_HCMD_DBLK_INFO (0x1d55) +#define P_VLC_HCMD_DBLK_INFO (volatile unsigned int *)((0x1d55 << 2) + 0xff620000) +// Bit[3:0] vlc_dbg_idx +#define VLC_DBG_IDX (0x1d56) +#define P_VLC_DBG_IDX (volatile unsigned int *)((0x1d56 << 2) + 0xff620000) +// Read Only +#define VLC_DBG_READ (0x1d57) +#define P_VLC_DBG_READ (volatile unsigned int *)((0x1d57 << 2) + 0xff620000) +// [ 29] RW jpeg_comp2_ac_table_sel. Default 0. +// [ 28] RW jpeg_comp2_dc_table_sel. Default 0. +// [26:25] RW jpeg_comp2_cnt_max. Default 0. +// [ 24] RW jpeg_comp2_en. Set 1 if the scan will include component 2 (Cr). Default 0. +// [ 21] RW jpeg_comp1_ac_table_sel. Default 0. +// [ 20] RW jpeg_comp1_dc_table_sel. Default 0. +// [18:17] RW jpeg_comp1_cnt_max. Default 0. +// [ 16] RW jpeg_comp1_en. Set 1 if the scan will include component 1 (Cb). Default 0. +// [ 13] RW jpeg_comp0_ac_table_sel. Default 0. +// [ 12] RW jpeg_comp0_dc_table_sel. Default 0. +// [10: 9] RW jpeg_comp0_cnt_max. Default 0. +// [ 8] RW jpeg_comp0_en. Set 1 if the scan will include component 0 (Y). Default 0. +// [ 1] W jpeg_coeff_init. Write 1 to this bit to initialize JPEG run length encoder. +// [ 0] RW jpeg_en. 0=Disable JPEG encoder; 1=Enable JPEG encoder. Default 0. +#define VLC_JPEG_CTRL (0x1d58) +#define P_VLC_JPEG_CTRL (volatile unsigned int *)((0x1d58 << 2) + 0xff620000) +// [ 13] RW jpeg_coeff_buf_overfl. Write this bit to 1 to clear overfl. +// [ 12] RW jpeg_coeff_buf_undrfl. Write this bit to 1 to clear undrfl. +// [ 11] R jpeg_coeff_buf_full. +// [ 10] R jpeg_coeff_buf_empty. +// [ 8: 0] R jpeg_coeff_buf_level. +#define VLC_JPEG_COEFF_BUF_STAT (0x1d59) +#define P_VLC_JPEG_COEFF_BUF_STAT (volatile unsigned int *)((0x1d59 << 2) + 0xff620000) +// [ 16] RW JPEG HUFFMAN table access mode. 0=Write; 1=Read. Default 1. +// [ 8: 0] RW JPEG HUFFMAN table addr. Default 0. +#define VLC_HUFFMAN_ADDR (0x1d5a) +#define P_VLC_HUFFMAN_ADDR (volatile unsigned int *)((0x1d5a << 2) + 0xff620000) +// [19: 0] RW JPEG HUFFMAN table data. +#define VLC_HUFFMAN_DATA (0x1d5b) +#define P_VLC_HUFFMAN_DATA (volatile unsigned int *)((0x1d5b << 2) + 0xff620000) +// bit[31:0] enc_mv_bits - including b8_mode and mvd +#define VLC_ENC_MV_BITS (0x1d5c) +#define P_VLC_ENC_MV_BITS (volatile unsigned int *)((0x1d5c << 2) + 0xff620000) +// bit[31:0] enc_coeff_bits - including cbp, token, trailing_sign, coeff_enc, h264_totzeros, h264_run +#define VLC_ENC_COEFF_BITS (0x1d5d) +#define P_VLC_ENC_COEFF_BITS (volatile unsigned int *)((0x1d5d << 2) + 0xff620000) +// +// Closing file: vlc_regs.h +// +//------------------------------------------------------------------------------ +// QDCT module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: qdct_regs.h +// +//======================================================================== +// QDCT module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_QDCT_CBUS_BASE = 0x0f +// ----------------------------------------------- +// bit[31:28] - mb_info_state +#define QDCT_STATUS_CTRL (0x1f00) +#define P_QDCT_STATUS_CTRL (volatile unsigned int *)((0x1f00 << 2) + 0xff620000) +// bit[18] - enable_free_clk_sad_top +// bit[17] - enable_free_clk_ie_top +// bit[16] - enable_free_clk_ie_sub +// bit[15] - enable_free_clk_mc_out +// bit[14] - enable_free_clk_i_pred_top +// bit[13] - enable_free_clk_idct_top +// bit[12] - enable_free_clk_iq_top +// bit[11] - enable_free_clk_q_top +// bit[10] - enable_free_clk_dc_buff_8 +// bit[9] - enable_free_clk_dct_top +// bit[8] - enable_free_clk_mb_info +// bit[7] - enable_free_clk_mb_buff +// bit[6] - enable_free_clk_reg +// bit[5] - ignore_1_include_2nd_half_c +// bit[4] - ignore_1_include_2nd_half +// bit[3] - ignore_t_p8x8 +// bit[2] - not_ignore_dc +// bit[1] - ignore_small_lac_intra +// bit[0] - disable_fast_zero_block +#define QDCT_CONFIG (0x1f01) +#define P_QDCT_CONFIG (volatile unsigned int *)((0x1f01 << 2) + 0xff620000) +// bit[31] - ignore_lac_coeff_en +// bit[30:26] - ignore_lac_coeff_else +// bit[25:21] - ignore_lac_coeff_2 +// bit[20:16] - ignore_lac_coeff_1 +// bit[15] - ignore_cac_coeff_en +// bit[14:10] - ignore_cac_coeff_else +// bit[9:5] - ignore_cac_coeff_2 +// bit[4:0] - ignore_cac_coeff_1 +#define IGNORE_CONFIG (0x1f02) +#define P_IGNORE_CONFIG (volatile unsigned int *)((0x1f02 << 2) + 0xff620000) +// bit[31] - ignore_t_lac_coeff_en +// bit[30:26] - ignore_t_lac_coeff_else +// bit[25:21] - ignore_t_lac_coeff_2 +// bit[20:16] - ignore_t_lac_coeff_1 +// bit[15] - ignore_cdc_coeff_en +// bit[14] - ignore_t_lac_coeff_else_le_3 +// bit[13] - ignore_t_lac_coeff_else_le_4 +// bit[12] - ignore_cdc_only_when_empty_cac_inter +// bit[11] - ignore_cdc_only_when_one_empty_inter +// bit[10:9] - ignore_cdc_range_max_inter // 0-0, 1-1, 2,-2, 3-3 +// bit[8:7] - ignore_cdc_abs_max_inter // 0-1, 1-2, 2,-3, 3-4 +// bit[6] - reserved +// bit[5] - ignore_cdc_only_when_empty_cac_intra +// bit[4] - ignore_cdc_only_when_one_empty_intra +// bit[3:2] - ignore_cdc_range_max_intra // 0-0, 1-1, 2,-2, 3-3 +// bit[1:0] - ignore_cdc_abs_max_intra // 0-1, 1-2, 2,-3, 3-4 +#define IGNORE_CONFIG_2 (0x1f03) +#define P_IGNORE_CONFIG_2 (volatile unsigned int *)((0x1f03 << 2) + 0xff620000) +// -------------------------------------------- +// MB DATA DDR Interface +// -------------------------------------------- +#define QDCT_MB_START_PTR (0x1f10) +#define P_QDCT_MB_START_PTR (volatile unsigned int *)((0x1f10 << 2) + 0xff620000) +#define QDCT_MB_END_PTR (0x1f11) +#define P_QDCT_MB_END_PTR (volatile unsigned int *)((0x1f11 << 2) + 0xff620000) +#define QDCT_MB_WR_PTR (0x1f12) +#define P_QDCT_MB_WR_PTR (volatile unsigned int *)((0x1f12 << 2) + 0xff620000) +#define QDCT_MB_RD_PTR (0x1f13) +#define P_QDCT_MB_RD_PTR (volatile unsigned int *)((0x1f13 << 2) + 0xff620000) +#define QDCT_MB_LEVEL (0x1f14) +#define P_QDCT_MB_LEVEL (volatile unsigned int *)((0x1f14 << 2) + 0xff620000) +// bit [31] disable_mbxy_ie_save +// bit [30] no_wait_after_q_cdc +// bit [29] ie_start_int_enable +// bit [28] ignore_t_p8x8 +// bit [27] zero_mc_out_null_non_skipped_mb +// bit [26] no_mc_out_null_non_skipped_mb +// bit [25] mc_out_even_skipped_mb +// bit [24] mc_out_wait_cbp_ready +// bit [23] mc_out_wait_mb_type_ready +// bit [22] i_pred_int_enable +// bit [21] intra_sat8_enable +// bit [20] ie_sub_enable +// bit [19] i_pred_enable +// bit [18] iq_enable +// bit [17] idct_enable +// bit [16] no_zero_coeff_mb +// bit [15] add_zero_coeff_block +// bit [14] mb_pause_enable +// bit [13] q_enable +// bit [12] dct_enable +// bit [11] ignore_magic_word +// bit [10] mb_info_en +// bit [9] mb_info_soft_reset +// bit [8] mb_always_ready Set to 1 to ignore mb_level blocking DDR read +// bit [7] mb_ready_for_transfer (Read Only) +// bit [6] data_ready_for_transfer (Read Only) +// bits [5:3] mb_endian Set MB Endian inside DDR memory +// bit [2] mb_read_busy Read Only - indicate DDR read busy +// bit [1] mb_read_en Set to 1 to enable reading data from DDR memory +// bit [0] mb_soft_reset Soft reset +#define QDCT_MB_CONTROL (0x1f15) +#define P_QDCT_MB_CONTROL (volatile unsigned int *)((0x1f15 << 2) + 0xff620000) +// bit 31 transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request // default : 0 +// bit 30 A_urgent // default : 0 +// bit 29:24 A_brst_num // default : 0x3f +// bit 23 reserved +// bit 22 read_till_zero +// bit 21:16 A_id // default : 0x21 +// bit 15:0 mb_level_hold // default : 0 +#define QDCT_MB_MEM_CTL (0x1f16) +#define P_QDCT_MB_MEM_CTL (volatile unsigned int *)((0x1f16 << 2) + 0xff620000) +// bit [31:24] reserved +// bit [23:16] vb_buff_level -- Read only +// bit [15:8] vb_buff_wr_point -- RW +// bit [7:0] vb_buff_rd_point -- RW +#define QDCT_MB_BUFF (0x1f17) +#define P_QDCT_MB_BUFF (volatile unsigned int *)((0x1f17 << 2) + 0xff620000) +// bit [31:0] mb infor data begin magic word - default : 0xa55aaa55 +#define QDCT_MB_MAGIC_WORD (0x1f18) +#define P_QDCT_MB_MAGIC_WORD (volatile unsigned int *)((0x1f18 << 2) + 0xff620000) +// Read Only Register +// bit[19] dct_ready_1 +// bit[18] dct_ready_0 +// bit[17] dct_rd_idx +// bit[16] dct_wr_idx +// bit[15] dct_srdy +// bit[14] dct_rrdy +// bit[13] Reserved +// bit[12:8] dct_block_number +// bit[7:4] dct_rw_addr +// bit[3:0] dct_status +#define QDCT_DCT_STATUS (0x1f19) +#define P_QDCT_DCT_STATUS (volatile unsigned int *)((0x1f19 << 2) + 0xff620000) +// bit[24:23] vlc_quant_count +// bit[22:16] vlc_delta_quant_data +// bit[15:10] vlc_quant_data +// bit[9:4] vlc_prev_quant_data +// bit[3:0] q_status +#define QDCT_Q_STATUS (0x1f1a) +#define P_QDCT_Q_STATUS (volatile unsigned int *)((0x1f1a << 2) + 0xff620000) +// bit[31:3] Reserved +// bit[2:0] picture_type +#define QDCT_PIC_INFO (0x1f1b) +#define P_QDCT_PIC_INFO (volatile unsigned int *)((0x1f1b << 2) + 0xff620000) +// bit[31:28] Reserved +// bit[27:22] I_pic_quant_c +// bit[21:16] I_pic_quant +// bit[15] reserved +// bit[14:12] quant_rem_c +// bit[11:8] quant_per_c +// bit[7] reserved +// bit[6:4] quant_rem +// bit[3:0] quant_per +#define QDCT_Q_QUANT_I (0x1f1c) +#define P_QDCT_Q_QUANT_I (volatile unsigned int *)((0x1f1c << 2) + 0xff620000) +// bit[31:28] Reserved +// bit[27:22] P_pic_quant_c +// bit[21:16] P_pic_quant +// bit[15] reserved +// bit[14:12] quant_rem_c +// bit[11:8] quant_per_c +// bit[7] reserved +// bit[6:4] quant_rem +// bit[3:0] quant_per +#define QDCT_Q_QUANT_P (0x1f1d) +#define P_QDCT_Q_QUANT_P (volatile unsigned int *)((0x1f1d << 2) + 0xff620000) +// bit[31] mb_info_pause +// bit[30:16] pause_mby +// bit[15:0] pause_mbx +#define QDCT_MB_PAUSE_CTL (0x1f1e) +#define P_QDCT_MB_PAUSE_CTL (volatile unsigned int *)((0x1f1e << 2) + 0xff620000) +// bit[31] top_control_ready_i_pred +// bit[30:28]top_dma_status +// bit[27] top_control_ready_ie +// bit[26:24]Reserved +// bit[23] ul_mb +// bit[22] right_mb +// bit[21] top_mb +// bit[20] left_mb +// bit[19:8] mb_x +// bit[7:6] i_pred_ref_idx_L +// bit[5:4] i_pred_ref_idx_UL +// bit[3:2] i_pred_ref_idx_U +// bit[1:0] i_pred_ref_idx_UR +#define QDCT_TOP_CONTROL (0x1f1f) +#define P_QDCT_TOP_CONTROL (volatile unsigned int *)((0x1f1f << 2) + 0xff620000) +// bit[31:0] top_base_addr - DDR Memory start address for save top Pixel +#define QDCT_TOP_BASE_MEM (0x1f20) +#define P_QDCT_TOP_BASE_MEM (volatile unsigned int *)((0x1f20 << 2) + 0xff620000) +// bit 15:13 Reserved +// bit 12 A_urgent // default : 0 +// bit 11:6 A_brst_num // default : 0x3f +// bit 5:0 A_id // default : 0x22 +#define QDCT_TOP_MEM_CTL (0x1f21) +#define P_QDCT_TOP_MEM_CTL (volatile unsigned int *)((0x1f21 << 2) + 0xff620000) +// bit [11:0] top_wrrsp_count +#define QDCT_TOP_WRRSP (0x1f22) +#define P_QDCT_TOP_WRRSP (volatile unsigned int *)((0x1f22 << 2) + 0xff620000) +// Bit[3:0] qdct_dbg_idx +#define QDCT_DBG_IDX (0x1f23) +#define P_QDCT_DBG_IDX (volatile unsigned int *)((0x1f23 << 2) + 0xff620000) +// Read Only +#define QDCT_DBG_READ (0x1f24) +#define P_QDCT_DBG_READ (volatile unsigned int *)((0x1f24 << 2) + 0xff620000) +// [19:18] RW jdct_inflow_ctrl. JPEG DCT input flow control. Default 0. +// 0=No halt; +// 1=DCT halts request at end of each 8x8 block; +// 2=DCT halts request at end of each MCU. +// [17:16] RW jpeg_coeff_last_sel. Default 0. +// Select at which point to finish processing, give update to AmRISC so it can control the next step. +// 0=Mark last coeff at the end of an 8x8 block; +// 1=Mark at the end of an MCU; +// 2=Mark at the end of a scan. +// [ 15] RW jpeg_quant_sel_comp2. 0=Comp2 select Quantization table 0; 1=Select table 1. Default 0. +// [ 14] RW jpeg_v_factor_comp2. Component 2's vertical sampling factor. Default 0. +// [ 13] RW jpeg_h_factor_comp2. Component 2's horizontal sampling factor. Default 0. +// [ 12] RW jpeg_comp2_en. Set 1 if the scan will include component 2 (Cr). Default 0. +// [ 11] RW jpeg_quant_sel_comp1. 0=Comp1 select Quantization table 0; 1=Select table 1. Default 0. +// [ 10] RW jpeg_v_factor_comp1. Component 1's vertical sampling factor. Default 0. +// [ 9] RW jpeg_h_factor_comp1. Component 1's horizontal sampling factor. Default 0. +// [ 8] RW jpeg_comp1_en. Set 1 if the scan will include component 1 (Cb). Default 0. +// [ 7] RW jpeg_quant_sel_comp0. 0=Comp0 select Quantization table 0; 1=Select table 1. Default 0. +// [ 6] RW jpeg_v_factor_comp0. Component 0's vertical sampling factor. Default 0. +// [ 5] RW jpeg_h_factor_comp0. Component 0's horizontal sampling factor. Default 0. +// [ 4] RW jpeg_comp0_en. Set 1 if the scan will include component 0 (Y). Default 0. +// [ 3: 1] RW jdct_intr_sel. JPEG DCT interrupt select. Default 0. +// 0=Disable intr; +// 1=Intr at end of each 8x8 block of DCT input; +// 2=Intr at end of each MCU of DCT input; +// 3=Intr at end of a scan of DCT input; +// 4=Intr at end of each 8x8 block of DCT output; +// 5=Intr at end of each MCU of DCT output; +// 6=Intr at end of a scan of DCT output. +// [ 0] RW jpeg_en. 0=Disable JPEG QDCT; 1=Enable JPEG QDCT. Default 0. +#define QDCT_JPEG_CTRL (0x1f25) +#define P_QDCT_JPEG_CTRL (volatile unsigned int *)((0x1f25 << 2) + 0xff620000) +// [29:16] RW jpeg_x_end. Picture X end. Default 0. +// [13: 0] RW jpeg_x_start. Picture X start. Default 0. +#define QDCT_JPEG_X_START_END (0x1f26) +#define P_QDCT_JPEG_X_START_END (volatile unsigned int *)((0x1f26 << 2) + 0xff620000) +// [29:16] RW jpeg_y_end. Picture Y end. Default 0. +// [13: 0] RW jpeg_y_start. Picture Y start. Default 0. +#define QDCT_JPEG_Y_START_END (0x1f27) +#define P_QDCT_JPEG_Y_START_END (volatile unsigned int *)((0x1f27 << 2) + 0xff620000) +// [ 8] RW JPEG QUANT table access mode. 0=Write; 1=Read. Default 1. +// [ 5: 0] RW JPEG QUANT table addr. Default 0. +#define QDCT_JPEG_QUANT_ADDR (0x1f28) +#define P_QDCT_JPEG_QUANT_ADDR (volatile unsigned int *)((0x1f28 << 2) + 0xff620000) +// [31: 0] RW JPEG QUANT table data. +#define QDCT_JPEG_QUANT_DATA (0x1f29) +#define P_QDCT_JPEG_QUANT_DATA (volatile unsigned int *)((0x1f29 << 2) + 0xff620000) +// [ 1] W resume_jdct. +// Write 1 to this bit will resume JPEG input engine when previously +// it is halted by QDCT_JPEG_CTRL.jdct_inflow_ctrl. +// [ 0] W jpeg_sof. +// Write 1 to this bit will start JPEG input engine. +#define QDCT_JPEG_SOF_RESUME (0x1f2a) +#define P_QDCT_JPEG_SOF_RESUME (volatile unsigned int *)((0x1f2a << 2) + 0xff620000) +// [31:30] R dct_st. jdct_ctrl state. 0=IDLE; 1=WAIT; 2=DCT_REQ. +// [29:28] R mfdin_comp. Current component at pixel request to MFDIN. +// [27:14] R mfdin_y. Current Y at pixel request to MFDIN. +// [13: 0] R mfdin_x. Current X at pixel request to MFDIN. +#define QDCT_JPEG_DCT_STATUS0 (0x1f2b) +#define P_QDCT_JPEG_DCT_STATUS0 (volatile unsigned int *)((0x1f2b << 2) + 0xff620000) +// [15:12] R JPEG Quant read MEM select. +// [11: 8] R JPEG DCT2 write MEM select. +// [ 7: 4] R JPEG DCT2 read MEM select. +// [ 3: 0] R JPEG DCT1 write MEM select. +#define QDCT_JPEG_DCT_STATUS1 (0x1f2c) +#define P_QDCT_JPEG_DCT_STATUS1 (volatile unsigned int *)((0x1f2c << 2) + 0xff620000) +// [28:16] RW jdct_coeff1. Default 13'h1D90; // 7568 = 4096 * sqrt(2) * (cos(Pi/8) + sin(Pi/8)) // 7569 +// [12: 0] RW jdct_coeff0. Default 13'h16A1; // 5793 = 4096 * sqrt(2) +#define QDCT_JPEG_DCT_COEFF01 (0x1f2d) +#define P_QDCT_JPEG_DCT_COEFF01 (volatile unsigned int *)((0x1f2d << 2) + 0xff620000) +// [28:16] RW jdct_coeff3. Default 13'h0C3F; // 3135 = 4096 * sqrt(2) * (cos(Pi/8) - sin(Pi/8)) +// [12: 0] RW jdct_coeff2. Default 13'h08A9; // 2217 = 4096 * sqrt(2) * sin(Pi/8) // 2215 +#define QDCT_JPEG_DCT_COEFF23 (0x1f2e) +#define P_QDCT_JPEG_DCT_COEFF23 (volatile unsigned int *)((0x1f2e << 2) + 0xff620000) +// [28:16] RW jdct_coeff5. Default 13'h046A; // 1130 = 4096 * (cos(3Pi/16) - sin(3Pi/16)) +// [12: 0] RW jdct_coeff4. Default 13'h1631; // 5681 = 4096 * (cos(3Pi/16) + sin(3Pi/16)) // 5682 +#define QDCT_JPEG_DCT_COEFF45 (0x1f2f) +#define P_QDCT_JPEG_DCT_COEFF45 (volatile unsigned int *)((0x1f2f << 2) + 0xff620000) +// [28:16] RW jdct_coeff7. Default 13'h0C92; // 3218 = 4096 * (cos(Pi/16) - sin(Pi/16)) +// [12: 0] RW jdct_coeff6. Default 13'h12D0; // 4816 = 4096 * (cos(Pi/16) + sin(Pi/16)) +#define QDCT_JPEG_DCT_COEFF67 (0x1f30) +#define P_QDCT_JPEG_DCT_COEFF67 (volatile unsigned int *)((0x1f30 << 2) + 0xff620000) +// [28:16] RW jdct_coeff9. Default 13'h0FB1; // 4017 = 4096 * cos(Pi/16) +// [12: 0] RW jdct_coeff8. Default 13'h0D4E; // 3406 = 4096 * cos(3Pi/16) +#define QDCT_JPEG_DCT_COEFF89 (0x1f31) +#define P_QDCT_JPEG_DCT_COEFF89 (volatile unsigned int *)((0x1f31 << 2) + 0xff620000) +#define QDCT_I_PRED_REF_WR_IDX (0x1f32) +#define P_QDCT_I_PRED_REF_WR_IDX (volatile unsigned int *)((0x1f32 << 2) + 0xff620000) +#define QDCT_I_PRED_REF_WR_DATA (0x1f33) +#define P_QDCT_I_PRED_REF_WR_DATA (volatile unsigned int *)((0x1f33 << 2) + 0xff620000) +// bit[29] mb_info_latch_no_I16_pred_mode +// bit[28] ie_dma_mbxy_use_i_pred +// bit[27] ie_dma_read_write_use_ip_idx +// bit[26] ie_start_use_top_dma_count +// bit[25] i_pred_top_dma_rd_mbbot +// bit[24] i_pred_top_dma_wr_disable +// bit[23] i_pred_mix +// bit[22] me_ab_rd_when_intra_in_p +// bit[21] force_mb_skip_run_when_intra +// bit[20] mc_out_mixed_type +// bit[19] ie_start_when_quant_not_full +// bit[18] mb_info_state_mix +// bit[17] mb_type_use_mix_result +// bit[16] me_cb_ie_read_enable +// bit[15] ie_cur_data_from_me +// bit[14] rem_per_use_table +// bit[13] q_latch_int_enable +// bit[12] q_use_table +// bit[11] q_start_wait +// bit[10] LUMA_16_LEFT_use_cur +// bit[9] DC_16_LEFT_SUM_use_cur +// bit[8] c_ref_ie_sel_cur +// bit[7] c_ipred_perfect_mode +// bit[6] ref_ie_ul_sel 0-old, 1-use next_set +// bit[5] mb_type_use_ie_result +// bit[4] detect_I16_from_I4 +// bit[3] ie_not_wait_ref_busy +// bit[2] ie_I16_enable +// bit[1:0] ie_done_sel (0, 1, 2, -1) +#define QDCT_ADV_CONFIG (0x1f34) +#define P_QDCT_ADV_CONFIG (volatile unsigned int *)((0x1f34 << 2) + 0xff620000) +// bit [31:16] I16x16_weight +// bit [15:0] I4x4_weight +#define IE_WEIGHT (0x1f35) +#define P_IE_WEIGHT (volatile unsigned int *)((0x1f35 << 2) + 0xff620000) +// bit [31] reserved +// bit [30] q_I16MB +// bit [29] reserved +// bit [28] reserved +// bit [27:23] quant_table_addr I4MB:[0,7], I16MB:[8:15], INTER:[16:23], Reserved:[24:31] +// bit [22] quant_table_addr_update(when notupdate_rem_per) (read is arb_result : q_intra) +// bit [21:19] quant_rem_c +// bit [18:16] quant_rem_y +// bit [15:12] quant_per_c +// bit [11:8] quant_per_y +// bit [7:2] quant +// bit [1] update_rem_per +// bit [0] clear_wait_status +#define Q_QUANT_CONTROL (0x1f36) +#define P_Q_QUANT_CONTROL (volatile unsigned int *)((0x1f36 << 2) + 0xff620000) +#define MBBOT_EVEN_ADDR (0x1f37) +#define P_MBBOT_EVEN_ADDR (volatile unsigned int *)((0x1f37 << 2) + 0xff620000) +#define MBBOT_ODD_ADDR (0x1f38) +#define P_MBBOT_ODD_ADDR (volatile unsigned int *)((0x1f38 << 2) + 0xff620000) +// bit [29:24] quant_table_data_3 +// bit [21:16] quant_table_data_2 +// bit [13:8] quant_table_data_1 +// bit [5:0] quant_table_data_0 +#define QUANT_TABLE_DATA (0x1f39) +#define P_QUANT_TABLE_DATA (volatile unsigned int *)((0x1f39 << 2) + 0xff620000) +// bit [31:16] ie_sad_offset_I16 +// bit [15:0] ie_sad_offset_I4 +#define SAD_CONTROL_0 (0x1f3a) +#define P_SAD_CONTROL_0 (volatile unsigned int *)((0x1f3a << 2) + 0xff620000) +// bit [31] sad_soft_reset +// bit [30:27] reserved +// bit [26:24] ie_sad_shift_I16 +// bit [22:20] ie_sad_shift_I4 +// bit [18:16] me_sad_shift_INTER +// bit [15:0] me_sad_offset_INTER +#define SAD_CONTROL_1 (0x1f3b) +#define P_SAD_CONTROL_1 (volatile unsigned int *)((0x1f3b << 2) + 0xff620000) +// bit [31] vlc_quant_rd_ptr +// bit [30] vlc_quant_rd_ptr_update +// bit [29] vlc_quant_wr_ptr +// bit [28] vlc_quant_wr_ptr_update +// bit [27:26] reserved +// bit [25:19] vlc_delta_quant_1 +// bit [18:13] vlc_quant_1 +// bit [12:6] vlc_delta_quant_0 +// bit [5:0] vlc_quant_0 +#define QDCT_VLC_QUANT_CTL_0 (0x1f3c) +#define P_QDCT_VLC_QUANT_CTL_0 (volatile unsigned int *)((0x1f3c << 2) + 0xff620000) +// bit [31:30] me_sad_rd_idx +// bit [29] me_sad_rd_idx_update +// bit [28:27] me_sad_wr_idx +// bit [26] me_sad_wr_idx_update +// bit [25:24] ie_sad_rd_idx +// bit [23] ie_sad_rd_idx_update +// bit [22:21] ie_sad_wr_idx +// bit [20] ie_sad_wr_idx_update +// bit [19:12] Reserved +// bit [11:6] vlc_max_delta_q_neg +// bit [5:0] vlc_max_delta_q_pos +#define QDCT_VLC_QUANT_CTL_1 (0x1f3d) +#define P_QDCT_VLC_QUANT_CTL_1 (volatile unsigned int *)((0x1f3d << 2) + 0xff620000) +// bit[4] jdct_int +// bit[3] quant_latch +// bit[2] me_done +// bit[1] ie_start +// bit[0] i_pred_start +#define QDCT_INT_STATUS (0x1f3e) +#define P_QDCT_INT_STATUS (volatile unsigned int *)((0x1f3e << 2) + 0xff620000) +// bit[3] mix_i_pred_wait_left_en +// bit[2:0] mc_pending_mb_count +#define QDCT_MIX_I_PRED_STATUS (0x1f3f) +#define P_QDCT_MIX_I_PRED_STATUS (volatile unsigned int *)((0x1f3f << 2) + 0xff620000) +// IE/ME share same cbus_base as QDCT +// +// bit[31] active_ur_block +// bit[30] active_ul_block +// bit[21] disable_HENC_V_PRED_16 +// bit[20] disable_HENC_H_PRED_16 +// bit[19] disable_HENC_DC_PRED_16 +// bit[18] disable_HENC_HENC_HOR_UP_PRED +// bit[17] disable_HENC_VERT_LEFT_PRED +// bit[16] disable_HENC_HENC_HOR_DOWN_PRED +// bit[15] disable_HENC_VERT_RIGHT_PRED +// bit[14] disable_HENC_DIAG_DOWN_RIGHT_PRED +// bit[13] disable_HENC_DIAG_DOWN_LEFT_PRED +// bit[12] disable_HENC_DC_PRED +// bit[11] disable_HENC_HOR_PRED +// bit[10] disable_HENC_VERT_PRED +// bit[9] ie_c_wait_ie_pause +// bit[8:4] max_ie_result_buff_count +// bit[3] ie_wait_for_ie_result // use for (max_ie_result_buff_count == 0) to wait every block +// bit[2] reserved +// bit[1] ie_enable +// bit[0] ie_soft_reset +#define IE_CONTROL (0x1f40) +#define P_IE_CONTROL (volatile unsigned int *)((0x1f40 << 2) + 0xff620000) +// bit[31:12] Reserved +// bit[11:0] mb_y +#define IE_MB_POSITION (0x1f41) +#define P_IE_MB_POSITION (volatile unsigned int *)((0x1f41 << 2) + 0xff620000) +// bit[31:16] me_skip_run +// bit[15:8] reserved +// bit [7:4] me_b8_mode +// bit [3:0] ie_me_mb_type +#define IE_ME_MB_INFO (0x1f42) +#define P_IE_ME_MB_INFO (volatile unsigned int *)((0x1f42 << 2) + 0xff620000) +// bit[3] ie_result_buff_enable +// bit[2] ie_result_buff_soft_reset +// bit[1] sad_enable +// bit[0] ie_sad_soft_reset +#define SAD_CONTROL (0x1f43) +#define P_SAD_CONTROL (volatile unsigned int *)((0x1f43 << 2) + 0xff620000) +// bit[31:16] - ie_result_buff_count - read only +// bit[14:12] -current_ie_result (pred_mode) - read only +// bit[11] top_control_data_buff_wr_ptr - rd/wr +// bit[10] top_control_data_buff_rd_ptr - rd/wr +// bit[9:5] ie_result_buff_wr_ptr - rd/wr +// bit[4:0] ie_result_buff_rd_ptr - rd/wr +#define IE_RESULT_BUFFER (0x1f44) +#define P_IE_RESULT_BUFFER (volatile unsigned int *)((0x1f44 << 2) + 0xff620000) +// bit[63:0] ie_i4_pred_mode +#define IE_I4_PRED_MODE_HI (0x1f45) +#define P_IE_I4_PRED_MODE_HI (volatile unsigned int *)((0x1f45 << 2) + 0xff620000) +#define IE_I4_PRED_MODE_LO (0x1f46) +#define P_IE_I4_PRED_MODE_LO (volatile unsigned int *)((0x1f46 << 2) + 0xff620000) +// bit [31:9] reserved +// bit [8:4] i_pred_block_number +// bit [3:0] ie_c_pred_mode +#define IE_C_PRED_MODE (0x1f47) +#define P_IE_C_PRED_MODE (volatile unsigned int *)((0x1f47 << 2) + 0xff620000) +// 31:16 - Left, 0-select ie_pixel, 1-select mc_data_out +// 15:0 - Top, 0-select ie_pixel, 1-select mc_data_out +#define IE_CUR_REF_SEL (0x1f48) +#define P_IE_CUR_REF_SEL (volatile unsigned int *)((0x1f48 << 2) + 0xff620000) +// bit[31] enable_f_skip_1_step_3 +// bit[30] enable_f_skip_1_step_2 +// bit[29] enable_f_skip_1_step_1 +// bit[28] step_3_enable +// bit[27] step_2_sub_pixel +// bit[26] always_f_skip_step_3 +// bit[25] always_f_skip_step_2 +// bit[24] always_f_skip_step_1 +// bit[23] half_pixel_only +// bit[22:13] reserved +// bit[12] adv_mv_enable +// bit[11] sad_short_valid +// bit[10:9] mv_flexable_ctl 00:0x40, 01:0x80, 10:0xc0, 11 : 0x100 +// bit[8] no_md_ab_rd +// bit[7] use_dct_state +// bit[6] enable_free_clk_me_ctl +// bit[5] enable_free_clk_me_ab +// bit[4] enable_free_clk_me_cb +// bit[3] reserved +// bit[2] me_done_int_enable +// bit[1] me_enable +// bit[0] me_soft_reset +#define ME_CONTROL (0x1f49) +#define P_ME_CONTROL (volatile unsigned int *)((0x1f49 << 2) + 0xff620000) +// bit[31:28] Reserved +// bit[27:16] me_start_mby +// bit[15:12] Reserved +// bit[11:0] me_start_mbx +#define ME_START_POSITION (0x1f4a) +#define P_ME_START_POSITION (volatile unsigned int *)((0x1f4a << 2) + 0xff620000) +// bit [31:28] me_status - Read only +// bit [27:24] me_cb_status // current buffer +// bit [23:20] me_ab_status // anc buffer +// bit [19] Reserved +// bit [18:16] me_ab_wr_ptr // read only +// bit [15:4] me_last_mbx +// bit [3:1] me_ab_rd_ptr // read only +// bit [0] me_action +#define ME_STATUS (0x1f4b) +#define P_ME_STATUS (volatile unsigned int *)((0x1f4b << 2) + 0xff620000) +// all Read-only +// bit [31:28] Reserved +// bit [27:16] me_ab_mbx +// bit [15:14] me_cb_wr_ptr +// bit [13:12] me_cb_rd_ptr +// bit [11:0] me_cb_mbx +#define ME_DEBUG (0x1f4c) +#define P_ME_DEBUG (volatile unsigned int *)((0x1f4c << 2) + 0xff620000) +// bit[29:24] step_3_skip_line +// bit[23:18] step_2_skip_line +// bit[17:12] step_1_skip_line +// bit[11:6] step_0_skip_line +// bit[5:0] read_skip_line +#define ME_SKIP_LINE (0x1f4d) +#define P_ME_SKIP_LINE (volatile unsigned int *)((0x1f4d << 2) + 0xff620000) +// bit 15:13 Reserved +// bit 12 A_urgent // default : 0 +// bit 11:6 A_brst_num // default : 0x3f +// bit 5:0 A_id // default : 0x23 +#define ME_AB_MEM_CTL (0x1f4e) +#define P_ME_AB_MEM_CTL (volatile unsigned int *)((0x1f4e << 2) + 0xff620000) +// bit[31:24] anc_pic_canvas +// bit[23:12] max_me_mby_num +// bit[11:0] max_me_mbx_num +#define ME_PIC_INFO (0x1f4f) +#define P_ME_PIC_INFO (volatile unsigned int *)((0x1f4f << 2) + 0xff620000) +// bit [23:12] me_sad_enough_1 +// bit [11:0] me_sad_enough_0 +#define ME_SAD_ENOUGH_01 (0x1f50) +#define P_ME_SAD_ENOUGH_01 (volatile unsigned int *)((0x1f50 << 2) + 0xff620000) +// bit [25:12] adv_mv_8x8_enough +// bit [11:0] me_sad_enough_2 +#define ME_SAD_ENOUGH_23 (0x1f51) +#define P_ME_SAD_ENOUGH_23 (volatile unsigned int *)((0x1f51 << 2) + 0xff620000) +// bit [21:10] me_step0_big_sad +// bit [9:5] me_step0_close_mv_y +// bit [4:0] me_step0_close_mv_x +#define ME_STEP0_CLOSE_MV (0x1f52) +#define P_ME_STEP0_CLOSE_MV (volatile unsigned int *)((0x1f52 << 2) + 0xff620000) +// bit[31:24] force_skip_sad_3 +// bit[23:16] force_skip_sad_2 +// bit[15:08] force_skip_sad_1 +// bit[07:00] force_skip_sad_0 +#define ME_F_SKIP_SAD (0x1f53) +#define P_ME_F_SKIP_SAD (volatile unsigned int *)((0x1f53 << 2) + 0xff620000) +// bit[31:24] force_skip_weight_3 +// bit[23:16] force_skip_weight_2 +// bit[15:08] force_skip_weight_1 +// bit[07:00] force_skip_weight_0 +#define ME_F_SKIP_WEIGHT (0x1f54) +#define P_ME_F_SKIP_WEIGHT (volatile unsigned int *)((0x1f54 << 2) + 0xff620000) +// Merge when ( +// (flex & me_merge_flex_en) | +// (big_sad & me_merge_sad_en)| +// ((~me_merge_flex_en)&(~me_merge_sad_en)) +// ) & +// ( small_mv_diff |(~me_merge_small_mv_en)) +// & (me_merge_flex_en | me_merge_sad_en | me_merge_small_mv_en) +// bit[31] me_merge_mv_en_16 +// bit[30] me_merge_small_mv_en_16 +// bit[29] me_merge_flex_en_16 +// bit[28] me_merge_sad_en_16 +// bit[27] me_merge_mv_en_8 +// bit[26] me_merge_small_mv_en_8 +// bit[25] me_merge_flex_en_8 +// bit[24] me_merge_sad_en_8 +// bit[23:18] me_merge_mv_diff_16 +// bit[17:12] me_merge_mv_diff_8 +// bit[11:0] me_merge_min_sad +#define ME_MV_MERGE_CTL (0x1f55) +#define P_ME_MV_MERGE_CTL (volatile unsigned int *)((0x1f55 << 2) + 0xff620000) +// bit[31:24] mv_step_weight_1 +// bit[23:16] mv_pre_weight_1 +// bit [15:0] mv_step_weight_0 +// bit[7:0] mv_pre_weight_0 +#define ME_MV_WEIGHT_01 (0x1f56) +#define P_ME_MV_WEIGHT_01 (volatile unsigned int *)((0x1f56 << 2) + 0xff620000) +// bit[31:24] mv_step_weight_3 (mv_step_weight_1_2nd) +// bit[23:16] mv_pre_weight_3 (mv_pre_weight_1_2nd) +// bit[15:8] mv_step_weight_2 +// bit[7:0] mv_pre_weight_2 +#define ME_MV_WEIGHT_23 (0x1f57) +#define P_ME_MV_WEIGHT_23 (volatile unsigned int *)((0x1f57 << 2) + 0xff620000) +// bit[31:24] me_sad_range_inc_3 +// bit[23:16] me_sad_range_inc_2 +// bit[15:8] me_sad_range_inc_1 +// bit[7:0] me_sad_range_inc_0 +#define ME_SAD_RANGE_INC (0x1f58) +#define P_ME_SAD_RANGE_INC (volatile unsigned int *)((0x1f58 << 2) + 0xff620000) +// bit[31:19] reserved +// bit[18] sub_relative_any_1_en +// bit[17] sub_relative_any_2_en +// bit[16] sub_relative_any_3_en +// bit[15] sub_relative_any_4_en +// bit[14] sub_relative_any_h_en +// bit[13] sub_make_non_flex_fix +// bit[12] sub_make_big_non_flex_fix +// bit[11:8] sub_normal_mv_diff_16 +// bit[7:4] sub_normal_mv_diff_8 +// bit[3:2] Reserved +// bit[1] sub_merge_enable_16 +// bit[0] sub_merge_enable_8 +#define ME_SUB_MERGE_CTL (0x1f59) +#define P_ME_SUB_MERGE_CTL (volatile unsigned int *)((0x1f59 << 2) + 0xff620000) +// bit[31:28] sub_ref_mv_diff_near +// bit[27:24] sub_ref_mv_diff_near_flex +// bit[23:20] sub_ref_mv_diff +// bit[19:16] sub_ref_mv_diff_flex +// bit[15:8] sub_ref_mv_near_weight +// bit[7:0] sub_ref_mv_weight +#define ME_SUB_REF_MV_CTL (0x1f5a) +#define P_ME_SUB_REF_MV_CTL (volatile unsigned int *)((0x1f5a << 2) + 0xff620000) +// bit[31:24] sub_weight_max_sad +// bit[23:16] sub_any_range_sad +// bit[15:8] sub_any_min_sad +// bit[7:0] sub_any_max_sad +#define ME_SUB_ANY_WEIGHT_SAD (0x1f5b) +#define P_ME_SUB_ANY_WEIGHT_SAD (volatile unsigned int *)((0x1f5b << 2) + 0xff620000) +// bit[31:24] sub_fix_sad +// bit[23:16] sub_fix_diff_sad +// bit[15:8] sub_sad_flex_adj +// bit[7:0] sub_big_non_flex_fix_sad +#define ME_SUB_FIX_SAD (0x1f5c) +#define P_ME_SUB_FIX_SAD (volatile unsigned int *)((0x1f5c << 2) + 0xff620000) +// bit[31:24] sub_fix_min_sad +// bit[23:16] sub_fix_min_diff_sad +// bit[15:8] sub_fix_min_sad_2 +// bit[7:0] sub_fix_min_diff_sad_2 +#define ME_SUB_FIX_MIN_SAD (0x1f5d) +#define P_ME_SUB_FIX_MIN_SAD (volatile unsigned int *)((0x1f5d << 2) + 0xff620000) +// bit[31:24] sub_snap_to_ref_max_sad +// bit[23] sub_snap_to_ref_non_flex +// bit[22:16] sub_snap_to_ref_mv_diff +// bit[15:4] sub_glitch_mv_sad +// bit[3:0] sub_glitch_mv_diff +#define ME_SUB_SNAP_GLITCH (0x1f5e) +#define P_ME_SUB_SNAP_GLITCH (volatile unsigned int *)((0x1f5e << 2) + 0xff620000) +// bit[31:20] sad_act_limit +// bit[19:8] s_a_any_sad +// bit[7] Reserved +// bit[6:5] sub_merge_method +// bit[4] use_sub_act_result +// bit[3] s_a_rnd +// bit[2] Reserved +// bit[1] sub_act_en_16 +// bit[0] sub_act_en +#define ME_SUB_ACT_CTL (0x1f5f) +#define P_ME_SUB_ACT_CTL (volatile unsigned int *)((0x1f5f << 2) + 0xff620000) +// bit[31:16] reserved +// bit[15:0] me_weight +#define ME_WEIGHT (0x1f60) +#define P_ME_WEIGHT (volatile unsigned int *)((0x1f60 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] me_quant_0 +// bit[21] ie_sad_ready_0 +// bit[20:18] Reserved +// bit[17:16] me_sad_mv_type_0 +// bit[15:0] me_sad_0 +#define ME_SAD_0 (0x1f61) +#define P_ME_SAD_0 (volatile unsigned int *)((0x1f61 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] me_quant_1 +// bit[21] me_sad_ready_1 +// bit[20:18] Reserved +// bit[17:16] me_sad_mv_type_1 +// bit[15:0] me_sad_1 +#define ME_SAD_1 (0x1f62) +#define P_ME_SAD_1 (volatile unsigned int *)((0x1f62 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] me_quant_2 +// bit[21] me_sad_ready_2 +// bit[20:18] Reserved +// bit[17:16] me_sad_mv_type_2 +// bit[15:0] me_sad_2 +#define ME_SAD_2 (0x1f63) +#define P_ME_SAD_2 (volatile unsigned int *)((0x1f63 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] me_quant_3 +// bit[21] me_sad_ready_3 +// bit[20:18] Reserved +// bit[17:16] me_sad_mv_type_3 +// bit[15:0] me_sad_3 +#define ME_SAD_3 (0x1f64) +#define P_ME_SAD_3 (volatile unsigned int *)((0x1f64 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] ie_quant_0 +// bit[21] ie_sad_ready_0 +// bit[20] I4/I16 (0-I4MB, 1-I16MB) +// bit[19:0] ie_sad_0 +#define IE_SAD_0 (0x1f65) +#define P_IE_SAD_0 (volatile unsigned int *)((0x1f65 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] ie_quant_1 +// bit[21] ie_sad_ready_1 +// bit[20] I4/I16 (0-I4MB, 1-I16MB) +// bit[19:0] ie_sad_1 +#define IE_SAD_1 (0x1f66) +#define P_IE_SAD_1 (volatile unsigned int *)((0x1f66 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] ie_quant_2 +// bit[21] ie_sad_ready_2 +// bit[20] I4/I16 (0-I4MB, 1-I16MB) +// bit[19:0] ie_sad_2 +#define IE_SAD_2 (0x1f67) +#define P_IE_SAD_2 (volatile unsigned int *)((0x1f67 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] ie_quant_3 +// bit[21] ie_sad_ready_3 +// bit[20] I4/I16 (0-I4MB, 1-I16MB) +// bit[19:0] ie_sad_3 +#define IE_SAD_3 (0x1f68) +#define P_IE_SAD_3 (volatile unsigned int *)((0x1f68 << 2) + 0xff620000) +// bit[31] enable_large_diff_16x8 +// bit[30] enable_large_diff_8x16 +// bit[29:16] adv_mv_8x8_weight +// bit[15:14] reserved +// bit[13:0] adv_mv_4x4x4_weight +#define ADV_MV_CTL0 (0x1f69) +#define P_ADV_MV_CTL0 (volatile unsigned int *)((0x1f69 << 2) + 0xff620000) +// bit[31:16] adv_mv_16x16_weight +// bit[15] enable_large_diff_16x16 +// bit[14:0] adv_mv_16_8_weight +#define ADV_MV_CTL1 (0x1f6a) +#define P_ADV_MV_CTL1 (volatile unsigned int *)((0x1f6a << 2) + 0xff620000) +#define ADV_MV_CTL2 (0x1f6b) +#define P_ADV_MV_CTL2 (volatile unsigned int *)((0x1f6b << 2) + 0xff620000) +// bit[31] v3_skip_enable +// bit[30] v3_step_1_weight_enable // for step1, will only use pre_weight for block0, only step_weight for block 1,2,3 +// bit[29] v3_l2_skip_only_use_l2_sad // set to 1 may allow l1 maybe not skip +// bit[28] v3_mv_sad_weight_enable +// bit[27] v3_ipred_type_enable +// bit[25:12] force_skip_sad_1 +// bit[11:0] force_skip_sad_0 +#define V3_SKIP_CONTROL (0x1f6c) +#define P_V3_SKIP_CONTROL (volatile unsigned int *)((0x1f6c << 2) + 0xff620000) +// bit[18:16] top_ipred_type_count +// bit[15:14] Reserved +// bit[13:12] top_ipred_type_rd_idx +// bit[11:10] top_ipred_type_wr_idx +// bit[9] left_ipred_type_ready +// bit[8] top_ipred_type_ready +// bit[7:6] left_mv_idx +// bit[5:4] top_mv_idx +// bit[3] - left_mv_ready +// bit[2:0] top_mv_ready +#define V3_TOP_LEFT_CTL (0x1f6d) +#define P_V3_TOP_LEFT_CTL (volatile unsigned int *)((0x1f6d << 2) + 0xff620000) +#define V3_TOP_MV (0x1f6e) +#define P_V3_TOP_MV (volatile unsigned int *)((0x1f6e << 2) + 0xff620000) +#define V3_LEFT_MV (0x1f6f) +#define P_V3_LEFT_MV (volatile unsigned int *)((0x1f6f << 2) + 0xff620000) +// bit[31:30] reserved +// bit[29:16] v3_skip_weight_1 +// bit[15:12] reserved +// bit[11:0] v3_skip_weight_0 +#define V3_SKIP_WEIGHT (0x1f70) +#define P_V3_SKIP_WEIGHT (volatile unsigned int *)((0x1f70 << 2) + 0xff620000) +// bit[31:28] reserved +// bit[27:16] v3_l1_f_skip_max_sad +// bit[15:12] reserved +// bit[11:0] v3_l1_skip_max_sad +#define V3_L1_SKIP_MAX_SAD (0x1f71) +#define P_V3_L1_SKIP_MAX_SAD (volatile unsigned int *)((0x1f71 << 2) + 0xff620000) +// bit[31:16] force_skip_sad_2 +// bit[15:0] v3_skip_weight_2 +#define V3_L2_SKIP_WEIGHT (0x1f72) +#define P_V3_L2_SKIP_WEIGHT (volatile unsigned int *)((0x1f72 << 2) + 0xff620000) +// bit[21:16] v3_mv_sad_table_addr 0-15 table_step_0 +// bit[11:0] v3_mv_sad +#define V3_MV_SAD_TABLE (0x1f73) +#define P_V3_MV_SAD_TABLE (volatile unsigned int *)((0x1f73 << 2) + 0xff620000) +// [31:16] v3_ie_f_zero_sad_i16 +// [15:0] v3_ie_f_zero_sad_i4 +#define V3_F_ZERO_CTL_0 (0x1f74) +#define P_V3_F_ZERO_CTL_0 (volatile unsigned int *)((0x1f74 << 2) + 0xff620000) +// [25] v3_no_ver_when_top_zero_en +// [24] v3_no_hor_when_left_zero_en +// [23:16] v3_max_I16_H_num // 0 means no break +// [15:0] v3_me_f_zero_sad +#define V3_F_ZERO_CTL_1 (0x1f75) +#define P_V3_F_ZERO_CTL_1 (volatile unsigned int *)((0x1f75 << 2) + 0xff620000) +#define V3_TOP_INTRA_INFO (0x1f76) +#define P_V3_TOP_INTRA_INFO (volatile unsigned int *)((0x1f76 << 2) + 0xff620000) +#define V3_LEFT_INTRA_INFO (0x1f77) +#define P_V3_LEFT_INTRA_INFO (volatile unsigned int *)((0x1f77 << 2) + 0xff620000) +// [31:24] C_ipred_weight_H +// [23:16] C_ipred_weight_V +// [15:8] I4_ipred_weight_else +// [7:0] I4_ipred_weight_most +#define V3_IPRED_TYPE_WEIGHT_0 (0x1f78) +#define P_V3_IPRED_TYPE_WEIGHT_0 (volatile unsigned int *)((0x1f78 << 2) + 0xff620000) +// [31:24] I16_ipred_weight_DC +// [23:16] I16_ipred_weight_H +// [15:8] I16_ipred_weight_V +// [7:0] C_ipred_weight_DC +#define V3_IPRED_TYPE_WEIGHT_1 (0x1f79) +#define P_V3_IPRED_TYPE_WEIGHT_1 (volatile unsigned int *)((0x1f79 << 2) + 0xff620000) +// [31:16] v3_left_small_max_me_sad +// [15:0] v3_left_small_max_ie_sad +#define V3_LEFT_SMALL_MAX_SAD (0x1f7a) +#define P_V3_LEFT_SMALL_MAX_SAD (volatile unsigned int *)((0x1f7a << 2) + 0xff620000) +// (qr==7) & (qp==15) means force zero block +// [31:26] v4_force_q_r_intra +// [25:20] v4_force_q_r_inter +// [19] v4_force_q_y_enable +// [18:16] v4_force_qr_y +// [15:12] v4_force_qp_y +// [11:0] v4_force_skip_sad +#define V4_FORCE_SKIP_CFG (0x1f7b) +#define P_V4_FORCE_SKIP_CFG (volatile unsigned int *)((0x1f7b << 2) + 0xff620000) +// v5 Complexity // Y(256 pixel per MB) and C(128 pixel per MB) +// For every 4x4 block, calculate average and Add abs(pixel-average) together +// bit[31:16] v5_diff_sum_C +// bit[15:0] v5_diff_sum_Y +#define V5_MB_DIFF_SUM (0x1f7c) +#define P_V5_MB_DIFF_SUM (volatile unsigned int *)((0x1f7c << 2) + 0xff620000) +// bit[31:24] v5_small_diff_cnt_C +// bit[23:16] v5_small_diff_C +// bit[15:8] v5_small_diff_cnt_Y +// bit[7:0] v5_small_diff_Y +#define V5_SMALL_DIFF_CNT (0x1f7d) +#define P_V5_SMALL_DIFF_CNT (volatile unsigned int *)((0x1f7d << 2) + 0xff620000) +// bit[31:29] Reserved +// bit[28:24] v5_simple_block_cnt // 0 -15 Y 16-23 C +// bit[23:20] v5_simple_pixel_cnt +// bit[19:18] v5_simple_dq_wr_ptr +// bit[17:16] v5_simple_dq_rd_ptr +// bit[15:12] v5_simple_dq (Read Only) +// bit[11:8] v5_simple_me_weight(Read Only) +// bit[7] v5_use_small_diff_cnt +// bit[6] v5_simple_mb_inter_all_en +// bit[5] v5_simple_mb_inter_8x8_en +// bit[4] v5_simple_mb_inter_16_8_en +// bit[3] v5_simple_mb_inter_16x16_en +// bit[2] v5_simple_mb_intra_en +// bit[1] v5_simple_mb_C_en +// bit[0] v5_simple_mb_Y_en +#define V5_SIMPLE_MB_CTL (0x1f7e) +#define P_V5_SIMPLE_MB_CTL (volatile unsigned int *)((0x1f7e << 2) + 0xff620000) +// bit[31:28] v5_simple_dq_shift +// bit[27:24] v5_simple_dq_6(-7 to +7) +// bit[23:20] v5_simple_dq_5(-7 to +7) +// bit[19:16] v5_simple_dq_4(-7 to +7) +// bit[15:12] v5_simple_dq_3(-7 to +7) +// bit[11:08] v5_simple_dq_2(-7 to +7) +// bit[07:04] v5_simple_dq_1(-7 to +7) +// bit[03:00] v5_simple_dq_0(-7 to +7) +#define V5_SIMPLE_MB_DQUANT (0x1f7f) +#define P_V5_SIMPLE_MB_DQUANT (volatile unsigned int *)((0x1f7f << 2) + 0xff620000) +// bit[31:28] v5_simple_me_weight_shift +// bit[27:24] v5_simple_me_weight_6(-7 to +7) +// bit[23:20] v5_simple_me_weight_5(-7 to +7) +// bit[19:16] v5_simple_me_weight_4(-7 to +7) +// bit[15:12] v5_simple_me_weight_3(-7 to +7) +// bit[11:08] v5_simple_me_weight_2(-7 to +7) +// bit[07:04] v5_simple_me_weight_1(-7 to +7) +// bit[03:00] v5_simple_me_weight_0(-7 to +7) +#define V5_SIMPLE_MB_ME_WEIGHT (0x1f80) +#define P_V5_SIMPLE_MB_ME_WEIGHT (volatile unsigned int *)((0x1f80 << 2) + 0xff620000) +// +// Closing file: qdct_regs.h +// +//------------------------------------------------------------------------------ +// HCODEC MDEC module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hcodec_mdec_regs.h +// +//======================================================================== +// MDEC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_HDEC_CBUS_BASE = 0x09 +// ----------------------------------------------- +//`define HCODEC_MC_CTRL_REG 8'h00 +//`define HCODEC_MC_MB_INFO 8'h01 +//`define HCODEC_MC_PIC_INFO 8'h02 +//`define HCODEC_MC_HALF_PEL_ONE 8'h03 +//`define HCODEC_MC_HALF_PEL_TWO 8'h04 +//`define HCODEC_POWER_CTL_MC 8'h05 +// +//`define HCODEC_MC_CMD 8'h06 +//`define HCODEC_MC_CTRL0 8'h07 +//`define HCODEC_MC_PIC_W_H 8'h08 +//`define HCODEC_MC_STATUS0 8'h09 +//`define HCODEC_MC_STATUS1 8'h0a +//`define HCODEC_MC_CTRL1 8'h0b +//`define HCODEC_MC_MIX_RATIO0 8'h0c +//`define HCODEC_MC_MIX_RATIO1 8'h0d +//`define HCODEC_MC_DP_MB_XY 8'h0e //read only +//`define HCODEC_MC_OM_MB_XY 8'h0f //read only +// +//`define HCODEC_MC_MPORT_CTRL 8'h40 +//`define HCODEC_MC_MPORT_DAT 8'h41 +//`define HCODEC_MC_WT_PRED_CTRL 8'h42 +//`define HCODEC_MC_MBBOT_ST_EVEN_ADDR 8'h44 +//`define HCODEC_MC_MBBOT_ST_ODD_ADDR 8'h45 +//`define HCODEC_MC_DPDN_MB_XY 8'h46 //read only +//`define HCODEC_MC_OMDN_MB_XY 8'h47 //read only +//`define HCODEC_MC_HCMDBUF_H 8'h48 +//`define HCODEC_MC_HCMDBUF_L 8'h49 +//`define HCODEC_MC_HCMD_H 8'h4a //read only +//`define HCODEC_MC_HCMD_L 8'h4b //read only +//`define HCODEC_MC_IDCT_DAT 8'h4c +// +//`define HCODEC_MC_CTRL_GCLK_CTRL 8'h4d +//`define HCODEC_MC_OTHER_GCLK_CTRL 8'h4e +// +////Bit 29:24, mbbot thread ID and token +////Bit 21:16, mc read/write thread ID and token +////Bit 13:8, mbbot pre-arbitor burst number +////Bit 5:0, mc pre-arbitor burst number +//`define HCODEC_MC_CTRL2 8'h4f +// +//// `define HCODEC_DBLK_QUANT 8'h76 // ONLY for $ucode/real/amrisc/rv.s, reg value from apollo +// +////`define HCODEC_ANC1_CANVAS_ADDR 8'h80 +////`define HCODEC_ANC2_CANVAS_ADDR 8'h81 +// +////`define HCODEC_REC_CANVAS_ADDR 8'h89 +// +////`define HCODEC_MDEC_PIC_W 8'h8c +////`define HCODEC_MDEC_PIC_H 8'h8d +//`define HCODEC_MDEC_PIC_DC_CTRL 8'h8e +//`define HCODEC_MDEC_PIC_DC_STATUS 8'h8f +// +//`define HCODEC_ANC0_CANVAS_ADDR 8'h90 +//`define HCODEC_ANC1_CANVAS_ADDR 8'h91 +//`define HCODEC_ANC2_CANVAS_ADDR 8'h92 +//`define HCODEC_ANC3_CANVAS_ADDR 8'h93 +//`define HCODEC_ANC4_CANVAS_ADDR 8'h94 +//`define HCODEC_ANC5_CANVAS_ADDR 8'h95 +//`define HCODEC_ANC6_CANVAS_ADDR 8'h96 +//`define HCODEC_ANC7_CANVAS_ADDR 8'h97 +//`define HCODEC_ANC8_CANVAS_ADDR 8'h98 +//`define HCODEC_ANC9_CANVAS_ADDR 8'h99 +//`define HCODEC_ANC10_CANVAS_ADDR 8'h9a +//`define HCODEC_ANC11_CANVAS_ADDR 8'h9b +//`define HCODEC_ANC12_CANVAS_ADDR 8'h9c +//`define HCODEC_ANC13_CANVAS_ADDR 8'h9d +//`define HCODEC_ANC14_CANVAS_ADDR 8'h9e +//`define HCODEC_ANC15_CANVAS_ADDR 8'h9f +//`define HCODEC_ANC16_CANVAS_ADDR 8'ha0 +//`define HCODEC_ANC17_CANVAS_ADDR 8'ha1 +//`define HCODEC_ANC18_CANVAS_ADDR 8'ha2 +//`define HCODEC_ANC19_CANVAS_ADDR 8'ha3 +//`define HCODEC_ANC20_CANVAS_ADDR 8'ha4 +//`define HCODEC_ANC21_CANVAS_ADDR 8'ha5 +//`define HCODEC_ANC22_CANVAS_ADDR 8'ha6 +//`define HCODEC_ANC23_CANVAS_ADDR 8'ha7 +//`define HCODEC_ANC24_CANVAS_ADDR 8'ha8 +//`define HCODEC_ANC25_CANVAS_ADDR 8'ha9 +//`define HCODEC_ANC26_CANVAS_ADDR 8'haa +//`define HCODEC_ANC27_CANVAS_ADDR 8'hab +//`define HCODEC_ANC28_CANVAS_ADDR 8'hac +//`define HCODEC_ANC29_CANVAS_ADDR 8'had +//`define HCODEC_ANC30_CANVAS_ADDR 8'hae +//`define HCODEC_ANC31_CANVAS_ADDR 8'haf +// +//`define HCODEC_DBKR_CANVAS_ADDR 8'hb0 +//`define HCODEC_DBKW_CANVAS_ADDR 8'hb1 +//`define HCODEC_REC_CANVAS_ADDR 8'hb2 +// +////28:24, read/write, current canvas idx, used in h264 only now +////23:0, read only, current canvas address, 23:16, Cr canvas addr, 15:8, Cb canvas addr, 7:0, Y canvas addr +//`define HCODEC_CURR_CANVAS_CTRL 8'hb3 +// +//`define HCODEC_MDEC_PIC_DC_THRESH 8'hb8 +//`define HCODEC_MDEC_PICR_BUF_STATUS 8'hb9 +//`define HCODEC_MDEC_PICW_BUF_STATUS 8'hba +//`define HCODEC_MCW_DBLK_WRRSP_CNT 8'hbb +// +//`define HCODEC_AV_SCRATCH_0 8'hc0 +//`define HCODEC_AV_SCRATCH_1 8'hc1 +//`define HCODEC_AV_SCRATCH_2 8'hc2 +//`define HCODEC_AV_SCRATCH_3 8'hc3 +//`define HCODEC_AV_SCRATCH_4 8'hc4 +//`define HCODEC_AV_SCRATCH_5 8'hc5 +//`define HCODEC_AV_SCRATCH_6 8'hc6 +//`define HCODEC_AV_SCRATCH_7 8'hc7 +//`define HCODEC_AV_SCRATCH_8 8'hc8 +//`define HCODEC_AV_SCRATCH_9 8'hc9 +//`define HCODEC_AV_SCRATCH_A 8'hca +//`define HCODEC_AV_SCRATCH_B 8'hcb +//`define HCODEC_AV_SCRATCH_C 8'hcc +//`define HCODEC_AV_SCRATCH_D 8'hcd +//`define HCODEC_AV_SCRATCH_E 8'hce +//`define HCODEC_AV_SCRATCH_F 8'hcf +//`define HCODEC_AV_SCRATCH_G 8'hd0 +//`define HCODEC_AV_SCRATCH_H 8'hd1 +//`define HCODEC_AV_SCRATCH_I 8'hd2 +//`define HCODEC_AV_SCRATCH_J 8'hd3 +//`define HCODEC_AV_SCRATCH_K 8'hd4 +//`define HCODEC_AV_SCRATCH_L 8'hd5 +//`define HCODEC_AV_SCRATCH_M 8'hd6 +//`define HCODEC_AV_SCRATCH_N 8'hd7 +// +//// bit[29:24] A_brst_num_co_mb +//// bit[21:16] A_id_co_mb +//// bit[11:0] wrrsp_count_co_mb +//`define HCODEC_WRRSP_CO_MB 8'hd8 +//// bit[29:24] A_brst_num_dcac +//// bit[21:16] A_id_dcac +//// bit[11:0] wrrsp_count_dcac +//`define HCODEC_WRRSP_DCAC 8'hd9 +// +////====================================== +//// MC Control Register Bits +//// +////====================================== +//// For bits, just copy the defines...don't translate to addresses +// `define HCODEC_MC_ENABLE 16'h0001 +// //`define MC_RESET 16'h0002 +// `define HCODEC_SKIP_MB 16'h0004 +// +////====================================== +//// MB Info Register Bits +//// +////====================================== +// `define HCODEC_INTRA_MB 16'h0001 +// +// `define HCODEC_BWD_PRED 16'h0004 +// `define HCODEC_FWD_PRED 16'h0008 +// +// `define HCODEC_FLD_MOT 16'h0100 +// `define HCODEC_FRM_16x8_MOT 16'h0200 +// `define HCODEC_DUAL_PRM_MOT 16'h0300 +// +// `define HCODEC_FRM_DCT 16'h0000 // Bit 10 +// `define HCODEC_FLD_DCT 16'h0400 +// +////====================================== +//// MB Info Register Bits +//// +////====================================== +// `define HCODEC_I_PIC 16'h0001 +// `define HCODEC_P_PIC 16'h0002 +// `define HCODEC_B_PIC 16'h0003 +// +// `define HCODEC_FLD_PIC 16'h0000 // Bit 8 +// `define HCODEC_FRM_PIC 16'h0100 +// +////======================================================================== +//// DBLK Register: 12'h950 - 12'h97f +////======================================================================== +//`define HCODEC_DBLK_RST 8'h50 +//`define HCODEC_DBLK_CTRL 8'h51 +//`define HCODEC_DBLK_MB_WID_HEIGHT 8'h52 +//`define HCODEC_DBLK_STATUS 8'h53 +//`define HCODEC_DBLK_CMD_CTRL 8'h54 +//`define HCODEC_DBLK_MB_XY 8'h55 +//`define HCODEC_DBLK_QP 8'h56 +//`define HCODEC_DBLK_Y_BHFILT 8'h57 +//`define HCODEC_DBLK_Y_BHFILT_HIGH 8'h58 +//`define HCODEC_DBLK_Y_BVFILT 8'h59 +//`define HCODEC_DBLK_CB_BFILT 8'h5a +//`define HCODEC_DBLK_CR_BFILT 8'h5b +//`define HCODEC_DBLK_Y_HFILT 8'h5c +//`define HCODEC_DBLK_Y_HFILT_HIGH 8'h5d +//`define HCODEC_DBLK_Y_VFILT 8'h5e +//`define HCODEC_DBLK_CB_FILT 8'h5f +//`define HCODEC_DBLK_CR_FILT 8'h60 +//`define HCODEC_DBLK_BETAX_QP_SEL 8'h61 +//`define HCODEC_DBLK_CLIP_CTRL0 8'h62 +//`define HCODEC_DBLK_CLIP_CTRL1 8'h63 +//`define HCODEC_DBLK_CLIP_CTRL2 8'h64 +//`define HCODEC_DBLK_CLIP_CTRL3 8'h65 +//`define HCODEC_DBLK_CLIP_CTRL4 8'h66 +//`define HCODEC_DBLK_CLIP_CTRL5 8'h67 +//`define HCODEC_DBLK_CLIP_CTRL6 8'h68 +//`define HCODEC_DBLK_CLIP_CTRL7 8'h69 +//`define HCODEC_DBLK_CLIP_CTRL8 8'h6a +// +//`define HCODEC_DBLK_STATUS1 8'h6b +//`define HCODEC_DBLK_GCLK_FREE 8'h6c +//`define HCODEC_DBLK_GCLK_OFF 8'h6d +// +//`define HCODEC_DBLK_AVSFLAGS 8'h6e +// +//// bit 15:0 +//`define HCODEC_DBLK_CBPY 8'h70 +//// bit 11:8 -- deblk_cbpy_bottom +//// bit 7:4 -- deblk_cbpy_left +//// bit 3:0 -- deblk_cbpy_top +//`define HCODEC_DBLK_CBPY_ADJ 8'h71 +//// bit 7:0 -- deblk_cbpc +//`define HCODEC_DBLK_CBPC 8'h72 +//// bit 15 -- bottom_mb +//// bit 14 -- left_mb +//// bit 13 -- top_mb +//// bit 12 -- reserved +//// bit 11:8 -- deblk_cbpc_bottom +//// bit 7:4 -- deblk_cbpc_left +//// bit 3:0 -- deblk_cbpc_top +//`define HCODEC_DBLK_CBPC_ADJ 8'h73 +//// bit 15:8 -- deblk_hmvd -- {left_1, left_0, below_1, below_0, block3-0} +//// bit 7:0 -- deblk_vmvd -- {top_1, top_0, below_1, below_0, block3-0} +//`define HCODEC_DBLK_VHMVD 8'h74 +//// bit 13:12 -- right_vmvd +//// bit 11 -- right_above_vmvd +//// bit 10 -- left_below_hmvd +//// bit 9 -- disable_dblk_luma +//// bit 8 -- disable_dblk_chroma +//// bit 7 -- bBelowRefDiff +//// bit 6 -- bLeftRefDiff +//// bit 5 -- bAboveRefDiff +//// bit 4 -- reserved +//// bit 3 -- s_below +//// bit 2 -- s_left +//// bit 1 -- s_above +//// bit 0 -- s +//`define HCODEC_DBLK_STRONG 8'h75 +//// bit 14:10 -- PQUANT +//// bit 9:5 -- left_PQUANT +//// bit 4:0 -- top_PQUANT +//`define HCODEC_DBLK_RV8_QUANT 8'h76 +// +//`define HCODEC_DBLK_CBUS_HCMD2 8'h77 +//`define HCODEC_DBLK_CBUS_HCMD1 8'h78 +//`define HCODEC_DBLK_CBUS_HCMD0 8'h79 +//`define HCODEC_DBLK_VLD_HCMD2 8'h7a +//`define HCODEC_DBLK_VLD_HCMD1 8'h7b +//`define HCODEC_DBLK_VLD_HCMD0 8'h7c +// +//`define HCODEC_DBLK_OST_YBASE 8'h7d +//`define HCODEC_DBLK_OST_CBCRDIFF 8'h7e +// +////13:8 dblk thread ID and token +////5:0 dblk prearbitor burst num +//`define HCODEC_DBLK_CTRL1 8'h7f +// +////DBLK last address 12'h97f +// +// Closing file: hcodec_mdec_regs.h +// +//------------------------------------------------------------------------------ +// HCODEC VLD module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hcodec_vld_regs.h +// +//======================================================================== +// VLD module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_VLD_CBUS_BASE = 0x0c +// ----------------------------------------------- +// +//`define HCODEC_VLD_STATUS_CTRL 8'h00 +//// +//// bit 10 -- use_old_shift_en +//// bit 9 -- output_mv_not_pmv +//// bit 8:5 -- force_zigzag +//// bit 4 -- force_zigzag_en +//// bit 3 -- disable_viff_anempty_int +//// bit 2 -- disable_m2_ac_coeff_one_cycle +//// bit 1 -- forced_reset force reset pmv +//// bit 0 -- mpeg_type 0:mpeg1 1: mpeg2 +//`define HCODEC_MPEG1_2_REG 8'h01 +//`define HCODEC_F_CODE_REG 8'h02 +//`define HCODEC_PIC_HEAD_INFO 8'h03 +//`define HCODEC_SLICE_VER_POS_PIC_TYPE 8'h04 +//`define HCODEC_QP_VALUE_REG 8'h05 +//`define HCODEC_MBA_INC 8'h06 +//`define HCODEC_MB_MOTION_MODE 8'h07 +////`define HCODEC_PACKET_BYTE_COUNT 8'h08 +//// bit 15 -- force_search_startcode_en +//// bit 14 -- int_cpu_when_error (before do anything) +//// bit 13 -- vld_error_reset +//// bit 12 -- return_on_slice_header +//// bit 6 -- jpeg_ff00_en +//// bit 5:0 -- vld_power_ctl +//`define HCODEC_POWER_CTL_VLD 8'h08 +// +//`define HCODEC_MB_WIDTH 8'h09 +//`define HCODEC_SLICE_QP 8'h0a +//// `define HCODEC_MB_X_MB_Y 8'h0b // current MBX and MBY +//`define HCODEC_PRE_START_CODE 8'h0b // ONLY for $ucode/real/amrisc/rv.s, reg value from apollo +//`define HCODEC_SLICE_START_BYTE_01 8'h0c // ONLY for $ucode/real/amrisc/rv.s, reg value from apollo +//`define HCODEC_SLICE_START_BYTE_23 8'h0d // ONLY for $ucode/real/amrisc/rv.s, reg value from apollo +//`define HCODEC_RESYNC_MARKER_LENGTH 8'h0e // Does this exist in HW ? used in $ucode/mpeg4 +// +//// bit[6:5] - frame/field info, 01 - top, 10 - bottom, 11 - frame +//// bit[4:0] - buffer ID +//// L0_BUFF_ID_0, L0_BUFF_ID_1, L1_BUFF_ID_0, L1_BUFF_ID_1 +//`define HCODEC_DECODER_BUFFER_INFO 8'h0f // Current Only Used for VC1 Interlace Field +// +//`define HCODEC_FST_FOR_MV_X 8'h10 +//`define HCODEC_FST_FOR_MV_Y 8'h11 +//`define HCODEC_SCD_FOR_MV_X 8'h12 +//`define HCODEC_SCD_FOR_MV_Y 8'h13 +//`define HCODEC_FST_BAK_MV_X 8'h14 +//`define HCODEC_FST_BAK_MV_Y 8'h15 +//`define HCODEC_SCD_BAK_MV_X 8'h16 +//`define HCODEC_SCD_BAK_MV_Y 8'h17 +// +//// Bit 7:4 -- read_buffer_interlace 0-progressive, 1-interlace, used in VC1 +//// bit 3 -- reserved +//// bit 2 -- weighting_prediction +//// bit 1 -- mb_weighting_flag +//// bit 0 -- slice_weighting_flag +//`define HCODEC_VLD_DECODE_CONTROL 8'h18 +//`define HCODEC_VLD_REVERVED_19 8'h19 +// +//`define HCODEC_VIFF_BIT_CNT 8'h1a +//`define HCODEC_BYTE_ALIGN_PEAK_HI 8'h1b +//`define HCODEC_BYTE_ALIGN_PEAK_LO 8'h1c +//`define HCODEC_NEXT_ALIGN_PEAK 8'h1d // Does this exist in HW ? used in $ucode/mpeg4 +// +//// bit 19 : vc1_inv_intra_co_mb_ref_rd +//// bit 18 : vc1_inv_co_mb_ref_rd +//// bit 17 : vc1_inv_intra_co_mb_ref_wr +//// bit 16 : vc1_inv_co_mb_ref_wr +//// bit 15 : reserved +//// bit 14 : avs_drop_enable +//// bit 13:12 : avs_drop_ptr +//// bit 11:8 : avs_demu_ctl_reg +//// bit 7 : avs_enable +//// bit 6 : disable_dblk_hcmd +//// bit 5 : disable_mc_hcmd +//// bit 4 : first_mode3_set enable +//// bit 3 : first_mode3 +//// bit 2:1 : vc1_profile 0-SP, 1-MP, 2-reserved, 3-AP +//// bit 0 : vc1_enable +//`define HCODEC_VC1_CONTROL_REG 8'h1e +// +//`define HCODEC_PMV1_X 8'h20 +//`define HCODEC_PMV1_Y 8'h21 +//`define HCODEC_PMV2_X 8'h22 +//`define HCODEC_PMV2_Y 8'h23 +//`define HCODEC_PMV3_X 8'h24 +//`define HCODEC_PMV3_Y 8'h25 +//`define HCODEC_PMV4_X 8'h26 +//`define HCODEC_PMV4_Y 8'h27 +//// Can't use the same address for different defines +//// Therefore, create a single define HCODEC_that covers both +//// Only appears to be used in micro-code since the VLD hardware is +//// hard coded. +//// `define HCODEC_M4_TABLE_SELECT 8'h28 // Does this exist in HW ? Added from register_mp2.h +//// `define HCODEC_M4_TABLE_OUTPUT 8'h28 // Does this exist in HW ? Added from register_mp2.h +//`define HCODEC_M4_TABLE_SELECT 8'h28 +//`define HCODEC_M4_CONTROL_REG 8'h29 +//`define HCODEC_BLOCK_NUM 8'h2a // Does this exist in HW ? Added from register_mp2.h +//`define HCODEC_PATTERN_CODE 8'h2b // Does this exist in HW ? Added from register_mp2.h +//`define HCODEC_MB_INFO 8'h2c // Does this exist in HW ? Added from register_mp2.h +//`define HCODEC_VLD_DC_PRED 8'h2d // Does this exist in HW ? Added from register_mp4.h +//`define HCODEC_VLD_ERROR_MASK 8'h2e +//`define HCODEC_VLD_DC_PRED_C 8'h2f // Does this exist in HW ? Added from register_mp4.h +// +//`define HCODEC_LAST_SLICE_MV_ADDR 8'h30 +//`define HCODEC_LAST_MVX 8'h31 +//`define HCODEC_LAST_MVY 8'h32 +// +//`define HCODEC_VLD_C38 8'h38 +//`define HCODEC_VLD_C39 8'h39 +// +//`define HCODEC_VLD_STATUS 8'h3a // Does this exist in HW ? used in $ucode/real/amrisc/rv.s +//`define HCODEC_VLD_SHIFT_STATUS 8'h3b // Does this exist in HW ? used in $ucode/real/amrisc/rv.s +//// `define HCODEC_VLD_SHIFT_INFO 8'h3b // Does this exist in HW ? used in $ucode/mpeg4 +//`define HCODEC_VOFF_STATUS 8'h3c // Does this exist in HW ? used in $ucode/mpeg4 +// +//`define HCODEC_VLD_C3D 8'h3d +// +//`define HCODEC_VLD_DBG_INDEX 8'h3e +// +// +//// vld_buff_info -- (index == 0) +//// Bit[7:6] mv_UR_ready_cnt; +//// Bit[5] vld_wr_idx +//// Bit[4] iq_rd_idx +//// Bit[3] vld_vi_block_rdy_1 +//// Bit[2] vld_vi_block_rdy_2 +//// Bit[1] voff_empty_1 +//// Bit[0] voff_empty_2 +// +//// cabac_buff_info_0 -- (index == 1) +//// Bit[31] shift_data_ready +//// Bit[30:29] Reserved +//// Bit[28:24] cabac_buffer_ptr +//// Bit[23:0] cabac_buffer +// +//// cabac_buff_info_1 -- (index == 2) +//// Bit[31:29] Reserved +//// Bit[28:20] Drange +//// Bit[19:16] bin_count_4 +//// Bit[15:13] Reserved +//// Bit[12:6] context_mem_do +//// Bit[5:3] coeff_state +//// Bit[2:0] mvd_state +// +//// h264_mv_present -- (index == 3) +//// Bit[31:16] mv_present_l0 +//// Bit[15:0] mv_present_l1 +// +//// h264_mv_cal_info_0 -- (index == 4) +//// [31:28] mv_cal_state +//// [27:24] direct_spatial_cnt +//// Bit[23:21] Reserved +//// Bit[20] mv_UR_ready_for_mv_cal +//// Bit[19] co_mb_mem_ready_for_mv_cal +//// Bit[18] mc_dblk_cmd_if_busy +//// Bit[17] h264_co_mb_wr_busy +//// Bit[16] H264_cbp_blk_ready +//// Bit[15] mc_hcmd_rrdy +//// Bit[14] mc_hcmd_srdy +//// Bit[13] mc_cmd_if_ready +//// Bit[12] mc_hcmd_mv_available +//// Bit[11:8] mc_cmd_if_state +//// Bit[7] dblk_hcmd_rrdy +//// Bit[6] dblk_hcmd_srdy +//// Bit[5] dblk_cmd_if_ready +//// Bit[4] dblk_hcmd_mv_available +//// Bit[3:0] dblk_cmd_if_state +// +//// h264_mv_cal_info_1 -- (index == 5) +//// Bit[31:29] Reserved +//// Bit[28:24] total_mvd_num_l0 +//// Bit[23:21] Reserved +//// Bit[20:16] mv_cal_ptr_l0 +//// Bit[15:13] Reserved +//// Bit[12:8] mc_hcmd_ptr_l0 +//// Bit[7:5] Reserved +//// Bit[4:0] dblk_hcmd_ptr_l0 +// +//// h264_mv_cal_info_2 -- (index == 6) +//// Bit[31:29] Reserved +//// Bit[28:24] total_mvd_num_l1 +//// Bit[23:21] Reserved +//// Bit[20:16] mv_cal_ptr_l1 +//// Bit[15:13] Reserved +//// Bit[12:8] mc_hcmd_ptr_l1 +//// Bit[7:5] Reserved +//// Bit[4:0] dblk_hcmd_ptr_l1 +// +//// h264_co_mb_info -- (index == 7) +//// Bit[31:26] Reserved +//// Bit[25] mv_scale_cal_busy +//// Bit[24:20] co_mv_count +//// Bit[19:16] co_mv_process_state +//// Bit[15] h264_co_mb_rd_busy +//// Bit[15] h264_co_mb_rd_ready +//// Bit[13:12] co_mv_transfer_block_cnt +//// Bit[11:8] co_mv_transfer_ptr +//// Bit[7] co_mv_POC_l1_busy +//// Bit[6] h264_weight_scale_cal_en +//// Bit[5] weight_cal_busy +//// Bit[4] weight_cal_not_finished +//// Bit[3:0] weight_process_state +// +//`define HCODEC_VLD_DBG_DATA 8'h3f +//// -------------------------------------------- +//// VIFIFO DDR Interface +//// -------------------------------------------- +//// The VIFIFO start pointer into DDR memory is a 32-bit number +//// The Start pointer will automatically be truncated to land on +//// an 8-byte boundary. That is, bits [2:0] = 0; +//`define HCODEC_VLD_MEM_VIFIFO_START_PTR 8'h40 +//// The current pointer points so some location between the START and END +//// pointers. The current pointer is a BYTE pointer. That is, you can +//// point to any BYTE address within the START/END range +//`define HCODEC_VLD_MEM_VIFIFO_CURR_PTR 8'h41 +//`define HCODEC_VLD_MEM_VIFIFO_END_PTR 8'h42 +//`define HCODEC_VLD_MEM_VIFIFO_BYTES_AVAIL 8'h43 +//// VIFIFO FIFO Control +//// bit [31:24] viff_empty_int_enable_cpu[7:0] +//// bit [23:16] viff_empty_int_enable_amrisc[7:0] +//// -bit 23 Video BUFFER < 0x400 Bytes +//// -bit 22 Video BUFFER < 0x200 Bytes +//// -bit 21 Video BUFFER < 0x100 Bytes +//// -bit 20 Video BUFFER < 0x80 Bytes +//// -bit 19 Video BUFFER < 0x40 Bytes +//// -bit 18 Video BUFFER < 0x20 Bytes +//// -bit 17 vififo < 16 double words +//// -bit 16 vififo < 8 double words +//// bit [15:13] unused +//// bit [12] A_urgent +//// bit [11] transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request +//// bit [10] use_level Set this bit to 1 to enable filling of the FIFO controlled by the buffer +//// level control. If this bit is 0, then use bit[1] to control the enabling of filling +//// bit [9] Data Ready. This bit is set when data can be popped +//// bit [8] fill busy This bit will be high when we're fetching data from the DDR memory +//// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +//// After that you can pulse cntl_init to start over +//// bit [7] init_with_cntl_init +//// bit [6] reserved +//// bits [5:3] endian: see $lib/rtl/ddr_endian.v +//// bit [2] cntl_empty_en Set to 1 to enable reading the DDR memory FIFO +//// Set cntl_empty_en = cntl_fill_en = 0 when pulsing cntl_init +//// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +//// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +//// and read masks, set this bit to 1 and then to 0 +//// NOTE: You don't need to pulse cntl_init if only the start address is +//// being changed +//`define HCODEC_VLD_MEM_VIFIFO_CONTROL 8'h44 +//// -------------------------------------------- +//// VIFIFO Buffer Level Manager +//// -------------------------------------------- +//`define HCODEC_VLD_MEM_VIFIFO_WP 8'h45 // Manual or Parser write pointer +//`define HCODEC_VLD_MEM_VIFIFO_RP 8'h46 +//`define HCODEC_VLD_MEM_VIFIFO_LEVEL 8'h47 // must be low first to shadow low/high 16-bit words +//// +//// bit [8] use_parser_video2_wp +//// bit [7] vbuf2_out_manual +//// bit [6] vbuf_out_manual +//// bit [5] empty (ReadOnly) +//// bit [4] full (ReadOnly) +//// bit [3:2] reserved +//// bit [1] manual mode Set to 1 for manual write pointer mode +//// bit [0] Init Set high then low after everything has been initialized +//`define HCODEC_VLD_MEM_VIFIFO_BUF_CNTL 8'h48 +// +//// bit 31:16 -- drop_bytes +//// bit 15:14 -- drop_status (Read-Only) +//// bit 13:12 -- sync_match_position (Read-Only) +//// bit 11:6 -- reserved +//// bit 5:4 -- TIME_STAMP_NUMBER, 0-32bits, 1-64bits, 2-96bits, 3-128bits +//// bit 3 -- stamp_soft_reset +//// bit 2 -- TIME_STAMP_length_enable +//// bit 1 -- TIME_STAMP_sync64_enable +//// bit 0 -- TIME_STAMP_enable +//`define HCODEC_VLD_TIME_STAMP_CNTL 8'h49 +//// bit 31:0 -- TIME_STAMP_SYNC_CODE_0 +//`define HCODEC_VLD_TIME_STAMP_SYNC_0 8'h4a +//// bit 31:0 -- TIME_STAMP_SYNC_CODE_1 +//`define HCODEC_VLD_TIME_STAMP_SYNC_1 8'h4b +//// bit 31:0 TIME_STAMP_0 +//`define HCODEC_VLD_TIME_STAMP_0 8'h4c +//// bit 31:0 TIME_STAMP_1 +//`define HCODEC_VLD_TIME_STAMP_1 8'h4d +//// bit 31:0 TIME_STAMP_2 +//`define HCODEC_VLD_TIME_STAMP_2 8'h4e +//// bit 31:0 TIME_STAMP_3 +//`define HCODEC_VLD_TIME_STAMP_3 8'h4f +//// bit 31:0 TIME_STAMP_LENGTH +//`define HCODEC_VLD_TIME_STAMP_LENGTH 8'h50 +// +//// bit 15:0 vififo_rd_count +//`define HCODEC_VLD_MEM_VIFIFO_WRAP_COUNT 8'h51 +// +//// bit 29:24 A_brst_num +//// bit 21:16 A_id +//// bit 15:0 level_hold +//`define HCODEC_VLD_MEM_VIFIFO_MEM_CTL 8'h52 +// +//`define HCODEC_VLD_MEM_VBUF_RD_PTR 8'h53 // manual read address for VBUF1 +//`define HCODEC_VLD_MEM_VBUF2_RD_PTR 8'h54 // manual read address for VBUF2 +// +//`define HCODEC_VLD_MEM_SWAP_ADDR 8'h55 +//// bit[23:16] - swap_d_count (Read Only) +//// bit[15:8] - swap_a_count (Read Only) +//// bit [7] - swap busy (Read Only) +//// bit [6:2] - reserved +//// bit [1] - 1 - STORE to Memory, 0 - LOAD from Memory +//// bit [0] - swap active +//`define HCODEC_VLD_MEM_SWAP_CTL 8'h56 +// +// Closing file: hcodec_vld_regs.h +// +//------------------------------------------------------------------------------ +// HCODEC IQIDCT module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hcodec_iqidct_regs.h +// +//======================================================================== +// IQ/IDCT module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_IQIDCT_CBUS_BASE = 0x0e +// ----------------------------------------------- +// +//`define HCODEC_VCOP_CTRL_REG 8'h00 +//`define HCODEC_QP_CTRL_REG 8'h01 +//`define HCODEC_INTRA_QUANT_MATRIX 8'h02 +//`define HCODEC_NON_I_QUANT_MATRIX 8'h03 +//`define HCODEC_DC_SCALER 8'h04 +//`define HCODEC_DC_AC_CTRL 8'h05 +//// `define HCODEC_RV_AI_CTRL 8'h05 // ONLY for $ucode/real/amrisc/rv.s reg value from apollo +//`define HCODEC_DC_AC_SCALE_MUL 8'h06 +//`define HCODEC_DC_AC_SCALE_DIV 8'h07 +//// `define HCODEC_DC_AC_SCALE_RESULT 8'h06 +//// `define HCODEC_RESERVED_E07 8'h07 +//`define HCODEC_POWER_CTL_IQIDCT 8'h08 +//`define HCODEC_RV_AI_Y_X 8'h09 +//`define HCODEC_RV_AI_U_X 8'h0a +//`define HCODEC_RV_AI_V_X 8'h0b +//// bit 15:0 will count up when rv_ai_mb finished when non zero +//// and rv_ai_mb_finished_int will be generate when this is not zero +//`define HCODEC_RV_AI_MB_COUNT 8'h0c +//// For H264 I in PB picture Use -- dma type : h264_next_intra_dma +//`define HCODEC_NEXT_INTRA_DMA_ADDRESS 8'h0d +//// Bit 0 -- constrained_intra_pred_flag for H264 +//`define HCODEC_IQIDCT_CONTROL 8'h0e +// +// +//// Bit[31:19] Reserved +//// Bit[18] iq_waiting +//// Bit[17] iq_om_wr_idx +//// Bit[16] iq_om_rd_idx +//// Bit[15] iq_om_busy +//// Bit[14] iq_om_2_busy +//// Bit[13] idx_fifo_0 +//// Bit[12] idx_fifo_1 +//// Bit[11] idx_fifo_2 +//// Bit[10] idx_fifo_3 +//// Bit[9] idx_fifo_4 +//// Bit[8] idx_fifo_5 +//// Bit[7] idx_fifo_6 +//// Bit[6] idx_fifo_7 +//// Bit[5:3] idx_fifo_wp +//// Bit[2:0] idx_fifo_rp +// +//`define HCODEC_IQIDCT_DEBUG_INFO_0 8'h0f +// +//// For RTL Simulation Only +//`define HCODEC_DEBLK_CMD 8'h10 +// +//// Bit[15+16] ds_mc_valid_2 +//// Bit[14+16] new_idct1_rd_idx_2 +//// Bit[13+16] new_idct1_wr_idx_2 +//// Bit[12+16] idct1_buff0_busy_2 +//// Bit[11+16] idct1_buff1_busy_2 +//// Bit[10+16] new_idct1_busy_2 +//// Bit[9+16] iq_om_8val_2 +//// Bit[8+16] idct1_pipe_busy_2 +// +//// Bit[7+16] wait_mb_left_finish_hold_2 +//// Bit[6+16] new_idct2_rd_idx_2 +//// Bit[5+16] new_idct2_wr_idx_2 +//// Bit[4+16] idct2_buff0_busy_2 +//// Bit[3+16] idct2_buff1_busy_2 +//// Bit[2+16] idct2_en_2 +//// Bit[1+16] new_idct2_busy_2 +//// Bit[0+16] new_idct1_ready_2 +// +//// Bit[15] ds_mc_valid_1 +//// Bit[14] new_idct1_rd_idx_1 +//// Bit[13] new_idct1_wr_idx_1 +//// Bit[12] idct1_buff0_busy_1 +//// Bit[11] idct1_buff1_busy_1 +//// Bit[10] new_idct1_busy_1 +//// Bit[9] iq_om_8val_1 +//// Bit[8] idct1_pipe_busy_1 +// +//// Bit[7] wait_mb_left_finish_hold_1 +//// Bit[6] new_idct2_rd_idx_1 +//// Bit[5] new_idct2_wr_idx_1 +//// Bit[4] idct2_buff0_busy_1 +//// Bit[3] idct2_buff1_busy_1 +//// Bit[2] idct2_en_1 +//// Bit[1] new_idct2_busy_1 +//// Bit[0] new_idct1_ready_1 +// +//`define HCODEC_IQIDCT_DEBUG_IDCT 8'h11 +// +// +// +//// bit 31 -- convas_enable +//// bit 30:24 -- convas_x_count ( 8 pixels / 64 bits ) +//// bit 23:16 -- convas_y_count +//// bit 15 -- dcac_dma_busy +//// bit 14 -- dcac_dma_urgent +//// bit 13:8 -- dcac_dma_count +//// bit 7 -- dcac_dma_rw +//// bit 6 -- dcac_skip_read_mode +//// bit 5:0 -- dcac_dma_offset +//`define HCODEC_DCAC_DMA_CTRL 8'h12 +//// when (convas_enable == 0 ) +//// bit 31:0 dcac_dma_addr +//// when (convas_enable == 1 ) +//// bit 31:25 canvas_addr (7 bits) +//// bit 24:12 convas_y_start ( 13 btis ) +//// bit 11:0 convas_x_start ( 12 btis ) +//`define HCODEC_DCAC_DMA_ADDRESS 8'h13 +//// bit 7:0 -- dcac_cpu_addr +//`define HCODEC_DCAC_CPU_ADDRESS 8'h14 +//// bit 31:0 -- dcac_cpu_data +//`define HCODEC_DCAC_CPU_DATA 8'h15 +// +//// bit 31:19 -- reserved +//// bit 18:16 -- block_num_reg -- Read-Only +//// bit 15:0 -- dcac_mb_count +//`define HCODEC_DCAC_MB_COUNT 8'h16 +// +//// bit 31:18 -- reserved +//// For H264 : +//// bit 17:2 -- h264_quant +//// bit 11:6 -- h264_quant_c +//// bit 5:0 -- h264_quant_c +//// For VC1 : +//// bit 17 -- qindex_GT_8 +//// bit 16 -- HalfQPStep +//// bit 15:12 -- eQuantMode +//// bit 11:6 -- AltPQuant +//// bit 5:0 -- PQuant +//// +//`define HCODEC_IQ_QUANT 8'h17 +// +//// bit 31:24 -- bitplane_width +//// bit 23:16 -- bitplane_height +//// bit 15:14 -- bitplane_start_x +//// bit 13:12 -- bitplane_start_y +//// bit 11:4 -- reserved +//// bit 3:1 -- bitplane_type +//// bit 0 -- bitplane_busy +//`define HCODEC_VC1_BITPLANE_CTL 8'h18 +// +// +// +// `define HCODEC_RAM_TEST_CMD 12'h002 +// `define HCODEC_RAM_TEST_ADDR 12'h003 +// `define HCODEC_RAM_TEST_DATAH 12'h004 +// `define HCODEC_RAM_TEST_DATAL 12'h005 +// +// `define HCODEC_RAM_TEST_RD_CMD 16'h0000 +// `define HCODEC_RAM_TEST_WR_CMD 16'h8000 +// `define HCODEC_IDCT_TM2_PT0 16'h0001 +// `define HCODEC_IDCT_TM2_PT1 16'h0002 +// `define HCODEC_IDCT_TM1_PT0 16'h0004 +// `define HCODEC_IDCT_TM1_PT1 16'h0008 +// `define HCODEC_IQ_OMEM_PT0 16'h0010 +// `define HCODEC_IQ_OMEM_PT1 16'h0020 +// `define HCODEC_MC_IMEM_PT0 16'h0040 +// `define HCODEC_ALL_RAM_PTS 16'h007f +// +////====================================== +//// VCOP Control Register Bits +//// +////====================================== +// //`define HCODEC_IQIDCT_RESET 16'h0001 // Bit 0 +// `define HCODEC_QM_WEN 16'h0002 // Bit 1 +// `define HCODEC_IQIDCT_ENABLE 16'h0004 // Bit 2 +// `define HCODEC_INTRA_QM 16'h0008 // Bit 3 0 = Use default; 1 = use loaded +// `define HCODEC_NINTRA_QM 16'h0010 // Bit 4 0 = Use default; 1 = use loaded +// +////====================================== +//// QP Control Register Bits +//// +////====================================== +// `define HCODEC_INTRA_MODE 16'h0080 // Bit 7 +//// Duplicate Address: When actually used +//// please move to a different address +//// `define HCODEC_FLD_DCT_TYPE 16'h0100 // Bit 8 0 = Frame DCT; 1 = field DCT +// +// +// Closing file: hcodec_iqidct_regs.h +// +//------------------------------------------------------------------------------ +// HCODEC IQIDCT module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hcodec_vcpu_regs.h +// +//======================================================================== +// VCPU module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_VCPU_CBUS_BASE = 0x03 +// ----------------------------------------------- +//`define HCODEC_MSP 8'h00 +//`define HCODEC_MPSR 8'h01 +//`define HCODEC_MINT_VEC_BASE 8'h02 +//`define HCODEC_MCPU_INTR_GRP 8'h03 +//`define HCODEC_MCPU_INTR_MSK 8'h04 +//`define HCODEC_MCPU_INTR_REQ 8'h05 +//`define HCODEC_MPC_P 8'h06 +//`define HCODEC_MPC_D 8'h07 +//`define HCODEC_MPC_E 8'h08 +//`define HCODEC_MPC_W 8'h09 +//`define HCODEC_MINDEX0_REG 8'h0a +//`define HCODEC_MINDEX1_REG 8'h0b +//`define HCODEC_MINDEX2_REG 8'h0c +//`define HCODEC_MINDEX3_REG 8'h0d +//`define HCODEC_MINDEX4_REG 8'h0e +//`define HCODEC_MINDEX5_REG 8'h0f +//`define HCODEC_MINDEX6_REG 8'h10 +//`define HCODEC_MINDEX7_REG 8'h11 +//`define HCODEC_MMIN_REG 8'h12 +//`define HCODEC_MMAX_REG 8'h13 +//`define HCODEC_MBREAK0_REG 8'h14 +//`define HCODEC_MBREAK1_REG 8'h15 +//`define HCODEC_MBREAK2_REG 8'h16 +//`define HCODEC_MBREAK3_REG 8'h17 +//`define HCODEC_MBREAK_TYPE 8'h18 +//`define HCODEC_MBREAK_CTRL 8'h19 +//`define HCODEC_MBREAK_STAUTS 8'h1a +//`define HCODEC_MDB_ADDR_REG 8'h1b +//`define HCODEC_MDB_DATA_REG 8'h1c +//`define HCODEC_MDB_CTRL 8'h1d +//`define HCODEC_MSFTINT0 8'h1e +//`define HCODEC_MSFTINT1 8'h1f +// +//`define HCODEC_CSP 8'h20 +//`define HCODEC_CPSR 8'h21 +//`define HCODEC_CINT_VEC_BASE 8'h22 +//`define HCODEC_CCPU_INTR_GRP 8'h23 +//`define HCODEC_CCPU_INTR_MSK 8'h24 +//`define HCODEC_CCPU_INTR_REQ 8'h25 +//`define HCODEC_CPC_P 8'h26 +//`define HCODEC_CPC_D 8'h27 +//`define HCODEC_CPC_E 8'h28 +//`define HCODEC_CPC_W 8'h29 +//`define HCODEC_CINDEX0_REG 8'h2a +//`define HCODEC_CINDEX1_REG 8'h2b +//`define HCODEC_CINDEX2_REG 8'h2c +//`define HCODEC_CINDEX3_REG 8'h2d +//`define HCODEC_CINDEX4_REG 8'h2e +//`define HCODEC_CINDEX5_REG 8'h2f +//`define HCODEC_CINDEX6_REG 8'h30 +//`define HCODEC_CINDEX7_REG 8'h31 +//`define HCODEC_CMIN_REG 8'h32 +//`define HCODEC_CMAX_REG 8'h33 +//`define HCODEC_CBREAK0_REG 8'h34 +//`define HCODEC_CBREAK1_REG 8'h35 +//`define HCODEC_CBREAK2_REG 8'h36 +//`define HCODEC_CBREAK3_REG 8'h37 +//`define HCODEC_CBREAK_TYPE 8'h38 +//`define HCODEC_CBREAK_CTRL 8'h39 +//`define HCODEC_CBREAK_STAUTS 8'h3a +//`define HCODEC_CDB_ADDR_REG 8'h3b +//`define HCODEC_CDB_DATA_REG 8'h3c +//`define HCODEC_CDB_CTRL 8'h3d +//`define HCODEC_CSFTINT0 8'h3e +//`define HCODEC_CSFTINT1 8'h3f +// +//`define HCODEC_IMEM_DMA_CTRL 8'h40 +//`define HCODEC_IMEM_DMA_ADR 8'h41 +//`define HCODEC_IMEM_DMA_COUNT 8'h42 +//// bit[29:24] A_brst_num_imem +//// bit[21:16] A_id_imem +//// bit[11:0] wrrsp_count_imem (reserved) +//`define HCODEC_WRRSP_IMEM 8'h43 +// +//`define HCODEC_LMEM_DMA_CTRL 8'h50 +//`define HCODEC_LMEM_DMA_ADR 8'h51 +//`define HCODEC_LMEM_DMA_COUNT 8'h52 +//// bit[29:24] A_brst_num_lmem +//// bit[21:16] A_id_lmem +//// bit[11:0] wrrsp_count_lmem +//`define HCODEC_WRRSP_LMEM 8'h53 +// +//`define HCODEC_MAC_CTRL1 8'h60 +//`define HCODEC_ACC0REG1 8'h61 +//`define HCODEC_ACC1REG1 8'h62 +// +//`define HCODEC_MAC_CTRL2 8'h70 +//`define HCODEC_ACC0REG2 8'h71 +//`define HCODEC_ACC1REG2 8'h72 +//`define HCODEC_CPU_TRACE 8'h80 +// +// +// Closing file: hcodec_vcpu_regs.h +// +//------------------------------------------------------------------------------ +// HEVC_ASSIST module level register offset +//------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: DOS_HEVC_ASSIST_CBUS_BASE = 0x00 +// ----------------------------------------------- +#define HEVC_ASSIST_AFIFO_CTRL (0x3001) +#define P_HEVC_ASSIST_AFIFO_CTRL (volatile unsigned int *)((0x3001 << 2) + 0xff620000) +#define HEVC_ASSIST_AFIFO_CTRL1 (0x3002) +#define P_HEVC_ASSIST_AFIFO_CTRL1 (volatile unsigned int *)((0x3002 << 2) + 0xff620000) +#define HEVC_ASSIST_GCLK_EN (0x3003) +#define P_HEVC_ASSIST_GCLK_EN (volatile unsigned int *)((0x3003 << 2) + 0xff620000) +#define HEVC_ASSIST_SW_RESET (0x3004) +#define P_HEVC_ASSIST_SW_RESET (volatile unsigned int *)((0x3004 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT0 (0x3025) +#define P_HEVC_ASSIST_AMR1_INT0 (volatile unsigned int *)((0x3025 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT1 (0x3026) +#define P_HEVC_ASSIST_AMR1_INT1 (volatile unsigned int *)((0x3026 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT2 (0x3027) +#define P_HEVC_ASSIST_AMR1_INT2 (volatile unsigned int *)((0x3027 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT3 (0x3028) +#define P_HEVC_ASSIST_AMR1_INT3 (volatile unsigned int *)((0x3028 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT4 (0x3029) +#define P_HEVC_ASSIST_AMR1_INT4 (volatile unsigned int *)((0x3029 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT5 (0x302a) +#define P_HEVC_ASSIST_AMR1_INT5 (volatile unsigned int *)((0x302a << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT6 (0x302b) +#define P_HEVC_ASSIST_AMR1_INT6 (volatile unsigned int *)((0x302b << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT7 (0x302c) +#define P_HEVC_ASSIST_AMR1_INT7 (volatile unsigned int *)((0x302c << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT8 (0x302d) +#define P_HEVC_ASSIST_AMR1_INT8 (volatile unsigned int *)((0x302d << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INT9 (0x302e) +#define P_HEVC_ASSIST_AMR1_INT9 (volatile unsigned int *)((0x302e << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INTA (0x302f) +#define P_HEVC_ASSIST_AMR1_INTA (volatile unsigned int *)((0x302f << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INTB (0x3030) +#define P_HEVC_ASSIST_AMR1_INTB (volatile unsigned int *)((0x3030 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INTC (0x3031) +#define P_HEVC_ASSIST_AMR1_INTC (volatile unsigned int *)((0x3031 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INTD (0x3032) +#define P_HEVC_ASSIST_AMR1_INTD (volatile unsigned int *)((0x3032 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INTE (0x3033) +#define P_HEVC_ASSIST_AMR1_INTE (volatile unsigned int *)((0x3033 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR1_INTF (0x3034) +#define P_HEVC_ASSIST_AMR1_INTF (volatile unsigned int *)((0x3034 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT0 (0x3035) +#define P_HEVC_ASSIST_AMR2_INT0 (volatile unsigned int *)((0x3035 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT1 (0x3036) +#define P_HEVC_ASSIST_AMR2_INT1 (volatile unsigned int *)((0x3036 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT2 (0x3037) +#define P_HEVC_ASSIST_AMR2_INT2 (volatile unsigned int *)((0x3037 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT3 (0x3038) +#define P_HEVC_ASSIST_AMR2_INT3 (volatile unsigned int *)((0x3038 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT4 (0x3039) +#define P_HEVC_ASSIST_AMR2_INT4 (volatile unsigned int *)((0x3039 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT5 (0x303a) +#define P_HEVC_ASSIST_AMR2_INT5 (volatile unsigned int *)((0x303a << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT6 (0x303b) +#define P_HEVC_ASSIST_AMR2_INT6 (volatile unsigned int *)((0x303b << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT7 (0x303c) +#define P_HEVC_ASSIST_AMR2_INT7 (volatile unsigned int *)((0x303c << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT8 (0x303d) +#define P_HEVC_ASSIST_AMR2_INT8 (volatile unsigned int *)((0x303d << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INT9 (0x303e) +#define P_HEVC_ASSIST_AMR2_INT9 (volatile unsigned int *)((0x303e << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INTA (0x303f) +#define P_HEVC_ASSIST_AMR2_INTA (volatile unsigned int *)((0x303f << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INTB (0x3040) +#define P_HEVC_ASSIST_AMR2_INTB (volatile unsigned int *)((0x3040 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INTC (0x3041) +#define P_HEVC_ASSIST_AMR2_INTC (volatile unsigned int *)((0x3041 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INTD (0x3042) +#define P_HEVC_ASSIST_AMR2_INTD (volatile unsigned int *)((0x3042 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INTE (0x3043) +#define P_HEVC_ASSIST_AMR2_INTE (volatile unsigned int *)((0x3043 << 2) + 0xff620000) +#define HEVC_ASSIST_AMR2_INTF (0x3044) +#define P_HEVC_ASSIST_AMR2_INTF (volatile unsigned int *)((0x3044 << 2) + 0xff620000) +#define HEVC_ASSIST_MBX_SSEL (0x3045) +#define P_HEVC_ASSIST_MBX_SSEL (volatile unsigned int *)((0x3045 << 2) + 0xff620000) +#define HEVC_ASSIST_TIMER0_LO (0x3060) +#define P_HEVC_ASSIST_TIMER0_LO (volatile unsigned int *)((0x3060 << 2) + 0xff620000) +#define HEVC_ASSIST_TIMER0_HI (0x3061) +#define P_HEVC_ASSIST_TIMER0_HI (volatile unsigned int *)((0x3061 << 2) + 0xff620000) +#define HEVC_ASSIST_TIMER1_LO (0x3062) +#define P_HEVC_ASSIST_TIMER1_LO (volatile unsigned int *)((0x3062 << 2) + 0xff620000) +#define HEVC_ASSIST_TIMER1_HI (0x3063) +#define P_HEVC_ASSIST_TIMER1_HI (volatile unsigned int *)((0x3063 << 2) + 0xff620000) +#define HEVC_ASSIST_DMA_INT (0x3064) +#define P_HEVC_ASSIST_DMA_INT (volatile unsigned int *)((0x3064 << 2) + 0xff620000) +#define HEVC_ASSIST_DMA_INT_MSK (0x3065) +#define P_HEVC_ASSIST_DMA_INT_MSK (volatile unsigned int *)((0x3065 << 2) + 0xff620000) +#define HEVC_ASSIST_DMA_INT2 (0x3066) +#define P_HEVC_ASSIST_DMA_INT2 (volatile unsigned int *)((0x3066 << 2) + 0xff620000) +#define HEVC_ASSIST_DMA_INT_MSK2 (0x3067) +#define P_HEVC_ASSIST_DMA_INT_MSK2 (volatile unsigned int *)((0x3067 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX0_IRQ_REG (0x3070) +#define P_HEVC_ASSIST_MBOX0_IRQ_REG (volatile unsigned int *)((0x3070 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX0_CLR_REG (0x3071) +#define P_HEVC_ASSIST_MBOX0_CLR_REG (volatile unsigned int *)((0x3071 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX0_MASK (0x3072) +#define P_HEVC_ASSIST_MBOX0_MASK (volatile unsigned int *)((0x3072 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX0_FIQ_SEL (0x3073) +#define P_HEVC_ASSIST_MBOX0_FIQ_SEL (volatile unsigned int *)((0x3073 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX1_IRQ_REG (0x3074) +#define P_HEVC_ASSIST_MBOX1_IRQ_REG (volatile unsigned int *)((0x3074 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX1_CLR_REG (0x3075) +#define P_HEVC_ASSIST_MBOX1_CLR_REG (volatile unsigned int *)((0x3075 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX1_MASK (0x3076) +#define P_HEVC_ASSIST_MBOX1_MASK (volatile unsigned int *)((0x3076 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX1_FIQ_SEL (0x3077) +#define P_HEVC_ASSIST_MBOX1_FIQ_SEL (volatile unsigned int *)((0x3077 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX2_IRQ_REG (0x3078) +#define P_HEVC_ASSIST_MBOX2_IRQ_REG (volatile unsigned int *)((0x3078 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX2_CLR_REG (0x3079) +#define P_HEVC_ASSIST_MBOX2_CLR_REG (volatile unsigned int *)((0x3079 << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX2_MASK (0x307a) +#define P_HEVC_ASSIST_MBOX2_MASK (volatile unsigned int *)((0x307a << 2) + 0xff620000) +#define HEVC_ASSIST_MBOX2_FIQ_SEL (0x307b) +#define P_HEVC_ASSIST_MBOX2_FIQ_SEL (volatile unsigned int *)((0x307b << 2) + 0xff620000) +// bit[31:24] - read request +// bit[23:16] - write request +// bit[7] - disable_aml_axi_clk_gating +// bit[3:0] - arb_switch_cnt +#define HEVC_ASSIST_AXI_CTRL (0x307c) +#define P_HEVC_ASSIST_AXI_CTRL (volatile unsigned int *)((0x307c << 2) + 0xff620000) +// bit[31:24] - read arb result +// bit[23:16] - write arb result +// bit[15:12] - read_ar_cnt +// bit[11:8] - write_aw_cnt +// bit[7] - arvalid_axi_s0 +// bit[6] - arready_axi_s0 +// bit[5] - awvalid_axi_s0 +// bit[4] - awready_axi_s0 +// bit[3:0] - write_fifo_cnt +#define HEVC_ASSIST_AXI_STATUS (0x307d) +#define P_HEVC_ASSIST_AXI_STATUS (volatile unsigned int *)((0x307d << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_0 (0x30c0) +#define P_HEVC_ASSIST_SCRATCH_0 (volatile unsigned int *)((0x30c0 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_1 (0x30c1) +#define P_HEVC_ASSIST_SCRATCH_1 (volatile unsigned int *)((0x30c1 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_2 (0x30c2) +#define P_HEVC_ASSIST_SCRATCH_2 (volatile unsigned int *)((0x30c2 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_3 (0x30c3) +#define P_HEVC_ASSIST_SCRATCH_3 (volatile unsigned int *)((0x30c3 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_4 (0x30c4) +#define P_HEVC_ASSIST_SCRATCH_4 (volatile unsigned int *)((0x30c4 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_5 (0x30c5) +#define P_HEVC_ASSIST_SCRATCH_5 (volatile unsigned int *)((0x30c5 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_6 (0x30c6) +#define P_HEVC_ASSIST_SCRATCH_6 (volatile unsigned int *)((0x30c6 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_7 (0x30c7) +#define P_HEVC_ASSIST_SCRATCH_7 (volatile unsigned int *)((0x30c7 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_8 (0x30c8) +#define P_HEVC_ASSIST_SCRATCH_8 (volatile unsigned int *)((0x30c8 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_9 (0x30c9) +#define P_HEVC_ASSIST_SCRATCH_9 (volatile unsigned int *)((0x30c9 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_A (0x30ca) +#define P_HEVC_ASSIST_SCRATCH_A (volatile unsigned int *)((0x30ca << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_B (0x30cb) +#define P_HEVC_ASSIST_SCRATCH_B (volatile unsigned int *)((0x30cb << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_C (0x30cc) +#define P_HEVC_ASSIST_SCRATCH_C (volatile unsigned int *)((0x30cc << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_D (0x30cd) +#define P_HEVC_ASSIST_SCRATCH_D (volatile unsigned int *)((0x30cd << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_E (0x30ce) +#define P_HEVC_ASSIST_SCRATCH_E (volatile unsigned int *)((0x30ce << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_F (0x30cf) +#define P_HEVC_ASSIST_SCRATCH_F (volatile unsigned int *)((0x30cf << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_G (0x30d0) +#define P_HEVC_ASSIST_SCRATCH_G (volatile unsigned int *)((0x30d0 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_H (0x30d1) +#define P_HEVC_ASSIST_SCRATCH_H (volatile unsigned int *)((0x30d1 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_I (0x30d2) +#define P_HEVC_ASSIST_SCRATCH_I (volatile unsigned int *)((0x30d2 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_J (0x30d3) +#define P_HEVC_ASSIST_SCRATCH_J (volatile unsigned int *)((0x30d3 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_K (0x30d4) +#define P_HEVC_ASSIST_SCRATCH_K (volatile unsigned int *)((0x30d4 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_L (0x30d5) +#define P_HEVC_ASSIST_SCRATCH_L (volatile unsigned int *)((0x30d5 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_M (0x30d6) +#define P_HEVC_ASSIST_SCRATCH_M (volatile unsigned int *)((0x30d6 << 2) + 0xff620000) +#define HEVC_ASSIST_SCRATCH_N (0x30d7) +#define P_HEVC_ASSIST_SCRATCH_N (volatile unsigned int *)((0x30d7 << 2) + 0xff620000) +//------------------------------------------------------------------------------ +// HEVC_ASSIST module level register offset +// Same as VDEC/HCODEC to avoid confusing software guy +//------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: DOS_HEVC_VCPU_CBUS_BASE = 0x03 +// ----------------------------------------------- +//------------------------------------------------------------------------------ +// HEVC_PARSER module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hevc_parser_regs.h +// +// ----------------------------------------------- +// CBUS_BASE: DOS_HEVC_PARSER_CBUS_BASE = 0x01 +// ----------------------------------------------- +// [31:0] After reset version, can be used for test scratch register +#define HEVC_PARSER_VERSION (0x3100) +#define P_HEVC_PARSER_VERSION (volatile unsigned int *)((0x3100 << 2) + 0xff620000) +// [31:16] - axi_setting +// [15] - disable_stream_clock_gating +// [14] - wstrb_set +// [13] - stream_read_pause +// [6:4] - stream_fetch_endian +// [3] - use_parser_vbuf_wp +// [2] - use_parser_vbuf2_wp +// [1] - stream_fetch_busy - Read Only +// [0] - stream_fetch_enable +#define HEVC_STREAM_CONTROL (0x3101) +#define P_HEVC_STREAM_CONTROL (volatile unsigned int *)((0x3101 << 2) + 0xff620000) +#define HEVC_STREAM_START_ADDR (0x3102) +#define P_HEVC_STREAM_START_ADDR (volatile unsigned int *)((0x3102 << 2) + 0xff620000) +#define HEVC_STREAM_END_ADDR (0x3103) +#define P_HEVC_STREAM_END_ADDR (volatile unsigned int *)((0x3103 << 2) + 0xff620000) +// SW stream_buffer_wr_ptr +#define HEVC_STREAM_WR_PTR (0x3104) +#define P_HEVC_STREAM_WR_PTR (volatile unsigned int *)((0x3104 << 2) + 0xff620000) +#define HEVC_STREAM_RD_PTR (0x3105) +#define P_HEVC_STREAM_RD_PTR (volatile unsigned int *)((0x3105 << 2) + 0xff620000) +//[31:0] stream_buffer_level - read only +#define HEVC_STREAM_LEVEL (0x3106) +#define P_HEVC_STREAM_LEVEL (volatile unsigned int *)((0x3106 << 2) + 0xff620000) +// [31:29] stream_buffer_hole 256*(4^0) bytes +// [28:23] stream_fifo_hole +// [22:16] stream_fifo_level +// [15] stream_fifo_wr_ptr_update_en +// [14:8] stream_fifo_wr_ptr +// [7] stream_fifo_rd_ptr_update_en +// [6:0] stream_fifo_rd_ptr +#define HEVC_STREAM_FIFO_CTL (0x3107) +#define P_HEVC_STREAM_FIFO_CTL (volatile unsigned int *)((0x3107 << 2) + 0xff620000) +// [31:16] - Reserved +// [15] - disable_shift_clock_gating +// [14] - disable_start_code_protect +// [10] - length_zero_startcode_en +// [9] - length_valid_startcode_en +// [8:6] - sft_valid_wr_position (default : 3 (at least 24 bits available)) +// [5:4] - emulate_code_length_sub_1(Default : 2) +// [3] - emulation_auto_on_startcode(Default : 0) +// [2:1] - start_code_length_sub_1(Default : 2) +// [0] - stream_shift_enable(Default : 0) +#define HEVC_SHIFT_CONTROL (0x3108) +#define P_HEVC_SHIFT_CONTROL (volatile unsigned int *)((0x3108 << 2) + 0xff620000) +// [31:0] - max 4-bytes start code (Default : 0x00000100) +#define HEVC_SHIFT_STARTCODE (0x3109) +#define P_HEVC_SHIFT_STARTCODE (volatile unsigned int *)((0x3109 << 2) + 0xff620000) +// [31:0] - max 4-bytes emulate code (Default : 0x00000300) +#define HEVC_SHIFT_EMULATECODE (0x310a) +#define P_HEVC_SHIFT_EMULATECODE (volatile unsigned int *)((0x310a << 2) + 0xff620000) +// [2] - startcode_searching +// [1] - emulation_check_on +// [0] - startcode_check_on +#define HEVC_SHIFT_STATUS (0x310b) +#define P_HEVC_SHIFT_STATUS (volatile unsigned int *)((0x310b << 2) + 0xff620000) +// [31:0] hevc_shifted_data - read only +#define HEVC_SHIFTED_DATA (0x310c) +#define P_HEVC_SHIFTED_DATA (volatile unsigned int *)((0x310c << 2) + 0xff620000) +// [31:0] shift_byte_count[31:0] +#define HEVC_SHIFT_BYTE_COUNT (0x310d) +#define P_HEVC_SHIFT_BYTE_COUNT (volatile unsigned int *)((0x310d << 2) + 0xff620000) +// [31:28] - shift_byte_count[35:32] +// [27:20] - element_read_data[31:24] +// [10] - bytealign +// [9] - signed_element +// [8] - start_element_read +// [7] - shift_busy +// [6:0] - shift_bits +#define HEVC_SHIFT_COMMAND (0x310e) +#define P_HEVC_SHIFT_COMMAND (volatile unsigned int *)((0x310e << 2) + 0xff620000) +// 31:8 - element_read_data[23:0] +// 7:2 - element_read_length +// 1:0 - element_read_state +#define HEVC_ELEMENT_RESULT (0x310f) +#define P_HEVC_ELEMENT_RESULT (volatile unsigned int *)((0x310f << 2) + 0xff620000) +// [31:16] - cabac_buffer +// [15] - cabac_buffer_init +// [14] - cabac_context_init +// [13] - disable_cabac_clock_gating +// [12] - cabac_init_flag +// [11] - Reserved +// [10] - VP9_init_mv +// [9] - VP9_init_ref_mode +// [8] - VP9_init_if_y_mode +// [7] - VP9_init_intra_inter +// [6] - VP9_init_inter_mode +// [5] - VP9_init_coef +// [4] - VP9_init_tx_mode +// [3] - VP9_init_skip +// [2] - VP9_init_partition +// [1] - VP9_key_frame +// [0] - cabac_enable(Default : 0) +#define HEVC_CABAC_CONTROL (0x3110) +#define P_HEVC_CABAC_CONTROL (volatile unsigned int *)((0x3110 << 2) + 0xff620000) +// [31:25] - chromaQPOffset_U +// [24:18] - chromaQPOffset_V +// [17:16] - MaxTrSize 0-4x4, 1-8x8, 2-16x16, 3-32x32 +// [15:14] - MinTrSize 0-4x4, 1-8x8, 2-16x16, 3-32x32 +// HEVC +// [13:12] - MaxCUSize 0-8x8, 1-16x16, 2-32x32, 3-64x64 +// [11:10] - MinCUSize 0-8x8, 1-16x16, 2-32x32, 3-64x64 +// [9] - slice_sao_luma_flag +// [8] - slice_sao_chroma_flag +// VP9 -- When vp9_enable +// [13:11] - MaxCUSize 0-8x8, 1-16x16, 2-32x32, 3-64x64, 7-4x4 +// [10:8] - MinCUSize 0-8x8, 1-16x16, 2-32x32, 3-64x64, 7-4x4 +// [7:2] - slice_quant +// [1:0] - slice_type +// AVS2 +// [13:12] - MaxCUSize 0-8x8, 1-16x16, 2-32x32, 3-64x64 +// [11:10] - MinCUSize 0-8x8, 1-16x16, 2-32x32, 3-64x64 +// [9] - reserved +// [8] - slice_quant[6] +// [7:2] - slice_quant +// [1:0] - slice_type +#define HEVC_PARSER_SLICE_INFO (0x3111) +#define P_HEVC_PARSER_SLICE_INFO (volatile unsigned int *)((0x3111 << 2) + 0xff620000) +// bit[16] - 0:command, 1:address(will auto increase when write command) +// bit[15:0]- command or addr +#define HEVC_PARSER_CMD_WRITE (0x3112) +#define P_HEVC_PARSER_CMD_WRITE (volatile unsigned int *)((0x3112 << 2) + 0xff620000) +// [31:16] - reserved +// [15] - disable_parser_core_clock_gating +// [14:1] - Reserved +// [0] - parser_core_enable(Default : 0) +#define HEVC_PARSER_CORE_CONTROL (0x3113) +#define P_HEVC_PARSER_CORE_CONTROL (volatile unsigned int *)((0x3113 << 2) + 0xff620000) +// [31:16] - pre_parser_cmd +// [15] - start_cmd_fetch/fetch_busy +// [14] - parser_cmd_ready +// [13] - pre_parser_cmd_ready +// [12] - do_not_wait_if_busy +// [11:8] - cmd_fetch_status // Read-only +// [7:0] - cmd_fetch_addr +#define HEVC_PARSER_CMD_FETCH (0x3114) +#define P_HEVC_PARSER_CMD_FETCH (volatile unsigned int *)((0x3114 << 2) + 0xff620000) +// [31:16] - parser_cmd +// [9:5] - parser_function +// [4:0] - cmd_status +#define HEVC_PARSER_CMD_STATUS (0x3115) +#define P_HEVC_PARSER_CMD_STATUS (volatile unsigned int *)((0x3115 << 2) + 0xff620000) +// [31] - end_of_picture +// [30] - uiLeft +// [39] - uiTop +// [28] - uiTopRight +// [27:24] - Reserved +// [23:12] - uiLin +// [11:0] - uiCol +#define HEVC_PARSER_LCU_INFO (0x3116) +#define P_HEVC_PARSER_LCU_INFO (volatile unsigned int *)((0x3116 << 2) + 0xff620000) +// 29:28 - min_cu_size_qp_delta +// 27 - cu_qp_delta_enabled_flag +// 26 - amp_enabled_flag +// 25:23 - max_num_merge_cand +// 22 - mvd_l1_zero_flag +// 21:16 - num_ref_idx_l1_active +// 15:10 - num_ref_idx_l0_active +// 9:7 - max_transform_hierarchy_depth_inter +// 6:4 - max_transform_hierarchy_depth_intra +// 3 - transquant_bypass_enable_flag +// 2 - constrained_intra_pred_flag +// 1 - transform_skip_enabled_flag +// 0 - sign_data_hiding_flag +#define HEVC_PARSER_HEADER_INFO (0x3117) +#define P_HEVC_PARSER_HEADER_INFO (volatile unsigned int *)((0x3117 << 2) + 0xff620000) +#define HEVC_PARSER_RESULT_0 (0x3118) +#define P_HEVC_PARSER_RESULT_0 (volatile unsigned int *)((0x3118 << 2) + 0xff620000) +#define HEVC_PARSER_RESULT_1 (0x3119) +#define P_HEVC_PARSER_RESULT_1 (volatile unsigned int *)((0x3119 << 2) + 0xff620000) +#define HEVC_PARSER_RESULT_2 (0x311a) +#define P_HEVC_PARSER_RESULT_2 (volatile unsigned int *)((0x311a << 2) + 0xff620000) +#define HEVC_PARSER_RESULT_3 (0x311b) +#define P_HEVC_PARSER_RESULT_3 (volatile unsigned int *)((0x311b << 2) + 0xff620000) +// For HEVC +// bit[31:24] - quant[47:40] +// bit[23:16] - quant[39:32] +// For VP9 +// bit[31:24] - intra_flag +// bit[23:16] - SplitFlag_4 +// bit[15:8] - SkipFlag +// bit[7] - SliceEnd|end_of_picture +// bit[6:3] - SplitFlag_8 +// bit[2:1] - SplitFlag_16 +// bit[0] - SplitFlag_32 +#define HEVC_CABAC_TOP_INFO (0x311c) +#define P_HEVC_CABAC_TOP_INFO (volatile unsigned int *)((0x311c << 2) + 0xff620000) +// For HEVC +// bit[31:0] - quant[31:0] +// For VP9 +// bit [31:24] - vp9_top_eob_v +// bit [23:16] - vp9_top_eob_u +// bit [15:0] - vp9_top_eob_y +#define HEVC_CABAC_TOP_INFO_2 (0x311d) +#define P_HEVC_CABAC_TOP_INFO_2 (volatile unsigned int *)((0x311d << 2) + 0xff620000) +// For HEVC +// bit[31:24] - quant[47:40] +// bit[23:16] - quant[39:32] +// For VP9 +// bit[31:24] - Reserved +// bit[23:16] - SplitFlag_4 +// bit[15:8] - SkipFlag +// bit[7] - Reserved +// bit[6:3] - SplitFlag_8 +// bit[2:1] - SplitFlag_16 +// bit[0] - SplitFlag_32 +#define HEVC_CABAC_LEFT_INFO (0x311e) +#define P_HEVC_CABAC_LEFT_INFO (volatile unsigned int *)((0x311e << 2) + 0xff620000) +// For HEVC +// bit[31:0] - quant[31:0] +// For VP9 +// bit [31:24] - vp9_left_eob_v +// bit [23:16] - vp9_left_eob_u +// bit [15:0] - vp9_left_eob_y +#define HEVC_CABAC_LEFT_INFO_2 (0x311f) +#define P_HEVC_CABAC_LEFT_INFO_2 (volatile unsigned int *)((0x311f << 2) + 0xff620000) +// [31:29] - stream_buffer_empty_int_ctl (32bytes - 4k bytes) (default : 4 : 512 bytes interrupt) +// [28:26] - stream_fifo_empty_int_ctl (0 - 128)(default : 0 - 0 byte interrupt) +// [25] - stream_buffer_empty_int_cpu_enable +// [24] - stream_buffer_empty_int_amrisc_enable +// [23] - stream_fifo_empty_int_cpu_enable +// [22] - stream_fifo_empty_int_amrisc_enable +// [15] - disable_parser_clock_gating +// [8] - dec_done_int_cpu_enable +// [7] - dec_done_int_amrisc_enable +// [6] - cmd_done_int_cpu_enable +// [5] - cmd_done_int_amrisc_enable +// [4] - startcode_found_int_cpu_enable +// [3] - startcode_found_int_amrisc_enable +// [2] - parser_int_cpu_level (default : 0(pulse)) +// [1] - parser_int_amrisc_level (default : 0(pulse)) +// [0] - parser_int_enable(Default : 0) +#define HEVC_PARSER_INT_CONTROL (0x3120) +#define P_HEVC_PARSER_INT_CONTROL (volatile unsigned int *)((0x3120 << 2) + 0xff620000) +// [7] - stream_empty_int_cpu +// [6] - stream_empty_int_amrisc +// [2] - dec_done_int +// [1] - cmd_done_int +// [0] - startcode_found_int +#define HEVC_PARSER_INT_STATUS (0x3121) +#define P_HEVC_PARSER_INT_STATUS (volatile unsigned int *)((0x3121 << 2) + 0xff620000) +// [31] - parser_mpred_if_busy -- Read Only +// [8] - sao_sw_pred_enable +// [7] - sao_top_save_even_no_sao +// [6] - disable_parser_sao_if_clock_gating +// [5] - parser_sao_if_en +// [4] - scaler_if_leave_one_more_space +// [3] - disable_parser_mpred_if_clock_gating +// [2] - parser_mpred_if_en +// [1] - disable_parser_scaler_if_clock_gating +// [0] - parser_scaler_if_en +#define HEVC_PARSER_IF_CONTROL (0x3122) +#define P_HEVC_PARSER_IF_CONTROL (volatile unsigned int *)((0x3122 << 2) + 0xff620000) +// [31:16] PicHeightInLumaSamples +// [15:0] PicWidthInLumaSamples +#define HEVC_PARSER_PICTURE_SIZE (0x3123) +#define P_HEVC_PARSER_PICTURE_SIZE (volatile unsigned int *)((0x3123 << 2) + 0xff620000) +// [31] - start_lcu_mpred_cmd +// [30] - lcu_decoding_start +// [29] - do_not_wait_if_busy +// [23:0] - lcu_idx +#define HEVC_PARSER_LCU_START (0x3124) +#define P_HEVC_PARSER_LCU_START (volatile unsigned int *)((0x3124 << 2) + 0xff620000) +// [31:30] - bit_depth_chroma_minus8 +// [29:24] - MAX_QP +// [23:20] - qpBdOffsetC +// [19:16] - qpBdOffsetY +// [15:12] - pcm_sample_bit_depth_chroma +// [11:8] - pcm_sample_bit_depth_luma +// [7:6] - max_pcm_luma_coding_block_size +// [5:4] - min_pcm_luma_coding_block_size +// [3:2] - bit_depth_luma_minus8 +// [1] - enable_negtive_quant +// [0] - pcm_enabled_flag +#define HEVC_PARSER_HEADER_INFO2 (0x3125) +#define P_HEVC_PARSER_HEADER_INFO2 (volatile unsigned int *)((0x3125 << 2) + 0xff620000) +// Read Only +// bit[23] - 1'b1 +// bit[22] - Reserved +// bit[21:16] - quant_V +// bit[15] - 1'b1 +// bit[14] - Reserved +// bit[13:8] - quant_U +// bit[7] - 1'b1 +// bit[6] - Reserved +// bit[5:0] - quant_Y +#define HEVC_PARSER_QUANT_READ (0x3126) +#define P_HEVC_PARSER_QUANT_READ (volatile unsigned int *)((0x3126 << 2) + 0xff620000) +#define HEVC_PARSER_RESERVED_27 (0x3127) +#define P_HEVC_PARSER_RESERVED_27 (volatile unsigned int *)((0x3127 << 2) + 0xff620000) +// bit[15:8] - skip_addr_SaoOffData +// bit[7:0] - skip_addr_SaoMerge +#define HEVC_PARSER_CMD_SKIP_0 (0x3128) +#define P_HEVC_PARSER_CMD_SKIP_0 (volatile unsigned int *)((0x3128 << 2) + 0xff620000) +// bit[31:24] - skip_point_coding_unit_slice_type_RET +// bit[23:16] - skip_point_coding_unit_slice_type_B +// bit[15:8] - skip_point_coding_unit_slice_type_P +// bit[7:0] - skip_point_coding_unit_slice_type_I +#define HEVC_PARSER_CMD_SKIP_1 (0x3129) +#define P_HEVC_PARSER_CMD_SKIP_1 (volatile unsigned int *)((0x3129 << 2) + 0xff620000) +// bit[31:24] - reserved +// bit[23:16] - skip_point_coding_unit_pred_mode_RET +// bit[15:8] - skip_point_coding_unit_pred_mode_INTER +// bit[7:0] - skip_point_coding_unit_pred_mode_INTRA +#define HEVC_PARSER_CMD_SKIP_2 (0x312a) +#define P_HEVC_PARSER_CMD_SKIP_2 (volatile unsigned int *)((0x312a << 2) + 0xff620000) +// Write : +// [24:16] context_addr for dec_Bin +// [15:0] parser_cmd +// Read result: +// cabac_context_decodeBin, // 31 +// cabac_context_decodeBinEP, // 30 +// cabac_context_decodeBinTrm, // 29 +// cabac_context_decodeBinBit, // 28 +// parser_command, // 27:22 +// cabac_context_ready, // 21 +// cmd_status, // 20:16 +// cabac_manual_data // 15:0 +// +#define HEVC_PARSER_MANUAL_CMD (0x312b) +#define P_HEVC_PARSER_MANUAL_CMD (volatile unsigned int *)((0x312b << 2) + 0xff620000) +// bit [9:0] - Read adress : +// address 0-255 stream_fifo (128x64) +// address 256-319 context_mem (256x7) +// address 320-448 parser_cmd_mem (256x16) +#define HEVC_PARSER_MEM_RD_ADDR (0x312c) +#define P_HEVC_PARSER_MEM_RD_ADDR (volatile unsigned int *)((0x312c << 2) + 0xff620000) +// bit [9:0] - Write adress : +// address 0-255 stream_fifo (128x64) +// address 256-319 context_mem (256x7) +// address 512-640 parser_cmd_mem (256x16) +#define HEVC_PARSER_MEM_WR_ADDR (0x312d) +#define P_HEVC_PARSER_MEM_WR_ADDR (volatile unsigned int *)((0x312d << 2) + 0xff620000) +// bit[31:0] read/write data +#define HEVC_PARSER_MEM_RW_DATA (0x312e) +#define P_HEVC_PARSER_MEM_RW_DATA (volatile unsigned int *)((0x312e << 2) + 0xff620000) +// [31:20] sao_lcu_x +// [19:8] sao_lcu_y +// [7] sao_lcu_xy_update +// [6:2] reserved +// [1] sao_wait_up_read +// [0] sao_wait_write +#define HEVC_SAO_IF_STATUS (0x3130) +#define P_HEVC_SAO_IF_STATUS (volatile unsigned int *)((0x3130 << 2) + 0xff620000) +// Y_offset_3, // 31:26 +// Y_offset_2, // 25:20 +// Y_offset_1, // 19:14 +// Y_offset_0, // 13:8 +// Y_typeAuxInfo[3:0], // 7:4 +// Y_typeIdc, // 3:1 [0, 1, 2, 3]-EO, [4,5]-BO+Y_typeAuxInfo[4] +// Y_modelIdc // 0 +#define HEVC_SAO_IF_DATA_Y (0x3131) +#define P_HEVC_SAO_IF_DATA_Y (volatile unsigned int *)((0x3131 << 2) + 0xff620000) +#define HEVC_SAO_IF_DATA_U (0x3132) +#define P_HEVC_SAO_IF_DATA_U (volatile unsigned int *)((0x3132 << 2) + 0xff620000) +#define HEVC_SAO_IF_DATA_V (0x3133) +#define P_HEVC_SAO_IF_DATA_V (volatile unsigned int *)((0x3133 << 2) + 0xff620000) +#define HEVC_STREAM_SWAP_ADDR (0x3134) +#define P_HEVC_STREAM_SWAP_ADDR (volatile unsigned int *)((0x3134 << 2) + 0xff620000) +// bit[31:24] - swap_wrrsp_count +// bit[23:16] - swap_d_count (Read Only) +// bit[15:8] - swap_a_count (Read Only) (7:0 or 9:2) +// bit [7] - swap busy (Read Only) +// bit [6:4] - swap_d_count[10:8] (Read Only) +// bit [3] - swap_a_count[10] (Read Only) +// bit [2] - swap_wrrsp_count_update +// bit [1] - 1 - STORE to Memory, 0 - LOAD from Memory +// bit [0] - swap active +#define HEVC_STREAM_SWAP_CTRL (0x3135) +#define P_HEVC_STREAM_SWAP_CTRL (volatile unsigned int *)((0x3135 << 2) + 0xff620000) +#define HEVC_IQIT_IF_WAIT_CNT (0x3136) +#define P_HEVC_IQIT_IF_WAIT_CNT (volatile unsigned int *)((0x3136 << 2) + 0xff620000) +#define HEVC_MPRED_IF_WAIT_CNT (0x3137) +#define P_HEVC_MPRED_IF_WAIT_CNT (volatile unsigned int *)((0x3137 << 2) + 0xff620000) +#define HEVC_SAO_IF_WAIT_CNT (0x3138) +#define P_HEVC_SAO_IF_WAIT_CNT (volatile unsigned int *)((0x3138 << 2) + 0xff620000) +// [31:0] packet_length_count +#define HEVC_STREAM_PACKET_LENGTH (0x3139) +#define P_HEVC_STREAM_PACKET_LENGTH (volatile unsigned int *)((0x3139 << 2) + 0xff620000) +// [31] data_length_protect_enable +// [30] data_protect_fill_00_enable +// [29] data_protect_fill_ff_enable +// [28:19] Reserved +// [18:0] data_length_protect_count +#define HEVC_SHIFT_LENGTH_PROTECT (0x313a) +#define P_HEVC_SHIFT_LENGTH_PROTECT (volatile unsigned int *)((0x313a << 2) + 0xff620000) +// bit[3:0] parser_debug_idx +#define HEVC_PARSER_DEBUG_IDX (0x313e) +#define P_HEVC_PARSER_DEBUG_IDX (volatile unsigned int *)((0x313e << 2) + 0xff620000) +// bit[31:0] parser_debug_dat -- read only +#define HEVC_PARSER_DEBUG_DAT (0x313f) +#define P_HEVC_PARSER_DEBUG_DAT (volatile unsigned int *)((0x313f << 2) + 0xff620000) +// bit[22] - vp9_second_pu_use_if_busy_2 +// bit[21] - parser_mpred_if_busy_when_pu_mpred_busy +// bit[20:9] - Reserved +// bit[8] - force_skip_1 (SEG_LVL_SKIP) +// bit[7:3] - vp9_status +// bit[2] - change_vp9_status +// bit[1] - vp9_decode_start(W)/vp9_decode_busy +// bit[0] - vp9_enable +#define VP9_CONTROL (0x3140) +#define P_VP9_CONTROL (volatile unsigned int *)((0x3140 << 2) + 0xff620000) +// bit[15:8]- vp9_emd_cmd_parameter +// bit[3] - vp9_emd_cmd_busy +// bit[2:0] - vp9_emd_command (bit[7]-start/busy) +// 0 - vp9_read +// ( +// input : bit[15:8] - prob, +// bit[7:4] - vp9_read_literal_bits(1-16 bits) +// output : bit[31:16] - result) +// ) +// 1 - vp9_diff_update_prob +// ( +// input : bit[7:4] - function: +// `define vp9_read_tx_mode_prob 0 +// `define vp9_read_coef_prob 1 +// `define vp9_read_skip_prob 2 +// `define vp9_read_inter_mode_prob 3 +// `define vp9_read_interp_prob 4 +// `define vp9_read_intra_inter_prob 5 +// `define vp9_read_comp_inter_prob 6 +// `define vp9_read_comp_ref_prob 7 +// `define vp9_read_single_ref_prob 8 +// `define vp9_read_if_y_mode_prob 9 +// `define vp9_read_partition_prob 10 +// `define vp9_read_mv_prob 11 +// bit[29:16] - total loop times +// bit[31:30] - probs_common +// output : bit[15:8] - prob) +// ) +#define VP9_EMD_CMD (0x3141) +#define P_VP9_EMD_CMD (volatile unsigned int *)((0x3141 << 2) + 0xff620000) +// vp9_top_y_mode[31:0] +#define VP9_TOP_Y_MODE_0 (0x3142) +#define P_VP9_TOP_Y_MODE_0 (volatile unsigned int *)((0x3142 << 2) + 0xff620000) +// vp9_top_y_mode[63:32] +#define VP9_TOP_Y_MODE_1 (0x3143) +#define P_VP9_TOP_Y_MODE_1 (volatile unsigned int *)((0x3143 << 2) + 0xff620000) +// vp9_left_y_mode[31:0] +#define VP9_LEFT_Y_MODE_0 (0x3144) +#define P_VP9_LEFT_Y_MODE_0 (volatile unsigned int *)((0x3144 << 2) + 0xff620000) +// vp9_left_y_mode[63:32] +#define VP9_LEFT_Y_MODE_1 (0x3145) +#define P_VP9_LEFT_Y_MODE_1 (volatile unsigned int *)((0x3145 << 2) + 0xff620000) +// bit[31] - 0:write_vp9_quant, 1:write_vp9_seg_feature +// For write_vp9_seg_feature: +// bit[24:22] - seg_id +// bit[21] - seg_q_enable +// bit[20] - seg_q_sign +// bit[19:12] - seg_q_abs +// bit[11] - seg_lf_enable +// bit[10] - seg_lf_sign +// bit[9:4] - seg_lf_abs +// bit[3] - seg_ref_enable +// bit[2:1] - seg_ref_abs +// bit[0] - seg_skip_enable +// For write_vp9_quant: +// bit[19:16] - Write index : Seg_0_Y-0, Seg_0_UV-1, ... Seq_7_Y-14, Seq_7_UV-15 +// bit[15:8] - AC quant +// bit[7:0] - DC quant +#define VP9_QUANT_WR (0x3146) +#define P_VP9_QUANT_WR (volatile unsigned int *)((0x3146 << 2) + 0xff620000) +// bit [31:16] - vp9_inter_mode_top/{8'h0, vp9_seg_pred_top} +// bit [15:0] - vp9_top_tx_mode (odd/even mi has same tx_mode) +#define HEVC_CABAC_TOP_INFO_3 (0x3147) +#define P_HEVC_CABAC_TOP_INFO_3 (volatile unsigned int *)((0x3147 << 2) + 0xff620000) +// bit [31:16] - vp9_inter_mode_left/{8'h0, vp9_seg_pred_left} +// bit [15:0] - vp9_left_tx_mode (odd/even mi has same tx_mode) +#define HEVC_CABAC_LEFT_INFO_3 (0x3148) +#define P_HEVC_CABAC_LEFT_INFO_3 (volatile unsigned int *)((0x3148 << 2) + 0xff620000) +// bit [31:16] - ref_frame[1] +// bit [15:0] - ref_frame[0] +#define HEVC_CABAC_TOP_INFO_4 (0x3149) +#define P_HEVC_CABAC_TOP_INFO_4 (volatile unsigned int *)((0x3149 << 2) + 0xff620000) +// bit [31:16] - ref_frame[1] +// bit [15:0] - ref_frame[0] +#define HEVC_CABAC_LEFT_INFO_4 (0x314a) +#define P_HEVC_CABAC_LEFT_INFO_4 (volatile unsigned int *)((0x314a << 2) + 0xff620000) +// bit [31:16] - interp_filter +// bit [15:8] - Reserved +// bit [7:0] - vp9_seg_pred_top +#define HEVC_CABAC_TOP_INFO_5 (0x314b) +#define P_HEVC_CABAC_TOP_INFO_5 (volatile unsigned int *)((0x314b << 2) + 0xff620000) +// bit [31:16] - interp_filter +// bit [15:8] - Reserved +// bit [7:0] - vp9_seg_pred_left +#define HEVC_CABAC_LEFT_INFO_5 (0x314c) +#define P_HEVC_CABAC_LEFT_INFO_5 (volatile unsigned int *)((0x314c << 2) + 0xff620000) +// bit[31] - operation start (read : busy) +// bit[30:28] - operation_endian +// bit[27:24] - Reserved +// bit[23:22] - operation_mem 00:prob_mem, 01:count_mem +// bit[21:20] - operation_cmd 0:clear, 1-store, 2-load +// bit[19:10] - operation_end_addr +// bit[9:0] - operation_start_addr +#define VP9_MEM_OPERATION (0x314d) +#define P_VP9_MEM_OPERATION (volatile unsigned int *)((0x314d << 2) + 0xff620000) +// bit[27] - vp9_seg_pred_info_3 +// bit[26] - vp9_seg_abs_delta +// bit[25] - vp9_seg_temporal +// bit[24] - vp9_seg_update_map +// bit[23] - vp9_seg_enable +// bit[22] - vp9_lossless_use_set +// bit[21] - vp9_lossless_set_data +// bit[20] - vp9_swap_Y_MODE_with_INFO45 +// bit[19] - vp9_allow_hp +// bit[18:16] - vp9_interp_filter +// bit[15] - vp9_intra_frame +// bit[14:12] - vp9_tx_mode +// bit[11:10] - vp9_ref_mode // SINGLE_REFERENCE(0), COMPOUND_REFERENCE(1), REFERENCE_MODE_SELECT(2) +// bit[9] - VPX_BITS_10 +// bit[8] - ref_frame_bias[2] +// bit[7] - ref_frame_bias[1] +// bit[6] - ref_frame_bias[0] +// [5:4] - comp_var_ref[1] +// [3:2] - comp_var_ref[0] +// [1:0] - comp_fixed_ref +#define VP9_DECODING_INFO (0x314f) +#define P_VP9_DECODING_INFO (volatile unsigned int *)((0x314f << 2) + 0xff620000) +// [7] -- segment_id_map_from_shadow +// [6] -- segment_id_map_to_shadow +// [5] -- shadow_rw_addr_update +// [4:0] -- shadiw_rw_addr +#define VP9_SHADOW_CTRL (0x3150) +#define P_VP9_SHADOW_CTRL (volatile unsigned int *)((0x3150 << 2) + 0xff620000) +// [31:0] -- shadow_rw_data +#define VP9_SHADOW_DATA (0x3151) +#define P_VP9_SHADOW_DATA (volatile unsigned int *)((0x3151 << 2) + 0xff620000) +// bit[22] - avs2_second_pu_use_if_busy_2 +// bit[21] - parser_mpred_if_busy_when_pu_mpred_busy +// bit[20:9] - Reserved +// bit[8] - force_skip_1 (SEG_LVL_SKIP) +// bit[7:3] - avs2_status +// bit[2] - change_avs2_status +// bit[1] - avs2_decode_start(W)/avs2_decode_busy +// bit[0] - avs2_enable +#define AVS2_CONTROL (0x3152) +#define P_AVS2_CONTROL (volatile unsigned int *)((0x3152 << 2) + 0xff620000) +// bit[7] - useNSIP (nonsquare_intra_prediction_enable) +// bit[6] - secT_enabled (secondary_transform_enable_flag) +// bit[5] - slice_alf_enable_Y +// bit[4] - slice_alf_enable_U +// bit[3] - slice_alf_enable_V +// bit[2] - slice_sao_enable_Y +// bit[1] - slice_sao_enable_U +// bit[0] - slice_sao_enable_V +#define AVS2_DEC_INFO (0x3153) +#define P_AVS2_DEC_INFO (volatile unsigned int *)((0x3153 << 2) + 0xff620000) +// +// Closing file: hevc_parser_regs.h +// +//------------------------------------------------------------------------------ +// HEVC_MPRED module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hevc_mpred_regs.h +// +// ----------------------------------------------- +// CBUS_BASE: DOS_HEVC_MPRED_CBUS_BASE = 0x02 +// ----------------------------------------------- +#define HEVC_MPRED_VERSION (0x3200) +#define P_HEVC_MPRED_VERSION (volatile unsigned int *)((0x3200 << 2) + 0xff620000) +// [31:0] reversion default:32'h00010001 +#define HEVC_MPRED_CTRL0 (0x3201) +#define P_HEVC_MPRED_CTRL0 (volatile unsigned int *)((0x3201 << 2) + 0xff620000) +// [1:0] slice_type[1:0] +// [2] new_pic +// [3] new_tile +// [4] SliceSegment +// [5] TMVPFlag_en +// [6] LDCFlag +// [7] ColFromL0Flag +// [8] reserved +// [9] above_en +// [10] mv_wr_en :collocated MV write enable: 0=no-write,1=write;default:1'b1 +// [11] mv_rd_en +// [12] col_isIntra +// [13] reserved +// [14] LongTerm_Curr +// [15] LongTerm_Col +// [19:16] lcu_size_log2[3:0] +// [23:20] cu_size_log2[3:0] +// [26:24] plevel[2:0] +// [31:27] reserved +#define HEVC_MPRED_CTRL1 (0x3202) +#define P_HEVC_MPRED_CTRL1 (volatile unsigned int *)((0x3202 << 2) + 0xff620000) +// [3:0] MERGE_MAX_NUM_CANDS[3:0] +// [7:4] AMVP_MAX_NUM_CANDS[3:0] +// [23:8] reserved +// [24] clk_forceon +// [31:25] reserved +#define HEVC_MPRED_INT_EN (0x3203) +#define P_HEVC_MPRED_INT_EN (volatile unsigned int *)((0x3203 << 2) + 0xff620000) +// [0] mpred_int_enable +// [1] mpred_int_amrisc_level +// [2] mpred_int_cpu_level +// [3] slice_done_int_amrisc_enable +// [4] slice_done_int_cpu_enable +// [15] disable_mpred_int_clock_gating +#define HEVC_MPRED_INT_STATUS (0x3204) +#define P_HEVC_MPRED_INT_STATUS (volatile unsigned int *)((0x3204 << 2) + 0xff620000) +// [0] slice_done IRQ +// [31] write "1"=slice start(self clear,read always return "0") +#define HEVC_MPRED_PIC_SIZE (0x3205) +#define P_HEVC_MPRED_PIC_SIZE (volatile unsigned int *)((0x3205 << 2) + 0xff620000) +// [15:0] pic_width[15:0] +// [31:16] pic_height[15:0] +#define HEVC_MPRED_PIC_SIZE_LCU (0x3206) +#define P_HEVC_MPRED_PIC_SIZE_LCU (volatile unsigned int *)((0x3206 << 2) + 0xff620000) +// [15:0] lcu_x_num_1[15:0] (=lcu_x_total-1) +// [31:16] lcu_y_num_1[15:0] (=lcu_y_total-1) +#define HEVC_MPRED_TILE_START (0x3207) +#define P_HEVC_MPRED_TILE_START (volatile unsigned int *)((0x3207 << 2) + 0xff620000) +// [15:0] tile_start_lcu_x[15:0] +// [31:16] tile_start_lcu_y[15:0] +#define HEVC_MPRED_TILE_SIZE_LCU (0x3208) +#define P_HEVC_MPRED_TILE_SIZE_LCU (volatile unsigned int *)((0x3208 << 2) + 0xff620000) +// [15:0] tile_width_lcu[15:0] +// [31:16] tile_height_lcu[15:0] +#define HEVC_MPRED_REF_NUM (0x3209) +#define P_HEVC_MPRED_REF_NUM (volatile unsigned int *)((0x3209 << 2) + 0xff620000) +// [3:0] refNum_L0[3:0] +// [11:8] refNum_L1[3:0] +// [19:16] col_refNum_L0[3:0] +// [27:24] col_refNum_L1[3:0] +#define HEVC_MPRED_LT_REF (0x320a) +#define P_HEVC_MPRED_LT_REF (volatile unsigned int *)((0x320a << 2) + 0xff620000) +// [00] LongTerm_L0_Ref00 +// [01] LongTerm_L0_Ref01 +// ...... +// [15] LongTerm_L0_Ref15 +// [16] LongTerm_L1_Ref00 +// [17] LongTerm_L1_Ref01 +// ...... +// [31] LongTerm_L1_Ref15 +#define HEVC_MPRED_LT_COLREF (0x320b) +#define P_HEVC_MPRED_LT_COLREF (volatile unsigned int *)((0x320b << 2) + 0xff620000) +// [00] LongTerm_Col_L0_Ref00 +// [01] LongTerm_Col_L0_Ref01 +// ...... +// [15] LongTerm_Col_L0_Ref15 +// [16] LongTerm_Col_L1_Ref00 +// [17] LongTerm_Col_L1_Ref01 +// ...... +// [31] LongTerm_Col_L1_Ref15 +#define HEVC_MPRED_REF_EN_L0 (0x320c) +#define P_HEVC_MPRED_REF_EN_L0 (volatile unsigned int *)((0x320c << 2) + 0xff620000) +// [00] L0_ref00_en +// [01] L0_ref01_en +// ...... +// [15] L0_ref15_en +#define HEVC_MPRED_REF_EN_L1 (0x320d) +#define P_HEVC_MPRED_REF_EN_L1 (volatile unsigned int *)((0x320d << 2) + 0xff620000) +// [00] L1_ref00_en +// [01] L1_ref01_en +// ...... +// [15] L1_ref15_en +#define HEVC_MPRED_COLREF_EN_L0 (0x320e) +#define P_HEVC_MPRED_COLREF_EN_L0 (volatile unsigned int *)((0x320e << 2) + 0xff620000) +// [00] COL_L0_ref00_en +// [01] COL_L0_ref01_en +// ...... +// [15] COL_L0_ref15_en +#define HEVC_MPRED_COLREF_EN_L1 (0x320f) +#define P_HEVC_MPRED_COLREF_EN_L1 (volatile unsigned int *)((0x320f << 2) + 0xff620000) +// [00] COL_L1_ref00_en +// [01] COL_L1_ref01_en +// ...... +// [15] COL_L1_ref15_en +#define HEVC_MPRED_AXI_WCTRL (0x3210) +#define P_HEVC_MPRED_AXI_WCTRL (volatile unsigned int *)((0x3210 << 2) + 0xff620000) +// [11:8] aw_id_set[3:0] +#define HEVC_MPRED_AXI_RCTRL (0x3211) +#define P_HEVC_MPRED_AXI_RCTRL (volatile unsigned int *)((0x3211 << 2) + 0xff620000) +// [11:8] ar_id_set[3:0] +#define HEVC_MPRED_ABV_START_ADDR (0x3212) +#define P_HEVC_MPRED_ABV_START_ADDR (volatile unsigned int *)((0x3212 << 2) + 0xff620000) +#define HEVC_MPRED_MV_WR_START_ADDR (0x3213) +#define P_HEVC_MPRED_MV_WR_START_ADDR (volatile unsigned int *)((0x3213 << 2) + 0xff620000) +#define HEVC_MPRED_MV_RD_START_ADDR (0x3214) +#define P_HEVC_MPRED_MV_RD_START_ADDR (volatile unsigned int *)((0x3214 << 2) + 0xff620000) +#define HEVC_MPRED_MV_WPTR (0x3215) +#define P_HEVC_MPRED_MV_WPTR (volatile unsigned int *)((0x3215 << 2) + 0xff620000) +#define HEVC_MPRED_MV_RPTR (0x3216) +#define P_HEVC_MPRED_MV_RPTR (volatile unsigned int *)((0x3216 << 2) + 0xff620000) +#define HEVC_MPRED_MV_WR_ROW_JUMP (0x3217) +#define P_HEVC_MPRED_MV_WR_ROW_JUMP (volatile unsigned int *)((0x3217 << 2) + 0xff620000) +#define HEVC_MPRED_MV_RD_ROW_JUMP (0x3218) +#define P_HEVC_MPRED_MV_RD_ROW_JUMP (volatile unsigned int *)((0x3218 << 2) + 0xff620000) +#define HEVC_MPRED_CURR_LCU (0x3219) +#define P_HEVC_MPRED_CURR_LCU (volatile unsigned int *)((0x3219 << 2) + 0xff620000) +#define HEVC_MPRED_ABV_WPTR (0x321a) +#define P_HEVC_MPRED_ABV_WPTR (volatile unsigned int *)((0x321a << 2) + 0xff620000) +#define HEVC_MPRED_ABV_RPTR (0x321b) +#define P_HEVC_MPRED_ABV_RPTR (volatile unsigned int *)((0x321b << 2) + 0xff620000) +#define HEVC_MPRED_CTRL2 (0x321c) +#define P_HEVC_MPRED_CTRL2 (volatile unsigned int *)((0x321c << 2) + 0xff620000) +#define HEVC_MPRED_CTRL3 (0x321d) +#define P_HEVC_MPRED_CTRL3 (volatile unsigned int *)((0x321d << 2) + 0xff620000) +#define HEVC_MPRED_MV_WLCUY (0x321e) +#define P_HEVC_MPRED_MV_WLCUY (volatile unsigned int *)((0x321e << 2) + 0xff620000) +#define HEVC_MPRED_MV_RLCUY (0x321f) +#define P_HEVC_MPRED_MV_RLCUY (volatile unsigned int *)((0x321f << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF00_POC (0x3220) +#define P_HEVC_MPRED_L0_REF00_POC (volatile unsigned int *)((0x3220 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF01_POC (0x3221) +#define P_HEVC_MPRED_L0_REF01_POC (volatile unsigned int *)((0x3221 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF02_POC (0x3222) +#define P_HEVC_MPRED_L0_REF02_POC (volatile unsigned int *)((0x3222 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF03_POC (0x3223) +#define P_HEVC_MPRED_L0_REF03_POC (volatile unsigned int *)((0x3223 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF04_POC (0x3224) +#define P_HEVC_MPRED_L0_REF04_POC (volatile unsigned int *)((0x3224 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF05_POC (0x3225) +#define P_HEVC_MPRED_L0_REF05_POC (volatile unsigned int *)((0x3225 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF06_POC (0x3226) +#define P_HEVC_MPRED_L0_REF06_POC (volatile unsigned int *)((0x3226 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF07_POC (0x3227) +#define P_HEVC_MPRED_L0_REF07_POC (volatile unsigned int *)((0x3227 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF08_POC (0x3228) +#define P_HEVC_MPRED_L0_REF08_POC (volatile unsigned int *)((0x3228 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF09_POC (0x3229) +#define P_HEVC_MPRED_L0_REF09_POC (volatile unsigned int *)((0x3229 << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF10_POC (0x322a) +#define P_HEVC_MPRED_L0_REF10_POC (volatile unsigned int *)((0x322a << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF11_POC (0x322b) +#define P_HEVC_MPRED_L0_REF11_POC (volatile unsigned int *)((0x322b << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF12_POC (0x322c) +#define P_HEVC_MPRED_L0_REF12_POC (volatile unsigned int *)((0x322c << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF13_POC (0x322d) +#define P_HEVC_MPRED_L0_REF13_POC (volatile unsigned int *)((0x322d << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF14_POC (0x322e) +#define P_HEVC_MPRED_L0_REF14_POC (volatile unsigned int *)((0x322e << 2) + 0xff620000) +#define HEVC_MPRED_L0_REF15_POC (0x322f) +#define P_HEVC_MPRED_L0_REF15_POC (volatile unsigned int *)((0x322f << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF00_POC (0x3230) +#define P_HEVC_MPRED_L1_REF00_POC (volatile unsigned int *)((0x3230 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF01_POC (0x3231) +#define P_HEVC_MPRED_L1_REF01_POC (volatile unsigned int *)((0x3231 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF02_POC (0x3232) +#define P_HEVC_MPRED_L1_REF02_POC (volatile unsigned int *)((0x3232 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF03_POC (0x3233) +#define P_HEVC_MPRED_L1_REF03_POC (volatile unsigned int *)((0x3233 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF04_POC (0x3234) +#define P_HEVC_MPRED_L1_REF04_POC (volatile unsigned int *)((0x3234 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF05_POC (0x3235) +#define P_HEVC_MPRED_L1_REF05_POC (volatile unsigned int *)((0x3235 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF06_POC (0x3236) +#define P_HEVC_MPRED_L1_REF06_POC (volatile unsigned int *)((0x3236 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF07_POC (0x3237) +#define P_HEVC_MPRED_L1_REF07_POC (volatile unsigned int *)((0x3237 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF08_POC (0x3238) +#define P_HEVC_MPRED_L1_REF08_POC (volatile unsigned int *)((0x3238 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF09_POC (0x3239) +#define P_HEVC_MPRED_L1_REF09_POC (volatile unsigned int *)((0x3239 << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF10_POC (0x323a) +#define P_HEVC_MPRED_L1_REF10_POC (volatile unsigned int *)((0x323a << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF11_POC (0x323b) +#define P_HEVC_MPRED_L1_REF11_POC (volatile unsigned int *)((0x323b << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF12_POC (0x323c) +#define P_HEVC_MPRED_L1_REF12_POC (volatile unsigned int *)((0x323c << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF13_POC (0x323d) +#define P_HEVC_MPRED_L1_REF13_POC (volatile unsigned int *)((0x323d << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF14_POC (0x323e) +#define P_HEVC_MPRED_L1_REF14_POC (volatile unsigned int *)((0x323e << 2) + 0xff620000) +#define HEVC_MPRED_L1_REF15_POC (0x323f) +#define P_HEVC_MPRED_L1_REF15_POC (volatile unsigned int *)((0x323f << 2) + 0xff620000) +#define HEVC_MPRED_PIC_SIZE_EXT (0x3240) +#define P_HEVC_MPRED_PIC_SIZE_EXT (volatile unsigned int *)((0x3240 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_MODE0 (0x3241) +#define P_HEVC_MPRED_DBG_MODE0 (volatile unsigned int *)((0x3241 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_MODE1 (0x3242) +#define P_HEVC_MPRED_DBG_MODE1 (volatile unsigned int *)((0x3242 << 2) + 0xff620000) +#define HEVC_MPRED_DBG2_MODE (0x3243) +#define P_HEVC_MPRED_DBG2_MODE (volatile unsigned int *)((0x3243 << 2) + 0xff620000) +#define HEVC_MPRED_IMP_CMD0 (0x3244) +#define P_HEVC_MPRED_IMP_CMD0 (volatile unsigned int *)((0x3244 << 2) + 0xff620000) +#define HEVC_MPRED_IMP_CMD1 (0x3245) +#define P_HEVC_MPRED_IMP_CMD1 (volatile unsigned int *)((0x3245 << 2) + 0xff620000) +#define HEVC_MPRED_IMP_CMD2 (0x3246) +#define P_HEVC_MPRED_IMP_CMD2 (volatile unsigned int *)((0x3246 << 2) + 0xff620000) +#define HEVC_MPRED_IMP_CMD3 (0x3247) +#define P_HEVC_MPRED_IMP_CMD3 (volatile unsigned int *)((0x3247 << 2) + 0xff620000) +#define HEVC_MPRED_DBG2_DATA_0 (0x3248) +#define P_HEVC_MPRED_DBG2_DATA_0 (volatile unsigned int *)((0x3248 << 2) + 0xff620000) +#define HEVC_MPRED_DBG2_DATA_1 (0x3249) +#define P_HEVC_MPRED_DBG2_DATA_1 (volatile unsigned int *)((0x3249 << 2) + 0xff620000) +#define HEVC_MPRED_DBG2_DATA_2 (0x324a) +#define P_HEVC_MPRED_DBG2_DATA_2 (volatile unsigned int *)((0x324a << 2) + 0xff620000) +#define HEVC_MPRED_DBG2_DATA_3 (0x324b) +#define P_HEVC_MPRED_DBG2_DATA_3 (volatile unsigned int *)((0x324b << 2) + 0xff620000) +#define HEVC_MPRED_CTRL4 (0x324c) +#define P_HEVC_MPRED_CTRL4 (volatile unsigned int *)((0x324c << 2) + 0xff620000) +// [0] above intermedia data compress: 0=no-compress,1=compress;default:1'b0 +// [1] collocated MV intermedia data compress: 0=no-compress,1=compress;default:1'b0 +// [2] vp9_mode,0=hevc_mode,1=vp9_mode,default=0 +// [6] vp9_use_prev_frame_mvs 0=not allow vp9_use_prev_frame_mvs,1=allow vp9_use_prev_frame_mvs,default=0 +// [8] vp9_not_allow_hp 0=vp9_allow_hp,1=vp9_not_allow_hp,default=0 +// [9] vp9_is_compound 0=vp9_is_not_compound,1=vp9_is_compound,default=0 +// [12] vp9_ref_sign_bias[1] ref1(last) ref_sign_bias, default=0 +// [13] vp9_ref_sign_bias[2] ref2(golden) ref_sign_bias,default=0 +// [14] vp9_ref_sign_bias[3] ref3(altref) ref_sign_bias,default=0 +#define HEVC_MPRED_CTRL5 (0x324d) +#define P_HEVC_MPRED_CTRL5 (volatile unsigned int *)((0x324d << 2) + 0xff620000) +#define HEVC_MPRED_POC24_CTRL0 (0x324e) +#define P_HEVC_MPRED_POC24_CTRL0 (volatile unsigned int *)((0x324e << 2) + 0xff620000) +#define HEVC_MPRED_POC24_CTRL1 (0x324f) +#define P_HEVC_MPRED_POC24_CTRL1 (volatile unsigned int *)((0x324f << 2) + 0xff620000) +#define HEVC_MPRED_DBG_DATA_0 (0x3250) +#define P_HEVC_MPRED_DBG_DATA_0 (volatile unsigned int *)((0x3250 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_DATA_1 (0x3251) +#define P_HEVC_MPRED_DBG_DATA_1 (volatile unsigned int *)((0x3251 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_DATA_2 (0x3252) +#define P_HEVC_MPRED_DBG_DATA_2 (volatile unsigned int *)((0x3252 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_DATA_3 (0x3253) +#define P_HEVC_MPRED_DBG_DATA_3 (volatile unsigned int *)((0x3253 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_DATA_4 (0x3254) +#define P_HEVC_MPRED_DBG_DATA_4 (volatile unsigned int *)((0x3254 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_DATA_5 (0x3255) +#define P_HEVC_MPRED_DBG_DATA_5 (volatile unsigned int *)((0x3255 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_DATA_6 (0x3256) +#define P_HEVC_MPRED_DBG_DATA_6 (volatile unsigned int *)((0x3256 << 2) + 0xff620000) +#define HEVC_MPRED_DBG_DATA_7 (0x3257) +#define P_HEVC_MPRED_DBG_DATA_7 (volatile unsigned int *)((0x3257 << 2) + 0xff620000) +#define HEVC_MPRED_CTRL6 (0x3258) +#define P_HEVC_MPRED_CTRL6 (volatile unsigned int *)((0x3258 << 2) + 0xff620000) +#define HEVC_MPRED_CTRL7 (0x3259) +#define P_HEVC_MPRED_CTRL7 (volatile unsigned int *)((0x3259 << 2) + 0xff620000) +#define HEVC_MPRED_CTRL8 (0x325a) +#define P_HEVC_MPRED_CTRL8 (volatile unsigned int *)((0x325a << 2) + 0xff620000) +#define HEVC_MPRED_CTRL9 (0x325b) +#define P_HEVC_MPRED_CTRL9 (volatile unsigned int *)((0x325b << 2) + 0xff620000) +#define HEVC_MPRED_CUR_POC (0x3260) +#define P_HEVC_MPRED_CUR_POC (volatile unsigned int *)((0x3260 << 2) + 0xff620000) +#define HEVC_MPRED_COL_POC (0x3261) +#define P_HEVC_MPRED_COL_POC (volatile unsigned int *)((0x3261 << 2) + 0xff620000) +#define HEVC_MPRED_MV_RD_END_ADDR (0x3262) +#define P_HEVC_MPRED_MV_RD_END_ADDR (volatile unsigned int *)((0x3262 << 2) + 0xff620000) +// +// Closing file: hevc_mpred_regs.h +// +//------------------------------------------------------------------------------ +// HEVC_IPP module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hevc_ipp_regs.h +// +// John A. Thodiyil +// Register map for intra/inter/pcm pixel-prediction + MCRCC + DECOMP +// August 14th, 2013 +// ----------------------------------------------- +// CBUS_BASE: DOS_HEVC_IPP_CBUS_BASE = 0x04 +// ----------------------------------------------- +#define HEVCD_IPP_TOP_CNTL (0x3400) +#define P_HEVCD_IPP_TOP_CNTL (volatile unsigned int *)((0x3400 << 2) + 0xff620000) +// [0] -- software reset ipp and mpp +// [1] -- enable ipp +// [3:2] -- reserved +// [5:4] -- codec[1:0] 00:hevc 01:vp9 10:avs2 11:reserved +// [31:6] -- reserved +#define HEVCD_IPP_TOP_STATUS (0x3401) +#define P_HEVCD_IPP_TOP_STATUS (volatile unsigned int *)((0x3401 << 2) + 0xff620000) +// [0] -- ready for next tile/frame +// [1] -- ready for next ctb +// [2] -- ready for next slice +// [3] -- reserved +// [4] -- ipp_axi_rd_idle +// [5] -- ipp_axi_wr_idle +// [6] -- mpp_axi_rd_idle +// [31:7] -- reserved +#define HEVCD_IPP_TOP_FRMCONFIG (0x3402) +#define P_HEVCD_IPP_TOP_FRMCONFIG (volatile unsigned int *)((0x3402 << 2) + 0xff620000) +// [14:0] -- frame width in luma pixels +// [30:16] -- frame height in luma pixels +#define HEVCD_IPP_TOP_TILECONFIG1 (0x3403) +#define P_HEVCD_IPP_TOP_TILECONFIG1 (volatile unsigned int *)((0x3403 << 2) + 0xff620000) +// [11:0] -- tile_width_in_lcu +// [27:16] -- tile_height_in_lcu +#define HEVCD_IPP_TOP_TILECONFIG2 (0x3404) +#define P_HEVCD_IPP_TOP_TILECONFIG2 (volatile unsigned int *)((0x3404 << 2) + 0xff620000) +// [11:0] -- tile_offset_x_in_lcu +// [27:16] -- tile_offset_y_in_lcu +#define HEVCD_IPP_TOP_TILECONFIG3 (0x3405) +#define P_HEVCD_IPP_TOP_TILECONFIG3 (volatile unsigned int *)((0x3405 << 2) + 0xff620000) +// [0] -- tiles_enabled_flag +// [31:1] -- reserved +#define HEVCD_IPP_TOP_LCUCONFIG (0x3406) +#define P_HEVCD_IPP_TOP_LCUCONFIG (volatile unsigned int *)((0x3406 << 2) + 0xff620000) +// [6:0] -- lcu size in pixels +#define HEVCD_IPP_TOP_FRMCTL (0x3407) +#define P_HEVCD_IPP_TOP_FRMCTL (volatile unsigned int *)((0x3407 << 2) + 0xff620000) +// [x] -- start ipp tile decode +#define HEVCD_IPP_CONFIG (0x3408) +#define P_HEVCD_IPP_CONFIG (volatile unsigned int *)((0x3408 << 2) + 0xff620000) +// [0] -- ipp_strong_intra_smoothing_enable_flag +// [1] -- cfg_ipp_constrained_intra_pred_flag +// [31:2] -- reserved +#define HEVCD_IPP_LINEBUFF_BASE (0x3409) +#define P_HEVCD_IPP_LINEBUFF_BASE (volatile unsigned int *)((0x3409 << 2) + 0xff620000) +// [31:14] -- intra-prediction line-buffer 16KByte axi address +// [13:0] -- reserved +#define HEVCD_IPP_INTR_MASK (0x340a) +#define P_HEVCD_IPP_INTR_MASK (volatile unsigned int *)((0x340a << 2) + 0xff620000) +// [0] -- tile/frame ready +// [1] -- ctb ready +// [2] -- slice ready +// [31:3] -- reserved +#define HEVCD_IPP_AXIIF_CONFIG (0x340b) +#define P_HEVCD_IPP_AXIIF_CONFIG (volatile unsigned int *)((0x340b << 2) + 0xff620000) +// [3:0] -- little_endian +// [5:4] -- address_format 00:linear 01:32x32 10:64x32 +// [7:6] -- reserved +// [9:8] -- Linear_LineAlignment 00:16byte 01:32byte 10:64byte +// [11:10] -- reserved +// [12] -- CbCr_byte_swap +// [31:13] -- reserved +#define HEVCD_IPP_BITDEPTH_CONFIG (0x340c) +#define P_HEVCD_IPP_BITDEPTH_CONFIG (volatile unsigned int *)((0x340c << 2) + 0xff620000) +// [1:0] -- bit_depth_luma 00:8 01:9 10:10 +// [3:2] -- bit_depth_chroma 00:8 01:9 10:10 +// [31:4] -- reserved +#define HEVCD_IPP_SWMPREDIF_CONFIG (0x3410) +#define P_HEVCD_IPP_SWMPREDIF_CONFIG (volatile unsigned int *)((0x3410 << 2) + 0xff620000) +// [0] -- swmpredif_enable +// [31:1] -- reserved +#define HEVCD_IPP_SWMPREDIF_STATUS (0x3411) +#define P_HEVCD_IPP_SWMPREDIF_STATUS (volatile unsigned int *)((0x3411 << 2) + 0xff620000) +// [0] -- swmpredif_rdy +// [7:1] -- reserved +// [14:8] -- swmpredif_fifospace +// [31:15] -- reserved +#define HEVCD_IPP_SWMPREDIF_CTBINFO (0x3412) +#define P_HEVCD_IPP_SWMPREDIF_CTBINFO (volatile unsigned int *)((0x3412 << 2) + 0xff620000) +// [10:0] -- swmpredif_ctb_x +// [15:11] -- reserved +// [26:16] -- swmpredif_ctb_y +// [30:27] -- reserved +// [31] -- swmpredif_newslice +#define HEVCD_IPP_SWMPREDIF_PUINFO0 (0x3413) +#define P_HEVCD_IPP_SWMPREDIF_PUINFO0 (volatile unsigned int *)((0x3413 << 2) + 0xff620000) +// [31:0] -- swmpredif_imp_cmd[31:0] +#define HEVCD_IPP_SWMPREDIF_PUINFO1 (0x3414) +#define P_HEVCD_IPP_SWMPREDIF_PUINFO1 (volatile unsigned int *)((0x3414 << 2) + 0xff620000) +// [31:0] -- swmpredif_imp_cmd[63:32] +#define HEVCD_IPP_SWMPREDIF_PUINFO2 (0x3415) +#define P_HEVCD_IPP_SWMPREDIF_PUINFO2 (volatile unsigned int *)((0x3415 << 2) + 0xff620000) +// [31:0] -- swmpredif_imp_cmd[95:64] +#define HEVCD_IPP_SWMPREDIF_PUINFO3 (0x3416) +#define P_HEVCD_IPP_SWMPREDIF_PUINFO3 (volatile unsigned int *)((0x3416 << 2) + 0xff620000) +// [31:0] -- swmpredif_imp_cmd[127:96] +#define HEVCD_IPP_SWMPREDIF_PUINFO4 (0x3417) +#define P_HEVCD_IPP_SWMPREDIF_PUINFO4 (volatile unsigned int *)((0x3417 << 2) + 0xff620000) +// [31:0] -- swmpredif_imp_cmd[159:128] +#define HEVCD_IPP_SWMPREDIF_PUINFO5 (0x3418) +#define P_HEVCD_IPP_SWMPREDIF_PUINFO5 (volatile unsigned int *)((0x3418 << 2) + 0xff620000) +// [31:0] -- swmpredif_imp_cmd[191:160] +// writing to HEVCD_IPP_SWMPREDIF_PUINFO5 +// completes command, should be last to write. +#define HEVCD_IPP_DYNCLKGATE_CONFIG (0x3420) +#define P_HEVCD_IPP_DYNCLKGATE_CONFIG (volatile unsigned int *)((0x3420 << 2) + 0xff620000) +// [0] -- mpp_wpredict_clkgate_disbl +// [1] -- mpp_ref_fetch_clkgate_disbl +// [2] -- mpp_interpol_top_clkgate_disbl +// [3] -- mpp_4x4mcr_clkgate_disbl +// [4] -- mpp_ref_pack_clkgate_disbl +// [5] -- mpp_mdec_if_clkgate_disbl +// [7:6] -- reserved +// [8] -- ipp_res_fetch_clkgate_disbl +// [9] -- ipp_iqitIf_clkgate_disbl +// [10] -- ipp_dblkCmdIf_clkgate_disbl +// [11] -- ipp_dblkIf_clkgate_disbl +// [12] -- ipp_cntl_clkgate_disbl +// [13] -- ipp_nsamples_proc_clkgate_disbl +// [14] -- ipp_refroute_clkgate_disbl +// [15] -- ipp_spred_clkgate_disbl +// [16] -- ipp_reg_clkgate_disbl +// [17] -- ipp_recon_clkgate_disbl +// [19:18] -- reserved +// [20] -- decomp_cntl_clkgate_disbl +// [21] -- decomp_axiIf_clkgate_disbl +// [22] -- decomp_dcache_clkgate_disbl +// [23] -- decomp_hcache_clkgate_disbl +// [24] -- decomp_gearup_clkgate_disbl +// [25] -- decomp_cores_clkgate_disbl +// [26] -- decomp_rdroute_clkgate_disbl +// [27] -- reserved +// [28] -- master_decomp_clkgate_disbl +// [29] -- master_mpp_clkgate_disbl +// [30] -- master_ipp_clkgate_disbl +// [31] -- master_ipp_mpp_decomp_clkgate_disbl +#define HEVCD_IPP_DYNCLKGATE_STATUS (0x3421) +#define P_HEVCD_IPP_DYNCLKGATE_STATUS (volatile unsigned int *)((0x3421 << 2) + 0xff620000) +// [0] -- mpp_wpredict_clkgate +// [1] -- mpp_ref_fetch_clkgate +// [2] -- mpp_interpol_top_clkgate +// [3] -- mpp_4x4mcr_clkgate +// [4] -- mpp_ref_pack_clkgate +// [5] -- mpp_mdec_if_clkgate +// [7:6] -- reserved +// [8] -- ipp_res_fetch_clkgate +// [9] -- ipp_iqitIf_clkgate +// [10] -- ipp_dblkCmdIf_clkgate +// [11] -- ipp_dblkIf_clkgate +// [12] -- ipp_cntl_clkgate +// [13] -- ipp_nsamples_proc_clkgate +// [14] -- ipp_refroute_clkgate +// [15] -- ipp_spred_clkgate +// [16] -- ipp_reg_clkgate +// [17] -- ipp_recon_clkgate +// [19:18] -- reserved +// [20] -- decomp_cntl_clkgate +// [21] -- decomp_axiIf_clkgate +// [22] -- decomp_dcache_clkgate +// [23] -- decomp_hcache_clkgate +// [24] -- decomp_gearup_clkgate +// [25] -- decomp_cores_clkgate +// [26] -- decomp_rdroute_clkgate +// [27] -- reserved +// [30:28] -- reserved +// [31] -- mcrcc_axi_clkgate +#define HEVCD_IPP_DBG_SEL (0x3430) +#define P_HEVCD_IPP_DBG_SEL (volatile unsigned int *)((0x3430 << 2) + 0xff620000) +// [3:0] -- module_level_sel +// [7:4] -- mpp_ipp_top_level +// [8] -- ipp_sel +// [31:9] -- reserved +#define HEVCD_IPP_DBG_DATA (0x3431) +#define P_HEVCD_IPP_DBG_DATA (volatile unsigned int *)((0x3431 << 2) + 0xff620000) +// [31:0] -- Debug information +////////////////////////////////////////////////////////////////////////////// +///// MPP Registers //////////////////// +////////////////////////////////////////////////////////////////////////////// +// Canvas Anchor to Axi-Address translation table +#define HEVCD_MPP_ANC2AXI_TBL_CONF_ADDR (0x3460) +#define P_HEVCD_MPP_ANC2AXI_TBL_CONF_ADDR (volatile unsigned int *)((0x3460 << 2) + 0xff620000) +// [0] -- anc2axi canvas address translation table switch 0:sw 1:hw +// [1] -- access type 1:wr 0:rd +// [2] -- auto index increment +// [7:3] -- reserved +// [15:8] -- start index +// [31:16] -- reserved +//`define HEVCD_MPP_ANC2AXI_TBL_CMD_ADDR 8'h61 +// [0] -- anc2axi canvas address translation table access type 1:wr 0:rd +// [15:8] -- anc2axi canvas address translation table access index +// [31:16] -- anc2axi canvas address translation table access write data, 16KByte axi address +// -- obsoleted +//`define HEVCD_MPP_ANC2AXI_TBL_WDATA_ADDR 8'h62 // NU +// [x] -- not used +//`define HEVCD_MPP_ANC2AXI_TBL_RDATA_ADDR 8'h63 +// [15:0] -- anc2axi canvas address translation table access read data +// -- obsoleted +#define HEVCD_MPP_ANC2AXI_TBL_DATA (0x3464) +#define P_HEVCD_MPP_ANC2AXI_TBL_DATA (volatile unsigned int *)((0x3464 << 2) + 0xff620000) +// [26:0] -- anc2axi address r/w 32byte aligned +// [31:27] -- reserved +#define HEVCD_MPP_WEIGHTPRED_CNTL_ADDR (0x347b) +#define P_HEVCD_MPP_WEIGHTPRED_CNTL_ADDR (volatile unsigned int *)((0x347b << 2) + 0xff620000) +// [0] -- weighted_pred_flag +#define HEVCD_MPP_L0_WEIGHT_FLAG_ADDR (0x347c) +#define P_HEVCD_MPP_L0_WEIGHT_FLAG_ADDR (volatile unsigned int *)((0x347c << 2) + 0xff620000) +// [15:0] -- luma_weght_flag0[15:0], indexed by refidx0 +// [31:16] -- chroma_weght_flag0[15:0], indexed by refidx0 +#define HEVCD_MPP_L1_WEIGHT_FLAG_ADDR (0x347d) +#define P_HEVCD_MPP_L1_WEIGHT_FLAG_ADDR (volatile unsigned int *)((0x347d << 2) + 0xff620000) +// [15:0] -- luma_weght_flag1[15:0], indexed by refidx1 +// [31:16] -- chroma_weght_flag1[15:0], indexed by refidx1 +#define HEVCD_MPP_YLOG2WGHTDENOM_ADDR (0x347e) +#define P_HEVCD_MPP_YLOG2WGHTDENOM_ADDR (volatile unsigned int *)((0x347e << 2) + 0xff620000) +// [3:0] -- luma_log2_weight_denom +#define HEVCD_MPP_DELTACLOG2WGHTDENOM_ADDR (0x347f) +#define P_HEVCD_MPP_DELTACLOG2WGHTDENOM_ADDR (volatile unsigned int *)((0x347f << 2) + 0xff620000) +// [4:0] -- delta_chroma_log2_weight_denom +#define HEVCD_MPP_WEIGHT_ADDR (0x3480) +#define P_HEVCD_MPP_WEIGHT_ADDR (volatile unsigned int *)((0x3480 << 2) + 0xff620000) +// [5:0] -- weight_rw_addr +// [0] -- DELTA_WEIGHT0 +// [1] -- OFFSET0 +// [2] -- DELTA_WEIGHT1 +// [3] -- OFFSET1 +// ...... +// [62] -- DELTA_WEIGHT31 +// [63] -- OFFSET31 +#define HEVCD_MPP_WEIGHT_DATA (0x3481) +#define P_HEVCD_MPP_WEIGHT_DATA (volatile unsigned int *)((0x3481 << 2) + 0xff620000) +// For DELTA_WEIGHT : +// [7:0] -- delta_y_weight for refidx0:0 +// [15:8] -- delta_cb_weight for refidx0:0 +// [23:16] -- delta_cr_weight for refidx0:0 +// For OFFSET : +// [7:0] -- luma_offset for refidx0:0 +// [17:8] -- delta_cb_offset for refidx0:0 +// [27:18] -- delta_cr_offset for refidx0:0 +// ID to Anchor-Canvas-Address table +// [31:13] reserved +// [12:8] access_index +// [7:2] reserved +// [1] auto_inc_read +// [0] auto_inc_write +#define HEVCD_MPP_ANC_CANVAS_ACCCONFIG_ADDR (0x34c0) +#define P_HEVCD_MPP_ANC_CANVAS_ACCCONFIG_ADDR (volatile unsigned int *)((0x34c0 << 2) + 0xff620000) +// Id[4:0] --> {AnchorAddrCr[7:0],AnchorAddrCb[7:0],AnchorAddrY[7:0]} +#define HEVCD_MPP_ANC_CANVAS_DATA_ADDR (0x34c1) +#define P_HEVCD_MPP_ANC_CANVAS_DATA_ADDR (volatile unsigned int *)((0x34c1 << 2) + 0xff620000) +// [0] -- decomp_nocompress +// [1] -- decomp_dcache_bypass +// [2] -- reserved +// [3] -- decomp_smem_bdepth888 +// [4] -- decomp_paged_mem_mode +// [30:5] -- reserved +// [31] -- decomp_axif_lbmode888 +#define HEVCD_MPP_DECOMP_CTL1 (0x34c2) +#define P_HEVCD_MPP_DECOMP_CTL1 (volatile unsigned int *)((0x34c2 << 2) + 0xff620000) +// [23:0] -- header1_offset : 32byte address from canvas base +// [31:24] -- reserved +#define HEVCD_MPP_DECOMP_CTL2 (0x34c3) +#define P_HEVCD_MPP_DECOMP_CTL2 (volatile unsigned int *)((0x34c3 << 2) + 0xff620000) +// [9:0] -- decomp_default_Y +// [19:10] -- decomp_default_Cb +// [29:20] -- decomp_dafault_Cr +// [31:30] -- bitdepth_sel 00:8bit 01:9bit 10:10bit +#define HEVCD_MPP_DECOMP_CTL3 (0x34c4) +#define P_HEVCD_MPP_DECOMP_CTL3 (volatile unsigned int *)((0x34c4 << 2) + 0xff620000) +// HEVCD_MPP_DECOMP_PERFMON_CTL +// [0] percount_reset +// [3:1] perfcount_sel +// [31:4] reserved +// {1'b0,perfcount_sel[1:0]} perfcount +// 0 raw_hcache_cnt +// 1 hit_hcache_cnt +// 2 raw_dcache_cnt +// 3 hit_dcache_cnt +// {1'b1,perfcount_sel[1:0]} perfcount +// 0 fast_num_compburst +// 1 slow_num_compburst +// 2,3 raw_num_ncompburst +#define HEVCD_MPP_DECOMP_PERFMON_CTL (0x34c5) +#define P_HEVCD_MPP_DECOMP_PERFMON_CTL (volatile unsigned int *)((0x34c5 << 2) + 0xff620000) +// HEVCD_MPP_DECOMP_PERFMON_DATA +// [31:0] percount_data +#define HEVCD_MPP_DECOMP_PERFMON_DATA (0x34c6) +#define P_HEVCD_MPP_DECOMP_PERFMON_DATA (volatile unsigned int *)((0x34c6 << 2) + 0xff620000) +// HEVCD_MPP_DECOMP_AXIURG_CTL +// [1:0] -- decomp_hdrurg 00:Normal 01:Urgent 10:SuperUrgent +// [2] -- decomp_fpathurg_en 1->Urgent if below lo_thresh +// [3] -- decomp_spathurg_en 1->Urgent if below lo_thresh +// [10:4] -- decomp_fpathurg_lothresh [32byte steps : max 96] +// [17:11] -- decomp_fpathurg_hithresh [32byte steps : max 96] +// [24:18] -- decomp_spathurg_lothresh [32byte steps : max 64] +// [31:25] -- decomp_spathurg_hithresh [32byte steps : max 64] +#define HEVCD_MPP_DECOMP_AXIURG_CTL (0x34c7) +#define P_HEVCD_MPP_DECOMP_AXIURG_CTL (volatile unsigned int *)((0x34c7 << 2) + 0xff620000) +// HEVCD_MPP_VDEC_MCR_CTL +// [0] -- mcr_mdec_mode : 1:mcr fetch used by vdec:mdec +// [3:1] -- reserved +// [4] -- mcr_mdec_8byte_endianess : 1:big 0:little +// [31:5] -- reserved +#define HEVCD_MPP_VDEC_MCR_CTL (0x34c8) +#define P_HEVCD_MPP_VDEC_MCR_CTL (volatile unsigned int *)((0x34c8 << 2) + 0xff620000) +////////////////////////////////////////////////////////////////////////////// +///// MCRCC_AXI Registers //////////////////// +////////////////////////////////////////////////////////////////////////////// +// HEVCD_MCRCC_CTL1 +// 31:12 +// 11:10 // 01: top 10:bot 11:frame +// 9:8 +// 7:6 +// 5:4 +// 3 +// 2 // not used for hevc +// 1 +// 0 +#define HEVCD_MCRCC_CTL1 (0x34f0) +#define P_HEVCD_MCRCC_CTL1 (volatile unsigned int *)((0x34f0 << 2) + 0xff620000) +// HEVCD_MCRCC_CTL2 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define HEVCD_MCRCC_CTL2 (0x34f1) +#define P_HEVCD_MCRCC_CTL2 (volatile unsigned int *)((0x34f1 << 2) + 0xff620000) +// HEVCD_MCRCC_CTL3 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define HEVCD_MCRCC_CTL3 (0x34f2) +#define P_HEVCD_MCRCC_CTL3 (volatile unsigned int *)((0x34f2 << 2) + 0xff620000) +// HEVCD_MCRCC_PERFMON_CTL +// [0] percount_reset +// [3:1] perfcount_sel +// [31:4] reserved +// perfcount_sel[2:0] perfcount +// 0 raw_mcr_cnt +// 1 hit_mcr_cnt +// 2 byp_mcr_cnt_nchoutwin +// 3 byp_mcr_cnt_nchcanv +// 4 miss_mcr_cnt_0 +// 5 miss_mcr_cnt_1 +// 6 hit_mcr_cnt_0 +// 7 hit_mcr_cnt_1 +#define HEVCD_MCRCC_PERFMON_CTL (0x34f3) +#define P_HEVCD_MCRCC_PERFMON_CTL (volatile unsigned int *)((0x34f3 << 2) + 0xff620000) +// HEVCD_MCRCC_PERFMON_DATA +// [31:0] percount_data +#define HEVCD_MCRCC_PERFMON_DATA (0x34f4) +#define P_HEVCD_MCRCC_PERFMON_DATA (volatile unsigned int *)((0x34f4 << 2) + 0xff620000) +////////////////////////////////////////////////////////////////////////////// +///// VP9 Decoder Registers //////////////////// +////////////////////////////////////////////////////////////////////////////// +// VP9D_MPP_INTERPOL_CFG0 +// [2:0] VP9 MC Interpolation type + // 0-3:perframe type 4:per partition type +// [3] reserved +// [4] V99 MV precision + // 1:high precision else mv=mv*2 +// [31:5] reserved +#define VP9D_MPP_INTERPOL_CFG0 (0x3440) +#define P_VP9D_MPP_INTERPOL_CFG0 (volatile unsigned int *)((0x3440 << 2) + 0xff620000) +// VP9D_MPP_REF_SCALE_ENBL +// [7:0] VP9 MC reference scaled info +// [15:0] VP9 MC reference scaled dir 0:Dwn 1:Up +// [31:16] reserved +#define VP9D_MPP_REF_SCALE_ENBL (0x3441) +#define P_VP9D_MPP_REF_SCALE_ENBL (volatile unsigned int *)((0x3441 << 2) + 0xff620000) +// VP9D_MPP_REFINFO_TBL_ACCCONFIG +// [1:0] reserved +// [2] auto_inc_index/field +// [5:3] reference index 0:last 1:golden 2:altref +// [8:6] info field 0: 1: + // 2: + // 4: -- 32byte aligned +// [31:9] reserved +#define VP9D_MPP_REFINFO_TBL_ACCCONFIG (0x3442) +#define P_VP9D_MPP_REFINFO_TBL_ACCCONFIG (volatile unsigned int *)((0x3442 << 2) + 0xff620000) +// VP9D_MPP_REFINFO_DATA +// [n:0] refinfo_tbl[index]field] wr_data/rd_data +#define VP9D_MPP_REFINFO_DATA (0x3443) +#define P_VP9D_MPP_REFINFO_DATA (volatile unsigned int *)((0x3443 << 2) + 0xff620000) +// +// Closing file: hevc_ipp_regs.h +// +//------------------------------------------------------------------------------ +// HEVC_DBLK module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hevc_dblk_regs.h +// +// ----------------------------------------------- +// CBUS_BASE: DOS_HEVC_DBLK_CBUS_BASE = 0x05 +// ----------------------------------------------- +//cfg0[0]; //software_reset +//cfg0[1]; //status clear, only for axi error or pic_done +//cfg0[2]; //clock_forced_on_all +//cfg0[3]; //clock_forced_off_all +//cfg0[11:8]; //PU FIFO Threshold , 0:16 1:1 ... 1:15 +//cfg0[15:12]; //TU FIFO Threshold>>4, 0:16<<4 1:1<<4 ... 1:15<<4 +//cfg0[29:16]; //clock_forced_on_submodules +#define HEVC_DBLK_CFG0 (0x3500) +#define P_HEVC_DBLK_CFG0 (volatile unsigned int *)((0x3500 << 2) + 0xff620000) +//cfg1[1:0]; //ctb_size 0:64x64 1:32x32 2:16x16 +//cfg1[2]; //ignore_out_of_boundary +//cfg1[3]; //pcm_loop_filter_disabled_flag +//cfg1[8:4]; //pps_cb_qp_offset (-12~12,inclusive) +//cfg1[13:9]; //pps_cr_qp_offset (-12~12,inclusive) +//cfg1[14]; //ctbx,y swap in pu i/f +//cfg1[15]; //sao_corner_45_degree_all_software_control +#define HEVC_DBLK_CFG1 (0x3501) +#define P_HEVC_DBLK_CFG1 (volatile unsigned int *)((0x3501 << 2) + 0xff620000) +//cfg2[15:0]; //picture_size_width +//cfg2[31:16]; //picture_size_height +#define HEVC_DBLK_CFG2 (0x3502) +#define P_HEVC_DBLK_CFG2 (volatile unsigned int *)((0x3502 << 2) + 0xff620000) +//cfg3[3:0]; //parameter_axi_arid +//cfg3[7:4]; //parameter_axi_awid +//cfg3[11:8]; //parameter_axi_wid +//cfg3[12]; //parameter_axi_not_check_write_response +//cfg3[19:16]; //data_axi_arid +//cfg3[23:20]; //data_axi_awid +//cfg3[27:24]; //data_axi_wid +//cfg3[28]; //data_axi_not_check_write_response +#define HEVC_DBLK_CFG3 (0x3503) +#define P_HEVC_DBLK_CFG3 (volatile unsigned int *)((0x3503 << 2) + 0xff620000) +//cfg4[31:0]; //parameter_axi_start_address +#define HEVC_DBLK_CFG4 (0x3504) +#define P_HEVC_DBLK_CFG4 (volatile unsigned int *)((0x3504 << 2) + 0xff620000) +//cfg5[31:0]; //data_axi_start_address +#define HEVC_DBLK_CFG5 (0x3505) +#define P_HEVC_DBLK_CFG5 (volatile unsigned int *)((0x3505 << 2) + 0xff620000) +//cfg6[9:0]; //tile_ctbx +//cfg6[25:16]; //tile_ctby +//cfg6[31]; //tile_enabled +#define HEVC_DBLK_CFG6 (0x3506) +#define P_HEVC_DBLK_CFG6 (volatile unsigned int *)((0x3506 << 2) + 0xff620000) +//cfg7[9:0]; //tile_ctbxsize +//cfg7[25:16]; //tile_ctbysize +#define HEVC_DBLK_CFG7 (0x3507) +#define P_HEVC_DBLK_CFG7 (volatile unsigned int *)((0x3507 << 2) + 0xff620000) +//cfg8[9:0]; //start_ctbx, normally equals to tile_ctbx +//cfg8[25:16]; //start_ctby, normally equals to tile_ctby +//cfg8[31]; //start, self_cleared signal, normally set it at the begin of tile +#define HEVC_DBLK_CFG8 (0x3508) +#define P_HEVC_DBLK_CFG8 (volatile unsigned int *)((0x3508 << 2) + 0xff620000) +//cfg9[0] //loop_filter_across_tiles_enabled_flag +//cfg9[1] //loop_filter_across_slices_enabled_flag +//cfg9[2] //deblocking_filter_disabled_flag +//cfg9[6:3] //beta_offset_div2 (-6~6,inclusive) +//cfg9[10:7] //tc_offset_div2 (-6~6,inclusive) +#define HEVC_DBLK_CFG9 (0x3509) +#define P_HEVC_DBLK_CFG9 (volatile unsigned int *)((0x3509 << 2) + 0xff620000) +//cfga[4:0] //corner45degree{FIFO_CNT} +//cfga[31:27] //corner45degree{EN,FIFO_CLR,FIFO_PUSH,DATA,DATA_SEL} +#define HEVC_DBLK_CFGA (0x350a) +#define P_HEVC_DBLK_CFGA (volatile unsigned int *)((0x350a << 2) + 0xff620000) +//cfgb[3:0] //0:HEVC 1:VP9 ... +#define HEVC_DBLK_CFGB (0x350b) +#define P_HEVC_DBLK_CFGB (volatile unsigned int *)((0x350b << 2) + 0xff620000) +//cfgc[31:0] //cfg_addr_y1 +#define HEVC_DBLK_CFGC (0x350c) +#define P_HEVC_DBLK_CFGC (volatile unsigned int *)((0x350c << 2) + 0xff620000) +//TODO description +#define HEVC_DBLK_STS0 (0x350d) +#define P_HEVC_DBLK_STS0 (volatile unsigned int *)((0x350d << 2) + 0xff620000) +//TODO description +#define HEVC_DBLK_STS1 (0x350e) +#define P_HEVC_DBLK_STS1 (volatile unsigned int *)((0x350e << 2) + 0xff620000) +// +// Closing file: hevc_dblk_regs.h +// +//------------------------------------------------------------------------------ +// HEVC_SAO module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hevc_sao_regs.h +// +// ----------------------------------------------- +// CBUS_BASE: DOS_HEVC_SAO_CBUS_BASE = 0x06 +// ----------------------------------------------- +#define HEVC_SAO_VERSION (0x3600) +#define P_HEVC_SAO_VERSION (volatile unsigned int *)((0x3600 << 2) + 0xff620000) +// [31:0] reversion default:32'h00010001 +#define HEVC_SAO_CTRL0 (0x3601) +#define P_HEVC_SAO_CTRL0 (volatile unsigned int *)((0x3601 << 2) + 0xff620000) +// [3:0] lcu_size_log2 +// [31] above intermedia data compress: 0=no-compress,1=compress;default:1'b0 +#define HEVC_SAO_CTRL1 (0x3602) +#define P_HEVC_SAO_CTRL1 (volatile unsigned int *)((0x3602 << 2) + 0xff620000) +// [31:24] ar_fifo1_axi_thred +// [23:16] ar_fifo0_axi_thred +// [15:14] axi_linealign, 0-16bytes, 1-32bytes, 2-64bytes +// [13:12] axi_aformat, 0-Linear, 1-32x32, 2-64x32 +// [11:08] axi_lendian_C +// [07:04] axi_lendian_Y +// [3] reserved +// [2] clk_forceon +// [1] dw_disable:disable double write output +// [0] cm_disable:disable compress output +#define HEVC_SAO_INT_EN (0x3603) +#define P_HEVC_SAO_INT_EN (volatile unsigned int *)((0x3603 << 2) + 0xff620000) +// [0] sao_int_enable +// [1] sao_int_amrisc_level +// [2] sao_int_cpu_level +// [3] slice_done_int_amrisc_enable +// [4] slice_done_int_cpu_enable +// [15] disable_sao_int_clock_gating +#define HEVC_SAO_INT_STATUS (0x3604) +#define P_HEVC_SAO_INT_STATUS (volatile unsigned int *)((0x3604 << 2) + 0xff620000) +// [0] slice_done IRQ +// [31] write "1"=slice start(self clear,read always return "0") +#define HEVC_SAO_PIC_SIZE (0x3605) +#define P_HEVC_SAO_PIC_SIZE (volatile unsigned int *)((0x3605 << 2) + 0xff620000) +// [15:0] pic_width[15:0] +// [31:16] pic_height[15:0] +#define HEVC_SAO_PIC_SIZE_LCU (0x3606) +#define P_HEVC_SAO_PIC_SIZE_LCU (volatile unsigned int *)((0x3606 << 2) + 0xff620000) +// [15:0] lcu_x_num_1[15:0] (=lcu_x_total-1) +// [31:16] lcu_y_num_1[15:0] (=lcu_y_total-1) +#define HEVC_SAO_TILE_START (0x3607) +#define P_HEVC_SAO_TILE_START (volatile unsigned int *)((0x3607 << 2) + 0xff620000) +// [15:0] tile_start_lcu_x[15:0] +// [31:16] tile_start_lcu_y[15:0] +#define HEVC_SAO_TILE_SIZE_LCU (0x3608) +#define P_HEVC_SAO_TILE_SIZE_LCU (volatile unsigned int *)((0x3608 << 2) + 0xff620000) +// [15:0] tile_width_lcu[15:0] +// [31:16] tile_height_lcu[15:0] +#define HEVC_SAO_AXI_WCTRL (0x3609) +#define P_HEVC_SAO_AXI_WCTRL (volatile unsigned int *)((0x3609 << 2) + 0xff620000) +#define HEVC_SAO_AXI_RCTRL (0x360a) +#define P_HEVC_SAO_AXI_RCTRL (volatile unsigned int *)((0x360a << 2) + 0xff620000) +#define HEVC_SAO_Y_START_ADDR (0x360b) +#define P_HEVC_SAO_Y_START_ADDR (volatile unsigned int *)((0x360b << 2) + 0xff620000) +#define HEVC_SAO_Y_LENGTH (0x360c) +#define P_HEVC_SAO_Y_LENGTH (volatile unsigned int *)((0x360c << 2) + 0xff620000) +#define HEVC_SAO_C_START_ADDR (0x360d) +#define P_HEVC_SAO_C_START_ADDR (volatile unsigned int *)((0x360d << 2) + 0xff620000) +#define HEVC_SAO_C_LENGTH (0x360e) +#define P_HEVC_SAO_C_LENGTH (volatile unsigned int *)((0x360e << 2) + 0xff620000) +#define HEVC_SAO_Y_WPTR (0x360f) +#define P_HEVC_SAO_Y_WPTR (volatile unsigned int *)((0x360f << 2) + 0xff620000) +#define HEVC_SAO_C_WPTR (0x3610) +#define P_HEVC_SAO_C_WPTR (volatile unsigned int *)((0x3610 << 2) + 0xff620000) +#define HEVC_SAO_ABV_START_ADDR (0x3611) +#define P_HEVC_SAO_ABV_START_ADDR (volatile unsigned int *)((0x3611 << 2) + 0xff620000) +#define HEVC_SAO_VB_WR_START_ADDR (0x3612) +#define P_HEVC_SAO_VB_WR_START_ADDR (volatile unsigned int *)((0x3612 << 2) + 0xff620000) +#define HEVC_SAO_VB_RD_START_ADDR (0x3613) +#define P_HEVC_SAO_VB_RD_START_ADDR (volatile unsigned int *)((0x3613 << 2) + 0xff620000) +#define HEVC_SAO_ABV_WPTR (0x3614) +#define P_HEVC_SAO_ABV_WPTR (volatile unsigned int *)((0x3614 << 2) + 0xff620000) +#define HEVC_SAO_ABV_RPTR (0x3615) +#define P_HEVC_SAO_ABV_RPTR (volatile unsigned int *)((0x3615 << 2) + 0xff620000) +#define HEVC_SAO_VB_WPTR (0x3616) +#define P_HEVC_SAO_VB_WPTR (volatile unsigned int *)((0x3616 << 2) + 0xff620000) +#define HEVC_SAO_VB_RPTR (0x3617) +#define P_HEVC_SAO_VB_RPTR (volatile unsigned int *)((0x3617 << 2) + 0xff620000) +#define HEVC_SAO_DBG_MODE0 (0x361e) +#define P_HEVC_SAO_DBG_MODE0 (volatile unsigned int *)((0x361e << 2) + 0xff620000) +#define HEVC_SAO_DBG_MODE1 (0x361f) +#define P_HEVC_SAO_DBG_MODE1 (volatile unsigned int *)((0x361f << 2) + 0xff620000) +#define HEVC_SAO_CTRL2 (0x3620) +#define P_HEVC_SAO_CTRL2 (volatile unsigned int *)((0x3620 << 2) + 0xff620000) +#define HEVC_SAO_CTRL3 (0x3621) +#define P_HEVC_SAO_CTRL3 (volatile unsigned int *)((0x3621 << 2) + 0xff620000) +#define HEVC_SAO_CTRL4 (0x3622) +#define P_HEVC_SAO_CTRL4 (volatile unsigned int *)((0x3622 << 2) + 0xff620000) +#define HEVC_SAO_CTRL5 (0x3623) +#define P_HEVC_SAO_CTRL5 (volatile unsigned int *)((0x3623 << 2) + 0xff620000) +//[23:22] dw_h1_ctrl default:2'b11 +//[21:20] dw_h0_ctrl default:2'b11 +//[19:18] dw_h1_ctrl default:2'b11 +//[17:16] dw_h0_ctrl default:2'b11 +#define HEVC_SAO_CTRL6 (0x3624) +#define P_HEVC_SAO_CTRL6 (volatile unsigned int *)((0x3624 << 2) + 0xff620000) +#define HEVC_SAO_CTRL7 (0x3625) +#define P_HEVC_SAO_CTRL7 (volatile unsigned int *)((0x3625 << 2) + 0xff620000) +#define HEVC_CM_BODY_START_ADDR (0x3626) +#define P_HEVC_CM_BODY_START_ADDR (volatile unsigned int *)((0x3626 << 2) + 0xff620000) +#define HEVC_CM_BODY_LENGTH (0x3627) +#define P_HEVC_CM_BODY_LENGTH (volatile unsigned int *)((0x3627 << 2) + 0xff620000) +#define HEVC_CM_HEADER_START_ADDR (0x3628) +#define P_HEVC_CM_HEADER_START_ADDR (volatile unsigned int *)((0x3628 << 2) + 0xff620000) +#define HEVC_CM_HEADER_LENGTH (0x3629) +#define P_HEVC_CM_HEADER_LENGTH (volatile unsigned int *)((0x3629 << 2) + 0xff620000) +#define HEVC_CM_COLOR (0x362a) +#define P_HEVC_CM_COLOR (volatile unsigned int *)((0x362a << 2) + 0xff620000) +#define HEVC_CM_HEADER_OFFSET (0x362b) +#define P_HEVC_CM_HEADER_OFFSET (volatile unsigned int *)((0x362b << 2) + 0xff620000) +#define HEVC_SAO_CTRL8 (0x362c) +#define P_HEVC_SAO_CTRL8 (volatile unsigned int *)((0x362c << 2) + 0xff620000) +#define HEVC_SAO_CTRL9 (0x362d) +#define P_HEVC_SAO_CTRL9 (volatile unsigned int *)((0x362d << 2) + 0xff620000) +#define HEVC_SAO_CTRL10 (0x362e) +#define P_HEVC_SAO_CTRL10 (volatile unsigned int *)((0x362e << 2) + 0xff620000) +#define HEVC_SAO_CTRL11 (0x362f) +#define P_HEVC_SAO_CTRL11 (volatile unsigned int *)((0x362f << 2) + 0xff620000) +#define HEVC_SAO_DBG_DATA_0 (0x3630) +#define P_HEVC_SAO_DBG_DATA_0 (volatile unsigned int *)((0x3630 << 2) + 0xff620000) +#define HEVC_SAO_DBG_DATA_1 (0x3631) +#define P_HEVC_SAO_DBG_DATA_1 (volatile unsigned int *)((0x3631 << 2) + 0xff620000) +#define HEVC_SAO_DBG_DATA_2 (0x3632) +#define P_HEVC_SAO_DBG_DATA_2 (volatile unsigned int *)((0x3632 << 2) + 0xff620000) +#define HEVC_SAO_DBG_DATA_3 (0x3633) +#define P_HEVC_SAO_DBG_DATA_3 (volatile unsigned int *)((0x3633 << 2) + 0xff620000) +#define HEVC_SAO_DBG_DATA_4 (0x3634) +#define P_HEVC_SAO_DBG_DATA_4 (volatile unsigned int *)((0x3634 << 2) + 0xff620000) +#define HEVC_SAO_DBG_DATA_5 (0x3635) +#define P_HEVC_SAO_DBG_DATA_5 (volatile unsigned int *)((0x3635 << 2) + 0xff620000) +#define HEVC_SAO_DBG_DATA_6 (0x3636) +#define P_HEVC_SAO_DBG_DATA_6 (volatile unsigned int *)((0x3636 << 2) + 0xff620000) +#define HEVC_SAO_DBG_DATA_7 (0x3637) +#define P_HEVC_SAO_DBG_DATA_7 (volatile unsigned int *)((0x3637 << 2) + 0xff620000) +#define HEVC_SAO_MMU_WR (0x3638) +#define P_HEVC_SAO_MMU_WR (volatile unsigned int *)((0x3638 << 2) + 0xff620000) +#define HEVC_SAO_MMU_STATUS (0x3639) +#define P_HEVC_SAO_MMU_STATUS (volatile unsigned int *)((0x3639 << 2) + 0xff620000) +//Read Only +//sao_mmu_fifo is 16(depth)x20(bits) +//[0] mmu_fifo_empty 1=empty,0=not-empty +//[1] mmu_fifo_full 1=full,0=not-full +//[7:4] mmu_fifo_depth[3:0] +//[11:8] mmu_fifo_room[3:0] +#define HEVC_SAO_MMU_VH0_ADDR (0x363a) +#define P_HEVC_SAO_MMU_VH0_ADDR (volatile unsigned int *)((0x363a << 2) + 0xff620000) +#define HEVC_SAO_MMU_VH1_ADDR (0x363b) +#define P_HEVC_SAO_MMU_VH1_ADDR (volatile unsigned int *)((0x363b << 2) + 0xff620000) +#define HEVC_SAO_MMU_WPTR (0x363c) +#define P_HEVC_SAO_MMU_WPTR (volatile unsigned int *)((0x363c << 2) + 0xff620000) +#define HEVC_SAO_MMU_RPTR (0x363d) +#define P_HEVC_SAO_MMU_RPTR (volatile unsigned int *)((0x363d << 2) + 0xff620000) +// +// Closing file: hevc_sao_regs.h +// +//------------------------------------------------------------------------------ +// HEVC_IQIT module level register offset +//------------------------------------------------------------------------------ +// +// Reading file: hevc_iqit_regs.h +// +// ----------------------------------------------- +// CBUS_BASE: DOS_HEVC_IQIT_CBUS_BASE = 0x07 +// ----------------------------------------------- +// [ 2] RW en_freeclk. 0=Auto-gated clock for saving power; +// 1=Free running clock if something wrong with auto-gating. +// Default 0. +// [ 1] RW enable_clk. 0=Disable clock; 1=Enable clock. Default 0. +#define HEVC_IQIT_CLK_RST_CTRL (0x3700) +#define P_HEVC_IQIT_CLK_RST_CTRL (volatile unsigned int *)((0x3700 << 2) + 0xff620000) +// [ 5: 4] RW ctb_size. 0=8x8; 1=16x16; 2=32x32; 3=64x64. Default 0. +// [ 3] RW itr_skip_mode. For dealing with discrepancy between Spec and C model for transform_skip. +// 0=Follow Spec; 1=Follow C model. Default 0. +// [ 2] RW scalelist_mode. Applicable only when scalelist_en=1. +// 0=Use default scaling factor list; +// 1=Use scaling factor list define in bit stream. +// Default 0. +// [ 1] RW scalelist_en. 0=Use flat scale; 1=Use scaling factor list. Default 0. +// [ 0] RW diagscan_en. 0=Linear lookup dQ table; 1=Diagonally lookup dQ table. Default 0. +#define HEVC_IQIT_DEQUANT_CTRL (0x3701) +#define P_HEVC_IQIT_DEQUANT_CTRL (volatile unsigned int *)((0x3701 << 2) + 0xff620000) +// [31:10] WR Reserved. Default 0. +// [ 9: 0] WR scalelut_addr. Default 0. +#define HEVC_IQIT_SCALELUT_WR_ADDR (0x3702) +#define P_HEVC_IQIT_SCALELUT_WR_ADDR (volatile unsigned int *)((0x3702 << 2) + 0xff620000) +// [31:10] RD Reserved. Default 0. +// [ 9: 0] RD scalelut_addr. Default 0. +#define HEVC_IQIT_SCALELUT_RD_ADDR (0x3703) +#define P_HEVC_IQIT_SCALELUT_RD_ADDR (volatile unsigned int *)((0x3703 << 2) + 0xff620000) +// [ 7: 0] RW LUT data. +#define HEVC_IQIT_SCALELUT_DATA (0x3704) +#define P_HEVC_IQIT_SCALELUT_DATA (volatile unsigned int *)((0x3704 << 2) + 0xff620000) +//--------------------------------------------------- +// tab_idx [2:0] - +// 0-5 use custom table index +// 6 - reserved +// 7 - use default table +//--------------------------------------------------- +// [22:20] 4x4 tab 5 +// [ 19] reserved +// [18:16] 4x4 tab 4 +// [ 15] reserved +// [14:12] 4x4 tab 3 +// [ 11] reserved +// [10: 8] 4x4 tab 2 +// [ 7] reserved +// [ 6: 4] 4x4 tab 1 +// [ 3] reserved +// [ 2: 0] 4x4 tab 0 +#define HEVC_IQIT_SCALELUT_IDX_4 (0x3705) +#define P_HEVC_IQIT_SCALELUT_IDX_4 (volatile unsigned int *)((0x3705 << 2) + 0xff620000) +// [22:20] 8x8 tab 5 +// [ 19] reserved +// [18:16] 8x8 tab 4 +// [ 15] reserved +// [14:12] 8x8 tab 3 +// [ 11] reserved +// [10: 8] 8x8 tab 2 +// [ 7] reserved +// [ 6: 4] 8x8 tab 1 +// [ 3] reserved +// [ 2: 0] 8x8 tab 0 +#define HEVC_IQIT_SCALELUT_IDX_8 (0x3706) +#define P_HEVC_IQIT_SCALELUT_IDX_8 (volatile unsigned int *)((0x3706 << 2) + 0xff620000) +// [ 31] reserved +// [30:28] 32x32 tab 1 +// [ 27] reserved +// [26:24] 32x32 tab 0 +// [ 23] reserved +// [22:20] 16x16 tab 5 +// [ 19] reserved +// [18:16] 16x16 tab 4 +// [ 15] reserved +// [14:12] 16x16 tab 3 +// [ 11] reserved +// [10: 8] 16x16 tab 2 +// [ 7] reserved +// [ 6: 4] 16x16 tab 1 +// [ 3] reserved +// [ 2: 0] 16x16 tab 0 +#define HEVC_IQIT_SCALELUT_IDX_16_32 (0x3707) +#define P_HEVC_IQIT_SCALELUT_IDX_16_32 (volatile unsigned int *)((0x3707 << 2) + 0xff620000) +// [ 8: 2] R tuinfo_fifo_cnt. +// [ 1] R fifo_has_room. +// [ 0] R mem_init_done. +#define HEVC_IQIT_STAT_GEN0 (0x3708) +#define P_HEVC_IQIT_STAT_GEN0 (volatile unsigned int *)((0x3708 << 2) + 0xff620000) +// [ 23] RW cntl_qp_cr_valid. +// [21:16] RW cntl_qp_cr. +// [ 15] RW cntl_qp_cb_valid. +// [13: 8] RW cntl_qp_cb. +// [ 7] RW cntl_qp_y_valid. +// [ 5: 0] RW cntl_qp_y. +#define HEVC_QP_WRITE (0x3709) +#define P_HEVC_QP_WRITE (volatile unsigned int *)((0x3709 << 2) + 0xff620000) +// [31:30] R ipp_size. +// [28:24] R ipp_mem_ptr. +// [23:22] R itr2_size. +// [20:16] R itr2_mem_ptr. +// [15:14] R itr1_size. +// [12: 8] R itr1_mem_ptr. +// [ 7: 6] R iq_size. +// [ 4: 0] R iq_mem_ptr. +#define HEVC_IQIT_STAT_GEN1 (0x370a) +#define P_HEVC_IQIT_STAT_GEN1 (volatile unsigned int *)((0x370a << 2) + 0xff620000) +// [ 5: 4] RW cntl_bitdepth_c. 0=8-bit; 1=9-bit; 2=10-bit. +// [ 1: 0] RW cntl_bitdepth_y. 0=8-bit; 1=9-bit; 2=10-bit. +#define HEVC_IQIT_BITDEPTH (0x370b) +#define P_HEVC_IQIT_BITDEPTH (volatile unsigned int *)((0x370b << 2) + 0xff620000) +// [ 10] R ipp_active. +// [ 9] R itr2_active. +// [ 8] R itr1_active. +// [ 5: 0] R mem_spare_num. +#define HEVC_IQIT_STAT_GEN2 (0x370c) +#define P_HEVC_IQIT_STAT_GEN2 (volatile unsigned int *)((0x370c << 2) + 0xff620000) +#define HEVC_IQIT_AVS2_WQP_0123 (0x370d) +#define P_HEVC_IQIT_AVS2_WQP_0123 (volatile unsigned int *)((0x370d << 2) + 0xff620000) +#define HEVC_IQIT_AVS2_WQP_45 (0x370e) +#define P_HEVC_IQIT_AVS2_WQP_45 (volatile unsigned int *)((0x370e << 2) + 0xff620000) +#define HEVC_IQIT_AVS2_QP_DELTA (0x370f) +#define P_HEVC_IQIT_AVS2_QP_DELTA (volatile unsigned int *)((0x370f << 2) + 0xff620000) +// +// Closing file: hevc_iqit_regs.h +// +//------------------------------------------------------------------------------ +// DOS top-level register offset +//------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: DOS_TOP_CBUS_BASE = 0x3f +// ----------------------------------------------- +// [0] reserved +// [1] Reset Dos top level registers, except sw_reset0/1/2 which is only reset by external reset_n. +// [2] VDEC1 Reset assist, mdec's CBUS +// [3] VDEC1 Reset mdec's VLD +// [4] VDEC1 Reset mdec's VLD +// [5] VDEC1 Reset mdec's VLD +// [6] VDEC1 Reset mdec's IQIDCT +// [7] VDEC1 Reset mdec's MC +// [8] VDEC1 Reset mdec's DBLK +// [9] VDEC1 Reset mdec's PIC_DC +// [10] VDEC1 Reset mdec's Pscale +// [11] VDEC1 Reset vcpu's MCPU +// [12] VDEC1 Reset vcpu's CCPU +// [13] VDEC1 Reset mmc_pre_arb +#define DOS_SW_RESET0 (0x3f00) +#define P_DOS_SW_RESET0 (volatile unsigned int *)((0x3f00 << 2) + 0xff620000) +// [31:27] reserved +// [26] hcodec clk_en for henc assist +// [25:22] reserved +// [21] hcodec clk_en for henc qdct +// [20] hcodec clk_en for henc vlc +// [19] hcodec clk_en for assist and cbus +// [18] hcodec clk_en for ddr +// [17] hcodec clk_en for vcpu +// [16] hcodec clk_en for hdec assist +// [15] hcodec clk_en for hdec dblk +// [14] reserved +// [13] hcodec clk_en for hdec mc +// [12] hcodec clk_en for hdec pic_dc +// [11:10] reserved +// [9] vdec clk_en for vdec assist and cbus +// [8] vdec clk_en for ddr +// [7] vdec clk_en for vcpu +// [6] vdec clk_en for mdec vld +// [5] vdec clk_en for mdec psc +// [4] vdec clk_en for mdec pic_dc +// [3] vdec clk_en for mdec mc +// [2] vdec clk_en for mdec iqidct +// [1] vdec clk_en for mdec dblk +// [0] vdec clk_en for mdec assist +#define DOS_GCLK_EN0 (0x3f01) +#define P_DOS_GCLK_EN0 (volatile unsigned int *)((0x3f01 << 2) + 0xff620000) +#define DOS_GEN_CTRL0 (0x3f02) +#define P_DOS_GEN_CTRL0 (volatile unsigned int *)((0x3f02 << 2) + 0xff620000) +#define DOS_APB_ERR_CTRL (0x3f03) +#define P_DOS_APB_ERR_CTRL (volatile unsigned int *)((0x3f03 << 2) + 0xff620000) +#define DOS_APB_ERR_STAT (0x3f04) +#define P_DOS_APB_ERR_STAT (volatile unsigned int *)((0x3f04 << 2) + 0xff620000) +#define DOS_VDEC_INT_EN (0x3f05) +#define P_DOS_VDEC_INT_EN (volatile unsigned int *)((0x3f05 << 2) + 0xff620000) +#define DOS_HCODEC_INT_EN (0x3f06) +#define P_DOS_HCODEC_INT_EN (volatile unsigned int *)((0x3f06 << 2) + 0xff620000) +// [0] Reserved +// [1] Reserved +// [2] HCODEC Reset assist, hdec's CBUS +// [3] HCODEC Reset hdec's VLD +// [4] HCODEC Reset hdec's VLD +// [5] HCODEC Reset hdec's VLD +// [6] HCODEC Reset hdec's IQIDCT +// [7] HCODEC Reset hdec's MC +// [8] HCODEC Reset hdec's DBLK +// [9] HCODEC Reset hdec's PIC_DC +// [10] HCODEC Reset hdec's Pscale +// [11] HCODEC Reset vcpu's MCPU +// [12] HCODEC Reset vcpu's CCPU +// [13] HCODEC Reset mmc_pre_arb +// [14] HCODEC Reserved +// [15] HCODEC Reserved +// [16] HCODEC Reset henc's VLC +#define DOS_SW_RESET1 (0x3f07) +#define P_DOS_SW_RESET1 (volatile unsigned int *)((0x3f07 << 2) + 0xff620000) +// [0] Reserved +// [1] Reserved +// [2] VDEC2 Reset assist, mdec's CBUS +// [3] VDEC2 Reset mdec's VLD +// [4] VDEC2 Reset mdec's VLD +// [5] VDEC2 Reset mdec's VLD +// [6] VDEC2 Reset mdec's IQIDCT +// [7] VDEC2 Reset mdec's MC +// [8] VDEC2 Reset mdec's DBLK +// [9] VDEC2 Reset mdec's PIC_DC +// [10] VDEC2 Reset mdec's Pscale +// [11] VDEC2 Reset vcpu's MCPU +// [12] VDEC2 Reset vcpu's CCPU +// [13] VDEC2 Reset mmc_pre_arb +#define DOS_SW_RESET2 (0x3f08) +#define P_DOS_SW_RESET2 (volatile unsigned int *)((0x3f08 << 2) + 0xff620000) +// [31:10] Reserved +// [9] vdec2 clk_en for assist and cbus. +// [8] vdec2 clk_en for ddr; +// [7] vdec2 clk_en for vcpu; +// [6] vdec2 clk_en for mdec vld +// [5] vdec2 clk_en for mdec psc +// [4] vdec2 clk_en for mdec pic_dc +// [3] vdec2 clk_en for mdec mc +// [2] vdec2 clk_en for mdec iqidct +// [1] vdec2 clk_en for mdec dblk +// [0] vdec2 clk_en for mdec assist +#define DOS_GCLK_EN1 (0x3f09) +#define P_DOS_GCLK_EN1 (volatile unsigned int *)((0x3f09 << 2) + 0xff620000) +#define DOS_VDEC2_INT_EN (0x3f0a) +#define P_DOS_VDEC2_INT_EN (volatile unsigned int *)((0x3f0a << 2) + 0xff620000) +#define DOS_VDIN_LCNT (0x3f0b) +#define P_DOS_VDIN_LCNT (volatile unsigned int *)((0x3f0b << 2) + 0xff620000) +#define DOS_VDIN_FCNT (0x3f0c) +#define P_DOS_VDIN_FCNT (volatile unsigned int *)((0x3f0c << 2) + 0xff620000) +#define DOS_VDIN_CCTL (0x3f0d) +#define P_DOS_VDIN_CCTL (volatile unsigned int *)((0x3f0d << 2) + 0xff620000) +#define DOS_SCRATCH0 (0x3f10) +#define P_DOS_SCRATCH0 (volatile unsigned int *)((0x3f10 << 2) + 0xff620000) +#define DOS_SCRATCH1 (0x3f11) +#define P_DOS_SCRATCH1 (volatile unsigned int *)((0x3f11 << 2) + 0xff620000) +#define DOS_SCRATCH2 (0x3f12) +#define P_DOS_SCRATCH2 (volatile unsigned int *)((0x3f12 << 2) + 0xff620000) +#define DOS_SCRATCH3 (0x3f13) +#define P_DOS_SCRATCH3 (volatile unsigned int *)((0x3f13 << 2) + 0xff620000) +#define DOS_SCRATCH4 (0x3f14) +#define P_DOS_SCRATCH4 (volatile unsigned int *)((0x3f14 << 2) + 0xff620000) +#define DOS_SCRATCH5 (0x3f15) +#define P_DOS_SCRATCH5 (volatile unsigned int *)((0x3f15 << 2) + 0xff620000) +#define DOS_SCRATCH6 (0x3f16) +#define P_DOS_SCRATCH6 (volatile unsigned int *)((0x3f16 << 2) + 0xff620000) +#define DOS_SCRATCH7 (0x3f17) +#define P_DOS_SCRATCH7 (volatile unsigned int *)((0x3f17 << 2) + 0xff620000) +#define DOS_SCRATCH8 (0x3f18) +#define P_DOS_SCRATCH8 (volatile unsigned int *)((0x3f18 << 2) + 0xff620000) +#define DOS_SCRATCH9 (0x3f19) +#define P_DOS_SCRATCH9 (volatile unsigned int *)((0x3f19 << 2) + 0xff620000) +#define DOS_SCRATCH10 (0x3f1a) +#define P_DOS_SCRATCH10 (volatile unsigned int *)((0x3f1a << 2) + 0xff620000) +#define DOS_SCRATCH11 (0x3f1b) +#define P_DOS_SCRATCH11 (volatile unsigned int *)((0x3f1b << 2) + 0xff620000) +#define DOS_SCRATCH12 (0x3f1c) +#define P_DOS_SCRATCH12 (volatile unsigned int *)((0x3f1c << 2) + 0xff620000) +#define DOS_SCRATCH13 (0x3f1d) +#define P_DOS_SCRATCH13 (volatile unsigned int *)((0x3f1d << 2) + 0xff620000) +#define DOS_SCRATCH14 (0x3f1e) +#define P_DOS_SCRATCH14 (volatile unsigned int *)((0x3f1e << 2) + 0xff620000) +#define DOS_SCRATCH15 (0x3f1f) +#define P_DOS_SCRATCH15 (volatile unsigned int *)((0x3f1f << 2) + 0xff620000) +#define DOS_SCRATCH16 (0x3f20) +#define P_DOS_SCRATCH16 (volatile unsigned int *)((0x3f20 << 2) + 0xff620000) +#define DOS_SCRATCH17 (0x3f21) +#define P_DOS_SCRATCH17 (volatile unsigned int *)((0x3f21 << 2) + 0xff620000) +#define DOS_SCRATCH18 (0x3f22) +#define P_DOS_SCRATCH18 (volatile unsigned int *)((0x3f22 << 2) + 0xff620000) +#define DOS_SCRATCH19 (0x3f23) +#define P_DOS_SCRATCH19 (volatile unsigned int *)((0x3f23 << 2) + 0xff620000) +#define DOS_SCRATCH20 (0x3f24) +#define P_DOS_SCRATCH20 (volatile unsigned int *)((0x3f24 << 2) + 0xff620000) +#define DOS_SCRATCH21 (0x3f25) +#define P_DOS_SCRATCH21 (volatile unsigned int *)((0x3f25 << 2) + 0xff620000) +#define DOS_SCRATCH22 (0x3f26) +#define P_DOS_SCRATCH22 (volatile unsigned int *)((0x3f26 << 2) + 0xff620000) +#define DOS_SCRATCH23 (0x3f27) +#define P_DOS_SCRATCH23 (volatile unsigned int *)((0x3f27 << 2) + 0xff620000) +#define DOS_SCRATCH24 (0x3f28) +#define P_DOS_SCRATCH24 (volatile unsigned int *)((0x3f28 << 2) + 0xff620000) +#define DOS_SCRATCH25 (0x3f29) +#define P_DOS_SCRATCH25 (volatile unsigned int *)((0x3f29 << 2) + 0xff620000) +#define DOS_SCRATCH26 (0x3f2a) +#define P_DOS_SCRATCH26 (volatile unsigned int *)((0x3f2a << 2) + 0xff620000) +#define DOS_SCRATCH27 (0x3f2b) +#define P_DOS_SCRATCH27 (volatile unsigned int *)((0x3f2b << 2) + 0xff620000) +#define DOS_SCRATCH28 (0x3f2c) +#define P_DOS_SCRATCH28 (volatile unsigned int *)((0x3f2c << 2) + 0xff620000) +#define DOS_SCRATCH29 (0x3f2d) +#define P_DOS_SCRATCH29 (volatile unsigned int *)((0x3f2d << 2) + 0xff620000) +#define DOS_SCRATCH30 (0x3f2e) +#define P_DOS_SCRATCH30 (volatile unsigned int *)((0x3f2e << 2) + 0xff620000) +#define DOS_SCRATCH31 (0x3f2f) +#define P_DOS_SCRATCH31 (volatile unsigned int *)((0x3f2f << 2) + 0xff620000) +#define DOS_MEM_PD_VDEC (0x3f30) +#define P_DOS_MEM_PD_VDEC (volatile unsigned int *)((0x3f30 << 2) + 0xff620000) +#define DOS_MEM_PD_VDEC2 (0x3f31) +#define P_DOS_MEM_PD_VDEC2 (volatile unsigned int *)((0x3f31 << 2) + 0xff620000) +#define DOS_MEM_PD_HCODEC (0x3f32) +#define P_DOS_MEM_PD_HCODEC (volatile unsigned int *)((0x3f32 << 2) + 0xff620000) +#define DOS_MEM_PD_HEVC (0x3f33) +#define P_DOS_MEM_PD_HEVC (volatile unsigned int *)((0x3f33 << 2) + 0xff620000) +#define DOS_SW_RESET3 (0x3f34) +#define P_DOS_SW_RESET3 (volatile unsigned int *)((0x3f34 << 2) + 0xff620000) +#define DOS_GCLK_EN3 (0x3f35) +#define P_DOS_GCLK_EN3 (volatile unsigned int *)((0x3f35 << 2) + 0xff620000) +#define DOS_HEVC_INT_EN (0x3f36) +#define P_DOS_HEVC_INT_EN (volatile unsigned int *)((0x3f36 << 2) + 0xff620000) +#define DOS_SW_RESET4 (0x3f37) +#define P_DOS_SW_RESET4 (volatile unsigned int *)((0x3f37 << 2) + 0xff620000) +#define DOS_GCLK_EN4 (0x3f38) +#define P_DOS_GCLK_EN4 (volatile unsigned int *)((0x3f38 << 2) + 0xff620000) +#define DOS_MEM_PD_VP9DEC (0x3f39) +#define P_DOS_MEM_PD_VP9DEC (volatile unsigned int *)((0x3f39 << 2) + 0xff620000) +// bit[31] mcrcc_stall_en +// bit[30:28] Reserved +// bit[27:20] target_canvas +// bit[19:10] target_mby +// bit[ 9: 0] target_mbx +#define DOS_VDEC_MCRCC_STALL_CTRL (0x3f40) +#define P_DOS_VDEC_MCRCC_STALL_CTRL (volatile unsigned int *)((0x3f40 << 2) + 0xff620000) +#define DOS_VDEC_MCRCC_STALL2_CTRL (0x3f42) +#define P_DOS_VDEC_MCRCC_STALL2_CTRL (volatile unsigned int *)((0x3f42 << 2) + 0xff620000) +#define DOS_VDEC2_MCRCC_STALL_CTRL (0x3f41) +#define P_DOS_VDEC2_MCRCC_STALL_CTRL (volatile unsigned int *)((0x3f41 << 2) + 0xff620000) +#define DOS_VDEC2_MCRCC_STALL2_CTRL (0x3f43) +#define P_DOS_VDEC2_MCRCC_STALL2_CTRL (volatile unsigned int *)((0x3f43 << 2) + 0xff620000) +// bit[1] s_clk off +// bit[0] m_clk off +#define DOS_CFG_CMPIF_BRIDGE (0x3f44) +#define P_DOS_CFG_CMPIF_BRIDGE (volatile unsigned int *)((0x3f44 << 2) + 0xff620000) +#define DOS_SECURE_CTL_INDEX (0x3f80) +#define P_DOS_SECURE_CTL_INDEX (volatile unsigned int *)((0x3f80 << 2) + 0xff620000) +#define DOS_SECURE_CTL_DATA (0x3f81) +#define P_DOS_SECURE_CTL_DATA (volatile unsigned int *)((0x3f81 << 2) + 0xff620000) +#define DOS_SECURE_REG_NULL (0x3f82) +#define P_DOS_SECURE_REG_NULL (volatile unsigned int *)((0x3f82 << 2) + 0xff620000) +// +// Closing file: ./dos_param.h +// +// +// Reading file: mdec_regs.h +// +//======================================================================== +// MDEC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_MDEC_CBUS_BASE = 0x09 +// ----------------------------------------------- +#define HCODEC_MC_CTRL_REG (0x1900) +#define P_HCODEC_MC_CTRL_REG (volatile unsigned int *)((0x1900 << 2) + 0xff620000) +#define HCODEC_MC_MB_INFO (0x1901) +#define P_HCODEC_MC_MB_INFO (volatile unsigned int *)((0x1901 << 2) + 0xff620000) +#define HCODEC_MC_PIC_INFO (0x1902) +#define P_HCODEC_MC_PIC_INFO (volatile unsigned int *)((0x1902 << 2) + 0xff620000) +#define HCODEC_MC_HALF_PEL_ONE (0x1903) +#define P_HCODEC_MC_HALF_PEL_ONE (volatile unsigned int *)((0x1903 << 2) + 0xff620000) +#define HCODEC_MC_HALF_PEL_TWO (0x1904) +#define P_HCODEC_MC_HALF_PEL_TWO (volatile unsigned int *)((0x1904 << 2) + 0xff620000) +#define HCODEC_POWER_CTL_MC (0x1905) +#define P_HCODEC_POWER_CTL_MC (volatile unsigned int *)((0x1905 << 2) + 0xff620000) +#define HCODEC_MC_CMD (0x1906) +#define P_HCODEC_MC_CMD (volatile unsigned int *)((0x1906 << 2) + 0xff620000) +#define HCODEC_MC_CTRL0 (0x1907) +#define P_HCODEC_MC_CTRL0 (volatile unsigned int *)((0x1907 << 2) + 0xff620000) +#define HCODEC_MC_PIC_W_H (0x1908) +#define P_HCODEC_MC_PIC_W_H (volatile unsigned int *)((0x1908 << 2) + 0xff620000) +#define HCODEC_MC_STATUS0 (0x1909) +#define P_HCODEC_MC_STATUS0 (volatile unsigned int *)((0x1909 << 2) + 0xff620000) +#define HCODEC_MC_STATUS1 (0x190a) +#define P_HCODEC_MC_STATUS1 (volatile unsigned int *)((0x190a << 2) + 0xff620000) +#define HCODEC_MC_CTRL1 (0x190b) +#define P_HCODEC_MC_CTRL1 (volatile unsigned int *)((0x190b << 2) + 0xff620000) +#define HCODEC_MC_MIX_RATIO0 (0x190c) +#define P_HCODEC_MC_MIX_RATIO0 (volatile unsigned int *)((0x190c << 2) + 0xff620000) +#define HCODEC_MC_MIX_RATIO1 (0x190d) +#define P_HCODEC_MC_MIX_RATIO1 (volatile unsigned int *)((0x190d << 2) + 0xff620000) +#define HCODEC_MC_DP_MB_XY (0x190e) +#define P_HCODEC_MC_DP_MB_XY (volatile unsigned int *)((0x190e << 2) + 0xff620000) +#define HCODEC_MC_OM_MB_XY (0x190f) +#define P_HCODEC_MC_OM_MB_XY (volatile unsigned int *)((0x190f << 2) + 0xff620000) +#define HCODEC_PSCALE_RST (0x1910) +#define P_HCODEC_PSCALE_RST (volatile unsigned int *)((0x1910 << 2) + 0xff620000) +#define HCODEC_PSCALE_CTRL (0x1911) +#define P_HCODEC_PSCALE_CTRL (volatile unsigned int *)((0x1911 << 2) + 0xff620000) +#define HCODEC_PSCALE_PICI_W (0x1912) +#define P_HCODEC_PSCALE_PICI_W (volatile unsigned int *)((0x1912 << 2) + 0xff620000) +#define HCODEC_PSCALE_PICI_H (0x1913) +#define P_HCODEC_PSCALE_PICI_H (volatile unsigned int *)((0x1913 << 2) + 0xff620000) +#define HCODEC_PSCALE_PICO_W (0x1914) +#define P_HCODEC_PSCALE_PICO_W (volatile unsigned int *)((0x1914 << 2) + 0xff620000) +#define HCODEC_PSCALE_PICO_H (0x1915) +#define P_HCODEC_PSCALE_PICO_H (volatile unsigned int *)((0x1915 << 2) + 0xff620000) +#define HCODEC_PSCALE_PICO_START_X (0x1916) +#define P_HCODEC_PSCALE_PICO_START_X (volatile unsigned int *)((0x1916 << 2) + 0xff620000) +#define HCODEC_PSCALE_PICO_START_Y (0x1917) +#define P_HCODEC_PSCALE_PICO_START_Y (volatile unsigned int *)((0x1917 << 2) + 0xff620000) +#define HCODEC_PSCALE_DUMMY (0x1918) +#define P_HCODEC_PSCALE_DUMMY (volatile unsigned int *)((0x1918 << 2) + 0xff620000) +#define HCODEC_PSCALE_FILT0_COEF0 (0x1919) +#define P_HCODEC_PSCALE_FILT0_COEF0 (volatile unsigned int *)((0x1919 << 2) + 0xff620000) +#define HCODEC_PSCALE_FILT0_COEF1 (0x191a) +#define P_HCODEC_PSCALE_FILT0_COEF1 (volatile unsigned int *)((0x191a << 2) + 0xff620000) +#define HCODEC_PSCALE_CMD_CTRL (0x191b) +#define P_HCODEC_PSCALE_CMD_CTRL (volatile unsigned int *)((0x191b << 2) + 0xff620000) +#define HCODEC_PSCALE_CMD_BLK_X (0x191c) +#define P_HCODEC_PSCALE_CMD_BLK_X (volatile unsigned int *)((0x191c << 2) + 0xff620000) +#define HCODEC_PSCALE_CMD_BLK_Y (0x191d) +#define P_HCODEC_PSCALE_CMD_BLK_Y (volatile unsigned int *)((0x191d << 2) + 0xff620000) +#define HCODEC_PSCALE_STATUS (0x191e) +#define P_HCODEC_PSCALE_STATUS (volatile unsigned int *)((0x191e << 2) + 0xff620000) +#define HCODEC_PSCALE_BMEM_ADDR (0x191f) +#define P_HCODEC_PSCALE_BMEM_ADDR (volatile unsigned int *)((0x191f << 2) + 0xff620000) +#define HCODEC_PSCALE_BMEM_DAT (0x1920) +#define P_HCODEC_PSCALE_BMEM_DAT (volatile unsigned int *)((0x1920 << 2) + 0xff620000) +#define HCODEC_PSCALE_DRAM_BUF_CTRL (0x1921) +#define P_HCODEC_PSCALE_DRAM_BUF_CTRL (volatile unsigned int *)((0x1921 << 2) + 0xff620000) +#define HCODEC_PSCALE_MCMD_CTRL (0x1922) +#define P_HCODEC_PSCALE_MCMD_CTRL (volatile unsigned int *)((0x1922 << 2) + 0xff620000) +#define HCODEC_PSCALE_MCMD_XSIZE (0x1923) +#define P_HCODEC_PSCALE_MCMD_XSIZE (volatile unsigned int *)((0x1923 << 2) + 0xff620000) +#define HCODEC_PSCALE_MCMD_YSIZE (0x1924) +#define P_HCODEC_PSCALE_MCMD_YSIZE (volatile unsigned int *)((0x1924 << 2) + 0xff620000) +#define HCODEC_PSCALE_RBUF_START_BLKX (0x1925) +#define P_HCODEC_PSCALE_RBUF_START_BLKX (volatile unsigned int *)((0x1925 << 2) + 0xff620000) +#define HCODEC_PSCALE_RBUF_START_BLKY (0x1926) +#define P_HCODEC_PSCALE_RBUF_START_BLKY (volatile unsigned int *)((0x1926 << 2) + 0xff620000) +//`define PSCALE_RBUF_MB_WIDTH 8'h27 +#define HCODEC_PSCALE_PICO_SHIFT_XY (0x1928) +#define P_HCODEC_PSCALE_PICO_SHIFT_XY (volatile unsigned int *)((0x1928 << 2) + 0xff620000) +#define HCODEC_PSCALE_CTRL1 (0x1929) +#define P_HCODEC_PSCALE_CTRL1 (volatile unsigned int *)((0x1929 << 2) + 0xff620000) +//Bit 15, wmask enable +//Bit 14:13, filt0 srckey_less, +//Bit 12:11, filt1 srckey_less, in the case of the interpolated data is equal distance to +//key data and normal data, 00: select normal data, 01: select right data, 10: select key data +//Bit 10:9, srckey mode, 00: equal, 01: less than or equal, 10: great than or equal +//Bit 8, src key enable +//Bit 7:0, y src key +#define HCODEC_PSCALE_SRCKEY_CTRL0 (0x192a) +#define P_HCODEC_PSCALE_SRCKEY_CTRL0 (volatile unsigned int *)((0x192a << 2) + 0xff620000) +//Bit 15:8, cb src key +//Bit 7:0, cr src key +#define HCODEC_PSCALE_SRCKEY_CTRL1 (0x192b) +#define P_HCODEC_PSCALE_SRCKEY_CTRL1 (volatile unsigned int *)((0x192b << 2) + 0xff620000) +//Bit 22:16 canvas_rd_addr2 +//Bit 14:8 canvas_rd_addr1 +//Bit 6:0 canvas_rd_addr1 +#define HCODEC_PSCALE_CANVAS_RD_ADDR (0x192c) +#define P_HCODEC_PSCALE_CANVAS_RD_ADDR (volatile unsigned int *)((0x192c << 2) + 0xff620000) +//Bit 22:16 canvas_wr_addr2 +//Bit 14:8 canvas_wr_addr1 +//Bit 6:0 canvas_wr_addr1 +#define HCODEC_PSCALE_CANVAS_WR_ADDR (0x192d) +#define P_HCODEC_PSCALE_CANVAS_WR_ADDR (volatile unsigned int *)((0x192d << 2) + 0xff620000) +//bit 13:8 pscale thread ID and token +//bit 7 disable write response count adding to busy bit +//bit 5:0 pscale prearbitor burst num +#define HCODEC_PSCALE_CTRL2 (0x192e) +#define P_HCODEC_PSCALE_CTRL2 (volatile unsigned int *)((0x192e << 2) + 0xff620000) +// 31 - use_omem_mb_xy_auto +//23:16 - omem_max_mb_x +//15:8 - omem_mb_y_auto +// 7:0 - omem_mb_x_auto +#define HCODEC_HDEC_MC_OMEM_AUTO (0x1930) +#define P_HCODEC_HDEC_MC_OMEM_AUTO (volatile unsigned int *)((0x1930 << 2) + 0xff620000) +#define HCODEC_HDEC_MC_MBRIGHT_IDX (0x1931) +#define P_HCODEC_HDEC_MC_MBRIGHT_IDX (volatile unsigned int *)((0x1931 << 2) + 0xff620000) +#define HCODEC_HDEC_MC_MBRIGHT_RD (0x1932) +#define P_HCODEC_HDEC_MC_MBRIGHT_RD (volatile unsigned int *)((0x1932 << 2) + 0xff620000) +#define HCODEC_MC_MPORT_CTRL (0x1940) +#define P_HCODEC_MC_MPORT_CTRL (volatile unsigned int *)((0x1940 << 2) + 0xff620000) +#define HCODEC_MC_MPORT_DAT (0x1941) +#define P_HCODEC_MC_MPORT_DAT (volatile unsigned int *)((0x1941 << 2) + 0xff620000) +#define HCODEC_MC_WT_PRED_CTRL (0x1942) +#define P_HCODEC_MC_WT_PRED_CTRL (volatile unsigned int *)((0x1942 << 2) + 0xff620000) +#define HCODEC_MC_MBBOT_ST_EVEN_ADDR (0x1944) +#define P_HCODEC_MC_MBBOT_ST_EVEN_ADDR (volatile unsigned int *)((0x1944 << 2) + 0xff620000) +#define HCODEC_MC_MBBOT_ST_ODD_ADDR (0x1945) +#define P_HCODEC_MC_MBBOT_ST_ODD_ADDR (volatile unsigned int *)((0x1945 << 2) + 0xff620000) +#define HCODEC_MC_DPDN_MB_XY (0x1946) +#define P_HCODEC_MC_DPDN_MB_XY (volatile unsigned int *)((0x1946 << 2) + 0xff620000) +#define HCODEC_MC_OMDN_MB_XY (0x1947) +#define P_HCODEC_MC_OMDN_MB_XY (volatile unsigned int *)((0x1947 << 2) + 0xff620000) +#define HCODEC_MC_HCMDBUF_H (0x1948) +#define P_HCODEC_MC_HCMDBUF_H (volatile unsigned int *)((0x1948 << 2) + 0xff620000) +#define HCODEC_MC_HCMDBUF_L (0x1949) +#define P_HCODEC_MC_HCMDBUF_L (volatile unsigned int *)((0x1949 << 2) + 0xff620000) +#define HCODEC_MC_HCMD_H (0x194a) +#define P_HCODEC_MC_HCMD_H (volatile unsigned int *)((0x194a << 2) + 0xff620000) +#define HCODEC_MC_HCMD_L (0x194b) +#define P_HCODEC_MC_HCMD_L (volatile unsigned int *)((0x194b << 2) + 0xff620000) +#define HCODEC_MC_IDCT_DAT (0x194c) +#define P_HCODEC_MC_IDCT_DAT (volatile unsigned int *)((0x194c << 2) + 0xff620000) +#define HCODEC_MC_CTRL_GCLK_CTRL (0x194d) +#define P_HCODEC_MC_CTRL_GCLK_CTRL (volatile unsigned int *)((0x194d << 2) + 0xff620000) +#define HCODEC_MC_OTHER_GCLK_CTRL (0x194e) +#define P_HCODEC_MC_OTHER_GCLK_CTRL (volatile unsigned int *)((0x194e << 2) + 0xff620000) +//Bit 29:24, mbbot thread ID and token +//Bit 21:16, mc read/write thread ID and token +//Bit 13:8, mbbot pre-arbitor burst number +//Bit 5:0, mc pre-arbitor burst number +#define HCODEC_MC_CTRL2 (0x194f) +#define P_HCODEC_MC_CTRL2 (volatile unsigned int *)((0x194f << 2) + 0xff620000) +// `define DBLK_QUANT 8'h76 // ONLY for $ucode/real/amrisc/rv.s, reg value from apollo +//`define ANC1_CANVAS_ADDR 8'h80 +//`define ANC2_CANVAS_ADDR 8'h81 +//`define REC_CANVAS_ADDR 8'h89 +//`define MDEC_PIC_W 8'h8c +//`define MDEC_PIC_H 8'h8d +// mdec_pic_dc_mux_ctrl[31] -- mcr_hevc_mode +#define HCODEC_MDEC_PIC_DC_MUX_CTRL (0x198d) +#define P_HCODEC_MDEC_PIC_DC_MUX_CTRL (volatile unsigned int *)((0x198d << 2) + 0xff620000) +#define HCODEC_MDEC_PIC_DC_CTRL (0x198e) +#define P_HCODEC_MDEC_PIC_DC_CTRL (volatile unsigned int *)((0x198e << 2) + 0xff620000) +#define HCODEC_MDEC_PIC_DC_STATUS (0x198f) +#define P_HCODEC_MDEC_PIC_DC_STATUS (volatile unsigned int *)((0x198f << 2) + 0xff620000) +#define HCODEC_ANC0_CANVAS_ADDR (0x1990) +#define P_HCODEC_ANC0_CANVAS_ADDR (volatile unsigned int *)((0x1990 << 2) + 0xff620000) +#define HCODEC_ANC1_CANVAS_ADDR (0x1991) +#define P_HCODEC_ANC1_CANVAS_ADDR (volatile unsigned int *)((0x1991 << 2) + 0xff620000) +#define HCODEC_ANC2_CANVAS_ADDR (0x1992) +#define P_HCODEC_ANC2_CANVAS_ADDR (volatile unsigned int *)((0x1992 << 2) + 0xff620000) +#define HCODEC_ANC3_CANVAS_ADDR (0x1993) +#define P_HCODEC_ANC3_CANVAS_ADDR (volatile unsigned int *)((0x1993 << 2) + 0xff620000) +#define HCODEC_ANC4_CANVAS_ADDR (0x1994) +#define P_HCODEC_ANC4_CANVAS_ADDR (volatile unsigned int *)((0x1994 << 2) + 0xff620000) +#define HCODEC_ANC5_CANVAS_ADDR (0x1995) +#define P_HCODEC_ANC5_CANVAS_ADDR (volatile unsigned int *)((0x1995 << 2) + 0xff620000) +#define HCODEC_ANC6_CANVAS_ADDR (0x1996) +#define P_HCODEC_ANC6_CANVAS_ADDR (volatile unsigned int *)((0x1996 << 2) + 0xff620000) +#define HCODEC_ANC7_CANVAS_ADDR (0x1997) +#define P_HCODEC_ANC7_CANVAS_ADDR (volatile unsigned int *)((0x1997 << 2) + 0xff620000) +#define HCODEC_ANC8_CANVAS_ADDR (0x1998) +#define P_HCODEC_ANC8_CANVAS_ADDR (volatile unsigned int *)((0x1998 << 2) + 0xff620000) +#define HCODEC_ANC9_CANVAS_ADDR (0x1999) +#define P_HCODEC_ANC9_CANVAS_ADDR (volatile unsigned int *)((0x1999 << 2) + 0xff620000) +#define HCODEC_ANC10_CANVAS_ADDR (0x199a) +#define P_HCODEC_ANC10_CANVAS_ADDR (volatile unsigned int *)((0x199a << 2) + 0xff620000) +#define HCODEC_ANC11_CANVAS_ADDR (0x199b) +#define P_HCODEC_ANC11_CANVAS_ADDR (volatile unsigned int *)((0x199b << 2) + 0xff620000) +#define HCODEC_ANC12_CANVAS_ADDR (0x199c) +#define P_HCODEC_ANC12_CANVAS_ADDR (volatile unsigned int *)((0x199c << 2) + 0xff620000) +#define HCODEC_ANC13_CANVAS_ADDR (0x199d) +#define P_HCODEC_ANC13_CANVAS_ADDR (volatile unsigned int *)((0x199d << 2) + 0xff620000) +#define HCODEC_ANC14_CANVAS_ADDR (0x199e) +#define P_HCODEC_ANC14_CANVAS_ADDR (volatile unsigned int *)((0x199e << 2) + 0xff620000) +#define HCODEC_ANC15_CANVAS_ADDR (0x199f) +#define P_HCODEC_ANC15_CANVAS_ADDR (volatile unsigned int *)((0x199f << 2) + 0xff620000) +#define HCODEC_ANC16_CANVAS_ADDR (0x19a0) +#define P_HCODEC_ANC16_CANVAS_ADDR (volatile unsigned int *)((0x19a0 << 2) + 0xff620000) +#define HCODEC_ANC17_CANVAS_ADDR (0x19a1) +#define P_HCODEC_ANC17_CANVAS_ADDR (volatile unsigned int *)((0x19a1 << 2) + 0xff620000) +#define HCODEC_ANC18_CANVAS_ADDR (0x19a2) +#define P_HCODEC_ANC18_CANVAS_ADDR (volatile unsigned int *)((0x19a2 << 2) + 0xff620000) +#define HCODEC_ANC19_CANVAS_ADDR (0x19a3) +#define P_HCODEC_ANC19_CANVAS_ADDR (volatile unsigned int *)((0x19a3 << 2) + 0xff620000) +#define HCODEC_ANC20_CANVAS_ADDR (0x19a4) +#define P_HCODEC_ANC20_CANVAS_ADDR (volatile unsigned int *)((0x19a4 << 2) + 0xff620000) +#define HCODEC_ANC21_CANVAS_ADDR (0x19a5) +#define P_HCODEC_ANC21_CANVAS_ADDR (volatile unsigned int *)((0x19a5 << 2) + 0xff620000) +#define HCODEC_ANC22_CANVAS_ADDR (0x19a6) +#define P_HCODEC_ANC22_CANVAS_ADDR (volatile unsigned int *)((0x19a6 << 2) + 0xff620000) +#define HCODEC_ANC23_CANVAS_ADDR (0x19a7) +#define P_HCODEC_ANC23_CANVAS_ADDR (volatile unsigned int *)((0x19a7 << 2) + 0xff620000) +#define HCODEC_ANC24_CANVAS_ADDR (0x19a8) +#define P_HCODEC_ANC24_CANVAS_ADDR (volatile unsigned int *)((0x19a8 << 2) + 0xff620000) +#define HCODEC_ANC25_CANVAS_ADDR (0x19a9) +#define P_HCODEC_ANC25_CANVAS_ADDR (volatile unsigned int *)((0x19a9 << 2) + 0xff620000) +#define HCODEC_ANC26_CANVAS_ADDR (0x19aa) +#define P_HCODEC_ANC26_CANVAS_ADDR (volatile unsigned int *)((0x19aa << 2) + 0xff620000) +#define HCODEC_ANC27_CANVAS_ADDR (0x19ab) +#define P_HCODEC_ANC27_CANVAS_ADDR (volatile unsigned int *)((0x19ab << 2) + 0xff620000) +#define HCODEC_ANC28_CANVAS_ADDR (0x19ac) +#define P_HCODEC_ANC28_CANVAS_ADDR (volatile unsigned int *)((0x19ac << 2) + 0xff620000) +#define HCODEC_ANC29_CANVAS_ADDR (0x19ad) +#define P_HCODEC_ANC29_CANVAS_ADDR (volatile unsigned int *)((0x19ad << 2) + 0xff620000) +#define HCODEC_ANC30_CANVAS_ADDR (0x19ae) +#define P_HCODEC_ANC30_CANVAS_ADDR (volatile unsigned int *)((0x19ae << 2) + 0xff620000) +#define HCODEC_ANC31_CANVAS_ADDR (0x19af) +#define P_HCODEC_ANC31_CANVAS_ADDR (volatile unsigned int *)((0x19af << 2) + 0xff620000) +#define HCODEC_DBKR_CANVAS_ADDR (0x19b0) +#define P_HCODEC_DBKR_CANVAS_ADDR (volatile unsigned int *)((0x19b0 << 2) + 0xff620000) +#define HCODEC_DBKW_CANVAS_ADDR (0x19b1) +#define P_HCODEC_DBKW_CANVAS_ADDR (volatile unsigned int *)((0x19b1 << 2) + 0xff620000) +#define HCODEC_REC_CANVAS_ADDR (0x19b2) +#define P_HCODEC_REC_CANVAS_ADDR (volatile unsigned int *)((0x19b2 << 2) + 0xff620000) +//28:24, read/write, current canvas idx, used in h264 only now +//23:0, read only, current canvas address, 23:16, Cr canvas addr, 15:8, Cb canvas addr, 7:0, Y canvas addr +#define HCODEC_CURR_CANVAS_CTRL (0x19b3) +#define P_HCODEC_CURR_CANVAS_CTRL (volatile unsigned int *)((0x19b3 << 2) + 0xff620000) +#define HCODEC_MDEC_PIC_DC_THRESH (0x19b8) +#define P_HCODEC_MDEC_PIC_DC_THRESH (volatile unsigned int *)((0x19b8 << 2) + 0xff620000) +#define HCODEC_MDEC_PICR_BUF_STATUS (0x19b9) +#define P_HCODEC_MDEC_PICR_BUF_STATUS (volatile unsigned int *)((0x19b9 << 2) + 0xff620000) +#define HCODEC_MDEC_PICW_BUF_STATUS (0x19ba) +#define P_HCODEC_MDEC_PICW_BUF_STATUS (volatile unsigned int *)((0x19ba << 2) + 0xff620000) +#define HCODEC_MCW_DBLK_WRRSP_CNT (0x19bb) +#define P_HCODEC_MCW_DBLK_WRRSP_CNT (volatile unsigned int *)((0x19bb << 2) + 0xff620000) +#define HCODEC_MC_MBBOT_WRRSP_CNT (0x19bc) +#define P_HCODEC_MC_MBBOT_WRRSP_CNT (volatile unsigned int *)((0x19bc << 2) + 0xff620000) +#define HCODEC_MDEC_PICW_BUF2_STATUS (0x19bd) +#define P_HCODEC_MDEC_PICW_BUF2_STATUS (volatile unsigned int *)((0x19bd << 2) + 0xff620000) +#define HCODEC_WRRSP_FIFO_PICW_DBK (0x19be) +#define P_HCODEC_WRRSP_FIFO_PICW_DBK (volatile unsigned int *)((0x19be << 2) + 0xff620000) +#define HCODEC_WRRSP_FIFO_PICW_MC (0x19bf) +#define P_HCODEC_WRRSP_FIFO_PICW_MC (volatile unsigned int *)((0x19bf << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_0 (0x19c0) +#define P_HCODEC_AV_SCRATCH_0 (volatile unsigned int *)((0x19c0 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_1 (0x19c1) +#define P_HCODEC_AV_SCRATCH_1 (volatile unsigned int *)((0x19c1 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_2 (0x19c2) +#define P_HCODEC_AV_SCRATCH_2 (volatile unsigned int *)((0x19c2 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_3 (0x19c3) +#define P_HCODEC_AV_SCRATCH_3 (volatile unsigned int *)((0x19c3 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_4 (0x19c4) +#define P_HCODEC_AV_SCRATCH_4 (volatile unsigned int *)((0x19c4 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_5 (0x19c5) +#define P_HCODEC_AV_SCRATCH_5 (volatile unsigned int *)((0x19c5 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_6 (0x19c6) +#define P_HCODEC_AV_SCRATCH_6 (volatile unsigned int *)((0x19c6 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_7 (0x19c7) +#define P_HCODEC_AV_SCRATCH_7 (volatile unsigned int *)((0x19c7 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_8 (0x19c8) +#define P_HCODEC_AV_SCRATCH_8 (volatile unsigned int *)((0x19c8 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_9 (0x19c9) +#define P_HCODEC_AV_SCRATCH_9 (volatile unsigned int *)((0x19c9 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_A (0x19ca) +#define P_HCODEC_AV_SCRATCH_A (volatile unsigned int *)((0x19ca << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_B (0x19cb) +#define P_HCODEC_AV_SCRATCH_B (volatile unsigned int *)((0x19cb << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_C (0x19cc) +#define P_HCODEC_AV_SCRATCH_C (volatile unsigned int *)((0x19cc << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_D (0x19cd) +#define P_HCODEC_AV_SCRATCH_D (volatile unsigned int *)((0x19cd << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_E (0x19ce) +#define P_HCODEC_AV_SCRATCH_E (volatile unsigned int *)((0x19ce << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_F (0x19cf) +#define P_HCODEC_AV_SCRATCH_F (volatile unsigned int *)((0x19cf << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_G (0x19d0) +#define P_HCODEC_AV_SCRATCH_G (volatile unsigned int *)((0x19d0 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_H (0x19d1) +#define P_HCODEC_AV_SCRATCH_H (volatile unsigned int *)((0x19d1 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_I (0x19d2) +#define P_HCODEC_AV_SCRATCH_I (volatile unsigned int *)((0x19d2 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_J (0x19d3) +#define P_HCODEC_AV_SCRATCH_J (volatile unsigned int *)((0x19d3 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_K (0x19d4) +#define P_HCODEC_AV_SCRATCH_K (volatile unsigned int *)((0x19d4 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_L (0x19d5) +#define P_HCODEC_AV_SCRATCH_L (volatile unsigned int *)((0x19d5 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_M (0x19d6) +#define P_HCODEC_AV_SCRATCH_M (volatile unsigned int *)((0x19d6 << 2) + 0xff620000) +#define HCODEC_AV_SCRATCH_N (0x19d7) +#define P_HCODEC_AV_SCRATCH_N (volatile unsigned int *)((0x19d7 << 2) + 0xff620000) +// bit[29:24] A_brst_num_co_mb +// bit[21:16] A_id_co_mb +// bit[11:0] wrrsp_count_co_mb +#define HCODEC_WRRSP_CO_MB (0x19d8) +#define P_HCODEC_WRRSP_CO_MB (volatile unsigned int *)((0x19d8 << 2) + 0xff620000) +// bit[29:24] A_brst_num_dcac +// bit[21:16] A_id_dcac +// bit[11:0] wrrsp_count_dcac +#define HCODEC_WRRSP_DCAC (0x19d9) +#define P_HCODEC_WRRSP_DCAC (volatile unsigned int *)((0x19d9 << 2) + 0xff620000) +// bit[11:0] wrrsp_count_vld +#define HCODEC_WRRSP_VLD (0x19da) +#define P_HCODEC_WRRSP_VLD (volatile unsigned int *)((0x19da << 2) + 0xff620000) +// doublew_cfg0[0]; // Second Channel Enable, 1:Enable 0:Disable +// doublew_cfg0[3:1]; // [2:0] Endian Control for Luma +// doublew_cfg0[5:4]; // [1:0] Pixel sel by horizontal, 0x:1/2 10:left 11:right +// doublew_cfg0[7:6]; // [1:0] Pixel sel by vertical, 0x:1/2 10:up 11:down +// doublew_cfg0[8]; // Size by horizontal, 0:original size 1: 1/2 shrunken size +// doublew_cfg0[9]; // Size by vertical, 0:original size 1: 1/2 shrunken size +// doublew_cfg0[10]; // 1:Round 0:Truncation +// doublew_cfg0[11]; // DMA Urgent +// doublew_cfg0[17:12]; // [5:0] DMA Burst Number +// doublew_cfg0[23:18]; // [5:0] DMA ID +// doublew_cfg0[26:24]; // [2:0] Endian Control for Chroma +// doublew_cfg0[27]; // Source from, 1:MCW 0:DBLK +// doublew_cfg0[29:28]; // [1:0] 0x:select both top and bottom 10:select top 11:select bottom +// doublew_cfg0[30]; // 0:no merge 1:automatic merge +// doublew_cfg0[31]; // 0:Y addr no change 1:Y addr divided to half +#define HCODEC_MDEC_DOUBLEW_CFG0 (0x19db) +#define P_HCODEC_MDEC_DOUBLEW_CFG0 (volatile unsigned int *)((0x19db << 2) + 0xff620000) +// doublew_cfg1[7:0]; // [7:0] DMA Canvas Address for Luma +// doublew_cfg1[15:8]; // [7:0] DMA Canvas Address for Chroma +// doublew_cfg1[16]; // Disable 1st Write - +// doublew_cfg1[17]; // Reverse to original version - +// doublew_cfg1[18]; // DMA Address Mode - 0:Canvas Mode 1:Non-Canvas Mode +#define HCODEC_MDEC_DOUBLEW_CFG1 (0x19dc) +#define P_HCODEC_MDEC_DOUBLEW_CFG1 (volatile unsigned int *)((0x19dc << 2) + 0xff620000) +// doublew_cfg2[11:0]; //[11:0] vertical flip initial value +// doublew_cfg2[15]; // vertical flip enable +// doublew_cfg2[24:16]; // [8:0] horizontal flip initial value +// doublew_cfg2[31]; // horizontal flip enable +#define HCODEC_MDEC_DOUBLEW_CFG2 (0x19dd) +#define P_HCODEC_MDEC_DOUBLEW_CFG2 (volatile unsigned int *)((0x19dd << 2) + 0xff620000) +// doublew_cfg3[31:0]; //[31:0] non-canvas start address for Luma - +#define HCODEC_MDEC_DOUBLEW_CFG3 (0x19de) +#define P_HCODEC_MDEC_DOUBLEW_CFG3 (volatile unsigned int *)((0x19de << 2) + 0xff620000) +// doublew_cfg4[31:0]; //[31:0] non-canvas start address for Chroma - +#define HCODEC_MDEC_DOUBLEW_CFG4 (0x19df) +#define P_HCODEC_MDEC_DOUBLEW_CFG4 (volatile unsigned int *)((0x19df << 2) + 0xff620000) +// doublew_cfg5[12:0]; //[12:0] non-canvas picture width for Luma - +// doublew_cfg5[28:16]; //[12:0] non-canvas picture width for Chroma - +#define HCODEC_MDEC_DOUBLEW_CFG5 (0x19e0) +#define P_HCODEC_MDEC_DOUBLEW_CFG5 (volatile unsigned int *)((0x19e0 << 2) + 0xff620000) +// doublew_cfg6: reserved +#define HCODEC_MDEC_DOUBLEW_CFG6 (0x19e1) +#define P_HCODEC_MDEC_DOUBLEW_CFG6 (volatile unsigned int *)((0x19e1 << 2) + 0xff620000) +// doublew_cfg7: reserved +#define HCODEC_MDEC_DOUBLEW_CFG7 (0x19e2) +#define P_HCODEC_MDEC_DOUBLEW_CFG7 (volatile unsigned int *)((0x19e2 << 2) + 0xff620000) +// doublew_status[11:0];//[11:0] wrrsp_count_doublew +// doublew_status[12]; // doublew_status_busy +// doublew_status[13]; // doublew_status_error +#define HCODEC_MDEC_DOUBLEW_STATUS (0x19e3) +#define P_HCODEC_MDEC_DOUBLEW_STATUS (volatile unsigned int *)((0x19e3 << 2) + 0xff620000) +#define HCODEC_MDEC_EXTIF_CFG0 (0x19e4) +#define P_HCODEC_MDEC_EXTIF_CFG0 (volatile unsigned int *)((0x19e4 << 2) + 0xff620000) +#define HCODEC_MDEC_EXTIF_CFG1 (0x19e5) +#define P_HCODEC_MDEC_EXTIF_CFG1 (volatile unsigned int *)((0x19e5 << 2) + 0xff620000) +#define HCODEC_MDEC_EXTIF_STS0 (0x19e6) +#define P_HCODEC_MDEC_EXTIF_STS0 (volatile unsigned int *)((0x19e6 << 2) + 0xff620000) +//====================================== +// MC Control Register Bits +// +//====================================== +// For bits, just copy the defines...don't translate to addresses + //`define MC_RESET 16'h0002 +//====================================== +// MB Info Register Bits +// +//====================================== +//====================================== +// MB Info Register Bits +// +//====================================== +//======================================================================== +// DBLK Register: 12'h950 - 12'h97f +//======================================================================== +#define HCODEC_DBLK_RST (0x1950) +#define P_HCODEC_DBLK_RST (volatile unsigned int *)((0x1950 << 2) + 0xff620000) +#define HCODEC_DBLK_CTRL (0x1951) +#define P_HCODEC_DBLK_CTRL (volatile unsigned int *)((0x1951 << 2) + 0xff620000) +#define HCODEC_DBLK_MB_WID_HEIGHT (0x1952) +#define P_HCODEC_DBLK_MB_WID_HEIGHT (volatile unsigned int *)((0x1952 << 2) + 0xff620000) +#define HCODEC_DBLK_STATUS (0x1953) +#define P_HCODEC_DBLK_STATUS (volatile unsigned int *)((0x1953 << 2) + 0xff620000) +#define HCODEC_DBLK_CMD_CTRL (0x1954) +#define P_HCODEC_DBLK_CMD_CTRL (volatile unsigned int *)((0x1954 << 2) + 0xff620000) +#define HCODEC_DBLK_MB_XY (0x1955) +#define P_HCODEC_DBLK_MB_XY (volatile unsigned int *)((0x1955 << 2) + 0xff620000) +#define HCODEC_DBLK_QP (0x1956) +#define P_HCODEC_DBLK_QP (volatile unsigned int *)((0x1956 << 2) + 0xff620000) +#define HCODEC_DBLK_Y_BHFILT (0x1957) +#define P_HCODEC_DBLK_Y_BHFILT (volatile unsigned int *)((0x1957 << 2) + 0xff620000) +#define HCODEC_DBLK_Y_BHFILT_HIGH (0x1958) +#define P_HCODEC_DBLK_Y_BHFILT_HIGH (volatile unsigned int *)((0x1958 << 2) + 0xff620000) +#define HCODEC_DBLK_Y_BVFILT (0x1959) +#define P_HCODEC_DBLK_Y_BVFILT (volatile unsigned int *)((0x1959 << 2) + 0xff620000) +#define HCODEC_DBLK_CB_BFILT (0x195a) +#define P_HCODEC_DBLK_CB_BFILT (volatile unsigned int *)((0x195a << 2) + 0xff620000) +#define HCODEC_DBLK_CR_BFILT (0x195b) +#define P_HCODEC_DBLK_CR_BFILT (volatile unsigned int *)((0x195b << 2) + 0xff620000) +#define HCODEC_DBLK_Y_HFILT (0x195c) +#define P_HCODEC_DBLK_Y_HFILT (volatile unsigned int *)((0x195c << 2) + 0xff620000) +#define HCODEC_DBLK_Y_HFILT_HIGH (0x195d) +#define P_HCODEC_DBLK_Y_HFILT_HIGH (volatile unsigned int *)((0x195d << 2) + 0xff620000) +#define HCODEC_DBLK_Y_VFILT (0x195e) +#define P_HCODEC_DBLK_Y_VFILT (volatile unsigned int *)((0x195e << 2) + 0xff620000) +#define HCODEC_DBLK_CB_FILT (0x195f) +#define P_HCODEC_DBLK_CB_FILT (volatile unsigned int *)((0x195f << 2) + 0xff620000) +#define HCODEC_DBLK_CR_FILT (0x1960) +#define P_HCODEC_DBLK_CR_FILT (volatile unsigned int *)((0x1960 << 2) + 0xff620000) +#define HCODEC_DBLK_BETAX_QP_SEL (0x1961) +#define P_HCODEC_DBLK_BETAX_QP_SEL (volatile unsigned int *)((0x1961 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL0 (0x1962) +#define P_HCODEC_DBLK_CLIP_CTRL0 (volatile unsigned int *)((0x1962 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL1 (0x1963) +#define P_HCODEC_DBLK_CLIP_CTRL1 (volatile unsigned int *)((0x1963 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL2 (0x1964) +#define P_HCODEC_DBLK_CLIP_CTRL2 (volatile unsigned int *)((0x1964 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL3 (0x1965) +#define P_HCODEC_DBLK_CLIP_CTRL3 (volatile unsigned int *)((0x1965 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL4 (0x1966) +#define P_HCODEC_DBLK_CLIP_CTRL4 (volatile unsigned int *)((0x1966 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL5 (0x1967) +#define P_HCODEC_DBLK_CLIP_CTRL5 (volatile unsigned int *)((0x1967 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL6 (0x1968) +#define P_HCODEC_DBLK_CLIP_CTRL6 (volatile unsigned int *)((0x1968 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL7 (0x1969) +#define P_HCODEC_DBLK_CLIP_CTRL7 (volatile unsigned int *)((0x1969 << 2) + 0xff620000) +#define HCODEC_DBLK_CLIP_CTRL8 (0x196a) +#define P_HCODEC_DBLK_CLIP_CTRL8 (volatile unsigned int *)((0x196a << 2) + 0xff620000) +#define HCODEC_DBLK_STATUS1 (0x196b) +#define P_HCODEC_DBLK_STATUS1 (volatile unsigned int *)((0x196b << 2) + 0xff620000) +#define HCODEC_DBLK_GCLK_FREE (0x196c) +#define P_HCODEC_DBLK_GCLK_FREE (volatile unsigned int *)((0x196c << 2) + 0xff620000) +#define HCODEC_DBLK_GCLK_OFF (0x196d) +#define P_HCODEC_DBLK_GCLK_OFF (volatile unsigned int *)((0x196d << 2) + 0xff620000) +#define HCODEC_DBLK_AVSFLAGS (0x196e) +#define P_HCODEC_DBLK_AVSFLAGS (volatile unsigned int *)((0x196e << 2) + 0xff620000) +// bit 15:0 +#define HCODEC_DBLK_CBPY (0x1970) +#define P_HCODEC_DBLK_CBPY (volatile unsigned int *)((0x1970 << 2) + 0xff620000) +// bit 11:8 -- deblk_cbpy_bottom +// bit 7:4 -- deblk_cbpy_left +// bit 3:0 -- deblk_cbpy_top +#define HCODEC_DBLK_CBPY_ADJ (0x1971) +#define P_HCODEC_DBLK_CBPY_ADJ (volatile unsigned int *)((0x1971 << 2) + 0xff620000) +// bit 7:0 -- deblk_cbpc +#define HCODEC_DBLK_CBPC (0x1972) +#define P_HCODEC_DBLK_CBPC (volatile unsigned int *)((0x1972 << 2) + 0xff620000) +// bit 15 -- bottom_mb +// bit 14 -- left_mb +// bit 13 -- top_mb +// bit 12 -- reserved +// bit 11:8 -- deblk_cbpc_bottom +// bit 7:4 -- deblk_cbpc_left +// bit 3:0 -- deblk_cbpc_top +#define HCODEC_DBLK_CBPC_ADJ (0x1973) +#define P_HCODEC_DBLK_CBPC_ADJ (volatile unsigned int *)((0x1973 << 2) + 0xff620000) +// bit 15:8 -- deblk_hmvd -- {left_1, left_0, below_1, below_0, block3-0} +// bit 7:0 -- deblk_vmvd -- {top_1, top_0, below_1, below_0, block3-0} +#define HCODEC_DBLK_VHMVD (0x1974) +#define P_HCODEC_DBLK_VHMVD (volatile unsigned int *)((0x1974 << 2) + 0xff620000) +// bit 13:12 -- right_vmvd +// bit 11 -- right_above_vmvd +// bit 10 -- left_below_hmvd +// bit 9 -- disable_dblk_luma +// bit 8 -- disable_dblk_chroma +// bit 7 -- bBelowRefDiff +// bit 6 -- bLeftRefDiff +// bit 5 -- bAboveRefDiff +// bit 4 -- reserved +// bit 3 -- s_below +// bit 2 -- s_left +// bit 1 -- s_above +// bit 0 -- s +#define HCODEC_DBLK_STRONG (0x1975) +#define P_HCODEC_DBLK_STRONG (volatile unsigned int *)((0x1975 << 2) + 0xff620000) +// bit 14:10 -- PQUANT +// bit 9:5 -- left_PQUANT +// bit 4:0 -- top_PQUANT +#define HCODEC_DBLK_RV8_QUANT (0x1976) +#define P_HCODEC_DBLK_RV8_QUANT (volatile unsigned int *)((0x1976 << 2) + 0xff620000) +#define HCODEC_DBLK_CBUS_HCMD2 (0x1977) +#define P_HCODEC_DBLK_CBUS_HCMD2 (volatile unsigned int *)((0x1977 << 2) + 0xff620000) +#define HCODEC_DBLK_CBUS_HCMD1 (0x1978) +#define P_HCODEC_DBLK_CBUS_HCMD1 (volatile unsigned int *)((0x1978 << 2) + 0xff620000) +#define HCODEC_DBLK_CBUS_HCMD0 (0x1979) +#define P_HCODEC_DBLK_CBUS_HCMD0 (volatile unsigned int *)((0x1979 << 2) + 0xff620000) +#define HCODEC_DBLK_VLD_HCMD2 (0x197a) +#define P_HCODEC_DBLK_VLD_HCMD2 (volatile unsigned int *)((0x197a << 2) + 0xff620000) +#define HCODEC_DBLK_VLD_HCMD1 (0x197b) +#define P_HCODEC_DBLK_VLD_HCMD1 (volatile unsigned int *)((0x197b << 2) + 0xff620000) +#define HCODEC_DBLK_VLD_HCMD0 (0x197c) +#define P_HCODEC_DBLK_VLD_HCMD0 (volatile unsigned int *)((0x197c << 2) + 0xff620000) +#define HCODEC_DBLK_OST_YBASE (0x197d) +#define P_HCODEC_DBLK_OST_YBASE (volatile unsigned int *)((0x197d << 2) + 0xff620000) +#define HCODEC_DBLK_OST_CBCRDIFF (0x197e) +#define P_HCODEC_DBLK_OST_CBCRDIFF (volatile unsigned int *)((0x197e << 2) + 0xff620000) +//13:8 dblk thread ID and token +//5:0 dblk prearbitor burst num +#define HCODEC_DBLK_CTRL1 (0x197f) +#define P_HCODEC_DBLK_CTRL1 (volatile unsigned int *)((0x197f << 2) + 0xff620000) +// MCRCC_CTL1 +// 31:3 +// 2 +// 1 +// 0 +#define HCODEC_MCRCC_CTL1 (0x1980) +#define P_HCODEC_MCRCC_CTL1 (volatile unsigned int *)((0x1980 << 2) + 0xff620000) +// MCRCC_CTL2 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define HCODEC_MCRCC_CTL2 (0x1981) +#define P_HCODEC_MCRCC_CTL2 (volatile unsigned int *)((0x1981 << 2) + 0xff620000) +// MCRCC_CTL3 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define HCODEC_MCRCC_CTL3 (0x1982) +#define P_HCODEC_MCRCC_CTL3 (volatile unsigned int *)((0x1982 << 2) + 0xff620000) +// bit[31:10] reserved +// bit[9:0] sw_clock_gating control +// [9] vdec clk_en for assist and cbus. +// [8] vdec clk_en for ddr +// [7] vdec clk_en for vcpu +// [6] vdec clk_en for assist +// [5] vdec clk_en for dblk +// [4] vdec clk_en for iqidct +// [3] vdec clk_en for mc +// [2] vdec clk_en for pic_dc +// [1] vdec clk_en for psc +// [0] vdec clk_en for vld +#define HCODEC_GCLK_EN (0x1983) +#define P_HCODEC_GCLK_EN (volatile unsigned int *)((0x1983 << 2) + 0xff620000) +// [0] Reserved +// [1] Reserved +// [2] Reset assist, mdec's CBUS +// [3] Reset mdec's VLD +// [4] Reset mdec's VLD +// [5] Reset mdec's VLD +// [6] Reset mdec's IQIDCT +// [7] Reset mdec's MC +// [8] Reset mdec's DBLK +// [9] Reset mdec's PIC_DC +// [10] Reset mdec's Pscale +// [11] Reset vcpu's MCPU +// [12] Reset vcpu's CCPU +// [13] Reset mmc_pre_arb +#define HCODEC_MDEC_SW_RESET (0x1984) +#define P_HCODEC_MDEC_SW_RESET (volatile unsigned int *)((0x1984 << 2) + 0xff620000) +//DBLK last address 12'h97f +// +// Closing file: mdec_regs.h +// +// +// Reading file: mdec_regs.h +// +//======================================================================== +// MDEC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_MDEC_CBUS_BASE = 0x09 +// ----------------------------------------------- +#define VDEC2_MC_CTRL_REG (0x2900) +#define P_VDEC2_MC_CTRL_REG (volatile unsigned int *)((0x2900 << 2) + 0xff620000) +#define VDEC2_MC_MB_INFO (0x2901) +#define P_VDEC2_MC_MB_INFO (volatile unsigned int *)((0x2901 << 2) + 0xff620000) +#define VDEC2_MC_PIC_INFO (0x2902) +#define P_VDEC2_MC_PIC_INFO (volatile unsigned int *)((0x2902 << 2) + 0xff620000) +#define VDEC2_MC_HALF_PEL_ONE (0x2903) +#define P_VDEC2_MC_HALF_PEL_ONE (volatile unsigned int *)((0x2903 << 2) + 0xff620000) +#define VDEC2_MC_HALF_PEL_TWO (0x2904) +#define P_VDEC2_MC_HALF_PEL_TWO (volatile unsigned int *)((0x2904 << 2) + 0xff620000) +#define VDEC2_POWER_CTL_MC (0x2905) +#define P_VDEC2_POWER_CTL_MC (volatile unsigned int *)((0x2905 << 2) + 0xff620000) +#define VDEC2_MC_CMD (0x2906) +#define P_VDEC2_MC_CMD (volatile unsigned int *)((0x2906 << 2) + 0xff620000) +#define VDEC2_MC_CTRL0 (0x2907) +#define P_VDEC2_MC_CTRL0 (volatile unsigned int *)((0x2907 << 2) + 0xff620000) +#define VDEC2_MC_PIC_W_H (0x2908) +#define P_VDEC2_MC_PIC_W_H (volatile unsigned int *)((0x2908 << 2) + 0xff620000) +#define VDEC2_MC_STATUS0 (0x2909) +#define P_VDEC2_MC_STATUS0 (volatile unsigned int *)((0x2909 << 2) + 0xff620000) +#define VDEC2_MC_STATUS1 (0x290a) +#define P_VDEC2_MC_STATUS1 (volatile unsigned int *)((0x290a << 2) + 0xff620000) +#define VDEC2_MC_CTRL1 (0x290b) +#define P_VDEC2_MC_CTRL1 (volatile unsigned int *)((0x290b << 2) + 0xff620000) +#define VDEC2_MC_MIX_RATIO0 (0x290c) +#define P_VDEC2_MC_MIX_RATIO0 (volatile unsigned int *)((0x290c << 2) + 0xff620000) +#define VDEC2_MC_MIX_RATIO1 (0x290d) +#define P_VDEC2_MC_MIX_RATIO1 (volatile unsigned int *)((0x290d << 2) + 0xff620000) +#define VDEC2_MC_DP_MB_XY (0x290e) +#define P_VDEC2_MC_DP_MB_XY (volatile unsigned int *)((0x290e << 2) + 0xff620000) +#define VDEC2_MC_OM_MB_XY (0x290f) +#define P_VDEC2_MC_OM_MB_XY (volatile unsigned int *)((0x290f << 2) + 0xff620000) +#define VDEC2_PSCALE_RST (0x2910) +#define P_VDEC2_PSCALE_RST (volatile unsigned int *)((0x2910 << 2) + 0xff620000) +#define VDEC2_PSCALE_CTRL (0x2911) +#define P_VDEC2_PSCALE_CTRL (volatile unsigned int *)((0x2911 << 2) + 0xff620000) +#define VDEC2_PSCALE_PICI_W (0x2912) +#define P_VDEC2_PSCALE_PICI_W (volatile unsigned int *)((0x2912 << 2) + 0xff620000) +#define VDEC2_PSCALE_PICI_H (0x2913) +#define P_VDEC2_PSCALE_PICI_H (volatile unsigned int *)((0x2913 << 2) + 0xff620000) +#define VDEC2_PSCALE_PICO_W (0x2914) +#define P_VDEC2_PSCALE_PICO_W (volatile unsigned int *)((0x2914 << 2) + 0xff620000) +#define VDEC2_PSCALE_PICO_H (0x2915) +#define P_VDEC2_PSCALE_PICO_H (volatile unsigned int *)((0x2915 << 2) + 0xff620000) +#define VDEC2_PSCALE_PICO_START_X (0x2916) +#define P_VDEC2_PSCALE_PICO_START_X (volatile unsigned int *)((0x2916 << 2) + 0xff620000) +#define VDEC2_PSCALE_PICO_START_Y (0x2917) +#define P_VDEC2_PSCALE_PICO_START_Y (volatile unsigned int *)((0x2917 << 2) + 0xff620000) +#define VDEC2_PSCALE_DUMMY (0x2918) +#define P_VDEC2_PSCALE_DUMMY (volatile unsigned int *)((0x2918 << 2) + 0xff620000) +#define VDEC2_PSCALE_FILT0_COEF0 (0x2919) +#define P_VDEC2_PSCALE_FILT0_COEF0 (volatile unsigned int *)((0x2919 << 2) + 0xff620000) +#define VDEC2_PSCALE_FILT0_COEF1 (0x291a) +#define P_VDEC2_PSCALE_FILT0_COEF1 (volatile unsigned int *)((0x291a << 2) + 0xff620000) +#define VDEC2_PSCALE_CMD_CTRL (0x291b) +#define P_VDEC2_PSCALE_CMD_CTRL (volatile unsigned int *)((0x291b << 2) + 0xff620000) +#define VDEC2_PSCALE_CMD_BLK_X (0x291c) +#define P_VDEC2_PSCALE_CMD_BLK_X (volatile unsigned int *)((0x291c << 2) + 0xff620000) +#define VDEC2_PSCALE_CMD_BLK_Y (0x291d) +#define P_VDEC2_PSCALE_CMD_BLK_Y (volatile unsigned int *)((0x291d << 2) + 0xff620000) +#define VDEC2_PSCALE_STATUS (0x291e) +#define P_VDEC2_PSCALE_STATUS (volatile unsigned int *)((0x291e << 2) + 0xff620000) +#define VDEC2_PSCALE_BMEM_ADDR (0x291f) +#define P_VDEC2_PSCALE_BMEM_ADDR (volatile unsigned int *)((0x291f << 2) + 0xff620000) +#define VDEC2_PSCALE_BMEM_DAT (0x2920) +#define P_VDEC2_PSCALE_BMEM_DAT (volatile unsigned int *)((0x2920 << 2) + 0xff620000) +#define VDEC2_PSCALE_DRAM_BUF_CTRL (0x2921) +#define P_VDEC2_PSCALE_DRAM_BUF_CTRL (volatile unsigned int *)((0x2921 << 2) + 0xff620000) +#define VDEC2_PSCALE_MCMD_CTRL (0x2922) +#define P_VDEC2_PSCALE_MCMD_CTRL (volatile unsigned int *)((0x2922 << 2) + 0xff620000) +#define VDEC2_PSCALE_MCMD_XSIZE (0x2923) +#define P_VDEC2_PSCALE_MCMD_XSIZE (volatile unsigned int *)((0x2923 << 2) + 0xff620000) +#define VDEC2_PSCALE_MCMD_YSIZE (0x2924) +#define P_VDEC2_PSCALE_MCMD_YSIZE (volatile unsigned int *)((0x2924 << 2) + 0xff620000) +#define VDEC2_PSCALE_RBUF_START_BLKX (0x2925) +#define P_VDEC2_PSCALE_RBUF_START_BLKX (volatile unsigned int *)((0x2925 << 2) + 0xff620000) +#define VDEC2_PSCALE_RBUF_START_BLKY (0x2926) +#define P_VDEC2_PSCALE_RBUF_START_BLKY (volatile unsigned int *)((0x2926 << 2) + 0xff620000) +//`define PSCALE_RBUF_MB_WIDTH 8'h27 +#define VDEC2_PSCALE_PICO_SHIFT_XY (0x2928) +#define P_VDEC2_PSCALE_PICO_SHIFT_XY (volatile unsigned int *)((0x2928 << 2) + 0xff620000) +#define VDEC2_PSCALE_CTRL1 (0x2929) +#define P_VDEC2_PSCALE_CTRL1 (volatile unsigned int *)((0x2929 << 2) + 0xff620000) +//Bit 15, wmask enable +//Bit 14:13, filt0 srckey_less, +//Bit 12:11, filt1 srckey_less, in the case of the interpolated data is equal distance to +//key data and normal data, 00: select normal data, 01: select right data, 10: select key data +//Bit 10:9, srckey mode, 00: equal, 01: less than or equal, 10: great than or equal +//Bit 8, src key enable +//Bit 7:0, y src key +#define VDEC2_PSCALE_SRCKEY_CTRL0 (0x292a) +#define P_VDEC2_PSCALE_SRCKEY_CTRL0 (volatile unsigned int *)((0x292a << 2) + 0xff620000) +//Bit 15:8, cb src key +//Bit 7:0, cr src key +#define VDEC2_PSCALE_SRCKEY_CTRL1 (0x292b) +#define P_VDEC2_PSCALE_SRCKEY_CTRL1 (volatile unsigned int *)((0x292b << 2) + 0xff620000) +//Bit 22:16 canvas_rd_addr2 +//Bit 14:8 canvas_rd_addr1 +//Bit 6:0 canvas_rd_addr1 +#define VDEC2_PSCALE_CANVAS_RD_ADDR (0x292c) +#define P_VDEC2_PSCALE_CANVAS_RD_ADDR (volatile unsigned int *)((0x292c << 2) + 0xff620000) +//Bit 22:16 canvas_wr_addr2 +//Bit 14:8 canvas_wr_addr1 +//Bit 6:0 canvas_wr_addr1 +#define VDEC2_PSCALE_CANVAS_WR_ADDR (0x292d) +#define P_VDEC2_PSCALE_CANVAS_WR_ADDR (volatile unsigned int *)((0x292d << 2) + 0xff620000) +//bit 13:8 pscale thread ID and token +//bit 7 disable write response count adding to busy bit +//bit 5:0 pscale prearbitor burst num +#define VDEC2_PSCALE_CTRL2 (0x292e) +#define P_VDEC2_PSCALE_CTRL2 (volatile unsigned int *)((0x292e << 2) + 0xff620000) +// 31 - use_omem_mb_xy_auto +//23:16 - omem_max_mb_x +//15:8 - omem_mb_y_auto +// 7:0 - omem_mb_x_auto +#define VDEC2_HDEC_MC_OMEM_AUTO (0x2930) +#define P_VDEC2_HDEC_MC_OMEM_AUTO (volatile unsigned int *)((0x2930 << 2) + 0xff620000) +#define VDEC2_HDEC_MC_MBRIGHT_IDX (0x2931) +#define P_VDEC2_HDEC_MC_MBRIGHT_IDX (volatile unsigned int *)((0x2931 << 2) + 0xff620000) +#define VDEC2_HDEC_MC_MBRIGHT_RD (0x2932) +#define P_VDEC2_HDEC_MC_MBRIGHT_RD (volatile unsigned int *)((0x2932 << 2) + 0xff620000) +#define VDEC2_MC_MPORT_CTRL (0x2940) +#define P_VDEC2_MC_MPORT_CTRL (volatile unsigned int *)((0x2940 << 2) + 0xff620000) +#define VDEC2_MC_MPORT_DAT (0x2941) +#define P_VDEC2_MC_MPORT_DAT (volatile unsigned int *)((0x2941 << 2) + 0xff620000) +#define VDEC2_MC_WT_PRED_CTRL (0x2942) +#define P_VDEC2_MC_WT_PRED_CTRL (volatile unsigned int *)((0x2942 << 2) + 0xff620000) +#define VDEC2_MC_MBBOT_ST_EVEN_ADDR (0x2944) +#define P_VDEC2_MC_MBBOT_ST_EVEN_ADDR (volatile unsigned int *)((0x2944 << 2) + 0xff620000) +#define VDEC2_MC_MBBOT_ST_ODD_ADDR (0x2945) +#define P_VDEC2_MC_MBBOT_ST_ODD_ADDR (volatile unsigned int *)((0x2945 << 2) + 0xff620000) +#define VDEC2_MC_DPDN_MB_XY (0x2946) +#define P_VDEC2_MC_DPDN_MB_XY (volatile unsigned int *)((0x2946 << 2) + 0xff620000) +#define VDEC2_MC_OMDN_MB_XY (0x2947) +#define P_VDEC2_MC_OMDN_MB_XY (volatile unsigned int *)((0x2947 << 2) + 0xff620000) +#define VDEC2_MC_HCMDBUF_H (0x2948) +#define P_VDEC2_MC_HCMDBUF_H (volatile unsigned int *)((0x2948 << 2) + 0xff620000) +#define VDEC2_MC_HCMDBUF_L (0x2949) +#define P_VDEC2_MC_HCMDBUF_L (volatile unsigned int *)((0x2949 << 2) + 0xff620000) +#define VDEC2_MC_HCMD_H (0x294a) +#define P_VDEC2_MC_HCMD_H (volatile unsigned int *)((0x294a << 2) + 0xff620000) +#define VDEC2_MC_HCMD_L (0x294b) +#define P_VDEC2_MC_HCMD_L (volatile unsigned int *)((0x294b << 2) + 0xff620000) +#define VDEC2_MC_IDCT_DAT (0x294c) +#define P_VDEC2_MC_IDCT_DAT (volatile unsigned int *)((0x294c << 2) + 0xff620000) +#define VDEC2_MC_CTRL_GCLK_CTRL (0x294d) +#define P_VDEC2_MC_CTRL_GCLK_CTRL (volatile unsigned int *)((0x294d << 2) + 0xff620000) +#define VDEC2_MC_OTHER_GCLK_CTRL (0x294e) +#define P_VDEC2_MC_OTHER_GCLK_CTRL (volatile unsigned int *)((0x294e << 2) + 0xff620000) +//Bit 29:24, mbbot thread ID and token +//Bit 21:16, mc read/write thread ID and token +//Bit 13:8, mbbot pre-arbitor burst number +//Bit 5:0, mc pre-arbitor burst number +#define VDEC2_MC_CTRL2 (0x294f) +#define P_VDEC2_MC_CTRL2 (volatile unsigned int *)((0x294f << 2) + 0xff620000) +// `define DBLK_QUANT 8'h76 // ONLY for $ucode/real/amrisc/rv.s, reg value from apollo +//`define ANC1_CANVAS_ADDR 8'h80 +//`define ANC2_CANVAS_ADDR 8'h81 +//`define REC_CANVAS_ADDR 8'h89 +//`define MDEC_PIC_W 8'h8c +//`define MDEC_PIC_H 8'h8d +// mdec_pic_dc_mux_ctrl[31] -- mcr_hevc_mode +#define VDEC2_MDEC_PIC_DC_MUX_CTRL (0x298d) +#define P_VDEC2_MDEC_PIC_DC_MUX_CTRL (volatile unsigned int *)((0x298d << 2) + 0xff620000) +#define VDEC2_MDEC_PIC_DC_CTRL (0x298e) +#define P_VDEC2_MDEC_PIC_DC_CTRL (volatile unsigned int *)((0x298e << 2) + 0xff620000) +#define VDEC2_MDEC_PIC_DC_STATUS (0x298f) +#define P_VDEC2_MDEC_PIC_DC_STATUS (volatile unsigned int *)((0x298f << 2) + 0xff620000) +#define VDEC2_ANC0_CANVAS_ADDR (0x2990) +#define P_VDEC2_ANC0_CANVAS_ADDR (volatile unsigned int *)((0x2990 << 2) + 0xff620000) +#define VDEC2_ANC1_CANVAS_ADDR (0x2991) +#define P_VDEC2_ANC1_CANVAS_ADDR (volatile unsigned int *)((0x2991 << 2) + 0xff620000) +#define VDEC2_ANC2_CANVAS_ADDR (0x2992) +#define P_VDEC2_ANC2_CANVAS_ADDR (volatile unsigned int *)((0x2992 << 2) + 0xff620000) +#define VDEC2_ANC3_CANVAS_ADDR (0x2993) +#define P_VDEC2_ANC3_CANVAS_ADDR (volatile unsigned int *)((0x2993 << 2) + 0xff620000) +#define VDEC2_ANC4_CANVAS_ADDR (0x2994) +#define P_VDEC2_ANC4_CANVAS_ADDR (volatile unsigned int *)((0x2994 << 2) + 0xff620000) +#define VDEC2_ANC5_CANVAS_ADDR (0x2995) +#define P_VDEC2_ANC5_CANVAS_ADDR (volatile unsigned int *)((0x2995 << 2) + 0xff620000) +#define VDEC2_ANC6_CANVAS_ADDR (0x2996) +#define P_VDEC2_ANC6_CANVAS_ADDR (volatile unsigned int *)((0x2996 << 2) + 0xff620000) +#define VDEC2_ANC7_CANVAS_ADDR (0x2997) +#define P_VDEC2_ANC7_CANVAS_ADDR (volatile unsigned int *)((0x2997 << 2) + 0xff620000) +#define VDEC2_ANC8_CANVAS_ADDR (0x2998) +#define P_VDEC2_ANC8_CANVAS_ADDR (volatile unsigned int *)((0x2998 << 2) + 0xff620000) +#define VDEC2_ANC9_CANVAS_ADDR (0x2999) +#define P_VDEC2_ANC9_CANVAS_ADDR (volatile unsigned int *)((0x2999 << 2) + 0xff620000) +#define VDEC2_ANC10_CANVAS_ADDR (0x299a) +#define P_VDEC2_ANC10_CANVAS_ADDR (volatile unsigned int *)((0x299a << 2) + 0xff620000) +#define VDEC2_ANC11_CANVAS_ADDR (0x299b) +#define P_VDEC2_ANC11_CANVAS_ADDR (volatile unsigned int *)((0x299b << 2) + 0xff620000) +#define VDEC2_ANC12_CANVAS_ADDR (0x299c) +#define P_VDEC2_ANC12_CANVAS_ADDR (volatile unsigned int *)((0x299c << 2) + 0xff620000) +#define VDEC2_ANC13_CANVAS_ADDR (0x299d) +#define P_VDEC2_ANC13_CANVAS_ADDR (volatile unsigned int *)((0x299d << 2) + 0xff620000) +#define VDEC2_ANC14_CANVAS_ADDR (0x299e) +#define P_VDEC2_ANC14_CANVAS_ADDR (volatile unsigned int *)((0x299e << 2) + 0xff620000) +#define VDEC2_ANC15_CANVAS_ADDR (0x299f) +#define P_VDEC2_ANC15_CANVAS_ADDR (volatile unsigned int *)((0x299f << 2) + 0xff620000) +#define VDEC2_ANC16_CANVAS_ADDR (0x29a0) +#define P_VDEC2_ANC16_CANVAS_ADDR (volatile unsigned int *)((0x29a0 << 2) + 0xff620000) +#define VDEC2_ANC17_CANVAS_ADDR (0x29a1) +#define P_VDEC2_ANC17_CANVAS_ADDR (volatile unsigned int *)((0x29a1 << 2) + 0xff620000) +#define VDEC2_ANC18_CANVAS_ADDR (0x29a2) +#define P_VDEC2_ANC18_CANVAS_ADDR (volatile unsigned int *)((0x29a2 << 2) + 0xff620000) +#define VDEC2_ANC19_CANVAS_ADDR (0x29a3) +#define P_VDEC2_ANC19_CANVAS_ADDR (volatile unsigned int *)((0x29a3 << 2) + 0xff620000) +#define VDEC2_ANC20_CANVAS_ADDR (0x29a4) +#define P_VDEC2_ANC20_CANVAS_ADDR (volatile unsigned int *)((0x29a4 << 2) + 0xff620000) +#define VDEC2_ANC21_CANVAS_ADDR (0x29a5) +#define P_VDEC2_ANC21_CANVAS_ADDR (volatile unsigned int *)((0x29a5 << 2) + 0xff620000) +#define VDEC2_ANC22_CANVAS_ADDR (0x29a6) +#define P_VDEC2_ANC22_CANVAS_ADDR (volatile unsigned int *)((0x29a6 << 2) + 0xff620000) +#define VDEC2_ANC23_CANVAS_ADDR (0x29a7) +#define P_VDEC2_ANC23_CANVAS_ADDR (volatile unsigned int *)((0x29a7 << 2) + 0xff620000) +#define VDEC2_ANC24_CANVAS_ADDR (0x29a8) +#define P_VDEC2_ANC24_CANVAS_ADDR (volatile unsigned int *)((0x29a8 << 2) + 0xff620000) +#define VDEC2_ANC25_CANVAS_ADDR (0x29a9) +#define P_VDEC2_ANC25_CANVAS_ADDR (volatile unsigned int *)((0x29a9 << 2) + 0xff620000) +#define VDEC2_ANC26_CANVAS_ADDR (0x29aa) +#define P_VDEC2_ANC26_CANVAS_ADDR (volatile unsigned int *)((0x29aa << 2) + 0xff620000) +#define VDEC2_ANC27_CANVAS_ADDR (0x29ab) +#define P_VDEC2_ANC27_CANVAS_ADDR (volatile unsigned int *)((0x29ab << 2) + 0xff620000) +#define VDEC2_ANC28_CANVAS_ADDR (0x29ac) +#define P_VDEC2_ANC28_CANVAS_ADDR (volatile unsigned int *)((0x29ac << 2) + 0xff620000) +#define VDEC2_ANC29_CANVAS_ADDR (0x29ad) +#define P_VDEC2_ANC29_CANVAS_ADDR (volatile unsigned int *)((0x29ad << 2) + 0xff620000) +#define VDEC2_ANC30_CANVAS_ADDR (0x29ae) +#define P_VDEC2_ANC30_CANVAS_ADDR (volatile unsigned int *)((0x29ae << 2) + 0xff620000) +#define VDEC2_ANC31_CANVAS_ADDR (0x29af) +#define P_VDEC2_ANC31_CANVAS_ADDR (volatile unsigned int *)((0x29af << 2) + 0xff620000) +#define VDEC2_DBKR_CANVAS_ADDR (0x29b0) +#define P_VDEC2_DBKR_CANVAS_ADDR (volatile unsigned int *)((0x29b0 << 2) + 0xff620000) +#define VDEC2_DBKW_CANVAS_ADDR (0x29b1) +#define P_VDEC2_DBKW_CANVAS_ADDR (volatile unsigned int *)((0x29b1 << 2) + 0xff620000) +#define VDEC2_REC_CANVAS_ADDR (0x29b2) +#define P_VDEC2_REC_CANVAS_ADDR (volatile unsigned int *)((0x29b2 << 2) + 0xff620000) +//28:24, read/write, current canvas idx, used in h264 only now +//23:0, read only, current canvas address, 23:16, Cr canvas addr, 15:8, Cb canvas addr, 7:0, Y canvas addr +#define VDEC2_CURR_CANVAS_CTRL (0x29b3) +#define P_VDEC2_CURR_CANVAS_CTRL (volatile unsigned int *)((0x29b3 << 2) + 0xff620000) +#define VDEC2_MDEC_PIC_DC_THRESH (0x29b8) +#define P_VDEC2_MDEC_PIC_DC_THRESH (volatile unsigned int *)((0x29b8 << 2) + 0xff620000) +#define VDEC2_MDEC_PICR_BUF_STATUS (0x29b9) +#define P_VDEC2_MDEC_PICR_BUF_STATUS (volatile unsigned int *)((0x29b9 << 2) + 0xff620000) +#define VDEC2_MDEC_PICW_BUF_STATUS (0x29ba) +#define P_VDEC2_MDEC_PICW_BUF_STATUS (volatile unsigned int *)((0x29ba << 2) + 0xff620000) +#define VDEC2_MCW_DBLK_WRRSP_CNT (0x29bb) +#define P_VDEC2_MCW_DBLK_WRRSP_CNT (volatile unsigned int *)((0x29bb << 2) + 0xff620000) +#define VDEC2_MC_MBBOT_WRRSP_CNT (0x29bc) +#define P_VDEC2_MC_MBBOT_WRRSP_CNT (volatile unsigned int *)((0x29bc << 2) + 0xff620000) +#define VDEC2_MDEC_PICW_BUF2_STATUS (0x29bd) +#define P_VDEC2_MDEC_PICW_BUF2_STATUS (volatile unsigned int *)((0x29bd << 2) + 0xff620000) +#define VDEC2_WRRSP_FIFO_PICW_DBK (0x29be) +#define P_VDEC2_WRRSP_FIFO_PICW_DBK (volatile unsigned int *)((0x29be << 2) + 0xff620000) +#define VDEC2_WRRSP_FIFO_PICW_MC (0x29bf) +#define P_VDEC2_WRRSP_FIFO_PICW_MC (volatile unsigned int *)((0x29bf << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_0 (0x29c0) +#define P_VDEC2_AV_SCRATCH_0 (volatile unsigned int *)((0x29c0 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_1 (0x29c1) +#define P_VDEC2_AV_SCRATCH_1 (volatile unsigned int *)((0x29c1 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_2 (0x29c2) +#define P_VDEC2_AV_SCRATCH_2 (volatile unsigned int *)((0x29c2 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_3 (0x29c3) +#define P_VDEC2_AV_SCRATCH_3 (volatile unsigned int *)((0x29c3 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_4 (0x29c4) +#define P_VDEC2_AV_SCRATCH_4 (volatile unsigned int *)((0x29c4 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_5 (0x29c5) +#define P_VDEC2_AV_SCRATCH_5 (volatile unsigned int *)((0x29c5 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_6 (0x29c6) +#define P_VDEC2_AV_SCRATCH_6 (volatile unsigned int *)((0x29c6 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_7 (0x29c7) +#define P_VDEC2_AV_SCRATCH_7 (volatile unsigned int *)((0x29c7 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_8 (0x29c8) +#define P_VDEC2_AV_SCRATCH_8 (volatile unsigned int *)((0x29c8 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_9 (0x29c9) +#define P_VDEC2_AV_SCRATCH_9 (volatile unsigned int *)((0x29c9 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_A (0x29ca) +#define P_VDEC2_AV_SCRATCH_A (volatile unsigned int *)((0x29ca << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_B (0x29cb) +#define P_VDEC2_AV_SCRATCH_B (volatile unsigned int *)((0x29cb << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_C (0x29cc) +#define P_VDEC2_AV_SCRATCH_C (volatile unsigned int *)((0x29cc << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_D (0x29cd) +#define P_VDEC2_AV_SCRATCH_D (volatile unsigned int *)((0x29cd << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_E (0x29ce) +#define P_VDEC2_AV_SCRATCH_E (volatile unsigned int *)((0x29ce << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_F (0x29cf) +#define P_VDEC2_AV_SCRATCH_F (volatile unsigned int *)((0x29cf << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_G (0x29d0) +#define P_VDEC2_AV_SCRATCH_G (volatile unsigned int *)((0x29d0 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_H (0x29d1) +#define P_VDEC2_AV_SCRATCH_H (volatile unsigned int *)((0x29d1 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_I (0x29d2) +#define P_VDEC2_AV_SCRATCH_I (volatile unsigned int *)((0x29d2 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_J (0x29d3) +#define P_VDEC2_AV_SCRATCH_J (volatile unsigned int *)((0x29d3 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_K (0x29d4) +#define P_VDEC2_AV_SCRATCH_K (volatile unsigned int *)((0x29d4 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_L (0x29d5) +#define P_VDEC2_AV_SCRATCH_L (volatile unsigned int *)((0x29d5 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_M (0x29d6) +#define P_VDEC2_AV_SCRATCH_M (volatile unsigned int *)((0x29d6 << 2) + 0xff620000) +#define VDEC2_AV_SCRATCH_N (0x29d7) +#define P_VDEC2_AV_SCRATCH_N (volatile unsigned int *)((0x29d7 << 2) + 0xff620000) +// bit[29:24] A_brst_num_co_mb +// bit[21:16] A_id_co_mb +// bit[11:0] wrrsp_count_co_mb +#define VDEC2_WRRSP_CO_MB (0x29d8) +#define P_VDEC2_WRRSP_CO_MB (volatile unsigned int *)((0x29d8 << 2) + 0xff620000) +// bit[29:24] A_brst_num_dcac +// bit[21:16] A_id_dcac +// bit[11:0] wrrsp_count_dcac +#define VDEC2_WRRSP_DCAC (0x29d9) +#define P_VDEC2_WRRSP_DCAC (volatile unsigned int *)((0x29d9 << 2) + 0xff620000) +// bit[11:0] wrrsp_count_vld +#define VDEC2_WRRSP_VLD (0x29da) +#define P_VDEC2_WRRSP_VLD (volatile unsigned int *)((0x29da << 2) + 0xff620000) +// doublew_cfg0[0]; // Second Channel Enable, 1:Enable 0:Disable +// doublew_cfg0[3:1]; // [2:0] Endian Control for Luma +// doublew_cfg0[5:4]; // [1:0] Pixel sel by horizontal, 0x:1/2 10:left 11:right +// doublew_cfg0[7:6]; // [1:0] Pixel sel by vertical, 0x:1/2 10:up 11:down +// doublew_cfg0[8]; // Size by horizontal, 0:original size 1: 1/2 shrunken size +// doublew_cfg0[9]; // Size by vertical, 0:original size 1: 1/2 shrunken size +// doublew_cfg0[10]; // 1:Round 0:Truncation +// doublew_cfg0[11]; // DMA Urgent +// doublew_cfg0[17:12]; // [5:0] DMA Burst Number +// doublew_cfg0[23:18]; // [5:0] DMA ID +// doublew_cfg0[26:24]; // [2:0] Endian Control for Chroma +// doublew_cfg0[27]; // Source from, 1:MCW 0:DBLK +// doublew_cfg0[29:28]; // [1:0] 0x:select both top and bottom 10:select top 11:select bottom +// doublew_cfg0[30]; // 0:no merge 1:automatic merge +// doublew_cfg0[31]; // 0:Y addr no change 1:Y addr divided to half +#define VDEC2_MDEC_DOUBLEW_CFG0 (0x29db) +#define P_VDEC2_MDEC_DOUBLEW_CFG0 (volatile unsigned int *)((0x29db << 2) + 0xff620000) +// doublew_cfg1[7:0]; // [7:0] DMA Canvas Address for Luma +// doublew_cfg1[15:8]; // [7:0] DMA Canvas Address for Chroma +// doublew_cfg1[16]; // Disable 1st Write - +// doublew_cfg1[17]; // Reverse to original version - +// doublew_cfg1[18]; // DMA Address Mode - 0:Canvas Mode 1:Non-Canvas Mode +#define VDEC2_MDEC_DOUBLEW_CFG1 (0x29dc) +#define P_VDEC2_MDEC_DOUBLEW_CFG1 (volatile unsigned int *)((0x29dc << 2) + 0xff620000) +// doublew_cfg2[11:0]; //[11:0] vertical flip initial value +// doublew_cfg2[15]; // vertical flip enable +// doublew_cfg2[24:16]; // [8:0] horizontal flip initial value +// doublew_cfg2[31]; // horizontal flip enable +#define VDEC2_MDEC_DOUBLEW_CFG2 (0x29dd) +#define P_VDEC2_MDEC_DOUBLEW_CFG2 (volatile unsigned int *)((0x29dd << 2) + 0xff620000) +// doublew_cfg3[31:0]; //[31:0] non-canvas start address for Luma - +#define VDEC2_MDEC_DOUBLEW_CFG3 (0x29de) +#define P_VDEC2_MDEC_DOUBLEW_CFG3 (volatile unsigned int *)((0x29de << 2) + 0xff620000) +// doublew_cfg4[31:0]; //[31:0] non-canvas start address for Chroma - +#define VDEC2_MDEC_DOUBLEW_CFG4 (0x29df) +#define P_VDEC2_MDEC_DOUBLEW_CFG4 (volatile unsigned int *)((0x29df << 2) + 0xff620000) +// doublew_cfg5[12:0]; //[12:0] non-canvas picture width for Luma - +// doublew_cfg5[28:16]; //[12:0] non-canvas picture width for Chroma - +#define VDEC2_MDEC_DOUBLEW_CFG5 (0x29e0) +#define P_VDEC2_MDEC_DOUBLEW_CFG5 (volatile unsigned int *)((0x29e0 << 2) + 0xff620000) +// doublew_cfg6: reserved +#define VDEC2_MDEC_DOUBLEW_CFG6 (0x29e1) +#define P_VDEC2_MDEC_DOUBLEW_CFG6 (volatile unsigned int *)((0x29e1 << 2) + 0xff620000) +// doublew_cfg7: reserved +#define VDEC2_MDEC_DOUBLEW_CFG7 (0x29e2) +#define P_VDEC2_MDEC_DOUBLEW_CFG7 (volatile unsigned int *)((0x29e2 << 2) + 0xff620000) +// doublew_status[11:0];//[11:0] wrrsp_count_doublew +// doublew_status[12]; // doublew_status_busy +// doublew_status[13]; // doublew_status_error +#define VDEC2_MDEC_DOUBLEW_STATUS (0x29e3) +#define P_VDEC2_MDEC_DOUBLEW_STATUS (volatile unsigned int *)((0x29e3 << 2) + 0xff620000) +#define VDEC2_MDEC_EXTIF_CFG0 (0x29e4) +#define P_VDEC2_MDEC_EXTIF_CFG0 (volatile unsigned int *)((0x29e4 << 2) + 0xff620000) +#define VDEC2_MDEC_EXTIF_CFG1 (0x29e5) +#define P_VDEC2_MDEC_EXTIF_CFG1 (volatile unsigned int *)((0x29e5 << 2) + 0xff620000) +#define VDEC2_MDEC_EXTIF_STS0 (0x29e6) +#define P_VDEC2_MDEC_EXTIF_STS0 (volatile unsigned int *)((0x29e6 << 2) + 0xff620000) +//====================================== +// MC Control Register Bits +// +//====================================== +// For bits, just copy the defines...don't translate to addresses + //`define MC_RESET 16'h0002 +//====================================== +// MB Info Register Bits +// +//====================================== +//====================================== +// MB Info Register Bits +// +//====================================== +//======================================================================== +// DBLK Register: 12'h950 - 12'h97f +//======================================================================== +#define VDEC2_DBLK_RST (0x2950) +#define P_VDEC2_DBLK_RST (volatile unsigned int *)((0x2950 << 2) + 0xff620000) +#define VDEC2_DBLK_CTRL (0x2951) +#define P_VDEC2_DBLK_CTRL (volatile unsigned int *)((0x2951 << 2) + 0xff620000) +#define VDEC2_DBLK_MB_WID_HEIGHT (0x2952) +#define P_VDEC2_DBLK_MB_WID_HEIGHT (volatile unsigned int *)((0x2952 << 2) + 0xff620000) +#define VDEC2_DBLK_STATUS (0x2953) +#define P_VDEC2_DBLK_STATUS (volatile unsigned int *)((0x2953 << 2) + 0xff620000) +#define VDEC2_DBLK_CMD_CTRL (0x2954) +#define P_VDEC2_DBLK_CMD_CTRL (volatile unsigned int *)((0x2954 << 2) + 0xff620000) +#define VDEC2_DBLK_MB_XY (0x2955) +#define P_VDEC2_DBLK_MB_XY (volatile unsigned int *)((0x2955 << 2) + 0xff620000) +#define VDEC2_DBLK_QP (0x2956) +#define P_VDEC2_DBLK_QP (volatile unsigned int *)((0x2956 << 2) + 0xff620000) +#define VDEC2_DBLK_Y_BHFILT (0x2957) +#define P_VDEC2_DBLK_Y_BHFILT (volatile unsigned int *)((0x2957 << 2) + 0xff620000) +#define VDEC2_DBLK_Y_BHFILT_HIGH (0x2958) +#define P_VDEC2_DBLK_Y_BHFILT_HIGH (volatile unsigned int *)((0x2958 << 2) + 0xff620000) +#define VDEC2_DBLK_Y_BVFILT (0x2959) +#define P_VDEC2_DBLK_Y_BVFILT (volatile unsigned int *)((0x2959 << 2) + 0xff620000) +#define VDEC2_DBLK_CB_BFILT (0x295a) +#define P_VDEC2_DBLK_CB_BFILT (volatile unsigned int *)((0x295a << 2) + 0xff620000) +#define VDEC2_DBLK_CR_BFILT (0x295b) +#define P_VDEC2_DBLK_CR_BFILT (volatile unsigned int *)((0x295b << 2) + 0xff620000) +#define VDEC2_DBLK_Y_HFILT (0x295c) +#define P_VDEC2_DBLK_Y_HFILT (volatile unsigned int *)((0x295c << 2) + 0xff620000) +#define VDEC2_DBLK_Y_HFILT_HIGH (0x295d) +#define P_VDEC2_DBLK_Y_HFILT_HIGH (volatile unsigned int *)((0x295d << 2) + 0xff620000) +#define VDEC2_DBLK_Y_VFILT (0x295e) +#define P_VDEC2_DBLK_Y_VFILT (volatile unsigned int *)((0x295e << 2) + 0xff620000) +#define VDEC2_DBLK_CB_FILT (0x295f) +#define P_VDEC2_DBLK_CB_FILT (volatile unsigned int *)((0x295f << 2) + 0xff620000) +#define VDEC2_DBLK_CR_FILT (0x2960) +#define P_VDEC2_DBLK_CR_FILT (volatile unsigned int *)((0x2960 << 2) + 0xff620000) +#define VDEC2_DBLK_BETAX_QP_SEL (0x2961) +#define P_VDEC2_DBLK_BETAX_QP_SEL (volatile unsigned int *)((0x2961 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL0 (0x2962) +#define P_VDEC2_DBLK_CLIP_CTRL0 (volatile unsigned int *)((0x2962 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL1 (0x2963) +#define P_VDEC2_DBLK_CLIP_CTRL1 (volatile unsigned int *)((0x2963 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL2 (0x2964) +#define P_VDEC2_DBLK_CLIP_CTRL2 (volatile unsigned int *)((0x2964 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL3 (0x2965) +#define P_VDEC2_DBLK_CLIP_CTRL3 (volatile unsigned int *)((0x2965 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL4 (0x2966) +#define P_VDEC2_DBLK_CLIP_CTRL4 (volatile unsigned int *)((0x2966 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL5 (0x2967) +#define P_VDEC2_DBLK_CLIP_CTRL5 (volatile unsigned int *)((0x2967 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL6 (0x2968) +#define P_VDEC2_DBLK_CLIP_CTRL6 (volatile unsigned int *)((0x2968 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL7 (0x2969) +#define P_VDEC2_DBLK_CLIP_CTRL7 (volatile unsigned int *)((0x2969 << 2) + 0xff620000) +#define VDEC2_DBLK_CLIP_CTRL8 (0x296a) +#define P_VDEC2_DBLK_CLIP_CTRL8 (volatile unsigned int *)((0x296a << 2) + 0xff620000) +#define VDEC2_DBLK_STATUS1 (0x296b) +#define P_VDEC2_DBLK_STATUS1 (volatile unsigned int *)((0x296b << 2) + 0xff620000) +#define VDEC2_DBLK_GCLK_FREE (0x296c) +#define P_VDEC2_DBLK_GCLK_FREE (volatile unsigned int *)((0x296c << 2) + 0xff620000) +#define VDEC2_DBLK_GCLK_OFF (0x296d) +#define P_VDEC2_DBLK_GCLK_OFF (volatile unsigned int *)((0x296d << 2) + 0xff620000) +#define VDEC2_DBLK_AVSFLAGS (0x296e) +#define P_VDEC2_DBLK_AVSFLAGS (volatile unsigned int *)((0x296e << 2) + 0xff620000) +// bit 15:0 +#define VDEC2_DBLK_CBPY (0x2970) +#define P_VDEC2_DBLK_CBPY (volatile unsigned int *)((0x2970 << 2) + 0xff620000) +// bit 11:8 -- deblk_cbpy_bottom +// bit 7:4 -- deblk_cbpy_left +// bit 3:0 -- deblk_cbpy_top +#define VDEC2_DBLK_CBPY_ADJ (0x2971) +#define P_VDEC2_DBLK_CBPY_ADJ (volatile unsigned int *)((0x2971 << 2) + 0xff620000) +// bit 7:0 -- deblk_cbpc +#define VDEC2_DBLK_CBPC (0x2972) +#define P_VDEC2_DBLK_CBPC (volatile unsigned int *)((0x2972 << 2) + 0xff620000) +// bit 15 -- bottom_mb +// bit 14 -- left_mb +// bit 13 -- top_mb +// bit 12 -- reserved +// bit 11:8 -- deblk_cbpc_bottom +// bit 7:4 -- deblk_cbpc_left +// bit 3:0 -- deblk_cbpc_top +#define VDEC2_DBLK_CBPC_ADJ (0x2973) +#define P_VDEC2_DBLK_CBPC_ADJ (volatile unsigned int *)((0x2973 << 2) + 0xff620000) +// bit 15:8 -- deblk_hmvd -- {left_1, left_0, below_1, below_0, block3-0} +// bit 7:0 -- deblk_vmvd -- {top_1, top_0, below_1, below_0, block3-0} +#define VDEC2_DBLK_VHMVD (0x2974) +#define P_VDEC2_DBLK_VHMVD (volatile unsigned int *)((0x2974 << 2) + 0xff620000) +// bit 13:12 -- right_vmvd +// bit 11 -- right_above_vmvd +// bit 10 -- left_below_hmvd +// bit 9 -- disable_dblk_luma +// bit 8 -- disable_dblk_chroma +// bit 7 -- bBelowRefDiff +// bit 6 -- bLeftRefDiff +// bit 5 -- bAboveRefDiff +// bit 4 -- reserved +// bit 3 -- s_below +// bit 2 -- s_left +// bit 1 -- s_above +// bit 0 -- s +#define VDEC2_DBLK_STRONG (0x2975) +#define P_VDEC2_DBLK_STRONG (volatile unsigned int *)((0x2975 << 2) + 0xff620000) +// bit 14:10 -- PQUANT +// bit 9:5 -- left_PQUANT +// bit 4:0 -- top_PQUANT +#define VDEC2_DBLK_RV8_QUANT (0x2976) +#define P_VDEC2_DBLK_RV8_QUANT (volatile unsigned int *)((0x2976 << 2) + 0xff620000) +#define VDEC2_DBLK_CBUS_HCMD2 (0x2977) +#define P_VDEC2_DBLK_CBUS_HCMD2 (volatile unsigned int *)((0x2977 << 2) + 0xff620000) +#define VDEC2_DBLK_CBUS_HCMD1 (0x2978) +#define P_VDEC2_DBLK_CBUS_HCMD1 (volatile unsigned int *)((0x2978 << 2) + 0xff620000) +#define VDEC2_DBLK_CBUS_HCMD0 (0x2979) +#define P_VDEC2_DBLK_CBUS_HCMD0 (volatile unsigned int *)((0x2979 << 2) + 0xff620000) +#define VDEC2_DBLK_VLD_HCMD2 (0x297a) +#define P_VDEC2_DBLK_VLD_HCMD2 (volatile unsigned int *)((0x297a << 2) + 0xff620000) +#define VDEC2_DBLK_VLD_HCMD1 (0x297b) +#define P_VDEC2_DBLK_VLD_HCMD1 (volatile unsigned int *)((0x297b << 2) + 0xff620000) +#define VDEC2_DBLK_VLD_HCMD0 (0x297c) +#define P_VDEC2_DBLK_VLD_HCMD0 (volatile unsigned int *)((0x297c << 2) + 0xff620000) +#define VDEC2_DBLK_OST_YBASE (0x297d) +#define P_VDEC2_DBLK_OST_YBASE (volatile unsigned int *)((0x297d << 2) + 0xff620000) +#define VDEC2_DBLK_OST_CBCRDIFF (0x297e) +#define P_VDEC2_DBLK_OST_CBCRDIFF (volatile unsigned int *)((0x297e << 2) + 0xff620000) +//13:8 dblk thread ID and token +//5:0 dblk prearbitor burst num +#define VDEC2_DBLK_CTRL1 (0x297f) +#define P_VDEC2_DBLK_CTRL1 (volatile unsigned int *)((0x297f << 2) + 0xff620000) +// MCRCC_CTL1 +// 31:3 +// 2 +// 1 +// 0 +#define VDEC2_MCRCC_CTL1 (0x2980) +#define P_VDEC2_MCRCC_CTL1 (volatile unsigned int *)((0x2980 << 2) + 0xff620000) +// MCRCC_CTL2 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define VDEC2_MCRCC_CTL2 (0x2981) +#define P_VDEC2_MCRCC_CTL2 (volatile unsigned int *)((0x2981 << 2) + 0xff620000) +// MCRCC_CTL3 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define VDEC2_MCRCC_CTL3 (0x2982) +#define P_VDEC2_MCRCC_CTL3 (volatile unsigned int *)((0x2982 << 2) + 0xff620000) +// bit[31:10] reserved +// bit[9:0] sw_clock_gating control +// [9] vdec clk_en for assist and cbus. +// [8] vdec clk_en for ddr +// [7] vdec clk_en for vcpu +// [6] vdec clk_en for assist +// [5] vdec clk_en for dblk +// [4] vdec clk_en for iqidct +// [3] vdec clk_en for mc +// [2] vdec clk_en for pic_dc +// [1] vdec clk_en for psc +// [0] vdec clk_en for vld +#define VDEC2_GCLK_EN (0x2983) +#define P_VDEC2_GCLK_EN (volatile unsigned int *)((0x2983 << 2) + 0xff620000) +// [0] Reserved +// [1] Reserved +// [2] Reset assist, mdec's CBUS +// [3] Reset mdec's VLD +// [4] Reset mdec's VLD +// [5] Reset mdec's VLD +// [6] Reset mdec's IQIDCT +// [7] Reset mdec's MC +// [8] Reset mdec's DBLK +// [9] Reset mdec's PIC_DC +// [10] Reset mdec's Pscale +// [11] Reset vcpu's MCPU +// [12] Reset vcpu's CCPU +// [13] Reset mmc_pre_arb +#define VDEC2_MDEC_SW_RESET (0x2984) +#define P_VDEC2_MDEC_SW_RESET (volatile unsigned int *)((0x2984 << 2) + 0xff620000) +//DBLK last address 12'h97f +// +// Closing file: mdec_regs.h +// +// +// Reading file: mdec_regs.h +// +//======================================================================== +// MDEC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_MDEC_CBUS_BASE = 0x09 +// ----------------------------------------------- +#define HEVC_MC_CTRL_REG (0x3900) +#define P_HEVC_MC_CTRL_REG (volatile unsigned int *)((0x3900 << 2) + 0xff620000) +#define HEVC_MC_MB_INFO (0x3901) +#define P_HEVC_MC_MB_INFO (volatile unsigned int *)((0x3901 << 2) + 0xff620000) +#define HEVC_MC_PIC_INFO (0x3902) +#define P_HEVC_MC_PIC_INFO (volatile unsigned int *)((0x3902 << 2) + 0xff620000) +#define HEVC_MC_HALF_PEL_ONE (0x3903) +#define P_HEVC_MC_HALF_PEL_ONE (volatile unsigned int *)((0x3903 << 2) + 0xff620000) +#define HEVC_MC_HALF_PEL_TWO (0x3904) +#define P_HEVC_MC_HALF_PEL_TWO (volatile unsigned int *)((0x3904 << 2) + 0xff620000) +#define HEVC_POWER_CTL_MC (0x3905) +#define P_HEVC_POWER_CTL_MC (volatile unsigned int *)((0x3905 << 2) + 0xff620000) +#define HEVC_MC_CMD (0x3906) +#define P_HEVC_MC_CMD (volatile unsigned int *)((0x3906 << 2) + 0xff620000) +#define HEVC_MC_CTRL0 (0x3907) +#define P_HEVC_MC_CTRL0 (volatile unsigned int *)((0x3907 << 2) + 0xff620000) +#define HEVC_MC_PIC_W_H (0x3908) +#define P_HEVC_MC_PIC_W_H (volatile unsigned int *)((0x3908 << 2) + 0xff620000) +#define HEVC_MC_STATUS0 (0x3909) +#define P_HEVC_MC_STATUS0 (volatile unsigned int *)((0x3909 << 2) + 0xff620000) +#define HEVC_MC_STATUS1 (0x390a) +#define P_HEVC_MC_STATUS1 (volatile unsigned int *)((0x390a << 2) + 0xff620000) +#define HEVC_MC_CTRL1 (0x390b) +#define P_HEVC_MC_CTRL1 (volatile unsigned int *)((0x390b << 2) + 0xff620000) +#define HEVC_MC_MIX_RATIO0 (0x390c) +#define P_HEVC_MC_MIX_RATIO0 (volatile unsigned int *)((0x390c << 2) + 0xff620000) +#define HEVC_MC_MIX_RATIO1 (0x390d) +#define P_HEVC_MC_MIX_RATIO1 (volatile unsigned int *)((0x390d << 2) + 0xff620000) +#define HEVC_MC_DP_MB_XY (0x390e) +#define P_HEVC_MC_DP_MB_XY (volatile unsigned int *)((0x390e << 2) + 0xff620000) +#define HEVC_MC_OM_MB_XY (0x390f) +#define P_HEVC_MC_OM_MB_XY (volatile unsigned int *)((0x390f << 2) + 0xff620000) +#define HEVC_PSCALE_RST (0x3910) +#define P_HEVC_PSCALE_RST (volatile unsigned int *)((0x3910 << 2) + 0xff620000) +#define HEVC_PSCALE_CTRL (0x3911) +#define P_HEVC_PSCALE_CTRL (volatile unsigned int *)((0x3911 << 2) + 0xff620000) +#define HEVC_PSCALE_PICI_W (0x3912) +#define P_HEVC_PSCALE_PICI_W (volatile unsigned int *)((0x3912 << 2) + 0xff620000) +#define HEVC_PSCALE_PICI_H (0x3913) +#define P_HEVC_PSCALE_PICI_H (volatile unsigned int *)((0x3913 << 2) + 0xff620000) +#define HEVC_PSCALE_PICO_W (0x3914) +#define P_HEVC_PSCALE_PICO_W (volatile unsigned int *)((0x3914 << 2) + 0xff620000) +#define HEVC_PSCALE_PICO_H (0x3915) +#define P_HEVC_PSCALE_PICO_H (volatile unsigned int *)((0x3915 << 2) + 0xff620000) +#define HEVC_PSCALE_PICO_START_X (0x3916) +#define P_HEVC_PSCALE_PICO_START_X (volatile unsigned int *)((0x3916 << 2) + 0xff620000) +#define HEVC_PSCALE_PICO_START_Y (0x3917) +#define P_HEVC_PSCALE_PICO_START_Y (volatile unsigned int *)((0x3917 << 2) + 0xff620000) +#define HEVC_PSCALE_DUMMY (0x3918) +#define P_HEVC_PSCALE_DUMMY (volatile unsigned int *)((0x3918 << 2) + 0xff620000) +#define HEVC_PSCALE_FILT0_COEF0 (0x3919) +#define P_HEVC_PSCALE_FILT0_COEF0 (volatile unsigned int *)((0x3919 << 2) + 0xff620000) +#define HEVC_PSCALE_FILT0_COEF1 (0x391a) +#define P_HEVC_PSCALE_FILT0_COEF1 (volatile unsigned int *)((0x391a << 2) + 0xff620000) +#define HEVC_PSCALE_CMD_CTRL (0x391b) +#define P_HEVC_PSCALE_CMD_CTRL (volatile unsigned int *)((0x391b << 2) + 0xff620000) +#define HEVC_PSCALE_CMD_BLK_X (0x391c) +#define P_HEVC_PSCALE_CMD_BLK_X (volatile unsigned int *)((0x391c << 2) + 0xff620000) +#define HEVC_PSCALE_CMD_BLK_Y (0x391d) +#define P_HEVC_PSCALE_CMD_BLK_Y (volatile unsigned int *)((0x391d << 2) + 0xff620000) +#define HEVC_PSCALE_STATUS (0x391e) +#define P_HEVC_PSCALE_STATUS (volatile unsigned int *)((0x391e << 2) + 0xff620000) +#define HEVC_PSCALE_BMEM_ADDR (0x391f) +#define P_HEVC_PSCALE_BMEM_ADDR (volatile unsigned int *)((0x391f << 2) + 0xff620000) +#define HEVC_PSCALE_BMEM_DAT (0x3920) +#define P_HEVC_PSCALE_BMEM_DAT (volatile unsigned int *)((0x3920 << 2) + 0xff620000) +#define HEVC_PSCALE_DRAM_BUF_CTRL (0x3921) +#define P_HEVC_PSCALE_DRAM_BUF_CTRL (volatile unsigned int *)((0x3921 << 2) + 0xff620000) +#define HEVC_PSCALE_MCMD_CTRL (0x3922) +#define P_HEVC_PSCALE_MCMD_CTRL (volatile unsigned int *)((0x3922 << 2) + 0xff620000) +#define HEVC_PSCALE_MCMD_XSIZE (0x3923) +#define P_HEVC_PSCALE_MCMD_XSIZE (volatile unsigned int *)((0x3923 << 2) + 0xff620000) +#define HEVC_PSCALE_MCMD_YSIZE (0x3924) +#define P_HEVC_PSCALE_MCMD_YSIZE (volatile unsigned int *)((0x3924 << 2) + 0xff620000) +#define HEVC_PSCALE_RBUF_START_BLKX (0x3925) +#define P_HEVC_PSCALE_RBUF_START_BLKX (volatile unsigned int *)((0x3925 << 2) + 0xff620000) +#define HEVC_PSCALE_RBUF_START_BLKY (0x3926) +#define P_HEVC_PSCALE_RBUF_START_BLKY (volatile unsigned int *)((0x3926 << 2) + 0xff620000) +//`define PSCALE_RBUF_MB_WIDTH 8'h27 +#define HEVC_PSCALE_PICO_SHIFT_XY (0x3928) +#define P_HEVC_PSCALE_PICO_SHIFT_XY (volatile unsigned int *)((0x3928 << 2) + 0xff620000) +#define HEVC_PSCALE_CTRL1 (0x3929) +#define P_HEVC_PSCALE_CTRL1 (volatile unsigned int *)((0x3929 << 2) + 0xff620000) +//Bit 15, wmask enable +//Bit 14:13, filt0 srckey_less, +//Bit 12:11, filt1 srckey_less, in the case of the interpolated data is equal distance to +//key data and normal data, 00: select normal data, 01: select right data, 10: select key data +//Bit 10:9, srckey mode, 00: equal, 01: less than or equal, 10: great than or equal +//Bit 8, src key enable +//Bit 7:0, y src key +#define HEVC_PSCALE_SRCKEY_CTRL0 (0x392a) +#define P_HEVC_PSCALE_SRCKEY_CTRL0 (volatile unsigned int *)((0x392a << 2) + 0xff620000) +//Bit 15:8, cb src key +//Bit 7:0, cr src key +#define HEVC_PSCALE_SRCKEY_CTRL1 (0x392b) +#define P_HEVC_PSCALE_SRCKEY_CTRL1 (volatile unsigned int *)((0x392b << 2) + 0xff620000) +//Bit 22:16 canvas_rd_addr2 +//Bit 14:8 canvas_rd_addr1 +//Bit 6:0 canvas_rd_addr1 +#define HEVC_PSCALE_CANVAS_RD_ADDR (0x392c) +#define P_HEVC_PSCALE_CANVAS_RD_ADDR (volatile unsigned int *)((0x392c << 2) + 0xff620000) +//Bit 22:16 canvas_wr_addr2 +//Bit 14:8 canvas_wr_addr1 +//Bit 6:0 canvas_wr_addr1 +#define HEVC_PSCALE_CANVAS_WR_ADDR (0x392d) +#define P_HEVC_PSCALE_CANVAS_WR_ADDR (volatile unsigned int *)((0x392d << 2) + 0xff620000) +//bit 13:8 pscale thread ID and token +//bit 7 disable write response count adding to busy bit +//bit 5:0 pscale prearbitor burst num +#define HEVC_PSCALE_CTRL2 (0x392e) +#define P_HEVC_PSCALE_CTRL2 (volatile unsigned int *)((0x392e << 2) + 0xff620000) +// 31 - use_omem_mb_xy_auto +//23:16 - omem_max_mb_x +//15:8 - omem_mb_y_auto +// 7:0 - omem_mb_x_auto +#define HEVC_HDEC_MC_OMEM_AUTO (0x3930) +#define P_HEVC_HDEC_MC_OMEM_AUTO (volatile unsigned int *)((0x3930 << 2) + 0xff620000) +#define HEVC_HDEC_MC_MBRIGHT_IDX (0x3931) +#define P_HEVC_HDEC_MC_MBRIGHT_IDX (volatile unsigned int *)((0x3931 << 2) + 0xff620000) +#define HEVC_HDEC_MC_MBRIGHT_RD (0x3932) +#define P_HEVC_HDEC_MC_MBRIGHT_RD (volatile unsigned int *)((0x3932 << 2) + 0xff620000) +#define HEVC_MC_MPORT_CTRL (0x3940) +#define P_HEVC_MC_MPORT_CTRL (volatile unsigned int *)((0x3940 << 2) + 0xff620000) +#define HEVC_MC_MPORT_DAT (0x3941) +#define P_HEVC_MC_MPORT_DAT (volatile unsigned int *)((0x3941 << 2) + 0xff620000) +#define HEVC_MC_WT_PRED_CTRL (0x3942) +#define P_HEVC_MC_WT_PRED_CTRL (volatile unsigned int *)((0x3942 << 2) + 0xff620000) +#define HEVC_MC_MBBOT_ST_EVEN_ADDR (0x3944) +#define P_HEVC_MC_MBBOT_ST_EVEN_ADDR (volatile unsigned int *)((0x3944 << 2) + 0xff620000) +#define HEVC_MC_MBBOT_ST_ODD_ADDR (0x3945) +#define P_HEVC_MC_MBBOT_ST_ODD_ADDR (volatile unsigned int *)((0x3945 << 2) + 0xff620000) +#define HEVC_MC_DPDN_MB_XY (0x3946) +#define P_HEVC_MC_DPDN_MB_XY (volatile unsigned int *)((0x3946 << 2) + 0xff620000) +#define HEVC_MC_OMDN_MB_XY (0x3947) +#define P_HEVC_MC_OMDN_MB_XY (volatile unsigned int *)((0x3947 << 2) + 0xff620000) +#define HEVC_MC_HCMDBUF_H (0x3948) +#define P_HEVC_MC_HCMDBUF_H (volatile unsigned int *)((0x3948 << 2) + 0xff620000) +#define HEVC_MC_HCMDBUF_L (0x3949) +#define P_HEVC_MC_HCMDBUF_L (volatile unsigned int *)((0x3949 << 2) + 0xff620000) +#define HEVC_MC_HCMD_H (0x394a) +#define P_HEVC_MC_HCMD_H (volatile unsigned int *)((0x394a << 2) + 0xff620000) +#define HEVC_MC_HCMD_L (0x394b) +#define P_HEVC_MC_HCMD_L (volatile unsigned int *)((0x394b << 2) + 0xff620000) +#define HEVC_MC_IDCT_DAT (0x394c) +#define P_HEVC_MC_IDCT_DAT (volatile unsigned int *)((0x394c << 2) + 0xff620000) +#define HEVC_MC_CTRL_GCLK_CTRL (0x394d) +#define P_HEVC_MC_CTRL_GCLK_CTRL (volatile unsigned int *)((0x394d << 2) + 0xff620000) +#define HEVC_MC_OTHER_GCLK_CTRL (0x394e) +#define P_HEVC_MC_OTHER_GCLK_CTRL (volatile unsigned int *)((0x394e << 2) + 0xff620000) +//Bit 29:24, mbbot thread ID and token +//Bit 21:16, mc read/write thread ID and token +//Bit 13:8, mbbot pre-arbitor burst number +//Bit 5:0, mc pre-arbitor burst number +#define HEVC_MC_CTRL2 (0x394f) +#define P_HEVC_MC_CTRL2 (volatile unsigned int *)((0x394f << 2) + 0xff620000) +// `define DBLK_QUANT 8'h76 // ONLY for $ucode/real/amrisc/rv.s, reg value from apollo +//`define ANC1_CANVAS_ADDR 8'h80 +//`define ANC2_CANVAS_ADDR 8'h81 +//`define REC_CANVAS_ADDR 8'h89 +//`define MDEC_PIC_W 8'h8c +//`define MDEC_PIC_H 8'h8d +// mdec_pic_dc_mux_ctrl[31] -- mcr_hevc_mode +#define HEVC_MDEC_PIC_DC_MUX_CTRL (0x398d) +#define P_HEVC_MDEC_PIC_DC_MUX_CTRL (volatile unsigned int *)((0x398d << 2) + 0xff620000) +#define HEVC_MDEC_PIC_DC_CTRL (0x398e) +#define P_HEVC_MDEC_PIC_DC_CTRL (volatile unsigned int *)((0x398e << 2) + 0xff620000) +#define HEVC_MDEC_PIC_DC_STATUS (0x398f) +#define P_HEVC_MDEC_PIC_DC_STATUS (volatile unsigned int *)((0x398f << 2) + 0xff620000) +#define HEVC_ANC0_CANVAS_ADDR (0x3990) +#define P_HEVC_ANC0_CANVAS_ADDR (volatile unsigned int *)((0x3990 << 2) + 0xff620000) +#define HEVC_ANC1_CANVAS_ADDR (0x3991) +#define P_HEVC_ANC1_CANVAS_ADDR (volatile unsigned int *)((0x3991 << 2) + 0xff620000) +#define HEVC_ANC2_CANVAS_ADDR (0x3992) +#define P_HEVC_ANC2_CANVAS_ADDR (volatile unsigned int *)((0x3992 << 2) + 0xff620000) +#define HEVC_ANC3_CANVAS_ADDR (0x3993) +#define P_HEVC_ANC3_CANVAS_ADDR (volatile unsigned int *)((0x3993 << 2) + 0xff620000) +#define HEVC_ANC4_CANVAS_ADDR (0x3994) +#define P_HEVC_ANC4_CANVAS_ADDR (volatile unsigned int *)((0x3994 << 2) + 0xff620000) +#define HEVC_ANC5_CANVAS_ADDR (0x3995) +#define P_HEVC_ANC5_CANVAS_ADDR (volatile unsigned int *)((0x3995 << 2) + 0xff620000) +#define HEVC_ANC6_CANVAS_ADDR (0x3996) +#define P_HEVC_ANC6_CANVAS_ADDR (volatile unsigned int *)((0x3996 << 2) + 0xff620000) +#define HEVC_ANC7_CANVAS_ADDR (0x3997) +#define P_HEVC_ANC7_CANVAS_ADDR (volatile unsigned int *)((0x3997 << 2) + 0xff620000) +#define HEVC_ANC8_CANVAS_ADDR (0x3998) +#define P_HEVC_ANC8_CANVAS_ADDR (volatile unsigned int *)((0x3998 << 2) + 0xff620000) +#define HEVC_ANC9_CANVAS_ADDR (0x3999) +#define P_HEVC_ANC9_CANVAS_ADDR (volatile unsigned int *)((0x3999 << 2) + 0xff620000) +#define HEVC_ANC10_CANVAS_ADDR (0x399a) +#define P_HEVC_ANC10_CANVAS_ADDR (volatile unsigned int *)((0x399a << 2) + 0xff620000) +#define HEVC_ANC11_CANVAS_ADDR (0x399b) +#define P_HEVC_ANC11_CANVAS_ADDR (volatile unsigned int *)((0x399b << 2) + 0xff620000) +#define HEVC_ANC12_CANVAS_ADDR (0x399c) +#define P_HEVC_ANC12_CANVAS_ADDR (volatile unsigned int *)((0x399c << 2) + 0xff620000) +#define HEVC_ANC13_CANVAS_ADDR (0x399d) +#define P_HEVC_ANC13_CANVAS_ADDR (volatile unsigned int *)((0x399d << 2) + 0xff620000) +#define HEVC_ANC14_CANVAS_ADDR (0x399e) +#define P_HEVC_ANC14_CANVAS_ADDR (volatile unsigned int *)((0x399e << 2) + 0xff620000) +#define HEVC_ANC15_CANVAS_ADDR (0x399f) +#define P_HEVC_ANC15_CANVAS_ADDR (volatile unsigned int *)((0x399f << 2) + 0xff620000) +#define HEVC_ANC16_CANVAS_ADDR (0x39a0) +#define P_HEVC_ANC16_CANVAS_ADDR (volatile unsigned int *)((0x39a0 << 2) + 0xff620000) +#define HEVC_ANC17_CANVAS_ADDR (0x39a1) +#define P_HEVC_ANC17_CANVAS_ADDR (volatile unsigned int *)((0x39a1 << 2) + 0xff620000) +#define HEVC_ANC18_CANVAS_ADDR (0x39a2) +#define P_HEVC_ANC18_CANVAS_ADDR (volatile unsigned int *)((0x39a2 << 2) + 0xff620000) +#define HEVC_ANC19_CANVAS_ADDR (0x39a3) +#define P_HEVC_ANC19_CANVAS_ADDR (volatile unsigned int *)((0x39a3 << 2) + 0xff620000) +#define HEVC_ANC20_CANVAS_ADDR (0x39a4) +#define P_HEVC_ANC20_CANVAS_ADDR (volatile unsigned int *)((0x39a4 << 2) + 0xff620000) +#define HEVC_ANC21_CANVAS_ADDR (0x39a5) +#define P_HEVC_ANC21_CANVAS_ADDR (volatile unsigned int *)((0x39a5 << 2) + 0xff620000) +#define HEVC_ANC22_CANVAS_ADDR (0x39a6) +#define P_HEVC_ANC22_CANVAS_ADDR (volatile unsigned int *)((0x39a6 << 2) + 0xff620000) +#define HEVC_ANC23_CANVAS_ADDR (0x39a7) +#define P_HEVC_ANC23_CANVAS_ADDR (volatile unsigned int *)((0x39a7 << 2) + 0xff620000) +#define HEVC_ANC24_CANVAS_ADDR (0x39a8) +#define P_HEVC_ANC24_CANVAS_ADDR (volatile unsigned int *)((0x39a8 << 2) + 0xff620000) +#define HEVC_ANC25_CANVAS_ADDR (0x39a9) +#define P_HEVC_ANC25_CANVAS_ADDR (volatile unsigned int *)((0x39a9 << 2) + 0xff620000) +#define HEVC_ANC26_CANVAS_ADDR (0x39aa) +#define P_HEVC_ANC26_CANVAS_ADDR (volatile unsigned int *)((0x39aa << 2) + 0xff620000) +#define HEVC_ANC27_CANVAS_ADDR (0x39ab) +#define P_HEVC_ANC27_CANVAS_ADDR (volatile unsigned int *)((0x39ab << 2) + 0xff620000) +#define HEVC_ANC28_CANVAS_ADDR (0x39ac) +#define P_HEVC_ANC28_CANVAS_ADDR (volatile unsigned int *)((0x39ac << 2) + 0xff620000) +#define HEVC_ANC29_CANVAS_ADDR (0x39ad) +#define P_HEVC_ANC29_CANVAS_ADDR (volatile unsigned int *)((0x39ad << 2) + 0xff620000) +#define HEVC_ANC30_CANVAS_ADDR (0x39ae) +#define P_HEVC_ANC30_CANVAS_ADDR (volatile unsigned int *)((0x39ae << 2) + 0xff620000) +#define HEVC_ANC31_CANVAS_ADDR (0x39af) +#define P_HEVC_ANC31_CANVAS_ADDR (volatile unsigned int *)((0x39af << 2) + 0xff620000) +#define HEVC_DBKR_CANVAS_ADDR (0x39b0) +#define P_HEVC_DBKR_CANVAS_ADDR (volatile unsigned int *)((0x39b0 << 2) + 0xff620000) +#define HEVC_DBKW_CANVAS_ADDR (0x39b1) +#define P_HEVC_DBKW_CANVAS_ADDR (volatile unsigned int *)((0x39b1 << 2) + 0xff620000) +#define HEVC_REC_CANVAS_ADDR (0x39b2) +#define P_HEVC_REC_CANVAS_ADDR (volatile unsigned int *)((0x39b2 << 2) + 0xff620000) +//28:24, read/write, current canvas idx, used in h264 only now +//23:0, read only, current canvas address, 23:16, Cr canvas addr, 15:8, Cb canvas addr, 7:0, Y canvas addr +#define HEVC_CURR_CANVAS_CTRL (0x39b3) +#define P_HEVC_CURR_CANVAS_CTRL (volatile unsigned int *)((0x39b3 << 2) + 0xff620000) +#define HEVC_MDEC_PIC_DC_THRESH (0x39b8) +#define P_HEVC_MDEC_PIC_DC_THRESH (volatile unsigned int *)((0x39b8 << 2) + 0xff620000) +#define HEVC_MDEC_PICR_BUF_STATUS (0x39b9) +#define P_HEVC_MDEC_PICR_BUF_STATUS (volatile unsigned int *)((0x39b9 << 2) + 0xff620000) +#define HEVC_MDEC_PICW_BUF_STATUS (0x39ba) +#define P_HEVC_MDEC_PICW_BUF_STATUS (volatile unsigned int *)((0x39ba << 2) + 0xff620000) +#define HEVC_MCW_DBLK_WRRSP_CNT (0x39bb) +#define P_HEVC_MCW_DBLK_WRRSP_CNT (volatile unsigned int *)((0x39bb << 2) + 0xff620000) +#define HEVC_MC_MBBOT_WRRSP_CNT (0x39bc) +#define P_HEVC_MC_MBBOT_WRRSP_CNT (volatile unsigned int *)((0x39bc << 2) + 0xff620000) +#define HEVC_MDEC_PICW_BUF2_STATUS (0x39bd) +#define P_HEVC_MDEC_PICW_BUF2_STATUS (volatile unsigned int *)((0x39bd << 2) + 0xff620000) +#define HEVC_WRRSP_FIFO_PICW_DBK (0x39be) +#define P_HEVC_WRRSP_FIFO_PICW_DBK (volatile unsigned int *)((0x39be << 2) + 0xff620000) +#define HEVC_WRRSP_FIFO_PICW_MC (0x39bf) +#define P_HEVC_WRRSP_FIFO_PICW_MC (volatile unsigned int *)((0x39bf << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_0 (0x39c0) +#define P_HEVC_AV_SCRATCH_0 (volatile unsigned int *)((0x39c0 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_1 (0x39c1) +#define P_HEVC_AV_SCRATCH_1 (volatile unsigned int *)((0x39c1 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_2 (0x39c2) +#define P_HEVC_AV_SCRATCH_2 (volatile unsigned int *)((0x39c2 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_3 (0x39c3) +#define P_HEVC_AV_SCRATCH_3 (volatile unsigned int *)((0x39c3 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_4 (0x39c4) +#define P_HEVC_AV_SCRATCH_4 (volatile unsigned int *)((0x39c4 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_5 (0x39c5) +#define P_HEVC_AV_SCRATCH_5 (volatile unsigned int *)((0x39c5 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_6 (0x39c6) +#define P_HEVC_AV_SCRATCH_6 (volatile unsigned int *)((0x39c6 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_7 (0x39c7) +#define P_HEVC_AV_SCRATCH_7 (volatile unsigned int *)((0x39c7 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_8 (0x39c8) +#define P_HEVC_AV_SCRATCH_8 (volatile unsigned int *)((0x39c8 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_9 (0x39c9) +#define P_HEVC_AV_SCRATCH_9 (volatile unsigned int *)((0x39c9 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_A (0x39ca) +#define P_HEVC_AV_SCRATCH_A (volatile unsigned int *)((0x39ca << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_B (0x39cb) +#define P_HEVC_AV_SCRATCH_B (volatile unsigned int *)((0x39cb << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_C (0x39cc) +#define P_HEVC_AV_SCRATCH_C (volatile unsigned int *)((0x39cc << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_D (0x39cd) +#define P_HEVC_AV_SCRATCH_D (volatile unsigned int *)((0x39cd << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_E (0x39ce) +#define P_HEVC_AV_SCRATCH_E (volatile unsigned int *)((0x39ce << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_F (0x39cf) +#define P_HEVC_AV_SCRATCH_F (volatile unsigned int *)((0x39cf << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_G (0x39d0) +#define P_HEVC_AV_SCRATCH_G (volatile unsigned int *)((0x39d0 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_H (0x39d1) +#define P_HEVC_AV_SCRATCH_H (volatile unsigned int *)((0x39d1 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_I (0x39d2) +#define P_HEVC_AV_SCRATCH_I (volatile unsigned int *)((0x39d2 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_J (0x39d3) +#define P_HEVC_AV_SCRATCH_J (volatile unsigned int *)((0x39d3 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_K (0x39d4) +#define P_HEVC_AV_SCRATCH_K (volatile unsigned int *)((0x39d4 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_L (0x39d5) +#define P_HEVC_AV_SCRATCH_L (volatile unsigned int *)((0x39d5 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_M (0x39d6) +#define P_HEVC_AV_SCRATCH_M (volatile unsigned int *)((0x39d6 << 2) + 0xff620000) +#define HEVC_AV_SCRATCH_N (0x39d7) +#define P_HEVC_AV_SCRATCH_N (volatile unsigned int *)((0x39d7 << 2) + 0xff620000) +// bit[29:24] A_brst_num_co_mb +// bit[21:16] A_id_co_mb +// bit[11:0] wrrsp_count_co_mb +#define HEVC_WRRSP_CO_MB (0x39d8) +#define P_HEVC_WRRSP_CO_MB (volatile unsigned int *)((0x39d8 << 2) + 0xff620000) +// bit[29:24] A_brst_num_dcac +// bit[21:16] A_id_dcac +// bit[11:0] wrrsp_count_dcac +#define HEVC_WRRSP_DCAC (0x39d9) +#define P_HEVC_WRRSP_DCAC (volatile unsigned int *)((0x39d9 << 2) + 0xff620000) +// bit[11:0] wrrsp_count_vld +#define HEVC_WRRSP_VLD (0x39da) +#define P_HEVC_WRRSP_VLD (volatile unsigned int *)((0x39da << 2) + 0xff620000) +// doublew_cfg0[0]; // Second Channel Enable, 1:Enable 0:Disable +// doublew_cfg0[3:1]; // [2:0] Endian Control for Luma +// doublew_cfg0[5:4]; // [1:0] Pixel sel by horizontal, 0x:1/2 10:left 11:right +// doublew_cfg0[7:6]; // [1:0] Pixel sel by vertical, 0x:1/2 10:up 11:down +// doublew_cfg0[8]; // Size by horizontal, 0:original size 1: 1/2 shrunken size +// doublew_cfg0[9]; // Size by vertical, 0:original size 1: 1/2 shrunken size +// doublew_cfg0[10]; // 1:Round 0:Truncation +// doublew_cfg0[11]; // DMA Urgent +// doublew_cfg0[17:12]; // [5:0] DMA Burst Number +// doublew_cfg0[23:18]; // [5:0] DMA ID +// doublew_cfg0[26:24]; // [2:0] Endian Control for Chroma +// doublew_cfg0[27]; // Source from, 1:MCW 0:DBLK +// doublew_cfg0[29:28]; // [1:0] 0x:select both top and bottom 10:select top 11:select bottom +// doublew_cfg0[30]; // 0:no merge 1:automatic merge +// doublew_cfg0[31]; // 0:Y addr no change 1:Y addr divided to half +#define HEVC_MDEC_DOUBLEW_CFG0 (0x39db) +#define P_HEVC_MDEC_DOUBLEW_CFG0 (volatile unsigned int *)((0x39db << 2) + 0xff620000) +// doublew_cfg1[7:0]; // [7:0] DMA Canvas Address for Luma +// doublew_cfg1[15:8]; // [7:0] DMA Canvas Address for Chroma +// doublew_cfg1[16]; // Disable 1st Write - +// doublew_cfg1[17]; // Reverse to original version - +// doublew_cfg1[18]; // DMA Address Mode - 0:Canvas Mode 1:Non-Canvas Mode +#define HEVC_MDEC_DOUBLEW_CFG1 (0x39dc) +#define P_HEVC_MDEC_DOUBLEW_CFG1 (volatile unsigned int *)((0x39dc << 2) + 0xff620000) +// doublew_cfg2[11:0]; //[11:0] vertical flip initial value +// doublew_cfg2[15]; // vertical flip enable +// doublew_cfg2[24:16]; // [8:0] horizontal flip initial value +// doublew_cfg2[31]; // horizontal flip enable +#define HEVC_MDEC_DOUBLEW_CFG2 (0x39dd) +#define P_HEVC_MDEC_DOUBLEW_CFG2 (volatile unsigned int *)((0x39dd << 2) + 0xff620000) +// doublew_cfg3[31:0]; //[31:0] non-canvas start address for Luma - +#define HEVC_MDEC_DOUBLEW_CFG3 (0x39de) +#define P_HEVC_MDEC_DOUBLEW_CFG3 (volatile unsigned int *)((0x39de << 2) + 0xff620000) +// doublew_cfg4[31:0]; //[31:0] non-canvas start address for Chroma - +#define HEVC_MDEC_DOUBLEW_CFG4 (0x39df) +#define P_HEVC_MDEC_DOUBLEW_CFG4 (volatile unsigned int *)((0x39df << 2) + 0xff620000) +// doublew_cfg5[12:0]; //[12:0] non-canvas picture width for Luma - +// doublew_cfg5[28:16]; //[12:0] non-canvas picture width for Chroma - +#define HEVC_MDEC_DOUBLEW_CFG5 (0x39e0) +#define P_HEVC_MDEC_DOUBLEW_CFG5 (volatile unsigned int *)((0x39e0 << 2) + 0xff620000) +// doublew_cfg6: reserved +#define HEVC_MDEC_DOUBLEW_CFG6 (0x39e1) +#define P_HEVC_MDEC_DOUBLEW_CFG6 (volatile unsigned int *)((0x39e1 << 2) + 0xff620000) +// doublew_cfg7: reserved +#define HEVC_MDEC_DOUBLEW_CFG7 (0x39e2) +#define P_HEVC_MDEC_DOUBLEW_CFG7 (volatile unsigned int *)((0x39e2 << 2) + 0xff620000) +// doublew_status[11:0];//[11:0] wrrsp_count_doublew +// doublew_status[12]; // doublew_status_busy +// doublew_status[13]; // doublew_status_error +#define HEVC_MDEC_DOUBLEW_STATUS (0x39e3) +#define P_HEVC_MDEC_DOUBLEW_STATUS (volatile unsigned int *)((0x39e3 << 2) + 0xff620000) +#define HEVC_MDEC_EXTIF_CFG0 (0x39e4) +#define P_HEVC_MDEC_EXTIF_CFG0 (volatile unsigned int *)((0x39e4 << 2) + 0xff620000) +#define HEVC_MDEC_EXTIF_CFG1 (0x39e5) +#define P_HEVC_MDEC_EXTIF_CFG1 (volatile unsigned int *)((0x39e5 << 2) + 0xff620000) +#define HEVC_MDEC_EXTIF_STS0 (0x39e6) +#define P_HEVC_MDEC_EXTIF_STS0 (volatile unsigned int *)((0x39e6 << 2) + 0xff620000) +//====================================== +// MC Control Register Bits +// +//====================================== +// For bits, just copy the defines...don't translate to addresses + //`define MC_RESET 16'h0002 +//====================================== +// MB Info Register Bits +// +//====================================== +//====================================== +// MB Info Register Bits +// +//====================================== +//======================================================================== +// DBLK Register: 12'h950 - 12'h97f +//======================================================================== +#define HEVC_DBLK_RST (0x3950) +#define P_HEVC_DBLK_RST (volatile unsigned int *)((0x3950 << 2) + 0xff620000) +#define HEVC_DBLK_CTRL (0x3951) +#define P_HEVC_DBLK_CTRL (volatile unsigned int *)((0x3951 << 2) + 0xff620000) +#define HEVC_DBLK_MB_WID_HEIGHT (0x3952) +#define P_HEVC_DBLK_MB_WID_HEIGHT (volatile unsigned int *)((0x3952 << 2) + 0xff620000) +#define HEVC_DBLK_STATUS (0x3953) +#define P_HEVC_DBLK_STATUS (volatile unsigned int *)((0x3953 << 2) + 0xff620000) +#define HEVC_DBLK_CMD_CTRL (0x3954) +#define P_HEVC_DBLK_CMD_CTRL (volatile unsigned int *)((0x3954 << 2) + 0xff620000) +#define HEVC_DBLK_MB_XY (0x3955) +#define P_HEVC_DBLK_MB_XY (volatile unsigned int *)((0x3955 << 2) + 0xff620000) +#define HEVC_DBLK_QP (0x3956) +#define P_HEVC_DBLK_QP (volatile unsigned int *)((0x3956 << 2) + 0xff620000) +#define HEVC_DBLK_Y_BHFILT (0x3957) +#define P_HEVC_DBLK_Y_BHFILT (volatile unsigned int *)((0x3957 << 2) + 0xff620000) +#define HEVC_DBLK_Y_BHFILT_HIGH (0x3958) +#define P_HEVC_DBLK_Y_BHFILT_HIGH (volatile unsigned int *)((0x3958 << 2) + 0xff620000) +#define HEVC_DBLK_Y_BVFILT (0x3959) +#define P_HEVC_DBLK_Y_BVFILT (volatile unsigned int *)((0x3959 << 2) + 0xff620000) +#define HEVC_DBLK_CB_BFILT (0x395a) +#define P_HEVC_DBLK_CB_BFILT (volatile unsigned int *)((0x395a << 2) + 0xff620000) +#define HEVC_DBLK_CR_BFILT (0x395b) +#define P_HEVC_DBLK_CR_BFILT (volatile unsigned int *)((0x395b << 2) + 0xff620000) +#define HEVC_DBLK_Y_HFILT (0x395c) +#define P_HEVC_DBLK_Y_HFILT (volatile unsigned int *)((0x395c << 2) + 0xff620000) +#define HEVC_DBLK_Y_HFILT_HIGH (0x395d) +#define P_HEVC_DBLK_Y_HFILT_HIGH (volatile unsigned int *)((0x395d << 2) + 0xff620000) +#define HEVC_DBLK_Y_VFILT (0x395e) +#define P_HEVC_DBLK_Y_VFILT (volatile unsigned int *)((0x395e << 2) + 0xff620000) +#define HEVC_DBLK_CB_FILT (0x395f) +#define P_HEVC_DBLK_CB_FILT (volatile unsigned int *)((0x395f << 2) + 0xff620000) +#define HEVC_DBLK_CR_FILT (0x3960) +#define P_HEVC_DBLK_CR_FILT (volatile unsigned int *)((0x3960 << 2) + 0xff620000) +#define HEVC_DBLK_BETAX_QP_SEL (0x3961) +#define P_HEVC_DBLK_BETAX_QP_SEL (volatile unsigned int *)((0x3961 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL0 (0x3962) +#define P_HEVC_DBLK_CLIP_CTRL0 (volatile unsigned int *)((0x3962 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL1 (0x3963) +#define P_HEVC_DBLK_CLIP_CTRL1 (volatile unsigned int *)((0x3963 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL2 (0x3964) +#define P_HEVC_DBLK_CLIP_CTRL2 (volatile unsigned int *)((0x3964 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL3 (0x3965) +#define P_HEVC_DBLK_CLIP_CTRL3 (volatile unsigned int *)((0x3965 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL4 (0x3966) +#define P_HEVC_DBLK_CLIP_CTRL4 (volatile unsigned int *)((0x3966 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL5 (0x3967) +#define P_HEVC_DBLK_CLIP_CTRL5 (volatile unsigned int *)((0x3967 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL6 (0x3968) +#define P_HEVC_DBLK_CLIP_CTRL6 (volatile unsigned int *)((0x3968 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL7 (0x3969) +#define P_HEVC_DBLK_CLIP_CTRL7 (volatile unsigned int *)((0x3969 << 2) + 0xff620000) +#define HEVC_DBLK_CLIP_CTRL8 (0x396a) +#define P_HEVC_DBLK_CLIP_CTRL8 (volatile unsigned int *)((0x396a << 2) + 0xff620000) +#define HEVC_DBLK_STATUS1 (0x396b) +#define P_HEVC_DBLK_STATUS1 (volatile unsigned int *)((0x396b << 2) + 0xff620000) +#define HEVC_DBLK_GCLK_FREE (0x396c) +#define P_HEVC_DBLK_GCLK_FREE (volatile unsigned int *)((0x396c << 2) + 0xff620000) +#define HEVC_DBLK_GCLK_OFF (0x396d) +#define P_HEVC_DBLK_GCLK_OFF (volatile unsigned int *)((0x396d << 2) + 0xff620000) +#define HEVC_DBLK_AVSFLAGS (0x396e) +#define P_HEVC_DBLK_AVSFLAGS (volatile unsigned int *)((0x396e << 2) + 0xff620000) +// bit 15:0 +#define HEVC_DBLK_CBPY (0x3970) +#define P_HEVC_DBLK_CBPY (volatile unsigned int *)((0x3970 << 2) + 0xff620000) +// bit 11:8 -- deblk_cbpy_bottom +// bit 7:4 -- deblk_cbpy_left +// bit 3:0 -- deblk_cbpy_top +#define HEVC_DBLK_CBPY_ADJ (0x3971) +#define P_HEVC_DBLK_CBPY_ADJ (volatile unsigned int *)((0x3971 << 2) + 0xff620000) +// bit 7:0 -- deblk_cbpc +#define HEVC_DBLK_CBPC (0x3972) +#define P_HEVC_DBLK_CBPC (volatile unsigned int *)((0x3972 << 2) + 0xff620000) +// bit 15 -- bottom_mb +// bit 14 -- left_mb +// bit 13 -- top_mb +// bit 12 -- reserved +// bit 11:8 -- deblk_cbpc_bottom +// bit 7:4 -- deblk_cbpc_left +// bit 3:0 -- deblk_cbpc_top +#define HEVC_DBLK_CBPC_ADJ (0x3973) +#define P_HEVC_DBLK_CBPC_ADJ (volatile unsigned int *)((0x3973 << 2) + 0xff620000) +// bit 15:8 -- deblk_hmvd -- {left_1, left_0, below_1, below_0, block3-0} +// bit 7:0 -- deblk_vmvd -- {top_1, top_0, below_1, below_0, block3-0} +#define HEVC_DBLK_VHMVD (0x3974) +#define P_HEVC_DBLK_VHMVD (volatile unsigned int *)((0x3974 << 2) + 0xff620000) +// bit 13:12 -- right_vmvd +// bit 11 -- right_above_vmvd +// bit 10 -- left_below_hmvd +// bit 9 -- disable_dblk_luma +// bit 8 -- disable_dblk_chroma +// bit 7 -- bBelowRefDiff +// bit 6 -- bLeftRefDiff +// bit 5 -- bAboveRefDiff +// bit 4 -- reserved +// bit 3 -- s_below +// bit 2 -- s_left +// bit 1 -- s_above +// bit 0 -- s +#define HEVC_DBLK_STRONG (0x3975) +#define P_HEVC_DBLK_STRONG (volatile unsigned int *)((0x3975 << 2) + 0xff620000) +// bit 14:10 -- PQUANT +// bit 9:5 -- left_PQUANT +// bit 4:0 -- top_PQUANT +#define HEVC_DBLK_RV8_QUANT (0x3976) +#define P_HEVC_DBLK_RV8_QUANT (volatile unsigned int *)((0x3976 << 2) + 0xff620000) +#define HEVC_DBLK_CBUS_HCMD2 (0x3977) +#define P_HEVC_DBLK_CBUS_HCMD2 (volatile unsigned int *)((0x3977 << 2) + 0xff620000) +#define HEVC_DBLK_CBUS_HCMD1 (0x3978) +#define P_HEVC_DBLK_CBUS_HCMD1 (volatile unsigned int *)((0x3978 << 2) + 0xff620000) +#define HEVC_DBLK_CBUS_HCMD0 (0x3979) +#define P_HEVC_DBLK_CBUS_HCMD0 (volatile unsigned int *)((0x3979 << 2) + 0xff620000) +#define HEVC_DBLK_VLD_HCMD2 (0x397a) +#define P_HEVC_DBLK_VLD_HCMD2 (volatile unsigned int *)((0x397a << 2) + 0xff620000) +#define HEVC_DBLK_VLD_HCMD1 (0x397b) +#define P_HEVC_DBLK_VLD_HCMD1 (volatile unsigned int *)((0x397b << 2) + 0xff620000) +#define HEVC_DBLK_VLD_HCMD0 (0x397c) +#define P_HEVC_DBLK_VLD_HCMD0 (volatile unsigned int *)((0x397c << 2) + 0xff620000) +#define HEVC_DBLK_OST_YBASE (0x397d) +#define P_HEVC_DBLK_OST_YBASE (volatile unsigned int *)((0x397d << 2) + 0xff620000) +#define HEVC_DBLK_OST_CBCRDIFF (0x397e) +#define P_HEVC_DBLK_OST_CBCRDIFF (volatile unsigned int *)((0x397e << 2) + 0xff620000) +//13:8 dblk thread ID and token +//5:0 dblk prearbitor burst num +#define HEVC_DBLK_CTRL1 (0x397f) +#define P_HEVC_DBLK_CTRL1 (volatile unsigned int *)((0x397f << 2) + 0xff620000) +// MCRCC_CTL1 +// 31:3 +// 2 +// 1 +// 0 +#define HEVC_MCRCC_CTL1 (0x3980) +#define P_HEVC_MCRCC_CTL1 (volatile unsigned int *)((0x3980 << 2) + 0xff620000) +// MCRCC_CTL2 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define HEVC_MCRCC_CTL2 (0x3981) +#define P_HEVC_MCRCC_CTL2 (volatile unsigned int *)((0x3981 << 2) + 0xff620000) +// MCRCC_CTL3 +// 31:24 +// 23:16 +// 15:8 +// 7:0 +#define HEVC_MCRCC_CTL3 (0x3982) +#define P_HEVC_MCRCC_CTL3 (volatile unsigned int *)((0x3982 << 2) + 0xff620000) +// bit[31:10] reserved +// bit[9:0] sw_clock_gating control +// [9] vdec clk_en for assist and cbus. +// [8] vdec clk_en for ddr +// [7] vdec clk_en for vcpu +// [6] vdec clk_en for assist +// [5] vdec clk_en for dblk +// [4] vdec clk_en for iqidct +// [3] vdec clk_en for mc +// [2] vdec clk_en for pic_dc +// [1] vdec clk_en for psc +// [0] vdec clk_en for vld +#define HEVC_GCLK_EN (0x3983) +#define P_HEVC_GCLK_EN (volatile unsigned int *)((0x3983 << 2) + 0xff620000) +// [0] Reserved +// [1] Reserved +// [2] Reset assist, mdec's CBUS +// [3] Reset mdec's VLD +// [4] Reset mdec's VLD +// [5] Reset mdec's VLD +// [6] Reset mdec's IQIDCT +// [7] Reset mdec's MC +// [8] Reset mdec's DBLK +// [9] Reset mdec's PIC_DC +// [10] Reset mdec's Pscale +// [11] Reset vcpu's MCPU +// [12] Reset vcpu's CCPU +// [13] Reset mmc_pre_arb +#define HEVC_MDEC_SW_RESET (0x3984) +#define P_HEVC_MDEC_SW_RESET (volatile unsigned int *)((0x3984 << 2) + 0xff620000) +//DBLK last address 12'h97f +// +// Closing file: mdec_regs.h +// +// +// Reading file: vld_regs.h +// +//======================================================================== +// VLD module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_VLD_CBUS_BASE = 0x0c +// ----------------------------------------------- +#define HCODEC_VLD_STATUS_CTRL (0x1c00) +#define P_HCODEC_VLD_STATUS_CTRL (volatile unsigned int *)((0x1c00 << 2) + 0xff620000) +// +// bit 10 -- use_old_shift_en +// bit 9 -- output_mv_not_pmv +// bit 8:5 -- force_zigzag +// bit 4 -- force_zigzag_en +// bit 3 -- disable_viff_anempty_int +// bit 2 -- disable_m2_ac_coeff_one_cycle +// bit 1 -- forced_reset force reset pmv +// bit 0 -- mpeg_type 0:mpeg1 1: mpeg2 +#define HCODEC_MPEG1_2_REG (0x1c01) +#define P_HCODEC_MPEG1_2_REG (volatile unsigned int *)((0x1c01 << 2) + 0xff620000) +#define HCODEC_F_CODE_REG (0x1c02) +#define P_HCODEC_F_CODE_REG (volatile unsigned int *)((0x1c02 << 2) + 0xff620000) +#define HCODEC_PIC_HEAD_INFO (0x1c03) +#define P_HCODEC_PIC_HEAD_INFO (volatile unsigned int *)((0x1c03 << 2) + 0xff620000) +#define HCODEC_SLICE_VER_POS_PIC_TYPE (0x1c04) +#define P_HCODEC_SLICE_VER_POS_PIC_TYPE (volatile unsigned int *)((0x1c04 << 2) + 0xff620000) +#define HCODEC_QP_VALUE_REG (0x1c05) +#define P_HCODEC_QP_VALUE_REG (volatile unsigned int *)((0x1c05 << 2) + 0xff620000) +#define HCODEC_MBA_INC (0x1c06) +#define P_HCODEC_MBA_INC (volatile unsigned int *)((0x1c06 << 2) + 0xff620000) +#define HCODEC_MB_MOTION_MODE (0x1c07) +#define P_HCODEC_MB_MOTION_MODE (volatile unsigned int *)((0x1c07 << 2) + 0xff620000) +//`define PACKET_BYTE_COUNT 8'h08 +// bit 15 -- force_search_startcode_en +// bit 14 -- int_cpu_when_error (before do anything) +// bit 13 -- vld_error_reset +// bit 12 -- return_on_slice_header +// bit 6 -- jpeg_ff00_en +// bit 5:0 -- vld_power_ctl +#define HCODEC_POWER_CTL_VLD (0x1c08) +#define P_HCODEC_POWER_CTL_VLD (volatile unsigned int *)((0x1c08 << 2) + 0xff620000) +#define HCODEC_MB_WIDTH (0x1c09) +#define P_HCODEC_MB_WIDTH (volatile unsigned int *)((0x1c09 << 2) + 0xff620000) +#define HCODEC_SLICE_QP (0x1c0a) +#define P_HCODEC_SLICE_QP (volatile unsigned int *)((0x1c0a << 2) + 0xff620000) +// `define MB_X_MB_Y 8'h0b /* current MBX and MBY */ +#define HCODEC_PRE_START_CODE (0x1c0b) +#define P_HCODEC_PRE_START_CODE (volatile unsigned int *)((0x1c0b << 2) + 0xff620000) +#define HCODEC_SLICE_START_BYTE_01 (0x1c0c) +#define P_HCODEC_SLICE_START_BYTE_01 (volatile unsigned int *)((0x1c0c << 2) + 0xff620000) +#define HCODEC_SLICE_START_BYTE_23 (0x1c0d) +#define P_HCODEC_SLICE_START_BYTE_23 (volatile unsigned int *)((0x1c0d << 2) + 0xff620000) +#define HCODEC_RESYNC_MARKER_LENGTH (0x1c0e) +#define P_HCODEC_RESYNC_MARKER_LENGTH (volatile unsigned int *)((0x1c0e << 2) + 0xff620000) +// bit[6:5] - frame/field info, 01 - top, 10 - bottom, 11 - frame +// bit[4:0] - buffer ID +// L0_BUFF_ID_0, L0_BUFF_ID_1, L1_BUFF_ID_0, L1_BUFF_ID_1 +#define HCODEC_DECODER_BUFFER_INFO (0x1c0f) +#define P_HCODEC_DECODER_BUFFER_INFO (volatile unsigned int *)((0x1c0f << 2) + 0xff620000) +#define HCODEC_FST_FOR_MV_X (0x1c10) +#define P_HCODEC_FST_FOR_MV_X (volatile unsigned int *)((0x1c10 << 2) + 0xff620000) +#define HCODEC_FST_FOR_MV_Y (0x1c11) +#define P_HCODEC_FST_FOR_MV_Y (volatile unsigned int *)((0x1c11 << 2) + 0xff620000) +#define HCODEC_SCD_FOR_MV_X (0x1c12) +#define P_HCODEC_SCD_FOR_MV_X (volatile unsigned int *)((0x1c12 << 2) + 0xff620000) +#define HCODEC_SCD_FOR_MV_Y (0x1c13) +#define P_HCODEC_SCD_FOR_MV_Y (volatile unsigned int *)((0x1c13 << 2) + 0xff620000) +#define HCODEC_FST_BAK_MV_X (0x1c14) +#define P_HCODEC_FST_BAK_MV_X (volatile unsigned int *)((0x1c14 << 2) + 0xff620000) +#define HCODEC_FST_BAK_MV_Y (0x1c15) +#define P_HCODEC_FST_BAK_MV_Y (volatile unsigned int *)((0x1c15 << 2) + 0xff620000) +#define HCODEC_SCD_BAK_MV_X (0x1c16) +#define P_HCODEC_SCD_BAK_MV_X (volatile unsigned int *)((0x1c16 << 2) + 0xff620000) +#define HCODEC_SCD_BAK_MV_Y (0x1c17) +#define P_HCODEC_SCD_BAK_MV_Y (volatile unsigned int *)((0x1c17 << 2) + 0xff620000) +// Bit 7:4 -- read_buffer_interlace 0-progressive, 1-interlace, used in VC1 +// bit 3 -- disable_new_stcode_search_fix // From GXM +// bit 2 -- weighting_prediction +// bit 1 -- mb_weighting_flag +// bit 0 -- slice_weighting_flag +#define HCODEC_VLD_DECODE_CONTROL (0x1c18) +#define P_HCODEC_VLD_DECODE_CONTROL (volatile unsigned int *)((0x1c18 << 2) + 0xff620000) +#define HCODEC_VLD_REVERVED_19 (0x1c19) +#define P_HCODEC_VLD_REVERVED_19 (volatile unsigned int *)((0x1c19 << 2) + 0xff620000) +#define HCODEC_VIFF_BIT_CNT (0x1c1a) +#define P_HCODEC_VIFF_BIT_CNT (volatile unsigned int *)((0x1c1a << 2) + 0xff620000) +#define HCODEC_BYTE_ALIGN_PEAK_HI (0x1c1b) +#define P_HCODEC_BYTE_ALIGN_PEAK_HI (volatile unsigned int *)((0x1c1b << 2) + 0xff620000) +#define HCODEC_BYTE_ALIGN_PEAK_LO (0x1c1c) +#define P_HCODEC_BYTE_ALIGN_PEAK_LO (volatile unsigned int *)((0x1c1c << 2) + 0xff620000) +#define HCODEC_NEXT_ALIGN_PEAK (0x1c1d) +#define P_HCODEC_NEXT_ALIGN_PEAK (volatile unsigned int *)((0x1c1d << 2) + 0xff620000) +// bit 31 : byte_aligned_zero_23_from_org // From GXM +// bit 30 : force_shift_out_drop_flag_zero // From GXM +// bit 29 : en_st_protect_from_org // From GXM +// bit 28 : enable_halt_decode_start_voff +// bit 27 : disable_C_pred_check +// bit 26 : disable_I4_pred_check +// bit 25 : disable_I16_pred_check +// bit 24 : check_avs_1st_drop +// bit 23 : enable_cabac_protect // From GXM +// bit 22 : enable_avs_drop_more +// bit 21 : reset_avs_drop_ptr +// bit 20 : reset_cabac_use_next_at_end_req +// bit 19 : vc1_inv_intra_co_mb_ref_rd +// bit 18 : vc1_inv_co_mb_ref_rd +// bit 17 : vc1_inv_intra_co_mb_ref_wr +// bit 16 : vc1_inv_co_mb_ref_wr +// bit 15 : disable_mv_cal_begin_only +// bit 14 : avs_drop_enable +// bit 13:12 : avs_drop_ptr +// bit 11:8 : avs_demu_ctl_reg +// bit 7 : avs_enable +// bit 6 : disable_dblk_hcmd +// bit 5 : disable_mc_hcmd +// bit 4 : first_mode3_set enable +// bit 3 : first_mode3 +// bit 2:1 : vc1_profile 0-SP, 1-MP, 2-reserved, 3-AP +// bit 0 : vc1_enable +#define HCODEC_VC1_CONTROL_REG (0x1c1e) +#define P_HCODEC_VC1_CONTROL_REG (volatile unsigned int *)((0x1c1e << 2) + 0xff620000) +#define HCODEC_PMV1_X (0x1c20) +#define P_HCODEC_PMV1_X (volatile unsigned int *)((0x1c20 << 2) + 0xff620000) +#define HCODEC_PMV1_Y (0x1c21) +#define P_HCODEC_PMV1_Y (volatile unsigned int *)((0x1c21 << 2) + 0xff620000) +#define HCODEC_PMV2_X (0x1c22) +#define P_HCODEC_PMV2_X (volatile unsigned int *)((0x1c22 << 2) + 0xff620000) +#define HCODEC_PMV2_Y (0x1c23) +#define P_HCODEC_PMV2_Y (volatile unsigned int *)((0x1c23 << 2) + 0xff620000) +#define HCODEC_PMV3_X (0x1c24) +#define P_HCODEC_PMV3_X (volatile unsigned int *)((0x1c24 << 2) + 0xff620000) +#define HCODEC_PMV3_Y (0x1c25) +#define P_HCODEC_PMV3_Y (volatile unsigned int *)((0x1c25 << 2) + 0xff620000) +#define HCODEC_PMV4_X (0x1c26) +#define P_HCODEC_PMV4_X (volatile unsigned int *)((0x1c26 << 2) + 0xff620000) +#define HCODEC_PMV4_Y (0x1c27) +#define P_HCODEC_PMV4_Y (volatile unsigned int *)((0x1c27 << 2) + 0xff620000) +// Can't use the same address for different defines +// Therefore, create a single define that covers both +// Only appears to be used in micro-code since the VLD hardware is +// hard coded. +// `define M4_TABLE_SELECT 8'h28 // Does this exist in HW ? Added from register_mp2.h +// `define M4_TABLE_OUTPUT 8'h28 // Does this exist in HW ? Added from register_mp2.h +#define HCODEC_M4_TABLE_SELECT (0x1c28) +#define P_HCODEC_M4_TABLE_SELECT (volatile unsigned int *)((0x1c28 << 2) + 0xff620000) +#define HCODEC_M4_CONTROL_REG (0x1c29) +#define P_HCODEC_M4_CONTROL_REG (volatile unsigned int *)((0x1c29 << 2) + 0xff620000) +#define HCODEC_BLOCK_NUM (0x1c2a) +#define P_HCODEC_BLOCK_NUM (volatile unsigned int *)((0x1c2a << 2) + 0xff620000) +#define HCODEC_PATTERN_CODE (0x1c2b) +#define P_HCODEC_PATTERN_CODE (volatile unsigned int *)((0x1c2b << 2) + 0xff620000) +#define HCODEC_MB_INFO (0x1c2c) +#define P_HCODEC_MB_INFO (volatile unsigned int *)((0x1c2c << 2) + 0xff620000) +#define HCODEC_VLD_DC_PRED (0x1c2d) +#define P_HCODEC_VLD_DC_PRED (volatile unsigned int *)((0x1c2d << 2) + 0xff620000) +#define HCODEC_VLD_ERROR_MASK (0x1c2e) +#define P_HCODEC_VLD_ERROR_MASK (volatile unsigned int *)((0x1c2e << 2) + 0xff620000) +#define HCODEC_VLD_DC_PRED_C (0x1c2f) +#define P_HCODEC_VLD_DC_PRED_C (volatile unsigned int *)((0x1c2f << 2) + 0xff620000) +#define HCODEC_LAST_SLICE_MV_ADDR (0x1c30) +#define P_HCODEC_LAST_SLICE_MV_ADDR (volatile unsigned int *)((0x1c30 << 2) + 0xff620000) +#define HCODEC_LAST_MVX (0x1c31) +#define P_HCODEC_LAST_MVX (volatile unsigned int *)((0x1c31 << 2) + 0xff620000) +#define HCODEC_LAST_MVY (0x1c32) +#define P_HCODEC_LAST_MVY (volatile unsigned int *)((0x1c32 << 2) + 0xff620000) +#define HCODEC_VLD_C38 (0x1c38) +#define P_HCODEC_VLD_C38 (volatile unsigned int *)((0x1c38 << 2) + 0xff620000) +#define HCODEC_VLD_C39 (0x1c39) +#define P_HCODEC_VLD_C39 (volatile unsigned int *)((0x1c39 << 2) + 0xff620000) +#define HCODEC_VLD_STATUS (0x1c3a) +#define P_HCODEC_VLD_STATUS (volatile unsigned int *)((0x1c3a << 2) + 0xff620000) +#define HCODEC_VLD_SHIFT_STATUS (0x1c3b) +#define P_HCODEC_VLD_SHIFT_STATUS (volatile unsigned int *)((0x1c3b << 2) + 0xff620000) +// `define VLD_SHIFT_INFO 8'h3b // Does this exist in HW ? used in $ucode/mpeg4 +#define HCODEC_VOFF_STATUS (0x1c3c) +#define P_HCODEC_VOFF_STATUS (volatile unsigned int *)((0x1c3c << 2) + 0xff620000) +#define HCODEC_VLD_C3D (0x1c3d) +#define P_HCODEC_VLD_C3D (volatile unsigned int *)((0x1c3d << 2) + 0xff620000) +#define HCODEC_VLD_DBG_INDEX (0x1c3e) +#define P_HCODEC_VLD_DBG_INDEX (volatile unsigned int *)((0x1c3e << 2) + 0xff620000) +// vld_buff_info -- (index == 0) +// Bit11] halt_decode_start_voff +// Bit10] C_pred_error +// Bit[9] I4_pred_error +// Bit[8] I16_pred_error +// Bit[7:6] mv_UR_ready_cnt; +// Bit[5] vld_wr_idx +// Bit[4] iq_rd_idx +// Bit[3] vld_vi_block_rdy_1 +// Bit[2] vld_vi_block_rdy_2 +// Bit[1] voff_empty_1 +// Bit[0] voff_empty_2 +// cabac_buff_info_0 -- (index == 1) +// Bit[31] shift_data_ready +// Bit[30:29] Reserved +// Bit[28:24] cabac_buffer_ptr +// Bit[23:0] cabac_buffer +// cabac_buff_info_1 -- (index == 2) +// Bit[31:29] Reserved +// Bit[28:20] Drange +// Bit[19:16] bin_count_4 +// Bit[15:13] Reserved +// Bit[12:6] context_mem_do +// Bit[5:3] coeff_state +// Bit[2:0] mvd_state +// h264_mv_present -- (index == 3) +// Bit[31:16] mv_present_l0 +// Bit[15:0] mv_present_l1 +// h264_mv_cal_info_0 -- (index == 4) +// [31:28] mv_cal_state +// [27:24] direct_spatial_cnt +// Bit[23:21] Reserved +// Bit[20] mv_UR_ready_for_mv_cal +// Bit[19] co_mb_mem_ready_for_mv_cal +// Bit[18] mc_dblk_cmd_if_busy +// Bit[17] h264_co_mb_wr_busy +// Bit[16] H264_cbp_blk_ready +// Bit[15] mc_hcmd_rrdy +// Bit[14] mc_hcmd_srdy +// Bit[13] mc_cmd_if_ready +// Bit[12] mc_hcmd_mv_available +// Bit[11:8] mc_cmd_if_state +// Bit[7] dblk_hcmd_rrdy +// Bit[6] dblk_hcmd_srdy +// Bit[5] dblk_cmd_if_ready +// Bit[4] dblk_hcmd_mv_available +// Bit[3:0] dblk_cmd_if_state +// h264_mv_cal_info_1 -- (index == 5) +// Bit[31:29] Reserved +// Bit[28:24] total_mvd_num_l0 +// Bit[23:21] Reserved +// Bit[20:16] mv_cal_ptr_l0 +// Bit[15:13] Reserved +// Bit[12:8] mc_hcmd_ptr_l0 +// Bit[7:5] Reserved +// Bit[4:0] dblk_hcmd_ptr_l0 +// h264_mv_cal_info_2 -- (index == 6) +// Bit[31:29] Reserved +// Bit[28:24] total_mvd_num_l1 +// Bit[23:21] Reserved +// Bit[20:16] mv_cal_ptr_l1 +// Bit[15:13] Reserved +// Bit[12:8] mc_hcmd_ptr_l1 +// Bit[7:5] Reserved +// Bit[4:0] dblk_hcmd_ptr_l1 +// h264_co_mb_info -- (index == 7) +// Bit[31:26] Reserved +// Bit[25] mv_scale_cal_busy +// Bit[24:20] co_mv_count +// Bit[19:16] co_mv_process_state +// Bit[15] h264_co_mb_rd_busy +// Bit[15] h264_co_mb_rd_ready +// Bit[13:12] co_mv_transfer_block_cnt +// Bit[11:8] co_mv_transfer_ptr +// Bit[7] co_mv_POC_l1_busy +// Bit[6] h264_weight_scale_cal_en +// Bit[5] weight_cal_busy +// Bit[4] weight_cal_not_finished +// Bit[3:0] weight_process_state +#define HCODEC_VLD_DBG_DATA (0x1c3f) +#define P_HCODEC_VLD_DBG_DATA (volatile unsigned int *)((0x1c3f << 2) + 0xff620000) +// -------------------------------------------- +// VIFIFO DDR Interface +// -------------------------------------------- +// The VIFIFO start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define HCODEC_VLD_MEM_VIFIFO_START_PTR (0x1c40) +#define P_HCODEC_VLD_MEM_VIFIFO_START_PTR (volatile unsigned int *)((0x1c40 << 2) + 0xff620000) +// The current pointer points so some location between the START and END +// pointers. The current pointer is a BYTE pointer. That is, you can +// point to any BYTE address within the START/END range +#define HCODEC_VLD_MEM_VIFIFO_CURR_PTR (0x1c41) +#define P_HCODEC_VLD_MEM_VIFIFO_CURR_PTR (volatile unsigned int *)((0x1c41 << 2) + 0xff620000) +#define HCODEC_VLD_MEM_VIFIFO_END_PTR (0x1c42) +#define P_HCODEC_VLD_MEM_VIFIFO_END_PTR (volatile unsigned int *)((0x1c42 << 2) + 0xff620000) +#define HCODEC_VLD_MEM_VIFIFO_BYTES_AVAIL (0x1c43) +#define P_HCODEC_VLD_MEM_VIFIFO_BYTES_AVAIL (volatile unsigned int *)((0x1c43 << 2) + 0xff620000) +// VIFIFO FIFO Control +// bit [31:24] viff_empty_int_enable_cpu[7:0] +// bit [23:16] viff_empty_int_enable_amrisc[7:0] +// -bit 23 Video BUFFER < 0x400 Bytes +// -bit 22 Video BUFFER < 0x200 Bytes +// -bit 21 Video BUFFER < 0x100 Bytes +// -bit 20 Video BUFFER < 0x80 Bytes +// -bit 19 Video BUFFER < 0x40 Bytes +// -bit 18 Video BUFFER < 0x20 Bytes +// -bit 17 vififo < 16 double words +// -bit 16 vififo < 8 double words +// bit [15:13] unused +// bit [12] A_urgent +// bit [11] transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request +// bit [10] use_level Set this bit to 1 to enable filling of the FIFO controlled by the buffer +// level control. If this bit is 0, then use bit[1] to control the enabling of filling +// bit [9] Data Ready. This bit is set when data can be popped +// bit [8] fill busy This bit will be high when we're fetching data from the DDR memory +// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +// After that you can pulse cntl_init to start over +// bit [7] init_with_cntl_init +// bit [6] reserved +// bits [5:3] endian: see $lib/rtl/ddr_endian.v +// bit [2] cntl_empty_en Set to 1 to enable reading the DDR memory FIFO +// Set cntl_empty_en = cntl_fill_en = 0 when pulsing cntl_init +// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +// and read masks, set this bit to 1 and then to 0 +// NOTE: You don't need to pulse cntl_init if only the start address is +// being changed +#define HCODEC_VLD_MEM_VIFIFO_CONTROL (0x1c44) +#define P_HCODEC_VLD_MEM_VIFIFO_CONTROL (volatile unsigned int *)((0x1c44 << 2) + 0xff620000) +// -------------------------------------------- +// VIFIFO Buffer Level Manager +// -------------------------------------------- +#define HCODEC_VLD_MEM_VIFIFO_WP (0x1c45) +#define P_HCODEC_VLD_MEM_VIFIFO_WP (volatile unsigned int *)((0x1c45 << 2) + 0xff620000) +#define HCODEC_VLD_MEM_VIFIFO_RP (0x1c46) +#define P_HCODEC_VLD_MEM_VIFIFO_RP (volatile unsigned int *)((0x1c46 << 2) + 0xff620000) +#define HCODEC_VLD_MEM_VIFIFO_LEVEL (0x1c47) +#define P_HCODEC_VLD_MEM_VIFIFO_LEVEL (volatile unsigned int *)((0x1c47 << 2) + 0xff620000) +// +// bit [8] use_parser_video2_wp +// bit [7] vbuf2_out_manual +// bit [6] vbuf_out_manual +// bit [5] empty (ReadOnly) +// bit [4] full (ReadOnly) +// bit [3:2] reserved +// bit [1] manual mode Set to 1 for manual write pointer mode +// bit [0] Init Set high then low after everything has been initialized +#define HCODEC_VLD_MEM_VIFIFO_BUF_CNTL (0x1c48) +#define P_HCODEC_VLD_MEM_VIFIFO_BUF_CNTL (volatile unsigned int *)((0x1c48 << 2) + 0xff620000) +// bit 31:16 -- drop_bytes +// bit 15:14 -- drop_status (Read-Only) +// bit 13:12 -- sync_match_position (Read-Only) +// bit 11:6 -- reserved +// bit 5:4 -- TIME_STAMP_NUMBER, 0-32bits, 1-64bits, 2-96bits, 3-128bits +// bit 3 -- stamp_soft_reset +// bit 2 -- TIME_STAMP_length_enable +// bit 1 -- TIME_STAMP_sync64_enable +// bit 0 -- TIME_STAMP_enable +#define HCODEC_VLD_TIME_STAMP_CNTL (0x1c49) +#define P_HCODEC_VLD_TIME_STAMP_CNTL (volatile unsigned int *)((0x1c49 << 2) + 0xff620000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_0 +#define HCODEC_VLD_TIME_STAMP_SYNC_0 (0x1c4a) +#define P_HCODEC_VLD_TIME_STAMP_SYNC_0 (volatile unsigned int *)((0x1c4a << 2) + 0xff620000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_1 +#define HCODEC_VLD_TIME_STAMP_SYNC_1 (0x1c4b) +#define P_HCODEC_VLD_TIME_STAMP_SYNC_1 (volatile unsigned int *)((0x1c4b << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_0 +#define HCODEC_VLD_TIME_STAMP_0 (0x1c4c) +#define P_HCODEC_VLD_TIME_STAMP_0 (volatile unsigned int *)((0x1c4c << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_1 +#define HCODEC_VLD_TIME_STAMP_1 (0x1c4d) +#define P_HCODEC_VLD_TIME_STAMP_1 (volatile unsigned int *)((0x1c4d << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_2 +#define HCODEC_VLD_TIME_STAMP_2 (0x1c4e) +#define P_HCODEC_VLD_TIME_STAMP_2 (volatile unsigned int *)((0x1c4e << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_3 +#define HCODEC_VLD_TIME_STAMP_3 (0x1c4f) +#define P_HCODEC_VLD_TIME_STAMP_3 (volatile unsigned int *)((0x1c4f << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_LENGTH +#define HCODEC_VLD_TIME_STAMP_LENGTH (0x1c50) +#define P_HCODEC_VLD_TIME_STAMP_LENGTH (volatile unsigned int *)((0x1c50 << 2) + 0xff620000) +// bit 15:0 vififo_rd_count +#define HCODEC_VLD_MEM_VIFIFO_WRAP_COUNT (0x1c51) +#define P_HCODEC_VLD_MEM_VIFIFO_WRAP_COUNT (volatile unsigned int *)((0x1c51 << 2) + 0xff620000) +// bit 29:24 A_brst_num +// bit 21:16 A_id +// bit 15:0 level_hold +#define HCODEC_VLD_MEM_VIFIFO_MEM_CTL (0x1c52) +#define P_HCODEC_VLD_MEM_VIFIFO_MEM_CTL (volatile unsigned int *)((0x1c52 << 2) + 0xff620000) +#define HCODEC_VLD_MEM_VBUF_RD_PTR (0x1c53) +#define P_HCODEC_VLD_MEM_VBUF_RD_PTR (volatile unsigned int *)((0x1c53 << 2) + 0xff620000) +#define HCODEC_VLD_MEM_VBUF2_RD_PTR (0x1c54) +#define P_HCODEC_VLD_MEM_VBUF2_RD_PTR (volatile unsigned int *)((0x1c54 << 2) + 0xff620000) +#define HCODEC_VLD_MEM_SWAP_ADDR (0x1c55) +#define P_HCODEC_VLD_MEM_SWAP_ADDR (volatile unsigned int *)((0x1c55 << 2) + 0xff620000) +// bit[23:16] - swap_d_count (Read Only) +// bit[15:8] - swap_a_count (Read Only) +// bit [7] - swap busy (Read Only) +// bit [6:2] - reserved +// bit [1] - 1 - STORE to Memory, 0 - LOAD from Memory +// bit [0] - swap active +#define HCODEC_VLD_MEM_SWAP_CTL (0x1c56) +#define P_HCODEC_VLD_MEM_SWAP_CTL (volatile unsigned int *)((0x1c56 << 2) + 0xff620000) +// +// Closing file: vld_regs.h +// +// +// Reading file: vld_regs.h +// +//======================================================================== +// VLD module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_VLD_CBUS_BASE = 0x0c +// ----------------------------------------------- +#define VDEC2_VLD_STATUS_CTRL (0x2c00) +#define P_VDEC2_VLD_STATUS_CTRL (volatile unsigned int *)((0x2c00 << 2) + 0xff620000) +// +// bit 10 -- use_old_shift_en +// bit 9 -- output_mv_not_pmv +// bit 8:5 -- force_zigzag +// bit 4 -- force_zigzag_en +// bit 3 -- disable_viff_anempty_int +// bit 2 -- disable_m2_ac_coeff_one_cycle +// bit 1 -- forced_reset force reset pmv +// bit 0 -- mpeg_type 0:mpeg1 1: mpeg2 +#define VDEC2_MPEG1_2_REG (0x2c01) +#define P_VDEC2_MPEG1_2_REG (volatile unsigned int *)((0x2c01 << 2) + 0xff620000) +#define VDEC2_F_CODE_REG (0x2c02) +#define P_VDEC2_F_CODE_REG (volatile unsigned int *)((0x2c02 << 2) + 0xff620000) +#define VDEC2_PIC_HEAD_INFO (0x2c03) +#define P_VDEC2_PIC_HEAD_INFO (volatile unsigned int *)((0x2c03 << 2) + 0xff620000) +#define VDEC2_SLICE_VER_POS_PIC_TYPE (0x2c04) +#define P_VDEC2_SLICE_VER_POS_PIC_TYPE (volatile unsigned int *)((0x2c04 << 2) + 0xff620000) +#define VDEC2_QP_VALUE_REG (0x2c05) +#define P_VDEC2_QP_VALUE_REG (volatile unsigned int *)((0x2c05 << 2) + 0xff620000) +#define VDEC2_MBA_INC (0x2c06) +#define P_VDEC2_MBA_INC (volatile unsigned int *)((0x2c06 << 2) + 0xff620000) +#define VDEC2_MB_MOTION_MODE (0x2c07) +#define P_VDEC2_MB_MOTION_MODE (volatile unsigned int *)((0x2c07 << 2) + 0xff620000) +//`define PACKET_BYTE_COUNT 8'h08 +// bit 15 -- force_search_startcode_en +// bit 14 -- int_cpu_when_error (before do anything) +// bit 13 -- vld_error_reset +// bit 12 -- return_on_slice_header +// bit 6 -- jpeg_ff00_en +// bit 5:0 -- vld_power_ctl +#define VDEC2_POWER_CTL_VLD (0x2c08) +#define P_VDEC2_POWER_CTL_VLD (volatile unsigned int *)((0x2c08 << 2) + 0xff620000) +#define VDEC2_MB_WIDTH (0x2c09) +#define P_VDEC2_MB_WIDTH (volatile unsigned int *)((0x2c09 << 2) + 0xff620000) +#define VDEC2_SLICE_QP (0x2c0a) +#define P_VDEC2_SLICE_QP (volatile unsigned int *)((0x2c0a << 2) + 0xff620000) +// `define MB_X_MB_Y 8'h0b /* current MBX and MBY */ +#define VDEC2_PRE_START_CODE (0x2c0b) +#define P_VDEC2_PRE_START_CODE (volatile unsigned int *)((0x2c0b << 2) + 0xff620000) +#define VDEC2_SLICE_START_BYTE_01 (0x2c0c) +#define P_VDEC2_SLICE_START_BYTE_01 (volatile unsigned int *)((0x2c0c << 2) + 0xff620000) +#define VDEC2_SLICE_START_BYTE_23 (0x2c0d) +#define P_VDEC2_SLICE_START_BYTE_23 (volatile unsigned int *)((0x2c0d << 2) + 0xff620000) +#define VDEC2_RESYNC_MARKER_LENGTH (0x2c0e) +#define P_VDEC2_RESYNC_MARKER_LENGTH (volatile unsigned int *)((0x2c0e << 2) + 0xff620000) +// bit[6:5] - frame/field info, 01 - top, 10 - bottom, 11 - frame +// bit[4:0] - buffer ID +// L0_BUFF_ID_0, L0_BUFF_ID_1, L1_BUFF_ID_0, L1_BUFF_ID_1 +#define VDEC2_DECODER_BUFFER_INFO (0x2c0f) +#define P_VDEC2_DECODER_BUFFER_INFO (volatile unsigned int *)((0x2c0f << 2) + 0xff620000) +#define VDEC2_FST_FOR_MV_X (0x2c10) +#define P_VDEC2_FST_FOR_MV_X (volatile unsigned int *)((0x2c10 << 2) + 0xff620000) +#define VDEC2_FST_FOR_MV_Y (0x2c11) +#define P_VDEC2_FST_FOR_MV_Y (volatile unsigned int *)((0x2c11 << 2) + 0xff620000) +#define VDEC2_SCD_FOR_MV_X (0x2c12) +#define P_VDEC2_SCD_FOR_MV_X (volatile unsigned int *)((0x2c12 << 2) + 0xff620000) +#define VDEC2_SCD_FOR_MV_Y (0x2c13) +#define P_VDEC2_SCD_FOR_MV_Y (volatile unsigned int *)((0x2c13 << 2) + 0xff620000) +#define VDEC2_FST_BAK_MV_X (0x2c14) +#define P_VDEC2_FST_BAK_MV_X (volatile unsigned int *)((0x2c14 << 2) + 0xff620000) +#define VDEC2_FST_BAK_MV_Y (0x2c15) +#define P_VDEC2_FST_BAK_MV_Y (volatile unsigned int *)((0x2c15 << 2) + 0xff620000) +#define VDEC2_SCD_BAK_MV_X (0x2c16) +#define P_VDEC2_SCD_BAK_MV_X (volatile unsigned int *)((0x2c16 << 2) + 0xff620000) +#define VDEC2_SCD_BAK_MV_Y (0x2c17) +#define P_VDEC2_SCD_BAK_MV_Y (volatile unsigned int *)((0x2c17 << 2) + 0xff620000) +// Bit 7:4 -- read_buffer_interlace 0-progressive, 1-interlace, used in VC1 +// bit 3 -- disable_new_stcode_search_fix // From GXM +// bit 2 -- weighting_prediction +// bit 1 -- mb_weighting_flag +// bit 0 -- slice_weighting_flag +#define VDEC2_VLD_DECODE_CONTROL (0x2c18) +#define P_VDEC2_VLD_DECODE_CONTROL (volatile unsigned int *)((0x2c18 << 2) + 0xff620000) +#define VDEC2_VLD_REVERVED_19 (0x2c19) +#define P_VDEC2_VLD_REVERVED_19 (volatile unsigned int *)((0x2c19 << 2) + 0xff620000) +#define VDEC2_VIFF_BIT_CNT (0x2c1a) +#define P_VDEC2_VIFF_BIT_CNT (volatile unsigned int *)((0x2c1a << 2) + 0xff620000) +#define VDEC2_BYTE_ALIGN_PEAK_HI (0x2c1b) +#define P_VDEC2_BYTE_ALIGN_PEAK_HI (volatile unsigned int *)((0x2c1b << 2) + 0xff620000) +#define VDEC2_BYTE_ALIGN_PEAK_LO (0x2c1c) +#define P_VDEC2_BYTE_ALIGN_PEAK_LO (volatile unsigned int *)((0x2c1c << 2) + 0xff620000) +#define VDEC2_NEXT_ALIGN_PEAK (0x2c1d) +#define P_VDEC2_NEXT_ALIGN_PEAK (volatile unsigned int *)((0x2c1d << 2) + 0xff620000) +// bit 31 : byte_aligned_zero_23_from_org // From GXM +// bit 30 : force_shift_out_drop_flag_zero // From GXM +// bit 29 : en_st_protect_from_org // From GXM +// bit 28 : enable_halt_decode_start_voff +// bit 27 : disable_C_pred_check +// bit 26 : disable_I4_pred_check +// bit 25 : disable_I16_pred_check +// bit 24 : check_avs_1st_drop +// bit 23 : enable_cabac_protect // From GXM +// bit 22 : enable_avs_drop_more +// bit 21 : reset_avs_drop_ptr +// bit 20 : reset_cabac_use_next_at_end_req +// bit 19 : vc1_inv_intra_co_mb_ref_rd +// bit 18 : vc1_inv_co_mb_ref_rd +// bit 17 : vc1_inv_intra_co_mb_ref_wr +// bit 16 : vc1_inv_co_mb_ref_wr +// bit 15 : disable_mv_cal_begin_only +// bit 14 : avs_drop_enable +// bit 13:12 : avs_drop_ptr +// bit 11:8 : avs_demu_ctl_reg +// bit 7 : avs_enable +// bit 6 : disable_dblk_hcmd +// bit 5 : disable_mc_hcmd +// bit 4 : first_mode3_set enable +// bit 3 : first_mode3 +// bit 2:1 : vc1_profile 0-SP, 1-MP, 2-reserved, 3-AP +// bit 0 : vc1_enable +#define VDEC2_VC1_CONTROL_REG (0x2c1e) +#define P_VDEC2_VC1_CONTROL_REG (volatile unsigned int *)((0x2c1e << 2) + 0xff620000) +#define VDEC2_PMV1_X (0x2c20) +#define P_VDEC2_PMV1_X (volatile unsigned int *)((0x2c20 << 2) + 0xff620000) +#define VDEC2_PMV1_Y (0x2c21) +#define P_VDEC2_PMV1_Y (volatile unsigned int *)((0x2c21 << 2) + 0xff620000) +#define VDEC2_PMV2_X (0x2c22) +#define P_VDEC2_PMV2_X (volatile unsigned int *)((0x2c22 << 2) + 0xff620000) +#define VDEC2_PMV2_Y (0x2c23) +#define P_VDEC2_PMV2_Y (volatile unsigned int *)((0x2c23 << 2) + 0xff620000) +#define VDEC2_PMV3_X (0x2c24) +#define P_VDEC2_PMV3_X (volatile unsigned int *)((0x2c24 << 2) + 0xff620000) +#define VDEC2_PMV3_Y (0x2c25) +#define P_VDEC2_PMV3_Y (volatile unsigned int *)((0x2c25 << 2) + 0xff620000) +#define VDEC2_PMV4_X (0x2c26) +#define P_VDEC2_PMV4_X (volatile unsigned int *)((0x2c26 << 2) + 0xff620000) +#define VDEC2_PMV4_Y (0x2c27) +#define P_VDEC2_PMV4_Y (volatile unsigned int *)((0x2c27 << 2) + 0xff620000) +// Can't use the same address for different defines +// Therefore, create a single define that covers both +// Only appears to be used in micro-code since the VLD hardware is +// hard coded. +// `define M4_TABLE_SELECT 8'h28 // Does this exist in HW ? Added from register_mp2.h +// `define M4_TABLE_OUTPUT 8'h28 // Does this exist in HW ? Added from register_mp2.h +#define VDEC2_M4_TABLE_SELECT (0x2c28) +#define P_VDEC2_M4_TABLE_SELECT (volatile unsigned int *)((0x2c28 << 2) + 0xff620000) +#define VDEC2_M4_CONTROL_REG (0x2c29) +#define P_VDEC2_M4_CONTROL_REG (volatile unsigned int *)((0x2c29 << 2) + 0xff620000) +#define VDEC2_BLOCK_NUM (0x2c2a) +#define P_VDEC2_BLOCK_NUM (volatile unsigned int *)((0x2c2a << 2) + 0xff620000) +#define VDEC2_PATTERN_CODE (0x2c2b) +#define P_VDEC2_PATTERN_CODE (volatile unsigned int *)((0x2c2b << 2) + 0xff620000) +#define VDEC2_MB_INFO (0x2c2c) +#define P_VDEC2_MB_INFO (volatile unsigned int *)((0x2c2c << 2) + 0xff620000) +#define VDEC2_VLD_DC_PRED (0x2c2d) +#define P_VDEC2_VLD_DC_PRED (volatile unsigned int *)((0x2c2d << 2) + 0xff620000) +#define VDEC2_VLD_ERROR_MASK (0x2c2e) +#define P_VDEC2_VLD_ERROR_MASK (volatile unsigned int *)((0x2c2e << 2) + 0xff620000) +#define VDEC2_VLD_DC_PRED_C (0x2c2f) +#define P_VDEC2_VLD_DC_PRED_C (volatile unsigned int *)((0x2c2f << 2) + 0xff620000) +#define VDEC2_LAST_SLICE_MV_ADDR (0x2c30) +#define P_VDEC2_LAST_SLICE_MV_ADDR (volatile unsigned int *)((0x2c30 << 2) + 0xff620000) +#define VDEC2_LAST_MVX (0x2c31) +#define P_VDEC2_LAST_MVX (volatile unsigned int *)((0x2c31 << 2) + 0xff620000) +#define VDEC2_LAST_MVY (0x2c32) +#define P_VDEC2_LAST_MVY (volatile unsigned int *)((0x2c32 << 2) + 0xff620000) +#define VDEC2_VLD_C38 (0x2c38) +#define P_VDEC2_VLD_C38 (volatile unsigned int *)((0x2c38 << 2) + 0xff620000) +#define VDEC2_VLD_C39 (0x2c39) +#define P_VDEC2_VLD_C39 (volatile unsigned int *)((0x2c39 << 2) + 0xff620000) +#define VDEC2_VLD_STATUS (0x2c3a) +#define P_VDEC2_VLD_STATUS (volatile unsigned int *)((0x2c3a << 2) + 0xff620000) +#define VDEC2_VLD_SHIFT_STATUS (0x2c3b) +#define P_VDEC2_VLD_SHIFT_STATUS (volatile unsigned int *)((0x2c3b << 2) + 0xff620000) +// `define VLD_SHIFT_INFO 8'h3b // Does this exist in HW ? used in $ucode/mpeg4 +#define VDEC2_VOFF_STATUS (0x2c3c) +#define P_VDEC2_VOFF_STATUS (volatile unsigned int *)((0x2c3c << 2) + 0xff620000) +#define VDEC2_VLD_C3D (0x2c3d) +#define P_VDEC2_VLD_C3D (volatile unsigned int *)((0x2c3d << 2) + 0xff620000) +#define VDEC2_VLD_DBG_INDEX (0x2c3e) +#define P_VDEC2_VLD_DBG_INDEX (volatile unsigned int *)((0x2c3e << 2) + 0xff620000) +// vld_buff_info -- (index == 0) +// Bit11] halt_decode_start_voff +// Bit10] C_pred_error +// Bit[9] I4_pred_error +// Bit[8] I16_pred_error +// Bit[7:6] mv_UR_ready_cnt; +// Bit[5] vld_wr_idx +// Bit[4] iq_rd_idx +// Bit[3] vld_vi_block_rdy_1 +// Bit[2] vld_vi_block_rdy_2 +// Bit[1] voff_empty_1 +// Bit[0] voff_empty_2 +// cabac_buff_info_0 -- (index == 1) +// Bit[31] shift_data_ready +// Bit[30:29] Reserved +// Bit[28:24] cabac_buffer_ptr +// Bit[23:0] cabac_buffer +// cabac_buff_info_1 -- (index == 2) +// Bit[31:29] Reserved +// Bit[28:20] Drange +// Bit[19:16] bin_count_4 +// Bit[15:13] Reserved +// Bit[12:6] context_mem_do +// Bit[5:3] coeff_state +// Bit[2:0] mvd_state +// h264_mv_present -- (index == 3) +// Bit[31:16] mv_present_l0 +// Bit[15:0] mv_present_l1 +// h264_mv_cal_info_0 -- (index == 4) +// [31:28] mv_cal_state +// [27:24] direct_spatial_cnt +// Bit[23:21] Reserved +// Bit[20] mv_UR_ready_for_mv_cal +// Bit[19] co_mb_mem_ready_for_mv_cal +// Bit[18] mc_dblk_cmd_if_busy +// Bit[17] h264_co_mb_wr_busy +// Bit[16] H264_cbp_blk_ready +// Bit[15] mc_hcmd_rrdy +// Bit[14] mc_hcmd_srdy +// Bit[13] mc_cmd_if_ready +// Bit[12] mc_hcmd_mv_available +// Bit[11:8] mc_cmd_if_state +// Bit[7] dblk_hcmd_rrdy +// Bit[6] dblk_hcmd_srdy +// Bit[5] dblk_cmd_if_ready +// Bit[4] dblk_hcmd_mv_available +// Bit[3:0] dblk_cmd_if_state +// h264_mv_cal_info_1 -- (index == 5) +// Bit[31:29] Reserved +// Bit[28:24] total_mvd_num_l0 +// Bit[23:21] Reserved +// Bit[20:16] mv_cal_ptr_l0 +// Bit[15:13] Reserved +// Bit[12:8] mc_hcmd_ptr_l0 +// Bit[7:5] Reserved +// Bit[4:0] dblk_hcmd_ptr_l0 +// h264_mv_cal_info_2 -- (index == 6) +// Bit[31:29] Reserved +// Bit[28:24] total_mvd_num_l1 +// Bit[23:21] Reserved +// Bit[20:16] mv_cal_ptr_l1 +// Bit[15:13] Reserved +// Bit[12:8] mc_hcmd_ptr_l1 +// Bit[7:5] Reserved +// Bit[4:0] dblk_hcmd_ptr_l1 +// h264_co_mb_info -- (index == 7) +// Bit[31:26] Reserved +// Bit[25] mv_scale_cal_busy +// Bit[24:20] co_mv_count +// Bit[19:16] co_mv_process_state +// Bit[15] h264_co_mb_rd_busy +// Bit[15] h264_co_mb_rd_ready +// Bit[13:12] co_mv_transfer_block_cnt +// Bit[11:8] co_mv_transfer_ptr +// Bit[7] co_mv_POC_l1_busy +// Bit[6] h264_weight_scale_cal_en +// Bit[5] weight_cal_busy +// Bit[4] weight_cal_not_finished +// Bit[3:0] weight_process_state +#define VDEC2_VLD_DBG_DATA (0x2c3f) +#define P_VDEC2_VLD_DBG_DATA (volatile unsigned int *)((0x2c3f << 2) + 0xff620000) +// -------------------------------------------- +// VIFIFO DDR Interface +// -------------------------------------------- +// The VIFIFO start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define VDEC2_VLD_MEM_VIFIFO_START_PTR (0x2c40) +#define P_VDEC2_VLD_MEM_VIFIFO_START_PTR (volatile unsigned int *)((0x2c40 << 2) + 0xff620000) +// The current pointer points so some location between the START and END +// pointers. The current pointer is a BYTE pointer. That is, you can +// point to any BYTE address within the START/END range +#define VDEC2_VLD_MEM_VIFIFO_CURR_PTR (0x2c41) +#define P_VDEC2_VLD_MEM_VIFIFO_CURR_PTR (volatile unsigned int *)((0x2c41 << 2) + 0xff620000) +#define VDEC2_VLD_MEM_VIFIFO_END_PTR (0x2c42) +#define P_VDEC2_VLD_MEM_VIFIFO_END_PTR (volatile unsigned int *)((0x2c42 << 2) + 0xff620000) +#define VDEC2_VLD_MEM_VIFIFO_BYTES_AVAIL (0x2c43) +#define P_VDEC2_VLD_MEM_VIFIFO_BYTES_AVAIL (volatile unsigned int *)((0x2c43 << 2) + 0xff620000) +// VIFIFO FIFO Control +// bit [31:24] viff_empty_int_enable_cpu[7:0] +// bit [23:16] viff_empty_int_enable_amrisc[7:0] +// -bit 23 Video BUFFER < 0x400 Bytes +// -bit 22 Video BUFFER < 0x200 Bytes +// -bit 21 Video BUFFER < 0x100 Bytes +// -bit 20 Video BUFFER < 0x80 Bytes +// -bit 19 Video BUFFER < 0x40 Bytes +// -bit 18 Video BUFFER < 0x20 Bytes +// -bit 17 vififo < 16 double words +// -bit 16 vififo < 8 double words +// bit [15:13] unused +// bit [12] A_urgent +// bit [11] transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request +// bit [10] use_level Set this bit to 1 to enable filling of the FIFO controlled by the buffer +// level control. If this bit is 0, then use bit[1] to control the enabling of filling +// bit [9] Data Ready. This bit is set when data can be popped +// bit [8] fill busy This bit will be high when we're fetching data from the DDR memory +// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +// After that you can pulse cntl_init to start over +// bit [7] init_with_cntl_init +// bit [6] reserved +// bits [5:3] endian: see $lib/rtl/ddr_endian.v +// bit [2] cntl_empty_en Set to 1 to enable reading the DDR memory FIFO +// Set cntl_empty_en = cntl_fill_en = 0 when pulsing cntl_init +// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +// and read masks, set this bit to 1 and then to 0 +// NOTE: You don't need to pulse cntl_init if only the start address is +// being changed +#define VDEC2_VLD_MEM_VIFIFO_CONTROL (0x2c44) +#define P_VDEC2_VLD_MEM_VIFIFO_CONTROL (volatile unsigned int *)((0x2c44 << 2) + 0xff620000) +// -------------------------------------------- +// VIFIFO Buffer Level Manager +// -------------------------------------------- +#define VDEC2_VLD_MEM_VIFIFO_WP (0x2c45) +#define P_VDEC2_VLD_MEM_VIFIFO_WP (volatile unsigned int *)((0x2c45 << 2) + 0xff620000) +#define VDEC2_VLD_MEM_VIFIFO_RP (0x2c46) +#define P_VDEC2_VLD_MEM_VIFIFO_RP (volatile unsigned int *)((0x2c46 << 2) + 0xff620000) +#define VDEC2_VLD_MEM_VIFIFO_LEVEL (0x2c47) +#define P_VDEC2_VLD_MEM_VIFIFO_LEVEL (volatile unsigned int *)((0x2c47 << 2) + 0xff620000) +// +// bit [8] use_parser_video2_wp +// bit [7] vbuf2_out_manual +// bit [6] vbuf_out_manual +// bit [5] empty (ReadOnly) +// bit [4] full (ReadOnly) +// bit [3:2] reserved +// bit [1] manual mode Set to 1 for manual write pointer mode +// bit [0] Init Set high then low after everything has been initialized +#define VDEC2_VLD_MEM_VIFIFO_BUF_CNTL (0x2c48) +#define P_VDEC2_VLD_MEM_VIFIFO_BUF_CNTL (volatile unsigned int *)((0x2c48 << 2) + 0xff620000) +// bit 31:16 -- drop_bytes +// bit 15:14 -- drop_status (Read-Only) +// bit 13:12 -- sync_match_position (Read-Only) +// bit 11:6 -- reserved +// bit 5:4 -- TIME_STAMP_NUMBER, 0-32bits, 1-64bits, 2-96bits, 3-128bits +// bit 3 -- stamp_soft_reset +// bit 2 -- TIME_STAMP_length_enable +// bit 1 -- TIME_STAMP_sync64_enable +// bit 0 -- TIME_STAMP_enable +#define VDEC2_VLD_TIME_STAMP_CNTL (0x2c49) +#define P_VDEC2_VLD_TIME_STAMP_CNTL (volatile unsigned int *)((0x2c49 << 2) + 0xff620000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_0 +#define VDEC2_VLD_TIME_STAMP_SYNC_0 (0x2c4a) +#define P_VDEC2_VLD_TIME_STAMP_SYNC_0 (volatile unsigned int *)((0x2c4a << 2) + 0xff620000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_1 +#define VDEC2_VLD_TIME_STAMP_SYNC_1 (0x2c4b) +#define P_VDEC2_VLD_TIME_STAMP_SYNC_1 (volatile unsigned int *)((0x2c4b << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_0 +#define VDEC2_VLD_TIME_STAMP_0 (0x2c4c) +#define P_VDEC2_VLD_TIME_STAMP_0 (volatile unsigned int *)((0x2c4c << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_1 +#define VDEC2_VLD_TIME_STAMP_1 (0x2c4d) +#define P_VDEC2_VLD_TIME_STAMP_1 (volatile unsigned int *)((0x2c4d << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_2 +#define VDEC2_VLD_TIME_STAMP_2 (0x2c4e) +#define P_VDEC2_VLD_TIME_STAMP_2 (volatile unsigned int *)((0x2c4e << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_3 +#define VDEC2_VLD_TIME_STAMP_3 (0x2c4f) +#define P_VDEC2_VLD_TIME_STAMP_3 (volatile unsigned int *)((0x2c4f << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_LENGTH +#define VDEC2_VLD_TIME_STAMP_LENGTH (0x2c50) +#define P_VDEC2_VLD_TIME_STAMP_LENGTH (volatile unsigned int *)((0x2c50 << 2) + 0xff620000) +// bit 15:0 vififo_rd_count +#define VDEC2_VLD_MEM_VIFIFO_WRAP_COUNT (0x2c51) +#define P_VDEC2_VLD_MEM_VIFIFO_WRAP_COUNT (volatile unsigned int *)((0x2c51 << 2) + 0xff620000) +// bit 29:24 A_brst_num +// bit 21:16 A_id +// bit 15:0 level_hold +#define VDEC2_VLD_MEM_VIFIFO_MEM_CTL (0x2c52) +#define P_VDEC2_VLD_MEM_VIFIFO_MEM_CTL (volatile unsigned int *)((0x2c52 << 2) + 0xff620000) +#define VDEC2_VLD_MEM_VBUF_RD_PTR (0x2c53) +#define P_VDEC2_VLD_MEM_VBUF_RD_PTR (volatile unsigned int *)((0x2c53 << 2) + 0xff620000) +#define VDEC2_VLD_MEM_VBUF2_RD_PTR (0x2c54) +#define P_VDEC2_VLD_MEM_VBUF2_RD_PTR (volatile unsigned int *)((0x2c54 << 2) + 0xff620000) +#define VDEC2_VLD_MEM_SWAP_ADDR (0x2c55) +#define P_VDEC2_VLD_MEM_SWAP_ADDR (volatile unsigned int *)((0x2c55 << 2) + 0xff620000) +// bit[23:16] - swap_d_count (Read Only) +// bit[15:8] - swap_a_count (Read Only) +// bit [7] - swap busy (Read Only) +// bit [6:2] - reserved +// bit [1] - 1 - STORE to Memory, 0 - LOAD from Memory +// bit [0] - swap active +#define VDEC2_VLD_MEM_SWAP_CTL (0x2c56) +#define P_VDEC2_VLD_MEM_SWAP_CTL (volatile unsigned int *)((0x2c56 << 2) + 0xff620000) +// +// Closing file: vld_regs.h +// +// +// Reading file: vld_regs.h +// +//======================================================================== +// VLD module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_VLD_CBUS_BASE = 0x0c +// ----------------------------------------------- +#define HEVC_VLD_STATUS_CTRL (0x3c00) +#define P_HEVC_VLD_STATUS_CTRL (volatile unsigned int *)((0x3c00 << 2) + 0xff620000) +// +// bit 10 -- use_old_shift_en +// bit 9 -- output_mv_not_pmv +// bit 8:5 -- force_zigzag +// bit 4 -- force_zigzag_en +// bit 3 -- disable_viff_anempty_int +// bit 2 -- disable_m2_ac_coeff_one_cycle +// bit 1 -- forced_reset force reset pmv +// bit 0 -- mpeg_type 0:mpeg1 1: mpeg2 +#define HEVC_MPEG1_2_REG (0x3c01) +#define P_HEVC_MPEG1_2_REG (volatile unsigned int *)((0x3c01 << 2) + 0xff620000) +#define HEVC_F_CODE_REG (0x3c02) +#define P_HEVC_F_CODE_REG (volatile unsigned int *)((0x3c02 << 2) + 0xff620000) +#define HEVC_PIC_HEAD_INFO (0x3c03) +#define P_HEVC_PIC_HEAD_INFO (volatile unsigned int *)((0x3c03 << 2) + 0xff620000) +#define HEVC_SLICE_VER_POS_PIC_TYPE (0x3c04) +#define P_HEVC_SLICE_VER_POS_PIC_TYPE (volatile unsigned int *)((0x3c04 << 2) + 0xff620000) +#define HEVC_QP_VALUE_REG (0x3c05) +#define P_HEVC_QP_VALUE_REG (volatile unsigned int *)((0x3c05 << 2) + 0xff620000) +#define HEVC_MBA_INC (0x3c06) +#define P_HEVC_MBA_INC (volatile unsigned int *)((0x3c06 << 2) + 0xff620000) +#define HEVC_MB_MOTION_MODE (0x3c07) +#define P_HEVC_MB_MOTION_MODE (volatile unsigned int *)((0x3c07 << 2) + 0xff620000) +//`define PACKET_BYTE_COUNT 8'h08 +// bit 15 -- force_search_startcode_en +// bit 14 -- int_cpu_when_error (before do anything) +// bit 13 -- vld_error_reset +// bit 12 -- return_on_slice_header +// bit 6 -- jpeg_ff00_en +// bit 5:0 -- vld_power_ctl +#define HEVC_POWER_CTL_VLD (0x3c08) +#define P_HEVC_POWER_CTL_VLD (volatile unsigned int *)((0x3c08 << 2) + 0xff620000) +#define HEVC_MB_WIDTH (0x3c09) +#define P_HEVC_MB_WIDTH (volatile unsigned int *)((0x3c09 << 2) + 0xff620000) +#define HEVC_SLICE_QP (0x3c0a) +#define P_HEVC_SLICE_QP (volatile unsigned int *)((0x3c0a << 2) + 0xff620000) +// `define MB_X_MB_Y 8'h0b /* current MBX and MBY */ +#define HEVC_PRE_START_CODE (0x3c0b) +#define P_HEVC_PRE_START_CODE (volatile unsigned int *)((0x3c0b << 2) + 0xff620000) +#define HEVC_SLICE_START_BYTE_01 (0x3c0c) +#define P_HEVC_SLICE_START_BYTE_01 (volatile unsigned int *)((0x3c0c << 2) + 0xff620000) +#define HEVC_SLICE_START_BYTE_23 (0x3c0d) +#define P_HEVC_SLICE_START_BYTE_23 (volatile unsigned int *)((0x3c0d << 2) + 0xff620000) +#define HEVC_RESYNC_MARKER_LENGTH (0x3c0e) +#define P_HEVC_RESYNC_MARKER_LENGTH (volatile unsigned int *)((0x3c0e << 2) + 0xff620000) +// bit[6:5] - frame/field info, 01 - top, 10 - bottom, 11 - frame +// bit[4:0] - buffer ID +// L0_BUFF_ID_0, L0_BUFF_ID_1, L1_BUFF_ID_0, L1_BUFF_ID_1 +#define HEVC_DECODER_BUFFER_INFO (0x3c0f) +#define P_HEVC_DECODER_BUFFER_INFO (volatile unsigned int *)((0x3c0f << 2) + 0xff620000) +#define HEVC_FST_FOR_MV_X (0x3c10) +#define P_HEVC_FST_FOR_MV_X (volatile unsigned int *)((0x3c10 << 2) + 0xff620000) +#define HEVC_FST_FOR_MV_Y (0x3c11) +#define P_HEVC_FST_FOR_MV_Y (volatile unsigned int *)((0x3c11 << 2) + 0xff620000) +#define HEVC_SCD_FOR_MV_X (0x3c12) +#define P_HEVC_SCD_FOR_MV_X (volatile unsigned int *)((0x3c12 << 2) + 0xff620000) +#define HEVC_SCD_FOR_MV_Y (0x3c13) +#define P_HEVC_SCD_FOR_MV_Y (volatile unsigned int *)((0x3c13 << 2) + 0xff620000) +#define HEVC_FST_BAK_MV_X (0x3c14) +#define P_HEVC_FST_BAK_MV_X (volatile unsigned int *)((0x3c14 << 2) + 0xff620000) +#define HEVC_FST_BAK_MV_Y (0x3c15) +#define P_HEVC_FST_BAK_MV_Y (volatile unsigned int *)((0x3c15 << 2) + 0xff620000) +#define HEVC_SCD_BAK_MV_X (0x3c16) +#define P_HEVC_SCD_BAK_MV_X (volatile unsigned int *)((0x3c16 << 2) + 0xff620000) +#define HEVC_SCD_BAK_MV_Y (0x3c17) +#define P_HEVC_SCD_BAK_MV_Y (volatile unsigned int *)((0x3c17 << 2) + 0xff620000) +// Bit 7:4 -- read_buffer_interlace 0-progressive, 1-interlace, used in VC1 +// bit 3 -- disable_new_stcode_search_fix // From GXM +// bit 2 -- weighting_prediction +// bit 1 -- mb_weighting_flag +// bit 0 -- slice_weighting_flag +#define HEVC_VLD_DECODE_CONTROL (0x3c18) +#define P_HEVC_VLD_DECODE_CONTROL (volatile unsigned int *)((0x3c18 << 2) + 0xff620000) +#define HEVC_VLD_REVERVED_19 (0x3c19) +#define P_HEVC_VLD_REVERVED_19 (volatile unsigned int *)((0x3c19 << 2) + 0xff620000) +#define HEVC_VIFF_BIT_CNT (0x3c1a) +#define P_HEVC_VIFF_BIT_CNT (volatile unsigned int *)((0x3c1a << 2) + 0xff620000) +#define HEVC_BYTE_ALIGN_PEAK_HI (0x3c1b) +#define P_HEVC_BYTE_ALIGN_PEAK_HI (volatile unsigned int *)((0x3c1b << 2) + 0xff620000) +#define HEVC_BYTE_ALIGN_PEAK_LO (0x3c1c) +#define P_HEVC_BYTE_ALIGN_PEAK_LO (volatile unsigned int *)((0x3c1c << 2) + 0xff620000) +#define HEVC_NEXT_ALIGN_PEAK (0x3c1d) +#define P_HEVC_NEXT_ALIGN_PEAK (volatile unsigned int *)((0x3c1d << 2) + 0xff620000) +// bit 31 : byte_aligned_zero_23_from_org // From GXM +// bit 30 : force_shift_out_drop_flag_zero // From GXM +// bit 29 : en_st_protect_from_org // From GXM +// bit 28 : enable_halt_decode_start_voff +// bit 27 : disable_C_pred_check +// bit 26 : disable_I4_pred_check +// bit 25 : disable_I16_pred_check +// bit 24 : check_avs_1st_drop +// bit 23 : enable_cabac_protect // From GXM +// bit 22 : enable_avs_drop_more +// bit 21 : reset_avs_drop_ptr +// bit 20 : reset_cabac_use_next_at_end_req +// bit 19 : vc1_inv_intra_co_mb_ref_rd +// bit 18 : vc1_inv_co_mb_ref_rd +// bit 17 : vc1_inv_intra_co_mb_ref_wr +// bit 16 : vc1_inv_co_mb_ref_wr +// bit 15 : disable_mv_cal_begin_only +// bit 14 : avs_drop_enable +// bit 13:12 : avs_drop_ptr +// bit 11:8 : avs_demu_ctl_reg +// bit 7 : avs_enable +// bit 6 : disable_dblk_hcmd +// bit 5 : disable_mc_hcmd +// bit 4 : first_mode3_set enable +// bit 3 : first_mode3 +// bit 2:1 : vc1_profile 0-SP, 1-MP, 2-reserved, 3-AP +// bit 0 : vc1_enable +#define HEVC_VC1_CONTROL_REG (0x3c1e) +#define P_HEVC_VC1_CONTROL_REG (volatile unsigned int *)((0x3c1e << 2) + 0xff620000) +#define HEVC_PMV1_X (0x3c20) +#define P_HEVC_PMV1_X (volatile unsigned int *)((0x3c20 << 2) + 0xff620000) +#define HEVC_PMV1_Y (0x3c21) +#define P_HEVC_PMV1_Y (volatile unsigned int *)((0x3c21 << 2) + 0xff620000) +#define HEVC_PMV2_X (0x3c22) +#define P_HEVC_PMV2_X (volatile unsigned int *)((0x3c22 << 2) + 0xff620000) +#define HEVC_PMV2_Y (0x3c23) +#define P_HEVC_PMV2_Y (volatile unsigned int *)((0x3c23 << 2) + 0xff620000) +#define HEVC_PMV3_X (0x3c24) +#define P_HEVC_PMV3_X (volatile unsigned int *)((0x3c24 << 2) + 0xff620000) +#define HEVC_PMV3_Y (0x3c25) +#define P_HEVC_PMV3_Y (volatile unsigned int *)((0x3c25 << 2) + 0xff620000) +#define HEVC_PMV4_X (0x3c26) +#define P_HEVC_PMV4_X (volatile unsigned int *)((0x3c26 << 2) + 0xff620000) +#define HEVC_PMV4_Y (0x3c27) +#define P_HEVC_PMV4_Y (volatile unsigned int *)((0x3c27 << 2) + 0xff620000) +// Can't use the same address for different defines +// Therefore, create a single define that covers both +// Only appears to be used in micro-code since the VLD hardware is +// hard coded. +// `define M4_TABLE_SELECT 8'h28 // Does this exist in HW ? Added from register_mp2.h +// `define M4_TABLE_OUTPUT 8'h28 // Does this exist in HW ? Added from register_mp2.h +#define HEVC_M4_TABLE_SELECT (0x3c28) +#define P_HEVC_M4_TABLE_SELECT (volatile unsigned int *)((0x3c28 << 2) + 0xff620000) +#define HEVC_M4_CONTROL_REG (0x3c29) +#define P_HEVC_M4_CONTROL_REG (volatile unsigned int *)((0x3c29 << 2) + 0xff620000) +#define HEVC_BLOCK_NUM (0x3c2a) +#define P_HEVC_BLOCK_NUM (volatile unsigned int *)((0x3c2a << 2) + 0xff620000) +#define HEVC_PATTERN_CODE (0x3c2b) +#define P_HEVC_PATTERN_CODE (volatile unsigned int *)((0x3c2b << 2) + 0xff620000) +#define HEVC_MB_INFO (0x3c2c) +#define P_HEVC_MB_INFO (volatile unsigned int *)((0x3c2c << 2) + 0xff620000) +#define HEVC_VLD_DC_PRED (0x3c2d) +#define P_HEVC_VLD_DC_PRED (volatile unsigned int *)((0x3c2d << 2) + 0xff620000) +#define HEVC_VLD_ERROR_MASK (0x3c2e) +#define P_HEVC_VLD_ERROR_MASK (volatile unsigned int *)((0x3c2e << 2) + 0xff620000) +#define HEVC_VLD_DC_PRED_C (0x3c2f) +#define P_HEVC_VLD_DC_PRED_C (volatile unsigned int *)((0x3c2f << 2) + 0xff620000) +#define HEVC_LAST_SLICE_MV_ADDR (0x3c30) +#define P_HEVC_LAST_SLICE_MV_ADDR (volatile unsigned int *)((0x3c30 << 2) + 0xff620000) +#define HEVC_LAST_MVX (0x3c31) +#define P_HEVC_LAST_MVX (volatile unsigned int *)((0x3c31 << 2) + 0xff620000) +#define HEVC_LAST_MVY (0x3c32) +#define P_HEVC_LAST_MVY (volatile unsigned int *)((0x3c32 << 2) + 0xff620000) +#define HEVC_VLD_C38 (0x3c38) +#define P_HEVC_VLD_C38 (volatile unsigned int *)((0x3c38 << 2) + 0xff620000) +#define HEVC_VLD_C39 (0x3c39) +#define P_HEVC_VLD_C39 (volatile unsigned int *)((0x3c39 << 2) + 0xff620000) +#define HEVC_VLD_STATUS (0x3c3a) +#define P_HEVC_VLD_STATUS (volatile unsigned int *)((0x3c3a << 2) + 0xff620000) +#define HEVC_VLD_SHIFT_STATUS (0x3c3b) +#define P_HEVC_VLD_SHIFT_STATUS (volatile unsigned int *)((0x3c3b << 2) + 0xff620000) +// `define VLD_SHIFT_INFO 8'h3b // Does this exist in HW ? used in $ucode/mpeg4 +#define HEVC_VOFF_STATUS (0x3c3c) +#define P_HEVC_VOFF_STATUS (volatile unsigned int *)((0x3c3c << 2) + 0xff620000) +#define HEVC_VLD_C3D (0x3c3d) +#define P_HEVC_VLD_C3D (volatile unsigned int *)((0x3c3d << 2) + 0xff620000) +#define HEVC_VLD_DBG_INDEX (0x3c3e) +#define P_HEVC_VLD_DBG_INDEX (volatile unsigned int *)((0x3c3e << 2) + 0xff620000) +// vld_buff_info -- (index == 0) +// Bit11] halt_decode_start_voff +// Bit10] C_pred_error +// Bit[9] I4_pred_error +// Bit[8] I16_pred_error +// Bit[7:6] mv_UR_ready_cnt; +// Bit[5] vld_wr_idx +// Bit[4] iq_rd_idx +// Bit[3] vld_vi_block_rdy_1 +// Bit[2] vld_vi_block_rdy_2 +// Bit[1] voff_empty_1 +// Bit[0] voff_empty_2 +// cabac_buff_info_0 -- (index == 1) +// Bit[31] shift_data_ready +// Bit[30:29] Reserved +// Bit[28:24] cabac_buffer_ptr +// Bit[23:0] cabac_buffer +// cabac_buff_info_1 -- (index == 2) +// Bit[31:29] Reserved +// Bit[28:20] Drange +// Bit[19:16] bin_count_4 +// Bit[15:13] Reserved +// Bit[12:6] context_mem_do +// Bit[5:3] coeff_state +// Bit[2:0] mvd_state +// h264_mv_present -- (index == 3) +// Bit[31:16] mv_present_l0 +// Bit[15:0] mv_present_l1 +// h264_mv_cal_info_0 -- (index == 4) +// [31:28] mv_cal_state +// [27:24] direct_spatial_cnt +// Bit[23:21] Reserved +// Bit[20] mv_UR_ready_for_mv_cal +// Bit[19] co_mb_mem_ready_for_mv_cal +// Bit[18] mc_dblk_cmd_if_busy +// Bit[17] h264_co_mb_wr_busy +// Bit[16] H264_cbp_blk_ready +// Bit[15] mc_hcmd_rrdy +// Bit[14] mc_hcmd_srdy +// Bit[13] mc_cmd_if_ready +// Bit[12] mc_hcmd_mv_available +// Bit[11:8] mc_cmd_if_state +// Bit[7] dblk_hcmd_rrdy +// Bit[6] dblk_hcmd_srdy +// Bit[5] dblk_cmd_if_ready +// Bit[4] dblk_hcmd_mv_available +// Bit[3:0] dblk_cmd_if_state +// h264_mv_cal_info_1 -- (index == 5) +// Bit[31:29] Reserved +// Bit[28:24] total_mvd_num_l0 +// Bit[23:21] Reserved +// Bit[20:16] mv_cal_ptr_l0 +// Bit[15:13] Reserved +// Bit[12:8] mc_hcmd_ptr_l0 +// Bit[7:5] Reserved +// Bit[4:0] dblk_hcmd_ptr_l0 +// h264_mv_cal_info_2 -- (index == 6) +// Bit[31:29] Reserved +// Bit[28:24] total_mvd_num_l1 +// Bit[23:21] Reserved +// Bit[20:16] mv_cal_ptr_l1 +// Bit[15:13] Reserved +// Bit[12:8] mc_hcmd_ptr_l1 +// Bit[7:5] Reserved +// Bit[4:0] dblk_hcmd_ptr_l1 +// h264_co_mb_info -- (index == 7) +// Bit[31:26] Reserved +// Bit[25] mv_scale_cal_busy +// Bit[24:20] co_mv_count +// Bit[19:16] co_mv_process_state +// Bit[15] h264_co_mb_rd_busy +// Bit[15] h264_co_mb_rd_ready +// Bit[13:12] co_mv_transfer_block_cnt +// Bit[11:8] co_mv_transfer_ptr +// Bit[7] co_mv_POC_l1_busy +// Bit[6] h264_weight_scale_cal_en +// Bit[5] weight_cal_busy +// Bit[4] weight_cal_not_finished +// Bit[3:0] weight_process_state +#define HEVC_VLD_DBG_DATA (0x3c3f) +#define P_HEVC_VLD_DBG_DATA (volatile unsigned int *)((0x3c3f << 2) + 0xff620000) +// -------------------------------------------- +// VIFIFO DDR Interface +// -------------------------------------------- +// The VIFIFO start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define HEVC_VLD_MEM_VIFIFO_START_PTR (0x3c40) +#define P_HEVC_VLD_MEM_VIFIFO_START_PTR (volatile unsigned int *)((0x3c40 << 2) + 0xff620000) +// The current pointer points so some location between the START and END +// pointers. The current pointer is a BYTE pointer. That is, you can +// point to any BYTE address within the START/END range +#define HEVC_VLD_MEM_VIFIFO_CURR_PTR (0x3c41) +#define P_HEVC_VLD_MEM_VIFIFO_CURR_PTR (volatile unsigned int *)((0x3c41 << 2) + 0xff620000) +#define HEVC_VLD_MEM_VIFIFO_END_PTR (0x3c42) +#define P_HEVC_VLD_MEM_VIFIFO_END_PTR (volatile unsigned int *)((0x3c42 << 2) + 0xff620000) +#define HEVC_VLD_MEM_VIFIFO_BYTES_AVAIL (0x3c43) +#define P_HEVC_VLD_MEM_VIFIFO_BYTES_AVAIL (volatile unsigned int *)((0x3c43 << 2) + 0xff620000) +// VIFIFO FIFO Control +// bit [31:24] viff_empty_int_enable_cpu[7:0] +// bit [23:16] viff_empty_int_enable_amrisc[7:0] +// -bit 23 Video BUFFER < 0x400 Bytes +// -bit 22 Video BUFFER < 0x200 Bytes +// -bit 21 Video BUFFER < 0x100 Bytes +// -bit 20 Video BUFFER < 0x80 Bytes +// -bit 19 Video BUFFER < 0x40 Bytes +// -bit 18 Video BUFFER < 0x20 Bytes +// -bit 17 vififo < 16 double words +// -bit 16 vififo < 8 double words +// bit [15:13] unused +// bit [12] A_urgent +// bit [11] transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request +// bit [10] use_level Set this bit to 1 to enable filling of the FIFO controlled by the buffer +// level control. If this bit is 0, then use bit[1] to control the enabling of filling +// bit [9] Data Ready. This bit is set when data can be popped +// bit [8] fill busy This bit will be high when we're fetching data from the DDR memory +// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +// After that you can pulse cntl_init to start over +// bit [7] init_with_cntl_init +// bit [6] reserved +// bits [5:3] endian: see $lib/rtl/ddr_endian.v +// bit [2] cntl_empty_en Set to 1 to enable reading the DDR memory FIFO +// Set cntl_empty_en = cntl_fill_en = 0 when pulsing cntl_init +// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +// and read masks, set this bit to 1 and then to 0 +// NOTE: You don't need to pulse cntl_init if only the start address is +// being changed +#define HEVC_VLD_MEM_VIFIFO_CONTROL (0x3c44) +#define P_HEVC_VLD_MEM_VIFIFO_CONTROL (volatile unsigned int *)((0x3c44 << 2) + 0xff620000) +// -------------------------------------------- +// VIFIFO Buffer Level Manager +// -------------------------------------------- +#define HEVC_VLD_MEM_VIFIFO_WP (0x3c45) +#define P_HEVC_VLD_MEM_VIFIFO_WP (volatile unsigned int *)((0x3c45 << 2) + 0xff620000) +#define HEVC_VLD_MEM_VIFIFO_RP (0x3c46) +#define P_HEVC_VLD_MEM_VIFIFO_RP (volatile unsigned int *)((0x3c46 << 2) + 0xff620000) +#define HEVC_VLD_MEM_VIFIFO_LEVEL (0x3c47) +#define P_HEVC_VLD_MEM_VIFIFO_LEVEL (volatile unsigned int *)((0x3c47 << 2) + 0xff620000) +// +// bit [8] use_parser_video2_wp +// bit [7] vbuf2_out_manual +// bit [6] vbuf_out_manual +// bit [5] empty (ReadOnly) +// bit [4] full (ReadOnly) +// bit [3:2] reserved +// bit [1] manual mode Set to 1 for manual write pointer mode +// bit [0] Init Set high then low after everything has been initialized +#define HEVC_VLD_MEM_VIFIFO_BUF_CNTL (0x3c48) +#define P_HEVC_VLD_MEM_VIFIFO_BUF_CNTL (volatile unsigned int *)((0x3c48 << 2) + 0xff620000) +// bit 31:16 -- drop_bytes +// bit 15:14 -- drop_status (Read-Only) +// bit 13:12 -- sync_match_position (Read-Only) +// bit 11:6 -- reserved +// bit 5:4 -- TIME_STAMP_NUMBER, 0-32bits, 1-64bits, 2-96bits, 3-128bits +// bit 3 -- stamp_soft_reset +// bit 2 -- TIME_STAMP_length_enable +// bit 1 -- TIME_STAMP_sync64_enable +// bit 0 -- TIME_STAMP_enable +#define HEVC_VLD_TIME_STAMP_CNTL (0x3c49) +#define P_HEVC_VLD_TIME_STAMP_CNTL (volatile unsigned int *)((0x3c49 << 2) + 0xff620000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_0 +#define HEVC_VLD_TIME_STAMP_SYNC_0 (0x3c4a) +#define P_HEVC_VLD_TIME_STAMP_SYNC_0 (volatile unsigned int *)((0x3c4a << 2) + 0xff620000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_1 +#define HEVC_VLD_TIME_STAMP_SYNC_1 (0x3c4b) +#define P_HEVC_VLD_TIME_STAMP_SYNC_1 (volatile unsigned int *)((0x3c4b << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_0 +#define HEVC_VLD_TIME_STAMP_0 (0x3c4c) +#define P_HEVC_VLD_TIME_STAMP_0 (volatile unsigned int *)((0x3c4c << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_1 +#define HEVC_VLD_TIME_STAMP_1 (0x3c4d) +#define P_HEVC_VLD_TIME_STAMP_1 (volatile unsigned int *)((0x3c4d << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_2 +#define HEVC_VLD_TIME_STAMP_2 (0x3c4e) +#define P_HEVC_VLD_TIME_STAMP_2 (volatile unsigned int *)((0x3c4e << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_3 +#define HEVC_VLD_TIME_STAMP_3 (0x3c4f) +#define P_HEVC_VLD_TIME_STAMP_3 (volatile unsigned int *)((0x3c4f << 2) + 0xff620000) +// bit 31:0 TIME_STAMP_LENGTH +#define HEVC_VLD_TIME_STAMP_LENGTH (0x3c50) +#define P_HEVC_VLD_TIME_STAMP_LENGTH (volatile unsigned int *)((0x3c50 << 2) + 0xff620000) +// bit 15:0 vififo_rd_count +#define HEVC_VLD_MEM_VIFIFO_WRAP_COUNT (0x3c51) +#define P_HEVC_VLD_MEM_VIFIFO_WRAP_COUNT (volatile unsigned int *)((0x3c51 << 2) + 0xff620000) +// bit 29:24 A_brst_num +// bit 21:16 A_id +// bit 15:0 level_hold +#define HEVC_VLD_MEM_VIFIFO_MEM_CTL (0x3c52) +#define P_HEVC_VLD_MEM_VIFIFO_MEM_CTL (volatile unsigned int *)((0x3c52 << 2) + 0xff620000) +#define HEVC_VLD_MEM_VBUF_RD_PTR (0x3c53) +#define P_HEVC_VLD_MEM_VBUF_RD_PTR (volatile unsigned int *)((0x3c53 << 2) + 0xff620000) +#define HEVC_VLD_MEM_VBUF2_RD_PTR (0x3c54) +#define P_HEVC_VLD_MEM_VBUF2_RD_PTR (volatile unsigned int *)((0x3c54 << 2) + 0xff620000) +#define HEVC_VLD_MEM_SWAP_ADDR (0x3c55) +#define P_HEVC_VLD_MEM_SWAP_ADDR (volatile unsigned int *)((0x3c55 << 2) + 0xff620000) +// bit[23:16] - swap_d_count (Read Only) +// bit[15:8] - swap_a_count (Read Only) +// bit [7] - swap busy (Read Only) +// bit [6:2] - reserved +// bit [1] - 1 - STORE to Memory, 0 - LOAD from Memory +// bit [0] - swap active +#define HEVC_VLD_MEM_SWAP_CTL (0x3c56) +#define P_HEVC_VLD_MEM_SWAP_CTL (volatile unsigned int *)((0x3c56 << 2) + 0xff620000) +// +// Closing file: vld_regs.h +// +// +// Reading file: iqidct_regs.h +// +//======================================================================== +// IQ/IDCT module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_IQIDCT_CBUS_BASE = 0x0e +// ----------------------------------------------- +#define HCODEC_VCOP_CTRL_REG (0x1e00) +#define P_HCODEC_VCOP_CTRL_REG (volatile unsigned int *)((0x1e00 << 2) + 0xff620000) +#define HCODEC_QP_CTRL_REG (0x1e01) +#define P_HCODEC_QP_CTRL_REG (volatile unsigned int *)((0x1e01 << 2) + 0xff620000) +#define HCODEC_INTRA_QUANT_MATRIX (0x1e02) +#define P_HCODEC_INTRA_QUANT_MATRIX (volatile unsigned int *)((0x1e02 << 2) + 0xff620000) +#define HCODEC_NON_I_QUANT_MATRIX (0x1e03) +#define P_HCODEC_NON_I_QUANT_MATRIX (volatile unsigned int *)((0x1e03 << 2) + 0xff620000) +#define HCODEC_DC_SCALER (0x1e04) +#define P_HCODEC_DC_SCALER (volatile unsigned int *)((0x1e04 << 2) + 0xff620000) +#define HCODEC_DC_AC_CTRL (0x1e05) +#define P_HCODEC_DC_AC_CTRL (volatile unsigned int *)((0x1e05 << 2) + 0xff620000) +// `define RV_AI_CTRL 8'h05 // ONLY for $ucode/real/amrisc/rv.s reg value from apollo +#define HCODEC_DC_AC_SCALE_MUL (0x1e06) +#define P_HCODEC_DC_AC_SCALE_MUL (volatile unsigned int *)((0x1e06 << 2) + 0xff620000) +#define HCODEC_DC_AC_SCALE_DIV (0x1e07) +#define P_HCODEC_DC_AC_SCALE_DIV (volatile unsigned int *)((0x1e07 << 2) + 0xff620000) +// `define DC_AC_SCALE_RESULT 8'h06 +// `define RESERVED_E07 8'h07 +#define HCODEC_POWER_CTL_IQIDCT (0x1e08) +#define P_HCODEC_POWER_CTL_IQIDCT (volatile unsigned int *)((0x1e08 << 2) + 0xff620000) +#define HCODEC_RV_AI_Y_X (0x1e09) +#define P_HCODEC_RV_AI_Y_X (volatile unsigned int *)((0x1e09 << 2) + 0xff620000) +#define HCODEC_RV_AI_U_X (0x1e0a) +#define P_HCODEC_RV_AI_U_X (volatile unsigned int *)((0x1e0a << 2) + 0xff620000) +#define HCODEC_RV_AI_V_X (0x1e0b) +#define P_HCODEC_RV_AI_V_X (volatile unsigned int *)((0x1e0b << 2) + 0xff620000) +// bit 15:0 will count up when rv_ai_mb finished when non zero +// and rv_ai_mb_finished_int will be generate when this is not zero +#define HCODEC_RV_AI_MB_COUNT (0x1e0c) +#define P_HCODEC_RV_AI_MB_COUNT (volatile unsigned int *)((0x1e0c << 2) + 0xff620000) +// For H264 I in PB picture Use -- dma type : h264_next_intra_dma +#define HCODEC_NEXT_INTRA_DMA_ADDRESS (0x1e0d) +#define P_HCODEC_NEXT_INTRA_DMA_ADDRESS (volatile unsigned int *)((0x1e0d << 2) + 0xff620000) +// Bit 16 -- dcac_dma_read_cache_disable +// Bit 15 -- dcac_dma_urgent +// Bit 14 -- nv21_swap +// Bit 13 -- nv21_top_dma +// Bit 12 -- reset_rv_ai_wait_rd_data +// Bit 11 -- set_rv_ai_wait_rd_data [12:11] = 3 means only dec 1 (For Skipped MB of MBAFF) +// Bit 10 -- rv_ai_wait_rd_data (Read Only) +// Bit 9 -- enable_rv_ai_wait_rd_data +// Bit 8 -- disable_vc1_mv_update +// Bit 7 -- pred_dc_signed +// Bit 6 -- inc_vld_ready_count +// Bit 5 -- dec_vld_ready_count +// Bit 4 -- disable_ref_bidir_fix +// Bit 3 -- disable_MV_UL_l1_bot_fix +// Bit 2 -- disable_mb_aff_fix +// Bit 1 -- canvas_addr_7 +// Bit 0 -- constrained_intra_pred_flag for H264 +#define HCODEC_IQIDCT_CONTROL (0x1e0e) +#define P_HCODEC_IQIDCT_CONTROL (volatile unsigned int *)((0x1e0e << 2) + 0xff620000) +// Bit[31:19] Reserved +// Bit[18] iq_waiting +// Bit[17] iq_om_wr_idx +// Bit[16] iq_om_rd_idx +// Bit[15] iq_om_busy +// Bit[14] iq_om_2_busy +// Bit[13] idx_fifo_0 +// Bit[12] idx_fifo_1 +// Bit[11] idx_fifo_2 +// Bit[10] idx_fifo_3 +// Bit[9] idx_fifo_4 +// Bit[8] idx_fifo_5 +// Bit[7] idx_fifo_6 +// Bit[6] idx_fifo_7 +// Bit[5:3] idx_fifo_wp +// Bit[2:0] idx_fifo_rp +#define HCODEC_IQIDCT_DEBUG_INFO_0 (0x1e0f) +#define P_HCODEC_IQIDCT_DEBUG_INFO_0 (volatile unsigned int *)((0x1e0f << 2) + 0xff620000) +// For RTL Simulation Only +#define HCODEC_DEBLK_CMD (0x1e10) +#define P_HCODEC_DEBLK_CMD (volatile unsigned int *)((0x1e10 << 2) + 0xff620000) +// Bit[15+16] ds_mc_valid_2 +// Bit[14+16] new_idct1_rd_idx_2 +// Bit[13+16] new_idct1_wr_idx_2 +// Bit[12+16] idct1_buff0_busy_2 +// Bit[11+16] idct1_buff1_busy_2 +// Bit[10+16] new_idct1_busy_2 +// Bit[9+16] iq_om_8val_2 +// Bit[8+16] idct1_pipe_busy_2 +// Bit[7+16] wait_mb_left_finish_hold_2 +// Bit[6+16] new_idct2_rd_idx_2 +// Bit[5+16] new_idct2_wr_idx_2 +// Bit[4+16] idct2_buff0_busy_2 +// Bit[3+16] idct2_buff1_busy_2 +// Bit[2+16] idct2_en_2 +// Bit[1+16] new_idct2_busy_2 +// Bit[0+16] new_idct1_ready_2 +// Bit[15] ds_mc_valid_1 +// Bit[14] new_idct1_rd_idx_1 +// Bit[13] new_idct1_wr_idx_1 +// Bit[12] idct1_buff0_busy_1 +// Bit[11] idct1_buff1_busy_1 +// Bit[10] new_idct1_busy_1 +// Bit[9] iq_om_8val_1 +// Bit[8] idct1_pipe_busy_1 +// Bit[7] wait_mb_left_finish_hold_1 +// Bit[6] new_idct2_rd_idx_1 +// Bit[5] new_idct2_wr_idx_1 +// Bit[4] idct2_buff0_busy_1 +// Bit[3] idct2_buff1_busy_1 +// Bit[2] idct2_en_1 +// Bit[1] new_idct2_busy_1 +// Bit[0] new_idct1_ready_1 +#define HCODEC_IQIDCT_DEBUG_IDCT (0x1e11) +#define P_HCODEC_IQIDCT_DEBUG_IDCT (volatile unsigned int *)((0x1e11 << 2) + 0xff620000) +// bit 31 -- convas_enable +// bit 30:24 -- convas_x_count ( 8 pixels / 64 bits ) +// bit 23:16 -- convas_y_count +// bit 15 -- dcac_dma_busy +// bit 14 -- dcac_dma_read_cache_active +// bit 13:8 -- dcac_dma_count +// bit 7 -- dcac_dma_rw +// bit 6 -- dcac_skip_read_mode +// bit 5:0 -- dcac_dma_offset +#define HCODEC_DCAC_DMA_CTRL (0x1e12) +#define P_HCODEC_DCAC_DMA_CTRL (volatile unsigned int *)((0x1e12 << 2) + 0xff620000) +// when (convas_enable == 0 ) +// bit 31:0 dcac_dma_addr +// when (convas_enable == 1 ) +// bit 31:25 canvas_addr (7 bits) +// bit 24:12 convas_y_start ( 13 btis ) +// bit 11:0 convas_x_start ( 12 btis ) +#define HCODEC_DCAC_DMA_ADDRESS (0x1e13) +#define P_HCODEC_DCAC_DMA_ADDRESS (volatile unsigned int *)((0x1e13 << 2) + 0xff620000) +// bit 7:0 -- dcac_cpu_addr +#define HCODEC_DCAC_CPU_ADDRESS (0x1e14) +#define P_HCODEC_DCAC_CPU_ADDRESS (volatile unsigned int *)((0x1e14 << 2) + 0xff620000) +// bit 31:0 -- dcac_cpu_data +#define HCODEC_DCAC_CPU_DATA (0x1e15) +#define P_HCODEC_DCAC_CPU_DATA (volatile unsigned int *)((0x1e15 << 2) + 0xff620000) +// bit 31:19 -- reserved +// bit 18:16 -- block_num_reg -- Read-Only +// bit 15:0 -- dcac_mb_count +#define HCODEC_DCAC_MB_COUNT (0x1e16) +#define P_HCODEC_DCAC_MB_COUNT (volatile unsigned int *)((0x1e16 << 2) + 0xff620000) +// bit 31:18 -- reserved +// For H264 : +// bit 17:2 -- h264_quant +// bit 11:6 -- h264_quant_c +// bit 5:0 -- h264_quant_c +// For VC1 : +// bit 17 -- qindex_GT_8 +// bit 16 -- HalfQPStep +// bit 15:12 -- eQuantMode +// bit 11:6 -- AltPQuant +// bit 5:0 -- PQuant +// +#define HCODEC_IQ_QUANT (0x1e17) +#define P_HCODEC_IQ_QUANT (volatile unsigned int *)((0x1e17 << 2) + 0xff620000) +// bit 31:24 -- bitplane_width +// bit 23:16 -- bitplane_height +// bit 15:14 -- bitplane_start_x +// bit 13:12 -- bitplane_start_y +// bit 11:4 -- reserved +// bit 3:1 -- bitplane_type +// bit 0 -- bitplane_busy +#define HCODEC_VC1_BITPLANE_CTL (0x1e18) +#define P_HCODEC_VC1_BITPLANE_CTL (volatile unsigned int *)((0x1e18 << 2) + 0xff620000) +// bit 24:16 -- wq_param1 +// bit 8: 0 -- wq_param0 +#define HCODEC_AVSP_IQ_WQ_PARAM_01 (0x1e19) +#define P_HCODEC_AVSP_IQ_WQ_PARAM_01 (volatile unsigned int *)((0x1e19 << 2) + 0xff620000) +// bit 24:16 -- wq_param3 +// bit 8: 0 -- wq_param2 +#define HCODEC_AVSP_IQ_WQ_PARAM_23 (0x1e1a) +#define P_HCODEC_AVSP_IQ_WQ_PARAM_23 (volatile unsigned int *)((0x1e1a << 2) + 0xff620000) +// bit 24:16 -- wq_param5 +// bit 8: 0 -- wq_param4 +#define HCODEC_AVSP_IQ_WQ_PARAM_45 (0x1e1b) +#define P_HCODEC_AVSP_IQ_WQ_PARAM_45 (volatile unsigned int *)((0x1e1b << 2) + 0xff620000) +// bit 31 -- weight_quant_en +// bit 17:16 -- current_scene_model +// bit 12: 8 -- chroma_qp_delta_cr +// bit 4: 0 -- chroma_qp_delta_cb +#define HCODEC_AVSP_IQ_CTL (0x1e1c) +#define P_HCODEC_AVSP_IQ_CTL (volatile unsigned int *)((0x1e1c << 2) + 0xff620000) +//====================================== +// VCOP Control Register Bits +// +//====================================== + //`define IQIDCT_RESET 16'h0001 // Bit 0 +//====================================== +// QP Control Register Bits +// +//====================================== +// Duplicate Address: When actually used +// please move to a different address +// `define FLD_DCT_TYPE 16'h0100 // Bit 8 0 = Frame DCT; 1 = field DCT +// +// Closing file: iqidct_regs.h +// +// +// Reading file: iqidct_regs.h +// +//======================================================================== +// IQ/IDCT module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_IQIDCT_CBUS_BASE = 0x0e +// ----------------------------------------------- +#define VDEC2_VCOP_CTRL_REG (0x2e00) +#define P_VDEC2_VCOP_CTRL_REG (volatile unsigned int *)((0x2e00 << 2) + 0xff620000) +#define VDEC2_QP_CTRL_REG (0x2e01) +#define P_VDEC2_QP_CTRL_REG (volatile unsigned int *)((0x2e01 << 2) + 0xff620000) +#define VDEC2_INTRA_QUANT_MATRIX (0x2e02) +#define P_VDEC2_INTRA_QUANT_MATRIX (volatile unsigned int *)((0x2e02 << 2) + 0xff620000) +#define VDEC2_NON_I_QUANT_MATRIX (0x2e03) +#define P_VDEC2_NON_I_QUANT_MATRIX (volatile unsigned int *)((0x2e03 << 2) + 0xff620000) +#define VDEC2_DC_SCALER (0x2e04) +#define P_VDEC2_DC_SCALER (volatile unsigned int *)((0x2e04 << 2) + 0xff620000) +#define VDEC2_DC_AC_CTRL (0x2e05) +#define P_VDEC2_DC_AC_CTRL (volatile unsigned int *)((0x2e05 << 2) + 0xff620000) +// `define RV_AI_CTRL 8'h05 // ONLY for $ucode/real/amrisc/rv.s reg value from apollo +#define VDEC2_DC_AC_SCALE_MUL (0x2e06) +#define P_VDEC2_DC_AC_SCALE_MUL (volatile unsigned int *)((0x2e06 << 2) + 0xff620000) +#define VDEC2_DC_AC_SCALE_DIV (0x2e07) +#define P_VDEC2_DC_AC_SCALE_DIV (volatile unsigned int *)((0x2e07 << 2) + 0xff620000) +// `define DC_AC_SCALE_RESULT 8'h06 +// `define RESERVED_E07 8'h07 +#define VDEC2_POWER_CTL_IQIDCT (0x2e08) +#define P_VDEC2_POWER_CTL_IQIDCT (volatile unsigned int *)((0x2e08 << 2) + 0xff620000) +#define VDEC2_RV_AI_Y_X (0x2e09) +#define P_VDEC2_RV_AI_Y_X (volatile unsigned int *)((0x2e09 << 2) + 0xff620000) +#define VDEC2_RV_AI_U_X (0x2e0a) +#define P_VDEC2_RV_AI_U_X (volatile unsigned int *)((0x2e0a << 2) + 0xff620000) +#define VDEC2_RV_AI_V_X (0x2e0b) +#define P_VDEC2_RV_AI_V_X (volatile unsigned int *)((0x2e0b << 2) + 0xff620000) +// bit 15:0 will count up when rv_ai_mb finished when non zero +// and rv_ai_mb_finished_int will be generate when this is not zero +#define VDEC2_RV_AI_MB_COUNT (0x2e0c) +#define P_VDEC2_RV_AI_MB_COUNT (volatile unsigned int *)((0x2e0c << 2) + 0xff620000) +// For H264 I in PB picture Use -- dma type : h264_next_intra_dma +#define VDEC2_NEXT_INTRA_DMA_ADDRESS (0x2e0d) +#define P_VDEC2_NEXT_INTRA_DMA_ADDRESS (volatile unsigned int *)((0x2e0d << 2) + 0xff620000) +// Bit 16 -- dcac_dma_read_cache_disable +// Bit 15 -- dcac_dma_urgent +// Bit 14 -- nv21_swap +// Bit 13 -- nv21_top_dma +// Bit 12 -- reset_rv_ai_wait_rd_data +// Bit 11 -- set_rv_ai_wait_rd_data [12:11] = 3 means only dec 1 (For Skipped MB of MBAFF) +// Bit 10 -- rv_ai_wait_rd_data (Read Only) +// Bit 9 -- enable_rv_ai_wait_rd_data +// Bit 8 -- disable_vc1_mv_update +// Bit 7 -- pred_dc_signed +// Bit 6 -- inc_vld_ready_count +// Bit 5 -- dec_vld_ready_count +// Bit 4 -- disable_ref_bidir_fix +// Bit 3 -- disable_MV_UL_l1_bot_fix +// Bit 2 -- disable_mb_aff_fix +// Bit 1 -- canvas_addr_7 +// Bit 0 -- constrained_intra_pred_flag for H264 +#define VDEC2_IQIDCT_CONTROL (0x2e0e) +#define P_VDEC2_IQIDCT_CONTROL (volatile unsigned int *)((0x2e0e << 2) + 0xff620000) +// Bit[31:19] Reserved +// Bit[18] iq_waiting +// Bit[17] iq_om_wr_idx +// Bit[16] iq_om_rd_idx +// Bit[15] iq_om_busy +// Bit[14] iq_om_2_busy +// Bit[13] idx_fifo_0 +// Bit[12] idx_fifo_1 +// Bit[11] idx_fifo_2 +// Bit[10] idx_fifo_3 +// Bit[9] idx_fifo_4 +// Bit[8] idx_fifo_5 +// Bit[7] idx_fifo_6 +// Bit[6] idx_fifo_7 +// Bit[5:3] idx_fifo_wp +// Bit[2:0] idx_fifo_rp +#define VDEC2_IQIDCT_DEBUG_INFO_0 (0x2e0f) +#define P_VDEC2_IQIDCT_DEBUG_INFO_0 (volatile unsigned int *)((0x2e0f << 2) + 0xff620000) +// For RTL Simulation Only +#define VDEC2_DEBLK_CMD (0x2e10) +#define P_VDEC2_DEBLK_CMD (volatile unsigned int *)((0x2e10 << 2) + 0xff620000) +// Bit[15+16] ds_mc_valid_2 +// Bit[14+16] new_idct1_rd_idx_2 +// Bit[13+16] new_idct1_wr_idx_2 +// Bit[12+16] idct1_buff0_busy_2 +// Bit[11+16] idct1_buff1_busy_2 +// Bit[10+16] new_idct1_busy_2 +// Bit[9+16] iq_om_8val_2 +// Bit[8+16] idct1_pipe_busy_2 +// Bit[7+16] wait_mb_left_finish_hold_2 +// Bit[6+16] new_idct2_rd_idx_2 +// Bit[5+16] new_idct2_wr_idx_2 +// Bit[4+16] idct2_buff0_busy_2 +// Bit[3+16] idct2_buff1_busy_2 +// Bit[2+16] idct2_en_2 +// Bit[1+16] new_idct2_busy_2 +// Bit[0+16] new_idct1_ready_2 +// Bit[15] ds_mc_valid_1 +// Bit[14] new_idct1_rd_idx_1 +// Bit[13] new_idct1_wr_idx_1 +// Bit[12] idct1_buff0_busy_1 +// Bit[11] idct1_buff1_busy_1 +// Bit[10] new_idct1_busy_1 +// Bit[9] iq_om_8val_1 +// Bit[8] idct1_pipe_busy_1 +// Bit[7] wait_mb_left_finish_hold_1 +// Bit[6] new_idct2_rd_idx_1 +// Bit[5] new_idct2_wr_idx_1 +// Bit[4] idct2_buff0_busy_1 +// Bit[3] idct2_buff1_busy_1 +// Bit[2] idct2_en_1 +// Bit[1] new_idct2_busy_1 +// Bit[0] new_idct1_ready_1 +#define VDEC2_IQIDCT_DEBUG_IDCT (0x2e11) +#define P_VDEC2_IQIDCT_DEBUG_IDCT (volatile unsigned int *)((0x2e11 << 2) + 0xff620000) +// bit 31 -- convas_enable +// bit 30:24 -- convas_x_count ( 8 pixels / 64 bits ) +// bit 23:16 -- convas_y_count +// bit 15 -- dcac_dma_busy +// bit 14 -- dcac_dma_read_cache_active +// bit 13:8 -- dcac_dma_count +// bit 7 -- dcac_dma_rw +// bit 6 -- dcac_skip_read_mode +// bit 5:0 -- dcac_dma_offset +#define VDEC2_DCAC_DMA_CTRL (0x2e12) +#define P_VDEC2_DCAC_DMA_CTRL (volatile unsigned int *)((0x2e12 << 2) + 0xff620000) +// when (convas_enable == 0 ) +// bit 31:0 dcac_dma_addr +// when (convas_enable == 1 ) +// bit 31:25 canvas_addr (7 bits) +// bit 24:12 convas_y_start ( 13 btis ) +// bit 11:0 convas_x_start ( 12 btis ) +#define VDEC2_DCAC_DMA_ADDRESS (0x2e13) +#define P_VDEC2_DCAC_DMA_ADDRESS (volatile unsigned int *)((0x2e13 << 2) + 0xff620000) +// bit 7:0 -- dcac_cpu_addr +#define VDEC2_DCAC_CPU_ADDRESS (0x2e14) +#define P_VDEC2_DCAC_CPU_ADDRESS (volatile unsigned int *)((0x2e14 << 2) + 0xff620000) +// bit 31:0 -- dcac_cpu_data +#define VDEC2_DCAC_CPU_DATA (0x2e15) +#define P_VDEC2_DCAC_CPU_DATA (volatile unsigned int *)((0x2e15 << 2) + 0xff620000) +// bit 31:19 -- reserved +// bit 18:16 -- block_num_reg -- Read-Only +// bit 15:0 -- dcac_mb_count +#define VDEC2_DCAC_MB_COUNT (0x2e16) +#define P_VDEC2_DCAC_MB_COUNT (volatile unsigned int *)((0x2e16 << 2) + 0xff620000) +// bit 31:18 -- reserved +// For H264 : +// bit 17:2 -- h264_quant +// bit 11:6 -- h264_quant_c +// bit 5:0 -- h264_quant_c +// For VC1 : +// bit 17 -- qindex_GT_8 +// bit 16 -- HalfQPStep +// bit 15:12 -- eQuantMode +// bit 11:6 -- AltPQuant +// bit 5:0 -- PQuant +// +#define VDEC2_IQ_QUANT (0x2e17) +#define P_VDEC2_IQ_QUANT (volatile unsigned int *)((0x2e17 << 2) + 0xff620000) +// bit 31:24 -- bitplane_width +// bit 23:16 -- bitplane_height +// bit 15:14 -- bitplane_start_x +// bit 13:12 -- bitplane_start_y +// bit 11:4 -- reserved +// bit 3:1 -- bitplane_type +// bit 0 -- bitplane_busy +#define VDEC2_VC1_BITPLANE_CTL (0x2e18) +#define P_VDEC2_VC1_BITPLANE_CTL (volatile unsigned int *)((0x2e18 << 2) + 0xff620000) +// bit 24:16 -- wq_param1 +// bit 8: 0 -- wq_param0 +#define VDEC2_AVSP_IQ_WQ_PARAM_01 (0x2e19) +#define P_VDEC2_AVSP_IQ_WQ_PARAM_01 (volatile unsigned int *)((0x2e19 << 2) + 0xff620000) +// bit 24:16 -- wq_param3 +// bit 8: 0 -- wq_param2 +#define VDEC2_AVSP_IQ_WQ_PARAM_23 (0x2e1a) +#define P_VDEC2_AVSP_IQ_WQ_PARAM_23 (volatile unsigned int *)((0x2e1a << 2) + 0xff620000) +// bit 24:16 -- wq_param5 +// bit 8: 0 -- wq_param4 +#define VDEC2_AVSP_IQ_WQ_PARAM_45 (0x2e1b) +#define P_VDEC2_AVSP_IQ_WQ_PARAM_45 (volatile unsigned int *)((0x2e1b << 2) + 0xff620000) +// bit 31 -- weight_quant_en +// bit 17:16 -- current_scene_model +// bit 12: 8 -- chroma_qp_delta_cr +// bit 4: 0 -- chroma_qp_delta_cb +#define VDEC2_AVSP_IQ_CTL (0x2e1c) +#define P_VDEC2_AVSP_IQ_CTL (volatile unsigned int *)((0x2e1c << 2) + 0xff620000) +//====================================== +// VCOP Control Register Bits +// +//====================================== + //`define IQIDCT_RESET 16'h0001 // Bit 0 +//====================================== +// QP Control Register Bits +// +//====================================== +// Duplicate Address: When actually used +// please move to a different address +// `define FLD_DCT_TYPE 16'h0100 // Bit 8 0 = Frame DCT; 1 = field DCT +// +// Closing file: iqidct_regs.h +// +// +// Reading file: iqidct_regs.h +// +//======================================================================== +// IQ/IDCT module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_IQIDCT_CBUS_BASE = 0x0e +// ----------------------------------------------- +#define HEVC_VCOP_CTRL_REG (0x3e00) +#define P_HEVC_VCOP_CTRL_REG (volatile unsigned int *)((0x3e00 << 2) + 0xff620000) +#define HEVC_QP_CTRL_REG (0x3e01) +#define P_HEVC_QP_CTRL_REG (volatile unsigned int *)((0x3e01 << 2) + 0xff620000) +#define HEVC_INTRA_QUANT_MATRIX (0x3e02) +#define P_HEVC_INTRA_QUANT_MATRIX (volatile unsigned int *)((0x3e02 << 2) + 0xff620000) +#define HEVC_NON_I_QUANT_MATRIX (0x3e03) +#define P_HEVC_NON_I_QUANT_MATRIX (volatile unsigned int *)((0x3e03 << 2) + 0xff620000) +#define HEVC_DC_SCALER (0x3e04) +#define P_HEVC_DC_SCALER (volatile unsigned int *)((0x3e04 << 2) + 0xff620000) +#define HEVC_DC_AC_CTRL (0x3e05) +#define P_HEVC_DC_AC_CTRL (volatile unsigned int *)((0x3e05 << 2) + 0xff620000) +// `define RV_AI_CTRL 8'h05 // ONLY for $ucode/real/amrisc/rv.s reg value from apollo +#define HEVC_DC_AC_SCALE_MUL (0x3e06) +#define P_HEVC_DC_AC_SCALE_MUL (volatile unsigned int *)((0x3e06 << 2) + 0xff620000) +#define HEVC_DC_AC_SCALE_DIV (0x3e07) +#define P_HEVC_DC_AC_SCALE_DIV (volatile unsigned int *)((0x3e07 << 2) + 0xff620000) +// `define DC_AC_SCALE_RESULT 8'h06 +// `define RESERVED_E07 8'h07 +#define HEVC_POWER_CTL_IQIDCT (0x3e08) +#define P_HEVC_POWER_CTL_IQIDCT (volatile unsigned int *)((0x3e08 << 2) + 0xff620000) +#define HEVC_RV_AI_Y_X (0x3e09) +#define P_HEVC_RV_AI_Y_X (volatile unsigned int *)((0x3e09 << 2) + 0xff620000) +#define HEVC_RV_AI_U_X (0x3e0a) +#define P_HEVC_RV_AI_U_X (volatile unsigned int *)((0x3e0a << 2) + 0xff620000) +#define HEVC_RV_AI_V_X (0x3e0b) +#define P_HEVC_RV_AI_V_X (volatile unsigned int *)((0x3e0b << 2) + 0xff620000) +// bit 15:0 will count up when rv_ai_mb finished when non zero +// and rv_ai_mb_finished_int will be generate when this is not zero +#define HEVC_RV_AI_MB_COUNT (0x3e0c) +#define P_HEVC_RV_AI_MB_COUNT (volatile unsigned int *)((0x3e0c << 2) + 0xff620000) +// For H264 I in PB picture Use -- dma type : h264_next_intra_dma +#define HEVC_NEXT_INTRA_DMA_ADDRESS (0x3e0d) +#define P_HEVC_NEXT_INTRA_DMA_ADDRESS (volatile unsigned int *)((0x3e0d << 2) + 0xff620000) +// Bit 16 -- dcac_dma_read_cache_disable +// Bit 15 -- dcac_dma_urgent +// Bit 14 -- nv21_swap +// Bit 13 -- nv21_top_dma +// Bit 12 -- reset_rv_ai_wait_rd_data +// Bit 11 -- set_rv_ai_wait_rd_data [12:11] = 3 means only dec 1 (For Skipped MB of MBAFF) +// Bit 10 -- rv_ai_wait_rd_data (Read Only) +// Bit 9 -- enable_rv_ai_wait_rd_data +// Bit 8 -- disable_vc1_mv_update +// Bit 7 -- pred_dc_signed +// Bit 6 -- inc_vld_ready_count +// Bit 5 -- dec_vld_ready_count +// Bit 4 -- disable_ref_bidir_fix +// Bit 3 -- disable_MV_UL_l1_bot_fix +// Bit 2 -- disable_mb_aff_fix +// Bit 1 -- canvas_addr_7 +// Bit 0 -- constrained_intra_pred_flag for H264 +#define HEVC_IQIDCT_CONTROL (0x3e0e) +#define P_HEVC_IQIDCT_CONTROL (volatile unsigned int *)((0x3e0e << 2) + 0xff620000) +// Bit[31:19] Reserved +// Bit[18] iq_waiting +// Bit[17] iq_om_wr_idx +// Bit[16] iq_om_rd_idx +// Bit[15] iq_om_busy +// Bit[14] iq_om_2_busy +// Bit[13] idx_fifo_0 +// Bit[12] idx_fifo_1 +// Bit[11] idx_fifo_2 +// Bit[10] idx_fifo_3 +// Bit[9] idx_fifo_4 +// Bit[8] idx_fifo_5 +// Bit[7] idx_fifo_6 +// Bit[6] idx_fifo_7 +// Bit[5:3] idx_fifo_wp +// Bit[2:0] idx_fifo_rp +#define HEVC_IQIDCT_DEBUG_INFO_0 (0x3e0f) +#define P_HEVC_IQIDCT_DEBUG_INFO_0 (volatile unsigned int *)((0x3e0f << 2) + 0xff620000) +// For RTL Simulation Only +#define HEVC_DEBLK_CMD (0x3e10) +#define P_HEVC_DEBLK_CMD (volatile unsigned int *)((0x3e10 << 2) + 0xff620000) +// Bit[15+16] ds_mc_valid_2 +// Bit[14+16] new_idct1_rd_idx_2 +// Bit[13+16] new_idct1_wr_idx_2 +// Bit[12+16] idct1_buff0_busy_2 +// Bit[11+16] idct1_buff1_busy_2 +// Bit[10+16] new_idct1_busy_2 +// Bit[9+16] iq_om_8val_2 +// Bit[8+16] idct1_pipe_busy_2 +// Bit[7+16] wait_mb_left_finish_hold_2 +// Bit[6+16] new_idct2_rd_idx_2 +// Bit[5+16] new_idct2_wr_idx_2 +// Bit[4+16] idct2_buff0_busy_2 +// Bit[3+16] idct2_buff1_busy_2 +// Bit[2+16] idct2_en_2 +// Bit[1+16] new_idct2_busy_2 +// Bit[0+16] new_idct1_ready_2 +// Bit[15] ds_mc_valid_1 +// Bit[14] new_idct1_rd_idx_1 +// Bit[13] new_idct1_wr_idx_1 +// Bit[12] idct1_buff0_busy_1 +// Bit[11] idct1_buff1_busy_1 +// Bit[10] new_idct1_busy_1 +// Bit[9] iq_om_8val_1 +// Bit[8] idct1_pipe_busy_1 +// Bit[7] wait_mb_left_finish_hold_1 +// Bit[6] new_idct2_rd_idx_1 +// Bit[5] new_idct2_wr_idx_1 +// Bit[4] idct2_buff0_busy_1 +// Bit[3] idct2_buff1_busy_1 +// Bit[2] idct2_en_1 +// Bit[1] new_idct2_busy_1 +// Bit[0] new_idct1_ready_1 +#define HEVC_IQIDCT_DEBUG_IDCT (0x3e11) +#define P_HEVC_IQIDCT_DEBUG_IDCT (volatile unsigned int *)((0x3e11 << 2) + 0xff620000) +// bit 31 -- convas_enable +// bit 30:24 -- convas_x_count ( 8 pixels / 64 bits ) +// bit 23:16 -- convas_y_count +// bit 15 -- dcac_dma_busy +// bit 14 -- dcac_dma_read_cache_active +// bit 13:8 -- dcac_dma_count +// bit 7 -- dcac_dma_rw +// bit 6 -- dcac_skip_read_mode +// bit 5:0 -- dcac_dma_offset +#define HEVC_DCAC_DMA_CTRL (0x3e12) +#define P_HEVC_DCAC_DMA_CTRL (volatile unsigned int *)((0x3e12 << 2) + 0xff620000) +// when (convas_enable == 0 ) +// bit 31:0 dcac_dma_addr +// when (convas_enable == 1 ) +// bit 31:25 canvas_addr (7 bits) +// bit 24:12 convas_y_start ( 13 btis ) +// bit 11:0 convas_x_start ( 12 btis ) +#define HEVC_DCAC_DMA_ADDRESS (0x3e13) +#define P_HEVC_DCAC_DMA_ADDRESS (volatile unsigned int *)((0x3e13 << 2) + 0xff620000) +// bit 7:0 -- dcac_cpu_addr +#define HEVC_DCAC_CPU_ADDRESS (0x3e14) +#define P_HEVC_DCAC_CPU_ADDRESS (volatile unsigned int *)((0x3e14 << 2) + 0xff620000) +// bit 31:0 -- dcac_cpu_data +#define HEVC_DCAC_CPU_DATA (0x3e15) +#define P_HEVC_DCAC_CPU_DATA (volatile unsigned int *)((0x3e15 << 2) + 0xff620000) +// bit 31:19 -- reserved +// bit 18:16 -- block_num_reg -- Read-Only +// bit 15:0 -- dcac_mb_count +#define HEVC_DCAC_MB_COUNT (0x3e16) +#define P_HEVC_DCAC_MB_COUNT (volatile unsigned int *)((0x3e16 << 2) + 0xff620000) +// bit 31:18 -- reserved +// For H264 : +// bit 17:2 -- h264_quant +// bit 11:6 -- h264_quant_c +// bit 5:0 -- h264_quant_c +// For VC1 : +// bit 17 -- qindex_GT_8 +// bit 16 -- HalfQPStep +// bit 15:12 -- eQuantMode +// bit 11:6 -- AltPQuant +// bit 5:0 -- PQuant +// +#define HEVC_IQ_QUANT (0x3e17) +#define P_HEVC_IQ_QUANT (volatile unsigned int *)((0x3e17 << 2) + 0xff620000) +// bit 31:24 -- bitplane_width +// bit 23:16 -- bitplane_height +// bit 15:14 -- bitplane_start_x +// bit 13:12 -- bitplane_start_y +// bit 11:4 -- reserved +// bit 3:1 -- bitplane_type +// bit 0 -- bitplane_busy +#define HEVC_VC1_BITPLANE_CTL (0x3e18) +#define P_HEVC_VC1_BITPLANE_CTL (volatile unsigned int *)((0x3e18 << 2) + 0xff620000) +// bit 24:16 -- wq_param1 +// bit 8: 0 -- wq_param0 +#define HEVC_AVSP_IQ_WQ_PARAM_01 (0x3e19) +#define P_HEVC_AVSP_IQ_WQ_PARAM_01 (volatile unsigned int *)((0x3e19 << 2) + 0xff620000) +// bit 24:16 -- wq_param3 +// bit 8: 0 -- wq_param2 +#define HEVC_AVSP_IQ_WQ_PARAM_23 (0x3e1a) +#define P_HEVC_AVSP_IQ_WQ_PARAM_23 (volatile unsigned int *)((0x3e1a << 2) + 0xff620000) +// bit 24:16 -- wq_param5 +// bit 8: 0 -- wq_param4 +#define HEVC_AVSP_IQ_WQ_PARAM_45 (0x3e1b) +#define P_HEVC_AVSP_IQ_WQ_PARAM_45 (volatile unsigned int *)((0x3e1b << 2) + 0xff620000) +// bit 31 -- weight_quant_en +// bit 17:16 -- current_scene_model +// bit 12: 8 -- chroma_qp_delta_cr +// bit 4: 0 -- chroma_qp_delta_cb +#define HEVC_AVSP_IQ_CTL (0x3e1c) +#define P_HEVC_AVSP_IQ_CTL (volatile unsigned int *)((0x3e1c << 2) + 0xff620000) +//====================================== +// VCOP Control Register Bits +// +//====================================== + //`define IQIDCT_RESET 16'h0001 // Bit 0 +//====================================== +// QP Control Register Bits +// +//====================================== +// Duplicate Address: When actually used +// please move to a different address +// `define FLD_DCT_TYPE 16'h0100 // Bit 8 0 = Frame DCT; 1 = field DCT +// +// Closing file: iqidct_regs.h +// +// +// Reading file: vcpu_regs.h +// +//======================================================================== +// VCPU module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_VCPU_CBUS_BASE = 0x03 +// ----------------------------------------------- +#define HCODEC_MSP (0x1300) +#define P_HCODEC_MSP (volatile unsigned int *)((0x1300 << 2) + 0xff620000) +#define HCODEC_MPSR (0x1301) +#define P_HCODEC_MPSR (volatile unsigned int *)((0x1301 << 2) + 0xff620000) +#define HCODEC_MINT_VEC_BASE (0x1302) +#define P_HCODEC_MINT_VEC_BASE (volatile unsigned int *)((0x1302 << 2) + 0xff620000) +#define HCODEC_MCPU_INTR_GRP (0x1303) +#define P_HCODEC_MCPU_INTR_GRP (volatile unsigned int *)((0x1303 << 2) + 0xff620000) +#define HCODEC_MCPU_INTR_MSK (0x1304) +#define P_HCODEC_MCPU_INTR_MSK (volatile unsigned int *)((0x1304 << 2) + 0xff620000) +#define HCODEC_MCPU_INTR_REQ (0x1305) +#define P_HCODEC_MCPU_INTR_REQ (volatile unsigned int *)((0x1305 << 2) + 0xff620000) +#define HCODEC_MPC_P (0x1306) +#define P_HCODEC_MPC_P (volatile unsigned int *)((0x1306 << 2) + 0xff620000) +#define HCODEC_MPC_D (0x1307) +#define P_HCODEC_MPC_D (volatile unsigned int *)((0x1307 << 2) + 0xff620000) +#define HCODEC_MPC_E (0x1308) +#define P_HCODEC_MPC_E (volatile unsigned int *)((0x1308 << 2) + 0xff620000) +#define HCODEC_MPC_W (0x1309) +#define P_HCODEC_MPC_W (volatile unsigned int *)((0x1309 << 2) + 0xff620000) +#define HCODEC_MINDEX0_REG (0x130a) +#define P_HCODEC_MINDEX0_REG (volatile unsigned int *)((0x130a << 2) + 0xff620000) +#define HCODEC_MINDEX1_REG (0x130b) +#define P_HCODEC_MINDEX1_REG (volatile unsigned int *)((0x130b << 2) + 0xff620000) +#define HCODEC_MINDEX2_REG (0x130c) +#define P_HCODEC_MINDEX2_REG (volatile unsigned int *)((0x130c << 2) + 0xff620000) +#define HCODEC_MINDEX3_REG (0x130d) +#define P_HCODEC_MINDEX3_REG (volatile unsigned int *)((0x130d << 2) + 0xff620000) +#define HCODEC_MINDEX4_REG (0x130e) +#define P_HCODEC_MINDEX4_REG (volatile unsigned int *)((0x130e << 2) + 0xff620000) +#define HCODEC_MINDEX5_REG (0x130f) +#define P_HCODEC_MINDEX5_REG (volatile unsigned int *)((0x130f << 2) + 0xff620000) +#define HCODEC_MINDEX6_REG (0x1310) +#define P_HCODEC_MINDEX6_REG (volatile unsigned int *)((0x1310 << 2) + 0xff620000) +#define HCODEC_MINDEX7_REG (0x1311) +#define P_HCODEC_MINDEX7_REG (volatile unsigned int *)((0x1311 << 2) + 0xff620000) +#define HCODEC_MMIN_REG (0x1312) +#define P_HCODEC_MMIN_REG (volatile unsigned int *)((0x1312 << 2) + 0xff620000) +#define HCODEC_MMAX_REG (0x1313) +#define P_HCODEC_MMAX_REG (volatile unsigned int *)((0x1313 << 2) + 0xff620000) +#define HCODEC_MBREAK0_REG (0x1314) +#define P_HCODEC_MBREAK0_REG (volatile unsigned int *)((0x1314 << 2) + 0xff620000) +#define HCODEC_MBREAK1_REG (0x1315) +#define P_HCODEC_MBREAK1_REG (volatile unsigned int *)((0x1315 << 2) + 0xff620000) +#define HCODEC_MBREAK2_REG (0x1316) +#define P_HCODEC_MBREAK2_REG (volatile unsigned int *)((0x1316 << 2) + 0xff620000) +#define HCODEC_MBREAK3_REG (0x1317) +#define P_HCODEC_MBREAK3_REG (volatile unsigned int *)((0x1317 << 2) + 0xff620000) +#define HCODEC_MBREAK_TYPE (0x1318) +#define P_HCODEC_MBREAK_TYPE (volatile unsigned int *)((0x1318 << 2) + 0xff620000) +#define HCODEC_MBREAK_CTRL (0x1319) +#define P_HCODEC_MBREAK_CTRL (volatile unsigned int *)((0x1319 << 2) + 0xff620000) +#define HCODEC_MBREAK_STAUTS (0x131a) +#define P_HCODEC_MBREAK_STAUTS (volatile unsigned int *)((0x131a << 2) + 0xff620000) +#define HCODEC_MDB_ADDR_REG (0x131b) +#define P_HCODEC_MDB_ADDR_REG (volatile unsigned int *)((0x131b << 2) + 0xff620000) +#define HCODEC_MDB_DATA_REG (0x131c) +#define P_HCODEC_MDB_DATA_REG (volatile unsigned int *)((0x131c << 2) + 0xff620000) +#define HCODEC_MDB_CTRL (0x131d) +#define P_HCODEC_MDB_CTRL (volatile unsigned int *)((0x131d << 2) + 0xff620000) +#define HCODEC_MSFTINT0 (0x131e) +#define P_HCODEC_MSFTINT0 (volatile unsigned int *)((0x131e << 2) + 0xff620000) +#define HCODEC_MSFTINT1 (0x131f) +#define P_HCODEC_MSFTINT1 (volatile unsigned int *)((0x131f << 2) + 0xff620000) +#define HCODEC_CSP (0x1320) +#define P_HCODEC_CSP (volatile unsigned int *)((0x1320 << 2) + 0xff620000) +#define HCODEC_CPSR (0x1321) +#define P_HCODEC_CPSR (volatile unsigned int *)((0x1321 << 2) + 0xff620000) +#define HCODEC_CINT_VEC_BASE (0x1322) +#define P_HCODEC_CINT_VEC_BASE (volatile unsigned int *)((0x1322 << 2) + 0xff620000) +#define HCODEC_CCPU_INTR_GRP (0x1323) +#define P_HCODEC_CCPU_INTR_GRP (volatile unsigned int *)((0x1323 << 2) + 0xff620000) +#define HCODEC_CCPU_INTR_MSK (0x1324) +#define P_HCODEC_CCPU_INTR_MSK (volatile unsigned int *)((0x1324 << 2) + 0xff620000) +#define HCODEC_CCPU_INTR_REQ (0x1325) +#define P_HCODEC_CCPU_INTR_REQ (volatile unsigned int *)((0x1325 << 2) + 0xff620000) +#define HCODEC_CPC_P (0x1326) +#define P_HCODEC_CPC_P (volatile unsigned int *)((0x1326 << 2) + 0xff620000) +#define HCODEC_CPC_D (0x1327) +#define P_HCODEC_CPC_D (volatile unsigned int *)((0x1327 << 2) + 0xff620000) +#define HCODEC_CPC_E (0x1328) +#define P_HCODEC_CPC_E (volatile unsigned int *)((0x1328 << 2) + 0xff620000) +#define HCODEC_CPC_W (0x1329) +#define P_HCODEC_CPC_W (volatile unsigned int *)((0x1329 << 2) + 0xff620000) +#define HCODEC_CINDEX0_REG (0x132a) +#define P_HCODEC_CINDEX0_REG (volatile unsigned int *)((0x132a << 2) + 0xff620000) +#define HCODEC_CINDEX1_REG (0x132b) +#define P_HCODEC_CINDEX1_REG (volatile unsigned int *)((0x132b << 2) + 0xff620000) +#define HCODEC_CINDEX2_REG (0x132c) +#define P_HCODEC_CINDEX2_REG (volatile unsigned int *)((0x132c << 2) + 0xff620000) +#define HCODEC_CINDEX3_REG (0x132d) +#define P_HCODEC_CINDEX3_REG (volatile unsigned int *)((0x132d << 2) + 0xff620000) +#define HCODEC_CINDEX4_REG (0x132e) +#define P_HCODEC_CINDEX4_REG (volatile unsigned int *)((0x132e << 2) + 0xff620000) +#define HCODEC_CINDEX5_REG (0x132f) +#define P_HCODEC_CINDEX5_REG (volatile unsigned int *)((0x132f << 2) + 0xff620000) +#define HCODEC_CINDEX6_REG (0x1330) +#define P_HCODEC_CINDEX6_REG (volatile unsigned int *)((0x1330 << 2) + 0xff620000) +#define HCODEC_CINDEX7_REG (0x1331) +#define P_HCODEC_CINDEX7_REG (volatile unsigned int *)((0x1331 << 2) + 0xff620000) +#define HCODEC_CMIN_REG (0x1332) +#define P_HCODEC_CMIN_REG (volatile unsigned int *)((0x1332 << 2) + 0xff620000) +#define HCODEC_CMAX_REG (0x1333) +#define P_HCODEC_CMAX_REG (volatile unsigned int *)((0x1333 << 2) + 0xff620000) +#define HCODEC_CBREAK0_REG (0x1334) +#define P_HCODEC_CBREAK0_REG (volatile unsigned int *)((0x1334 << 2) + 0xff620000) +#define HCODEC_CBREAK1_REG (0x1335) +#define P_HCODEC_CBREAK1_REG (volatile unsigned int *)((0x1335 << 2) + 0xff620000) +#define HCODEC_CBREAK2_REG (0x1336) +#define P_HCODEC_CBREAK2_REG (volatile unsigned int *)((0x1336 << 2) + 0xff620000) +#define HCODEC_CBREAK3_REG (0x1337) +#define P_HCODEC_CBREAK3_REG (volatile unsigned int *)((0x1337 << 2) + 0xff620000) +#define HCODEC_CBREAK_TYPE (0x1338) +#define P_HCODEC_CBREAK_TYPE (volatile unsigned int *)((0x1338 << 2) + 0xff620000) +#define HCODEC_CBREAK_CTRL (0x1339) +#define P_HCODEC_CBREAK_CTRL (volatile unsigned int *)((0x1339 << 2) + 0xff620000) +#define HCODEC_CBREAK_STAUTS (0x133a) +#define P_HCODEC_CBREAK_STAUTS (volatile unsigned int *)((0x133a << 2) + 0xff620000) +#define HCODEC_CDB_ADDR_REG (0x133b) +#define P_HCODEC_CDB_ADDR_REG (volatile unsigned int *)((0x133b << 2) + 0xff620000) +#define HCODEC_CDB_DATA_REG (0x133c) +#define P_HCODEC_CDB_DATA_REG (volatile unsigned int *)((0x133c << 2) + 0xff620000) +#define HCODEC_CDB_CTRL (0x133d) +#define P_HCODEC_CDB_CTRL (volatile unsigned int *)((0x133d << 2) + 0xff620000) +#define HCODEC_CSFTINT0 (0x133e) +#define P_HCODEC_CSFTINT0 (volatile unsigned int *)((0x133e << 2) + 0xff620000) +#define HCODEC_CSFTINT1 (0x133f) +#define P_HCODEC_CSFTINT1 (volatile unsigned int *)((0x133f << 2) + 0xff620000) +#define HCODEC_IMEM_DMA_CTRL (0x1340) +#define P_HCODEC_IMEM_DMA_CTRL (volatile unsigned int *)((0x1340 << 2) + 0xff620000) +#define HCODEC_IMEM_DMA_ADR (0x1341) +#define P_HCODEC_IMEM_DMA_ADR (volatile unsigned int *)((0x1341 << 2) + 0xff620000) +#define HCODEC_IMEM_DMA_COUNT (0x1342) +#define P_HCODEC_IMEM_DMA_COUNT (volatile unsigned int *)((0x1342 << 2) + 0xff620000) +// bit[29:24] A_brst_num_imem +// bit[21:16] A_id_imem +// bit[11:0] wrrsp_count_imem (reserved) +#define HCODEC_WRRSP_IMEM (0x1343) +#define P_HCODEC_WRRSP_IMEM (volatile unsigned int *)((0x1343 << 2) + 0xff620000) +#define HCODEC_LMEM_DMA_CTRL (0x1350) +#define P_HCODEC_LMEM_DMA_CTRL (volatile unsigned int *)((0x1350 << 2) + 0xff620000) +#define HCODEC_LMEM_DMA_ADR (0x1351) +#define P_HCODEC_LMEM_DMA_ADR (volatile unsigned int *)((0x1351 << 2) + 0xff620000) +#define HCODEC_LMEM_DMA_COUNT (0x1352) +#define P_HCODEC_LMEM_DMA_COUNT (volatile unsigned int *)((0x1352 << 2) + 0xff620000) +// bit[29:24] A_brst_num_lmem +// bit[21:16] A_id_lmem +// bit[11:0] wrrsp_count_lmem +#define HCODEC_WRRSP_LMEM (0x1353) +#define P_HCODEC_WRRSP_LMEM (volatile unsigned int *)((0x1353 << 2) + 0xff620000) +#define HCODEC_MAC_CTRL1 (0x1360) +#define P_HCODEC_MAC_CTRL1 (volatile unsigned int *)((0x1360 << 2) + 0xff620000) +#define HCODEC_ACC0REG1 (0x1361) +#define P_HCODEC_ACC0REG1 (volatile unsigned int *)((0x1361 << 2) + 0xff620000) +#define HCODEC_ACC1REG1 (0x1362) +#define P_HCODEC_ACC1REG1 (volatile unsigned int *)((0x1362 << 2) + 0xff620000) +#define HCODEC_MAC_CTRL2 (0x1370) +#define P_HCODEC_MAC_CTRL2 (volatile unsigned int *)((0x1370 << 2) + 0xff620000) +#define HCODEC_ACC0REG2 (0x1371) +#define P_HCODEC_ACC0REG2 (volatile unsigned int *)((0x1371 << 2) + 0xff620000) +#define HCODEC_ACC1REG2 (0x1372) +#define P_HCODEC_ACC1REG2 (volatile unsigned int *)((0x1372 << 2) + 0xff620000) +#define HCODEC_CPU_TRACE (0x1380) +#define P_HCODEC_CPU_TRACE (volatile unsigned int *)((0x1380 << 2) + 0xff620000) +// +// Closing file: vcpu_regs.h +// +// +// Reading file: vcpu_regs.h +// +//======================================================================== +// VCPU module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_VCPU_CBUS_BASE = 0x03 +// ----------------------------------------------- +#define VDEC2_MSP (0x2300) +#define P_VDEC2_MSP (volatile unsigned int *)((0x2300 << 2) + 0xff620000) +#define VDEC2_MPSR (0x2301) +#define P_VDEC2_MPSR (volatile unsigned int *)((0x2301 << 2) + 0xff620000) +#define VDEC2_MINT_VEC_BASE (0x2302) +#define P_VDEC2_MINT_VEC_BASE (volatile unsigned int *)((0x2302 << 2) + 0xff620000) +#define VDEC2_MCPU_INTR_GRP (0x2303) +#define P_VDEC2_MCPU_INTR_GRP (volatile unsigned int *)((0x2303 << 2) + 0xff620000) +#define VDEC2_MCPU_INTR_MSK (0x2304) +#define P_VDEC2_MCPU_INTR_MSK (volatile unsigned int *)((0x2304 << 2) + 0xff620000) +#define VDEC2_MCPU_INTR_REQ (0x2305) +#define P_VDEC2_MCPU_INTR_REQ (volatile unsigned int *)((0x2305 << 2) + 0xff620000) +#define VDEC2_MPC_P (0x2306) +#define P_VDEC2_MPC_P (volatile unsigned int *)((0x2306 << 2) + 0xff620000) +#define VDEC2_MPC_D (0x2307) +#define P_VDEC2_MPC_D (volatile unsigned int *)((0x2307 << 2) + 0xff620000) +#define VDEC2_MPC_E (0x2308) +#define P_VDEC2_MPC_E (volatile unsigned int *)((0x2308 << 2) + 0xff620000) +#define VDEC2_MPC_W (0x2309) +#define P_VDEC2_MPC_W (volatile unsigned int *)((0x2309 << 2) + 0xff620000) +#define VDEC2_MINDEX0_REG (0x230a) +#define P_VDEC2_MINDEX0_REG (volatile unsigned int *)((0x230a << 2) + 0xff620000) +#define VDEC2_MINDEX1_REG (0x230b) +#define P_VDEC2_MINDEX1_REG (volatile unsigned int *)((0x230b << 2) + 0xff620000) +#define VDEC2_MINDEX2_REG (0x230c) +#define P_VDEC2_MINDEX2_REG (volatile unsigned int *)((0x230c << 2) + 0xff620000) +#define VDEC2_MINDEX3_REG (0x230d) +#define P_VDEC2_MINDEX3_REG (volatile unsigned int *)((0x230d << 2) + 0xff620000) +#define VDEC2_MINDEX4_REG (0x230e) +#define P_VDEC2_MINDEX4_REG (volatile unsigned int *)((0x230e << 2) + 0xff620000) +#define VDEC2_MINDEX5_REG (0x230f) +#define P_VDEC2_MINDEX5_REG (volatile unsigned int *)((0x230f << 2) + 0xff620000) +#define VDEC2_MINDEX6_REG (0x2310) +#define P_VDEC2_MINDEX6_REG (volatile unsigned int *)((0x2310 << 2) + 0xff620000) +#define VDEC2_MINDEX7_REG (0x2311) +#define P_VDEC2_MINDEX7_REG (volatile unsigned int *)((0x2311 << 2) + 0xff620000) +#define VDEC2_MMIN_REG (0x2312) +#define P_VDEC2_MMIN_REG (volatile unsigned int *)((0x2312 << 2) + 0xff620000) +#define VDEC2_MMAX_REG (0x2313) +#define P_VDEC2_MMAX_REG (volatile unsigned int *)((0x2313 << 2) + 0xff620000) +#define VDEC2_MBREAK0_REG (0x2314) +#define P_VDEC2_MBREAK0_REG (volatile unsigned int *)((0x2314 << 2) + 0xff620000) +#define VDEC2_MBREAK1_REG (0x2315) +#define P_VDEC2_MBREAK1_REG (volatile unsigned int *)((0x2315 << 2) + 0xff620000) +#define VDEC2_MBREAK2_REG (0x2316) +#define P_VDEC2_MBREAK2_REG (volatile unsigned int *)((0x2316 << 2) + 0xff620000) +#define VDEC2_MBREAK3_REG (0x2317) +#define P_VDEC2_MBREAK3_REG (volatile unsigned int *)((0x2317 << 2) + 0xff620000) +#define VDEC2_MBREAK_TYPE (0x2318) +#define P_VDEC2_MBREAK_TYPE (volatile unsigned int *)((0x2318 << 2) + 0xff620000) +#define VDEC2_MBREAK_CTRL (0x2319) +#define P_VDEC2_MBREAK_CTRL (volatile unsigned int *)((0x2319 << 2) + 0xff620000) +#define VDEC2_MBREAK_STAUTS (0x231a) +#define P_VDEC2_MBREAK_STAUTS (volatile unsigned int *)((0x231a << 2) + 0xff620000) +#define VDEC2_MDB_ADDR_REG (0x231b) +#define P_VDEC2_MDB_ADDR_REG (volatile unsigned int *)((0x231b << 2) + 0xff620000) +#define VDEC2_MDB_DATA_REG (0x231c) +#define P_VDEC2_MDB_DATA_REG (volatile unsigned int *)((0x231c << 2) + 0xff620000) +#define VDEC2_MDB_CTRL (0x231d) +#define P_VDEC2_MDB_CTRL (volatile unsigned int *)((0x231d << 2) + 0xff620000) +#define VDEC2_MSFTINT0 (0x231e) +#define P_VDEC2_MSFTINT0 (volatile unsigned int *)((0x231e << 2) + 0xff620000) +#define VDEC2_MSFTINT1 (0x231f) +#define P_VDEC2_MSFTINT1 (volatile unsigned int *)((0x231f << 2) + 0xff620000) +#define VDEC2_CSP (0x2320) +#define P_VDEC2_CSP (volatile unsigned int *)((0x2320 << 2) + 0xff620000) +#define VDEC2_CPSR (0x2321) +#define P_VDEC2_CPSR (volatile unsigned int *)((0x2321 << 2) + 0xff620000) +#define VDEC2_CINT_VEC_BASE (0x2322) +#define P_VDEC2_CINT_VEC_BASE (volatile unsigned int *)((0x2322 << 2) + 0xff620000) +#define VDEC2_CCPU_INTR_GRP (0x2323) +#define P_VDEC2_CCPU_INTR_GRP (volatile unsigned int *)((0x2323 << 2) + 0xff620000) +#define VDEC2_CCPU_INTR_MSK (0x2324) +#define P_VDEC2_CCPU_INTR_MSK (volatile unsigned int *)((0x2324 << 2) + 0xff620000) +#define VDEC2_CCPU_INTR_REQ (0x2325) +#define P_VDEC2_CCPU_INTR_REQ (volatile unsigned int *)((0x2325 << 2) + 0xff620000) +#define VDEC2_CPC_P (0x2326) +#define P_VDEC2_CPC_P (volatile unsigned int *)((0x2326 << 2) + 0xff620000) +#define VDEC2_CPC_D (0x2327) +#define P_VDEC2_CPC_D (volatile unsigned int *)((0x2327 << 2) + 0xff620000) +#define VDEC2_CPC_E (0x2328) +#define P_VDEC2_CPC_E (volatile unsigned int *)((0x2328 << 2) + 0xff620000) +#define VDEC2_CPC_W (0x2329) +#define P_VDEC2_CPC_W (volatile unsigned int *)((0x2329 << 2) + 0xff620000) +#define VDEC2_CINDEX0_REG (0x232a) +#define P_VDEC2_CINDEX0_REG (volatile unsigned int *)((0x232a << 2) + 0xff620000) +#define VDEC2_CINDEX1_REG (0x232b) +#define P_VDEC2_CINDEX1_REG (volatile unsigned int *)((0x232b << 2) + 0xff620000) +#define VDEC2_CINDEX2_REG (0x232c) +#define P_VDEC2_CINDEX2_REG (volatile unsigned int *)((0x232c << 2) + 0xff620000) +#define VDEC2_CINDEX3_REG (0x232d) +#define P_VDEC2_CINDEX3_REG (volatile unsigned int *)((0x232d << 2) + 0xff620000) +#define VDEC2_CINDEX4_REG (0x232e) +#define P_VDEC2_CINDEX4_REG (volatile unsigned int *)((0x232e << 2) + 0xff620000) +#define VDEC2_CINDEX5_REG (0x232f) +#define P_VDEC2_CINDEX5_REG (volatile unsigned int *)((0x232f << 2) + 0xff620000) +#define VDEC2_CINDEX6_REG (0x2330) +#define P_VDEC2_CINDEX6_REG (volatile unsigned int *)((0x2330 << 2) + 0xff620000) +#define VDEC2_CINDEX7_REG (0x2331) +#define P_VDEC2_CINDEX7_REG (volatile unsigned int *)((0x2331 << 2) + 0xff620000) +#define VDEC2_CMIN_REG (0x2332) +#define P_VDEC2_CMIN_REG (volatile unsigned int *)((0x2332 << 2) + 0xff620000) +#define VDEC2_CMAX_REG (0x2333) +#define P_VDEC2_CMAX_REG (volatile unsigned int *)((0x2333 << 2) + 0xff620000) +#define VDEC2_CBREAK0_REG (0x2334) +#define P_VDEC2_CBREAK0_REG (volatile unsigned int *)((0x2334 << 2) + 0xff620000) +#define VDEC2_CBREAK1_REG (0x2335) +#define P_VDEC2_CBREAK1_REG (volatile unsigned int *)((0x2335 << 2) + 0xff620000) +#define VDEC2_CBREAK2_REG (0x2336) +#define P_VDEC2_CBREAK2_REG (volatile unsigned int *)((0x2336 << 2) + 0xff620000) +#define VDEC2_CBREAK3_REG (0x2337) +#define P_VDEC2_CBREAK3_REG (volatile unsigned int *)((0x2337 << 2) + 0xff620000) +#define VDEC2_CBREAK_TYPE (0x2338) +#define P_VDEC2_CBREAK_TYPE (volatile unsigned int *)((0x2338 << 2) + 0xff620000) +#define VDEC2_CBREAK_CTRL (0x2339) +#define P_VDEC2_CBREAK_CTRL (volatile unsigned int *)((0x2339 << 2) + 0xff620000) +#define VDEC2_CBREAK_STAUTS (0x233a) +#define P_VDEC2_CBREAK_STAUTS (volatile unsigned int *)((0x233a << 2) + 0xff620000) +#define VDEC2_CDB_ADDR_REG (0x233b) +#define P_VDEC2_CDB_ADDR_REG (volatile unsigned int *)((0x233b << 2) + 0xff620000) +#define VDEC2_CDB_DATA_REG (0x233c) +#define P_VDEC2_CDB_DATA_REG (volatile unsigned int *)((0x233c << 2) + 0xff620000) +#define VDEC2_CDB_CTRL (0x233d) +#define P_VDEC2_CDB_CTRL (volatile unsigned int *)((0x233d << 2) + 0xff620000) +#define VDEC2_CSFTINT0 (0x233e) +#define P_VDEC2_CSFTINT0 (volatile unsigned int *)((0x233e << 2) + 0xff620000) +#define VDEC2_CSFTINT1 (0x233f) +#define P_VDEC2_CSFTINT1 (volatile unsigned int *)((0x233f << 2) + 0xff620000) +#define VDEC2_IMEM_DMA_CTRL (0x2340) +#define P_VDEC2_IMEM_DMA_CTRL (volatile unsigned int *)((0x2340 << 2) + 0xff620000) +#define VDEC2_IMEM_DMA_ADR (0x2341) +#define P_VDEC2_IMEM_DMA_ADR (volatile unsigned int *)((0x2341 << 2) + 0xff620000) +#define VDEC2_IMEM_DMA_COUNT (0x2342) +#define P_VDEC2_IMEM_DMA_COUNT (volatile unsigned int *)((0x2342 << 2) + 0xff620000) +// bit[29:24] A_brst_num_imem +// bit[21:16] A_id_imem +// bit[11:0] wrrsp_count_imem (reserved) +#define VDEC2_WRRSP_IMEM (0x2343) +#define P_VDEC2_WRRSP_IMEM (volatile unsigned int *)((0x2343 << 2) + 0xff620000) +#define VDEC2_LMEM_DMA_CTRL (0x2350) +#define P_VDEC2_LMEM_DMA_CTRL (volatile unsigned int *)((0x2350 << 2) + 0xff620000) +#define VDEC2_LMEM_DMA_ADR (0x2351) +#define P_VDEC2_LMEM_DMA_ADR (volatile unsigned int *)((0x2351 << 2) + 0xff620000) +#define VDEC2_LMEM_DMA_COUNT (0x2352) +#define P_VDEC2_LMEM_DMA_COUNT (volatile unsigned int *)((0x2352 << 2) + 0xff620000) +// bit[29:24] A_brst_num_lmem +// bit[21:16] A_id_lmem +// bit[11:0] wrrsp_count_lmem +#define VDEC2_WRRSP_LMEM (0x2353) +#define P_VDEC2_WRRSP_LMEM (volatile unsigned int *)((0x2353 << 2) + 0xff620000) +#define VDEC2_MAC_CTRL1 (0x2360) +#define P_VDEC2_MAC_CTRL1 (volatile unsigned int *)((0x2360 << 2) + 0xff620000) +#define VDEC2_ACC0REG1 (0x2361) +#define P_VDEC2_ACC0REG1 (volatile unsigned int *)((0x2361 << 2) + 0xff620000) +#define VDEC2_ACC1REG1 (0x2362) +#define P_VDEC2_ACC1REG1 (volatile unsigned int *)((0x2362 << 2) + 0xff620000) +#define VDEC2_MAC_CTRL2 (0x2370) +#define P_VDEC2_MAC_CTRL2 (volatile unsigned int *)((0x2370 << 2) + 0xff620000) +#define VDEC2_ACC0REG2 (0x2371) +#define P_VDEC2_ACC0REG2 (volatile unsigned int *)((0x2371 << 2) + 0xff620000) +#define VDEC2_ACC1REG2 (0x2372) +#define P_VDEC2_ACC1REG2 (volatile unsigned int *)((0x2372 << 2) + 0xff620000) +#define VDEC2_CPU_TRACE (0x2380) +#define P_VDEC2_CPU_TRACE (volatile unsigned int *)((0x2380 << 2) + 0xff620000) +// +// Closing file: vcpu_regs.h +// +// +// Reading file: vcpu_regs.h +// +//======================================================================== +// VCPU module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_VDEC_VCPU_CBUS_BASE = 0x03 +// ----------------------------------------------- +#define HEVC_MSP (0x3300) +#define P_HEVC_MSP (volatile unsigned int *)((0x3300 << 2) + 0xff620000) +#define HEVC_MPSR (0x3301) +#define P_HEVC_MPSR (volatile unsigned int *)((0x3301 << 2) + 0xff620000) +#define HEVC_MINT_VEC_BASE (0x3302) +#define P_HEVC_MINT_VEC_BASE (volatile unsigned int *)((0x3302 << 2) + 0xff620000) +#define HEVC_MCPU_INTR_GRP (0x3303) +#define P_HEVC_MCPU_INTR_GRP (volatile unsigned int *)((0x3303 << 2) + 0xff620000) +#define HEVC_MCPU_INTR_MSK (0x3304) +#define P_HEVC_MCPU_INTR_MSK (volatile unsigned int *)((0x3304 << 2) + 0xff620000) +#define HEVC_MCPU_INTR_REQ (0x3305) +#define P_HEVC_MCPU_INTR_REQ (volatile unsigned int *)((0x3305 << 2) + 0xff620000) +#define HEVC_MPC_P (0x3306) +#define P_HEVC_MPC_P (volatile unsigned int *)((0x3306 << 2) + 0xff620000) +#define HEVC_MPC_D (0x3307) +#define P_HEVC_MPC_D (volatile unsigned int *)((0x3307 << 2) + 0xff620000) +#define HEVC_MPC_E (0x3308) +#define P_HEVC_MPC_E (volatile unsigned int *)((0x3308 << 2) + 0xff620000) +#define HEVC_MPC_W (0x3309) +#define P_HEVC_MPC_W (volatile unsigned int *)((0x3309 << 2) + 0xff620000) +#define HEVC_MINDEX0_REG (0x330a) +#define P_HEVC_MINDEX0_REG (volatile unsigned int *)((0x330a << 2) + 0xff620000) +#define HEVC_MINDEX1_REG (0x330b) +#define P_HEVC_MINDEX1_REG (volatile unsigned int *)((0x330b << 2) + 0xff620000) +#define HEVC_MINDEX2_REG (0x330c) +#define P_HEVC_MINDEX2_REG (volatile unsigned int *)((0x330c << 2) + 0xff620000) +#define HEVC_MINDEX3_REG (0x330d) +#define P_HEVC_MINDEX3_REG (volatile unsigned int *)((0x330d << 2) + 0xff620000) +#define HEVC_MINDEX4_REG (0x330e) +#define P_HEVC_MINDEX4_REG (volatile unsigned int *)((0x330e << 2) + 0xff620000) +#define HEVC_MINDEX5_REG (0x330f) +#define P_HEVC_MINDEX5_REG (volatile unsigned int *)((0x330f << 2) + 0xff620000) +#define HEVC_MINDEX6_REG (0x3310) +#define P_HEVC_MINDEX6_REG (volatile unsigned int *)((0x3310 << 2) + 0xff620000) +#define HEVC_MINDEX7_REG (0x3311) +#define P_HEVC_MINDEX7_REG (volatile unsigned int *)((0x3311 << 2) + 0xff620000) +#define HEVC_MMIN_REG (0x3312) +#define P_HEVC_MMIN_REG (volatile unsigned int *)((0x3312 << 2) + 0xff620000) +#define HEVC_MMAX_REG (0x3313) +#define P_HEVC_MMAX_REG (volatile unsigned int *)((0x3313 << 2) + 0xff620000) +#define HEVC_MBREAK0_REG (0x3314) +#define P_HEVC_MBREAK0_REG (volatile unsigned int *)((0x3314 << 2) + 0xff620000) +#define HEVC_MBREAK1_REG (0x3315) +#define P_HEVC_MBREAK1_REG (volatile unsigned int *)((0x3315 << 2) + 0xff620000) +#define HEVC_MBREAK2_REG (0x3316) +#define P_HEVC_MBREAK2_REG (volatile unsigned int *)((0x3316 << 2) + 0xff620000) +#define HEVC_MBREAK3_REG (0x3317) +#define P_HEVC_MBREAK3_REG (volatile unsigned int *)((0x3317 << 2) + 0xff620000) +#define HEVC_MBREAK_TYPE (0x3318) +#define P_HEVC_MBREAK_TYPE (volatile unsigned int *)((0x3318 << 2) + 0xff620000) +#define HEVC_MBREAK_CTRL (0x3319) +#define P_HEVC_MBREAK_CTRL (volatile unsigned int *)((0x3319 << 2) + 0xff620000) +#define HEVC_MBREAK_STAUTS (0x331a) +#define P_HEVC_MBREAK_STAUTS (volatile unsigned int *)((0x331a << 2) + 0xff620000) +#define HEVC_MDB_ADDR_REG (0x331b) +#define P_HEVC_MDB_ADDR_REG (volatile unsigned int *)((0x331b << 2) + 0xff620000) +#define HEVC_MDB_DATA_REG (0x331c) +#define P_HEVC_MDB_DATA_REG (volatile unsigned int *)((0x331c << 2) + 0xff620000) +#define HEVC_MDB_CTRL (0x331d) +#define P_HEVC_MDB_CTRL (volatile unsigned int *)((0x331d << 2) + 0xff620000) +#define HEVC_MSFTINT0 (0x331e) +#define P_HEVC_MSFTINT0 (volatile unsigned int *)((0x331e << 2) + 0xff620000) +#define HEVC_MSFTINT1 (0x331f) +#define P_HEVC_MSFTINT1 (volatile unsigned int *)((0x331f << 2) + 0xff620000) +#define HEVC_CSP (0x3320) +#define P_HEVC_CSP (volatile unsigned int *)((0x3320 << 2) + 0xff620000) +#define HEVC_CPSR (0x3321) +#define P_HEVC_CPSR (volatile unsigned int *)((0x3321 << 2) + 0xff620000) +#define HEVC_CINT_VEC_BASE (0x3322) +#define P_HEVC_CINT_VEC_BASE (volatile unsigned int *)((0x3322 << 2) + 0xff620000) +#define HEVC_CCPU_INTR_GRP (0x3323) +#define P_HEVC_CCPU_INTR_GRP (volatile unsigned int *)((0x3323 << 2) + 0xff620000) +#define HEVC_CCPU_INTR_MSK (0x3324) +#define P_HEVC_CCPU_INTR_MSK (volatile unsigned int *)((0x3324 << 2) + 0xff620000) +#define HEVC_CCPU_INTR_REQ (0x3325) +#define P_HEVC_CCPU_INTR_REQ (volatile unsigned int *)((0x3325 << 2) + 0xff620000) +#define HEVC_CPC_P (0x3326) +#define P_HEVC_CPC_P (volatile unsigned int *)((0x3326 << 2) + 0xff620000) +#define HEVC_CPC_D (0x3327) +#define P_HEVC_CPC_D (volatile unsigned int *)((0x3327 << 2) + 0xff620000) +#define HEVC_CPC_E (0x3328) +#define P_HEVC_CPC_E (volatile unsigned int *)((0x3328 << 2) + 0xff620000) +#define HEVC_CPC_W (0x3329) +#define P_HEVC_CPC_W (volatile unsigned int *)((0x3329 << 2) + 0xff620000) +#define HEVC_CINDEX0_REG (0x332a) +#define P_HEVC_CINDEX0_REG (volatile unsigned int *)((0x332a << 2) + 0xff620000) +#define HEVC_CINDEX1_REG (0x332b) +#define P_HEVC_CINDEX1_REG (volatile unsigned int *)((0x332b << 2) + 0xff620000) +#define HEVC_CINDEX2_REG (0x332c) +#define P_HEVC_CINDEX2_REG (volatile unsigned int *)((0x332c << 2) + 0xff620000) +#define HEVC_CINDEX3_REG (0x332d) +#define P_HEVC_CINDEX3_REG (volatile unsigned int *)((0x332d << 2) + 0xff620000) +#define HEVC_CINDEX4_REG (0x332e) +#define P_HEVC_CINDEX4_REG (volatile unsigned int *)((0x332e << 2) + 0xff620000) +#define HEVC_CINDEX5_REG (0x332f) +#define P_HEVC_CINDEX5_REG (volatile unsigned int *)((0x332f << 2) + 0xff620000) +#define HEVC_CINDEX6_REG (0x3330) +#define P_HEVC_CINDEX6_REG (volatile unsigned int *)((0x3330 << 2) + 0xff620000) +#define HEVC_CINDEX7_REG (0x3331) +#define P_HEVC_CINDEX7_REG (volatile unsigned int *)((0x3331 << 2) + 0xff620000) +#define HEVC_CMIN_REG (0x3332) +#define P_HEVC_CMIN_REG (volatile unsigned int *)((0x3332 << 2) + 0xff620000) +#define HEVC_CMAX_REG (0x3333) +#define P_HEVC_CMAX_REG (volatile unsigned int *)((0x3333 << 2) + 0xff620000) +#define HEVC_CBREAK0_REG (0x3334) +#define P_HEVC_CBREAK0_REG (volatile unsigned int *)((0x3334 << 2) + 0xff620000) +#define HEVC_CBREAK1_REG (0x3335) +#define P_HEVC_CBREAK1_REG (volatile unsigned int *)((0x3335 << 2) + 0xff620000) +#define HEVC_CBREAK2_REG (0x3336) +#define P_HEVC_CBREAK2_REG (volatile unsigned int *)((0x3336 << 2) + 0xff620000) +#define HEVC_CBREAK3_REG (0x3337) +#define P_HEVC_CBREAK3_REG (volatile unsigned int *)((0x3337 << 2) + 0xff620000) +#define HEVC_CBREAK_TYPE (0x3338) +#define P_HEVC_CBREAK_TYPE (volatile unsigned int *)((0x3338 << 2) + 0xff620000) +#define HEVC_CBREAK_CTRL (0x3339) +#define P_HEVC_CBREAK_CTRL (volatile unsigned int *)((0x3339 << 2) + 0xff620000) +#define HEVC_CBREAK_STAUTS (0x333a) +#define P_HEVC_CBREAK_STAUTS (volatile unsigned int *)((0x333a << 2) + 0xff620000) +#define HEVC_CDB_ADDR_REG (0x333b) +#define P_HEVC_CDB_ADDR_REG (volatile unsigned int *)((0x333b << 2) + 0xff620000) +#define HEVC_CDB_DATA_REG (0x333c) +#define P_HEVC_CDB_DATA_REG (volatile unsigned int *)((0x333c << 2) + 0xff620000) +#define HEVC_CDB_CTRL (0x333d) +#define P_HEVC_CDB_CTRL (volatile unsigned int *)((0x333d << 2) + 0xff620000) +#define HEVC_CSFTINT0 (0x333e) +#define P_HEVC_CSFTINT0 (volatile unsigned int *)((0x333e << 2) + 0xff620000) +#define HEVC_CSFTINT1 (0x333f) +#define P_HEVC_CSFTINT1 (volatile unsigned int *)((0x333f << 2) + 0xff620000) +#define HEVC_IMEM_DMA_CTRL (0x3340) +#define P_HEVC_IMEM_DMA_CTRL (volatile unsigned int *)((0x3340 << 2) + 0xff620000) +#define HEVC_IMEM_DMA_ADR (0x3341) +#define P_HEVC_IMEM_DMA_ADR (volatile unsigned int *)((0x3341 << 2) + 0xff620000) +#define HEVC_IMEM_DMA_COUNT (0x3342) +#define P_HEVC_IMEM_DMA_COUNT (volatile unsigned int *)((0x3342 << 2) + 0xff620000) +// bit[29:24] A_brst_num_imem +// bit[21:16] A_id_imem +// bit[11:0] wrrsp_count_imem (reserved) +#define HEVC_WRRSP_IMEM (0x3343) +#define P_HEVC_WRRSP_IMEM (volatile unsigned int *)((0x3343 << 2) + 0xff620000) +#define HEVC_LMEM_DMA_CTRL (0x3350) +#define P_HEVC_LMEM_DMA_CTRL (volatile unsigned int *)((0x3350 << 2) + 0xff620000) +#define HEVC_LMEM_DMA_ADR (0x3351) +#define P_HEVC_LMEM_DMA_ADR (volatile unsigned int *)((0x3351 << 2) + 0xff620000) +#define HEVC_LMEM_DMA_COUNT (0x3352) +#define P_HEVC_LMEM_DMA_COUNT (volatile unsigned int *)((0x3352 << 2) + 0xff620000) +// bit[29:24] A_brst_num_lmem +// bit[21:16] A_id_lmem +// bit[11:0] wrrsp_count_lmem +#define HEVC_WRRSP_LMEM (0x3353) +#define P_HEVC_WRRSP_LMEM (volatile unsigned int *)((0x3353 << 2) + 0xff620000) +#define HEVC_MAC_CTRL1 (0x3360) +#define P_HEVC_MAC_CTRL1 (volatile unsigned int *)((0x3360 << 2) + 0xff620000) +#define HEVC_ACC0REG1 (0x3361) +#define P_HEVC_ACC0REG1 (volatile unsigned int *)((0x3361 << 2) + 0xff620000) +#define HEVC_ACC1REG1 (0x3362) +#define P_HEVC_ACC1REG1 (volatile unsigned int *)((0x3362 << 2) + 0xff620000) +#define HEVC_MAC_CTRL2 (0x3370) +#define P_HEVC_MAC_CTRL2 (volatile unsigned int *)((0x3370 << 2) + 0xff620000) +#define HEVC_ACC0REG2 (0x3371) +#define P_HEVC_ACC0REG2 (volatile unsigned int *)((0x3371 << 2) + 0xff620000) +#define HEVC_ACC1REG2 (0x3372) +#define P_HEVC_ACC1REG2 (volatile unsigned int *)((0x3372 << 2) + 0xff620000) +#define HEVC_CPU_TRACE (0x3380) +#define P_HEVC_CPU_TRACE (volatile unsigned int *)((0x3380 << 2) + 0xff620000) +// +// Closing file: vcpu_regs.h +// +// +// Reading file: henc_regs.h +// +//======================================================================== +// MDEC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_HENC_CBUS_BASE = 0x0a +// ----------------------------------------------- +#define HCODEC_HENC_SCRATCH_0 (0x1ac0) +#define P_HCODEC_HENC_SCRATCH_0 (volatile unsigned int *)((0x1ac0 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_1 (0x1ac1) +#define P_HCODEC_HENC_SCRATCH_1 (volatile unsigned int *)((0x1ac1 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_2 (0x1ac2) +#define P_HCODEC_HENC_SCRATCH_2 (volatile unsigned int *)((0x1ac2 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_3 (0x1ac3) +#define P_HCODEC_HENC_SCRATCH_3 (volatile unsigned int *)((0x1ac3 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_4 (0x1ac4) +#define P_HCODEC_HENC_SCRATCH_4 (volatile unsigned int *)((0x1ac4 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_5 (0x1ac5) +#define P_HCODEC_HENC_SCRATCH_5 (volatile unsigned int *)((0x1ac5 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_6 (0x1ac6) +#define P_HCODEC_HENC_SCRATCH_6 (volatile unsigned int *)((0x1ac6 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_7 (0x1ac7) +#define P_HCODEC_HENC_SCRATCH_7 (volatile unsigned int *)((0x1ac7 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_8 (0x1ac8) +#define P_HCODEC_HENC_SCRATCH_8 (volatile unsigned int *)((0x1ac8 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_9 (0x1ac9) +#define P_HCODEC_HENC_SCRATCH_9 (volatile unsigned int *)((0x1ac9 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_A (0x1aca) +#define P_HCODEC_HENC_SCRATCH_A (volatile unsigned int *)((0x1aca << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_B (0x1acb) +#define P_HCODEC_HENC_SCRATCH_B (volatile unsigned int *)((0x1acb << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_C (0x1acc) +#define P_HCODEC_HENC_SCRATCH_C (volatile unsigned int *)((0x1acc << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_D (0x1acd) +#define P_HCODEC_HENC_SCRATCH_D (volatile unsigned int *)((0x1acd << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_E (0x1ace) +#define P_HCODEC_HENC_SCRATCH_E (volatile unsigned int *)((0x1ace << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_F (0x1acf) +#define P_HCODEC_HENC_SCRATCH_F (volatile unsigned int *)((0x1acf << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_G (0x1ad0) +#define P_HCODEC_HENC_SCRATCH_G (volatile unsigned int *)((0x1ad0 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_H (0x1ad1) +#define P_HCODEC_HENC_SCRATCH_H (volatile unsigned int *)((0x1ad1 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_I (0x1ad2) +#define P_HCODEC_HENC_SCRATCH_I (volatile unsigned int *)((0x1ad2 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_J (0x1ad3) +#define P_HCODEC_HENC_SCRATCH_J (volatile unsigned int *)((0x1ad3 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_K (0x1ad4) +#define P_HCODEC_HENC_SCRATCH_K (volatile unsigned int *)((0x1ad4 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_L (0x1ad5) +#define P_HCODEC_HENC_SCRATCH_L (volatile unsigned int *)((0x1ad5 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_M (0x1ad6) +#define P_HCODEC_HENC_SCRATCH_M (volatile unsigned int *)((0x1ad6 << 2) + 0xff620000) +#define HCODEC_HENC_SCRATCH_N (0x1ad7) +#define P_HCODEC_HENC_SCRATCH_N (volatile unsigned int *)((0x1ad7 << 2) + 0xff620000) +// bit [7:0] data_feed_buff_id +#define HCODEC_IE_DATA_FEED_BUFF_INFO (0x1ad8) +#define P_HCODEC_IE_DATA_FEED_BUFF_INFO (volatile unsigned int *)((0x1ad8 << 2) + 0xff620000) +// +// Closing file: henc_regs.h +// +// +// Reading file: vlc_regs.h +// +//======================================================================== +// VLC module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_VLC_CBUS_BASE = 0x0d +// ----------------------------------------------- +// Bit[31:28] - henc_status +// Bit[27:8] - reserved +// Bit[7] mc_hcmd_buff_enable +// Bit[6] mc_hcmd_use_mc_hcmd_buff +// Bit[5] mc_hcmd_use_mc_hcmd_hw_start +// Bit[4] no_mc_out_null_non_skipped_mb +// Bit[3] mc_out_even_skipped_mb +// Bit[2] - hcmd_enable +// Bit[1] - vlc_control_enable (0 will treat as soft_reset) +// Bit[0] - vlc_input_enable (enable input interface) +#define HCODEC_VLC_STATUS_CTRL (0x1d00) +#define P_HCODEC_VLC_STATUS_CTRL (volatile unsigned int *)((0x1d00 << 2) + 0xff620000) +// Bit [31] - small_luma_ignore_chroma +// Bit[30:16] - Reserved +// Bit [15] - enable_free_clk_mc_hcmd_buff +// Bit [14] - enable_free_clk_reg +// Bit [13] - enable_free_clk_stream +// Bit [12] - enable_free_clk_pre_buff +// Bit [11] - enable_free_clk_vb_buff +// Bit [10] - enable_free_clk_dc_input +// Bit [9] - enable_free_clk_input +// Bit [8] - enable_free_clk_mv_cal +// Bit [7] - enable_free_clk_status +// Bit [6] - enable_free_clk_mc_dblk_cmd_if +// Bit [5] - disable_mvd_enc_finished +// Bit [4] - I16MB_share_ipred_mode_with_I4MB +// Bit [3] - fixed_picture_qp +// Bit [2] - use_set_b8_mode ( not used now) +// Bit [1] - use_set_mb_skip_run +// Bit [0] - pop_coeff_even_all_zero +#define HCODEC_VLC_CONFIG (0x1d01) +#define P_HCODEC_VLC_CONFIG (volatile unsigned int *)((0x1d01 << 2) + 0xff620000) +// -------------------------------------------- +// Bitstream DDR Interface +// -------------------------------------------- +#define HCODEC_VLC_VB_START_PTR (0x1d10) +#define P_HCODEC_VLC_VB_START_PTR (volatile unsigned int *)((0x1d10 << 2) + 0xff620000) +#define HCODEC_VLC_VB_END_PTR (0x1d11) +#define P_HCODEC_VLC_VB_END_PTR (volatile unsigned int *)((0x1d11 << 2) + 0xff620000) +#define HCODEC_VLC_VB_WR_PTR (0x1d12) +#define P_HCODEC_VLC_VB_WR_PTR (volatile unsigned int *)((0x1d12 << 2) + 0xff620000) +// Read Only, VLC_VB_SW_RD_PTR or VLC_VB_HW_RD_PTR +#define HCODEC_VLC_VB_RD_PTR (0x1d13) +#define P_HCODEC_VLC_VB_RD_PTR (volatile unsigned int *)((0x1d13 << 2) + 0xff620000) +#define HCODEC_VLC_VB_SW_RD_PTR (0x1d14) +#define P_HCODEC_VLC_VB_SW_RD_PTR (volatile unsigned int *)((0x1d14 << 2) + 0xff620000) +// Read Only +#define HCODEC_VLC_VB_LEFT (0x1d15) +#define P_HCODEC_VLC_VB_LEFT (volatile unsigned int *)((0x1d15 << 2) + 0xff620000) +// VB FIFO Control +// bit [31:24] vb_full_int_enable_cpu[7:0] +// bit [23:16] vb_full_int_enable_amrisc[7:0] +// -bit 23 Video BUFFER LEFT < 0x400 Bytes +// -bit 22 Video BUFFER LEFT < 0x200 Bytes +// -bit 21 Video BUFFER LEFT < 0x100 Bytes +// -bit 20 Video BUFFER LEFT < 0x80 Bytes +// -bit 19 Video BUFFER LEFT < 0x40 Bytes +// -bit 18 Video BUFFER LEFT < 0x20 Bytes +// -bit 17 vbfifo left < 16 double words (8x64bits) +// -bit 16 vbfifo left < 8 double words (4x64bits) +// bit [15] wr_ptr_int_enable_cpu +// bit [14] wr_ptr_int_enable_amrisc +// bit [13] wr_ptr_int (Read Only, write 1 will clear) +// bit [12] vb_full_int_enable_cpu(Read Only) +// bit [11] vb_full_int_enable_amrisc(Read Only) +// bit [10] reserved +// bit [9] use_vb_hw_rd_ptr +// bit [8] vb_always_ready Set to 1 to ignore vb_level blocking DDR write +// bit [7] vb_ready_for_transfer (Read Only) +// bit [6] data_ready_for_transfer (Read Only) +// bits [5:3] vb_endian Set VB Endian inside DDR memory +// bit [2] vb_write_busy Read Only - indicate DDR write busy +// bit [1] vb_write_en Set to 1 to enable writing data to DDR memory +// bit [0] vb_soft_reset Soft reset +#define HCODEC_VLC_VB_CONTROL (0x1d16) +#define P_HCODEC_VLC_VB_CONTROL (volatile unsigned int *)((0x1d16 << 2) + 0xff620000) +// bit 31 transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request // default : 0 +// bit 30 A_urgent // default : 0 +// bit 29:24 A_brst_num // default : 0x3f +// bit 23:22 reserved +// bit 21:16 A_id // default : 0x20 +// bit 15:0 vb_left_hold // default : 0 +#define HCODEC_VLC_VB_MEM_CTL (0x1d17) +#define P_HCODEC_VLC_VB_MEM_CTL (volatile unsigned int *)((0x1d17 << 2) + 0xff620000) +// vb_wr_ptr address to generate interrupt +#define HCODEC_VLC_VB_INT_PTR (0x1d18) +#define P_HCODEC_VLC_VB_INT_PTR (volatile unsigned int *)((0x1d18 << 2) + 0xff620000) +// bit[31:12] reserved +// bit[11:0] vlc_wrrsp_count +#define HCODEC_VLC_WRRSP (0x1d19) +#define P_HCODEC_VLC_WRRSP (volatile unsigned int *)((0x1d19 << 2) + 0xff620000) +#define HCODEC_VLC_TOTAL_BYTES (0x1d1a) +#define P_HCODEC_VLC_TOTAL_BYTES (volatile unsigned int *)((0x1d1a << 2) + 0xff620000) +// bit [31:26] reserved +// bit [25] vb_flush +// bit [24] vb_reg_ready +// bit [23:16] vb_buff_left -- Read only +// bit [15:8] vb_buff_wr_point -- RW +// bit [7:0] vb_buff_rd_point -- RW +#define HCODEC_VLC_VB_BUFF (0x1d1b) +#define P_HCODEC_VLC_VB_BUFF (volatile unsigned int *)((0x1d1b << 2) + 0xff620000) +// bit[31] flush_vlc_pre_buff +// bit[30:27] reserved +// bit[26:24] vb_pre_buff_level +// bit[23:0] vb_pre_buff_data[55:32] +#define HCODEC_VLC_VB_PRE_BUFF_HI (0x1d1c) +#define P_HCODEC_VLC_VB_PRE_BUFF_HI (volatile unsigned int *)((0x1d1c << 2) + 0xff620000) +// bit[31:0] vb_pre_buff_data[31:0] +#define HCODEC_VLC_VB_PRE_BUFF_LOW (0x1d1d) +#define P_HCODEC_VLC_VB_PRE_BUFF_LOW (volatile unsigned int *)((0x1d1d << 2) + 0xff620000) +// bit[31] stream_encap_enable // 0x0000(00-03) will be changed to 0x000003(00-03) if enabled +// bit[30:29] stream_encap_delay // delay bytes for encap used +// bit[28:24] stream_buff_point +// bit[23:0] stream_buff_data +#define HCODEC_VLC_STREAM_BUFF (0x1d1e) +#define P_HCODEC_VLC_STREAM_BUFF (volatile unsigned int *)((0x1d1e << 2) + 0xff620000) +// bit[31] push_stream_block - Read Only (Will set if vb_buff full) +// bit[30] push_stream_busy - Read Only (busy when output one byte from stream_buf (max 2 clocks for 8 bits push) +// bit[29:28] stream_encap_status - Read Only +// bit[27:21] reserved +// Long Mode : (Amrisc need movilo and mvihi high to set stream_info) +// bit[20:16] push_stream_long_length (0 or 31 : Mid or Short mode) +// bit[15:0] push_stream_data +// Mid Mode : (Amrisc need movi to set stream_info) +// bit[15:12]] push_stream_mid_length (1-12 : mid mode active, 0-short mode, 15 - byte align) +// bit[11:0] push_stream_data +// Short Mode : (Amrisc can use mtspi to push stream directely) +// bit[7:5] push_stream_short_length (0-5 : short length, else - invalid) +// bit[4:0] push_stream_data +#define HCODEC_VLC_PUSH_STREAM (0x1d1f) +#define P_HCODEC_VLC_PUSH_STREAM (volatile unsigned int *)((0x1d1f << 2) + 0xff620000) +// bit[15:8] ELEMENT_LENGTH +// bit[7:1] reserved +// bit[0] Write - push start, Read - Push Busy +#define HCODEC_VLC_PUSH_ELEMENT (0x1d20) +#define P_HCODEC_VLC_PUSH_ELEMENT (volatile unsigned int *)((0x1d20 << 2) + 0xff620000) +#define HCODEC_VLC_ELEMENT_DATA (0x1d21) +#define P_HCODEC_VLC_ELEMENT_DATA (volatile unsigned int *)((0x1d21 << 2) + 0xff620000) +// bit[7] hcmd_intra_use_sw_info +// bit[6] hcmd_use_sw_info +// bit[5] always_use_info_0_cbp_blk +// bit[4] always_update_info_0_cbp_blk +// bit[3] reset_left_mb_wr +// bit[2] reset_top_mb_wr +// bit[1] set_left_mb_wr +// bit[0] set_top_mb_wr +#define HCODEC_VLC_SPECIAL_CTL (0x1d22) +#define P_HCODEC_VLC_SPECIAL_CTL (volatile unsigned int *)((0x1d22 << 2) + 0xff620000) +// bit[28] left_intra +// bit[27:22] left_quant +// bit[21:16] left_quant_c +// bit[12] top_intra +// bit[11:6] top_quant +// bit[5:0] top_quant_c +#define HCODEC_VLC_HCMD_T_L_INFO (0x1d23) +#define P_HCODEC_VLC_HCMD_T_L_INFO (volatile unsigned int *)((0x1d23 << 2) + 0xff620000) +// bit[12] cur_intra +// bit[11:6] cur_quant +// bit[5:0] cur_quant_c +#define HCODEC_VLC_HCMD_CUR_INFO (0x1d24) +#define P_HCODEC_VLC_HCMD_CUR_INFO (volatile unsigned int *)((0x1d24 << 2) + 0xff620000) +// bit[13] top_left_info_in_data_mv_cal +// bit[12] only_use_info_0_top_left_in_I +// bit[11] top_left_info_in_data +// bit[10] early_mix_mc_hcmd +// bit[9] update_top_left_mix +// bit[8] p_top_left_mix +// bit[7] mv_cal_mixed_type +// bit[6] mc_hcmd_mixed_type +// bit[5] use_seperate_int_control +// bit[4] hcmd_intra_use_q_info +// bit[3] hcmd_left_use_prev_info +// bit[2] hcmd_use_q_info +// bit[1] use_q_delta_quant +// bit[0] detect_I16_from_I4 +#define HCODEC_VLC_ADV_CONFIG (0x1d25) +#define P_HCODEC_VLC_ADV_CONFIG (volatile unsigned int *)((0x1d25 << 2) + 0xff620000) +// 31 - use_hcmd_mb_xy_auto +//23:16 - hcmd_max_mb_x +//15:8 - hcmd_mb_y_auto +// 7:0 - hcmd_mb_x_auto +#define HCODEC_VLC_HCMD_MBXY_AUTO (0x1d26) +#define P_HCODEC_VLC_HCMD_MBXY_AUTO (volatile unsigned int *)((0x1d26 << 2) + 0xff620000) +// bit[31:0] vlc_int_control_inter -- will be used when use_seperate_int_control is set +#define HCODEC_VLC_INT_CONTROL_INTER (0x1d2f) +#define P_HCODEC_VLC_INT_CONTROL_INTER (volatile unsigned int *)((0x1d2f << 2) + 0xff620000) +// -------------------------------------------- +// Picture VLC +// -------------------------------------------- +// (&(int|(~AND_enable))|(|(int&OR_enable))) +// bit[31] OR interrupt Enable Reserved +// bit[30] OR interrupt Enable for mv_busy +// bit[29] OR interrupt Enable for b8_mode_busy +// bit[28] OR interrupt Enable for mb_skip_run_busy +// bit[27] OR interrupt Enable for cbp_busy +// bit[26] OR interrupt Enable for Reserved +// bit[25] OR interrupt Enable for Reserved +// bit[24] OR interrupt Enable for mb_info_busy +// bit[23] AND interrupt Enable Reserved +// bit[22] AND interrupt Enable for mv_busy +// bit[21] AND interrupt Enable for b8_mode_busy +// bit[20] AND interrupt Enable for mb_skip_run_busy +// bit[19] AND interrupt Enable for cbp_busy +// bit[18] AND interrupt Enable for Reserved +// bit[17] AND interrupt Enable for Reserved +// bit[16] AND interrupt Enable for mb_info_busy +// bit[15] OR interrupt Enable Reserved +// bit[14] OR interrupt Enable for mvd +// bit[13] OR interrupt Enable for b8_mode +// bit[12] OR interrupt Enable for mb_skip_run +// bit[11] OR interrupt Enable for cbp_ready +// bit[10] OR interrupt Enable for c_ipred_mode_ready +// bit[9] OR interrupt Enable for ipred_mode_ready +// bit[8] OR interrupt Enable for mb_info_ready +// bit[7] AND interrupt Enable Reserved +// bit[6] AND interrupt Enable for mvd +// bit[5] AND interrupt Enable for b8_mode +// bit[4] AND interrupt Enable for mb_skip_run +// bit[3] AND interrupt Enable for cbp_ready +// bit[2] AND interrupt Enable for c_ipred_mode_ready +// bit[1] AND interrupt Enable for ipred_mode_ready +// bit[0] AND interrupt Enable for mb_info_ready +#define HCODEC_VLC_INT_CONTROL (0x1d30) +#define P_HCODEC_VLC_INT_CONTROL (volatile unsigned int *)((0x1d30 << 2) + 0xff620000) +// Bit[31:16] picture_height +// Bit[15:0] picture_width +#define HCODEC_VLC_PIC_SIZE (0x1d31) +#define P_HCODEC_VLC_PIC_SIZE (volatile unsigned int *)((0x1d31 << 2) + 0xff620000) +// [31:16] Reserved +// [15:3] pic_width_in_mbs_minus1 +// [2:0] picture_type +#define HCODEC_VLC_PIC_INFO (0x1d32) +#define P_HCODEC_VLC_PIC_INFO (volatile unsigned int *)((0x1d32 << 2) + 0xff620000) +// Bit[31:16] MB_NR +// Bit[15:8] MBY +// Bit[7:0] MBX +#define HCODEC_VLC_PIC_POSITION (0x1d33) +#define P_HCODEC_VLC_PIC_POSITION (volatile unsigned int *)((0x1d33 << 2) + 0xff620000) +// Bit[31] MV_busy +// Bit[30:6] Reserved +// Bit[15] Reserved +// Bit[14] vlc_input_MV_busy +// Bit[13] vlc_input_b8_mode_busy +// Bit[12] vlc_input_mb_skip_run_busy +// Bit[11] vlc_input_cbp_busy +// Bit[10] Reserved +// Bit[9] Reserved +// Bit[8] vlc_input_mb_info_busy +// Bit[7] Reserved +// Bit[6] mvd +// Bit[5] b8_mode +// Bit[4] mb_skip_run +// Bit[3] cbp +// Bit[2] c_ipred_mode +// Bit[1] ipred_mode +// Bit[0] mb_info ( mb_type, mb_x, mb_y) +#define HCODEC_VLC_INPUT_STATUS (0x1d34) +#define P_HCODEC_VLC_INPUT_STATUS (volatile unsigned int *)((0x1d34 << 2) + 0xff620000) +// Bit[31:28] detected_mb_type +// Bit[27:16] mb_y +// Bit[15:4] mb_x +// Bit[3:0] mb_type +#define HCODEC_VLC_MB_INFO (0x1d35) +#define P_HCODEC_VLC_MB_INFO (volatile unsigned int *)((0x1d35 << 2) + 0xff620000) +// commnad 0 -- no pending +// normal command + 1 is pending command +// +// bit 31:28 -- pending command 7 +// bit 27:24 -- pending command 6 +// bit 23:20 -- pending command 5 +// bit 19:16 -- pending command 4 +// bit 15:12 -- pending command 3 +// bit 11:8 -- pending command 2 +// bit 7:4 -- pending command 1 +// bit 3:0 -- pending command 0 +#define HCODEC_VLC_ENC_PEND_CMD (0x1d36) +#define P_HCODEC_VLC_ENC_PEND_CMD (volatile unsigned int *)((0x1d36 << 2) + 0xff620000) +// For I Slice +// Bit[31:16] Reserved +// Bit[15:0] IntraType +#define HCODEC_HENC_TOP_INFO_0 (0x1d37) +#define P_HCODEC_HENC_TOP_INFO_0 (volatile unsigned int *)((0x1d37 << 2) + 0xff620000) +#define HCODEC_HENC_LEFT_INFO_0 (0x1d38) +#define P_HCODEC_HENC_LEFT_INFO_0 (volatile unsigned int *)((0x1d38 << 2) + 0xff620000) +// For I Slice +// Bit[31:24] V_nnz +// Bit[23:16] U_nnz +// Bit[15:0] Y_nnz +#define HCODEC_HENC_TOP_INFO_1 (0x1d39) +#define P_HCODEC_HENC_TOP_INFO_1 (volatile unsigned int *)((0x1d39 << 2) + 0xff620000) +#define HCODEC_HENC_LEFT_INFO_1 (0x1d3a) +#define P_HCODEC_HENC_LEFT_INFO_1 (volatile unsigned int *)((0x1d3a << 2) + 0xff620000) +// bit[63:0] ipred_mode +#define HCODEC_VLC_IPRED_MODE_HI (0x1d3b) +#define P_HCODEC_VLC_IPRED_MODE_HI (volatile unsigned int *)((0x1d3b << 2) + 0xff620000) +#define HCODEC_VLC_IPRED_MODE_LO (0x1d3c) +#define P_HCODEC_VLC_IPRED_MODE_LO (volatile unsigned int *)((0x1d3c << 2) + 0xff620000) +// bit[15:8] SE delta quant +// bit[7:0] UE delta quant +#define HCODEC_VLC_DELTA_QP (0x1d3d) +#define P_HCODEC_VLC_DELTA_QP (volatile unsigned int *)((0x1d3d << 2) + 0xff620000) +// bit[31:16] Reserved +// bit[15:12] Reserved +// bit[11:8] c_ipred_mode +// bit[7:0] cbp +#define HCODEC_VLC_MB_HEADER_INFO (0x1d3e) +#define P_HCODEC_VLC_MB_HEADER_INFO (volatile unsigned int *)((0x1d3e << 2) + 0xff620000) +// bit[31:16] mb_skip_run +// bit[15:0] b8_mode +#define HCODEC_VLC_P_MB_HEADER_INFO (0x1d3f) +#define P_HCODEC_VLC_P_MB_HEADER_INFO (volatile unsigned int *)((0x1d3f << 2) + 0xff620000) +// bit[31] write_ptr_update +// bit[30] read_ptr_update +// bit[29:20] coeff_buf_level +// bit[19:10] coeff_buf_write_ptr +// bit[9:0] coeff_buf_read_ptr +#define HCODEC_VLC_COEFF_BUF_STATUS (0x1d40) +#define P_HCODEC_VLC_COEFF_BUF_STATUS (volatile unsigned int *)((0x1d40 << 2) + 0xff620000) +// bit[31:10] Reserved +// bit[9:0] read_req_addr +#define HCODEC_VLC_COEFF_RD_REQ (0x1d41) +#define P_HCODEC_VLC_COEFF_RD_REQ (volatile unsigned int *)((0x1d41 << 2) + 0xff620000) +// bit[20] - coeff_buf_read_finished +// bit[19] - coeff_first +// bit[18:4] - coeff_level +// bit[3:0] - coeff_run +#define HCODEC_VLC_COEFF (0x1d42) +#define P_HCODEC_VLC_COEFF (volatile unsigned int *)((0x1d42 << 2) + 0xff620000) +// bit[31] - coeff_info_ready +// bit[30:25] - Reserved +// bit[24:15] - block_begin_addr +// bit[14:11] - trailing_one_sign +// bit[10:6] - total_coeff +// bit[5:4] - trailing_ones +// bit[3:0] - total_zeros +#define HCODEC_VLC_COEFF_INFO (0x1d43) +#define P_HCODEC_VLC_COEFF_INFO (volatile unsigned int *)((0x1d43 << 2) + 0xff620000) +// bit[31] write_ptr_update +// bit[30] read_ptr_update +// bit[29:25] Reserved +// bit[24:20] dc_buf_level -- 0-16 +// bit[19:15] Reserved +// bit[14:10] dc_buf_write_ptr +// bit[9:5] Reserved +// bit[4:0] dc_buf_read_ptr +#define HCODEC_VLC_DC_BUF_STATUS (0x1d44) +#define P_HCODEC_VLC_DC_BUF_STATUS (volatile unsigned int *)((0x1d44 << 2) + 0xff620000) +// bit[31:10] Reserved +// bit[9:4] Reserved +// bit[3:0] read_req_addr +#define HCODEC_VLC_DC_RD_REQ (0x1d45) +#define P_HCODEC_VLC_DC_RD_REQ (volatile unsigned int *)((0x1d45 << 2) + 0xff620000) +// bit[31:17] - Reserved +// bit[16] - dc_first +// bit[15:1] - dc_level +// bit[0] - dc_type 0 - CDC, 1 - LDC +#define HCODEC_VLC_DC (0x1d46) +#define P_HCODEC_VLC_DC (volatile unsigned int *)((0x1d46 << 2) + 0xff620000) +// bit[31] - dc_info_ready +// bit[30:25] - Reserved +// bit[24:20] - Reserved +// bit[19:15] - dc_idx_begin_addr +// bit[14:11] - dc_trailing_one_sign +// bit[10:6] - dc_total_coeff +// bit[5:4] - dc_trailing_ones +// bit[3:0] - dc_total_zeros +#define HCODEC_VLC_DC_INFO (0x1d47) +#define P_HCODEC_VLC_DC_INFO (volatile unsigned int *)((0x1d47 << 2) + 0xff620000) +// bit[31:4] - Reserved +// bit[3:0] - mv_rw_idx (auto increment when read/write VLC_MV) +#define HCODEC_VLC_MV_INDEX (0x1d48) +#define P_HCODEC_VLC_MV_INDEX (volatile unsigned int *)((0x1d48 << 2) + 0xff620000) +// bit[31:16] - MVY +// bit[15:0] - MVX +#define HCODEC_VLC_MV (0x1d49) +#define P_HCODEC_VLC_MV (volatile unsigned int *)((0x1d49 << 2) + 0xff620000) +// bit[31:16] - MVY +// bitp15:0] - MVX +// Write to HENC_TOP_MV_0 will cause previous U->UL, UR->U, and UR write +// Read will read U MV only +#define HCODEC_HENC_TOP_MV_0 (0x1d4a) +#define P_HCODEC_HENC_TOP_MV_0 (volatile unsigned int *)((0x1d4a << 2) + 0xff620000) +#define HCODEC_HENC_TOP_MV_1 (0x1d4b) +#define P_HCODEC_HENC_TOP_MV_1 (volatile unsigned int *)((0x1d4b << 2) + 0xff620000) +#define HCODEC_HENC_TOP_MV_2 (0x1d4c) +#define P_HCODEC_HENC_TOP_MV_2 (volatile unsigned int *)((0x1d4c << 2) + 0xff620000) +#define HCODEC_HENC_TOP_MV_3 (0x1d4d) +#define P_HCODEC_HENC_TOP_MV_3 (volatile unsigned int *)((0x1d4d << 2) + 0xff620000) +#define HCODEC_HENC_LEFT_MV_0 (0x1d4e) +#define P_HCODEC_HENC_LEFT_MV_0 (volatile unsigned int *)((0x1d4e << 2) + 0xff620000) +#define HCODEC_HENC_LEFT_MV_1 (0x1d4f) +#define P_HCODEC_HENC_LEFT_MV_1 (volatile unsigned int *)((0x1d4f << 2) + 0xff620000) +#define HCODEC_HENC_LEFT_MV_2 (0x1d50) +#define P_HCODEC_HENC_LEFT_MV_2 (volatile unsigned int *)((0x1d50 << 2) + 0xff620000) +#define HCODEC_HENC_LEFT_MV_3 (0x1d51) +#define P_HCODEC_HENC_LEFT_MV_3 (volatile unsigned int *)((0x1d51 << 2) + 0xff620000) +// Bit[31:1] Reserved +// Bit[0] top_left_mv_ready +#define HCODEC_TOP_LEFT_READY (0x1d52) +#define P_HCODEC_TOP_LEFT_READY (volatile unsigned int *)((0x1d52 << 2) + 0xff620000) +// Bit[31:16] Reserved +// Bit[15:0] mb_skip_run +#define HCODEC_MB_SKIP_RUN (0x1d53) +#define P_HCODEC_MB_SKIP_RUN (volatile unsigned int *)((0x1d53 << 2) + 0xff620000) +// Bit[31:16] Reserved +// Bit[15] Reserved +// Bit[14:13] rd_struct // 00 - frame, 10 - top field, 11 - bottom field +// Bit[12:11] wr_struct // 00 - frame, 10 - top field, 11 - bottom field +// Bit[10:5] mv_buff_id +// Bit[4:0] mv_ref +#define HCODEC_VLC_HCMD_CONFIG (0x1d54) +#define P_HCODEC_VLC_HCMD_CONFIG (volatile unsigned int *)((0x1d54 << 2) + 0xff620000) +// Bit[9:0] h264_dblk_info +#define HCODEC_VLC_HCMD_DBLK_INFO (0x1d55) +#define P_HCODEC_VLC_HCMD_DBLK_INFO (volatile unsigned int *)((0x1d55 << 2) + 0xff620000) +// Bit[3:0] vlc_dbg_idx +#define HCODEC_VLC_DBG_IDX (0x1d56) +#define P_HCODEC_VLC_DBG_IDX (volatile unsigned int *)((0x1d56 << 2) + 0xff620000) +// Read Only +#define HCODEC_VLC_DBG_READ (0x1d57) +#define P_HCODEC_VLC_DBG_READ (volatile unsigned int *)((0x1d57 << 2) + 0xff620000) +// [ 29] RW jpeg_comp2_ac_table_sel. Default 0. +// [ 28] RW jpeg_comp2_dc_table_sel. Default 0. +// [26:25] RW jpeg_comp2_cnt_max. Default 0. +// [ 24] RW jpeg_comp2_en. Set 1 if the scan will include component 2 (Cr). Default 0. +// [ 21] RW jpeg_comp1_ac_table_sel. Default 0. +// [ 20] RW jpeg_comp1_dc_table_sel. Default 0. +// [18:17] RW jpeg_comp1_cnt_max. Default 0. +// [ 16] RW jpeg_comp1_en. Set 1 if the scan will include component 1 (Cb). Default 0. +// [ 13] RW jpeg_comp0_ac_table_sel. Default 0. +// [ 12] RW jpeg_comp0_dc_table_sel. Default 0. +// [10: 9] RW jpeg_comp0_cnt_max. Default 0. +// [ 8] RW jpeg_comp0_en. Set 1 if the scan will include component 0 (Y). Default 0. +// [ 1] W jpeg_coeff_init. Write 1 to this bit to initialize JPEG run length encoder. +// [ 0] RW jpeg_en. 0=Disable JPEG encoder; 1=Enable JPEG encoder. Default 0. +#define HCODEC_VLC_JPEG_CTRL (0x1d58) +#define P_HCODEC_VLC_JPEG_CTRL (volatile unsigned int *)((0x1d58 << 2) + 0xff620000) +// [ 13] RW jpeg_coeff_buf_overfl. Write this bit to 1 to clear overfl. +// [ 12] RW jpeg_coeff_buf_undrfl. Write this bit to 1 to clear undrfl. +// [ 11] R jpeg_coeff_buf_full. +// [ 10] R jpeg_coeff_buf_empty. +// [ 8: 0] R jpeg_coeff_buf_level. +#define HCODEC_VLC_JPEG_COEFF_BUF_STAT (0x1d59) +#define P_HCODEC_VLC_JPEG_COEFF_BUF_STAT (volatile unsigned int *)((0x1d59 << 2) + 0xff620000) +// [ 16] RW JPEG HUFFMAN table access mode. 0=Write; 1=Read. Default 1. +// [ 8: 0] RW JPEG HUFFMAN table addr. Default 0. +#define HCODEC_VLC_HUFFMAN_ADDR (0x1d5a) +#define P_HCODEC_VLC_HUFFMAN_ADDR (volatile unsigned int *)((0x1d5a << 2) + 0xff620000) +// [19: 0] RW JPEG HUFFMAN table data. +#define HCODEC_VLC_HUFFMAN_DATA (0x1d5b) +#define P_HCODEC_VLC_HUFFMAN_DATA (volatile unsigned int *)((0x1d5b << 2) + 0xff620000) +// bit[31:0] enc_mv_bits - including b8_mode and mvd +#define HCODEC_VLC_ENC_MV_BITS (0x1d5c) +#define P_HCODEC_VLC_ENC_MV_BITS (volatile unsigned int *)((0x1d5c << 2) + 0xff620000) +// bit[31:0] enc_coeff_bits - including cbp, token, trailing_sign, coeff_enc, h264_totzeros, h264_run +#define HCODEC_VLC_ENC_COEFF_BITS (0x1d5d) +#define P_HCODEC_VLC_ENC_COEFF_BITS (volatile unsigned int *)((0x1d5d << 2) + 0xff620000) +// +// Closing file: vlc_regs.h +// +// +// Reading file: qdct_regs.h +// +//======================================================================== +// QDCT module level register offset +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DOS_HCODEC_QDCT_CBUS_BASE = 0x0f +// ----------------------------------------------- +// bit[31:28] - mb_info_state +#define HCODEC_QDCT_STATUS_CTRL (0x1f00) +#define P_HCODEC_QDCT_STATUS_CTRL (volatile unsigned int *)((0x1f00 << 2) + 0xff620000) +// bit[18] - enable_free_clk_sad_top +// bit[17] - enable_free_clk_ie_top +// bit[16] - enable_free_clk_ie_sub +// bit[15] - enable_free_clk_mc_out +// bit[14] - enable_free_clk_i_pred_top +// bit[13] - enable_free_clk_idct_top +// bit[12] - enable_free_clk_iq_top +// bit[11] - enable_free_clk_q_top +// bit[10] - enable_free_clk_dc_buff_8 +// bit[9] - enable_free_clk_dct_top +// bit[8] - enable_free_clk_mb_info +// bit[7] - enable_free_clk_mb_buff +// bit[6] - enable_free_clk_reg +// bit[5] - ignore_1_include_2nd_half_c +// bit[4] - ignore_1_include_2nd_half +// bit[3] - ignore_t_p8x8 +// bit[2] - not_ignore_dc +// bit[1] - ignore_small_lac_intra +// bit[0] - disable_fast_zero_block +#define HCODEC_QDCT_CONFIG (0x1f01) +#define P_HCODEC_QDCT_CONFIG (volatile unsigned int *)((0x1f01 << 2) + 0xff620000) +// bit[31] - ignore_lac_coeff_en +// bit[30:26] - ignore_lac_coeff_else +// bit[25:21] - ignore_lac_coeff_2 +// bit[20:16] - ignore_lac_coeff_1 +// bit[15] - ignore_cac_coeff_en +// bit[14:10] - ignore_cac_coeff_else +// bit[9:5] - ignore_cac_coeff_2 +// bit[4:0] - ignore_cac_coeff_1 +#define HCODEC_IGNORE_CONFIG (0x1f02) +#define P_HCODEC_IGNORE_CONFIG (volatile unsigned int *)((0x1f02 << 2) + 0xff620000) +// bit[31] - ignore_t_lac_coeff_en +// bit[30:26] - ignore_t_lac_coeff_else +// bit[25:21] - ignore_t_lac_coeff_2 +// bit[20:16] - ignore_t_lac_coeff_1 +// bit[15] - ignore_cdc_coeff_en +// bit[14] - ignore_t_lac_coeff_else_le_3 +// bit[13] - ignore_t_lac_coeff_else_le_4 +// bit[12] - ignore_cdc_only_when_empty_cac_inter +// bit[11] - ignore_cdc_only_when_one_empty_inter +// bit[10:9] - ignore_cdc_range_max_inter // 0-0, 1-1, 2,-2, 3-3 +// bit[8:7] - ignore_cdc_abs_max_inter // 0-1, 1-2, 2,-3, 3-4 +// bit[6] - reserved +// bit[5] - ignore_cdc_only_when_empty_cac_intra +// bit[4] - ignore_cdc_only_when_one_empty_intra +// bit[3:2] - ignore_cdc_range_max_intra // 0-0, 1-1, 2,-2, 3-3 +// bit[1:0] - ignore_cdc_abs_max_intra // 0-1, 1-2, 2,-3, 3-4 +#define HCODEC_IGNORE_CONFIG_2 (0x1f03) +#define P_HCODEC_IGNORE_CONFIG_2 (volatile unsigned int *)((0x1f03 << 2) + 0xff620000) +// -------------------------------------------- +// MB DATA DDR Interface +// -------------------------------------------- +#define HCODEC_QDCT_MB_START_PTR (0x1f10) +#define P_HCODEC_QDCT_MB_START_PTR (volatile unsigned int *)((0x1f10 << 2) + 0xff620000) +#define HCODEC_QDCT_MB_END_PTR (0x1f11) +#define P_HCODEC_QDCT_MB_END_PTR (volatile unsigned int *)((0x1f11 << 2) + 0xff620000) +#define HCODEC_QDCT_MB_WR_PTR (0x1f12) +#define P_HCODEC_QDCT_MB_WR_PTR (volatile unsigned int *)((0x1f12 << 2) + 0xff620000) +#define HCODEC_QDCT_MB_RD_PTR (0x1f13) +#define P_HCODEC_QDCT_MB_RD_PTR (volatile unsigned int *)((0x1f13 << 2) + 0xff620000) +#define HCODEC_QDCT_MB_LEVEL (0x1f14) +#define P_HCODEC_QDCT_MB_LEVEL (volatile unsigned int *)((0x1f14 << 2) + 0xff620000) +// bit [31] disable_mbxy_ie_save +// bit [30] no_wait_after_q_cdc +// bit [29] ie_start_int_enable +// bit [28] ignore_t_p8x8 +// bit [27] zero_mc_out_null_non_skipped_mb +// bit [26] no_mc_out_null_non_skipped_mb +// bit [25] mc_out_even_skipped_mb +// bit [24] mc_out_wait_cbp_ready +// bit [23] mc_out_wait_mb_type_ready +// bit [22] i_pred_int_enable +// bit [21] intra_sat8_enable +// bit [20] ie_sub_enable +// bit [19] i_pred_enable +// bit [18] iq_enable +// bit [17] idct_enable +// bit [16] no_zero_coeff_mb +// bit [15] add_zero_coeff_block +// bit [14] mb_pause_enable +// bit [13] q_enable +// bit [12] dct_enable +// bit [11] ignore_magic_word +// bit [10] mb_info_en +// bit [9] mb_info_soft_reset +// bit [8] mb_always_ready Set to 1 to ignore mb_level blocking DDR read +// bit [7] mb_ready_for_transfer (Read Only) +// bit [6] data_ready_for_transfer (Read Only) +// bits [5:3] mb_endian Set MB Endian inside DDR memory +// bit [2] mb_read_busy Read Only - indicate DDR read busy +// bit [1] mb_read_en Set to 1 to enable reading data from DDR memory +// bit [0] mb_soft_reset Soft reset +#define HCODEC_QDCT_MB_CONTROL (0x1f15) +#define P_HCODEC_QDCT_MB_CONTROL (volatile unsigned int *)((0x1f15 << 2) + 0xff620000) +// bit 31 transfer_length 0 - 32x64 Bits per request, 1 - 16x64 Bits per request // default : 0 +// bit 30 A_urgent // default : 0 +// bit 29:24 A_brst_num // default : 0x3f +// bit 23 reserved +// bit 22 read_till_zero +// bit 21:16 A_id // default : 0x21 +// bit 15:0 mb_level_hold // default : 0 +#define HCODEC_QDCT_MB_MEM_CTL (0x1f16) +#define P_HCODEC_QDCT_MB_MEM_CTL (volatile unsigned int *)((0x1f16 << 2) + 0xff620000) +// bit [31:24] reserved +// bit [23:16] vb_buff_level -- Read only +// bit [15:8] vb_buff_wr_point -- RW +// bit [7:0] vb_buff_rd_point -- RW +#define HCODEC_QDCT_MB_BUFF (0x1f17) +#define P_HCODEC_QDCT_MB_BUFF (volatile unsigned int *)((0x1f17 << 2) + 0xff620000) +// bit [31:0] mb infor data begin magic word - default : 0xa55aaa55 +#define HCODEC_QDCT_MB_MAGIC_WORD (0x1f18) +#define P_HCODEC_QDCT_MB_MAGIC_WORD (volatile unsigned int *)((0x1f18 << 2) + 0xff620000) +// Read Only Register +// bit[19] dct_ready_1 +// bit[18] dct_ready_0 +// bit[17] dct_rd_idx +// bit[16] dct_wr_idx +// bit[15] dct_srdy +// bit[14] dct_rrdy +// bit[13] Reserved +// bit[12:8] dct_block_number +// bit[7:4] dct_rw_addr +// bit[3:0] dct_status +#define HCODEC_QDCT_DCT_STATUS (0x1f19) +#define P_HCODEC_QDCT_DCT_STATUS (volatile unsigned int *)((0x1f19 << 2) + 0xff620000) +// bit[24:23] vlc_quant_count +// bit[22:16] vlc_delta_quant_data +// bit[15:10] vlc_quant_data +// bit[9:4] vlc_prev_quant_data +// bit[3:0] q_status +#define HCODEC_QDCT_Q_STATUS (0x1f1a) +#define P_HCODEC_QDCT_Q_STATUS (volatile unsigned int *)((0x1f1a << 2) + 0xff620000) +// bit[31:3] Reserved +// bit[2:0] picture_type +#define HCODEC_QDCT_PIC_INFO (0x1f1b) +#define P_HCODEC_QDCT_PIC_INFO (volatile unsigned int *)((0x1f1b << 2) + 0xff620000) +// bit[31:28] Reserved +// bit[27:22] I_pic_quant_c +// bit[21:16] I_pic_quant +// bit[15] reserved +// bit[14:12] quant_rem_c +// bit[11:8] quant_per_c +// bit[7] reserved +// bit[6:4] quant_rem +// bit[3:0] quant_per +#define HCODEC_QDCT_Q_QUANT_I (0x1f1c) +#define P_HCODEC_QDCT_Q_QUANT_I (volatile unsigned int *)((0x1f1c << 2) + 0xff620000) +// bit[31:28] Reserved +// bit[27:22] P_pic_quant_c +// bit[21:16] P_pic_quant +// bit[15] reserved +// bit[14:12] quant_rem_c +// bit[11:8] quant_per_c +// bit[7] reserved +// bit[6:4] quant_rem +// bit[3:0] quant_per +#define HCODEC_QDCT_Q_QUANT_P (0x1f1d) +#define P_HCODEC_QDCT_Q_QUANT_P (volatile unsigned int *)((0x1f1d << 2) + 0xff620000) +// bit[31] mb_info_pause +// bit[30:16] pause_mby +// bit[15:0] pause_mbx +#define HCODEC_QDCT_MB_PAUSE_CTL (0x1f1e) +#define P_HCODEC_QDCT_MB_PAUSE_CTL (volatile unsigned int *)((0x1f1e << 2) + 0xff620000) +// bit[31] top_control_ready_i_pred +// bit[30:28]top_dma_status +// bit[27] top_control_ready_ie +// bit[26:24]Reserved +// bit[23] ul_mb +// bit[22] right_mb +// bit[21] top_mb +// bit[20] left_mb +// bit[19:8] mb_x +// bit[7:6] i_pred_ref_idx_L +// bit[5:4] i_pred_ref_idx_UL +// bit[3:2] i_pred_ref_idx_U +// bit[1:0] i_pred_ref_idx_UR +#define HCODEC_QDCT_TOP_CONTROL (0x1f1f) +#define P_HCODEC_QDCT_TOP_CONTROL (volatile unsigned int *)((0x1f1f << 2) + 0xff620000) +// bit[31:0] top_base_addr - DDR Memory start address for save top Pixel +#define HCODEC_QDCT_TOP_BASE_MEM (0x1f20) +#define P_HCODEC_QDCT_TOP_BASE_MEM (volatile unsigned int *)((0x1f20 << 2) + 0xff620000) +// bit 15:13 Reserved +// bit 12 A_urgent // default : 0 +// bit 11:6 A_brst_num // default : 0x3f +// bit 5:0 A_id // default : 0x22 +#define HCODEC_QDCT_TOP_MEM_CTL (0x1f21) +#define P_HCODEC_QDCT_TOP_MEM_CTL (volatile unsigned int *)((0x1f21 << 2) + 0xff620000) +// bit [11:0] top_wrrsp_count +#define HCODEC_QDCT_TOP_WRRSP (0x1f22) +#define P_HCODEC_QDCT_TOP_WRRSP (volatile unsigned int *)((0x1f22 << 2) + 0xff620000) +// Bit[3:0] qdct_dbg_idx +#define HCODEC_QDCT_DBG_IDX (0x1f23) +#define P_HCODEC_QDCT_DBG_IDX (volatile unsigned int *)((0x1f23 << 2) + 0xff620000) +// Read Only +#define HCODEC_QDCT_DBG_READ (0x1f24) +#define P_HCODEC_QDCT_DBG_READ (volatile unsigned int *)((0x1f24 << 2) + 0xff620000) +// [19:18] RW jdct_inflow_ctrl. JPEG DCT input flow control. Default 0. +// 0=No halt; +// 1=DCT halts request at end of each 8x8 block; +// 2=DCT halts request at end of each MCU. +// [17:16] RW jpeg_coeff_last_sel. Default 0. +// Select at which point to finish processing, give update to AmRISC so it can control the next step. +// 0=Mark last coeff at the end of an 8x8 block; +// 1=Mark at the end of an MCU; +// 2=Mark at the end of a scan. +// [ 15] RW jpeg_quant_sel_comp2. 0=Comp2 select Quantization table 0; 1=Select table 1. Default 0. +// [ 14] RW jpeg_v_factor_comp2. Component 2's vertical sampling factor. Default 0. +// [ 13] RW jpeg_h_factor_comp2. Component 2's horizontal sampling factor. Default 0. +// [ 12] RW jpeg_comp2_en. Set 1 if the scan will include component 2 (Cr). Default 0. +// [ 11] RW jpeg_quant_sel_comp1. 0=Comp1 select Quantization table 0; 1=Select table 1. Default 0. +// [ 10] RW jpeg_v_factor_comp1. Component 1's vertical sampling factor. Default 0. +// [ 9] RW jpeg_h_factor_comp1. Component 1's horizontal sampling factor. Default 0. +// [ 8] RW jpeg_comp1_en. Set 1 if the scan will include component 1 (Cb). Default 0. +// [ 7] RW jpeg_quant_sel_comp0. 0=Comp0 select Quantization table 0; 1=Select table 1. Default 0. +// [ 6] RW jpeg_v_factor_comp0. Component 0's vertical sampling factor. Default 0. +// [ 5] RW jpeg_h_factor_comp0. Component 0's horizontal sampling factor. Default 0. +// [ 4] RW jpeg_comp0_en. Set 1 if the scan will include component 0 (Y). Default 0. +// [ 3: 1] RW jdct_intr_sel. JPEG DCT interrupt select. Default 0. +// 0=Disable intr; +// 1=Intr at end of each 8x8 block of DCT input; +// 2=Intr at end of each MCU of DCT input; +// 3=Intr at end of a scan of DCT input; +// 4=Intr at end of each 8x8 block of DCT output; +// 5=Intr at end of each MCU of DCT output; +// 6=Intr at end of a scan of DCT output. +// [ 0] RW jpeg_en. 0=Disable JPEG QDCT; 1=Enable JPEG QDCT. Default 0. +#define HCODEC_QDCT_JPEG_CTRL (0x1f25) +#define P_HCODEC_QDCT_JPEG_CTRL (volatile unsigned int *)((0x1f25 << 2) + 0xff620000) +// [29:16] RW jpeg_x_end. Picture X end. Default 0. +// [13: 0] RW jpeg_x_start. Picture X start. Default 0. +#define HCODEC_QDCT_JPEG_X_START_END (0x1f26) +#define P_HCODEC_QDCT_JPEG_X_START_END (volatile unsigned int *)((0x1f26 << 2) + 0xff620000) +// [29:16] RW jpeg_y_end. Picture Y end. Default 0. +// [13: 0] RW jpeg_y_start. Picture Y start. Default 0. +#define HCODEC_QDCT_JPEG_Y_START_END (0x1f27) +#define P_HCODEC_QDCT_JPEG_Y_START_END (volatile unsigned int *)((0x1f27 << 2) + 0xff620000) +// [ 8] RW JPEG QUANT table access mode. 0=Write; 1=Read. Default 1. +// [ 5: 0] RW JPEG QUANT table addr. Default 0. +#define HCODEC_QDCT_JPEG_QUANT_ADDR (0x1f28) +#define P_HCODEC_QDCT_JPEG_QUANT_ADDR (volatile unsigned int *)((0x1f28 << 2) + 0xff620000) +// [31: 0] RW JPEG QUANT table data. +#define HCODEC_QDCT_JPEG_QUANT_DATA (0x1f29) +#define P_HCODEC_QDCT_JPEG_QUANT_DATA (volatile unsigned int *)((0x1f29 << 2) + 0xff620000) +// [ 1] W resume_jdct. +// Write 1 to this bit will resume JPEG input engine when previously +// it is halted by QDCT_JPEG_CTRL.jdct_inflow_ctrl. +// [ 0] W jpeg_sof. +// Write 1 to this bit will start JPEG input engine. +#define HCODEC_QDCT_JPEG_SOF_RESUME (0x1f2a) +#define P_HCODEC_QDCT_JPEG_SOF_RESUME (volatile unsigned int *)((0x1f2a << 2) + 0xff620000) +// [31:30] R dct_st. jdct_ctrl state. 0=IDLE; 1=WAIT; 2=DCT_REQ. +// [29:28] R mfdin_comp. Current component at pixel request to MFDIN. +// [27:14] R mfdin_y. Current Y at pixel request to MFDIN. +// [13: 0] R mfdin_x. Current X at pixel request to MFDIN. +#define HCODEC_QDCT_JPEG_DCT_STATUS0 (0x1f2b) +#define P_HCODEC_QDCT_JPEG_DCT_STATUS0 (volatile unsigned int *)((0x1f2b << 2) + 0xff620000) +// [15:12] R JPEG Quant read MEM select. +// [11: 8] R JPEG DCT2 write MEM select. +// [ 7: 4] R JPEG DCT2 read MEM select. +// [ 3: 0] R JPEG DCT1 write MEM select. +#define HCODEC_QDCT_JPEG_DCT_STATUS1 (0x1f2c) +#define P_HCODEC_QDCT_JPEG_DCT_STATUS1 (volatile unsigned int *)((0x1f2c << 2) + 0xff620000) +// [28:16] RW jdct_coeff1. Default 13'h1D90; // 7568 = 4096 * sqrt(2) * (cos(Pi/8) + sin(Pi/8)) // 7569 +// [12: 0] RW jdct_coeff0. Default 13'h16A1; // 5793 = 4096 * sqrt(2) +#define HCODEC_QDCT_JPEG_DCT_COEFF01 (0x1f2d) +#define P_HCODEC_QDCT_JPEG_DCT_COEFF01 (volatile unsigned int *)((0x1f2d << 2) + 0xff620000) +// [28:16] RW jdct_coeff3. Default 13'h0C3F; // 3135 = 4096 * sqrt(2) * (cos(Pi/8) - sin(Pi/8)) +// [12: 0] RW jdct_coeff2. Default 13'h08A9; // 2217 = 4096 * sqrt(2) * sin(Pi/8) // 2215 +#define HCODEC_QDCT_JPEG_DCT_COEFF23 (0x1f2e) +#define P_HCODEC_QDCT_JPEG_DCT_COEFF23 (volatile unsigned int *)((0x1f2e << 2) + 0xff620000) +// [28:16] RW jdct_coeff5. Default 13'h046A; // 1130 = 4096 * (cos(3Pi/16) - sin(3Pi/16)) +// [12: 0] RW jdct_coeff4. Default 13'h1631; // 5681 = 4096 * (cos(3Pi/16) + sin(3Pi/16)) // 5682 +#define HCODEC_QDCT_JPEG_DCT_COEFF45 (0x1f2f) +#define P_HCODEC_QDCT_JPEG_DCT_COEFF45 (volatile unsigned int *)((0x1f2f << 2) + 0xff620000) +// [28:16] RW jdct_coeff7. Default 13'h0C92; // 3218 = 4096 * (cos(Pi/16) - sin(Pi/16)) +// [12: 0] RW jdct_coeff6. Default 13'h12D0; // 4816 = 4096 * (cos(Pi/16) + sin(Pi/16)) +#define HCODEC_QDCT_JPEG_DCT_COEFF67 (0x1f30) +#define P_HCODEC_QDCT_JPEG_DCT_COEFF67 (volatile unsigned int *)((0x1f30 << 2) + 0xff620000) +// [28:16] RW jdct_coeff9. Default 13'h0FB1; // 4017 = 4096 * cos(Pi/16) +// [12: 0] RW jdct_coeff8. Default 13'h0D4E; // 3406 = 4096 * cos(3Pi/16) +#define HCODEC_QDCT_JPEG_DCT_COEFF89 (0x1f31) +#define P_HCODEC_QDCT_JPEG_DCT_COEFF89 (volatile unsigned int *)((0x1f31 << 2) + 0xff620000) +#define HCODEC_QDCT_I_PRED_REF_WR_IDX (0x1f32) +#define P_HCODEC_QDCT_I_PRED_REF_WR_IDX (volatile unsigned int *)((0x1f32 << 2) + 0xff620000) +#define HCODEC_QDCT_I_PRED_REF_WR_DATA (0x1f33) +#define P_HCODEC_QDCT_I_PRED_REF_WR_DATA (volatile unsigned int *)((0x1f33 << 2) + 0xff620000) +// bit[29] mb_info_latch_no_I16_pred_mode +// bit[28] ie_dma_mbxy_use_i_pred +// bit[27] ie_dma_read_write_use_ip_idx +// bit[26] ie_start_use_top_dma_count +// bit[25] i_pred_top_dma_rd_mbbot +// bit[24] i_pred_top_dma_wr_disable +// bit[23] i_pred_mix +// bit[22] me_ab_rd_when_intra_in_p +// bit[21] force_mb_skip_run_when_intra +// bit[20] mc_out_mixed_type +// bit[19] ie_start_when_quant_not_full +// bit[18] mb_info_state_mix +// bit[17] mb_type_use_mix_result +// bit[16] me_cb_ie_read_enable +// bit[15] ie_cur_data_from_me +// bit[14] rem_per_use_table +// bit[13] q_latch_int_enable +// bit[12] q_use_table +// bit[11] q_start_wait +// bit[10] LUMA_16_LEFT_use_cur +// bit[9] DC_16_LEFT_SUM_use_cur +// bit[8] c_ref_ie_sel_cur +// bit[7] c_ipred_perfect_mode +// bit[6] ref_ie_ul_sel 0-old, 1-use next_set +// bit[5] mb_type_use_ie_result +// bit[4] detect_I16_from_I4 +// bit[3] ie_not_wait_ref_busy +// bit[2] ie_I16_enable +// bit[1:0] ie_done_sel (0, 1, 2, -1) +#define HCODEC_QDCT_ADV_CONFIG (0x1f34) +#define P_HCODEC_QDCT_ADV_CONFIG (volatile unsigned int *)((0x1f34 << 2) + 0xff620000) +// bit [31:16] I16x16_weight +// bit [15:0] I4x4_weight +#define HCODEC_IE_WEIGHT (0x1f35) +#define P_HCODEC_IE_WEIGHT (volatile unsigned int *)((0x1f35 << 2) + 0xff620000) +// bit [31] reserved +// bit [30] q_I16MB +// bit [29] reserved +// bit [28] reserved +// bit [27:23] quant_table_addr I4MB:[0,7], I16MB:[8:15], INTER:[16:23], Reserved:[24:31] +// bit [22] quant_table_addr_update(when notupdate_rem_per) (read is arb_result : q_intra) +// bit [21:19] quant_rem_c +// bit [18:16] quant_rem_y +// bit [15:12] quant_per_c +// bit [11:8] quant_per_y +// bit [7:2] quant +// bit [1] update_rem_per +// bit [0] clear_wait_status +#define HCODEC_Q_QUANT_CONTROL (0x1f36) +#define P_HCODEC_Q_QUANT_CONTROL (volatile unsigned int *)((0x1f36 << 2) + 0xff620000) +#define HCODEC_MBBOT_EVEN_ADDR (0x1f37) +#define P_HCODEC_MBBOT_EVEN_ADDR (volatile unsigned int *)((0x1f37 << 2) + 0xff620000) +#define HCODEC_MBBOT_ODD_ADDR (0x1f38) +#define P_HCODEC_MBBOT_ODD_ADDR (volatile unsigned int *)((0x1f38 << 2) + 0xff620000) +// bit [29:24] quant_table_data_3 +// bit [21:16] quant_table_data_2 +// bit [13:8] quant_table_data_1 +// bit [5:0] quant_table_data_0 +#define HCODEC_QUANT_TABLE_DATA (0x1f39) +#define P_HCODEC_QUANT_TABLE_DATA (volatile unsigned int *)((0x1f39 << 2) + 0xff620000) +// bit [31:16] ie_sad_offset_I16 +// bit [15:0] ie_sad_offset_I4 +#define HCODEC_SAD_CONTROL_0 (0x1f3a) +#define P_HCODEC_SAD_CONTROL_0 (volatile unsigned int *)((0x1f3a << 2) + 0xff620000) +// bit [31] sad_soft_reset +// bit [30:27] reserved +// bit [26:24] ie_sad_shift_I16 +// bit [22:20] ie_sad_shift_I4 +// bit [18:16] me_sad_shift_INTER +// bit [15:0] me_sad_offset_INTER +#define HCODEC_SAD_CONTROL_1 (0x1f3b) +#define P_HCODEC_SAD_CONTROL_1 (volatile unsigned int *)((0x1f3b << 2) + 0xff620000) +// bit [31] vlc_quant_rd_ptr +// bit [30] vlc_quant_rd_ptr_update +// bit [29] vlc_quant_wr_ptr +// bit [28] vlc_quant_wr_ptr_update +// bit [27:26] reserved +// bit [25:19] vlc_delta_quant_1 +// bit [18:13] vlc_quant_1 +// bit [12:6] vlc_delta_quant_0 +// bit [5:0] vlc_quant_0 +#define HCODEC_QDCT_VLC_QUANT_CTL_0 (0x1f3c) +#define P_HCODEC_QDCT_VLC_QUANT_CTL_0 (volatile unsigned int *)((0x1f3c << 2) + 0xff620000) +// bit [31:30] me_sad_rd_idx +// bit [29] me_sad_rd_idx_update +// bit [28:27] me_sad_wr_idx +// bit [26] me_sad_wr_idx_update +// bit [25:24] ie_sad_rd_idx +// bit [23] ie_sad_rd_idx_update +// bit [22:21] ie_sad_wr_idx +// bit [20] ie_sad_wr_idx_update +// bit [19:12] Reserved +// bit [11:6] vlc_max_delta_q_neg +// bit [5:0] vlc_max_delta_q_pos +#define HCODEC_QDCT_VLC_QUANT_CTL_1 (0x1f3d) +#define P_HCODEC_QDCT_VLC_QUANT_CTL_1 (volatile unsigned int *)((0x1f3d << 2) + 0xff620000) +// bit[4] jdct_int +// bit[3] quant_latch +// bit[2] me_done +// bit[1] ie_start +// bit[0] i_pred_start +#define HCODEC_QDCT_INT_STATUS (0x1f3e) +#define P_HCODEC_QDCT_INT_STATUS (volatile unsigned int *)((0x1f3e << 2) + 0xff620000) +// bit[3] mix_i_pred_wait_left_en +// bit[2:0] mc_pending_mb_count +#define HCODEC_QDCT_MIX_I_PRED_STATUS (0x1f3f) +#define P_HCODEC_QDCT_MIX_I_PRED_STATUS (volatile unsigned int *)((0x1f3f << 2) + 0xff620000) +// IE/ME share same cbus_base as QDCT +// +// bit[31] active_ur_block +// bit[30] active_ul_block +// bit[21] disable_HENC_V_PRED_16 +// bit[20] disable_HENC_H_PRED_16 +// bit[19] disable_HENC_DC_PRED_16 +// bit[18] disable_HENC_HENC_HOR_UP_PRED +// bit[17] disable_HENC_VERT_LEFT_PRED +// bit[16] disable_HENC_HENC_HOR_DOWN_PRED +// bit[15] disable_HENC_VERT_RIGHT_PRED +// bit[14] disable_HENC_DIAG_DOWN_RIGHT_PRED +// bit[13] disable_HENC_DIAG_DOWN_LEFT_PRED +// bit[12] disable_HENC_DC_PRED +// bit[11] disable_HENC_HOR_PRED +// bit[10] disable_HENC_VERT_PRED +// bit[9] ie_c_wait_ie_pause +// bit[8:4] max_ie_result_buff_count +// bit[3] ie_wait_for_ie_result // use for (max_ie_result_buff_count == 0) to wait every block +// bit[2] reserved +// bit[1] ie_enable +// bit[0] ie_soft_reset +#define HCODEC_IE_CONTROL (0x1f40) +#define P_HCODEC_IE_CONTROL (volatile unsigned int *)((0x1f40 << 2) + 0xff620000) +// bit[31:12] Reserved +// bit[11:0] mb_y +#define HCODEC_IE_MB_POSITION (0x1f41) +#define P_HCODEC_IE_MB_POSITION (volatile unsigned int *)((0x1f41 << 2) + 0xff620000) +// bit[31:16] me_skip_run +// bit[15:8] reserved +// bit [7:4] me_b8_mode +// bit [3:0] ie_me_mb_type +#define HCODEC_IE_ME_MB_INFO (0x1f42) +#define P_HCODEC_IE_ME_MB_INFO (volatile unsigned int *)((0x1f42 << 2) + 0xff620000) +// bit[3] ie_result_buff_enable +// bit[2] ie_result_buff_soft_reset +// bit[1] sad_enable +// bit[0] ie_sad_soft_reset +#define HCODEC_SAD_CONTROL (0x1f43) +#define P_HCODEC_SAD_CONTROL (volatile unsigned int *)((0x1f43 << 2) + 0xff620000) +// bit[31:16] - ie_result_buff_count - read only +// bit[14:12] -current_ie_result (pred_mode) - read only +// bit[11] top_control_data_buff_wr_ptr - rd/wr +// bit[10] top_control_data_buff_rd_ptr - rd/wr +// bit[9:5] ie_result_buff_wr_ptr - rd/wr +// bit[4:0] ie_result_buff_rd_ptr - rd/wr +#define HCODEC_IE_RESULT_BUFFER (0x1f44) +#define P_HCODEC_IE_RESULT_BUFFER (volatile unsigned int *)((0x1f44 << 2) + 0xff620000) +// bit[63:0] ie_i4_pred_mode +#define HCODEC_IE_I4_PRED_MODE_HI (0x1f45) +#define P_HCODEC_IE_I4_PRED_MODE_HI (volatile unsigned int *)((0x1f45 << 2) + 0xff620000) +#define HCODEC_IE_I4_PRED_MODE_LO (0x1f46) +#define P_HCODEC_IE_I4_PRED_MODE_LO (volatile unsigned int *)((0x1f46 << 2) + 0xff620000) +// bit [31:9] reserved +// bit [8:4] i_pred_block_number +// bit [3:0] ie_c_pred_mode +#define HCODEC_IE_C_PRED_MODE (0x1f47) +#define P_HCODEC_IE_C_PRED_MODE (volatile unsigned int *)((0x1f47 << 2) + 0xff620000) +// 31:16 - Left, 0-select ie_pixel, 1-select mc_data_out +// 15:0 - Top, 0-select ie_pixel, 1-select mc_data_out +#define HCODEC_IE_CUR_REF_SEL (0x1f48) +#define P_HCODEC_IE_CUR_REF_SEL (volatile unsigned int *)((0x1f48 << 2) + 0xff620000) +// bit[31] enable_f_skip_1_step_3 +// bit[30] enable_f_skip_1_step_2 +// bit[29] enable_f_skip_1_step_1 +// bit[28] step_3_enable +// bit[27] step_2_sub_pixel +// bit[26] always_f_skip_step_3 +// bit[25] always_f_skip_step_2 +// bit[24] always_f_skip_step_1 +// bit[23] half_pixel_only +// bit[22:13] reserved +// bit[12] adv_mv_enable +// bit[11] sad_short_valid +// bit[10:9] mv_flexable_ctl 00:0x40, 01:0x80, 10:0xc0, 11 : 0x100 +// bit[8] no_md_ab_rd +// bit[7] use_dct_state +// bit[6] enable_free_clk_me_ctl +// bit[5] enable_free_clk_me_ab +// bit[4] enable_free_clk_me_cb +// bit[3] reserved +// bit[2] me_done_int_enable +// bit[1] me_enable +// bit[0] me_soft_reset +#define HCODEC_ME_CONTROL (0x1f49) +#define P_HCODEC_ME_CONTROL (volatile unsigned int *)((0x1f49 << 2) + 0xff620000) +// bit[31:28] Reserved +// bit[27:16] me_start_mby +// bit[15:12] Reserved +// bit[11:0] me_start_mbx +#define HCODEC_ME_START_POSITION (0x1f4a) +#define P_HCODEC_ME_START_POSITION (volatile unsigned int *)((0x1f4a << 2) + 0xff620000) +// bit [31:28] me_status - Read only +// bit [27:24] me_cb_status // current buffer +// bit [23:20] me_ab_status // anc buffer +// bit [19] Reserved +// bit [18:16] me_ab_wr_ptr // read only +// bit [15:4] me_last_mbx +// bit [3:1] me_ab_rd_ptr // read only +// bit [0] me_action +#define HCODEC_ME_STATUS (0x1f4b) +#define P_HCODEC_ME_STATUS (volatile unsigned int *)((0x1f4b << 2) + 0xff620000) +// all Read-only +// bit [31:28] Reserved +// bit [27:16] me_ab_mbx +// bit [15:14] me_cb_wr_ptr +// bit [13:12] me_cb_rd_ptr +// bit [11:0] me_cb_mbx +#define HCODEC_ME_DEBUG (0x1f4c) +#define P_HCODEC_ME_DEBUG (volatile unsigned int *)((0x1f4c << 2) + 0xff620000) +// bit[29:24] step_3_skip_line +// bit[23:18] step_2_skip_line +// bit[17:12] step_1_skip_line +// bit[11:6] step_0_skip_line +// bit[5:0] read_skip_line +#define HCODEC_ME_SKIP_LINE (0x1f4d) +#define P_HCODEC_ME_SKIP_LINE (volatile unsigned int *)((0x1f4d << 2) + 0xff620000) +// bit 15:13 Reserved +// bit 12 A_urgent // default : 0 +// bit 11:6 A_brst_num // default : 0x3f +// bit 5:0 A_id // default : 0x23 +#define HCODEC_ME_AB_MEM_CTL (0x1f4e) +#define P_HCODEC_ME_AB_MEM_CTL (volatile unsigned int *)((0x1f4e << 2) + 0xff620000) +// bit[31:24] anc_pic_canvas +// bit[23:12] max_me_mby_num +// bit[11:0] max_me_mbx_num +#define HCODEC_ME_PIC_INFO (0x1f4f) +#define P_HCODEC_ME_PIC_INFO (volatile unsigned int *)((0x1f4f << 2) + 0xff620000) +// bit [23:12] me_sad_enough_1 +// bit [11:0] me_sad_enough_0 +#define HCODEC_ME_SAD_ENOUGH_01 (0x1f50) +#define P_HCODEC_ME_SAD_ENOUGH_01 (volatile unsigned int *)((0x1f50 << 2) + 0xff620000) +// bit [25:12] adv_mv_8x8_enough +// bit [11:0] me_sad_enough_2 +#define HCODEC_ME_SAD_ENOUGH_23 (0x1f51) +#define P_HCODEC_ME_SAD_ENOUGH_23 (volatile unsigned int *)((0x1f51 << 2) + 0xff620000) +// bit [21:10] me_step0_big_sad +// bit [9:5] me_step0_close_mv_y +// bit [4:0] me_step0_close_mv_x +#define HCODEC_ME_STEP0_CLOSE_MV (0x1f52) +#define P_HCODEC_ME_STEP0_CLOSE_MV (volatile unsigned int *)((0x1f52 << 2) + 0xff620000) +// bit[31:24] force_skip_sad_3 +// bit[23:16] force_skip_sad_2 +// bit[15:08] force_skip_sad_1 +// bit[07:00] force_skip_sad_0 +#define HCODEC_ME_F_SKIP_SAD (0x1f53) +#define P_HCODEC_ME_F_SKIP_SAD (volatile unsigned int *)((0x1f53 << 2) + 0xff620000) +// bit[31:24] force_skip_weight_3 +// bit[23:16] force_skip_weight_2 +// bit[15:08] force_skip_weight_1 +// bit[07:00] force_skip_weight_0 +#define HCODEC_ME_F_SKIP_WEIGHT (0x1f54) +#define P_HCODEC_ME_F_SKIP_WEIGHT (volatile unsigned int *)((0x1f54 << 2) + 0xff620000) +// Merge when ( +// (flex & me_merge_flex_en) | +// (big_sad & me_merge_sad_en)| +// ((~me_merge_flex_en)&(~me_merge_sad_en)) +// ) & +// ( small_mv_diff |(~me_merge_small_mv_en)) +// & (me_merge_flex_en | me_merge_sad_en | me_merge_small_mv_en) +// bit[31] me_merge_mv_en_16 +// bit[30] me_merge_small_mv_en_16 +// bit[29] me_merge_flex_en_16 +// bit[28] me_merge_sad_en_16 +// bit[27] me_merge_mv_en_8 +// bit[26] me_merge_small_mv_en_8 +// bit[25] me_merge_flex_en_8 +// bit[24] me_merge_sad_en_8 +// bit[23:18] me_merge_mv_diff_16 +// bit[17:12] me_merge_mv_diff_8 +// bit[11:0] me_merge_min_sad +#define HCODEC_ME_MV_MERGE_CTL (0x1f55) +#define P_HCODEC_ME_MV_MERGE_CTL (volatile unsigned int *)((0x1f55 << 2) + 0xff620000) +// bit[31:24] mv_step_weight_1 +// bit[23:16] mv_pre_weight_1 +// bit [15:0] mv_step_weight_0 +// bit[7:0] mv_pre_weight_0 +#define HCODEC_ME_MV_WEIGHT_01 (0x1f56) +#define P_HCODEC_ME_MV_WEIGHT_01 (volatile unsigned int *)((0x1f56 << 2) + 0xff620000) +// bit[31:24] mv_step_weight_3 (mv_step_weight_1_2nd) +// bit[23:16] mv_pre_weight_3 (mv_pre_weight_1_2nd) +// bit[15:8] mv_step_weight_2 +// bit[7:0] mv_pre_weight_2 +#define HCODEC_ME_MV_WEIGHT_23 (0x1f57) +#define P_HCODEC_ME_MV_WEIGHT_23 (volatile unsigned int *)((0x1f57 << 2) + 0xff620000) +// bit[31:24] me_sad_range_inc_3 +// bit[23:16] me_sad_range_inc_2 +// bit[15:8] me_sad_range_inc_1 +// bit[7:0] me_sad_range_inc_0 +#define HCODEC_ME_SAD_RANGE_INC (0x1f58) +#define P_HCODEC_ME_SAD_RANGE_INC (volatile unsigned int *)((0x1f58 << 2) + 0xff620000) +// bit[31:19] reserved +// bit[18] sub_relative_any_1_en +// bit[17] sub_relative_any_2_en +// bit[16] sub_relative_any_3_en +// bit[15] sub_relative_any_4_en +// bit[14] sub_relative_any_h_en +// bit[13] sub_make_non_flex_fix +// bit[12] sub_make_big_non_flex_fix +// bit[11:8] sub_normal_mv_diff_16 +// bit[7:4] sub_normal_mv_diff_8 +// bit[3:2] Reserved +// bit[1] sub_merge_enable_16 +// bit[0] sub_merge_enable_8 +#define HCODEC_ME_SUB_MERGE_CTL (0x1f59) +#define P_HCODEC_ME_SUB_MERGE_CTL (volatile unsigned int *)((0x1f59 << 2) + 0xff620000) +// bit[31:28] sub_ref_mv_diff_near +// bit[27:24] sub_ref_mv_diff_near_flex +// bit[23:20] sub_ref_mv_diff +// bit[19:16] sub_ref_mv_diff_flex +// bit[15:8] sub_ref_mv_near_weight +// bit[7:0] sub_ref_mv_weight +#define HCODEC_ME_SUB_REF_MV_CTL (0x1f5a) +#define P_HCODEC_ME_SUB_REF_MV_CTL (volatile unsigned int *)((0x1f5a << 2) + 0xff620000) +// bit[31:24] sub_weight_max_sad +// bit[23:16] sub_any_range_sad +// bit[15:8] sub_any_min_sad +// bit[7:0] sub_any_max_sad +#define HCODEC_ME_SUB_ANY_WEIGHT_SAD (0x1f5b) +#define P_HCODEC_ME_SUB_ANY_WEIGHT_SAD (volatile unsigned int *)((0x1f5b << 2) + 0xff620000) +// bit[31:24] sub_fix_sad +// bit[23:16] sub_fix_diff_sad +// bit[15:8] sub_sad_flex_adj +// bit[7:0] sub_big_non_flex_fix_sad +#define HCODEC_ME_SUB_FIX_SAD (0x1f5c) +#define P_HCODEC_ME_SUB_FIX_SAD (volatile unsigned int *)((0x1f5c << 2) + 0xff620000) +// bit[31:24] sub_fix_min_sad +// bit[23:16] sub_fix_min_diff_sad +// bit[15:8] sub_fix_min_sad_2 +// bit[7:0] sub_fix_min_diff_sad_2 +#define HCODEC_ME_SUB_FIX_MIN_SAD (0x1f5d) +#define P_HCODEC_ME_SUB_FIX_MIN_SAD (volatile unsigned int *)((0x1f5d << 2) + 0xff620000) +// bit[31:24] sub_snap_to_ref_max_sad +// bit[23] sub_snap_to_ref_non_flex +// bit[22:16] sub_snap_to_ref_mv_diff +// bit[15:4] sub_glitch_mv_sad +// bit[3:0] sub_glitch_mv_diff +#define HCODEC_ME_SUB_SNAP_GLITCH (0x1f5e) +#define P_HCODEC_ME_SUB_SNAP_GLITCH (volatile unsigned int *)((0x1f5e << 2) + 0xff620000) +// bit[31:20] sad_act_limit +// bit[19:8] s_a_any_sad +// bit[7] Reserved +// bit[6:5] sub_merge_method +// bit[4] use_sub_act_result +// bit[3] s_a_rnd +// bit[2] Reserved +// bit[1] sub_act_en_16 +// bit[0] sub_act_en +#define HCODEC_ME_SUB_ACT_CTL (0x1f5f) +#define P_HCODEC_ME_SUB_ACT_CTL (volatile unsigned int *)((0x1f5f << 2) + 0xff620000) +// bit[31:16] reserved +// bit[15:0] me_weight +#define HCODEC_ME_WEIGHT (0x1f60) +#define P_HCODEC_ME_WEIGHT (volatile unsigned int *)((0x1f60 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] me_quant_0 +// bit[21] ie_sad_ready_0 +// bit[20:18] Reserved +// bit[17:16] me_sad_mv_type_0 +// bit[15:0] me_sad_0 +#define HCODEC_ME_SAD_0 (0x1f61) +#define P_HCODEC_ME_SAD_0 (volatile unsigned int *)((0x1f61 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] me_quant_1 +// bit[21] me_sad_ready_1 +// bit[20:18] Reserved +// bit[17:16] me_sad_mv_type_1 +// bit[15:0] me_sad_1 +#define HCODEC_ME_SAD_1 (0x1f62) +#define P_HCODEC_ME_SAD_1 (volatile unsigned int *)((0x1f62 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] me_quant_2 +// bit[21] me_sad_ready_2 +// bit[20:18] Reserved +// bit[17:16] me_sad_mv_type_2 +// bit[15:0] me_sad_2 +#define HCODEC_ME_SAD_2 (0x1f63) +#define P_HCODEC_ME_SAD_2 (volatile unsigned int *)((0x1f63 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] me_quant_3 +// bit[21] me_sad_ready_3 +// bit[20:18] Reserved +// bit[17:16] me_sad_mv_type_3 +// bit[15:0] me_sad_3 +#define HCODEC_ME_SAD_3 (0x1f64) +#define P_HCODEC_ME_SAD_3 (volatile unsigned int *)((0x1f64 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] ie_quant_0 +// bit[21] ie_sad_ready_0 +// bit[20] I4/I16 (0-I4MB, 1-I16MB) +// bit[19:0] ie_sad_0 +#define HCODEC_IE_SAD_0 (0x1f65) +#define P_HCODEC_IE_SAD_0 (volatile unsigned int *)((0x1f65 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] ie_quant_1 +// bit[21] ie_sad_ready_1 +// bit[20] I4/I16 (0-I4MB, 1-I16MB) +// bit[19:0] ie_sad_1 +#define HCODEC_IE_SAD_1 (0x1f66) +#define P_HCODEC_IE_SAD_1 (volatile unsigned int *)((0x1f66 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] ie_quant_2 +// bit[21] ie_sad_ready_2 +// bit[20] I4/I16 (0-I4MB, 1-I16MB) +// bit[19:0] ie_sad_2 +#define HCODEC_IE_SAD_2 (0x1f67) +#define P_HCODEC_IE_SAD_2 (volatile unsigned int *)((0x1f67 << 2) + 0xff620000) +// bit[31] ready_update +// bit[30] data_update +// bit[29:28] reserved +// bit[27:22] ie_quant_3 +// bit[21] ie_sad_ready_3 +// bit[20] I4/I16 (0-I4MB, 1-I16MB) +// bit[19:0] ie_sad_3 +#define HCODEC_IE_SAD_3 (0x1f68) +#define P_HCODEC_IE_SAD_3 (volatile unsigned int *)((0x1f68 << 2) + 0xff620000) +// bit[31] enable_large_diff_16x8 +// bit[30] enable_large_diff_8x16 +// bit[29:16] adv_mv_8x8_weight +// bit[15:14] reserved +// bit[13:0] adv_mv_4x4x4_weight +#define HCODEC_ADV_MV_CTL0 (0x1f69) +#define P_HCODEC_ADV_MV_CTL0 (volatile unsigned int *)((0x1f69 << 2) + 0xff620000) +// bit[31:16] adv_mv_16x16_weight +// bit[15] enable_large_diff_16x16 +// bit[14:0] adv_mv_16_8_weight +#define HCODEC_ADV_MV_CTL1 (0x1f6a) +#define P_HCODEC_ADV_MV_CTL1 (volatile unsigned int *)((0x1f6a << 2) + 0xff620000) +#define HCODEC_ADV_MV_CTL2 (0x1f6b) +#define P_HCODEC_ADV_MV_CTL2 (volatile unsigned int *)((0x1f6b << 2) + 0xff620000) +// bit[31] v3_skip_enable +// bit[30] v3_step_1_weight_enable // for step1, will only use pre_weight for block0, only step_weight for block 1,2,3 +// bit[29] v3_l2_skip_only_use_l2_sad // set to 1 may allow l1 maybe not skip +// bit[28] v3_mv_sad_weight_enable +// bit[27] v3_ipred_type_enable +// bit[25:12] force_skip_sad_1 +// bit[11:0] force_skip_sad_0 +#define HCODEC_V3_SKIP_CONTROL (0x1f6c) +#define P_HCODEC_V3_SKIP_CONTROL (volatile unsigned int *)((0x1f6c << 2) + 0xff620000) +// bit[18:16] top_ipred_type_count +// bit[15:14] Reserved +// bit[13:12] top_ipred_type_rd_idx +// bit[11:10] top_ipred_type_wr_idx +// bit[9] left_ipred_type_ready +// bit[8] top_ipred_type_ready +// bit[7:6] left_mv_idx +// bit[5:4] top_mv_idx +// bit[3] - left_mv_ready +// bit[2:0] top_mv_ready +#define HCODEC_V3_TOP_LEFT_CTL (0x1f6d) +#define P_HCODEC_V3_TOP_LEFT_CTL (volatile unsigned int *)((0x1f6d << 2) + 0xff620000) +#define HCODEC_V3_TOP_MV (0x1f6e) +#define P_HCODEC_V3_TOP_MV (volatile unsigned int *)((0x1f6e << 2) + 0xff620000) +#define HCODEC_V3_LEFT_MV (0x1f6f) +#define P_HCODEC_V3_LEFT_MV (volatile unsigned int *)((0x1f6f << 2) + 0xff620000) +// bit[31:30] reserved +// bit[29:16] v3_skip_weight_1 +// bit[15:12] reserved +// bit[11:0] v3_skip_weight_0 +#define HCODEC_V3_SKIP_WEIGHT (0x1f70) +#define P_HCODEC_V3_SKIP_WEIGHT (volatile unsigned int *)((0x1f70 << 2) + 0xff620000) +// bit[31:28] reserved +// bit[27:16] v3_l1_f_skip_max_sad +// bit[15:12] reserved +// bit[11:0] v3_l1_skip_max_sad +#define HCODEC_V3_L1_SKIP_MAX_SAD (0x1f71) +#define P_HCODEC_V3_L1_SKIP_MAX_SAD (volatile unsigned int *)((0x1f71 << 2) + 0xff620000) +// bit[31:16] force_skip_sad_2 +// bit[15:0] v3_skip_weight_2 +#define HCODEC_V3_L2_SKIP_WEIGHT (0x1f72) +#define P_HCODEC_V3_L2_SKIP_WEIGHT (volatile unsigned int *)((0x1f72 << 2) + 0xff620000) +// bit[21:16] v3_mv_sad_table_addr 0-15 table_step_0 +// bit[11:0] v3_mv_sad +#define HCODEC_V3_MV_SAD_TABLE (0x1f73) +#define P_HCODEC_V3_MV_SAD_TABLE (volatile unsigned int *)((0x1f73 << 2) + 0xff620000) +// [31:16] v3_ie_f_zero_sad_i16 +// [15:0] v3_ie_f_zero_sad_i4 +#define HCODEC_V3_F_ZERO_CTL_0 (0x1f74) +#define P_HCODEC_V3_F_ZERO_CTL_0 (volatile unsigned int *)((0x1f74 << 2) + 0xff620000) +// [25] v3_no_ver_when_top_zero_en +// [24] v3_no_hor_when_left_zero_en +// [23:16] v3_max_I16_H_num // 0 means no break +// [15:0] v3_me_f_zero_sad +#define HCODEC_V3_F_ZERO_CTL_1 (0x1f75) +#define P_HCODEC_V3_F_ZERO_CTL_1 (volatile unsigned int *)((0x1f75 << 2) + 0xff620000) +#define HCODEC_V3_TOP_INTRA_INFO (0x1f76) +#define P_HCODEC_V3_TOP_INTRA_INFO (volatile unsigned int *)((0x1f76 << 2) + 0xff620000) +#define HCODEC_V3_LEFT_INTRA_INFO (0x1f77) +#define P_HCODEC_V3_LEFT_INTRA_INFO (volatile unsigned int *)((0x1f77 << 2) + 0xff620000) +// [31:24] C_ipred_weight_H +// [23:16] C_ipred_weight_V +// [15:8] I4_ipred_weight_else +// [7:0] I4_ipred_weight_most +#define HCODEC_V3_IPRED_TYPE_WEIGHT_0 (0x1f78) +#define P_HCODEC_V3_IPRED_TYPE_WEIGHT_0 (volatile unsigned int *)((0x1f78 << 2) + 0xff620000) +// [31:24] I16_ipred_weight_DC +// [23:16] I16_ipred_weight_H +// [15:8] I16_ipred_weight_V +// [7:0] C_ipred_weight_DC +#define HCODEC_V3_IPRED_TYPE_WEIGHT_1 (0x1f79) +#define P_HCODEC_V3_IPRED_TYPE_WEIGHT_1 (volatile unsigned int *)((0x1f79 << 2) + 0xff620000) +// [31:16] v3_left_small_max_me_sad +// [15:0] v3_left_small_max_ie_sad +#define HCODEC_V3_LEFT_SMALL_MAX_SAD (0x1f7a) +#define P_HCODEC_V3_LEFT_SMALL_MAX_SAD (volatile unsigned int *)((0x1f7a << 2) + 0xff620000) +// (qr==7) & (qp==15) means force zero block +// [31:26] v4_force_q_r_intra +// [25:20] v4_force_q_r_inter +// [19] v4_force_q_y_enable +// [18:16] v4_force_qr_y +// [15:12] v4_force_qp_y +// [11:0] v4_force_skip_sad +#define HCODEC_V4_FORCE_SKIP_CFG (0x1f7b) +#define P_HCODEC_V4_FORCE_SKIP_CFG (volatile unsigned int *)((0x1f7b << 2) + 0xff620000) +// v5 Complexity // Y(256 pixel per MB) and C(128 pixel per MB) +// For every 4x4 block, calculate average and Add abs(pixel-average) together +// bit[31:16] v5_diff_sum_C +// bit[15:0] v5_diff_sum_Y +#define HCODEC_V5_MB_DIFF_SUM (0x1f7c) +#define P_HCODEC_V5_MB_DIFF_SUM (volatile unsigned int *)((0x1f7c << 2) + 0xff620000) +// bit[31:24] v5_small_diff_cnt_C +// bit[23:16] v5_small_diff_C +// bit[15:8] v5_small_diff_cnt_Y +// bit[7:0] v5_small_diff_Y +#define HCODEC_V5_SMALL_DIFF_CNT (0x1f7d) +#define P_HCODEC_V5_SMALL_DIFF_CNT (volatile unsigned int *)((0x1f7d << 2) + 0xff620000) +// bit[31:29] Reserved +// bit[28:24] v5_simple_block_cnt // 0 -15 Y 16-23 C +// bit[23:20] v5_simple_pixel_cnt +// bit[19:18] v5_simple_dq_wr_ptr +// bit[17:16] v5_simple_dq_rd_ptr +// bit[15:12] v5_simple_dq (Read Only) +// bit[11:8] v5_simple_me_weight(Read Only) +// bit[7] v5_use_small_diff_cnt +// bit[6] v5_simple_mb_inter_all_en +// bit[5] v5_simple_mb_inter_8x8_en +// bit[4] v5_simple_mb_inter_16_8_en +// bit[3] v5_simple_mb_inter_16x16_en +// bit[2] v5_simple_mb_intra_en +// bit[1] v5_simple_mb_C_en +// bit[0] v5_simple_mb_Y_en +#define HCODEC_V5_SIMPLE_MB_CTL (0x1f7e) +#define P_HCODEC_V5_SIMPLE_MB_CTL (volatile unsigned int *)((0x1f7e << 2) + 0xff620000) +// bit[31:28] v5_simple_dq_shift +// bit[27:24] v5_simple_dq_6(-7 to +7) +// bit[23:20] v5_simple_dq_5(-7 to +7) +// bit[19:16] v5_simple_dq_4(-7 to +7) +// bit[15:12] v5_simple_dq_3(-7 to +7) +// bit[11:08] v5_simple_dq_2(-7 to +7) +// bit[07:04] v5_simple_dq_1(-7 to +7) +// bit[03:00] v5_simple_dq_0(-7 to +7) +#define HCODEC_V5_SIMPLE_MB_DQUANT (0x1f7f) +#define P_HCODEC_V5_SIMPLE_MB_DQUANT (volatile unsigned int *)((0x1f7f << 2) + 0xff620000) +// bit[31:28] v5_simple_me_weight_shift +// bit[27:24] v5_simple_me_weight_6(-7 to +7) +// bit[23:20] v5_simple_me_weight_5(-7 to +7) +// bit[19:16] v5_simple_me_weight_4(-7 to +7) +// bit[15:12] v5_simple_me_weight_3(-7 to +7) +// bit[11:08] v5_simple_me_weight_2(-7 to +7) +// bit[07:04] v5_simple_me_weight_1(-7 to +7) +// bit[03:00] v5_simple_me_weight_0(-7 to +7) +#define HCODEC_V5_SIMPLE_MB_ME_WEIGHT (0x1f80) +#define P_HCODEC_V5_SIMPLE_MB_ME_WEIGHT (volatile unsigned int *)((0x1f80 << 2) + 0xff620000) +// +// Closing file: qdct_regs.h +// + +#endif // DOS_REGISTER_H + +#if 0 +#define Wr(addr, data) *(volatile uint32_t *)(addr)=(data) +#define Rd(addr) *(volatile uint32_t *)(addr) +#define Wr_reg_bits(reg, val, start, len) \ + Wr(reg, ((Rd(reg) & ~(((1L<<(len))-1)<<(start))) | ((uint32_t)(val) << (start)))) +#endif + +// +// Reading file: ./register_map.h +// +// synopsys translate_off +// synopsys translate_on +// +// Reading file: stb_define.h +// +// synopsys translate_off +// synopsys translate_on +// ----------------------------------------------- +// CBUS_BASE: STB_CBUS_BASE = 0x18 +// ----------------------------------------------- +// There are two instantiations under one CBUS slave. Each CBUS slave can support +// 256 registers. Each demux is allocated 128 registers so set the offset in +// the middle +// Copy this define but don't add a base address +#define SECOND_DEMUX_OFFSET_0 0x50 +#define THIRD_DEMUX_OFFSET_0 0xa0 +//======================================================================== +// STB TOP Registers (8'hf0 - 8'hf7) +//======================================================================== +// bit 30:28 -- ciplus_o_sel +// bit 27:26 -- ciplus_i_sel +// bit 25 -- use FAIL fro TS2 +// bit 24 -- use FAIL fro TS1 +// bit 23 -- use FAIL fro TS0 +// bit 22 -- invert fec_error for S2P1 +// bit 21 -- invert fec_data for S2P1 +// bit 20 -- invert fec_sync for S2P1 +// bit 19 -- invert fec_valid for S2P1 +// bit 18 -- invert fec_clk for S2P1 +// bit 17:16 -- fec_s_sel for S2P1 00 - select TS0, 01 -- select TS1, 10 -- select TS2, 11 - reserved +// Bit 15 -- enable_des_pl_clk +// Bit 14:13 -- reserved +// Bit 12:10 -- ts_out_select, 0-TS0, 1-TS1, 2-TS2, 3,4-Reserved, 5-S2P1, 6-S2P0, 7-File +// bit 9:8 -- des_i_sel 00 -- select_fec_0, 01 -- select_fec_1, 10 -- select_fec_2, 11 - reserved +// bit 7 -- enable_des_pl +// bit 6 -- invert fec_error for S2P0 +// bit 5 -- invert fec_data for S2P0 +// bit 4 -- invert fec_sync for S2P0 +// bit 3 -- invert fec_valid for S2P0 +// bit 2 -- invert fec_clk for S2P0 +// bit 1:0 -- fec_s_sel for S2P0 00 - select TS0, 01 -- select TS1, 10 -- select TS2, 11 - reserved +#define STB_TOP_CONFIG (0x18f0) +#define P_STB_TOP_CONFIG (volatile unsigned int *)((0x18f0 << 2) + 0xffd00000) +// 31:28 - s2p1_clk_div +// 27:24 - s2p0_clk_div +// 23 - s2p1_disable +// 22 - s2p0_disable +// 21 - Reserved +// 20 -- TS_OUT_error_INVERT +// 19 -- TS_OUT_data_INVERT +// 18 -- TS_OUT_sync_INVERT +// 17 -- TS_OUT_valid_INVERT +// 16 -- TS_OUT_clk_INVERT +// 15:8 -- TS_package_length_sub_1 (default : 187) +// 7:0 -- fec_sync_byte (default : 0x47) +#define TS_TOP_CONFIG (0x18f1) +#define P_TS_TOP_CONFIG (volatile unsigned int *)((0x18f1 << 2) + 0xffd00000) +// Bit 25:24 -- transport_scrambling_control_odd_2 // should be 3 +// Bit 23:16 -- file_m2ts_skip_bytes +// Bit 15:8 -- des_out_dly +// Bit 7:6 -- transport_scrambling_control_odd // should be 3 +// Bit 5 -- ts_hiu_enable +// Bit 4:0 -- fec_clk_div +#define TS_FILE_CONFIG (0x18f2) +#define P_TS_FILE_CONFIG (volatile unsigned int *)((0x18f2 << 2) + 0xffd00000) +// Bit 19:14 -- des_2 ts pl state -- Read Only +// Bit 13:8 -- des ts pl state -- Read Only +// Bit 3:0 PID index to 8 PID to get key-set +// auto increse after TS_PL_PID_DATA read/write +#define TS_PL_PID_INDEX (0x18f3) +#define P_TS_PL_PID_INDEX (volatile unsigned int *)((0x18f3 << 2) + 0xffd00000) +// Bit 13 -- PID match disble +// Bit 12:0 -- PID +#define TS_PL_PID_DATA (0x18f4) +#define P_TS_PL_PID_DATA (volatile unsigned int *)((0x18f4 << 2) + 0xffd00000) +#define COMM_DESC_KEY0 (0x18f5) +#define P_COMM_DESC_KEY0 (volatile unsigned int *)((0x18f5 << 2) + 0xffd00000) +#define COMM_DESC_KEY1 (0x18f6) +#define P_COMM_DESC_KEY1 (volatile unsigned int *)((0x18f6 << 2) + 0xffd00000) +#define COMM_DESC_KEY_RW (0x18f7) +#define P_COMM_DESC_KEY_RW (volatile unsigned int *)((0x18f7 << 2) + 0xffd00000) +// CI+ Register defines +// Bits[31:0] of the key +#define CIPLUS_KEY0 (0x18f8) +#define P_CIPLUS_KEY0 (volatile unsigned int *)((0x18f8 << 2) + 0xffd00000) +// Bits[63:32] of the key +#define CIPLUS_KEY1 (0x18f9) +#define P_CIPLUS_KEY1 (volatile unsigned int *)((0x18f9 << 2) + 0xffd00000) +// Bits[95:64] of the key +#define CIPLUS_KEY2 (0x18fa) +#define P_CIPLUS_KEY2 (volatile unsigned int *)((0x18fa << 2) + 0xffd00000) +// Bits[127:96] of the key +#define CIPLUS_KEY3 (0x18fb) +#define P_CIPLUS_KEY3 (volatile unsigned int *)((0x18fb << 2) + 0xffd00000) +// bit[5] write AES IV B value +// bit[4] write AES IV A value +// bit[3] write AES B key +// bit[2] write AES A key +// bit[1] write DES B key +// bit[0] write DES A key +#define CIPLUS_KEY_WR (0x18fc) +#define P_CIPLUS_KEY_WR (volatile unsigned int *)((0x18fc << 2) + 0xffd00000) +// [15:8] TS out delay. This controls the rate at which the CIplus module drives TS out +// [3] General enable for the ciplus module +// [2] AES CBC disable (default should be 0 to enable AES CBC) +// [1] AES Enable +// [0] DES Eanble +#define CIPLUS_CONFIG (0x18fd) +#define P_CIPLUS_CONFIG (volatile unsigned int *)((0x18fd << 2) + 0xffd00000) +// bit[31:28] AES IV endian +// bit[27:24] AES message out endian +// bit[23:20] AES message in endian +// bit[19:16] AES key endian +// bit[15:11] unused +// bit[10:8] DES message out endian +// bit[6:4] DES message in endian +// bit[2:0] DES key endian +#define CIPLUS_ENDIAN (0x18fe) +#define P_CIPLUS_ENDIAN (volatile unsigned int *)((0x18fe << 2) + 0xffd00000) +// bit 15:8 - des_out_dly_2 +// bit 7 - reserved +// Bit 6-- enable_des_pl_clk_2 +// bit 5 - enable_des_pl_2 +// bit 4:2 -- use_des_2 bit[2] -- demux0, bit[3] -- demux1, bit[4] -- demux2 +// bit 1:0 -- des_i_sel_2 00 -- select_fec_0, 01 -- select_fec_1, 10 -- select_fec_2, 11 - reserved +#define COMM_DESC_2_CTL (0x18ff) +#define P_COMM_DESC_2_CTL (volatile unsigned int *)((0x18ff << 2) + 0xffd00000) +// +// NOTE: Don't process the demux registers using the standard create_headers.... perl script. +// Instead, since the demux has multiple instances (and many registers) use a separate +// script to create a separate stb_define.h for C-code. +//======================================================================== +// STB Registers (8'h00 - 8'h4f) +// +//======================================================================== +// STB registers are 8'h0x +// Bit 15:0 -- version number : 0x0002 (v0.01) +// Bit 15 -- fec_core_select 1 - select descramble output +// Bit 14:12 - fec_select 0-TS0, 1-TS1, 2-TS2, 3,4-Reserved, 5-S2P1, 6-S2P0, 7-File +// Bit 11 -- FEC_CLK +// Bit 10 -- SOP +// Bit 9 -- D_VALID +// Bit 8 -- D_FAIL +// Bit 7:0 -- D_DATA 7:0 +// bit 31 -- enable_free_clk_fec_data_valid +// bit 30 -- enable_free_clk_stb_reg +// bit 29 -- always_use_pes_package_length +// bit 28 -- disable_pre_incomplete_section_fix +// bit 27 -- pointer_field_multi_pre_en +// bit 26 -- ignore_pre_incomplete_section +// bit 25 -- video2_enable +// bit 24:22 -- video2_type +// bit 21 -- do_not_trust_pes_package_length +// bit 20 (bit 4) -- Bypass use recoder path +// bit 19 (bit 3) -- clear_PID_continuity_counter_valid +// bit 18 (bit 2) -- Disable Splicing +// bit 17 (bit 1) -- Insert PES_STRONG_SYNC in Audio PES +// bit 16 (bit 0) -- Insert PES_STRONG_SYNC in Video PES +// Bit 15 - do not trust section length +// Bit 14 - om cmd push even zero +// Bit 13 - set_buff_ready_even_not_busy +// Bit 12 - SUB, OTHER PES interrupt at beginning of PES +// Bit 11 - discard_av_package -- for ts_recorder use only +// Bit 10 - ts_recorder_select 0:after PID filter 1:before PID filter +// Bit 9 - ts_recorder_enable +// Bit 8 - (table_id == 0xff) means section_end +// Bit 7 - do not send uncomplete section +// Bit 6 - do not discard duplicate package +// Bit 5 - search SOP when trasport_error_indicator +// Bit 4 - stb demux enable +// Bit 3 - do not reset state machine on SOP +// Bit 2 - search SOP when error happened ( when ignore_fail_n_sop, will have this case) +// Bit 1 - do not use SOP input ( check FEC sync byte instead ) +// Bit 0 - ignore fec_error bit when non sop ( check error on SOP only) +// bit 15:8 demux package length - 1 ( default : 187 ) +// bit 7:0 default is 0x47 +// bit 31:16 -- filter memory write data hi[31:16] +// bit 15:0 -- filter memory write data low [15:0] +// bit 31:24 -- advanced setting hi +// bit 23:16 -- advanced setting low +// bit 15 -- filter memory write data request +// bit 7:0 -- filter memory write addr +// bit 13:8 demux state -- read only +// bit 7:4 -- maxnum section filter compare address +// bit 3:0 -- maxnum PID filter compare address +// bit 15 - transport_error_indicator +// bit 14 - payload_unit_start_indicator +// bit 13 - transport_priority +// bit 12:0 - PID +// bit 7:6 transport_scrambling_control +// bit 5:4 adaptation_field_control +// bit 3:0 continuity_counter +// bit 15:12 -- om_cmd_count (read only) +// bit 11:9 -- overflow_count // bit 11:9 -- om_cmd_wr_ptr (read only) +// bit 8:6 -- om_overwrite_count // bit 8:6 -- om_cmd_rd_ptr (read only) +// bit 5:3 -- type_stb_om_w_rd (read only) +// bit 2 -- unit_start_stb_om_w_rd (read only) +// bit 1 -- om_cmd_overflow (read only) +// bit 0 -- om_cmd_pending (read) +// bit 0 -- om_cmd_read_finished (write) +// bit 15:9 // bit 14:8 -- count_stb_om_w_rd (read only) +// bit 8:0 // bit 7:0 -- start_stb_om_wa_rd (read only) +// bit 11:0 -- offset for section data +// bit 31:16 -- base address for section buffer group 0 (*0x400 to get real address) +// bit 15:0 -- base address for section buffer group 1 (*0x400 to get real address) +// bit 31:16 -- ba2e address for section buffer group 2 (*0x400 to get real address) +// bit 15:0 -- base address for section buffer group 3 (*0x400 to get real address) +// bit 3:0 -- section buffer size for group 0 (bit used, for example, 10 means 1K) +// bit 7:4 -- section buffer size for group 1 +// bit 11:8 -- section buffer size for group 2 +// bit 15:12 -- section buffer size for group 3 +// section buffer busy status for buff 31:0 ( Read Only ) +// section buffer write status for buff 31:0 -- Read +// clear buffer status ( buff READY and BUSY ) -- write +// bit 4:0 -- SEC_BUFFER_INDEX RW +// bit 12:8 -- SEC_BUFFER_NUMBER for the INDEX buffer Read_Only +// bit 14 -- output_section_buffer_valid +// bit 15 -- section_reset_busy (Read Only) +// bit 9:5 -- BYPASS PID number +// bit 4:0 -- PCR PID number +// bit 15:0 -- stream_id filter bit enable +// bit 7:0 -- stream_id filter target +// bit 12 -- PCR_EN +// bit 11:0 -- PCR90K_DIV +// bit 31:0 -- PCR[31:0] R/W +// bit 31:0 -- VPTS[31:0] R/W +// bit 31:0 -- VDTS[31:0] R/W +// bit 31:0 -- APTS[31:0] R/W +// bit 31:0 -- SPTS[31:0] R/W +// read -- status, write 1 clear status +// bit 15 -- SUB_PTS[32] +// bit 14 -- AUDIO_PTS[32] +// bit 13 -- VIDEO_DTS[32] +// bit 12 -- VIDEO_PTS[32] +// bit 3 -- sub_pts_ready +// bit 2 -- audio_pts_ready +// bit 1 -- video_dts_ready +// bit 0 -- video_pts_ready +// bit 3:0 -- +// 0 -- adaptation_field_length[7:0], adaption_field_byte_1[7:0] +// 1 -- stream_id[7:0], pes_header_bytes_left[7:0] +// 2 -- pes_package_bytes_left[15:0] +// 3 -- pes_ctr_byte[7:0], pes_flag_byte[7:0] +// +// read only +// bit[31] -- no_match_record_en +// bit[30:16] - reserved +// default : 0x807f +// bit 15:9 -- MAX OM DMA COUNT (default: 0x40) +// bit 8:0 -- LAST ADDR OF OM ADDR (default: 127) +// 15:0 WRITE 1 CLEAR to clear interrupt source +//12 -- INPUT_TIME_OUT +//11 -- PCR_ready +//10 -- audio_splicing_point +// 9 -- video_splicing_point +// 8 -- other_PES_int +// 7 -- sub_PES_int +// 6 -- discontinuity +// 5 -- duplicated_pack_found +// 4 -- New PDTS ready +// 3 -- om_cmd_buffer ready for access +// 2 -- section buffer ready +// 1 -- transport_error_indicator +// 0 -- TS ERROR PIN +// Bit 5:3 - demux om write endian control for bypass +// Bit 2:0 - demux om write endian control for section +// When Bit 31 - 1 write will indicate all type use sepertate endian (Write Only) +// Bit 23:21 - demux om write endian control for OTHER_PES_PACKET +// Bit 20:18 - demux om write endian control for SCR_ONLY_PACKET +// Bit 17:15 - demux om write endian control for SUB_PACKET +// Bit 14:12 - demux om write endian control for AUDIO_PACKET +// Bit 11:9 - demux om write endian control for VIDEO_PACKET +// +// When Bit 31 - 0 write will indicate all type else use Bit 8:6 +// Bit 8:6 - demux om write endian control for else +// Bit 15:8 -- last_burst_threshold +// Bit 7 -- use hi_bsf interface +// Bit 6:2 - fec_clk_div +// Bit 1 ts_source_sel +// Bit 0 - Hiu TS generate enable +// bit 15:0 -- base address for section buffer start (*0x10000 to get real base) +// bit 11 -- mask bit for OTHER_PES_AHB_DMA_EN +// bit 10 -- mask bit for SUB_AHB_DMA_EN +// bit 9 -- mask bit for BYPASS_AHB_DMA_EN +// bit 8 -- mask bit for SECTION_AHB_DMA_EN +// bit 7 -- mask bit for recoder stream +// bit 6:0 -- mask bit for each type +// bit 31:0 -- vb_wr_ptr for video PDTS +// bit 31:0 -- ab_wr_ptr for audio PDTS +// bit 20:0 -- SB_WRITE_PTR (sb_wr_ptr << 3 == byte write position) +// bit 19:0 -- SB_START (sb_start << 12 == byte address); +// bit 20:0 -- SB_SIZE (sb_size << 3 == byte size, 16M maximun) +// bit 31:0 -- sb_wr_ptr for sub PES +// bit 31:16 -- ob_wr_ptr for other PES +// bit 20:0 -- OB_WRITE_PTR (ob_wr_ptr << 3 == byte write position) +// bit 19:0 -- OB_START (ob_start << 12 == byte address); +// bit 20:0 -- OB_SIZE (ob_size << 3 == byte size, 16M maximun) +// bit 31:0 -- ob_wr_ptr for sub PES +// 15:0 DEMUX interrupt MASK +// 9 -- splicing_point +// 8 -- other_PES_int +// 7 -- sub_PES_int +// 6 -- discontinuity +// 5 -- duplicated_pack_found +// 4 -- New PDTS ready +// 3 -- om_cmd_buffer ready for access +// 2 -- section buffer ready +// 1 -- transport_error_indicator +// 0 -- TS ERROR PIN +// 31:16 VIDEO PID filter data +//15 -- splicing VIDEO PID change enable +//14:10 -- VIDEO PID FILTER ADDRESS +// 9 -- PES splicing active (Read Only) +// 8 -- splicing active (Read Only) +// 7:0 splicing countdown (Read Only) +// 31:16 AUDIO PID filter data +//15 -- splicing AUDIO PID change enable +//14:10 -- AUDIO PID FILTER ADDRESS +// 9 -- PES splicing active (Read Only) +// 8 -- splicing active (Read Only) +// 7:0 splicing countdown (Read Only) +// 23:16 M2TS_SKIP_BYTES +// 15:8 LAST TS PACKAGE BYTE COUNT (Read Only) +// 7:0 PACKAGE BYTE COUNT (Read Only) +// 15:0 2 bytes strong sync add to PES +// bit 15 -- stb_om_ren +// bit 14:11 -- reserved +// bit 10:0 -- OM_DATA_RD_ADDR +// bit 15:0 -- OM_DATA_RD +// AUTO STOP SETTING for 32 channels +// 4-nbits per channel +// when write +// bit 3 -- set section active +// bit 2:0 -- auto stop after count (0 means never stop) +// when read +// bit 3 -- current active status (1 - active, 0 - stopped ) +// bit 2:0 -- count down to auto stop +// section 31:24 +// section 23:16 +// section 15:8 +// section 7:0 +// bit 31:0 reset channel status - each bit reset each channel +// read -- 32 channel status +// bit 4 -- video_stamp_use_dts +// bit 3 -- audio_stamp_sync_1_en +// bit 2 -- audio_stamp_insert_en +// bit 1 -- video_stamp_sync_1_en +// bit 0 -- video_stamp_insert_en +// Write : Bit[4:0] secter filter number for reset +// Read : select according to output_section_buffer_valid : +// per bit per section buffer valid status +// or section_buffer_ignore +// bit[31:0] - channel_reset_timeout_disable +// bit[31] - no_match_reset_timeout_disable +// bit[30:0] input_time_out_int_cnt (0 -- means disable) Wr-setting, Rd-count +// bit[31:0] - channel_packet_count_disable +// bit[31] - no_match_packet_count_disable +// bit[30:0] input_packet_count +// bit[31:0] channel_record_enable +// bit[31:0] channel_process_enable +// bit[31:24] small_sec_size ((n+1) * 256 Bytes) +// bit[23:16] small_sec_rd_ptr +// bit[15:8] small_sec_wr_ptr +// bit[7:2] reserved +// bit[1] small_sec_wr_ptr_wr_enable +// bit[0] small_section_enable +// bit[31:0] small_sec_start_addr +// synopsys translate_off +// synopsys translate_on +// +// Closing file: stb_define.h +// +// +// Reading file: periphs_reg.h +// +// $periphs/rtl/periphs_core register defines for the +// APB bus +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: SC_CBUS_BASE = 0x94 +// ----------------------------------------------- +#define SMARTCARD_REG0 (0x9400) +#define P_SMARTCARD_REG0 (volatile unsigned int *)((0x9400 << 2) + 0xffd00000) +#define SMARTCARD_REG1 (0x9401) +#define P_SMARTCARD_REG1 (volatile unsigned int *)((0x9401 << 2) + 0xffd00000) +#define SMARTCARD_REG2 (0x9402) +#define P_SMARTCARD_REG2 (volatile unsigned int *)((0x9402 << 2) + 0xffd00000) +#define SMARTCARD_STATUS (0x9403) +#define P_SMARTCARD_STATUS (volatile unsigned int *)((0x9403 << 2) + 0xffd00000) +#define SMARTCARD_INTR (0x9404) +#define P_SMARTCARD_INTR (volatile unsigned int *)((0x9404 << 2) + 0xffd00000) +#define SMARTCARD_REG5 (0x9405) +#define P_SMARTCARD_REG5 (volatile unsigned int *)((0x9405 << 2) + 0xffd00000) +#define SMARTCARD_REG6 (0x9406) +#define P_SMARTCARD_REG6 (volatile unsigned int *)((0x9406 << 2) + 0xffd00000) +#define SMARTCARD_FIFO (0x9407) +#define P_SMARTCARD_FIFO (volatile unsigned int *)((0x9407 << 2) + 0xffd00000) +#define SMARTCARD_REG8 (0x9408) +#define P_SMARTCARD_REG8 (volatile unsigned int *)((0x9408 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: UART0_CBUS_BASE = 0x90 +// ----------------------------------------------- +#define UART0_WFIFO (0x9000) +#define P_UART0_WFIFO (volatile unsigned int *)((0x9000 << 2) + 0xffd00000) +#define UART0_RFIFO (0x9001) +#define P_UART0_RFIFO (volatile unsigned int *)((0x9001 << 2) + 0xffd00000) +#define UART0_CONTROL (0x9002) +#define P_UART0_CONTROL (volatile unsigned int *)((0x9002 << 2) + 0xffd00000) +#define UART0_STATUS (0x9003) +#define P_UART0_STATUS (volatile unsigned int *)((0x9003 << 2) + 0xffd00000) +#define UART0_MISC (0x9004) +#define P_UART0_MISC (volatile unsigned int *)((0x9004 << 2) + 0xffd00000) +#define UART0_REG5 (0x9005) +#define P_UART0_REG5 (volatile unsigned int *)((0x9005 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: UART1_CBUS_BASE = 0x8c +// ----------------------------------------------- +#define UART1_WFIFO (0x8c00) +#define P_UART1_WFIFO (volatile unsigned int *)((0x8c00 << 2) + 0xffd00000) +#define UART1_RFIFO (0x8c01) +#define P_UART1_RFIFO (volatile unsigned int *)((0x8c01 << 2) + 0xffd00000) +#define UART1_CONTROL (0x8c02) +#define P_UART1_CONTROL (volatile unsigned int *)((0x8c02 << 2) + 0xffd00000) +#define UART1_STATUS (0x8c03) +#define P_UART1_STATUS (volatile unsigned int *)((0x8c03 << 2) + 0xffd00000) +#define UART1_MISC (0x8c04) +#define P_UART1_MISC (volatile unsigned int *)((0x8c04 << 2) + 0xffd00000) +#define UART1_REG5 (0x8c05) +#define P_UART1_REG5 (volatile unsigned int *)((0x8c05 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: UART2_CBUS_BASE = 0x88 +// ----------------------------------------------- +#define UART2_WFIFO (0x8800) +#define P_UART2_WFIFO (volatile unsigned int *)((0x8800 << 2) + 0xffd00000) +#define UART2_RFIFO (0x8801) +#define P_UART2_RFIFO (volatile unsigned int *)((0x8801 << 2) + 0xffd00000) +#define UART2_CONTROL (0x8802) +#define P_UART2_CONTROL (volatile unsigned int *)((0x8802 << 2) + 0xffd00000) +#define UART2_STATUS (0x8803) +#define P_UART2_STATUS (volatile unsigned int *)((0x8803 << 2) + 0xffd00000) +#define UART2_MISC (0x8804) +#define P_UART2_MISC (volatile unsigned int *)((0x8804 << 2) + 0xffd00000) +#define UART2_REG5 (0x8805) +#define P_UART2_REG5 (volatile unsigned int *)((0x8805 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: UART3_CBUS_BASE = 0x84 +// ----------------------------------------------- +#define UART3_DF_REG_A73 (0x8400) +#define P_UART3_DF_REG_A73 (volatile unsigned int *)((0x8400 << 2) + 0xffd00000) +#define UART3_DF_REG_A74 (0x8401) +#define P_UART3_DF_REG_A74 (volatile unsigned int *)((0x8401 << 2) + 0xffd00000) +#define UART3_DF_REG_A75 (0x8402) +#define P_UART3_DF_REG_A75 (volatile unsigned int *)((0x8402 << 2) + 0xffd00000) +#define UART3_DF_REG_A76 (0x8403) +#define P_UART3_DF_REG_A76 (volatile unsigned int *)((0x8403 << 2) + 0xffd00000) +#define UART3_DF_REG_A77 (0x8404) +#define P_UART3_DF_REG_A77 (volatile unsigned int *)((0x8404 << 2) + 0xffd00000) +#define UART3_DF_REG_A78 (0x8405) +#define P_UART3_DF_REG_A78 (volatile unsigned int *)((0x8405 << 2) + 0xffd00000) +#define UART3_DF_REG_A79 (0x8406) +#define P_UART3_DF_REG_A79 (volatile unsigned int *)((0x8406 << 2) + 0xffd00000) +#define UART3_DF_REG_A80 (0x8407) +#define P_UART3_DF_REG_A80 (volatile unsigned int *)((0x8407 << 2) + 0xffd00000) +#define UART3_DF_REG_A81 (0x8408) +#define P_UART3_DF_REG_A81 (volatile unsigned int *)((0x8408 << 2) + 0xffd00000) +#define UART3_DF_REG_A82 (0x8409) +#define P_UART3_DF_REG_A82 (volatile unsigned int *)((0x8409 << 2) + 0xffd00000) +#define UART3_DF_REG_A83 (0x8410) +#define P_UART3_DF_REG_A83 (volatile unsigned int *)((0x8410 << 2) + 0xffd00000) +#define UART3_DF_REG_A84 (0x8411) +#define P_UART3_DF_REG_A84 (volatile unsigned int *)((0x8411 << 2) + 0xffd00000) +#define UART3_DF_REG_A85 (0x8412) +#define P_UART3_DF_REG_A85 (volatile unsigned int *)((0x8412 << 2) + 0xffd00000) +#define UART3_DF_REG_A86 (0x8413) +#define P_UART3_DF_REG_A86 (volatile unsigned int *)((0x8413 << 2) + 0xffd00000) +#define UART3_DF_REG_A87 (0x8414) +#define P_UART3_DF_REG_A87 (volatile unsigned int *)((0x8414 << 2) + 0xffd00000) +#define UART3_DF_REG_A88 (0x8415) +#define P_UART3_DF_REG_A88 (volatile unsigned int *)((0x8415 << 2) + 0xffd00000) +#define UART3_DF_REG_A89 (0x8416) +#define P_UART3_DF_REG_A89 (volatile unsigned int *)((0x8416 << 2) + 0xffd00000) +#define UART3_DF_REG_A96 (0x8417) +#define P_UART3_DF_REG_A96 (volatile unsigned int *)((0x8417 << 2) + 0xffd00000) +#define UART3_DF_REG_A97 (0x8418) +#define P_UART3_DF_REG_A97 (volatile unsigned int *)((0x8418 << 2) + 0xffd00000) +#define UART3_DF_REG_A128 (0x8420) +#define P_UART3_DF_REG_A128 (volatile unsigned int *)((0x8420 << 2) + 0xffd00000) +#define UART3_DF_REG_A129 (0x8421) +#define P_UART3_DF_REG_A129 (volatile unsigned int *)((0x8421 << 2) + 0xffd00000) +#define UART3_DF_REG_A130 (0x8422) +#define P_UART3_DF_REG_A130 (volatile unsigned int *)((0x8422 << 2) + 0xffd00000) +#define UART3_DF_REG_A131 (0x8423) +#define P_UART3_DF_REG_A131 (volatile unsigned int *)((0x8423 << 2) + 0xffd00000) +#define UART3_DF_REG_A132 (0x8424) +#define P_UART3_DF_REG_A132 (volatile unsigned int *)((0x8424 << 2) + 0xffd00000) +#define UART3_DF_REG_A133 (0x8425) +#define P_UART3_DF_REG_A133 (volatile unsigned int *)((0x8425 << 2) + 0xffd00000) +#define UART3_DF_REG_A134 (0x8426) +#define P_UART3_DF_REG_A134 (volatile unsigned int *)((0x8426 << 2) + 0xffd00000) +#define UART3_DF_REG_A135 (0x8427) +#define P_UART3_DF_REG_A135 (volatile unsigned int *)((0x8427 << 2) + 0xffd00000) +#define UART3_DF_REG_A136 (0x8428) +#define P_UART3_DF_REG_A136 (volatile unsigned int *)((0x8428 << 2) + 0xffd00000) +// ---------------------------- +// SANA (Stream Analyzer) +// ---------------------------- +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: SANA_CBUS_BASE = 0x30 +// ----------------------------------------------- +// [31:16] - ddr_setting +// [15] - disable_stream_clock_gating +// [14:13] - mem_pd_ctl_sana +// [6:4] - stream_fetch_endian +// [3] - use_parser_vbuf_wp +// [2] - use_parser_vbuf2_wp +// [1] - stream_fetch_busy - Read Only +// [0] - stream_fetch_enable +#define SANA_STREAM_CONTROL (0x3020) +#define P_SANA_STREAM_CONTROL (volatile unsigned int *)((0x3020 << 2) + 0xffd00000) +#define SANA_STREAM_START_ADDR (0x3021) +#define P_SANA_STREAM_START_ADDR (volatile unsigned int *)((0x3021 << 2) + 0xffd00000) +#define SANA_STREAM_END_ADDR (0x3022) +#define P_SANA_STREAM_END_ADDR (volatile unsigned int *)((0x3022 << 2) + 0xffd00000) +// SW stream_buffer_wr_ptr +#define SANA_STREAM_WR_PTR (0x3023) +#define P_SANA_STREAM_WR_PTR (volatile unsigned int *)((0x3023 << 2) + 0xffd00000) +#define SANA_STREAM_RD_PTR (0x3024) +#define P_SANA_STREAM_RD_PTR (volatile unsigned int *)((0x3024 << 2) + 0xffd00000) +//[31:0] stream_buffer_level - read only +#define SANA_STREAM_LEVEL (0x3025) +#define P_SANA_STREAM_LEVEL (volatile unsigned int *)((0x3025 << 2) + 0xffd00000) +// [31:29] stream_buffer_hole 256*(4^0) bytes +// [28:23] stream_fifo_hole +// [22:16] stream_fifo_level +// [15] stream_fifo_wr_ptr_update_en +// [14:8] stream_fifo_wr_ptr +// [7] stream_fifo_rd_ptr_update_en +// [6:0] stream_fifo_rd_ptr +#define SANA_STREAM_FIFO_CTL (0x3026) +#define P_SANA_STREAM_FIFO_CTL (volatile unsigned int *)((0x3026 << 2) + 0xffd00000) +// [31:18] - Reserved +// [17] - sana_int_enable +// [16] - sana_int_level (default : 0(pulse)) +// [15] - disable_shift_clock_gating +// [14] - startcode_protect -- TODO +// [8:6] - sft_valid_wr_position (default : 3 (at least 24 bits available)) +// [5:4] - emulate_code_length_sub_1(Default : 2) +// [3] - emulation_auto_on_startcode(Default : 0) +// [2:1] - start_code_length_sub_1(Default : 2) +// [0] - stream_shift_enable(Default : 0) +#define SANA_SHIFT_CONTROL (0x3027) +#define P_SANA_SHIFT_CONTROL (volatile unsigned int *)((0x3027 << 2) + 0xffd00000) +// [31:0] - max 4-bytes start code (Default : 0x00000100) +#define SANA_SHIFT_STARTCODE (0x3028) +#define P_SANA_SHIFT_STARTCODE (volatile unsigned int *)((0x3028 << 2) + 0xffd00000) +// [31:0] - max 4-bytes emulate code (Default : 0x00000300) +#define SANA_SHIFT_EMULATECODE (0x3029) +#define P_SANA_SHIFT_EMULATECODE (volatile unsigned int *)((0x3029 << 2) + 0xffd00000) +// [3] - sana_int +// [2] - startcode_searching +// [1] - emulation_check_on +// [0] - startcode_check_on +#define SANA_SHIFT_STATUS (0x302a) +#define P_SANA_SHIFT_STATUS (volatile unsigned int *)((0x302a << 2) + 0xffd00000) +// [31:0] sana_shifted_data - read only +#define SANA_SHIFTED_DATA (0x302b) +#define P_SANA_SHIFTED_DATA (volatile unsigned int *)((0x302b << 2) + 0xffd00000) +// [31:0] shift_byte_count[31:0] +#define SANA_SHIFT_BYTE_COUNT (0x302c) +#define P_SANA_SHIFT_BYTE_COUNT (volatile unsigned int *)((0x302c << 2) + 0xffd00000) +// [31:28] - shift_byte_count[35:32] +// [27:20] - element_read_data[31:24] +// [10] - bytealign +// [9] - signed_element +// [8] - start_element_read +// [7] - shift_busy +// [6:0] - shift_bits +#define SANA_SHIFT_COMMAND (0x302d) +#define P_SANA_SHIFT_COMMAND (volatile unsigned int *)((0x302d << 2) + 0xffd00000) +// 31:8 - element_read_data[23:0] +// 7:2 - element_read_length +// 1:0 - element_read_state +#define SANA_ELEMENT_RESULT (0x302e) +#define P_SANA_ELEMENT_RESULT (volatile unsigned int *)((0x302e << 2) + 0xffd00000) +// support up to 8 masters, one bit per master +// 23:16 - lock_release (Write 1 to release) +// 15:8 - lock_req (write 1 to request) +// 7:0 - lock_result (Read Only) +#define ATOM_LOCK (0x302f) +#define P_ATOM_LOCK (volatile unsigned int *)((0x302f << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: I2C_M_0_CBUS_BASE = 0x7c +// ----------------------------------------------- +#define I2C_M_0_CONTROL_REG (0x7c00) +#define P_I2C_M_0_CONTROL_REG (volatile unsigned int *)((0x7c00 << 2) + 0xffd00000) + #define I2C_M_MANUAL_SDA_I 26 + #define I2C_M_MANUAL_SCL_I 25 + #define I2C_M_MANUAL_SDA_O 24 + #define I2C_M_MANUAL_SCL_O 23 + #define I2C_M_MANUAL_EN 22 + #define I2C_M_DELAY_MSB 21 + #define I2C_M_DELAY_LSB 12 + #define I2C_M_DATA_CNT_MSB 11 + #define I2C_M_DATA_CNT_LSB 8 + #define I2C_M_CURR_TOKEN_MSB 7 + #define I2C_M_CURR_TOKEN_LSB 4 + #define I2C_M_ERROR 3 + #define I2C_M_STATUS 2 + #define I2C_M_ACK_IGNORE 1 + #define I2C_M_START 0 +#define I2C_M_0_SLAVE_ADDR (0x7c01) +#define P_I2C_M_0_SLAVE_ADDR (volatile unsigned int *)((0x7c01 << 2) + 0xffd00000) +#define I2C_M_0_TOKEN_LIST0 (0x7c02) +#define P_I2C_M_0_TOKEN_LIST0 (volatile unsigned int *)((0x7c02 << 2) + 0xffd00000) +#define I2C_M_0_TOKEN_LIST1 (0x7c03) +#define P_I2C_M_0_TOKEN_LIST1 (volatile unsigned int *)((0x7c03 << 2) + 0xffd00000) +#define I2C_M_0_WDATA_REG0 (0x7c04) +#define P_I2C_M_0_WDATA_REG0 (volatile unsigned int *)((0x7c04 << 2) + 0xffd00000) +#define I2C_M_0_WDATA_REG1 (0x7c05) +#define P_I2C_M_0_WDATA_REG1 (volatile unsigned int *)((0x7c05 << 2) + 0xffd00000) +#define I2C_M_0_RDATA_REG0 (0x7c06) +#define P_I2C_M_0_RDATA_REG0 (volatile unsigned int *)((0x7c06 << 2) + 0xffd00000) +#define I2C_M_0_RDATA_REG1 (0x7c07) +#define P_I2C_M_0_RDATA_REG1 (volatile unsigned int *)((0x7c07 << 2) + 0xffd00000) +// ----------------------------------------------- +// CBUS_BASE: I2C_M_1_CBUS_BASE = 0x78 +// ----------------------------------------------- +#define I2C_M_1_CONTROL_REG (0x7800) +#define P_I2C_M_1_CONTROL_REG (volatile unsigned int *)((0x7800 << 2) + 0xffd00000) +#define I2C_M_1_SLAVE_ADDR (0x7801) +#define P_I2C_M_1_SLAVE_ADDR (volatile unsigned int *)((0x7801 << 2) + 0xffd00000) +#define I2C_M_1_TOKEN_LIST0 (0x7802) +#define P_I2C_M_1_TOKEN_LIST0 (volatile unsigned int *)((0x7802 << 2) + 0xffd00000) +#define I2C_M_1_TOKEN_LIST1 (0x7803) +#define P_I2C_M_1_TOKEN_LIST1 (volatile unsigned int *)((0x7803 << 2) + 0xffd00000) +#define I2C_M_1_WDATA_REG0 (0x7804) +#define P_I2C_M_1_WDATA_REG0 (volatile unsigned int *)((0x7804 << 2) + 0xffd00000) +#define I2C_M_1_WDATA_REG1 (0x7805) +#define P_I2C_M_1_WDATA_REG1 (volatile unsigned int *)((0x7805 << 2) + 0xffd00000) +#define I2C_M_1_RDATA_REG0 (0x7806) +#define P_I2C_M_1_RDATA_REG0 (volatile unsigned int *)((0x7806 << 2) + 0xffd00000) +#define I2C_M_1_RDATA_REG1 (0x7807) +#define P_I2C_M_1_RDATA_REG1 (volatile unsigned int *)((0x7807 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: I2C_M_2_CBUS_BASE = 0x74 +// ----------------------------------------------- +#define I2C_M_2_CONTROL_REG (0x7400) +#define P_I2C_M_2_CONTROL_REG (volatile unsigned int *)((0x7400 << 2) + 0xffd00000) +#define I2C_M_2_SLAVE_ADDR (0x7401) +#define P_I2C_M_2_SLAVE_ADDR (volatile unsigned int *)((0x7401 << 2) + 0xffd00000) +#define I2C_M_2_TOKEN_LIST0 (0x7402) +#define P_I2C_M_2_TOKEN_LIST0 (volatile unsigned int *)((0x7402 << 2) + 0xffd00000) +#define I2C_M_2_TOKEN_LIST1 (0x7403) +#define P_I2C_M_2_TOKEN_LIST1 (volatile unsigned int *)((0x7403 << 2) + 0xffd00000) +#define I2C_M_2_WDATA_REG0 (0x7404) +#define P_I2C_M_2_WDATA_REG0 (volatile unsigned int *)((0x7404 << 2) + 0xffd00000) +#define I2C_M_2_WDATA_REG1 (0x7405) +#define P_I2C_M_2_WDATA_REG1 (volatile unsigned int *)((0x7405 << 2) + 0xffd00000) +#define I2C_M_2_RDATA_REG0 (0x7406) +#define P_I2C_M_2_RDATA_REG0 (volatile unsigned int *)((0x7406 << 2) + 0xffd00000) +#define I2C_M_2_RDATA_REG1 (0x7407) +#define P_I2C_M_2_RDATA_REG1 (volatile unsigned int *)((0x7407 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: I2C_M_3_CBUS_BASE = 0x70 +// ----------------------------------------------- +#define I2C_M_3_CONTROL_REG (0x7000) +#define P_I2C_M_3_CONTROL_REG (volatile unsigned int *)((0x7000 << 2) + 0xffd00000) +#define I2C_M_3_SLAVE_ADDR (0x7001) +#define P_I2C_M_3_SLAVE_ADDR (volatile unsigned int *)((0x7001 << 2) + 0xffd00000) +#define I2C_M_3_TOKEN_LIST0 (0x7002) +#define P_I2C_M_3_TOKEN_LIST0 (volatile unsigned int *)((0x7002 << 2) + 0xffd00000) +#define I2C_M_3_TOKEN_LIST1 (0x7003) +#define P_I2C_M_3_TOKEN_LIST1 (volatile unsigned int *)((0x7003 << 2) + 0xffd00000) +#define I2C_M_3_WDATA_REG0 (0x7004) +#define P_I2C_M_3_WDATA_REG0 (volatile unsigned int *)((0x7004 << 2) + 0xffd00000) +#define I2C_M_3_WDATA_REG1 (0x7005) +#define P_I2C_M_3_WDATA_REG1 (volatile unsigned int *)((0x7005 << 2) + 0xffd00000) +#define I2C_M_3_RDATA_REG0 (0x7006) +#define P_I2C_M_3_RDATA_REG0 (volatile unsigned int *)((0x7006 << 2) + 0xffd00000) +#define I2C_M_3_RDATA_REG1 (0x7007) +#define P_I2C_M_3_RDATA_REG1 (volatile unsigned int *)((0x7007 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: PWM_AB_CBUS_BASE = 0x6c +// ----------------------------------------------- +#define PWM_PWM_A (0x6c00) +#define P_PWM_PWM_A (volatile unsigned int *)((0x6c00 << 2) + 0xffd00000) +#define PWM_PWM_B (0x6c01) +#define P_PWM_PWM_B (volatile unsigned int *)((0x6c01 << 2) + 0xffd00000) +#define PWM_MISC_REG_AB (0x6c02) +#define P_PWM_MISC_REG_AB (volatile unsigned int *)((0x6c02 << 2) + 0xffd00000) +#define PWM_DELTA_SIGMA_AB (0x6c03) +#define P_PWM_DELTA_SIGMA_AB (volatile unsigned int *)((0x6c03 << 2) + 0xffd00000) +#define PWM_TIME_AB (0x6c04) +#define P_PWM_TIME_AB (volatile unsigned int *)((0x6c04 << 2) + 0xffd00000) +#define PWM_A2 (0x6c05) +#define P_PWM_A2 (volatile unsigned int *)((0x6c05 << 2) + 0xffd00000) +#define PWM_B2 (0x6c06) +#define P_PWM_B2 (volatile unsigned int *)((0x6c06 << 2) + 0xffd00000) +#define PWM_BLINK_AB (0x6c07) +#define P_PWM_BLINK_AB (volatile unsigned int *)((0x6c07 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: PWM_CD_CBUS_BASE = 0x68 +// ----------------------------------------------- +#define PWM_PWM_C (0x6800) +#define P_PWM_PWM_C (volatile unsigned int *)((0x6800 << 2) + 0xffd00000) +#define PWM_PWM_D (0x6801) +#define P_PWM_PWM_D (volatile unsigned int *)((0x6801 << 2) + 0xffd00000) +#define PWM_MISC_REG_CD (0x6802) +#define P_PWM_MISC_REG_CD (volatile unsigned int *)((0x6802 << 2) + 0xffd00000) +#define PWM_DELTA_SIGMA_CD (0x6803) +#define P_PWM_DELTA_SIGMA_CD (volatile unsigned int *)((0x6803 << 2) + 0xffd00000) +#define PWM_TIME_CD (0x6804) +#define P_PWM_TIME_CD (volatile unsigned int *)((0x6804 << 2) + 0xffd00000) +#define PWM_C2 (0x6805) +#define P_PWM_C2 (volatile unsigned int *)((0x6805 << 2) + 0xffd00000) +#define PWM_D2 (0x6806) +#define P_PWM_D2 (volatile unsigned int *)((0x6806 << 2) + 0xffd00000) +#define PWM_BLINK_CD (0x6807) +#define P_PWM_BLINK_CD (volatile unsigned int *)((0x6807 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: PWM_EF_CBUS_BASE = 0x64 +// ----------------------------------------------- +#define PWM_PWM_E (0x6400) +#define P_PWM_PWM_E (volatile unsigned int *)((0x6400 << 2) + 0xffd00000) +#define PWM_PWM_F (0x6401) +#define P_PWM_PWM_F (volatile unsigned int *)((0x6401 << 2) + 0xffd00000) +#define PWM_MISC_REG_EF (0x6402) +#define P_PWM_MISC_REG_EF (volatile unsigned int *)((0x6402 << 2) + 0xffd00000) +#define PWM_DELTA_SIGMA_EF (0x6403) +#define P_PWM_DELTA_SIGMA_EF (volatile unsigned int *)((0x6403 << 2) + 0xffd00000) +#define PWM_TIME_EF (0x6404) +#define P_PWM_TIME_EF (volatile unsigned int *)((0x6404 << 2) + 0xffd00000) +#define PWM_E2 (0x6405) +#define P_PWM_E2 (volatile unsigned int *)((0x6405 << 2) + 0xffd00000) +#define PWM_F2 (0x6406) +#define P_PWM_F2 (volatile unsigned int *)((0x6406 << 2) + 0xffd00000) +#define PWM_BLINK_EF (0x6407) +#define P_PWM_BLINK_EF (volatile unsigned int *)((0x6407 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: MSR_CLK_CBUS_BASE = 0x60 +// ----------------------------------------------- +#define MSR_CLK_DUTY (0x6000) +#define P_MSR_CLK_DUTY (volatile unsigned int *)((0x6000 << 2) + 0xffd00000) +#define MSR_CLK_REG0 (0x6001) +#define P_MSR_CLK_REG0 (volatile unsigned int *)((0x6001 << 2) + 0xffd00000) +#define MSR_CLK_REG1 (0x6002) +#define P_MSR_CLK_REG1 (volatile unsigned int *)((0x6002 << 2) + 0xffd00000) +#define MSR_CLK_REG2 (0x6003) +#define P_MSR_CLK_REG2 (volatile unsigned int *)((0x6003 << 2) + 0xffd00000) +#define MSR_CLK_REG3 (0x6004) +#define P_MSR_CLK_REG3 (volatile unsigned int *)((0x6004 << 2) + 0xffd00000) +#define MSR_CLK_REG4 (0x6005) +#define P_MSR_CLK_REG4 (volatile unsigned int *)((0x6005 << 2) + 0xffd00000) +#define MSR_CLK_REG5 (0x6006) +#define P_MSR_CLK_REG5 (volatile unsigned int *)((0x6006 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: STEAM_CBUS_BASE = 0x2c +// ----------------------------------------------- +// bit 31:24 -- event_length +// bit 23:22 -- bus_1st_sel_1 //00-gpio, 01-reserved, 10-addr, 11-data +// bit 21:20 -- bus_2nd_sel_1 +// bit 19:18 -- bus_1st_sel_0 +// bit 17:16 -- bus_2nd_sel_0 +// bit 15:0 -- set output value (output 1 will read according to external input) +#define STREAM_EVENT_INFO (0x2c00) +#define P_STREAM_EVENT_INFO (volatile unsigned int *)((0x2c00 << 2) + 0xffd00000) +// bit 31 -- force_parity_1 +// bit 30 -- LSB_first +// bit 31:20 -- reserved +// bit 19:16 -- toggle point index +// bit 15:8 -- output togle point1 +// bit 7:0 -- output togle point0 (0xff means input) +#define STREAM_OUTPUT_CONFIG (0x2c01) +#define P_STREAM_OUTPUT_CONFIG (volatile unsigned int *)((0x2c01 << 2) + 0xffd00000) +// bit 31:24 -- clock_divide_ext +// bit 23:20 -- s_bus_start ( sclk, sdataout, sdatain) // 0 means no s_bus used +// bit 19 -- no_sclk_on_pin // will use internal write clock and read clock (like RS232) +// bit 18 -- invert_sclk_in +// bit 17 -- sdata_send_busy // indicate one data is sending -- read only +// bit 16 -- one_sdata_received // set when one sdata is received, can write 0 to clear +// bit 15 -- sdata_parity // (write -- 0-even, 1-odd) (read -- received parity check) +// bit 14 -- sdata_send_type // 0 -- 8 bits 1 -- 32 bits ( for fujitsu only ) +// bit 13 -- sdata_receive_type // 0 -- 8 bits only 1 -- 8/32 bits +// bit 12 -- invert_request_out +// bit 11:8 -- request_out_sel // 0 means disable output +// bit 7:0 -- stop_request_count +#define C_D_BUS_CONTROL (0x2c02) +#define P_C_D_BUS_CONTROL (volatile unsigned int *)((0x2c02 << 2) + 0xffd00000) +// bit 31:0 -- serial data (write: output one data, read: input data) +#define C_DATA (0x2c03) +#define P_C_DATA (volatile unsigned int *)((0x2c03 << 2) + 0xffd00000) +// bit 31:28 bus_width_1 +// bit 27:24 bus_start_pin_1 +// bit 23:16 bus_sel_chang_point_1 +// bit 15:12 bus_width_0 +// bit 11:08 bus_start_pin_0 +// bit 07:00 bus_sel_chang_point_0 +#define STREAM_BUS_CONFIG (0x2c04) +#define P_STREAM_BUS_CONFIG (volatile unsigned int *)((0x2c04 << 2) + 0xffd00000) +// bit 31:24 clock_divide +// bit 23:20 clock_output_sel -- 0 means disable clock output +// bit 19 -- inc_event_addr +// bit 18 -- async_fifo_endian +// bit 17 -- send_to_async_fifo +// bit 16 -- data_in_serial_lsb +// bit 15 -- invert_no_wait_condition_0 +// bit 14 -- invert_no_wait_condition_1 +// bit 13 -- invert_no_wait_condition_2 +// bit 12 -- invert_data_bus +// bit 11 -- invert_clock_in +// bit 10 -- event_wait_clk_en +// bit 9 -- data_in_serial +// bit 8 -- invert_data_in_clk +// bit 7:4 -- data_in_begin +// bit 3:0 -- data_in_clk_sel +#define STREAM_DATA_IN_CONFIG (0x2c05) +#define P_STREAM_DATA_IN_CONFIG (volatile unsigned int *)((0x2c05 << 2) + 0xffd00000) +// wait condition and irq should not be connected to 0, 0 means disable) +// bit 31:28 -- no_wait_condition_0 (0 means disable this condition) +// bit 27:24 -- no_wait_condition_1 (0 means disable this condition) +// bit 23:20 -- no_wait_condition_2 (0 means disable this condition) +// bit 19:16 -- irq_input_sel (0 means disable this interrupt) +// bit 15:13 -- interrupt_status (read) clear status (write) (ext 0, ext 1, transfer end) +// bit 12 -- enable_sdata_irq +// bit 11 -- invert_irq_0 +// bit 10 -- invert_irq_1 +// bit 9 -- enable_transfer_end_irq +// bit 8 -- enable_second_ext_irq +// bit 7:0 -- no_wait_condition_check_point (0xff means no check) +#define STREAM_WAIT_IRQ_CONFIG (0x2c06) +#define P_STREAM_WAIT_IRQ_CONFIG (volatile unsigned int *)((0x2c06 << 2) + 0xffd00000) +// bit 31:24 -- event address +// bit 23:16 -- event data +// bit 15:1 -- event repeat times (0 means one time event) +// bit 0 -- Start Event (write) event_busy (read) +#define STREAM_EVENT_CTL (0x2c07) +#define P_STREAM_EVENT_CTL (volatile unsigned int *)((0x2c07 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: SYNC_FIFO_CBUS_BASE = 0x28 +// ----------------------------------------------- +#define ASYNC_FIFO_REG0 (0x2800) +#define P_ASYNC_FIFO_REG0 (volatile unsigned int *)((0x2800 << 2) + 0xffd00000) +#define ASYNC_FIFO_REG1 (0x2801) +#define P_ASYNC_FIFO_REG1 (volatile unsigned int *)((0x2801 << 2) + 0xffd00000) + #define ASYNC_FIFO_FLUSH_STATUS 31 + #define ASYNC_FIFO_ERR 30 + #define ASYNC_FIFO_FIFO_EMPTY 29 + #define ASYNC_FIFO_TO_HIU 24 + #define ASYNC_FIFO_FLUSH 23 + #define ASYNC_FIFO_RESET 22 + #define ASYNC_FIFO_WRAP_EN 21 + #define ASYNC_FIFO_FLUSH_EN 20 + #define ASYNC_FIFO_RESIDUAL_MSB 19 + #define ASYNC_FIFO_RESIDUAL_LSB 15 + #define ASYNC_FIFO_FLUSH_CNT_MSB 14 + #define ASYNC_FIFO_FLUSH_CNT_LSB 0 +#define ASYNC_FIFO_REG2 (0x2802) +#define P_ASYNC_FIFO_REG2 (volatile unsigned int *)((0x2802 << 2) + 0xffd00000) + #define ASYNC_FIFO_FIFO_FULL 26 + #define ASYNC_FIFO_FILL_STATUS 25 + #define ASYNC_FIFO_SOURCE_MSB 24 + #define ASYNC_FIFO_SOURCE_LSB 23 + #define ASYNC_FIFO_ENDIAN_MSB 22 + #define ASYNC_FIFO_ENDIAN_LSB 21 + #define ASYNC_FIFO_FILL_EN 20 + #define ASYNC_FIFO_FILL_CNT_MSB 19 + #define ASYNC_FIFO_FILL_CNT_LSB 0 +#define ASYNC_FIFO_REG3 (0x2803) +#define P_ASYNC_FIFO_REG3 (volatile unsigned int *)((0x2803 << 2) + 0xffd00000) + #define ASYNC_FLUSH_SIZE_IRQ_MSB 15 + #define ASYNC_FLUSH_SIZE_IRQ_LSB 0 +#define ASYNC_FIFO_REG4 (0x2804) +#define P_ASYNC_FIFO_REG4 (volatile unsigned int *)((0x2804 << 2) + 0xffd00000) +#define ASYNC_FIFO_REG5 (0x2805) +#define P_ASYNC_FIFO_REG5 (volatile unsigned int *)((0x2805 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: SYNC_FIFO2_CBUS_BASE = 0x24 +// ----------------------------------------------- +#define ASYNC_FIFO2_REG0 (0x2400) +#define P_ASYNC_FIFO2_REG0 (volatile unsigned int *)((0x2400 << 2) + 0xffd00000) +#define ASYNC_FIFO2_REG1 (0x2401) +#define P_ASYNC_FIFO2_REG1 (volatile unsigned int *)((0x2401 << 2) + 0xffd00000) +#define ASYNC_FIFO2_REG2 (0x2402) +#define P_ASYNC_FIFO2_REG2 (volatile unsigned int *)((0x2402 << 2) + 0xffd00000) +#define ASYNC_FIFO2_REG3 (0x2403) +#define P_ASYNC_FIFO2_REG3 (volatile unsigned int *)((0x2403 << 2) + 0xffd00000) +#define ASYNC_FIFO2_REG4 (0x2404) +#define P_ASYNC_FIFO2_REG4 (volatile unsigned int *)((0x2404 << 2) + 0xffd00000) +#define ASYNC_FIFO2_REG5 (0x2405) +#define P_ASYNC_FIFO2_REG5 (volatile unsigned int *)((0x2405 << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +// ----------------------------------------------- +// CBUS_BASE: SPIFC_CBUS_BASE = 0x50 +// ----------------------------------------------- +#define SPI_FLASH_CMD (0x5000) +#define P_SPI_FLASH_CMD (volatile unsigned int *)((0x5000 << 2) + 0xffd00000) + #define SPI_FLASH_READ 31 + #define SPI_FLASH_WREN 30 + #define SPI_FLASH_WRDI 29 + #define SPI_FLASH_RDID 28 + #define SPI_FLASH_RDSR 27 + #define SPI_FLASH_WRSR 26 + #define SPI_FLASH_PP 25 + #define SPI_FLASH_SE 24 + #define SPI_FLASH_BE 23 + #define SPI_FLASH_CE 22 + #define SPI_FLASH_DP 21 + #define SPI_FLASH_RES 20 + #define SPI_HPM 19 + #define SPI_FLASH_USR 18 + #define SPI_FLASH_USR_ADDR 15 + #define SPI_FLASH_USR_DUMMY 14 + #define SPI_FLASH_USR_DIN 13 + #define SPI_FLASH_USR_DOUT 12 + #define SPI_FLASH_USR_DUMMY_BLEN 10 + #define SPI_FLASH_USR_CMD 0 +#define SPI_FLASH_ADDR (0x5001) +#define P_SPI_FLASH_ADDR (volatile unsigned int *)((0x5001 << 2) + 0xffd00000) + #define SPI_FLASH_BYTES_LEN 24 + #define SPI_FLASH_ADDR_START 0 +#define SPI_FLASH_CTRL (0x5002) +#define P_SPI_FLASH_CTRL (volatile unsigned int *)((0x5002 << 2) + 0xffd00000) + #define SPI_ENABLE_AHB 17 + #define SPI_SST_AAI 16 + #define SPI_RES_RID 15 + #define SPI_FREAD_DUAL 14 + #define SPI_READ_READ_EN 13 + #define SPI_CLK_DIV0 12 + #define SPI_CLKCNT_N 8 + #define SPI_CLKCNT_H 4 + #define SPI_CLKCNT_L 0 +#define SPI_FLASH_CTRL1 (0x5003) +#define P_SPI_FLASH_CTRL1 (volatile unsigned int *)((0x5003 << 2) + 0xffd00000) +#define SPI_FLASH_STATUS (0x5004) +#define P_SPI_FLASH_STATUS (volatile unsigned int *)((0x5004 << 2) + 0xffd00000) +#define SPI_FLASH_CTRL2 (0x5005) +#define P_SPI_FLASH_CTRL2 (volatile unsigned int *)((0x5005 << 2) + 0xffd00000) +#define SPI_FLASH_CLOCK (0x5006) +#define P_SPI_FLASH_CLOCK (volatile unsigned int *)((0x5006 << 2) + 0xffd00000) +#define SPI_FLASH_USER (0x5007) +#define P_SPI_FLASH_USER (volatile unsigned int *)((0x5007 << 2) + 0xffd00000) +#define SPI_FLASH_USER1 (0x5008) +#define P_SPI_FLASH_USER1 (volatile unsigned int *)((0x5008 << 2) + 0xffd00000) +#define SPI_FLASH_USER2 (0x5009) +#define P_SPI_FLASH_USER2 (volatile unsigned int *)((0x5009 << 2) + 0xffd00000) +#define SPI_FLASH_USER3 (0x500a) +#define P_SPI_FLASH_USER3 (volatile unsigned int *)((0x500a << 2) + 0xffd00000) +#define SPI_FLASH_USER4 (0x500b) +#define P_SPI_FLASH_USER4 (volatile unsigned int *)((0x500b << 2) + 0xffd00000) +#define SPI_FLASH_SLAVE (0x500c) +#define P_SPI_FLASH_SLAVE (volatile unsigned int *)((0x500c << 2) + 0xffd00000) +#define SPI_FLASH_SLAVE1 (0x500d) +#define P_SPI_FLASH_SLAVE1 (volatile unsigned int *)((0x500d << 2) + 0xffd00000) +#define SPI_FLASH_SLAVE2 (0x500e) +#define P_SPI_FLASH_SLAVE2 (volatile unsigned int *)((0x500e << 2) + 0xffd00000) +#define SPI_FLASH_SLAVE3 (0x500f) +#define P_SPI_FLASH_SLAVE3 (volatile unsigned int *)((0x500f << 2) + 0xffd00000) +#define SPI_FLASH_C0 (0x5010) +#define P_SPI_FLASH_C0 (volatile unsigned int *)((0x5010 << 2) + 0xffd00000) +#define SPI_FLASH_C1 (0x5011) +#define P_SPI_FLASH_C1 (volatile unsigned int *)((0x5011 << 2) + 0xffd00000) +#define SPI_FLASH_C2 (0x5012) +#define P_SPI_FLASH_C2 (volatile unsigned int *)((0x5012 << 2) + 0xffd00000) +#define SPI_FLASH_C3 (0x5013) +#define P_SPI_FLASH_C3 (volatile unsigned int *)((0x5013 << 2) + 0xffd00000) +#define SPI_FLASH_C4 (0x5014) +#define P_SPI_FLASH_C4 (volatile unsigned int *)((0x5014 << 2) + 0xffd00000) +#define SPI_FLASH_C5 (0x5015) +#define P_SPI_FLASH_C5 (volatile unsigned int *)((0x5015 << 2) + 0xffd00000) +#define SPI_FLASH_C6 (0x5016) +#define P_SPI_FLASH_C6 (volatile unsigned int *)((0x5016 << 2) + 0xffd00000) +#define SPI_FLASH_C7 (0x5017) +#define P_SPI_FLASH_C7 (volatile unsigned int *)((0x5017 << 2) + 0xffd00000) +#define SPI_FLASH_B8 (0x5018) +#define P_SPI_FLASH_B8 (volatile unsigned int *)((0x5018 << 2) + 0xffd00000) +#define SPI_FLASH_B9 (0x5019) +#define P_SPI_FLASH_B9 (volatile unsigned int *)((0x5019 << 2) + 0xffd00000) +#define SPI_FLASH_B10 (0x501a) +#define P_SPI_FLASH_B10 (volatile unsigned int *)((0x501a << 2) + 0xffd00000) +#define SPI_FLASH_B11 (0x501b) +#define P_SPI_FLASH_B11 (volatile unsigned int *)((0x501b << 2) + 0xffd00000) +#define SPI_FLASH_B12 (0x501c) +#define P_SPI_FLASH_B12 (volatile unsigned int *)((0x501c << 2) + 0xffd00000) +#define SPI_FLASH_B13 (0x501d) +#define P_SPI_FLASH_B13 (volatile unsigned int *)((0x501d << 2) + 0xffd00000) +#define SPI_FLASH_B14 (0x501e) +#define P_SPI_FLASH_B14 (volatile unsigned int *)((0x501e << 2) + 0xffd00000) +#define SPI_FLASH_B15 (0x501f) +#define P_SPI_FLASH_B15 (volatile unsigned int *)((0x501f << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +//spicc 0 +// ----------------------------------------------- +// CBUS_BASE: SPICC0_CBUS_BASE = 0x4c +// ----------------------------------------------- +#define SPICC0_RXDATA (0x4c00) +#define P_SPICC0_RXDATA (volatile unsigned int *)((0x4c00 << 2) + 0xffd00000) +#define SPICC0_TXDATA (0x4c01) +#define P_SPICC0_TXDATA (volatile unsigned int *)((0x4c01 << 2) + 0xffd00000) +#define SPICC0_CONREG (0x4c02) +#define P_SPICC0_CONREG (volatile unsigned int *)((0x4c02 << 2) + 0xffd00000) +#define SPICC0_INTREG (0x4c03) +#define P_SPICC0_INTREG (volatile unsigned int *)((0x4c03 << 2) + 0xffd00000) +#define SPICC0_DMAREG (0x4c04) +#define P_SPICC0_DMAREG (volatile unsigned int *)((0x4c04 << 2) + 0xffd00000) +#define SPICC0_STATREG (0x4c05) +#define P_SPICC0_STATREG (volatile unsigned int *)((0x4c05 << 2) + 0xffd00000) +#define SPICC0_PERIODREG (0x4c06) +#define P_SPICC0_PERIODREG (volatile unsigned int *)((0x4c06 << 2) + 0xffd00000) +#define SPICC0_TESTREG (0x4c07) +#define P_SPICC0_TESTREG (volatile unsigned int *)((0x4c07 << 2) + 0xffd00000) +#define SPICC0_DRADDR (0x4c08) +#define P_SPICC0_DRADDR (volatile unsigned int *)((0x4c08 << 2) + 0xffd00000) +#define SPICC0_DWADDR (0x4c09) +#define P_SPICC0_DWADDR (volatile unsigned int *)((0x4c09 << 2) + 0xffd00000) +#define SPICC0_LD_CNTL0 (0x4c0a) +#define P_SPICC0_LD_CNTL0 (volatile unsigned int *)((0x4c0a << 2) + 0xffd00000) +#define SPICC0_LD_CNTL1 (0x4c0b) +#define P_SPICC0_LD_CNTL1 (volatile unsigned int *)((0x4c0b << 2) + 0xffd00000) +#define SPICC0_LD_RADDR (0x4c0c) +#define P_SPICC0_LD_RADDR (volatile unsigned int *)((0x4c0c << 2) + 0xffd00000) +#define SPICC0_LD_WADDR (0x4c0d) +#define P_SPICC0_LD_WADDR (volatile unsigned int *)((0x4c0d << 2) + 0xffd00000) +#define SPICC0_ENHANCE_CNTL (0x4c0e) +#define P_SPICC0_ENHANCE_CNTL (volatile unsigned int *)((0x4c0e << 2) + 0xffd00000) +// ------------------------------------------------------------------------------------ +//spicc 1 +// ----------------------------------------------- +// CBUS_BASE: SPICC1_CBUS_BASE = 0x54 +// ----------------------------------------------- +#define SPICC1_RXDATA (0x5400) +#define P_SPICC1_RXDATA (volatile unsigned int *)((0x5400 << 2) + 0xffd00000) +#define SPICC1_TXDATA (0x5401) +#define P_SPICC1_TXDATA (volatile unsigned int *)((0x5401 << 2) + 0xffd00000) +#define SPICC1_CONREG (0x5402) +#define P_SPICC1_CONREG (volatile unsigned int *)((0x5402 << 2) + 0xffd00000) +#define SPICC1_INTREG (0x5403) +#define P_SPICC1_INTREG (volatile unsigned int *)((0x5403 << 2) + 0xffd00000) +#define SPICC1_DMAREG (0x5404) +#define P_SPICC1_DMAREG (volatile unsigned int *)((0x5404 << 2) + 0xffd00000) +#define SPICC1_STATREG (0x5405) +#define P_SPICC1_STATREG (volatile unsigned int *)((0x5405 << 2) + 0xffd00000) +#define SPICC1_PERIODREG (0x5406) +#define P_SPICC1_PERIODREG (volatile unsigned int *)((0x5406 << 2) + 0xffd00000) +#define SPICC1_TESTREG (0x5407) +#define P_SPICC1_TESTREG (volatile unsigned int *)((0x5407 << 2) + 0xffd00000) +#define SPICC1_DRADDR (0x5408) +#define P_SPICC1_DRADDR (volatile unsigned int *)((0x5408 << 2) + 0xffd00000) +#define SPICC1_DWADDR (0x5409) +#define P_SPICC1_DWADDR (volatile unsigned int *)((0x5409 << 2) + 0xffd00000) +#define SPICC1_LD_CNTL0 (0x540a) +#define P_SPICC1_LD_CNTL0 (volatile unsigned int *)((0x540a << 2) + 0xffd00000) +#define SPICC1_LD_CNTL1 (0x540b) +#define P_SPICC1_LD_CNTL1 (volatile unsigned int *)((0x540b << 2) + 0xffd00000) +#define SPICC1_LD_RADDR (0x540c) +#define P_SPICC1_LD_RADDR (volatile unsigned int *)((0x540c << 2) + 0xffd00000) +#define SPICC1_LD_WADDR (0x540d) +#define P_SPICC1_LD_WADDR (volatile unsigned int *)((0x540d << 2) + 0xffd00000) +#define SPICC1_ENHANCE_CNTL (0x540e) +#define P_SPICC1_ENHANCE_CNTL (volatile unsigned int *)((0x540e << 2) + 0xffd00000) +// +//// ------------------------------------------------------------------- +//// PSEL Group #1: 0x400 ~ 0x7FF +//// ------------------------------------------------------------------- +//`define PERIPHS1_CBUS_BASE 8'h28 +// +// +// +//// ---------------------------- +//// IR Remote (8) +//// ---------------------------- +//`define IR_DEC_LDR_ACTIVE 8'h20 +//`define IR_DEC_LDR_IDLE 8'h21 +//`define IR_DEC_LDR_REPEAT 8'h22 +//`define IR_DEC_BIT_0 8'h23 +//`define IR_DEC_REG0 8'h24 +//`define IR_DEC_FRAME 8'h25 +//`define IR_DEC_STATUS 8'h26 +//`define IR_DEC_REG1 8'h27 +// +//// ---------------------------- +//// Demod Sampling +//// ---------------------------- +//`define DEMOD_ADC_SAMPLING 8'h2d +//// ---------------------------- +//// WIFI +//// ---------------------------- +//// `define WIFI_ADC_SAMPLING 8'h2e +//// `define WIFI_ADC_READBACK 8'h2f +// +// +//// --------------------------- +//// EFUSE (4) +//// ---------------------------- +//// Moved to the Secure APB3 bus +//// `define EFUSE_CNTL0 8'h58 +//// `define EFUSE_CNTL1 8'h59 +//// `define EFUSE_CNTL2 8'h5a +//// `define EFUSE_CNTL3 8'h5b +//// `define EFUSE_CNTL4 8'h5c +// +//// --------------------------------------------- +//// Separate APB slave that shares the CBUS/APB +//// register space of the static registers +//// --------------------------------------------- +// +//`define ATAPI_IDEREG0 8'h60 +// `define IDE_UDMA_PIO_STATE 15 +// `define IDE_BUSY 14 +// `define IDE_ERROR_BIT 13 +// `define IDE_DMARQ_BIT 12 +// `define IDE_IORDY_BIT 11 +// `define IDE_IORDY_EN_BIT 10 +// `define IDE_DIS_CSEL_BIT 9 +// `define IDE_CSEL_BIT 8 +// `define IDE_IRQ14 2 +// `define IDE_ATAPI_GPIO_EN 3 +// `define IDE_DMARQ_FULL 1 +// `define IDE_ENABLE 0 +//`define ATAPI_IDEREG1 8'h61 +//`define ATAPI_IDEREG2 8'h62 +// `define IDE_XFER_CNT_MSB_BIT 18 +// `define IDE_XFER_CNT_LSB_BIT 0 +//`define ATAPI_CYCTIME 8'h63 +//`define ATAPI_IDETIME 8'h64 +//`define ATAPI_PIO_TIMING 8'h65 +//`define ATAPI_TABLE_ADD_REG 8'h66 +//`define ATAPI_IDEREG3 8'h67 +//`define ATAPI_UDMA_REG0 8'h68 +//`define ATAPI_UDMA_REG1 8'h69 +// +//// Room for registers here +// +//`define TRANS_PWMA_REG0 8'h70 +//`define TRANS_PWMA_REG1 8'h71 +//`define TRANS_PWMA_MUX0 8'h72 +//`define TRANS_PWMA_MUX1 8'h73 +//`define TRANS_PWMA_MUX2 8'h74 +//`define TRANS_PWMA_MUX3 8'h75 +//`define TRANS_PWMA_MUX4 8'h76 +//`define TRANS_PWMA_MUX5 8'h77 +// +//`define TRANS_PWMB_REG0 8'h78 +//`define TRANS_PWMB_REG1 8'h79 +//`define TRANS_PWMB_MUX0 8'h7a +//`define TRANS_PWMB_MUX1 8'h7b +//`define TRANS_PWMB_MUX2 8'h7c +//`define TRANS_PWMB_MUX3 8'h7d +//`define TRANS_PWMB_MUX4 8'h7e +//`define TRANS_PWMB_MUX5 8'h7f +// +// +// +//// ---------------------------- +//// NAND (21) +//// ---------------------------- +//`define NAND_START 8'h80 +//`define NAND_ADR_CMD 8'h8a +//`define NAND_ADR_STS 8'h8b +//`define NAND_END 8'h8f +// +//// ---------------------------- +//// ISP_FLASH_LED_CTRL +//// ---------------------------- +////bit 31, reg_led_en //rising pulse start, falling pulse stop for torch mode +////bit 30, reg_inc_i_st_lat //for as3685, dynamic increase current during st_latch +////bit 29:28, reg_inv_en_pol //bit[29], invert en1, bit [28], invert en2 +////bit 27, reg_switch_en1en2 //switch output en1 and en2. For IS3231: en1 is EN, en2 is mode. +////bit 26, reg_force_off_mode //1: reset state machine at the falling edge no matter which state it is in +////bit 25, reg_hold_nonstd_off_mode //hold the non-std led_off signal input before state "OFF" +////bit 24, reg_flash_mode_timeout_en //force to exit the Tlat state when time out, for flash mode protection +////bit 23, reg_en1_st_ini_level //en1 level during state ST_INI +////bit 22, reg_en2_st_set_mp_level //en2 level during state ST_SET_MP_HI, ST_SET_MP_LO +////bit 21, reg_en1_st_off_level //en1 level during state ST_OFF +////bit 20, reg_en2_st_off_level //en2 level during state ST_OFF +////bit 19:12, reg_en1_mp_num //en1 multi pulse number, up to 256 step current control +////bit 10:0, reg_t_st_ini //Max: 85.2 us under 24M clock input +//`define ISP_LED_CTRL 8'h98 +// +////bit 31:21, reg_t_en1_inc_i_st_lat_cnt //Max: 85.2us under 24M. for as3685, dynamic increase current during st_latch +////bit 20:10, reg_t_en2_lo_st_ini //Max: 85.2 us under 24M clock input +////bit 9:0, reg_t_en2_hi1_st_lat_cnt //42.62us @24M, EN2 can output hi-lo-hi during ST_LATCH, this is the first lo -duration +//`define ISP_LED_TIMING1 8'h99 +// +////bit 31:21, reg_t_en1_mp_hi_cnt //Max: 85.2 us under 24M clock input, mp means multi pulse +////bit 20:10, reg_t_en1_mp_lo_cnt //Max: 85.2 us under 24M clock input, mp means multi pulse +////bit 9:0, reg_t_en2_lo1_st_lat_cnt //42.62us @24M, EN2 can output hi-lo-hi during ST_LATCH, this is the first lo -duration +//`define ISP_LED_TIMING2 8'h9a +// +////bit 30:28, RO state +////bit 25:0, reg_flash_mode_timeout_cnt //up to 2.79s at 24Mhz clk input +//`define ISP_LED_TIMING3 8'h9b +// +////bit 25:0, reg_t_st_lat_cnt //up to 2.79s, keep the led on if it's 26'h3ffffff under torch mode +//`define ISP_LED_TIMING4 8'h9c +// +////bit 31:26, reg_t_st_off_cnt[5:0] //up to 85.2us OFF state. +////bit 25:0, reg_t_en2_hi2_st_lat_cnt //EN2 can output hi-lo-hi during ST_LATCH, this is the second hi -duration +//`define ISP_LED_TIMING5 8'h9d +// +////bit 30:26, reg_t_st_off_cnt[10:6] //up to 85.2us OFF state. +////bit 25:0, reg_t_en1_st_lat_hold_cnt //to make sure Tlat to meat it's minimum request 500us (since non-std led_off signal may comes in anytime) +//`define ISP_LED_TIMING6 8'h9e +//// ---------------------------- +//// SAR ADC (16) +//// ---------------------------- +////`define SAR_ADC_REG0 8'ha0 +////`define SAR_ADC_CHAN_LIST 8'ha1 +////`define SAR_ADC_AVG_CNTL 8'ha2 +////`define SAR_ADC_REG3 8'ha3 +////`define SAR_ADC_DELAY 8'ha4 +////`define SAR_ADC_LAST_RD 8'ha5 +////`define SAR_ADC_FIFO_RD 8'ha6 +////`define SAR_ADC_AUX_SW 8'ha7 +////`define SAR_ADC_CHAN_10_SW 8'ha8 +////`define SAR_ADC_DETECT_IDLE_SW 8'ha9 +////`define SAR_ADC_DELTA_10 8'haa +////`define SAR_ADC_REG11 8'hab +////`define SAR_ADC_REG12 8'hac +////`define SAR_ADC_REG13 8'had +// +//// ---------------------------- +//// CTouch (16) +//// ---------------------------- +// +// +//// --------------------------- +//// RTC (4) +//// --------------------------- +//`define RTC_ADDR0 8'hd0 +//`define RTC_ADDR1 8'hd1 +//`define RTC_ADDR2 8'hd2 +//`define RTC_ADDR3 8'hd3 +//`define RTC_ADDR4 8'hd4 +//// ---------------------------- +//// clock measure (4) +//// ---------------------------- +// +// +// +//// ------------------------------------------------------------------- +//// PSEL Group #2: 0x800 ~ 0xbFF +//// ------------------------------------------------------------------- +//`define PERIPHS2_CBUS_BASE 8'h2c +// +//`define USB_ADDR0 8'h00 +//`define USB_ADDR1 8'h01 +//`define USB_ADDR2 8'h02 +//`define USB_ADDR3 8'h03 +//`define USB_ADDR4 8'h04 +//`define USB_ADDR5 8'h05 +//`define USB_ADDR6 8'h06 +//`define USB_ADDR7 8'h07 +//`define USB_ADDR8 8'h08 +//`define USB_ADDR9 8'h09 +//`define USB_ADDR10 8'h0a +//`define USB_ADDR11 8'h0b +//`define USB_ADDR12 8'h0c +//`define USB_ADDR13 8'h0d +//`define USB_ADDR14 8'h0e +//`define USB_ADDR15 8'h0f +// +//`define USB_ADDR16 8'h10 +//`define USB_ADDR17 8'h11 +//`define USB_ADDR18 8'h12 +//`define USB_ADDR19 8'h13 +//`define USB_ADDR20 8'h14 +//`define USB_ADDR21 8'h15 +//`define USB_ADDR22 8'h16 +//`define USB_ADDR23 8'h17 +//`define USB_ADDR24 8'h18 +//`define USB_ADDR25 8'h19 +//`define USB_ADDR26 8'h1a +//`define USB_ADDR27 8'h1b +//`define USB_ADDR28 8'h1c +//`define USB_ADDR29 8'h1d +//`define USB_ADDR30 8'h1e +//`define USB_ADDR31 8'h1f +// +// +// +// +// +//// ------------------------------------------------------------------- +//// PSEL Group #3: 0xc00 ~ 0xFFF +//// ------------------------------------------------------------------- +//`define PERIPHS3_CBUS_BASE 8'h30 +// +//// --------------------------- +//// SDIO (8) +//// --------------------------- +//// `define C_SDIO_HIGH16 8'h00 +//// bit 31:0 -- cmd_argument/MS_SHORT_DATA_WRITE +//`define CMD_ARGUMENT 8'h08 +//// bit 31:24 -- repeat_package_times/MS_SHORT_DATA_WRITE_NUMBER +//// bit 21 -- use_int_window +//// bit 20 -- cmd_send_data/MS_HAVE_LONG_DATA_WRITE +//// bit 19 -- check_busy_on_dat0 (used for R1b response) +//// bit 18 -- response_crc7_from_8 +//// bit 17 -- response_have_data/MS_HAVE_LONG_DATA_READ +//// bit 16 -- response_do_not_have_crc7/MS_SHORT_DATA_DO_NOT_HAVE_CRC16 +//// bit 15:8 -- cmd_response_bits (00 means no response) /MS_SHORT_DATA_READ_NUMBER +//// bit 7:0 -- cmd_command/MS_TPC +//`define CMD_SEND 8'h09 +//// bit 31:29 -- sdio_write_CRC_ok_status +//// bit 28:23 -- sdio_write_Nwr +//// bit 22:21 -- m_endian +//// bit 20 -- bus_width +//// bit 19 -- data_latch_at_negedge (normally at posedge) +//// bit 18 -- do_not_delay_data (normally delay one clock) +//// bit 17:12 -- cmd_argument_bits (before CRC, normally : 39) +//// bit 11 -- cmd_out_at_posedge (normally at negedge) +//// bit 10 -- cmd_disable_CRC +//// bit 9:0 -- cmd_clk_divide +//`define SDIO_CONFIG 8'h0a +//// bit 31:19 -- sdio_timing_out_count +//// bit 18 -- arc_timing_out_int_en +//// bit 17 -- amrisc_timing_out_int_en +//// bit 16 -- sdio_timig_out_int -- write 1 clear this int bit +//// bit 15:12 -- sdio_status_info -- used for change infor between ARC and Amrisc +//// bit 11 -- sdio_set_soft_int -- write 1 to this bit will set sdio_soft_int , read out is m_req_sdio +//// bit 10 -- sdio_soft_int -- write 1 clear this int bit +//// bit 9 -- sdio_cmd_int -- write 1 clear this int bit +//// bit 8 -- sdio_if_int -- write 1 clear this int bit +//// bit 7 -- sdio_data_write_crc16_ok -- Read-Only +//// bit 6 -- sdio_data_read_crc16_ok -- Read-Only +//// bit 5 -- sdio_response_crc7_ok -- Read-Only +//// bit 4 -- sdio_cmd_busy -- Read-Only +//// bit 3:0 -- sdio_status -- Read-Only +//`define SDIO_STATUS_IRQ 8'h0b +//// bit 31 -- halt_hole 0 -- 8 bits 1 -- 16 bits +//// bit 30 -- force_halt +//// bit 29:24 -- sdio_force_data_read (read_only) +//// bit 23:22 -- disable_mem_halt (write and read) +//// bit 21:16 -- sdio_force_output_en +//// bit 15 -- soft_reset +//// bit 14 -- sdio_force_enable +//// bit 13:8 -- sdio_force_data/sdio_read_data +//// bit 7:6 -- sdio_if_int_config +//// bit 5 -- arc_soft_int_en +//// bit 4 -- arc_cmd_int_en +//// bit 3 -- arc_if_int_en +//// bit 2 -- amrisc_soft_int_en +//// bit 1 -- amrisc_cmd_int_en +//// bit 0 -- amrisc_if_int_en +//`define SDIO_IRQ_CONFIG 8'h0c +//// bit 27:16 -- data_catch_finish_point +//// ( +//// bit 15:12 -- response_read_index +//// bit 9 -- data_catch_readout_en +//// bit 8 -- write_read_out_index +//// ) this bits only write when write_read_out_index = 1 +//// bit 11 -- sdio_1_data_swap01 +//// bit 10 -- sdio_0_data_on_1 +//// bit 7:6 -- data_catch_level +//// bit 5 -- stream_8_bits_mode +//// bit 4 -- stream_enable +//// bit 3 -- ms_sclk_always +//// bit 2 -- ms_enable +//// bit 1:0 -- SDIO_port_sel //00-sdio1, 01-sdio2, 02-sdio3 +//`define SDIO_MULT_CONFIG 8'h0d +//// bit 31:0 -- m_addr_sdio +//`define SDIO_M_ADDR 8'h0e +//// bit 31 -- CRC_status_4line +//// bit 30 -- data_rw_do_not_have_crc16/MS_LONG_DATA_DO_NOT_HAVE_CRC16 +//// bit 29:16 -- data_rw_number/MS_LONG_DATA_NUMBER +//// bit 15:0 -- cmd_argument_ext/MS_SHORT_DATA_EXTENSION +//`define SDIO_EXTENSION 8'h0f +//// ---------------------------- +//// SDIO_AHB_CBUS (2) +//// ---------------------------- +//// bit 17 -- arc_ahb_cbus_int_en +//// bit 16 -- amrisc_ahb_cbus_int_en +//// bit 15:8 -- SDIO_FIFO_count +//// bit 7:4 -- m_req_count +//// bit 3 -- reserved +//// bit 2 -- m_write_cbus +//// bit 1 -- m_req_cbus +//// bit 0 -- sdio_ahb_cbus_enable +//`define SDIO_AHB_CBUS_CTRL 8'h18 +//// m_rd_data[31:0] when (m_write_cbus == 0) CBUS write +//// m_wr_data[31:0] when (m_write_cbus == 1) CBUS read +//`define SDIO_AHB_CBUS_M_DATA 8'h19 +// +// +//// ---------------------------- +//// SDHC (SDIO #2) +//// ---------------------------- +//`define SD_REG0_ARGU 8'h80 +//`define SD_REG1_SEND 8'h81 +//`define SD_REG2_CNTL 8'h82 +//`define SD_REG3_STAT 8'h83 +//`define SD_REG4_CLKC 8'h84 +//`define SD_REG5_ADDR 8'h85 +//`define SD_REG6_PDMA 8'h86 +//`define SD_REG7_MISC 8'h87 +//`define SD_REG8_DATA 8'h88 +//`define SD_REG9_ICTL 8'h89 +//`define SD_REGA_ISTA 8'h8a +//`define SD_REGB_SRST 8'h8b +//`define SD_REGC_ESTA 8'h8c +//`define SD_REGD_ENHC 8'h8d +//`define SD_REGE_CLK2 8'h8e +// +// +// Closing file: periphs_reg.h +// +// +// Reading file: isa_reg.h +// +// $isa/rtl/isa_core register defines for the APB bus +// CBUS base slave address +// ----------------------------------------------- +// CBUS_BASE: ISA_CBUS_BASE = 0x3c +// ----------------------------------------------- +// Up to 256 registers for this base +#define ISA_DEBUG_REG0 (0x3c00) +#define P_ISA_DEBUG_REG0 (volatile unsigned int *)((0x3c00 << 2) + 0xffd00000) +#define ISA_DEBUG_REG1 (0x3c01) +#define P_ISA_DEBUG_REG1 (volatile unsigned int *)((0x3c01 << 2) + 0xffd00000) +#define ISA_DEBUG_REG2 (0x3c02) +#define P_ISA_DEBUG_REG2 (volatile unsigned int *)((0x3c02 << 2) + 0xffd00000) +#define ISA_DEBUG_REG3 (0x3c03) +#define P_ISA_DEBUG_REG3 (volatile unsigned int *)((0x3c03 << 2) + 0xffd00000) +#define ISA_PLL_CLK_SIM0 (0x3c08) +#define P_ISA_PLL_CLK_SIM0 (volatile unsigned int *)((0x3c08 << 2) + 0xffd00000) +#define ISA_CNTL_REG0 (0x3c09) +#define P_ISA_CNTL_REG0 (volatile unsigned int *)((0x3c09 << 2) + 0xffd00000) +// ----------------------------------------------------------- +#define AO_CPU_IRQ_IN0_INTR_STAT (0x3c10) +#define P_AO_CPU_IRQ_IN0_INTR_STAT (volatile unsigned int *)((0x3c10 << 2) + 0xffd00000) +#define AO_CPU_IRQ_IN0_INTR_STAT_CLR (0x3c11) +#define P_AO_CPU_IRQ_IN0_INTR_STAT_CLR (volatile unsigned int *)((0x3c11 << 2) + 0xffd00000) +#define AO_CPU_IRQ_IN0_INTR_MASK (0x3c12) +#define P_AO_CPU_IRQ_IN0_INTR_MASK (volatile unsigned int *)((0x3c12 << 2) + 0xffd00000) +#define AO_CPU_IRQ_IN0_INTR_FIRQ_SEL (0x3c13) +#define P_AO_CPU_IRQ_IN0_INTR_FIRQ_SEL (volatile unsigned int *)((0x3c13 << 2) + 0xffd00000) +// define MEDIA_CPU_IRQ_IN1_INTR_STAT 8'h14 +// define MEDIA_CPU_IRQ_IN1_INTR_STAT_CLR 8'h15 +// define MEDIA_CPU_IRQ_IN1_INTR_MASK 8'h16 +// define MEDIA_CPU_IRQ_IN1_INTR_FIRQ_SEL 8'h17 +// +// define MEDIA_CPU_IRQ_IN2_INTR_STAT 8'h18 +// define MEDIA_CPU_IRQ_IN2_INTR_STAT_CLR 8'h19 +// define MEDIA_CPU_IRQ_IN2_INTR_MASK 8'h1a +// define MEDIA_CPU_IRQ_IN2_INTR_FIRQ_SEL 8'h1b +// +// define MEDIA_CPU_IRQ_IN3_INTR_STAT 8'h1c +// define MEDIA_CPU_IRQ_IN3_INTR_STAT_CLR 8'h1d +// define MEDIA_CPU_IRQ_IN3_INTR_MASK 8'h1e +// define MEDIA_CPU_IRQ_IN3_INTR_FIRQ_SEL 8'h1f +#define GPIO_INTR_EDGE_POL (0x3c20) +#define P_GPIO_INTR_EDGE_POL (volatile unsigned int *)((0x3c20 << 2) + 0xffd00000) +#define GPIO_INTR_GPIO_SEL0 (0x3c21) +#define P_GPIO_INTR_GPIO_SEL0 (volatile unsigned int *)((0x3c21 << 2) + 0xffd00000) +#define GPIO_INTR_GPIO_SEL1 (0x3c22) +#define P_GPIO_INTR_GPIO_SEL1 (volatile unsigned int *)((0x3c22 << 2) + 0xffd00000) +#define GPIO_INTR_FILTER_SEL0 (0x3c23) +#define P_GPIO_INTR_FILTER_SEL0 (volatile unsigned int *)((0x3c23 << 2) + 0xffd00000) +// `define GLOBAL_INTR_DISABLE 8'h24 never used +#define CVBS_IRQ0_CNTL (0x3c24) +#define P_CVBS_IRQ0_CNTL (volatile unsigned int *)((0x3c24 << 2) + 0xffd00000) +#define CVBS_IRQ1_CNTL (0x3c25) +#define P_CVBS_IRQ1_CNTL (volatile unsigned int *)((0x3c25 << 2) + 0xffd00000) +#define CVBS_IRQ0_COUNTER (0x3c26) +#define P_CVBS_IRQ0_COUNTER (volatile unsigned int *)((0x3c26 << 2) + 0xffd00000) +#define CVBS_IRQ1_COUNTER (0x3c27) +#define P_CVBS_IRQ1_COUNTER (volatile unsigned int *)((0x3c27 << 2) + 0xffd00000) +#define MEDIA_CPU_INTR_STAT (0x3c28) +#define P_MEDIA_CPU_INTR_STAT (volatile unsigned int *)((0x3c28 << 2) + 0xffd00000) +#define MEDIA_CPU_INTR_STAT_CLR (0x3c29) +#define P_MEDIA_CPU_INTR_STAT_CLR (volatile unsigned int *)((0x3c29 << 2) + 0xffd00000) +#define MEDIA_CPU_INTR_MASK (0x3c2a) +#define P_MEDIA_CPU_INTR_MASK (volatile unsigned int *)((0x3c2a << 2) + 0xffd00000) +#define MEDIA_CPU_INTR_FIRQ_SEL (0x3c2b) +#define P_MEDIA_CPU_INTR_FIRQ_SEL (volatile unsigned int *)((0x3c2b << 2) + 0xffd00000) +// ----------------------------------------------------------- +#define ISA_BIST_REG0 (0x3c30) +#define P_ISA_BIST_REG0 (volatile unsigned int *)((0x3c30 << 2) + 0xffd00000) +#define ISA_BIST_REG1 (0x3c31) +#define P_ISA_BIST_REG1 (volatile unsigned int *)((0x3c31 << 2) + 0xffd00000) +// ----------------------------------------------------------- +#define WATCHDOG_CNTL (0x3c34) +#define P_WATCHDOG_CNTL (volatile unsigned int *)((0x3c34 << 2) + 0xffd00000) +#define WATCHDOG_CNTL1 (0x3c35) +#define P_WATCHDOG_CNTL1 (volatile unsigned int *)((0x3c35 << 2) + 0xffd00000) +#define WATCHDOG_TCNT (0x3c36) +#define P_WATCHDOG_TCNT (volatile unsigned int *)((0x3c36 << 2) + 0xffd00000) +#define WATCHDOG_RST (0x3c37) +#define P_WATCHDOG_RST (volatile unsigned int *)((0x3c37 << 2) + 0xffd00000) +// ----------------------------------------------------------- +#define AHB_ARBITER_REG (0x3c42) +#define P_AHB_ARBITER_REG (volatile unsigned int *)((0x3c42 << 2) + 0xffd00000) +#define AHB_ARBDEC_REG (0x3c43) +#define P_AHB_ARBDEC_REG (volatile unsigned int *)((0x3c43 << 2) + 0xffd00000) +#define AHB_ARBITER2_REG (0x3c4a) +#define P_AHB_ARBITER2_REG (volatile unsigned int *)((0x3c4a << 2) + 0xffd00000) +#define DEVICE_MMCP_CNTL (0x3c4b) +#define P_DEVICE_MMCP_CNTL (volatile unsigned int *)((0x3c4b << 2) + 0xffd00000) +#define AUDIO_MMCP_CNTL (0x3c4c) +#define P_AUDIO_MMCP_CNTL (volatile unsigned int *)((0x3c4c << 2) + 0xffd00000) +// ----------------------------------------------------------- +#define ISA_TIMER_MUX (0x3c50) +#define P_ISA_TIMER_MUX (volatile unsigned int *)((0x3c50 << 2) + 0xffd00000) +#define ISA_TIMERA (0x3c51) +#define P_ISA_TIMERA (volatile unsigned int *)((0x3c51 << 2) + 0xffd00000) +#define ISA_TIMERB (0x3c52) +#define P_ISA_TIMERB (volatile unsigned int *)((0x3c52 << 2) + 0xffd00000) +#define ISA_TIMERC (0x3c53) +#define P_ISA_TIMERC (volatile unsigned int *)((0x3c53 << 2) + 0xffd00000) +#define ISA_TIMERD (0x3c54) +#define P_ISA_TIMERD (volatile unsigned int *)((0x3c54 << 2) + 0xffd00000) +#define FBUF_ADDR (0x3c56) +#define P_FBUF_ADDR (volatile unsigned int *)((0x3c56 << 2) + 0xffd00000) + #define VIDEO_FRM_BUF_MSB_BIT 23 + #define VIDEO_FRM_BUF_LSB_BIT 2 +#define SDRAM_CTL0 (0x3c57) +#define P_SDRAM_CTL0 (volatile unsigned int *)((0x3c57 << 2) + 0xffd00000) +#define SDRAM_CTL2 (0x3c58) +#define P_SDRAM_CTL2 (volatile unsigned int *)((0x3c58 << 2) + 0xffd00000) +//`define AO_CPU_CTL 8'h59 +#define SDRAM_CTL4 (0x3c5a) +#define P_SDRAM_CTL4 (volatile unsigned int *)((0x3c5a << 2) + 0xffd00000) +#define SDRAM_CTL5 (0x3c5b) +#define P_SDRAM_CTL5 (volatile unsigned int *)((0x3c5b << 2) + 0xffd00000) +#define SDRAM_CTL6 (0x3c5c) +#define P_SDRAM_CTL6 (volatile unsigned int *)((0x3c5c << 2) + 0xffd00000) +#define SDRAM_CTL7 (0x3c5d) +#define P_SDRAM_CTL7 (volatile unsigned int *)((0x3c5d << 2) + 0xffd00000) +#define SDRAM_CTL8 (0x3c5e) +#define P_SDRAM_CTL8 (volatile unsigned int *)((0x3c5e << 2) + 0xffd00000) +#define AHB_MP4_MC_CTL (0x3c5f) +#define P_AHB_MP4_MC_CTL (volatile unsigned int *)((0x3c5f << 2) + 0xffd00000) +#define MEDIA_CPU_PCR (0x3c60) +#define P_MEDIA_CPU_PCR (volatile unsigned int *)((0x3c60 << 2) + 0xffd00000) +#define MEDIA_CPU_CTL (0x3c61) +#define P_MEDIA_CPU_CTL (volatile unsigned int *)((0x3c61 << 2) + 0xffd00000) +#define ISA_TIMERE (0x3c62) +#define P_ISA_TIMERE (volatile unsigned int *)((0x3c62 << 2) + 0xffd00000) +#define ISA_TIMERE_HI (0x3c63) +#define P_ISA_TIMERE_HI (volatile unsigned int *)((0x3c63 << 2) + 0xffd00000) +#define ISA_TIMER_MUX1 (0x3c64) +#define P_ISA_TIMER_MUX1 (volatile unsigned int *)((0x3c64 << 2) + 0xffd00000) +#define ISA_TIMERF (0x3c65) +#define P_ISA_TIMERF (volatile unsigned int *)((0x3c65 << 2) + 0xffd00000) +#define ISA_TIMERG (0x3c66) +#define P_ISA_TIMERG (volatile unsigned int *)((0x3c66 << 2) + 0xffd00000) +#define ISA_TIMERH (0x3c67) +#define P_ISA_TIMERH (volatile unsigned int *)((0x3c67 << 2) + 0xffd00000) +#define ISA_TIMERI (0x3c68) +#define P_ISA_TIMERI (volatile unsigned int *)((0x3c68 << 2) + 0xffd00000) +// --------------------------------------------- +#define ABUF_WR_CTL0 (0x3c70) +#define P_ABUF_WR_CTL0 (volatile unsigned int *)((0x3c70 << 2) + 0xffd00000) + #define ABUF_WR_INT_EN 31 + #define ABUF_WR_INT_POS_MSB 30 + #define ABUF_WR_INT_POS_LSB 16 + #define ABUF_WR_BLK_SIZE_MSB 14 + #define ABUF_WR_BLK_SIZE_LSB 0 +#define ABUF_WR_CTL1 (0x3c71) +#define P_ABUF_WR_CTL1 (volatile unsigned int *)((0x3c71 << 2) + 0xffd00000) + #define ABUF_WR_INT_EN 31 + #define ABUF_WR_INT_POS_MSB 30 + #define ABUF_WR_INT_POS_LSB 16 + #define ABUF_WR_BLK_SIZE_MSB 14 + #define ABUF_WR_BLK_SIZE_LSB 0 +#define ABUF_WR_CTL2 (0x3c72) +#define P_ABUF_WR_CTL2 (volatile unsigned int *)((0x3c72 << 2) + 0xffd00000) + #define ABUF_WR_CUR_FF_CNT_MSB 21 + #define ABUF_WR_CUR_FF_CNT_LSB 16 + #define ABUF_WR_CUR_BLK_MSB 14 + #define ABUF_WR_CUR_BLK_LSB 0 +#define ABUF_WR_CTL3 (0x3c73) +#define P_ABUF_WR_CTL3 (volatile unsigned int *)((0x3c73 << 2) + 0xffd00000) + #define ABUF_WR_AHB_RST_PLS 3 + #define ABUF_WR_FF_CLR_PLS 2 + #define ABUF_WR_PLY_RPT_LVL 1 + #define ABUF_WR_FF_PAUSE_LVL 0 +#define ABUF_RD_CTL0 (0x3c74) +#define P_ABUF_RD_CTL0 (volatile unsigned int *)((0x3c74 << 2) + 0xffd00000) +#define ABUF_RD_CTL1 (0x3c75) +#define P_ABUF_RD_CTL1 (volatile unsigned int *)((0x3c75 << 2) + 0xffd00000) + #define ABUF_RD_INT_EN 31 + #define ABUF_RD_INT_POS_MSB 30 + #define ABUF_RD_INT_POS_LSB 16 + #define ABUF_RD_BLK_SIZE_MSB 14 + #define ABUF_RD_BLK_SIZE_LSB 0 +#define ABUF_RD_CTL2 (0x3c76) +#define P_ABUF_RD_CTL2 (volatile unsigned int *)((0x3c76 << 2) + 0xffd00000) + #define ABUF_RD_CUR_FF_CNT_MSB 21 + #define ABUF_RD_CUR_FF_CNT_LSB 16 + #define ABUF_RD_CUR_BLK_MSB 14 + #define ABUF_RD_CUR_BLK_LSB 0 +#define ABUF_RD_CTL3 (0x3c77) +#define P_ABUF_RD_CTL3 (volatile unsigned int *)((0x3c77 << 2) + 0xffd00000) + #define ABUF_RD_PLY_ONCE_PLS 4 + #define ABUF_RD_AHB_RST_PLS 3 + #define ABUF_RD_FF_CLR_PLS 2 + #define ABUF_RD_PLY_RPT_LVL 1 + #define ABUF_RD_FF_PAUSE_LVL 0 +#define ABUF_ARB_CTL0 (0x3c78) +#define P_ABUF_ARB_CTL0 (volatile unsigned int *)((0x3c78 << 2) + 0xffd00000) +#define ABUF_FIFO_CTL0 (0x3c79) +#define P_ABUF_FIFO_CTL0 (volatile unsigned int *)((0x3c79 << 2) + 0xffd00000) + #define AIUout_FIFO_THRESHOLD_MSB 11 + #define AIUout_FIFO_THRESHOLD_LSB 6 + #define AIUin_FIFO_THRESHOLD_MSB 5 + #define AIUin_FIFO_THRESHOLD_LSB 0 +// --------------------------------------------- +#define AHB_BRIDGE_CNTL_WR (0x3c80) +#define P_AHB_BRIDGE_CNTL_WR (volatile unsigned int *)((0x3c80 << 2) + 0xffd00000) +#define AHB_BRIDGE_REMAP0 (0x3c81) +#define P_AHB_BRIDGE_REMAP0 (volatile unsigned int *)((0x3c81 << 2) + 0xffd00000) +#define AHB_BRIDGE_REMAP1 (0x3c82) +#define P_AHB_BRIDGE_REMAP1 (volatile unsigned int *)((0x3c82 << 2) + 0xffd00000) +#define AHB_BRIDGE_REMAP2 (0x3c83) +#define P_AHB_BRIDGE_REMAP2 (volatile unsigned int *)((0x3c83 << 2) + 0xffd00000) +#define AHB_BRIDGE_REMAP3 (0x3c84) +#define P_AHB_BRIDGE_REMAP3 (volatile unsigned int *)((0x3c84 << 2) + 0xffd00000) +#define AHB_BRIDGE_CNTL_REG1 (0x3c85) +#define P_AHB_BRIDGE_CNTL_REG1 (volatile unsigned int *)((0x3c85 << 2) + 0xffd00000) +#define AHB_BRIDGE_CNTL_REG2 (0x3c86) +#define P_AHB_BRIDGE_CNTL_REG2 (volatile unsigned int *)((0x3c86 << 2) + 0xffd00000) +// --------------------------------------------- +// ---------------------------------------------- +// `define SYS_CPU_0_IRQ_IN0_INTR_STAT 8'h90 +// `define SYS_CPU_0_IRQ_IN0_INTR_STAT_CLR 8'h91 +// `define SYS_CPU_0_IRQ_IN0_INTR_MASK 8'h92 +// `define SYS_CPU_0_IRQ_IN0_INTR_FIRQ_SEL 8'h93 +// `define SYS_CPU_0_IRQ_IN1_INTR_STAT 8'h94 +// `define SYS_CPU_0_IRQ_IN1_INTR_STAT_CLR 8'h95 +// `define SYS_CPU_0_IRQ_IN1_INTR_MASK 8'h96 +// `define SYS_CPU_0_IRQ_IN1_INTR_FIRQ_SEL 8'h97 +// `define SYS_CPU_0_IRQ_IN2_INTR_STAT 8'h98 +// `define SYS_CPU_0_IRQ_IN2_INTR_STAT_CLR 8'h99 +// `define SYS_CPU_0_IRQ_IN2_INTR_MASK 8'h9a +// `define SYS_CPU_0_IRQ_IN2_INTR_FIRQ_SEL 8'h9b +// `define SYS_CPU_0_IRQ_IN3_INTR_STAT 8'h9c +// `define SYS_CPU_0_IRQ_IN3_INTR_STAT_CLR 8'h9d +// `define SYS_CPU_0_IRQ_IN3_INTR_MASK 8'h9e +// `define SYS_CPU_0_IRQ_IN3_INTR_FIRQ_SEL 8'h9f +// ---------------------------------------------- +// `define SYS_CPU_1_IRQ_IN0_INTR_STAT 8'ha0 +// `define SYS_CPU_1_IRQ_IN0_INTR_STAT_CLR 8'ha1 +// `define SYS_CPU_1_IRQ_IN0_INTR_MASK 8'ha2 +// `define SYS_CPU_1_IRQ_IN0_INTR_FIRQ_SEL 8'ha3 +// +// `define SYS_CPU_1_IRQ_IN1_INTR_STAT 8'ha4 +// `define SYS_CPU_1_IRQ_IN1_INTR_STAT_CLR 8'ha5 +// `define SYS_CPU_1_IRQ_IN1_INTR_MASK 8'ha6 +// `define SYS_CPU_1_IRQ_IN1_INTR_FIRQ_SEL 8'ha7 +// +// `define SYS_CPU_1_IRQ_IN2_INTR_STAT 8'ha8 +// `define SYS_CPU_1_IRQ_IN2_INTR_STAT_CLR 8'ha9 +// `define SYS_CPU_1_IRQ_IN2_INTR_MASK 8'haa +// `define SYS_CPU_1_IRQ_IN2_INTR_FIRQ_SEL 8'hab +// +// `define SYS_CPU_1_IRQ_IN3_INTR_STAT 8'hac +// `define SYS_CPU_1_IRQ_IN3_INTR_STAT_CLR 8'had +// `define SYS_CPU_1_IRQ_IN3_INTR_MASK 8'hae +// `define SYS_CPU_1_IRQ_IN3_INTR_FIRQ_SEL 8'haf +// ---------------------------------------------- +// `define MEDIA_CPU_IRQ_IN4_INTR_STAT 8'hb0 +// `define MEDIA_CPU_IRQ_IN4_INTR_STAT_CLR 8'hb1 +// `define MEDIA_CPU_IRQ_IN4_INTR_MASK 8'hb2 +// `define MEDIA_CPU_IRQ_IN4_INTR_FIRQ_SEL 8'hb3 +// `define SYS_CPU_0_IRQ_IN4_INTR_STAT 8'hb4 +// `define SYS_CPU_0_IRQ_IN4_INTR_STAT_CLR 8'hb5 +// `define SYS_CPU_0_IRQ_IN4_INTR_MASK 8'hb6 +// `define SYS_CPU_0_IRQ_IN4_INTR_FIRQ_SEL 8'hb7 +// `define SYS_CPU_1_IRQ_IN4_INTR_STAT 8'hb8 +// `define SYS_CPU_1_IRQ_IN4_INTR_STAT_CLR 8'hb9 +// `define SYS_CPU_1_IRQ_IN4_INTR_MASK 8'hba +// `define SYS_CPU_1_IRQ_IN4_INTR_FIRQ_SEL 8'hbb +// `define SYS_CPU_2_IRQ_IN4_INTR_STAT 8'hbc +// `define SYS_CPU_2_IRQ_IN4_INTR_STAT_CLR 8'hbd +// `define SYS_CPU_2_IRQ_IN4_INTR_MASK 8'hbe +// `define SYS_CPU_2_IRQ_IN4_INTR_FIRQ_SEL 8'hbf +// ---------------------------------------------- +// `define SYS_CPU_2_IRQ_IN0_INTR_STAT 8'hc0 +// `define SYS_CPU_2_IRQ_IN0_INTR_STAT_CLR 8'hc1 +// `define SYS_CPU_2_IRQ_IN0_INTR_MASK 8'hc2 +// `define SYS_CPU_2_IRQ_IN0_INTR_FIRQ_SEL 8'hc3 +// `define SYS_CPU_2_IRQ_IN1_INTR_STAT 8'hc4 +// `define SYS_CPU_2_IRQ_IN1_INTR_STAT_CLR 8'hc5 +// `define SYS_CPU_2_IRQ_IN1_INTR_MASK 8'hc6 +// `define SYS_CPU_2_IRQ_IN1_INTR_FIRQ_SEL 8'hc7 +// `define SYS_CPU_2_IRQ_IN2_INTR_STAT 8'hc8 +// `define SYS_CPU_2_IRQ_IN2_INTR_STAT_CLR 8'hc9 +// `define SYS_CPU_2_IRQ_IN2_INTR_MASK 8'hca +// `define SYS_CPU_2_IRQ_IN2_INTR_FIRQ_SEL 8'hcb +// `define SYS_CPU_2_IRQ_IN3_INTR_STAT 8'hcc +// `define SYS_CPU_2_IRQ_IN3_INTR_STAT_CLR 8'hcd +// `define SYS_CPU_2_IRQ_IN3_INTR_MASK 8'hce +// `define SYS_CPU_2_IRQ_IN3_INTR_FIRQ_SEL 8'hcf +// ---------------------------------------------- +// `define SYS_CPU_3_IRQ_IN0_INTR_STAT 8'hd0 +// `define SYS_CPU_3_IRQ_IN0_INTR_STAT_CLR 8'hd1 +// `define SYS_CPU_3_IRQ_IN0_INTR_MASK 8'hd2 +// `define SYS_CPU_3_IRQ_IN0_INTR_FIRQ_SEL 8'hd3 +// `define SYS_CPU_3_IRQ_IN1_INTR_STAT 8'hd4 +// `define SYS_CPU_3_IRQ_IN1_INTR_STAT_CLR 8'hd5 +// `define SYS_CPU_3_IRQ_IN1_INTR_MASK 8'hd6 +// `define SYS_CPU_3_IRQ_IN1_INTR_FIRQ_SEL 8'hd7 +// `define SYS_CPU_3_IRQ_IN2_INTR_STAT 8'hd8 +// `define SYS_CPU_3_IRQ_IN2_INTR_STAT_CLR 8'hd9 +// `define SYS_CPU_3_IRQ_IN2_INTR_MASK 8'hda +// `define SYS_CPU_3_IRQ_IN2_INTR_FIRQ_SEL 8'hdb +// `define SYS_CPU_3_IRQ_IN3_INTR_STAT 8'hdc +// `define SYS_CPU_3_IRQ_IN3_INTR_STAT_CLR 8'hdd +// `define SYS_CPU_3_IRQ_IN3_INTR_MASK 8'hde +// `define SYS_CPU_3_IRQ_IN3_INTR_FIRQ_SEL 8'hdf +// ---------------------------------------------- +// `define SYS_CPU_3_IRQ_IN4_INTR_STAT 8'he0 +// `define SYS_CPU_3_IRQ_IN4_INTR_STAT_CLR 8'he1 +// `define SYS_CPU_3_IRQ_IN4_INTR_MASK 8'he2 +// `define SYS_CPU_3_IRQ_IN4_INTR_FIRQ_SEL 8'he3 +// `define MEDIA_CPU_IRQ_IN5_INTR_STAT 8'he4 +// `define MEDIA_CPU_IRQ_IN5_INTR_STAT_CLR 8'he5 +// `define MEDIA_CPU_IRQ_IN5_INTR_MASK 8'he6 +// `define MEDIA_CPU_IRQ_IN5_INTR_FIRQ_SEL 8'he7 +// `define SYS_CPU_0_IRQ_IN5_INTR_STAT 8'he8 +// `define SYS_CPU_0_IRQ_IN5_INTR_STAT_CLR 8'he9 +// `define SYS_CPU_0_IRQ_IN5_INTR_MASK 8'hea +// `define SYS_CPU_0_IRQ_IN5_INTR_FIRQ_SEL 8'heb +// +// Closing file: isa_reg.h +// +//`include "bt656_reg.h" +//`include "pdm_reg.h" +//======================================================================== +// Global Control Registers (12'h000 - 12'h0ff) +// +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: RESET_CBUS_BASE = 0x04 +// ----------------------------------------------- +#define VERSION_CTRL (0x0400) +#define P_VERSION_CTRL (volatile unsigned int *)((0x0400 << 2) + 0xffd00000) +#define RESET0_REGISTER (0x0401) +#define P_RESET0_REGISTER (volatile unsigned int *)((0x0401 << 2) + 0xffd00000) +#define RESET1_REGISTER (0x0402) +#define P_RESET1_REGISTER (volatile unsigned int *)((0x0402 << 2) + 0xffd00000) +#define RESET2_REGISTER (0x0403) +#define P_RESET2_REGISTER (volatile unsigned int *)((0x0403 << 2) + 0xffd00000) +#define RESET3_REGISTER (0x0404) +#define P_RESET3_REGISTER (volatile unsigned int *)((0x0404 << 2) + 0xffd00000) +#define RESET4_REGISTER (0x0405) +#define P_RESET4_REGISTER (volatile unsigned int *)((0x0405 << 2) + 0xffd00000) +#define RESET5_REGISTER (0x0406) +#define P_RESET5_REGISTER (volatile unsigned int *)((0x0406 << 2) + 0xffd00000) +#define RESET6_REGISTER (0x0407) +#define P_RESET6_REGISTER (volatile unsigned int *)((0x0407 << 2) + 0xffd00000) +#define RESET7_REGISTER (0x0408) +#define P_RESET7_REGISTER (volatile unsigned int *)((0x0408 << 2) + 0xffd00000) +#define RESET0_MASK (0x0410) +#define P_RESET0_MASK (volatile unsigned int *)((0x0410 << 2) + 0xffd00000) +#define RESET1_MASK (0x0411) +#define P_RESET1_MASK (volatile unsigned int *)((0x0411 << 2) + 0xffd00000) +#define RESET2_MASK (0x0412) +#define P_RESET2_MASK (volatile unsigned int *)((0x0412 << 2) + 0xffd00000) +#define RESET3_MASK (0x0413) +#define P_RESET3_MASK (volatile unsigned int *)((0x0413 << 2) + 0xffd00000) +#define RESET4_MASK (0x0414) +#define P_RESET4_MASK (volatile unsigned int *)((0x0414 << 2) + 0xffd00000) +#define RESET5_MASK (0x0415) +#define P_RESET5_MASK (volatile unsigned int *)((0x0415 << 2) + 0xffd00000) +#define RESET6_MASK (0x0416) +#define P_RESET6_MASK (volatile unsigned int *)((0x0416 << 2) + 0xffd00000) +#define CRT_MASK (0x0417) +#define P_CRT_MASK (volatile unsigned int *)((0x0417 << 2) + 0xffd00000) +#define RESET7_MASK (0x0418) +#define P_RESET7_MASK (volatile unsigned int *)((0x0418 << 2) + 0xffd00000) +#define RESET0_LEVEL (0x0420) +#define P_RESET0_LEVEL (volatile unsigned int *)((0x0420 << 2) + 0xffd00000) +#define RESET1_LEVEL (0x0421) +#define P_RESET1_LEVEL (volatile unsigned int *)((0x0421 << 2) + 0xffd00000) +#define RESET2_LEVEL (0x0422) +#define P_RESET2_LEVEL (volatile unsigned int *)((0x0422 << 2) + 0xffd00000) +#define RESET3_LEVEL (0x0423) +#define P_RESET3_LEVEL (volatile unsigned int *)((0x0423 << 2) + 0xffd00000) +#define RESET4_LEVEL (0x0424) +#define P_RESET4_LEVEL (volatile unsigned int *)((0x0424 << 2) + 0xffd00000) +#define RESET5_LEVEL (0x0425) +#define P_RESET5_LEVEL (volatile unsigned int *)((0x0425 << 2) + 0xffd00000) +#define RESET6_LEVEL (0x0426) +#define P_RESET6_LEVEL (volatile unsigned int *)((0x0426 << 2) + 0xffd00000) +#define RESET7_LEVEL (0x0427) +#define P_RESET7_LEVEL (volatile unsigned int *)((0x0427 << 2) + 0xffd00000) +//====================================== +// Reset Register Bits +// +//====================================== + #define HIU_RESET 0x0001 + #define VLD_RESET 0x0002 + #define IQIDCT_RESET 0x0004 + #define MC_RESET 0x0008 + #define DCU_RESET 0x0010 + #define VIU_RESET 0x0020 + #define AIU_RESET 0x0040 + #define CPU_RESET 0x0080 + #define AC3_RESET 0x0100 + #define MPEG_RESET 0x0200 +//----------------------------------------------------------- +// PARSER +//----------------------------------------------------------- +// ----------------------------------------------- +// CBUS_BASE: PARSER_CBUS_BASE = 0x38 +// ----------------------------------------------- +// bit 31:8 -- es_pack_size +// bit 7:6 -- es_type 00-Video, 01-Audio, 10-Subtitle +// bit 5 -- es_write +// bit 4 -- es_passthrough +// bit 3 -- insert_before_es_write +// bit 2 -- discard_cmd +// bit 1 -- search_cmd +// bit 0 -- Parser Busy +#define PARSER_CONTROL (0x3860) +#define P_PARSER_CONTROL (volatile unsigned int *)((0x3860 << 2) + 0xffd00000) +// Write +// bit 31:0 begin address for parser fetch +// Read +// 32 bit current fetch address +#define PARSER_FETCH_ADDR (0x3861) +#define P_PARSER_FETCH_ADDR (volatile unsigned int *)((0x3861 << 2) + 0xffd00000) +// Write +// bit 31 circle buffer indicator +// bit 30 check_buffer_stop_addr +// bit 29:27 fetch endian +// bit 26:0 buffer size ( Bytes ) +// Special command: +// when bit 26:0 == 27'h0 +// then bit 29 -- stream_passthrough_enable +// bit 28:27 -- stream_passthrough_type +// Read +// 6:5 cmd_rd_ptr +// 4:3 cmd_wr_ptr +// 2:0 cmd_number +#define PARSER_FETCH_CMD (0x3862) +#define P_PARSER_FETCH_CMD (volatile unsigned int *)((0x3862 << 2) + 0xffd00000) +// 31:0 stop_fetch_addr +#define PARSER_FETCH_STOP_ADDR (0x3863) +#define P_PARSER_FETCH_STOP_ADDR (volatile unsigned int *)((0x3863 << 2) + 0xffd00000) +// 31:0 stop_fetch_addr - current_write_addr // read only +#define PARSER_FETCH_LEVEL (0x3864) +#define P_PARSER_FETCH_LEVEL (volatile unsigned int *)((0x3864 << 2) + 0xffd00000) +// bit 31 - fetch_dma_urgent +// bit 30 - stream_dma_urgent +// bit 29 - force_pfifo_ren +// bit 28 - pfifo_peak_enable +// bit 27 - enable_free_clk_parser_reg +// bit 26 - +// bit 25:24 - parser_src_sel (00 - fetch, 01 - aux1, 10 - aux2 11 - aux3) +// bit 23:16 - pfifo_empty_count +// bit 15:12 - max_es_write_cycle (x16x64bits) +// 11:10 - start code width ( 00-8bits, 01-16bits, 10-24bits, 11-32bits ) +// 9:8 - pfifo data access width ( 00-8bits, 01-16bits, 10-24bits, 11-32bits ) +// 7:0 - empty room for fetch data ( max_fetch_cycle ) x64 bits +#define PARSER_CONFIG (0x3865) +#define P_PARSER_CONFIG (volatile unsigned int *)((0x3865 << 2) + 0xffd00000) +// bit 24:16 -- pfifo_level +// bit 9:0 -- point to byte address +#define PFIFO_WR_PTR (0x3866) +#define P_PFIFO_WR_PTR (volatile unsigned int *)((0x3866 << 2) + 0xffd00000) +// bit 9:0 -- point to byte address +#define PFIFO_RD_PTR (0x3867) +#define P_PFIFO_RD_PTR (volatile unsigned int *)((0x3867 << 2) + 0xffd00000) +// bit 31:0 -- 8/16/24/32 bits data acording to pfifo_data_width +#define PFIFO_DATA (0x3868) +#define P_PFIFO_DATA (volatile unsigned int *)((0x3868 << 2) + 0xffd00000) +// bit 31:0 -- parser search pattern +#define PARSER_SEARCH_PATTERN (0x3869) +#define P_PARSER_SEARCH_PATTERN (volatile unsigned int *)((0x3869 << 2) + 0xffd00000) +// bit 31:0 -- parser search mask ( 0 - disable bit match test ) +#define PARSER_SEARCH_MASK (0x386a) +#define P_PARSER_SEARCH_MASK (volatile unsigned int *)((0x386a << 2) + 0xffd00000) +// bit 31:16 -- parser_int_disable_count +// bit 15:8 -- Parser interrupt enable for host cpu +// bit 7:0 -- Parser interrupt enable for Amrisc +#define PARSER_INT_ENABLE (0x386b) +#define P_PARSER_INT_ENABLE (volatile unsigned int *)((0x386b << 2) + 0xffd00000) +// Bit 7 -- fetch_cmd_finished +// Bit 6:5 -- reserved +// Bit 4 -- parse finished +// Bit 3 -- discard finished +// Bit 2 -- insert zero finished +// Bit 1 -- Action Finished Except Search Start Code +// Bit 0 -- Search match interrupt (StartCode found) +// Read 7:0 int status +// Write will clear (bit based) +#define PARSER_INT_STATUS (0x386c) +#define P_PARSER_INT_STATUS (volatile unsigned int *)((0x386c << 2) + 0xffd00000) +// 15 - SCR_32_READ_OUT (Read Only) +// 14 - SCR_32_data_valid +// 13 - SCR_32_data +// 12 - SCR_count_en +// 11:0 - SCR90K_DIV +#define PARSER_SCR_CTL (0x386d) +#define P_PARSER_SCR_CTL (volatile unsigned int *)((0x386d << 2) + 0xffd00000) +// bit 31:0 SCR value +#define PARSER_SCR (0x386e) +#define P_PARSER_SCR (volatile unsigned int *)((0x386e << 2) + 0xffd00000) +// bit 31:24 -- insert_loop_number +// bit 23:21 -- +// bit 20:16 -- insert_byte_number +// bit 15:0 -- discard number +#define PARSER_PARAMETER (0x386f) +#define P_PARSER_PARAMETER (volatile unsigned int *)((0x386f << 2) + 0xffd00000) +// bit 31:0 -- insert data // write only +// write to PARSER_CONTROL will reset the write position +// continous write to this address can write upto 16 bytes +#define PARSER_INSERT_DATA (0x3870) +#define P_PARSER_INSERT_DATA (volatile unsigned int *)((0x3870 << 2) + 0xffd00000) +// Bit 31:24 -- Reserved Stream_ID +// Bit 23:16 -- Sub Stream_ID +// Bit 15:8 -- Audio Stream_ID +// Bit 7:0 -- Video Stream_ID +#define VAS_STREAM_ID (0x3871) +#define P_VAS_STREAM_ID (volatile unsigned int *)((0x3871 << 2) + 0xffd00000) +// Bit 31:0 -- VIDEO_DTS +#define VIDEO_DTS (0x3872) +#define P_VIDEO_DTS (volatile unsigned int *)((0x3872 << 2) + 0xffd00000) +// Bit 31:0 -- VIDEO_PTS +#define VIDEO_PTS (0x3873) +#define P_VIDEO_PTS (volatile unsigned int *)((0x3873 << 2) + 0xffd00000) +// Bit 31:0 -- VIDEO_PTS_DTS_WR_PTR +#define VIDEO_PTS_DTS_WR_PTR (0x3874) +#define P_VIDEO_PTS_DTS_WR_PTR (volatile unsigned int *)((0x3874 << 2) + 0xffd00000) +// Bit 31:0 -- AUDIO_PTS +#define AUDIO_PTS (0x3875) +#define P_AUDIO_PTS (volatile unsigned int *)((0x3875 << 2) + 0xffd00000) +// Bit 31:0 -- AUDIO_PTS_WR_PTR +#define AUDIO_PTS_WR_PTR (0x3876) +#define P_AUDIO_PTS_WR_PTR (volatile unsigned int *)((0x3876 << 2) + 0xffd00000) +// bit 31:20 -- stream_es_count ( Read Only) +// bit 19 -- req_pending ( parser ddr_A_fifo ) (Read Only) +// bit 18 -- stream_es_passthrough_enable +// bit 17:16 -- stream_es_passthrough_type +// bit 15:13 -- VIDEO2 Ees_write Endian +// bit 12 -- VIDEO2 using manual read point +// bit 11:9 -- SUB Ees_write Endian +// bit 8 -- SUB using manual read point +// bit 7:5 -- AUDIO Ees_write Endian +// bit 4 -- AUDIO using manual read point +// bit 3:1 -- VIDEO Ees_write Endian +// bit 0 -- VIDEO using manual read point +#define PARSER_ES_CONTROL (0x3877) +#define P_PARSER_ES_CONTROL (volatile unsigned int *)((0x3877 << 2) + 0xffd00000) +// Bit 31:0 PFIFO_MONITOR +#define PFIFO_MONITOR (0x3878) +#define P_PFIFO_MONITOR (volatile unsigned int *)((0x3878 << 2) + 0xffd00000) +// -------------------------------------------- +// PARSER_VIDEO DDR Interface +// -------------------------------------------- +// The PARSER_VIDEO start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define PARSER_VIDEO_START_PTR (0x3880) +#define P_PARSER_VIDEO_START_PTR (volatile unsigned int *)((0x3880 << 2) + 0xffd00000) +#define PARSER_VIDEO_END_PTR (0x3881) +#define P_PARSER_VIDEO_END_PTR (volatile unsigned int *)((0x3881 << 2) + 0xffd00000) +// -------------------------------------------- +// PARSER_VIDEO Buffer Level Manager +// -------------------------------------------- +#define PARSER_VIDEO_WP (0x3882) +#define P_PARSER_VIDEO_WP (volatile unsigned int *)((0x3882 << 2) + 0xffd00000) +#define PARSER_VIDEO_RP (0x3883) +#define P_PARSER_VIDEO_RP (volatile unsigned int *)((0x3883 << 2) + 0xffd00000) +#define PARSER_VIDEO_HOLE (0x3884) +#define P_PARSER_VIDEO_HOLE (volatile unsigned int *)((0x3884 << 2) + 0xffd00000) +// -------------------------------------------- +// PARSER_AUDIO DDR Interface +// -------------------------------------------- +// The PARSER_AUDIO start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define PARSER_AUDIO_START_PTR (0x3885) +#define P_PARSER_AUDIO_START_PTR (volatile unsigned int *)((0x3885 << 2) + 0xffd00000) +#define PARSER_AUDIO_END_PTR (0x3886) +#define P_PARSER_AUDIO_END_PTR (volatile unsigned int *)((0x3886 << 2) + 0xffd00000) +// -------------------------------------------- +// PARSER_AUDIO Buffer Level Manager +// -------------------------------------------- +#define PARSER_AUDIO_WP (0x3887) +#define P_PARSER_AUDIO_WP (volatile unsigned int *)((0x3887 << 2) + 0xffd00000) +#define PARSER_AUDIO_RP (0x3888) +#define P_PARSER_AUDIO_RP (volatile unsigned int *)((0x3888 << 2) + 0xffd00000) +#define PARSER_AUDIO_HOLE (0x3889) +#define P_PARSER_AUDIO_HOLE (volatile unsigned int *)((0x3889 << 2) + 0xffd00000) +// -------------------------------------------- +// PARSER_SUB DDR Interface +// -------------------------------------------- +// The PARSER_SUB start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define PARSER_SUB_START_PTR (0x388a) +#define P_PARSER_SUB_START_PTR (volatile unsigned int *)((0x388a << 2) + 0xffd00000) +#define PARSER_SUB_END_PTR (0x388b) +#define P_PARSER_SUB_END_PTR (volatile unsigned int *)((0x388b << 2) + 0xffd00000) +// -------------------------------------------- +// PARSER_SUB Buffer Level Manager +// -------------------------------------------- +#define PARSER_SUB_WP (0x388c) +#define P_PARSER_SUB_WP (volatile unsigned int *)((0x388c << 2) + 0xffd00000) +#define PARSER_SUB_RP (0x388d) +#define P_PARSER_SUB_RP (volatile unsigned int *)((0x388d << 2) + 0xffd00000) +#define PARSER_SUB_HOLE (0x388e) +#define P_PARSER_SUB_HOLE (volatile unsigned int *)((0x388e << 2) + 0xffd00000) +// Bit[31] dma_busy +// Bit[30] cur_fetch_or_es_write +// Bit[29:28] reserved +// Bit[27:24] fetch_status +// Bit[23:0] buffer_cycles_left +#define PARSER_FETCH_INFO (0x388f) +#define P_PARSER_FETCH_INFO (volatile unsigned int *)((0x388f << 2) + 0xffd00000) +// Bit[31:28] ctl_status +// Bit[27:24] insert_byte_offset +// Bit[23:0] es_pack_left_cycle +#define PARSER_STATUS (0x3890) +#define P_PARSER_STATUS (volatile unsigned int *)((0x3890 << 2) + 0xffd00000) +// Bit [31:16] AUDIO_wrap_count +// Bit [15:0] VIDEO_wrap_count +#define PARSER_AV_WRAP_COUNT (0x3891) +#define P_PARSER_AV_WRAP_COUNT (volatile unsigned int *)((0x3891 << 2) + 0xffd00000) +// bit[29:24] A_brst_num_parser +// bit[21:16] A_id_parser +// bit[11:0] wrrsp_count_parser +#define WRRSP_PARSER (0x3892) +#define P_WRRSP_PARSER (volatile unsigned int *)((0x3892 << 2) + 0xffd00000) +// `define CSS_cmd 12'h200 // address of css command and indirect register +// `define CSS_cntl 12'h201 // css control register +// `define CSS_data 12'h202 // indirect register +// `define CSS_id1_data 12'h203 // ID data for the first and second bytes +// `define CSS_id2_data 12'h204 // ID data for the third and fourth bytes +//CPPM registers +// `define CPPM_IFIFO_CTRL 12'h210 //CPPM input FIFO control +// `define CPPM_C2BC_KEY 12'h211 //CPPM C2 Block Cipher Key register +// `define CPPM_C2BC_DIN 12'h212 //CPPM C2 Block Cipher data input register +// `define CPPM_C2BC_DOUT 12'h213 //CPPM C2 Block Cipher data result register +// `define CPPM_CMD 12'h214 //CPPM command and control register +// `define CPPM_CTRL_STATUS 12'h215 //CPPM control status, mainly for debug +// `define CPPM_IFIFO_DATA 12'h216 //CPPM input FIFO data pop port, just for debug +// -------------------------------------------- +// PARSER_VIDEO2 DDR Interface +// -------------------------------------------- +// The PARSER_VIDEO2 start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define PARSER_VIDEO2_START_PTR (0x3893) +#define P_PARSER_VIDEO2_START_PTR (volatile unsigned int *)((0x3893 << 2) + 0xffd00000) +#define PARSER_VIDEO2_END_PTR (0x3894) +#define P_PARSER_VIDEO2_END_PTR (volatile unsigned int *)((0x3894 << 2) + 0xffd00000) +// -------------------------------------------- +// PARSER_VIDEO2 Buffer Level Manager +// -------------------------------------------- +#define PARSER_VIDEO2_WP (0x3895) +#define P_PARSER_VIDEO2_WP (volatile unsigned int *)((0x3895 << 2) + 0xffd00000) +#define PARSER_VIDEO2_RP (0x3896) +#define P_PARSER_VIDEO2_RP (volatile unsigned int *)((0x3896 << 2) + 0xffd00000) +#define PARSER_VIDEO2_HOLE (0x3897) +#define P_PARSER_VIDEO2_HOLE (volatile unsigned int *)((0x3897 << 2) + 0xffd00000) +// Bit [31:16] AUDIO_wrap_count +// Bit [15:0] VIDEO2_wrap_count +#define PARSER_AV2_WRAP_COUNT (0x3898) +#define P_PARSER_AV2_WRAP_COUNT (volatile unsigned int *)((0x3898 << 2) + 0xffd00000) +// DDR registers +//`define USE_DDR2 +//======================================================================== +// DVIN Registers (12'h2e0 - 12'h2ef) +// +//======================================================================== +// ----------------------------------------------- +// CBUS_BASE: DVIN_CBUS_BASE = 0x08 +// ----------------------------------------------- +// Bit 31:12 Rsrv +// Bit 11:10 RW, vs_hs_tim_ctrl: Controls which edge of HS/VS the active pixel/line is related: +// bit[0]=0: start of active pixel is counted from the rising edge of HS; +// bit[0]=1: start of active pixel is counted from the falling edge of HS; +// bit[1]=0: start of active line is counted from the rising edge of VS; +// bit[1]=1: start of active line is counted from the falling edge of VS. +// Bit 9 RW, sample_clk_neg: 1=invert input dvin_clk +// Bit 8: 7 RW, mode_422to444: 0=No convertion; 1=Rsrv; 2=Convert 422 to 444, use previous C value; 3=Convert 422 to 444, use average C value. +// Bit 6: 5 RW, de_mode: 0x=ignore input DE signal, use internal detection to to determine active pixel; +// 10=during active pixel, if DE is low, replace input data with the last good data before DE goes low; +// 11=Active pixel is determined by DE, no internal detection. +// Bit 4 RW, ext_field_sel: 1=Select external input Field, 0=Use internal detected Field. +// Bit 3 RW, field_pol_inv: set to 1 if input Field is low active and ext_field_sel=1 +// Bit 2 RW, de_pol_inv: set to 1 if input DE is low active +// Bit 1 RW, vs_pol_inv: set to 1 if input VS is low active +// Bit 0 RW, hs_pol_inv: set to 1 if input HS is low active +#define DVIN_FRONT_END_CTRL (0x08e0) +#define P_DVIN_FRONT_END_CTRL (volatile unsigned int *)((0x08e0 << 2) + 0xffd00000) +// Bit 31:28 Reserved +// Bit 27:16 RW, hs_lead_vs_odd_max: Criteria for HW detecting odd/even Field internally: max clock cycles allowed for HS +// active edge to lead before VS active edge, in odd field. Failing it the field is even. +// Bit 15:12 Reserved +// Bit 11: 0 RW, hs_lead_vs_odd_min: Criteria for HW detecting odd/even Field internally -- min clock cycles allowed for HS +// active edge to lead before VS active edge, in odd field. Failing it the field is even. +#define DVIN_HS_LEAD_VS_ODD (0x08e1) +#define P_DVIN_HS_LEAD_VS_ODD (volatile unsigned int *)((0x08e1 << 2) + 0xffd00000) +// Bit 31:28 Reserved +// Bit 27:16 RW, active_start_pix_fo +// Bit 15:12 Reserved +// Bit 11: 0 RW, active_start_pix_fe +#define DVIN_ACTIVE_START_PIX (0x08e2) +#define P_DVIN_ACTIVE_START_PIX (volatile unsigned int *)((0x08e2 << 2) + 0xffd00000) +// Bit 31:28 Reserved +// Bit 27:16 RW, active_start_line_fo +// Bit 15:12 Reserved +// Bit 11: 0 RW, active_start_line_fe +#define DVIN_ACTIVE_START_LINE (0x08e3) +#define P_DVIN_ACTIVE_START_LINE (volatile unsigned int *)((0x08e3 << 2) + 0xffd00000) +// Bit 31:28 Reserved +// Bit 27:16 RW, field_height_m1 +// Bit 15:12 Reserved +// Bit 11: 0 RW, line_width_m1 +#define DVIN_DISPLAY_SIZE (0x08e4) +#define P_DVIN_DISPLAY_SIZE (volatile unsigned int *)((0x08e4 << 2) + 0xffd00000) +// Bit 31 Rsrv +// Bit 30 R, vs_in_polarity: 0=active high; 1=active low. +// Bit 29 R, hs_in_polarity: 0=active high; 1=active low. +// Bit 28 R, field_odd +// Bit 27:16 R, hs_lead_vs_cnt +// Bit 15: 4 Rsrv +// Bit 3: 1 RW, data_comp_map: Re-map input data to form YCbCr. +// 0=YCbCr is {[29:20], [19:10], [ 9: 0]}; +// 1=YCbCr is {[29:20], [ 9: 0], [19:10]}; +// 2=YCbCr is {[ 9: 0], [29:20], [19:10]}; +// 3=YCbCr is {[19:10], [29:20], [ 9: 0]}; +// 4=YCbCr is {[19:10], [ 9: 0], [29:20]}; +// 5=YCbCr is {[ 9: 0], [19:10], [29:20]}; +// 6,7=Rsrv +// Bit 0 RW, dvin_enable +#define DVIN_CTRL_STAT (0x08e5) +#define P_DVIN_CTRL_STAT (volatile unsigned int *)((0x08e5 << 2) + 0xffd00000) +//======================================================================== +// DOS registers APB allocation from 32'hd0050000 +// +//======================================================================== +//======================================================================= +// XIF module +// `include "xregs.h" + #define X_INT_ADR 0x400 + #define GPIO_ADR 0x401 + #define GPIO_ADR_H8 0x402 + #define WFIFO_DEPTH 8 + #define WFIFO_PointerWidth 3 + #define WFIFO_WORDSIZE 32 +// MAC module +// move them to cpu domain. +//`define CLR_ACC_MAC 12'h410 +//`define CLR_ACC_MAC2 12'h411 +//`define ACC_0 12'h412 +//`define ACC_1 12'h413 +//`define ACC_2 12'h414 +//`define ACC_3 12'h415 +//======================================================================== +// Audio EQ DRC Interface (15'h1400 - 15'h14ff) +// +//======================================================================== +// +// Reading file: audio_eq_drc.h +// +// ----------------------------------------------- +// CBUS_BASE: AED_CBUS_BASE = 0x10 +// ----------------------------------------------- + +/* defined in g12a secure_apb.h */ +#if 0 +#define AED_EQ_CH1_COEF00 (0x1000) +#define P_AED_EQ_CH1_COEF00 (volatile unsigned int *)((0x1000 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF01 (0x1001) +#define P_AED_EQ_CH1_COEF01 (volatile unsigned int *)((0x1001 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF02 (0x1002) +#define P_AED_EQ_CH1_COEF02 (volatile unsigned int *)((0x1002 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF03 (0x1003) +#define P_AED_EQ_CH1_COEF03 (volatile unsigned int *)((0x1003 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF04 (0x1004) +#define P_AED_EQ_CH1_COEF04 (volatile unsigned int *)((0x1004 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF10 (0x1005) +#define P_AED_EQ_CH1_COEF10 (volatile unsigned int *)((0x1005 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF11 (0x1006) +#define P_AED_EQ_CH1_COEF11 (volatile unsigned int *)((0x1006 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF12 (0x1007) +#define P_AED_EQ_CH1_COEF12 (volatile unsigned int *)((0x1007 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF13 (0x1008) +#define P_AED_EQ_CH1_COEF13 (volatile unsigned int *)((0x1008 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF14 (0x1009) +#define P_AED_EQ_CH1_COEF14 (volatile unsigned int *)((0x1009 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF20 (0x100a) +#define P_AED_EQ_CH1_COEF20 (volatile unsigned int *)((0x100a << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF21 (0x100b) +#define P_AED_EQ_CH1_COEF21 (volatile unsigned int *)((0x100b << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF22 (0x100c) +#define P_AED_EQ_CH1_COEF22 (volatile unsigned int *)((0x100c << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF23 (0x100d) +#define P_AED_EQ_CH1_COEF23 (volatile unsigned int *)((0x100d << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF24 (0x100e) +#define P_AED_EQ_CH1_COEF24 (volatile unsigned int *)((0x100e << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF30 (0x100f) +#define P_AED_EQ_CH1_COEF30 (volatile unsigned int *)((0x100f << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF31 (0x1010) +#define P_AED_EQ_CH1_COEF31 (volatile unsigned int *)((0x1010 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF32 (0x1011) +#define P_AED_EQ_CH1_COEF32 (volatile unsigned int *)((0x1011 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF33 (0x1012) +#define P_AED_EQ_CH1_COEF33 (volatile unsigned int *)((0x1012 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF34 (0x1013) +#define P_AED_EQ_CH1_COEF34 (volatile unsigned int *)((0x1013 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF40 (0x1014) +#define P_AED_EQ_CH1_COEF40 (volatile unsigned int *)((0x1014 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF41 (0x1015) +#define P_AED_EQ_CH1_COEF41 (volatile unsigned int *)((0x1015 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF42 (0x1016) +#define P_AED_EQ_CH1_COEF42 (volatile unsigned int *)((0x1016 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF43 (0x1017) +#define P_AED_EQ_CH1_COEF43 (volatile unsigned int *)((0x1017 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF44 (0x1018) +#define P_AED_EQ_CH1_COEF44 (volatile unsigned int *)((0x1018 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF50 (0x1019) +#define P_AED_EQ_CH1_COEF50 (volatile unsigned int *)((0x1019 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF51 (0x101a) +#define P_AED_EQ_CH1_COEF51 (volatile unsigned int *)((0x101a << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF52 (0x101b) +#define P_AED_EQ_CH1_COEF52 (volatile unsigned int *)((0x101b << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF53 (0x101c) +#define P_AED_EQ_CH1_COEF53 (volatile unsigned int *)((0x101c << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF54 (0x101d) +#define P_AED_EQ_CH1_COEF54 (volatile unsigned int *)((0x101d << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF60 (0x101e) +#define P_AED_EQ_CH1_COEF60 (volatile unsigned int *)((0x101e << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF61 (0x101f) +#define P_AED_EQ_CH1_COEF61 (volatile unsigned int *)((0x101f << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF62 (0x1020) +#define P_AED_EQ_CH1_COEF62 (volatile unsigned int *)((0x1020 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF63 (0x1021) +#define P_AED_EQ_CH1_COEF63 (volatile unsigned int *)((0x1021 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF64 (0x1022) +#define P_AED_EQ_CH1_COEF64 (volatile unsigned int *)((0x1022 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF70 (0x1023) +#define P_AED_EQ_CH1_COEF70 (volatile unsigned int *)((0x1023 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF71 (0x1024) +#define P_AED_EQ_CH1_COEF71 (volatile unsigned int *)((0x1024 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF72 (0x1025) +#define P_AED_EQ_CH1_COEF72 (volatile unsigned int *)((0x1025 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF73 (0x1026) +#define P_AED_EQ_CH1_COEF73 (volatile unsigned int *)((0x1026 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF74 (0x1027) +#define P_AED_EQ_CH1_COEF74 (volatile unsigned int *)((0x1027 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF80 (0x1028) +#define P_AED_EQ_CH1_COEF80 (volatile unsigned int *)((0x1028 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF81 (0x1029) +#define P_AED_EQ_CH1_COEF81 (volatile unsigned int *)((0x1029 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF82 (0x102a) +#define P_AED_EQ_CH1_COEF82 (volatile unsigned int *)((0x102a << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF83 (0x102b) +#define P_AED_EQ_CH1_COEF83 (volatile unsigned int *)((0x102b << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF84 (0x102c) +#define P_AED_EQ_CH1_COEF84 (volatile unsigned int *)((0x102c << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF90 (0x102d) +#define P_AED_EQ_CH1_COEF90 (volatile unsigned int *)((0x102d << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF91 (0x102e) +#define P_AED_EQ_CH1_COEF91 (volatile unsigned int *)((0x102e << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF92 (0x102f) +#define P_AED_EQ_CH1_COEF92 (volatile unsigned int *)((0x102f << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF93 (0x1030) +#define P_AED_EQ_CH1_COEF93 (volatile unsigned int *)((0x1030 << 2) + 0xffd00000) +#define AED_EQ_CH1_COEF94 (0x1031) +#define P_AED_EQ_CH1_COEF94 (volatile unsigned int *)((0x1031 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF00 (0x1032) +#define P_AED_EQ_CH2_COEF00 (volatile unsigned int *)((0x1032 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF01 (0x1033) +#define P_AED_EQ_CH2_COEF01 (volatile unsigned int *)((0x1033 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF02 (0x1034) +#define P_AED_EQ_CH2_COEF02 (volatile unsigned int *)((0x1034 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF03 (0x1035) +#define P_AED_EQ_CH2_COEF03 (volatile unsigned int *)((0x1035 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF04 (0x1036) +#define P_AED_EQ_CH2_COEF04 (volatile unsigned int *)((0x1036 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF10 (0x1037) +#define P_AED_EQ_CH2_COEF10 (volatile unsigned int *)((0x1037 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF11 (0x1038) +#define P_AED_EQ_CH2_COEF11 (volatile unsigned int *)((0x1038 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF12 (0x1039) +#define P_AED_EQ_CH2_COEF12 (volatile unsigned int *)((0x1039 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF13 (0x103a) +#define P_AED_EQ_CH2_COEF13 (volatile unsigned int *)((0x103a << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF14 (0x103b) +#define P_AED_EQ_CH2_COEF14 (volatile unsigned int *)((0x103b << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF20 (0x103c) +#define P_AED_EQ_CH2_COEF20 (volatile unsigned int *)((0x103c << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF21 (0x103d) +#define P_AED_EQ_CH2_COEF21 (volatile unsigned int *)((0x103d << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF22 (0x103e) +#define P_AED_EQ_CH2_COEF22 (volatile unsigned int *)((0x103e << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF23 (0x103f) +#define P_AED_EQ_CH2_COEF23 (volatile unsigned int *)((0x103f << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF24 (0x1040) +#define P_AED_EQ_CH2_COEF24 (volatile unsigned int *)((0x1040 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF30 (0x1041) +#define P_AED_EQ_CH2_COEF30 (volatile unsigned int *)((0x1041 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF31 (0x1042) +#define P_AED_EQ_CH2_COEF31 (volatile unsigned int *)((0x1042 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF32 (0x1043) +#define P_AED_EQ_CH2_COEF32 (volatile unsigned int *)((0x1043 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF33 (0x1044) +#define P_AED_EQ_CH2_COEF33 (volatile unsigned int *)((0x1044 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF34 (0x1045) +#define P_AED_EQ_CH2_COEF34 (volatile unsigned int *)((0x1045 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF40 (0x1046) +#define P_AED_EQ_CH2_COEF40 (volatile unsigned int *)((0x1046 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF41 (0x1047) +#define P_AED_EQ_CH2_COEF41 (volatile unsigned int *)((0x1047 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF42 (0x1048) +#define P_AED_EQ_CH2_COEF42 (volatile unsigned int *)((0x1048 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF43 (0x1049) +#define P_AED_EQ_CH2_COEF43 (volatile unsigned int *)((0x1049 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF44 (0x104a) +#define P_AED_EQ_CH2_COEF44 (volatile unsigned int *)((0x104a << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF50 (0x104b) +#define P_AED_EQ_CH2_COEF50 (volatile unsigned int *)((0x104b << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF51 (0x104c) +#define P_AED_EQ_CH2_COEF51 (volatile unsigned int *)((0x104c << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF52 (0x104d) +#define P_AED_EQ_CH2_COEF52 (volatile unsigned int *)((0x104d << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF53 (0x104e) +#define P_AED_EQ_CH2_COEF53 (volatile unsigned int *)((0x104e << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF54 (0x104f) +#define P_AED_EQ_CH2_COEF54 (volatile unsigned int *)((0x104f << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF60 (0x1050) +#define P_AED_EQ_CH2_COEF60 (volatile unsigned int *)((0x1050 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF61 (0x1051) +#define P_AED_EQ_CH2_COEF61 (volatile unsigned int *)((0x1051 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF62 (0x1052) +#define P_AED_EQ_CH2_COEF62 (volatile unsigned int *)((0x1052 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF63 (0x1053) +#define P_AED_EQ_CH2_COEF63 (volatile unsigned int *)((0x1053 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF64 (0x1054) +#define P_AED_EQ_CH2_COEF64 (volatile unsigned int *)((0x1054 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF70 (0x1055) +#define P_AED_EQ_CH2_COEF70 (volatile unsigned int *)((0x1055 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF71 (0x1056) +#define P_AED_EQ_CH2_COEF71 (volatile unsigned int *)((0x1056 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF72 (0x1057) +#define P_AED_EQ_CH2_COEF72 (volatile unsigned int *)((0x1057 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF73 (0x1058) +#define P_AED_EQ_CH2_COEF73 (volatile unsigned int *)((0x1058 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF74 (0x1059) +#define P_AED_EQ_CH2_COEF74 (volatile unsigned int *)((0x1059 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF80 (0x105a) +#define P_AED_EQ_CH2_COEF80 (volatile unsigned int *)((0x105a << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF81 (0x105b) +#define P_AED_EQ_CH2_COEF81 (volatile unsigned int *)((0x105b << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF82 (0x105c) +#define P_AED_EQ_CH2_COEF82 (volatile unsigned int *)((0x105c << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF83 (0x105d) +#define P_AED_EQ_CH2_COEF83 (volatile unsigned int *)((0x105d << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF84 (0x105e) +#define P_AED_EQ_CH2_COEF84 (volatile unsigned int *)((0x105e << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF90 (0x105f) +#define P_AED_EQ_CH2_COEF90 (volatile unsigned int *)((0x105f << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF91 (0x1060) +#define P_AED_EQ_CH2_COEF91 (volatile unsigned int *)((0x1060 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF92 (0x1061) +#define P_AED_EQ_CH2_COEF92 (volatile unsigned int *)((0x1061 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF93 (0x1062) +#define P_AED_EQ_CH2_COEF93 (volatile unsigned int *)((0x1062 << 2) + 0xffd00000) +#define AED_EQ_CH2_COEF94 (0x1063) +#define P_AED_EQ_CH2_COEF94 (volatile unsigned int *)((0x1063 << 2) + 0xffd00000) +#define AED_EQ_EN (0x1064) +#define P_AED_EQ_EN (volatile unsigned int *)((0x1064 << 2) + 0xffd00000) +#define AED_EQ_VOLUME (0x1065) +#define P_AED_EQ_VOLUME (volatile unsigned int *)((0x1065 << 2) + 0xffd00000) +#define AED_EQ_VOLUME_SLEW_CNT (0x1066) +#define P_AED_EQ_VOLUME_SLEW_CNT (volatile unsigned int *)((0x1066 << 2) + 0xffd00000) +#define AED_MUTE (0x1067) +#define P_AED_MUTE (volatile unsigned int *)((0x1067 << 2) + 0xffd00000) +#define AED_DRC_EN (0x1070) +#define P_AED_DRC_EN (volatile unsigned int *)((0x1070 << 2) + 0xffd00000) +#define AED_DRC_AE (0x1071) +#define P_AED_DRC_AE (volatile unsigned int *)((0x1071 << 2) + 0xffd00000) +#define AED_DRC_AA (0x1072) +#define P_AED_DRC_AA (volatile unsigned int *)((0x1072 << 2) + 0xffd00000) +#define AED_DRC_AD (0x1073) +#define P_AED_DRC_AD (volatile unsigned int *)((0x1073 << 2) + 0xffd00000) +#define AED_DRC_AE_1M (0x1074) +#define P_AED_DRC_AE_1M (volatile unsigned int *)((0x1074 << 2) + 0xffd00000) +#define AED_DRC_AA_1M (0x1075) +#define P_AED_DRC_AA_1M (volatile unsigned int *)((0x1075 << 2) + 0xffd00000) +#define AED_DRC_AD_1M (0x1076) +#define P_AED_DRC_AD_1M (volatile unsigned int *)((0x1076 << 2) + 0xffd00000) +#define AED_DRC_OFFSET0 (0x1077) +#define P_AED_DRC_OFFSET0 (volatile unsigned int *)((0x1077 << 2) + 0xffd00000) +#define AED_DRC_OFFSET1 (0x1078) +#define P_AED_DRC_OFFSET1 (volatile unsigned int *)((0x1078 << 2) + 0xffd00000) +#define AED_DRC_THD0 (0x1079) +#define P_AED_DRC_THD0 (volatile unsigned int *)((0x1079 << 2) + 0xffd00000) +#define AED_DRC_THD1 (0x107a) +#define P_AED_DRC_THD1 (volatile unsigned int *)((0x107a << 2) + 0xffd00000) +#define AED_DRC_K0 (0x107b) +#define P_AED_DRC_K0 (volatile unsigned int *)((0x107b << 2) + 0xffd00000) +#define AED_DRC_K1 (0x107c) +#define P_AED_DRC_K1 (volatile unsigned int *)((0x107c << 2) + 0xffd00000) +#define AED_CLIP_THD (0x107d) +#define P_AED_CLIP_THD (volatile unsigned int *)((0x107d << 2) + 0xffd00000) +#define AED_NG_THD0 (0x107e) +#define P_AED_NG_THD0 (volatile unsigned int *)((0x107e << 2) + 0xffd00000) +#define AED_NG_THD1 (0x107f) +#define P_AED_NG_THD1 (volatile unsigned int *)((0x107f << 2) + 0xffd00000) +#define AED_NG_CNT_THD (0x1080) +#define P_AED_NG_CNT_THD (volatile unsigned int *)((0x1080 << 2) + 0xffd00000) +#define AED_NG_CTL (0x1081) +#define P_AED_NG_CTL (volatile unsigned int *)((0x1081 << 2) + 0xffd00000) +#define AED_ED_CTL (0x1082) +#define P_AED_ED_CTL (volatile unsigned int *)((0x1082 << 2) + 0xffd00000) +#define AED_DEBUG0 (0x1083) +#define P_AED_DEBUG0 (volatile unsigned int *)((0x1083 << 2) + 0xffd00000) +#define AED_DEBUG1 (0x1084) +#define P_AED_DEBUG1 (volatile unsigned int *)((0x1084 << 2) + 0xffd00000) +#define AED_DEBUG2 (0x1085) +#define P_AED_DEBUG2 (volatile unsigned int *)((0x1085 << 2) + 0xffd00000) +#define AED_DEBUG3 (0x1086) +#define P_AED_DEBUG3 (volatile unsigned int *)((0x1086 << 2) + 0xffd00000) +#define AED_DEBUG4 (0x1087) +#define P_AED_DEBUG4 (volatile unsigned int *)((0x1087 << 2) + 0xffd00000) +#define AED_DEBUG5 (0x1088) +#define P_AED_DEBUG5 (volatile unsigned int *)((0x1088 << 2) + 0xffd00000) +#define AED_DEBUG6 (0x1089) +#define P_AED_DEBUG6 (volatile unsigned int *)((0x1089 << 2) + 0xffd00000) +#define AED_TOP_CTL (0x1090) +#define P_AED_TOP_CTL (volatile unsigned int *)((0x1090 << 2) + 0xffd00000) +#endif + +// +// Closing file: audio_eq_drc.h +// +//======================================================================== +// Audio Interface (12'h500 - 12'h5ff) +// +//======================================================================== +// +// Reading file: aregs.h +// +//======================================================================== +// Audio Interface (8'h00 - 8'hff) +// Modified : Xuyun Chen Jan 2001 +//======================================================================== +// Number of bytes expected per NON-PCM frame, including the header. +// 16 bits. +// ----------------------------------------------- +// CBUS_BASE: AIU_CBUS_BASE = 0x14 +// ----------------------------------------------- +#define AIU_958_BPF (0x1400) +#define P_AIU_958_BPF (volatile unsigned int *)((0x1400 << 2) + 0xffd00000) +// Value of burst_info used in IEC958 preamble for a NON-PCM frame. See +// ATSC AC-3 spec Annex B. 16 bits. +#define AIU_958_BRST (0x1401) +#define P_AIU_958_BRST (volatile unsigned int *)((0x1401 << 2) + 0xffd00000) +// Value of length_code used in IEC958 preamble for an NON-PCM frame. See +// ATSC AC-3 spec Annex B. 16 bits. +#define AIU_958_LENGTH (0x1402) +#define P_AIU_958_LENGTH (volatile unsigned int *)((0x1402 << 2) + 0xffd00000) +// How many subframes to padd around the NON-PCM frame. This will +// be set to 'd3072 if it is a AC-3 audio stream. +// 16 bits +#define AIU_958_PADDSIZE (0x1403) +#define P_AIU_958_PADDSIZE (volatile unsigned int *)((0x1403 << 2) + 0xffd00000) +// 16'd3072 +// Misc. control settings for IEC958 interface +// Bit 15:14 pcm_sample_ctl, 00-pcm_no_sample, 01-pcm_sample_up, 10-pcm_sample_down, 11-pcm_sample_down_drop +// Bit 13: if true, force each audio data to left or right according to the bit attached with the audio data +// This bit should be used with Register AIU_958_force_left(0x505) together +// Bit 12: if true, the U(user data) is from the stream otherwise it is filled by +// zero while encoding iec958 frame +// Bit 11 : if true big endian(highword,lowword) otherwise little endian(lowword,highword) +// for 32bit mode +// Bit 10:8 : shift number for 32 bit mode +// Bit 7 : 32 bit mode turn on while This bit is true and Bit 1 is true +// Bit 6:5 : Specifies output alignment for 16 bit pcm data. +// 00 : dout = {8'b0, din}; +// 01 : dout = {4'b0, din, 4'b0}; +// 10 : dout = { din, 8'b0}; +// Bit 4 : True if data should be sent out MSB first. LSB first is the +// default in the spec. +// Bit 3 : True if msb should be extended (only used with 16 bit pcm data.) +// Bit 2 : True if msb of PCM data should be inverted. +// Bit 1 : True if PCM data is 16 bits wide. False if 24 bit or 32bit mode. +// Bit 0 : True if source data is non-PCM data. False if it is PCM data. +#define AIU_958_MISC (0x1404) +#define P_AIU_958_MISC (volatile unsigned int *)((0x1404 << 2) + 0xffd00000) +// 14'b0_0_0_000_0_0000001 +// A write to this register specifies that the next pcm sample sent out +// of the iec958 interface should go into the _left_ channel. +#define AIU_958_FORCE_LEFT (0x1405) +#define P_AIU_958_FORCE_LEFT (volatile unsigned int *)((0x1405 << 2) + 0xffd00000) +//Read Only +//bit 6:0 how many data discarded in the last dma after one frame data finish transfering to AIU +// should used together with register AIU_958_dcu_ff_ctrl +#define AIU_958_DISCARD_NUM (0x1406) +#define P_AIU_958_DISCARD_NUM (volatile unsigned int *)((0x1406 << 2) + 0xffd00000) +//bit 15:8 : A read from this register indicates the IEC958 FIFO count value +//bit 7 : ai_958_req_size if ture, set to 8 bits interface, used to handle odd frame continous read +//bit 6 : continue seeking and dont discard the rest data in one dma after frame end +//bit 5 : if true, byte by byte seeking, otherwise word by word seeking +//bit 4 : if true, the function for sync head seeking is enabled +//bit 3:2 : IEC958 interrupt mode +// There are two conditions to generate interrupt. The First condition is that one frame data +// have been finished writing into FIFO. The second condition is at least some data of the current +// frame have been read out(refer to Register AIU_958_ffrdout_thd) +// 00: interrupt is not generated +// 10: interrupt is generated if the first condition is true +// 01: interrupt is generated if the second condition is true +// 11: interrupt is generated if both of the conditions are true +//bit 1: fifo auto disable, High means after one frame data put into the FIFO, the FIFO +// will automatically disabled +//bit 0: fifo enable +#define AIU_958_DCU_FF_CTRL (0x1407) +#define P_AIU_958_DCU_FF_CTRL (volatile unsigned int *)((0x1407 << 2) + 0xffd00000) +// 'b0_0_1_11_1_0 +// channel status registers for Left channel +// chstat_l0[15:0] contains bits 15:0 of the channel status word. Note +// that bit zero of the channel status word is sent out first. +// chstat_l1[15:0] contains bits 31:16 of the channel status word. +#define AIU_958_CHSTAT_L0 (0x1408) +#define P_AIU_958_CHSTAT_L0 (volatile unsigned int *)((0x1408 << 2) + 0xffd00000) +#define AIU_958_CHSTAT_L1 (0x1409) +#define P_AIU_958_CHSTAT_L1 (volatile unsigned int *)((0x1409 << 2) + 0xffd00000) +// Control register for IEC958 interface +// Bit 9:8 what to do if there is a fifo underrun +// 00 => insert 24'h000000 +// 01 => insert mute constant as defined below +// 10 => repeat last l/r samples +// Bit 7:5 mute constant +// 000 => 24'h000000 +// 001 => 24'h800000 +// 010 => 24'h080000 +// 011 => 24'h008000 +// 100 => 24'h000001 +// 101 => 24'h000010 +// 110 => 24'h000100 +// Bit 4 mute left speaker +// Bit 3 mute right speaker +// Bit 2:1 swap channels +// 00 : L R => L R +// 01 : L R => L L +// 10 : L R => R R +// 11 : L R => R L +// Bit 0 Set this bit to hold iec958 interface after the current +// subframe has been completely transmitted. +#define AIU_958_CTRL (0x140a) +#define P_AIU_958_CTRL (volatile unsigned int *)((0x140a << 2) + 0xffd00000) +// 10'b00_000_00_00_0 +// A write operation to this register will cause one of the output samples +// to be repeated. This can be used to switch the left and the right +// channels. +#define AIU_958_RPT (0x140b) +#define P_AIU_958_RPT (volatile unsigned int *)((0x140b << 2) + 0xffd00000) +// Channel swap and mute control register. +// Bit 15: Mute extra left channel +// Bit 14: Mute extra right channel +// Bit 13: Mute center +// Bit 12: Mute subwoofer +// Bit 11: Mute surround left +// Bit 10: Mute surround right +// Bit 9: Mute left +// Bit 8: Mute right +// Bit 7:6 Channel swap for xtra dac +// Bit 5:4 Channel swap for sub/center dac +// Bit 3:2 Channel swap for surround dac +// Bit 1:0 Channel swap for main l/r dac +// Channel swap possibilities: +// 00 : L R => L R +// 01 : L R => L L +// 10 : L R => R R +// 11 : L R => R L +#define AIU_I2S_MUTE_SWAP (0x140c) +#define P_AIU_I2S_MUTE_SWAP (volatile unsigned int *)((0x140c << 2) + 0xffd00000) +// 16'b0 +// Bit 0 : 0=> single two channel stream +// 1=> four two channel streams +#define AIU_I2S_SOURCE_DESC (0x140d) +#define P_AIU_I2S_SOURCE_DESC (volatile unsigned int *)((0x140d << 2) + 0xffd00000) +// Median filter control register +// Bit 1: 0=> data is offset binary +// 1=> data is signed +// Bit 0: enable median filter +#define AIU_I2S_MED_CTRL (0x140e) +#define P_AIU_I2S_MED_CTRL (volatile unsigned int *)((0x140e << 2) + 0xffd00000) +// 2'b10 +// Median filter threshold constant +// 16 bits +#define AIU_I2S_MED_THRESH (0x140f) +#define P_AIU_I2S_MED_THRESH (volatile unsigned int *)((0x140f << 2) + 0xffd00000) +// 16'h8000 +// Describes dac's connected to I2S interface +// Bit 7: sign extend sample before downshift. +// Bit 6:4 payload downshift constant +// Bit 3: mute constant +// 0 => 'h0000000 +// 1 => 'h800000 +// Bit 2: send msb first +// Bit 1:0 Size of payload +// Note that this parameter used to be called "size of dacs" +// It is now called the payload size since a 24 bit payload can +// actually be connected to any size of dac. The dac will simply +// disregard the extra bits. +// 00 => 16 bit, alrclk = aoclk/32 +// 01 => 20 bit, alrclk = aoclk/40 +// 10 => 24 bit, alrclk = aoclk/48 +// 11 => 24 bit, but alrclk = aoclk/64 +#define AIU_I2S_DAC_CFG (0x1410) +#define P_AIU_I2S_DAC_CFG (volatile unsigned int *)((0x1410 << 2) + 0xffd00000) +// 8'b0_000_1_1_10 +// A write to this register will cause the interface to repeat the current +// sample. Can be used to regain synchronization. +// A read from this register indicates that the next sample to be sent +// out of the interface should go into the _left_ channel of the dac. +#define AIU_I2S_SYNC (0x1411) +#define P_AIU_I2S_SYNC (volatile unsigned int *)((0x1411 << 2) + 0xffd00000) +// Misc regs +// Bit 4 if true, force each audio data to left or right according to the bit attached with the audio data +// This bit should be used with Register AIU_i2s_sync(0x511) together +// Bit 3: Same Audio source for IEC958 and I2s stream 0, both from i2s buffer +// Bit 2: Set this bit to put i2s interface in hold mode +// Bit 1:0 How to handle underruns +// 00 => send zeros +// 01 => send 'h800000 +// 10 => repeat last samples +#define AIU_I2S_MISC (0x1412) +#define P_AIU_I2S_MISC (volatile unsigned int *)((0x1412 << 2) + 0xffd00000) +// 5'b0 +// Bit 7:0 Audio output config. +// 2 bits for each dac, 7:6 for dac3, 5:4 for dac2, +// 3:2 for dac1, 1:0 for dac0 +// For each 2bits: 00: connect channel0-1 to the dac +// 01: connect channel2-3 to the dac +// 10: connect channel4-5 to the dac +// 11: connect channel6-7 to the dac +#define AIU_I2S_OUT_CFG (0x1413) +#define P_AIU_I2S_OUT_CFG (volatile unsigned int *)((0x1413 << 2) + 0xffd00000) +// 8'b0_000000_0 +#define AIU_I2S_FF_CTRL (0x1414) +#define P_AIU_I2S_FF_CTRL (volatile unsigned int *)((0x1414 << 2) + 0xffd00000) +// A write to this register resets the AIU +//Bit 3 reset slow domain iec958 +//Bit 2 soft reset iec958 fast domain +//Bit 1 reset slow domain i2s +//Bit 0 soft reset i2s fast domain +#define AIU_RST_SOFT (0x1415) +#define P_AIU_RST_SOFT (volatile unsigned int *)((0x1415 << 2) + 0xffd00000) +// Clock generation control register +// Bit 15: enable_ddr_arb, set low to reset +// Bit 14:13 parser_A_addr_sel 00-A_addr_aififo2, 01-A_addr_iec958, 10-A_addr_aififo, 11-A_addr_i2s +// Bit 12: 958 divisor more, if true, divided by 2, 4, 6, 8 +// Bit 11: amclk output divisor +// 0 => dont divide +// 1 => divide by 2 +// Bit 10: clock source selection +// 0 => aiclk from pin +// 1 => ai_pll_clk from pll +// Bit 9:8 alrclk skew +// 00 => alrclk transitions at the same time msb is sent +// 01 => alrclk transitions on the cycle before msb is sent +// 10 => alrclk transitions on the cycle after msb is sent +// Bit 7: invert alrclk +// Bit 6: invert aoclk +// Bit 5:4 958 divisor +// 00 => divide by 1 +// 01 => divide by 2 +// 10 => divide by 3 +// 11 => divide by 4 +// Bit 3:2 i2s divisor. NOTE: this value is ignored if AIU_clk_ctrl_more[5:0] != 0 +// 00 => divide by 1 +// 01 => divide by 2 +// 10 => divide by 4 +// 11 => divide by 8 +// Bit 1: enable 958 divider +// Bit 0: enable i2s divider +#define AIU_CLK_CTRL (0x1416) +#define P_AIU_CLK_CTRL (volatile unsigned int *)((0x1416 << 2) + 0xffd00000) +// 13'b0_0_1_01_1_1_10_11_0_0 +// Misc settings that determine the type of adc that is +// connected to the AIU. Reverb mode is deleted. +// Bit 12: selects adc input +// Bit 11:10 adc size +// 00 => 16 bits +// 01 => 18 bits +// 10 => 20 bits +// 11 => 24 bits +// Bit 9:8 adc l/r swap mode +// 00 => stereo +// 01 => send the right adc input to both l and r speakers +// 01 => send the left adc input to both l and r speakers +// 11 => sum the left and right inputs and forward to +// both speakers +// Bit 7:5 adata/lrclk skew mode +// Bit 4 1=>invert the adc's lrclk (This is the lrclk going _out_ +// of the chip. +// Bit 3 1=>Latch the data on the positive edge of the _internal_ +// aoclk. +// Bit 2 1=>adc data is in signed 2's complement mode +#define AIU_MIX_ADCCFG (0x1417) +#define P_AIU_MIX_ADCCFG (volatile unsigned int *)((0x1417 << 2) + 0xffd00000) +// 12'b01_00_001_1_0_1_00 +// Control register that can be changed dynamically. These control +// signals are synchronized internally. +// Bit 12: if true, toggle each mixed audio data to left or right channel +// Bit 11: abuf din left selection, if true, select bit 24 of the data from abuf +// otherwise select bit 25 of the data from abuf +// Bit 10:9 mix sync select, when music, mic and abuf are mixed togather, the main +// sync source can be selected +// 00: not sync source +// 01: music data is the main sync source +// 10: abuf input data is the main sync source +// 11: music and abuf togather as the sync source +// Bit 8: 0=> data from abuf is offset binary +// 1=> data from abuf is signed +// Bit 7:6 the source for data from aiu to abuf +// 00 => mic +// 01 => mic saled + abuf scaled +// 10 => mic scaled + abuf scaled + music scaled +// 11 => music +// Bit 5 channel from aiu to abuf is on +// Bit 4 channel from abuf to aiu is on +// Bit 3 mic is on +// Bit 2 music is on +// Bit 1 if true the mixed data are outputed to i2s dac channel, +// otherwise the mixed data are outputed to IEC958 output +// Bit 0 if true music source for mixing is from i2s buffer, +// otherwise music source is from iec958 buffer +#define AIU_MIX_CTRL (0x1418) +#define P_AIU_MIX_CTRL (volatile unsigned int *)((0x1418 << 2) + 0xffd00000) +// 11'b01_1_01_0_0_0_1_1_1 +// Bit 15 invert_audin_sclk. +// Bit 14 enable_adc_sclk. +// Bit 13: 8 divisor_adc_sclk. +// Bit 7 invert_acodec_adc_sclk. +// Bit 6 hdmitx_sel_aoclkx2: 0=Select cts_clk_i958 as AIU clk to hdmi_tx_audio_master_clk; 1=Select cts_aoclkx2_int as AIU clk to hdmi_tx_audio_master_clk; +// Bit 5: 0 More control on i2s divisor. For backward compatiblity, this value is ignored if is 0, +// if non-zero, it takes effect over AIU_clk_ctrl[3:2]. +// 0=i2s divisor will use the old value in AIU_clk_ctrl[3:2] (divide by 1/2/4/8) +// 1=divide by 2; +// 2=divide by 3; +// 3=divide by 4; +// ... and so on ... +// 63=divide by 64. +#define AIU_CLK_CTRL_MORE (0x1419) +#define P_AIU_CLK_CTRL_MORE (volatile unsigned int *)((0x1419 << 2) + 0xffd00000) +// A read from this register pops 16 bits of data off the 958 +// fifo. A write has no effect. +#define AIU_958_POP (0x141a) +#define P_AIU_958_POP (volatile unsigned int *)((0x141a << 2) + 0xffd00000) +//gain register for mixing +// for each gain, +// 00000: x 0 +// 00001: x 1 +// 00010: x 2 +// 00011: x 3 +// 00100: x 4 +// 00101: x 5 +// 00110: x 6 +// ...... +// 01110: x14 +// 01111: x15 +// 10000: x 0 +// 10001: x 1/16 +// 10010: x 2/16 +// 10011: x 3/16 +// 10100: x 4/16 +// ...... +// 11110: x 14/16 +// 11111: x 15/16 +//Bit 14:10 mic gain +//Bit 9:5 abuf gain +//Bit 4:0 music gain +#define AIU_MIX_GAIN (0x141b) +#define P_AIU_MIX_GAIN (volatile unsigned int *)((0x141b << 2) + 0xffd00000) +// 15'b00001_00001_00001 +//sync head seeking is supported. The maxinium length of sync head is +//48-bit-wide.(in byte by byte seeking mode, the maximium is 44-bit-wide). +//It is consisted of 3 words (synword1_synword2_syncword3). +//You can configure the sync head pattern by using sync mask(mask1_mask2_mask3). +//For example. AC-3 sync head is a 16-bit word(0b77), so syncword1 is set as 0b77, +//mask1 is 0000(not set), mask2 and mask3 is all masked. +#define AIU_958_SYNWORD1 (0x141c) +#define P_AIU_958_SYNWORD1 (volatile unsigned int *)((0x141c << 2) + 0xffd00000) +//16'h0b77 //ac-3 sync head +#define AIU_958_SYNWORD2 (0x141d) +#define P_AIU_958_SYNWORD2 (volatile unsigned int *)((0x141d << 2) + 0xffd00000) +//16'h0000 +#define AIU_958_SYNWORD3 (0x141e) +#define P_AIU_958_SYNWORD3 (volatile unsigned int *)((0x141e << 2) + 0xffd00000) +//16'h0000 +#define AIU_958_SYNWORD1_MASK (0x141f) +#define P_AIU_958_SYNWORD1_MASK (volatile unsigned int *)((0x141f << 2) + 0xffd00000) +//16'h0000 //16-bit ac-3 sync_head +#define AIU_958_SYNWORD2_MASK (0x1420) +#define P_AIU_958_SYNWORD2_MASK (volatile unsigned int *)((0x1420 << 2) + 0xffd00000) +//16'hffff +#define AIU_958_SYNWORD3_MASK (0x1421) +#define P_AIU_958_SYNWORD3_MASK (volatile unsigned int *)((0x1421 << 2) + 0xffd00000) +//16'hffff +//fifo read-out threshold, one condition to generate interrupt is met after fifo readout counter +//reach this value in a frame, please refer to register AIU_958_dcu_ff_ctrl +#define AIU_958_FFRDOUT_THD (0x1422) +#define P_AIU_958_FFRDOUT_THD (volatile unsigned int *)((0x1422 << 2) + 0xffd00000) +//'h0004 +//For pause burst sequence adding, one pause burst sequence is consist of a serious +// pause burst. +//This register defines the length of each pause burst in a pause burst sequence. The size of the +//preamble(Pa, Pb, Pc, Pd) is not counted, but the size of stuff data is counted. +#define AIU_958_LENGTH_PER_PAUSE (0x1423) +#define P_AIU_958_LENGTH_PER_PAUSE (volatile unsigned int *)((0x1423 << 2) + 0xffd00000) +//'h0000 +//This reigster defines the number of pause burst in a pause burst sequence. +//Bit 15 if true, one pause burst sequence will be added +//Bit 14:0 the number of pause burst in a pause burst sequence +#define AIU_958_PAUSE_NUM (0x1424) +#define P_AIU_958_PAUSE_NUM (volatile unsigned int *)((0x1424 << 2) + 0xffd00000) +//'h0000 +//The first 16-bit in the payload of pause burst sequence (gap_length) +#define AIU_958_PAUSE_PAYLOAD (0x1425) +#define P_AIU_958_PAUSE_PAYLOAD (volatile unsigned int *)((0x1425 << 2) + 0xffd00000) +//'h0000 +//For auto pause function, when enabled, pause burst sequence will be automatically added if the data in +// 958 fifo is less than auto_pause threshold and if fifo is disabled. +//Bit 15 if true, auto pause function enable +//Bit 14 pause pack option, just for debugging and adding one option +//Bit 7:0 auto_pause threshold +#define AIU_958_AUTO_PAUSE (0x1426) +#define P_AIU_958_AUTO_PAUSE (volatile unsigned int *)((0x1426 << 2) + 0xffd00000) +//'h0000 +//pause burst sequence payload length( = AIU_958_pause_num * AIU_958_length_per_pause) +#define AIU_958_PAUSE_PD_LENGTH (0x1427) +#define P_AIU_958_PAUSE_PD_LENGTH (volatile unsigned int *)((0x1427 << 2) + 0xffd00000) +//'h0000 +// Bit 15:12 Rsrv. +// Bit 11: 0 dac_lrclk_div: Default is 48-1=47, which means lrclk is sclk divide by 48. +#define AIU_CODEC_DAC_LRCLK_CTRL (0x1428) +#define P_AIU_CODEC_DAC_LRCLK_CTRL (volatile unsigned int *)((0x1428 << 2) + 0xffd00000) +//'h002f +// Bit 15:14 Rsrv. +// Bit 13 inv_audin_lrclk: whether to invert lrclk before output to Audin +// Bit 12 inv_acodec_adc_lrclk: whether to invert lrclk before output to Audio Codec +// Bit 11: 0 adc_lrclk_div: Default is 48-1=47, which means lrclk is sclk divide by 48. +#define AIU_CODEC_ADC_LRCLK_CTRL (0x1429) +#define P_AIU_CODEC_ADC_LRCLK_CTRL (volatile unsigned int *)((0x1429 << 2) + 0xffd00000) +//'h002f +// Bit 15:6 Rsrv. +// Bit 5: 4 hdmi_data_sel: 00=output 0, disable hdmi data; 01=Select pcm data; 10=Select AIU I2S data; 11=Not allowed. +// Bit 3: 2 Rsrv. +// Bit 1: 0 hdmi_clk_sel: 00=Disable output hdmi clock; 01=Select pcm clock; 10=Select AIU clk; 11=Not allowed. +#define AIU_HDMI_CLK_DATA_CTRL (0x142a) +#define P_AIU_HDMI_CLK_DATA_CTRL (volatile unsigned int *)((0x142a << 2) + 0xffd00000) +//'h0000 +// Bit 15:6 Rsrv. +// Bit 5: 4 acodec_data_sel: 00=output 0, disable acodec_sdin; 01=Select pcm data; 10=Select AIU I2S data; 11=Not allowed. +// Bit 3: 2 Rsrv. +// Bit 1: 0 acodec_clk_sel: 00=Disable output acodec_sclk; 01=Select pcm clock; 10=Select AIU aoclk; 11=Not allowed. +#define AIU_CODEC_CLK_DATA_CTRL (0x142b) +#define P_AIU_CODEC_CLK_DATA_CTRL (volatile unsigned int *)((0x142b << 2) + 0xffd00000) +//'h0000 +#define AIU_ACODEC_CTRL (0x142c) +#define P_AIU_ACODEC_CTRL (volatile unsigned int *)((0x142c << 2) + 0xffd00000) +// channel status registers for right channel +// chstat_r0[15:0] contains bits 15:0 of the channel status word. Note +// that bit zero of the channel status word is sent out first. +// chstat_r1[15:0] contains bits 31:16 of the channel status word. +#define AIU_958_CHSTAT_R0 (0x1430) +#define P_AIU_958_CHSTAT_R0 (volatile unsigned int *)((0x1430 << 2) + 0xffd00000) +#define AIU_958_CHSTAT_R1 (0x1431) +#define P_AIU_958_CHSTAT_R1 (volatile unsigned int *)((0x1431 << 2) + 0xffd00000) +//Bit 1 if true, turn on Digital output Valid control +//Bit 0 0: output 0, 1: output 1 to the valid bit in audio digital output when Bit 1 is true +#define AIU_958_VALID_CTRL (0x1432) +#define P_AIU_958_VALID_CTRL (volatile unsigned int *)((0x1432 << 2) + 0xffd00000) +//----------------------------------------------------------------------------- +// Audio Amplifier controls +//----------------------------------------------------------------------------- +#define AIU_AUDIO_AMP_REG0 (0x143c) +#define P_AIU_AUDIO_AMP_REG0 (volatile unsigned int *)((0x143c << 2) + 0xffd00000) +#define AIU_AUDIO_AMP_REG1 (0x143d) +#define P_AIU_AUDIO_AMP_REG1 (volatile unsigned int *)((0x143d << 2) + 0xffd00000) +#define AIU_AUDIO_AMP_REG2 (0x143e) +#define P_AIU_AUDIO_AMP_REG2 (volatile unsigned int *)((0x143e << 2) + 0xffd00000) +#define AIU_AUDIO_AMP_REG3 (0x143f) +#define P_AIU_AUDIO_AMP_REG3 (volatile unsigned int *)((0x143f << 2) + 0xffd00000) +//----------------------------------------------------------------------------- +//add for AIFIFO2 channel +//----------------------------------------------------------------------------- +//Bit 3 CRC pop aififo2 enable +//Bit 2 writing to this bit to 1 causes CRC module reset +//Bit 1 unused +//Bit 0 writing to this bit to 1 causes AIFIFO2 soft reset +#define AIU_AIFIFO2_CTRL (0x1440) +#define P_AIU_AIFIFO2_CTRL (volatile unsigned int *)((0x1440 << 2) + 0xffd00000) +//'h0000 +//AIFIFO2 status register +//Bit 4:0 //how many bits left in the first pop register +#define AIU_AIFIFO2_STATUS (0x1441) +#define P_AIU_AIFIFO2_STATUS (volatile unsigned int *)((0x1441 << 2) + 0xffd00000) +//Same fucntion as the AIGBIT of AIFIFO in CDROM module +//write to this register how many bits wanna pop, +//and reading this register gets the corresponding bits data +#define AIU_AIFIFO2_GBIT (0x1442) +#define P_AIU_AIFIFO2_GBIT (volatile unsigned int *)((0x1442 << 2) + 0xffd00000) +//Same function as the AICLB of AIFIFO in CDROM module +//return the leading zeros by reading this registers +#define AIU_AIFIFO2_CLB (0x1443) +#define P_AIU_AIFIFO2_CLB (volatile unsigned int *)((0x1443 << 2) + 0xffd00000) +//CRC control register, read/write +//Bit 0 CRC caculation start +//Bit 1 CRC core soft reset +//Bit 2 CRC input register clear +//Bit 3 CRC pop data from FIFO enable +//Bit 13:8 CRC polynomial equation order, between 1 to 32 +#define AIU_CRC_CTRL (0x1444) +#define P_AIU_CRC_CTRL (volatile unsigned int *)((0x1444 << 2) + 0xffd00000) +//16'h1000 +//CRC status register, read only +//Bit 7:4 CRC internal shift register bit select, just for debug purpose +//Bit 3 CRC internal shift register data valid, just for debug purpose +//Bit 2 CRC input register data valid +//Bit 1 CRC result, 1: CRC not correct, 0: CRC correct +//Bit 0 CRC state, 1: CRC busy, 0: CRC idle +#define AIU_CRC_STATUS (0x1445) +#define P_AIU_CRC_STATUS (volatile unsigned int *)((0x1445 << 2) + 0xffd00000) +//CRC internal shift register, read only, for debug purpose +#define AIU_CRC_SHIFT_REG (0x1446) +#define P_AIU_CRC_SHIFT_REG (volatile unsigned int *)((0x1446 << 2) + 0xffd00000) +//CRC data input register, read/write +#define AIU_CRC_IREG (0x1447) +#define P_AIU_CRC_IREG (volatile unsigned int *)((0x1447 << 2) + 0xffd00000) +//16'h0000 +//CRC calculation register high-bit part [31:16], read/write +#define AIU_CRC_CAL_REG1 (0x1448) +#define P_AIU_CRC_CAL_REG1 (volatile unsigned int *)((0x1448 << 2) + 0xffd00000) +//CRC calculation register low-bit part [15:0], read/write +#define AIU_CRC_CAL_REG0 (0x1449) +#define P_AIU_CRC_CAL_REG0 (volatile unsigned int *)((0x1449 << 2) + 0xffd00000) +//32'h00000000 +//CRC polynomial coefficient high-bit part [31:16], read/write +#define AIU_CRC_POLY_COEF1 (0x144a) +#define P_AIU_CRC_POLY_COEF1 (volatile unsigned int *)((0x144a << 2) + 0xffd00000) +//CRC polynomial coefficient low-bit part [15:0], read/write +#define AIU_CRC_POLY_COEF0 (0x144b) +#define P_AIU_CRC_POLY_COEF0 (volatile unsigned int *)((0x144b << 2) + 0xffd00000) +//32'h80050000 default CRC-16 +//CRC frame size, high-bit part [19:16], read/write +#define AIU_CRC_BIT_SIZE1 (0x144c) +#define P_AIU_CRC_BIT_SIZE1 (volatile unsigned int *)((0x144c << 2) + 0xffd00000) +//CRC frame size, low-bit part [15:0], read/write +#define AIU_CRC_BIT_SIZE0 (0x144d) +#define P_AIU_CRC_BIT_SIZE0 (volatile unsigned int *)((0x144d << 2) + 0xffd00000) +//20'hfffff +//how many bits have been processed right now in the current frame, read only +//high-bit part [19:16] +#define AIU_CRC_BIT_CNT1 (0x144e) +#define P_AIU_CRC_BIT_CNT1 (volatile unsigned int *)((0x144e << 2) + 0xffd00000) +//low-bit part [15:0] +#define AIU_CRC_BIT_CNT0 (0x144f) +#define P_AIU_CRC_BIT_CNT0 (volatile unsigned int *)((0x144f << 2) + 0xffd00000) +// ------------------------------------- +// AMCLK Measurement +// ------------------------------------- +// Used to measure the amclk frequency +#define AIU_AMCLK_GATE_HI (0x1450) +#define P_AIU_AMCLK_GATE_HI (volatile unsigned int *)((0x1450 << 2) + 0xffd00000) +#define AIU_AMCLK_GATE_LO (0x1451) +#define P_AIU_AMCLK_GATE_LO (volatile unsigned int *)((0x1451 << 2) + 0xffd00000) +#define AIU_AMCLK_MSR (0x1452) +#define P_AIU_AMCLK_MSR (volatile unsigned int *)((0x1452 << 2) + 0xffd00000) +#define AIU_AUDAC_CTRL0 (0x1453) +#define P_AIU_AUDAC_CTRL0 (volatile unsigned int *)((0x1453 << 2) + 0xffd00000) +// ------------------------------------- +// Super Simple Delta Sigma DAC +// ------------------------------------- +// bit 15 1 = invert the clock to the analog filter +// bit 14 1 = digital mute +// bit 13 1 = enable analog mute (in the analog block) +// bit 12 1 = enable Right channel 3 in the analog block +// bit 11 1 = enable Left channel 3 in the analog block +// bit 10 1 = enable Right channel 2 in the analog block +// bit 9 1 = enable Left channel 2 in the analog block +// bit 8 1 = enable Right channel 1 in the analog block +// bit 7 1 = enable Left channel 1 in the analog block +// bit 6 1 = enable Right channel 0 in the analog block +// bit 5 1 = enable Left channel 0 in the analog block +// bit 4: bit select for serial input data +// bit 3: invert alrclk used by the delta-sigma DAC +// bit 2: 1 = use serial I2S data. 0 = use parallel audio data +// bits 1:0 Which data to send to the delta-sigma DAC +// 11 = use channel 3 data +// 10 = use channel 2 data +// 01 = use channel 1 data +// 00 = use channel 0 data +#define AIU_DELTA_SIGMA0 (0x1455) +#define P_AIU_DELTA_SIGMA0 (volatile unsigned int *)((0x1455 << 2) + 0xffd00000) +// Delta Sigma MUTE Value +#define AIU_DELTA_SIGMA1 (0x1456) +#define P_AIU_DELTA_SIGMA1 (volatile unsigned int *)((0x1456 << 2) + 0xffd00000) +// Additional Audio filter controls +#define AIU_DELTA_SIGMA2 (0x1457) +#define P_AIU_DELTA_SIGMA2 (volatile unsigned int *)((0x1457 << 2) + 0xffd00000) +//Bit 14, left channel Delta Sigma modulator soft reset +//Bit 13, right channel Delta Sigma modulator soft reset +//Bit 12, left channel Delta Sigma modulator internal state clear enable when it is unstable +//Bit 11, right channel Delta Sigma modulator internal state clear enable when it is unstable +//Bit 10, left channel Delta Sigma detect unstable state enable +//Bit 9, right channel Delta Sigma detect unstable state enable +//Bit 8, dither high pass filter enable in the Delta Sigma loop +//Bit 7:6, reserved +//Bit 5:0, Delta Sigma input data gain 0/32 ~ 63/32 +//default: 16'h3 +#define AIU_DELTA_SIGMA3 (0x1458) +#define P_AIU_DELTA_SIGMA3 (volatile unsigned int *)((0x1458 << 2) + 0xffd00000) +//15:8, Added Delta Sigma DC level, range:+-1/2, minimium: +-1/128 (assume max is -1 ~ +1) +//7:0, max same sequence number, used for unstable detection +//default: 16'h0 +#define AIU_DELTA_SIGMA4 (0x1459) +#define P_AIU_DELTA_SIGMA4 (volatile unsigned int *)((0x1459 << 2) + 0xffd00000) +//Bit 15:8, square wave divide num +//Bit 7:0, square wave amplitude, -1/4 ~ 1/4, minimium: +-1/1024 +//default: 16'h0 +#define AIU_DELTA_SIGMA5 (0x145a) +#define P_AIU_DELTA_SIGMA5 (volatile unsigned int *)((0x145a << 2) + 0xffd00000) +//Bit 11:8, loop dither amplitude2, 0/32 ~ 15/32 +//Bit 7:4, loop dither amplitude1, 0/32 ~ 15/32 +//Bit 3:0, loop dither amplitude0, 0/32 ~ 15/32 +//default: 16'h0 +#define AIU_DELTA_SIGMA6 (0x145b) +#define P_AIU_DELTA_SIGMA6 (volatile unsigned int *)((0x145b << 2) + 0xffd00000) +//Bit 15:8, loop dithering threshold1 0, 1/512, 2/512 ... 1/2 +//Bit 7:0, loop dithering threshold0 0, 1/512, 2/512 ... 1/2 +//default: 16'h0 +#define AIU_DELTA_SIGMA7 (0x145c) +#define P_AIU_DELTA_SIGMA7 (volatile unsigned int *)((0x145c << 2) + 0xffd00000) +//read only +//Bit 15:8 left channel Delta Sigma clear counter number, how many times Delta Sigma has been reseted +// It will saturate to 255, if more than 255 time +//Bit 7:0 left channel max same sequence number +#define AIU_DELTA_SIGMA_LCNTS (0x145d) +#define P_AIU_DELTA_SIGMA_LCNTS (volatile unsigned int *)((0x145d << 2) + 0xffd00000) +//read only +//Bit 15:8 right channel Delta Sigma clear counter number, how many times Delta Sigma has been reseted +// It will saturate to 255, if more than 255 time +//Bit 7:0 right channel max same sequence number +#define AIU_DELTA_SIGMA_RCNTS (0x145e) +#define P_AIU_DELTA_SIGMA_RCNTS (volatile unsigned int *)((0x145e << 2) + 0xffd00000) +// -------------------------------------------- +// I2S DDR Interface +// -------------------------------------------- +// The I2S start pointer into DDR memory is a 32-bit number +#define AIU_MEM_I2S_START_PTR (0x1460) +#define P_AIU_MEM_I2S_START_PTR (volatile unsigned int *)((0x1460 << 2) + 0xffd00000) +#define AIU_MEM_I2S_RD_PTR (0x1461) +#define P_AIU_MEM_I2S_RD_PTR (volatile unsigned int *)((0x1461 << 2) + 0xffd00000) +#define AIU_MEM_I2S_END_PTR (0x1462) +#define P_AIU_MEM_I2S_END_PTR (volatile unsigned int *)((0x1462 << 2) + 0xffd00000) +// There are two masks that control how data is read: +// [31:16] IRQ block. +// [15:8] chan_mem_mask. Each bit indicates which channels exist in memory +// [7:0] chan_rd_mask. Each bit indicates which channels are READ from memory +#define AIU_MEM_I2S_MASKS (0x1463) +#define P_AIU_MEM_I2S_MASKS (volatile unsigned int *)((0x1463 << 2) + 0xffd00000) +// I2S FIFO Control +// bits [11:10] Select which hardware pointer to use to control the buffer +// level: +// 00 = parser +// 01 = audin_fifo0_wrpt +// 1x = audin_fifo1_wrpt +// bit [9] Use level control: 1 = use buffer level control +// bit [8] Read Only. This bit is 1 when there is data available for reading +// bit [7] Read only. This bit will be high when we're fetching data from the DDR memory +// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +// After that you can pulse cntl_init to start over +// bit [6] cntl_mode_16bit:Set to 1 for 16 bit storage format in DDR +// bits [5:3] endian: see $lib/rtl/ddr_endian.v +// bit [2] cntl_empty_en Set to 1 to enable reading data from the FIFO +// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +// and read masks, set this bit to 1 and then to 0 +#define AIU_MEM_I2S_CONTROL (0x1464) +#define P_AIU_MEM_I2S_CONTROL (volatile unsigned int *)((0x1464 << 2) + 0xffd00000) +// -------------------------------------------- +// IEC958 DDR Interface +// -------------------------------------------- +// The IEC958 start pointer into DDR memory is a 32-bit number +#define AIU_MEM_IEC958_START_PTR (0x1465) +#define P_AIU_MEM_IEC958_START_PTR (volatile unsigned int *)((0x1465 << 2) + 0xffd00000) +#define AIU_MEM_IEC958_RD_PTR (0x1466) +#define P_AIU_MEM_IEC958_RD_PTR (volatile unsigned int *)((0x1466 << 2) + 0xffd00000) +#define AIU_MEM_IEC958_END_PTR (0x1467) +#define P_AIU_MEM_IEC958_END_PTR (volatile unsigned int *)((0x1467 << 2) + 0xffd00000) +// There are two masks that control how data is read: +// [15:8] chan_mem_mask. Each bit indicates which channels exist in memory +// [7:0] chan_rd_mask. Each bit indicates which channels are READ from memory +#define AIU_MEM_IEC958_MASKS (0x1468) +#define P_AIU_MEM_IEC958_MASKS (volatile unsigned int *)((0x1468 << 2) + 0xffd00000) +// IEC958 FIFO Control +// bit [31] A_urgent +// bit [30] ch_always_8 +// bit [29:24] rdata_rd_base_begin ( used for select from different channel ) +// bit [23:14] reserved +// bit [13] cntl_sim_en +// bit [12] cntl_use_level +// bit [11] Read only. This bit will be set to 1 when there is data in the FIFO to process +// bit [10] Read only. This bit will be high when we're fetching data from the DDR memory +// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +// After that you can pulse cntl_init to start over +// bit [9] cntl_endian_jic Just in case endian. last minute byte swap of the data out of +// the FIFO to the rest of the IEC958 logic +// bit [8] mode_raw: Set this bit to 1 to tell the IEC958 FIFO to read +// and process data linearly for raw data. +// bit [7] cntl_mode_16bit:Set to 1 for 16 bit storage format in DDR. Only valid when mode_raw = 0 +// bit [6] cntl_rd_ddr Set this bit to read if you want AIU_MEM_IEC958_RD_PTR and +// AIU_MEM_IEC958_RD_PTR_HIGH to refer to the pointer into DDR memory. +// Otherwise, the curr_ptr registers refer to the byte address of the data +// at the output of the FIFO to the rest of the IEC958 logic +// bits [5:3] endian: see $lib/rtl/ddr_endian.v +// bit [2] cntl_empty_en Set to 1 to enable reading the DDR memory FIFO and filling the pipeline to get-bit +// Set cntl_empty_en = cntl_fill_en = 0 when pulsing cntl_init +// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +// and read masks, set this bit to 1 and then to 0 +#define AIU_MEM_IEC958_CONTROL (0x1469) +#define P_AIU_MEM_IEC958_CONTROL (volatile unsigned int *)((0x1469 << 2) + 0xffd00000) +// -------------------------------------------- +// AIFIFO2 DDR Interface +// -------------------------------------------- +// The AIFIFO2 start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define AIU_MEM_AIFIFO2_START_PTR (0x146a) +#define P_AIU_MEM_AIFIFO2_START_PTR (volatile unsigned int *)((0x146a << 2) + 0xffd00000) +// The current pointer points so some location between the START and END +// pointers. The current pointer is a BYTE pointer. That is, you can +// point to any BYTE address within the START/END range +#define AIU_MEM_AIFIFO2_CURR_PTR (0x146b) +#define P_AIU_MEM_AIFIFO2_CURR_PTR (volatile unsigned int *)((0x146b << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO2_END_PTR (0x146c) +#define P_AIU_MEM_AIFIFO2_END_PTR (volatile unsigned int *)((0x146c << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO2_BYTES_AVAIL (0x146d) +#define P_AIU_MEM_AIFIFO2_BYTES_AVAIL (volatile unsigned int *)((0x146d << 2) + 0xffd00000) +// AIFIFO2 FIFO Control +// bit [15:11] unused +// bit [10] use_level Set this bit to 1 to enable filling of the FIFO controlled by the buffer +// level control. If this bit is 0, then use bit[1] to control the enabling of filling +// bit [9] Data Ready. This bit is set when data can be popped +// bit [8] fill busy This bit will be high when we're fetching data from the DDR memory +// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +// After that you can pulse cntl_init to start over +// bit [7] cntl_endian_jic Just in case endian. last minute byte swap of the data out of +// the FIFO to getbit +// bit [6] unused +// bits [5:3] endian: see $lib/rtl/ddr_endian.v +// bit [2] cntl_empty_en Set to 1 to enable reading the DDR memory FIFO and filling the pipeline to get-bit +// Set cntl_empty_en = cntl_fill_en = 0 when pulsing cntl_init +// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +// and read masks, set this bit to 1 and then to 0 +// NOTE: You don't need to pulse cntl_init if only the start address is +// being changed +#define AIU_MEM_AIFIFO2_CONTROL (0x146e) +#define P_AIU_MEM_AIFIFO2_CONTROL (volatile unsigned int *)((0x146e << 2) + 0xffd00000) +// -------------------------------------------- +// AIFIFO2 Buffer Level Manager +// -------------------------------------------- +#define AIU_MEM_AIFIFO2_MAN_WP (0x146f) +#define P_AIU_MEM_AIFIFO2_MAN_WP (volatile unsigned int *)((0x146f << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO2_MAN_RP (0x1470) +#define P_AIU_MEM_AIFIFO2_MAN_RP (volatile unsigned int *)((0x1470 << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO2_LEVEL (0x1471) +#define P_AIU_MEM_AIFIFO2_LEVEL (volatile unsigned int *)((0x1471 << 2) + 0xffd00000) +// +// bit [1] manual mode Set to 1 for manual write pointer mode +// bit [0] Init Set high then low after everything has been initialized +#define AIU_MEM_AIFIFO2_BUF_CNTL (0x1472) +#define P_AIU_MEM_AIFIFO2_BUF_CNTL (volatile unsigned int *)((0x1472 << 2) + 0xffd00000) +// -------------------------------------------- +// I2S Buffer Level Manager +// -------------------------------------------- +#define AIU_MEM_I2S_MAN_WP (0x1473) +#define P_AIU_MEM_I2S_MAN_WP (volatile unsigned int *)((0x1473 << 2) + 0xffd00000) +#define AIU_MEM_I2S_MAN_RP (0x1474) +#define P_AIU_MEM_I2S_MAN_RP (volatile unsigned int *)((0x1474 << 2) + 0xffd00000) +#define AIU_MEM_I2S_LEVEL (0x1475) +#define P_AIU_MEM_I2S_LEVEL (volatile unsigned int *)((0x1475 << 2) + 0xffd00000) +// +// bit [1] mode 0 = parser (or audin_fifo0 or audin_fifo1), +// 1 for manual write pointer +// bit [0] Init Set high then low after everything has been initialized +#define AIU_MEM_I2S_BUF_CNTL (0x1476) +#define P_AIU_MEM_I2S_BUF_CNTL (volatile unsigned int *)((0x1476 << 2) + 0xffd00000) +#define AIU_MEM_I2S_BUF_WRAP_COUNT (0x1477) +#define P_AIU_MEM_I2S_BUF_WRAP_COUNT (volatile unsigned int *)((0x1477 << 2) + 0xffd00000) +// bit 29:24 A_brst_num +// bit 21:16 A_id +// bit 15:0 level_hold +#define AIU_MEM_I2S_MEM_CTL (0x1478) +#define P_AIU_MEM_I2S_MEM_CTL (volatile unsigned int *)((0x1478 << 2) + 0xffd00000) +//----------------------------------------------------------------------------- +// Additional IEC958 registers (new feature) +//----------------------------------------------------------------------------- +// bit 29:24 A_brst_num +// bit 21:16 A_id +// bit 15:0 level_hold +#define AIU_MEM_IEC958_MEM_CTL (0x1479) +#define P_AIU_MEM_IEC958_MEM_CTL (volatile unsigned int *)((0x1479 << 2) + 0xffd00000) +#define AIU_MEM_IEC958_WRAP_COUNT (0x147a) +#define P_AIU_MEM_IEC958_WRAP_COUNT (volatile unsigned int *)((0x147a << 2) + 0xffd00000) +#define AIU_MEM_IEC958_IRQ_LEVEL (0x147b) +#define P_AIU_MEM_IEC958_IRQ_LEVEL (volatile unsigned int *)((0x147b << 2) + 0xffd00000) +#define AIU_MEM_IEC958_MAN_WP (0x147c) +#define P_AIU_MEM_IEC958_MAN_WP (volatile unsigned int *)((0x147c << 2) + 0xffd00000) +#define AIU_MEM_IEC958_MAN_RP (0x147d) +#define P_AIU_MEM_IEC958_MAN_RP (volatile unsigned int *)((0x147d << 2) + 0xffd00000) +#define AIU_MEM_IEC958_LEVEL (0x147e) +#define P_AIU_MEM_IEC958_LEVEL (volatile unsigned int *)((0x147e << 2) + 0xffd00000) +#define AIU_MEM_IEC958_BUF_CNTL (0x147f) +#define P_AIU_MEM_IEC958_BUF_CNTL (volatile unsigned int *)((0x147f << 2) + 0xffd00000) +//----------------------------------------------------------------------------- +// add for AIFIFO channel (old $cdrom/rtl/cdr_top/getbit) +//----------------------------------------------------------------------------- +// Bit 3 CRC pop aififo enable +// Bit 2 writing to this bit to 1 causes CRC module reset +// Bit 1 enable aififo +// Bit 0 writing to this bit to 1 causes aififo soft reset +#define AIU_AIFIFO_CTRL (0x1480) +#define P_AIU_AIFIFO_CTRL (volatile unsigned int *)((0x1480 << 2) + 0xffd00000) +//'h0000 +// AIFIFO status register +// Bit 13 //aififo request to dcu status +// Bit 12 //dcu select status +// Bit 11:5 //aififo word counter number +// Bit 4:0 //how many bits left in the first pop register +#define AIU_AIFIFO_STATUS (0x1481) +#define P_AIU_AIFIFO_STATUS (volatile unsigned int *)((0x1481 << 2) + 0xffd00000) +// Same fucntion as the AIGBIT of AIFIFO in CDROM module +// write to this register how many bits wanna pop, +// and reading this register gets the corresponding bits data +#define AIU_AIFIFO_GBIT (0x1482) +#define P_AIU_AIFIFO_GBIT (volatile unsigned int *)((0x1482 << 2) + 0xffd00000) +// Same function as the AICLB of AIFIFO in CDROM module +// return the leading zeros by reading this registers +#define AIU_AIFIFO_CLB (0x1483) +#define P_AIU_AIFIFO_CLB (volatile unsigned int *)((0x1483 << 2) + 0xffd00000) +// -------------------------------------------- +// AIFIFO DDR Interface +// -------------------------------------------- +// The AIFIFO start pointer into DDR memory is a 32-bit number +// The Start pointer will automatically be truncated to land on +// an 8-byte boundary. That is, bits [2:0] = 0; +#define AIU_MEM_AIFIFO_START_PTR (0x1484) +#define P_AIU_MEM_AIFIFO_START_PTR (volatile unsigned int *)((0x1484 << 2) + 0xffd00000) +// The current pointer points so some location between the START and END +// pointers. The current pointer is a BYTE pointer. That is, you can +// point to any BYTE address within the START/END range +#define AIU_MEM_AIFIFO_CURR_PTR (0x1485) +#define P_AIU_MEM_AIFIFO_CURR_PTR (volatile unsigned int *)((0x1485 << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO_END_PTR (0x1486) +#define P_AIU_MEM_AIFIFO_END_PTR (volatile unsigned int *)((0x1486 << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO_BYTES_AVAIL (0x1487) +#define P_AIU_MEM_AIFIFO_BYTES_AVAIL (volatile unsigned int *)((0x1487 << 2) + 0xffd00000) +// AIFIFO FIFO Control +// bit [15:11] unused +// bit [10] use_level Set this bit to 1 to enable filling of the FIFO controlled by the buffer +// level control. If this bit is 0, then use bit[1] to control the enabling of filling +// bit [9] Data Ready. This bit is set when data can be popped +// bit [8] fill busy This bit will be high when we're fetching data from the DDR memory +// To reset this module, set cntl_enable = 0, and then wait for busy = 0. +// After that you can pulse cntl_init to start over +// bit [7] cntl_endian_jic Just in case endian. last minute byte swap of the data out of +// the FIFO to getbit +// bit [6] unused +// bits [5:3] endian: see $lib/rtl/ddr_endian.v +// bit [2] cntl_empty_en Set to 1 to enable reading the DDR memory FIFO and filling the pipeline to get-bit +// Set cntl_empty_en = cntl_fill_en = 0 when pulsing cntl_init +// bit [1] cntl_fill_en Set to 1 to enable reading data from DDR memory +// bit [0] cntl_init: After setting the read pointers, sizes, channel masks +// and read masks, set this bit to 1 and then to 0 +// NOTE: You don't need to pulse cntl_init if only the start address is +// being changed +#define AIU_MEM_AIFIFO_CONTROL (0x1488) +#define P_AIU_MEM_AIFIFO_CONTROL (volatile unsigned int *)((0x1488 << 2) + 0xffd00000) +// -------------------------------------------- +// AIFIFO Buffer Level Manager +// -------------------------------------------- +#define AIU_MEM_AIFIFO_MAN_WP (0x1489) +#define P_AIU_MEM_AIFIFO_MAN_WP (volatile unsigned int *)((0x1489 << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO_MAN_RP (0x148a) +#define P_AIU_MEM_AIFIFO_MAN_RP (volatile unsigned int *)((0x148a << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO_LEVEL (0x148b) +#define P_AIU_MEM_AIFIFO_LEVEL (volatile unsigned int *)((0x148b << 2) + 0xffd00000) +// +// bit [1] manual mode Set to 1 for manual write pointer mode +// bit [0] Init Set high then low after everything has been initialized +#define AIU_MEM_AIFIFO_BUF_CNTL (0x148c) +#define P_AIU_MEM_AIFIFO_BUF_CNTL (volatile unsigned int *)((0x148c << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO_BUF_WRAP_COUNT (0x148d) +#define P_AIU_MEM_AIFIFO_BUF_WRAP_COUNT (volatile unsigned int *)((0x148d << 2) + 0xffd00000) +#define AIU_MEM_AIFIFO2_BUF_WRAP_COUNT (0x148e) +#define P_AIU_MEM_AIFIFO2_BUF_WRAP_COUNT (volatile unsigned int *)((0x148e << 2) + 0xffd00000) +// bit 29:24 A_brst_num +// bit 21:16 A_id +// bit 15:0 level_hold +#define AIU_MEM_AIFIFO_MEM_CTL (0x148f) +#define P_AIU_MEM_AIFIFO_MEM_CTL (volatile unsigned int *)((0x148f << 2) + 0xffd00000) +// bit 31:16 -- drop_bytes +// bit 15:14 -- drop_status (Read-Only) +// bit 13:12 -- sync_match_position (Read-Only) +// bit 11:6 -- reserved +// bit 5:4 -- TIME_STAMP_NUMBER, 0-32bits, 1-64bits, 2-96bits, 3-128bits +// bit 3 -- stamp_soft_reset +// bit 2 -- TIME_STAMP_length_enable +// bit 1 -- TIME_STAMP_sync64_enable +// bit 0 -- TIME_STAMP_enable +#define AIFIFO_TIME_STAMP_CNTL (0x1490) +#define P_AIFIFO_TIME_STAMP_CNTL (volatile unsigned int *)((0x1490 << 2) + 0xffd00000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_0 +#define AIFIFO_TIME_STAMP_SYNC_0 (0x1491) +#define P_AIFIFO_TIME_STAMP_SYNC_0 (volatile unsigned int *)((0x1491 << 2) + 0xffd00000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_1 +#define AIFIFO_TIME_STAMP_SYNC_1 (0x1492) +#define P_AIFIFO_TIME_STAMP_SYNC_1 (volatile unsigned int *)((0x1492 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_0 +#define AIFIFO_TIME_STAMP_0 (0x1493) +#define P_AIFIFO_TIME_STAMP_0 (volatile unsigned int *)((0x1493 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_1 +#define AIFIFO_TIME_STAMP_1 (0x1494) +#define P_AIFIFO_TIME_STAMP_1 (volatile unsigned int *)((0x1494 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_2 +#define AIFIFO_TIME_STAMP_2 (0x1495) +#define P_AIFIFO_TIME_STAMP_2 (volatile unsigned int *)((0x1495 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_3 +#define AIFIFO_TIME_STAMP_3 (0x1496) +#define P_AIFIFO_TIME_STAMP_3 (volatile unsigned int *)((0x1496 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_LENGTH +#define AIFIFO_TIME_STAMP_LENGTH (0x1497) +#define P_AIFIFO_TIME_STAMP_LENGTH (volatile unsigned int *)((0x1497 << 2) + 0xffd00000) +// bit 31:16 -- drop_bytes +// bit 15:14 -- drop_status (Read-Only) +// bit 13:12 -- sync_match_position (Read-Only) +// bit 11:6 -- reserved +// bit 5:4 -- TIME_STAMP_NUMBER, 0-32bits, 1-64bits, 2-96bits, 3-128bits +// bit 3 -- stamp_soft_reset +// bit 2 -- TIME_STAMP_length_enable +// bit 1 -- TIME_STAMP_sync64_enable +// bit 0 -- TIME_STAMP_enable +#define AIFIFO2_TIME_STAMP_CNTL (0x1498) +#define P_AIFIFO2_TIME_STAMP_CNTL (volatile unsigned int *)((0x1498 << 2) + 0xffd00000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_0 +#define AIFIFO2_TIME_STAMP_SYNC_0 (0x1499) +#define P_AIFIFO2_TIME_STAMP_SYNC_0 (volatile unsigned int *)((0x1499 << 2) + 0xffd00000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_1 +#define AIFIFO2_TIME_STAMP_SYNC_1 (0x149a) +#define P_AIFIFO2_TIME_STAMP_SYNC_1 (volatile unsigned int *)((0x149a << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_0 +#define AIFIFO2_TIME_STAMP_0 (0x149b) +#define P_AIFIFO2_TIME_STAMP_0 (volatile unsigned int *)((0x149b << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_1 +#define AIFIFO2_TIME_STAMP_1 (0x149c) +#define P_AIFIFO2_TIME_STAMP_1 (volatile unsigned int *)((0x149c << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_2 +#define AIFIFO2_TIME_STAMP_2 (0x149d) +#define P_AIFIFO2_TIME_STAMP_2 (volatile unsigned int *)((0x149d << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_3 +#define AIFIFO2_TIME_STAMP_3 (0x149e) +#define P_AIFIFO2_TIME_STAMP_3 (volatile unsigned int *)((0x149e << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_LENGTH +#define AIFIFO2_TIME_STAMP_LENGTH (0x149f) +#define P_AIFIFO2_TIME_STAMP_LENGTH (volatile unsigned int *)((0x149f << 2) + 0xffd00000) +// bit 31:16 -- drop_bytes +// bit 15:14 -- drop_status (Read-Only) +// bit 13:12 -- sync_match_position (Read-Only) +// bit 11:6 -- reserved +// bit 5:4 -- TIME_STAMP_NUMBER, 0-32bits, 1-64bits, 2-96bits, 3-128bits +// bit 3 -- stamp_soft_reset +// bit 2 -- TIME_STAMP_length_enable +// bit 1 -- TIME_STAMP_sync64_enable +// bit 0 -- TIME_STAMP_enable +#define IEC958_TIME_STAMP_CNTL (0x14a0) +#define P_IEC958_TIME_STAMP_CNTL (volatile unsigned int *)((0x14a0 << 2) + 0xffd00000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_0 +#define IEC958_TIME_STAMP_SYNC_0 (0x14a1) +#define P_IEC958_TIME_STAMP_SYNC_0 (volatile unsigned int *)((0x14a1 << 2) + 0xffd00000) +// bit 31:0 -- TIME_STAMP_SYNC_CODE_1 +#define IEC958_TIME_STAMP_SYNC_1 (0x14a2) +#define P_IEC958_TIME_STAMP_SYNC_1 (volatile unsigned int *)((0x14a2 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_0 +#define IEC958_TIME_STAMP_0 (0x14a3) +#define P_IEC958_TIME_STAMP_0 (volatile unsigned int *)((0x14a3 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_1 +#define IEC958_TIME_STAMP_1 (0x14a4) +#define P_IEC958_TIME_STAMP_1 (volatile unsigned int *)((0x14a4 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_2 +#define IEC958_TIME_STAMP_2 (0x14a5) +#define P_IEC958_TIME_STAMP_2 (volatile unsigned int *)((0x14a5 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_3 +#define IEC958_TIME_STAMP_3 (0x14a6) +#define P_IEC958_TIME_STAMP_3 (volatile unsigned int *)((0x14a6 << 2) + 0xffd00000) +// bit 31:0 TIME_STAMP_LENGTH +#define IEC958_TIME_STAMP_LENGTH (0x14a7) +#define P_IEC958_TIME_STAMP_LENGTH (volatile unsigned int *)((0x14a7 << 2) + 0xffd00000) +// bit 29:24 A_brst_num +// bit 21:16 A_id +// bit 15:0 level_hold +#define AIU_MEM_AIFIFO2_MEM_CTL (0x14a8) +#define P_AIU_MEM_AIFIFO2_MEM_CTL (volatile unsigned int *)((0x14a8 << 2) + 0xffd00000) +// -------------------------------------------- +// CBUS_DDR interface for I2S_FAST +// -------------------------------------------- +// bit[31:26] unused +// bit[25] A_req level +// bit[24] data_req If this bit is 1, then (a_req_cnt != 'h0) +// bit[23:16] a_req_cnt This value corresponds to the number of 32-bit words +// requested by the i2s_fast() module +// bit[15:7] unused +// bit[6] Set this bit to mux in the cbus_ddr_interface +// bit[5] Set this bit to allow back to back A_req's to be serviced +// bit[4] Set this bit to generate an IRQ on the first A_req +// If this bit is 0, then an IRQ is generated after all requests +// are completed and how many 32-bit words to send is calculated. +// bit[3:1] Endian +// bit[0] Set this bit enable the cbus_ddr_interface +#define AIU_I2S_CBUS_DDR_CNTL (0x14a9) +#define P_AIU_I2S_CBUS_DDR_CNTL (volatile unsigned int *)((0x14a9 << 2) + 0xffd00000) +// 32-bit data to write to the cbus_ddr interface +#define AIU_I2S_CBUS_DDR_WDATA (0x14aa) +#define P_AIU_I2S_CBUS_DDR_WDATA (volatile unsigned int *)((0x14aa << 2) + 0xffd00000) +// First address associated with the first request by the i2s_fast() to read DDR data +#define AIU_I2S_CBUS_DDR_ADDR (0x14ab) +#define P_AIU_I2S_CBUS_DDR_ADDR (volatile unsigned int *)((0x14ab << 2) + 0xffd00000) +// +// Closing file: aregs.h +// +//======================================================================== +// CDROM Interface (12'h600 - 12'h6ff) +// +//======================================================================== +//======================================================================== +// registers for ge2d (12'h8a0 - 12'h8ff) +//======================================================================== +////`include "ge2d_regs.h" // not in cbus domain any more, it is located in vapb3 bus now +//======================================================================== +// DSP Co-Processor Registers ( 8'he00 - 12'hfff) +// +//======================================================================== +// Duplicate Address: When actually used +// please move to a different address +// `define AUDIO_COP_CTL1 12'hf00 // r & w; r-> 6'h00,bsmod[2:0],acmod[2:0],lfeon,nfchans[2:0] +// +// Incorrect format....should be 8'bits only +// +// Removed by Chris Maslyar `define AUDIO_COP_CTL2 12'hf01 // r & w; r-> frame_size[12:0],dsurmod[1:0] +// Removed by Chris Maslyar +// Removed by Chris Maslyar // f02 -f0d are special regs , not in ac3_reg.h, but used by CPU for AC3 operations +// Removed by Chris Maslyar +// Removed by Chris Maslyar `define OPERAND_M_CTL 12'hf02 +// Removed by Chris Maslyar `define OPERAND1_ADDR 12'hf03 +// Removed by Chris Maslyar `define OPERAND2_ADDR 12'hf04 +// Removed by Chris Maslyar `define RESULT_M_CTL 12'hf05 +// Removed by Chris Maslyar `define RESULT1_ADDR 12'hf06 +// Removed by Chris Maslyar `define RESULT2_ADDR 12'hf07 +// Removed by Chris Maslyar `define ADD_SHFT_CTL 12'hf08 +// Removed by Chris Maslyar `define OPERAND_ONE_H 12'hf09 +// Removed by Chris Maslyar `define OPERAND_ONE_L 12'hf0a +// Removed by Chris Maslyar `define OPERAND_TWO_H 12'hf0b +// Removed by Chris Maslyar `define OPERAND_TWO_L 12'hf0c +// Removed by Chris Maslyar `define RESULT_H 12'hf0d +// Removed by Chris Maslyar +// Removed by Chris Maslyar +// Removed by Chris Maslyar `define RESULT_M 12'hf0e // r & w; ac3_reg_14 +// Removed by Chris Maslyar +// Removed by Chris Maslyar // special reg +// Removed by Chris Maslyar `define RESULT_L 12'hf0f +// Removed by Chris Maslyar +// Removed by Chris Maslyar // +// Removed by Chris Maslyar `define WMEM_R_PTR 12'hf10 // r & w ; endmant0 &1 +// Removed by Chris Maslyar +// Removed by Chris Maslyar `define WMEM_W_PTR 12'hf11 +// Removed by Chris Maslyar `define AUDIO_LAYER 12'hf20 +// Removed by Chris Maslyar `define AC3_DECODING 12'hf21 +// Removed by Chris Maslyar `define AC3_DYNAMIC 12'hf22 +// Removed by Chris Maslyar `define AC3_MELODY 12'hf23 +// Removed by Chris Maslyar `define AC3_VOCAL 12'hf24 +//====================================== +// CPU Assist module +// +//====================================== +// ----------------------------------------------- +// CBUS_BASE: ASSIST_CBUS_BASE = 0x20 +// ----------------------------------------------- +//`define ASSIST_AMR_MBOX1_INT 8'h4d +//`define ASSIST_AMR_MBOX2_INT 8'h4e +#define ASSIST_AMR_SCRATCH0 (0x204f) +#define P_ASSIST_AMR_SCRATCH0 (volatile unsigned int *)((0x204f << 2) + 0xffd00000) +#define ASSIST_AMR_SCRATCH1 (0x2050) +#define P_ASSIST_AMR_SCRATCH1 (volatile unsigned int *)((0x2050 << 2) + 0xffd00000) +#define ASSIST_AMR_SCRATCH2 (0x2051) +#define P_ASSIST_AMR_SCRATCH2 (volatile unsigned int *)((0x2051 << 2) + 0xffd00000) +#define ASSIST_AMR_SCRATCH3 (0x2052) +#define P_ASSIST_AMR_SCRATCH3 (volatile unsigned int *)((0x2052 << 2) + 0xffd00000) +#define ASSIST_HW_REV (0x2053) +#define P_ASSIST_HW_REV (volatile unsigned int *)((0x2053 << 2) + 0xffd00000) +//`define ASSIST_CBUS_ARB 8'h54 +#define ASSIST_POR_CONFIG (0x2055) +#define P_ASSIST_POR_CONFIG (volatile unsigned int *)((0x2055 << 2) + 0xffd00000) +#define ASSIST_SPARE16_REG1 (0x2056) +#define P_ASSIST_SPARE16_REG1 (volatile unsigned int *)((0x2056 << 2) + 0xffd00000) +#define ASSIST_SPARE16_REG2 (0x2057) +#define P_ASSIST_SPARE16_REG2 (volatile unsigned int *)((0x2057 << 2) + 0xffd00000) +#define ASSIST_SPARE8_REG1 (0x2058) +#define P_ASSIST_SPARE8_REG1 (volatile unsigned int *)((0x2058 << 2) + 0xffd00000) +#define ASSIST_SPARE8_REG2 (0x2059) +#define P_ASSIST_SPARE8_REG2 (volatile unsigned int *)((0x2059 << 2) + 0xffd00000) +// Duplicate Address...when used please move to a new address +// `define TO_AMRISC_REG 8'h59 // for amrisc +#define ASSIST_SPARE8_REG3 (0x205a) +#define P_ASSIST_SPARE8_REG3 (volatile unsigned int *)((0x205a << 2) + 0xffd00000) +// Duplicate Address...when used please move to a new address +// `define FROM_AMRISC_REG 8'h5a // for amrisc +// Duplicate Address...when used please move to a new address +// `define MPEG2_DECODER_CONTROL 8'h5b // for amrisc +#define AC3_CTRL_REG1 (0x205b) +#define P_AC3_CTRL_REG1 (volatile unsigned int *)((0x205b << 2) + 0xffd00000) +#define AC3_CTRL_REG2 (0x205c) +#define P_AC3_CTRL_REG2 (volatile unsigned int *)((0x205c << 2) + 0xffd00000) +#define AC3_CTRL_REG3 (0x205d) +#define P_AC3_CTRL_REG3 (volatile unsigned int *)((0x205d << 2) + 0xffd00000) +#define AC3_CTRL_REG4 (0x205e) +#define P_AC3_CTRL_REG4 (volatile unsigned int *)((0x205e << 2) + 0xffd00000) +//`define ASSIST_PMEM_SPLIT 8'h5f +#define ASSIST_GEN_CNTL (0x2068) +#define P_ASSIST_GEN_CNTL (volatile unsigned int *)((0x2068 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX0_IRQ_REG (0x2070) +#define P_EE_ASSIST_MBOX0_IRQ_REG (volatile unsigned int *)((0x2070 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX0_CLR_REG (0x2071) +#define P_EE_ASSIST_MBOX0_CLR_REG (volatile unsigned int *)((0x2071 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX0_MASK (0x2072) +#define P_EE_ASSIST_MBOX0_MASK (volatile unsigned int *)((0x2072 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX0_FIQ_SEL (0x2073) +#define P_EE_ASSIST_MBOX0_FIQ_SEL (volatile unsigned int *)((0x2073 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX1_IRQ_REG (0x2074) +#define P_EE_ASSIST_MBOX1_IRQ_REG (volatile unsigned int *)((0x2074 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX1_CLR_REG (0x2075) +#define P_EE_ASSIST_MBOX1_CLR_REG (volatile unsigned int *)((0x2075 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX1_MASK (0x2076) +#define P_EE_ASSIST_MBOX1_MASK (volatile unsigned int *)((0x2076 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX1_FIQ_SEL (0x2077) +#define P_EE_ASSIST_MBOX1_FIQ_SEL (volatile unsigned int *)((0x2077 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX2_IRQ_REG (0x2078) +#define P_EE_ASSIST_MBOX2_IRQ_REG (volatile unsigned int *)((0x2078 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX2_CLR_REG (0x2079) +#define P_EE_ASSIST_MBOX2_CLR_REG (volatile unsigned int *)((0x2079 << 2) + 0xffd00000) +#define EE_ASSIST_MBOX2_MASK (0x207a) +#define P_EE_ASSIST_MBOX2_MASK (volatile unsigned int *)((0x207a << 2) + 0xffd00000) +#define EE_ASSIST_MBOX2_FIQ_SEL (0x207b) +#define P_EE_ASSIST_MBOX2_FIQ_SEL (volatile unsigned int *)((0x207b << 2) + 0xffd00000) +#define EE_ASSIST_MBOX3_IRQ_REG (0x207c) +#define P_EE_ASSIST_MBOX3_IRQ_REG (volatile unsigned int *)((0x207c << 2) + 0xffd00000) +#define EE_ASSIST_MBOX3_CLR_REG (0x207d) +#define P_EE_ASSIST_MBOX3_CLR_REG (volatile unsigned int *)((0x207d << 2) + 0xffd00000) +#define EE_ASSIST_MBOX3_MASK (0x207e) +#define P_EE_ASSIST_MBOX3_MASK (volatile unsigned int *)((0x207e << 2) + 0xffd00000) +#define EE_ASSIST_MBOX3_FIQ_SEL (0x207f) +#define P_EE_ASSIST_MBOX3_FIQ_SEL (volatile unsigned int *)((0x207f << 2) + 0xffd00000) +// ----------------------------------------------- +// CBUS_BASE: AUD_CBUS_BASE = 0x34 +// ----------------------------------------------- +// ---------------------------- +// AUDIN (64) +// ---------------------------- +#define AUDIN_SPDIF_MODE (0x3400) +#define P_AUDIN_SPDIF_MODE (volatile unsigned int *)((0x3400 << 2) + 0xffd00000) + #define SPDIF_EN 31 + #define SPDIF_INT_EN 30 + #define SPDIF_BURST_PRE_INT_EN 29 + #define SPDIF_TIE_0 24 + #define SPDIF_SAMPLE_SEL 23 + #define SPDIF_REVERSE_EN 22 + #define SPDIF_BIT_ORDER 20 + #define SPDIF_CHNL_ORDER 19 + #define SPDIF_DATA_TYPE_SEL 18 + #define SPDIF_XTDCLK_UPD_ITVL 14 //16:14 + #define SPDIF_CLKNUM_54U 0 //13:0 +#define AUDIN_SPDIF_FS_CLK_RLTN (0x3401) +#define P_AUDIN_SPDIF_FS_CLK_RLTN (volatile unsigned int *)((0x3401 << 2) + 0xffd00000) + #define SPDIF_CLKNUM_192K 24 //29:24 + #define SPDIF_CLKNUM_96K 18 //23:18 + #define SPDIF_CLKNUM_48K 12 //17:12 + #define SPDIF_CLKNUM_44K 6 // 11:6 + #define SPDIF_CLKNUM_32K 0 // 5:0 +#define AUDIN_SPDIF_CHNL_STS_A (0x3402) +#define P_AUDIN_SPDIF_CHNL_STS_A (volatile unsigned int *)((0x3402 << 2) + 0xffd00000) +#define AUDIN_SPDIF_CHNL_STS_B (0x3403) +#define P_AUDIN_SPDIF_CHNL_STS_B (volatile unsigned int *)((0x3403 << 2) + 0xffd00000) +#define AUDIN_SPDIF_MISC (0x3404) +#define P_AUDIN_SPDIF_MISC (volatile unsigned int *)((0x3404 << 2) + 0xffd00000) +#define AUDIN_SPDIF_NPCM_PCPD (0x3405) +#define P_AUDIN_SPDIF_NPCM_PCPD (volatile unsigned int *)((0x3405 << 2) + 0xffd00000) +#define AUDIN_SPDIF_END (0x340f) +#define P_AUDIN_SPDIF_END (volatile unsigned int *)((0x340f << 2) + 0xffd00000) +#define AUDIN_I2SIN_CTRL (0x3410) +#define P_AUDIN_I2SIN_CTRL (volatile unsigned int *)((0x3410 << 2) + 0xffd00000) + #define I2SIN_DIR 0 // I2S CLK and LRCLK direction. 0 : input 1 : output. + #define I2SIN_CLK_SEL 1 // I2S clk selection : 0 : from pad input. 1 : from AIU. + #define I2SIN_LRCLK_SEL 2 + #define I2SIN_POS_SYNC 3 + #define I2SIN_LRCLK_SKEW 4 // 6:4 + #define I2SIN_LRCLK_INVT 7 + #define I2SIN_SIZE 8 //9:8 : 0 16 bit. 1 : 18 bits 2 : 20 bits 3 : 24bits. + #define I2SIN_CHAN_EN 10 //13:10. + #define I2SIN_EN 15 +// Bit 31:15 Rsrv. +// Bit 14:12 RW HDMI-RX SPDIF channel status select to report on AUDIN_DECODE_CHANNEL_STATUS_A_*: 0=select channel 1; 1=channel 2; ...; 7=channel 8. +// Bit 11: 8 RW HDMI-RX SPDIF channel status extraction enable, 1-bit per channel pair. To enable, SPDIF input source also must select 1. +// Bit 7: 6 Rsrv. +// Bit 5: 4 RW SPDIF input source select. 0=Default, select chip external; 1=select HDMI RX output; 2/3=Rsrv. +// Bit 3: 2 Rsrv. +// Bit 1: 0 RW I2S input source select. 0=Default, select chip external; 1=select audio codec output; 2=select HDMI RX output; 3=Rsrv. +#define AUDIN_SOURCE_SEL (0x3411) +#define P_AUDIN_SOURCE_SEL (volatile unsigned int *)((0x3411 << 2) + 0xffd00000) +// The following registers control the new alternative decoder -- hdmi_tx_audio_decoder, in audin module +// Bit 31:25 Rsrv. +// Bit 24 RW SPDIF enable. +// Bit 23:22 Rsrv. +// Bit 21:20 RW i2s_block_start_src: 0=left channel 0 is approved as block start generator, ..., 3=left channel 3 is the block start generator. +// Bit 19:17 Rsrv. +// Bit 16 RW I2S enable. +// Bit 15: 8 RW audio_channel_alloc: Usage indication of up to 8 channels. If the correspoinding bit is 1, then this channel is used. +// E.g.: In 2-channel audio, it is 00000011 +// Bit 7 RW hdmi_tx_audio_decoder input sel: 0=SPDIF; 1=I2S. +// Bit 6 RW i2s_channel_config: 0=2-channel; 1=8-channel. +// Bit 5: 4 RW i2s_format_select: 0=left-justify; 1=right-justify; 2=I2S format; 3=DSP format. +// Bit 3: 2 RW i2s_bit_width: 0=16-bit; 1=18-bit; 2=20-bit; 3=24-bit. +// Bit 1 RW ws polarity: 0=0 is left, 1 is right; 1=1 is left, 0 is right. +// Bit 0 RW For SPDIF mode, 0=use channel status from input data; 1=use channel status from registers; +// For I2S mode, 0=one-bit audio; 1=I2S. +#define AUDIN_DECODE_FORMAT (0x3412) +#define P_AUDIN_DECODE_FORMAT (volatile unsigned int *)((0x3412 << 2) + 0xffd00000) +// Bit 31:25 Rsrv. +// Bit 24 R channel_status stablility indicator. +// Bit 23:16 RW Valid bits for audio sample packet. [7] for valid_sp3_right, [6] for valid_sp3_left, ..., [1] for valid_sp0_right, [0] for valid_sp0_left. +// Bit 15: 8 RW User bits for audio sample packet. [7] for user_sp3_right, [6] for user_sp3_left, ..., [1] for user_sp0_right, [0] for user_sp0_left. +// Bit 7: 4 RW cntl_init_discard: Number of initial hdmi_tx_audio_decoder samples to discard from reset. +// Bit 3 RW cntl_invert_i2s_lrclk: Invert WS before input to hdmi_tx_audio_decoder. +// Bit 2 RW audio_valid_overwrite: Valid bit selection in audio packet. 0=use input data; 1=use +// Bit 1 RW audio_user_overwrite: User bit selection in audio packet. 0=use input data; 1=use +// Bit 0 RW audio_sample_valid: sample non-flat indication. 0=flat, non-valid; 1=non-flat, valid. +#define AUDIN_DECODE_CONTROL_STATUS (0x3413) +#define P_AUDIN_DECODE_CONTROL_STATUS (volatile unsigned int *)((0x3413 << 2) + 0xffd00000) +// IEC958 192-bit channel status: muxed between 8 channels, channel selection by AUDIN_SOURCE_SEL[14:12] +#define AUDIN_DECODE_CHANNEL_STATUS_A_0 (0x3414) +#define P_AUDIN_DECODE_CHANNEL_STATUS_A_0 (volatile unsigned int *)((0x3414 << 2) + 0xffd00000) +#define AUDIN_DECODE_CHANNEL_STATUS_A_1 (0x3415) +#define P_AUDIN_DECODE_CHANNEL_STATUS_A_1 (volatile unsigned int *)((0x3415 << 2) + 0xffd00000) +#define AUDIN_DECODE_CHANNEL_STATUS_A_2 (0x3416) +#define P_AUDIN_DECODE_CHANNEL_STATUS_A_2 (volatile unsigned int *)((0x3416 << 2) + 0xffd00000) +#define AUDIN_DECODE_CHANNEL_STATUS_A_3 (0x3417) +#define P_AUDIN_DECODE_CHANNEL_STATUS_A_3 (volatile unsigned int *)((0x3417 << 2) + 0xffd00000) +#define AUDIN_DECODE_CHANNEL_STATUS_A_4 (0x3418) +#define P_AUDIN_DECODE_CHANNEL_STATUS_A_4 (volatile unsigned int *)((0x3418 << 2) + 0xffd00000) +#define AUDIN_DECODE_CHANNEL_STATUS_A_5 (0x3419) +#define P_AUDIN_DECODE_CHANNEL_STATUS_A_5 (volatile unsigned int *)((0x3419 << 2) + 0xffd00000) +#define AUDIN_FIFO0_START (0x3420) +#define P_AUDIN_FIFO0_START (volatile unsigned int *)((0x3420 << 2) + 0xffd00000) +#define AUDIN_FIFO0_END (0x3421) +#define P_AUDIN_FIFO0_END (volatile unsigned int *)((0x3421 << 2) + 0xffd00000) +#define AUDIN_FIFO0_PTR (0x3422) +#define P_AUDIN_FIFO0_PTR (volatile unsigned int *)((0x3422 << 2) + 0xffd00000) +#define AUDIN_FIFO0_INTR (0x3423) +#define P_AUDIN_FIFO0_INTR (volatile unsigned int *)((0x3423 << 2) + 0xffd00000) +#define AUDIN_FIFO0_RDPTR (0x3424) +#define P_AUDIN_FIFO0_RDPTR (volatile unsigned int *)((0x3424 << 2) + 0xffd00000) +#define AUDIN_FIFO0_CTRL (0x3425) +#define P_AUDIN_FIFO0_CTRL (volatile unsigned int *)((0x3425 << 2) + 0xffd00000) + #define AUDIN_FIFO0_EN 0 + #define AUDIN_FIFO0_RST 1 + #define AUDIN_FIFO0_LOAD 2 //write 1 to load address to AUDIN_FIFO0. + + #define AUDIN_FIFO0_DIN_SEL 3 + // 0 spdifIN + // 1 i2Sin + // 2 PCMIN + // 3 HDMI in + // 4 DEMODULATOR IN + #define AUDIN_FIFO0_ENDIAN 8 //10:8 data endian control. + #define AUDIN_FIFO0_CHAN 11 //14:11 channel number. in M1 suppose there's only 1 channel and 2 channel. + #define AUDIN_FIFO0_UG 15 // urgent request enable. + #define AUDIN_FIFO0_HOLD0_EN 19 + #define AUDIN_FIFO0_HOLD1_EN 20 + #define AUDIN_FIFO0_HOLD2_EN 21 + #define AUDIN_FIFO0_HOLD0_SEL 22 // 23:22 + #define AUDIN_FIFO0_HOLD1_SEL 24 // 25:24 + #define AUDIN_FIFO0_HOLD2_SEL 26 // 27:26 + #define AUDIN_FIFO0_HOLD_LVL 28 // 27:26 + + +#define AUDIN_FIFO0_CTRL1 (0x3426) +#define P_AUDIN_FIFO0_CTRL1 (volatile unsigned int *)((0x3426 << 2) + 0xffd00000) +#define AUDIN_FIFO0_LVL0 (0x3427) +#define P_AUDIN_FIFO0_LVL0 (volatile unsigned int *)((0x3427 << 2) + 0xffd00000) +#define AUDIN_FIFO0_LVL1 (0x3428) +#define P_AUDIN_FIFO0_LVL1 (volatile unsigned int *)((0x3428 << 2) + 0xffd00000) +#define AUDIN_FIFO0_LVL2 (0x3429) +#define P_AUDIN_FIFO0_LVL2 (volatile unsigned int *)((0x3429 << 2) + 0xffd00000) +#define AUDIN_FIFO0_REQID (0x3430) +#define P_AUDIN_FIFO0_REQID (volatile unsigned int *)((0x3430 << 2) + 0xffd00000) +#define AUDIN_FIFO0_WRAP (0x3431) +#define P_AUDIN_FIFO0_WRAP (volatile unsigned int *)((0x3431 << 2) + 0xffd00000) +#define AUDIN_FIFO1_START (0x3433) +#define P_AUDIN_FIFO1_START (volatile unsigned int *)((0x3433 << 2) + 0xffd00000) +#define AUDIN_FIFO1_END (0x3434) +#define P_AUDIN_FIFO1_END (volatile unsigned int *)((0x3434 << 2) + 0xffd00000) +#define AUDIN_FIFO1_PTR (0x3435) +#define P_AUDIN_FIFO1_PTR (volatile unsigned int *)((0x3435 << 2) + 0xffd00000) +#define AUDIN_FIFO1_INTR (0x3436) +#define P_AUDIN_FIFO1_INTR (volatile unsigned int *)((0x3436 << 2) + 0xffd00000) +#define AUDIN_FIFO1_RDPTR (0x3437) +#define P_AUDIN_FIFO1_RDPTR (volatile unsigned int *)((0x3437 << 2) + 0xffd00000) +#define AUDIN_FIFO1_CTRL (0x3438) +#define P_AUDIN_FIFO1_CTRL (volatile unsigned int *)((0x3438 << 2) + 0xffd00000) + #define AUDIN_FIFO1_EN 0 + #define AUDIN_FIFO1_RST 1 + #define AUDIN_FIFO1_LOAD 2 //write 1 to load address to AUDIN_FIFO0. + + #define AUDIN_FIFO1_DIN_SEL 3 + // 0 spdifIN + // 1 i2Sin + // 2 PCMIN + // 3 HDMI in + // 4 DEMODULATOR IN + #define AUDIN_FIFO1_ENDIAN 8 //10:8 data endian control. + #define AUDIN_FIFO1_CHAN 11 //14:11 channel number. in M1 suppose there's only 1 channel and 2 channel. + #define AUDIN_FIFO1_UG 15 // urgent request enable. + #define AUDIN_FIFO1_HOLD0_EN 19 + #define AUDIN_FIFO1_HOLD1_EN 20 + #define AUDIN_FIFO1_HOLD2_EN 21 + #define AUDIN_FIFO1_HOLD0_SEL 22 // 23:22 + #define AUDIN_FIFO1_HOLD1_SEL 24 // 25:24 + #define AUDIN_FIFO1_HOLD2_SEL 26 // 27:26 + #define AUDIN_FIFO1_HOLD_LVL 28 // 27:26 +#define AUDIN_FIFO1_CTRL1 (0x3439) +#define P_AUDIN_FIFO1_CTRL1 (volatile unsigned int *)((0x3439 << 2) + 0xffd00000) +#define AUDIN_FIFO1_LVL0 (0x3440) +#define P_AUDIN_FIFO1_LVL0 (volatile unsigned int *)((0x3440 << 2) + 0xffd00000) +#define AUDIN_FIFO1_LVL1 (0x3441) +#define P_AUDIN_FIFO1_LVL1 (volatile unsigned int *)((0x3441 << 2) + 0xffd00000) +#define AUDIN_FIFO1_LVL2 (0x3442) +#define P_AUDIN_FIFO1_LVL2 (volatile unsigned int *)((0x3442 << 2) + 0xffd00000) +#define AUDIN_FIFO1_REQID (0x3443) +#define P_AUDIN_FIFO1_REQID (volatile unsigned int *)((0x3443 << 2) + 0xffd00000) +#define AUDIN_FIFO1_WRAP (0x3444) +#define P_AUDIN_FIFO1_WRAP (volatile unsigned int *)((0x3444 << 2) + 0xffd00000) +#define AUDIN_FIFO2_START (0x3445) +#define P_AUDIN_FIFO2_START (volatile unsigned int *)((0x3445 << 2) + 0xffd00000) +#define AUDIN_FIFO2_END (0x3446) +#define P_AUDIN_FIFO2_END (volatile unsigned int *)((0x3446 << 2) + 0xffd00000) +#define AUDIN_FIFO2_PTR (0x3447) +#define P_AUDIN_FIFO2_PTR (volatile unsigned int *)((0x3447 << 2) + 0xffd00000) +#define AUDIN_FIFO2_INTR (0x3448) +#define P_AUDIN_FIFO2_INTR (volatile unsigned int *)((0x3448 << 2) + 0xffd00000) +#define AUDIN_FIFO2_RDPTR (0x3449) +#define P_AUDIN_FIFO2_RDPTR (volatile unsigned int *)((0x3449 << 2) + 0xffd00000) +#define AUDIN_FIFO2_CTRL (0x344a) +#define P_AUDIN_FIFO2_CTRL (volatile unsigned int *)((0x344a << 2) + 0xffd00000) +#define AUDIN_FIFO2_CTRL1 (0x344b) +#define P_AUDIN_FIFO2_CTRL1 (volatile unsigned int *)((0x344b << 2) + 0xffd00000) +#define AUDIN_FIFO2_LVL0 (0x344c) +#define P_AUDIN_FIFO2_LVL0 (volatile unsigned int *)((0x344c << 2) + 0xffd00000) +#define AUDIN_FIFO2_LVL1 (0x344d) +#define P_AUDIN_FIFO2_LVL1 (volatile unsigned int *)((0x344d << 2) + 0xffd00000) +#define AUDIN_FIFO2_LVL2 (0x344e) +#define P_AUDIN_FIFO2_LVL2 (volatile unsigned int *)((0x344e << 2) + 0xffd00000) +#define AUDIN_FIFO2_REQID (0x344f) +#define P_AUDIN_FIFO2_REQID (volatile unsigned int *)((0x344f << 2) + 0xffd00000) +#define AUDIN_FIFO2_WRAP (0x3450) +#define P_AUDIN_FIFO2_WRAP (volatile unsigned int *)((0x3450 << 2) + 0xffd00000) +#define AUDIN_INT_CTRL (0x3451) +#define P_AUDIN_INT_CTRL (volatile unsigned int *)((0x3451 << 2) + 0xffd00000) +#define AUDIN_FIFO_INT (0x3452) +#define P_AUDIN_FIFO_INT (volatile unsigned int *)((0x3452 << 2) + 0xffd00000) +#define PCMIN_CTRL0 (0x3460) +#define P_PCMIN_CTRL0 (volatile unsigned int *)((0x3460 << 2) + 0xffd00000) +#define PCMIN_CTRL1 (0x3461) +#define P_PCMIN_CTRL1 (volatile unsigned int *)((0x3461 << 2) + 0xffd00000) +#define PCMIN_CTRL2 (0x3462) +#define P_PCMIN_CTRL2 (volatile unsigned int *)((0x3462 << 2) + 0xffd00000) +//`define PCMIN1_CTRL0 8'h62 +//`define PCMIN1_CTRL1 8'h63 +#define PCMOUT_CTRL0 (0x3470) +#define P_PCMOUT_CTRL0 (volatile unsigned int *)((0x3470 << 2) + 0xffd00000) +#define PCMOUT_CTRL1 (0x3471) +#define P_PCMOUT_CTRL1 (volatile unsigned int *)((0x3471 << 2) + 0xffd00000) +#define PCMOUT_CTRL2 (0x3472) +#define P_PCMOUT_CTRL2 (volatile unsigned int *)((0x3472 << 2) + 0xffd00000) +#define PCMOUT_CTRL3 (0x3473) +#define P_PCMOUT_CTRL3 (volatile unsigned int *)((0x3473 << 2) + 0xffd00000) +#define PCMOUT_CTRL4 (0x3474) +#define P_PCMOUT_CTRL4 (volatile unsigned int *)((0x3474 << 2) + 0xffd00000) +//`define PCMOUT1_CTRL0 8'h74 +//`define PCMOUT1_CTRL1 8'h75 +//`define PCMOUT1_CTRL2 8'h76 +//`define PCMOUT1_CTRL3 8'h77 +#define AUDOUT_CTRL (0x3480) +#define P_AUDOUT_CTRL (volatile unsigned int *)((0x3480 << 2) + 0xffd00000) +#define AUDOUT_CTRL1 (0x3481) +#define P_AUDOUT_CTRL1 (volatile unsigned int *)((0x3481 << 2) + 0xffd00000) +#define AUDOUT_BUF0_STA (0x3482) +#define P_AUDOUT_BUF0_STA (volatile unsigned int *)((0x3482 << 2) + 0xffd00000) +#define AUDOUT_BUF0_EDA (0x3483) +#define P_AUDOUT_BUF0_EDA (volatile unsigned int *)((0x3483 << 2) + 0xffd00000) +#define AUDOUT_BUF0_WPTR (0x3484) +#define P_AUDOUT_BUF0_WPTR (volatile unsigned int *)((0x3484 << 2) + 0xffd00000) +#define AUDOUT_BUF1_STA (0x3485) +#define P_AUDOUT_BUF1_STA (volatile unsigned int *)((0x3485 << 2) + 0xffd00000) +#define AUDOUT_BUF1_EDA (0x3486) +#define P_AUDOUT_BUF1_EDA (volatile unsigned int *)((0x3486 << 2) + 0xffd00000) +#define AUDOUT_BUF1_WPTR (0x3487) +#define P_AUDOUT_BUF1_WPTR (volatile unsigned int *)((0x3487 << 2) + 0xffd00000) +#define AUDOUT_FIFO_RPTR (0x3488) +#define P_AUDOUT_FIFO_RPTR (volatile unsigned int *)((0x3488 << 2) + 0xffd00000) +#define AUDOUT_INTR_PTR (0x3489) +#define P_AUDOUT_INTR_PTR (volatile unsigned int *)((0x3489 << 2) + 0xffd00000) +#define AUDOUT_FIFO_STS (0x348a) +#define P_AUDOUT_FIFO_STS (volatile unsigned int *)((0x348a << 2) + 0xffd00000) +//`define AUDOUT1_CTRL 8'h90 +//`define AUDOUT1_CTRL1 8'h91 +//`define AUDOUT1_BUF0_STA 8'h92 +//`define AUDOUT1_BUF0_EDA 8'h93 +//`define AUDOUT1_BUF0_WPTR 8'h94 +//`define AUDOUT1_BUF1_STA 8'h95 +//`define AUDOUT1_BUF1_EDA 8'h96 +//`define AUDOUT1_BUF1_WPTR 8'h97 +//`define AUDOUT1_FIFO_RPTR 8'h98 +//`define AUDOUT1_INTR_PTR 8'h99 +//`define AUDOUT1_FIFO_STS 8'h9a +//// Bit 31: 0 RW cntl_mute_val: Use this value during mute, if cntl_mute_mode=2. +//`define AUDIN_MUTE_VAL 8'h35 +#define AUDIN_HDMI_MEAS_CTRL (0x34a0) +#define P_AUDIN_HDMI_MEAS_CTRL (volatile unsigned int *)((0x34a0 << 2) + 0xffd00000) +#define AUDIN_HDMI_MEAS_CYCLES_M1 (0x34a1) +#define P_AUDIN_HDMI_MEAS_CYCLES_M1 (volatile unsigned int *)((0x34a1 << 2) + 0xffd00000) +#define AUDIN_HDMI_MEAS_INTR_MASKN (0x34a2) +#define P_AUDIN_HDMI_MEAS_INTR_MASKN (volatile unsigned int *)((0x34a2 << 2) + 0xffd00000) +#define AUDIN_HDMI_MEAS_INTR_STAT (0x34a3) +#define P_AUDIN_HDMI_MEAS_INTR_STAT (volatile unsigned int *)((0x34a3 << 2) + 0xffd00000) +#define AUDIN_HDMI_REF_CYCLES_STAT_0 (0x34a4) +#define P_AUDIN_HDMI_REF_CYCLES_STAT_0 (volatile unsigned int *)((0x34a4 << 2) + 0xffd00000) +#define AUDIN_HDMI_REF_CYCLES_STAT_1 (0x34a5) +#define P_AUDIN_HDMI_REF_CYCLES_STAT_1 (volatile unsigned int *)((0x34a5 << 2) + 0xffd00000) +#define AUDIN_HDMIRX_AFIFO_STAT (0x34a6) +#define P_AUDIN_HDMIRX_AFIFO_STAT (volatile unsigned int *)((0x34a6 << 2) + 0xffd00000) +#define AUDIN_MEM_PD (0x34aa) +#define P_AUDIN_MEM_PD (volatile unsigned int *)((0x34aa << 2) + 0xffd00000) +#define AUDIN_FIFO0_PIO_STS (0x34b0) +#define P_AUDIN_FIFO0_PIO_STS (volatile unsigned int *)((0x34b0 << 2) + 0xffd00000) +#define AUDIN_FIFO0_PIO_RDL (0x34b1) +#define P_AUDIN_FIFO0_PIO_RDL (volatile unsigned int *)((0x34b1 << 2) + 0xffd00000) +#define AUDIN_FIFO0_PIO_RDH (0x34b2) +#define P_AUDIN_FIFO0_PIO_RDH (volatile unsigned int *)((0x34b2 << 2) + 0xffd00000) +#define AUDIN_FIFO1_PIO_STS (0x34b3) +#define P_AUDIN_FIFO1_PIO_STS (volatile unsigned int *)((0x34b3 << 2) + 0xffd00000) +#define AUDIN_FIFO1_PIO_RDL (0x34b4) +#define P_AUDIN_FIFO1_PIO_RDL (volatile unsigned int *)((0x34b4 << 2) + 0xffd00000) +#define AUDIN_FIFO1_PIO_RDH (0x34b5) +#define P_AUDIN_FIFO1_PIO_RDH (volatile unsigned int *)((0x34b5 << 2) + 0xffd00000) +#define AUDIN_FIFO2_PIO_STS (0x34b6) +#define P_AUDIN_FIFO2_PIO_STS (volatile unsigned int *)((0x34b6 << 2) + 0xffd00000) +#define AUDIN_FIFO2_PIO_RDL (0x34b7) +#define P_AUDIN_FIFO2_PIO_RDL (volatile unsigned int *)((0x34b7 << 2) + 0xffd00000) +#define AUDIN_FIFO2_PIO_RDH (0x34b8) +#define P_AUDIN_FIFO2_PIO_RDH (volatile unsigned int *)((0x34b8 << 2) + 0xffd00000) +#define AUDOUT_FIFO_PIO_STS (0x34b9) +#define P_AUDOUT_FIFO_PIO_STS (volatile unsigned int *)((0x34b9 << 2) + 0xffd00000) +#define AUDOUT_FIFO_PIO_WRL (0x34ba) +#define P_AUDOUT_FIFO_PIO_WRL (volatile unsigned int *)((0x34ba << 2) + 0xffd00000) +#define AUDOUT_FIFO_PIO_WRH (0x34bb) +#define P_AUDOUT_FIFO_PIO_WRH (volatile unsigned int *)((0x34bb << 2) + 0xffd00000) +//`define AUDOUT1_FIFO_PIO_STS 8'hbc +//`define AUDOUT1_FIFO_PIO_WRL 8'hbd +//`define AUDOUT1_FIFO_PIO_WRH 8'hbe +#define AUD_RESAMPLE_CTRL0 (0x34bf) +#define P_AUD_RESAMPLE_CTRL0 (volatile unsigned int *)((0x34bf << 2) + 0xffd00000) +#define AUD_RESAMPLE_CTRL1 (0x34c0) +#define P_AUD_RESAMPLE_CTRL1 (volatile unsigned int *)((0x34c0 << 2) + 0xffd00000) +#define AUD_RESAMPLE_STATUS (0x34c1) +#define P_AUD_RESAMPLE_STATUS (volatile unsigned int *)((0x34c1 << 2) + 0xffd00000) +#define AUD_RESAMPLE_CTRL2 (0x34c2) +#define P_AUD_RESAMPLE_CTRL2 (volatile unsigned int *)((0x34c2 << 2) + 0xffd00000) +#define AUD_RESAMPLE_COEF0 (0x34c3) +#define P_AUD_RESAMPLE_COEF0 (volatile unsigned int *)((0x34c3 << 2) + 0xffd00000) +#define AUD_RESAMPLE_COEF1 (0x34c4) +#define P_AUD_RESAMPLE_COEF1 (volatile unsigned int *)((0x34c4 << 2) + 0xffd00000) +#define AUD_RESAMPLE_COEF2 (0x34c5) +#define P_AUD_RESAMPLE_COEF2 (volatile unsigned int *)((0x34c5 << 2) + 0xffd00000) +#define AUD_RESAMPLE_COEF3 (0x34c6) +#define P_AUD_RESAMPLE_COEF3 (volatile unsigned int *)((0x34c6 << 2) + 0xffd00000) +#define AUD_RESAMPLE_COEF4 (0x34c7) +#define P_AUD_RESAMPLE_COEF4 (volatile unsigned int *)((0x34c7 << 2) + 0xffd00000) +#define AUDIN_ADDR_END (0x34c8) +#define P_AUDIN_ADDR_END (volatile unsigned int *)((0x34c8 << 2) + 0xffd00000) +#define AUDIN_ATV_DEMOD_CTRL (0x34d0) +#define P_AUDIN_ATV_DEMOD_CTRL (volatile unsigned int *)((0x34d0 << 2) + 0xffd00000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: ./register_map.h +// +// +// Reading file: ./vcbus_regs.h +// +// synopsys translate_off +// synopsys translate_on +//=========================================================================== +//`define RDMA_VCBUS_BASE 8'h11 +//=========================================================================== +// +// Reading file: rdma_regs.h +// +//=========================================================================== +// RDMA registers 0x00 - 0xff +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: RDMA_VCBUS_BASE = 0x11 +// ----------------------------------------------- +// Bit 31: 0 RW AHB start address for manual start DMA +#define RDMA_AHB_START_ADDR_MAN (0x1100) +#define P_RDMA_AHB_START_ADDR_MAN (volatile unsigned int *)((0x1100 << 2) + 0xff900000) +// Bit 31: 0 RW AHB end address for manual start DMA +#define RDMA_AHB_END_ADDR_MAN (0x1101) +#define P_RDMA_AHB_END_ADDR_MAN (volatile unsigned int *)((0x1101 << 2) + 0xff900000) +// Bit 31: 0 RW AHB start address for auto start source 1 +#define RDMA_AHB_START_ADDR_1 (0x1102) +#define P_RDMA_AHB_START_ADDR_1 (volatile unsigned int *)((0x1102 << 2) + 0xff900000) +// Bit 31: 0 RW AHB end address for auto start source 1 +#define RDMA_AHB_END_ADDR_1 (0x1103) +#define P_RDMA_AHB_END_ADDR_1 (volatile unsigned int *)((0x1103 << 2) + 0xff900000) +// Bit 31: 0 RW AHB start address for auto start source 2 +#define RDMA_AHB_START_ADDR_2 (0x1104) +#define P_RDMA_AHB_START_ADDR_2 (volatile unsigned int *)((0x1104 << 2) + 0xff900000) +// Bit 31: 0 RW AHB end address for auto start source 2 +#define RDMA_AHB_END_ADDR_2 (0x1105) +#define P_RDMA_AHB_END_ADDR_2 (volatile unsigned int *)((0x1105 << 2) + 0xff900000) +// Bit 31: 0 RW AHB start address for auto start source 3 +#define RDMA_AHB_START_ADDR_3 (0x1106) +#define P_RDMA_AHB_START_ADDR_3 (volatile unsigned int *)((0x1106 << 2) + 0xff900000) +// Bit 31: 0 RW AHB end address for auto start source 3 +#define RDMA_AHB_END_ADDR_3 (0x1107) +#define P_RDMA_AHB_END_ADDR_3 (volatile unsigned int *)((0x1107 << 2) + 0xff900000) +// Bit 31: 0 RW AHB start address for auto start source 4 +#define RDMA_AHB_START_ADDR_4 (0x1108) +#define P_RDMA_AHB_START_ADDR_4 (volatile unsigned int *)((0x1108 << 2) + 0xff900000) +// Bit 31: 0 RW AHB end address for auto start source 4 +#define RDMA_AHB_END_ADDR_4 (0x1109) +#define P_RDMA_AHB_END_ADDR_4 (volatile unsigned int *)((0x1109 << 2) + 0xff900000) +// Bit 31: 0 RW AHB start address for auto start source 5 +#define RDMA_AHB_START_ADDR_5 (0x110a) +#define P_RDMA_AHB_START_ADDR_5 (volatile unsigned int *)((0x110a << 2) + 0xff900000) +// Bit 31: 0 RW AHB end address for auto start source 5 +#define RDMA_AHB_END_ADDR_5 (0x110b) +#define P_RDMA_AHB_END_ADDR_5 (volatile unsigned int *)((0x110b << 2) + 0xff900000) +// Bit 31: 0 RW AHB start address for auto start source 6 +#define RDMA_AHB_START_ADDR_6 (0x110c) +#define P_RDMA_AHB_START_ADDR_6 (volatile unsigned int *)((0x110c << 2) + 0xff900000) +// Bit 31: 0 RW AHB end address for auto start source 6 +#define RDMA_AHB_END_ADDR_6 (0x110d) +#define P_RDMA_AHB_END_ADDR_6 (volatile unsigned int *)((0x110d << 2) + 0xff900000) +// Bit 31: 0 RW AHB start address for auto start source 7 +#define RDMA_AHB_START_ADDR_7 (0x110e) +#define P_RDMA_AHB_START_ADDR_7 (volatile unsigned int *)((0x110e << 2) + 0xff900000) +// Bit 31: 0 RW AHB end address for auto start source 7 +#define RDMA_AHB_END_ADDR_7 (0x110f) +#define P_RDMA_AHB_END_ADDR_7 (volatile unsigned int *)((0x110f << 2) + 0xff900000) +// Auto start DMA control: +// Bit 31:24 RW ctrl_enable_int_3. Interrupt inputs enable mask for source 3. +// Bit 23:16 RW ctrl_enable_int_2. Interrupt inputs enable mask for source 2. +// Bit 15: 8 RW ctrl_enable_int_1. Interrupt inputs enable mask for source 1. +// Bit 7 RW ctrl_cbus_write_3. Register read/write mode for auto-start 3. 1=Register write; 0=Register read. +// Bit 6 RW ctrl_cbus_write_3. Register read/write mode for auto-start 2. 1=Register write; 0=Register read. +// Bit 5 RW ctrl_cbus_write_3. Register read/write mode for auto-start 1. 1=Register write; 0=Register read. +// Bit 4 R Rsrv. +// Bit 3 RW ctrl_cbus_addr_incr_3. 1=Incremental register access for auto-start 3; 0=Non-incremental (individual) register access. +// Bit 2 RW ctrl_cbus_addr_incr_2. 1=Incremental register access for auto-start 2; 0=Non-incremental (individual) register access. +// Bit 1 RW ctrl_cbus_addr_incr_1. 1=Incremental register access for auto-start 1; 0=Non-incremental (individual) register access. +// Bit 0 R Rsrv. +#define RDMA_ACCESS_AUTO (0x1110) +#define P_RDMA_ACCESS_AUTO (volatile unsigned int *)((0x1110 << 2) + 0xff900000) +#define RDMA_ACCESS_AUTO2 (0x1111) +#define P_RDMA_ACCESS_AUTO2 (volatile unsigned int *)((0x1111 << 2) + 0xff900000) +#define RDMA_ACCESS_AUTO3 (0x1112) +#define P_RDMA_ACCESS_AUTO3 (volatile unsigned int *)((0x1112 << 2) + 0xff900000) +// Manual start DMA control: +// Bit 31: 3 R Rsrv. +// Bit 2 RW ctrl_cbus_write_man. Register read/write mode for manual-start. 1=Register write; 0=Register read. +// Bit 1 RW ctrl_cbus_addr_incr_man. 1=Incremental register access for manual-start; 0=Non-incremental (individual) register access. +// Bit 0 W ctrl_start_man. Write 1 to this bit to manual-start DMA. This bit always read back 0. +#define RDMA_ACCESS_MAN (0x1113) +#define P_RDMA_ACCESS_MAN (volatile unsigned int *)((0x1113 << 2) + 0xff900000) +// RDMA general control: +// Bit 31:25 R Rsrv. +// Bit 24 W ctrl_clr_rdma_done_int. Write 1 to reset rdma_int level to 0. No need to clear this bit. +// Bit 23:19 R Rsrv. +// Bit 18:13 R Rsrv. +// Bit 12: 7 R Rsrv. +// Bit 6 RW ctrl_ddr_urgent. +// Bit 5: 4 RW ctrl_ahb_wr_burst_size. 0=ABH write request burst size 16; +// 1=ABH write request burst size 24; +// 2=ABH write request burst size 32; +// 3=ABH write request burst size 48. +// Bit 3: 2 RW ctrl_ahb_rd_burst_size. 0=ABH read request burst size 16; +// 1=ABH read request burst size 24; +// 2=ABH read request burst size 32; +// 3=ABH read request burst size 48. +// Bit 1 RW ctrl_sw_reset. 1=Reset RDMA logics except register. +// Bit 0 RW ctrl_free_clk_enable. 0=Default, Enable clock gating. 1=No clock gating, enable free clock. +#define RDMA_CTRL (0x1114) +#define P_RDMA_CTRL (volatile unsigned int *)((0x1114 << 2) + 0xff900000) +// Read only. +// Bit 31:29 R Rsrv. +// Bit 28 R rdma_done_int. +// Bit 27:25 R Rsrv. +// Bit 24:18 R ahb_wrfifo_cnt. FIFO for buffering CBus read data to be sent to AHB +// Bit 17:11 R ahb_rdfifo_cnt. FIFO for buffering data read from AHB. +// Bit 10: 8 R ddr_req_st. =0 -- Idle; !=0 -- AHB interfacing ongoing. +// Bit 7: 4 R curr_req. Latest requests that is being/been serviced. E.g. 0000=Idle; 0010=Latest serviced request is Req 1. +// Bit 3: 0 R req_latch. Requests that are yet to be serviced. E.g. 0000=No request; 0001=Req 0 waiting; 1100=Req 2 and 3 waiting. +#define RDMA_STATUS (0x1115) +#define P_RDMA_STATUS (volatile unsigned int *)((0x1115 << 2) + 0xff900000) +#define RDMA_STATUS2 (0x1116) +#define P_RDMA_STATUS2 (volatile unsigned int *)((0x1116 << 2) + 0xff900000) +#define RDMA_STATUS3 (0x1117) +#define P_RDMA_STATUS3 (volatile unsigned int *)((0x1117 << 2) + 0xff900000) +#define RDMA_ACCESS_AUTO4 (0x1118) +#define P_RDMA_ACCESS_AUTO4 (volatile unsigned int *)((0x1118 << 2) + 0xff900000) +#define RDMA_SRAM_CNTL (0x1120) +#define P_RDMA_SRAM_CNTL (volatile unsigned int *)((0x1120 << 2) + 0xff900000) +#define RDMA_SRAM_REGADDR (0x1121) +#define P_RDMA_SRAM_REGADDR (volatile unsigned int *)((0x1121 << 2) + 0xff900000) +#define RDMA_SRAM_REGDATA (0x1122) +#define P_RDMA_SRAM_REGDATA (volatile unsigned int *)((0x1122 << 2) + 0xff900000) +// +// Closing file: rdma_regs.h +// +//=========================================================================== +// VDIN +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: VDIN_VCBUS_BASE = 0x12 +// ----------------------------------------------- +//VDIN0 8'h00 - 8'h7f +//VDIN1 8'h80 - 8'hef +#define VDIN0_OFFSET 0x00 +#define VDIN1_OFFSET 0x80 + +#define VDIN_SCALE_COEF_IDX (0x1200) +#define P_VDIN_SCALE_COEF_IDX (volatile unsigned int *)((0x1200 << 2) + 0xff900000) +#define VDIN_SCALE_COEF (0x1201) +#define P_VDIN_SCALE_COEF (volatile unsigned int *)((0x1201 << 2) + 0xff900000) +//bit 31, mpeg_to_vdin_sel, 0: mpeg source to NR directly, 1: mpeg source pass through here +//bit 30, mpeg_field info which can be written by software +//Bit 29, force go_field, pulse signal +//Bit 28, force go_line, pulse signal +//Bit 27, enable mpeg_go_field input signal +//Bit 26:20, hold lines +//Bit 19, delay go_field function enable +//Bit 18:12, delay go_field line number +//Bit 11:10, component2 output switch, 00: select component0 in, 01: select component1 in, 10: select component2 in +//Bit 9:8, component1 output switch, 00: select component0 in, 01: select component1 in, 10: select component2 in +//Bit 7:6, component0 output switch, 00: select component0 in, 01: select component1 in, 10: select component2 in +//Bit 5, input window selection function enable +//Bit 4, enable VDIN common data input, otherwise there will be no video data input +//Bit 3:0 vdin selection, 1: mpeg_in from dram, 2: bt656 input, 3: component input, 4: tvdecoder input, 5: hdmi rx input, 6: digtial video input, 7: loopback from Viu1, 8: MIPI. +#define VDIN_COM_CTRL0 (0x1202) +#define P_VDIN_COM_CTRL0 (volatile unsigned int *)((0x1202 << 2) + 0xff900000) +//Bit 28:16 active_max_pix_cnt, readonly +//Bit 12:0 active_max_pix_cnt_shadow, readonly +#define VDIN_ACTIVE_MAX_PIX_CNT_STATUS (0x1203) +#define P_VDIN_ACTIVE_MAX_PIX_CNT_STATUS (volatile unsigned int *)((0x1203 << 2) + 0xff900000) +//Bit 28:16 go_line_cnt, readonly +//Bit 12:0 active_line_cnt, readonly +#define VDIN_LCNT_STATUS (0x1204) +#define P_VDIN_LCNT_STATUS (volatile unsigned int *)((0x1204 << 2) + 0xff900000) +//Readonly +//Bit [14:3] lfifo_buf_cnt +//Bit 2, vdin_direct_done status +//Bit 1, vdin_nr_done status +//Bit 0, field +#define VDIN_COM_STATUS0 (0x1205) +#define P_VDIN_COM_STATUS0 (volatile unsigned int *)((0x1205 << 2) + 0xff900000) +//Readonly +//Bit 31, vdi4 fifo overflow +//Bit 29:24, vdi3_asfifo_cnt +//Bit 23, vdi3 fifo overflow +//Bit 21:16, vdi3_asfifo_cnt +//Bit 15, vdi2 fifo overflow +//Bit 13:8, vdi2_asfifo_cnt +//Bit 7, vdi1 fifo overflow +//Bit 5:0, vdi1_asfifo_cnt +#define VDIN_COM_STATUS1 (0x1206) +#define P_VDIN_COM_STATUS1 (volatile unsigned int *)((0x1206 << 2) + 0xff900000) +//Bit 28:16 go_line_cnt_shadow, readonly +//Bit 12:0 active_line_cnt_shadow, readonly +#define VDIN_LCNT_SHADOW_STATUS (0x1207) +#define P_VDIN_LCNT_SHADOW_STATUS (volatile unsigned int *)((0x1207 << 2) + 0xff900000) +//each 8bit asfifo_ctrl is following: +//Bit 7, DE enable +//Bit 6, go field enable +//Bit 5, go line enable +//Bit 4, if true, negative active input vsync +//Bit 3, if true, negative active input hsync +//Bit 2, vsync soft reset fifo enable +//Bit 1, overflow status clear +//Bit 0 asfifo soft reset, level signal +//Bit 7:0 vdi1 asfifo_ctrl +//Bit 23:16 vdi2 asfifo_ctrl +#define VDIN_ASFIFO_CTRL0 (0x1208) +#define P_VDIN_ASFIFO_CTRL0 (volatile unsigned int *)((0x1208 << 2) + 0xff900000) +//Bit 7:0 vdi3 asfifo_ctrl +//Bit 23:16 vdi4 asfifo_ctrl +#define VDIN_ASFIFO_CTRL1 (0x1209) +#define P_VDIN_ASFIFO_CTRL1 (volatile unsigned int *)((0x1209 << 2) + 0xff900000) +//Bit 28:16 input width minus 1, after the window function +//Bit 12:0 output width minus 1 +#define VDIN_WIDTHM1I_WIDTHM1O (0x120a) +#define P_VDIN_WIDTHM1I_WIDTHM1O (volatile unsigned int *)((0x120a << 2) + 0xff900000) +//Bit 20:17 prehsc_mode, bit 3:2, prehsc odd line interp mode, bit 1:0, prehsc even line interp mode, +// each 2bit, 00: pix0+pix1/2, average, 01: pix1, 10: pix0 +//Bit 16:15 sp422_mode, special mode for the component1 and component2, 00: normal case, 01: 32 64 32, 10: 0 64 64 0, 11: 16 96 16 +//Bit 14:8, hsc_ini_pixi_ptr, signed data, only useful when short_lineo_en is true +//Bit 7, prehsc_en +//Bit 6, hsc_en, +//Bit 5, hsc_short_lineo_en, short line output enable +//Bit 4, hsc_nearest_en +//Bit 3, hsc_phase0_always_en +//Bit 2:0, hsc_bank_length +#define VDIN_SC_MISC_CTRL (0x120b) +#define P_VDIN_SC_MISC_CTRL (volatile unsigned int *)((0x120b << 2) + 0xff900000) +//Bit 28:24, integer portion +//Bit 23:0, fraction portion +#define VDIN_HSC_PHASE_STEP (0x120c) +#define P_VDIN_HSC_PHASE_STEP (volatile unsigned int *)((0x120c << 2) + 0xff900000) +//Bit 30:29 hscale rpt_p0_num +//Bit 28:24 hscale ini_rcv_num +//Bit 23:0 hscale ini_phase +#define VDIN_HSC_INI_CTRL (0x120d) +#define P_VDIN_HSC_INI_CTRL (volatile unsigned int *)((0x120d << 2) + 0xff900000) +//Read only +//Bit 23, vdi7 fifo overflow +//Bit 21:16, vdi7_asfifo_cnt +//Bit 15, vdi6 fifo overflow +//Bit 13:8, vdi6_asfifo_cnt +//Bit 7, vdi5 fifo overflow +//Bit 5:0, vdi5_asfifo_cnt +#define VDIN_COM_STATUS2 (0x120e) +#define P_VDIN_COM_STATUS2 (volatile unsigned int *)((0x120e << 2) + 0xff900000) +//Bit 25:16 asfifo decimate control +//Bit 25, if true, decimation counter sync with first valid DE in the field, +//otherwise the decimation counter is not sync with external signal +//Bit 24, decimation de enable +//Bit 23:20, decimation phase, which counter value use to decimate, +//Bit 19:16, decimation number, 0: not decimation, 1: decimation 2, 2: decimation 3 .... +//Bit 7:0 vdi5 asfifo_ctrl +#define VDIN_ASFIFO_CTRL2 (0x120f) +#define P_VDIN_ASFIFO_CTRL2 (volatile unsigned int *)((0x120f << 2) + 0xff900000) +//Bit 7, highlight_en +//Bit 6 probe_post, if true, probe pixel data after matrix, otherwise probe pixel data before matrix +//Bit 5:4 probe_sel, 00: select matrix 0, 01: select matrix 1, otherwise select nothing +//Bit 3:2, matrix coef idx selection, 00: select mat0, 01: select mat1, otherwise slect nothing +//Bit 1 mat1 conversion matrix enable +//Bit 0 mat0 conversion matrix enable +#define VDIN_MATRIX_CTRL (0x1210) +#define P_VDIN_MATRIX_CTRL (volatile unsigned int *)((0x1210 << 2) + 0xff900000) +//Bit 28:16 coef00 +//Bit 12:0 coef01 +#define VDIN_MATRIX_COEF00_01 (0x1211) +#define P_VDIN_MATRIX_COEF00_01 (volatile unsigned int *)((0x1211 << 2) + 0xff900000) +//Bit 28:16 coef02 +//Bit 12:0 coef10 +#define VDIN_MATRIX_COEF02_10 (0x1212) +#define P_VDIN_MATRIX_COEF02_10 (volatile unsigned int *)((0x1212 << 2) + 0xff900000) +//Bit 28:16 coef11 +//Bit 12:0 coef12 +#define VDIN_MATRIX_COEF11_12 (0x1213) +#define P_VDIN_MATRIX_COEF11_12 (volatile unsigned int *)((0x1213 << 2) + 0xff900000) +//Bit 28:16 coef20 +//Bit 12:0 coef21 +#define VDIN_MATRIX_COEF20_21 (0x1214) +#define P_VDIN_MATRIX_COEF20_21 (volatile unsigned int *)((0x1214 << 2) + 0xff900000) +//BIt 18:16 conv_rs +//Bit 12:0 coef22 +#define VDIN_MATRIX_COEF22 (0x1215) +#define P_VDIN_MATRIX_COEF22 (volatile unsigned int *)((0x1215 << 2) + 0xff900000) +//Bit 26:16 offset0 +//Bit 10:0 offset1 +#define VDIN_MATRIX_OFFSET0_1 (0x1216) +#define P_VDIN_MATRIX_OFFSET0_1 (volatile unsigned int *)((0x1216 << 2) + 0xff900000) +//Bit 10:0 offset2 +#define VDIN_MATRIX_OFFSET2 (0x1217) +#define P_VDIN_MATRIX_OFFSET2 (volatile unsigned int *)((0x1217 << 2) + 0xff900000) +//Bit 26:16 pre_offset0 +//Bit 10:0 pre_offset1 +#define VDIN_MATRIX_PRE_OFFSET0_1 (0x1218) +#define P_VDIN_MATRIX_PRE_OFFSET0_1 (volatile unsigned int *)((0x1218 << 2) + 0xff900000) +//Bit 10:0 pre_offset2 +#define VDIN_MATRIX_PRE_OFFSET2 (0x1219) +#define P_VDIN_MATRIX_PRE_OFFSET2 (volatile unsigned int *)((0x1219 << 2) + 0xff900000) +//12:0 lfifo_buf_size +#define VDIN_LFIFO_CTRL (0x121a) +#define P_VDIN_LFIFO_CTRL (volatile unsigned int *)((0x121a << 2) + 0xff900000) +#define VDIN_COM_GCLK_CTRL (0x121b) +#define P_VDIN_COM_GCLK_CTRL (volatile unsigned int *)((0x121b << 2) + 0xff900000) +//12:0 VDIN input interface width minus 1, before the window function, after the de decimation +#define VDIN_INTF_WIDTHM1 (0x121c) +#define P_VDIN_INTF_WIDTHM1 (volatile unsigned int *)((0x121c << 2) + 0xff900000) +//Bit 15 //default== 0, urgent_ctrl_en +//Bit 14 //default== 0, urgent_wr, if true for write buffer +//Bit 13 //default== 0, out_inv_en +//Bit 12 //default == 0, urgent_ini_value +//Bit 11:6 //default == 0, up_th up threshold +//Bit 5:0 //default == 0, dn_th dn threshold +#define VDIN_LFIFO_URG_CTRL (0x121e) +#define P_VDIN_LFIFO_URG_CTRL (volatile unsigned int *)((0x121e << 2) + 0xff900000) +//Bit 8, 1: discard data before line fifo, 0: normal mode +//Bit 7:0 Write chroma canvas address +#define VDIN_WR_CTRL2 (0x121f) +#define P_VDIN_WR_CTRL2 (volatile unsigned int *)((0x121f << 2) + 0xff900000) +//Bit 31:30 hconv_mode, Applicable only to bit[13:12]=0 or 2. 0: Output every even pixels' CbCr; +// 1: Output every odd pixels' CbCr; +// 2: Output an average value per even&odd pair of pixels; +// 3: Output all CbCr. (This does NOT apply to bit[13:12]=0 -- 4:2:2 mode.) +//Bit 29 no_clk_gate: disable vid_wr_mif clock gating function. +//Bit 28 clear write response counter in the vdin write memory interface +//Bit 27 eol_sel, 1: use eol as the line end indication, 0: use width as line end indication in the vdin write memory interface +//Bit 26 vcp_nr_en. Only used in VDIN0. NOT used in VDIN1. +//Bit 25 vcp_wr_en. Only used in VDIN0. NOT used in VDIN1. +//Bit 24 vcp_in_en. Only used in VDIN0. NOT used in VDIN1. +//Bit 23 vdin frame reset enble, if true, it will provide frame reset during go_field(vsync) to the modules after that +//Bit 22 vdin line fifo soft reset enable, meaning, if true line fifo will reset during go_field (vsync) +//Bit 21 vdin direct write done status clear bit +//Bit 20 vdin NR write done status clear bit +//Bit 18 swap_cbcr. Applicable only to bit[13:12]=2. 0: Output CbCr (NV12); 1: Output CrCb (NV21). +//Bit 17:16 vconv_mode, Applicable only to bit[13:12]=2. 0: Output every even lines' CbCr; +// 1: Output every odd lines' CbCr; +// 2: Reserved; +// 3: Output all CbCr. +//Bit 13:12 vdin write format, 0: 4:2:2 to luma canvas, 1: 4:4:4 to luma canvas, +// 2: Y to luma canvas, CbCr to chroma canvas. For NV12/21, also define Bit 31:30, 17:16, and bit 18. +//Bit 11 vdin write canvas double buffer enable, means the canvas address will be latched by vsync before using +//Bit 10 1: disable ctrl_reg write pulse which will reset internal counter. when bit 11 is 1, this bit should be 1. +//Bit 9 vdin write request urgent +//Bit 8 vdin write request enable +//Bit 7:0 Write luma canvas address +#define VDIN_WR_CTRL (0x1220) +#define P_VDIN_WR_CTRL (volatile unsigned int *)((0x1220 << 2) + 0xff900000) +//Bit 29, if true, horizontal reverse +//Bit 28:16 start +//Bit 12:0 end +#define VDIN_WR_H_START_END (0x1221) +#define P_VDIN_WR_H_START_END (volatile unsigned int *)((0x1221 << 2) + 0xff900000) +//Bit 29, if true, vertical reverse +//Bit 28:16 start +//Bit 12:0 end +#define VDIN_WR_V_START_END (0x1222) +#define P_VDIN_WR_V_START_END (volatile unsigned int *)((0x1222 << 2) + 0xff900000) +//Bit 24:20, integer portion +//Bit 19:0, fraction portion +#define VDIN_VSC_PHASE_STEP (0x1223) +#define P_VDIN_VSC_PHASE_STEP (volatile unsigned int *)((0x1223 << 2) + 0xff900000) +//Bit 23, vsc_en, vertical scaler enable +//Bit 21 vsc_phase0_always_en, when scale up, you have to set it to 1 +//Bit 20:16 ini skip_line_num +//Bit 15:0 vscaler ini_phase +#define VDIN_VSC_INI_CTRL (0x1224) +#define P_VDIN_VSC_INI_CTRL (volatile unsigned int *)((0x1224 << 2) + 0xff900000) +//Bit 28:16, vshrink input height minus 1 +//Bit 12:0, scaler input height minus 1 +#define VDIN_SCIN_HEIGHTM1 (0x1225) +#define P_VDIN_SCIN_HEIGHTM1 (volatile unsigned int *)((0x1225 << 2) + 0xff900000) +//Bit 23:16, dummy component 0 +//Bit 15:8, dummy component 1 +//Bit 7:0, dummy component 2 +#define VDIN_DUMMY_DATA (0x1226) +#define P_VDIN_DUMMY_DATA (volatile unsigned int *)((0x1226 << 2) + 0xff900000) +//Read only +//Bit 29:20 component 0 +//Bit 19:10 component 1 +//Bit 9:0 component 2 +#define VDIN_MATRIX_PROBE_COLOR (0x1228) +#define P_VDIN_MATRIX_PROBE_COLOR (volatile unsigned int *)((0x1228 << 2) + 0xff900000) +//Bit 23:16 component 0 +//Bit 15:8 component 1 +//Bit 7:0 component 2 +#define VDIN_MATRIX_HL_COLOR (0x1229) +#define P_VDIN_MATRIX_HL_COLOR (volatile unsigned int *)((0x1229 << 2) + 0xff900000) +//28:16 probe x, postion +//12:0 probe y, position +#define VDIN_MATRIX_PROBE_POS (0x122a) +#define P_VDIN_MATRIX_PROBE_POS (volatile unsigned int *)((0x122a << 2) + 0xff900000) +#define VDIN_CHROMA_ADDR_PORT (0x122b) +#define P_VDIN_CHROMA_ADDR_PORT (volatile unsigned int *)((0x122b << 2) + 0xff900000) +#define VDIN_CHROMA_DATA_PORT (0x122c) +#define P_VDIN_CHROMA_DATA_PORT (volatile unsigned int *)((0x122c << 2) + 0xff900000) +// +#define VDIN_CM_BRI_CON_CTRL (0x122d) +#define P_VDIN_CM_BRI_CON_CTRL (volatile unsigned int *)((0x122d << 2) + 0xff900000) +//Bit 17 clk_cyc_cnt_clr, if true, clear this register +//Bit 16 if true, use vpu clock to count one line, otherwise use actually hsync to count line_cnt +//Bit 15:0 line width using vpu clk +#define VDIN_GO_LINE_CTRL (0x122f) +#define P_VDIN_GO_LINE_CTRL (volatile unsigned int *)((0x122f << 2) + 0xff900000) +//Bit 31:24 hist_pix_white_th, larger than this th is counted as white pixel +//Bit 23:16 hist_pix_black_th, less than this th is counted as black pixel +//Bit 11 hist_34bin_only, 34 bin only mode, including white/black +//Bit 10:9 ldim_stts_din_sel, 00: from matrix0 dout, 01: from vsc_dout, 10: from matrix1 dout, 11: form matrix1 din +//Bit 8 ldim_stts_en +//Bit 6:5 hist_dnlp_low the real pixels in each bins got by VDIN_DNLP_HISTXX should multiple with 2^(dnlp_low+3) +//Bit 3:2 hist_din_sel the source used for hist statistics. 00: from matrix0 dout, 01: from vsc_dout, 10: from matrix1 dout, 11: form matrix1 din +//Bit 1 hist_win_en 1'b0: hist used for full picture; 1'b1: hist used for pixels within hist window +//Bit 0 hist_spl_en 1'b0: disable hist readback; 1'b1: enable hist readback +#define VDIN_HIST_CTRL (0x1230) +#define P_VDIN_HIST_CTRL (volatile unsigned int *)((0x1230 << 2) + 0xff900000) +//Bit 28:16 hist_hstart horizontal start value to define hist window +//Bit 12:0 hist_hend horizontal end value to define hist window +#define VDIN_HIST_H_START_END (0x1231) +#define P_VDIN_HIST_H_START_END (volatile unsigned int *)((0x1231 << 2) + 0xff900000) +//Bit 28:16 hist_vstart vertical start value to define hist window +//Bit 12:0 hist_vend vertical end value to define hist window +#define VDIN_HIST_V_START_END (0x1232) +#define P_VDIN_HIST_V_START_END (volatile unsigned int *)((0x1232 << 2) + 0xff900000) +//Bit 15:8 hist_max maximum value +//Bit 7:0 hist_min minimum value +//read only +#define VDIN_HIST_MAX_MIN (0x1233) +#define P_VDIN_HIST_MAX_MIN (volatile unsigned int *)((0x1233 << 2) + 0xff900000) +//Bit 31:0 hist_spl_rd +//counts for the total luma value +//read only +#define VDIN_HIST_SPL_VAL (0x1234) +#define P_VDIN_HIST_SPL_VAL (volatile unsigned int *)((0x1234 << 2) + 0xff900000) +//Bit 21:0 hist_spl_pixel_count +//counts for the total calculated pixels +//read only +#define VDIN_HIST_SPL_PIX_CNT (0x1235) +#define P_VDIN_HIST_SPL_PIX_CNT (volatile unsigned int *)((0x1235 << 2) + 0xff900000) +//Bit 31:0 hist_chroma_sum +//counts for the total chroma value +//read only +#define VDIN_HIST_CHROMA_SUM (0x1236) +#define P_VDIN_HIST_CHROMA_SUM (volatile unsigned int *)((0x1236 << 2) + 0xff900000) +//Bit 31:16 higher hist bin +//Bit 15:0 lower hist bin +//0-255 are splited to 64 bins evenly, and VDIN_DNLP_HISTXX +//are the statistic number of pixels that within each bin. +//VDIN_DNLP_HIST00[15:0] counts for the first bin +//VDIN_DNLP_HIST00[31:16] counts for the second bin +//VDIN_DNLP_HIST01[15:0] counts for the third bin +//VDIN_DNLP_HIST01[31:16] counts for the fourth bin +//etc... +//read only +#define VDIN_DNLP_HIST00 (0x1237) +#define P_VDIN_DNLP_HIST00 (volatile unsigned int *)((0x1237 << 2) + 0xff900000) +#define VDIN_DNLP_HIST01 (0x1238) +#define P_VDIN_DNLP_HIST01 (volatile unsigned int *)((0x1238 << 2) + 0xff900000) +#define VDIN_DNLP_HIST02 (0x1239) +#define P_VDIN_DNLP_HIST02 (volatile unsigned int *)((0x1239 << 2) + 0xff900000) +#define VDIN_DNLP_HIST03 (0x123a) +#define P_VDIN_DNLP_HIST03 (volatile unsigned int *)((0x123a << 2) + 0xff900000) +#define VDIN_DNLP_HIST04 (0x123b) +#define P_VDIN_DNLP_HIST04 (volatile unsigned int *)((0x123b << 2) + 0xff900000) +#define VDIN_DNLP_HIST05 (0x123c) +#define P_VDIN_DNLP_HIST05 (volatile unsigned int *)((0x123c << 2) + 0xff900000) +#define VDIN_DNLP_HIST06 (0x123d) +#define P_VDIN_DNLP_HIST06 (volatile unsigned int *)((0x123d << 2) + 0xff900000) +#define VDIN_DNLP_HIST07 (0x123e) +#define P_VDIN_DNLP_HIST07 (volatile unsigned int *)((0x123e << 2) + 0xff900000) +#define VDIN_DNLP_HIST08 (0x123f) +#define P_VDIN_DNLP_HIST08 (volatile unsigned int *)((0x123f << 2) + 0xff900000) +#define VDIN_DNLP_HIST09 (0x1240) +#define P_VDIN_DNLP_HIST09 (volatile unsigned int *)((0x1240 << 2) + 0xff900000) +#define VDIN_DNLP_HIST10 (0x1241) +#define P_VDIN_DNLP_HIST10 (volatile unsigned int *)((0x1241 << 2) + 0xff900000) +#define VDIN_DNLP_HIST11 (0x1242) +#define P_VDIN_DNLP_HIST11 (volatile unsigned int *)((0x1242 << 2) + 0xff900000) +#define VDIN_DNLP_HIST12 (0x1243) +#define P_VDIN_DNLP_HIST12 (volatile unsigned int *)((0x1243 << 2) + 0xff900000) +#define VDIN_DNLP_HIST13 (0x1244) +#define P_VDIN_DNLP_HIST13 (volatile unsigned int *)((0x1244 << 2) + 0xff900000) +#define VDIN_DNLP_HIST14 (0x1245) +#define P_VDIN_DNLP_HIST14 (volatile unsigned int *)((0x1245 << 2) + 0xff900000) +#define VDIN_DNLP_HIST15 (0x1246) +#define P_VDIN_DNLP_HIST15 (volatile unsigned int *)((0x1246 << 2) + 0xff900000) +#define VDIN_DNLP_HIST16 (0x1247) +#define P_VDIN_DNLP_HIST16 (volatile unsigned int *)((0x1247 << 2) + 0xff900000) +#define VDIN_DNLP_HIST17 (0x1248) +#define P_VDIN_DNLP_HIST17 (volatile unsigned int *)((0x1248 << 2) + 0xff900000) +#define VDIN_DNLP_HIST18 (0x1249) +#define P_VDIN_DNLP_HIST18 (volatile unsigned int *)((0x1249 << 2) + 0xff900000) +#define VDIN_DNLP_HIST19 (0x124a) +#define P_VDIN_DNLP_HIST19 (volatile unsigned int *)((0x124a << 2) + 0xff900000) +#define VDIN_DNLP_HIST20 (0x124b) +#define P_VDIN_DNLP_HIST20 (volatile unsigned int *)((0x124b << 2) + 0xff900000) +#define VDIN_DNLP_HIST21 (0x124c) +#define P_VDIN_DNLP_HIST21 (volatile unsigned int *)((0x124c << 2) + 0xff900000) +#define VDIN_DNLP_HIST22 (0x124d) +#define P_VDIN_DNLP_HIST22 (volatile unsigned int *)((0x124d << 2) + 0xff900000) +#define VDIN_DNLP_HIST23 (0x124e) +#define P_VDIN_DNLP_HIST23 (volatile unsigned int *)((0x124e << 2) + 0xff900000) +#define VDIN_DNLP_HIST24 (0x124f) +#define P_VDIN_DNLP_HIST24 (volatile unsigned int *)((0x124f << 2) + 0xff900000) +#define VDIN_DNLP_HIST25 (0x1250) +#define P_VDIN_DNLP_HIST25 (volatile unsigned int *)((0x1250 << 2) + 0xff900000) +#define VDIN_DNLP_HIST26 (0x1251) +#define P_VDIN_DNLP_HIST26 (volatile unsigned int *)((0x1251 << 2) + 0xff900000) +#define VDIN_DNLP_HIST27 (0x1252) +#define P_VDIN_DNLP_HIST27 (volatile unsigned int *)((0x1252 << 2) + 0xff900000) +#define VDIN_DNLP_HIST28 (0x1253) +#define P_VDIN_DNLP_HIST28 (volatile unsigned int *)((0x1253 << 2) + 0xff900000) +#define VDIN_DNLP_HIST29 (0x1254) +#define P_VDIN_DNLP_HIST29 (volatile unsigned int *)((0x1254 << 2) + 0xff900000) +#define VDIN_DNLP_HIST30 (0x1255) +#define P_VDIN_DNLP_HIST30 (volatile unsigned int *)((0x1255 << 2) + 0xff900000) +#define VDIN_DNLP_HIST31 (0x1256) +#define P_VDIN_DNLP_HIST31 (volatile unsigned int *)((0x1256 << 2) + 0xff900000) +//Bit 31, local dimming statistic enable +//Bit 28, eol enable +//Bit 27:25, vertical line overlap number for max finding +//Bit 24:22, horizontal pixel overlap number, 0: 17 pix, 1: 9 pix, 2: 5 pix, 3: 3 pix, 4: 0 pix +//Bit 20, 1,2,1 low pass filter enable before max/hist statistic +//Bit 19:16, region H/V position index, refer to VDIN_LDIM_STTS_HIST_SET_REGION +//Bit 15, 1: region read index auto increase per read to VDIN_LDIM_STTS_HIST_READ_REGION +//Bit 6:0, region read index +#define VDIN_LDIM_STTS_HIST_REGION_IDX (0x1257) +#define P_VDIN_LDIM_STTS_HIST_REGION_IDX (volatile unsigned int *)((0x1257 << 2) + 0xff900000) +//Bit 28:0, if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h0: read/write hvstart0 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h1: read/write hend01 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h2: read/write vend01 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h3: read/write hend23 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h4: read/write vend23 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h5: read/write hend45 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h6: read/write vend45 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'd7: read/write hend67 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h8: read/write vend67 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h9: read/write hend89 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'ha: read/write vend89 +//hvstart0, Bit 28:16 row0 vstart, Bit 12:0 col0 hstart +//hend01, Bit 28:16 col1 hend, Bit 12:0 col0 hend +//vend01, Bit 28:16 row1 vend, Bit 12:0 row0 vend +//hend23, Bit 28:16 col3 hend, Bit 12:0 col2 hend +//vend23, Bit 28:16 row3 vend, Bit 12:0 row2 vend +//hend45, Bit 28:16 col5 hend, Bit 12:0 col4 hend +//vend45, Bit 28:16 row5 vend, Bit 12:0 row4 vend +//hend67, Bit 28:16 col7 hend, Bit 12:0 col6 hend +//vend67, Bit 28:16 row7 vend, Bit 12:0 row6 vend +//hend89, Bit 28:16 col9 hend, Bit 12:0 col8 hend +//vend89, Bit 28:16 row9 vend, Bit 12:0 row8 vend +#define VDIN_LDIM_STTS_HIST_SET_REGION (0x1258) +#define P_VDIN_LDIM_STTS_HIST_SET_REGION (volatile unsigned int *)((0x1258 << 2) + 0xff900000) +//REGION STATISTIC DATA READ OUT PORT, bit 29:20 max_comp2, bit 19:10 max_comp1, bit 9:0 max_comp0 +#define VDIN_LDIM_STTS_HIST_READ_REGION (0x1259) +#define P_VDIN_LDIM_STTS_HIST_READ_REGION (volatile unsigned int *)((0x1259 << 2) + 0xff900000) +//Bit 18, reset bit, high active +//Bit 17, if true, widen hs/vs pulse +//Bit 16 vsync total counter always accumulating enable +//Bit 14:12, select hs/vs of video input channel to measure, 0: no selection, 1: vdi1, 2: vid2, 3: vid3, 4:vid4, 5:vdi5, 6:vid6, 7:vdi7, 8: vdi8 +//Bit 11:4, vsync_span, define how many vsync span need to measure +//Bit 2:0 meas_hs_index, index to select which HS counter/range +#define VDIN_MEAS_CTRL0 (0x125a) +#define P_VDIN_MEAS_CTRL0 (volatile unsigned int *)((0x125a << 2) + 0xff900000) +//Read only +//19:16 meas_ind_total_count_n, every number of sync_span vsyncs, this count add 1 +//15:0 high bit portion of vsync total counter +#define VDIN_MEAS_VS_COUNT_HI (0x125b) +#define P_VDIN_MEAS_VS_COUNT_HI (volatile unsigned int *)((0x125b << 2) + 0xff900000) +//Read only +//31:0, low bit portion of vsync total counter +#define VDIN_MEAS_VS_COUNT_LO (0x125c) +#define P_VDIN_MEAS_VS_COUNT_LO (volatile unsigned int *)((0x125c << 2) + 0xff900000) +//according to the meas_hs_index in register VDIN_MEAS_CTRL0 +//meas_hs_index == 0, first hs range +//meas_hs_index == 1, second hs range +//meas_hs_index == 2, third hs range +//meas_hs_index == 3, fourth hs range +//bit 28:16 count_start +//bit 12:0 count_end +#define VDIN_MEAS_HS_RANGE (0x125d) +#define P_VDIN_MEAS_HS_RANGE (volatile unsigned int *)((0x125d << 2) + 0xff900000) +//Read only +//according to the meas_hs_index in register VDIN_MEAS_CTRL0, +//meas_hs_index == 0, first range hs counter, +//meas_hs_index == 1, second range hs coutner +//meas_hs_index == 2, third range hs coutner +//meas_hs_index == 3, fourth range hs coutner +//23:0 +#define VDIN_MEAS_HS_COUNT (0x125e) +#define P_VDIN_MEAS_HS_COUNT (volatile unsigned int *)((0x125e << 2) + 0xff900000) +//Bit 8 white_enable +//Bit 7:0 blkbar_white_level +#define VDIN_BLKBAR_CTRL1 (0x125f) +#define P_VDIN_BLKBAR_CTRL1 (volatile unsigned int *)((0x125f << 2) + 0xff900000) +// Bit 31:24 blkbar_black_level threshold to judge a black point +// Bit 23:21 Reserved +// Bit 20:8 blkbar_hwidth left and right region width +// Bit 7:5 blkbar_comp_sel select yin or uin or vin to be the valid input +// Bit 4 blkbar_sw_statistic_en enable software statistic of each block black points number +// Bit 3 blkbar_det_en +// Bit 2:1 blkbar_din_sel +// bit blkbar_det_top_en +#define VDIN_BLKBAR_CTRL0 (0x1260) +#define P_VDIN_BLKBAR_CTRL0 (volatile unsigned int *)((0x1260 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 blkbar_hstart. Left region start +// Bit 15:13 Reserved +// Bit 12:0 blkbar_hend. Right region end +#define VDIN_BLKBAR_H_START_END (0x1261) +#define P_VDIN_BLKBAR_H_START_END (volatile unsigned int *)((0x1261 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 blkbar_vstart +// Bit 15:13 Reserved +// Bit 12:0 blkbar_vend +#define VDIN_BLKBAR_V_START_END (0x1262) +#define P_VDIN_BLKBAR_V_START_END (volatile unsigned int *)((0x1262 << 2) + 0xff900000) +// Bit 31:20 Reserved +// Bit 19:0 blkbar_cnt_threshold. threshold to judge whether a block is totally black +#define VDIN_BLKBAR_CNT_THRESHOLD (0x1263) +#define P_VDIN_BLKBAR_CNT_THRESHOLD (volatile unsigned int *)((0x1263 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 blkbar_row_th1. //threshold of the top blackbar +// Bit 15:13 Reserved +// bit 12:0 blkbar_row_th2 //threshold of the bottom blackbar +#define VDIN_BLKBAR_ROW_TH1_TH2 (0x1264) +#define P_VDIN_BLKBAR_ROW_TH1_TH2 (volatile unsigned int *)((0x1264 << 2) + 0xff900000) +//Readonly +// Bit 31:29 Reserved +// Bit 28:16 blkbar_ind_left_start. horizontal start of the left region in the current searching +// Bit 15:13 Reserved +// Bit 12:0 blkbar_ind_left_end. horizontal end of the left region in the current searching +#define VDIN_BLKBAR_IND_LEFT_START_END (0x1265) +#define P_VDIN_BLKBAR_IND_LEFT_START_END (volatile unsigned int *)((0x1265 << 2) + 0xff900000) +//Readonly +// Bit 31:29 Reserved +// Bit 28:16 blkbar_ind_right_start.horizontal start of the right region in the current searching +// Bit 15:13 Reserved +// Bit 12:0 blkbar_ind_right_end. horizontal end of the right region in the current searching +#define VDIN_BLKBAR_IND_RIGHT_START_END (0x1266) +#define P_VDIN_BLKBAR_IND_RIGHT_START_END (volatile unsigned int *)((0x1266 << 2) + 0xff900000) +//Readonly +// Bit 31:20 Reserved +// Bit 19:0 blkbar_ind_left1_cnt. Black pixel counter. left part of the left region +#define VDIN_BLKBAR_IND_LEFT1_CNT (0x1267) +#define P_VDIN_BLKBAR_IND_LEFT1_CNT (volatile unsigned int *)((0x1267 << 2) + 0xff900000) +//Readonly +// Bit 31:20 Reserved +// Bit 19:0 blkbar_ind_left2_cnt. Black pixel counter. right part of the left region +#define VDIN_BLKBAR_IND_LEFT2_CNT (0x1268) +#define P_VDIN_BLKBAR_IND_LEFT2_CNT (volatile unsigned int *)((0x1268 << 2) + 0xff900000) +//Readonly +// Bit 31:20 Reserved +// Bit 19:0 blkbar_ind_right1_cnt. Black pixel counter. left part of the right region +#define VDIN_BLKBAR_IND_RIGHT1_CNT (0x1269) +#define P_VDIN_BLKBAR_IND_RIGHT1_CNT (volatile unsigned int *)((0x1269 << 2) + 0xff900000) +//Readonly +// Bit 31:20 Reserved +// Bit 19:0 blkbar_ind_right2_cnt. Black pixel counter. right part of the right region +#define VDIN_BLKBAR_IND_RIGHT2_CNT (0x126a) +#define P_VDIN_BLKBAR_IND_RIGHT2_CNT (volatile unsigned int *)((0x126a << 2) + 0xff900000) +//Readonly +// Bit 31:30 Resersed +// Bit 29 blkbar_ind_black_det_done. LEFT/RIGHT Black detection done +// Bit 28:16 blkbar_top_pos. Top black bar position +// Bit 15:13 Reserved. +// Bit 12:0 blkbar_bot_pos. Bottom black bar position +#define VDIN_BLKBAR_STATUS0 (0x126b) +#define P_VDIN_BLKBAR_STATUS0 (volatile unsigned int *)((0x126b << 2) + 0xff900000) +//Readonly +// Bit 31:29 Reserved +// Bit 28:16 blkbar_left_pos. Left black bar posiont +// Bit 15:13 Reserved +// Bit 12:0 blkbar_right_pos. Right black bar position +#define VDIN_BLKBAR_STATUS1 (0x126c) +#define P_VDIN_BLKBAR_STATUS1 (volatile unsigned int *)((0x126c << 2) + 0xff900000) +//Bit 28:16 input window H start +//Bit 12:0 input window H end +#define VDIN_WIN_H_START_END (0x126d) +#define P_VDIN_WIN_H_START_END (volatile unsigned int *)((0x126d << 2) + 0xff900000) +//Bit 28:16 input window H start +//Bit 12:0 input window V start +#define VDIN_WIN_V_START_END (0x126e) +#define P_VDIN_WIN_V_START_END (volatile unsigned int *)((0x126e << 2) + 0xff900000) +//Bit 23:16 vdi8 asfifo_ctrl +//Bit 15:8 vdi7 asfifo_ctrl +//Bit 7:0 vdi6 asfifo_ctrl +#define VDIN_ASFIFO_CTRL3 (0x126f) +#define P_VDIN_ASFIFO_CTRL3 (volatile unsigned int *)((0x126f << 2) + 0xff900000) +//Bit 3:2 vshrk_clk2_ctrl +//Bit 1:0 vshrk_clk1_ctrl +#define VDIN_COM_GCLK_CTRL2 (0x1270) +#define P_VDIN_COM_GCLK_CTRL2 (volatile unsigned int *)((0x1270 << 2) + 0xff900000) +//Bit 27 vshrk_en +//Bit 26:25 vshrk_mode +//Bit 24 vshrk_lpf_mode +//Bit 23:0 vshrk_dummy +#define VDIN_VSHRK_CTRL (0x1271) +#define P_VDIN_VSHRK_CTRL (volatile unsigned int *)((0x1271 << 2) + 0xff900000) +#define VDIN_DNLP_HIST32 (0x1272) +#define P_VDIN_DNLP_HIST32 (volatile unsigned int *)((0x1272 << 2) + 0xff900000) +//Read only +//Bit 7, vdi9 fifo overflow +//Bit 5:0, vdi9_asfifo_cnt +#define VDIN_COM_STATUS3 (0x1273) +#define P_VDIN_COM_STATUS3 (volatile unsigned int *)((0x1273 << 2) + 0xff900000) +#define VDIN_SYNC_MASK (0x1274) +#define P_VDIN_SYNC_MASK (volatile unsigned int *)((0x1274 << 2) + 0xff900000) +//Bit 7:0, hsync_mask_num +//Bit 15:8, vsync_mask_num +//Bit 16, hsync_mask_enable +//Bit 17, vsync_mask_num +//dolby vdin +#define VDIN_DOLBY_DSC_CTRL0 (0x1275) +#define P_VDIN_DOLBY_DSC_CTRL0 (volatile unsigned int *)((0x1275 << 2) + 0xff900000) +#define VDIN_DOLBY_DSC_CTRL1 (0x1276) +#define P_VDIN_DOLBY_DSC_CTRL1 (volatile unsigned int *)((0x1276 << 2) + 0xff900000) +#define VDIN_DOLBY_DSC_CTRL2 (0x1277) +#define P_VDIN_DOLBY_DSC_CTRL2 (volatile unsigned int *)((0x1277 << 2) + 0xff900000) +#define VDIN_DOLBY_DSC_CTRL3 (0x1278) +#define P_VDIN_DOLBY_DSC_CTRL3 (volatile unsigned int *)((0x1278 << 2) + 0xff900000) +#define VDIN_DOLBY_AXI_CTRL0 (0x1279) +#define P_VDIN_DOLBY_AXI_CTRL0 (volatile unsigned int *)((0x1279 << 2) + 0xff900000) +#define VDIN_DOLBY_AXI_CTRL1 (0x127a) +#define P_VDIN_DOLBY_AXI_CTRL1 (volatile unsigned int *)((0x127a << 2) + 0xff900000) +#define VDIN_DOLBY_AXI_CTRL2 (0x127b) +#define P_VDIN_DOLBY_AXI_CTRL2 (volatile unsigned int *)((0x127b << 2) + 0xff900000) +#define VDIN_DOLBY_AXI_CTRL3 (0x127c) +#define P_VDIN_DOLBY_AXI_CTRL3 (volatile unsigned int *)((0x127c << 2) + 0xff900000) +#define VDIN_DOLBY_DSC_STATUS0 (0x127d) +#define P_VDIN_DOLBY_DSC_STATUS0 (volatile unsigned int *)((0x127d << 2) + 0xff900000) +#define VDIN_DOLBY_DSC_STATUS1 (0x127e) +#define P_VDIN_DOLBY_DSC_STATUS1 (volatile unsigned int *)((0x127e << 2) + 0xff900000) +#define VDIN_DOLBY_DSC_STATUS2 (0x127f) +#define P_VDIN_DOLBY_DSC_STATUS2 (volatile unsigned int *)((0x127f << 2) + 0xff900000) +#define VDIN_DOLBY_DSC_STATUS3 (0x121d) +#define P_VDIN_DOLBY_DSC_STATUS3 (volatile unsigned int *)((0x121d << 2) + 0xff900000) + +//8'h72 occupied by histogram 32 +//VDIN0 8'h00 - 8'h7f +#define VDIN0_SCALE_COEF_IDX ((VDIN0_OFFSET << 2) + VDIN_SCALE_COEF_IDX ) +#define VDIN0_SCALE_COEF ((VDIN0_OFFSET << 2) + VDIN_SCALE_COEF ) +#define VDIN0_COM_CTRL0 ((VDIN0_OFFSET << 2) + VDIN_COM_CTRL0 ) +#define VDIN0_ACTIVE_MAX_PIX_CNT_STATUS ((VDIN0_OFFSET << 2) + VDIN_ACTIVE_MAX_PIX_CNT_STATUS ) +#define VDIN0_LCNT_STATUS ((VDIN0_OFFSET << 2) + VDIN_LCNT_STATUS ) +#define VDIN0_COM_STATUS0 ((VDIN0_OFFSET << 2) + VDIN_COM_STATUS0 ) +#define VDIN0_COM_STATUS1 ((VDIN0_OFFSET << 2) + VDIN_COM_STATUS1 ) +#define VDIN0_LCNT_SHADOW_STATUS ((VDIN0_OFFSET << 2) + VDIN_LCNT_SHADOW_STATUS ) +#define VDIN0_ASFIFO_CTRL0 ((VDIN0_OFFSET << 2) + VDIN_ASFIFO_CTRL0 ) +#define VDIN0_ASFIFO_CTRL1 ((VDIN0_OFFSET << 2) + VDIN_ASFIFO_CTRL1 ) +#define VDIN0_WIDTHM1I_WIDTHM1O ((VDIN0_OFFSET << 2) + VDIN_WIDTHM1I_WIDTHM1O ) +#define VDIN0_SC_MISC_CTRL ((VDIN0_OFFSET << 2) + VDIN_SC_MISC_CTRL ) +#define VDIN0_HSC_PHASE_STEP ((VDIN0_OFFSET << 2) + VDIN_HSC_PHASE_STEP ) +#define VDIN0_HSC_INI_CTRL ((VDIN0_OFFSET << 2) + VDIN_HSC_INI_CTRL ) +#define VDIN0_COM_STATUS2 ((VDIN0_OFFSET << 2) + VDIN_COM_STATUS2 ) +#define VDIN0_COM_STATUS3 ((VDIN0_OFFSET << 2) + VDIN_COM_STATUS3 ) +#define VDIN0_ASFIFO_CTRL2 ((VDIN0_OFFSET << 2) + VDIN_ASFIFO_CTRL2 ) +#define VDIN0_MATRIX_CTRL ((VDIN0_OFFSET << 2) + VDIN_MATRIX_CTRL ) +#define VDIN0_MATRIX_COEF00_01 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_COEF00_01 ) +#define VDIN0_MATRIX_COEF02_10 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_COEF02_10 ) +#define VDIN0_MATRIX_COEF11_12 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_COEF11_12 ) +#define VDIN0_MATRIX_COEF20_21 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_COEF20_21 ) +#define VDIN0_MATRIX_COEF22 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_COEF22 ) +#define VDIN0_MATRIX_OFFSET0_1 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_OFFSET0_1 ) +#define VDIN0_MATRIX_OFFSET2 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_OFFSET2 ) +#define VDIN0_MATRIX_PRE_OFFSET0_1 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_PRE_OFFSET0_1 ) +#define VDIN0_MATRIX_PRE_OFFSET2 ((VDIN0_OFFSET << 2) + VDIN_MATRIX_PRE_OFFSET2 ) +#define VDIN0_LFIFO_CTRL ((VDIN0_OFFSET << 2) + VDIN_LFIFO_CTRL ) +#define VDIN0_COM_GCLK_CTRL ((VDIN0_OFFSET << 2) + VDIN_COM_GCLK_CTRL ) +#define VDIN0_INTF_WIDTHM1 ((VDIN0_OFFSET << 2) + VDIN_INTF_WIDTHM1 ) +#define VDIN0_WR_CTRL2 ((VDIN0_OFFSET << 2) + VDIN_WR_CTRL2 ) +#define VDIN0_WR_CTRL ((VDIN0_OFFSET << 2) + VDIN_WR_CTRL ) +#define VDIN0_WR_H_START_END ((VDIN0_OFFSET << 2) + VDIN_WR_H_START_END ) +#define VDIN0_WR_V_START_END ((VDIN0_OFFSET << 2) + VDIN_WR_V_START_END ) +#define VDIN0_VSC_PHASE_STEP ((VDIN0_OFFSET << 2) + VDIN_VSC_PHASE_STEP ) +#define VDIN0_VSC_INI_CTRL ((VDIN0_OFFSET << 2) + VDIN_VSC_INI_CTRL ) +#define VDIN0_SCIN_HEIGHTM1 ((VDIN0_OFFSET << 2) + VDIN_SCIN_HEIGHTM1 ) +#define VDIN0_DUMMY_DATA ((VDIN0_OFFSET << 2) + VDIN_DUMMY_DATA ) +#define VDIN0_MATRIX_PROBE_COLOR ((VDIN0_OFFSET << 2) + VDIN_MATRIX_PROBE_COLOR ) +#define VDIN0_MATRIX_HL_COLOR ((VDIN0_OFFSET << 2) + VDIN_MATRIX_HL_COLOR ) +#define VDIN0_MATRIX_PROBE_POS ((VDIN0_OFFSET << 2) + VDIN_MATRIX_PROBE_POS ) +#define VDIN0_CHROMA_ADDR_PORT ((VDIN0_OFFSET << 2) + VDIN_CHROMA_ADDR_PORT ) +#define VDIN0_CHROMA_DATA_PORT ((VDIN0_OFFSET << 2) + VDIN_CHROMA_DATA_PORT ) +#define VDIN0_CM_BRI_CON_CTRL ((VDIN0_OFFSET << 2) + VDIN_CM_BRI_CON_CTRL ) +#define VDIN0_HIST_CTRL ((VDIN0_OFFSET << 2) + VDIN_HIST_CTRL ) +#define VDIN0_HIST_H_START_END ((VDIN0_OFFSET << 2) + VDIN_HIST_H_START_END ) +#define VDIN0_HIST_V_START_END ((VDIN0_OFFSET << 2) + VDIN_HIST_V_START_END ) +#define VDIN0_HIST_MAX_MIN ((VDIN0_OFFSET << 2) + VDIN_HIST_MAX_MIN ) +#define VDIN0_HIST_SPL_VAL ((VDIN0_OFFSET << 2) + VDIN_HIST_SPL_VAL ) +#define VDIN0_HIST_SPL_PIX_CNT ((VDIN0_OFFSET << 2) + VDIN_HIST_SPL_PIX_CNT ) +#define VDIN0_HIST_CHROMA_SUM ((VDIN0_OFFSET << 2) + VDIN_HIST_CHROMA_SUM ) +#define VDIN0_DNLP_HIST00 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST00 ) +#define VDIN0_DNLP_HIST01 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST01 ) +#define VDIN0_DNLP_HIST02 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST02 ) +#define VDIN0_DNLP_HIST03 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST03 ) +#define VDIN0_DNLP_HIST04 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST04 ) +#define VDIN0_DNLP_HIST05 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST05 ) +#define VDIN0_DNLP_HIST06 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST06 ) +#define VDIN0_DNLP_HIST07 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST07 ) +#define VDIN0_DNLP_HIST08 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST08 ) +#define VDIN0_DNLP_HIST09 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST09 ) +#define VDIN0_DNLP_HIST10 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST10 ) +#define VDIN0_DNLP_HIST11 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST11 ) +#define VDIN0_DNLP_HIST12 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST12 ) +#define VDIN0_DNLP_HIST13 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST13 ) +#define VDIN0_DNLP_HIST14 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST14 ) +#define VDIN0_DNLP_HIST15 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST15 ) +#define VDIN0_DNLP_HIST16 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST16 ) +#define VDIN0_DNLP_HIST17 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST17 ) +#define VDIN0_DNLP_HIST18 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST18 ) +#define VDIN0_DNLP_HIST19 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST19 ) +#define VDIN0_DNLP_HIST20 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST20 ) +#define VDIN0_DNLP_HIST21 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST21 ) +#define VDIN0_DNLP_HIST22 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST22 ) +#define VDIN0_DNLP_HIST23 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST23 ) +#define VDIN0_DNLP_HIST24 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST24 ) +#define VDIN0_DNLP_HIST25 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST25 ) +#define VDIN0_DNLP_HIST26 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST26 ) +#define VDIN0_DNLP_HIST27 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST27 ) +#define VDIN0_DNLP_HIST28 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST28 ) +#define VDIN0_DNLP_HIST29 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST29 ) +#define VDIN0_DNLP_HIST30 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST30 ) +#define VDIN0_DNLP_HIST31 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST31 ) +#define VDIN0_DNLP_HIST32 ((VDIN0_OFFSET << 2) + VDIN_DNLP_HIST32 ) +#define VDIN0_LDIM_STTS_HIST_REGION_IDX ((VDIN0_OFFSET << 2) + VDIN_LDIM_STTS_HIST_REGION_IDX ) +#define VDIN0_LDIM_STTS_HIST_SET_REGION ((VDIN0_OFFSET << 2) + VDIN_LDIM_STTS_HIST_SET_REGION ) +#define VDIN0_LDIM_STTS_HIST_READ_REGION ((VDIN0_OFFSET << 2) + VDIN_LDIM_STTS_HIST_READ_REGION ) +#define VDIN0_MEAS_CTRL0 ((VDIN0_OFFSET << 2) + VDIN_MEAS_CTRL0 ) +#define VDIN0_MEAS_VS_COUNT_HI ((VDIN0_OFFSET << 2) + VDIN_MEAS_VS_COUNT_HI ) +#define VDIN0_MEAS_VS_COUNT_LO ((VDIN0_OFFSET << 2) + VDIN_MEAS_VS_COUNT_LO ) +#define VDIN0_MEAS_HS_RANGE ((VDIN0_OFFSET << 2) + VDIN_MEAS_HS_RANGE ) +#define VDIN0_MEAS_HS_COUNT ((VDIN0_OFFSET << 2) + VDIN_MEAS_HS_COUNT ) +#define VDIN0_BLKBAR_CTRL1 ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_CTRL1 ) +#define VDIN0_BLKBAR_CTRL0 ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_CTRL0 ) +#define VDIN0_BLKBAR_H_START_END ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_H_START_END ) +#define VDIN0_BLKBAR_V_START_END ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_V_START_END ) +#define VDIN0_BLKBAR_CNT_THRESHOLD ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_CNT_THRESHOLD ) +#define VDIN0_BLKBAR_ROW_TH1_TH2 ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_ROW_TH1_TH2 ) +#define VDIN0_BLKBAR_IND_LEFT_START_END ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_IND_LEFT_START_END ) +#define VDIN0_BLKBAR_IND_RIGHT_START_END ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_IND_RIGHT_START_END ) +#define VDIN0_BLKBAR_IND_LEFT1_CNT ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_IND_LEFT1_CNT ) +#define VDIN0_BLKBAR_IND_LEFT2_CNT ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_IND_LEFT2_CNT ) +#define VDIN0_BLKBAR_IND_RIGHT1_CNT ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_IND_RIGHT1_CNT ) +#define VDIN0_BLKBAR_IND_RIGHT2_CNT ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_IND_RIGHT2_CNT ) +#define VDIN0_BLKBAR_STATUS0 ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_STATUS0 ) +#define VDIN0_BLKBAR_STATUS1 ((VDIN0_OFFSET << 2) + VDIN_BLKBAR_STATUS1 ) +#define VDIN0_WIN_H_START_END ((VDIN0_OFFSET << 2) + VDIN_WIN_H_START_END ) +#define VDIN0_WIN_V_START_END ((VDIN0_OFFSET << 2) + VDIN_WIN_V_START_END ) +#define VDIN0_ASFIFO_CTRL3 ((VDIN0_OFFSET << 2) + VDIN_ASFIFO_CTRL3 ) +#define VDIN0_COM_GCLK_CTRL2 ((VDIN0_OFFSET << 2) + VDIN_COM_GCLK_CTRL2 ) +#define VDIN0_VSHRK_CTRL ((VDIN0_OFFSET << 2) + VDIN_VSHRK_CTRL ) +#define VDIN0_SYNC_MASK ((VDIN0_OFFSET << 2) + VDIN_SYNC_MASK ) +#define VDIN0_DOLBY_DSC_CTRL0 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_DSC_CTRL0 ) +#define VDIN0_DOLBY_DSC_CTRL1 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_DSC_CTRL1 ) +#define VDIN0_DOLBY_DSC_CTRL2 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_DSC_CTRL2 ) +#define VDIN0_DOLBY_DSC_CTRL3 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_DSC_CTRL3 ) +#define VDIN0_DOLBY_AXI_CTRL0 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_AXI_CTRL0 ) +#define VDIN0_DOLBY_AXI_CTRL1 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_AXI_CTRL1 ) +#define VDIN0_DOLBY_AXI_CTRL2 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_AXI_CTRL2 ) +#define VDIN0_DOLBY_AXI_CTRL3 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_AXI_CTRL3 ) +#define VDIN0_DOLBY_DSC_STATUS0 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_DSC_STATUS0) +#define VDIN0_DOLBY_DSC_STATUS1 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_DSC_STATUS1) +#define VDIN0_DOLBY_DSC_STATUS2 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_DSC_STATUS2) +#define VDIN0_DOLBY_DSC_STATUS3 ((VDIN0_OFFSET << 2) + VDIN_DOLBY_DSC_STATUS3) + + +//VDIN1 8'h80 - 8'hef +#define VDIN1_SCALE_COEF_IDX ((VDIN1_OFFSET << 2) + VDIN_SCALE_COEF_IDX ) +#define VDIN1_SCALE_COEF ((VDIN1_OFFSET << 2) + VDIN_SCALE_COEF ) +#define VDIN1_COM_CTRL0 ((VDIN1_OFFSET << 2) + VDIN_COM_CTRL0 ) +#define VDIN1_ACTIVE_MAX_PIX_CNT_STATUS ((VDIN1_OFFSET << 2) + VDIN_ACTIVE_MAX_PIX_CNT_STATUS ) +#define VDIN1_LCNT_STATUS ((VDIN1_OFFSET << 2) + VDIN_LCNT_STATUS ) +#define VDIN1_COM_STATUS0 ((VDIN1_OFFSET << 2) + VDIN_COM_STATUS0 ) +#define VDIN1_COM_STATUS1 ((VDIN1_OFFSET << 2) + VDIN_COM_STATUS1 ) +#define VDIN1_LCNT_SHADOW_STATUS ((VDIN1_OFFSET << 2) + VDIN_LCNT_SHADOW_STATUS ) +#define VDIN1_ASFIFO_CTRL0 ((VDIN1_OFFSET << 2) + VDIN_ASFIFO_CTRL0 ) +#define VDIN1_ASFIFO_CTRL1 ((VDIN1_OFFSET << 2) + VDIN_ASFIFO_CTRL1 ) +#define VDIN1_WIDTHM1I_WIDTHM1O ((VDIN1_OFFSET << 2) + VDIN_WIDTHM1I_WIDTHM1O ) +#define VDIN1_SC_MISC_CTRL ((VDIN1_OFFSET << 2) + VDIN_SC_MISC_CTRL ) +#define VDIN1_HSC_PHASE_STEP ((VDIN1_OFFSET << 2) + VDIN_HSC_PHASE_STEP ) +#define VDIN1_HSC_INI_CTRL ((VDIN1_OFFSET << 2) + VDIN_HSC_INI_CTRL ) +#define VDIN1_COM_STATUS2 ((VDIN1_OFFSET << 2) + VDIN_COM_STATUS2 ) +#define VDIN1_COM_STATUS3 ((VDIN1_OFFSET << 2) + VDIN_COM_STATUS3 ) +#define VDIN1_ASFIFO_CTRL2 ((VDIN1_OFFSET << 2) + VDIN_ASFIFO_CTRL2 ) +#define VDIN1_MATRIX_CTRL ((VDIN1_OFFSET << 2) + VDIN_MATRIX_CTRL ) +#define VDIN1_MATRIX_COEF00_01 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_COEF00_01 ) +#define VDIN1_MATRIX_COEF02_10 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_COEF02_10 ) +#define VDIN1_MATRIX_COEF11_12 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_COEF11_12 ) +#define VDIN1_MATRIX_COEF20_21 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_COEF20_21 ) +#define VDIN1_MATRIX_COEF22 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_COEF22 ) +#define VDIN1_MATRIX_OFFSET0_1 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_OFFSET0_1 ) +#define VDIN1_MATRIX_OFFSET2 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_OFFSET2 ) +#define VDIN1_MATRIX_PRE_OFFSET0_1 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_PRE_OFFSET0_1 ) +#define VDIN1_MATRIX_PRE_OFFSET2 ((VDIN1_OFFSET << 2) + VDIN_MATRIX_PRE_OFFSET2 ) +#define VDIN1_LFIFO_CTRL ((VDIN1_OFFSET << 2) + VDIN_LFIFO_CTRL ) +#define VDIN1_COM_GCLK_CTRL ((VDIN1_OFFSET << 2) + VDIN_COM_GCLK_CTRL ) +#define VDIN1_INTF_WIDTHM1 ((VDIN1_OFFSET << 2) + VDIN_INTF_WIDTHM1 ) +#define VDIN1_WR_CTRL2 ((VDIN1_OFFSET << 2) + VDIN_WR_CTRL2 ) +#define VDIN1_WR_CTRL ((VDIN1_OFFSET << 2) + VDIN_WR_CTRL ) +#define VDIN1_WR_H_START_END ((VDIN1_OFFSET << 2) + VDIN_WR_H_START_END ) +#define VDIN1_WR_V_START_END ((VDIN1_OFFSET << 2) + VDIN_WR_V_START_END ) +#define VDIN1_VSC_PHASE_STEP ((VDIN1_OFFSET << 2) + VDIN_VSC_PHASE_STEP ) +#define VDIN1_VSC_INI_CTRL ((VDIN1_OFFSET << 2) + VDIN_VSC_INI_CTRL ) +#define VDIN1_SCIN_HEIGHTM1 ((VDIN1_OFFSET << 2) + VDIN_SCIN_HEIGHTM1 ) +#define VDIN1_DUMMY_DATA ((VDIN1_OFFSET << 2) + VDIN_DUMMY_DATA ) +#define VDIN1_MATRIX_PROBE_COLOR ((VDIN1_OFFSET << 2) + VDIN_MATRIX_PROBE_COLOR ) +#define VDIN1_MATRIX_HL_COLOR ((VDIN1_OFFSET << 2) + VDIN_MATRIX_HL_COLOR ) +#define VDIN1_MATRIX_PROBE_POS ((VDIN1_OFFSET << 2) + VDIN_MATRIX_PROBE_POS ) +#define VDIN1_CHROMA_ADDR_PORT ((VDIN1_OFFSET << 2) + VDIN_CHROMA_ADDR_PORT ) +#define VDIN1_CHROMA_DATA_PORT ((VDIN1_OFFSET << 2) + VDIN_CHROMA_DATA_PORT ) +#define VDIN1_CM_BRI_CON_CTRL ((VDIN1_OFFSET << 2) + VDIN_CM_BRI_CON_CTRL ) +#define VDIN1_HIST_CTRL ((VDIN1_OFFSET << 2) + VDIN_HIST_CTRL ) +#define VDIN1_HIST_H_START_END ((VDIN1_OFFSET << 2) + VDIN_HIST_H_START_END ) +#define VDIN1_HIST_V_START_END ((VDIN1_OFFSET << 2) + VDIN_HIST_V_START_END ) +#define VDIN1_HIST_MAX_MIN ((VDIN1_OFFSET << 2) + VDIN_HIST_MAX_MIN ) +#define VDIN1_HIST_SPL_VAL ((VDIN1_OFFSET << 2) + VDIN_HIST_SPL_VAL ) +#define VDIN1_HIST_SPL_PIX_CNT ((VDIN1_OFFSET << 2) + VDIN_HIST_SPL_PIX_CNT ) +#define VDIN1_HIST_CHROMA_SUM ((VDIN1_OFFSET << 2) + VDIN_HIST_CHROMA_SUM ) +#define VDIN1_DNLP_HIST00 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST00 ) +#define VDIN1_DNLP_HIST01 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST01 ) +#define VDIN1_DNLP_HIST02 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST02 ) +#define VDIN1_DNLP_HIST03 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST03 ) +#define VDIN1_DNLP_HIST04 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST04 ) +#define VDIN1_DNLP_HIST05 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST05 ) +#define VDIN1_DNLP_HIST06 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST06 ) +#define VDIN1_DNLP_HIST07 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST07 ) +#define VDIN1_DNLP_HIST08 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST08 ) +#define VDIN1_DNLP_HIST09 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST09 ) +#define VDIN1_DNLP_HIST10 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST10 ) +#define VDIN1_DNLP_HIST11 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST11 ) +#define VDIN1_DNLP_HIST12 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST12 ) +#define VDIN1_DNLP_HIST13 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST13 ) +#define VDIN1_DNLP_HIST14 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST14 ) +#define VDIN1_DNLP_HIST15 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST15 ) +#define VDIN1_DNLP_HIST16 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST16 ) +#define VDIN1_DNLP_HIST17 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST17 ) +#define VDIN1_DNLP_HIST18 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST18 ) +#define VDIN1_DNLP_HIST19 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST19 ) +#define VDIN1_DNLP_HIST20 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST20 ) +#define VDIN1_DNLP_HIST21 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST21 ) +#define VDIN1_DNLP_HIST22 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST22 ) +#define VDIN1_DNLP_HIST23 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST23 ) +#define VDIN1_DNLP_HIST24 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST24 ) +#define VDIN1_DNLP_HIST25 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST25 ) +#define VDIN1_DNLP_HIST26 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST26 ) +#define VDIN1_DNLP_HIST27 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST27 ) +#define VDIN1_DNLP_HIST28 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST28 ) +#define VDIN1_DNLP_HIST29 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST29 ) +#define VDIN1_DNLP_HIST30 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST30 ) +#define VDIN1_DNLP_HIST31 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST31 ) +#define VDIN1_DNLP_HIST32 ((VDIN1_OFFSET << 2) + VDIN_DNLP_HIST32 ) +#define VDIN1_LDIM_STTS_HIST_REGION_IDX ((VDIN1_OFFSET << 2) + VDIN_LDIM_STTS_HIST_REGION_IDX ) +#define VDIN1_LDIM_STTS_HIST_SET_REGION ((VDIN1_OFFSET << 2) + VDIN_LDIM_STTS_HIST_SET_REGION ) +#define VDIN1_LDIM_STTS_HIST_READ_REGION ((VDIN1_OFFSET << 2) + VDIN_LDIM_STTS_HIST_READ_REGION ) +#define VDIN1_MEAS_CTRL0 ((VDIN1_OFFSET << 2) + VDIN_MEAS_CTRL0 ) +#define VDIN1_MEAS_VS_COUNT_HI ((VDIN1_OFFSET << 2) + VDIN_MEAS_VS_COUNT_HI ) +#define VDIN1_MEAS_VS_COUNT_LO ((VDIN1_OFFSET << 2) + VDIN_MEAS_VS_COUNT_LO ) +#define VDIN1_MEAS_HS_RANGE ((VDIN1_OFFSET << 2) + VDIN_MEAS_HS_RANGE ) +#define VDIN1_MEAS_HS_COUNT ((VDIN1_OFFSET << 2) + VDIN_MEAS_HS_COUNT ) +#define VDIN1_BLKBAR_CTRL1 ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_CTRL1 ) +#define VDIN1_BLKBAR_CTRL0 ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_CTRL0 ) +#define VDIN1_BLKBAR_H_START_END ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_H_START_END ) +#define VDIN1_BLKBAR_V_START_END ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_V_START_END ) +#define VDIN1_BLKBAR_CNT_THRESHOLD ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_CNT_THRESHOLD ) +#define VDIN1_BLKBAR_ROW_TH1_TH2 ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_ROW_TH1_TH2 ) +#define VDIN1_BLKBAR_IND_LEFT_START_END ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_IND_LEFT_START_END ) +#define VDIN1_BLKBAR_IND_RIGHT_START_END ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_IND_RIGHT_START_END ) +#define VDIN1_BLKBAR_IND_LEFT1_CNT ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_IND_LEFT1_CNT ) +#define VDIN1_BLKBAR_IND_LEFT2_CNT ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_IND_LEFT2_CNT ) +#define VDIN1_BLKBAR_IND_RIGHT1_CNT ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_IND_RIGHT1_CNT ) +#define VDIN1_BLKBAR_IND_RIGHT2_CNT ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_IND_RIGHT2_CNT ) +#define VDIN1_BLKBAR_STATUS0 ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_STATUS0 ) +#define VDIN1_BLKBAR_STATUS1 ((VDIN1_OFFSET << 2) + VDIN_BLKBAR_STATUS1 ) +#define VDIN1_WIN_H_START_END ((VDIN1_OFFSET << 2) + VDIN_WIN_H_START_END ) +#define VDIN1_WIN_V_START_END ((VDIN1_OFFSET << 2) + VDIN_WIN_V_START_END ) +#define VDIN1_ASFIFO_CTRL3 ((VDIN1_OFFSET << 2) + VDIN_ASFIFO_CTRL3 ) +#define VDIN1_COM_GCLK_CTRL2 ((VDIN1_OFFSET << 2) + VDIN_COM_GCLK_CTRL2 ) +#define VDIN1_VSHRK_CTRL ((VDIN1_OFFSET << 2) + VDIN_VSHRK_CTRL ) +#define VDIN1_SYNC_MASK ((VDIN1_OFFSET << 2) + VDIN_SYNC_MASK ) +#define VDIN1_DOLBY_DSC_CTRL0 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_DSC_CTRL0 ) +#define VDIN1_DOLBY_DSC_CTRL1 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_DSC_CTRL1 ) +#define VDIN1_DOLBY_DSC_CTRL2 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_DSC_CTRL2 ) +#define VDIN1_DOLBY_DSC_CTRL3 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_DSC_CTRL3 ) +#define VDIN1_DOLBY_AXI_CTRL0 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_AXI_CTRL0 ) +#define VDIN1_DOLBY_AXI_CTRL1 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_AXI_CTRL1 ) +#define VDIN1_DOLBY_AXI_CTRL2 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_AXI_CTRL2 ) +#define VDIN1_DOLBY_AXI_CTRL3 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_AXI_CTRL3 ) +#define VDIN1_DOLBY_DSC_STATUS0 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_DSC_STATUS0) +#define VDIN1_DOLBY_DSC_STATUS1 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_DSC_STATUS1) +#define VDIN1_DOLBY_DSC_STATUS2 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_DSC_STATUS2) +#define VDIN1_DOLBY_DSC_STATUS3 ((VDIN1_OFFSET << 2) + VDIN_DOLBY_DSC_STATUS3) + +//`define LCD_VCBUS_BASE 8'h14 +// +// Reading file: lcd_regs.h +// +// ----------------------------------------------- +// CBUS_BASE: LCD_VCBUS_BASE = 0x14 +// ----------------------------------------------- +//======================================================================== +//LCD DRV 12'h480~12'h4ef +//======================================================================= +#define L_GAMMA_CNTL_PORT (0x1400) +#define P_L_GAMMA_CNTL_PORT (volatile unsigned int *)((0x1400 << 2) + 0xff900000) +#define L_GAMMA_DATA_PORT (0x1401) +#define P_L_GAMMA_DATA_PORT (volatile unsigned int *)((0x1401 << 2) + 0xff900000) +#define L_GAMMA_ADDR_PORT (0x1402) +#define P_L_GAMMA_ADDR_PORT (volatile unsigned int *)((0x1402 << 2) + 0xff900000) +#define L_GAMMA_VCOM_HSWITCH_ADDR (0x1403) +#define P_L_GAMMA_VCOM_HSWITCH_ADDR (volatile unsigned int *)((0x1403 << 2) + 0xff900000) +#define L_RGB_BASE_ADDR (0x1405) +#define P_L_RGB_BASE_ADDR (volatile unsigned int *)((0x1405 << 2) + 0xff900000) +#define L_RGB_COEFF_ADDR (0x1406) +#define P_L_RGB_COEFF_ADDR (volatile unsigned int *)((0x1406 << 2) + 0xff900000) +#define L_POL_CNTL_ADDR (0x1407) +#define P_L_POL_CNTL_ADDR (volatile unsigned int *)((0x1407 << 2) + 0xff900000) +#define L_DITH_CNTL_ADDR (0x1408) +#define P_L_DITH_CNTL_ADDR (volatile unsigned int *)((0x1408 << 2) + 0xff900000) +#define L_GAMMA_PROBE_CTRL (0x1409) +#define P_L_GAMMA_PROBE_CTRL (volatile unsigned int *)((0x1409 << 2) + 0xff900000) +//read only +#define L_GAMMA_PROBE_COLOR_L (0x140a) +#define P_L_GAMMA_PROBE_COLOR_L (volatile unsigned int *)((0x140a << 2) + 0xff900000) +#define L_GAMMA_PROBE_COLOR_H (0x140b) +#define P_L_GAMMA_PROBE_COLOR_H (volatile unsigned int *)((0x140b << 2) + 0xff900000) +#define L_GAMMA_PROBE_HL_COLOR (0x140c) +#define P_L_GAMMA_PROBE_HL_COLOR (volatile unsigned int *)((0x140c << 2) + 0xff900000) +#define L_GAMMA_PROBE_POS_X (0x140d) +#define P_L_GAMMA_PROBE_POS_X (volatile unsigned int *)((0x140d << 2) + 0xff900000) +#define L_GAMMA_PROBE_POS_Y (0x140e) +#define P_L_GAMMA_PROBE_POS_Y (volatile unsigned int *)((0x140e << 2) + 0xff900000) +#define L_STH1_HS_ADDR (0x1410) +#define P_L_STH1_HS_ADDR (volatile unsigned int *)((0x1410 << 2) + 0xff900000) +#define L_STH1_HE_ADDR (0x1411) +#define P_L_STH1_HE_ADDR (volatile unsigned int *)((0x1411 << 2) + 0xff900000) +#define L_STH1_VS_ADDR (0x1412) +#define P_L_STH1_VS_ADDR (volatile unsigned int *)((0x1412 << 2) + 0xff900000) +#define L_STH1_VE_ADDR (0x1413) +#define P_L_STH1_VE_ADDR (volatile unsigned int *)((0x1413 << 2) + 0xff900000) +#define L_STH2_HS_ADDR (0x1414) +#define P_L_STH2_HS_ADDR (volatile unsigned int *)((0x1414 << 2) + 0xff900000) +#define L_STH2_HE_ADDR (0x1415) +#define P_L_STH2_HE_ADDR (volatile unsigned int *)((0x1415 << 2) + 0xff900000) +#define L_STH2_VS_ADDR (0x1416) +#define P_L_STH2_VS_ADDR (volatile unsigned int *)((0x1416 << 2) + 0xff900000) +#define L_STH2_VE_ADDR (0x1417) +#define P_L_STH2_VE_ADDR (volatile unsigned int *)((0x1417 << 2) + 0xff900000) +#define L_OEH_HS_ADDR (0x1418) +#define P_L_OEH_HS_ADDR (volatile unsigned int *)((0x1418 << 2) + 0xff900000) +#define L_OEH_HE_ADDR (0x1419) +#define P_L_OEH_HE_ADDR (volatile unsigned int *)((0x1419 << 2) + 0xff900000) +#define L_OEH_VS_ADDR (0x141a) +#define P_L_OEH_VS_ADDR (volatile unsigned int *)((0x141a << 2) + 0xff900000) +#define L_OEH_VE_ADDR (0x141b) +#define P_L_OEH_VE_ADDR (volatile unsigned int *)((0x141b << 2) + 0xff900000) +#define L_VCOM_HSWITCH_ADDR (0x141c) +#define P_L_VCOM_HSWITCH_ADDR (volatile unsigned int *)((0x141c << 2) + 0xff900000) +#define L_VCOM_VS_ADDR (0x141d) +#define P_L_VCOM_VS_ADDR (volatile unsigned int *)((0x141d << 2) + 0xff900000) +#define L_VCOM_VE_ADDR (0x141e) +#define P_L_VCOM_VE_ADDR (volatile unsigned int *)((0x141e << 2) + 0xff900000) +#define L_CPV1_HS_ADDR (0x141f) +#define P_L_CPV1_HS_ADDR (volatile unsigned int *)((0x141f << 2) + 0xff900000) +#define L_CPV1_HE_ADDR (0x1420) +#define P_L_CPV1_HE_ADDR (volatile unsigned int *)((0x1420 << 2) + 0xff900000) +#define L_CPV1_VS_ADDR (0x1421) +#define P_L_CPV1_VS_ADDR (volatile unsigned int *)((0x1421 << 2) + 0xff900000) +#define L_CPV1_VE_ADDR (0x1422) +#define P_L_CPV1_VE_ADDR (volatile unsigned int *)((0x1422 << 2) + 0xff900000) +#define L_CPV2_HS_ADDR (0x1423) +#define P_L_CPV2_HS_ADDR (volatile unsigned int *)((0x1423 << 2) + 0xff900000) +#define L_CPV2_HE_ADDR (0x1424) +#define P_L_CPV2_HE_ADDR (volatile unsigned int *)((0x1424 << 2) + 0xff900000) +#define L_CPV2_VS_ADDR (0x1425) +#define P_L_CPV2_VS_ADDR (volatile unsigned int *)((0x1425 << 2) + 0xff900000) +#define L_CPV2_VE_ADDR (0x1426) +#define P_L_CPV2_VE_ADDR (volatile unsigned int *)((0x1426 << 2) + 0xff900000) +#define L_STV1_HS_ADDR (0x1427) +#define P_L_STV1_HS_ADDR (volatile unsigned int *)((0x1427 << 2) + 0xff900000) +#define L_STV1_HE_ADDR (0x1428) +#define P_L_STV1_HE_ADDR (volatile unsigned int *)((0x1428 << 2) + 0xff900000) +#define L_STV1_VS_ADDR (0x1429) +#define P_L_STV1_VS_ADDR (volatile unsigned int *)((0x1429 << 2) + 0xff900000) +#define L_STV1_VE_ADDR (0x142a) +#define P_L_STV1_VE_ADDR (volatile unsigned int *)((0x142a << 2) + 0xff900000) +#define L_STV2_HS_ADDR (0x142b) +#define P_L_STV2_HS_ADDR (volatile unsigned int *)((0x142b << 2) + 0xff900000) +#define L_STV2_HE_ADDR (0x142c) +#define P_L_STV2_HE_ADDR (volatile unsigned int *)((0x142c << 2) + 0xff900000) +#define L_STV2_VS_ADDR (0x142d) +#define P_L_STV2_VS_ADDR (volatile unsigned int *)((0x142d << 2) + 0xff900000) +#define L_STV2_VE_ADDR (0x142e) +#define P_L_STV2_VE_ADDR (volatile unsigned int *)((0x142e << 2) + 0xff900000) +#define L_OEV1_HS_ADDR (0x142f) +#define P_L_OEV1_HS_ADDR (volatile unsigned int *)((0x142f << 2) + 0xff900000) +#define L_OEV1_HE_ADDR (0x1430) +#define P_L_OEV1_HE_ADDR (volatile unsigned int *)((0x1430 << 2) + 0xff900000) +#define L_OEV1_VS_ADDR (0x1431) +#define P_L_OEV1_VS_ADDR (volatile unsigned int *)((0x1431 << 2) + 0xff900000) +#define L_OEV1_VE_ADDR (0x1432) +#define P_L_OEV1_VE_ADDR (volatile unsigned int *)((0x1432 << 2) + 0xff900000) +#define L_OEV2_HS_ADDR (0x1433) +#define P_L_OEV2_HS_ADDR (volatile unsigned int *)((0x1433 << 2) + 0xff900000) +#define L_OEV2_HE_ADDR (0x1434) +#define P_L_OEV2_HE_ADDR (volatile unsigned int *)((0x1434 << 2) + 0xff900000) +#define L_OEV2_VS_ADDR (0x1435) +#define P_L_OEV2_VS_ADDR (volatile unsigned int *)((0x1435 << 2) + 0xff900000) +#define L_OEV2_VE_ADDR (0x1436) +#define P_L_OEV2_VE_ADDR (volatile unsigned int *)((0x1436 << 2) + 0xff900000) +#define L_OEV3_HS_ADDR (0x1437) +#define P_L_OEV3_HS_ADDR (volatile unsigned int *)((0x1437 << 2) + 0xff900000) +#define L_OEV3_HE_ADDR (0x1438) +#define P_L_OEV3_HE_ADDR (volatile unsigned int *)((0x1438 << 2) + 0xff900000) +#define L_OEV3_VS_ADDR (0x1439) +#define P_L_OEV3_VS_ADDR (volatile unsigned int *)((0x1439 << 2) + 0xff900000) +#define L_OEV3_VE_ADDR (0x143a) +#define P_L_OEV3_VE_ADDR (volatile unsigned int *)((0x143a << 2) + 0xff900000) +#define L_LCD_PWR_ADDR (0x143b) +#define P_L_LCD_PWR_ADDR (volatile unsigned int *)((0x143b << 2) + 0xff900000) +#define L_LCD_PWM0_LO_ADDR (0x143c) +#define P_L_LCD_PWM0_LO_ADDR (volatile unsigned int *)((0x143c << 2) + 0xff900000) +#define L_LCD_PWM0_HI_ADDR (0x143d) +#define P_L_LCD_PWM0_HI_ADDR (volatile unsigned int *)((0x143d << 2) + 0xff900000) +#define L_LCD_PWM1_LO_ADDR (0x143e) +#define P_L_LCD_PWM1_LO_ADDR (volatile unsigned int *)((0x143e << 2) + 0xff900000) +#define L_LCD_PWM1_HI_ADDR (0x143f) +#define P_L_LCD_PWM1_HI_ADDR (volatile unsigned int *)((0x143f << 2) + 0xff900000) +#define L_INV_CNT_ADDR (0x1440) +#define P_L_INV_CNT_ADDR (volatile unsigned int *)((0x1440 << 2) + 0xff900000) +#define L_TCON_MISC_SEL_ADDR (0x1441) +#define P_L_TCON_MISC_SEL_ADDR (volatile unsigned int *)((0x1441 << 2) + 0xff900000) +#define L_DUAL_PORT_CNTL_ADDR (0x1442) +#define P_L_DUAL_PORT_CNTL_ADDR (volatile unsigned int *)((0x1442 << 2) + 0xff900000) +#define MLVDS_CLK_CTL1_HI (0x1443) +#define P_MLVDS_CLK_CTL1_HI (volatile unsigned int *)((0x1443 << 2) + 0xff900000) +#define MLVDS_CLK_CTL1_LO (0x1444) +#define P_MLVDS_CLK_CTL1_LO (volatile unsigned int *)((0x1444 << 2) + 0xff900000) +// [31:30] enable mlvds clocks +// [24] mlvds_clk_half_delay 24 // Bit 0 +// [23:0] mlvds_clk_pattern 0 // Bit 23:0 +#define L_TCON_DOUBLE_CTL (0x1449) +#define P_L_TCON_DOUBLE_CTL (volatile unsigned int *)((0x1449 << 2) + 0xff900000) +#define L_TCON_PATTERN_HI (0x144a) +#define P_L_TCON_PATTERN_HI (volatile unsigned int *)((0x144a << 2) + 0xff900000) +#define L_TCON_PATTERN_LO (0x144b) +#define P_L_TCON_PATTERN_LO (volatile unsigned int *)((0x144b << 2) + 0xff900000) +#define LDIM_BL_ADDR_PORT (0x144e) +#define P_LDIM_BL_ADDR_PORT (volatile unsigned int *)((0x144e << 2) + 0xff900000) +#define LDIM_BL_DATA_PORT (0x144f) +#define P_LDIM_BL_DATA_PORT (volatile unsigned int *)((0x144f << 2) + 0xff900000) +#define L_DE_HS_ADDR (0x1451) +#define P_L_DE_HS_ADDR (volatile unsigned int *)((0x1451 << 2) + 0xff900000) +#define L_DE_HE_ADDR (0x1452) +#define P_L_DE_HE_ADDR (volatile unsigned int *)((0x1452 << 2) + 0xff900000) +#define L_DE_VS_ADDR (0x1453) +#define P_L_DE_VS_ADDR (volatile unsigned int *)((0x1453 << 2) + 0xff900000) +#define L_DE_VE_ADDR (0x1454) +#define P_L_DE_VE_ADDR (volatile unsigned int *)((0x1454 << 2) + 0xff900000) +#define L_HSYNC_HS_ADDR (0x1455) +#define P_L_HSYNC_HS_ADDR (volatile unsigned int *)((0x1455 << 2) + 0xff900000) +#define L_HSYNC_HE_ADDR (0x1456) +#define P_L_HSYNC_HE_ADDR (volatile unsigned int *)((0x1456 << 2) + 0xff900000) +#define L_HSYNC_VS_ADDR (0x1457) +#define P_L_HSYNC_VS_ADDR (volatile unsigned int *)((0x1457 << 2) + 0xff900000) +#define L_HSYNC_VE_ADDR (0x1458) +#define P_L_HSYNC_VE_ADDR (volatile unsigned int *)((0x1458 << 2) + 0xff900000) +#define L_VSYNC_HS_ADDR (0x1459) +#define P_L_VSYNC_HS_ADDR (volatile unsigned int *)((0x1459 << 2) + 0xff900000) +#define L_VSYNC_HE_ADDR (0x145a) +#define P_L_VSYNC_HE_ADDR (volatile unsigned int *)((0x145a << 2) + 0xff900000) +#define L_VSYNC_VS_ADDR (0x145b) +#define P_L_VSYNC_VS_ADDR (volatile unsigned int *)((0x145b << 2) + 0xff900000) +#define L_VSYNC_VE_ADDR (0x145c) +#define P_L_VSYNC_VE_ADDR (volatile unsigned int *)((0x145c << 2) + 0xff900000) +// bit 8 -- vfifo_mcu_enable +// bit 7 -- halt_vs_de +// bit 6 -- R8G8B8_format +// bit 5 -- R6G6B6_format (round to 6 bits) +// bit 4 -- R5G6B5_format +// bit 3 -- dac_dith_sel +// bit 2 -- lcd_mcu_enable_de -- ReadOnly +// bit 1 -- lcd_mcu_enable_vsync -- ReadOnly +// bit 0 -- lcd_mcu_enable +#define L_LCD_MCU_CTL (0x145d) +#define P_L_LCD_MCU_CTL (volatile unsigned int *)((0x145d << 2) + 0xff900000) +//************************************************************************** +//* Dual port mLVDS registers +//************************************************************************** +// bit 3 - enable_u_dual_mlvds_dp_clk +// bit 2 - enable_u_map_mlvds_r_clk +// bit 1 - enable_u_map_mlvds_l_clk +// bit 0 - dual_mlvds_en +//`define DUAL_MLVDS_CTL 8'h60 +// bit[12:0] - dual_mlvds_line_start +//`define DUAL_MLVDS_LINE_START 8'h61 +// bit[12:0] - dual_mlvds_line_end +//`define DUAL_MLVDS_LINE_END 8'h62 +// bit[12:0] - dual_mlvds_w_pixel_start_l +//`define DUAL_MLVDS_PIXEL_W_START_L 8'h63 +// bit[12:0] - dual_mlvds_w_pixel_end_l +//`define DUAL_MLVDS_PIXEL_W_END_L 8'h64 +// bit[12:0] - dual_mlvds_w_pixel_start_r +//`define DUAL_MLVDS_PIXEL_W_START_R 8'h65 +// bit[12:0] - dual_mlvds_w_pixel_end_r +//`define DUAL_MLVDS_PIXEL_W_END_R 8'h66 +// bit[12:0] - dual_mlvds_r_pixel_start_l +//`define DUAL_MLVDS_PIXEL_R_START_L 8'h67 +// bit[12:0] - dual_mlvds_r_pixel_cnt_l +//`define DUAL_MLVDS_PIXEL_R_CNT_L 8'h68 +// bit[12:0] - dual_mlvds_r_pixel_start_r +//`define DUAL_MLVDS_PIXEL_R_START_R 8'h69 +// bit[12:0] - dual_mlvds_r_pixel_cnt_r +//`define DUAL_MLVDS_PIXEL_R_CNT_R 8'h6a +// bit[15] - v_inversion_en +// bit[12:0] - v_inversion_pixel +//`define V_INVERSION_PIXEL 8'h70 +// bit[15] - v_inversion_sync_en +// bit[12:0] - v_inversion_line +//`define V_INVERSION_LINE 8'h71 +// bit[15:12] - v_loop_r +// bit[11:10] - v_pattern_1_r +// bit[9:8] - v_pattern_0_r +// bit[7:4] - v_loop_l +// bit[3:2] - v_pattern_1_l +// bit[1:0] - v_pattern_0_l +//`define V_INVERSION_CONTROL 8'h72 +//`define MLVDS2_CONTROL 8'h74 + #define mLVDS2_RESERVED 15 // 15 + #define mLVDS2_double_pattern 14 // 14 + #define mLVDS2_ins_reset 8 // 13:8 // each channel has one bit + #define mLVDS2_dual_gate 7 + #define mLVDS2_bit_num 6 // 0-6Bits, 1-8Bits + #define mLVDS2_pair_num 5 // 0-3Pairs, 1-6Pairs + #define mLVDS2_msb_first 4 + #define mLVDS2_PORT_SWAP 3 + #define mLVDS2_MLSB_SWAP 2 + #define mLVDS2_PN_SWAP 1 + #define mLVDS2_en 0 +//`define MLVDS2_CONFIG_HI 8'h75 +//`define MLVDS2_CONFIG_LO 8'h76 + #define mLVDS2_reset_offset 29 // Bit 31:29 + #define mLVDS2_reset_length 23 // Bit 28:23 + #define mLVDS2_config_reserved 20 // Bit 22:20 + #define mLVDS2_reset_start_bit12 19 // Bit 19 + #define mLVDS2_data_write_toggle 18 + #define mLVDS2_data_write_ini 17 + #define mLVDS2_data_latch_1_toggle 16 + #define mLVDS2_data_latch_1_ini 15 + #define mLVDS2_data_latch_0_toggle 14 + #define mLVDS2_data_latch_0_ini 13 + #define mLVDS2_reset_1_select 12 // 0 - same as reset_0, 1 - 1 clock delay of reset_0 + #define mLVDS2_reset_start 0 // Bit 11:0 +//`define MLVDS2_DUAL_GATE_WR_START 8'h77 +// `define mlvds2_dual_gate_wr_start 0 // Bit 12:0 +//`define MLVDS2_DUAL_GATE_WR_END 8'h78 +// `define mlvds2_dual_gate_wr_end 0 // Bit 12:0 +// +//`define MLVDS2_DUAL_GATE_RD_START 8'h79 +// `define mlvds2_dual_gate_rd_start 0 // Bit 12:0 +//`define MLVDS2_DUAL_GATE_RD_END 8'h7a +// `define mlvds2_dual_gate_rd_end 0 // Bit 12:0 +//`define MLVDS2_SECOND_RESET_CTL 8'h7b +// `define mLVDS2_2nd_reset_start 0 // Bit 12:0 +// +//`define MLVDS2_DUAL_GATE_CTL_HI 8'h7c +//`define MLVDS2_DUAL_GATE_CTL_LO 8'h7d +// `define mlvds2_tcon_field_en 24 // Bit 7:0 +// `define mlvds2_dual_gate_reserved 21 // Bit 2:0 +// `define mlvds2_scan_mode_start_line_bit12 20 // Bit 0 +// `define mlvds2_scan_mode_odd 16 // Bit 3:0 +// `define mlvds2_scan_mode_even 12 // Bit 3:0 +// `define mlvds2_scan_mode_start_line 0 // Bit 11:0 +// +//`define MLVDS2_RESET_CONFIG_HI 8'h7e +//`define MLVDS2_RESET_CONFIG_LO 8'h7f +// `define mLVDS2_reset_range_enable 31 // Bit 0 +// `define mLVDS2_reset_range_inv 30 // Bit 0 +// `define mLVDS2_reset_config_res1 29 // Bit 0 +// `define mLVDS2_reset_range_line_0 16 // Bit 11:0 +// `define mLVDS2_reset_config_res3 13 // Bit 2:0 +// `define mLVDS2_reset_range_line_1 0 // Bit 11:0 +// +//************************************************************************** +//* Vbyone registers (Note: no MinLVDS in G9tv, share the register) +//************************************************************************** +#define VBO_CTRL_L (0x1460) +#define P_VBO_CTRL_L (volatile unsigned int *)((0x1460 << 2) + 0xff900000) +#define VBO_CTRL_H (0x1461) +#define P_VBO_CTRL_H (volatile unsigned int *)((0x1461 << 2) + 0xff900000) +#define VBO_SOFT_RST (0x1462) +#define P_VBO_SOFT_RST (volatile unsigned int *)((0x1462 << 2) + 0xff900000) +#define VBO_LANES (0x1463) +#define P_VBO_LANES (volatile unsigned int *)((0x1463 << 2) + 0xff900000) +#define VBO_VIN_CTRL (0x1464) +#define P_VBO_VIN_CTRL (volatile unsigned int *)((0x1464 << 2) + 0xff900000) +#define VBO_ACT_VSIZE (0x1465) +#define P_VBO_ACT_VSIZE (volatile unsigned int *)((0x1465 << 2) + 0xff900000) +#define VBO_REGION_00 (0x1466) +#define P_VBO_REGION_00 (volatile unsigned int *)((0x1466 << 2) + 0xff900000) +#define VBO_REGION_01 (0x1467) +#define P_VBO_REGION_01 (volatile unsigned int *)((0x1467 << 2) + 0xff900000) +#define VBO_REGION_02 (0x1468) +#define P_VBO_REGION_02 (volatile unsigned int *)((0x1468 << 2) + 0xff900000) +#define VBO_REGION_03 (0x1469) +#define P_VBO_REGION_03 (volatile unsigned int *)((0x1469 << 2) + 0xff900000) +#define VBO_VBK_CTRL_0 (0x146a) +#define P_VBO_VBK_CTRL_0 (volatile unsigned int *)((0x146a << 2) + 0xff900000) +#define VBO_VBK_CTRL_1 (0x146b) +#define P_VBO_VBK_CTRL_1 (volatile unsigned int *)((0x146b << 2) + 0xff900000) +#define VBO_HBK_CTRL (0x146c) +#define P_VBO_HBK_CTRL (volatile unsigned int *)((0x146c << 2) + 0xff900000) +#define VBO_PXL_CTRL (0x146d) +#define P_VBO_PXL_CTRL (volatile unsigned int *)((0x146d << 2) + 0xff900000) +#define VBO_LANE_SKEW_L (0x146e) +#define P_VBO_LANE_SKEW_L (volatile unsigned int *)((0x146e << 2) + 0xff900000) +#define VBO_LANE_SKEW_H (0x146f) +#define P_VBO_LANE_SKEW_H (volatile unsigned int *)((0x146f << 2) + 0xff900000) +#define VBO_GCLK_LANE_L (0x1470) +#define P_VBO_GCLK_LANE_L (volatile unsigned int *)((0x1470 << 2) + 0xff900000) +#define VBO_GCLK_LANE_H (0x1471) +#define P_VBO_GCLK_LANE_H (volatile unsigned int *)((0x1471 << 2) + 0xff900000) +#define VBO_GCLK_MAIN (0x1472) +#define P_VBO_GCLK_MAIN (volatile unsigned int *)((0x1472 << 2) + 0xff900000) +#define VBO_STATUS_L (0x1473) +#define P_VBO_STATUS_L (volatile unsigned int *)((0x1473 << 2) + 0xff900000) +#define VBO_STATUS_H (0x1474) +#define P_VBO_STATUS_H (volatile unsigned int *)((0x1474 << 2) + 0xff900000) +#define VBO_LANE_OUTPUT (0x1475) +#define P_VBO_LANE_OUTPUT (volatile unsigned int *)((0x1475 << 2) + 0xff900000) +#define LCD_PORT_SWAP (0x1476) +#define P_LCD_PORT_SWAP (volatile unsigned int *)((0x1476 << 2) + 0xff900000) +#define VBO_TMCHK_THRD_L (0x1478) +#define P_VBO_TMCHK_THRD_L (volatile unsigned int *)((0x1478 << 2) + 0xff900000) +#define VBO_TMCHK_THRD_H (0x1479) +#define P_VBO_TMCHK_THRD_H (volatile unsigned int *)((0x1479 << 2) + 0xff900000) +#define VBO_FSM_HOLDER_L (0x147a) +#define P_VBO_FSM_HOLDER_L (volatile unsigned int *)((0x147a << 2) + 0xff900000) +#define VBO_FSM_HOLDER_H (0x147b) +#define P_VBO_FSM_HOLDER_H (volatile unsigned int *)((0x147b << 2) + 0xff900000) +#define VBO_INTR_STATE_CTRL (0x147c) +#define P_VBO_INTR_STATE_CTRL (volatile unsigned int *)((0x147c << 2) + 0xff900000) +#define VBO_INTR_UNMASK (0x147d) +#define P_VBO_INTR_UNMASK (volatile unsigned int *)((0x147d << 2) + 0xff900000) +#define VBO_TMCHK_HSYNC_STATE_L (0x147e) +#define P_VBO_TMCHK_HSYNC_STATE_L (volatile unsigned int *)((0x147e << 2) + 0xff900000) +#define VBO_TMCHK_HSYNC_STATE_H (0x147f) +#define P_VBO_TMCHK_HSYNC_STATE_H (volatile unsigned int *)((0x147f << 2) + 0xff900000) +#define VBO_TMCHK_VSYNC_STATE_L (0x14f4) +#define P_VBO_TMCHK_VSYNC_STATE_L (volatile unsigned int *)((0x14f4 << 2) + 0xff900000) +#define VBO_TMCHK_VSYNC_STATE_H (0x14f5) +#define P_VBO_TMCHK_VSYNC_STATE_H (volatile unsigned int *)((0x14f5 << 2) + 0xff900000) +#define VBO_TMCHK_VDE_STATE_L (0x14f6) +#define P_VBO_TMCHK_VDE_STATE_L (volatile unsigned int *)((0x14f6 << 2) + 0xff900000) +#define VBO_TMCHK_VDE_STATE_H (0x14f7) +#define P_VBO_TMCHK_VDE_STATE_H (volatile unsigned int *)((0x14f7 << 2) + 0xff900000) +#define VBO_INTR_STATE (0x14f8) +#define P_VBO_INTR_STATE (volatile unsigned int *)((0x14f8 << 2) + 0xff900000) +#define VBO_INFILTER_CTRL (0x14f9) +#define P_VBO_INFILTER_CTRL (volatile unsigned int *)((0x14f9 << 2) + 0xff900000) +#define VBO_INSGN_CTRL (0x14fa) +#define P_VBO_INSGN_CTRL (volatile unsigned int *)((0x14fa << 2) + 0xff900000) +//************************************************************************** +//* NOTE:: When Programming the Gamma, please turn off the IRQ service * +//************************************************************************** +#define GAMMA_CNTL_PORT (0x1480) +#define P_GAMMA_CNTL_PORT (volatile unsigned int *)((0x1480 << 2) + 0xff900000) + #define GAMMA_VCOM_POL 7 //RW + #define GAMMA_RVS_OUT 6 //RW + #define ADR_RDY 5 //Read Only + #define WR_RDY 4 //Read Only + #define RD_RDY 3 //Read Only + #define GAMMA_TR 2 //RW + #define GAMMA_SET 1 //RW + #define GAMMA_EN 0 //RW +#define GAMMA_DATA_PORT (0x1481) +#define P_GAMMA_DATA_PORT (volatile unsigned int *)((0x1481 << 2) + 0xff900000) +#define GAMMA_ADDR_PORT (0x1482) +#define P_GAMMA_ADDR_PORT (volatile unsigned int *)((0x1482 << 2) + 0xff900000) + #define H_RD 12 + #define H_AUTO_INC 11 + #define H_SEL_R 10 + #define H_SEL_G 9 + #define H_SEL_B 8 + #define HADR_MSB 7 //7:0 + #define HADR 0 //7:0 +#define GAMMA_VCOM_HSWITCH_ADDR (0x1483) +#define P_GAMMA_VCOM_HSWITCH_ADDR (volatile unsigned int *)((0x1483 << 2) + 0xff900000) +#define RGB_BASE_ADDR (0x1485) +#define P_RGB_BASE_ADDR (volatile unsigned int *)((0x1485 << 2) + 0xff900000) +#define RGB_COEFF_ADDR (0x1486) +#define P_RGB_COEFF_ADDR (volatile unsigned int *)((0x1486 << 2) + 0xff900000) +#define POL_CNTL_ADDR (0x1487) +#define P_POL_CNTL_ADDR (volatile unsigned int *)((0x1487 << 2) + 0xff900000) + #define DCLK_SEL 14 //FOR DCLK OUTPUT + #define TCON_VSYNC_SEL_DVI 11 //FOR RGB format DVI output + #define TCON_HSYNC_SEL_DVI 10 //FOR RGB format DVI output + #define TCON_DE_SEL_DVI 9 //FOR RGB format DVI output + #define CPH3_POL 8 + #define CPH2_POL 7 + #define CPH1_POL 6 + #define TCON_DE_SEL 5 + #define TCON_VS_SEL 4 + #define TCON_HS_SEL 3 + #define DE_POL 2 + #define VS_POL 1 + #define HS_POL 0 +#define DITH_CNTL_ADDR (0x1488) +#define P_DITH_CNTL_ADDR (volatile unsigned int *)((0x1488 << 2) + 0xff900000) + #define DITH10_EN 10 + #define DITH8_EN 9 + #define DITH_MD 8 + #define DITH10_CNTL_MSB 7 //7:4 + #define DITH10_CNTL 4 //7:4 + #define DITH8_CNTL_MSB 3 //3:0 + #define DITH8_CNTL 0 //3:0 +//Bit 1 highlight_en +//Bit 0 probe_en +#define GAMMA_PROBE_CTRL (0x1489) +#define P_GAMMA_PROBE_CTRL (volatile unsigned int *)((0x1489 << 2) + 0xff900000) +//read only +//Bit [15:0] probe_color[15:0] +#define GAMMA_PROBE_COLOR_L (0x148a) +#define P_GAMMA_PROBE_COLOR_L (volatile unsigned int *)((0x148a << 2) + 0xff900000) +//Read only +//Bit 15: if true valid probed color +//Bit [13:0] probe_color[29:16] +#define GAMMA_PROBE_COLOR_H (0x148b) +#define P_GAMMA_PROBE_COLOR_H (volatile unsigned int *)((0x148b << 2) + 0xff900000) +//bit 15:0, 5:6:5 color +#define GAMMA_PROBE_HL_COLOR (0x148c) +#define P_GAMMA_PROBE_HL_COLOR (volatile unsigned int *)((0x148c << 2) + 0xff900000) +//12:0 pos_x +#define GAMMA_PROBE_POS_X (0x148d) +#define P_GAMMA_PROBE_POS_X (volatile unsigned int *)((0x148d << 2) + 0xff900000) +//12:0 pos_y +#define GAMMA_PROBE_POS_Y (0x148e) +#define P_GAMMA_PROBE_POS_Y (volatile unsigned int *)((0x148e << 2) + 0xff900000) +#define STH1_HS_ADDR (0x1490) +#define P_STH1_HS_ADDR (volatile unsigned int *)((0x1490 << 2) + 0xff900000) +#define STH1_HE_ADDR (0x1491) +#define P_STH1_HE_ADDR (volatile unsigned int *)((0x1491 << 2) + 0xff900000) +#define STH1_VS_ADDR (0x1492) +#define P_STH1_VS_ADDR (volatile unsigned int *)((0x1492 << 2) + 0xff900000) +#define STH1_VE_ADDR (0x1493) +#define P_STH1_VE_ADDR (volatile unsigned int *)((0x1493 << 2) + 0xff900000) +#define STH2_HS_ADDR (0x1494) +#define P_STH2_HS_ADDR (volatile unsigned int *)((0x1494 << 2) + 0xff900000) +#define STH2_HE_ADDR (0x1495) +#define P_STH2_HE_ADDR (volatile unsigned int *)((0x1495 << 2) + 0xff900000) +#define STH2_VS_ADDR (0x1496) +#define P_STH2_VS_ADDR (volatile unsigned int *)((0x1496 << 2) + 0xff900000) +#define STH2_VE_ADDR (0x1497) +#define P_STH2_VE_ADDR (volatile unsigned int *)((0x1497 << 2) + 0xff900000) +#define OEH_HS_ADDR (0x1498) +#define P_OEH_HS_ADDR (volatile unsigned int *)((0x1498 << 2) + 0xff900000) +#define OEH_HE_ADDR (0x1499) +#define P_OEH_HE_ADDR (volatile unsigned int *)((0x1499 << 2) + 0xff900000) +#define OEH_VS_ADDR (0x149a) +#define P_OEH_VS_ADDR (volatile unsigned int *)((0x149a << 2) + 0xff900000) +#define OEH_VE_ADDR (0x149b) +#define P_OEH_VE_ADDR (volatile unsigned int *)((0x149b << 2) + 0xff900000) +#define VCOM_HSWITCH_ADDR (0x149c) +#define P_VCOM_HSWITCH_ADDR (volatile unsigned int *)((0x149c << 2) + 0xff900000) +#define VCOM_VS_ADDR (0x149d) +#define P_VCOM_VS_ADDR (volatile unsigned int *)((0x149d << 2) + 0xff900000) +#define VCOM_VE_ADDR (0x149e) +#define P_VCOM_VE_ADDR (volatile unsigned int *)((0x149e << 2) + 0xff900000) +#define CPV1_HS_ADDR (0x149f) +#define P_CPV1_HS_ADDR (volatile unsigned int *)((0x149f << 2) + 0xff900000) +#define CPV1_HE_ADDR (0x14a0) +#define P_CPV1_HE_ADDR (volatile unsigned int *)((0x14a0 << 2) + 0xff900000) +#define CPV1_VS_ADDR (0x14a1) +#define P_CPV1_VS_ADDR (volatile unsigned int *)((0x14a1 << 2) + 0xff900000) +#define CPV1_VE_ADDR (0x14a2) +#define P_CPV1_VE_ADDR (volatile unsigned int *)((0x14a2 << 2) + 0xff900000) +#define CPV2_HS_ADDR (0x14a3) +#define P_CPV2_HS_ADDR (volatile unsigned int *)((0x14a3 << 2) + 0xff900000) +#define CPV2_HE_ADDR (0x14a4) +#define P_CPV2_HE_ADDR (volatile unsigned int *)((0x14a4 << 2) + 0xff900000) +#define CPV2_VS_ADDR (0x14a5) +#define P_CPV2_VS_ADDR (volatile unsigned int *)((0x14a5 << 2) + 0xff900000) +#define CPV2_VE_ADDR (0x14a6) +#define P_CPV2_VE_ADDR (volatile unsigned int *)((0x14a6 << 2) + 0xff900000) +#define STV1_HS_ADDR (0x14a7) +#define P_STV1_HS_ADDR (volatile unsigned int *)((0x14a7 << 2) + 0xff900000) +#define STV1_HE_ADDR (0x14a8) +#define P_STV1_HE_ADDR (volatile unsigned int *)((0x14a8 << 2) + 0xff900000) +#define STV1_VS_ADDR (0x14a9) +#define P_STV1_VS_ADDR (volatile unsigned int *)((0x14a9 << 2) + 0xff900000) +#define STV1_VE_ADDR (0x14aa) +#define P_STV1_VE_ADDR (volatile unsigned int *)((0x14aa << 2) + 0xff900000) +#define STV2_HS_ADDR (0x14ab) +#define P_STV2_HS_ADDR (volatile unsigned int *)((0x14ab << 2) + 0xff900000) +#define STV2_HE_ADDR (0x14ac) +#define P_STV2_HE_ADDR (volatile unsigned int *)((0x14ac << 2) + 0xff900000) +#define STV2_VS_ADDR (0x14ad) +#define P_STV2_VS_ADDR (volatile unsigned int *)((0x14ad << 2) + 0xff900000) +#define STV2_VE_ADDR (0x14ae) +#define P_STV2_VE_ADDR (volatile unsigned int *)((0x14ae << 2) + 0xff900000) +#define OEV1_HS_ADDR (0x14af) +#define P_OEV1_HS_ADDR (volatile unsigned int *)((0x14af << 2) + 0xff900000) +#define OEV1_HE_ADDR (0x14b0) +#define P_OEV1_HE_ADDR (volatile unsigned int *)((0x14b0 << 2) + 0xff900000) +#define OEV1_VS_ADDR (0x14b1) +#define P_OEV1_VS_ADDR (volatile unsigned int *)((0x14b1 << 2) + 0xff900000) +#define OEV1_VE_ADDR (0x14b2) +#define P_OEV1_VE_ADDR (volatile unsigned int *)((0x14b2 << 2) + 0xff900000) +#define OEV2_HS_ADDR (0x14b3) +#define P_OEV2_HS_ADDR (volatile unsigned int *)((0x14b3 << 2) + 0xff900000) +#define OEV2_HE_ADDR (0x14b4) +#define P_OEV2_HE_ADDR (volatile unsigned int *)((0x14b4 << 2) + 0xff900000) +#define OEV2_VS_ADDR (0x14b5) +#define P_OEV2_VS_ADDR (volatile unsigned int *)((0x14b5 << 2) + 0xff900000) +#define OEV2_VE_ADDR (0x14b6) +#define P_OEV2_VE_ADDR (volatile unsigned int *)((0x14b6 << 2) + 0xff900000) +#define OEV3_HS_ADDR (0x14b7) +#define P_OEV3_HS_ADDR (volatile unsigned int *)((0x14b7 << 2) + 0xff900000) +#define OEV3_HE_ADDR (0x14b8) +#define P_OEV3_HE_ADDR (volatile unsigned int *)((0x14b8 << 2) + 0xff900000) +#define OEV3_VS_ADDR (0x14b9) +#define P_OEV3_VS_ADDR (volatile unsigned int *)((0x14b9 << 2) + 0xff900000) +#define OEV3_VE_ADDR (0x14ba) +#define P_OEV3_VE_ADDR (volatile unsigned int *)((0x14ba << 2) + 0xff900000) +#define LCD_PWR_ADDR (0x14bb) +#define P_LCD_PWR_ADDR (volatile unsigned int *)((0x14bb << 2) + 0xff900000) + #define LCD_VDD 5 + #define LCD_VBL 4 + #define LCD_GPI_MSB 3 + #define LCD_GPIO 0 +#define LCD_PWM0_LO_ADDR (0x14bc) +#define P_LCD_PWM0_LO_ADDR (volatile unsigned int *)((0x14bc << 2) + 0xff900000) +#define LCD_PWM0_HI_ADDR (0x14bd) +#define P_LCD_PWM0_HI_ADDR (volatile unsigned int *)((0x14bd << 2) + 0xff900000) +#define LCD_PWM1_LO_ADDR (0x14be) +#define P_LCD_PWM1_LO_ADDR (volatile unsigned int *)((0x14be << 2) + 0xff900000) +#define LCD_PWM1_HI_ADDR (0x14bf) +#define P_LCD_PWM1_HI_ADDR (volatile unsigned int *)((0x14bf << 2) + 0xff900000) +#define INV_CNT_ADDR (0x14c0) +#define P_INV_CNT_ADDR (volatile unsigned int *)((0x14c0 << 2) + 0xff900000) + #define INV_EN 4 + #define INV_CNT_MSB 3 + #define INV_CNT 0 +#define TCON_MISC_SEL_ADDR (0x14c1) +#define P_TCON_MISC_SEL_ADDR (volatile unsigned int *)((0x14c1 << 2) + 0xff900000) + #define STH2_SEL 12 + #define STH1_SEL 11 + #define OEH_SEL 10 + #define VCOM_SEL 9 + #define DB_LINE_SW 8 + #define CPV2_SEL 7 + #define CPV1_SEL 6 + #define STV2_SEL 5 + #define STV1_SEL 4 + #define OEV_UNITE 3 + #define OEV3_SEL 2 + #define OEV2_SEL 1 + #define OEV1_SEL 0 +#define DUAL_PORT_CNTL_ADDR (0x14c2) +#define P_DUAL_PORT_CNTL_ADDR (volatile unsigned int *)((0x14c2 << 2) + 0xff900000) + #define OUTPUT_YUV 15 + #define DUAL_IDF 12 // 14:12 + #define DUAL_ISF 9 // 11:9 + #define LCD_ANALOG_SEL_CPH3 8 + #define LCD_ANALOG_3PHI_CLK_SEL 7 + #define LCD_LVDS_SEL54 6 + #define LCD_LVDS_SEL27 5 + #define LCD_TTL_SEL 4 + #define DUAL_LVDC_EN 3 + #define PORT_SWP 2 + #define RGB_SWP 1 + #define BIT_SWP 0 +#define MLVDS_CONTROL (0x14c3) +#define P_MLVDS_CONTROL (volatile unsigned int *)((0x14c3 << 2) + 0xff900000) + #define mLVDS_RESERVED 15 // 15 + #define mLVDS_double_pattern 14 // 14 + #define mLVDS_ins_reset 8 // 13:8 // each channel has one bit + #define mLVDS_dual_gate 7 + #define mLVDS_bit_num 6 // 0-6Bits, 1-8Bits + #define mLVDS_pair_num 5 // 0-3Pairs, 1-6Pairs + #define mLVDS_msb_first 4 + #define mLVDS_PORT_SWAP 3 + #define mLVDS_MLSB_SWAP 2 + #define mLVDS_PN_SWAP 1 + #define mLVDS_en 0 +#define MLVDS_RESET_PATTERN_HI (0x14c4) +#define P_MLVDS_RESET_PATTERN_HI (volatile unsigned int *)((0x14c4 << 2) + 0xff900000) +#define MLVDS_RESET_PATTERN_LO (0x14c5) +#define P_MLVDS_RESET_PATTERN_LO (volatile unsigned int *)((0x14c5 << 2) + 0xff900000) + #define mLVDS_reset_pattern 0 // Bit 47:16 +#define MLVDS_RESET_PATTERN_EXT (0x14c6) +#define P_MLVDS_RESET_PATTERN_EXT (volatile unsigned int *)((0x14c6 << 2) + 0xff900000) + #define mLVDS_reset_pattern_ext 0 // Bit 15:0 +#define MLVDS_CONFIG_HI (0x14c7) +#define P_MLVDS_CONFIG_HI (volatile unsigned int *)((0x14c7 << 2) + 0xff900000) +#define MLVDS_CONFIG_LO (0x14c8) +#define P_MLVDS_CONFIG_LO (volatile unsigned int *)((0x14c8 << 2) + 0xff900000) + #define mLVDS_reset_offset 29 // Bit 31:29 + #define mLVDS_reset_length 23 // Bit 28:23 + #define mLVDS_config_reserved 20 // Bit 22:20 + #define mLVDS_reset_start_bit12 19 // Bit 19 + #define mLVDS_data_write_toggle 18 + #define mLVDS_data_write_ini 17 + #define mLVDS_data_latch_1_toggle 16 + #define mLVDS_data_latch_1_ini 15 + #define mLVDS_data_latch_0_toggle 14 + #define mLVDS_data_latch_0_ini 13 + #define mLVDS_reset_1_select 12 // 0 - same as reset_0, 1 - 1 clock delay of reset_0 + #define mLVDS_reset_start 0 // Bit 11:0 +#define TCON_DOUBLE_CTL (0x14c9) +#define P_TCON_DOUBLE_CTL (volatile unsigned int *)((0x14c9 << 2) + 0xff900000) + #define tcon_double_ini 8 // Bit 7:0 + #define tcon_double_inv 0 // Bit 7:0 +#define TCON_PATTERN_HI (0x14ca) +#define P_TCON_PATTERN_HI (volatile unsigned int *)((0x14ca << 2) + 0xff900000) +#define TCON_PATTERN_LO (0x14cb) +#define P_TCON_PATTERN_LO (volatile unsigned int *)((0x14cb << 2) + 0xff900000) + #define tcon_pattern_loop_data 16 // Bit 15:0 + #define tcon_pattern_loop_start 12 // Bit 3:0 + #define tcon_pattern_loop_end 8 // Bit 3:0 + #define tcon_pattern_enable 0 // Bit 7:0 +#define TCON_CONTROL_HI (0x14cc) +#define P_TCON_CONTROL_HI (volatile unsigned int *)((0x14cc << 2) + 0xff900000) +#define TCON_CONTROL_LO (0x14cd) +#define P_TCON_CONTROL_LO (volatile unsigned int *)((0x14cd << 2) + 0xff900000) + #define tcon_pclk_enable 26 // Bit 5:0 (enable pclk on TCON channel 7 to 2) + #define tcon_pclk_div 24 // Bit 1:0 (control phy clok divide 2,4,6,8) + #define tcon_delay 0 // Bit 23:0 (3 bit for each channel) +#define LVDS_BLANK_DATA_HI (0x14ce) +#define P_LVDS_BLANK_DATA_HI (volatile unsigned int *)((0x14ce << 2) + 0xff900000) +#define LVDS_BLANK_DATA_LO (0x14cf) +#define P_LVDS_BLANK_DATA_LO (volatile unsigned int *)((0x14cf << 2) + 0xff900000) + #define LVDS_blank_data_reserved 30 // 31:30 + #define LVDS_blank_data_r 20 // 29:20 + #define LVDS_blank_data_g 10 // 19:10 + #define LVDS_blank_data_b 0 // 9:0 +#define LVDS_PACK_CNTL_ADDR (0x14d0) +#define P_LVDS_PACK_CNTL_ADDR (volatile unsigned int *)((0x14d0 << 2) + 0xff900000) + #define LVDS_USE_TCON 7 + #define LVDS_DUAL 6 + #define PN_SWP 5 + #define LSB_FIRST 4 + #define LVDS_RESV 3 + #define ODD_EVEN_SWP 2 + #define LVDS_REPACK 0 +// New from M3 : +// Bit 15:12 -- Enable OFFSET Double Generate(TOCN7-TCON4) +// Bit 11:0 -- de_hs(old tcon) second offset_hs (new tcon) +#define DE_HS_ADDR (0x14d1) +#define P_DE_HS_ADDR (volatile unsigned int *)((0x14d1 << 2) + 0xff900000) +// New from M3 : +// Bit 15:12 -- Enable OFFSET Double Generate(TOCN3-TCON0) +#define DE_HE_ADDR (0x14d2) +#define P_DE_HE_ADDR (volatile unsigned int *)((0x14d2 << 2) + 0xff900000) +#define DE_VS_ADDR (0x14d3) +#define P_DE_VS_ADDR (volatile unsigned int *)((0x14d3 << 2) + 0xff900000) +#define DE_VE_ADDR (0x14d4) +#define P_DE_VE_ADDR (volatile unsigned int *)((0x14d4 << 2) + 0xff900000) +#define HSYNC_HS_ADDR (0x14d5) +#define P_HSYNC_HS_ADDR (volatile unsigned int *)((0x14d5 << 2) + 0xff900000) +#define HSYNC_HE_ADDR (0x14d6) +#define P_HSYNC_HE_ADDR (volatile unsigned int *)((0x14d6 << 2) + 0xff900000) +#define HSYNC_VS_ADDR (0x14d7) +#define P_HSYNC_VS_ADDR (volatile unsigned int *)((0x14d7 << 2) + 0xff900000) +#define HSYNC_VE_ADDR (0x14d8) +#define P_HSYNC_VE_ADDR (volatile unsigned int *)((0x14d8 << 2) + 0xff900000) +#define VSYNC_HS_ADDR (0x14d9) +#define P_VSYNC_HS_ADDR (volatile unsigned int *)((0x14d9 << 2) + 0xff900000) +#define VSYNC_HE_ADDR (0x14da) +#define P_VSYNC_HE_ADDR (volatile unsigned int *)((0x14da << 2) + 0xff900000) +#define VSYNC_VS_ADDR (0x14db) +#define P_VSYNC_VS_ADDR (volatile unsigned int *)((0x14db << 2) + 0xff900000) +#define VSYNC_VE_ADDR (0x14dc) +#define P_VSYNC_VE_ADDR (volatile unsigned int *)((0x14dc << 2) + 0xff900000) +// bit 8 -- vfifo_mcu_enable +// bit 7 -- halt_vs_de +// bit 6 -- R8G8B8_format +// bit 5 -- R6G6B6_format (round to 6 bits) +// bit 4 -- R5G6B5_format +// bit 3 -- dac_dith_sel +// bit 2 -- lcd_mcu_enable_de -- ReadOnly +// bit 1 -- lcd_mcu_enable_vsync -- ReadOnly +// bit 0 -- lcd_mcu_enable +#define LCD_MCU_CTL (0x14dd) +#define P_LCD_MCU_CTL (volatile unsigned int *)((0x14dd << 2) + 0xff900000) +// ReadOnly +// R5G6B5 when R5G6B5_format +// G8R8 when R8G8B8_format +// G5R10 Other +#define LCD_MCU_DATA_0 (0x14de) +#define P_LCD_MCU_DATA_0 (volatile unsigned int *)((0x14de << 2) + 0xff900000) +// ReadOnly +// G8B8 when R8G8B8_format +// G5B10 Other +#define LCD_MCU_DATA_1 (0x14df) +#define P_LCD_MCU_DATA_1 (volatile unsigned int *)((0x14df << 2) + 0xff900000) +// LVDS +#define LVDS_GEN_CNTL (0x14e0) +#define P_LVDS_GEN_CNTL (volatile unsigned int *)((0x14e0 << 2) + 0xff900000) +#define LVDS_PHY_CNTL0 (0x14e1) +#define P_LVDS_PHY_CNTL0 (volatile unsigned int *)((0x14e1 << 2) + 0xff900000) +#define LVDS_PHY_CNTL1 (0x14e2) +#define P_LVDS_PHY_CNTL1 (volatile unsigned int *)((0x14e2 << 2) + 0xff900000) +#define LVDS_PHY_CNTL2 (0x14e3) +#define P_LVDS_PHY_CNTL2 (volatile unsigned int *)((0x14e3 << 2) + 0xff900000) +#define LVDS_PHY_CNTL3 (0x14e4) +#define P_LVDS_PHY_CNTL3 (volatile unsigned int *)((0x14e4 << 2) + 0xff900000) +#define LVDS_PHY_CNTL4 (0x14e5) +#define P_LVDS_PHY_CNTL4 (volatile unsigned int *)((0x14e5 << 2) + 0xff900000) +#define LVDS_PHY_CNTL5 (0x14e6) +#define P_LVDS_PHY_CNTL5 (volatile unsigned int *)((0x14e6 << 2) + 0xff900000) +#define LVDS_SRG_TEST (0x14e8) +#define P_LVDS_SRG_TEST (volatile unsigned int *)((0x14e8 << 2) + 0xff900000) +#define LVDS_BIST_MUX0 (0x14e9) +#define P_LVDS_BIST_MUX0 (volatile unsigned int *)((0x14e9 << 2) + 0xff900000) +#define LVDS_BIST_MUX1 (0x14ea) +#define P_LVDS_BIST_MUX1 (volatile unsigned int *)((0x14ea << 2) + 0xff900000) +#define LVDS_BIST_FIXED0 (0x14eb) +#define P_LVDS_BIST_FIXED0 (volatile unsigned int *)((0x14eb << 2) + 0xff900000) +#define LVDS_BIST_FIXED1 (0x14ec) +#define P_LVDS_BIST_FIXED1 (volatile unsigned int *)((0x14ec << 2) + 0xff900000) +#define LVDS_BIST_CNTL0 (0x14ed) +#define P_LVDS_BIST_CNTL0 (volatile unsigned int *)((0x14ed << 2) + 0xff900000) +#define LVDS_CLKB_CLKA (0x14ee) +#define P_LVDS_CLKB_CLKA (volatile unsigned int *)((0x14ee << 2) + 0xff900000) +#define LVDS_PHY_CLK_CNTL (0x14ef) +#define P_LVDS_PHY_CLK_CNTL (volatile unsigned int *)((0x14ef << 2) + 0xff900000) +#define LVDS_SER_EN (0x14f0) +#define P_LVDS_SER_EN (volatile unsigned int *)((0x14f0 << 2) + 0xff900000) +#define LVDS_PHY_CNTL6 (0x14f1) +#define P_LVDS_PHY_CNTL6 (volatile unsigned int *)((0x14f1 << 2) + 0xff900000) +#define LVDS_PHY_CNTL7 (0x14f2) +#define P_LVDS_PHY_CNTL7 (volatile unsigned int *)((0x14f2 << 2) + 0xff900000) +#define LVDS_PHY_CNTL8 (0x14f3) +#define P_LVDS_PHY_CNTL8 (volatile unsigned int *)((0x14f3 << 2) + 0xff900000) +//`define MLVDS_CLK_CTL0_HI 8'hf4 +//`define MLVDS_CLK_CTL0_LO 8'hf5 +// `define mlvds_clk_pattern_reserved 31 // Bit 31 +// `define mpclk_dly 28 // Bit 2:0 +// `define mpclk_div 26 // Bit 1:0 (control phy clok divide 2,4,6,8) +// `define use_mpclk 25 // Bit 0 +// `define mlvds_clk_half_delay 24 // Bit 0 +// `define mlvds_clk_pattern 0 // Bit 23:0 +//`define MLVDS_DUAL_GATE_WR_START 8'hf6 +// `define mlvds_dual_gate_wr_start 0 // Bit 12:0 +//`define MLVDS_DUAL_GATE_WR_END 8'hf7 +// `define mlvds_dual_gate_wr_end 0 // Bit 12:0 +// +//`define MLVDS_DUAL_GATE_RD_START 8'hf8 +// `define mlvds_dual_gate_rd_start 0 // Bit 12:0 +//`define MLVDS_DUAL_GATE_RD_END 8'hf9 +// `define mlvds_dual_gate_rd_end 0 // Bit 12:0 +//`define MLVDS_SECOND_RESET_CTL 8'hfa +// `define mLVDS_2nd_reset_start 0 // Bit 12:0 +// +#define MLVDS_DUAL_GATE_CTL_HI (0x14fb) +#define P_MLVDS_DUAL_GATE_CTL_HI (volatile unsigned int *)((0x14fb << 2) + 0xff900000) +#define MLVDS_DUAL_GATE_CTL_LO (0x14fc) +#define P_MLVDS_DUAL_GATE_CTL_LO (volatile unsigned int *)((0x14fc << 2) + 0xff900000) +// `define mlvds_tcon_field_en 24 // Bit 7:0 +// `define mlvds_dual_gate_reserved 21 // Bit 2:0 +// `define mlvds_scan_mode_start_line_bit12 20 // Bit 0 +// `define mlvds_scan_mode_odd 16 // Bit 3:0 +// `define mlvds_scan_mode_even 12 // Bit 3:0 +// `define mlvds_scan_mode_start_line 0 // Bit 11:0 +// +//`define MLVDS_RESET_CONFIG_HI 8'hfd +//`define MLVDS_RESET_CONFIG_LO 8'hfe +// `define mLVDS_reset_range_enable 31 // Bit 0 +// `define mLVDS_reset_range_inv 30 // Bit 0 +// `define mLVDS_reset_config_res1 29 // Bit 0 +// `define mLVDS_reset_range_line_0 16 // Bit 11:0 +// `define mLVDS_reset_config_res3 13 // Bit 2:0 +// `define mLVDS_reset_range_line_1 0 // Bit 11:0 +//=============================================================== +//LCD DRIVER BASE END +//=============================================================== +// +// Closing file: lcd_regs.h +// +//`define MAD_VCBUS_BASE 8'h17 +// +// Reading file: mad_regs.h +// +//DEINTERLACE module start from 8'h90 end to 8'hff +// ----------------------------------------------- +// CBUS_BASE: MAD_VCBUS_BASE = 0x17 +// ----------------------------------------------- +#define DI_PRE_CTRL (0x1700) +#define P_DI_PRE_CTRL (volatile unsigned int *)((0x1700 << 2) + 0xff900000) +// bit 31, cbus_pre_frame_rst +// bit 30, cbus_pre_soft_rst +// bit 29, pre_field_num +// bit 27:26, mode_444c422 +// bit 25, di_cont_read_en +// bit 24:23, mode_422c444 +// bit 22, mtn_after_nr +// bit 21:16, pre_hold_fifo_lines +// bit 15, nr_wr_by +// bit 14, use_vdin_go_line +// bit 13, di_prevdin_en +// bit 12, di_pre_viu_link +// bit 11, di_pre_repeat +// bit 10, di_pre_drop_1st +// bit 9, di_buf2_en +// bit 8, di_chan2_en +// bit 7, prenr_hist_en +// bit 6, chan2_hist_en +// bit 5, hist_check_en +// bit 4, check_after_nr +// bit 3, check222p_en +// bit 2, check322p_en +// bit 1, mtn_en +// bit 0, nr_en +#define DI_POST_CTRL (0x1701) +#define P_DI_POST_CTRL (volatile unsigned int *)((0x1701 << 2) + 0xff900000) +// bit 31, cbus_post_frame_rst +// bit 30, cbus_post_soft_rst +// bit 29, post_field_num +// bit 21:16, post_hold_fifo_lines +// bit 13, prepost_link +// bit 12, di_post_viu_link +// bit 11, di_post_repeat +// bit 10, di_post_drop_1st +// bit 9, mif0_to_vpp_en +// bit 8, di_vpp_out_en +// bit 7, di_wr_bk_en +// bit 6, di_mux_en +// bit 5, di_blend_en +// bit 4, di_mtnp_read_en +// bit 3, di_mtn_buf_en +// bit 2, di_ei_en +// bit 1, di_buf1_en +// bit 0, di_buf0_en +#define DI_POST_SIZE (0x1702) +#define P_DI_POST_SIZE (volatile unsigned int *)((0x1702 << 2) + 0xff900000) +//bit 28:16, vsize1post +//bit 12:0, hsize1post +#define DI_PRE_SIZE (0x1703) +#define P_DI_PRE_SIZE (volatile unsigned int *)((0x1703 << 2) + 0xff900000) +//bit 28:16, vsize1pre +//bit 12:0, hsize1pre +#define DI_EI_CTRL0 (0x1704) +#define P_DI_EI_CTRL0 (volatile unsigned int *)((0x1704 << 2) + 0xff900000) +//bit 23:16, ei0_filter[2:+] abs_diff_left>filter && ...right>filter && ...top>filter && ...bot>filter -> filter +//bit 15:8, ei0_threshold[2:+] +//bit 3, ei0_vertical +//bit 2, ei0_bpscf2 +//bit 1, ei0_bpsfar1 +#define DI_EI_CTRL1 (0x1705) +#define P_DI_EI_CTRL1 (volatile unsigned int *)((0x1705 << 2) + 0xff900000) +//bit 31:24, ei0_diff +//bit 23:16, ei0_angle45 +//bit 15:8, ei0_peak +//bit 7:0, ei0_cross +#define DI_EI_CTRL2 (0x1706) +#define P_DI_EI_CTRL2 (volatile unsigned int *)((0x1706 << 2) + 0xff900000) +//bit 31:24, ei0_close2 +//bit 23:16, ei0_close1 +//bit 15:8, ei0_far2 +//bit 7:0, ei0_far1 +#define DI_NR_CTRL0 (0x1707) +#define P_DI_NR_CTRL0 (volatile unsigned int *)((0x1707 << 2) + 0xff900000) +//bit 26, nr_cue_en +//bit 25, nr2_en +#define DI_NR_CTRL1 (0x1708) +#define P_DI_NR_CTRL1 (volatile unsigned int *)((0x1708 << 2) + 0xff900000) +//bit 31:30, mot_p1txtcore_mode +//bit 29:24, mot_p1txtcore_clmt +//bit 21:16, mot_p1txtcore_ylmt +//bit 15:8, mot_p1txtcore_crate +//bit 7:0, mot_p1txtcore_yrate +#define DI_NR_CTRL2 (0x1709) +#define P_DI_NR_CTRL2 (volatile unsigned int *)((0x1709 << 2) + 0xff900000) +//bit 29:24, mot_curtxtcore_clmt +//bit 21:16, mot_curtxtcore_ylmt +//bit 15:8, mot_curtxtcore_crate +//bit 7:0, mot_curtxtcore_yrate +//`define DI_NR_CTRL3 8'h0a +//no use +//`define DI_MTN_CTRL 8'h0b +//no use +#define DI_CANVAS_URGENT0 (0x170a) +#define P_DI_CANVAS_URGENT0 (volatile unsigned int *)((0x170a << 2) + 0xff900000) +#define DI_CANVAS_URGENT1 (0x170b) +#define P_DI_CANVAS_URGENT1 (volatile unsigned int *)((0x170b << 2) + 0xff900000) +#define DI_MTN_CTRL1 (0x170c) +#define P_DI_MTN_CTRL1 (volatile unsigned int *)((0x170c << 2) + 0xff900000) +//bit 13 , me enable +//bit 12 , me autoenable +//bit 11:8, mtn_paramtnthd +//bit 7:0, mtn_parafltthd +#define DI_BLEND_CTRL (0x170d) +#define P_DI_BLEND_CTRL (volatile unsigned int *)((0x170d << 2) + 0xff900000) +//bit 31, blend_1_en +//bit 30, blend_mtn_lpf +//bit 28, post_mb_en +//bit 27, blend_mtn3p_max +//bit 26, blend_mtn3p_min +//bit 25, blend_mtn3p_ave +//bit 24, blend_mtn3p_maxtb +//bit 23, blend_mtn_flt_en +//bit 22, blend_data_flt_en +//bit 21:20, blend_top_mode +//bit 19, blend_reg3_enable +//bit 18, blend_reg2_enable +//bit 17, blend_reg1_enable +//bit 16, blend_reg0_enable +//bit 15:14, blend_reg3_mode +//bit 13:12, blend_reg2_mode +//bit 11:10, blend_reg1_mode +//bit 9:8, blend_reg0_mode +//bit 7:0, kdeint +//`define DI_BLEND_CTRL1 8'h0e +//no use +#define DI_CANVAS_URGENT2 (0x170e) +#define P_DI_CANVAS_URGENT2 (volatile unsigned int *)((0x170e << 2) + 0xff900000) +//`define DI_BLEND_CTRL2 8'h0f +//no use +#define DI_ARB_CTRL (0x170f) +#define P_DI_ARB_CTRL (volatile unsigned int *)((0x170f << 2) + 0xff900000) +//bit 31:26, di_arb_thd1 +//bit 25:20, di_arb_thd0 +//bit 19, di_arb_tid_mode +//bit 18, di_arb_arb_mode +//bit 17, di_arb_acq_en +//bit 16, di_arb_disable_clk +//bit 15:0, di_arb_req_en +#define DI_BLEND_REG0_X (0x1710) +#define P_DI_BLEND_REG0_X (volatile unsigned int *)((0x1710 << 2) + 0xff900000) +//bit 27:16, blend_reg0_startx +//bit 11:0, blend_reg0_endx +#define DI_BLEND_REG0_Y (0x1711) +#define P_DI_BLEND_REG0_Y (volatile unsigned int *)((0x1711 << 2) + 0xff900000) +#define DI_BLEND_REG1_X (0x1712) +#define P_DI_BLEND_REG1_X (volatile unsigned int *)((0x1712 << 2) + 0xff900000) +#define DI_BLEND_REG1_Y (0x1713) +#define P_DI_BLEND_REG1_Y (volatile unsigned int *)((0x1713 << 2) + 0xff900000) +#define DI_BLEND_REG2_X (0x1714) +#define P_DI_BLEND_REG2_X (volatile unsigned int *)((0x1714 << 2) + 0xff900000) +#define DI_BLEND_REG2_Y (0x1715) +#define P_DI_BLEND_REG2_Y (volatile unsigned int *)((0x1715 << 2) + 0xff900000) +#define DI_BLEND_REG3_X (0x1716) +#define P_DI_BLEND_REG3_X (volatile unsigned int *)((0x1716 << 2) + 0xff900000) +#define DI_BLEND_REG3_Y (0x1717) +#define P_DI_BLEND_REG3_Y (volatile unsigned int *)((0x1717 << 2) + 0xff900000) +#define DI_CLKG_CTRL (0x1718) +#define P_DI_CLKG_CTRL (volatile unsigned int *)((0x1718 << 2) + 0xff900000) +//bit 31:24, pre_gclk_ctrl no clk gate control. if ==1, module clk is not gated (always on). [3] for pulldown,[2] for mtn_1,[1] for mtn_0,[0] for nr +//bit 23:16, post_gclk_ctrl no clk gate control. [4] for ei_1, [3] for ei_0,[2] for ei_top, [1] for blend_1, [0] for blend_0 +//bit 1, di_gate_all clk shut down. if ==1 , all di clock shut down +//bit 0, di_no_clk_gate no clk gate control. if di_gated_all==0 and di_no_clk_gate ==1, all di clock is always working. +#define DI_EI_CTRL3 (0x1719) +#define P_DI_EI_CTRL3 (volatile unsigned int *)((0x1719 << 2) + 0xff900000) +//bit 31, reg_ei_1 +//bit 30, reg_demon_en +//bit 26:24, reg_demon_mux +//bit 23:20, reg_right_win +//bit 19:16, reg_left_win +//bit 7:4, reg_ei_sadm_quatize_margin +//bit 1:0, reg_ei_sad_relative_mode +#define DI_EI_CTRL4 (0x171a) +#define P_DI_EI_CTRL4 (volatile unsigned int *)((0x171a << 2) + 0xff900000) +//bit 29, reg_ei_caldrt_ambliike2_biasvertical +//bit 28:24, reg_ei_caldrt_addxla2list_drtmax +//bit 22:20, reg_ei_caldrt_addxla2list_signm0th +//bit 19, reg_ei_caldrt_addxla2list_mode +//bit 18:16, reg_ei_signm_sad_cor_rate +//bit 15:12, reg_ei_signm_sadi_cor_rate +//bit 11:6, reg_ei_signm_sadi_cor_ofst +//bit 5:0, reg_ei_signm_sad_ofst +#define DI_EI_CTRL5 (0x171b) +#define P_DI_EI_CTRL5 (volatile unsigned int *)((0x171b << 2) + 0xff900000) +//bit 30:28, reg_ei_caldrt_cnflcctchk_frcverthrd +//bit 26:24, reg_ei_caldrt_cnflctchk_mg +//bit 23:22, reg_ei_caldrt_cnflctchk_ws +//bit 21, reg_ei_caldrt_cnflctchk_en +//bit 20, reg_ei_caldrt_verfrc_final_en +//bit 19, reg_ei_caldrt_verfrc_retimflt_en +//bit 18:16, reg_ei_caldrt_verftc_eithratemth +//bit 15, reg_ei_caldrt_verfrc_retiming_en +//bit 14:12, reg_ei_caldrt_verfrc_bothratemth +//bit 11:9, reg_ei_caldrt_ver_thrd +//bit 8:4, reg_ei_caldrt_addxla2list_drtmin +//bit 3:0, reg_ei_caldrt_addxla2list_drtlimit +#define DI_EI_CTRL6 (0x171c) +#define P_DI_EI_CTRL6 (volatile unsigned int *)((0x171c << 2) + 0xff900000) +//bit 31:24, reg_ei_caldrt_abext_sad12thhig +//bit 23:16, reg_ei_caldrt_abext_sad00thlow +//bit 15:8, reg_ei_caldrt_abext_sad12thlow +//bit 6:4, reg_ei_caldrt_abext_ratemth +//bit 2:0, reg_ei_caldrt_abext_drtthrd +#define DI_EI_CTRL7 (0x171d) +#define P_DI_EI_CTRL7 (volatile unsigned int *)((0x171d << 2) + 0xff900000) +//bit 29, reg_ei_caldrt_xlanopeak_codien +//bit 28:24, reg_ei_caldrt_xlanopeak_drtmax +//bit 23, reg_ei_caldrt_xlanopeak_en +//bit 28:24, reg_ei_caldrt_abext_monotrnd_alpha +//bit 28:24, reg_ei_caldrt_abext_mononum12_thrd +//bit 28:24, reg_ei_caldrt_abext_mononum00_thrd +//bit 28:24, reg_ei_caldrt_abext_sad00rate +//bit 28:24, reg_ei_caldrt_abext_sad12rate +//bit 28:24, reg_ei_caldrt_abext_sad00thhig +#define DI_EI_CTRL8 (0x171e) +#define P_DI_EI_CTRL8 (volatile unsigned int *)((0x171e << 2) + 0xff900000) +//bit 30:28, reg_ei_assign_headtail_magin +//bit 26:24, reg_ei_retime_lastcurpncnfltchk_mode +//bit 22:21, reg_ei_retime_lastcurpncnfltchk_drtth +//bit 20, reg_ei_caldrt_histchk_cnfid +//bit 19:16, reg_ei_caldrt_histchk_thrd +//bit 15, reg_ei_caldrt_histchk_abext +//bit 14, reg_ei_caldrt_histchk_npen +//bit 13:11, reg_ei_caldrt_amblike2_drtmg +//bit 10:8, reg_ei_caldrt_amblike2_valmg +//bit 7:4, reg_ei_caldrt_amblike2_alpha +//bit 3:0, reg_ei_caldrt_amblike2_drtth +#define DI_EI_CTRL9 (0x171f) +#define P_DI_EI_CTRL9 (volatile unsigned int *)((0x171f << 2) + 0xff900000) +//bit 31:28, reg_ei_caldrt_hcnfcheck_frcvert_xla_th3 +//bit 27, reg_ei_caldrt_hcnfcheck_frcvert_xla_en +//bit 26:24, reg_ei_caldrt_conf_drtth +//bit 23:20, reg_ei_caldrt_conf_absdrtth +//bit 19:18, reg_ei_caldrt_abcheck_mode1 +//bit 17:16, reg_ei_caldrt_abcheck_mode0 +//bit 15:12, reg_ei_caldrt_abcheck_drth1 +//bit 11:8, reg_ei_caldrt_abcheck_drth0 +//bit 6:4, reg_ei_caldrt_abpnchk1_th +//bit 1, reg_ei_caldrt_abpnchk1_en +//bit 0, reg_ei_caldrt_abpnchk0_en +// DEINTERLACE mode check. +#define DI_MC_REG0_X (0x1720) +#define P_DI_MC_REG0_X (volatile unsigned int *)((0x1720 << 2) + 0xff900000) +//bit 27:16, mc_reg0_start_x +//bit 11:0, mc_reg0_end_x +#define DI_MC_REG0_Y (0x1721) +#define P_DI_MC_REG0_Y (volatile unsigned int *)((0x1721 << 2) + 0xff900000) +#define DI_MC_REG1_X (0x1722) +#define P_DI_MC_REG1_X (volatile unsigned int *)((0x1722 << 2) + 0xff900000) +#define DI_MC_REG1_Y (0x1723) +#define P_DI_MC_REG1_Y (volatile unsigned int *)((0x1723 << 2) + 0xff900000) +#define DI_MC_REG2_X (0x1724) +#define P_DI_MC_REG2_X (volatile unsigned int *)((0x1724 << 2) + 0xff900000) +#define DI_MC_REG2_Y (0x1725) +#define P_DI_MC_REG2_Y (volatile unsigned int *)((0x1725 << 2) + 0xff900000) +#define DI_MC_REG3_X (0x1726) +#define P_DI_MC_REG3_X (volatile unsigned int *)((0x1726 << 2) + 0xff900000) +#define DI_MC_REG3_Y (0x1727) +#define P_DI_MC_REG3_Y (volatile unsigned int *)((0x1727 << 2) + 0xff900000) +#define DI_MC_REG4_X (0x1728) +#define P_DI_MC_REG4_X (volatile unsigned int *)((0x1728 << 2) + 0xff900000) +#define DI_MC_REG4_Y (0x1729) +#define P_DI_MC_REG4_Y (volatile unsigned int *)((0x1729 << 2) + 0xff900000) +#define DI_MC_32LVL0 (0x172a) +#define P_DI_MC_32LVL0 (volatile unsigned int *)((0x172a << 2) + 0xff900000) +//bit 31:24, mc_reg2_32lvl +//bit 23:16, mc_reg1_32lvl +//bit 15:8, mc_reg0_32lvl +//bit 7:0, field_32lvl +#define DI_MC_32LVL1 (0x172b) +#define P_DI_MC_32LVL1 (volatile unsigned int *)((0x172b << 2) + 0xff900000) +//bit 15:8, mc_reg3_32lvl +//bit 7:0, mc_reg4_32lvl +#define DI_MC_22LVL0 (0x172c) +#define P_DI_MC_22LVL0 (volatile unsigned int *)((0x172c << 2) + 0xff900000) +//bit 31:16, mc_reg0_22lvl +//bit 15:0, field_22lvl +#define DI_MC_22LVL1 (0x172d) +#define P_DI_MC_22LVL1 (volatile unsigned int *)((0x172d << 2) + 0xff900000) +//bit 31:16, mc_reg2_22lvl +//bit 15:0, mc_reg1_22lvl +#define DI_MC_22LVL2 (0x172e) +#define P_DI_MC_22LVL2 (volatile unsigned int *)((0x172e << 2) + 0xff900000) +//bit 31:16, mc_reg4_22lvl +//bit 15:0, mc_reg3_22lvl +#define DI_MC_CTRL (0x172f) +#define P_DI_MC_CTRL (volatile unsigned int *)((0x172f << 2) + 0xff900000) +//bit 4, mc_reg4_en +//bit 3, mc_reg3_en +//bit 2, mc_reg2_en +//bit 1, mc_reg1_en +//bit 0, mc_reg0_en +#define DI_INTR_CTRL (0x1730) +#define P_DI_INTR_CTRL (volatile unsigned int *)((0x1730 << 2) + 0xff900000) +#define DI_INFO_ADDR (0x1731) +#define P_DI_INFO_ADDR (volatile unsigned int *)((0x1731 << 2) + 0xff900000) +#define DI_INFO_DATA (0x1732) +#define P_DI_INFO_DATA (volatile unsigned int *)((0x1732 << 2) + 0xff900000) +#define DI_PRE_HOLD (0x1733) +#define P_DI_PRE_HOLD (volatile unsigned int *)((0x1733 << 2) + 0xff900000) +//// DET 3D REG DEFINE BEGIN //// +//// 8'h34~8'h3f +// `define DET3D_MOTN_CFG 8'h34 +// //Bit 16, reg_det3d_intr_en Det3d interrupt enable +// //Bit 9:8, reg_Det3D_Motion_Mode U2 Different mode for Motion Calculation of Luma and Chroma: +// // 0: MotY, 1: (2*MotY + (MotU + MotV))/4; 2: Max(MotY, MotU,MotV); 3:Max(MotY, (MotU+MotV)/2) +// //Bit 7:4, reg_Det3D_Motion_Core_Rate U4 K Rate to Edge (HV) details for coring of Motion Calculations, normalized to 32 +// //Bit 3:0, reg_Det3D_Motion_Core_Thrd U4 2X: static coring value for Motion Detection. +// +// `define DET3D_CB_CFG 8'h35 +// //Bit 7:4, reg_Det3D_ChessBd_NHV_ofst U4, Noise immune offset for NON-Horizotnal or vertical combing detection. +// //Bit 3:0, reg_Det3D_ChessBd_HV_ofst U4, Noise immune offset for Horizotnal or vertical combing detection. +// +// `define DET3D_SPLT_CFG 8'h36 +// //Bit 7:4, reg_Det3D_SplitValid_ratio U4, Ratio between max_value and the avg_value of the edge mapping for split line valid detection. +// // The smaller of this value, the easier of the split line detected. +// //Bit 3:0, reg_Det3D_AvgIdx_ratio U4, Ratio to the avg_value of the edge mapping for split line position estimation. +// // The smaller of this value, the more samples will be added to the estimation. +// +// `define DET3D_HV_MUTE 8'h37 +// //Bit 23:20, reg_Det3D_Edge_Ver_Mute U4 X2: Horizontal pixels to be mute from H/V Edge calculation Top and Bottom border part. +// //Bit 19:16, reg_Det3D_Edge_Hor_Mute U4 X2: Horizontal pixels to be mute from H/V Edge calculation Left and right border part. +// //Bit 15:12, reg_Det3D_ChessBd_Ver_Mute U4 X2: Horizontal pixels to be mute from ChessBoard statistics calculation in middle part +// //Bit 11:8, reg_Det3D_ChessBd_Hor_Mute U4 X2: Horizontal pixels to be mute from ChessBoard statistics calculation in middle part +// //Bit 7:4, reg_Det3D_STA8X8_Ver_Mute U4 1X: Vertical pixels to be mute from 8x8 statistics calculation in each block. +// //Bit 3:0, reg_Det3D_STA8X8_Hor_Mute U4 1X: Horizontal pixels to be mute from 8x8 statistics calculation in each block. +// +// `define DET3D_MAT_STA_P1M1 8'h38 +// //Bit 31:24, reg_Det3D_STA8X8_P1_K0_R8 U8 SAD to SAI ratio to decide P1, normalized to 256 (0.8) +// //Bit 23:16, reg_Det3D_STA8X8_P1_K1_R7 U8 SAD to ENG ratio to decide P1, normalized to 128 (0.5) +// //Bit 15:8, reg_Det3D_STA8X8_M1_K0_R6 U8 SAD to SAI ratio to decide M1, normalized to 64 (1.1) +// //Bit 7:0, reg_Det3D_STA8X8_M1_K1_R6 U8 SAD to ENG ratio to decide M1, normalized to 64 (0.8) +// +// `define DET3D_MAT_STA_P1TH 8'h39 +// //Bit 23:16, reg_Det3D_STAYUV_P1_TH_L4 U8 SAD to ENG Thrd offset to decide P1, X16 (100) +// //Bit 15:8, reg_Det3D_STAEDG_P1_TH_L4 U8 SAD to ENG Thrd offset to decide P1, X16 (80) +// //Bit 7:0, reg_Det3D_STAMOT_P1_TH_L4 U8 SAD to ENG Thrd offset to decide P1, X16 (48) +// +// `define DET3D_MAT_STA_M1TH 8'h3a +// //Bit 23:16, reg_Det3D_STAYUV_M1_TH_L4 U8 SAD to ENG Thrd offset to decide M1, X16 (100) +// //Bit 15:8, reg_Det3D_STAEDG_M1_TH_L4 U8 SAD to ENG Thrd offset to decide M1, X16 (80) +// //Bit 7:0, reg_Det3D_STAMOT_M1_TH_L4 U8 SAD to ENG Thrd offset to decide M1, X16 (64) +// +// `define DET3D_MAT_STA_RSFT 8'h3b +// //Bit 5:4, reg_Det3D_STAYUV_RSHFT U2 YUV statistics SAD and SAI calculation result right shift bits to accommodate the 12bits clipping: +// // 0: mainly for images <=720x480: 1: mainly for images <=1366x768: 2: mainly for images <=1920X1080: 2; 3: other higher resolutions +// //Bit 3:2, reg_Det3D_STAEDG_RSHFT U2 Horizontal and Vertical Edge Statistics SAD and SAI calculation result right shift bits to accommodate the 12bits clipping: +// // 0: mainly for images <=720x480: 1: mainly for images <=1366x768: 2: mainly for images <=1920X1080: 2; 3: other higher resolutions +// //Bit 1:0, reg_Det3D_STAMOT_RSHFT U2 Motion SAD and SAI calculation result right shift bits to accommodate the 12bits clipping: +// // 0: mainly for images <=720x480: 1: mainly for images <=1366x768: 2: mainly for images <=1920X1080: 2; 3: other higher resolutions +// +// `define DET3D_MAT_SYMTC_TH 8'h3c +// //Bit 31:24, reg_Det3D_STALUM_symtc_Th U8 threshold to decide if the Luma statistics is TB or LR symmetric. +// //Bit 23:16, reg_Det3D_STACHR_symtc_Th U8 threshold to decide if the Chroma (UV) statistics is TB or LR symmetric. +// //Bit 15:8, reg_Det3D_STAEDG_symtc_Th U8 threshold to decide if the Horizontal and Vertical Edge statistics is TB or LR symmetric. +// //Bit 7:0, reg_Det3D_STAMOT_symtc_Th U8 threshold to decide if the Motion statistics is TB or LR symmetric. +// +// `define DET3D_RO_DET_CB_HOR 8'h3d +// //Bit 31:16, RO_Det3D_ChessBd_NHor_value U16 X64: number of Pixels of Horizontally Surely NOT matching Chessboard pattern. +// //Bit 15:0, RO_Det3D_ChessBd_Hor_value U16 X64: number of Pixels of Horizontally Surely matching Chessboard pattern. +// +// `define DET3D_RO_DET_CB_VER 8'h3e +// //Bit 31:16, RO_Det3D_ChessBd_NVer_value U16 X64: number of Pixels of Vertically Surely NOT matching Chessboard pattern. +// //Bit 15:0, RO_Det3D_ChessBd_Ver_value U16 X64: number of Pixels of Vertically Surely matching Chessboard pattern. +// +// `define DET3D_RO_SPLT_HT 8'h3f +// //Bit 24, RO_Det3D_Split_HT_valid U1 horizontal LR split border detected valid signal for top half picture +// //Bit 20:16, RO_Det3D_Split_HT_pxnum U5 number of pixels included for the LR split position estimation for top half picture +// //Bit 9:0, RO_Det3D_Split_HT_idxX4 S10 X4: horizontal pixel shifts of LR split position to the (ColMax/2) for top half picture +// +// //// DET 3D REG DEFINE END //// +#define DI_MTN_1_CTRL1 (0x1740) +#define P_DI_MTN_1_CTRL1 (volatile unsigned int *)((0x1740 << 2) + 0xff900000) +//bit 31, mtn_1_en +//bit 30, mtn_init +//bit 29, di2nr_txt_en +//bit 28, reserved +//bit 27:24, mtn_def +//bit 23:16, mtn_adp_yc +//bit 15:8, mtn_adp_2c +//bit 7:0, mtn_adp_2y +#define DI_MTN_1_CTRL2 (0x1741) +#define P_DI_MTN_1_CTRL2 (volatile unsigned int *)((0x1741 << 2) + 0xff900000) +//bit 31:24, mtn_ykinter +//bit 23:16, mtn_ckinter +//bit 15:8, mtn_ykintra +//bit 7:0, mtn_ckintra +#define DI_MTN_1_CTRL3 (0x1742) +#define P_DI_MTN_1_CTRL3 (volatile unsigned int *)((0x1742 << 2) + 0xff900000) +//bit 31:24, mtn_tyrate +//bit 23:16, mtn_tcrate +//bit 15: 8, mtn_mxcmby +//bit 7: 0, mtn_mxcmbc +#define DI_MTN_1_CTRL4 (0x1743) +#define P_DI_MTN_1_CTRL4 (volatile unsigned int *)((0x1743 << 2) + 0xff900000) +//bit 31:24, mtn_tcorey +//bit 23:16, mtn_tcorec +//bit 15: 8, mtn_minth +//bit 7: 0, mtn_maxth +#define DI_MTN_1_CTRL5 (0x1744) +#define P_DI_MTN_1_CTRL5 (volatile unsigned int *)((0x1744 << 2) + 0xff900000) +//bit 31:28, mtn_m1b_extnd +//bit 27:24, mtn_m1b_errod +//bit 21:20, mtn_mot_txt_mode +//bit 19:18, mtn_replace_cbyy +//bit 17:16, mtn_replace_ybyc +//bit 15: 8, mtn_core_ykinter +//bit 7: 0, mtn_core_ckinter +//// NR2 REG DEFINE BEGIN//// +#define NR2_MET_NM_CTRL (0x1745) +#define P_NR2_MET_NM_CTRL (volatile unsigned int *)((0x1745 << 2) + 0xff900000) +//Bit 28, reg_NM_reset Reset to the status of the Loop filter. +//Bit 27:24, reg_NM_calc_length Length mode of the Noise measurement sample number for statistics. +// 0: 256 samples; 1: 512 samples; 2: 1024 samples; 隆颅X: 2^(8+x) samples +//Bit 23:20, reg_NM_inc_step Loop filter input gain increase step. +//Bit 19:16, reg_NM_dec_step Loop filter input gain decrease step. +//Bit 15:8, reg_NM_YHPmot_thrd Luma channel HP portion motion for condition of pixels included in Luma Noise measurement. +//Bit 7:0, reg_NM_CHPmot_thrd Chroma channel HP portion motion for condition of pixels included in Chroma Noise measurement. +#define NR2_MET_NM_YCTRL (0x1746) +#define P_NR2_MET_NM_YCTRL (volatile unsigned int *)((0x1746 << 2) + 0xff900000) +//Bit 31:28, reg_NM_YPLL_target Target rate of NM_Ynoise_thrd to mean of the Luma Noise +//Bit 27:24, reg_NM_YLPmot_thrd Luma channel LP portion motion for condition of pixels included in Luma Noise measurement. +//Bit 23:16, reg_NM_YHPmot_thrd_min Minimum threshold for Luma channel HP portion motion to decide whether the pixel will be included in Luma noise measurement. +//Bit 15:8, reg_NM_YHPmot_thrd_max Maximum threshold for Luma channel HP portion motion to decide whether the pixel will be included in Luma noise measurement. +//Bit 7:0, reg_NM_Ylock_rate Rate to decide whether the Luma noise measurement is lock or not. +#define NR2_MET_NM_CCTRL (0x1747) +#define P_NR2_MET_NM_CCTRL (volatile unsigned int *)((0x1747 << 2) + 0xff900000) +//Bit 31:28, reg_NM_CPLL_target Target rate of NM_Cnoise_thrd to mean of the Chroma Noise +//Bit 27:24, reg_NM_CLPmot_thrd Chroma channel LP portion motion for condition of pixels included in Chroma Noise measurement. +//Bit 23:16, reg_NM_CHPmot_thrd_min Minimum threshold for Chroma channel HP portion motion to decide whether the pixel will be included in Chroma noise measurement. +//Bit 15:8, reg_NM_CHPmot_thrd_max Maximum threshold for Chroma channel HP portion motion to decide whether the pixel will be included in Chroma noise measurement. +//Bit 7:0, reg_NM_Clock_rate Rate to decide whether the Chroma noise measurement is lock or not; +#define NR2_MET_NM_TNR (0x1748) +#define P_NR2_MET_NM_TNR (volatile unsigned int *)((0x1748 << 2) + 0xff900000) +//Bit 25, ro_NM_TNR_Ylock Read-only register to tell ifLuma channel noise measurement is locked or not. +//Bit 24, ro_NM_TNR_Clock Read-only register to tell if Chroma channel noise measurement is locked or not. +//Bit 23:12, ro_NM_TNR_Ylevel Read-only register to give Luma channel noise level. It was 16x of pixel difference in 8 bits of YHPmot. +//Bit 11:0, ro_NM_TNR_Clevel Read-only register to give Chroma channel noise level. It was 16x of pixel difference in 8 bits of CHPmot. +#define NR2_MET_NMFRM_TNR_YLEV (0x1749) +#define P_NR2_MET_NMFRM_TNR_YLEV (volatile unsigned int *)((0x1749 << 2) + 0xff900000) +//Bit 28:0, ro_NMFrm_TNR_Ylevel Frame based Read-only register to give Luma channel noise level within one frame/field. +#define NR2_MET_NMFRM_TNR_YCNT (0x174a) +#define P_NR2_MET_NMFRM_TNR_YCNT (volatile unsigned int *)((0x174a << 2) + 0xff900000) +//Bit 23:0, ro_NMFrm_TNR_Ycount Number ofLuma channel pixels included in Frame/Field based noise level measurement. +#define NR2_MET_NMFRM_TNR_CLEV (0x174b) +#define P_NR2_MET_NMFRM_TNR_CLEV (volatile unsigned int *)((0x174b << 2) + 0xff900000) +//Bit 28:0, ro_NMFrm_TNR_Clevel Frame based Read-only register to give Chroma channel noise level within one frame/field. +#define NR2_MET_NMFRM_TNR_CCNT (0x174c) +#define P_NR2_MET_NMFRM_TNR_CCNT (volatile unsigned int *)((0x174c << 2) + 0xff900000) +//Bit 23:0, ro_NMFrm_TNR_Ccount Number of Chroma channel pixels included in Frame/Field based noise level measurement. +#define NR2_3DEN_MODE (0x174d) +#define P_NR2_3DEN_MODE (volatile unsigned int *)((0x174d << 2) + 0xff900000) +//Bit 6:4, Blend_3dnr_en_r +//Bit 2:0, Blend_3dnr_en_l +// `define NR2_IIR_CTRL 8'h4e +// //Bit 15:14, reg_LP_IIR_8bit_mode LP IIR membitwidth mode:0: 10bits will be store in memory;1: 9bits will be store in memory; +// // 2: 8bits will be store in memory;3: 7bits will be store in memory; +// //Bit 13:12, reg_LP_IIR_mute_mode Mode for the LP IIR mute, +// //Bit 11:8, reg_LP_IIR_mute_thrd Threshold of LP IIR mute to avoid ghost: +// //Bit 7:6, reg_HP_IIR_8bit_mode IIR membitwidth mode:0: 10bits will be store in memory;1: 9bits will be store in memory; +// // 2: 8bits will be store in memory;3: 7bits will be store in memory; +// //Bit 5:4, reg_HP_IIR_mute_mode Mode for theLP IIR mute +// //Bit 3:0, reg_HP_IIR_mute_thrd Threshold of HP IIR mute to avoid ghost +// // +#define NR2_SW_EN (0x174f) +#define P_NR2_SW_EN (volatile unsigned int *)((0x174f << 2) + 0xff900000) +//Bit 17:8, Clk_gate_ctrl +//Bit 7, Cfr_enable +//Bit 5, Det3d_en +//Bit 4, Nr2_proc_en +//Bit 0, Nr2_sw_en +#define NR2_FRM_SIZE (0x1750) +#define P_NR2_FRM_SIZE (volatile unsigned int *)((0x1750 << 2) + 0xff900000) +//Bit 27:16, Frm_heigh Frame/field height +//Bit 11: 0, Frm_width Frame/field width +// `define NR2_SNR_SAD_CFG 8'h51 +// //Bit 12, reg_MATNR_SNR_SAD_CenRPL U1, Enable signal for Current pixel position SAD to be replaced by SAD_min.0: do not replace Current pixel position SAD by SAD_min;1: do replacements +// //Bit 11:8, reg_MATNR_SNR_SAD_coring Coring value of the intra-frame SAD. sum = (sum - reg_MATNR_SNR_SAD_coring);sum = (sum<0) ? 0: (sum>255)? 255: sum; +// //Bit 6:5, reg_MATNR_SNR_SAD_WinMod Unsigned, Intra-frame SAD matching window mode:0: 1x1; 1: [1 1 1] 2: [1 2 1]; 3: [1 2 2 2 1]; +// //Bit 4:0, Sad_coef_num Sad coeffient +// +// `define NR2_MATNR_SNR_OS 8'h52 +// //Bit 7:4, reg_MATNR_SNR_COS SNR Filter overshoot control margin for UV channel (X2 to u10 scale) +// //Bit 3:0, reg_MATNR_SNR_YOS SNR Filter overshoot control margin for luma channel (X2 to u10 scale) +// +// `define NR2_MATNR_SNR_NRM_CFG 8'h53 +// //Bit 23:16, reg_MATNR_SNR_NRM_ofst Edge based SNR boosting normalization offset to SAD_max ; +// //Bit 15:8, reg_MATNR_SNR_NRM_max Edge based SNR boosting normalization Max value +// //Bit 7:0, reg_MATNR_SNR_NRM_min Edge based SNR boosting normalization Min value +// +// `define NR2_MATNR_SNR_NRM_GAIN 8'h54 +// //Bit 15:8, reg_MATNR_SNR_NRM_Cgain Edge based SNR boosting normalization Gain for Chrm channel (norm 32 as 1) +// //Bit 7:0, reg_MATNR_SNR_NRM_Ygain Edge based SNR boosting normalization Gain for Luma channel (norm 32 as 1) +// +// `define NR2_MATNR_SNR_LPF_CFG 8'h55 +// //Bit 23:16,reg_MATNR_SNRLPF_SADmaxTH U8, Threshold to SADmax to use TNRLPF to replace SNRLPF. i.e.if (SAD_max msb +//22:20 prehsc pattern start +//18:16 prehsc pattern end +//15:8 pattern, each patten 1 bit, from lsb -> msb +//6:4 pattern start +//2:0 pattern end +#define VPP2_HSC_INI_PAT_CTRL (0x1935) +#define P_VPP2_HSC_INI_PAT_CTRL (volatile unsigned int *)((0x1935 << 2) + 0xff900000) +//Bit 3 minus black level enable for vadj2 +//Bit 2 Video adjustment enable for vadj2 +//Bit 1 minus black level enable for vadj1 +//Bit 0 Video adjustment enable for vadj1 +#define VPP2_VADJ_CTRL (0x1940) +#define P_VPP2_VADJ_CTRL (volatile unsigned int *)((0x1940 << 2) + 0xff900000) +//Bit 16:8 brightness, signed value +//Bit 7:0 contrast, unsigned value, contrast from 0 <= contrast <2 +#define VPP2_VADJ1_Y (0x1941) +#define P_VPP2_VADJ1_Y (volatile unsigned int *)((0x1941 << 2) + 0xff900000) +//cb' = cb*ma + cr*mb +//cr' = cb*mc + cr*md +//all are bit 9:0, signed value, -2 < ma/mb/mc/md < 2 +#define VPP2_VADJ1_MA_MB (0x1942) +#define P_VPP2_VADJ1_MA_MB (volatile unsigned int *)((0x1942 << 2) + 0xff900000) +#define VPP2_VADJ1_MC_MD (0x1943) +#define P_VPP2_VADJ1_MC_MD (volatile unsigned int *)((0x1943 << 2) + 0xff900000) +//Bit 16:8 brightness, signed value +//Bit 7:0 contrast, unsigned value, contrast from 0 <= contrast <2 +#define VPP2_VADJ2_Y (0x1944) +#define P_VPP2_VADJ2_Y (volatile unsigned int *)((0x1944 << 2) + 0xff900000) +//cb' = cb*ma + cr*mb +//cr' = cb*mc + cr*md +//all are bit 9:0, signed value, -2 < ma/mb/mc/md < 2 +#define VPP2_VADJ2_MA_MB (0x1945) +#define P_VPP2_VADJ2_MA_MB (volatile unsigned int *)((0x1945 << 2) + 0xff900000) +#define VPP2_VADJ2_MC_MD (0x1946) +#define P_VPP2_VADJ2_MC_MD (volatile unsigned int *)((0x1946 << 2) + 0xff900000) +//Read only +//Bit 31, if it is true, it means this probe is valid in the last field/frame +//Bit 29:20 component 0 +//Bit 19:10 component 1 +//Bit 9:0 component 2 +#define VPP2_MATRIX_PROBE_COLOR (0x195c) +#define P_VPP2_MATRIX_PROBE_COLOR (volatile unsigned int *)((0x195c << 2) + 0xff900000) +//Bit 23:16 component 0 +//Bit 15:8 component 1 +//Bit 7:0 component 2 +#define VPP2_MATRIX_HL_COLOR (0x195d) +#define P_VPP2_MATRIX_HL_COLOR (volatile unsigned int *)((0x195d << 2) + 0xff900000) +//28:16 probe x, postion +//12:0 probe y, position +#define VPP2_MATRIX_PROBE_POS (0x195e) +#define P_VPP2_MATRIX_PROBE_POS (volatile unsigned int *)((0x195e << 2) + 0xff900000) +//Bit 16, highlight_en +//Bit 15 probe_post, if true, probe pixel data after matrix, otherwise probe pixel data before matrix +//Bit 14:12 probe_sel, 000: select post matrix, 001: select vd1 matrix, +//Bit 9:8 matrix coef idx selection, 00: select post matrix, 01: select vd1 matrix +//Bit 5 vd1 conversion matrix enable +//Bit 4 reserved +//Bit 2 output y/cb/cr saturation enable, only for post matrix (y saturate to 16-235, cb/cr saturate to 16-240) +//Bit 1 input y/cb/cr saturation enable, only for post matrix (y saturate to 16-235, cb/cr saturate to 16-240) +//Bit 0 post conversion matrix enable +#define VPP2_MATRIX_CTRL (0x195f) +#define P_VPP2_MATRIX_CTRL (volatile unsigned int *)((0x195f << 2) + 0xff900000) +//Bit 28:16 coef00 +//Bit 12:0 coef01 +#define VPP2_MATRIX_COEF00_01 (0x1960) +#define P_VPP2_MATRIX_COEF00_01 (volatile unsigned int *)((0x1960 << 2) + 0xff900000) +//Bit 28:16 coef02 +//Bit 12:0 coef10 +#define VPP2_MATRIX_COEF02_10 (0x1961) +#define P_VPP2_MATRIX_COEF02_10 (volatile unsigned int *)((0x1961 << 2) + 0xff900000) +//Bit 28:16 coef11 +//Bit 12:0 coef12 +#define VPP2_MATRIX_COEF11_12 (0x1962) +#define P_VPP2_MATRIX_COEF11_12 (volatile unsigned int *)((0x1962 << 2) + 0xff900000) +//Bit 28:16 coef20 +//Bit 12:0 coef21 +#define VPP2_MATRIX_COEF20_21 (0x1963) +#define P_VPP2_MATRIX_COEF20_21 (volatile unsigned int *)((0x1963 << 2) + 0xff900000) +#define VPP2_MATRIX_COEF22 (0x1964) +#define P_VPP2_MATRIX_COEF22 (volatile unsigned int *)((0x1964 << 2) + 0xff900000) +//Bit 26:16 offset0 +//Bit 10:0 offset1 +#define VPP2_MATRIX_OFFSET0_1 (0x1965) +#define P_VPP2_MATRIX_OFFSET0_1 (volatile unsigned int *)((0x1965 << 2) + 0xff900000) +//Bit 10:0 offset2 +#define VPP2_MATRIX_OFFSET2 (0x1966) +#define P_VPP2_MATRIX_OFFSET2 (volatile unsigned int *)((0x1966 << 2) + 0xff900000) +//Bit 26:16 pre_offset0 +//Bit 10:0 pre_offset1 +#define VPP2_MATRIX_PRE_OFFSET0_1 (0x1967) +#define P_VPP2_MATRIX_PRE_OFFSET0_1 (volatile unsigned int *)((0x1967 << 2) + 0xff900000) +//Bit 10:0 pre_offset2 +#define VPP2_MATRIX_PRE_OFFSET2 (0x1968) +#define P_VPP2_MATRIX_PRE_OFFSET2 (volatile unsigned int *)((0x1968 << 2) + 0xff900000) +// dummy data used in the VPP postblend +// Bit 23:16 Y +// Bit 15:8 CB +// Bit 7:0 CR +#define VPP2_DUMMY_DATA1 (0x1969) +#define P_VPP2_DUMMY_DATA1 (volatile unsigned int *)((0x1969 << 2) + 0xff900000) +//Bit 31 gainoff module enable +//Bit 26:16 gain0, 1.10 unsigned data +//Bit 10:0 gain1, 1.10 unsigned dat +#define VPP2_GAINOFF_CTRL0 (0x196a) +#define P_VPP2_GAINOFF_CTRL0 (volatile unsigned int *)((0x196a << 2) + 0xff900000) +//Bit 26:16 gain2, 1.10 unsigned data +//Bit 10:0, offset0, signed data +#define VPP2_GAINOFF_CTRL1 (0x196b) +#define P_VPP2_GAINOFF_CTRL1 (volatile unsigned int *)((0x196b << 2) + 0xff900000) +//Bit 26:16, offset1, signed data +//Bit 10:0, offset2, signed data +#define VPP2_GAINOFF_CTRL2 (0x196c) +#define P_VPP2_GAINOFF_CTRL2 (volatile unsigned int *)((0x196c << 2) + 0xff900000) +//Bit 26:16, pre_offset0, signed data +//Bit 10:0, pre_offset1, signed data +#define VPP2_GAINOFF_CTRL3 (0x196d) +#define P_VPP2_GAINOFF_CTRL3 (volatile unsigned int *)((0x196d << 2) + 0xff900000) +//Bit 10:0, pre_offset2, signed data +#define VPP2_GAINOFF_CTRL4 (0x196e) +#define P_VPP2_GAINOFF_CTRL4 (volatile unsigned int *)((0x196e << 2) + 0xff900000) +//only two registers used in the color management, which are defined in the chroma_reg.h +#define VPP2_CHROMA_ADDR_PORT (0x1970) +#define P_VPP2_CHROMA_ADDR_PORT (volatile unsigned int *)((0x1970 << 2) + 0xff900000) +#define VPP2_CHROMA_DATA_PORT (0x1971) +#define P_VPP2_CHROMA_DATA_PORT (volatile unsigned int *)((0x1971 << 2) + 0xff900000) +//`include "chroma_reg.h" //defined inside is the indirect addressed registers +//(hsvsharp), (blue), gainoff, mat_vd1,mat_vd2, mat_post, prebld, postbld,(hsharp),sco_ff, vadj1, vadj2, ofifo, (chroma1), clk0(free_clk) vpp_reg +//each item 2bits, for each 2bits, if bit 2*i+1 == 1, free clk, else if bit 2*i == 1 no clk, else auto gated clock +//bit1 is not used, because I can not turn off vpp_reg clk because I can not turn on again +//because the register itself canot be set again without clk +//Bit 31:0 +#define VPP2_GCLK_CTRL0 (0x1972) +#define P_VPP2_GCLK_CTRL0 (volatile unsigned int *)((0x1972 << 2) + 0xff900000) +//Chroma2_filter, Chroma2, (Ccoring), (blackext), dnlp +//Bit 9:0 +#define VPP2_GCLK_CTRL1 (0x1973) +#define P_VPP2_GCLK_CTRL1 (volatile unsigned int *)((0x1973 << 2) + 0xff900000) +//prehsc_clk, line_buf, prevsc, vsc, hsc_clk, clk0(free_clk) +//Bit 11:0 +#define VPP2_SC_GCLK_CTRL (0x1974) +#define P_VPP2_SC_GCLK_CTRL (volatile unsigned int *)((0x1974 << 2) + 0xff900000) +//Bit 17:9 VD1 alpha for preblend +//Bit 8:0 VD1 alpha for postblend +#define VPP2_MISC1 (0x1976) +#define P_VPP2_MISC1 (volatile unsigned int *)((0x1976 << 2) + 0xff900000) +//Bit 31:24 bottom of region03 output value +//Bit 23:16 bottom of region02 output value +//Bit 15:8 bottom of region01 output value +//Bit 7:0 bottom of region00 output value +#define VPP2_DNLP_CTRL_00 (0x1981) +#define P_VPP2_DNLP_CTRL_00 (volatile unsigned int *)((0x1981 << 2) + 0xff900000) +//Bit 31:24 bottom of region07 output value +//Bit 23:16 bottom of region06 output value +//Bit 15:8 bottom of region05 output value +//Bit 7:0 bottom of region04 output value +#define VPP2_DNLP_CTRL_01 (0x1982) +#define P_VPP2_DNLP_CTRL_01 (volatile unsigned int *)((0x1982 << 2) + 0xff900000) +//Bit 31:24 bottom of region11 output value +//Bit 23:16 bottom of region10 output value +//Bit 15:8 bottom of region09 output value +//Bit 7:0 bottom of region08 output value +#define VPP2_DNLP_CTRL_02 (0x1983) +#define P_VPP2_DNLP_CTRL_02 (volatile unsigned int *)((0x1983 << 2) + 0xff900000) +//Bit 31:24 bottom of region15 output value +//Bit 23:16 bottom of region14 output value +//Bit 15:8 bottom of region13 output value +//Bit 7:0 bottom of region12 output value +#define VPP2_DNLP_CTRL_03 (0x1984) +#define P_VPP2_DNLP_CTRL_03 (volatile unsigned int *)((0x1984 << 2) + 0xff900000) +//Bit 31:24 bottom of region19 output value +//Bit 23:16 bottom of region18 output value +//Bit 15:8 bottom of region17 output value +//Bit 7:0 bottom of region16 output value +#define VPP2_DNLP_CTRL_04 (0x1985) +#define P_VPP2_DNLP_CTRL_04 (volatile unsigned int *)((0x1985 << 2) + 0xff900000) +//Bit 31:24 bottom of region23 output value +//Bit 23:16 bottom of region22 output value +//Bit 15:8 bottom of region21 output value +//Bit 7:0 bottom of region20 output value +#define VPP2_DNLP_CTRL_05 (0x1986) +#define P_VPP2_DNLP_CTRL_05 (volatile unsigned int *)((0x1986 << 2) + 0xff900000) +//Bit 31:24 bottom of region27 output value +//Bit 23:16 bottom of region26 output value +//Bit 15:8 bottom of region25 output value +//Bit 7:0 bottom of region24 output value +#define VPP2_DNLP_CTRL_06 (0x1987) +#define P_VPP2_DNLP_CTRL_06 (volatile unsigned int *)((0x1987 << 2) + 0xff900000) +//Bit 31:24 bottom of region31 output value +//Bit 23:16 bottom of region30 output value +//Bit 15:8 bottom of region29 output value +//Bit 7:0 bottom of region28 output value +#define VPP2_DNLP_CTRL_07 (0x1988) +#define P_VPP2_DNLP_CTRL_07 (volatile unsigned int *)((0x1988 << 2) + 0xff900000) +//Bit 31:24 bottom of region35 output value +//Bit 23:16 bottom of region34 output value +//Bit 15:8 bottom of region33 output value +//Bit 7:0 bottom of region32 output value +#define VPP2_DNLP_CTRL_08 (0x1989) +#define P_VPP2_DNLP_CTRL_08 (volatile unsigned int *)((0x1989 << 2) + 0xff900000) +//Bit 31:24 bottom of region39 output value +//Bit 23:16 bottom of region38 output value +//Bit 15:8 bottom of region37 output value +//Bit 7:0 bottom of region36 output value +#define VPP2_DNLP_CTRL_09 (0x198a) +#define P_VPP2_DNLP_CTRL_09 (volatile unsigned int *)((0x198a << 2) + 0xff900000) +//Bit 31:24 bottom of region43 output value +//Bit 23:16 bottom of region42 output value +//Bit 15:8 bottom of region41 output value +//Bit 7:0 bottom of region40 output value +#define VPP2_DNLP_CTRL_10 (0x198b) +#define P_VPP2_DNLP_CTRL_10 (volatile unsigned int *)((0x198b << 2) + 0xff900000) +//Bit 31:24 bottom of region47 output value +//Bit 23:16 bottom of region46 output value +//Bit 15:8 bottom of region45 output value +//Bit 7:0 bottom of region44 output value +#define VPP2_DNLP_CTRL_11 (0x198c) +#define P_VPP2_DNLP_CTRL_11 (volatile unsigned int *)((0x198c << 2) + 0xff900000) +//Bit 31:24 bottom of region51 output value +//Bit 23:16 bottom of region50 output value +//Bit 15:8 bottom of region49 output value +//Bit 7:0 bottom of region48 output value +#define VPP2_DNLP_CTRL_12 (0x198d) +#define P_VPP2_DNLP_CTRL_12 (volatile unsigned int *)((0x198d << 2) + 0xff900000) +//Bit 31:24 bottom of region55 output value +//Bit 23:16 bottom of region54 output value +//Bit 15:8 bottom of region53 output value +//Bit 7:0 bottom of region52 output value +#define VPP2_DNLP_CTRL_13 (0x198e) +#define P_VPP2_DNLP_CTRL_13 (volatile unsigned int *)((0x198e << 2) + 0xff900000) +//Bit 31:24 bottom of region59 output value +//Bit 23:16 bottom of region58 output value +//Bit 15:8 bottom of region57 output value +//Bit 7:0 bottom of region56 output value +#define VPP2_DNLP_CTRL_14 (0x198f) +#define P_VPP2_DNLP_CTRL_14 (volatile unsigned int *)((0x198f << 2) + 0xff900000) +//Bit 31:24 bottom of region63 output value +//Bit 23:16 bottom of region62 output value +//Bit 15:8 bottom of region61 output value +//Bit 7:0 bottom of region60 output value +#define VPP2_DNLP_CTRL_15 (0x1990) +#define P_VPP2_DNLP_CTRL_15 (volatile unsigned int *)((0x1990 << 2) + 0xff900000) +//Bit 20 reserved +//Bit 19 reserved +//Bit 18 demo dynamic nonlinear luma processing enable +//Bit 17 reserved +//Bit 16 reserved +//Bit 15:14, 2'b00: demo adjust on top, 2'b01: demo adjust on bottom, 2'b10: demo adjust on left, 2'b11: demo adjust on right +//Bit 4 reserved +//Bit 3 reserved +//Bit 2 dynamic nonlinear luma processing enable +//Bit 1 reserved +//Bit 0 reserved +#define VPP2_VE_ENABLE_CTRL (0x19a1) +#define P_VPP2_VE_ENABLE_CTRL (volatile unsigned int *)((0x19a1 << 2) + 0xff900000) +//Bit 12:0, demo left or top screen width +#define VPP2_VE_DEMO_LEFT_TOP_SCREEN_WIDTH (0x19a2) +#define P_VPP2_VE_DEMO_LEFT_TOP_SCREEN_WIDTH (volatile unsigned int *)((0x19a2 << 2) + 0xff900000) +#define VPP2_VE_DEMO_CENTER_BAR (0x19a3) +#define P_VPP2_VE_DEMO_CENTER_BAR (volatile unsigned int *)((0x19a3 << 2) + 0xff900000) +//28:16 ve_line_length +//12:0 ve_pic_height +#define VPP2_VE_H_V_SIZE (0x19a4) +#define P_VPP2_VE_H_V_SIZE (volatile unsigned int *)((0x19a4 << 2) + 0xff900000) +//Bit 10 reset bit, high active +//Bit 9 0: measuring rising edge, 1: measuring falling edge +//Bit 8 if true, accumulate the counter number, otherwise not +//Bit 7:0 vsync_span, define how many vsync span need to measure +#define VPP2_VDO_MEAS_CTRL (0x19a8) +#define P_VPP2_VDO_MEAS_CTRL (volatile unsigned int *)((0x19a8 << 2) + 0xff900000) +//Read only +//19:16 ind_meas_count_n, every number of sync_span vsyncs, this counter add 1 +//15:0, high bit portion of counter +#define VPP2_VDO_MEAS_VS_COUNT_HI (0x19a9) +#define P_VPP2_VDO_MEAS_VS_COUNT_HI (volatile unsigned int *)((0x19a9 << 2) + 0xff900000) +//Read only +//31:0, low bit portion of counter +#define VPP2_VDO_MEAS_VS_COUNT_LO (0x19aa) +#define P_VPP2_VDO_MEAS_VS_COUNT_LO (volatile unsigned int *)((0x19aa << 2) + 0xff900000) +//vertical scaler phase step +//Bit 27:0, 4.24 format +#define VPP2_OSD_VSC_PHASE_STEP (0x19c0) +#define P_VPP2_OSD_VSC_PHASE_STEP (volatile unsigned int *)((0x19c0 << 2) + 0xff900000) +//Bit 31:16, botttom vertical scaler initial phase +//Bit 15:0, top vertical scaler initial phase +#define VPP2_OSD_VSC_INI_PHASE (0x19c1) +#define P_VPP2_OSD_VSC_INI_PHASE (volatile unsigned int *)((0x19c1 << 2) + 0xff900000) +//Bit 24 osd vertical Scaler enable +//Bit 23 osd_prog_interlace 0: current field is progressive, 1: current field is interlace +//Bit 22:21 osd_vsc_double_line_mode, bit1, double input width and half input height, bit0, change line buffer becomes 2 lines +//Bit 20 osd_vsc_phase0_always_en +//Bit 19 osd_vsc_nearest_en +//Bit 17:16 osd_vsc_bot_rpt_l0_num +//Bit 14:11 osd_vsc_bot_ini_rcv_num +//Bit 9:8 osd_vsc_top_rpt_l0_num +//Bit 6:3 osd_vsc_top_ini_rcv_num +//Bit 2:0 osd_vsc_bank_length +#define VPP2_OSD_VSC_CTRL0 (0x19c2) +#define P_VPP2_OSD_VSC_CTRL0 (volatile unsigned int *)((0x19c2 << 2) + 0xff900000) +//horizontal scaler phase step +//Bit 27:0, 4.24 format +#define VPP2_OSD_HSC_PHASE_STEP (0x19c3) +#define P_VPP2_OSD_HSC_PHASE_STEP (volatile unsigned int *)((0x19c3 << 2) + 0xff900000) +//Bit 31:16, horizontal scaler initial phase1 +//Bit 15:0, horizontal scaler initial phase0 +#define VPP2_OSD_HSC_INI_PHASE (0x19c4) +#define P_VPP2_OSD_HSC_INI_PHASE (volatile unsigned int *)((0x19c4 << 2) + 0xff900000) +//Bit 22 osd horizontal scaler enable +//Bit 21 osd_hsc_double_pix_mode +//Bit 20 osd_hsc_phase0_always_en +//Bit 19 osd_hsc_nearest_en +//Bit 17:16 osd_hsc_rpt_p0_num1 +//Bit 14:11 osd_hsc_ini_rcv_num1 +//Bit 9:8 osd_hsc_rpt_p0_num0 +//Bit 6:3 osd_hsc_ini_rcv_num0 +//Bit 2:0 osd_hsc_bank_length +#define VPP2_OSD_HSC_CTRL0 (0x19c5) +#define P_VPP2_OSD_HSC_CTRL0 (volatile unsigned int *)((0x19c5 << 2) + 0xff900000) +//for 3D quincunx sub-sampling +//bit 15:8 pattern, each patten 1 bit, from lsb -> msb +//bit 6:4 pattern start +//bit 2:0 pattern end +#define VPP2_OSD_HSC_INI_PAT_CTRL (0x19c6) +#define P_VPP2_OSD_HSC_INI_PAT_CTRL (volatile unsigned int *)((0x19c6 << 2) + 0xff900000) +//bit 31:24, componet 0 +//bit 23:16, component 1 +//bit 15:8, component 2 +//bit 7:0 component 3, alpha +#define VPP2_OSD_SC_DUMMY_DATA (0x19c7) +#define P_VPP2_OSD_SC_DUMMY_DATA (volatile unsigned int *)((0x19c7 << 2) + 0xff900000) +//Bit 14 osc_sc_din_osd1_alpha_mode, 1: (alpha >= 128) ? alpha -1: alpha, 0: (alpha >=1) ? alpha - 1: alpha. +//Bit 13 osc_sc_din_osd2_alpha_mode, 1: (alpha >= 128) ? alpha -1: alpha, 0: (alpha >=1) ? alpha - 1: alpha. +//Bit 12 osc_sc_dout_alpha_mode, 1: (alpha >= 128) ? alpha + 1: alpha, 0: (alpha >=1) ? alpha + 1: alpha. +//Bit 12 osc_sc_alpha_mode, 1: (alpha >= 128) ? alpha + 1: alpha, 0: (alpha >=1) ? alpha + 1: alpha. +//Bit 11:4 default alpha for vd1 or vd2 if they are selected as the source +//Bit 3 osd scaler path enable +//Bit 1:0 osd_sc_sel, 00: select osd1 input, 01: select osd2 input, 10: select vd1 input, 11: select vd2 input after matrix +#define VPP2_OSD_SC_CTRL0 (0x19c8) +#define P_VPP2_OSD_SC_CTRL0 (volatile unsigned int *)((0x19c8 << 2) + 0xff900000) +//Bit 28:16 OSD scaler input width minus 1 +//Bit 12:0 OSD scaler input height minus 1 +#define VPP2_OSD_SCI_WH_M1 (0x19c9) +#define P_VPP2_OSD_SCI_WH_M1 (volatile unsigned int *)((0x19c9 << 2) + 0xff900000) +//Bit 28:16 OSD scaler output horizontal start +//Bit 12:0 OSD scaler output horizontal end +#define VPP2_OSD_SCO_H_START_END (0x19ca) +#define P_VPP2_OSD_SCO_H_START_END (volatile unsigned int *)((0x19ca << 2) + 0xff900000) +//Bit 28:16 OSD scaler output vertical start +//Bit 12:0 OSD scaler output vertical end +#define VPP2_OSD_SCO_V_START_END (0x19cb) +#define P_VPP2_OSD_SCO_V_START_END (volatile unsigned int *)((0x19cb << 2) + 0xff900000) +//Because there are many coefficients used in the vertical filter and horizontal filters, +//indirect access the coefficients of vertical filter and horizontal filter is used. +//For vertical filter, there are 33x4 coefficients +//For horizontal filter, there are 33x4 coefficients +//Bit 15 index increment, if bit9 == 1 then (0: index increase 1, 1: index increase 2) else (index increase 2) +//Bit 14 1: read coef through cbus enable, just for debug purpose in case when we wanna check the coef in ram in correct or not +//Bit 9 if true, use 9bit resolution coef, other use 8bit resolution coef +//Bit 8 type of index, 0: vertical coef, 1: horizontal coef +//Bit 6:0 coef index +#define VPP2_OSD_SCALE_COEF_IDX (0x19cc) +#define P_VPP2_OSD_SCALE_COEF_IDX (volatile unsigned int *)((0x19cc << 2) + 0xff900000) +//coefficients for vertical filter and horizontal filter +#define VPP2_OSD_SCALE_COEF (0x19cd) +#define P_VPP2_OSD_SCALE_COEF (volatile unsigned int *)((0x19cd << 2) + 0xff900000) +//Bit 12:0 line number use to generate interrupt when line == this number +#define VPP2_INT_LINE_NUM (0x19ce) +#define P_VPP2_INT_LINE_NUM (volatile unsigned int *)((0x19ce << 2) + 0xff900000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: vpp2_regs.h +// +//`define VIU_VCBUS_BASE 8'h1a +// +// Reading file: vregs_clk2.h +// +//=========================================================================== +// Video Interface Registers 0xa00 - 0xaff +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: VIU_VCBUS_BASE = 0x1a +// ----------------------------------------------- +#define VIU_ADDR_START (0x1a00) +#define P_VIU_ADDR_START (volatile unsigned int *)((0x1a00 << 2) + 0xff900000) +#define VIU_ADDR_END (0x1aff) +#define P_VIU_ADDR_END (volatile unsigned int *)((0x1aff << 2) + 0xff900000) +//`define TRACE_REG 8'ff +//------------------------------------------------------------------------------ +// VIU top-level registers +//------------------------------------------------------------------------------ +// Bit 0 RW, osd1_reset +// Bit 1 RW, osd2_reset +// Bit 2 RW, vd1_reset +// Bit 3 RW, vd1_fmt_reset +// Bit 4 RW, vd2_reset +// Bit 5 RW, vd2_fmt_reset +// Bit 6 RW, di_dsr1to2_reset +// Bit 7 RW, vpp_reset +// Bit 8 RW, di_if1_reset +// Bit 9 RW, di_if1_fmt_reset +// Bit 10 RW, di_inp_reset +// Bit 11 RW, di_inp_fmt_reset +// Bit 12 RW, di_mem_reset +// Bit 13 RW, di_mem_fmt_reset +// Bit 14 RW, di_nr_wr_mif_reset +// Bit 15 RW, dein_wr_mif_reset +// Bit 16 RW, di_chan2_mif_reset +// Bit 17 RW, di_mtn_wr_mif_reset +// Bit 18 RW, di_mtn_rd_mif_reset +// Bit 19 RW, di_mad_reset +// Bit 20 RW, vdin0_reset +// Bit 21 RW, vdin1_reset +// Bit 22 RW, nrin_mux_reset +// Bit 23 RW, vdin0_wr_reset +// Bit 24 RW, vdin1_wr_reset +// Bit 25 RW, reserved +// Bit 26 RW, d2d3_reset +// Bit 27 RW, di_cont_wr_mif_reset +// Bit 28 RW, di_cont_rd_mif_reset +#define VIU_SW_RESET (0x1a01) +#define P_VIU_SW_RESET (volatile unsigned int *)((0x1a01 << 2) + 0xff900000) +#define VIU_SW_RESET0 (0x1a02) +#define P_VIU_SW_RESET0 (volatile unsigned int *)((0x1a02 << 2) + 0xff900000) +// Bit 0 RW, software reset for mcvecrd_mif +// Bit 1 RW, software reset for mcinfowr_mif +// Bit 2 RW, software reset for mcinford_mif +#define VIU_SECURE_REG (0x1a04) +#define P_VIU_SECURE_REG (volatile unsigned int *)((0x1a04 << 2) + 0xff900000) +// Bit 0 RW, dolby core1_tv secure w and r +// Bit 1 RW, dolby core2 secure w and r +// Bit 2 RW, dolby core3 secure w and r +// Bit 3 RW, for osd1 secure read +// Bit 4 RW, for osd2 secure read +#define DOLBY_INT_STAT (0x1a05) +#define P_DOLBY_INT_STAT (volatile unsigned int *)((0x1a05 << 2) + 0xff900000) +// todo +//bit 15:12 osdbld_gclk_ctrl 3:2 regclk ctrl 1:0 blending clk control +//bit 8 if true, vsync interrup is generate only field == 0 +//bit 7:0 fix_disable +#define VIU_MISC_CTRL0 (0x1a06) +#define P_VIU_MISC_CTRL0 (volatile unsigned int *)((0x1a06 << 2) + 0xff900000) +#define VIU_MISC_CTRL1 (0x1a07) +#define P_VIU_MISC_CTRL1 (volatile unsigned int *)((0x1a07 << 2) + 0xff900000) +// Bit 15:14 mali_afbcd_gclk_ctrl mali_afbcd clock gate control[5:4] +// Bit 12 osd1_afbcd_axi_mux 0 : use the osd mif as input; 1 : use afbcd as input +// Bit 11:8 mali_afbcd_gclk_ctrl mali_afbcd clock gate control[3:0] +// Bit 7:2 vd2_afbcd_gclk_ctrl vd2_afbcd clock gate control +// Bit 1 vpp_vd2_din_sel 0: vpp vd2 sel the mif input; 1: vpp vd2 sel the dos afbcd +// Bit 0 vd2_afbcd_out_sel 0: vd2_afbcd output to vpp; 1 : vd2_afbcd output to di inp +#define D2D3_INTF_LENGTH (0x1a08) +#define P_D2D3_INTF_LENGTH (volatile unsigned int *)((0x1a08 << 2) + 0xff900000) +// Bit 31:30 vdin0 dout splitter, bit 0 turns on vdin0 to old path, bit 1 turns on vdin0 to d2d3_intf vdin0 input path +// Bit 29:28 vdin1 dout splitter, bit 0 turns on vdin1 to old path, bit 1 turns on vdin1 to d2d3_intf vdin1 input path +// Bit 27:26 NR write dout splitter, bit 0 turns on NR write to old path, bit 1 turns on NR WR to d2d3_intf NR WR input path +// Bit 23 if true, turn on clk_d2d3_reg (register clock) +// Bit 22 if true, turn on clk_d2d3 +// Bit 21 reg_v1_go_line +// Bit 20 reg_v1_go_field +// Bit 19 reg_v0_go_field +// Bit 18:16 v1_gofld_sel, 000: display go_field/go_line, 001: DI pre_frame_rst/go_line, 010: vdin0 go_field/go_line, +//011: vdin1 go_field/go_line, otherwise: force go_field by reg_v1_go_field(bit20), force go_line by reg_v1_go_line(bit21) +// Bit 15:13 v0_gofld_sel, 000: display go_field, 001: DI pre_frame_rst, 010: vdin0 go_field, 011: vdin1 go_field, otherwise: force go_field by +// reg_v0_go_field(bit19) +// Bit 12:6 hole_lines for d2d3 depth read interface +// Bit 5:4 d2d3_v1_sel, 2'b01: video display read interface(DI or vd1 fomart output), 2'b10: scale output, otherwise nothing as v1 +// Bit 3 use_vdin_eol, if true, use vdin eol as the v0_eol, otherwise using length to get the v0_eol +// Bit 2:0 d2d3_v0_sel 001: vdin0, 010: vdin1, 011: NRW, 100: video display read interface(DI or vd1 fomart output), 101: vpp scale output +// +#define D2D3_INTF_CTRL0 (0x1a09) +#define P_D2D3_INTF_CTRL0 (volatile unsigned int *)((0x1a09 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// OSD1 registers +//------------------------------------------------------------------------------ +// Bit 31 Reserved +// Bit 30 RW, enable_free_clk: 1=use free-running clock to drive logics; +// 0=use gated clock for low power. +// Bit 29 R, test_rd_dsr +// Bit 28 R, osd_done +// Bit 27:24 R, osd_blk_mode +// Bit 23:22 R, osd_blk_ptr +// Bit 21 R, osd_enable +// +// Bit 20:12 RW, global_alpha +// Bit 11 RW, test_rd_en +// Bit 10: 9 Reserved for control signals +// Bit 8: 5 RW, ctrl_mtch_y +// Bit 4 RW, ctrl_422to444 +// Bit 3: 0 RW, osd_blk_enable. Bit 0 to enable block 0: 1=enable, 0=disable; +// Bit 1 to enable block 1, and so on. +#define VIU_OSD1_CTRL_STAT (0x1a10) +#define P_VIU_OSD1_CTRL_STAT (volatile unsigned int *)((0x1a10 << 2) + 0xff900000) +// Bit 31:26 Reserved +// Bit 25:16 R, fifo_count +// Bit 15 RW, osd_dpath_sel 0-osd1 mif 1-vpu mali afbcd +// Bit 14 RW, replaced_alpha_en +// Bit 13: 6 RW, replaced_alpha +// Bit 5: 4 RW, hold_fifo_lines[6:5] +// Bit 3 RW, rgb2yuv_full_range +// Bit 2 RW, alpha_9b_mode +// Bit 1 RW, reserved +// Bit 0 RW, color_expand_mode +#define VIU_OSD1_CTRL_STAT2 (0x1a2d) +#define P_VIU_OSD1_CTRL_STAT2 (volatile unsigned int *)((0x1a2d << 2) + 0xff900000) +// Bit 31: 9 Reserved +// Bit 8 RW, 0 = Write LUT, 1 = Read LUT +// Bit 7: 0 RW, lut_addr +#define VIU_OSD1_COLOR_ADDR (0x1a11) +#define P_VIU_OSD1_COLOR_ADDR (volatile unsigned int *)((0x1a11 << 2) + 0xff900000) +// Bit 31:24 RW, Y or R +// Bit 23:16 RW, Cb or G +// Bit 15: 8 RW, Cr or B +// Bit 7: 0 RW, Alpha +#define VIU_OSD1_COLOR (0x1a12) +#define P_VIU_OSD1_COLOR (volatile unsigned int *)((0x1a12 << 2) + 0xff900000) +// Bit 31:24 RW, Y or R +// Bit 23:16 RW, Cb or G +// Bit 15: 8 RW, Cr or B +// Bit 7: 0 RW, Alpha +#define VIU_OSD1_TCOLOR_AG0 (0x1a17) +#define P_VIU_OSD1_TCOLOR_AG0 (volatile unsigned int *)((0x1a17 << 2) + 0xff900000) +#define VIU_OSD1_TCOLOR_AG1 (0x1a18) +#define P_VIU_OSD1_TCOLOR_AG1 (volatile unsigned int *)((0x1a18 << 2) + 0xff900000) +#define VIU_OSD1_TCOLOR_AG2 (0x1a19) +#define P_VIU_OSD1_TCOLOR_AG2 (volatile unsigned int *)((0x1a19 << 2) + 0xff900000) +#define VIU_OSD1_TCOLOR_AG3 (0x1a1a) +#define P_VIU_OSD1_TCOLOR_AG3 (volatile unsigned int *)((0x1a1a << 2) + 0xff900000) +// Bit 31:30 Reserved +// Bit 29 RW, y_rev: 0=normal read, 1=reverse read in Y direction +// Bit 28 RW, x_rev: 0=normal read, 1=reverse read in X direction +// Bit 27:24 Reserved +// Bit 23:16 RW, tbl_addr +// Bit 15 RW, little_endian: 0=big endian, 1=little endian +// Bit 14 RW, rpt_y +// Bit 13:12 RW, interp_ctrl. 0x=No interpolation; 10=Interpolate with previous +// pixel; 11=Interpolate with the average value +// between previous and next pixel. +// Bit 11: 8 RW, osd_blk_mode +// Bit 7 RW, rgb_en +// Bit 6 RW, tc_alpha_en +// Bit 5: 2 RW, color_matrix +// Bit 1 RW, interlace_en +// Bit 0 RW, interlace_sel_odd +#define VIU_OSD1_BLK0_CFG_W0 (0x1a1b) +#define P_VIU_OSD1_BLK0_CFG_W0 (volatile unsigned int *)((0x1a1b << 2) + 0xff900000) +#define VIU_OSD1_BLK1_CFG_W0 (0x1a1f) +#define P_VIU_OSD1_BLK1_CFG_W0 (volatile unsigned int *)((0x1a1f << 2) + 0xff900000) +#define VIU_OSD1_BLK2_CFG_W0 (0x1a23) +#define P_VIU_OSD1_BLK2_CFG_W0 (volatile unsigned int *)((0x1a23 << 2) + 0xff900000) +#define VIU_OSD1_BLK3_CFG_W0 (0x1a27) +#define P_VIU_OSD1_BLK3_CFG_W0 (volatile unsigned int *)((0x1a27 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, x_end +// Bit 15:13 Reserved +// Bit 12: 0 RW, x_start +#define VIU_OSD1_BLK0_CFG_W1 (0x1a1c) +#define P_VIU_OSD1_BLK0_CFG_W1 (volatile unsigned int *)((0x1a1c << 2) + 0xff900000) +#define VIU_OSD1_BLK1_CFG_W1 (0x1a20) +#define P_VIU_OSD1_BLK1_CFG_W1 (volatile unsigned int *)((0x1a20 << 2) + 0xff900000) +#define VIU_OSD1_BLK2_CFG_W1 (0x1a24) +#define P_VIU_OSD1_BLK2_CFG_W1 (volatile unsigned int *)((0x1a24 << 2) + 0xff900000) +#define VIU_OSD1_BLK3_CFG_W1 (0x1a28) +#define P_VIU_OSD1_BLK3_CFG_W1 (volatile unsigned int *)((0x1a28 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, y_end +// Bit 15:13 Reserved +// Bit 12: 0 RW, y_start +#define VIU_OSD1_BLK0_CFG_W2 (0x1a1d) +#define P_VIU_OSD1_BLK0_CFG_W2 (volatile unsigned int *)((0x1a1d << 2) + 0xff900000) +#define VIU_OSD1_BLK1_CFG_W2 (0x1a21) +#define P_VIU_OSD1_BLK1_CFG_W2 (volatile unsigned int *)((0x1a21 << 2) + 0xff900000) +#define VIU_OSD1_BLK2_CFG_W2 (0x1a25) +#define P_VIU_OSD1_BLK2_CFG_W2 (volatile unsigned int *)((0x1a25 << 2) + 0xff900000) +#define VIU_OSD1_BLK3_CFG_W2 (0x1a29) +#define P_VIU_OSD1_BLK3_CFG_W2 (volatile unsigned int *)((0x1a29 << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, h_end +// Bit 15:12 Reserved +// Bit 11: 0 RW, h_start +#define VIU_OSD1_BLK0_CFG_W3 (0x1a1e) +#define P_VIU_OSD1_BLK0_CFG_W3 (volatile unsigned int *)((0x1a1e << 2) + 0xff900000) +#define VIU_OSD1_BLK1_CFG_W3 (0x1a22) +#define P_VIU_OSD1_BLK1_CFG_W3 (volatile unsigned int *)((0x1a22 << 2) + 0xff900000) +#define VIU_OSD1_BLK2_CFG_W3 (0x1a26) +#define P_VIU_OSD1_BLK2_CFG_W3 (volatile unsigned int *)((0x1a26 << 2) + 0xff900000) +#define VIU_OSD1_BLK3_CFG_W3 (0x1a2a) +#define P_VIU_OSD1_BLK3_CFG_W3 (volatile unsigned int *)((0x1a2a << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, v_end +// Bit 15:12 Reserved +// Bit 11: 0 RW, v_start +#define VIU_OSD1_BLK0_CFG_W4 (0x1a13) +#define P_VIU_OSD1_BLK0_CFG_W4 (volatile unsigned int *)((0x1a13 << 2) + 0xff900000) +#define VIU_OSD1_BLK1_CFG_W4 (0x1a14) +#define P_VIU_OSD1_BLK1_CFG_W4 (volatile unsigned int *)((0x1a14 << 2) + 0xff900000) +#define VIU_OSD1_BLK2_CFG_W4 (0x1a15) +#define P_VIU_OSD1_BLK2_CFG_W4 (volatile unsigned int *)((0x1a15 << 2) + 0xff900000) +#define VIU_OSD1_BLK3_CFG_W4 (0x1a16) +#define P_VIU_OSD1_BLK3_CFG_W4 (volatile unsigned int *)((0x1a16 << 2) + 0xff900000) +// Bit 31 RW, burst_len_sel[2] of [2:0] +// Bit 30 RW, byte_swap: In addition to endian control, further define +// whether to swap upper and lower byte within a 16-bit mem word. +// 0=No swap; 1=Swap data[15:0] to be {data[7:0], data[15:8]} +// Bit 29 RW, div_swap : swap the 2 64bits words in 128 bit word +// Bit 28:24 RW, fifo_lim : when osd fifo is small than the fifo_lim*16, closed the rq port of osd_rd_mif +// Bit 23:22 RW, fifo_ctrl: 00 : for 1 word in 1 burst , 01 : for 2words in 1burst, 10: for 4words in 1burst, 11: reserved +// Bit 21:20 R, fifo_st. 0=IDLE, 1=FILL, 2=ABORT +// Bit 19 R, fifo_overflow +// Bit 18:12 RW, fifo_depth_val, max value=64: set actual fifo depth to fifo_depth_val*8. +// Bit 11:10 RW, burst_len_sel[1:0] of [2:0]. 0=24(default), 1=32, 2=48, 3=64, 4=96, 5=128. +// Bit 9: 5 RW, hold_fifo_lines[4:0] +// Bit 4 RW, clear_err: one pulse to clear fifo_overflow +// Bit 3 RW, fifo_sync_rst +// Bit 2: 1 RW, endian +// Bit 0 RW, urgent +#define VIU_OSD1_FIFO_CTRL_STAT (0x1a2b) +#define P_VIU_OSD1_FIFO_CTRL_STAT (volatile unsigned int *)((0x1a2b << 2) + 0xff900000) +// Bit 31:24 R, Y or R +// Bit 23:16 R, Cb or G +// Bit 15: 8 R, Cr or B +// Bit 7: 0 R, Output Alpha[8:1] +#define VIU_OSD1_TEST_RDDATA (0x1a2c) +#define P_VIU_OSD1_TEST_RDDATA (volatile unsigned int *)((0x1a2c << 2) + 0xff900000) +// Bit 15 RW, prot_en: 1=Borrow PROT's FIFO storage, either for rotate or non-rotate. +// Bit 12: 0 RW, effective FIFO size when prot_en=1. +#define VIU_OSD1_PROT_CTRL (0x1a2e) +#define P_VIU_OSD1_PROT_CTRL (volatile unsigned int *)((0x1a2e << 2) + 0xff900000) +//Bit 7, highlight_en +//Bit 6 probe_post, if true, probe pixel data after matrix, otherwise probe pixel data before matrix +//Bit 5:4 probe_sel, 00: select matrix 0, 01: select matrix 1, otherwise select nothing +//Bit 3:2, matrix coef idx selection, 00: select mat0, 01: select mat1, otherwise slect nothing +//Bit 1 mat1 conversion matrix enable +//Bit 0 mat0 conversion matrix enable +#define VIU_OSD1_MATRIX_CTRL (0x1a90) +#define P_VIU_OSD1_MATRIX_CTRL (volatile unsigned int *)((0x1a90 << 2) + 0xff900000) +//Bit 28:16 coef00 +//Bit 12:0 coef01 +#define VIU_OSD1_MATRIX_COEF00_01 (0x1a91) +#define P_VIU_OSD1_MATRIX_COEF00_01 (volatile unsigned int *)((0x1a91 << 2) + 0xff900000) +//Bit 28:16 coef02 +//Bit 12:0 coef10 +#define VIU_OSD1_MATRIX_COEF02_10 (0x1a92) +#define P_VIU_OSD1_MATRIX_COEF02_10 (volatile unsigned int *)((0x1a92 << 2) + 0xff900000) +//Bit 28:16 coef11 +//Bit 12:0 coef12 +#define VIU_OSD1_MATRIX_COEF11_12 (0x1a93) +#define P_VIU_OSD1_MATRIX_COEF11_12 (volatile unsigned int *)((0x1a93 << 2) + 0xff900000) +//Bit 28:16 coef20 +//Bit 12:0 coef21 +#define VIU_OSD1_MATRIX_COEF20_21 (0x1a94) +#define P_VIU_OSD1_MATRIX_COEF20_21 (volatile unsigned int *)((0x1a94 << 2) + 0xff900000) +//Bit 31:30 mat_clmod +//Bit 18:16 mat_convrs +//Bit 12:0 mat_coef42 +#define VIU_OSD1_MATRIX_COLMOD_COEF42 (0x1a95) +#define P_VIU_OSD1_MATRIX_COLMOD_COEF42 (volatile unsigned int *)((0x1a95 << 2) + 0xff900000) +//Bit 26:16 offset0 +//Bit 10:0 offset1 +#define VIU_OSD1_MATRIX_OFFSET0_1 (0x1a96) +#define P_VIU_OSD1_MATRIX_OFFSET0_1 (volatile unsigned int *)((0x1a96 << 2) + 0xff900000) +//Bit 10:0 offset2 +#define VIU_OSD1_MATRIX_OFFSET2 (0x1a97) +#define P_VIU_OSD1_MATRIX_OFFSET2 (volatile unsigned int *)((0x1a97 << 2) + 0xff900000) +//Bit 26:16 pre_offset0 +//Bit 10:0 pre_offset1 +#define VIU_OSD1_MATRIX_PRE_OFFSET0_1 (0x1a98) +#define P_VIU_OSD1_MATRIX_PRE_OFFSET0_1 (volatile unsigned int *)((0x1a98 << 2) + 0xff900000) +//Bit 10:0 pre_offset2 +#define VIU_OSD1_MATRIX_PRE_OFFSET2 (0x1a99) +#define P_VIU_OSD1_MATRIX_PRE_OFFSET2 (volatile unsigned int *)((0x1a99 << 2) + 0xff900000) +//Read only +//Bit 29:20 component 0 +//Bit 19:10 component 1 +//Bit 9:0 component 2 +#define VIU_OSD1_MATRIX_PROBE_COLOR (0x1a9a) +#define P_VIU_OSD1_MATRIX_PROBE_COLOR (volatile unsigned int *)((0x1a9a << 2) + 0xff900000) +//Bit 23:16 component 0 +//Bit 15:8 component 1 +//Bit 7:0 component 2 +#define VIU_OSD1_MATRIX_HL_COLOR (0x1a9b) +#define P_VIU_OSD1_MATRIX_HL_COLOR (volatile unsigned int *)((0x1a9b << 2) + 0xff900000) +//28:16 probe x, postion +//12:0 probe y, position +#define VIU_OSD1_MATRIX_PROBE_POS (0x1a9c) +#define P_VIU_OSD1_MATRIX_PROBE_POS (volatile unsigned int *)((0x1a9c << 2) + 0xff900000) +//Bit 28:16 coef22 +//Bit 12:0 coef30 +#define VIU_OSD1_MATRIX_COEF22_30 (0x1a9d) +#define P_VIU_OSD1_MATRIX_COEF22_30 (volatile unsigned int *)((0x1a9d << 2) + 0xff900000) +//Bit 28:16 coef31 +//Bit 12:0 coef32 +#define VIU_OSD1_MATRIX_COEF31_32 (0x1a9e) +#define P_VIU_OSD1_MATRIX_COEF31_32 (volatile unsigned int *)((0x1a9e << 2) + 0xff900000) +//Bit 28:16 coef40 +//Bit 12:0 coef41 +#define VIU_OSD1_MATRIX_COEF40_41 (0x1a9f) +#define P_VIU_OSD1_MATRIX_COEF40_41 (volatile unsigned int *)((0x1a9f << 2) + 0xff900000) +//Bit 31:27 for all [31] for all eotf enable,[30] for matrix3x3 enable, [29:27] for eotf_ch0~3 +//Bit 17:6 for clock gating +//Bit 5:4 pscale_mode ch2 +//Bit 3:2 pscale_mode ch1 +//Bit 1:0 pscale_mode ch0 +#define VIU_OSD1_EOTF_CTL (0x1ad4) +#define P_VIU_OSD1_EOTF_CTL (volatile unsigned int *)((0x1ad4 << 2) + 0xff900000) +//Bit 28:16 coef00 +//Bit 12:0 coef01 +#define VIU_OSD1_EOTF_COEF00_01 (0x1ad5) +#define P_VIU_OSD1_EOTF_COEF00_01 (volatile unsigned int *)((0x1ad5 << 2) + 0xff900000) +//Bit 28:16 coef02 +//Bit 12:0 coef10 +#define VIU_OSD1_EOTF_COEF02_10 (0x1ad6) +#define P_VIU_OSD1_EOTF_COEF02_10 (volatile unsigned int *)((0x1ad6 << 2) + 0xff900000) +//Bit 28:16 coef11 +//Bit 12:0 coef12 +#define VIU_OSD1_EOTF_COEF11_12 (0x1ad7) +#define P_VIU_OSD1_EOTF_COEF11_12 (volatile unsigned int *)((0x1ad7 << 2) + 0xff900000) +//Bit 28:16 coef20 +//Bit 12:0 coef21 +#define VIU_OSD1_EOTF_COEF20_21 (0x1ad8) +#define P_VIU_OSD1_EOTF_COEF20_21 (volatile unsigned int *)((0x1ad8 << 2) + 0xff900000) +//Bit 28:16 coef22 +//Bit 2:0 coef_rs +#define VIU_OSD1_EOTF_COEF22_RS (0x1ad9) +#define P_VIU_OSD1_EOTF_COEF22_RS (volatile unsigned int *)((0x1ad9 << 2) + 0xff900000) +#define VIU_OSD1_EOTF_LUT_ADDR_PORT (0x1ada) +#define P_VIU_OSD1_EOTF_LUT_ADDR_PORT (volatile unsigned int *)((0x1ada << 2) + 0xff900000) +#define VIU_OSD1_EOTF_LUT_DATA_PORT (0x1adb) +#define P_VIU_OSD1_EOTF_LUT_DATA_PORT (volatile unsigned int *)((0x1adb << 2) + 0xff900000) +//Bit 31:29 for OETF ch0~ch2 +//Bit 21:12 for clock gating +//Bit 11:8 for oetf_scl_ch2 +//Bit 7:4 for oetf_scl_ch1 +//Bit 3:0 for oetf_scl_ch0 +#define VIU_OSD1_OETF_CTL (0x1adc) +#define P_VIU_OSD1_OETF_CTL (volatile unsigned int *)((0x1adc << 2) + 0xff900000) +#define VIU_OSD1_OETF_LUT_ADDR_PORT (0x1add) +#define P_VIU_OSD1_OETF_LUT_ADDR_PORT (volatile unsigned int *)((0x1add << 2) + 0xff900000) +#define VIU_OSD1_OETF_LUT_DATA_PORT (0x1ade) +#define P_VIU_OSD1_OETF_LUT_DATA_PORT (volatile unsigned int *)((0x1ade << 2) + 0xff900000) +#define VIU_OSD1_OETF_3X3_OFST_0 (0x1aa0) +#define P_VIU_OSD1_OETF_3X3_OFST_0 (volatile unsigned int *)((0x1aa0 << 2) + 0xff900000) +#define VIU_OSD1_OETF_3X3_OFST_1 (0x1aa1) +#define P_VIU_OSD1_OETF_3X3_OFST_1 (volatile unsigned int *)((0x1aa1 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// OSD2 registers +//------------------------------------------------------------------------------ +// Bit 31 Reserved +// Bit 30 RW, enable_free_clk: 1=use free-running clock to drive logics; +// 0=use gated clock for low power. +// Bit 29 R, test_rd_dsr +// Bit 28 R, osd_done +// Bit 27:24 R, osd_blk_mode +// Bit 23:22 R, osd_blk_ptr +// Bit 21 R, osd_enable +// +// Bit 20:12 RW, global_alpha +// Bit 11 RW, test_rd_en +// Bit 10 RW, hl2_en +// Bit 9 RW, hl1_en +// Bit 8: 5 RW, ctrl_mtch_y +// Bit 4 RW, ctrl_422to444 +// Bit 3: 0 RW, osd_blk_enable. Bit 0 to enable block 0: 1=enable, 0=disable; +// Bit 1 to enable block 1, and so on. +#define VIU_OSD2_CTRL_STAT (0x1a30) +#define P_VIU_OSD2_CTRL_STAT (volatile unsigned int *)((0x1a30 << 2) + 0xff900000) +// Bit 31:26 Reserved +// Bit 25:16 R, fifo_count +// Bit 15 Reserved +// Bit 14 RW, replaced_alpha_en +// Bit 13: 6 RW, replaced_alpha +// Bit 5: 4 RW, hold_fifo_lines[6:5] +// Bit 3 RW, rgb2yuv_full_range +// Bit 2 RW, alpha_9b_mode +// Bit 1 RW, reserved +// Bit 0 RW, color_expand_mode +#define VIU_OSD2_CTRL_STAT2 (0x1a4d) +#define P_VIU_OSD2_CTRL_STAT2 (volatile unsigned int *)((0x1a4d << 2) + 0xff900000) +// Bit 31: 9 Reserved +// Bit 8 RW, 0 = Write LUT, 1 = Read LUT +// Bit 7: 0 RW, lut_addr +#define VIU_OSD2_COLOR_ADDR (0x1a31) +#define P_VIU_OSD2_COLOR_ADDR (volatile unsigned int *)((0x1a31 << 2) + 0xff900000) +// Bit 31:24 RW, Y or R +// Bit 23:16 RW, Cb or G +// Bit 15: 8 RW, Cr or B +// Bit 7: 0 RW, Alpha +#define VIU_OSD2_COLOR (0x1a32) +#define P_VIU_OSD2_COLOR (volatile unsigned int *)((0x1a32 << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, hl[1-2]_h/v_start +// Bit 15:12 Reserved +// Bit 11: 0 RW, hl[1-2]_h/v_end +#define VIU_OSD2_HL1_H_START_END (0x1a33) +#define P_VIU_OSD2_HL1_H_START_END (volatile unsigned int *)((0x1a33 << 2) + 0xff900000) +#define VIU_OSD2_HL1_V_START_END (0x1a34) +#define P_VIU_OSD2_HL1_V_START_END (volatile unsigned int *)((0x1a34 << 2) + 0xff900000) +#define VIU_OSD2_HL2_H_START_END (0x1a35) +#define P_VIU_OSD2_HL2_H_START_END (volatile unsigned int *)((0x1a35 << 2) + 0xff900000) +#define VIU_OSD2_HL2_V_START_END (0x1a36) +#define P_VIU_OSD2_HL2_V_START_END (volatile unsigned int *)((0x1a36 << 2) + 0xff900000) +// Bit 31:24 RW, Y or R +// Bit 23:16 RW, Cb or G +// Bit 15: 8 RW, Cr or B +// Bit 7: 0 RW, Alpha +#define VIU_OSD2_TCOLOR_AG0 (0x1a37) +#define P_VIU_OSD2_TCOLOR_AG0 (volatile unsigned int *)((0x1a37 << 2) + 0xff900000) +#define VIU_OSD2_TCOLOR_AG1 (0x1a38) +#define P_VIU_OSD2_TCOLOR_AG1 (volatile unsigned int *)((0x1a38 << 2) + 0xff900000) +#define VIU_OSD2_TCOLOR_AG2 (0x1a39) +#define P_VIU_OSD2_TCOLOR_AG2 (volatile unsigned int *)((0x1a39 << 2) + 0xff900000) +#define VIU_OSD2_TCOLOR_AG3 (0x1a3a) +#define P_VIU_OSD2_TCOLOR_AG3 (volatile unsigned int *)((0x1a3a << 2) + 0xff900000) +// Bit 31:24 Reserved +// Bit 23:16 RW, tbl_addr +// Bit 15 RW, little_endian: 0=big endian, 1=little endian +// Bit 14 RW, rpt_y +// Bit 13:12 RW, interp_ctrl. 0x=No interpolation; 10=Interpolate with previous +// pixel; 11=Interpolate with the average value +// between previous and next pixel. +// Bit 11: 8 RW, osd_blk_mode +// Bit 7 RW, rgb_en +// Bit 6 RW, tc_alpha_en +// Bit 5: 2 RW, color_matrix +// Bit 1 RW, interlace_en +// Bit 0 RW, interlace_sel_odd +#define VIU_OSD2_BLK0_CFG_W0 (0x1a3b) +#define P_VIU_OSD2_BLK0_CFG_W0 (volatile unsigned int *)((0x1a3b << 2) + 0xff900000) +#define VIU_OSD2_BLK1_CFG_W0 (0x1a3f) +#define P_VIU_OSD2_BLK1_CFG_W0 (volatile unsigned int *)((0x1a3f << 2) + 0xff900000) +#define VIU_OSD2_BLK2_CFG_W0 (0x1a43) +#define P_VIU_OSD2_BLK2_CFG_W0 (volatile unsigned int *)((0x1a43 << 2) + 0xff900000) +#define VIU_OSD2_BLK3_CFG_W0 (0x1a47) +#define P_VIU_OSD2_BLK3_CFG_W0 (volatile unsigned int *)((0x1a47 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, x_end +// Bit 15:13 Reserved +// Bit 12: 0 RW, x_start +#define VIU_OSD2_BLK0_CFG_W1 (0x1a3c) +#define P_VIU_OSD2_BLK0_CFG_W1 (volatile unsigned int *)((0x1a3c << 2) + 0xff900000) +#define VIU_OSD2_BLK1_CFG_W1 (0x1a40) +#define P_VIU_OSD2_BLK1_CFG_W1 (volatile unsigned int *)((0x1a40 << 2) + 0xff900000) +#define VIU_OSD2_BLK2_CFG_W1 (0x1a44) +#define P_VIU_OSD2_BLK2_CFG_W1 (volatile unsigned int *)((0x1a44 << 2) + 0xff900000) +#define VIU_OSD2_BLK3_CFG_W1 (0x1a48) +#define P_VIU_OSD2_BLK3_CFG_W1 (volatile unsigned int *)((0x1a48 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, y_end +// Bit 15:13 Reserved +// Bit 12: 0 RW, y_start +#define VIU_OSD2_BLK0_CFG_W2 (0x1a3d) +#define P_VIU_OSD2_BLK0_CFG_W2 (volatile unsigned int *)((0x1a3d << 2) + 0xff900000) +#define VIU_OSD2_BLK1_CFG_W2 (0x1a41) +#define P_VIU_OSD2_BLK1_CFG_W2 (volatile unsigned int *)((0x1a41 << 2) + 0xff900000) +#define VIU_OSD2_BLK2_CFG_W2 (0x1a45) +#define P_VIU_OSD2_BLK2_CFG_W2 (volatile unsigned int *)((0x1a45 << 2) + 0xff900000) +#define VIU_OSD2_BLK3_CFG_W2 (0x1a49) +#define P_VIU_OSD2_BLK3_CFG_W2 (volatile unsigned int *)((0x1a49 << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, h_end +// Bit 15:12 Reserved +// Bit 11: 0 RW, h_start +#define VIU_OSD2_BLK0_CFG_W3 (0x1a3e) +#define P_VIU_OSD2_BLK0_CFG_W3 (volatile unsigned int *)((0x1a3e << 2) + 0xff900000) +#define VIU_OSD2_BLK1_CFG_W3 (0x1a42) +#define P_VIU_OSD2_BLK1_CFG_W3 (volatile unsigned int *)((0x1a42 << 2) + 0xff900000) +#define VIU_OSD2_BLK2_CFG_W3 (0x1a46) +#define P_VIU_OSD2_BLK2_CFG_W3 (volatile unsigned int *)((0x1a46 << 2) + 0xff900000) +#define VIU_OSD2_BLK3_CFG_W3 (0x1a4a) +#define P_VIU_OSD2_BLK3_CFG_W3 (volatile unsigned int *)((0x1a4a << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, v_end +// Bit 15:12 Reserved +// Bit 11: 0 RW, v_start +#define VIU_OSD2_BLK0_CFG_W4 (0x1a64) +#define P_VIU_OSD2_BLK0_CFG_W4 (volatile unsigned int *)((0x1a64 << 2) + 0xff900000) +#define VIU_OSD2_BLK1_CFG_W4 (0x1a65) +#define P_VIU_OSD2_BLK1_CFG_W4 (volatile unsigned int *)((0x1a65 << 2) + 0xff900000) +#define VIU_OSD2_BLK2_CFG_W4 (0x1a66) +#define P_VIU_OSD2_BLK2_CFG_W4 (volatile unsigned int *)((0x1a66 << 2) + 0xff900000) +#define VIU_OSD2_BLK3_CFG_W4 (0x1a67) +#define P_VIU_OSD2_BLK3_CFG_W4 (volatile unsigned int *)((0x1a67 << 2) + 0xff900000) +// Bit 31 RW, burst_len_sel[2] of [2:0] +// Bit 30 RW, byte_swap: In addition to endian control, further define +// whether to swap upper and lower byte within a 16-bit mem word. +// 0=No swap; 1=Swap data[15:0] to be {data[7:0], data[15:8]} +// Bit 29 RW, div_swap : swap the 2 64bits words in 128 bit word +// Bit 28:24 RW, fifo_lim : when osd fifo is small than the fifo_lim*16, closed the rq port of osd_rd_mif +// Bit 23:22 RW, fifo_ctrl: 00 : for 1 word in 1 burst , 01 : for 2words in 1burst, 10: for 4words in 1burst, 11: reserved +// Bit 21:20 R, fifo_st. 0=IDLE, 1=FILL, 2=ABORT +// Bit 19 R, fifo_overflow +// +// Bit 18:12 RW, fifo_depth_val, max value=64: set actual fifo depth to fifo_depth_val*8. +// Bit 11:10 RW, burst_len_sel[1:0] of [2:0]. 0=24(default), 1=32, 2=48, 3=64, 4=96, 5=128. +// Bit 9: 5 RW, hold_fifo_lines[4:0] +// Bit 4 RW, clear_err: one pulse to clear fifo_overflow +// Bit 3 RW, fifo_sync_rst +// Bit 2: 1 RW, endian +// Bit 0 RW, urgent +#define VIU_OSD2_FIFO_CTRL_STAT (0x1a4b) +#define P_VIU_OSD2_FIFO_CTRL_STAT (volatile unsigned int *)((0x1a4b << 2) + 0xff900000) +// Bit 31:24 R, Y or R +// Bit 23:16 R, Cb or G +// Bit 15: 8 R, Cr or B +// Bit 7: 0 R, Output Alpha[8:1] +#define VIU_OSD2_TEST_RDDATA (0x1a4c) +#define P_VIU_OSD2_TEST_RDDATA (volatile unsigned int *)((0x1a4c << 2) + 0xff900000) +// Bit 15 RW, prot_en: 1=Borrow PROT's FIFO storage, either for rotate or non-rotate. +// Bit 12: 0 RW, effective FIFO size when prot_en=1. +#define VIU_OSD2_PROT_CTRL (0x1a4e) +#define P_VIU_OSD2_PROT_CTRL (volatile unsigned int *)((0x1a4e << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// VD1 path +//------------------------------------------------------------------------------ +#define VD1_IF0_GEN_REG (0x1a50) +#define P_VD1_IF0_GEN_REG (volatile unsigned int *)((0x1a50 << 2) + 0xff900000) +#define VD1_IF0_CANVAS0 (0x1a51) +#define P_VD1_IF0_CANVAS0 (volatile unsigned int *)((0x1a51 << 2) + 0xff900000) +#define VD1_IF0_CANVAS1 (0x1a52) +#define P_VD1_IF0_CANVAS1 (volatile unsigned int *)((0x1a52 << 2) + 0xff900000) +#define VD1_IF0_LUMA_X0 (0x1a53) +#define P_VD1_IF0_LUMA_X0 (volatile unsigned int *)((0x1a53 << 2) + 0xff900000) +#define VD1_IF0_LUMA_Y0 (0x1a54) +#define P_VD1_IF0_LUMA_Y0 (volatile unsigned int *)((0x1a54 << 2) + 0xff900000) +#define VD1_IF0_CHROMA_X0 (0x1a55) +#define P_VD1_IF0_CHROMA_X0 (volatile unsigned int *)((0x1a55 << 2) + 0xff900000) +#define VD1_IF0_CHROMA_Y0 (0x1a56) +#define P_VD1_IF0_CHROMA_Y0 (volatile unsigned int *)((0x1a56 << 2) + 0xff900000) +#define VD1_IF0_LUMA_X1 (0x1a57) +#define P_VD1_IF0_LUMA_X1 (volatile unsigned int *)((0x1a57 << 2) + 0xff900000) +#define VD1_IF0_LUMA_Y1 (0x1a58) +#define P_VD1_IF0_LUMA_Y1 (volatile unsigned int *)((0x1a58 << 2) + 0xff900000) +#define VD1_IF0_CHROMA_X1 (0x1a59) +#define P_VD1_IF0_CHROMA_X1 (volatile unsigned int *)((0x1a59 << 2) + 0xff900000) +#define VD1_IF0_CHROMA_Y1 (0x1a5a) +#define P_VD1_IF0_CHROMA_Y1 (volatile unsigned int *)((0x1a5a << 2) + 0xff900000) +#define VD1_IF0_RPT_LOOP (0x1a5b) +#define P_VD1_IF0_RPT_LOOP (volatile unsigned int *)((0x1a5b << 2) + 0xff900000) +#define VD1_IF0_LUMA0_RPT_PAT (0x1a5c) +#define P_VD1_IF0_LUMA0_RPT_PAT (volatile unsigned int *)((0x1a5c << 2) + 0xff900000) +#define VD1_IF0_CHROMA0_RPT_PAT (0x1a5d) +#define P_VD1_IF0_CHROMA0_RPT_PAT (volatile unsigned int *)((0x1a5d << 2) + 0xff900000) +#define VD1_IF0_LUMA1_RPT_PAT (0x1a5e) +#define P_VD1_IF0_LUMA1_RPT_PAT (volatile unsigned int *)((0x1a5e << 2) + 0xff900000) +#define VD1_IF0_CHROMA1_RPT_PAT (0x1a5f) +#define P_VD1_IF0_CHROMA1_RPT_PAT (volatile unsigned int *)((0x1a5f << 2) + 0xff900000) +#define VD1_IF0_LUMA_PSEL (0x1a60) +#define P_VD1_IF0_LUMA_PSEL (volatile unsigned int *)((0x1a60 << 2) + 0xff900000) +#define VD1_IF0_CHROMA_PSEL (0x1a61) +#define P_VD1_IF0_CHROMA_PSEL (volatile unsigned int *)((0x1a61 << 2) + 0xff900000) +#define VD1_IF0_DUMMY_PIXEL (0x1a62) +#define P_VD1_IF0_DUMMY_PIXEL (volatile unsigned int *)((0x1a62 << 2) + 0xff900000) +#define VD1_IF0_LUMA_FIFO_SIZE (0x1a63) +#define P_VD1_IF0_LUMA_FIFO_SIZE (volatile unsigned int *)((0x1a63 << 2) + 0xff900000) +#define VD1_IF0_RANGE_MAP_Y (0x1a6a) +#define P_VD1_IF0_RANGE_MAP_Y (volatile unsigned int *)((0x1a6a << 2) + 0xff900000) +#define VD1_IF0_RANGE_MAP_CB (0x1a6b) +#define P_VD1_IF0_RANGE_MAP_CB (volatile unsigned int *)((0x1a6b << 2) + 0xff900000) +#define VD1_IF0_RANGE_MAP_CR (0x1a6c) +#define P_VD1_IF0_RANGE_MAP_CR (volatile unsigned int *)((0x1a6c << 2) + 0xff900000) +#define VD1_IF0_GEN_REG2 (0x1a6d) +#define P_VD1_IF0_GEN_REG2 (volatile unsigned int *)((0x1a6d << 2) + 0xff900000) +#define VD1_IF0_PROT_CNTL (0x1a6e) +#define P_VD1_IF0_PROT_CNTL (volatile unsigned int *)((0x1a6e << 2) + 0xff900000) +#define VD1_IF0_URGENT_CTRL (0x1a6f) +#define P_VD1_IF0_URGENT_CTRL (volatile unsigned int *)((0x1a6f << 2) + 0xff900000) +//Bit 31 it true, disable clock, otherwise enable clock +//Bit 30 soft rst bit +//Bit 28 if true, horizontal formatter use repeating to generete pixel, otherwise use bilinear interpolation +//Bit 27:24 horizontal formatter initial phase +//Bit 23 horizontal formatter repeat pixel 0 enable +//Bit 22:21 horizontal Y/C ratio, 00: 1:1, 01: 2:1, 10: 4:1 +//Bit 20 horizontal formatter enable +//Bit 19 if true, always use phase0 while vertical formater, meaning always +// repeat data, no interpolation +//Bit 18 if true, disable vertical formatter chroma repeat last line +//Bit 17 veritcal formatter dont need repeat line on phase0, 1: enable, 0: disable +//Bit 16 veritcal formatter repeat line 0 enable +//Bit 15:12 vertical formatter skip line num at the beginning +//Bit 11:8 vertical formatter initial phase +//Bit 7:1 vertical formatter phase step (3.4) +//Bit 0 vertical formatter enable +#define VIU_VD1_FMT_CTRL (0x1a68) +#define P_VIU_VD1_FMT_CTRL (volatile unsigned int *)((0x1a68 << 2) + 0xff900000) +//Bit 27:16 horizontal formatter width +//Bit 11:0 vertical formatter width +#define VIU_VD1_FMT_W (0x1a69) +#define P_VIU_VD1_FMT_W (volatile unsigned int *)((0x1a69 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// VD2 path +//------------------------------------------------------------------------------ +#define VD2_IF0_GEN_REG (0x1a70) +#define P_VD2_IF0_GEN_REG (volatile unsigned int *)((0x1a70 << 2) + 0xff900000) +#define VD2_IF0_CANVAS0 (0x1a71) +#define P_VD2_IF0_CANVAS0 (volatile unsigned int *)((0x1a71 << 2) + 0xff900000) +#define VD2_IF0_CANVAS1 (0x1a72) +#define P_VD2_IF0_CANVAS1 (volatile unsigned int *)((0x1a72 << 2) + 0xff900000) +#define VD2_IF0_LUMA_X0 (0x1a73) +#define P_VD2_IF0_LUMA_X0 (volatile unsigned int *)((0x1a73 << 2) + 0xff900000) +#define VD2_IF0_LUMA_Y0 (0x1a74) +#define P_VD2_IF0_LUMA_Y0 (volatile unsigned int *)((0x1a74 << 2) + 0xff900000) +#define VD2_IF0_CHROMA_X0 (0x1a75) +#define P_VD2_IF0_CHROMA_X0 (volatile unsigned int *)((0x1a75 << 2) + 0xff900000) +#define VD2_IF0_CHROMA_Y0 (0x1a76) +#define P_VD2_IF0_CHROMA_Y0 (volatile unsigned int *)((0x1a76 << 2) + 0xff900000) +#define VD2_IF0_LUMA_X1 (0x1a77) +#define P_VD2_IF0_LUMA_X1 (volatile unsigned int *)((0x1a77 << 2) + 0xff900000) +#define VD2_IF0_LUMA_Y1 (0x1a78) +#define P_VD2_IF0_LUMA_Y1 (volatile unsigned int *)((0x1a78 << 2) + 0xff900000) +#define VD2_IF0_CHROMA_X1 (0x1a79) +#define P_VD2_IF0_CHROMA_X1 (volatile unsigned int *)((0x1a79 << 2) + 0xff900000) +#define VD2_IF0_CHROMA_Y1 (0x1a7a) +#define P_VD2_IF0_CHROMA_Y1 (volatile unsigned int *)((0x1a7a << 2) + 0xff900000) +#define VD2_IF0_RPT_LOOP (0x1a7b) +#define P_VD2_IF0_RPT_LOOP (volatile unsigned int *)((0x1a7b << 2) + 0xff900000) +#define VD2_IF0_LUMA0_RPT_PAT (0x1a7c) +#define P_VD2_IF0_LUMA0_RPT_PAT (volatile unsigned int *)((0x1a7c << 2) + 0xff900000) +#define VD2_IF0_CHROMA0_RPT_PAT (0x1a7d) +#define P_VD2_IF0_CHROMA0_RPT_PAT (volatile unsigned int *)((0x1a7d << 2) + 0xff900000) +#define VD2_IF0_LUMA1_RPT_PAT (0x1a7e) +#define P_VD2_IF0_LUMA1_RPT_PAT (volatile unsigned int *)((0x1a7e << 2) + 0xff900000) +#define VD2_IF0_CHROMA1_RPT_PAT (0x1a7f) +#define P_VD2_IF0_CHROMA1_RPT_PAT (volatile unsigned int *)((0x1a7f << 2) + 0xff900000) +#define VD2_IF0_LUMA_PSEL (0x1a80) +#define P_VD2_IF0_LUMA_PSEL (volatile unsigned int *)((0x1a80 << 2) + 0xff900000) +#define VD2_IF0_CHROMA_PSEL (0x1a81) +#define P_VD2_IF0_CHROMA_PSEL (volatile unsigned int *)((0x1a81 << 2) + 0xff900000) +#define VD2_IF0_DUMMY_PIXEL (0x1a82) +#define P_VD2_IF0_DUMMY_PIXEL (volatile unsigned int *)((0x1a82 << 2) + 0xff900000) +#define VD2_IF0_LUMA_FIFO_SIZE (0x1a83) +#define P_VD2_IF0_LUMA_FIFO_SIZE (volatile unsigned int *)((0x1a83 << 2) + 0xff900000) +#define VD2_IF0_RANGE_MAP_Y (0x1a8a) +#define P_VD2_IF0_RANGE_MAP_Y (volatile unsigned int *)((0x1a8a << 2) + 0xff900000) +#define VD2_IF0_RANGE_MAP_CB (0x1a8b) +#define P_VD2_IF0_RANGE_MAP_CB (volatile unsigned int *)((0x1a8b << 2) + 0xff900000) +#define VD2_IF0_RANGE_MAP_CR (0x1a8c) +#define P_VD2_IF0_RANGE_MAP_CR (volatile unsigned int *)((0x1a8c << 2) + 0xff900000) +#define VD2_IF0_GEN_REG2 (0x1a8d) +#define P_VD2_IF0_GEN_REG2 (volatile unsigned int *)((0x1a8d << 2) + 0xff900000) +#define VD2_IF0_PROT_CNTL (0x1a8e) +#define P_VD2_IF0_PROT_CNTL (volatile unsigned int *)((0x1a8e << 2) + 0xff900000) +#define VD2_IF0_URGENT_CTRL (0x1a8f) +#define P_VD2_IF0_URGENT_CTRL (volatile unsigned int *)((0x1a8f << 2) + 0xff900000) +//Bit 31 it true, disable clock, otherwise enable clock +//Bit 30 soft rst bit +//Bit 28 if true, horizontal formatter use repeating to generete pixel, otherwise use bilinear interpolation +//Bit 27:24 horizontal formatter initial phase +//Bit 23 horizontal formatter repeat pixel 0 enable +//Bit 22:21 horizontal Y/C ratio, 00: 1:1, 01: 2:1, 10: 4:1 +//Bit 20 horizontal formatter enable +//Bit 17 veritcal formatter dont need repeat line on phase0, 1: enable, 0: disable +//Bit 16 veritcal formatter repeat line 0 enable +//Bit 15:12 vertical formatter skip line num at the beginning +//Bit 11:8 vertical formatter initial phase +//Bit 7:1 vertical formatter phase step (3.4) +//Bit 0 vertical formatter enable +#define VIU_VD2_FMT_CTRL (0x1a88) +#define P_VIU_VD2_FMT_CTRL (volatile unsigned int *)((0x1a88 << 2) + 0xff900000) +//Bit 27:16 horizontal formatter width +//Bit 11:0 vertical formatter width +#define VIU_VD2_FMT_W (0x1a89) +#define P_VIU_VD2_FMT_W (volatile unsigned int *)((0x1a89 << 2) + 0xff900000) +// //todo add comment +#define LDIM_STTS_GCLK_CTRL0 (0x1ac0) +#define P_LDIM_STTS_GCLK_CTRL0 (volatile unsigned int *)((0x1ac0 << 2) + 0xff900000) +#define LDIM_STTS_CTRL0 (0x1ac1) +#define P_LDIM_STTS_CTRL0 (volatile unsigned int *)((0x1ac1 << 2) + 0xff900000) +#define LDIM_STTS_WIDTHM1_HEIGHTM1 (0x1ac2) +#define P_LDIM_STTS_WIDTHM1_HEIGHTM1 (volatile unsigned int *)((0x1ac2 << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_COEF00_01 (0x1ac3) +#define P_LDIM_STTS_MATRIX_COEF00_01 (volatile unsigned int *)((0x1ac3 << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_COEF02_10 (0x1ac4) +#define P_LDIM_STTS_MATRIX_COEF02_10 (volatile unsigned int *)((0x1ac4 << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_COEF11_12 (0x1ac5) +#define P_LDIM_STTS_MATRIX_COEF11_12 (volatile unsigned int *)((0x1ac5 << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_COEF20_21 (0x1ac6) +#define P_LDIM_STTS_MATRIX_COEF20_21 (volatile unsigned int *)((0x1ac6 << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_COEF22 (0x1ac7) +#define P_LDIM_STTS_MATRIX_COEF22 (volatile unsigned int *)((0x1ac7 << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_OFFSET0_1 (0x1ac8) +#define P_LDIM_STTS_MATRIX_OFFSET0_1 (volatile unsigned int *)((0x1ac8 << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_OFFSET2 (0x1ac9) +#define P_LDIM_STTS_MATRIX_OFFSET2 (volatile unsigned int *)((0x1ac9 << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_PRE_OFFSET0_1 (0x1aca) +#define P_LDIM_STTS_MATRIX_PRE_OFFSET0_1 (volatile unsigned int *)((0x1aca << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_PRE_OFFSET2 (0x1acb) +#define P_LDIM_STTS_MATRIX_PRE_OFFSET2 (volatile unsigned int *)((0x1acb << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_HL_COLOR (0x1acc) +#define P_LDIM_STTS_MATRIX_HL_COLOR (volatile unsigned int *)((0x1acc << 2) + 0xff900000) +#define LDIM_STTS_MATRIX_PROBE_POS (0x1acd) +#define P_LDIM_STTS_MATRIX_PROBE_POS (volatile unsigned int *)((0x1acd << 2) + 0xff900000) +// +// //read only +#define LDIM_STTS_MATRIX_PROBE_COLOR (0x1ace) +#define P_LDIM_STTS_MATRIX_PROBE_COLOR (volatile unsigned int *)((0x1ace << 2) + 0xff900000) +// +// //Bit 31, local dimming statistic enable +// //Bit 29, 1: output region histogram 16bit 0:output region histogram 20bit +// //Bit 28, eol enable +// //Bit 27:25, vertical line overlap number for max finding +// //Bit 24:22, horizontal pixel overlap number, 0: 17 pix, 1: 9 pix, 2: 5 pix, 3: 3 pix, 4: 0 pix +// //Bit 20, 1,2,1 low pass filter enable before max/hist statistic +// //Bit 19:16, region H/V position index, refer to VDIN_LDIM_STTS_HIST_SET_REGION +// //Bit 15:14, 1: region read index auto increase per block read finished to VDIN_LDIM_STTS_HIST_READ_REGION +// // 2: region read index auto increase per read finished to VDIN_LDIM_STTS_HIST_READ_REGION +// // 0/3: disable read index self increase +// //Bit 13:8, region read sub index, which mux the hist & max-finding result to cbus port, refer to LDIM_STTS_HIST_READ_REGION +// //Bit 6:0, region read index +#define LDIM_STTS_HIST_REGION_IDX (0x1ad0) +#define P_LDIM_STTS_HIST_REGION_IDX (volatile unsigned int *)((0x1ad0 << 2) + 0xff900000) +//Bit 28:0, if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h0: read/write hvstart0 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h1: read/write hend01 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h2: read/write vend01 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h3: read/write hend23 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h4: read/write vend23 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h5: read/write hend45 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h6: read/write vend45 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'd7: read/write hend67 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h8: read/write vend67 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'h9: read/write hend89 +// if VDIN_LDIM_STTS_HIST_REGION_IDX[19:16] == 5'ha: read/write vend89 +// //hvstart0, Bit 28:16 row0 vstart, Bit 12:0 col0 hstart +// //hend01, Bit 28:16 col1 hend, Bit 12:0 col0 hend +// //vend01, Bit 28:16 row1 vend, Bit 12:0 row0 vend +// //hend23, Bit 28:16 col3 hend, Bit 12:0 col2 hend +// //vend23, Bit 28:16 row3 vend, Bit 12:0 row2 vend +// //hend45, Bit 28:16 col5 hend, Bit 12:0 col4 hend +// //vend45, Bit 28:16 row5 vend, Bit 12:0 row4 vend +// //hend67, Bit 28:16 col7 hend, Bit 12:0 col6 hend +// //vend67, Bit 28:16 row7 vend, Bit 12:0 row6 vend +// //hend89, Bit 28:16 col9 hend, Bit 12:0 col8 hend +// //vend89, Bit 28:16 row9 vend, Bit 12:0 row8 vend +#define LDIM_STTS_HIST_SET_REGION (0x1ad1) +#define P_LDIM_STTS_HIST_SET_REGION (volatile unsigned int *)((0x1ad1 << 2) + 0xff900000) +// +// //if LDIM_STTS_HIST_REGION_IDX[29] == 0, that is output hist with 20bit data. +// //if LDIM_STTS_HIST_REGION_IDX[21] == 0, that is output 16hist bins in comp 0. +// //output sequence as rd_sub_idx from 0~47: {max_comp2, comp0_hist0}, {max_comp1, comp0_hist1}, {max_comp0, comp0_hist2}, +// // comp0_hist3 ... comp2_hist16 +// //if LDIM_STTS_HIST_REGION_IDX[29] == 1, that is output hist with 16bit data. +// //if LDIM_STTS_HIST_REGION_IDX[21] == 0, that is output 16hist bins in comp 0. +// //output sequence as rd_sub_idx from 0~47: {max_comp2, max_comp1, max_comp0}, comp0_hist0, comp0_hist1, comp0_hist2 +// // comp0_hist3 ... comp2_hist16 +// //if LDIM_STTS_HIST_REGION_IDX[29] == 0, that is output hist with 20bit data. +// //if LDIM_STTS_HIST_REGION_IDX[21] == 1, that is output 32hist bins in comp 0. +// //output sequence as rd_sub_idx from 0~47: {max_comp2, max_comp1, max_comp0}, comp0_hist0, comp0_hist1, comp0_hist2 +// // comp0_hist3 ...comp0_hist31 ... comp1_hist16 +// +#define LDIM_STTS_HIST_READ_REGION (0x1ad2) +#define P_LDIM_STTS_HIST_READ_REGION (volatile unsigned int *)((0x1ad2 << 2) + 0xff900000) +#define LDIM_STTS_HIST_START_RD_REGION (0x1ad3) +#define P_LDIM_STTS_HIST_START_RD_REGION (volatile unsigned int *)((0x1ad3 << 2) + 0xff900000) +// //bit15, auto enable; bit14, canvas write mode ;7:4, high threshold ;3:0 , low threshold for di if1 chroma path +// //bit31, auto enable; bit30, canvas write mode ;23:20, high threshold ;19:16 , low threshold for di if1 luma path +// `define DI_IF1_URGENT_CTRL 8'ha3 +// //bit15, auto enable; bit14, canvas write mode ;7:4, high threshold ;3:0 , low threshold for di inp chroma path +// //bit31, auto enable; bit30, canvas write mode ;23:20, high threshold ;19:16 , low threshold for di inp luma path +// `define DI_INP_URGENT_CTRL 8'ha4 +// //bit15, auto enable; bit14, canvas write mode ;7:4, high threshold ;3:0 , low threshold for di mem chroma path +// //bit31, auto enable; bit30, canvas write mode ;23:20, high threshold ;19:16 , low threshold for di mem luma path +// `define DI_MEM_URGENT_CTRL 8'ha5 +// //bit15, auto enable; bit14, canvas write mode ;7:4, high threshold ;3:0 , low threshold for di chan2 chroma path +// //bit31, auto enable; bit30, canvas write mode ;23:20, high threshold ;19:16 , low threshold for di chan2 luma path +// `define DI_CHAN2_URGENT_CTRL 8'ha6 +#define VD1_IF0_GEN_REG3 (0x1aa7) +#define P_VD1_IF0_GEN_REG3 (volatile unsigned int *)((0x1aa7 << 2) + 0xff900000) +//bit 31:1, reversed +//bit 0, cntl_64bit_rev +#define VD2_IF0_GEN_REG3 (0x1aa8) +#define P_VD2_IF0_GEN_REG3 (volatile unsigned int *)((0x1aa8 << 2) + 0xff900000) +//bit 31:1, reversed +//bit 0, cntl_64bit_rev +#define OSD_BLENDO_H_START_END (0x1aa9) +#define P_OSD_BLENDO_H_START_END (volatile unsigned int *)((0x1aa9 << 2) + 0xff900000) +//OSD blending output horizontal start and end +//Bit 28:16 start +//Bit 12:0 end +#define OSD_BLENDO_V_START_END (0x1aaa) +#define P_OSD_BLENDO_V_START_END (volatile unsigned int *)((0x1aaa << 2) + 0xff900000) +//OSD blending output vertical start and end +//Bit 28:16 start +//Bit 12:0 end +#define OSD_BLEND_GEN_CTRL0 (0x1aab) +#define P_OSD_BLEND_GEN_CTRL0 (volatile unsigned int *)((0x1aab << 2) + 0xff900000) +//Bit 31:23 const_out_alpha +//Bit 22:14 const_op_alpha +//Bit 13 if true, OSD2 foreground otherwise OSD1 foreground +//Bit 12 OSD BLENDing enable +//Bit 9:8 alpha_op_sel 00: output alpha use osd1_alpha, 01: use osd2_alpha, else use const_out_alpha +//Bit 5:4 color_op_sel 00: use osd1_alpha, 01: use osd2_alpha, else use const_op_alpha +//Bit 1 OSD2 enable +//Bit 0 OSD1 enable +#define OSD_BLEND_GEN_CTRL1 (0x1aac) +#define P_OSD_BLEND_GEN_CTRL1 (volatile unsigned int *)((0x1aac << 2) + 0xff900000) +//Bit 31 osd1_alpha_premult, if true, osd1 alpha is premultipiled +//Bit 30 osd2_alpha_premult, if true, osd2 alpha is premultipiled +//Bit 23:16 osd blending hold lines +//Bit 13:0 osd blending h_size +#define OSD_BLEND_DUMMY_DATA (0x1aad) +#define P_OSD_BLEND_DUMMY_DATA (volatile unsigned int *)((0x1aad << 2) + 0xff900000) +//Bit 29:20 Y/R +//Bit 19:10 CB/G +//Bit 9:0 Cr/B +#define OSD_BLEND_CURRENT_XY (0x1aae) +#define P_OSD_BLEND_CURRENT_XY (volatile unsigned int *)((0x1aae << 2) + 0xff900000) +//Bit 28:16 current_x +//Bit 12:0 current_y +//Bit 7, highlight_en +//Bit 6 probe_post, if true, probe pixel data after matrix, otherwise probe pixel data before matrix +//Bit 5:4 probe_sel, 00: select matrix 0, 01: select matrix 1, otherwise select nothing +//Bit 3:2, matrix coef idx selection, 00: select mat0, 01: select mat1, otherwise slect nothing +//Bit 1 mat1 conversion matrix enable +//Bit 0 mat0 conversion matrix enable +#define VIU_OSD2_MATRIX_CTRL (0x1ab0) +#define P_VIU_OSD2_MATRIX_CTRL (volatile unsigned int *)((0x1ab0 << 2) + 0xff900000) +//Bit 28:16 coef00 +//Bit 12:0 coef01 +#define VIU_OSD2_MATRIX_COEF00_01 (0x1ab1) +#define P_VIU_OSD2_MATRIX_COEF00_01 (volatile unsigned int *)((0x1ab1 << 2) + 0xff900000) +//Bit 28:16 coef02 +//Bit 12:0 coef10 +#define VIU_OSD2_MATRIX_COEF02_10 (0x1ab2) +#define P_VIU_OSD2_MATRIX_COEF02_10 (volatile unsigned int *)((0x1ab2 << 2) + 0xff900000) +//Bit 28:16 coef11 +//Bit 12:0 coef12 +#define VIU_OSD2_MATRIX_COEF11_12 (0x1ab3) +#define P_VIU_OSD2_MATRIX_COEF11_12 (volatile unsigned int *)((0x1ab3 << 2) + 0xff900000) +//Bit 28:16 coef20 +//Bit 12:0 coef21 +#define VIU_OSD2_MATRIX_COEF20_21 (0x1ab4) +#define P_VIU_OSD2_MATRIX_COEF20_21 (volatile unsigned int *)((0x1ab4 << 2) + 0xff900000) +#define VIU_OSD2_MATRIX_COEF22 (0x1ab5) +#define P_VIU_OSD2_MATRIX_COEF22 (volatile unsigned int *)((0x1ab5 << 2) + 0xff900000) +//Bit 26:16 offset0 +//Bit 10:0 offset1 +#define VIU_OSD2_MATRIX_OFFSET0_1 (0x1ab6) +#define P_VIU_OSD2_MATRIX_OFFSET0_1 (volatile unsigned int *)((0x1ab6 << 2) + 0xff900000) +//Bit 10:0 offset2 +#define VIU_OSD2_MATRIX_OFFSET2 (0x1ab7) +#define P_VIU_OSD2_MATRIX_OFFSET2 (volatile unsigned int *)((0x1ab7 << 2) + 0xff900000) +//Bit 26:16 pre_offset0 +//Bit 10:0 pre_offset1 +#define VIU_OSD2_MATRIX_PRE_OFFSET0_1 (0x1ab8) +#define P_VIU_OSD2_MATRIX_PRE_OFFSET0_1 (volatile unsigned int *)((0x1ab8 << 2) + 0xff900000) +//Bit 10:0 pre_offset2 +#define VIU_OSD2_MATRIX_PRE_OFFSET2 (0x1ab9) +#define P_VIU_OSD2_MATRIX_PRE_OFFSET2 (volatile unsigned int *)((0x1ab9 << 2) + 0xff900000) +//Read only +//Bit 29:20 component 0 +//Bit 19:10 component 1 +//Bit 9:0 component 2 +#define VIU_OSD2_MATRIX_PROBE_COLOR (0x1aba) +#define P_VIU_OSD2_MATRIX_PROBE_COLOR (volatile unsigned int *)((0x1aba << 2) + 0xff900000) +//Bit 23:16 component 0 +//Bit 15:8 component 1 +//Bit 7:0 component 2 +#define VIU_OSD2_MATRIX_HL_COLOR (0x1abb) +#define P_VIU_OSD2_MATRIX_HL_COLOR (volatile unsigned int *)((0x1abb << 2) + 0xff900000) +//28:16 probe x, postion +//12:0 probe y, position +#define VIU_OSD2_MATRIX_PROBE_POS (0x1abc) +#define P_VIU_OSD2_MATRIX_PROBE_POS (volatile unsigned int *)((0x1abc << 2) + 0xff900000) +//the segment of afbc dec is 8'he0-8'hfe +//`define AFBC_DEC_OFFSET 8'he0 +// +// Reading file: afbc_dec_regs.h +// +// synopsys translate_off +// synopsys translate_on +////===============================//// +//// reg +////===============================//// +#define AFBC_ENABLE (0x1ae0) +#define P_AFBC_ENABLE (volatile unsigned int *)((0x1ae0 << 2) + 0xff900000) +//Bit 31:1, reserved +//Bit 8, dec_enable unsigned , default = 0 +//Bit 7:1, reserved +//Bit 0, frm_start unsigned , default = 0 +#define AFBC_MODE (0x1ae1) +#define P_AFBC_MODE (volatile unsigned int *)((0x1ae1 << 2) + 0xff900000) +//Bit 31, soft_reset the use as go_field +//Bit 30, reserved +//Bit 29, ddr_sz_mode uns, default = 0 , 0: fixed block ddr size 1 : unfixed block ddr size; +//Bit 28, blk_mem_mode uns, default = 0 , 0: fixed 16x128 size; 1 : fixed 12x128 size +//Bit 27:26, rev_mode uns, default = 0 , reverse mode +//Bit 25:24, mif_urgent uns, default = 3 , info mif and data mif urgent +//Bit 22:16, hold_line_num +//Bit 15:14, burst_len uns, default = 1, 0: burst1 1:burst2 2:burst4 +//Bit 13:8, compbits_yuv uns, default = 0 , +// bit 1:0,: y component bitwidth : 00-8bit 01-9bit 10-10bit +// bit 3:2,: u component bitwidth : 00-8bit 01-9bit 10-10bit +// bit 5:4,: v component bitwidth : 00-8bit 01-9bit 10-10bit +//Bit 7:6, vert_skip_y uns, default = 0 , luma vert skip mode : 00-y0y1, 01-y0, 10-y1, 11-(y0+y1)/2 +//Bit 5:4, horz_skip_y uns, default = 0 , luma horz skip mode : 00-y0y1, 01-y0, 10-y1, 11-(y0+y1)/2 +//Bit 3:2, vert_skip_uv uns, default = 0 , chroma vert skip mode : 00-y0y1, 01-y0, 10-y1, 11-(y0+y1)/2 +//Bit 1:0, horz_skip_uv uns, default = 0 , chroma horz skip mode : 00-y0y1, 01-y0, 10-y1, 11-(y0+y1)/2 +#define AFBC_SIZE_IN (0x1ae2) +#define P_AFBC_SIZE_IN (volatile unsigned int *)((0x1ae2 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16 hsize_in uns, default = 1920 , pic horz size in unit: pixel +//Bit 15:13, reserved +//Bit 12:0, vsize_in uns, default = 1080 , pic vert size in unit: pixel +#define AFBC_DEC_DEF_COLOR (0x1ae3) +#define P_AFBC_DEC_DEF_COLOR (volatile unsigned int *)((0x1ae3 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 29:20, def_color_y uns, default = 0, afbc dec y default setting value +//Bit 19:10, def_color_u uns, default = 0, afbc dec u default setting value +//Bit 9: 0, def_color_v uns, default = 0, afbc dec v default setting value +#define AFBC_CONV_CTRL (0x1ae4) +#define P_AFBC_CONV_CTRL (volatile unsigned int *)((0x1ae4 << 2) + 0xff900000) +//Bit 31:12, reserved +//Bit 11: 0, conv_lbuf_len uns, default = 256, unit=16 pixel need to set = 2^n +#define AFBC_LBUF_DEPTH (0x1ae5) +#define P_AFBC_LBUF_DEPTH (volatile unsigned int *)((0x1ae5 << 2) + 0xff900000) +//Bit 31:28, reserved +//Bit 27:16, dec_lbuf_depth uns, default = 128; // unit= 8 pixel +//Bit 15:12, reserved +//Bit 11:0, mif_lbuf_depth uns, default = 128; +#define AFBC_HEAD_BADDR (0x1ae6) +#define P_AFBC_HEAD_BADDR (volatile unsigned int *)((0x1ae6 << 2) + 0xff900000) +//Bit 31:0, mif_info_baddr uns, default = 32'h0; +#define AFBC_BODY_BADDR (0x1ae7) +#define P_AFBC_BODY_BADDR (volatile unsigned int *)((0x1ae7 << 2) + 0xff900000) +//Bit 31:0, mif_data_baddr uns, default = 32'h0001_0000; +#define AFBC_SIZE_OUT (0x1ae8) +#define P_AFBC_SIZE_OUT (volatile unsigned int *)((0x1ae8 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, hsize_out uns, default = 1920 ; // unit: 1 pixel +//Bit 15:13, reserved +//Bit 12:0, vsize_out uns, default = 1080 ; // unit: 1 pixel +#define AFBC_OUT_YSCOPE (0x1ae9) +#define P_AFBC_OUT_YSCOPE (volatile unsigned int *)((0x1ae9 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, out_vert_bgn uns, default = 0 ; // unit: 1 pixel +//Bit 15:13, reserved +//Bit 12:0, out_vert_end uns, default = 1079 ; // unit: 1 pixel +#define AFBC_STAT (0x1aea) +#define P_AFBC_STAT (volatile unsigned int *)((0x1aea << 2) + 0xff900000) +//Bit 31:1, reserved +//Bit 0, frm_end_stat uns, frame end status +#define AFBC_VD_CFMT_CTRL (0x1aeb) +#define P_AFBC_VD_CFMT_CTRL (volatile unsigned int *)((0x1aeb << 2) + 0xff900000) +//Bit 31 it true, disable clock, otherwise enable clock +//Bit 30 soft rst bit +//Bit 28 if true, horizontal formatter use repeating to generete pixel, otherwise use bilinear interpolation +//Bit 27:24 horizontal formatter initial phase +//Bit 23 horizontal formatter repeat pixel 0 enable +//Bit 22:21 horizontal Y/C ratio, 00: 1:1, 01: 2:1, 10: 4:1 +//Bit 20 horizontal formatter enable +//Bit 19 if true, always use phase0 while vertical formater, meaning always +// repeat data, no interpolation +//Bit 18 if true, disable vertical formatter chroma repeat last line +//Bit 17 veritcal formatter dont need repeat line on phase0, 1: enable, 0: disable +//Bit 16 veritcal formatter repeat line 0 enable +//Bit 15:12 vertical formatter skip line num at the beginning +//Bit 11:8 vertical formatter initial phase +//Bit 7:1 vertical formatter phase step (3.4) +//Bit 0 vertical formatter enable +#define AFBC_VD_CFMT_W (0x1aec) +#define P_AFBC_VD_CFMT_W (volatile unsigned int *)((0x1aec << 2) + 0xff900000) +//Bit 27:16 horizontal formatter width +//Bit 11:0 vertical formatter width +#define AFBC_MIF_HOR_SCOPE (0x1aed) +#define P_AFBC_MIF_HOR_SCOPE (volatile unsigned int *)((0x1aed << 2) + 0xff900000) +//Bit 31:26, reserved +//Bit 25:16, mif_blk_bgn_h uns, default = 0 ; // unit: 32 pixel/block hor +//Bit 15:10, reserved +//Bit 9: 0, mif_blk_end_h uns, default = 59 ; // unit: 32 pixel/block hor +#define AFBC_MIF_VER_SCOPE (0x1aee) +#define P_AFBC_MIF_VER_SCOPE (volatile unsigned int *)((0x1aee << 2) + 0xff900000) +//Bit 31:28, reserved +//Bit 27:16, mif_blk_bgn_v uns, default = 0 ; // unit: 32 pixel/block ver +//Bit 15:12, reserved +//Bit 11: 0, mif_blk_end_v uns, default = 269; // unit: 32 pixel/block ver +#define AFBC_PIXEL_HOR_SCOPE (0x1aef) +#define P_AFBC_PIXEL_HOR_SCOPE (volatile unsigned int *)((0x1aef << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, dec_pixel_bgn_h uns, default = 0 ; // unit: pixel +//Bit 15:13, reserved +//Bit 12: 0, dec_pixel_end_h uns, default = 1919 ; // unit: pixel +#define AFBC_PIXEL_VER_SCOPE (0x1af0) +#define P_AFBC_PIXEL_VER_SCOPE (volatile unsigned int *)((0x1af0 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, dec_pixel_bgn_v uns, default = 0 ; // unit: pixel +//Bit 15:13, reserved +//Bit 12: 0, dec_pixel_end_v uns, default = 1079 ; // unit: pixel +#define AFBC_VD_CFMT_H (0x1af1) +#define P_AFBC_VD_CFMT_H (volatile unsigned int *)((0x1af1 << 2) + 0xff900000) +//Bit 12:0 vertical formatter height +// synopsys translate_off +// synopsys translate_on +// +// Closing file: afbc_dec_regs.h +// +// +// Closing file: vregs_clk2.h +// +//`define VENC_VCBUS_BASE 8'h1b +// +// Reading file: venc_regs.h +// +//=========================================================================== +// Video Interface Registers 0xa00 - 0xbff +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: VENC_VCBUS_BASE = 0x1b +// ----------------------------------------------- +// bit 15:8 -- vfifo2vd_vd_sel +// bit 0 -- vfifo2vd_en +#define ENCP_VFIFO2VD_CTL (0x1b58) +#define P_ENCP_VFIFO2VD_CTL (volatile unsigned int *)((0x1b58 << 2) + 0xff900000) +// bit 12:0 -- vfifo2vd_pixel_start +#define ENCP_VFIFO2VD_PIXEL_START (0x1b59) +#define P_ENCP_VFIFO2VD_PIXEL_START (volatile unsigned int *)((0x1b59 << 2) + 0xff900000) +// bit 12:00 -- vfifo2vd_pixel_end +#define ENCP_VFIFO2VD_PIXEL_END (0x1b5a) +#define P_ENCP_VFIFO2VD_PIXEL_END (volatile unsigned int *)((0x1b5a << 2) + 0xff900000) +// bit 10:0 -- vfifo2vd_line_top_start +#define ENCP_VFIFO2VD_LINE_TOP_START (0x1b5b) +#define P_ENCP_VFIFO2VD_LINE_TOP_START (volatile unsigned int *)((0x1b5b << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_top_end +#define ENCP_VFIFO2VD_LINE_TOP_END (0x1b5c) +#define P_ENCP_VFIFO2VD_LINE_TOP_END (volatile unsigned int *)((0x1b5c << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_bot_start +#define ENCP_VFIFO2VD_LINE_BOT_START (0x1b5d) +#define P_ENCP_VFIFO2VD_LINE_BOT_START (volatile unsigned int *)((0x1b5d << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_bot_end +#define ENCP_VFIFO2VD_LINE_BOT_END (0x1b5e) +#define P_ENCP_VFIFO2VD_LINE_BOT_END (volatile unsigned int *)((0x1b5e << 2) + 0xff900000) +// Route the hsync and vsync signals round the chip. There are three +// sources and users of these signals: VIU, internal video encoder, and +// the pins on the chip. Some muxing is still being done in the VIU. It +// was not moved to the venc module so that the same exact VIU code could +// be used both in Twister and Twister2000. +// Bit 2: venc_sync_source (1=>pins, 0=>viu) +// Bit 1: viu_sync_source (1=>pins, 0=>venc) +// Bit 0: vpins_sync_source (1=>venc, 0=>viu) +#define VENC_SYNC_ROUTE (0x1b60) +#define P_VENC_SYNC_ROUTE (volatile unsigned int *)((0x1b60 << 2) + 0xff900000) +#define VENC_VIDEO_EXSRC (0x1b61) +#define P_VENC_VIDEO_EXSRC (volatile unsigned int *)((0x1b61 << 2) + 0xff900000) +#define VENC_DVI_SETTING (0x1b62) +#define P_VENC_DVI_SETTING (volatile unsigned int *)((0x1b62 << 2) + 0xff900000) +#define VENC_C656_CTRL (0x1b63) +#define P_VENC_C656_CTRL (volatile unsigned int *)((0x1b63 << 2) + 0xff900000) +#define VENC_UPSAMPLE_CTRL0 (0x1b64) +#define P_VENC_UPSAMPLE_CTRL0 (volatile unsigned int *)((0x1b64 << 2) + 0xff900000) +#define VENC_UPSAMPLE_CTRL1 (0x1b65) +#define P_VENC_UPSAMPLE_CTRL1 (volatile unsigned int *)((0x1b65 << 2) + 0xff900000) +#define VENC_UPSAMPLE_CTRL2 (0x1b66) +#define P_VENC_UPSAMPLE_CTRL2 (volatile unsigned int *)((0x1b66 << 2) + 0xff900000) +// Invert control for tcon output +// bit[15:14] -- vsync, hsync, +// bit[13:0] -- oev3, oev2, cpv2, cph3, cph2, cph1, oeh, vcom, stv2, stv1, cpv1, oev1, sth1, sth2 +#define TCON_INVERT_CTL (0x1b67) +#define P_TCON_INVERT_CTL (volatile unsigned int *)((0x1b67 << 2) + 0xff900000) +#define VENC_VIDEO_PROG_MODE (0x1b68) +#define P_VENC_VIDEO_PROG_MODE (volatile unsigned int *)((0x1b68 << 2) + 0xff900000) +//---- Venc pixel/line info +#define VENC_ENCI_LINE (0x1b69) +#define P_VENC_ENCI_LINE (volatile unsigned int *)((0x1b69 << 2) + 0xff900000) +#define VENC_ENCI_PIXEL (0x1b6a) +#define P_VENC_ENCI_PIXEL (volatile unsigned int *)((0x1b6a << 2) + 0xff900000) +#define VENC_ENCP_LINE (0x1b6b) +#define P_VENC_ENCP_LINE (volatile unsigned int *)((0x1b6b << 2) + 0xff900000) +#define VENC_ENCP_PIXEL (0x1b6c) +#define P_VENC_ENCP_PIXEL (volatile unsigned int *)((0x1b6c << 2) + 0xff900000) +//---- Status +#define VENC_STATA (0x1b6d) +#define P_VENC_STATA (volatile unsigned int *)((0x1b6d << 2) + 0xff900000) +//---- Interrupt setting +#define VENC_INTCTRL (0x1b6e) +#define P_VENC_INTCTRL (volatile unsigned int *)((0x1b6e << 2) + 0xff900000) +#define VENC_INTFLAG (0x1b6f) +#define P_VENC_INTFLAG (volatile unsigned int *)((0x1b6f << 2) + 0xff900000) +//--------- Video test configuration +#define VENC_VIDEO_TST_EN (0x1b70) +#define P_VENC_VIDEO_TST_EN (volatile unsigned int *)((0x1b70 << 2) + 0xff900000) +#define VENC_VIDEO_TST_MDSEL (0x1b71) +#define P_VENC_VIDEO_TST_MDSEL (volatile unsigned int *)((0x1b71 << 2) + 0xff900000) +#define VENC_VIDEO_TST_Y (0x1b72) +#define P_VENC_VIDEO_TST_Y (volatile unsigned int *)((0x1b72 << 2) + 0xff900000) +#define VENC_VIDEO_TST_CB (0x1b73) +#define P_VENC_VIDEO_TST_CB (volatile unsigned int *)((0x1b73 << 2) + 0xff900000) +#define VENC_VIDEO_TST_CR (0x1b74) +#define P_VENC_VIDEO_TST_CR (volatile unsigned int *)((0x1b74 << 2) + 0xff900000) +#define VENC_VIDEO_TST_CLRBAR_STRT (0x1b75) +#define P_VENC_VIDEO_TST_CLRBAR_STRT (volatile unsigned int *)((0x1b75 << 2) + 0xff900000) +#define VENC_VIDEO_TST_CLRBAR_WIDTH (0x1b76) +#define P_VENC_VIDEO_TST_CLRBAR_WIDTH (volatile unsigned int *)((0x1b76 << 2) + 0xff900000) +#define VENC_VIDEO_TST_VDCNT_STSET (0x1b77) +#define P_VENC_VIDEO_TST_VDCNT_STSET (volatile unsigned int *)((0x1b77 << 2) + 0xff900000) +//----- Video dac setting +#define VENC_VDAC_DACSEL0 (0x1b78) +#define P_VENC_VDAC_DACSEL0 (volatile unsigned int *)((0x1b78 << 2) + 0xff900000) +#define VENC_VDAC_DACSEL1 (0x1b79) +#define P_VENC_VDAC_DACSEL1 (volatile unsigned int *)((0x1b79 << 2) + 0xff900000) +#define VENC_VDAC_DACSEL2 (0x1b7a) +#define P_VENC_VDAC_DACSEL2 (volatile unsigned int *)((0x1b7a << 2) + 0xff900000) +#define VENC_VDAC_DACSEL3 (0x1b7b) +#define P_VENC_VDAC_DACSEL3 (volatile unsigned int *)((0x1b7b << 2) + 0xff900000) +#define VENC_VDAC_DACSEL4 (0x1b7c) +#define P_VENC_VDAC_DACSEL4 (volatile unsigned int *)((0x1b7c << 2) + 0xff900000) +#define VENC_VDAC_DACSEL5 (0x1b7d) +#define P_VENC_VDAC_DACSEL5 (volatile unsigned int *)((0x1b7d << 2) + 0xff900000) +#define VENC_VDAC_SETTING (0x1b7e) +#define P_VENC_VDAC_SETTING (volatile unsigned int *)((0x1b7e << 2) + 0xff900000) +#define VENC_VDAC_TST_VAL (0x1b7f) +#define P_VENC_VDAC_TST_VAL (volatile unsigned int *)((0x1b7f << 2) + 0xff900000) +#define VENC_VDAC_DAC0_GAINCTRL (0x1bf0) +#define P_VENC_VDAC_DAC0_GAINCTRL (volatile unsigned int *)((0x1bf0 << 2) + 0xff900000) +#define VENC_VDAC_DAC0_OFFSET (0x1bf1) +#define P_VENC_VDAC_DAC0_OFFSET (volatile unsigned int *)((0x1bf1 << 2) + 0xff900000) +#define VENC_VDAC_DAC1_GAINCTRL (0x1bf2) +#define P_VENC_VDAC_DAC1_GAINCTRL (volatile unsigned int *)((0x1bf2 << 2) + 0xff900000) +#define VENC_VDAC_DAC1_OFFSET (0x1bf3) +#define P_VENC_VDAC_DAC1_OFFSET (volatile unsigned int *)((0x1bf3 << 2) + 0xff900000) +#define VENC_VDAC_DAC2_GAINCTRL (0x1bf4) +#define P_VENC_VDAC_DAC2_GAINCTRL (volatile unsigned int *)((0x1bf4 << 2) + 0xff900000) +#define VENC_VDAC_DAC2_OFFSET (0x1bf5) +#define P_VENC_VDAC_DAC2_OFFSET (volatile unsigned int *)((0x1bf5 << 2) + 0xff900000) +#define VENC_VDAC_DAC3_GAINCTRL (0x1bf6) +#define P_VENC_VDAC_DAC3_GAINCTRL (volatile unsigned int *)((0x1bf6 << 2) + 0xff900000) +#define VENC_VDAC_DAC3_OFFSET (0x1bf7) +#define P_VENC_VDAC_DAC3_OFFSET (volatile unsigned int *)((0x1bf7 << 2) + 0xff900000) +#define VENC_VDAC_DAC4_GAINCTRL (0x1bf8) +#define P_VENC_VDAC_DAC4_GAINCTRL (volatile unsigned int *)((0x1bf8 << 2) + 0xff900000) +#define VENC_VDAC_DAC4_OFFSET (0x1bf9) +#define P_VENC_VDAC_DAC4_OFFSET (volatile unsigned int *)((0x1bf9 << 2) + 0xff900000) +#define VENC_VDAC_DAC5_GAINCTRL (0x1bfa) +#define P_VENC_VDAC_DAC5_GAINCTRL (volatile unsigned int *)((0x1bfa << 2) + 0xff900000) +#define VENC_VDAC_DAC5_OFFSET (0x1bfb) +#define P_VENC_VDAC_DAC5_OFFSET (volatile unsigned int *)((0x1bfb << 2) + 0xff900000) +#define VENC_VDAC_FIFO_CTRL (0x1bfc) +#define P_VENC_VDAC_FIFO_CTRL (volatile unsigned int *)((0x1bfc << 2) + 0xff900000) +#define ENCL_TCON_INVERT_CTL (0x1bfd) +#define P_ENCL_TCON_INVERT_CTL (volatile unsigned int *)((0x1bfd << 2) + 0xff900000) +// +// Closing file: venc_regs.h +// +// +// Reading file: enc480p_regs.h +// +// synopsys translate_off +// synopsys translate_on +//=========================================================================== +// Video Encoder 480p Registers 0xb80 - 0xbef +//=========================================================================== +//-------- Video basic setting +#define ENCP_VIDEO_EN (0x1b80) +#define P_ENCP_VIDEO_EN (volatile unsigned int *)((0x1b80 << 2) + 0xff900000) +#define ENCP_VIDEO_SYNC_MODE (0x1b81) +#define P_ENCP_VIDEO_SYNC_MODE (volatile unsigned int *)((0x1b81 << 2) + 0xff900000) +#define ENCP_MACV_EN (0x1b82) +#define P_ENCP_MACV_EN (volatile unsigned int *)((0x1b82 << 2) + 0xff900000) +#define ENCP_VIDEO_Y_SCL (0x1b83) +#define P_ENCP_VIDEO_Y_SCL (volatile unsigned int *)((0x1b83 << 2) + 0xff900000) +#define ENCP_VIDEO_PB_SCL (0x1b84) +#define P_ENCP_VIDEO_PB_SCL (volatile unsigned int *)((0x1b84 << 2) + 0xff900000) +#define ENCP_VIDEO_PR_SCL (0x1b85) +#define P_ENCP_VIDEO_PR_SCL (volatile unsigned int *)((0x1b85 << 2) + 0xff900000) +#define ENCP_VIDEO_SYNC_SCL (0x1b86) +#define P_ENCP_VIDEO_SYNC_SCL (volatile unsigned int *)((0x1b86 << 2) + 0xff900000) +#define ENCP_VIDEO_MACV_SCL (0x1b87) +#define P_ENCP_VIDEO_MACV_SCL (volatile unsigned int *)((0x1b87 << 2) + 0xff900000) +#define ENCP_VIDEO_Y_OFFST (0x1b88) +#define P_ENCP_VIDEO_Y_OFFST (volatile unsigned int *)((0x1b88 << 2) + 0xff900000) +#define ENCP_VIDEO_PB_OFFST (0x1b89) +#define P_ENCP_VIDEO_PB_OFFST (volatile unsigned int *)((0x1b89 << 2) + 0xff900000) +#define ENCP_VIDEO_PR_OFFST (0x1b8a) +#define P_ENCP_VIDEO_PR_OFFST (volatile unsigned int *)((0x1b8a << 2) + 0xff900000) +#define ENCP_VIDEO_SYNC_OFFST (0x1b8b) +#define P_ENCP_VIDEO_SYNC_OFFST (volatile unsigned int *)((0x1b8b << 2) + 0xff900000) +#define ENCP_VIDEO_MACV_OFFST (0x1b8c) +#define P_ENCP_VIDEO_MACV_OFFST (volatile unsigned int *)((0x1b8c << 2) + 0xff900000) +//----- Video mode +#define ENCP_VIDEO_MODE (0x1b8d) +#define P_ENCP_VIDEO_MODE (volatile unsigned int *)((0x1b8d << 2) + 0xff900000) +#define ENCP_VIDEO_MODE_ADV (0x1b8e) +#define P_ENCP_VIDEO_MODE_ADV (volatile unsigned int *)((0x1b8e << 2) + 0xff900000) +//--------------- Debug pins +#define ENCP_DBG_PX_RST (0x1b90) +#define P_ENCP_DBG_PX_RST (volatile unsigned int *)((0x1b90 << 2) + 0xff900000) +#define ENCP_DBG_LN_RST (0x1b91) +#define P_ENCP_DBG_LN_RST (volatile unsigned int *)((0x1b91 << 2) + 0xff900000) +#define ENCP_DBG_PX_INT (0x1b92) +#define P_ENCP_DBG_PX_INT (volatile unsigned int *)((0x1b92 << 2) + 0xff900000) +#define ENCP_DBG_LN_INT (0x1b93) +#define P_ENCP_DBG_LN_INT (volatile unsigned int *)((0x1b93 << 2) + 0xff900000) +//----------- Video Advanced setting +#define ENCP_VIDEO_YFP1_HTIME (0x1b94) +#define P_ENCP_VIDEO_YFP1_HTIME (volatile unsigned int *)((0x1b94 << 2) + 0xff900000) +#define ENCP_VIDEO_YFP2_HTIME (0x1b95) +#define P_ENCP_VIDEO_YFP2_HTIME (volatile unsigned int *)((0x1b95 << 2) + 0xff900000) +#define ENCP_VIDEO_YC_DLY (0x1b96) +#define P_ENCP_VIDEO_YC_DLY (volatile unsigned int *)((0x1b96 << 2) + 0xff900000) +#define ENCP_VIDEO_MAX_PXCNT (0x1b97) +#define P_ENCP_VIDEO_MAX_PXCNT (volatile unsigned int *)((0x1b97 << 2) + 0xff900000) +#define ENCP_VIDEO_HSPULS_BEGIN (0x1b98) +#define P_ENCP_VIDEO_HSPULS_BEGIN (volatile unsigned int *)((0x1b98 << 2) + 0xff900000) +#define ENCP_VIDEO_HSPULS_END (0x1b99) +#define P_ENCP_VIDEO_HSPULS_END (volatile unsigned int *)((0x1b99 << 2) + 0xff900000) +#define ENCP_VIDEO_HSPULS_SWITCH (0x1b9a) +#define P_ENCP_VIDEO_HSPULS_SWITCH (volatile unsigned int *)((0x1b9a << 2) + 0xff900000) +#define ENCP_VIDEO_VSPULS_BEGIN (0x1b9b) +#define P_ENCP_VIDEO_VSPULS_BEGIN (volatile unsigned int *)((0x1b9b << 2) + 0xff900000) +#define ENCP_VIDEO_VSPULS_END (0x1b9c) +#define P_ENCP_VIDEO_VSPULS_END (volatile unsigned int *)((0x1b9c << 2) + 0xff900000) +#define ENCP_VIDEO_VSPULS_BLINE (0x1b9d) +#define P_ENCP_VIDEO_VSPULS_BLINE (volatile unsigned int *)((0x1b9d << 2) + 0xff900000) +#define ENCP_VIDEO_VSPULS_ELINE (0x1b9e) +#define P_ENCP_VIDEO_VSPULS_ELINE (volatile unsigned int *)((0x1b9e << 2) + 0xff900000) +#define ENCP_VIDEO_EQPULS_BEGIN (0x1b9f) +#define P_ENCP_VIDEO_EQPULS_BEGIN (volatile unsigned int *)((0x1b9f << 2) + 0xff900000) +#define ENCP_VIDEO_EQPULS_END (0x1ba0) +#define P_ENCP_VIDEO_EQPULS_END (volatile unsigned int *)((0x1ba0 << 2) + 0xff900000) +#define ENCP_VIDEO_EQPULS_BLINE (0x1ba1) +#define P_ENCP_VIDEO_EQPULS_BLINE (volatile unsigned int *)((0x1ba1 << 2) + 0xff900000) +#define ENCP_VIDEO_EQPULS_ELINE (0x1ba2) +#define P_ENCP_VIDEO_EQPULS_ELINE (volatile unsigned int *)((0x1ba2 << 2) + 0xff900000) +#define ENCP_VIDEO_HAVON_END (0x1ba3) +#define P_ENCP_VIDEO_HAVON_END (volatile unsigned int *)((0x1ba3 << 2) + 0xff900000) +#define ENCP_VIDEO_HAVON_BEGIN (0x1ba4) +#define P_ENCP_VIDEO_HAVON_BEGIN (volatile unsigned int *)((0x1ba4 << 2) + 0xff900000) +#define ENCP_VIDEO_VAVON_ELINE (0x1baf) +#define P_ENCP_VIDEO_VAVON_ELINE (volatile unsigned int *)((0x1baf << 2) + 0xff900000) +#define ENCP_VIDEO_VAVON_BLINE (0x1ba6) +#define P_ENCP_VIDEO_VAVON_BLINE (volatile unsigned int *)((0x1ba6 << 2) + 0xff900000) +#define ENCP_VIDEO_HSO_BEGIN (0x1ba7) +#define P_ENCP_VIDEO_HSO_BEGIN (volatile unsigned int *)((0x1ba7 << 2) + 0xff900000) +#define ENCP_VIDEO_HSO_END (0x1ba8) +#define P_ENCP_VIDEO_HSO_END (volatile unsigned int *)((0x1ba8 << 2) + 0xff900000) +#define ENCP_VIDEO_VSO_BEGIN (0x1ba9) +#define P_ENCP_VIDEO_VSO_BEGIN (volatile unsigned int *)((0x1ba9 << 2) + 0xff900000) +#define ENCP_VIDEO_VSO_END (0x1baa) +#define P_ENCP_VIDEO_VSO_END (volatile unsigned int *)((0x1baa << 2) + 0xff900000) +#define ENCP_VIDEO_VSO_BLINE (0x1bab) +#define P_ENCP_VIDEO_VSO_BLINE (volatile unsigned int *)((0x1bab << 2) + 0xff900000) +#define ENCP_VIDEO_VSO_ELINE (0x1bac) +#define P_ENCP_VIDEO_VSO_ELINE (volatile unsigned int *)((0x1bac << 2) + 0xff900000) +#define ENCP_VIDEO_SYNC_WAVE_CURVE (0x1bad) +#define P_ENCP_VIDEO_SYNC_WAVE_CURVE (volatile unsigned int *)((0x1bad << 2) + 0xff900000) +#define ENCP_VIDEO_MAX_LNCNT (0x1bae) +#define P_ENCP_VIDEO_MAX_LNCNT (volatile unsigned int *)((0x1bae << 2) + 0xff900000) +#define ENCP_VIDEO_SY_VAL (0x1bb0) +#define P_ENCP_VIDEO_SY_VAL (volatile unsigned int *)((0x1bb0 << 2) + 0xff900000) +#define ENCP_VIDEO_SY2_VAL (0x1bb1) +#define P_ENCP_VIDEO_SY2_VAL (volatile unsigned int *)((0x1bb1 << 2) + 0xff900000) +#define ENCP_VIDEO_BLANKY_VAL (0x1bb2) +#define P_ENCP_VIDEO_BLANKY_VAL (volatile unsigned int *)((0x1bb2 << 2) + 0xff900000) +#define ENCP_VIDEO_BLANKPB_VAL (0x1bb3) +#define P_ENCP_VIDEO_BLANKPB_VAL (volatile unsigned int *)((0x1bb3 << 2) + 0xff900000) +#define ENCP_VIDEO_BLANKPR_VAL (0x1bb4) +#define P_ENCP_VIDEO_BLANKPR_VAL (volatile unsigned int *)((0x1bb4 << 2) + 0xff900000) +#define ENCP_VIDEO_HOFFST (0x1bb5) +#define P_ENCP_VIDEO_HOFFST (volatile unsigned int *)((0x1bb5 << 2) + 0xff900000) +#define ENCP_VIDEO_VOFFST (0x1bb6) +#define P_ENCP_VIDEO_VOFFST (volatile unsigned int *)((0x1bb6 << 2) + 0xff900000) +#define ENCP_VIDEO_RGB_CTRL (0x1bb7) +#define P_ENCP_VIDEO_RGB_CTRL (volatile unsigned int *)((0x1bb7 << 2) + 0xff900000) +#define ENCP_VIDEO_FILT_CTRL (0x1bb8) +#define P_ENCP_VIDEO_FILT_CTRL (volatile unsigned int *)((0x1bb8 << 2) + 0xff900000) +#define ENCP_VIDEO_OFLD_VPEQ_OFST (0x1bb9) +#define P_ENCP_VIDEO_OFLD_VPEQ_OFST (volatile unsigned int *)((0x1bb9 << 2) + 0xff900000) +#define ENCP_VIDEO_OFLD_VOAV_OFST (0x1bba) +#define P_ENCP_VIDEO_OFLD_VOAV_OFST (volatile unsigned int *)((0x1bba << 2) + 0xff900000) +#define ENCP_VIDEO_MATRIX_CB (0x1bbb) +#define P_ENCP_VIDEO_MATRIX_CB (volatile unsigned int *)((0x1bbb << 2) + 0xff900000) +#define ENCP_VIDEO_MATRIX_CR (0x1bbc) +#define P_ENCP_VIDEO_MATRIX_CR (volatile unsigned int *)((0x1bbc << 2) + 0xff900000) +#define ENCP_VIDEO_RGBIN_CTRL (0x1bbd) +#define P_ENCP_VIDEO_RGBIN_CTRL (volatile unsigned int *)((0x1bbd << 2) + 0xff900000) +//------------------Macrovision advanced setting +#define ENCP_MACV_BLANKY_VAL (0x1bc0) +#define P_ENCP_MACV_BLANKY_VAL (volatile unsigned int *)((0x1bc0 << 2) + 0xff900000) +#define ENCP_MACV_MAXY_VAL (0x1bc1) +#define P_ENCP_MACV_MAXY_VAL (volatile unsigned int *)((0x1bc1 << 2) + 0xff900000) +#define ENCP_MACV_1ST_PSSYNC_STRT (0x1bc2) +#define P_ENCP_MACV_1ST_PSSYNC_STRT (volatile unsigned int *)((0x1bc2 << 2) + 0xff900000) +#define ENCP_MACV_PSSYNC_STRT (0x1bc3) +#define P_ENCP_MACV_PSSYNC_STRT (volatile unsigned int *)((0x1bc3 << 2) + 0xff900000) +#define ENCP_MACV_AGC_STRT (0x1bc4) +#define P_ENCP_MACV_AGC_STRT (volatile unsigned int *)((0x1bc4 << 2) + 0xff900000) +#define ENCP_MACV_AGC_END (0x1bc5) +#define P_ENCP_MACV_AGC_END (volatile unsigned int *)((0x1bc5 << 2) + 0xff900000) +#define ENCP_MACV_WAVE_END (0x1bc6) +#define P_ENCP_MACV_WAVE_END (volatile unsigned int *)((0x1bc6 << 2) + 0xff900000) +#define ENCP_MACV_STRTLINE (0x1bc7) +#define P_ENCP_MACV_STRTLINE (volatile unsigned int *)((0x1bc7 << 2) + 0xff900000) +#define ENCP_MACV_ENDLINE (0x1bc8) +#define P_ENCP_MACV_ENDLINE (volatile unsigned int *)((0x1bc8 << 2) + 0xff900000) +#define ENCP_MACV_TS_CNT_MAX_L (0x1bc9) +#define P_ENCP_MACV_TS_CNT_MAX_L (volatile unsigned int *)((0x1bc9 << 2) + 0xff900000) +#define ENCP_MACV_TS_CNT_MAX_H (0x1bca) +#define P_ENCP_MACV_TS_CNT_MAX_H (volatile unsigned int *)((0x1bca << 2) + 0xff900000) +#define ENCP_MACV_TIME_DOWN (0x1bcb) +#define P_ENCP_MACV_TIME_DOWN (volatile unsigned int *)((0x1bcb << 2) + 0xff900000) +#define ENCP_MACV_TIME_LO (0x1bcc) +#define P_ENCP_MACV_TIME_LO (volatile unsigned int *)((0x1bcc << 2) + 0xff900000) +#define ENCP_MACV_TIME_UP (0x1bcd) +#define P_ENCP_MACV_TIME_UP (volatile unsigned int *)((0x1bcd << 2) + 0xff900000) +#define ENCP_MACV_TIME_RST (0x1bce) +#define P_ENCP_MACV_TIME_RST (volatile unsigned int *)((0x1bce << 2) + 0xff900000) +//---------------- VBI control ------------------- +#define ENCP_VBI_CTRL (0x1bd0) +#define P_ENCP_VBI_CTRL (volatile unsigned int *)((0x1bd0 << 2) + 0xff900000) +#define ENCP_VBI_SETTING (0x1bd1) +#define P_ENCP_VBI_SETTING (volatile unsigned int *)((0x1bd1 << 2) + 0xff900000) +#define ENCP_VBI_BEGIN (0x1bd2) +#define P_ENCP_VBI_BEGIN (volatile unsigned int *)((0x1bd2 << 2) + 0xff900000) +#define ENCP_VBI_WIDTH (0x1bd3) +#define P_ENCP_VBI_WIDTH (volatile unsigned int *)((0x1bd3 << 2) + 0xff900000) +#define ENCP_VBI_HVAL (0x1bd4) +#define P_ENCP_VBI_HVAL (volatile unsigned int *)((0x1bd4 << 2) + 0xff900000) +#define ENCP_VBI_DATA0 (0x1bd5) +#define P_ENCP_VBI_DATA0 (volatile unsigned int *)((0x1bd5 << 2) + 0xff900000) +#define ENCP_VBI_DATA1 (0x1bd6) +#define P_ENCP_VBI_DATA1 (volatile unsigned int *)((0x1bd6 << 2) + 0xff900000) +//----------------C656 OUT Control------------- Grant +#define C656_HS_ST (0x1be0) +#define P_C656_HS_ST (volatile unsigned int *)((0x1be0 << 2) + 0xff900000) +#define C656_HS_ED (0x1be1) +#define P_C656_HS_ED (volatile unsigned int *)((0x1be1 << 2) + 0xff900000) +#define C656_VS_LNST_E (0x1be2) +#define P_C656_VS_LNST_E (volatile unsigned int *)((0x1be2 << 2) + 0xff900000) +#define C656_VS_LNST_O (0x1be3) +#define P_C656_VS_LNST_O (volatile unsigned int *)((0x1be3 << 2) + 0xff900000) +#define C656_VS_LNED_E (0x1be4) +#define P_C656_VS_LNED_E (volatile unsigned int *)((0x1be4 << 2) + 0xff900000) +#define C656_VS_LNED_O (0x1be5) +#define P_C656_VS_LNED_O (volatile unsigned int *)((0x1be5 << 2) + 0xff900000) +#define C656_FS_LNST (0x1be6) +#define P_C656_FS_LNST (volatile unsigned int *)((0x1be6 << 2) + 0xff900000) +#define C656_FS_LNED (0x1be7) +#define P_C656_FS_LNED (volatile unsigned int *)((0x1be7 << 2) + 0xff900000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: enc480p_regs.h +// +// +// Reading file: enci_regs.h +// +//=========================================================================== +// Video Interface Registers 0xb00 - 0xb57 +//=========================================================================== +#define ENCI_VIDEO_MODE (0x1b00) +#define P_ENCI_VIDEO_MODE (volatile unsigned int *)((0x1b00 << 2) + 0xff900000) +#define ENCI_VIDEO_MODE_ADV (0x1b01) +#define P_ENCI_VIDEO_MODE_ADV (volatile unsigned int *)((0x1b01 << 2) + 0xff900000) +#define ENCI_VIDEO_FSC_ADJ (0x1b02) +#define P_ENCI_VIDEO_FSC_ADJ (volatile unsigned int *)((0x1b02 << 2) + 0xff900000) +#define ENCI_VIDEO_BRIGHT (0x1b03) +#define P_ENCI_VIDEO_BRIGHT (volatile unsigned int *)((0x1b03 << 2) + 0xff900000) +#define ENCI_VIDEO_CONT (0x1b04) +#define P_ENCI_VIDEO_CONT (volatile unsigned int *)((0x1b04 << 2) + 0xff900000) +#define ENCI_VIDEO_SAT (0x1b05) +#define P_ENCI_VIDEO_SAT (volatile unsigned int *)((0x1b05 << 2) + 0xff900000) +#define ENCI_VIDEO_HUE (0x1b06) +#define P_ENCI_VIDEO_HUE (volatile unsigned int *)((0x1b06 << 2) + 0xff900000) +#define ENCI_VIDEO_SCH (0x1b07) +#define P_ENCI_VIDEO_SCH (volatile unsigned int *)((0x1b07 << 2) + 0xff900000) +#define ENCI_SYNC_MODE (0x1b08) +#define P_ENCI_SYNC_MODE (volatile unsigned int *)((0x1b08 << 2) + 0xff900000) +#define ENCI_SYNC_CTRL (0x1b09) +#define P_ENCI_SYNC_CTRL (volatile unsigned int *)((0x1b09 << 2) + 0xff900000) +#define ENCI_SYNC_HSO_BEGIN (0x1b0a) +#define P_ENCI_SYNC_HSO_BEGIN (volatile unsigned int *)((0x1b0a << 2) + 0xff900000) +#define ENCI_SYNC_HSO_END (0x1b0b) +#define P_ENCI_SYNC_HSO_END (volatile unsigned int *)((0x1b0b << 2) + 0xff900000) +#define ENCI_SYNC_VSO_EVN (0x1b0c) +#define P_ENCI_SYNC_VSO_EVN (volatile unsigned int *)((0x1b0c << 2) + 0xff900000) +#define ENCI_SYNC_VSO_ODD (0x1b0d) +#define P_ENCI_SYNC_VSO_ODD (volatile unsigned int *)((0x1b0d << 2) + 0xff900000) +#define ENCI_SYNC_VSO_EVNLN (0x1b0e) +#define P_ENCI_SYNC_VSO_EVNLN (volatile unsigned int *)((0x1b0e << 2) + 0xff900000) +#define ENCI_SYNC_VSO_ODDLN (0x1b0f) +#define P_ENCI_SYNC_VSO_ODDLN (volatile unsigned int *)((0x1b0f << 2) + 0xff900000) +#define ENCI_SYNC_HOFFST (0x1b10) +#define P_ENCI_SYNC_HOFFST (volatile unsigned int *)((0x1b10 << 2) + 0xff900000) +#define ENCI_SYNC_VOFFST (0x1b11) +#define P_ENCI_SYNC_VOFFST (volatile unsigned int *)((0x1b11 << 2) + 0xff900000) +#define ENCI_SYNC_ADJ (0x1b12) +#define P_ENCI_SYNC_ADJ (volatile unsigned int *)((0x1b12 << 2) + 0xff900000) +#define ENCI_RGB_SETTING (0x1b13) +#define P_ENCI_RGB_SETTING (volatile unsigned int *)((0x1b13 << 2) + 0xff900000) +//`define ENCI_CMPN_MATRIX_CB 8'h14 +//`define ENCI_CMPN_MATRIX_CR 8'h15 +#define ENCI_DE_H_BEGIN (0x1b16) +#define P_ENCI_DE_H_BEGIN (volatile unsigned int *)((0x1b16 << 2) + 0xff900000) +#define ENCI_DE_H_END (0x1b17) +#define P_ENCI_DE_H_END (volatile unsigned int *)((0x1b17 << 2) + 0xff900000) +#define ENCI_DE_V_BEGIN_EVEN (0x1b18) +#define P_ENCI_DE_V_BEGIN_EVEN (volatile unsigned int *)((0x1b18 << 2) + 0xff900000) +#define ENCI_DE_V_END_EVEN (0x1b19) +#define P_ENCI_DE_V_END_EVEN (volatile unsigned int *)((0x1b19 << 2) + 0xff900000) +#define ENCI_DE_V_BEGIN_ODD (0x1b1a) +#define P_ENCI_DE_V_BEGIN_ODD (volatile unsigned int *)((0x1b1a << 2) + 0xff900000) +#define ENCI_DE_V_END_ODD (0x1b1b) +#define P_ENCI_DE_V_END_ODD (volatile unsigned int *)((0x1b1b << 2) + 0xff900000) +#define ENCI_VBI_SETTING (0x1b20) +#define P_ENCI_VBI_SETTING (volatile unsigned int *)((0x1b20 << 2) + 0xff900000) +#define ENCI_VBI_CCDT_EVN (0x1b21) +#define P_ENCI_VBI_CCDT_EVN (volatile unsigned int *)((0x1b21 << 2) + 0xff900000) +#define ENCI_VBI_CCDT_ODD (0x1b22) +#define P_ENCI_VBI_CCDT_ODD (volatile unsigned int *)((0x1b22 << 2) + 0xff900000) +#define ENCI_VBI_CC525_LN (0x1b23) +#define P_ENCI_VBI_CC525_LN (volatile unsigned int *)((0x1b23 << 2) + 0xff900000) +#define ENCI_VBI_CC625_LN (0x1b24) +#define P_ENCI_VBI_CC625_LN (volatile unsigned int *)((0x1b24 << 2) + 0xff900000) +#define ENCI_VBI_WSSDT (0x1b25) +#define P_ENCI_VBI_WSSDT (volatile unsigned int *)((0x1b25 << 2) + 0xff900000) +#define ENCI_VBI_WSS_LN (0x1b26) +#define P_ENCI_VBI_WSS_LN (volatile unsigned int *)((0x1b26 << 2) + 0xff900000) +#define ENCI_VBI_CGMSDT_L (0x1b27) +#define P_ENCI_VBI_CGMSDT_L (volatile unsigned int *)((0x1b27 << 2) + 0xff900000) +#define ENCI_VBI_CGMSDT_H (0x1b28) +#define P_ENCI_VBI_CGMSDT_H (volatile unsigned int *)((0x1b28 << 2) + 0xff900000) +#define ENCI_VBI_CGMS_LN (0x1b29) +#define P_ENCI_VBI_CGMS_LN (volatile unsigned int *)((0x1b29 << 2) + 0xff900000) +#define ENCI_VBI_TTX_HTIME (0x1b2a) +#define P_ENCI_VBI_TTX_HTIME (volatile unsigned int *)((0x1b2a << 2) + 0xff900000) +#define ENCI_VBI_TTX_LN (0x1b2b) +#define P_ENCI_VBI_TTX_LN (volatile unsigned int *)((0x1b2b << 2) + 0xff900000) +#define ENCI_VBI_TTXDT0 (0x1b2c) +#define P_ENCI_VBI_TTXDT0 (volatile unsigned int *)((0x1b2c << 2) + 0xff900000) +#define ENCI_VBI_TTXDT1 (0x1b2d) +#define P_ENCI_VBI_TTXDT1 (volatile unsigned int *)((0x1b2d << 2) + 0xff900000) +#define ENCI_VBI_TTXDT2 (0x1b2e) +#define P_ENCI_VBI_TTXDT2 (volatile unsigned int *)((0x1b2e << 2) + 0xff900000) +#define ENCI_VBI_TTXDT3 (0x1b2f) +#define P_ENCI_VBI_TTXDT3 (volatile unsigned int *)((0x1b2f << 2) + 0xff900000) +#define ENCI_MACV_N0 (0x1b30) +#define P_ENCI_MACV_N0 (volatile unsigned int *)((0x1b30 << 2) + 0xff900000) +#define ENCI_MACV_N1 (0x1b31) +#define P_ENCI_MACV_N1 (volatile unsigned int *)((0x1b31 << 2) + 0xff900000) +#define ENCI_MACV_N2 (0x1b32) +#define P_ENCI_MACV_N2 (volatile unsigned int *)((0x1b32 << 2) + 0xff900000) +#define ENCI_MACV_N3 (0x1b33) +#define P_ENCI_MACV_N3 (volatile unsigned int *)((0x1b33 << 2) + 0xff900000) +#define ENCI_MACV_N4 (0x1b34) +#define P_ENCI_MACV_N4 (volatile unsigned int *)((0x1b34 << 2) + 0xff900000) +#define ENCI_MACV_N5 (0x1b35) +#define P_ENCI_MACV_N5 (volatile unsigned int *)((0x1b35 << 2) + 0xff900000) +#define ENCI_MACV_N6 (0x1b36) +#define P_ENCI_MACV_N6 (volatile unsigned int *)((0x1b36 << 2) + 0xff900000) +#define ENCI_MACV_N7 (0x1b37) +#define P_ENCI_MACV_N7 (volatile unsigned int *)((0x1b37 << 2) + 0xff900000) +#define ENCI_MACV_N8 (0x1b38) +#define P_ENCI_MACV_N8 (volatile unsigned int *)((0x1b38 << 2) + 0xff900000) +#define ENCI_MACV_N9 (0x1b39) +#define P_ENCI_MACV_N9 (volatile unsigned int *)((0x1b39 << 2) + 0xff900000) +#define ENCI_MACV_N10 (0x1b3a) +#define P_ENCI_MACV_N10 (volatile unsigned int *)((0x1b3a << 2) + 0xff900000) +#define ENCI_MACV_N11 (0x1b3b) +#define P_ENCI_MACV_N11 (volatile unsigned int *)((0x1b3b << 2) + 0xff900000) +#define ENCI_MACV_N12 (0x1b3c) +#define P_ENCI_MACV_N12 (volatile unsigned int *)((0x1b3c << 2) + 0xff900000) +#define ENCI_MACV_N13 (0x1b3d) +#define P_ENCI_MACV_N13 (volatile unsigned int *)((0x1b3d << 2) + 0xff900000) +#define ENCI_MACV_N14 (0x1b3e) +#define P_ENCI_MACV_N14 (volatile unsigned int *)((0x1b3e << 2) + 0xff900000) +#define ENCI_MACV_N15 (0x1b3f) +#define P_ENCI_MACV_N15 (volatile unsigned int *)((0x1b3f << 2) + 0xff900000) +#define ENCI_MACV_N16 (0x1b40) +#define P_ENCI_MACV_N16 (volatile unsigned int *)((0x1b40 << 2) + 0xff900000) +#define ENCI_MACV_N17 (0x1b41) +#define P_ENCI_MACV_N17 (volatile unsigned int *)((0x1b41 << 2) + 0xff900000) +#define ENCI_MACV_N18 (0x1b42) +#define P_ENCI_MACV_N18 (volatile unsigned int *)((0x1b42 << 2) + 0xff900000) +#define ENCI_MACV_N19 (0x1b43) +#define P_ENCI_MACV_N19 (volatile unsigned int *)((0x1b43 << 2) + 0xff900000) +#define ENCI_MACV_N20 (0x1b44) +#define P_ENCI_MACV_N20 (volatile unsigned int *)((0x1b44 << 2) + 0xff900000) +#define ENCI_MACV_N21 (0x1b45) +#define P_ENCI_MACV_N21 (volatile unsigned int *)((0x1b45 << 2) + 0xff900000) +#define ENCI_MACV_N22 (0x1b46) +#define P_ENCI_MACV_N22 (volatile unsigned int *)((0x1b46 << 2) + 0xff900000) +//`define ENCI_MACV_P_AGC 8'h47 +#define ENCI_DBG_PX_RST (0x1b48) +#define P_ENCI_DBG_PX_RST (volatile unsigned int *)((0x1b48 << 2) + 0xff900000) +#define ENCI_DBG_FLDLN_RST (0x1b49) +#define P_ENCI_DBG_FLDLN_RST (volatile unsigned int *)((0x1b49 << 2) + 0xff900000) +#define ENCI_DBG_PX_INT (0x1b4a) +#define P_ENCI_DBG_PX_INT (volatile unsigned int *)((0x1b4a << 2) + 0xff900000) +#define ENCI_DBG_FLDLN_INT (0x1b4b) +#define P_ENCI_DBG_FLDLN_INT (volatile unsigned int *)((0x1b4b << 2) + 0xff900000) +#define ENCI_DBG_MAXPX (0x1b4c) +#define P_ENCI_DBG_MAXPX (volatile unsigned int *)((0x1b4c << 2) + 0xff900000) +#define ENCI_DBG_MAXLN (0x1b4d) +#define P_ENCI_DBG_MAXLN (volatile unsigned int *)((0x1b4d << 2) + 0xff900000) +#define ENCI_MACV_MAX_AMP (0x1b50) +#define P_ENCI_MACV_MAX_AMP (volatile unsigned int *)((0x1b50 << 2) + 0xff900000) +#define ENCI_MACV_PULSE_LO (0x1b51) +#define P_ENCI_MACV_PULSE_LO (volatile unsigned int *)((0x1b51 << 2) + 0xff900000) +#define ENCI_MACV_PULSE_HI (0x1b52) +#define P_ENCI_MACV_PULSE_HI (volatile unsigned int *)((0x1b52 << 2) + 0xff900000) +#define ENCI_MACV_BKP_MAX (0x1b53) +#define P_ENCI_MACV_BKP_MAX (volatile unsigned int *)((0x1b53 << 2) + 0xff900000) +#define ENCI_CFILT_CTRL (0x1b54) +#define P_ENCI_CFILT_CTRL (volatile unsigned int *)((0x1b54 << 2) + 0xff900000) +#define ENCI_CFILT7 (0x1b55) +#define P_ENCI_CFILT7 (volatile unsigned int *)((0x1b55 << 2) + 0xff900000) +#define ENCI_YC_DELAY (0x1b56) +#define P_ENCI_YC_DELAY (volatile unsigned int *)((0x1b56 << 2) + 0xff900000) +#define ENCI_VIDEO_EN (0x1b57) +#define P_ENCI_VIDEO_EN (volatile unsigned int *)((0x1b57 << 2) + 0xff900000) +// +// Closing file: enci_regs.h +// +//`define VENC2_VCBUS_BASE 8'h1c +// +// Reading file: venc2_regs.h +// +//=========================================================================== +// Venc Registers (Cont.) 0xc00 - 0xcff (VENC registers 0xc00 - 0xcef) +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: VENC2_VCBUS_BASE = 0x1c +// ----------------------------------------------- +// Program video control signals from ENCI core to DVI/HDMI interface +#define ENCI_DVI_HSO_BEGIN (0x1c00) +#define P_ENCI_DVI_HSO_BEGIN (volatile unsigned int *)((0x1c00 << 2) + 0xff900000) +#define ENCI_DVI_HSO_END (0x1c01) +#define P_ENCI_DVI_HSO_END (volatile unsigned int *)((0x1c01 << 2) + 0xff900000) +#define ENCI_DVI_VSO_BLINE_EVN (0x1c02) +#define P_ENCI_DVI_VSO_BLINE_EVN (volatile unsigned int *)((0x1c02 << 2) + 0xff900000) +#define ENCI_DVI_VSO_BLINE_ODD (0x1c03) +#define P_ENCI_DVI_VSO_BLINE_ODD (volatile unsigned int *)((0x1c03 << 2) + 0xff900000) +#define ENCI_DVI_VSO_ELINE_EVN (0x1c04) +#define P_ENCI_DVI_VSO_ELINE_EVN (volatile unsigned int *)((0x1c04 << 2) + 0xff900000) +#define ENCI_DVI_VSO_ELINE_ODD (0x1c05) +#define P_ENCI_DVI_VSO_ELINE_ODD (volatile unsigned int *)((0x1c05 << 2) + 0xff900000) +#define ENCI_DVI_VSO_BEGIN_EVN (0x1c06) +#define P_ENCI_DVI_VSO_BEGIN_EVN (volatile unsigned int *)((0x1c06 << 2) + 0xff900000) +#define ENCI_DVI_VSO_BEGIN_ODD (0x1c07) +#define P_ENCI_DVI_VSO_BEGIN_ODD (volatile unsigned int *)((0x1c07 << 2) + 0xff900000) +#define ENCI_DVI_VSO_END_EVN (0x1c08) +#define P_ENCI_DVI_VSO_END_EVN (volatile unsigned int *)((0x1c08 << 2) + 0xff900000) +#define ENCI_DVI_VSO_END_ODD (0x1c09) +#define P_ENCI_DVI_VSO_END_ODD (volatile unsigned int *)((0x1c09 << 2) + 0xff900000) +// Define cmpt and cvbs cb/cr delay after ENCI chroma filters +// Bit 15:12 RW, enci_cb_cvbs_dly_sel. 0=no delay; 1~6=delay by 1~6 clk; 7~15 reserved. +// Bit 11: 8 RW, enci_cr_cvbs_dly_sel. 0=no delay; 1~6=delay by 1~6 clk; 7~15 reserved. +// Bit 7: 4 RW, enci_cb_cmpt_dly_sel. 0=no delay; 1~6=delay by 1~6 clk; 7~15 reserved. +// Bit 3: 0 RW, enci_cr_cmpt_dly_sel. 0=no delay; 1~6=delay by 1~6 clk; 7~15 reserved. +#define ENCI_CFILT_CTRL2 (0x1c0a) +#define P_ENCI_CFILT_CTRL2 (volatile unsigned int *)((0x1c0a << 2) + 0xff900000) +#define ENCI_DACSEL_0 (0x1c0b) +#define P_ENCI_DACSEL_0 (volatile unsigned int *)((0x1c0b << 2) + 0xff900000) +#define ENCI_DACSEL_1 (0x1c0c) +#define P_ENCI_DACSEL_1 (volatile unsigned int *)((0x1c0c << 2) + 0xff900000) +#define ENCP_DACSEL_0 (0x1c0d) +#define P_ENCP_DACSEL_0 (volatile unsigned int *)((0x1c0d << 2) + 0xff900000) +#define ENCP_DACSEL_1 (0x1c0e) +#define P_ENCP_DACSEL_1 (volatile unsigned int *)((0x1c0e << 2) + 0xff900000) +#define ENCP_MAX_LINE_SWITCH_POINT (0x1c0f) +#define P_ENCP_MAX_LINE_SWITCH_POINT (volatile unsigned int *)((0x1c0f << 2) + 0xff900000) +#define ENCI_TST_EN (0x1c10) +#define P_ENCI_TST_EN (volatile unsigned int *)((0x1c10 << 2) + 0xff900000) +#define ENCI_TST_MDSEL (0x1c11) +#define P_ENCI_TST_MDSEL (volatile unsigned int *)((0x1c11 << 2) + 0xff900000) +#define ENCI_TST_Y (0x1c12) +#define P_ENCI_TST_Y (volatile unsigned int *)((0x1c12 << 2) + 0xff900000) +#define ENCI_TST_CB (0x1c13) +#define P_ENCI_TST_CB (volatile unsigned int *)((0x1c13 << 2) + 0xff900000) +#define ENCI_TST_CR (0x1c14) +#define P_ENCI_TST_CR (volatile unsigned int *)((0x1c14 << 2) + 0xff900000) +#define ENCI_TST_CLRBAR_STRT (0x1c15) +#define P_ENCI_TST_CLRBAR_STRT (volatile unsigned int *)((0x1c15 << 2) + 0xff900000) +#define ENCI_TST_CLRBAR_WIDTH (0x1c16) +#define P_ENCI_TST_CLRBAR_WIDTH (volatile unsigned int *)((0x1c16 << 2) + 0xff900000) +#define ENCI_TST_VDCNT_STSET (0x1c17) +#define P_ENCI_TST_VDCNT_STSET (volatile unsigned int *)((0x1c17 << 2) + 0xff900000) +// bit 15:8 -- vfifo2vd_vd_sel +// bit 7 -- vfifo2vd_drop +// bit 6:1 -- vfifo2vd_delay +// bit 0 -- vfifo2vd_en +#define ENCI_VFIFO2VD_CTL (0x1c18) +#define P_ENCI_VFIFO2VD_CTL (volatile unsigned int *)((0x1c18 << 2) + 0xff900000) +// bit 12:0 -- vfifo2vd_pixel_start +#define ENCI_VFIFO2VD_PIXEL_START (0x1c19) +#define P_ENCI_VFIFO2VD_PIXEL_START (volatile unsigned int *)((0x1c19 << 2) + 0xff900000) +// bit 12:00 -- vfifo2vd_pixel_end +#define ENCI_VFIFO2VD_PIXEL_END (0x1c1a) +#define P_ENCI_VFIFO2VD_PIXEL_END (volatile unsigned int *)((0x1c1a << 2) + 0xff900000) +// bit 10:0 -- vfifo2vd_line_top_start +#define ENCI_VFIFO2VD_LINE_TOP_START (0x1c1b) +#define P_ENCI_VFIFO2VD_LINE_TOP_START (volatile unsigned int *)((0x1c1b << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_top_end +#define ENCI_VFIFO2VD_LINE_TOP_END (0x1c1c) +#define P_ENCI_VFIFO2VD_LINE_TOP_END (volatile unsigned int *)((0x1c1c << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_bot_start +#define ENCI_VFIFO2VD_LINE_BOT_START (0x1c1d) +#define P_ENCI_VFIFO2VD_LINE_BOT_START (volatile unsigned int *)((0x1c1d << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_bot_end +#define ENCI_VFIFO2VD_LINE_BOT_END (0x1c1e) +#define P_ENCI_VFIFO2VD_LINE_BOT_END (volatile unsigned int *)((0x1c1e << 2) + 0xff900000) +#define ENCI_VFIFO2VD_CTL2 (0x1c1f) +#define P_ENCI_VFIFO2VD_CTL2 (volatile unsigned int *)((0x1c1f << 2) + 0xff900000) +// bit 15:8 -- vfifo2vd_vd_sel +// bit 7 -- vfifo2vd_drop +// bit 6:1 -- vfifo2vd_delay +// bit 0 -- vfifo2vd_en +#define ENCT_VFIFO2VD_CTL (0x1c20) +#define P_ENCT_VFIFO2VD_CTL (volatile unsigned int *)((0x1c20 << 2) + 0xff900000) +// bit 12:0 -- vfifo2vd_pixel_start +#define ENCT_VFIFO2VD_PIXEL_START (0x1c21) +#define P_ENCT_VFIFO2VD_PIXEL_START (volatile unsigned int *)((0x1c21 << 2) + 0xff900000) +// bit 12:00 -- vfifo2vd_pixel_end +#define ENCT_VFIFO2VD_PIXEL_END (0x1c22) +#define P_ENCT_VFIFO2VD_PIXEL_END (volatile unsigned int *)((0x1c22 << 2) + 0xff900000) +// bit 10:0 -- vfifo2vd_line_top_start +#define ENCT_VFIFO2VD_LINE_TOP_START (0x1c23) +#define P_ENCT_VFIFO2VD_LINE_TOP_START (volatile unsigned int *)((0x1c23 << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_top_end +#define ENCT_VFIFO2VD_LINE_TOP_END (0x1c24) +#define P_ENCT_VFIFO2VD_LINE_TOP_END (volatile unsigned int *)((0x1c24 << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_bot_start +#define ENCT_VFIFO2VD_LINE_BOT_START (0x1c25) +#define P_ENCT_VFIFO2VD_LINE_BOT_START (volatile unsigned int *)((0x1c25 << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_bot_end +#define ENCT_VFIFO2VD_LINE_BOT_END (0x1c26) +#define P_ENCT_VFIFO2VD_LINE_BOT_END (volatile unsigned int *)((0x1c26 << 2) + 0xff900000) +#define ENCT_VFIFO2VD_CTL2 (0x1c27) +#define P_ENCT_VFIFO2VD_CTL2 (volatile unsigned int *)((0x1c27 << 2) + 0xff900000) +#define ENCT_TST_EN (0x1c28) +#define P_ENCT_TST_EN (volatile unsigned int *)((0x1c28 << 2) + 0xff900000) +#define ENCT_TST_MDSEL (0x1c29) +#define P_ENCT_TST_MDSEL (volatile unsigned int *)((0x1c29 << 2) + 0xff900000) +#define ENCT_TST_Y (0x1c2a) +#define P_ENCT_TST_Y (volatile unsigned int *)((0x1c2a << 2) + 0xff900000) +#define ENCT_TST_CB (0x1c2b) +#define P_ENCT_TST_CB (volatile unsigned int *)((0x1c2b << 2) + 0xff900000) +#define ENCT_TST_CR (0x1c2c) +#define P_ENCT_TST_CR (volatile unsigned int *)((0x1c2c << 2) + 0xff900000) +#define ENCT_TST_CLRBAR_STRT (0x1c2d) +#define P_ENCT_TST_CLRBAR_STRT (volatile unsigned int *)((0x1c2d << 2) + 0xff900000) +#define ENCT_TST_CLRBAR_WIDTH (0x1c2e) +#define P_ENCT_TST_CLRBAR_WIDTH (volatile unsigned int *)((0x1c2e << 2) + 0xff900000) +#define ENCT_TST_VDCNT_STSET (0x1c2f) +#define P_ENCT_TST_VDCNT_STSET (volatile unsigned int *)((0x1c2f << 2) + 0xff900000) +// Program video control signals from ENCP core to DVI/HDMI interface +#define ENCP_DVI_HSO_BEGIN (0x1c30) +#define P_ENCP_DVI_HSO_BEGIN (volatile unsigned int *)((0x1c30 << 2) + 0xff900000) +#define ENCP_DVI_HSO_END (0x1c31) +#define P_ENCP_DVI_HSO_END (volatile unsigned int *)((0x1c31 << 2) + 0xff900000) +#define ENCP_DVI_VSO_BLINE_EVN (0x1c32) +#define P_ENCP_DVI_VSO_BLINE_EVN (volatile unsigned int *)((0x1c32 << 2) + 0xff900000) +#define ENCP_DVI_VSO_BLINE_ODD (0x1c33) +#define P_ENCP_DVI_VSO_BLINE_ODD (volatile unsigned int *)((0x1c33 << 2) + 0xff900000) +#define ENCP_DVI_VSO_ELINE_EVN (0x1c34) +#define P_ENCP_DVI_VSO_ELINE_EVN (volatile unsigned int *)((0x1c34 << 2) + 0xff900000) +#define ENCP_DVI_VSO_ELINE_ODD (0x1c35) +#define P_ENCP_DVI_VSO_ELINE_ODD (volatile unsigned int *)((0x1c35 << 2) + 0xff900000) +#define ENCP_DVI_VSO_BEGIN_EVN (0x1c36) +#define P_ENCP_DVI_VSO_BEGIN_EVN (volatile unsigned int *)((0x1c36 << 2) + 0xff900000) +#define ENCP_DVI_VSO_BEGIN_ODD (0x1c37) +#define P_ENCP_DVI_VSO_BEGIN_ODD (volatile unsigned int *)((0x1c37 << 2) + 0xff900000) +#define ENCP_DVI_VSO_END_EVN (0x1c38) +#define P_ENCP_DVI_VSO_END_EVN (volatile unsigned int *)((0x1c38 << 2) + 0xff900000) +#define ENCP_DVI_VSO_END_ODD (0x1c39) +#define P_ENCP_DVI_VSO_END_ODD (volatile unsigned int *)((0x1c39 << 2) + 0xff900000) +#define ENCP_DE_H_BEGIN (0x1c3a) +#define P_ENCP_DE_H_BEGIN (volatile unsigned int *)((0x1c3a << 2) + 0xff900000) +#define ENCP_DE_H_END (0x1c3b) +#define P_ENCP_DE_H_END (volatile unsigned int *)((0x1c3b << 2) + 0xff900000) +#define ENCP_DE_V_BEGIN_EVEN (0x1c3c) +#define P_ENCP_DE_V_BEGIN_EVEN (volatile unsigned int *)((0x1c3c << 2) + 0xff900000) +#define ENCP_DE_V_END_EVEN (0x1c3d) +#define P_ENCP_DE_V_END_EVEN (volatile unsigned int *)((0x1c3d << 2) + 0xff900000) +#define ENCP_DE_V_BEGIN_ODD (0x1c3e) +#define P_ENCP_DE_V_BEGIN_ODD (volatile unsigned int *)((0x1c3e << 2) + 0xff900000) +#define ENCP_DE_V_END_ODD (0x1c3f) +#define P_ENCP_DE_V_END_ODD (volatile unsigned int *)((0x1c3f << 2) + 0xff900000) +// Bit 15:11 - sync length +// Bit 10:0 - sync start line +#define ENCI_SYNC_LINE_LENGTH (0x1c40) +#define P_ENCI_SYNC_LINE_LENGTH (volatile unsigned int *)((0x1c40 << 2) + 0xff900000) +// Bit 15 - sync_pulse_enable +// Bit 12:0 - sync start pixel +#define ENCI_SYNC_PIXEL_EN (0x1c41) +#define P_ENCI_SYNC_PIXEL_EN (volatile unsigned int *)((0x1c41 << 2) + 0xff900000) +// Bit 15 - enci_sync_enable +// Bit 14 - encp_sync_enable +// Bit 13 - enct_sync_enable +// Bit 12 - short_fussy_sync +// Bit 11 - fussy_sync_enable +// Bit 10:0 - sync target line +#define ENCI_SYNC_TO_LINE_EN (0x1c42) +#define P_ENCI_SYNC_TO_LINE_EN (volatile unsigned int *)((0x1c42 << 2) + 0xff900000) +// Bit 12:0 - sync target pixel +#define ENCI_SYNC_TO_PIXEL (0x1c43) +#define P_ENCI_SYNC_TO_PIXEL (volatile unsigned int *)((0x1c43 << 2) + 0xff900000) +// Bit 15:11 - sync length +// Bit 10:0 - sync start line +#define ENCP_SYNC_LINE_LENGTH (0x1c44) +#define P_ENCP_SYNC_LINE_LENGTH (volatile unsigned int *)((0x1c44 << 2) + 0xff900000) +// Bit 15 - sync_pulse_enable +// Bit 12:0 - sync start pixel +#define ENCP_SYNC_PIXEL_EN (0x1c45) +#define P_ENCP_SYNC_PIXEL_EN (volatile unsigned int *)((0x1c45 << 2) + 0xff900000) +// Bit 15 - enci_sync_enable +// Bit 14 - encp_sync_enable +// Bit 13 - enct_sync_enable +// Bit 12 - short_fussy_sync +// Bit 11 - fussy_sync_enable +// Bit 10:0 - sync target line +#define ENCP_SYNC_TO_LINE_EN (0x1c46) +#define P_ENCP_SYNC_TO_LINE_EN (volatile unsigned int *)((0x1c46 << 2) + 0xff900000) +// Bit 12:0 - sync target pixel +#define ENCP_SYNC_TO_PIXEL (0x1c47) +#define P_ENCP_SYNC_TO_PIXEL (volatile unsigned int *)((0x1c47 << 2) + 0xff900000) +// Bit 15:11 - sync length +// Bit 10:0 - sync start line +#define ENCT_SYNC_LINE_LENGTH (0x1c48) +#define P_ENCT_SYNC_LINE_LENGTH (volatile unsigned int *)((0x1c48 << 2) + 0xff900000) +// Bit 15 - sync_pulse_enable +// Bit 12:0 - sync start pixel +#define ENCT_SYNC_PIXEL_EN (0x1c49) +#define P_ENCT_SYNC_PIXEL_EN (volatile unsigned int *)((0x1c49 << 2) + 0xff900000) +// Bit 15 - enci_sync_enable +// Bit 14 - encp_sync_enable +// Bit 13 - enct_sync_enable +// Bit 12 - short_fussy_sync +// Bit 11 - fussy_sync_enable +// Bit 10:0 - sync target line +#define ENCT_SYNC_TO_LINE_EN (0x1c4a) +#define P_ENCT_SYNC_TO_LINE_EN (volatile unsigned int *)((0x1c4a << 2) + 0xff900000) +// Bit 12:0 - sync target pixel +#define ENCT_SYNC_TO_PIXEL (0x1c4b) +#define P_ENCT_SYNC_TO_PIXEL (volatile unsigned int *)((0x1c4b << 2) + 0xff900000) +// Bit 15:11 - sync length +// Bit 10:0 - sync start line +#define ENCL_SYNC_LINE_LENGTH (0x1c4c) +#define P_ENCL_SYNC_LINE_LENGTH (volatile unsigned int *)((0x1c4c << 2) + 0xff900000) +// Bit 15 - sync_pulse_enable +// Bit 12:0 - sync start pixel +#define ENCL_SYNC_PIXEL_EN (0x1c4d) +#define P_ENCL_SYNC_PIXEL_EN (volatile unsigned int *)((0x1c4d << 2) + 0xff900000) +// Bit 15 - enci_sync_enable +// Bit 14 - encp_sync_enable +// Bit 13 - enct_sync_enable +// Bit 12 - short_fussy_sync +// Bit 11 - fussy_sync_enable +// Bit 10:0 - sync target line +#define ENCL_SYNC_TO_LINE_EN (0x1c4e) +#define P_ENCL_SYNC_TO_LINE_EN (volatile unsigned int *)((0x1c4e << 2) + 0xff900000) +// Bit 12:0 - sync target pixel +#define ENCL_SYNC_TO_PIXEL (0x1c4f) +#define P_ENCL_SYNC_TO_PIXEL (volatile unsigned int *)((0x1c4f << 2) + 0xff900000) +// bit 3 cfg_encp_lcd_scaler_bypass. 1=Do not scale LCD input data; +// 0=Scale LCD input data to y [16*4,235*4], c [16*4,240*4]. +// bit 2 cfg_encp_vadj_scaler_bypass. 1=Do not scale data to enc480p_vadj; +// 0=Scale enc480p_vadj input data to y [16*4,235*4], c [16*4,240*4]. +// bit 1 cfg_vfifo2vd_out_scaler_bypass. 1=Do not scale vfifo2vd's output vdata; +// 0=Scale vfifo2vd's output vdata to y [16,235], c [16,240]. +// bit 0 cfg_vfifo_din_full_range. 1=Data from viu fifo is full range [0,1023]; +// 0=Data from viu fifo is y [16*4,235*4], c [16*4,240*4]. +#define ENCP_VFIFO2VD_CTL2 (0x1c50) +#define P_ENCP_VFIFO2VD_CTL2 (volatile unsigned int *)((0x1c50 << 2) + 0xff900000) +// bit 15:1 Reserved. +// bit 0 cfg_int_dvi_sel_rgb. Applicable for using on-chip hdmi tx module only. This bit controls correct bit-mapping from +// Venc to hdmi_tx depending on whether YCbCr or RGB mode. +// 1=Map data bit from Venc to hdmi_tx for RGB mode; +// 0=Default. Map data bit from Venc to hdmi_tx for YCbCr mode. +#define VENC_DVI_SETTING_MORE (0x1c51) +#define P_VENC_DVI_SETTING_MORE (volatile unsigned int *)((0x1c51 << 2) + 0xff900000) +#define VENC_VDAC_DAC4_FILT_CTRL0 (0x1c54) +#define P_VENC_VDAC_DAC4_FILT_CTRL0 (volatile unsigned int *)((0x1c54 << 2) + 0xff900000) +#define VENC_VDAC_DAC4_FILT_CTRL1 (0x1c55) +#define P_VENC_VDAC_DAC4_FILT_CTRL1 (volatile unsigned int *)((0x1c55 << 2) + 0xff900000) +#define VENC_VDAC_DAC5_FILT_CTRL0 (0x1c56) +#define P_VENC_VDAC_DAC5_FILT_CTRL0 (volatile unsigned int *)((0x1c56 << 2) + 0xff900000) +#define VENC_VDAC_DAC5_FILT_CTRL1 (0x1c57) +#define P_VENC_VDAC_DAC5_FILT_CTRL1 (volatile unsigned int *)((0x1c57 << 2) + 0xff900000) +//Bit 0 filter_en +#define VENC_VDAC_DAC0_FILT_CTRL0 (0x1c58) +#define P_VENC_VDAC_DAC0_FILT_CTRL0 (volatile unsigned int *)((0x1c58 << 2) + 0xff900000) +//dout = ((din + din_d2) * coef1 + (din_d1 * coef0) + 32) >> 6 +//Bit 15:8, coef1, +//Bit 7:0, coef0, +#define VENC_VDAC_DAC0_FILT_CTRL1 (0x1c59) +#define P_VENC_VDAC_DAC0_FILT_CTRL1 (volatile unsigned int *)((0x1c59 << 2) + 0xff900000) +//Bit 0 filter_en +#define VENC_VDAC_DAC1_FILT_CTRL0 (0x1c5a) +#define P_VENC_VDAC_DAC1_FILT_CTRL0 (volatile unsigned int *)((0x1c5a << 2) + 0xff900000) +//dout = ((din + din_d2) * coef1 + (din_d1 * coef0) + 32) >> 6 +//Bit 15:8, coef1, +//Bit 7:0, coef0, +#define VENC_VDAC_DAC1_FILT_CTRL1 (0x1c5b) +#define P_VENC_VDAC_DAC1_FILT_CTRL1 (volatile unsigned int *)((0x1c5b << 2) + 0xff900000) +//Bit 0 filter_en +#define VENC_VDAC_DAC2_FILT_CTRL0 (0x1c5c) +#define P_VENC_VDAC_DAC2_FILT_CTRL0 (volatile unsigned int *)((0x1c5c << 2) + 0xff900000) +//dout = ((din + din_d2) * coef1 + (din_d1 * coef0) + 32) >> 6 +//Bit 15:8, coef1, +//Bit 7:0, coef0, +#define VENC_VDAC_DAC2_FILT_CTRL1 (0x1c5d) +#define P_VENC_VDAC_DAC2_FILT_CTRL1 (volatile unsigned int *)((0x1c5d << 2) + 0xff900000) +//Bit 0 filter_en +#define VENC_VDAC_DAC3_FILT_CTRL0 (0x1c5e) +#define P_VENC_VDAC_DAC3_FILT_CTRL0 (volatile unsigned int *)((0x1c5e << 2) + 0xff900000) +//dout = ((din + din_d2) * coef1 + (din_d1 * coef0) + 32) >> 6 +//Bit 15:8, coef1, +//Bit 7:0, coef0, +#define VENC_VDAC_DAC3_FILT_CTRL1 (0x1c5f) +#define P_VENC_VDAC_DAC3_FILT_CTRL1 (volatile unsigned int *)((0x1c5f << 2) + 0xff900000) +//=========================================================================== +// ENCT registers +#define ENCT_VIDEO_EN (0x1c60) +#define P_ENCT_VIDEO_EN (volatile unsigned int *)((0x1c60 << 2) + 0xff900000) +#define ENCT_VIDEO_Y_SCL (0x1c61) +#define P_ENCT_VIDEO_Y_SCL (volatile unsigned int *)((0x1c61 << 2) + 0xff900000) +#define ENCT_VIDEO_PB_SCL (0x1c62) +#define P_ENCT_VIDEO_PB_SCL (volatile unsigned int *)((0x1c62 << 2) + 0xff900000) +#define ENCT_VIDEO_PR_SCL (0x1c63) +#define P_ENCT_VIDEO_PR_SCL (volatile unsigned int *)((0x1c63 << 2) + 0xff900000) +#define ENCT_VIDEO_Y_OFFST (0x1c64) +#define P_ENCT_VIDEO_Y_OFFST (volatile unsigned int *)((0x1c64 << 2) + 0xff900000) +#define ENCT_VIDEO_PB_OFFST (0x1c65) +#define P_ENCT_VIDEO_PB_OFFST (volatile unsigned int *)((0x1c65 << 2) + 0xff900000) +#define ENCT_VIDEO_PR_OFFST (0x1c66) +#define P_ENCT_VIDEO_PR_OFFST (volatile unsigned int *)((0x1c66 << 2) + 0xff900000) +//----- Video mode +#define ENCT_VIDEO_MODE (0x1c67) +#define P_ENCT_VIDEO_MODE (volatile unsigned int *)((0x1c67 << 2) + 0xff900000) +#define ENCT_VIDEO_MODE_ADV (0x1c68) +#define P_ENCT_VIDEO_MODE_ADV (volatile unsigned int *)((0x1c68 << 2) + 0xff900000) +//--------------- Debug pins +#define ENCT_DBG_PX_RST (0x1c69) +#define P_ENCT_DBG_PX_RST (volatile unsigned int *)((0x1c69 << 2) + 0xff900000) +#define ENCT_DBG_LN_RST (0x1c6a) +#define P_ENCT_DBG_LN_RST (volatile unsigned int *)((0x1c6a << 2) + 0xff900000) +#define ENCT_DBG_PX_INT (0x1c6b) +#define P_ENCT_DBG_PX_INT (volatile unsigned int *)((0x1c6b << 2) + 0xff900000) +#define ENCT_DBG_LN_INT (0x1c6c) +#define P_ENCT_DBG_LN_INT (volatile unsigned int *)((0x1c6c << 2) + 0xff900000) +//----------- Video Advanced setting +#define ENCT_VIDEO_YFP1_HTIME (0x1c6d) +#define P_ENCT_VIDEO_YFP1_HTIME (volatile unsigned int *)((0x1c6d << 2) + 0xff900000) +#define ENCT_VIDEO_YFP2_HTIME (0x1c6e) +#define P_ENCT_VIDEO_YFP2_HTIME (volatile unsigned int *)((0x1c6e << 2) + 0xff900000) +#define ENCT_VIDEO_YC_DLY (0x1c6f) +#define P_ENCT_VIDEO_YC_DLY (volatile unsigned int *)((0x1c6f << 2) + 0xff900000) +#define ENCT_VIDEO_MAX_PXCNT (0x1c70) +#define P_ENCT_VIDEO_MAX_PXCNT (volatile unsigned int *)((0x1c70 << 2) + 0xff900000) +#define ENCT_VIDEO_HAVON_END (0x1c71) +#define P_ENCT_VIDEO_HAVON_END (volatile unsigned int *)((0x1c71 << 2) + 0xff900000) +#define ENCT_VIDEO_HAVON_BEGIN (0x1c72) +#define P_ENCT_VIDEO_HAVON_BEGIN (volatile unsigned int *)((0x1c72 << 2) + 0xff900000) +#define ENCT_VIDEO_VAVON_ELINE (0x1c73) +#define P_ENCT_VIDEO_VAVON_ELINE (volatile unsigned int *)((0x1c73 << 2) + 0xff900000) +#define ENCT_VIDEO_VAVON_BLINE (0x1c74) +#define P_ENCT_VIDEO_VAVON_BLINE (volatile unsigned int *)((0x1c74 << 2) + 0xff900000) +#define ENCT_VIDEO_HSO_BEGIN (0x1c75) +#define P_ENCT_VIDEO_HSO_BEGIN (volatile unsigned int *)((0x1c75 << 2) + 0xff900000) +#define ENCT_VIDEO_HSO_END (0x1c76) +#define P_ENCT_VIDEO_HSO_END (volatile unsigned int *)((0x1c76 << 2) + 0xff900000) +#define ENCT_VIDEO_VSO_BEGIN (0x1c77) +#define P_ENCT_VIDEO_VSO_BEGIN (volatile unsigned int *)((0x1c77 << 2) + 0xff900000) +#define ENCT_VIDEO_VSO_END (0x1c78) +#define P_ENCT_VIDEO_VSO_END (volatile unsigned int *)((0x1c78 << 2) + 0xff900000) +#define ENCT_VIDEO_VSO_BLINE (0x1c79) +#define P_ENCT_VIDEO_VSO_BLINE (volatile unsigned int *)((0x1c79 << 2) + 0xff900000) +#define ENCT_VIDEO_VSO_ELINE (0x1c7a) +#define P_ENCT_VIDEO_VSO_ELINE (volatile unsigned int *)((0x1c7a << 2) + 0xff900000) +#define ENCT_VIDEO_MAX_LNCNT (0x1c7b) +#define P_ENCT_VIDEO_MAX_LNCNT (volatile unsigned int *)((0x1c7b << 2) + 0xff900000) +#define ENCT_VIDEO_BLANKY_VAL (0x1c7c) +#define P_ENCT_VIDEO_BLANKY_VAL (volatile unsigned int *)((0x1c7c << 2) + 0xff900000) +#define ENCT_VIDEO_BLANKPB_VAL (0x1c7d) +#define P_ENCT_VIDEO_BLANKPB_VAL (volatile unsigned int *)((0x1c7d << 2) + 0xff900000) +#define ENCT_VIDEO_BLANKPR_VAL (0x1c7e) +#define P_ENCT_VIDEO_BLANKPR_VAL (volatile unsigned int *)((0x1c7e << 2) + 0xff900000) +#define ENCT_VIDEO_HOFFST (0x1c7f) +#define P_ENCT_VIDEO_HOFFST (volatile unsigned int *)((0x1c7f << 2) + 0xff900000) +#define ENCT_VIDEO_VOFFST (0x1c80) +#define P_ENCT_VIDEO_VOFFST (volatile unsigned int *)((0x1c80 << 2) + 0xff900000) +#define ENCT_VIDEO_RGB_CTRL (0x1c81) +#define P_ENCT_VIDEO_RGB_CTRL (volatile unsigned int *)((0x1c81 << 2) + 0xff900000) +#define ENCT_VIDEO_FILT_CTRL (0x1c82) +#define P_ENCT_VIDEO_FILT_CTRL (volatile unsigned int *)((0x1c82 << 2) + 0xff900000) +#define ENCT_VIDEO_OFLD_VPEQ_OFST (0x1c83) +#define P_ENCT_VIDEO_OFLD_VPEQ_OFST (volatile unsigned int *)((0x1c83 << 2) + 0xff900000) +#define ENCT_VIDEO_OFLD_VOAV_OFST (0x1c84) +#define P_ENCT_VIDEO_OFLD_VOAV_OFST (volatile unsigned int *)((0x1c84 << 2) + 0xff900000) +#define ENCT_VIDEO_MATRIX_CB (0x1c85) +#define P_ENCT_VIDEO_MATRIX_CB (volatile unsigned int *)((0x1c85 << 2) + 0xff900000) +#define ENCT_VIDEO_MATRIX_CR (0x1c86) +#define P_ENCT_VIDEO_MATRIX_CR (volatile unsigned int *)((0x1c86 << 2) + 0xff900000) +#define ENCT_VIDEO_RGBIN_CTRL (0x1c87) +#define P_ENCT_VIDEO_RGBIN_CTRL (volatile unsigned int *)((0x1c87 << 2) + 0xff900000) +#define ENCT_MAX_LINE_SWITCH_POINT (0x1c88) +#define P_ENCT_MAX_LINE_SWITCH_POINT (volatile unsigned int *)((0x1c88 << 2) + 0xff900000) +#define ENCT_DACSEL_0 (0x1c89) +#define P_ENCT_DACSEL_0 (volatile unsigned int *)((0x1c89 << 2) + 0xff900000) +#define ENCT_DACSEL_1 (0x1c8a) +#define P_ENCT_DACSEL_1 (volatile unsigned int *)((0x1c8a << 2) + 0xff900000) +//=========================================================================== +// For ENCL +//=========================================================================== +// bit 15:8 -- vfifo2vd_vd_sel +// bit 7 -- vfifo2vd_drop +// bit 6:1 -- vfifo2vd_delay +// bit 0 -- vfifo2vd_en +#define ENCL_VFIFO2VD_CTL (0x1c90) +#define P_ENCL_VFIFO2VD_CTL (volatile unsigned int *)((0x1c90 << 2) + 0xff900000) +// bit 12:0 -- vfifo2vd_pixel_start +#define ENCL_VFIFO2VD_PIXEL_START (0x1c91) +#define P_ENCL_VFIFO2VD_PIXEL_START (volatile unsigned int *)((0x1c91 << 2) + 0xff900000) +// bit 12:00 -- vfifo2vd_pixel_end +#define ENCL_VFIFO2VD_PIXEL_END (0x1c92) +#define P_ENCL_VFIFO2VD_PIXEL_END (volatile unsigned int *)((0x1c92 << 2) + 0xff900000) +// bit 10:0 -- vfifo2vd_line_top_start +#define ENCL_VFIFO2VD_LINE_TOP_START (0x1c93) +#define P_ENCL_VFIFO2VD_LINE_TOP_START (volatile unsigned int *)((0x1c93 << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_top_end +#define ENCL_VFIFO2VD_LINE_TOP_END (0x1c94) +#define P_ENCL_VFIFO2VD_LINE_TOP_END (volatile unsigned int *)((0x1c94 << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_bot_start +#define ENCL_VFIFO2VD_LINE_BOT_START (0x1c95) +#define P_ENCL_VFIFO2VD_LINE_BOT_START (volatile unsigned int *)((0x1c95 << 2) + 0xff900000) +// bit 10:00 -- vfifo2vd_line_bot_end +#define ENCL_VFIFO2VD_LINE_BOT_END (0x1c96) +#define P_ENCL_VFIFO2VD_LINE_BOT_END (volatile unsigned int *)((0x1c96 << 2) + 0xff900000) +#define ENCL_VFIFO2VD_CTL2 (0x1c97) +#define P_ENCL_VFIFO2VD_CTL2 (volatile unsigned int *)((0x1c97 << 2) + 0xff900000) +#define ENCL_TST_EN (0x1c98) +#define P_ENCL_TST_EN (volatile unsigned int *)((0x1c98 << 2) + 0xff900000) +#define ENCL_TST_MDSEL (0x1c99) +#define P_ENCL_TST_MDSEL (volatile unsigned int *)((0x1c99 << 2) + 0xff900000) +#define ENCL_TST_Y (0x1c9a) +#define P_ENCL_TST_Y (volatile unsigned int *)((0x1c9a << 2) + 0xff900000) +#define ENCL_TST_CB (0x1c9b) +#define P_ENCL_TST_CB (volatile unsigned int *)((0x1c9b << 2) + 0xff900000) +#define ENCL_TST_CR (0x1c9c) +#define P_ENCL_TST_CR (volatile unsigned int *)((0x1c9c << 2) + 0xff900000) +#define ENCL_TST_CLRBAR_STRT (0x1c9d) +#define P_ENCL_TST_CLRBAR_STRT (volatile unsigned int *)((0x1c9d << 2) + 0xff900000) +#define ENCL_TST_CLRBAR_WIDTH (0x1c9e) +#define P_ENCL_TST_CLRBAR_WIDTH (volatile unsigned int *)((0x1c9e << 2) + 0xff900000) +#define ENCL_TST_VDCNT_STSET (0x1c9f) +#define P_ENCL_TST_VDCNT_STSET (volatile unsigned int *)((0x1c9f << 2) + 0xff900000) +//=========================================================================== +// ENCL registers +#define ENCL_VIDEO_EN (0x1ca0) +#define P_ENCL_VIDEO_EN (volatile unsigned int *)((0x1ca0 << 2) + 0xff900000) +#define ENCL_VIDEO_Y_SCL (0x1ca1) +#define P_ENCL_VIDEO_Y_SCL (volatile unsigned int *)((0x1ca1 << 2) + 0xff900000) +#define ENCL_VIDEO_PB_SCL (0x1ca2) +#define P_ENCL_VIDEO_PB_SCL (volatile unsigned int *)((0x1ca2 << 2) + 0xff900000) +#define ENCL_VIDEO_PR_SCL (0x1ca3) +#define P_ENCL_VIDEO_PR_SCL (volatile unsigned int *)((0x1ca3 << 2) + 0xff900000) +#define ENCL_VIDEO_Y_OFFST (0x1ca4) +#define P_ENCL_VIDEO_Y_OFFST (volatile unsigned int *)((0x1ca4 << 2) + 0xff900000) +#define ENCL_VIDEO_PB_OFFST (0x1ca5) +#define P_ENCL_VIDEO_PB_OFFST (volatile unsigned int *)((0x1ca5 << 2) + 0xff900000) +#define ENCL_VIDEO_PR_OFFST (0x1ca6) +#define P_ENCL_VIDEO_PR_OFFST (volatile unsigned int *)((0x1ca6 << 2) + 0xff900000) +//----- Video mode +#define ENCL_VIDEO_MODE (0x1ca7) +#define P_ENCL_VIDEO_MODE (volatile unsigned int *)((0x1ca7 << 2) + 0xff900000) +#define ENCL_VIDEO_MODE_ADV (0x1ca8) +#define P_ENCL_VIDEO_MODE_ADV (volatile unsigned int *)((0x1ca8 << 2) + 0xff900000) +//--------------- Debug pins +#define ENCL_DBG_PX_RST (0x1ca9) +#define P_ENCL_DBG_PX_RST (volatile unsigned int *)((0x1ca9 << 2) + 0xff900000) +#define ENCL_DBG_LN_RST (0x1caa) +#define P_ENCL_DBG_LN_RST (volatile unsigned int *)((0x1caa << 2) + 0xff900000) +#define ENCL_DBG_PX_INT (0x1cab) +#define P_ENCL_DBG_PX_INT (volatile unsigned int *)((0x1cab << 2) + 0xff900000) +#define ENCL_DBG_LN_INT (0x1cac) +#define P_ENCL_DBG_LN_INT (volatile unsigned int *)((0x1cac << 2) + 0xff900000) +//----------- Video Advanced setting +#define ENCL_VIDEO_YFP1_HTIME (0x1cad) +#define P_ENCL_VIDEO_YFP1_HTIME (volatile unsigned int *)((0x1cad << 2) + 0xff900000) +#define ENCL_VIDEO_YFP2_HTIME (0x1cae) +#define P_ENCL_VIDEO_YFP2_HTIME (volatile unsigned int *)((0x1cae << 2) + 0xff900000) +#define ENCL_VIDEO_YC_DLY (0x1caf) +#define P_ENCL_VIDEO_YC_DLY (volatile unsigned int *)((0x1caf << 2) + 0xff900000) +#define ENCL_VIDEO_MAX_PXCNT (0x1cb0) +#define P_ENCL_VIDEO_MAX_PXCNT (volatile unsigned int *)((0x1cb0 << 2) + 0xff900000) +#define ENCL_VIDEO_HAVON_END (0x1cb1) +#define P_ENCL_VIDEO_HAVON_END (volatile unsigned int *)((0x1cb1 << 2) + 0xff900000) +#define ENCL_VIDEO_HAVON_BEGIN (0x1cb2) +#define P_ENCL_VIDEO_HAVON_BEGIN (volatile unsigned int *)((0x1cb2 << 2) + 0xff900000) +#define ENCL_VIDEO_VAVON_ELINE (0x1cb3) +#define P_ENCL_VIDEO_VAVON_ELINE (volatile unsigned int *)((0x1cb3 << 2) + 0xff900000) +#define ENCL_VIDEO_VAVON_BLINE (0x1cb4) +#define P_ENCL_VIDEO_VAVON_BLINE (volatile unsigned int *)((0x1cb4 << 2) + 0xff900000) +#define ENCL_VIDEO_HSO_BEGIN (0x1cb5) +#define P_ENCL_VIDEO_HSO_BEGIN (volatile unsigned int *)((0x1cb5 << 2) + 0xff900000) +#define ENCL_VIDEO_HSO_END (0x1cb6) +#define P_ENCL_VIDEO_HSO_END (volatile unsigned int *)((0x1cb6 << 2) + 0xff900000) +#define ENCL_VIDEO_VSO_BEGIN (0x1cb7) +#define P_ENCL_VIDEO_VSO_BEGIN (volatile unsigned int *)((0x1cb7 << 2) + 0xff900000) +#define ENCL_VIDEO_VSO_END (0x1cb8) +#define P_ENCL_VIDEO_VSO_END (volatile unsigned int *)((0x1cb8 << 2) + 0xff900000) +#define ENCL_VIDEO_VSO_BLINE (0x1cb9) +#define P_ENCL_VIDEO_VSO_BLINE (volatile unsigned int *)((0x1cb9 << 2) + 0xff900000) +#define ENCL_VIDEO_VSO_ELINE (0x1cba) +#define P_ENCL_VIDEO_VSO_ELINE (volatile unsigned int *)((0x1cba << 2) + 0xff900000) +#define ENCL_VIDEO_MAX_LNCNT (0x1cbb) +#define P_ENCL_VIDEO_MAX_LNCNT (volatile unsigned int *)((0x1cbb << 2) + 0xff900000) +#define ENCL_VIDEO_BLANKY_VAL (0x1cbc) +#define P_ENCL_VIDEO_BLANKY_VAL (volatile unsigned int *)((0x1cbc << 2) + 0xff900000) +#define ENCL_VIDEO_BLANKPB_VAL (0x1cbd) +#define P_ENCL_VIDEO_BLANKPB_VAL (volatile unsigned int *)((0x1cbd << 2) + 0xff900000) +#define ENCL_VIDEO_BLANKPR_VAL (0x1cbe) +#define P_ENCL_VIDEO_BLANKPR_VAL (volatile unsigned int *)((0x1cbe << 2) + 0xff900000) +#define ENCL_VIDEO_HOFFST (0x1cbf) +#define P_ENCL_VIDEO_HOFFST (volatile unsigned int *)((0x1cbf << 2) + 0xff900000) +#define ENCL_VIDEO_VOFFST (0x1cc0) +#define P_ENCL_VIDEO_VOFFST (volatile unsigned int *)((0x1cc0 << 2) + 0xff900000) +#define ENCL_VIDEO_RGB_CTRL (0x1cc1) +#define P_ENCL_VIDEO_RGB_CTRL (volatile unsigned int *)((0x1cc1 << 2) + 0xff900000) +#define ENCL_VIDEO_FILT_CTRL (0x1cc2) +#define P_ENCL_VIDEO_FILT_CTRL (volatile unsigned int *)((0x1cc2 << 2) + 0xff900000) +#define ENCL_VIDEO_OFLD_VPEQ_OFST (0x1cc3) +#define P_ENCL_VIDEO_OFLD_VPEQ_OFST (volatile unsigned int *)((0x1cc3 << 2) + 0xff900000) +#define ENCL_VIDEO_OFLD_VOAV_OFST (0x1cc4) +#define P_ENCL_VIDEO_OFLD_VOAV_OFST (volatile unsigned int *)((0x1cc4 << 2) + 0xff900000) +#define ENCL_VIDEO_MATRIX_CB (0x1cc5) +#define P_ENCL_VIDEO_MATRIX_CB (volatile unsigned int *)((0x1cc5 << 2) + 0xff900000) +#define ENCL_VIDEO_MATRIX_CR (0x1cc6) +#define P_ENCL_VIDEO_MATRIX_CR (volatile unsigned int *)((0x1cc6 << 2) + 0xff900000) +#define ENCL_VIDEO_RGBIN_CTRL (0x1cc7) +#define P_ENCL_VIDEO_RGBIN_CTRL (volatile unsigned int *)((0x1cc7 << 2) + 0xff900000) +#define ENCL_MAX_LINE_SWITCH_POINT (0x1cc8) +#define P_ENCL_MAX_LINE_SWITCH_POINT (volatile unsigned int *)((0x1cc8 << 2) + 0xff900000) +#define ENCL_DACSEL_0 (0x1cc9) +#define P_ENCL_DACSEL_0 (volatile unsigned int *)((0x1cc9 << 2) + 0xff900000) +#define ENCL_DACSEL_1 (0x1cca) +#define P_ENCL_DACSEL_1 (volatile unsigned int *)((0x1cca << 2) + 0xff900000) +// +// Closing file: venc2_regs.h +// +//`define VPP_VCBUS_BASE 8'h1d +// +// Reading file: vpp_regs.h +// +// synopsys translate_off +// synopsys translate_on +// ----------------------------------------------- +// CBUS_BASE: VPP_VCBUS_BASE = 0x1d +// ----------------------------------------------- +//=========================================================================== +// Video postprocesing Registers +//=========================================================================== +// dummy data used in the VPP preblend and scaler +// Bit 23:16 Y +// Bit 15:8 CB +// Bit 7:0 CR +#define VPP_DUMMY_DATA (0x1d00) +#define P_VPP_DUMMY_DATA (volatile unsigned int *)((0x1d00 << 2) + 0xff900000) +//input line length used in VPP +#define VPP_LINE_IN_LENGTH (0x1d01) +#define P_VPP_LINE_IN_LENGTH (volatile unsigned int *)((0x1d01 << 2) + 0xff900000) +//input Picture height used in VPP +#define VPP_PIC_IN_HEIGHT (0x1d02) +#define P_VPP_PIC_IN_HEIGHT (volatile unsigned int *)((0x1d02 << 2) + 0xff900000) +//Because there are many coefficients used in the vertical filter and horizontal filters, +//indirect access the coefficients of vertical filter and horizontal filter is used. +//For vertical filter, there are 33x4 coefficients +//For horizontal filter, there are 33x4 coefficients +//Bit 15 index increment, if bit9 == 1 then (0: index increase 1, 1: index increase 2) else (index increase 2) +//Bit 14 1: read coef through cbus enable, just for debug purpose in case when we wanna check the coef in ram in correct or not +//Bit 13 if true, vertical separated coef enable +//Bit 9 if true, use 9bit resolution coef, other use 8bit resolution coef +//Bit 8:7 type of index, 00: vertical coef, 01: vertical chroma coef: 10: horizontal coef, 11: resevered +//Bit 6:0 coef index +#define VPP_SCALE_COEF_IDX (0x1d03) +#define P_VPP_SCALE_COEF_IDX (volatile unsigned int *)((0x1d03 << 2) + 0xff900000) +//coefficients for vertical filter and horizontal filter +#define VPP_SCALE_COEF (0x1d04) +#define P_VPP_SCALE_COEF (volatile unsigned int *)((0x1d04 << 2) + 0xff900000) +//these following registers are the absolute line address pointer for output divided screen +//The output divided screen is shown in the following: +// +// -------------------------- <------ line zero +// . +// . +// . region0 <---------- nonlinear region or nonscaling region +// . +// --------------------------- +// --------------------------- <------ region1_startp +// . +// . region1 <---------- nonlinear region +// . +// . +// --------------------------- +// --------------------------- <------ region2_startp +// . +// . region2 <---------- linear region +// . +// . +// --------------------------- +// --------------------------- <------ region3_startp +// . +// . region3 <---------- nonlinear region +// . +// . +// --------------------------- +// --------------------------- <------ region4_startp +// . +// . region4 <---------- nonlinear region or nonoscaling region +// . +// . +// --------------------------- <------ region4_endp +//Bit 28:16 region1 startp +//Bit 12:0 region2 startp +#define VPP_VSC_REGION12_STARTP (0x1d05) +#define P_VPP_VSC_REGION12_STARTP (volatile unsigned int *)((0x1d05 << 2) + 0xff900000) +//Bit 28:16 region3 startp +//Bit 12:0 region4 startp +#define VPP_VSC_REGION34_STARTP (0x1d06) +#define P_VPP_VSC_REGION34_STARTP (volatile unsigned int *)((0x1d06 << 2) + 0xff900000) +#define VPP_VSC_REGION4_ENDP (0x1d07) +#define P_VPP_VSC_REGION4_ENDP (volatile unsigned int *)((0x1d07 << 2) + 0xff900000) +//vertical start phase step, (source/dest)*(2^24) +//Bit 27:24 integer part +//Bit 23:0 fraction part +#define VPP_VSC_START_PHASE_STEP (0x1d08) +#define P_VPP_VSC_START_PHASE_STEP (volatile unsigned int *)((0x1d08 << 2) + 0xff900000) +//vertical scaler region0 phase slope, Bit24 signed bit +#define VPP_VSC_REGION0_PHASE_SLOPE (0x1d09) +#define P_VPP_VSC_REGION0_PHASE_SLOPE (volatile unsigned int *)((0x1d09 << 2) + 0xff900000) +//vertical scaler region1 phase slope, Bit24 signed bit +#define VPP_VSC_REGION1_PHASE_SLOPE (0x1d0a) +#define P_VPP_VSC_REGION1_PHASE_SLOPE (volatile unsigned int *)((0x1d0a << 2) + 0xff900000) +//vertical scaler region3 phase slope, Bit24 signed bit +#define VPP_VSC_REGION3_PHASE_SLOPE (0x1d0b) +#define P_VPP_VSC_REGION3_PHASE_SLOPE (volatile unsigned int *)((0x1d0b << 2) + 0xff900000) +//vertical scaler region4 phase slope, Bit24 signed bit +#define VPP_VSC_REGION4_PHASE_SLOPE (0x1d0c) +#define P_VPP_VSC_REGION4_PHASE_SLOPE (volatile unsigned int *)((0x1d0c << 2) + 0xff900000) +//Bit 18:17 double line mode, input/output line width of vscaler becomes 2X, +// so only 2 line buffer in this case, use for 3D line by line interleave scaling +// bit1 true, double the input width and half input height, bit0 true, change line buffer 2 lines instead of 4 lines +//Bit 16 0: progressive output, 1: interlace output +//Bit 15 vertical scaler output line0 in advance or not for bottom field +//Bit 14:13 vertical scaler initial repeat line0 number for bottom field +//Bit 11:8 vertical scaler initial receiving number for bottom field +//Bit 7 vertical scaler output line0 in advance or not for top field +//Bit 6:5 vertical scaler initial repeat line0 number for top field +//Bit 3:0 vertical scaler initial receiving number for top field +#define VPP_VSC_PHASE_CTRL (0x1d0d) +#define P_VPP_VSC_PHASE_CTRL (volatile unsigned int *)((0x1d0d << 2) + 0xff900000) +//Bit 31:16 vertical scaler field initial phase for bottom field +//Bit 15:0 vertical scaler field initial phase for top field +#define VPP_VSC_INI_PHASE (0x1d0e) +#define P_VPP_VSC_INI_PHASE (volatile unsigned int *)((0x1d0e << 2) + 0xff900000) +//Bit 28:16 region1 startp +//Bit 12:0 region2 startp +#define VPP_HSC_REGION12_STARTP (0x1d10) +#define P_VPP_HSC_REGION12_STARTP (volatile unsigned int *)((0x1d10 << 2) + 0xff900000) +//Bit 28:16 region3 startp +//Bit 12:0 region4 startp +#define VPP_HSC_REGION34_STARTP (0x1d11) +#define P_VPP_HSC_REGION34_STARTP (volatile unsigned int *)((0x1d11 << 2) + 0xff900000) +#define VPP_HSC_REGION4_ENDP (0x1d12) +#define P_VPP_HSC_REGION4_ENDP (volatile unsigned int *)((0x1d12 << 2) + 0xff900000) +//horizontal start phase step, (source/dest)*(2^24) +//Bit 27:24 integer part +//Bit 23:0 fraction part +#define VPP_HSC_START_PHASE_STEP (0x1d13) +#define P_VPP_HSC_START_PHASE_STEP (volatile unsigned int *)((0x1d13 << 2) + 0xff900000) +//horizontal scaler region0 phase slope, Bit24 signed bit +#define VPP_HSC_REGION0_PHASE_SLOPE (0x1d14) +#define P_VPP_HSC_REGION0_PHASE_SLOPE (volatile unsigned int *)((0x1d14 << 2) + 0xff900000) +//horizontal scaler region1 phase slope, Bit24 signed bit +#define VPP_HSC_REGION1_PHASE_SLOPE (0x1d15) +#define P_VPP_HSC_REGION1_PHASE_SLOPE (volatile unsigned int *)((0x1d15 << 2) + 0xff900000) +//horizontal scaler region3 phase slope, Bit24 signed bit +#define VPP_HSC_REGION3_PHASE_SLOPE (0x1d16) +#define P_VPP_HSC_REGION3_PHASE_SLOPE (volatile unsigned int *)((0x1d16 << 2) + 0xff900000) +//horizontal scaler region4 phase slope, Bit24 signed bit +#define VPP_HSC_REGION4_PHASE_SLOPE (0x1d17) +#define P_VPP_HSC_REGION4_PHASE_SLOPE (volatile unsigned int *)((0x1d17 << 2) + 0xff900000) +//Bit 22:21 horizontal scaler initial repeat pixel0 number0 +//Bit 19:16 horizontal scaler initial receiving number0 +//Bit 15:0 horizontal scaler top field initial phase0 +#define VPP_HSC_PHASE_CTRL (0x1d18) +#define P_VPP_HSC_PHASE_CTRL (volatile unsigned int *)((0x1d18 << 2) + 0xff900000) +// Bit 22 if true, divide VSC line length 2 as the HSC input length, othwise VSC length length is the same as the VSC line length, +// just for special usage, more flexibility +// Bit 21 if true, prevsc uses lin buffer, otherwise prevsc does not use line buffer, it should be same as prevsc_en +// Bit 20 prehsc_en +// Bit 19 prevsc_en +// Bit 18 vsc_en +// Bit 17 hsc_en +// Bit 16 scale_top_en +// Bit 15 video1 scale out enable +// Bit 12 if true, region0,region4 are nonlinear regions, otherwise they are not scaling regions, for horizontal scaler +// Bit 10:8 horizontal scaler bank length +// Bit 5, vertical scaler phase field mode, if true, disable the opposite parity line output, more bandwith needed if output 1080i +// Bit 4 if true, region0,region4 are nonlinear regions, otherwise they are not scaling regions, for vertical scaler +// Bit 2:0 vertical scaler bank length +#define VPP_SC_MISC (0x1d19) +#define P_VPP_SC_MISC (volatile unsigned int *)((0x1d19 << 2) + 0xff900000) +// preblend video1 horizontal start and end +//Bit 28:16 start +//Bit 12:0 end +#define VPP_PREBLEND_VD1_H_START_END (0x1d1a) +#define P_VPP_PREBLEND_VD1_H_START_END (volatile unsigned int *)((0x1d1a << 2) + 0xff900000) +// preblend video1 vertical start and end +//Bit 28:16 start +//Bit 12:0 end +#define VPP_PREBLEND_VD1_V_START_END (0x1d1b) +#define P_VPP_PREBLEND_VD1_V_START_END (volatile unsigned int *)((0x1d1b << 2) + 0xff900000) +// postblend video1 horizontal start and end +//Bit 28:16 start +//Bit 12:0 end +#define VPP_POSTBLEND_VD1_H_START_END (0x1d1c) +#define P_VPP_POSTBLEND_VD1_H_START_END (volatile unsigned int *)((0x1d1c << 2) + 0xff900000) +// postblend video1 vertical start and end +//Bit 28:16 start +//Bit 12:0 end +#define VPP_POSTBLEND_VD1_V_START_END (0x1d1d) +#define P_VPP_POSTBLEND_VD1_V_START_END (volatile unsigned int *)((0x1d1d << 2) + 0xff900000) +// preblend/postblend video2 horizontal start and end +//Bit 28:16 start +//Bit 12:0 end +#define VPP_BLEND_VD2_H_START_END (0x1d1e) +#define P_VPP_BLEND_VD2_H_START_END (volatile unsigned int *)((0x1d1e << 2) + 0xff900000) +// preblend/postblend video2 vertical start and end +//Bit 28:16 start +//Bit 12:0 end +#define VPP_BLEND_VD2_V_START_END (0x1d1f) +#define P_VPP_BLEND_VD2_V_START_END (volatile unsigned int *)((0x1d1f << 2) + 0xff900000) +// preblend horizontal size +#define VPP_PREBLEND_H_SIZE (0x1d20) +#define P_VPP_PREBLEND_H_SIZE (volatile unsigned int *)((0x1d20 << 2) + 0xff900000) +// postblend horizontal size +#define VPP_POSTBLEND_H_SIZE (0x1d21) +#define P_VPP_POSTBLEND_H_SIZE (volatile unsigned int *)((0x1d21 << 2) + 0xff900000) +//VPP hold lines +//Bit 29:24 +//Bit 21:16 +//Bit 15:8 preblend hold lines +//Bit 7:0 postblend hold lines +#define VPP_HOLD_LINES (0x1d22) +#define P_VPP_HOLD_LINES (volatile unsigned int *)((0x1d22 << 2) + 0xff900000) +//Bit 26 if true, automatic change post blend output to one color if field ==1 +//Bit 25 if true, change screen to one color value for preblender +//Bit 24 if true, change screen to one color value for postblender +// Bit 23:16 one color Y +// Bit 15:8 one color Cb +// Bit 7:0 one color Cr +#define VPP_BLEND_ONECOLOR_CTRL (0x1d23) +#define P_VPP_BLEND_ONECOLOR_CTRL (volatile unsigned int *)((0x1d23 << 2) + 0xff900000) +//Read Only, VPP preblend current_x, current_y +//Bit 28:16 current_x +//Bit 12:0 current_y +#define VPP_PREBLEND_CURRENT_XY (0x1d24) +#define P_VPP_PREBLEND_CURRENT_XY (volatile unsigned int *)((0x1d24 << 2) + 0xff900000) +//Read Only, VPP postblend current_x, current_y +//Bit 28:16 current_x +//Bit 12:0 current_y +#define VPP_POSTBLEND_CURRENT_XY (0x1d25) +#define P_VPP_POSTBLEND_CURRENT_XY (volatile unsigned int *)((0x1d25 << 2) + 0xff900000) +// Bit 31 vd1_bgosd_exchange_en for preblend +// Bit 30 vd1_bgosd_exchange_en for postblend +// Bit 28 color management enable +// Bit 27, if true, vd2 use viu2 output as the input, otherwise use normal vd2 from memory +// Bit 26:18, vd2 alpha +// Bit 17, osd2 enable for preblend +// Bit 16, osd1 enable for preblend +// Bit 15, vd2 enable for preblend +// Bit 14, vd1 enable for preblend +// Bit 13, osd2 enable for postblend +// Bit 12, osd1 enable for postblend +// Bit 11, vd2 enable for postblend +// Bit 10, vd1 enable for postblend +// Bit 9, if true, osd1 is alpha premultipiled +// Bit 8, if true, osd2 is alpha premultipiled +// Bit 7, postblend module enable +// Bit 6, preblend module enable +// Bit 5, if true, osd2 foreground compared with osd1 in preblend +// Bit 4, if true, osd2 foreground compared with osd1 in postblend +// Bit 3, +// Bit 2, if true, disable resetting async fifo every vsync, otherwise every vsync +// the aync fifo will be reseted. +// Bit 1, +// Bit 0 if true, the output result of VPP is saturated +#define VPP_MISC (0x1d26) +#define P_VPP_MISC (volatile unsigned int *)((0x1d26 << 2) + 0xff900000) +//Bit 31:20 ofifo line length minus 1 +//Bit 19 if true invert input vs +//Bit 18 if true invert input hs +//Bit 17 force top/bottom field, enable +//Bit 16 force top/bottom field, 0: top, 1: bottom +//Bit 15 force one go_field, one pluse, write only +//Bit 14 force one go_line, one pluse, write only +//Bit 12:0 ofifo size (actually only bit 10:1 is valid), always even number +#define VPP_OFIFO_SIZE (0x1d27) +#define P_VPP_OFIFO_SIZE (volatile unsigned int *)((0x1d27 << 2) + 0xff900000) +//Read only +//Bit 28:18 current scale out fifo counter +//Bit 17:13 current afifo counter +//Bit 12:0 current ofifo counter +#define VPP_FIFO_STATUS (0x1d28) +#define P_VPP_FIFO_STATUS (volatile unsigned int *)((0x1d28 << 2) + 0xff900000) +// Bit 5 SMOKE3 postblend enable only when postblend vd2 is not enable +// Bit 4 SMOKE3 preblend enable only when preblend vd2 is not enable +// Bit 3 SMOKE2 postblend enable only when postblend osd2 is not enable +// Bit 2 SMOKE2 preblend enable only when preblend osd2 is not enable +// Bit 1 SMOKE1 postblend enable only when postblend osd1 is not enable +// Bit 0 SMOKE1 preblend enable only when preblend osd1 is not enable +#define VPP_SMOKE_CTRL (0x1d29) +#define P_VPP_SMOKE_CTRL (volatile unsigned int *)((0x1d29 << 2) + 0xff900000) +//smoke can be used only when that blending is disable and then be used as smoke function +//smoke1 for OSD1 chanel +//smoke2 for OSD2 chanel +//smoke3 for VD2 chanel +//31:24 Y +//23:16 Cb +//15:8 Cr +//7:0 Alpha +#define VPP_SMOKE1_VAL (0x1d2a) +#define P_VPP_SMOKE1_VAL (volatile unsigned int *)((0x1d2a << 2) + 0xff900000) +#define VPP_SMOKE2_VAL (0x1d2b) +#define P_VPP_SMOKE2_VAL (volatile unsigned int *)((0x1d2b << 2) + 0xff900000) +#define VPP_SMOKE3_VAL (0x1d2c) +#define P_VPP_SMOKE3_VAL (volatile unsigned int *)((0x1d2c << 2) + 0xff900000) +//Bit 28:16 start +//Bit 12:0 end +#define VPP_SMOKE1_H_START_END (0x1d2d) +#define P_VPP_SMOKE1_H_START_END (volatile unsigned int *)((0x1d2d << 2) + 0xff900000) +//Bit 28:16 start +//Bit 12:0 end +#define VPP_SMOKE1_V_START_END (0x1d2e) +#define P_VPP_SMOKE1_V_START_END (volatile unsigned int *)((0x1d2e << 2) + 0xff900000) +//Bit 28:16 start +//Bit 12:0 end +#define VPP_SMOKE2_H_START_END (0x1d2f) +#define P_VPP_SMOKE2_H_START_END (volatile unsigned int *)((0x1d2f << 2) + 0xff900000) +//Bit 28:16 start +//Bit 12:0 end +#define VPP_SMOKE2_V_START_END (0x1d30) +#define P_VPP_SMOKE2_V_START_END (volatile unsigned int *)((0x1d30 << 2) + 0xff900000) +//Bit 28:16 start +//Bit 12:0 end +#define VPP_SMOKE3_H_START_END (0x1d31) +#define P_VPP_SMOKE3_H_START_END (volatile unsigned int *)((0x1d31 << 2) + 0xff900000) +//Bit 28:16 start +//Bit 12:0 end +#define VPP_SMOKE3_V_START_END (0x1d32) +#define P_VPP_SMOKE3_V_START_END (volatile unsigned int *)((0x1d32 << 2) + 0xff900000) +//Bit 27:16 scale out fifo line length minus 1 +//Bit 12:0 scale out fifo size (actually only bit 11:1 is valid, 11:1, max 1024), always even number +#define VPP_SCO_FIFO_CTRL (0x1d33) +#define P_VPP_SCO_FIFO_CTRL (volatile unsigned int *)((0x1d33 << 2) + 0xff900000) +//for 3D quincunx sub-sampling and horizontal pixel by pixel 3D interleaving +//Bit 27:24, prehsc_mode, bit 3:2, prehsc odd line interp mode, bit 1:0, prehsc even line interp mode, +// each 2bit, 00: pix0+pix1/2, average, 01: pix1, 10: pix0 +//Bit 23 horizontal scaler double pixel mode +//Bit 22:21 horizontal scaler initial repeat pixel0 number1 +//Bit 19:16 horizontal scaler initial receiving number1 +//Bit 15:0 horizontal scaler top field initial phase1 +#define VPP_HSC_PHASE_CTRL1 (0x1d34) +#define P_VPP_HSC_PHASE_CTRL1 (volatile unsigned int *)((0x1d34 << 2) + 0xff900000) +//for 3D quincunx sub-sampling +//31:24 prehsc pattern, each patten 1 bit, from lsb -> msb +//22:20 prehsc pattern start +//18:16 prehsc pattern end +//15:8 hsc pattern, each patten 1 bit, from lsb -> msb +//6:4 hsc pattern start +//2:0 hsc pattern end +#define VPP_HSC_INI_PAT_CTRL (0x1d35) +#define P_VPP_HSC_INI_PAT_CTRL (volatile unsigned int *)((0x1d35 << 2) + 0xff900000) +//Bit 3 minus black level enable for vadj2 +//Bit 2 Video adjustment enable for vadj2 +//Bit 1 minus black level enable for vadj1 +//Bit 0 Video adjustment enable for vadj1 +#define VPP_VADJ_CTRL (0x1d40) +#define P_VPP_VADJ_CTRL (volatile unsigned int *)((0x1d40 << 2) + 0xff900000) +//Bit 16:8 brightness, signed value +//Bit 7:0 contrast, unsigned value, contrast from 0 <= contrast <2 +#define VPP_VADJ1_Y (0x1d41) +#define P_VPP_VADJ1_Y (volatile unsigned int *)((0x1d41 << 2) + 0xff900000) +//cb' = cb*ma + cr*mb +//cr' = cb*mc + cr*md +//all are bit 9:0, signed value, -2 < ma/mb/mc/md < 2 +#define VPP_VADJ1_MA_MB (0x1d42) +#define P_VPP_VADJ1_MA_MB (volatile unsigned int *)((0x1d42 << 2) + 0xff900000) +#define VPP_VADJ1_MC_MD (0x1d43) +#define P_VPP_VADJ1_MC_MD (volatile unsigned int *)((0x1d43 << 2) + 0xff900000) +//Bit 16:8 brightness, signed value +//Bit 7:0 contrast, unsigned value, contrast from 0 <= contrast <2 +#define VPP_VADJ2_Y (0x1d44) +#define P_VPP_VADJ2_Y (volatile unsigned int *)((0x1d44 << 2) + 0xff900000) +//cb' = cb*ma + cr*mb +//cr' = cb*mc + cr*md +//all are bit 9:0, signed value, -2 < ma/mb/mc/md < 2 +#define VPP_VADJ2_MA_MB (0x1d45) +#define P_VPP_VADJ2_MA_MB (volatile unsigned int *)((0x1d45 << 2) + 0xff900000) +#define VPP_VADJ2_MC_MD (0x1d46) +#define P_VPP_VADJ2_MC_MD (volatile unsigned int *)((0x1d46 << 2) + 0xff900000) +//Bit 2 horizontal chroma sharp/blur selection, 0:sharp, 1: blur +//Bit 1 horizontal luma sharp/blur selection, 0:sharp, 1: blur +//Bit 0 horizontal sharpness enable +#define VPP_HSHARP_CTRL (0x1d50) +#define P_VPP_HSHARP_CTRL (volatile unsigned int *)((0x1d50 << 2) + 0xff900000) +//{1'b0,threhsold} < diff +//Bit 26:16 luma threshold0 +//Bit 10:0 luma threshold1 +#define VPP_HSHARP_LUMA_THRESH01 (0x1d51) +#define P_VPP_HSHARP_LUMA_THRESH01 (volatile unsigned int *)((0x1d51 << 2) + 0xff900000) +// +//Bit 26:16 luma threshold2 +//Bit 10:0 luma threshold3 +#define VPP_HSHARP_LUMA_THRESH23 (0x1d52) +#define P_VPP_HSHARP_LUMA_THRESH23 (volatile unsigned int *)((0x1d52 << 2) + 0xff900000) +//Bit 26:16 chroma threshold0 +//Bit 10:0 chroma threshold1 +#define VPP_HSHARP_CHROMA_THRESH01 (0x1d53) +#define P_VPP_HSHARP_CHROMA_THRESH01 (volatile unsigned int *)((0x1d53 << 2) + 0xff900000) +//Bit 26:16 chroma threshold2 +//Bit 10:0 chroma threshold3 +#define VPP_HSHARP_CHROMA_THRESH23 (0x1d54) +#define P_VPP_HSHARP_CHROMA_THRESH23 (volatile unsigned int *)((0x1d54 << 2) + 0xff900000) +//Bit 23:16 luma gain2 +//Bit 15:8 luma gain1 +//Bit 7:0 luma gain0 +#define VPP_HSHARP_LUMA_GAIN (0x1d55) +#define P_VPP_HSHARP_LUMA_GAIN (volatile unsigned int *)((0x1d55 << 2) + 0xff900000) +// +//Bit 23:16 chroma gain2 +//Bit 15:8 chroma gain1 +//Bit 7:0 chroma gain0 +#define VPP_HSHARP_CHROMA_GAIN (0x1d56) +#define P_VPP_HSHARP_CHROMA_GAIN (volatile unsigned int *)((0x1d56 << 2) + 0xff900000) +//Read only +//Bit 31, if it is true, it means this probe is valid in the last field/frame +//Bit 29:20 component 0 +//Bit 19:10 component 1 +//Bit 9:0 component 2 +#define VPP_MATRIX_PROBE_COLOR (0x1d5c) +#define P_VPP_MATRIX_PROBE_COLOR (volatile unsigned int *)((0x1d5c << 2) + 0xff900000) +#define VPP_MATRIX_PROBE_COLOR1 (0x1dd7) +#define P_VPP_MATRIX_PROBE_COLOR1 (volatile unsigned int *)((0x1dd7 << 2) + 0xff900000) +//Bit 23:16 component 0 +//Bit 15:8 component 1 +//Bit 7:0 component 2 +#define VPP_MATRIX_HL_COLOR (0x1d5d) +#define P_VPP_MATRIX_HL_COLOR (volatile unsigned int *)((0x1d5d << 2) + 0xff900000) +//28:16 probe x, postion +//12:0 probe y, position +#define VPP_MATRIX_PROBE_POS (0x1d5e) +#define P_VPP_MATRIX_PROBE_POS (volatile unsigned int *)((0x1d5e << 2) + 0xff900000) +//Bit 16, highlight_en +//Bit 15 probe_post, if true, probe pixel data after matrix, otherwise probe pixel data before matrix +//Bit 14:12 probe_sel, 000: select post matrix, 001: select vd1 matrix, 010: select vd2 matrix +//Bit 9:8 matrix coef idx selection, 00: select post matrix, 01: select vd1 matrix, 10: select vd2 matrix +//Bit 5 vd1 conversion matrix enable +//Bit 4 vd2 conversion matrix enable +//Bit 2 output y/cb/cr saturation enable, only for post matrix (y saturate to 16-235, cb/cr saturate to 16-240) +//Bit 1 input y/cb/cr saturation enable, only for post matrix (y saturate to 16-235, cb/cr saturate to 16-240) +//Bit 0 post conversion matrix enable +#define VPP_MATRIX_CTRL (0x1d5f) +#define P_VPP_MATRIX_CTRL (volatile unsigned int *)((0x1d5f << 2) + 0xff900000) +//Bit 28:16 coef00 +//Bit 12:0 coef01 +#define VPP_MATRIX_COEF00_01 (0x1d60) +#define P_VPP_MATRIX_COEF00_01 (volatile unsigned int *)((0x1d60 << 2) + 0xff900000) +//Bit 28:16 coef02 +//Bit 12:0 coef10 +#define VPP_MATRIX_COEF02_10 (0x1d61) +#define P_VPP_MATRIX_COEF02_10 (volatile unsigned int *)((0x1d61 << 2) + 0xff900000) +//Bit 28:16 coef11 +//Bit 12:0 coef12 +#define VPP_MATRIX_COEF11_12 (0x1d62) +#define P_VPP_MATRIX_COEF11_12 (volatile unsigned int *)((0x1d62 << 2) + 0xff900000) +//Bit 28:16 coef20 +//Bit 12:0 coef21 +#define VPP_MATRIX_COEF20_21 (0x1d63) +#define P_VPP_MATRIX_COEF20_21 (volatile unsigned int *)((0x1d63 << 2) + 0xff900000) +#define VPP_MATRIX_COEF22 (0x1d64) +#define P_VPP_MATRIX_COEF22 (volatile unsigned int *)((0x1d64 << 2) + 0xff900000) +//Bit 26:16 offset0 +//Bit 10:0 offset1 +#define VPP_MATRIX_OFFSET0_1 (0x1d65) +#define P_VPP_MATRIX_OFFSET0_1 (volatile unsigned int *)((0x1d65 << 2) + 0xff900000) +//Bit 10:0 offset2 +#define VPP_MATRIX_OFFSET2 (0x1d66) +#define P_VPP_MATRIX_OFFSET2 (volatile unsigned int *)((0x1d66 << 2) + 0xff900000) +//Bit 26:16 pre_offset0 +//Bit 10:0 pre_offset1 +#define VPP_MATRIX_PRE_OFFSET0_1 (0x1d67) +#define P_VPP_MATRIX_PRE_OFFSET0_1 (volatile unsigned int *)((0x1d67 << 2) + 0xff900000) +//Bit 10:0 pre_offset2 +#define VPP_MATRIX_PRE_OFFSET2 (0x1d68) +#define P_VPP_MATRIX_PRE_OFFSET2 (volatile unsigned int *)((0x1d68 << 2) + 0xff900000) +// dummy data used in the VPP postblend +// Bit 23:16 Y +// Bit 15:8 CB +// Bit 7:0 CR +#define VPP_DUMMY_DATA1 (0x1d69) +#define P_VPP_DUMMY_DATA1 (volatile unsigned int *)((0x1d69 << 2) + 0xff900000) +//Bit 31 gainoff module enable +//Bit 26:16 gain0, 1.10 unsigned data +//Bit 10:0 gain1, 1.10 unsigned dat +#define VPP_GAINOFF_CTRL0 (0x1d6a) +#define P_VPP_GAINOFF_CTRL0 (volatile unsigned int *)((0x1d6a << 2) + 0xff900000) +//Bit 26:16 gain2, 1.10 unsigned data +//Bit 10:0, offset0, signed data +#define VPP_GAINOFF_CTRL1 (0x1d6b) +#define P_VPP_GAINOFF_CTRL1 (volatile unsigned int *)((0x1d6b << 2) + 0xff900000) +//Bit 26:16, offset1, signed data +//Bit 10:0, offset2, signed data +#define VPP_GAINOFF_CTRL2 (0x1d6c) +#define P_VPP_GAINOFF_CTRL2 (volatile unsigned int *)((0x1d6c << 2) + 0xff900000) +//Bit 26:16, pre_offset0, signed data +//Bit 10:0, pre_offset1, signed data +#define VPP_GAINOFF_CTRL3 (0x1d6d) +#define P_VPP_GAINOFF_CTRL3 (volatile unsigned int *)((0x1d6d << 2) + 0xff900000) +//Bit 10:0, pre_offset2, signed data +#define VPP_GAINOFF_CTRL4 (0x1d6e) +#define P_VPP_GAINOFF_CTRL4 (volatile unsigned int *)((0x1d6e << 2) + 0xff900000) +//only two registers used in the color management, which are defined in the chroma_reg.h +//`define VPP_CHROMA_ADDR_PORT 8'h70 +//`define VPP_CHROMA_DATA_PORT 8'h71 +// +// Reading file: chroma_reg.h +// +//********************************************************************************** +//* Copyright (c) 2008, AMLOGIC Inc. +//* All rights reserved +//********************************************************************************** +//* File : chroma_reg.v +//* Author : Terrence Wang +//* Date : Dec 2008 +//* Description : +//* +//********************************************************************************** +//* Modification History: +//* Date Modified By Reason +//********************************************************************************** +// synopsys translate_off +// synopsys translate_on +#define VPP_CHROMA_ADDR_PORT (0x1d70) +#define P_VPP_CHROMA_ADDR_PORT (volatile unsigned int *)((0x1d70 << 2) + 0xff900000) +#define VPP_CHROMA_DATA_PORT (0x1d71) +#define P_VPP_CHROMA_DATA_PORT (volatile unsigned int *)((0x1d71 << 2) + 0xff900000) +//`define CHROMA_ADDR_PORT 8'h67 +//`define CHROMA_DATA_PORT 8'h68 + +// CHROMA_GAIN_REG_XX(00-07) +// hue gain, sat gain function control +// Bit 31 reg_sat_en enable sat adjustment in current region +// Bit 27 reg_sat_increase sat adjustment increase or decrease +// 1'b1: increase 1'b0: decrease +// Bit 26:25 reg_sat_central_en sat adjustment with central biggest or one side biggest +// 2'b01 central biggest 2'b00 one side biggest +// Bit 24 reg_sat_shape when sat adjustment one side biggest, define left or right +// 1'b1: left side biggest 1'b0 right side biggest +// Bit 23:16 reg_sat_gain define the sat gain when sat adjustment +// 0x00-0xff +// Bit 15 reg_hue_en enable hue adjustment in current region +// Bit 11 reg_hue_clockwise hue adjustment clockwise or anti-clockwise +// 1'b1: clockwise 1'b0: anti-clockwise +// Bit 10:9 reg_hue_central_en when hue adjustment, parabola curve or non-symmetry curve +// 1'b1: parabola curve 1'b0: non-symmetry curve +// Bit 8 reg_hue_shape when non-symmetry curve, define which side change more +// 1'b1: right side change more 1'b0: left side change more +// Bit 7:0 reg_hue_gain define the hue gain when hue adjustment +// 0x00-0x80, note: should be no bigger than 0x80 + + #define CHROMA_GAIN_REG00 0x00 + + +// HUE_HUE_RANGE_REG_XX(00-07) +// hue range select +// Bit 31:24 no use now +// Bit 23:16 reg_hue_shift_range define the angle of target region +// 0x00-0xff,(0x100 means 120 degree though it can not be set) +// must be greater or equal than 8'd8 +// Bit 15 reg_symmetry_en this is used for create one symmetry region +// the symmetry region hue_shift_start = reg_hue_hue_shift_start + reg_hue_shift_range<<5 +// the symmetry region hue_shift_range = reg_hue_shift_range +// in symmetry region, all the sat and hue setting will be same with original region, +// except reg_hue_shape, reg_sat_shape, reg_hue_clockwise will be reversed +// Bit 14:0 reg_hue_hue_shift_start define the start angle of target region +// 0x6000 means 360 degree +// only region 0 and 1 can exceed 360 degrees. + + #define HUE_HUE_RANGE_REG00 0x01 + + +// HUE_RANGE_INV_REG_XX +// Calculation should be follow +// HUE_RANGE_INV_REG0X[15:0] = ((1<<20)/HUE_HUE_RANGE_REG0X[23:16]+1)>>1 +// HUE_RANGE_INV_REG_XX is to used to save divider + + #define HUE_RANGE_INV_REG00 0x02 + + + +// for belowing each low, high, low_slope, high_slope group: +// a_____________b +// / \ a = low + 2^low_slope +// / \ b = high - 2^high_slope +// / \ low_slope <= 7; high_slope <= 7 +// / \ b >= a +// ______/_____________________\________ +// low high +// +// +// HUE_LUM_RANGE_REG_XX(00-07) +// luma range selection for hue adjustment +// Bit 31:24 reg_sat_lum_low define the low level of luma value for sat adjustment +// 0x00-0xff +// Bit 23:20 reg_hue_lum_high_slope define the slope area below high level of luma value for hue adjustment +// 0x00-0x07 +// Bit 19:16 reg_hue_lum_low_slope define the slope area above low level of luma value for hue adjustment +// 0x00-0x07 +// Bit 15:8 reg_hue_lum_high define the high level of luma value for hue adjustment +// 0x00-0xff +// Bit 7:0 reg_hue_lum_low define the low level of luma value for hue adjustment +// 0x00-0xff + + #define HUE_LUM_RANGE_REG00 0x03 + +// HUE_SAT_RANGE_REG_XX(00-07) +// sat range selection for hue adjustment +// Bit 31:24 reg_sat_lum_high define the high level of luma value for sat adjustment +// 0x00-0xff +// Bit 23:20 reg_hue_sat_high_slope define the slope area below high level of sat value for hue adjustment +// 0x00-0x07 +// Bit 19:16 reg_hue_sat_low_slope define the slope area above low level of sat value for hue adjustment +// 0x00-0x07 +// Bit 15:8 reg_hue_sat_high define the high level of sat value for hue adjustment +// 0x00-0xff +// Bit 7:0 reg_hue_sat_low define the low level of sat value for hue adjustment +// 0x00-0xff + + #define HUE_SAT_RANGE_REG00 0x04 + +// SAT_SAT_RANGE_REG_XX(00-07) +// sat range selection for hue adjustment +// Bit 31:28 reg_sat_lum_high_slope define the slope area below high level of luma value for sat adjustment +// 0x00-0x07 +// Bit 27:24 reg_sat_lum_low_slope define the slope area above low level of luma value for sat adjustment +// 0x00-0x07 +// Bit 23:20 reg_sat_sat_high_slope define the slope area below high level of sat value for sat adjustment +// 0x00-0x07 +// Bit 19:16 reg_sat_sat_low_slope define the slope area above low level of sat value for sat adjustment +// 0x00-0x07 +// Bit 15:8 reg_sat_sat_high define the high level of sat value for sat adjustment +// 0x00-0xff +// Bit 7:0 reg_sat_sat_low define the low level of sat value for sat adjustment +// 0x00-0xff + + #define SAT_SAT_RANGE_REG00 0x05 + + + #define CHROMA_GAIN_REG01 0x06 + #define HUE_HUE_RANGE_REG01 0x07 + #define HUE_RANGE_INV_REG01 0x08 + #define HUE_LUM_RANGE_REG01 0x09 + #define HUE_SAT_RANGE_REG01 0x0a + #define SAT_SAT_RANGE_REG01 0x0b + + #define CHROMA_GAIN_REG02 0x0c + #define HUE_HUE_RANGE_REG02 0x0d + #define HUE_RANGE_INV_REG02 0x0e + #define HUE_LUM_RANGE_REG02 0x0f + #define HUE_SAT_RANGE_REG02 0x10 + #define SAT_SAT_RANGE_REG02 0x11 + + + #define CHROMA_GAIN_REG03 0x12 + #define HUE_HUE_RANGE_REG03 0x13 + #define HUE_RANGE_INV_REG03 0x14 + #define HUE_LUM_RANGE_REG03 0x15 + #define HUE_SAT_RANGE_REG03 0x16 + #define SAT_SAT_RANGE_REG03 0x17 + + #define CHROMA_GAIN_REG04 0x18 + #define HUE_HUE_RANGE_REG04 0x19 + #define HUE_RANGE_INV_REG04 0x1a + #define HUE_LUM_RANGE_REG04 0x1b + #define HUE_SAT_RANGE_REG04 0x1c + #define SAT_SAT_RANGE_REG04 0x1d + + #define CHROMA_GAIN_REG05 0x1e + #define HUE_HUE_RANGE_REG05 0x1f + #define HUE_RANGE_INV_REG05 0x20 + #define HUE_LUM_RANGE_REG05 0x21 + #define HUE_SAT_RANGE_REG05 0x22 + #define SAT_SAT_RANGE_REG05 0x23 + + #define CHROMA_GAIN_REG06 0x24 + #define HUE_HUE_RANGE_REG06 0x25 + #define HUE_RANGE_INV_REG06 0x26 + #define HUE_LUM_RANGE_REG06 0x27 + #define HUE_SAT_RANGE_REG06 0x28 + #define SAT_SAT_RANGE_REG06 0x29 + + #define CHROMA_GAIN_REG07 0x2a + #define HUE_HUE_RANGE_REG07 0x2b + #define HUE_RANGE_INV_REG07 0x2c + #define HUE_LUM_RANGE_REG07 0x2d + #define HUE_SAT_RANGE_REG07 0x2e + #define SAT_SAT_RANGE_REG07 0x2f + +// REG_CHROMA_CONTROL +// Bit 31 reg_chroma_en enable color manage function +// 1'b1: enable 1'b0: bypass +// Bit 6 sat_sel uv_max or u^2+v^2 selected as sat for reference +// 1'b1: uv_max(default) 1'b0: u^2+v^2 +// Bit 5 uv_adj_en final uv_adjust enable +// 1'b1: enable 1'b0: bypass +// Bit 2 hue_en rgb to hue enable +// 1'b1: enable(default) 1'b0: bypass +// Bit 1:0 csc_sel define input YUV with different color type +// 2'b00: 601(16-235) 2'b01: 709(16-235) +// 2'b10: 601(0-255) 2'b11: 709(0-255) + #define REG_CHROMA_CONTROL 0x30 // default 32h'80000024 + #define REG_DEMO_CENTER_BAR 0x31 // default 32h'0 + #define REG_DEMO_HLIGHT_MODE 0x32 // default 32h'0 + #define REG_DEMO_OWR_DATA 0x33 // default 32h'0 + + +////===========================================//// +//// CM2 ADDR +////===========================================//// + + #define SAT_BYYB_NODE_REG0 0x200 // default 32'h0 +//Bit 31:24, sat_byyb_node3 the 4th node +//Bit 23:16, sat_byyb_node2 the 3th node +//Bit 15: 8, sat_byyb_node1 signed, the 2th node about saturation +//Bit 7: 0, sat_byyb_node0 signed, the 1th node about saturation +//gain offset along y coordinate,the gain normalized to 128 as "1" + + #define SAT_BYYB_NODE_REG1 0x201 // default 32'h0 +//Bit 31:24, sat_byyb_node7 the 8th node +//Bit 23:16, sat_byyb_node6 the 7th node +//Bit 15: 8, sat_byyb_node5 signed, the 6th node about saturation +//Bit 7: 0, sat_byyb_node4 signed, the 5th node about saturation +//gain offset along y coordinate,the gain normalized to 128 as "1" + + #define SAT_BYYB_NODE_REG2 0x202 // default 32'h0 +//Bit 31: 8, reserved +//Bit 7: 0, sat_byyb_node4 signed, the 5th node about saturation + + + #define SAT_SRC_NODE_REG 0x203 // default 32'h0 +//Bit 31:28, reserved +//Bit 27:16, sat_src_node1 +//Bit 15:12, reserved +//Bit 11: 0, sat_src_node0 usigned, threshold of input saturation for first and second piece + + #define CM_ENH_SFT_MODE_REG 0x204 // default 32'h0 +//Bit 31: 9, reserved +//Bit 8: 6, hue_lsft_mode hue offset adjustments scale +//Bit 5: 4, luma_lsft_mode luma offset adjustments scale for reg_cm2_adj_luma_via_hue +//Bit 3: 2, sat_byy_rsft_mode saturation gain adjustments scale for reg_cm2_adj_sat_via_y +//Bit 1: 0, sat_byhs_rsft_mode saturation gain adjustments scale for reg_cm2_adj_sat_via_hs[:][:] 0:no scale up/down 1:dnscale by 2(-128,127)/2 + + #define FRM_SIZE_REG 0x205 // default 32'h0 +//Bit 31:29, reserved +//Bit 28:16, reg_frm_height the frame height size +//Bit 15:13, reserved +//Bit 12: 0, reg_frm_width the frame width size + + #define FITLER_CFG_REG 0x206 // default 32'h0 +//Bit 31: 5, reserved +//Bit 4: 4, inteleav_mod horizontal interleave filter(zero-padding) for 3D considerations 0:using non-zero padding lpf 1:using zero-padding lpf +//Bit 3: 2, lpf_slt_uv apply cm on lp portion or original video pixels options +//Bit 1: 0, lpf_slt_y apply cm on lp portion or original video pixels options + + #define CM_GLOBAL_GAIN_REG 0x207 // default 32'h0 +//Bit 31:28, reserved +//Bit 27:16, cm2_global_sat global saturation gain for general color adjustments(0~4095 <=> 0~8),512 normalized to "1" +//Bit 15:12, reserved +//Bit 11: 0, cm2_global_hue global hue offsets for general color adjustments(0~4095 <=> 0~360 degree) + + #define CM_ENH_CTL_REG 0x208 // default 32'h0 +//Bit 31:7, reserved +//Bit 6, hue_adj_en cm2 hue adjustments +//Bit 5, sat_adj_en cm2 saturation adjustments +//Bit 4, luma_adj_en enable siganl for cm2 luma adjustments +//Bit 3, reserved +//Bit 2, cm2_filt_en apply cm on lp portion enable +//Bit 1, cm2_en cm2 enable siganl +//Bit 0, cm1_en + + #define ROI_X_SCOPE_REG 0x209 // default 32'h0 +//Bit 31:29, reserved +//Bit 28:16, roi_x_end ending col index of the region of interest +//Bit 15:13, reserved +//Bit 12: 0, roi_x_beg start col index of the region of interest + + #define ROI_Y_SCOPE_REG 0x20a // default 32'h0 +//Bit 31:29, reserved +//Bit 28:16, roi_y_end ending row index of the region of interest +//Bit 15:13, reserved +//Bit 12: 0, roi_y_beg start row index of the region of interest + + #define POI_XY_DIR_REG 0x20b // default 32'h0 +//Bit 31:29, reserved +//Bit 28:16, poi_y_dir ending row index of the region of interest +//Bit 15:13, reserved +//Bit 12: 0, poi_x_dir start row index of the region of interest + + #define COI_Y_SCOPE_REG 0x20c // default 32'h0 +//Bit 31:16, reserved +//Bit 15: 8, coi_y_end +//Bit 7: 0, coi_y_beg + + #define COI_H_SCOPE_REG 0x20d // default 32'h0 +//Bit 31:28, reserved +//Bit 27:16, coi_h_end +//Bit 15:12, reserved +//Bit 11: 0, coi_h_beg lower bound of hue value for color of interest ,12 bits precision + + #define COI_S_SCOPE_REG 0x20e // default 32'h0 +//Bit 31:28, reserved +//Bit 27:16, coi_s_end +//Bit 15:12, reserved +//Bit 11: 0, coi_s_beg lower bound of sat value for color of interest ,12 bits precision + #define IFO_MODE_REG 0x20f // default 32'h0 +//Bit 31:8, reserved +//Bit 7:6, ifo_mode3 +//Bit 5:4, ifo_mode2 +//Bit 3:2, ifo_mode1 +//Bit 1:0, ifo_mode0 + #define POI_RPL_MODE_REG 0x210 // default 32'h0 +//Bit 31:4, reserved +//Bit 3:0, poi_rpl_mode enhance mode control of pixels inside and outside region of interest bit[3:2]control roi + #define DEMO_OWR_YHS_REG 0x211 // default 32'h0 +//Bit 31: 0, demo_owr_yhs + + #define DEMO_POI_Y_REG 0x212 // default 32'h0 +//Bit 31: 8, reserved +//Bit 7: 0, luma_data_poi_r only get locked higher 8bits + #define DEMO_POI_H_REG 0x213 // default 32'h0 +//Bit 31: 12, reserved +//Bit 11: 0, hue_data_poi_r only get locked higher 12bits + #define DEMO_POI_S_REG 0x214 // default 32'h0 +//Bit 31: 12, reserved +//Bit 11: 0, sat_data_poi_r only get locked higher 12bits + //#define LUMA_BYH_LIMT_REG 0x215 // default 32'h0 + #define LUMA_ADJ_LIMT_REG 0x215 // default 32'h0 +//Bit 31:24, reserved +//Bit 23:16, luma_lmt_satslp slope to do the luma adjustment degrade +//Bit 15:12, reserved +//Bit 11:0, luma_lmt_satth threshold to saturation + #define SAT_ADJ_LIMT_REG 0x216 // default 32'h0 +//Bit 31:24, reserved +//Bit 23:16, sat_lmt_satslp slope to do the adjustment degrade +//Bit 15:12, reserved +//Bit 11:0, sat_lmt_satth threshold to saturation + #define HUE_ADJ_LIMT_REG 0x217 // default 32'h0 +//Bit 31: 24, reserved +//Bit 23: 16, hue_lmt_satslp slope to do the adjustment degrade +//Bit 15: 12, reserved +//Bit 11: 0, hue_lmt_satth threshold to saturation + #define UVHS_OFST_REG 0x218 // default 32'h0 +//Bit 31: 24, hs2uv_v_ofst +//Bit 23: 16, hs2uv_u_ofst +//Bit 15: 8, uv2hs_v_ofst +//Bit 7: 0, uv2hs_u_ofst + #define HUE_CFG_PARA_REG 0x219 // default 32'h0 +//Bit 31: 17, reserved +//Bit 16, hue_protect_en +//Bit 15: 13, cm2_hue_byhs_mode +//Bit 12, cm2_hue_div_mode +//Bit 11: 0, cm2_before_hue_ofst + #define DEMO_SPLT_CFG_REG 0x21a // default 32'h0 +//Bit 31: 22, reserved +//Bit 21: 20, demo_split_mode +//Bit 19: 16, demo_split_width slope to do the adjustment degrade +//Bit 15: 13, reserved +//Bit 12: 0, demo_split_post threshold to saturation + #define DEMO_SPLT_YHS_REG 0x21b // default 32'h0 +//Bit 31: 0, demo_splt_yhs threshold to saturation + + #define XVYCC_YSCP_REG 0x21c // default 32'h0 +//Bit 31: 28, reserved +//Bit 27: 16, xvycc_y_max +//Bit 15: 12, reserved +//Bit 11: 0, xvycc_y_min + #define XVYCC_USCP_REG 0x21d // default 32'h0 +//Bit 31: 28, reserved +//Bit 27: 16, xvycc_u_max +//Bit 15: 12, reserved +//Bit 11: 0, xvycc_u_min + #define XVYCC_VSCP_REG 0x21e // default 32'h0 +//Bit 31: 28, reserved +//Bit 27: 16, xvycc_v_max +//Bit 15: 12, reserved +//Bit 11: 0, xvycc_v_min + +////========= NODE 0 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H00 0x100 // default 32'H0 +//Bit 31: 24, reg_cm2_adj_sat_via_hs_2 +//Bit 23: 16, reg_cm2_adj_sat_via_hs_1 +//Bit 15: 8, reg_cm2_adj_sat_via_hs_0 +//Bit 7: 0, reg_cm2_adj_luma_via_h + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H00 0x101 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H00 0x102 // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H00 0x103 // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H00 0x104 // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 1 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H01 0x108 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H01 0x109 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H01 0x10a // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H01 0x10b // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H01 0x10c // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 2 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H02 0x110 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H02 0x111 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H02 0x112 // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H02 0x113 // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H02 0x114 // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 3 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H03 0x118 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H03 0x119 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H03 0x11a // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H03 0x11b // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H03 0x11c // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 4 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H04 0x120 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H04 0x121 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H04 0x122 // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H04 0x123 // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H04 0x124 // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 5 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H05 0x128 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H05 0x129 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H05 0x12a // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H05 0x12b // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H05 0x12c // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 6 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H06 0x130 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H06 0x131 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H06 0x132 // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H06 0x133 // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H06 0x134 // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 7 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H07 0x138 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H07 0x139 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H07 0x13a // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H07 0x13b // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H07 0x13c // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 8 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H08 0x140 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H08 0x141 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H08 0x142 // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H08 0x143 // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H08 0x144 // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 9 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H09 0x148 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H09 0x149 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H09 0x14a // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H09 0x14b // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H09 0x14c // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 10 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H10 0x150 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H10 0x151 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H10 0x152 // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H10 0x153 // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H10 0x154 // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 11 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H11 0x158 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H11 0x159 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H11 0x15a // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H11 0x15b // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H11 0x15c // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 12 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H12 0x160 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H12 0x161 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H12 0x162 // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H12 0x163 // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H12 0x164 // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + +////========= NODE 13 COEFFICIENT ==============//// + + #define REG_CM2_ENH_COEFF0_H13 0x168 // default 32'H0 + // [ 7: 0] : luma_byh_hx / [15: 8] : sat_byhs_s0hx + // [23:16] : sat_byhs_s0hx / [31:24] : sat_byhs_s2hx + #define REG_CM2_ENH_COEFF1_H13 0x169 // default 32'H0 + // [ 7: 0] : hue_byh_hx / [15: 8] : hue_byy_y0hx + // [23:16] : hue_byy_y1hx / [31:24] : hue_byy_y2hx + #define REG_CM2_ENH_COEFF2_H13 0x16a // default 32'H0 + // [ 7: 0] : hue_byy_y3hx / [15: 8] : hue_byy_y4hx + // [23:16] : hue_bys_s0hx / [31:24] : hue_bys_s1hx + #define REG_CM2_ENH_COEFF3_H13 0x16b // default 32'H0 + // [ 7: 0] : hue_bys_s2hx / [15: 8] : hue_bys_s3hx + // [23:16] : hue_bys_s4hx / [31:24] : hue_byya_y0hx + #define REG_CM2_ENH_COEFF4_H13 0x16c // default 32'H0 + // [ 7: 0] : hue_byya_y1hx / [15: 8] : hue_byya_y2hx + // [23:16] : hue_byya_y3hx / [31:24] : hue_byya_y4hx + + +/* Constraints +0) + there are 16 regions totally. 8 regions are for hue adjustment, 8 regions are for sat adjustment. + the hue range of the 16 regions can be set to overlap, but if overlap, the hue range(start and end) must be same. + the 8 regions for hue adjustment should not overlap. if corresponding reg_hue_en_00 - 07 == 1 + the 8 regions for hue adjustment are defined by: (example are for region 0) + a) hue: + start: reg_hue_hue_shift_start_00[14:0] + end: + if reg_symmetry_en_00 == 0 + reg_hue_hue_shift_start_00[14:0] + (reg_hue_hue_shift_range_00[7:0]<<5) + if reg_symmetry_en_00 == 1 + reg_hue_hue_shift_start_00[14:0] + (reg_hue_hue_shift_range_00[7:0]<<6) + b) sat: + start: reg_hue_sat_low_00 + end: reg_hue_sat_high_00 + + the 8 regions for sat adjustment should not overlap. if corresponding reg_sat_en_00 - 07 == 1 + the 8 regions for sat adjustment are defined by: (example are for region 0) + a) hue: same as that for hue adjustment. + start: reg_hue_hue_shift_start_00[14:0] + end: + if reg_symmetry_en_00 == 0 + reg_hue_hue_shift_start_00[14:0] + (reg_hue_hue_shift_range_00[7:0]<<5) + if reg_symmetry_en_00 == 1 + reg_hue_hue_shift_start_00[14:0] + (reg_hue_hue_shift_range_00[7:0]<<6) + b) sat: + start: reg_sat_sat_low_00 + end: reg_sat_sat_high_00 + +1) + reg_hue_hue_shift_range_00[7:0]: + reg_hue_hue_shift_range_01[7:0]: + reg_hue_hue_shift_range_02[7:0]: + reg_hue_hue_shift_range_03[7:0]: + reg_hue_hue_shift_range_04[7:0]: + reg_hue_hue_shift_range_05[7:0]: + reg_hue_hue_shift_range_06[7:0]: + reg_hue_hue_shift_range_07[7:0]: + must be greater or equal than 8'd8, so as reg_hue_range_inv_regxx can be represented by 0.0000_0000_xxxx_xxxx_xxxx_xxxx + +2) + all regions of 0-7 should meet below requirement. below is just an example for region 7. + (reg_hue_lum_high_07 - reg_hue_lum_low_07) >= + (1<= + (1<= + (1<= + (1< msb +//bit 6:4 pattern start +//bit 2:0 pattern end +#define VPP_OSD_HSC_INI_PAT_CTRL (0x1dc6) +#define P_VPP_OSD_HSC_INI_PAT_CTRL (volatile unsigned int *)((0x1dc6 << 2) + 0xff900000) +//bit 31:24, componet 0 +//bit 23:16, component 1 +//bit 15:8, component 2 +//bit 7:0 component 3, alpha +#define VPP_OSD_SC_DUMMY_DATA (0x1dc7) +#define P_VPP_OSD_SC_DUMMY_DATA (volatile unsigned int *)((0x1dc7 << 2) + 0xff900000) +//Bit 14 osc_sc_din_osd1_alpha_mode, 1: (alpha >= 128) ? alpha -1: alpha, 0: (alpha >=1) ? alpha - 1: alpha. +//Bit 13 osc_sc_din_osd2_alpha_mode, 1: (alpha >= 128) ? alpha -1: alpha, 0: (alpha >=1) ? alpha - 1: alpha. +//Bit 12 osc_sc_dout_alpha_mode, 1: (alpha >= 128) ? alpha + 1: alpha, 0: (alpha >=1) ? alpha + 1: alpha. +//Bit 12 osc_sc_alpha_mode, 1: (alpha >= 128) ? alpha + 1: alpha, 0: (alpha >=1) ? alpha + 1: alpha. +//Bit 11:4 default alpha for vd1 or vd2 if they are selected as the source +//Bit 3 osd scaler path enable +//Bit 1:0 osd_sc_sel, 00: select osd1 input, 01: select osd2 input, 10: select vd1 input, 11: select vd2 input after matrix +#define VPP_OSD_SC_CTRL0 (0x1dc8) +#define P_VPP_OSD_SC_CTRL0 (volatile unsigned int *)((0x1dc8 << 2) + 0xff900000) +//Bit 28:16 OSD scaler input width minus 1 +//Bit 12:0 OSD scaler input height minus 1 +#define VPP_OSD_SCI_WH_M1 (0x1dc9) +#define P_VPP_OSD_SCI_WH_M1 (volatile unsigned int *)((0x1dc9 << 2) + 0xff900000) +//Bit 28:16 OSD scaler output horizontal start +//Bit 12:0 OSD scaler output horizontal end +#define VPP_OSD_SCO_H_START_END (0x1dca) +#define P_VPP_OSD_SCO_H_START_END (volatile unsigned int *)((0x1dca << 2) + 0xff900000) +//Bit 28:16 OSD scaler output vertical start +//Bit 12:0 OSD scaler output vertical end +#define VPP_OSD_SCO_V_START_END (0x1dcb) +#define P_VPP_OSD_SCO_V_START_END (volatile unsigned int *)((0x1dcb << 2) + 0xff900000) +//Because there are many coefficients used in the vertical filter and horizontal filters, +//indirect access the coefficients of vertical filter and horizontal filter is used. +//For vertical filter, there are 33x4 coefficients +//For horizontal filter, there are 33x4 coefficients +//Bit 15 index increment, if bit9 == 1 then (0: index increase 1, 1: index increase 2) else (index increase 2) +//Bit 14 1: read coef through cbus enable, just for debug purpose in case when we wanna check the coef in ram in correct or not +//Bit 9 if true, use 9bit resolution coef, other use 8bit resolution coef +//Bit 8 type of index, 0: vertical coef, 1: horizontal coef +//Bit 6:0 coef index +#define VPP_OSD_SCALE_COEF_IDX (0x1dcc) +#define P_VPP_OSD_SCALE_COEF_IDX (volatile unsigned int *)((0x1dcc << 2) + 0xff900000) +//coefficients for vertical filter and horizontal filter +#define VPP_OSD_SCALE_COEF (0x1dcd) +#define P_VPP_OSD_SCALE_COEF (volatile unsigned int *)((0x1dcd << 2) + 0xff900000) +//Bit 12:0 line number use to generate interrupt when line == this number +#define VPP_INT_LINE_NUM (0x1dce) +#define P_VPP_INT_LINE_NUM (volatile unsigned int *)((0x1dce << 2) + 0xff900000) +#define VPP_XVYCC_MISC (0x1dcf) +#define P_VPP_XVYCC_MISC (volatile unsigned int *)((0x1dcf << 2) + 0xff900000) +// new add lti/cti in 120924 +//Bit 3: 0 //default== 0 reg_hlti_dn_flt_coe[0] +//Bit 7: 4 //default== 0 reg_hlti_dn_flt_coe[1] +//Bit 11: 8 //default== 0 reg_hlti_dn_flt_coe[2] +//Bit 15:12 //default== 2 reg_hlti_dn_flt_coe[3] +//Bit 19:16 //default== 4 reg_hlti_dn_flt_coe[4] +//Bit 22:20 //default== 3 reg_hlti_dn_flt_nrm u3: 3~7 +#define VPP_HLTI_DN_FLT (0x1dd0) +#define P_VPP_HLTI_DN_FLT (volatile unsigned int *)((0x1dd0 << 2) + 0xff900000) +//Bit 7: 0 //default== 8 reg_hlti_bst_gain u8, norm 16 as "1" +//Bit 15: 8 //default== 20 reg_hlti_bst_core u8, norm 32 as "1" +//Bit 23:16 //default== 32 reg_hlti_oob_gain u8, norm 32 as "1" +//Bit 28:24 //default== 0 reg_hlti_oob_core u5 +#define VPP_HLTI_GAIN (0x1dd1) +#define P_VPP_HLTI_GAIN (volatile unsigned int *)((0x1dd1 << 2) + 0xff900000) +//Bit 7: 0 //default== 2 reg_hlti_clp_ofst u8, +//Bit 8 //default== 0 reg_hlti_clp_mode u1, +//Bit 11: 9 //default== 1 reg_hlti_clp_wind u3, +//Bit 14:12 //default== 1 reg_hlti_bst_fltr u3, +//Bit 15 //default== 1 reg_hlti_enable u1, +#define VPP_HLTI_PARA (0x1dd2) +#define P_VPP_HLTI_PARA (volatile unsigned int *)((0x1dd2 << 2) + 0xff900000) +//Bit 3: 0 //default== 0 reg_hcti_dn_flt_coe[0] +//Bit 7: 4 //default== 0 reg_hcti_dn_flt_coe[1] +//Bit 11: 8 //default== 1 reg_hcti_dn_flt_coe[2] +//Bit 15:12 //default== 2 reg_hcti_dn_flt_coe[3] +//Bit 19:16 //default== 2 reg_hcti_dn_flt_coe[4] +//Bit 22:20 //default== 3 reg_hcti_dn_flt_nrm u3: 3~7 +#define VPP_HCTI_DN_FLT (0x1dd3) +#define P_VPP_HCTI_DN_FLT (volatile unsigned int *)((0x1dd3 << 2) + 0xff900000) +//Bit 7: 0 //default== 48 reg_hcti_bst_gain u8, norm 16 as "1" +//Bit15: 8 //default== 17 reg_hcti_bst_core u8, norm 32 as "1" +//Bit23:16 //default== 16 reg_hcti_oob_gain u8, norm 32 as "1" +//Bit28:24 //default== 0 reg_hcti_oob_core u5 +#define VPP_HCTI_GAIN (0x1dd4) +#define P_VPP_HCTI_GAIN (volatile unsigned int *)((0x1dd4 << 2) + 0xff900000) +//Bit 7: 0 //default== 0 reg_hcti_clp_ofst u8, +//Bit 8 //default== 1 reg_hcti_clp_mode u1, +//Bit 11: 9 //default== 3 reg_hcti_clp_wind u3, +//Bit 14:12 //default== 6 reg_hcti_bst_fltr u3, +//Bit 15 //default== 1 reg_hcti_enable u1, +#define VPP_HCTI_PARA (0x1dd5) +#define P_VPP_HCTI_PARA (volatile unsigned int *)((0x1dd5 << 2) + 0xff900000) +//Bit 7: 0 //default== 48 reg_vcti_bst_gain u8, normalize 16 as "1" +//Bit 15: 8 //default== 10 reg_vcti_bst_core u8 +//Bit 19:16 //default== 10 reg_vcti_clp_ofst u4 +//Bit 20 //default== 1 reg_vcti_clp_wind u1, 0: wind 3, 1: wind5 +#define VPP_VCTI_PARA (0x1dd6) +#define P_VPP_VCTI_PARA (volatile unsigned int *)((0x1dd6 << 2) + 0xff900000) +//`define VPP_MATRIX_PROBE_COLOR1 8'hd7 //defined before +//Bit 31 //default== 0, urgent fifo hold enable +//Bit 28:12 //default== 0, urgent fifo hold line threshold +//Bit 15 //default== 0, urgent_ctrl_en +//Bit 14 //default== 0, urgent_wr, if true for write buffer +//Bit 13 //default== 0, out_inv_en +//Bit 12 //default == 0, urgent_ini_value +//Bit 11:6 //default == 0, up_th up threshold +//Bit 5:0 //default == 0, dn_th dn threshold +#define VPP_OFIFO_URG_CTRL (0x1dd8) +#define P_VPP_OFIFO_URG_CTRL (volatile unsigned int *)((0x1dd8 << 2) + 0xff900000) +#define VPP_CLIP_MISC0 (0x1dd9) +#define P_VPP_CLIP_MISC0 (volatile unsigned int *)((0x1dd9 << 2) + 0xff900000) +//Bit 29:20 // default == 1023, final clip r channel top +//Bit 19:10 // default == 1023, final clip g channel top +//Bit 9: 0 // default == 1023, final clip b channel top +#define VPP_CLIP_MISC1 (0x1dda) +#define P_VPP_CLIP_MISC1 (volatile unsigned int *)((0x1dda << 2) + 0xff900000) +//Bit 29:20 // default == 0, final clip r channel bottom +//Bit 19:10 // default == 0, final clip g channel bottom +//Bit 9: 0 // default == 0, final clip b channel bottom +#define VPP_MATRIX_COEF13_14 (0x1ddb) +#define P_VPP_MATRIX_COEF13_14 (volatile unsigned int *)((0x1ddb << 2) + 0xff900000) +//Bit 28:16 // default == 0, matrix coef13 +//Bit 12:0 // default == 0, matrix coef14 +#define VPP_MATRIX_COEF23_24 (0x1ddc) +#define P_VPP_MATRIX_COEF23_24 (volatile unsigned int *)((0x1ddc << 2) + 0xff900000) +//Bit 28:16 // default == 0, matrix coef23 +//Bit 12:0 // default == 0, matrix coef24 +#define VPP_MATRIX_COEF15_25 (0x1ddd) +#define P_VPP_MATRIX_COEF15_25 (volatile unsigned int *)((0x1ddd << 2) + 0xff900000) +//Bit 28:16 // default == 0, matrix coef15 +//Bit 12:0 // default == 0, matrix coef25 +#define VPP_MATRIX_CLIP (0x1dde) +#define P_VPP_MATRIX_CLIP (volatile unsigned int *)((0x1dde << 2) + 0xff900000) +//Bit 7:5 // default == 0, mat rs +//Bit 4:3 // default == 0, mat clmod +//Bit 2:0 // default == 0, mat clip enable +#define VPP_XVYCC_MISC0 (0x1ddf) +#define P_VPP_XVYCC_MISC0 (volatile unsigned int *)((0x1ddf << 2) + 0xff900000) +//Bit 29:20 // default == 1023, xvycc clip r channel top +//Bit 19:10 // default == 1023, xvycc clip g channel top +//Bit 9: 0 // default == 1023, xvycc clip b channel top +#define VPP_XVYCC_MISC1 (0x1de0) +#define P_VPP_XVYCC_MISC1 (volatile unsigned int *)((0x1de0 << 2) + 0xff900000) +//Bit 29:20 // default == 0, xvycc clip r channel bottom +//Bit 19:10 // default == 0, xvycc clip g channel bottom +//Bit 9: 0 // default == 0, xvycc clip b channel bottom +#define VPP_VD1_CLIP_MISC0 (0x1de1) +#define P_VPP_VD1_CLIP_MISC0 (volatile unsigned int *)((0x1de1 << 2) + 0xff900000) +//Bit 29:20 // default == 1023, vd1 clip r channel top +//Bit 19:10 // default == 1023, vd1 clip g channel top +//Bit 9: 0 // default == 1023, vd1 clip b channel top +#define VPP_VD1_CLIP_MISC1 (0x1de2) +#define P_VPP_VD1_CLIP_MISC1 (volatile unsigned int *)((0x1de2 << 2) + 0xff900000) +//Bit 29:20 // default == 0, vd1 clip r channel bottom +//Bit 19:10 // default == 0, vd1 clip g channel bottom +//Bit 9: 0 // default == 0, vd1 clip b channel bottom +#define VPP_VD2_CLIP_MISC0 (0x1de3) +#define P_VPP_VD2_CLIP_MISC0 (volatile unsigned int *)((0x1de3 << 2) + 0xff900000) +//Bit 29:20 // default == 1023, vd2 clip r channel top +//Bit 19:10 // default == 1023, vd2 clip g channel top +//Bit 9: 0 // default == 1023, vd2 clip b channel top +#define VPP_VD2_CLIP_MISC1 (0x1de4) +#define P_VPP_VD2_CLIP_MISC1 (volatile unsigned int *)((0x1de4 << 2) + 0xff900000) +//Bit 29:20 // default == 0, vd2 clip r channel bottom +//Bit 19:10 // default == 0, vd2 clip g channel bottom +//Bit 9: 0 // default == 0, vd2 clip b channel bottom +// synopsys translate_off +// synopsys translate_on +// +// Closing file: vpp_regs.h +// +//`define VIU2_VCBUS_BASE 8'h1e +// +// Reading file: v2regs.h +// +// synopsys translate_off +// synopsys translate_on +//=========================================================================== +// Video Interface 2 Registers 0xe00 - 0xeff +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: VIU2_VCBUS_BASE = 0x1e +// ----------------------------------------------- +#define VIU2_ADDR_START (0x1e00) +#define P_VIU2_ADDR_START (volatile unsigned int *)((0x1e00 << 2) + 0xff900000) +#define VIU2_ADDR_END (0x1eff) +#define P_VIU2_ADDR_END (volatile unsigned int *)((0x1eff << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// VIU2 top-level registers +//------------------------------------------------------------------------------ +// Bit 0 RW, osd1_reset +// Bit 1 RW, osd2_reset +// Bit 2 RW, vd1_reset +// Bit 3 RW, vd1_fmt_reset +// Bit 7 RW, vpp_reset +#define VIU2_SW_RESET (0x1e01) +#define P_VIU2_SW_RESET (volatile unsigned int *)((0x1e01 << 2) + 0xff900000) +#define VIU2_SW_RESET0 (0x1e02) +#define P_VIU2_SW_RESET0 (volatile unsigned int *)((0x1e02 << 2) + 0xff900000) +// Bit 0 RW, software reset for mcvecrd_mif +// Bit 1 RW, software reset for mcinfowr_mif +// Bit 2 RW, software reset for mcinford_mif +//bit 8 if true, vsync interrup is generate only field == 0 +//bit 7:0 fix_disable +#define VIU2_MISC_CTRL0 (0x1e06) +#define P_VIU2_MISC_CTRL0 (volatile unsigned int *)((0x1e06 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// OSD1 registers +//------------------------------------------------------------------------------ +// Bit 31 Reserved +// Bit 30 RW, enable_free_clk: 1=use free-running clock to drive logics; +// 0=use gated clock for low power. +// Bit 29 R, test_rd_dsr +// Bit 28 R, osd_done +// Bit 27:24 R, osd_blk_mode +// Bit 23:22 R, osd_blk_ptr +// Bit 21 R, osd_enable +// +// Bit 20:12 RW, global_alpha +// Bit 11 RW, test_rd_en +// Bit 10: 9 Reserved for control signals +// Bit 8: 5 RW, ctrl_mtch_y +// Bit 4 RW, ctrl_422to444 +// Bit 3: 0 RW, osd_blk_enable. Bit 0 to enable block 0: 1=enable, 0=disable; +// Bit 1 to enable block 1, and so on. +#define VIU2_OSD1_CTRL_STAT (0x1e10) +#define P_VIU2_OSD1_CTRL_STAT (volatile unsigned int *)((0x1e10 << 2) + 0xff900000) +// Bit 31:26 Reserved +// Bit 25:16 R, fifo_count +// Bit 15: 6 Reserved +// Bit 5: 4 RW, hold_fifo_lines[6:5] +// Bit 3 RW, rgb2yuv_full_range +// Bit 2 RW, alpha_9b_mode +// Bit 1 RW, reserved +// Bit 0 RW, color_expand_mode +#define VIU2_OSD1_CTRL_STAT2 (0x1e2d) +#define P_VIU2_OSD1_CTRL_STAT2 (volatile unsigned int *)((0x1e2d << 2) + 0xff900000) +// Bit 31: 9 Reserved +// Bit 8 RW, 0 = Write LUT, 1 = Read LUT +// Bit 7: 0 RW, lut_addr +#define VIU2_OSD1_COLOR_ADDR (0x1e11) +#define P_VIU2_OSD1_COLOR_ADDR (volatile unsigned int *)((0x1e11 << 2) + 0xff900000) +// Bit 31:24 RW, Y or R +// Bit 23:16 RW, Cb or G +// Bit 15: 8 RW, Cr or B +// Bit 7: 0 RW, Alpha +#define VIU2_OSD1_COLOR (0x1e12) +#define P_VIU2_OSD1_COLOR (volatile unsigned int *)((0x1e12 << 2) + 0xff900000) +// Bit 31:24 RW, Y or R +// Bit 23:16 RW, Cb or G +// Bit 15: 8 RW, Cr or B +// Bit 7: 0 RW, Alpha +#define VIU2_OSD1_TCOLOR_AG0 (0x1e17) +#define P_VIU2_OSD1_TCOLOR_AG0 (volatile unsigned int *)((0x1e17 << 2) + 0xff900000) +#define VIU2_OSD1_TCOLOR_AG1 (0x1e18) +#define P_VIU2_OSD1_TCOLOR_AG1 (volatile unsigned int *)((0x1e18 << 2) + 0xff900000) +#define VIU2_OSD1_TCOLOR_AG2 (0x1e19) +#define P_VIU2_OSD1_TCOLOR_AG2 (volatile unsigned int *)((0x1e19 << 2) + 0xff900000) +#define VIU2_OSD1_TCOLOR_AG3 (0x1e1a) +#define P_VIU2_OSD1_TCOLOR_AG3 (volatile unsigned int *)((0x1e1a << 2) + 0xff900000) +// Bit 31:30 Reserved +// Bit 29 RW, y_rev: 0=normal read, 1=reverse read in Y direction +// Bit 28 RW, x_rev: 0=normal read, 1=reverse read in X direction +// Bit 27:24 Reserved +// Bit 23:16 RW, tbl_addr +// Bit 15 RW, little_endian: 0=big endian, 1=little endian +// Bit 14 RW, rpt_y +// Bit 13:12 RW, interp_ctrl. 0x=No interpolation; 10=Interpolate with previous +// pixel; 11=Interpolate with the average value +// between previous and next pixel. +// Bit 11: 8 RW, osd_blk_mode +// Bit 7 RW, rgb_en +// Bit 6 RW, tc_alpha_en +// Bit 5: 2 RW, color_matrix +// Bit 1 RW, interlace_en +// Bit 0 RW, interlace_sel_odd +#define VIU2_OSD1_BLK0_CFG_W0 (0x1e1b) +#define P_VIU2_OSD1_BLK0_CFG_W0 (volatile unsigned int *)((0x1e1b << 2) + 0xff900000) +#define VIU2_OSD1_BLK1_CFG_W0 (0x1e1f) +#define P_VIU2_OSD1_BLK1_CFG_W0 (volatile unsigned int *)((0x1e1f << 2) + 0xff900000) +#define VIU2_OSD1_BLK2_CFG_W0 (0x1e23) +#define P_VIU2_OSD1_BLK2_CFG_W0 (volatile unsigned int *)((0x1e23 << 2) + 0xff900000) +#define VIU2_OSD1_BLK3_CFG_W0 (0x1e27) +#define P_VIU2_OSD1_BLK3_CFG_W0 (volatile unsigned int *)((0x1e27 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, x_end +// Bit 15:13 Reserved +// Bit 12: 0 RW, x_start +#define VIU2_OSD1_BLK0_CFG_W1 (0x1e1c) +#define P_VIU2_OSD1_BLK0_CFG_W1 (volatile unsigned int *)((0x1e1c << 2) + 0xff900000) +#define VIU2_OSD1_BLK1_CFG_W1 (0x1e20) +#define P_VIU2_OSD1_BLK1_CFG_W1 (volatile unsigned int *)((0x1e20 << 2) + 0xff900000) +#define VIU2_OSD1_BLK2_CFG_W1 (0x1e24) +#define P_VIU2_OSD1_BLK2_CFG_W1 (volatile unsigned int *)((0x1e24 << 2) + 0xff900000) +#define VIU2_OSD1_BLK3_CFG_W1 (0x1e28) +#define P_VIU2_OSD1_BLK3_CFG_W1 (volatile unsigned int *)((0x1e28 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, y_end +// Bit 15:13 Reserved +// Bit 12: 0 RW, y_start +#define VIU2_OSD1_BLK0_CFG_W2 (0x1e1d) +#define P_VIU2_OSD1_BLK0_CFG_W2 (volatile unsigned int *)((0x1e1d << 2) + 0xff900000) +#define VIU2_OSD1_BLK1_CFG_W2 (0x1e21) +#define P_VIU2_OSD1_BLK1_CFG_W2 (volatile unsigned int *)((0x1e21 << 2) + 0xff900000) +#define VIU2_OSD1_BLK2_CFG_W2 (0x1e25) +#define P_VIU2_OSD1_BLK2_CFG_W2 (volatile unsigned int *)((0x1e25 << 2) + 0xff900000) +#define VIU2_OSD1_BLK3_CFG_W2 (0x1e29) +#define P_VIU2_OSD1_BLK3_CFG_W2 (volatile unsigned int *)((0x1e29 << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, h_end +// Bit 15:12 Reserved +// Bit 11: 0 RW, h_start +#define VIU2_OSD1_BLK0_CFG_W3 (0x1e1e) +#define P_VIU2_OSD1_BLK0_CFG_W3 (volatile unsigned int *)((0x1e1e << 2) + 0xff900000) +#define VIU2_OSD1_BLK1_CFG_W3 (0x1e22) +#define P_VIU2_OSD1_BLK1_CFG_W3 (volatile unsigned int *)((0x1e22 << 2) + 0xff900000) +#define VIU2_OSD1_BLK2_CFG_W3 (0x1e26) +#define P_VIU2_OSD1_BLK2_CFG_W3 (volatile unsigned int *)((0x1e26 << 2) + 0xff900000) +#define VIU2_OSD1_BLK3_CFG_W3 (0x1e2a) +#define P_VIU2_OSD1_BLK3_CFG_W3 (volatile unsigned int *)((0x1e2a << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, v_end +// Bit 15:12 Reserved +// Bit 11: 0 RW, v_start +#define VIU2_OSD1_BLK0_CFG_W4 (0x1e13) +#define P_VIU2_OSD1_BLK0_CFG_W4 (volatile unsigned int *)((0x1e13 << 2) + 0xff900000) +#define VIU2_OSD1_BLK1_CFG_W4 (0x1e14) +#define P_VIU2_OSD1_BLK1_CFG_W4 (volatile unsigned int *)((0x1e14 << 2) + 0xff900000) +#define VIU2_OSD1_BLK2_CFG_W4 (0x1e15) +#define P_VIU2_OSD1_BLK2_CFG_W4 (volatile unsigned int *)((0x1e15 << 2) + 0xff900000) +#define VIU2_OSD1_BLK3_CFG_W4 (0x1e16) +#define P_VIU2_OSD1_BLK3_CFG_W4 (volatile unsigned int *)((0x1e16 << 2) + 0xff900000) +// Bit 31 RW, burst_len_sel[2] of [2:0] +// Bit 30 RW, byte_swap: In addition to endian control, further define +// whether to swap upper and lower byte within a 16-bit mem word. +// 0=No swap; 1=Swap data[15:0] to be {data[7:0], data[15:8]} +// Bit 29 RW, div_swap : swap the 2 64bits words in 128 bit word +// Bit 28:24 RW, fifo_lim : when osd fifo is small than the fifo_lim*16, closed the rq port of osd_rd_mif +// Bit 23:22 RW, fifo_ctrl: 00 : for 1 word in 1 burst , 01 : for 2words in 1burst, 10: for 4words in 1burst, 11: reserved +// Bit 21:20 R, fifo_st. 0=IDLE, 1=FILL, 2=ABORT +// Bit 19 R, fifo_overflow +// +// Bit 18:12 RW, fifo_depth_val, max value=64: set actual fifo depth to fifo_depth_val*8. +// Bit 11:10 RW, burst_len_sel[1:0] of [2:0]. 0=24(default), 1=32, 2=48, 3=64, 4=96, 5=128. +// Bit 9: 5 RW, hold_fifo_lines[4:0] +// Bit 4 RW, clear_err: one pulse to clear fifo_overflow +// Bit 3 RW, fifo_sync_rst +// Bit 2: 1 RW, endian +// Bit 0 RW, urgent +#define VIU2_OSD1_FIFO_CTRL_STAT (0x1e2b) +#define P_VIU2_OSD1_FIFO_CTRL_STAT (volatile unsigned int *)((0x1e2b << 2) + 0xff900000) +// Bit 31:24 R, Y or R +// Bit 23:16 R, Cb or G +// Bit 15: 8 R, Cr or B +// Bit 7: 0 R, Output Alpha[8:1] +#define VIU2_OSD1_TEST_RDDATA (0x1e2c) +#define P_VIU2_OSD1_TEST_RDDATA (volatile unsigned int *)((0x1e2c << 2) + 0xff900000) +// Bit 15 RW, prot_en: 1=Borrow PROT's FIFO storage, either for rotate or non-rotate. +// Bit 12: 0 RW, effective FIFO size when prot_en=1. +#define VIU2_OSD1_PROT_CTRL (0x1e2e) +#define P_VIU2_OSD1_PROT_CTRL (volatile unsigned int *)((0x1e2e << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// OSD2 registers +//------------------------------------------------------------------------------ +// Bit 31 Reserved +// Bit 30 RW, enable_free_clk: 1=use free-running clock to drive logics; +// 0=use gated clock for low power. +// Bit 29 R, test_rd_dsr +// Bit 28 R, osd_done +// Bit 27:24 R, osd_blk_mode +// Bit 23:22 R, osd_blk_ptr +// Bit 21 R, osd_enable +// +// Bit 20:12 RW, global_alpha +// Bit 11 RW, test_rd_en +// Bit 10 RW, hl2_en +// Bit 9 RW, hl1_en +// Bit 8: 5 RW, ctrl_mtch_y +// Bit 4 RW, ctrl_422to444 +// Bit 3: 0 RW, osd_blk_enable. Bit 0 to enable block 0: 1=enable, 0=disable; +// Bit 1 to enable block 1, and so on. +#define VIU2_OSD2_CTRL_STAT (0x1e30) +#define P_VIU2_OSD2_CTRL_STAT (volatile unsigned int *)((0x1e30 << 2) + 0xff900000) +// Bit 31:26 Reserved +// Bit 25:16 R, fifo_count +// Bit 15: 6 Reserved +// Bit 5: 4 RW, hold_fifo_lines[6:5] +// Bit 3 RW, rgb2yuv_full_range +// Bit 2 RW, alpha_9b_mode +// Bit 1 RW, reserved +// Bit 0 RW, color_expand_mode +#define VIU2_OSD2_CTRL_STAT2 (0x1e4d) +#define P_VIU2_OSD2_CTRL_STAT2 (volatile unsigned int *)((0x1e4d << 2) + 0xff900000) +// Bit 31: 9 Reserved +// Bit 8 RW, 0 = Write LUT, 1 = Read LUT +// Bit 7: 0 RW, lut_addr +#define VIU2_OSD2_COLOR_ADDR (0x1e31) +#define P_VIU2_OSD2_COLOR_ADDR (volatile unsigned int *)((0x1e31 << 2) + 0xff900000) +// Bit 31:24 RW, Y or R +// Bit 23:16 RW, Cb or G +// Bit 15: 8 RW, Cr or B +// Bit 7: 0 RW, Alpha +#define VIU2_OSD2_COLOR (0x1e32) +#define P_VIU2_OSD2_COLOR (volatile unsigned int *)((0x1e32 << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, hl[1-2]_h/v_start +// Bit 15:12 Reserved +// Bit 11: 0 RW, hl[1-2]_h/v_end +#define VIU2_OSD2_HL1_H_START_END (0x1e33) +#define P_VIU2_OSD2_HL1_H_START_END (volatile unsigned int *)((0x1e33 << 2) + 0xff900000) +#define VIU2_OSD2_HL1_V_START_END (0x1e34) +#define P_VIU2_OSD2_HL1_V_START_END (volatile unsigned int *)((0x1e34 << 2) + 0xff900000) +#define VIU2_OSD2_HL2_H_START_END (0x1e35) +#define P_VIU2_OSD2_HL2_H_START_END (volatile unsigned int *)((0x1e35 << 2) + 0xff900000) +#define VIU2_OSD2_HL2_V_START_END (0x1e36) +#define P_VIU2_OSD2_HL2_V_START_END (volatile unsigned int *)((0x1e36 << 2) + 0xff900000) +// Bit 31:24 RW, Y or R +// Bit 23:16 RW, Cb or G +// Bit 15: 8 RW, Cr or B +// Bit 7: 0 RW, Alpha +#define VIU2_OSD2_TCOLOR_AG0 (0x1e37) +#define P_VIU2_OSD2_TCOLOR_AG0 (volatile unsigned int *)((0x1e37 << 2) + 0xff900000) +#define VIU2_OSD2_TCOLOR_AG1 (0x1e38) +#define P_VIU2_OSD2_TCOLOR_AG1 (volatile unsigned int *)((0x1e38 << 2) + 0xff900000) +#define VIU2_OSD2_TCOLOR_AG2 (0x1e39) +#define P_VIU2_OSD2_TCOLOR_AG2 (volatile unsigned int *)((0x1e39 << 2) + 0xff900000) +#define VIU2_OSD2_TCOLOR_AG3 (0x1e3a) +#define P_VIU2_OSD2_TCOLOR_AG3 (volatile unsigned int *)((0x1e3a << 2) + 0xff900000) +// Bit 31:24 Reserved +// Bit 23:16 RW, tbl_addr +// Bit 15 RW, little_endian: 0=big endian, 1=little endian +// Bit 14 RW, rpt_y +// Bit 13:12 RW, interp_ctrl. 0x=No interpolation; 10=Interpolate with previous +// pixel; 11=Interpolate with the average value +// between previous and next pixel. +// Bit 11: 8 RW, osd_blk_mode +// Bit 7 RW, rgb_en +// Bit 6 RW, tc_alpha_en +// Bit 5: 2 RW, color_matrix +// Bit 1 RW, interlace_en +// Bit 0 RW, interlace_sel_odd +#define VIU2_OSD2_BLK0_CFG_W0 (0x1e3b) +#define P_VIU2_OSD2_BLK0_CFG_W0 (volatile unsigned int *)((0x1e3b << 2) + 0xff900000) +#define VIU2_OSD2_BLK1_CFG_W0 (0x1e3f) +#define P_VIU2_OSD2_BLK1_CFG_W0 (volatile unsigned int *)((0x1e3f << 2) + 0xff900000) +#define VIU2_OSD2_BLK2_CFG_W0 (0x1e43) +#define P_VIU2_OSD2_BLK2_CFG_W0 (volatile unsigned int *)((0x1e43 << 2) + 0xff900000) +#define VIU2_OSD2_BLK3_CFG_W0 (0x1e47) +#define P_VIU2_OSD2_BLK3_CFG_W0 (volatile unsigned int *)((0x1e47 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, x_end +// Bit 15:13 Reserved +// Bit 12: 0 RW, x_start +#define VIU2_OSD2_BLK0_CFG_W1 (0x1e3c) +#define P_VIU2_OSD2_BLK0_CFG_W1 (volatile unsigned int *)((0x1e3c << 2) + 0xff900000) +#define VIU2_OSD2_BLK1_CFG_W1 (0x1e40) +#define P_VIU2_OSD2_BLK1_CFG_W1 (volatile unsigned int *)((0x1e40 << 2) + 0xff900000) +#define VIU2_OSD2_BLK2_CFG_W1 (0x1e44) +#define P_VIU2_OSD2_BLK2_CFG_W1 (volatile unsigned int *)((0x1e44 << 2) + 0xff900000) +#define VIU2_OSD2_BLK3_CFG_W1 (0x1e48) +#define P_VIU2_OSD2_BLK3_CFG_W1 (volatile unsigned int *)((0x1e48 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, y_end +// Bit 15:13 Reserved +// Bit 12: 0 RW, y_start +#define VIU2_OSD2_BLK0_CFG_W2 (0x1e3d) +#define P_VIU2_OSD2_BLK0_CFG_W2 (volatile unsigned int *)((0x1e3d << 2) + 0xff900000) +#define VIU2_OSD2_BLK1_CFG_W2 (0x1e41) +#define P_VIU2_OSD2_BLK1_CFG_W2 (volatile unsigned int *)((0x1e41 << 2) + 0xff900000) +#define VIU2_OSD2_BLK2_CFG_W2 (0x1e45) +#define P_VIU2_OSD2_BLK2_CFG_W2 (volatile unsigned int *)((0x1e45 << 2) + 0xff900000) +#define VIU2_OSD2_BLK3_CFG_W2 (0x1e49) +#define P_VIU2_OSD2_BLK3_CFG_W2 (volatile unsigned int *)((0x1e49 << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, h_end +// Bit 15:12 Reserved +// Bit 11: 0 RW, h_start +#define VIU2_OSD2_BLK0_CFG_W3 (0x1e3e) +#define P_VIU2_OSD2_BLK0_CFG_W3 (volatile unsigned int *)((0x1e3e << 2) + 0xff900000) +#define VIU2_OSD2_BLK1_CFG_W3 (0x1e42) +#define P_VIU2_OSD2_BLK1_CFG_W3 (volatile unsigned int *)((0x1e42 << 2) + 0xff900000) +#define VIU2_OSD2_BLK2_CFG_W3 (0x1e46) +#define P_VIU2_OSD2_BLK2_CFG_W3 (volatile unsigned int *)((0x1e46 << 2) + 0xff900000) +#define VIU2_OSD2_BLK3_CFG_W3 (0x1e4a) +#define P_VIU2_OSD2_BLK3_CFG_W3 (volatile unsigned int *)((0x1e4a << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, v_end +// Bit 15:12 Reserved +// Bit 11: 0 RW, v_start +#define VIU2_OSD2_BLK0_CFG_W4 (0x1e64) +#define P_VIU2_OSD2_BLK0_CFG_W4 (volatile unsigned int *)((0x1e64 << 2) + 0xff900000) +#define VIU2_OSD2_BLK1_CFG_W4 (0x1e65) +#define P_VIU2_OSD2_BLK1_CFG_W4 (volatile unsigned int *)((0x1e65 << 2) + 0xff900000) +#define VIU2_OSD2_BLK2_CFG_W4 (0x1e66) +#define P_VIU2_OSD2_BLK2_CFG_W4 (volatile unsigned int *)((0x1e66 << 2) + 0xff900000) +#define VIU2_OSD2_BLK3_CFG_W4 (0x1e67) +#define P_VIU2_OSD2_BLK3_CFG_W4 (volatile unsigned int *)((0x1e67 << 2) + 0xff900000) +// Bit 31 RW, burst_len_sel[2] of [2:0] +// Bit 30 RW, byte_swap: In addition to endian control, further define +// whether to swap upper and lower byte within a 16-bit mem word. +// 0=No swap; 1=Swap data[15:0] to be {data[7:0], data[15:8]} +// Bit 29 RW, div_swap : swap the 2 64bits words in 128 bit word +// Bit 28:24 RW, fifo_lim : when osd fifo is small than the fifo_lim*16, closed the rq port of osd_rd_mif +// Bit 23:22 RW, fifo_ctrl: 00 : for 1 word in 1 burst , 01 : for 2words in 1burst, 10: for 4words in 1burst, 11: reserved +// Bit 21:20 R, fifo_st. 0=IDLE, 1=FILL, 2=ABORT +// Bit 19 R, fifo_overflow +// Bit 18:12 RW, fifo_depth_val, max value=64: set actual fifo depth to fifo_depth_val*8. +// Bit 11:10 RW, burst_len_sel[1:0] of [2:0]. 0=24(default), 1=32, 2=48, 3=64, 4=96, 5=128. +// Bit 9: 5 RW, hold_fifo_lines[4:0] +// Bit 4 RW, clear_err: one pulse to clear fifo_overflow +// Bit 3 RW, fifo_sync_rst +// Bit 2: 1 RW, endian +// Bit 0 RW, urgent +#define VIU2_OSD2_FIFO_CTRL_STAT (0x1e4b) +#define P_VIU2_OSD2_FIFO_CTRL_STAT (volatile unsigned int *)((0x1e4b << 2) + 0xff900000) +// Bit 31:24 R, Y or R +// Bit 23:16 R, Cb or G +// Bit 15: 8 R, Cr or B +// Bit 7: 0 R, Output Alpha[8:1] +#define VIU2_OSD2_TEST_RDDATA (0x1e4c) +#define P_VIU2_OSD2_TEST_RDDATA (volatile unsigned int *)((0x1e4c << 2) + 0xff900000) +// Bit 15 RW, prot_en: 1=Borrow PROT's FIFO storage, either for rotate or non-rotate. +// Bit 12: 0 RW, effective FIFO size when prot_en=1. +#define VIU2_OSD2_PROT_CTRL (0x1e4e) +#define P_VIU2_OSD2_PROT_CTRL (volatile unsigned int *)((0x1e4e << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// VD1 path +//------------------------------------------------------------------------------ +#define VIU2_VD1_IF0_GEN_REG (0x1e50) +#define P_VIU2_VD1_IF0_GEN_REG (volatile unsigned int *)((0x1e50 << 2) + 0xff900000) +#define VIU2_VD1_IF0_CANVAS0 (0x1e51) +#define P_VIU2_VD1_IF0_CANVAS0 (volatile unsigned int *)((0x1e51 << 2) + 0xff900000) +#define VIU2_VD1_IF0_CANVAS1 (0x1e52) +#define P_VIU2_VD1_IF0_CANVAS1 (volatile unsigned int *)((0x1e52 << 2) + 0xff900000) +#define VIU2_VD1_IF0_LUMA_X0 (0x1e53) +#define P_VIU2_VD1_IF0_LUMA_X0 (volatile unsigned int *)((0x1e53 << 2) + 0xff900000) +#define VIU2_VD1_IF0_LUMA_Y0 (0x1e54) +#define P_VIU2_VD1_IF0_LUMA_Y0 (volatile unsigned int *)((0x1e54 << 2) + 0xff900000) +#define VIU2_VD1_IF0_CHROMA_X0 (0x1e55) +#define P_VIU2_VD1_IF0_CHROMA_X0 (volatile unsigned int *)((0x1e55 << 2) + 0xff900000) +#define VIU2_VD1_IF0_CHROMA_Y0 (0x1e56) +#define P_VIU2_VD1_IF0_CHROMA_Y0 (volatile unsigned int *)((0x1e56 << 2) + 0xff900000) +#define VIU2_VD1_IF0_LUMA_X1 (0x1e57) +#define P_VIU2_VD1_IF0_LUMA_X1 (volatile unsigned int *)((0x1e57 << 2) + 0xff900000) +#define VIU2_VD1_IF0_LUMA_Y1 (0x1e58) +#define P_VIU2_VD1_IF0_LUMA_Y1 (volatile unsigned int *)((0x1e58 << 2) + 0xff900000) +#define VIU2_VD1_IF0_CHROMA_X1 (0x1e59) +#define P_VIU2_VD1_IF0_CHROMA_X1 (volatile unsigned int *)((0x1e59 << 2) + 0xff900000) +#define VIU2_VD1_IF0_CHROMA_Y1 (0x1e5a) +#define P_VIU2_VD1_IF0_CHROMA_Y1 (volatile unsigned int *)((0x1e5a << 2) + 0xff900000) +#define VIU2_VD1_IF0_RPT_LOOP (0x1e5b) +#define P_VIU2_VD1_IF0_RPT_LOOP (volatile unsigned int *)((0x1e5b << 2) + 0xff900000) +#define VIU2_VD1_IF0_LUMA0_RPT_PAT (0x1e5c) +#define P_VIU2_VD1_IF0_LUMA0_RPT_PAT (volatile unsigned int *)((0x1e5c << 2) + 0xff900000) +#define VIU2_VD1_IF0_CHROMA0_RPT_PAT (0x1e5d) +#define P_VIU2_VD1_IF0_CHROMA0_RPT_PAT (volatile unsigned int *)((0x1e5d << 2) + 0xff900000) +#define VIU2_VD1_IF0_LUMA1_RPT_PAT (0x1e5e) +#define P_VIU2_VD1_IF0_LUMA1_RPT_PAT (volatile unsigned int *)((0x1e5e << 2) + 0xff900000) +#define VIU2_VD1_IF0_CHROMA1_RPT_PAT (0x1e5f) +#define P_VIU2_VD1_IF0_CHROMA1_RPT_PAT (volatile unsigned int *)((0x1e5f << 2) + 0xff900000) +#define VIU2_VD1_IF0_LUMA_PSEL (0x1e60) +#define P_VIU2_VD1_IF0_LUMA_PSEL (volatile unsigned int *)((0x1e60 << 2) + 0xff900000) +#define VIU2_VD1_IF0_CHROMA_PSEL (0x1e61) +#define P_VIU2_VD1_IF0_CHROMA_PSEL (volatile unsigned int *)((0x1e61 << 2) + 0xff900000) +#define VIU2_VD1_IF0_DUMMY_PIXEL (0x1e62) +#define P_VIU2_VD1_IF0_DUMMY_PIXEL (volatile unsigned int *)((0x1e62 << 2) + 0xff900000) +#define VIU2_VD1_IF0_LUMA_FIFO_SIZE (0x1e63) +#define P_VIU2_VD1_IF0_LUMA_FIFO_SIZE (volatile unsigned int *)((0x1e63 << 2) + 0xff900000) +#define VIU2_VD1_IF0_RANGE_MAP_Y (0x1e6a) +#define P_VIU2_VD1_IF0_RANGE_MAP_Y (volatile unsigned int *)((0x1e6a << 2) + 0xff900000) +#define VIU2_VD1_IF0_RANGE_MAP_CB (0x1e6b) +#define P_VIU2_VD1_IF0_RANGE_MAP_CB (volatile unsigned int *)((0x1e6b << 2) + 0xff900000) +#define VIU2_VD1_IF0_RANGE_MAP_CR (0x1e6c) +#define P_VIU2_VD1_IF0_RANGE_MAP_CR (volatile unsigned int *)((0x1e6c << 2) + 0xff900000) +#define VIU2_VD1_IF0_GEN_REG2 (0x1e6d) +#define P_VIU2_VD1_IF0_GEN_REG2 (volatile unsigned int *)((0x1e6d << 2) + 0xff900000) +#define VIU2_VD1_IF0_PROT_CNTL (0x1e6e) +#define P_VIU2_VD1_IF0_PROT_CNTL (volatile unsigned int *)((0x1e6e << 2) + 0xff900000) +#define VIU2_VD1_IF0_URGENT_CTRL (0x1e6f) +#define P_VIU2_VD1_IF0_URGENT_CTRL (volatile unsigned int *)((0x1e6f << 2) + 0xff900000) +//Bit 31 it true, disable clock, otherwise enable clock +//Bit 30 soft rst bit +//Bit 28 if true, horizontal formatter use repeating to generete pixel, otherwise use bilinear interpolation +//Bit 27:24 horizontal formatter initial phase +//Bit 23 horizontal formatter repeat pixel 0 enable +//Bit 22:21 horizontal Y/C ratio, 00: 1:1, 01: 2:1, 10: 4:1 +//Bit 20 horizontal formatter enable +//Bit 19 if true, always use phase0 while vertical formater, meaning always +// repeat data, no interpolation +//Bit 18 if true, disable vertical formatter chroma repeat last line +//Bit 17 veritcal formatter dont need repeat line on phase0, 1: enable, 0: disable +//Bit 16 veritcal formatter repeat line 0 enable +//Bit 15:12 vertical formatter skip line num at the beginning +//Bit 11:8 vertical formatter initial phase +//Bit 7:1 vertical formatter phase step (3.4) +//Bit 0 vertical formatter enable +#define VIU2_VD1_FMT_CTRL (0x1e68) +#define P_VIU2_VD1_FMT_CTRL (volatile unsigned int *)((0x1e68 << 2) + 0xff900000) +//Bit 27:16 horizontal formatter width +//Bit 11:0 vertical formatter width +#define VIU2_VD1_FMT_W (0x1e69) +#define P_VIU2_VD1_FMT_W (volatile unsigned int *)((0x1e69 << 2) + 0xff900000) +#define VIU2_VD1_IF0_GEN_REG3 (0x1e70) +#define P_VIU2_VD1_IF0_GEN_REG3 (volatile unsigned int *)((0x1e70 << 2) + 0xff900000) +//bit 31:1, reversed +//bit 0, cntl_64bit_rev +// synopsys translate_off +// synopsys translate_on +// +// Closing file: v2regs.h +// +//`define VIUB_VCBUS_BASE 8'h20 +// +// Reading file: vregs_clk1.h +// +//=========================================================================== +// Video Interface Registers 0xa00 - 0xaff +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: VIUB_VCBUS_BASE = 0x20 +// ----------------------------------------------- +#define VIUB_ADDR_START (0x2000) +#define P_VIUB_ADDR_START (volatile unsigned int *)((0x2000 << 2) + 0xff900000) +#define VIUB_ADDR_END (0x20ff) +#define P_VIUB_ADDR_END (volatile unsigned int *)((0x20ff << 2) + 0xff900000) +//`define TRACE_REG 8'ff +//------------------------------------------------------------------------------ +// VIU top-level registers +//------------------------------------------------------------------------------ +// Bit 0 RW, osd1_reset +// Bit 1 RW, osd2_reset +// Bit 2 RW, vd1_reset +// Bit 3 RW, vd1_fmt_reset +// Bit 4 RW, vd2_reset +// Bit 5 RW, vd2_fmt_reset +// Bit 6 RW, di_dsr1to2_reset +// Bit 7 RW, vpp_reset +// Bit 8 RW, di_if1_reset +// Bit 9 RW, di_if1_fmt_reset +// Bit 10 RW, di_inp_reset +// Bit 11 RW, di_inp_fmt_reset +// Bit 12 RW, di_mem_reset +// Bit 13 RW, di_mem_fmt_reset +// Bit 14 RW, di_nr_wr_mif_reset +// Bit 15 RW, dein_wr_mif_reset +// Bit 16 RW, di_chan2_mif_reset +// Bit 17 RW, di_mtn_wr_mif_reset +// Bit 18 RW, di_mtn_rd_mif_reset +// Bit 19 RW, di_mad_reset +// Bit 20 RW, vdin0_reset +// Bit 21 RW, vdin1_reset +// Bit 22 RW, nrin_mux_reset +// Bit 23 RW, vdin0_wr_reset +// Bit 24 RW, vdin1_wr_reset +// Bit 25 RW, reserved +// Bit 26 RW, d2d3_reset +// Bit 27 RW, di_cont_wr_mif_reset +// Bit 28 RW, di_cont_rd_mif_reset +#define VIUB_SW_RESET (0x2001) +#define P_VIUB_SW_RESET (volatile unsigned int *)((0x2001 << 2) + 0xff900000) +#define VIUB_SW_RESET0 (0x2002) +#define P_VIUB_SW_RESET0 (volatile unsigned int *)((0x2002 << 2) + 0xff900000) +// Bit 0 RW, software reset for mcvecrd_mif +// Bit 1 RW, software reset for mcinfowr_mif +// Bit 2 RW, software reset for mcinford_mif +//bit 8 if true, vsync interrup is generate only field == 0 +//bit 7:0 fix_disable +#define VIUB_MISC_CTRL0 (0x2006) +#define P_VIUB_MISC_CTRL0 (volatile unsigned int *)((0x2006 << 2) + 0xff900000) +#define VIUB_GCLK_CTRL0 (0x2007) +#define P_VIUB_GCLK_CTRL0 (volatile unsigned int *)((0x2007 << 2) + 0xff900000) +//// gclk_ctrl0_gl[ 0] : def=1 di_top_wrap clk enable +//// +//// gclk_ctrl0_gl[ 8] : def=0 mad pre clock enable, from mad clock +//// gclk_ctrl0_gl[ 9] : def=0 mad post clock enable, from mad clock +//// gclk_ctrl0_gl[10] : def=0 div clock enable, di slow clock including di&mcdi +//// gclk_ctrl0_gl[11] : def=0 mcdi clock enable, from div clock +//// gclk_ctrl0_gl[12] : def=0 di post clock enable, from div clock +//// gclk_ctrl0_gl[13] : def=0 reserved +//// gclk_ctrl0_gl[14] : def=1 di_no_clk_gate, for old di +//// gclk_ctrl0_gl[15] : def=0 di_gate_all, for old di +#define VIUB_GCLK_CTRL1 (0x2008) +#define P_VIUB_GCLK_CTRL1 (volatile unsigned int *)((0x2008 << 2) + 0xff900000) +//// gclk_ctrl1_gl[ 1: 0] : def=2'b00 mif-sub-arb clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[ 3: 2] : def=2'b00 if1 rdmif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[ 5: 4] : def=2'b00 if2 rdmif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[ 7: 6] : def=2'b00 de wrmif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[ 9: 8] : def=2'b00 mtnrd post mif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[11:10] : def=2'b00 mcdi post mif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[17:16] : def=2'b00 inp rdmif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[19:18] : def=2'b00 mem rdmif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[21:20] : def=2'b00 chan rdmif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[23:22] : def=2'b00 nr wrmif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[25:24] : def=2'b00 mtn mif clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl1_gl[27:26] : def=2'b00 mcdi pre mif clock gate ctrl [1]: clock valid, [0]: clock close +//// +#define VIUB_GCLK_CTRL2 (0x2009) +#define P_VIUB_GCLK_CTRL2 (volatile unsigned int *)((0x2009 << 2) + 0xff900000) +//// gclk_ctrl_pre[ 1: 0] : def=2'b00 nr clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl_pre[ 3: 2] : def=2'b00 pd clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl_pre[ 5: 4] : def=2'b00 mtn det clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl_pre[ 7: 6] : def=2'b00 debanding clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl_pre[ 9: 8] : def=2'b00 dnr clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl_pre[11:10] : def=2'b00 nr&dnr blend clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl_pre[13:12] : def=2'b00 mcdi clock gate ctrl [1]: clock valid, [0]: clock close +#define VIUB_GCLK_CTRL3 (0x200a) +#define P_VIUB_GCLK_CTRL3 (volatile unsigned int *)((0x200a << 2) + 0xff900000) +//// gclk_ctrl_post[ 1: 0] : def=2'b00 di blend clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl_post[ 3: 2] : def=2'b00 ei clock gate ctrl [1]: clock valid, [0]: clock close +//// gclk_ctrl_post[ 5: 4] : def=2'b00 ei_0 clock gate ctrl [1]: clock valid, [0]: clock close +#define DI_IF2_GEN_REG (0x2010) +#define P_DI_IF2_GEN_REG (volatile unsigned int *)((0x2010 << 2) + 0xff900000) +#define DI_IF2_CANVAS0 (0x2011) +#define P_DI_IF2_CANVAS0 (volatile unsigned int *)((0x2011 << 2) + 0xff900000) +#define DI_IF2_LUMA_X0 (0x2012) +#define P_DI_IF2_LUMA_X0 (volatile unsigned int *)((0x2012 << 2) + 0xff900000) +#define DI_IF2_LUMA_Y0 (0x2013) +#define P_DI_IF2_LUMA_Y0 (volatile unsigned int *)((0x2013 << 2) + 0xff900000) +#define DI_IF2_CHROMA_X0 (0x2014) +#define P_DI_IF2_CHROMA_X0 (volatile unsigned int *)((0x2014 << 2) + 0xff900000) +#define DI_IF2_CHROMA_Y0 (0x2015) +#define P_DI_IF2_CHROMA_Y0 (volatile unsigned int *)((0x2015 << 2) + 0xff900000) +#define DI_IF2_RPT_LOOP (0x2016) +#define P_DI_IF2_RPT_LOOP (volatile unsigned int *)((0x2016 << 2) + 0xff900000) +#define DI_IF2_LUMA0_RPT_PAT (0x2017) +#define P_DI_IF2_LUMA0_RPT_PAT (volatile unsigned int *)((0x2017 << 2) + 0xff900000) +#define DI_IF2_CHROMA0_RPT_PAT (0x2018) +#define P_DI_IF2_CHROMA0_RPT_PAT (volatile unsigned int *)((0x2018 << 2) + 0xff900000) +#define DI_IF2_DUMMY_PIXEL (0x2019) +#define P_DI_IF2_DUMMY_PIXEL (volatile unsigned int *)((0x2019 << 2) + 0xff900000) +#define DI_IF2_LUMA_FIFO_SIZE (0x201a) +#define P_DI_IF2_LUMA_FIFO_SIZE (volatile unsigned int *)((0x201a << 2) + 0xff900000) +#define DI_IF2_RANGE_MAP_Y (0x201b) +#define P_DI_IF2_RANGE_MAP_Y (volatile unsigned int *)((0x201b << 2) + 0xff900000) +#define DI_IF2_RANGE_MAP_CB (0x201c) +#define P_DI_IF2_RANGE_MAP_CB (volatile unsigned int *)((0x201c << 2) + 0xff900000) +#define DI_IF2_RANGE_MAP_CR (0x201d) +#define P_DI_IF2_RANGE_MAP_CR (volatile unsigned int *)((0x201d << 2) + 0xff900000) +#define DI_IF2_GEN_REG2 (0x201e) +#define P_DI_IF2_GEN_REG2 (volatile unsigned int *)((0x201e << 2) + 0xff900000) +#define DI_IF2_FMT_CTRL (0x201f) +#define P_DI_IF2_FMT_CTRL (volatile unsigned int *)((0x201f << 2) + 0xff900000) +#define DI_IF2_FMT_W (0x2020) +#define P_DI_IF2_FMT_W (volatile unsigned int *)((0x2020 << 2) + 0xff900000) +#define DI_IF2_URGENT_CTRL (0x2021) +#define P_DI_IF2_URGENT_CTRL (volatile unsigned int *)((0x2021 << 2) + 0xff900000) +//bit15, auto enable; bit14, canvas write mode ;7:4, high threshold ;3:0 , low threshold for di inp chroma path +//bit31, auto enable; bit30, canvas write mode ;23:20, high threshold ;19:16 , low threshold for di inp luma path +#define DI_IF2_GEN_REG3 (0x2022) +#define P_DI_IF2_GEN_REG3 (volatile unsigned int *)((0x2022 << 2) + 0xff900000) +//bit 31:1, reversed +//bit 0, cntl_64bit_rev +#define DI_IF1_URGENT_CTRL (0x20a3) +#define P_DI_IF1_URGENT_CTRL (volatile unsigned int *)((0x20a3 << 2) + 0xff900000) +//bit15, auto enable; bit14, canvas write mode ;7:4, high threshold ;3:0 , low threshold for di inp chroma path +//bit31, auto enable; bit30, canvas write mode ;23:20, high threshold ;19:16 , low threshold for di inp luma path +#define DI_INP_URGENT_CTRL (0x20a4) +#define P_DI_INP_URGENT_CTRL (volatile unsigned int *)((0x20a4 << 2) + 0xff900000) +//bit15, auto enable; bit14, canvas write mode ;7:4, high threshold ;3:0 , low threshold for di mem chroma path +//bit31, auto enable; bit30, canvas write mode ;23:20, high threshold ;19:16 , low threshold for di mem luma path +#define DI_MEM_URGENT_CTRL (0x20a5) +#define P_DI_MEM_URGENT_CTRL (volatile unsigned int *)((0x20a5 << 2) + 0xff900000) +//bit15, auto enable; bit14, canvas write mode ;7:4, high threshold ;3:0 , low threshold for di chan2 chroma path +//bit31, auto enable; bit30, canvas write mode ;23:20, high threshold ;19:16 , low threshold for di chan2 luma path +#define DI_CHAN2_URGENT_CTRL (0x20a6) +#define P_DI_CHAN2_URGENT_CTRL (volatile unsigned int *)((0x20a6 << 2) + 0xff900000) +#define DI_IF1_GEN_REG3 (0x20a7) +#define P_DI_IF1_GEN_REG3 (volatile unsigned int *)((0x20a7 << 2) + 0xff900000) +//bit 31:1, reversed +//bit 0, cntl_64bit_rev +#define DI_INP_GEN_REG3 (0x20a8) +#define P_DI_INP_GEN_REG3 (volatile unsigned int *)((0x20a8 << 2) + 0xff900000) +//bit 31:1, reversed +//bit 0, cntl_64bit_rev +#define DI_MEM_GEN_REG3 (0x20a9) +#define P_DI_MEM_GEN_REG3 (volatile unsigned int *)((0x20a9 << 2) + 0xff900000) +//bit 31:1, reversed +//bit 0, cntl_64bit_rev +#define DI_CHAN2_GEN_REG3 (0x20aa) +#define P_DI_CHAN2_GEN_REG3 (volatile unsigned int *)((0x20aa << 2) + 0xff900000) +//bit 31:1, reversed +//bit 0, cntl_64bit_rev +// +// Closing file: vregs_clk1.h +// +//====================================================================== +// vpu register. +//====================================================================== +// ----------------------------------------------- +// CBUS_BASE: VPU_VCBUS_BASE = 0x27 +// ----------------------------------------------- +#define VPU_OSD1_MMC_CTRL (0x2701) +#define P_VPU_OSD1_MMC_CTRL (volatile unsigned int *)((0x2701 << 2) + 0xff900000) +#define VPU_OSD2_MMC_CTRL (0x2702) +#define P_VPU_OSD2_MMC_CTRL (volatile unsigned int *)((0x2702 << 2) + 0xff900000) +#define VPU_VD1_MMC_CTRL (0x2703) +#define P_VPU_VD1_MMC_CTRL (volatile unsigned int *)((0x2703 << 2) + 0xff900000) +#define VPU_VD2_MMC_CTRL (0x2704) +#define P_VPU_VD2_MMC_CTRL (volatile unsigned int *)((0x2704 << 2) + 0xff900000) +#define VPU_DI_IF1_MMC_CTRL (0x2705) +#define P_VPU_DI_IF1_MMC_CTRL (volatile unsigned int *)((0x2705 << 2) + 0xff900000) +#define VPU_DI_MEM_MMC_CTRL (0x2706) +#define P_VPU_DI_MEM_MMC_CTRL (volatile unsigned int *)((0x2706 << 2) + 0xff900000) +#define VPU_DI_INP_MMC_CTRL (0x2707) +#define P_VPU_DI_INP_MMC_CTRL (volatile unsigned int *)((0x2707 << 2) + 0xff900000) +#define VPU_DI_MTNRD_MMC_CTRL (0x2708) +#define P_VPU_DI_MTNRD_MMC_CTRL (volatile unsigned int *)((0x2708 << 2) + 0xff900000) +#define VPU_DI_CHAN2_MMC_CTRL (0x2709) +#define P_VPU_DI_CHAN2_MMC_CTRL (volatile unsigned int *)((0x2709 << 2) + 0xff900000) +#define VPU_DI_MTNWR_MMC_CTRL (0x270a) +#define P_VPU_DI_MTNWR_MMC_CTRL (volatile unsigned int *)((0x270a << 2) + 0xff900000) +#define VPU_DI_NRWR_MMC_CTRL (0x270b) +#define P_VPU_DI_NRWR_MMC_CTRL (volatile unsigned int *)((0x270b << 2) + 0xff900000) +#define VPU_DI_DIWR_MMC_CTRL (0x270c) +#define P_VPU_DI_DIWR_MMC_CTRL (volatile unsigned int *)((0x270c << 2) + 0xff900000) +#define VPU_VDIN0_MMC_CTRL (0x270d) +#define P_VPU_VDIN0_MMC_CTRL (volatile unsigned int *)((0x270d << 2) + 0xff900000) +#define VPU_VDIN1_MMC_CTRL (0x270e) +#define P_VPU_VDIN1_MMC_CTRL (volatile unsigned int *)((0x270e << 2) + 0xff900000) +#define VPU_BT656_MMC_CTRL (0x270f) +#define P_VPU_BT656_MMC_CTRL (volatile unsigned int *)((0x270f << 2) + 0xff900000) +#define VPU_TVD3D_MMC_CTRL (0x2710) +#define P_VPU_TVD3D_MMC_CTRL (volatile unsigned int *)((0x2710 << 2) + 0xff900000) +#define VPU_TVDVBI_MMC_CTRL (0x2711) +#define P_VPU_TVDVBI_MMC_CTRL (volatile unsigned int *)((0x2711 << 2) + 0xff900000) +//Read only +//`define VPU_TVDVBI_VSLATCH_ADDR 8'h12 +//Read only +//`define VPU_TVDVBI_WRRSP_ADDR 8'h13 +#define VPU_VDIN_PRE_ARB_CTRL (0x2714) +#define P_VPU_VDIN_PRE_ARB_CTRL (volatile unsigned int *)((0x2714 << 2) + 0xff900000) +#define VPU_VDISP_PRE_ARB_CTRL (0x2715) +#define P_VPU_VDISP_PRE_ARB_CTRL (volatile unsigned int *)((0x2715 << 2) + 0xff900000) +#define VPU_VPUARB2_PRE_ARB_CTRL (0x2716) +#define P_VPU_VPUARB2_PRE_ARB_CTRL (volatile unsigned int *)((0x2716 << 2) + 0xff900000) +#define VPU_OSD3_MMC_CTRL (0x2717) +#define P_VPU_OSD3_MMC_CTRL (volatile unsigned int *)((0x2717 << 2) + 0xff900000) +#define VPU_OSD4_MMC_CTRL (0x2718) +#define P_VPU_OSD4_MMC_CTRL (volatile unsigned int *)((0x2718 << 2) + 0xff900000) +#define VPU_VD3_MMC_CTRL (0x2719) +#define P_VPU_VD3_MMC_CTRL (volatile unsigned int *)((0x2719 << 2) + 0xff900000) +// [31:11] Reserved. +// [10: 8] cntl_viu_vdin_sel_data. Select VIU to VDIN data path, must clear it first before changing the path selection: +// 3'b000=Disable VIU to VDIN path; +// 3'b001=Enable VIU of ENC_I domain to VDIN; +// 3'b010=Enable VIU of ENC_P domain to VDIN; +// 3'b100=Enable VIU of ENC_T domain to VDIN; +// [ 6: 4] cntl_viu_vdin_sel_clk. Select which clock to VDIN path, must clear it first before changing the clock: +// 3'b000=Disable VIU to VDIN clock; +// 3'b001=Select encI clock to VDIN; +// 3'b010=Select encP clock to VDIN; +// 3'b100=Select encT clock to VDIN; +// [ 3: 2] cntl_viu2_sel_venc. Select which one of the encI/P/T that VIU2 connects to: +// 0=No connection, 1=ENCI, 2=ENCP, 3=ENCT. +// [ 1: 0] cntl_viu1_sel_venc. Select which one of the encI/P/T that VIU1 connects to: +// 0=No connection, 1=ENCI, 2=ENCP, 3=ENCT. +#define VPU_VIU_VENC_MUX_CTRL (0x271a) +#define P_VPU_VIU_VENC_MUX_CTRL (volatile unsigned int *)((0x271a << 2) + 0xff900000) +// [15:12] rd_rate. 0=A read every clk2; 1=A read every 2 clk2; ...; 15=A read every 16 clk2. +// [11: 8] wr_rate. 0=A write every clk1; 1=A write every 2 clk1; ...; 15=A write every 16 clk1. +// [ 7: 5] data_comp_map. Input data is CrYCb(BRG), map the output data to desired format: +// 0=output CrYCb(BRG); +// 1=output YCbCr(RGB); +// 2=output YCrCb(RBG); +// 3=output CbCrY(GBR); +// 4=output CbYCr(GRB); +// 5=output CrCbY(BGR); +// 6,7=Rsrv. +// [ 4] inv_dvi_clk. 1=Invert clock to external DVI, (clock invertion exists at internal HDMI). +// [ 3] inv_vsync. 1=Invert Vsync polarity. +// [ 2] inv_hsync. 1=Invert Hsync polarity. +// [ 1: 0] src_sel. 0=Disable output to HDMI; 1=Select VENC_I output to HDMI; 2=Select VENC_P output. +#define VPU_HDMI_SETTING (0x271b) +#define P_VPU_HDMI_SETTING (volatile unsigned int *)((0x271b << 2) + 0xff900000) +#define ENCI_INFO_READ (0x271c) +#define P_ENCI_INFO_READ (volatile unsigned int *)((0x271c << 2) + 0xff900000) +#define ENCP_INFO_READ (0x271d) +#define P_ENCP_INFO_READ (volatile unsigned int *)((0x271d << 2) + 0xff900000) +#define ENCT_INFO_READ (0x271e) +#define P_ENCT_INFO_READ (volatile unsigned int *)((0x271e << 2) + 0xff900000) +#define ENCL_INFO_READ (0x271f) +#define P_ENCL_INFO_READ (volatile unsigned int *)((0x271f << 2) + 0xff900000) +// Bit 0 RW, viu_rst_n +// Bit 1 RW, vdin_mmc_arb_rst_n +// Bit 2 RW, vdisp_mmc_arb_rst_n +// Bit 3 RW, vpuarb2_mmc_arb_rst_n +#define VPU_SW_RESET (0x2720) +#define P_VPU_SW_RESET (volatile unsigned int *)((0x2720 << 2) + 0xff900000) +//Bit 30 d2d3_depr_req_sel, 0:vdisp_pre_arb, 1: vpuarb2_pre_arb +//Bit 27:22 d2d3_depr_brst_num +//Bit 21:16 d2d3_depr_id +//Bit 14 d2d3_depw_req_sel, 0: vdin_pre_arb, 1: vdisp_pre_arb +//Bit 11:6 d2d3_depw_brst_num +//Bit 5:0 d2d3_depw_id +#define VPU_D2D3_MMC_CTRL (0x2721) +#define P_VPU_D2D3_MMC_CTRL (volatile unsigned int *)((0x2721 << 2) + 0xff900000) +//Bit 30 mtn_contrd_req_pre, 0:disp1_arb, 1: vdin_pre_arb +//Bit 27:22 mtn_contrd_brst_num +//Bit 21:16 mtn_contrd_id +//Bit 14 mtn_contwr_req_pre, 0: vdisp1_arb, 1: vdin_pre_arb +//Bit 11:6 mtn_contwr_brst_num +//Bit 5:0 mtn_contwr_id +#define VPU_CONT_MMC_CTRL (0x2722) +#define P_VPU_CONT_MMC_CTRL (volatile unsigned int *)((0x2722 << 2) + 0xff900000) +// Bit 6 RW, gclk_mpeg_vpu_misc +// Bit 5 RW, gclk_mpeg_venc_l_top +// Bit 4 RW, gclk_mpeg_vencl_int +// Bit 3 RW, gclk_mpeg_vencp_int +// Bit 2 RW, gclk_mpeg_vi2_top +// Bit 1 RW, gclk_mpeg_vi_top +// Bit 0 RW, gclk_mpeg_venc_p_top +#define VPU_CLK_GATE (0x2723) +#define P_VPU_CLK_GATE (volatile unsigned int *)((0x2723 << 2) + 0xff900000) +//Bit 12 RW, rdma_pre +//Bit 11: 6 RW, rdma_num +//Bit 5: 0 RW, rdma_id +#define VPU_RDMA_MMC_CTRL (0x2724) +#define P_VPU_RDMA_MMC_CTRL (volatile unsigned int *)((0x2724 << 2) + 0xff900000) +#define VPU_MEM_PD_REG0 (0x2725) +#define P_VPU_MEM_PD_REG0 (volatile unsigned int *)((0x2725 << 2) + 0xff900000) +#define VPU_MEM_PD_REG1 (0x2726) +#define P_VPU_MEM_PD_REG1 (volatile unsigned int *)((0x2726 << 2) + 0xff900000) +// [ 31] hdmi_data_ovr_en: 1=Enable overriding data input to HDMI TX with hdmi_data_ovr[29:0]. 0=No override. Default 0. +// [ 30] Reserved. Default 0 +// [29: 0] hdmi_data_ovr. Default 0. +#define VPU_HDMI_DATA_OVR (0x2727) +#define P_VPU_HDMI_DATA_OVR (volatile unsigned int *)((0x2727 << 2) + 0xff900000) +//Bit 15 RW, prot1_sel_osd4 +//Bit 14 RW, prot1_sel_osd3 +//Bit 13 RW, prot1_sel_osd2 +//Bit 12 RW, prot1_sel_osd1 +//Bit 11: 6 RW, prot1_brst_num +//Bit 5: 0 RW, prot1_id +#define VPU_PROT1_MMC_CTRL (0x2728) +#define P_VPU_PROT1_MMC_CTRL (volatile unsigned int *)((0x2728 << 2) + 0xff900000) +//Bit 14 RW, prot2_sel_vd3 +//Bit 13 RW, prot2_sel_vd2 +//Bit 12 RW, prot2_sel_vd1 +//Bit 11: 6 RW, prot2_brst_num +//Bit 5: 0 RW, prot2_id +#define VPU_PROT2_MMC_CTRL (0x2729) +#define P_VPU_PROT2_MMC_CTRL (volatile unsigned int *)((0x2729 << 2) + 0xff900000) +//Bit 14 RW, prot3_sel_vd3 +//Bit 13 RW, prot3_sel_vd2 +//Bit 12 RW, prot3_sel_vd1 +//Bit 11: 6 RW, prot3_brst_num +//Bit 5: 0 RW, prot3_id +#define VPU_PROT3_MMC_CTRL (0x272a) +#define P_VPU_PROT3_MMC_CTRL (volatile unsigned int *)((0x272a << 2) + 0xff900000) +//Bit 29:24 RW, s3_brst_num +//Bit 21:16 RW, s2_brst_num +//Bit 13: 8 RW, s1_brst_num +//Bit 5: 0 RW, s0_brst_num +#define VPU_ARB4_V1_MMC_CTRL (0x272b) +#define P_VPU_ARB4_V1_MMC_CTRL (volatile unsigned int *)((0x272b << 2) + 0xff900000) +//Bit 29:24 RW, s3_brst_num +//Bit 21:16 RW, s2_brst_num +//Bit 13: 8 RW, s1_brst_num +//Bit 5: 0 RW, s0_brst_num +#define VPU_ARB4_V2_MMC_CTRL (0x272c) +#define P_VPU_ARB4_V2_MMC_CTRL (volatile unsigned int *)((0x272c << 2) + 0xff900000) +//Bit 27:22 RW, mcvecwr_num +//Bit 21:16 RW, mcvecwr_id +//Bit 11:6 RW, mcvecrd_num +//Bit 5:0 RW, mcvecrd_id +#define VPU_MCVEC_MMC_CTRL (0x272d) +#define P_VPU_MCVEC_MMC_CTRL (volatile unsigned int *)((0x272d << 2) + 0xff900000) +//Bit 27:22 RW, mcinfwr_num +//Bit 21:16 RW, mcinfwr_id +//Bit 11:6 RW, mcinfrd_num +//Bit 5:0 RW, mcinfrd_id +#define VPU_MCINF_MMC_CTRL (0x272e) +#define P_VPU_MCINF_MMC_CTRL (volatile unsigned int *)((0x272e << 2) + 0xff900000) +//Bit 31 reg_vpu_pwm_inv, 1: invert the pwm signal, active low +//Bit 30:29 reg_vpu_pwm_src_sel, 00: encl, enct, encp +//Bit 28:16 reg_vpu_pwm_v_end0 +//Bit 12:0 reg_vpu_pwm_v_start0 +#define VPU_VPU_PWM_V0 (0x2730) +#define P_VPU_VPU_PWM_V0 (volatile unsigned int *)((0x2730 << 2) + 0xff900000) +//Bit 28:16 reg_vpu_pwm_v_end1 +//Bit 12:0 reg_vpu_pwm_v_start1 +#define VPU_VPU_PWM_V1 (0x2731) +#define P_VPU_VPU_PWM_V1 (volatile unsigned int *)((0x2731 << 2) + 0xff900000) +//Bit 28:16 reg_vpu_pwm_v_end2 +//Bit 12:0 reg_vpu_pwm_v_start2 +#define VPU_VPU_PWM_V2 (0x2732) +#define P_VPU_VPU_PWM_V2 (volatile unsigned int *)((0x2732 << 2) + 0xff900000) +//Bit 28:16 reg_vpu_pwm_v_end3 +//Bit 12:0 reg_vpu_pwm_v_start3 +#define VPU_VPU_PWM_V3 (0x2733) +#define P_VPU_VPU_PWM_V3 (volatile unsigned int *)((0x2733 << 2) + 0xff900000) +//Bit 28:16 reg_vpu_pwm_h_end0 +//Bit 12:0 reg_vpu_pwm_h_start0 +#define VPU_VPU_PWM_H0 (0x2734) +#define P_VPU_VPU_PWM_H0 (volatile unsigned int *)((0x2734 << 2) + 0xff900000) +//Bit 28:16 reg_vpu_pwm_h_end1 +//Bit 12:0 reg_vpu_pwm_h_start1 +#define VPU_VPU_PWM_H1 (0x2735) +#define P_VPU_VPU_PWM_H1 (volatile unsigned int *)((0x2735 << 2) + 0xff900000) +//Bit 28:16 reg_vpu_pwm_h_end2 +//Bit 12:0 reg_vpu_pwm_h_start2 +#define VPU_VPU_PWM_H2 (0x2736) +#define P_VPU_VPU_PWM_H2 (volatile unsigned int *)((0x2736 << 2) + 0xff900000) +//Bit 28:16 reg_vpu_pwm_h_end3 +//Bit 12:0 reg_vpu_pwm_h_start3 +#define VPU_VPU_PWM_H3 (0x2737) +#define P_VPU_VPU_PWM_H3 (volatile unsigned int *)((0x2737 << 2) + 0xff900000) +//Bit 18 reg_vpu_3d_go_high_fld_pol: 0: go high at field 0, 1: go high at field 1 +//Bit 17 reg_vpu_3d_sync_setting_vsync_latch +//Bit 16 reg_vpu_3d_sync_enable +//Bit 14:8 reg_vpu_3d_sync_v_end +//Bit 6:0 reg_vpu_3d_sync_v_start +#define VPU_VPU_3D_SYNC1 (0x2738) +#define P_VPU_VPU_3D_SYNC1 (volatile unsigned int *)((0x2738 << 2) + 0xff900000) +//Bit 28:16 reg_vpu_3d_sync_h_end +//Bit 12:0 reg_vpu_3d_sync_h_start +#define VPU_VPU_3D_SYNC2 (0x2739) +#define P_VPU_VPU_3D_SYNC2 (volatile unsigned int *)((0x2739 << 2) + 0xff900000) +//Bit 4 csi2_pre, 1: using vpu pre arbiter0, 0: using vpu pre arbiter2 +//Bit 2:1 isp_in_sel, 01: select bt656, 10: select Mipi CSI2, otherwise select nothing +//Bit 0, if true, force vencl clk enable, otherwise, it might auto turn off by mipi DSI +#define VPU_MISC_CTRL (0x2740) +#define P_VPU_MISC_CTRL (volatile unsigned int *)((0x2740 << 2) + 0xff900000) +#define VPU_ISP_GCLK_CTRL0 (0x2741) +#define P_VPU_ISP_GCLK_CTRL0 (volatile unsigned int *)((0x2741 << 2) + 0xff900000) +#define VPU_ISP_GCLK_CTRL1 (0x2742) +#define P_VPU_ISP_GCLK_CTRL1 (volatile unsigned int *)((0x2742 << 2) + 0xff900000) +#define VPU_HDMI_FMT_CTRL (0x2743) +#define P_VPU_HDMI_FMT_CTRL (volatile unsigned int *)((0x2743 << 2) + 0xff900000) +#define VPU_VDIN_ASYNC_HOLD_CTRL (0x2744) +#define P_VPU_VDIN_ASYNC_HOLD_CTRL (volatile unsigned int *)((0x2744 << 2) + 0xff900000) +#define VPU_VDISP_ASYNC_HOLD_CTRL (0x2745) +#define P_VPU_VDISP_ASYNC_HOLD_CTRL (volatile unsigned int *)((0x2745 << 2) + 0xff900000) +#define VPU_VPUARB2_ASYNC_HOLD_CTRL (0x2746) +#define P_VPU_VPUARB2_ASYNC_HOLD_CTRL (volatile unsigned int *)((0x2746 << 2) + 0xff900000) +// arb0_rd_urg_ctrl_o <= vpp_off_urg_ctrl & vpu_arb_urg_ctrl[0] | +// rdma_ddr_req_busy_sync_d1 & vpu_arb_urg_ctrl[1] +// ; +// +// arb1_rd_urg_ctrl_o <= vpp_off_urg_ctrl & vpu_arb_urg_ctrl[2] | +// rdma_ddr_req_busy_sync_d1 & vpu_arb_urg_ctrl[3] +// ; +// +// arb2_rd_urg_ctrl_o <= vpp_off_urg_ctrl & vpu_arb_urg_ctrl[4] | +// rdma_ddr_req_busy_sync_d1 & vpu_arb_urg_ctrl[5] +// ; +// +// arb0_wr_urg_ctrl_o <= vdin0_lff_urg_ctrl_sync_d1 & vpu_arb_urg_ctrl[6] | +// vdin1_lff_urg_ctrl_sync_d1 & vpu_arb_urg_ctrl[7] +// ; +// +// arb1_wr_urg_ctrl_o <= vdin0_lff_urg_ctrl_sync_d1 & vpu_arb_urg_ctrl[8] | +// vdin1_lff_urg_ctrl_sync_d1 & vpu_arb_urg_ctrl[9] +// +#define VPU_ARB_URG_CTRL (0x2747) +#define P_VPU_ARB_URG_CTRL (volatile unsigned int *)((0x2747 << 2) + 0xff900000) +#define VPU_SECURE_DUMMY (0x2748) +#define P_VPU_SECURE_DUMMY (volatile unsigned int *)((0x2748 << 2) + 0xff900000) +#define VPU_VENCL_DITH_EN (0x2749) +#define P_VPU_VENCL_DITH_EN (volatile unsigned int *)((0x2749 << 2) + 0xff900000) +// todo : +#define VPU_422TO444_RST (0x274a) +#define P_VPU_422TO444_RST (volatile unsigned int *)((0x274a << 2) + 0xff900000) +// todo : +#define VPU_422TO444_CTRL0 (0x274b) +#define P_VPU_422TO444_CTRL0 (volatile unsigned int *)((0x274b << 2) + 0xff900000) +// todo : +#define VPU_422TO444_CTRL1 (0x274c) +#define P_VPU_422TO444_CTRL1 (volatile unsigned int *)((0x274c << 2) + 0xff900000) +// todo : +// Picture Rotate (PROT) module 1 (for OSD) registers: +#define VPU_PROT1_CLK_GATE (0x2750) +#define P_VPU_PROT1_CLK_GATE (volatile unsigned int *)((0x2750 << 2) + 0xff900000) +#define VPU_PROT1_GEN_CNTL (0x2751) +#define P_VPU_PROT1_GEN_CNTL (volatile unsigned int *)((0x2751 << 2) + 0xff900000) +#define VPU_PROT1_X_START_END (0x2752) +#define P_VPU_PROT1_X_START_END (volatile unsigned int *)((0x2752 << 2) + 0xff900000) +#define VPU_PROT1_Y_START_END (0x2753) +#define P_VPU_PROT1_Y_START_END (volatile unsigned int *)((0x2753 << 2) + 0xff900000) +#define VPU_PROT1_Y_LEN_STEP (0x2754) +#define P_VPU_PROT1_Y_LEN_STEP (volatile unsigned int *)((0x2754 << 2) + 0xff900000) +#define VPU_PROT1_RPT_LOOP (0x2755) +#define P_VPU_PROT1_RPT_LOOP (volatile unsigned int *)((0x2755 << 2) + 0xff900000) +#define VPU_PROT1_RPT_PAT (0x2756) +#define P_VPU_PROT1_RPT_PAT (volatile unsigned int *)((0x2756 << 2) + 0xff900000) +#define VPU_PROT1_DDR (0x2757) +#define P_VPU_PROT1_DDR (volatile unsigned int *)((0x2757 << 2) + 0xff900000) +#define VPU_PROT1_RBUF_ROOM (0x2758) +#define P_VPU_PROT1_RBUF_ROOM (volatile unsigned int *)((0x2758 << 2) + 0xff900000) +#define VPU_PROT1_STAT_0 (0x2759) +#define P_VPU_PROT1_STAT_0 (volatile unsigned int *)((0x2759 << 2) + 0xff900000) +#define VPU_PROT1_STAT_1 (0x275a) +#define P_VPU_PROT1_STAT_1 (volatile unsigned int *)((0x275a << 2) + 0xff900000) +#define VPU_PROT1_STAT_2 (0x275b) +#define P_VPU_PROT1_STAT_2 (volatile unsigned int *)((0x275b << 2) + 0xff900000) +#define VPU_PROT1_REQ_ONOFF (0x275c) +#define P_VPU_PROT1_REQ_ONOFF (volatile unsigned int *)((0x275c << 2) + 0xff900000) +// Picture Rotate (PROT) module 2 (for VD) registers: +#define VPU_PROT2_CLK_GATE (0x2760) +#define P_VPU_PROT2_CLK_GATE (volatile unsigned int *)((0x2760 << 2) + 0xff900000) +#define VPU_PROT2_GEN_CNTL (0x2761) +#define P_VPU_PROT2_GEN_CNTL (volatile unsigned int *)((0x2761 << 2) + 0xff900000) +#define VPU_PROT2_X_START_END (0x2762) +#define P_VPU_PROT2_X_START_END (volatile unsigned int *)((0x2762 << 2) + 0xff900000) +#define VPU_PROT2_Y_START_END (0x2763) +#define P_VPU_PROT2_Y_START_END (volatile unsigned int *)((0x2763 << 2) + 0xff900000) +#define VPU_PROT2_Y_LEN_STEP (0x2764) +#define P_VPU_PROT2_Y_LEN_STEP (volatile unsigned int *)((0x2764 << 2) + 0xff900000) +#define VPU_PROT2_RPT_LOOP (0x2765) +#define P_VPU_PROT2_RPT_LOOP (volatile unsigned int *)((0x2765 << 2) + 0xff900000) +#define VPU_PROT2_RPT_PAT (0x2766) +#define P_VPU_PROT2_RPT_PAT (volatile unsigned int *)((0x2766 << 2) + 0xff900000) +#define VPU_PROT2_DDR (0x2767) +#define P_VPU_PROT2_DDR (volatile unsigned int *)((0x2767 << 2) + 0xff900000) +#define VPU_PROT2_RBUF_ROOM (0x2768) +#define P_VPU_PROT2_RBUF_ROOM (volatile unsigned int *)((0x2768 << 2) + 0xff900000) +#define VPU_PROT2_STAT_0 (0x2769) +#define P_VPU_PROT2_STAT_0 (volatile unsigned int *)((0x2769 << 2) + 0xff900000) +#define VPU_PROT2_STAT_1 (0x276a) +#define P_VPU_PROT2_STAT_1 (volatile unsigned int *)((0x276a << 2) + 0xff900000) +#define VPU_PROT2_STAT_2 (0x276b) +#define P_VPU_PROT2_STAT_2 (volatile unsigned int *)((0x276b << 2) + 0xff900000) +#define VPU_PROT2_REQ_ONOFF (0x276c) +#define P_VPU_PROT2_REQ_ONOFF (volatile unsigned int *)((0x276c << 2) + 0xff900000) +// Picture Rotate (PROT) module 3 (for VD) registers: +#define VPU_PROT3_CLK_GATE (0x2770) +#define P_VPU_PROT3_CLK_GATE (volatile unsigned int *)((0x2770 << 2) + 0xff900000) +#define VPU_PROT3_GEN_CNTL (0x2771) +#define P_VPU_PROT3_GEN_CNTL (volatile unsigned int *)((0x2771 << 2) + 0xff900000) +#define VPU_PROT3_X_START_END (0x2772) +#define P_VPU_PROT3_X_START_END (volatile unsigned int *)((0x2772 << 2) + 0xff900000) +#define VPU_PROT3_Y_START_END (0x2773) +#define P_VPU_PROT3_Y_START_END (volatile unsigned int *)((0x2773 << 2) + 0xff900000) +#define VPU_PROT3_Y_LEN_STEP (0x2774) +#define P_VPU_PROT3_Y_LEN_STEP (volatile unsigned int *)((0x2774 << 2) + 0xff900000) +#define VPU_PROT3_RPT_LOOP (0x2775) +#define P_VPU_PROT3_RPT_LOOP (volatile unsigned int *)((0x2775 << 2) + 0xff900000) +#define VPU_PROT3_RPT_PAT (0x2776) +#define P_VPU_PROT3_RPT_PAT (volatile unsigned int *)((0x2776 << 2) + 0xff900000) +#define VPU_PROT3_DDR (0x2777) +#define P_VPU_PROT3_DDR (volatile unsigned int *)((0x2777 << 2) + 0xff900000) +#define VPU_PROT3_RBUF_ROOM (0x2778) +#define P_VPU_PROT3_RBUF_ROOM (volatile unsigned int *)((0x2778 << 2) + 0xff900000) +#define VPU_PROT3_STAT_0 (0x2779) +#define P_VPU_PROT3_STAT_0 (volatile unsigned int *)((0x2779 << 2) + 0xff900000) +#define VPU_PROT3_STAT_1 (0x277a) +#define P_VPU_PROT3_STAT_1 (volatile unsigned int *)((0x277a << 2) + 0xff900000) +#define VPU_PROT3_STAT_2 (0x277b) +#define P_VPU_PROT3_STAT_2 (volatile unsigned int *)((0x277b << 2) + 0xff900000) +#define VPU_PROT3_REQ_ONOFF (0x277c) +#define P_VPU_PROT3_REQ_ONOFF (volatile unsigned int *)((0x277c << 2) + 0xff900000) +//Bit 20 reg_viu2vdin_sw_reset: software reset +//Bit 19:18 reg_viu2vdin_dn_ratio: down-scale ratio; 0: no scale; 1: 1/2; 2:1/4; 3: reserved +//Bit 17:16 reg_viu2vdin_flt_mode: filter mode; 0: no filter; 1:[0 2 2 0]/4; 2:[1 1 1 1]/4; 3:[1 3 3 1]/8 +//Bit 15:14 reversed +//Bit 13:0 reg_viu2vdin_hsize: source horizontal size +#define VPU_VIU2VDIN_HDN_CTRL (0x2780) +#define P_VPU_VIU2VDIN_HDN_CTRL (volatile unsigned int *)((0x2780 << 2) + 0xff900000) +#define VPU_VIU_ASYNC_MASK (0x2781) +#define P_VPU_VIU_ASYNC_MASK (volatile unsigned int *)((0x2781 << 2) + 0xff900000) +#define VDIN_MISC_CTRL (0x2782) +#define P_VDIN_MISC_CTRL (volatile unsigned int *)((0x2782 << 2) + 0xff900000) +// vpu arbtration : +// the segment is 8'h90-8'hc8 +// +// Reading file: vpu_arb_axi_regs.h +// +// synopsys translate_off +// synopsys translate_on +////===============================//// +//// reg +////===============================//// +#define VPU_RDARB_MODE_L1C1 (0x2790) +#define P_VPU_RDARB_MODE_L1C1 (volatile unsigned int *)((0x2790 << 2) + 0xff900000) +//Bit 31:22, reserved +//Bit 21:16, rdarb_sel uns, default = 0 , +// rdarb_sel[0]==0 slave dc0 connect master port0 rdarb_sel[0]==1 slave dc0 connect master port1 +// rdarb_sel[1]==0 slave dc1 connect master port0 rdarb_sel[1]==1 slave dc1 connect master port1 +// rdarb_sel[2]==0 slave dc2 connect master port0 rdarb_sel[2]==1 slave dc2 connect master port1 +// rdarb_sel[3]==0 slave dc3 connect master port0 rdarb_sel[3]==1 slave dc3 connect master port1 +// rdarb_sel[4]==0 slave dc4 connect master port0 rdarb_sel[4]==1 slave dc4 connect master port1 +// rdarb_sel[5]==0 slave dc5 connect master port0 rdarb_sel[5]==1 slave dc5 connect master port1 +//Bit 15:10, reserved +//Bit 9:8, rdarb_arb_mode uns, default = 0 , +// rdarb_arb_mode[0] master port0 arb way, +// rdarb_arb_mode[1] master port1 arb way, +//Bit 7:4, reserved +//Bit 3:0, rdarb_gate_clk_ctrl uns, default = 0 , +// rdarb_gate_clk_ctrl[1:0] master port0 clk gate control +// rdarb_gate_clk_ctrl[3:2] master port1 clk gate control +#define VPU_RDARB_REQEN_SLV_L1C1 (0x2791) +#define P_VPU_RDARB_REQEN_SLV_L1C1 (volatile unsigned int *)((0x2791 << 2) + 0xff900000) +//Bit 31:12, reserved +//Bit 11:0, rdarb_dc_req_en unsigned , default = 12'hfff +// rdarb_dc_req_en[0]: the slv0 req to mst port0 enable, +// rdarb_dc_req_en[1]: the slv1 req to mst port0 enable, +// rdarb_dc_req_en[2]: the slv2 req to mst port0 enable, +// rdarb_dc_req_en[3]: the slv3 req to mst port0 enable, +// rdarb_dc_req_en[4]: the slv4 req to mst port0 enable, +// rdarb_dc_req_en[5]: the slv5 req to mst port0 enable, +// rdarb_dc_req_en[6]: the slv0 req to mst port1 enable, +// rdarb_dc_req_en[7]: the slv1 req to mst port1 enable, +// rdarb_dc_req_en[8]: the slv2 req to mst port1 enable, +// rdarb_dc_req_en[9]: the slv3 req to mst port1 enable, +// rdarb_dc_req_en[10]: the slv4 req to mst port1 enable, +// rdarb_dc_req_en[11]: the slv5 req to mst port1 enable, +#define VPU_RDARB_WEIGH0_SLV_L1C1 (0x2792) +#define P_VPU_RDARB_WEIGH0_SLV_L1C1 (volatile unsigned int *)((0x2792 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:0, rddc_weigh_sxn unsigned , default = 0 +// rddc_weigh_sxn[0*6+:6]: the slv0 req weigh number +// rddc_weigh_sxn[1*6+:6]: the slv1 req weigh number +// rddc_weigh_sxn[2*6+:6]: the slv2 req weigh number +// rddc_weigh_sxn[3*6+:6]: the slv3 req weigh number +// rddc_weigh_sxn[4*6+:6]: the slv4 req weigh number +#define VPU_RDARB_WEIGH1_SLV_L1C1 (0x2793) +#define P_VPU_RDARB_WEIGH1_SLV_L1C1 (volatile unsigned int *)((0x2793 << 2) + 0xff900000) +//Bit 31:6, reserved +//Bit 5:0, rddc_weigh_sxn unsigned , default = 0 +// rddc_weigh_sxn[5*6+:6]: the slv5 req weigh number +#define VPU_WRARB_MODE_L1C1 (0x2794) +#define P_VPU_WRARB_MODE_L1C1 (volatile unsigned int *)((0x2794 << 2) + 0xff900000) +//Bit 31:22, reserved +//Bit 21:16, wrarb_sel uns, default = 0 , +// wrarb_sel[0]==0 slave dc0 connect master port0 wrarb_sel[0]==1 slave dc0 connect master port1 +// wrarb_sel[1]==0 slave dc1 connect master port0 wrarb_sel[1]==1 slave dc1 connect master port1 +// wrarb_sel[2]==0 slave dc2 connect master port0 wrarb_sel[2]==1 slave dc2 connect master port1 +// wrarb_sel[3]==0 slave dc3 connect master port0 wrarb_sel[3]==1 slave dc3 connect master port1 +// wrarb_sel[4]==0 slave dc4 connect master port0 wrarb_sel[4]==1 slave dc4 connect master port1 +// wrarb_sel[5]==0 slave dc5 connect master port0 wrarb_sel[5]==1 slave dc5 connect master port1 +//Bit 15:10, reserved +//Bit 9:8, wrarb_arb_mode uns, default = 0 , +// wrarb_arb_mode[0] master port0 arb way, +// wrarb_arb_mode[1] master port1 arb way, +//Bit 7:4, reserved +//Bit 3:0, wrarb_gate_clk_ctrl uns, default = 0 , +// wrarb_gate_clk_ctrl[1:0] master port0 clk gate control +// wrarb_gate_clk_ctrl[3:2] master port1 clk gate control +#define VPU_WRARB_REQEN_SLV_L1C1 (0x2795) +#define P_VPU_WRARB_REQEN_SLV_L1C1 (volatile unsigned int *)((0x2795 << 2) + 0xff900000) +//Bit 31:12, reserved +//Bit 11:0, wrarb_dc_req_en unsigned , default = 0 +// wrarb_dc_req_en[0]: the slv0 req to mst port0 enable, +// wrarb_dc_req_en[1]: the slv1 req to mst port0 enable, +// wrarb_dc_req_en[2]: the slv2 req to mst port0 enable, +// wrarb_dc_req_en[3]: the slv3 req to mst port0 enable, +// wrarb_dc_req_en[4]: the slv4 req to mst port0 enable, +// wrarb_dc_req_en[5]: the slv5 req to mst port0 enable, +// wrarb_dc_req_en[0]: the slv0 req to mst port1 enable, +// wrarb_dc_req_en[1]: the slv1 req to mst port1 enable, +// wrarb_dc_req_en[2]: the slv2 req to mst port1 enable, +// wrarb_dc_req_en[3]: the slv3 req to mst port1 enable, +// wrarb_dc_req_en[4]: the slv4 req to mst port1 enable, +// wrarb_dc_req_en[5]: the slv5 req to mst port1 enable, +#define VPU_WRARB_WEIGH0_SLV_L1C1 (0x2796) +#define P_VPU_WRARB_WEIGH0_SLV_L1C1 (volatile unsigned int *)((0x2796 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:0, wrdc_weigh_sxn unsigned , default = 0 +// wrdc_weigh_sxn[0*6+:6]: the slv0 req weigh number +// wrdc_weigh_sxn[1*6+:6]: the slv1 req weigh number +// wrdc_weigh_sxn[2*6+:6]: the slv2 req weigh number +// wrdc_weigh_sxn[3*6+:6]: the slv3 req weigh number +// wrdc_weigh_sxn[4*6+:6]: the slv4 req weigh number +#define VPU_WRARB_WEIGH1_SLV_L1C1 (0x2797) +#define P_VPU_WRARB_WEIGH1_SLV_L1C1 (volatile unsigned int *)((0x2797 << 2) + 0xff900000) +//Bit 31:6, reserved +//Bit 5:0, wrdc_weigh_sxn unsigned , default = 0 +// wrdc_weigh_sxn[5*6+:6]: the slv5 req weigh number +#define VPU_RDWR_ARB_STATUS_L1C1 (0x2798) +#define P_VPU_RDWR_ARB_STATUS_L1C1 (volatile unsigned int *)((0x2798 << 2) + 0xff900000) +//Bit 31:4, reserved +//Bit 3:2, wrarb_arb_busy unsigned , default = 0 +//Bit 1:0, rdarb_arb_busy unsigned , default = 0 +#define VPU_RDARB_MODE_L1C2 (0x2799) +#define P_VPU_RDARB_MODE_L1C2 (volatile unsigned int *)((0x2799 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, rdarb_sel uns, default = 0 , +// rdarb_sel[0]==0 slave dc0 connect master port0 rdarb_sel[0]==1 slave dc0 connect master port1 +// rdarb_sel[1]==0 slave dc1 connect master port0 rdarb_sel[1]==1 slave dc1 connect master port1 +// rdarb_sel[2]==0 slave dc2 connect master port0 rdarb_sel[2]==1 slave dc2 connect master port1 +// rdarb_sel[3]==0 slave dc3 connect master port0 rdarb_sel[3]==1 slave dc3 connect master port1 +// rdarb_sel[4]==0 slave dc4 connect master port0 rdarb_sel[4]==1 slave dc4 connect master port1 +//Bit 15:10, reserved +//Bit 9:8, rdarb_arb_mode uns, default = 0 , +// rdarb_arb_mode[0] master port0 arb way, +// rdarb_arb_mode[1] master port1 arb way, +//Bit 7:4, reserved +//Bit 3:0, rdarb_gate_clk_ctrl uns, default = 0 , +// rdarb_gate_clk_ctrl[1:0] master port0 clk gate control +// rdarb_gate_clk_ctrl[3:2] master port0 clk gate control +#define VPU_RDARB_REQEN_SLV_L1C2 (0x279a) +#define P_VPU_RDARB_REQEN_SLV_L1C2 (volatile unsigned int *)((0x279a << 2) + 0xff900000) +//Bit 31:10, reserved +//Bit 9:0, rdarb_dc_req_en unsigned , default = 0 +// rdarb_dc_req_en[0]: the slv0 req to mst port0 enable, +// rdarb_dc_req_en[1]: the slv1 req to mst port0 enable, +// rdarb_dc_req_en[2]: the slv2 req to mst port0 enable, +// rdarb_dc_req_en[3]: the slv3 req to mst port0 enable, +// rdarb_dc_req_en[4]: the slv4 req to mst port0 enable, +// rdarb_dc_req_en[5]: the slv0 req to mst port1 enable, +// rdarb_dc_req_en[6]: the slv1 req to mst port1 enable, +// rdarb_dc_req_en[7]: the slv2 req to mst port1 enable, +// rdarb_dc_req_en[8]: the slv3 req to mst port1 enable, +// rdarb_dc_req_en[9]: the slv4 req to mst port1 enable, +#define VPU_RDARB_WEIGH0_SLV_L1C2 (0x279b) +#define P_VPU_RDARB_WEIGH0_SLV_L1C2 (volatile unsigned int *)((0x279b << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:0, rddc_weigh_sxn unsigned , default = 0 +// rddc_weigh_sxn[0*6+:6]: the slv0 req weigh number +// rddc_weigh_sxn[1*6+:6]: the slv1 req weigh number +// rddc_weigh_sxn[2*6+:6]: the slv2 req weigh number +// rddc_weigh_sxn[3*6+:6]: the slv3 req weigh number +// rddc_weigh_sxn[4*6+:6]: the slv4 req weigh number +#define VPU_RDWR_ARB_STATUS_L1C2 (0x279c) +#define P_VPU_RDWR_ARB_STATUS_L1C2 (volatile unsigned int *)((0x279c << 2) + 0xff900000) +//Bit 31:3, reserved +//Bit 2, wrarb_arb_busy unsigned , default = 0 +//Bit 1:0, rdarb_arb_busy unsigned , default = 0 +#define VPU_RDARB_MODE_L2C1 (0x279d) +#define P_VPU_RDARB_MODE_L2C1 (volatile unsigned int *)((0x279d << 2) + 0xff900000) +//Bit 31:28, reserved +//Bit 27:16, rdarb_sel uns, default = 0 , +// rdarb_sel[0]==0 slave dc0 connect master port0 rdarb_sel[0]==1 slave dc0 connect master port1 +// rdarb_sel[1]==0 slave dc1 connect master port0 rdarb_sel[1]==1 slave dc1 connect master port1 +// rdarb_sel[2]==0 slave dc2 connect master port0 rdarb_sel[2]==1 slave dc2 connect master port1 +// rdarb_sel[3]==0 slave dc3 connect master port0 rdarb_sel[3]==1 slave dc3 connect master port1 +// rdarb_sel[4]==0 slave dc4 connect master port0 rdarb_sel[4]==1 slave dc4 connect master port1 +// rdarb_sel[5]==0 slave dc5 connect master port0 rdarb_sel[5]==1 slave dc5 connect master port1 +//Bit 15:11, reserved +//Bit 10:8, rdarb_arb_mode uns, default = 0 , +// rdarb_arb_mode[0] master port0 arb way, +// rdarb_arb_mode[1] master port1 arb way, +//Bit 7:6, reserved +//Bit 5:0, rdarb_gate_clk_ctrl uns, default = 0 , +// rdarb_gate_clk_ctrl[1:0] master port0 clk gate control +// rdarb_gate_clk_ctrl[3:2] master port1 clk gate control +// rdarb_gate_clk_ctrl[5:4] master port2 clk gate control +#define VPU_RDARB_REQEN_SLV_L2C1 (0x279e) +#define P_VPU_RDARB_REQEN_SLV_L2C1 (volatile unsigned int *)((0x279e << 2) + 0xff900000) +//Bit 31:18, reserved +//Bit 17:0, rdarb_dc_req_en unsigned , default = 0 +// rdarb_dc_req_en[0]: the slv0 req to mst port0 enable, +// rdarb_dc_req_en[1]: the slv1 req to mst port0 enable, +// rdarb_dc_req_en[2]: the slv2 req to mst port0 enable, +// rdarb_dc_req_en[3]: the slv3 req to mst port0 enable, +// rdarb_dc_req_en[4]: the slv4 req to mst port0 enable, +// rdarb_dc_req_en[5]: the slv5 req to mst port0 enable, +// rdarb_dc_req_en[0]: the slv0 req to mst port1 enable, +// rdarb_dc_req_en[1]: the slv1 req to mst port1 enable, +// rdarb_dc_req_en[2]: the slv2 req to mst port1 enable, +// rdarb_dc_req_en[3]: the slv3 req to mst port1 enable, +// rdarb_dc_req_en[4]: the slv4 req to mst port1 enable, +// rdarb_dc_req_en[5]: the slv5 req to mst port1 enable, +#define VPU_RDARB_WEIGH0_SLV_L2C1 (0x279f) +#define P_VPU_RDARB_WEIGH0_SLV_L2C1 (volatile unsigned int *)((0x279f << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:0, rddc_weigh_sxn unsigned , default = 0 +// rddc_weigh_sxn[0*6+:6]: the slv0 req weigh number +// rddc_weigh_sxn[1*6+:6]: the slv1 req weigh number +// rddc_weigh_sxn[2*6+:6]: the slv2 req weigh number +// rddc_weigh_sxn[3*6+:6]: the slv3 req weigh number +// rddc_weigh_sxn[4*6+:6]: the slv4 req weigh number +#define VPU_RDARB_WEIGH1_SLV_L2C1 (0x27a0) +#define P_VPU_RDARB_WEIGH1_SLV_L2C1 (volatile unsigned int *)((0x27a0 << 2) + 0xff900000) +//Bit 31:6, reserved +//Bit 5:0, rddc_weigh_sxn unsigned , default = 0 +// rddc_weigh_sxn[5*6+:6]: the slv5 req weigh number +#define VPU_RDWR_ARB_STATUS_L2C1 (0x27a1) +#define P_VPU_RDWR_ARB_STATUS_L2C1 (volatile unsigned int *)((0x27a1 << 2) + 0xff900000) +//Bit 31:4, reserved +//Bit 3:2, wrarb_arb_busy unsigned , default = 0 +//Bit 1:0, rdarb_arb_busy unsigned , default = 0 +#define VPU_WRARB_MODE_L2C1 (0x27a2) +#define P_VPU_WRARB_MODE_L2C1 (volatile unsigned int *)((0x27a2 << 2) + 0xff900000) +//Bit 31:20, reserved +//Bit 19:16, wrarb_sel uns, default = 0 , +// wrarb_sel[0]==0 slave dc0 connect master port0 wrarb_sel[0]==1 slave dc0 connect master port1 +// wrarb_sel[1]==0 slave dc1 connect master port0 wrarb_sel[1]==1 slave dc1 connect master port1 +// wrarb_sel[2]==0 slave dc2 connect master port0 wrarb_sel[2]==1 slave dc2 connect master port1 +// wrarb_sel[3]==0 slave dc3 connect master port0 wrarb_sel[3]==1 slave dc3 connect master port1 +//Bit 15:10, reserved +//Bit 9:8, wrarb_arb_mode uns, default = 0 , +// wrarb_arb_mode[0] master port0 arb way, +// wrarb_arb_mode[1] master port1 arb way, +//Bit 7:4, reserved +//Bit 3:0, wrarb_gate_clk_ctrl uns, default = 0 , +// wrarb_gate_clk_ctrl[1:0] master port0 clk gate control +// wrarb_gate_clk_ctrl[3:2] master port0 clk gate control +#define VPU_WRARB_REQEN_SLV_L2C1 (0x27a3) +#define P_VPU_WRARB_REQEN_SLV_L2C1 (volatile unsigned int *)((0x27a3 << 2) + 0xff900000) +//Bit 31:8, reserved +//Bit 7:0, wrarb_dc_req_en unsigned , default = 0 +// wrarb_dc_req_en[0]: the slv0 req to mst port0 enable, +// wrarb_dc_req_en[1]: the slv1 req to mst port0 enable, +// wrarb_dc_req_en[2]: the slv2 req to mst port0 enable, +// wrarb_dc_req_en[3]: the slv3 req to mst port0 enable, +// wrarb_dc_req_en[0]: the slv0 req to mst port1 enable, +// wrarb_dc_req_en[1]: the slv1 req to mst port1 enable, +// wrarb_dc_req_en[2]: the slv2 req to mst port1 enable, +// wrarb_dc_req_en[3]: the slv3 req to mst port1 enable, +#define VPU_WRARB_WEIGH0_SLV_L2C1 (0x27a4) +#define P_VPU_WRARB_WEIGH0_SLV_L2C1 (volatile unsigned int *)((0x27a4 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:0, wrdc_weigh_sxn unsigned , default = 0 +// wrdc_weigh_sxn[0*6+:6]: the slv0 req weigh number +// wrdc_weigh_sxn[1*6+:6]: the slv1 req weigh number +// wrdc_weigh_sxn[2*6+:6]: the slv2 req weigh number +// wrdc_weigh_sxn[3*6+:6]: the slv3 req weigh number +#define VPU_ASYNC_RD_MODE0 (0x27a5) +#define P_VPU_ASYNC_RD_MODE0 (volatile unsigned int *)((0x27a5 << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, req_en unsigned , default = 0 async enable +//Bit 17:16, clk_gate_ctrl unsigned , default = 0 async clock gate control +//Bit 15:12, auto_arugt_weight unsigned , default = 4 +//Bit 11, reserved +//Bit 10:9, arugt_sel unsigned , default = 0 +// 00 : use auto fifo arugt generate the output arugt. +// 01 : use the register bit control +// 00 : use the input arguent +//Bit 8, arguent_cfg unsigned , default = 0 register arguent control bit +//Bit 7:4, rd_hold_num unsigned , default = 4 hold the read command threshold +//Bit 3:0, rd_rel_num unsigned , default = 0 release the read command threshold +#define VPU_ASYNC_RD_MODE1 (0x27a6) +#define P_VPU_ASYNC_RD_MODE1 (volatile unsigned int *)((0x27a6 << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, req_en unsigned , default = 0 async enable +//Bit 17:16, clk_gate_ctrl unsigned , default = 0 async clock gate control +//Bit 15:12, auto_arugt_weight unsigned , default = 4 +//Bit 11, reserved +//Bit 10:9, arugt_sel unsigned , default = 0 +// 00 : use auto fifo arugt generate the output arugt. +// 01 : use the register bit control +// 00 : use the input arguent +//Bit 8, arguent_cfg unsigned , default = 0 register arguent control bit +//Bit 7:4, rd_hold_num unsigned , default = 4 hold the read command threshold +//Bit 3:0, rd_rel_num unsigned , default = 0 release the read command threshold +#define VPU_ASYNC_RD_MODE2 (0x27a7) +#define P_VPU_ASYNC_RD_MODE2 (volatile unsigned int *)((0x27a7 << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, req_en unsigned , default = 0 async enable +//Bit 17:16, clk_gate_ctrl unsigned , default = 0 async clock gate control +//Bit 15:12, auto_arugt_weight unsigned , default = 4 +//Bit 11, reserved +//Bit 10:9, arugt_sel unsigned , default = 0 +// 00 : use auto fifo arugt generate the output arugt. +// 01 : use the register bit control +// 00 : use the input arguent +//Bit 8, arguent_cfg unsigned , default = 0 register arguent control bit +//Bit 7:4, rd_hold_num unsigned , default = 4 hold the read command threshold +//Bit 3:0, rd_rel_num unsigned , default = 0 release the read command threshold +#define VPU_ASYNC_RD_MODE3 (0x27a8) +#define P_VPU_ASYNC_RD_MODE3 (volatile unsigned int *)((0x27a8 << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, req_en unsigned , default = 0 async enable +//Bit 17:16, clk_gate_ctrl unsigned , default = 0 async clock gate control +//Bit 15:12, auto_arugt_weight unsigned , default = 4 +//Bit 11, reserved +//Bit 10:9, arugt_sel unsigned , default = 0 +// 00 : use auto fifo arugt generate the output arugt. +// 01 : use the register bit control +// 00 : use the input arguent +//Bit 8, arguent_cfg unsigned , default = 0 register arguent control bit +//Bit 7:4, rd_hold_num unsigned , default = 4 hold the read command threshold +//Bit 3:0, rd_rel_num unsigned , default = 0 release the read command threshold +#define VPU_ASYNC_RD_MODE4 (0x27a9) +#define P_VPU_ASYNC_RD_MODE4 (volatile unsigned int *)((0x27a9 << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, req_en unsigned , default = 0 async enable +//Bit 17:16, clk_gate_ctrl unsigned , default = 0 async clock gate control +//Bit 15:12, auto_arugt_weight unsigned , default = 4 +//Bit 11, reserved +//Bit 10:9, arugt_sel unsigned , default = 0 +// 00 : use auto fifo arugt generate the output arugt. +// 01 : use the register bit control +// 00 : use the input arguent +//Bit 8, arguent_cfg unsigned , default = 0 register arguent control bit +//Bit 7:4, rd_hold_num unsigned , default = 4 hold the read command threshold +//Bit 3:0, rd_rel_num unsigned , default = 0 release the read command threshold +#define VPU_ASYNC_WR_MODE0 (0x27aa) +#define P_VPU_ASYNC_WR_MODE0 (volatile unsigned int *)((0x27aa << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, req_en unsigned , default = 0 async enable +//Bit 17:16, clk_gate_ctrl unsigned , default = 0 async clock gate control +//Bit 15:12, auto_arugt_weight unsigned , default = 4 +//Bit 11, reserved +//Bit 10:9, arugt_sel unsigned , default = 0 +// 00 : use auto fifo arugt generate the output arugt. +// 01 : use the register bit control +// 00 : use the input arguent +//Bit 8, arguent_cfg unsigned , default = 0 register arguent control bit +//Bit 7:4, wr_hold_num unsigned , default = 4 hold the read command threshold +//Bit 3:0, wr_rel_num unsigned , default = 0 release the write command threshold +#define VPU_ASYNC_WR_MODE1 (0x27ab) +#define P_VPU_ASYNC_WR_MODE1 (volatile unsigned int *)((0x27ab << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, req_en unsigned , default = 0 async enable +//Bit 17:16, clk_gate_ctrl unsigned , default = 0 async clock gate control +//Bit 15:12, auto_arugt_weight unsigned , default = 4 +//Bit 11, reserved +//Bit 10:9, arugt_sel unsigned , default = 0 +// 00 : use auto fifo arugt generate the output arugt. +// 01 : use the register bit control +// 00 : use the input arguent +//Bit 8, arguent_cfg unsigned , default = 0 register arguent control bit +//Bit 7:4, wr_hold_num unsigned , default = 4 hold the read command threshold +//Bit 3:0, wr_rel_num unsigned , default = 0 release the write command threshold +#define VPU_ASYNC_WR_MODE2 (0x27ac) +#define P_VPU_ASYNC_WR_MODE2 (volatile unsigned int *)((0x27ac << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, req_en unsigned , default = 0 async enable +//Bit 17:16, clk_gate_ctrl unsigned , default = 0 async clock gate control +//Bit 15:12, auto_arugt_weight unsigned , default = 4 +//Bit 11, reserved +//Bit 10:9, arugt_sel unsigned , default = 0 +// 00 : use auto fifo arugt generate the output arugt. +// 01 : use the register bit control +// 00 : use the input arguent +//Bit 8, arguent_cfg unsigned , default = 0 register arguent control bit +//Bit 7:4, wr_hold_num unsigned , default = 4 hold the read command threshold +//Bit 3:0, wr_rel_num unsigned , default = 0 release the write command threshold +#define VPU_ASYNC_STAT (0x27ad) +#define P_VPU_ASYNC_STAT (volatile unsigned int *)((0x27ad << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18, axiwr2_chan_idle unsigned , RO, axi write channel2 idle state +//Bit 17, axiwr1_chan_idle unsigned , RO, axi write channel1 idle state +//Bit 16, axiwr0_chan_idle unsigned , RO, axi write channel0 idle state +//Bit 15:5, reserved +//Bit 4, axird4_chan_idle unsigned , RO, axi read channel4 idle state +//Bit 3, axird3_chan_idle unsigned , RO, axi read channel3 idle state +//Bit 2, axird2_chan_idle unsigned , RO, axi read channel2 idle state +//Bit 1, axird1_chan_idle unsigned , RO, axi read channel1 idle state +//Bit 0, axird0_chan_idle unsigned , RO, axi read channel0 idle state +#define VPU_WRARB_MODE_L1C2 (0x27ae) +#define P_VPU_WRARB_MODE_L1C2 (volatile unsigned int *)((0x27ae << 2) + 0xff900000) +//Bit 31:18, reserved +//Bit 17:16, wrarb_sel uns, default = 0 , +// wrarb_sel[0]==0 slave dc0 connect master port0 wrarb_sel[0]==1 slave dc0 connect master port1 +// wrarb_sel[1]==0 slave dc1 connect master port0 wrarb_sel[1]==1 slave dc1 connect master port1 +//Bit 15:9, reserved +//Bit 8, wrarb_arb_mode uns, default = 0 , +// wrarb_arb_mode[0] master port0 arb way, +//Bit 7:2, reserved +//Bit 1:0, wrarb_gate_clk_ctrl uns, default = 0 , +// wrarb_gate_clk_ctrl[1:0] master port0 clk gate control +#define VPU_WRARB_REQEN_SLV_L1C2 (0x27af) +#define P_VPU_WRARB_REQEN_SLV_L1C2 (volatile unsigned int *)((0x27af << 2) + 0xff900000) +//Bit 31:2, reserved +//Bit 1:0, wrarb_dc_req_en unsigned , default = 0 +// wrarb_dc_req_en[0]: the slv0 req to mst port0 enable, +// wrarb_dc_req_en[1]: the slv1 req to mst port0 enable, +#define VPU_WRARB_WEIGH0_SLV_L1C2 (0x27b0) +#define P_VPU_WRARB_WEIGH0_SLV_L1C2 (volatile unsigned int *)((0x27b0 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:0, wrdc_weigh_sxn unsigned , default = 0 +// wrdc_weigh_sxn[0*6+:6]: the slv0 req weigh number +// wrdc_weigh_sxn[1*6+:6]: the slv1 req weigh number +// wrdc_weigh_sxn[2*6+:6]: the slv1 req weigh number +// wrdc_weigh_sxn[3*6+:6]: the slv1 req weigh number +// wrdc_weigh_sxn[4*6+:6]: the slv1 req weigh number +#define VPU_WRARB_WEIGH1_SLV_L1C2 (0x27b1) +#define P_VPU_WRARB_WEIGH1_SLV_L1C2 (volatile unsigned int *)((0x27b1 << 2) + 0xff900000) +//Bit 31:18, reserved +//Bit 17:0, wrdc_weigh_sxn unsigned , default = 0 +// wrdc_weigh_sxn[5*6+:6]: the slv0 req weigh number +// wrdc_weigh_sxn[6*6+:6]: the slv1 req weigh number +// wrdc_weigh_sxn[7*6+:6]: the slv1 req weigh number +#define VPU_RDARB_WEIGH1_SLV_L1C2 (0x27b2) +#define P_VPU_RDARB_WEIGH1_SLV_L1C2 (volatile unsigned int *)((0x27b2 << 2) + 0xff900000) +//Bit 31:18, reserved +//Bit 17:0, rddc_weigh_sxn unsigned , default = 0 +// rddc_weigh_sxn[5*6+:6]: the slv0 req weigh number +// rddc_weigh_sxn[6*6+:6]: the slv1 req weigh number +// rddc_weigh_sxn[7*6+:6]: the slv2 req weigh number +#define VPU_ARB_DBG_CTRL_L1C1 (0x27b3) +#define P_VPU_ARB_DBG_CTRL_L1C1 (volatile unsigned int *)((0x27b3 << 2) + 0xff900000) +#define VPU_ARB_DBG_STAT_L1C1 (0x27b4) +#define P_VPU_ARB_DBG_STAT_L1C1 (volatile unsigned int *)((0x27b4 << 2) + 0xff900000) +#define VPU_ARB_DBG_CTRL_L1C2 (0x27b5) +#define P_VPU_ARB_DBG_CTRL_L1C2 (volatile unsigned int *)((0x27b5 << 2) + 0xff900000) +#define VPU_ARB_DBG_STAT_L1C2 (0x27b6) +#define P_VPU_ARB_DBG_STAT_L1C2 (volatile unsigned int *)((0x27b6 << 2) + 0xff900000) +#define VPU_ARB_DBG_CTRL_L2C1 (0x27b7) +#define P_VPU_ARB_DBG_CTRL_L2C1 (volatile unsigned int *)((0x27b7 << 2) + 0xff900000) +#define VPU_ARB_DBG_STAT_L2C1 (0x27b8) +#define P_VPU_ARB_DBG_STAT_L2C1 (volatile unsigned int *)((0x27b8 << 2) + 0xff900000) +#define VPU_ARB_PATH_CTRL (0x27b9) +#define P_VPU_ARB_PATH_CTRL (volatile unsigned int *)((0x27b9 << 2) + 0xff900000) +#define VPU_ARB_PATH_MAP00 (0x27ba) +#define P_VPU_ARB_PATH_MAP00 (volatile unsigned int *)((0x27ba << 2) + 0xff900000) +#define VPU_ARB_PATH_MAP01 (0x27bb) +#define P_VPU_ARB_PATH_MAP01 (volatile unsigned int *)((0x27bb << 2) + 0xff900000) +#define VPU_ARB_PATH_MAP02 (0x27bc) +#define P_VPU_ARB_PATH_MAP02 (volatile unsigned int *)((0x27bc << 2) + 0xff900000) +#define VPU_ARB_PATH_MAP03 (0x27bd) +#define P_VPU_ARB_PATH_MAP03 (volatile unsigned int *)((0x27bd << 2) + 0xff900000) +#define VPU_ARB_PATH_MAP10 (0x27be) +#define P_VPU_ARB_PATH_MAP10 (volatile unsigned int *)((0x27be << 2) + 0xff900000) +#define VPU_ARB_PATH_MAP11 (0x27bf) +#define P_VPU_ARB_PATH_MAP11 (volatile unsigned int *)((0x27bf << 2) + 0xff900000) +#define VPU_ARB_PATH_MAP12 (0x27c0) +#define P_VPU_ARB_PATH_MAP12 (volatile unsigned int *)((0x27c0 << 2) + 0xff900000) +#define VPU_ARB_PATH_MAP13 (0x27c1) +#define P_VPU_ARB_PATH_MAP13 (volatile unsigned int *)((0x27c1 << 2) + 0xff900000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: vpu_arb_axi_regs.h +// +// the segment is 8'he0-8'hef +#define VPU_VENCL_DITH_CTRL (0x27e0) +#define P_VPU_VENCL_DITH_CTRL (volatile unsigned int *)((0x27e0 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_1 (0x27e1) +#define P_VPU_VENCL_DITH_LUT_1 (volatile unsigned int *)((0x27e1 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_2 (0x27e2) +#define P_VPU_VENCL_DITH_LUT_2 (volatile unsigned int *)((0x27e2 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_3 (0x27e3) +#define P_VPU_VENCL_DITH_LUT_3 (volatile unsigned int *)((0x27e3 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_4 (0x27e4) +#define P_VPU_VENCL_DITH_LUT_4 (volatile unsigned int *)((0x27e4 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_5 (0x27e5) +#define P_VPU_VENCL_DITH_LUT_5 (volatile unsigned int *)((0x27e5 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_6 (0x27e6) +#define P_VPU_VENCL_DITH_LUT_6 (volatile unsigned int *)((0x27e6 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_7 (0x27e7) +#define P_VPU_VENCL_DITH_LUT_7 (volatile unsigned int *)((0x27e7 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_8 (0x27e8) +#define P_VPU_VENCL_DITH_LUT_8 (volatile unsigned int *)((0x27e8 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_9 (0x27e9) +#define P_VPU_VENCL_DITH_LUT_9 (volatile unsigned int *)((0x27e9 << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_10 (0x27ea) +#define P_VPU_VENCL_DITH_LUT_10 (volatile unsigned int *)((0x27ea << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_11 (0x27eb) +#define P_VPU_VENCL_DITH_LUT_11 (volatile unsigned int *)((0x27eb << 2) + 0xff900000) +#define VPU_VENCL_DITH_LUT_12 (0x27ec) +#define P_VPU_VENCL_DITH_LUT_12 (volatile unsigned int *)((0x27ec << 2) + 0xff900000) +//new added 4x4 dither +// the segment is 8'hf0 +#define VPU_HDMI_DITH_01_04 (0x27f0) +#define P_VPU_HDMI_DITH_01_04 (volatile unsigned int *)((0x27f0 << 2) + 0xff900000) +#define VPU_HDMI_DITH_01_15 (0x27f1) +#define P_VPU_HDMI_DITH_01_15 (volatile unsigned int *)((0x27f1 << 2) + 0xff900000) +#define VPU_HDMI_DITH_01_26 (0x27f2) +#define P_VPU_HDMI_DITH_01_26 (volatile unsigned int *)((0x27f2 << 2) + 0xff900000) +#define VPU_HDMI_DITH_01_37 (0x27f3) +#define P_VPU_HDMI_DITH_01_37 (volatile unsigned int *)((0x27f3 << 2) + 0xff900000) +#define VPU_HDMI_DITH_10_04 (0x27f4) +#define P_VPU_HDMI_DITH_10_04 (volatile unsigned int *)((0x27f4 << 2) + 0xff900000) +#define VPU_HDMI_DITH_10_15 (0x27f5) +#define P_VPU_HDMI_DITH_10_15 (volatile unsigned int *)((0x27f5 << 2) + 0xff900000) +#define VPU_HDMI_DITH_10_26 (0x27f6) +#define P_VPU_HDMI_DITH_10_26 (volatile unsigned int *)((0x27f6 << 2) + 0xff900000) +#define VPU_HDMI_DITH_10_37 (0x27f7) +#define P_VPU_HDMI_DITH_10_37 (volatile unsigned int *)((0x27f7 << 2) + 0xff900000) +#define VPU_HDMI_DITH_11_04 (0x27f8) +#define P_VPU_HDMI_DITH_11_04 (volatile unsigned int *)((0x27f8 << 2) + 0xff900000) +#define VPU_HDMI_DITH_11_15 (0x27f9) +#define P_VPU_HDMI_DITH_11_15 (volatile unsigned int *)((0x27f9 << 2) + 0xff900000) +#define VPU_HDMI_DITH_11_26 (0x27fa) +#define P_VPU_HDMI_DITH_11_26 (volatile unsigned int *)((0x27fa << 2) + 0xff900000) +#define VPU_HDMI_DITH_11_37 (0x27fb) +#define P_VPU_HDMI_DITH_11_37 (volatile unsigned int *)((0x27fb << 2) + 0xff900000) +#define VPU_HDMI_DITH_CNTL (0x27fc) +#define P_VPU_HDMI_DITH_CNTL (volatile unsigned int *)((0x27fc << 2) + 0xff900000) +//======================================================================== +// MIPI CSI2 Controller Adaptor (16'h2a00 - 16'h2aff) +// +//======================================================================== +//`define CSI2_VCBUS_BASE 8'h2a +//`include "csi2_regs.h" +//====================================================================== +// D2D3 registers +//====================================================================== +//`define D2D3_VCBUS_BASE 8'h2b +// +// Reading file: d2d3_regs.h +// +//=========================================================================== +// D2D3 Registers 0x - 0x +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: D2D3_VCBUS_BASE = 0x2b +// ----------------------------------------------- +//------------------------------------------------------------------------------ +// D2D3 top-level registers +//------------------------------------------------------------------------------ +// Bit 31 RW, rd_lock_en, 1 to allow update some read-only registers based on filed +// Bit 30 RW, sw_rst_nobuf, 1 to reset the whole d2d3 unit +// Bit 29:28 RW, clk_auto_dis, [29] DBR clock disable +// [28] DPG clock disable +// Bit 27:16 RW, clk_ctrl, [27:26] gated clock control for register unit +// [25:24] gated clock control for DBR unit +// [23:22] gated clock control for LBDG unit +// [21:20] gated clock control for MBDG unit +// [19:18] gated clock control for CBDG unit +// [17:16] gated clock control for DBLD unit and SCD81 unit +// Bit 15:12 Reserved +// Bit 11 RW, lo_chroma_sign, 0: negate the u/v component of DBR left channel video output, 1: bypass +// Bit 10 RW, ro_chroma_sign, 0: negate the u/v component of DBR right channel video output, 1: bypass +// Bit 9 RW, vi0_chroma_sign, 0: negate the u/v component of DPG video input, 1: bypass +// Bit 8 RW, vi1_chroma_sign, 0: negate the u/v component of DBR video input, 1: bypass +// Bit 7:5 Reserved +// Bit 4 RW, lg_en, Enable the LBDG unit and LBDG clock +// Bit 3 RW, mg_en, Enable the MBDG unit and MBDG clock +// Bit 2 RW, cg_en, Enable the CBDG unit and CBDG clock +// Bit 1 RW, dbr_en, Enable the DBR unit and DBR clock +// Bit 0 RW, dpg_en, Enable the DPG unit and clock except sub-unit CBDG, MBDG and LBDG +#define D2D3_GLB_CTRL (0x2b00) +#define P_D2D3_GLB_CTRL (volatile unsigned int *)((0x2b00 << 2) + 0xff900000) +// Indicate the input picture size in DPG unit +// Bit 31:16 RW, szx_vi_m1, The horizontal size minus 1 +// Bit 15:0 RW, szy_vi_m1, The vertical size minus 1 +#define D2D3_DPG_INPIC_SIZE (0x2b01) +#define P_D2D3_DPG_INPIC_SIZE (volatile unsigned int *)((0x2b01 << 2) + 0xff900000) +// Indicate the output picture size in DBR unit +// Bit 31:16 RW, szx_vo_m1, The horizontal size minus 1 +// Bit 15:0 RW, szy_vo_m1, The vertical size minus 1 +#define D2D3_DBR_OUTPIC_SIZE (0x2b02) +#define P_D2D3_DBR_OUTPIC_SIZE (volatile unsigned int *)((0x2b02 << 2) + 0xff900000) +// Indicate the rectangular window to generate the "depth" in DPG unit +// Bit 31:16 RW, dg_win_x_start, Horizontal start position, count from 0 +// Bit 15:0 RW, dg_win_x_end, Horizontal end position, count from 0 +#define D2D3_DGEN_WIN_HOR (0x2b03) +#define P_D2D3_DGEN_WIN_HOR (volatile unsigned int *)((0x2b03 << 2) + 0xff900000) +// Indicate the rectangular window to generate the "depth" in DPG unit +// Bit 31:16 RW, dg_win_y_start, Vertical start position, count from 0 +// Bit 15:0 RW, dg_win_y_end, Vertical end position, count from 0 +#define D2D3_DGEN_WIN_VER (0x2b04) +#define P_D2D3_DGEN_WIN_VER (volatile unsigned int *)((0x2b04 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// CBDG SCU18 SCD81 SCD81_PRE registers +// cg: color based depth generate module +// scu18: scale up module +// scd81: scale down module +// scd81_pre: scd81 pre-scale-down module +//------------------------------------------------------------------------------ +// Indicate parameters of pre-scale-down unit +// Bit 31:16 RW, scd81_hphs_step, horizontal step +// Bit 15:0 RW, scd81_hphs_ini, horizontal initial phase +#define D2D3_PRE_SCD_H (0x2b05) +#define P_D2D3_PRE_SCD_H (volatile unsigned int *)((0x2b05 << 2) + 0xff900000) +// Bit 31:16 RW, scu18_iniph, initial phase in SCU18, +// [23:16] indicate the horizontal phase offset from the first data of every line +// [31:24] indicate the vertical phase offset from the first line of every frame +// Bit 15:12 Reserved +// Bit 11 RW, scd81_predrop_en, 1 to enable scd81 pre-scale-down function +// Bit 10:9 RW, cg_csc_sel, Color Space Conversion(CSC) matrix mode selector in CBDG +// 0: BT.601 (16-235/240) +// 1: BT.709 (16-235/240) +// 2: BT.601 (0-255) +// 3: BT.709 (0-255) +// Bit 8 RW, scu18_rep_en, 1 to double each line of the SCU18 output +// Bit 7:4 RW, scu18_factor, up-scale factor in SCU18 on DBR input depth data +// [7:6] for vertical, 0->1:1, 1->1:2, 2->1:4, 3->1:8 +// [5:4] for horizontal, 0->1:1, 1->1:2, 2->1:4, 3->1:8 +// Bit 3:0 RW, scd81_factor, down-scale factor in SCD81 on DPG source video +// [3:2] for vertical, 0->1:1, 1->2:1, 2->4:1, 3->8:1 +// [1:0] for horizontal, 0->1:1, 1->2:1, 2->4:1, 3->8:1 +#define D2D3_SCALER_CTRL (0x2b06) +#define P_D2D3_SCALER_CTRL (volatile unsigned int *)((0x2b06 << 2) + 0xff900000) +// Bit 31:24 RW, cg_rpg_dth, the down |r-g| threshold for sky detect +// Bit 23:16 RW, cg_rpg_uth, the up |r-g| threshold for sky detect +// Bit 15:8 RW, cg_lum_dth, the down Y threshold for sky detect +// Bit 7:0 RW, cg_lum_uth, the up Y threshold for sky detect +#define D2D3_CG_THRESHOLD_1 (0x2b07) +#define P_D2D3_CG_THRESHOLD_1 (volatile unsigned int *)((0x2b07 << 2) + 0xff900000) +// Bit 31:24 RW, cg_rpb_dth, the down |r-b| threshold for sky detect +// Bit 23:16 RW, cg_rpb_uth, the up |r-b| threshold for sky detect +// Bit 15:8 RW, cg_bpg_dth, the down |b-g| threshold for sky detect +// Bit 7:0 RW, cg_bpg_uth, the up |b-g| threshold for sky detect +#define D2D3_CG_THRESHOLD_2 (0x2b08) +#define P_D2D3_CG_THRESHOLD_2 (volatile unsigned int *)((0x2b08 << 2) + 0xff900000) +// Bit 31:24 RW, cg_vp_rel_k, parameter to calculate vanish point reliability +// Bit 23:16 RW, cg_vp_y_thr, the max limitation to calculate the vanish-point's vertical position +// Bit 15:8 RW, cg_meet_dval, signed depth value in the sky-bitmap +// Bit 7:0 RW, cg_unmt_dval, signed depth value not in the sky-bitmap +#define D2D3_CG_PARAM_1 (0x2b09) +#define P_D2D3_CG_PARAM_1 (volatile unsigned int *)((0x2b09 << 2) + 0xff900000) +// Bit 31:16 RW, cg_vpos_thr, Maximal vertical limitation for sky-bit map when cg_vpos_en=1 and cg_vpos_adpt_en=0 +// Bit 15:8 Reserved +// Bit 7 RW, cg_vpos_en, 1 to enable the max vertical limitation for sky-bitmap +// Bit 6 RW, cg_vpos_adpt_en, 1 to enable the adaptive max vertical limitation for sky-bitmap. +// It is only valid when cg_vpos_en=1. +// The max vertical limitation is the previous field's vanish-point (vertical position) if cg_vpos_adpt_en=1. +// Bit 5:4 RW, cg_lpf_bypass, bypass of low pass filter +// [5]:Vertical bypass, 1: bypass the vertical LPF on the CBDG depth +// [4]:Horizontal bypass, 1: bypass the horizontal LPF on the CBDG depth +// Bit 3:0 RW, cg_vp_rel_s, parameter to calculate vanish point reliability +#define D2D3_CG_PARAM_2 (0x2b0a) +#define P_D2D3_CG_PARAM_2 (volatile unsigned int *)((0x2b0a << 2) + 0xff900000) +// Indicate parameters of pre-scale-down unit +// Bit 31:16 RW, scd81_vphs_step, vertical step +// Bit 15:0 RW, scd81_vphs_ini, vertical initial phase +#define D2D3_PRE_SCD_V (0x2b0b) +#define P_D2D3_PRE_SCD_V (volatile unsigned int *)((0x2b0b << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// D2P registers +// d2p: depth to parallax transform module +//------------------------------------------------------------------------------ +// Bit 31:24 RW, d2p_brdwid, Horizontal boundary width for parallax, the parallax value would be forced to 0 in boundary, +// the d2p_brdwid should not 0 when D2P_WRAP is enabled +// Bit 23:22 Reserved +// Bit 21:20 RW, d2p_lomode, line output mode, +// 0:whole line is left or right; 1:whole line is left or right; +// 2:left/right pixel interleaved; 3:left/right half-line interleaved +// Bit 19 RW, d2p_neg, 1 to exchange the left and right parallax value +// Bit 18 Reserved +// Bit 17 RW, d2p_wrap_en, 1 to enable D2P_WRAP unit +// Bit 16 RW, d2p_lar, Indicate the first output for left or right, 0: left; 1: right +// Bit 15 RW, d2p_lr_switch, enable left/right flag filed switch automatically, only valid when parallax output mode is field interleaved +// Bit 14 RW, d2p_1dtolr, enable to generate 2 parallax data (left and right) from one depth +// Bit 13:12 RW, d2p_out_mode, Parallax output mode +// 0:left/right pixel interleaved; 1:line or half line interleaved; 2:field interleaved +// Bit 11:8 RW, d2p_smode, Shift mode, +// 0: no shift; 1: enable left shift; +// 2: enable right shift; 3: both left and right shift are enabled +// Bit 7:0 RW, d2p_offset, depth offset, signed, +#define D2D3_D2P_PARAM_1 (0x2b0c) +#define P_D2D3_D2P_PARAM_1 (volatile unsigned int *)((0x2b0c << 2) + 0xff900000) +// Bit 31:24 RW, d2p_pg0, positive parallax gain when Parallax value < pt +// Bit 23:16 RW, d2p_pg1, positive parallax gain when Parallax value >= pt +// Bit 15:8 RW, d2p_pt, unsigned value used to separate the positive parallax range +// Bit 7:0 RW, d2p_plimit, The limitation for positive parallax +#define D2D3_D2P_PARAM_2 (0x2b0d) +#define P_D2D3_D2P_PARAM_2 (volatile unsigned int *)((0x2b0d << 2) + 0xff900000) +// Bit 31:24 RW, d2p_ng0, negative parallax gain when Parallax value > -nt +// Bit 23:16 RW, d2p_ng1, negative parallax gain when Parallax value <= -nt +// Bit 15:8 RW, d2p_nt, unsigned value used to separate the negative parallax range +// Bit 7:0 RW, d2p_nlimit, The limitation for negative parallax +#define D2D3_D2P_PARAM_3 (0x2b0e) +#define P_D2D3_D2P_PARAM_3 (volatile unsigned int *)((0x2b0e << 2) + 0xff900000) +// Indicate step parameters of SCU18 unit +// Bit 31:17 Reserved +// Bit 16 RW, scu18_step_en, step set enable in SCU18 +// Bit 15:8 RW, scu18_hphs_step, horizontal step in SCU18 +// Bit 7:0 RW, scu18_vphs_step, vertical step in SCU18 +#define D2D3_SCU18_STEP (0x2b0f) +#define P_D2D3_SCU18_STEP (volatile unsigned int *)((0x2b0f << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// LBDG and DBLD registers +// lg: luma based depth generate module +// db: depth blending module +//------------------------------------------------------------------------------ +// Bit 31:22 Reserved +// Bit 21:20 RW, db_lpf_bpcoeff, [21]:Vertical factor of low pass filter, +// 1: Vfactor = 0/0/64/0/0, 0: Vfactor = {db_vf_a,db_vf_b,db_vf_c,db_vf_b,db_vf_a}, see D2D3_CTRL_15 +// [20]:Horizontal factor of low pass filter, +// 1: Hfactor = 0/0/64/0/0, 0: Hfactor = {db_hf_a,db_hf_b,db_hf_c,db_hf_b,db_hf_a}, see D2D3_CTRL_14 +// Bit 19:18 RW, lg_lpf_bpcoeff, [19]:Vertical factor of low pass filter, 1: Vfactor = 0/64/0, 0: Vfactor = 20/24/20 +// [18]:Horizontal factor of low pass filter, 1: Hfactor = 0/64/0, 0: Hfactor = 16/32/16 +// Bit 17:16 RW, cg_lpf_bpcoeff, [17]:Vertical factor of low pass filter, 1: Vfactor = 0/64/0, 0: Vfactor = 20/24/20 +// [16]:Horizontal factor of low pass filter, 1: Hfactor = 0/64/0, 0: Hfactor = 16/32/16 +// Bit 15:10 Reserved +// Bit 9:8 RW, db_lpf_bypass, [9] 1 to bypass the vertical LPF on the DBLD depth +// [8] 1 to bypass the horizontal LPF on the DBLD depth +// Bit 7:6 RW, lg_lpf_bypass, [7] 1 to bypass the vertical LPF on the LBDG depth +// [6] 1 to bypass the horizontal LPF on the LBDG depth +// Bit 5:0 RW, lg_kc, gain of CPL(v-u+256-y) to calculate the depth in LBDG +#define D2D3_DPF_LPF_CTRL (0x2b10) +#define P_D2D3_DPF_LPF_CTRL (volatile unsigned int *)((0x2b10 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// DBLD registers +// db: depth blending module +//------------------------------------------------------------------------------ +// Bit 31:24 RW, db_g2_cg, gain of CBDG depth in DBLD +// Bit 23:16 RW, db_o2_cg, offset of CBDG depth in DBLD +// Bit 15:8 RW, db_g1_cg, gain of CBDG depth using for summary in DBLD +// Bit 7:0 RW, db_o1_cg, offset of CBDG depth using for summary in DBLD +#define D2D3_DBLD_CG_PARAM (0x2b11) +#define P_D2D3_DBLD_CG_PARAM (volatile unsigned int *)((0x2b11 << 2) + 0xff900000) +// Bit 31:24 RW, db_g2_mg, gain of MBDG depth in DBLD +// Bit 23:16 RW, db_o2_mg, offset of MBDG depth in DBLD +// Bit 15:8 RW, db_g1_mg, gain of MBDG depth using for summary in DBLD +// Bit 7:0 RW, db_o1_mg, offset of MBDG depth using for summary in DBLD +#define D2D3_DBLD_MG_PARAM (0x2b12) +#define P_D2D3_DBLD_MG_PARAM (volatile unsigned int *)((0x2b12 << 2) + 0xff900000) +// Bit 31:24 RW, db_g2_lg, gain of LBDG depth in DBLD +// Bit 23:16 RW, db_o2_lg, offset of LBDG depth in DBLD +// Bit 15:8 RW, db_g1_lg, gain of LBDG depth using for summary in DBLD +// Bit 7:0 RW, db_o1_lg, offset of LBDG depth using for summary in DBLD +#define D2D3_DBLD_LG_PARAM (0x2b13) +#define P_D2D3_DBLD_LG_PARAM (volatile unsigned int *)((0x2b13 << 2) + 0xff900000) +// Bit 31:24 RW, db_factor, unsigned gain of difference in DBLD +// Bit 23:16 RW, db_hf_a, see register DPF_LPF_CTRL:db_lpf_bpcoeff, sign +// Bit 15:8 RW, db_hf_b, see register DPF_LPF_CTRL:db_lpf_bpcoeff, sign +// Bit 7:0 RW, db_hf_c, see register DPF_LPF_CTRL:db_lpf_bpcoeff, sign +#define D2D3_DBLD_LPF_HCOEFF (0x2b14) +#define P_D2D3_DBLD_LPF_HCOEFF (volatile unsigned int *)((0x2b14 << 2) + 0xff900000) +// Bit 31:24 RW, db_owin_fill, signed depth value outside the rectangular window defined in register DGEN_WIN_HOR and DGEN_WIN_VER +// Bit 23:16 RW, db_vf_a, see register DPF_LPF_CTRL:db_lpf_bpcoeff, sign +// Bit 15:8 RW, db_vf_b, see register DPF_LPF_CTRL:db_lpf_bpcoeff, sign +// Bit 7:0 RW, db_vf_c, see register DPF_LPF_CTRL:db_lpf_bpcoeff, sign +#define D2D3_DBLD_LPF_VCOEFF (0x2b15) +#define P_D2D3_DBLD_LPF_VCOEFF (volatile unsigned int *)((0x2b15 << 2) + 0xff900000) +// Bit 31:28 RW, hist_depth_idx, +// Bit 27:26 Reserved +// Bit 25 RW, mbdg_dep_neg, 1 to negate the output data of MBDG +// Bit 24 RW, lbdg_dep_neg, 1 to negate the output data of LBDG +// Bit 23:16 RW, db_f1_ctrl, MUX1 selector +// [1:0] MUX1 path1 selector, 0:summary, 1:CBDG, 2:MBDG, 3:LBDG +// [3:2] MUX1 path2 selector, 0:summary, 1:CBDG, 2:MBDG, 3:LBDG +// [6:4] MUX1 out1 selector, 1:CBDG, 2:MBDG, 3:LBDG, 4:summary, 5:MUX1out0, others:summary +// [7] MUX1OUT0 selector, 0:MIN (MUX1PATH1,MUX1Path2), 1:MAX (MUX1Path1,MUX1Path2) +// Bit 15:8 RW, db_f2_ctrl, MUX2 selector +// [1:0] MUX2 path1 selector, 0:MUX1OUT1, 1:CBDG, 2:MBDG, 3:LBDG +// [3:2] MUX2 path2 selector, 0:MUX1OUT1, 1:CBDG, 2:MBDG, 3:LBDG +// [6:4] MUX2 out1 selector, 1:CBDG, 2:MBDG, 3:LBDG, 4:summary, 5:MUX2out0, others:MUX2out0 +// [7] MUX2OUT0 selector, 0:MIN (MUX2PATH1,MUX2Path2), 1:MAX (MUX2Path1,MUX2Path2) +// Bit 7:4 RW, db_fifo0_sel, the source input of FIFO0 +// 0: no use; 1:from CBDG; 2:from MBDG; 3:from LBDG others:reserved +// Bit 3:0 RW, db_fifo1_sel, the source input of FIFO1 +// 0: no use; 1:from CBDG; 2:from MBDG; 3:from LBDG 4: from FIFO0; others:reserved +#define D2D3_DBLD_PATH_CTRL (0x2b16) +#define P_D2D3_DBLD_PATH_CTRL (volatile unsigned int *)((0x2b16 << 2) + 0xff900000) +// Indicate the input picture size in SCU18 unit +// Bit 31:16 RW, szy_scui, The vertical size +// Bit 15:0 RW, szx_scui, The horizontal size +#define D2D3_SCU18_INPIC_SIZE (0x2b17) +#define P_D2D3_SCU18_INPIC_SIZE (volatile unsigned int *)((0x2b17 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// MBDG registers +// mg: model based depth generate module +//------------------------------------------------------------------------------ +// Bit 31:18 Reserved +// Bit 17 RW, mg_vp_en, mdg vanish point enable, not used +// Bit 16 RW, mg_sw_en, 1 to use the software forced parameter for the point D, U and C in MBDG +// Bit 15:8 RW, mg_owin_fill, Signed depth value outside the rectangular window defined in register DGEN_WIN_HOR and DGEN_WIN_VER +// Bit 7 RW, mg_iir_en, 1 to enable the 2-taps IIR filter in MBDG +// Bit 6:0 RW, mg_iir, [6]: 1 to bypass the 2-taps IIR filter in MBDG +// [5:0]:Unsigned coefficient of the 2-taps IIR filter in MBDG +// [6]:bypass, 1:bypass, 0:not bypass +#define D2D3_MBDG_CTRL (0x2b18) +#define P_D2D3_MBDG_CTRL (volatile unsigned int *)((0x2b18 << 2) + 0xff900000) +// Bit 31:28 RW, mg_dtl_pxl_left, Max pixel number (1<< mg_dtl_pxl_left) using in the left window for activities in MBDG +// Bit 27:24 RW, mg_dtl_pxl_right, Max pixel number (1<< mg_dtl_pxl_right) using in the right window for activities in MBDG +// Bit 23:16 RW, mg_cx_sw, Depth of point C in horizontal curve in MBDG for software forced +// Bit 15:8 RW, mg_ux_sw, Depth of point U in horizontal curve in MBDG for software forced +// Bit 7:0 RW, mg_dx_sw, Depth of point D in horizontal curve in MBDG for software forced +#define D2D3_MBDG_PARAM_0 (0x2b19) +#define P_D2D3_MBDG_PARAM_0 (volatile unsigned int *)((0x2b19 << 2) + 0xff900000) +// Bit 31:28 RW, mg_dtl_pxl_up, Max pixel number (1<< mg_dtl_pxl_up) using in the top window for activities in MBDG +// Bit 27:24 RW, mg_dtl_pxl_dn, Max pixel number (1<< mg_dtl_pxl_dn) using in the bottom window for activities in MBDG +// Bit 23:16 RW, mg_cy_sw, Depth of point C in vertical curve in MBDG for software forced +// Bit 15:8 RW, mg_uy_sw, Depth of point U in vertical curve in MBDG for software forced +// Bit 7:0 RW, mg_dy_sw, Depth of point D in vertical curve in MBDG for software forced +#define D2D3_MBDG_PARAM_1 (0x2b1a) +#define P_D2D3_MBDG_PARAM_1 (volatile unsigned int *)((0x2b1a << 2) + 0xff900000) +// Bit 31:24 RW, mg_dtl_ln_up, Line number in the top window for activities in MBDG +// Bit 23:16 RW, mg_dtl_ln_dn, Line number in the bottom window for activities in MBDG +// Bit 15:8 RW, mg_dtl_ln_left, Column number in the left window for activities in MBDG +// Bit 7:0 RW, mg_dtl_ln_right,Column number in the right window for activities in MBDG +#define D2D3_MBDG_PARAM_2 (0x2b1b) +#define P_D2D3_MBDG_PARAM_2 (volatile unsigned int *)((0x2b1b << 2) + 0xff900000) +// Bit 31:24 RW, mg_y_max, Software initial depth of point D and U in vertical curve +// Bit 23:16 RW, mg_y_min, Software initial depth of point C in vertical curve +// Bit 15:8 RW, mg_x_max, Software initial depth of point D and U in horizontal curve +// Bit 7:0 RW, mg_x_min, Software initial depth of point C in horizontal curve +#define D2D3_MBDG_PARAM_3 (0x2b1c) +#define P_D2D3_MBDG_PARAM_3 (volatile unsigned int *)((0x2b1c << 2) + 0xff900000) +// Bit 31:27 Reserved +// Bit 26 RW, mg_y_adapt_en, 1 to enable the adaptive mode for point U/D in vertical curve calculation +// Bit 25 RW, mg_xmm_adapt_en, 1 to enable the XMM adaptive mode for point U/D in horizontal curve calculation +// Bit 24 RW, mg_x_adapt_en, 1 to enable the adaptive mode for point U/D in horizontal curve calculation +// Bit 23:20 RW, mg_ytrans_1, Shifter controller in vertical curve calculation, if mg_xtrans_1<0, right shift abs(mg_xtrans_1) bits, others left shift abs(mg_xtrans_1) bits +// Bit 19:16 RW, mg_xtrans_1, Shifter controller in horizontal curve calculation, if mg_xtrans_1<0, right shift abs(mg_xtrans_1) bits, others left shift abs(mg_xtrans_1) bits +// Bit 15:8 RW, mg_yk_0, The based activities value of the ACT for vertical curve +// Bit 7:0 RW, mg_xk_0, The based activities value of the ACT for horizontal curve +#define D2D3_MBDG_PARAM_4 (0x2b1d) +#define P_D2D3_MBDG_PARAM_4 (volatile unsigned int *)((0x2b1d << 2) + 0xff900000) +// Bit 31:24 RW, mg_ysu3, Quantized value 3 in vertical curve adaptive calculation +// Bit 23:16 RW, mg_ysu2, Quantized value 2 in vertical curve adaptive calculation +// Bit 15:8 RW, mg_ysu1, Quantized value 1 in vertical curve adaptive calculation +// Bit 7:0 RW, mg_ysu0, Quantized value 0 in vertical curve adaptive calculation +#define D2D3_MBDG_PARAM_5 (0x2b1e) +#define P_D2D3_MBDG_PARAM_5 (volatile unsigned int *)((0x2b1e << 2) + 0xff900000) +// Bit 31:24 RW, mg_xsu3, Quantized value 3 in horizontal curve adaptive calculation +// Bit 23:16 RW, mg_xsu2, Quantized value 2 in horizontal curve adaptive calculation +// Bit 15:8 RW, mg_xsu1, Quantized value 1 in horizontal curve adaptive calculation +// Bit 7:0 RW, mg_xsu0, Quantized value 0 in horizontal curve adaptive calculation +#define D2D3_MBDG_PARAM_6 (0x2b1f) +#define P_D2D3_MBDG_PARAM_6 (volatile unsigned int *)((0x2b1f << 2) + 0xff900000) +// Bit 31:16 Reserved +// Bit 15:8 RW, mg_xsu4, Quantized value 4 in horizontal curve adaptive calculation +// Bit 7:0 RW, mg_ysu4, Quantized value 4 in vertical curve adaptive calculation +#define D2D3_MBDG_PARAM_7 (0x2b20) +#define P_D2D3_MBDG_PARAM_7 (volatile unsigned int *)((0x2b20 << 2) + 0xff900000) +// Bit 31:28 RW, dbg_hscnt_sel see DBG_STATUS_2 +// Bit 27:25 Reserved +// Bit 24 RW, dbg_dbr_en, 1 to enable debug mode in DBR +// Bit 23:16 RW, dbg_force_data, Forced data in debug mode +// Bit 15:12 RW, dbg_bld_ctrl, debug controller for DBLD +// [12]:enable; [13]: 0 for passive mode, 0 for handshake mode +// [15:14]: 0 for constant mode, 1 for step1 mode +// Bit 11:8 RW, dbg_mg_ctrl, debug controller for MBDG +// [8]:enable; [9]: 0 for passive mode, 0 for handshake mode +// [11:10]: 0 for constant mode, 1 for step1 mode +// Bit 7:4 RW, dbg_cg_ctrl, debug controller for CBDG +// [4]:enable; [5]: 0 for passive mode, 0 for handshake mode +// [7:6]: 0 for constant mode, 1 for step1 mode +// Bit 3:0 RW, dbg_lg_ctrl, debug controller for LBDG +// [0]:enable; [1]: 0 for passive mode, 0 for handshake mode +// [3:2]: 0 for constant mode, 1 for step1 mode +#define D2D3_DBG_CTRL (0x2b23) +#define P_D2D3_DBG_CTRL (volatile unsigned int *)((0x2b23 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// DWMIF registers +//------------------------------------------------------------------------------ +// Bit 31:18 Reserved +// Bit 17 RW, dw_x_rev 0: Normal write data from left to right in horizontal +// 1: Reversed write data from left to right in horizontal +// Bit 16 RW, dw_y_rev 0: Normal write data from top to bottom in horizontal +// 1: Reversed write data from bottom to top in horizontal +// Bit 15 RW, dw_done_clr 1 to clear register depw_done (DWMIF_STATUS) +// Bit 14 RW, dw_little_endian, 0: data is ordered in big-endian, 1: little endian +// Bit 13:12 RW, dw_pic_struct, 0:read every line, 1:reserved, 2:read even line, 3:read odd line +// Bit 11 RW, dw_urgent, urgent index +// Bit 10 RW, dw_clr_wrrsp, 1:clear the write fifo counter +// Bit 9 RW, dw_canvas_wr, canvas write initialization again +// Bit 8 RW, dw_req_en, 1 to enable write request +// Bit 7:0 RW, dw_canvas_index,Canvas index for the MSB of memory address for memory write +#define D2D3_DWMIF_CTRL (0x2b24) +#define P_D2D3_DWMIF_CTRL (volatile unsigned int *)((0x2b24 << 2) + 0xff900000) +// Bit 31 Reserved +// Bit 30:16 RW, dw_end_x, Horizontal end position for memory write, count by BYTE +// Bit 15 Reserved +// Bit 14:0 RW, dw_start_x, Horizontal start position for memory write, count by BYTE +#define D2D3_DWMIF_HPOS (0x2b25) +#define P_D2D3_DWMIF_HPOS (volatile unsigned int *)((0x2b25 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, dw_end_y, Vertical end position for memory write, count by BYTE +// Bit 15:13 Reserved +// Bit 12:0 RW, dw_start_y, Vertical start position for memory write, count by BYTE +#define D2D3_DWMIF_VPOS (0x2b26) +#define P_D2D3_DWMIF_VPOS (volatile unsigned int *)((0x2b26 << 2) + 0xff900000) +// Bit 31:28 Reserved +// Bit 27:16 RW, dw_vsizem1, Vertical size for memory write, equal the size minus 1 +// Bit 15:12 Reserved +// Bit 11:0 RW, dw_hsizem1, Horizontal size for memory write, equal the size minus 1 +#define D2D3_DWMIF_SIZE (0x2b27) +#define P_D2D3_DWMIF_SIZE (volatile unsigned int *)((0x2b27 << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// DRMIF registers +//------------------------------------------------------------------------------ +// Bit 31:18 Reserved +// Bit 17 RW, dr_y_rev, 0: Normal Read data from top to bottom in horizontal +// 1: Reversed read data from bottom to top in horizontal +// Bit 16 RW, dr_x_rev, 0: Normal Read data from left to right in horizontal +// 1: Reversed read data from right to left in horizontal +// Bit 15 RW, dr_clr_fifo_error, 1 to clear the overflow flag of the sticky FIFO +// Bit 14 RW, dr_little_endian, 0: data is ordered in big-endian; 1: little-endian +// Bit 13:12 RW, dr_pic_struct, 0: progressive; 1: Reserved; +// 2: interlaced, even line; 3: interlaced, odd line +// Bit 11 RW, dr_urgent, urgent index, no use in this system +// Bit 10:9 RW, dr_burst_size, Burst read length for each request; 0=24,1=32,2=48,3=64 +// Bit 8 RW, dr_req_en, 1 to enable read request +// Bit 7:0 RW, dr_canvas_index, Canvas index for the MSB of memory address for memory read +#define D2D3_DRMIF_CTRL (0x2b28) +#define P_D2D3_DRMIF_CTRL (volatile unsigned int *)((0x2b28 << 2) + 0xff900000) +// Bit 31 Reserved +// Bit 30:16 RW, dr_end_x, Horizontal end position for memory read, count by BYTE +// Bit 15 Reserved +// Bit 14:0 RW, dr_start_x, Horizontal start position for memory read, count by BYTE +#define D2D3_DRMIF_HPOS (0x2b29) +#define P_D2D3_DRMIF_HPOS (volatile unsigned int *)((0x2b29 << 2) + 0xff900000) +// Bit 31:29 Reserved +// Bit 28:16 RW, dr_end_y, Vertical end position for memory read, count by BYTE +// Bit 15:13 Reserved +// Bit 12:0 RW, dr_start_y, Vertical start position for memory read, count by BYTE +#define D2D3_DRMIF_VPOS (0x2b2a) +#define P_D2D3_DRMIF_VPOS (volatile unsigned int *)((0x2b2a << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// PDR registers +// ddd: parallax based render +//------------------------------------------------------------------------------ +// Bit 31:8 Reserved +// Bit 7 RW, ddd_brdlpf_en, 1 to enable the smooth filter on the depth around the boundary +// Bit 6 RW, ddd_extn_black, 1 to enable the function to fill black colour when interpolated pixels is outside the picture in DBR +// Bit 5 RW, ddd_wrap_en, Reserved +// Bit 4 RW, ddd_hhalf, 1 to indicate the left/right line length is a half of original line. +// Bit 3:2 RW, ddd_out_mode, Reserved +// Bit 1:0 RW, ddd_lomode, wrap & pbr interleave mode: +// 2'b0x: whole line is left or right; +// 2'b10: d2p_lar=1(D2P_PARAM_1), rlrlrlrl inteleave in one line, +// d2p_lar=0(D2P_PARAM_1), lrlrlrlr inteleave in one line, +// 2'b11: d2p_lar=1(D2P_PARAM_1), rrrrr?lllll, half line is right, another half is left, +// d2p_lar=0(D2P_PARAM_1), lllll?rrrrr, half line is left, another half is right, +#define D2D3_DBR_DDD_CTRL (0x2b2c) +#define P_D2D3_DBR_DDD_CTRL (volatile unsigned int *)((0x2b2c << 2) + 0xff900000) +// Bit 31:0 RW, ddd_dbg_ctrl, no use +#define D2D3_DBR_DDD_DBG (0x2b2d) +#define P_D2D3_DBR_DDD_DBG (volatile unsigned int *)((0x2b2d << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// LRDMX registers +//------------------------------------------------------------------------------ +// Bit 31:9 Reserved +// Bit 8 RW, lr_merge, 1: all the left/right input go to the left channel output +// Bit 7:6 RW, lrd_ff0_sel, FF0 source selector +// 0:from left input; 1:from right input; 2:from FF0; 3:no used +// Bit 5:4 RW, lrd_ff1_sel, FF1 source selector +// 0:from left input; 1:from right input; 2:from FF0; 3:no used +// Bit 3:2 RW, lrd_lout_sel, left channel DEMUX +// 00: ff0 01:ff1 10: left input 11:right input +// Bit 1:0 RW, lrd_rout_sel, right channel DEMUX +// 00: ff1 01:ff0 10: left input 11:right input +#define D2D3_DBR_LRDMX_CTRL (0x2b2f) +#define P_D2D3_DBR_LRDMX_CTRL (volatile unsigned int *)((0x2b2f << 2) + 0xff900000) +//------------------------------------------------------------------------------ +// Read Only registers +//------------------------------------------------------------------------------ +// Bit 31:24 RO, ro_cg_vprel, vanish point's reliability in CBDG +// Bit 23:12 RO, ro_cg_vpx, vanish point's X-Axis in CBDG +// Bit 11:0 RO, ro_cg_vpy, vanish point's Y-Axis in CBDG +#define D2D3_CBDG_STATUS_1 (0x2b30) +#define P_D2D3_CBDG_STATUS_1 (volatile unsigned int *)((0x2b30 << 2) + 0xff900000) +// Bit 31:24 RO, ro_mg_cx[7:0], X-Axis of point C in horizontal curve in MBDG +// Bit 23:16 RO, ro_mg_ux, Depth value of point U in horizontal curve in MBDG +// Bit 15:8 RO, ro_mg_dx, Depth value of point D in horizontal curve in MBDG +// Bit 7:0 RO, ro_mg_minx, Depth value of point C in horizontal curve in MBDG +#define D2D3_MBDG_STATUS_1 (0x2b31) +#define P_D2D3_MBDG_STATUS_1 (volatile unsigned int *)((0x2b31 << 2) + 0xff900000) +// Bit 31:24 RO, ro_mg_cy[7:0], X-Axis of point C in vertical curve in MBDG +// Bit 23:16 RO, ro_mg_uy, Depth value of point U in vertical curve in MBDG +// Bit 15:8 RO, ro_mg_dy, Depth value of point D in vertical curve in MBDG +// Bit 7:0 RO, ro_mg_miny, Depth value of point C in vertical curve in MBDG +#define D2D3_MBDG_STATUS_2 (0x2b32) +#define P_D2D3_MBDG_STATUS_2 (volatile unsigned int *)((0x2b32 << 2) + 0xff900000) +// Bit 31 RO, ro_wrap_status, 1 indicate the D2P_WRAP is busy to perform the initialization +// Bit 30:8 Reserved +// Bit 7:4 RO, ro_mg_cy[11:8], X-Axis of point C in vertical curve in MBDG +// Bit 3:0 RO, ro_mg_cx[11:8], X-Axis of point C in horizontal curve in MBDG +#define D2D3_MBDG_STATUS_3 (0x2b33) +#define P_D2D3_MBDG_STATUS_3 (volatile unsigned int *)((0x2b33 << 2) + 0xff900000) +// Bit 31:21 Reserved +// Bit 20:0 RO, ro_mg_sum_u, ACT(top): activities of the top part +#define D2D3_MBDG_STATUS_4 (0x2b34) +#define P_D2D3_MBDG_STATUS_4 (volatile unsigned int *)((0x2b34 << 2) + 0xff900000) +// Bit 31:21 Reserved +// Bit 20:0 RO, ro_mg_sum_d, ACT(bottom): activities of the bottom part +#define D2D3_MBDG_STATUS_5 (0x2b35) +#define P_D2D3_MBDG_STATUS_5 (volatile unsigned int *)((0x2b35 << 2) + 0xff900000) +// Bit 31:21 Reserved +// Bit 20:0 RO, ro_mg_sum_l, ACT(left): activities of the left part +#define D2D3_MBDG_STATUS_6 (0x2b36) +#define P_D2D3_MBDG_STATUS_6 (volatile unsigned int *)((0x2b36 << 2) + 0xff900000) +// Bit 31:21 Reserved +// Bit 20:0 RO, ro_mg_sum_r, ACT(right): activities of the right part +#define D2D3_MBDG_STATUS_7 (0x2b37) +#define P_D2D3_MBDG_STATUS_7 (volatile unsigned int *)((0x2b37 << 2) + 0xff900000) +// Bit 31:0 dbg_handshake_ro0, handshake signal for debug, internal srdy and rrdy +#define D2D3_DBG_STATUS_1 (0x2b38) +#define P_D2D3_DBG_STATUS_1 (volatile unsigned int *)((0x2b38 << 2) + 0xff900000) +// Bit 31:0 dbg_hscnt, dbg_hscnt_sel == 4'h0, output lg hscnt +// dbg_hscnt_sel == 4'h1, output cg hscnt +// dbg_hscnt_sel == 4'h2, output mg hscnt +// dbg_hscnt_sel == 4'h3, output bld hscnt +// dbg_hscnt_sel == other value, output 32'h0 +#define D2D3_DBG_STATUS_2 (0x2b39) +#define P_D2D3_DBG_STATUS_2 (volatile unsigned int *)((0x2b39 << 2) + 0xff900000) +// Bit 31:0 RO, drmif_status, drmif module internal status +#define D2D3_DRMIF_STATUS (0x2b3a) +#define P_D2D3_DRMIF_STATUS (volatile unsigned int *)((0x2b3a << 2) + 0xff900000) +// Bit 31:2 RO, Reserved +// Bit 1:0 RO, d2d3_status0, [1]: depw_done, one field depth write to ddr has done +// [0]: dwmif_pending_ddr_wrrsp, 1 to indicate write response from ddr +#define D2D3_DWMIF_STATUS (0x2b3b) +#define P_D2D3_DWMIF_STATUS (volatile unsigned int *)((0x2b3b << 2) + 0xff900000) +// Bit 31:24 Reserved +// Bit 23:0 RO, ro_meet_sum, register sumxy_sum_dbg in CBDG +#define D2D3_CBDG_STATUS_2 (0x2b3c) +#define P_D2D3_CBDG_STATUS_2 (volatile unsigned int *)((0x2b3c << 2) + 0xff900000) +// Bit 31:20 Reserved +// Bit 19:0 RO, ro_hist_depth, +#define D2D3_DBLD_STATUS (0x2b3d) +#define P_D2D3_DBLD_STATUS (volatile unsigned int *)((0x2b3d << 2) + 0xff900000) +// Bit 31:0 Reserved +#define D2D3_RESEV_STATUS1 (0x2b3e) +#define P_D2D3_RESEV_STATUS1 (volatile unsigned int *)((0x2b3e << 2) + 0xff900000) +// Bit 31:0 Reserved +#define D2D3_RESEV_STATUS2 (0x2b3f) +#define P_D2D3_RESEV_STATUS2 (volatile unsigned int *)((0x2b3f << 2) + 0xff900000) +// +// Closing file: d2d3_regs.h +// +//======================================================================== +// MIPI DSI Host Controller (16'h2c00 - 16'h2cff) +// +//======================================================================== +//`define DSI_VCBUS_BASE 8'h2c +//`include "dsi_regs.h" +//======================================================================== +// ISP register (16'h2d00 - 16'h2dff) +//======================================================================== +//`define ISP_VCBUS_BASE 8'h2d +//`include "isp_reg.h" +//`define MADB_VCBUS_BASE 8'h2d +// +// Reading file: dnr_regs.h +// +// synopsys translate_off +// synopsys translate_on +// ----------------------------------------------- +// CBUS_BASE: MADB_VCBUS_BASE = 0x2d +// ----------------------------------------------- +#define DNR_CTRL (0x2d00) +#define P_DNR_CTRL (volatile unsigned int *)((0x2d00 << 2) + 0xff900000) +//Bit 31:17, reserved +//Bit 16, reg_dnr_en , dnr enable . unsigned , default = 1 +//Bit 15, reg_dnr_db_vdbstep , vdb step, 0: 4, 1: 8 . unsigned , default = 1 +//Bit 14, reg_dnr_db_vdbprten , vdb protectoin enable . unsigned , default = 1 +//Bit 13, reg_dnr_gbs_difen , enable dif (between LR and LL/RR) condition for gbs stat.. unsigned , default = 0 +//Bit 12, reg_dnr_luma_en , enable ycbcr2luma module . unsigned , default = 1 +//Bit 11:10, reg_dnr_db_mod , deblocking mode, 0: disable, 1: horizontal deblocking, 2: vertical deblocking, 3: horizontal & vertical deblocking. unsigned , default = 3 +//Bit 9, reg_dnr_db_chrmen , enable chroma deblocking . unsigned , default = 1 +//Bit 8, reg_dnr_hvdif_mod , 0: calc. difs by original Y, 1: by new luma. unsigned , default = 1 +//Bit 7, reserved +//Bit 6: 4, reg_dnr_demo_lften , b0: Y b1:U b2:V . unsigned , default = 7 +//Bit 3, reserved +//Bit 2: 0, reg_dnr_demo_rgten , b0: Y b1:U b2:V . unsigned , default = 7 +#define DNR_HVSIZE (0x2d01) +#define P_DNR_HVSIZE (volatile unsigned int *)((0x2d01 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, reg_dnr_hsize , hsize . unsigned , default = 0 +//Bit 15:13, reserved +//Bit 12: 0, reg_dnr_vsize , vsize . unsigned , default = 0 +#define DNR_DBLK_BLANK_NUM (0x2d02) +#define P_DNR_DBLK_BLANK_NUM (volatile unsigned int *)((0x2d02 << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_dblk_hblank_num , deblock hor blank num . unsigned , default = 16 +//Bit 7: 0, reg_dblk_vblank_num , deblock ver blank num . unsigned , default = 45 +#define DNR_BLK_OFFST (0x2d03) +#define P_DNR_BLK_OFFST (volatile unsigned int *)((0x2d03 << 2) + 0xff900000) +//Bit 31: 7, reserved +//Bit 6: 4, reg_dnr_hbofst , horizontal block offset may provide by software calc.. unsigned , default = 0 +//Bit 3, reserved +//Bit 2: 0, reg_dnr_vbofst , vertical block offset may provide by software calc.. unsigned , default = 0 +#define DNR_GBS (0x2d04) +#define P_DNR_GBS (volatile unsigned int *)((0x2d04 << 2) + 0xff900000) +//Bit 31: 2, reserved +//Bit 1: 0, reg_dnr_gbs , global block strength may update by software calc.. unsigned , default = 0 +#define DNR_HBOFFST_STAT (0x2d05) +#define P_DNR_HBOFFST_STAT (volatile unsigned int *)((0x2d05 << 2) + 0xff900000) +//Bit 31:24, reg_dnr_hbof_difthd , dif threshold (>=) between LR and LL/RR. unsigned , default = 2 +//Bit 23:16, reg_dnr_hbof_edgethd , edge threshold (<=) for LR . unsigned , default = 32 +//Bit 15: 8, reg_dnr_hbof_flatthd , flat threshold (>=) for LR . unsigned , default = 0 +//Bit 7, reserved +//Bit 6: 4, reg_dnr_hbof_delta , delta for weighted bin accumulator. unsigned , default = 1 +//Bit 3, reserved +//Bit 2: 0, reg_dnr_hbof_statmod , statistic mode for horizontal block offset, 0: count flags for 8-bin, 1: count LRs for 8-bin, 2: count difs for 8-bin, 3: count weighted flags for 8-bin, 4: count flags for first 32-bin, 5: count LRs for first 32-bin, 6 or 7: count difs for first 32-bin. unsigned , default = 2 +#define DNR_VBOFFST_STAT (0x2d06) +#define P_DNR_VBOFFST_STAT (volatile unsigned int *)((0x2d06 << 2) + 0xff900000) +//Bit 31:24, reg_dnr_vbof_difthd , dif threshold (>=) between Up and Dw. unsigned , default = 1 +//Bit 23:16, reg_dnr_vbof_edgethd , edge threshold (<=) for Up/Dw. unsigned , default = 16 +//Bit 15: 8, reg_dnr_vbof_flatthd , flat threshold (>=) for Up/Dw. unsigned , default = 0 +//Bit 7, reserved +//Bit 6: 4, reg_dnr_vbof_delta , delta for weighted bin accumulator. unsigned , default = 1 +//Bit 3, reserved +//Bit 2: 0, reg_dnr_vbof_statmod , statistic mode for vertical block offset, 0: count flags for 8-bin, 1: count Ups for 8-bin, 2: count difs for 8-bin, 3: count weighted flags for 8-bin, 4: count flags for first 32-bin, 5: count Ups for first 32-bin, 6 or 7: count difs for first 32-bin. unsigned , default = 2 +#define DNR_GBS_STAT (0x2d07) +#define P_DNR_GBS_STAT (volatile unsigned int *)((0x2d07 << 2) + 0xff900000) +//Bit 31:24, reg_dnr_gbs_edgethd , edge threshold (<=) for LR . unsigned , default = 32 +//Bit 23:16, reg_dnr_gbs_flatthd , flat threshold (>=) for LR . unsigned , default = 0 +//Bit 15: 8, reg_dnr_gbs_varthd , variation threshold (<=) for Lvar/Rvar. unsigned , default = 16 +//Bit 7: 0, reg_dnr_gbs_difthd , dif threshold (>=) between LR and LL/RR. unsigned , default = 2 +#define DNR_STAT_X_START_END (0x2d08) +#define P_DNR_STAT_X_START_END (volatile unsigned int *)((0x2d08 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:16, reg_dnr_stat_xst . unsigned , default = 24 +//Bit 15:14, reserved +//Bit 13: 0, reg_dnr_stat_xed . unsigned , default = HSIZE - 25 +#define DNR_STAT_Y_START_END (0x2d09) +#define P_DNR_STAT_Y_START_END (volatile unsigned int *)((0x2d09 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:16, reg_dnr_stat_yst . unsigned , default = 24 +//Bit 15:14, reserved +//Bit 13: 0, reg_dnr_stat_yed . unsigned , default = VSIZE - 25 +#define DNR_LUMA (0x2d0a) +#define P_DNR_LUMA (volatile unsigned int *)((0x2d0a << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:24, reg_dnr_luma_sqrtshft , left shift for fast squart of chroma, [0, 4]. unsigned , default = 2 +//Bit 23:21, reserved +//Bit 20:16, reg_dnr_luma_sqrtoffst , offset for fast squart of chroma. signed , default = 0 +//Bit 15, reserved +//Bit 14:12, reg_dnr_luma_wcmod , theta related to warm/cool segment line, 0: 0, 1: 45, 2: 90, 3: 135, 4: 180, 5: 225, 6: 270, 7: 315. . unsigned , default = 3 +//Bit 11: 8, reg_dnr_luma_cshft , shift for calc. delta part, 0~8, . unsigned , default = 8 +//Bit 7: 6, reserved +//Bit 5: 0, reg_dnr_luma_cgain , final gain for delta part, 32 normalized to "1". unsigned , default = 4 +#define DNR_DB_YEDGE_THD (0x2d0b) +#define P_DNR_DB_YEDGE_THD (volatile unsigned int *)((0x2d0b << 2) + 0xff900000) +//Bit 31:24, reg_dnr_db_yedgethd0 , edge threshold0 for luma . unsigned , default = 12 +//Bit 23:16, reg_dnr_db_yedgethd1 , edge threshold1 for luma . unsigned , default = 15 +//Bit 15: 8, reg_dnr_db_yedgethd2 , edge threshold2 for luma . unsigned , default = 18 +//Bit 7: 0, reg_dnr_db_yedgethd3 , edge threshold3 for luma . unsigned , default = 25 +#define DNR_DB_CEDGE_THD (0x2d0c) +#define P_DNR_DB_CEDGE_THD (volatile unsigned int *)((0x2d0c << 2) + 0xff900000) +//Bit 31:24, reg_dnr_db_cedgethd0 , edge threshold0 for chroma . unsigned , default = 12 +//Bit 23:16, reg_dnr_db_cedgethd1 , edge threshold1 for chroma . unsigned , default = 15 +//Bit 15: 8, reg_dnr_db_cedgethd2 , edge threshold2 for chroma . unsigned , default = 18 +//Bit 7: 0, reg_dnr_db_cedgethd3 , edge threshold3 for chroma . unsigned , default = 25 +#define DNR_DB_HGAP (0x2d0d) +#define P_DNR_DB_HGAP (volatile unsigned int *)((0x2d0d << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_dnr_db_hgapthd , horizontal gap thd (<=) for very sure blockiness . unsigned , default = 8 +//Bit 15: 8, reg_dnr_db_hgapdifthd , dif thd between hgap and lft/rgt hdifs. unsigned , default = 1 +//Bit 7: 1, reserved +//Bit 0, reg_dnr_db_hgapmod , horizontal gap calc. mode, 0: just use current col x, 1: find max between (x-1, x, x+1) . unsigned , default = 0 +#define DNR_DB_HBS (0x2d0e) +#define P_DNR_DB_HBS (volatile unsigned int *)((0x2d0e << 2) + 0xff900000) +//Bit 31: 6, reserved +//Bit 5: 4, reg_dnr_db_hbsup , horizontal bs up value . unsigned , default = 1 +//Bit 3: 2, reg_dnr_db_hbsmax , max value of hbs for global control. unsigned , default = 3 +//Bit 1: 0, reg_dnr_db_hgbsthd , gbs thd (>=) for hbs calc. . unsigned , default = 1 +#define DNR_DB_HACT (0x2d0f) +#define P_DNR_DB_HACT (volatile unsigned int *)((0x2d0f << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_dnr_db_hactthd0 , thd0 of hact, for block classification. unsigned , default = 10 +//Bit 7: 0, reg_dnr_db_hactthd1 , thd1 of hact, for block classification. unsigned , default = 32 +#define DNR_DB_YHDELTA_GAIN (0x2d10) +#define P_DNR_DB_YHDELTA_GAIN (volatile unsigned int *)((0x2d10 << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:24, reg_dnr_db_yhdeltagain1 , (p1-q1) gain for Y's delta calc. when bs=1, normalized 8 as "1" . unsigned , default = 2 +//Bit 23, reserved +//Bit 22:20, reg_dnr_db_yhdeltagain2 , (p1-q1) gain for Y's delta calc. when bs=2, normalized 8 as "1" . unsigned , default = 0 +//Bit 19, reserved +//Bit 18:16, reg_dnr_db_yhdeltagain3 , (p1-q1) gain for Y's delta calc. when bs=3, normalized 8 as "1" . unsigned , default = 0 +//Bit 15, reserved +//Bit 14: 8, reg_dnr_db_yhdeltaadjoffst , offset for adjust Y's hdelta (-64, 63). signed , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_dnr_db_yhdeltaadjgain , gain for adjust Y's hdelta, normalized 32 as "1" . unsigned , default = 32 +#define DNR_DB_YHDELTA2_GAIN (0x2d11) +#define P_DNR_DB_YHDELTA2_GAIN (volatile unsigned int *)((0x2d11 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_dnr_db_yhdelta2gain2 , gain for bs=2's adjust Y's hdelta2, normalized 64 as "1" . unsigned , default = 8 +//Bit 23:21, reserved +//Bit 20:16, reg_dnr_db_yhdelta2offst2 , offset for bs=2's adjust Y's hdelta2 (-16, 15). signed , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_dnr_db_yhdelta2gain3 , gain for bs=3's adjust Y's hdelta2, normalized 64 as "1" . unsigned , default = 4 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_db_yhdelta2offst3 , offset for bs=3's adjust Y's hdelta2 (-16, 15). signed , default = 0 +#define DNR_DB_CHDELTA_GAIN (0x2d12) +#define P_DNR_DB_CHDELTA_GAIN (volatile unsigned int *)((0x2d12 << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:24, reg_dnr_db_chdeltagain1 , (p1-q1) gain for UV's delta calc. when bs=1, normalized 8 as "1". unsigned , default = 2 +//Bit 23, reserved +//Bit 22:20, reg_dnr_db_chdeltagain2 , (p1-q1) gain for UV's delta calc. when bs=2, normalized 8 as "1". unsigned , default = 0 +//Bit 19, reserved +//Bit 18:16, reg_dnr_db_chdeltagain3 , (p1-q1) gain for UV's delta calc. when bs=3, normalized 8 as "1". unsigned , default = 0 +//Bit 15, reserved +//Bit 14: 8, reg_dnr_db_chdeltaadjoffst , offset for adjust UV's hdelta (-64, 63). signed , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_dnr_db_chdeltaadjgain , gain for adjust UV's hdelta, normalized 32 as "1". unsigned , default = 32 +#define DNR_DB_CHDELTA2_GAIN (0x2d13) +#define P_DNR_DB_CHDELTA2_GAIN (volatile unsigned int *)((0x2d13 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_dnr_db_chdelta2gain2 , gain for bs=2's adjust UV's hdelta2, normalized 64 as "1" . unsigned , default = 8 +//Bit 23:21, reserved +//Bit 20:16, reg_dnr_db_chdelta2offst2 , offset for bs=2's adjust UV's hdelta2 (-16, 15). signed , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_dnr_db_chdelta2gain3 , gain for bs=2's adjust UV's hdelta2, normalized 64 as "1" . unsigned , default = 4 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_db_chdelta2offst3 , offset for bs=2's adjust UV's hdelta2 (-16, 15). signed , default = 0 +#define DNR_DB_YC_VEDGE_THD (0x2d14) +#define P_DNR_DB_YC_VEDGE_THD (volatile unsigned int *)((0x2d14 << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_dnr_db_yvedgethd , special Y's edge thd for vdb. unsigned , default = 12 +//Bit 7: 0, reg_dnr_db_cvedgethd , special UV's edge thd for vdb. unsigned , default = 12 +#define DNR_DB_VBS_MISC (0x2d15) +#define P_DNR_DB_VBS_MISC (volatile unsigned int *)((0x2d15 << 2) + 0xff900000) +//Bit 31:24, reg_dnr_db_vgapthd , vertical gap thd (<=) for very sure blockiness . unsigned , default = 8 +//Bit 23:16, reg_dnr_db_vactthd , thd of vact, for block classification . unsigned , default = 10 +//Bit 15: 8, reg_dnr_db_vgapdifthd , dif thd between vgap and vact. unsigned , default = 4 +//Bit 7: 4, reserved +//Bit 3: 2, reg_dnr_db_vbsmax , max value of vbs for global control. unsigned , default = 2 +//Bit 1: 0, reg_dnr_db_vgbsthd , gbs thd (>=) for vbs calc. . unsigned , default = 1 +#define DNR_DB_YVDELTA_GAIN (0x2d16) +#define P_DNR_DB_YVDELTA_GAIN (volatile unsigned int *)((0x2d16 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_dnr_db_yvdeltaadjgain , gain for adjust Y's vdelta, normalized 32 as "1". unsigned , default = 32 +//Bit 23, reserved +//Bit 22:16, reg_dnr_db_yvdeltaadjoffst , offset for adjust Y's vdelta (-64, 63). signed , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_dnr_db_yvdelta2gain , gain for adjust Y's vdelta2, normalized 64 as "1". unsigned , default = 8 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_db_yvdelta2offst , offset for adjust Y's vdelta2 (-16, 15). signed , default = 0 +#define DNR_DB_CVDELTA_GAIN (0x2d17) +#define P_DNR_DB_CVDELTA_GAIN (volatile unsigned int *)((0x2d17 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_dnr_db_cvdeltaadjgain , gain for adjust UV's vdelta, normalized 32 as "1". unsigned , default = 32 +//Bit 23, reserved +//Bit 22:16, reg_dnr_db_cvdeltaadjoffst , offset for adjust UV's vdelta (-64, 63). signed , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_dnr_db_cvdelta2gain , gain for adjust UV's vdelta2, normalized 64 as "1". unsigned , default = 8 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_db_cvdelta2offst , offset for adjust UV's vdelta2 (-16, 15). signed , default = 0 +#define DNR_RO_GBS_STAT_LR (0x2d18) +#define P_DNR_RO_GBS_STAT_LR (volatile unsigned int *)((0x2d18 << 2) + 0xff900000) +//Bit 31: 0, ro_gbs_stat_lr . unsigned , default = 0 +#define DNR_RO_GBS_STAT_LL (0x2d19) +#define P_DNR_RO_GBS_STAT_LL (volatile unsigned int *)((0x2d19 << 2) + 0xff900000) +//Bit 31: 0, ro_gbs_stat_ll . unsigned , default = 0 +#define DNR_RO_GBS_STAT_RR (0x2d1a) +#define P_DNR_RO_GBS_STAT_RR (volatile unsigned int *)((0x2d1a << 2) + 0xff900000) +//Bit 31: 0, ro_gbs_stat_rr . unsigned , default = 0 +#define DNR_RO_GBS_STAT_DIF (0x2d1b) +#define P_DNR_RO_GBS_STAT_DIF (volatile unsigned int *)((0x2d1b << 2) + 0xff900000) +//Bit 31: 0, ro_gbs_stat_dif . unsigned , default = 0 +#define DNR_RO_GBS_STAT_CNT (0x2d1c) +#define P_DNR_RO_GBS_STAT_CNT (volatile unsigned int *)((0x2d1c << 2) + 0xff900000) +//Bit 31: 0, ro_gbs_stat_cnt . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_0 (0x2d1d) +#define P_DNR_RO_HBOF_STAT_CNT_0 (volatile unsigned int *)((0x2d1d << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt0 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_1 (0x2d1e) +#define P_DNR_RO_HBOF_STAT_CNT_1 (volatile unsigned int *)((0x2d1e << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt1 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_2 (0x2d1f) +#define P_DNR_RO_HBOF_STAT_CNT_2 (volatile unsigned int *)((0x2d1f << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt2 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_3 (0x2d20) +#define P_DNR_RO_HBOF_STAT_CNT_3 (volatile unsigned int *)((0x2d20 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt3 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_4 (0x2d21) +#define P_DNR_RO_HBOF_STAT_CNT_4 (volatile unsigned int *)((0x2d21 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt4 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_5 (0x2d22) +#define P_DNR_RO_HBOF_STAT_CNT_5 (volatile unsigned int *)((0x2d22 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt5 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_6 (0x2d23) +#define P_DNR_RO_HBOF_STAT_CNT_6 (volatile unsigned int *)((0x2d23 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt6 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_7 (0x2d24) +#define P_DNR_RO_HBOF_STAT_CNT_7 (volatile unsigned int *)((0x2d24 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt7 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_8 (0x2d25) +#define P_DNR_RO_HBOF_STAT_CNT_8 (volatile unsigned int *)((0x2d25 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt8 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_9 (0x2d26) +#define P_DNR_RO_HBOF_STAT_CNT_9 (volatile unsigned int *)((0x2d26 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt9 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_10 (0x2d27) +#define P_DNR_RO_HBOF_STAT_CNT_10 (volatile unsigned int *)((0x2d27 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt10 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_11 (0x2d28) +#define P_DNR_RO_HBOF_STAT_CNT_11 (volatile unsigned int *)((0x2d28 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt11 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_12 (0x2d29) +#define P_DNR_RO_HBOF_STAT_CNT_12 (volatile unsigned int *)((0x2d29 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt12 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_13 (0x2d2a) +#define P_DNR_RO_HBOF_STAT_CNT_13 (volatile unsigned int *)((0x2d2a << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt13 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_14 (0x2d2b) +#define P_DNR_RO_HBOF_STAT_CNT_14 (volatile unsigned int *)((0x2d2b << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt14 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_15 (0x2d2c) +#define P_DNR_RO_HBOF_STAT_CNT_15 (volatile unsigned int *)((0x2d2c << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt15 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_16 (0x2d2d) +#define P_DNR_RO_HBOF_STAT_CNT_16 (volatile unsigned int *)((0x2d2d << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt16 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_17 (0x2d2e) +#define P_DNR_RO_HBOF_STAT_CNT_17 (volatile unsigned int *)((0x2d2e << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt17 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_18 (0x2d2f) +#define P_DNR_RO_HBOF_STAT_CNT_18 (volatile unsigned int *)((0x2d2f << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt18 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_19 (0x2d30) +#define P_DNR_RO_HBOF_STAT_CNT_19 (volatile unsigned int *)((0x2d30 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt19 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_20 (0x2d31) +#define P_DNR_RO_HBOF_STAT_CNT_20 (volatile unsigned int *)((0x2d31 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt20 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_21 (0x2d32) +#define P_DNR_RO_HBOF_STAT_CNT_21 (volatile unsigned int *)((0x2d32 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt21 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_22 (0x2d33) +#define P_DNR_RO_HBOF_STAT_CNT_22 (volatile unsigned int *)((0x2d33 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt22 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_23 (0x2d34) +#define P_DNR_RO_HBOF_STAT_CNT_23 (volatile unsigned int *)((0x2d34 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt23 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_24 (0x2d35) +#define P_DNR_RO_HBOF_STAT_CNT_24 (volatile unsigned int *)((0x2d35 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt24 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_25 (0x2d36) +#define P_DNR_RO_HBOF_STAT_CNT_25 (volatile unsigned int *)((0x2d36 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt25 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_26 (0x2d37) +#define P_DNR_RO_HBOF_STAT_CNT_26 (volatile unsigned int *)((0x2d37 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt26 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_27 (0x2d38) +#define P_DNR_RO_HBOF_STAT_CNT_27 (volatile unsigned int *)((0x2d38 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt27 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_28 (0x2d39) +#define P_DNR_RO_HBOF_STAT_CNT_28 (volatile unsigned int *)((0x2d39 << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt28 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_29 (0x2d3a) +#define P_DNR_RO_HBOF_STAT_CNT_29 (volatile unsigned int *)((0x2d3a << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt29 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_30 (0x2d3b) +#define P_DNR_RO_HBOF_STAT_CNT_30 (volatile unsigned int *)((0x2d3b << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt30 . unsigned , default = 0 +#define DNR_RO_HBOF_STAT_CNT_31 (0x2d3c) +#define P_DNR_RO_HBOF_STAT_CNT_31 (volatile unsigned int *)((0x2d3c << 2) + 0xff900000) +//Bit 31: 0, ro_hbof_stat_cnt31 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_0 (0x2d3d) +#define P_DNR_RO_VBOF_STAT_CNT_0 (volatile unsigned int *)((0x2d3d << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt0 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_1 (0x2d3e) +#define P_DNR_RO_VBOF_STAT_CNT_1 (volatile unsigned int *)((0x2d3e << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt1 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_2 (0x2d3f) +#define P_DNR_RO_VBOF_STAT_CNT_2 (volatile unsigned int *)((0x2d3f << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt2 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_3 (0x2d40) +#define P_DNR_RO_VBOF_STAT_CNT_3 (volatile unsigned int *)((0x2d40 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt3 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_4 (0x2d41) +#define P_DNR_RO_VBOF_STAT_CNT_4 (volatile unsigned int *)((0x2d41 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt4 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_5 (0x2d42) +#define P_DNR_RO_VBOF_STAT_CNT_5 (volatile unsigned int *)((0x2d42 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt5 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_6 (0x2d43) +#define P_DNR_RO_VBOF_STAT_CNT_6 (volatile unsigned int *)((0x2d43 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt6 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_7 (0x2d44) +#define P_DNR_RO_VBOF_STAT_CNT_7 (volatile unsigned int *)((0x2d44 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt7 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_8 (0x2d45) +#define P_DNR_RO_VBOF_STAT_CNT_8 (volatile unsigned int *)((0x2d45 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt8 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_9 (0x2d46) +#define P_DNR_RO_VBOF_STAT_CNT_9 (volatile unsigned int *)((0x2d46 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt9 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_10 (0x2d47) +#define P_DNR_RO_VBOF_STAT_CNT_10 (volatile unsigned int *)((0x2d47 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt10 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_11 (0x2d48) +#define P_DNR_RO_VBOF_STAT_CNT_11 (volatile unsigned int *)((0x2d48 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt11 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_12 (0x2d49) +#define P_DNR_RO_VBOF_STAT_CNT_12 (volatile unsigned int *)((0x2d49 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt12 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_13 (0x2d4a) +#define P_DNR_RO_VBOF_STAT_CNT_13 (volatile unsigned int *)((0x2d4a << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt13 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_14 (0x2d4b) +#define P_DNR_RO_VBOF_STAT_CNT_14 (volatile unsigned int *)((0x2d4b << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt14 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_15 (0x2d4c) +#define P_DNR_RO_VBOF_STAT_CNT_15 (volatile unsigned int *)((0x2d4c << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt15 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_16 (0x2d4d) +#define P_DNR_RO_VBOF_STAT_CNT_16 (volatile unsigned int *)((0x2d4d << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt16 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_17 (0x2d4e) +#define P_DNR_RO_VBOF_STAT_CNT_17 (volatile unsigned int *)((0x2d4e << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt17 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_18 (0x2d4f) +#define P_DNR_RO_VBOF_STAT_CNT_18 (volatile unsigned int *)((0x2d4f << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt18 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_19 (0x2d50) +#define P_DNR_RO_VBOF_STAT_CNT_19 (volatile unsigned int *)((0x2d50 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt19 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_20 (0x2d51) +#define P_DNR_RO_VBOF_STAT_CNT_20 (volatile unsigned int *)((0x2d51 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt20 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_21 (0x2d52) +#define P_DNR_RO_VBOF_STAT_CNT_21 (volatile unsigned int *)((0x2d52 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt21 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_22 (0x2d53) +#define P_DNR_RO_VBOF_STAT_CNT_22 (volatile unsigned int *)((0x2d53 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt22 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_23 (0x2d54) +#define P_DNR_RO_VBOF_STAT_CNT_23 (volatile unsigned int *)((0x2d54 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt23 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_24 (0x2d55) +#define P_DNR_RO_VBOF_STAT_CNT_24 (volatile unsigned int *)((0x2d55 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt24 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_25 (0x2d56) +#define P_DNR_RO_VBOF_STAT_CNT_25 (volatile unsigned int *)((0x2d56 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt25 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_26 (0x2d57) +#define P_DNR_RO_VBOF_STAT_CNT_26 (volatile unsigned int *)((0x2d57 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt26 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_27 (0x2d58) +#define P_DNR_RO_VBOF_STAT_CNT_27 (volatile unsigned int *)((0x2d58 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt27 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_28 (0x2d59) +#define P_DNR_RO_VBOF_STAT_CNT_28 (volatile unsigned int *)((0x2d59 << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt28 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_29 (0x2d5a) +#define P_DNR_RO_VBOF_STAT_CNT_29 (volatile unsigned int *)((0x2d5a << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt29 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_30 (0x2d5b) +#define P_DNR_RO_VBOF_STAT_CNT_30 (volatile unsigned int *)((0x2d5b << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt30 . unsigned , default = 0 +#define DNR_RO_VBOF_STAT_CNT_31 (0x2d5c) +#define P_DNR_RO_VBOF_STAT_CNT_31 (volatile unsigned int *)((0x2d5c << 2) + 0xff900000) +//Bit 31: 0, ro_vbof_stat_cnt31 . unsigned , default = 0 +#define DNR_DM_CTRL (0x2d60) +#define P_DNR_DM_CTRL (volatile unsigned int *)((0x2d60 << 2) + 0xff900000) +//Bit 31:13, reserved +//Bit 12, reg_dnr_dm_fedgeflg_en , enable edge flag calc. of each frame. unsigned , default = 1 +//Bit 11, reg_dnr_dm_fedgeflg_cl , clear frame edge flag if needed. unsigned , default = 1 +//Bit 10, reg_dnr_dm_fedgeflg_df , user defined edge when reg_dnr_dm_fedgeflg_en=0, default = 1 +//Bit 9, reg_dnr_dm_en , enable demosquito function . unsigned , default = 1 +//Bit 8, reg_dnr_dm_chrmen , enable chrome processing for demosquito. unsigned , default = 1 +//Bit 7: 6, reg_dnr_dm_level , demosquito level . unsigned , default = 3 +//Bit 5: 4, reg_dnr_dm_leveldw0 , level down when gbs is small. unsigned , default = 1 +//Bit 3: 2, reg_dnr_dm_leveldw1 , level down for no edge/flat blocks. unsigned , default = 1 +//Bit 1: 0, reg_dnr_dm_gbsthd , small/large threshold for gbs (<=). unsigned , default = 0 +#define DNR_DM_NR_BLND (0x2d61) +#define P_DNR_DM_NR_BLND (volatile unsigned int *)((0x2d61 << 2) + 0xff900000) +//Bit 31:25, reserved +//Bit 24, reg_dnr_dm_defalpen , enable user define alpha for dm & nr blend. unsigned , default = 0 +//Bit 23:16, reg_dnr_dm_defalp , user define alpha for dm & nr blend if enable. unsigned , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_dnr_dm_alpgain , gain for nr/dm alpha, normalized 32 as "1". unsigned , default = 32 +//Bit 7: 0, reg_dnr_dm_alpoffst , (-128, 127), offset for nr/dm alpha. signed , default = 0 +#define DNR_DM_RNG_THD (0x2d62) +#define P_DNR_DM_RNG_THD (volatile unsigned int *)((0x2d62 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_dnr_dm_rngminthd . unsigned , default = 2 +//Bit 15: 8, reg_dnr_dm_rngmaxthd . unsigned , default = 64 +//Bit 7: 0, reg_dnr_dm_rngdifthd . unsigned , default = 4 +#define DNR_DM_RNG_GAIN_OFST (0x2d63) +#define P_DNR_DM_RNG_GAIN_OFST (volatile unsigned int *)((0x2d63 << 2) + 0xff900000) +//Bit 31:14, reserved +//Bit 13: 8, reg_dnr_dm_rnggain , normalized 16 as "1" . unsigned , default = 16 +//Bit 7: 6, reserved +//Bit 5: 0, reg_dnr_dm_rngofst . unsigned , default = 0 +#define DNR_DM_DIR_MISC (0x2d64) +#define P_DNR_DM_DIR_MISC (volatile unsigned int *)((0x2d64 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29, reg_dnr_dm_diralpen . unsigned , default = 1 +//Bit 28:24, reg_dnr_dm_diralpgain . unsigned , default = 0 +//Bit 23:22, reserved +//Bit 21:16, reg_dnr_dm_diralpofst . unsigned , default = 0 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_diralpmin . unsigned , default = 0 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_diralpmax . unsigned , default = 31 +#define DNR_DM_COR_DIF (0x2d65) +#define P_DNR_DM_COR_DIF (volatile unsigned int *)((0x2d65 << 2) + 0xff900000) +//Bit 31: 4, reserved +//Bit 3: 1, reg_dnr_dm_cordifshft . unsigned , default = 3 +//Bit 0, reg_dnr_dm_cordifmod , 0:use max dir dif as cordif, 1: use max3x3 - min3x3 as cordif. unsigned , default = 1 +#define DNR_DM_FLT_THD (0x2d66) +#define P_DNR_DM_FLT_THD (volatile unsigned int *)((0x2d66 << 2) + 0xff900000) +//Bit 31:24, reg_dnr_dm_fltthd00 , block flat threshold0 for block average difference when gbs is small, for flat block detection. unsigned , default = 4 +//Bit 23:16, reg_dnr_dm_fltthd01 , block flat threshold1 for block average difference when gbs is small, for flat block detection. unsigned , default = 6 +//Bit 15: 8, reg_dnr_dm_fltthd10 , block flat threshold0 for block average difference when gbs is large, for flat block detection. unsigned , default = 9 +//Bit 7: 0, reg_dnr_dm_fltthd11 , block flat threshold1 for block average difference when gbs is large, for flat block detection. unsigned , default = 12 +#define DNR_DM_VAR_THD (0x2d67) +#define P_DNR_DM_VAR_THD (volatile unsigned int *)((0x2d67 << 2) + 0xff900000) +//Bit 31:24, reg_dnr_dm_varthd00 , block variance threshold0 (>=) when gbs is small, for flat block detection. unsigned , default = 2 +//Bit 23:16, reg_dnr_dm_varthd01 , block variance threshold1 (<=) when gbs is small, for flat block detection. unsigned , default = 15 +//Bit 15: 8, reg_dnr_dm_varthd10 , block variance threshold0 (>=) when gbs is large, for flat block detection. unsigned , default = 3 +//Bit 7: 0, reg_dnr_dm_varthd11 , block variance threshold1 (<=) when gbs is large, for flat block detection. unsigned , default = 24 +#define DNR_DM_EDGE_DIF_THD (0x2d68) +#define P_DNR_DM_EDGE_DIF_THD (volatile unsigned int *)((0x2d68 << 2) + 0xff900000) +//Bit 31:24, reg_dnr_dm_edgethd0 , block edge threshold (<=) when gbs is small, for flat block detection. unsigned , default = 32 +//Bit 23:16, reg_dnr_dm_edgethd1 , block edge threshold (<=) when gbs is large, for flat block detection. unsigned , default = 48 +//Bit 15: 8, reg_dnr_dm_difthd0 , block dif threshold (<=) when gbs is small, for flat block detection. unsigned , default = 48 +//Bit 7: 0, reg_dnr_dm_difthd1 , block dif threshold (<=) when gbs is large, for flat block detection. unsigned , default = 64 +#define DNR_DM_AVG_THD (0x2d69) +#define P_DNR_DM_AVG_THD (volatile unsigned int *)((0x2d69 << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_dnr_dm_avgthd0 , block average threshold (>=), for flat block detection. unsigned , default = 160 +//Bit 7: 0, reg_dnr_dm_avgthd1 , block average threshold (<=), for flat block detection. unsigned , default = 128 +#define DNR_DM_AVG_VAR_DIF_THD (0x2d6a) +#define P_DNR_DM_AVG_VAR_DIF_THD (volatile unsigned int *)((0x2d6a << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_dnr_dm_avgdifthd , block average dif threshold (<) between cur and up block, for flat block detection. unsigned , default = 12 +//Bit 7: 0, reg_dnr_dm_vardifthd , block variance dif threshold (>=) between cur and up block, for flat block detection. unsigned , default = 1 +#define DNR_DM_VAR_EDGE_DIF_THD2 (0x2d6b) +#define P_DNR_DM_VAR_EDGE_DIF_THD2 (volatile unsigned int *)((0x2d6b << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_dnr_dm_varthd2 , block variance threshold (>=), for edge block detection. unsigned , default = 24 +//Bit 15: 8, reg_dnr_dm_edgethd2 , block edge threshold (>=), for edge block detection. unsigned , default = 40 +//Bit 7: 0, reg_dnr_dm_difthd2 , block dif threshold (>=), for edge block detection. unsigned , default = 80 +#define DNR_DM_DIF_FLT_MISC (0x2d6c) +#define P_DNR_DM_DIF_FLT_MISC (volatile unsigned int *)((0x2d6c << 2) + 0xff900000) +//Bit 31:28, reg_dnr_dm_ldifoob , pre-defined large dif when pixel out of blocks. unsigned , default = 0 +//Bit 27:24, reg_dnr_dm_bdifoob , pre-defined block dif when pixel out of blocks;. unsigned , default = 0 +//Bit 23:16, reg_dnr_dm_fltalp , pre-defined alpha for dm and nr blending, when block is flat with mos.. unsigned , default = 200 +//Bit 15:12, reserved +//Bit 11: 8, reg_dnr_dm_fltminbdif , pre-defined min block dif for dm filter, when block is flat with mos.. unsigned , default = 12 +//Bit 7, reserved +//Bit 6: 2, reg_dnr_dm_difnormgain , gain for pixel dif normalization for dm filter, normalized 16 as "1". unsigned , default = 16 +//Bit 1, reg_dnr_dm_difnormen , enable pixel dif normalization for dm filter. unsigned , default = 1 +//Bit 0, reg_dnr_dm_difupden , enable block dif update using max of left, cur, right difs. unsigned , default = 0 +#define DNR_DM_SDIF_LUT0_2 (0x2d6d) +#define P_DNR_DM_SDIF_LUT0_2 (volatile unsigned int *)((0x2d6d << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_sdiflut0 , normally 0-16 . unsigned , default = 16 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_sdiflut1 , normally 0-16 . unsigned , default = 14 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_sdiflut2 , normally 0-16 . unsigned , default = 13 +#define DNR_DM_SDIF_LUT3_5 (0x2d6e) +#define P_DNR_DM_SDIF_LUT3_5 (volatile unsigned int *)((0x2d6e << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_sdiflut3 , normally 0-16 . unsigned , default = 10 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_sdiflut4 , normally 0-16 . unsigned , default = 7 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_sdiflut5 , normally 0-16 . unsigned , default = 5 +#define DNR_DM_SDIF_LUT6_8 (0x2d6f) +#define P_DNR_DM_SDIF_LUT6_8 (volatile unsigned int *)((0x2d6f << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_sdiflut6 , normally 0-16 . unsigned , default = 3 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_sdiflut7 , normally 0-16 . unsigned , default = 1 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_sdiflut8 , normally 0-16 . unsigned , default = 0 +#define DNR_DM_LDIF_LUT0_2 (0x2d70) +#define P_DNR_DM_LDIF_LUT0_2 (volatile unsigned int *)((0x2d70 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_ldiflut0 , normally 0-16 . unsigned , default = 0 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_ldiflut1 , normally 0-16 . unsigned , default = 4 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_ldiflut2 , normally 0-16 . unsigned , default = 12 +#define DNR_DM_LDIF_LUT3_5 (0x2d71) +#define P_DNR_DM_LDIF_LUT3_5 (volatile unsigned int *)((0x2d71 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_ldiflut3 , normally 0-16 . unsigned , default = 14 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_ldiflut4 , normally 0-16 . unsigned , default = 15 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_ldiflut5 , normally 0-16 . unsigned , default = 16 +#define DNR_DM_LDIF_LUT6_8 (0x2d72) +#define P_DNR_DM_LDIF_LUT6_8 (volatile unsigned int *)((0x2d72 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_ldiflut6 , normally 0-16 . unsigned , default = 16 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_ldiflut7 , normally 0-16 . unsigned , default = 16 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_ldiflut8 , normally 0-16 . unsigned , default = 16 +#define DNR_DM_DIF2NORM_LUT0_2 (0x2d73) +#define P_DNR_DM_DIF2NORM_LUT0_2 (volatile unsigned int *)((0x2d73 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_dif2normlut0 , normally 0-16 . unsigned , default = 16 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_dif2normlut1 , normally 0-16 . unsigned , default = 5 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_dif2normlut2 , normally 0-16 . unsigned , default = 3 +#define DNR_DM_DIF2NORM_LUT3_5 (0x2d74) +#define P_DNR_DM_DIF2NORM_LUT3_5 (volatile unsigned int *)((0x2d74 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_dif2normlut3 , normally 0-16 . unsigned , default = 2 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_dif2normlut4 , normally 0-16 . unsigned , default = 2 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_dif2normlut5 , normally 0-16 . unsigned , default = 1 +#define DNR_DM_DIF2NORM_LUT6_8 (0x2d75) +#define P_DNR_DM_DIF2NORM_LUT6_8 (volatile unsigned int *)((0x2d75 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_dnr_dm_dif2normlut6 , normally 0-16 . unsigned , default = 1 +//Bit 15:13, reserved +//Bit 12: 8, reg_dnr_dm_dif2normlut7 , normally 0-16 . unsigned , default = 1 +//Bit 7: 5, reserved +//Bit 4: 0, reg_dnr_dm_dif2normlut8 , normally 0-16 . unsigned , default = 1 +#define DNR_DM_GMS_THD (0x2d76) +#define P_DNR_DM_GMS_THD (volatile unsigned int *)((0x2d76 << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_gms_stat_thd0 . unsigned , default = 0 +//Bit 7: 0, reg_gms_stat_thd1 . unsigned , default = 128 +#define DNR_RO_DM_GMS_STAT_CNT (0x2d77) +#define P_DNR_RO_DM_GMS_STAT_CNT (volatile unsigned int *)((0x2d77 << 2) + 0xff900000) +//Bit 31: 0, ro_dm_gms_stat_cnt . unsigned , default = 0 +#define DNR_RO_DM_GMS_STAT_MS (0x2d78) +#define P_DNR_RO_DM_GMS_STAT_MS (volatile unsigned int *)((0x2d78 << 2) + 0xff900000) +//Bit 31: 0, ro_dm_gms_stat_ms . unsigned , default = 0 +// 0x80-0x90 +// +// Reading file: decomb_regs.h +// +#define DECOMB_DET_VERT_CON0 (0x2d80) +#define P_DECOMB_DET_VERT_CON0 (volatile unsigned int *)((0x2d80 << 2) + 0xff900000) +//Bit 31:24 reg_di_dcmb_det_vcon_thd0 default = 60 // u8 +//Bit 23:16 reg_di_dcmb_det_vcon_thd1 default = 80 // u8 +//Bit 15: 8 reg_di_dcmb_det_valp_lmt0 default = 63 // u8 +//Bit 7: 0 reg_di_dcmb_det_valp_lmt1 default = 4 // u8 +#define DECOMB_DET_VERT_CON1 (0x2d81) +#define P_DECOMB_DET_VERT_CON1 (volatile unsigned int *)((0x2d81 << 2) + 0xff900000) +//Bit 23:16 reg_di_dcmb_det_valp_lmt2 default = 0 // u8 +//Bit 15: 8 reg_di_dcmb_det_vrate0 default = 32 // u8 +//Bit 7: 0 reg_di_dcmb_det_vrate1 default = 4 // u8 +#define DECOMB_DET_EDGE_CON0 (0x2d82) +#define P_DECOMB_DET_EDGE_CON0 (volatile unsigned int *)((0x2d82 << 2) + 0xff900000) +//Bit 31:24 reg_di_dcmb_det_econ_thd0 default = 60 // u8 +//Bit 23:16 reg_di_dcmb_det_econ_thd1 default = 80 // u8 +//Bit 15: 8 reg_di_dcmb_det_ealp_lmt0 default = 63 // u8 +//Bit 7: 0 reg_di_dcmb_det_ealp_lmt1 default = 4 // u8 +#define DECOMB_DET_EDGE_CON1 (0x2d83) +#define P_DECOMB_DET_EDGE_CON1 (volatile unsigned int *)((0x2d83 << 2) + 0xff900000) +//Bit 23:16 reg_di_dcmb_det_ealp_lmt2 default = 0 // u8 +//Bit 15: 8 reg_di_dcmb_det_erate0 default = 32 // u8 +//Bit 7: 0 reg_di_dcmb_det_erate1 default = 4 // u8 +#define DECOMB_PARA (0x2d84) +#define P_DECOMB_PARA (volatile unsigned int *)((0x2d84 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:28 reg_di_dcmb_cmb_lpf default = 1 // u2, 0:no lpf, 1:[1 2 1], 2,3: [1 2 2 2 1] +//Bit 27:26 reg_di_dcmb_vedge_chk default = 0 // u2, vertical edge check, 0: no check, 1: vrt!=0, 2: vrt==3 +//Bit 25:24 reg_di_dcmb_nedge_chk default = 0 // u2, no idea edge check, 0, no check, 1, check +//Bit 23:20 reg_di_dcmb_edge_min default = 0 // u4, min edge for edge cmb +//Bit 19:16 reg_di_dcmb_edge_max default = 15 // u4, min edge for edge cmb +//Bit 15:8 reg_di_dcmb_bld_alp default = 255 // u8, user defined alpha for di & decmb blend +//Bit 7:0 reg_di_dcmb_bld_alp_beta default = 40 // u8, beta for mtn & cmb blend, for bld alpha calc. +#define DECOMB_BLND_CON0 (0x2d85) +#define P_DECOMB_BLND_CON0 (volatile unsigned int *)((0x2d85 << 2) + 0xff900000) +//Bit 31:24 reg_di_dcmb_bld_con_thd0 default = 100 // u8 +//Bit 23:16 reg_di_dcmb_bld_con_thd1 default = 120 // u8 +//Bit 15: 8 reg_di_dcmb_bld_alp_lmt0 default = 0 // u8 +//Bit 7: 0 reg_di_dcmb_bld_alp_lmt1 default = 128 // u8 +#define DECOMB_BLND_CON1 (0x2d86) +#define P_DECOMB_BLND_CON1 (volatile unsigned int *)((0x2d86 << 2) + 0xff900000) +//Bit 23:16 reg_di_dcmb_bld_alp_lmt2 default = 255 // u8 +//Bit 15: 8 reg_di_dcmb_bld_rate0 default = 32 // u8 +//Bit 7: 0 reg_di_dcmb_bld_rate1 default = 32 // u8 +#define DECOMB_YC_THRD (0x2d87) +#define P_DECOMB_YC_THRD (volatile unsigned int *)((0x2d87 << 2) + 0xff900000) +//Bit 31:16 reserved +//Bit 15: 8 reg_di_dcmb_ythd default = 2 // u8, default = 2 +//Bit 7: 0 reg_di_dcmb_cthd default = 2 // u8, default = 2 +#define DECOMB_MTN_GAIN_OFST (0x2d88) +#define P_DECOMB_MTN_GAIN_OFST (volatile unsigned int *)((0x2d88 << 2) + 0xff900000) +//Bit 31:22 reserved +//Bit 21:16 reg_di_dcmb_mtn_alp_gain default = 16 // u6, 16 is normalized to '1' +//Bit 15:9 reserved +//Bit 8:0 reg_di_dcmb_mtn_alp_ofst default = 0 // s9, [-256, 255] +#define DECOMB_CMB_SEL_GAIN_OFST (0x2d89) +#define P_DECOMB_CMB_SEL_GAIN_OFST (volatile unsigned int *)((0x2d89 << 2) + 0xff900000) +//Bit 31:22 reserved +//Bit 21:16 reg_di_dcmb_cmb_sel_gain default = 48 // u6, 16 is normalized to '1' +//Bit 15:9 reserved +//Bit 8:0 reg_di_dcmb_cmb_sel_ofst default = 0 // s9, [-256, 255] +#define DECOMB_WIND00 (0x2d8a) +#define P_DECOMB_WIND00 (volatile unsigned int *)((0x2d8a << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:16 reg_di_dcmb_wnd00 default = 0 // u13, x0 for window 0, software control +//Bit 15:13 reserved +//Bit 12:0 reg_di_dcmb_wnd01 default = 719 // u13, x1 for window 0, HSIZE-1, software control +#define DECOMB_WIND01 (0x2d8b) +#define P_DECOMB_WIND01 (volatile unsigned int *)((0x2d8b << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:16 reg_di_dcmb_wnd02 default = 0 // u13, y0 for window 0, software control +//Bit 15:13 reserved +//Bit 12:0 reg_di_dcmb_wnd03 default = 39 // u13, y1 for window 0, software control +#define DECOMB_WIND10 (0x2d8c) +#define P_DECOMB_WIND10 (volatile unsigned int *)((0x2d8c << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:16 reg_di_dcmb_wnd10 default = 0 // u13, x0 for window 1, software control +//Bit 15:13 reserved +//Bit 12:0 reg_di_dcmb_wnd11 default = 719 // u13, x1 for window 1, HSIZE-1, software control +#define DECOMB_WIND11 (0x2d8d) +#define P_DECOMB_WIND11 (volatile unsigned int *)((0x2d8d << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:16 reg_di_dcmb_wnd12 default = 40 // u13, y0 for window 1, software control +//Bit 15:13 reserved +//Bit 12:0 reg_di_dcmb_wnd13 default = 239 // u13, y1 for window 1, VSIZE-1-40, software control +#define DECOMB_MODE (0x2d8e) +#define P_DECOMB_MODE (volatile unsigned int *)((0x2d8e << 2) + 0xff900000) +//Bit 31:16 reserved +//Bit 15 reg_di_dcmb_is_cmb_bef default = 1 // u1, 1: decide is_cmb before cmbing refine, 0: decide is_cmb after cmbing refine +//Bit 14 reg_di_dcmb_en0 default = 1 // u1, enable decmobing for wind0 +//Bit 13 reg_di_dcmb_en1 default = 1 // u1, enable decmobing for wind1 +//Bit 12 reg_di_dcmb_en2 default = 1 // u1, enable decmobing for wind2 +//Bit 11:10 reg_di_dcmb_lpf_mod0 default = 2 // u2, get combing free pixels of wind0 by: 0, vertical lpf, 1, edge lpf, 2,3, ei data +//Bit 9:8 reg_di_dcmb_lpf_mod1 default = 2 // u2, get combing free pixels of wind1 by: 0, vertical lpf, 1, edge lpf, 2,3, ei data +//Bit 7:6 reg_di_dcmb_lpf_mod2 default = 0 // u2, get combing free pixels of wind2 by: 0, vertical lpf, 1, edge lpf, 2,3, ei data +//Bit 5 reg_di_dcmb_cmb_sel0 default = 1 // u1, wind0 decmb based on: 0, vert cmb, 1, edge cmb +//Bit 4 reg_di_dcmb_cmb_sel1 default = 1 // u1, wind1 decmb based on: 0, vert cmb, 1, edge cmb +//Bit 3 reg_di_dcmb_cmb_sel2 default = 0 // u1, wind2 decmb based on: 0, vert cmb, 1, edge cmb +//Bit 2 reg_di_dcmb_alp_mod0 default = 1 // u1, wind0 decmb alpha based on: 0, user-defined, 1, motion adaptive +//Bit 1 reg_di_dcmb_alp_mod1 default = 1 // u1, wind1 decmb alpha based on: 0, user-defined, 1, motion adaptive +//Bit 0 reg_di_dcmb_alp_mod2 default = 1 // u1, wind2 decmb alpha based on: 0, user-defined, 1, motion adaptive +#define DECOMB_FRM_SIZE (0x2d8f) +#define P_DECOMB_FRM_SIZE (volatile unsigned int *)((0x2d8f << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:16 hsize_in default = 1920 // u13, pic horz size in unit: pixel +//Bit 15:13 reserved +//Bit 12:0 vsize_in default = 1080 // u13, pic vert size in unit: pixel +#define DECOMB_HV_BLANK (0x2d90) +#define P_DECOMB_HV_BLANK (volatile unsigned int *)((0x2d90 << 2) + 0xff900000) +//Bit 31:16 reserved +//Bit 15:8 hblank_num default = 20 // u8, hor blank time +//Bit 7:0 vblank_num default = 50 // u8, ver blank time +// +// Closing file: decomb_regs.h +// +// 0x98-0xa3 +// +// Reading file: nr2_det_polar_regs.h +// +// synopsys translate_off +// synopsys translate_on +#define NR2_POLAR3_MODE (0x2d98) +#define P_NR2_POLAR3_MODE (volatile unsigned int *)((0x2d98 << 2) + 0xff900000) +//Bit 31:20 reserved +//Bit 19:18 reg_polar3_f02lpf_mod0 // unsigned , default = 3 low pass filter mode for field 0 and field2 before polar3 detection; 0 for no lpf, 1: [1 2 1]/4 vert lpf; 2: [1 2 1; 2 4 2; 1 2 1]/16 2d lpf, p1 no hlpf; 2: [1 2 1; 2 4 2; 1 2 1]/16 2d lpf, p1 [1 2 1]/4 hlpf +//Bit 17:16 reg_polar3_f02lpf_mod1 // unsigned , default = 3 low pass filter mode for field 0 and field2 before polar3 detection; 0 for no lpf, 1: [1 2 1]/4 vert lpf; 2: [1 2 1; 2 4 2; 1 2 1]/16 2d lpf, p1 no hlpf; 2: [1 2 1; 2 4 2; 1 2 1]/16 2d lpf, p1 [1 2 1]/4 hlpf +//Bit 15: 8 reg_polar3_dif02_thrd0 // unsigned , default = 5 threshold of dif for polar3 detection except for 32 detection, only do polar3 detection on obvious motion, [0] for luma, 1[1] for chroma +//Bit 7: 0 reg_polar3_dif02_thrd1 // unsigned , default = 5 threshold of dif for polar3 detection except for 32 detection, only do polar3 detection on obvious motion, [0] for luma, 1[1] for chroma +#define NR2_POLAR3_THRD (0x2d99) +#define P_NR2_POLAR3_THRD (volatile unsigned int *)((0x2d99 << 2) + 0xff900000) +//Bit 31:24 reg_polar3_txtf02_thrd0 // unsigned , default = 30 threshold to vertical f0f2 texture, if texture larger than this threshold, will not do the polar3 decision. +//Bit 23:16 reg_polar3_txtf02_thrd1 // unsigned , default = 30 threshold to vertical f0f2 texture, if texture larger than this threshold, will not do the polar3 decision. +//Bit 15: 8 reg_polar3_txtf1_thrd0 // unsigned , default = 20 threshold to vertical f1 texture, if texture larger than this threshold, will not do the polar3 decision. +//Bit 7: 0 reg_polar3_txtf1_thrd1 // unsigned , default = 20 threshold to vertical f1 texture, if texture larger than this threshold, will not do the polar3 decision. +#define NR2_POLAR3_PARA0 (0x2d9a) +#define P_NR2_POLAR3_PARA0 (volatile unsigned int *)((0x2d9a << 2) + 0xff900000) +//Bit 31:28 reg_polar3_rate00 // unsigned , default = 6 delt = rate*dif02/32, e.g. f2((f0+f2)/2 + delt), then polar3_p1++; +//Bit 19:16 reg_polar3_rate11 // unsigned , default = 8 delt = rate*dif02/32, e.g. f2-ofst1((f0+f2)/2 + delt), then polar3_p1++; +//Bit 15:12 reg_polar3_rate20 // unsigned , default = 2 delt = rate*dif02/32, e.g. f2((f0 + delt+ ofset2), then polar3_p2++; +//Bit 11: 8 reg_polar3_rate21 // unsigned , default = 2 delt = rate*dif02/32, e.g. f2((f0 + delt+ ofset2), then polar3_p2++; +//Bit 7: 1 reserved +//Bit 0 reg_polar3_ro_reset // unsigned , default = 0 reset signal of the polar3 read only registers +#define NR2_POLAR3_PARA1 (0x2d9b) +#define P_NR2_POLAR3_PARA1 (volatile unsigned int *)((0x2d9b << 2) + 0xff900000) +//Bit 31:24 reg_polar3_rate30 // unsigned , default = 48 delt = rate*dif02/32, e.g. f2((f0 + delt+ofst3), then polar3_32++; +//Bit 23:16 reg_polar3_rate31 // unsigned , default = 48 delt = rate*dif02/32, e.g. f2((f0 + delt+ofst3), then polar3_32++; +//Bit 15:12 reg_polar3_ofst30 // signed , default = 2 delt = rate*dif02/32, e.g. f2((f0 + delt+ofst3), then polar3_32++; +//Bit 11: 8 reg_polar3_ofst31 // signed , default = 2 delt = rate*dif02/32, e.g. f2((f0 + delt+ofst3), then polar3_32++; +//Bit 7: 4 reg_polar3_ofst20 // signed , default = 2 delt = rate*dif02/32, e.g. f2((f0 + delt+ ofset2), then polar3_p2++; +//Bit 3: 0 reg_polar3_ofst21 // signed , default = 2 delt = rate*dif02/32, e.g. f2((f0 + delt+ ofset2), then polar3_p2++; +#define NR2_POLAR3_CTRL (0x2d9c) +#define P_NR2_POLAR3_CTRL (volatile unsigned int *)((0x2d9c << 2) + 0xff900000) +//Bit 31:24 reg_polar3_ofst10 // signed , default = 1 +//Bit 23:16 reg_polar3_ofst11 // signed , default = 1 +//Bit 15: 8 reg_polar3_h_mute // unsigned , default = 10 horizontal pixels to mute for left right sides for polar3 detection; +//Bit 7: 0 reg_polar3_v_mute // unsigned , default = 10 vertical pixels to mute for top and bottom sides for polar3 detection; +#define NR2_RO_POLAR3_NUMOFPIX (0x2d9d) +#define P_NR2_RO_POLAR3_NUMOFPIX (volatile unsigned int *)((0x2d9d << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23: 0 ro_polar3_numofpix // unsigned , default = 0 number of pixels detected as polar3 +#define NR2_RO_POLAR3_SMOOTHMV (0x2d9e) +#define P_NR2_RO_POLAR3_SMOOTHMV (volatile unsigned int *)((0x2d9e << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23: 0 ro_polar3_smoothmv // unsigned , default = 0 number of pixels with smooth mv, F(t) is close between avg of f(t-1) and f(t+1); +#define NR2_RO_POLAR3_M1 (0x2d9f) +#define P_NR2_RO_POLAR3_M1 (volatile unsigned int *)((0x2d9f << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23: 0 ro_polar3_m1 // unsigned , default = 0 number of pixels with F(t) is close to f(t-1) instead of f(t+1), but in between [f(t-1), f(t+1)]; +#define NR2_RO_POLAR3_P1 (0x2da0) +#define P_NR2_RO_POLAR3_P1 (volatile unsigned int *)((0x2da0 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23: 0 ro_polar3_p1 // unsigned , default = 0 number of pixels with F(t) is close to f(t+1) instead of f(t-1), but in between [f(t-1), f(t+1)]; +#define NR2_RO_POLAR3_M2 (0x2da1) +#define P_NR2_RO_POLAR3_M2 (volatile unsigned int *)((0x2da1 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23: 0 ro_polar3_m2 // unsigned , default = 0 number of pixels with F(t) is close to f(t-1) instead of f(t+1), but out side of (f(t-1), f(t+1)); +#define NR2_RO_POLAR3_P2 (0x2da2) +#define P_NR2_RO_POLAR3_P2 (volatile unsigned int *)((0x2da2 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23: 0 ro_polar3_p2 // unsigned , default = 0 number of pixels with F(t) is close to f(t+1) instead of f(t-1), but out side of (f(t-1), f(t+1)); +#define NR2_RO_POLAR3_32 (0x2da3) +#define P_NR2_RO_POLAR3_32 (volatile unsigned int *)((0x2da3 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23: 0 ro_polar3_32 // unsigned , default = 0 number of pixels with F(t) far from [f(t-1),f(t+1)] and f(t-1) is close to f(t+1); +// synopsys translate_off +// synopsys translate_on +// +// Closing file: nr2_det_polar_regs.h +// +// 0xa4-0xf7 / 0xff +// +// Reading file: nr4_regs.h +// +// synopsys translate_off +// synopsys translate_on +//========== nr4_drt_regs register begin ==========// +#define NR4_DRT_CTRL (0x2da4) +#define P_NR4_DRT_CTRL (volatile unsigned int *)((0x2da4 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_ydrt_3line_ssd_gain // unsigned , default = 16 gain to max ssd normalized 16 as '1' +//Bit 23:16 reg_nr4_ydrt_5line_ssd_gain // unsigned , default = 16 gain to max ssd normalized 16 as '1' +//Bit 15 reserved +//Bit 14:13 reg_nr4_drt_yhsad_mode // unsigned , default = 1 mode for luma horiztonal sad calc., 0: no vertical lpf, 1: vertical [1 2 1], 2 or 3: vertical [ 1 2 2 2 1] if 5 lines +//Bit 12:11 reg_nr4_drt_chsad_mode // unsigned , default = 1 mode for chroma horiztonal sad calc., 0: no vertical lpf, 1: vertical [1 2 1], 2 or 3: vertical [ 1 2 2 2 1] if 5 lines +//Bit 10 reg_nr4_drt_yhsad_hlpf // unsigned , default = 1 hlpf for luma hsad of drt calculation, 0: no lpf, 1: with [1 2 1] hlpf +//Bit 9 reg_nr4_drt_yvsad_hlpf // unsigned , default = 1 hlpf for luma vsad of drt calculation, 0: no lpf, 1: with [1 2 1] hlpf +//Bit 8 reg_nr4_drt_ydsad_hlpf // unsigned , default = 1 hlpf for luma dsad of drt calculation, 0: no lpf, 1: with [1 2 1] hlpf +//Bit 7 reg_nr4_drt_chsad_hlpf // unsigned , default = 1 hlpf for chrome hsad of drt calculation, 0: no lpf, 1: with [1 2 1] hlpf +//Bit 6 reg_nr4_drt_cvsad_hlpf // unsigned , default = 1 hlpf for chroma vsad of drt calculation, 0: no lpf, 1: with [1 2 1] hlpf +//Bit 5 reg_nr4_drt_cdsad_hlpf // unsigned , default = 1 hlpf for chroma dsad of drt calculation, 0: no lpf, 1: with [1 2 1] hlpf +//Bit 4 reg_nr4_ydrt_dif_mode // unsigned , default = 1 0:y_dif, 1: y_dif + (u_dif + v_dif)/2 +//Bit 3: 2 reg_nr4_cdrt_dif_mode // unsigned , default = 2 0:(u_dif + v_dif), 1: y_dif/4 + (u_dif + v_dif)*3/4, 2:y_dif/2 + (u_dif + v_dif)/2, 3: y_dif (not recommended) +//Bit 1: 0 reserved +#define NR4_DRT_YSAD_GAIN (0x2da5) +#define P_NR4_DRT_YSAD_GAIN (volatile unsigned int *)((0x2da5 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_ysad_hrz_gain // unsigned , default = 16 gain for horizontal sad, 16 normalized to "1" +//Bit 23:16 reg_nr4_ysad_diag_gain // unsigned , default = 20 gain for diagonal sad, 16 normalized to "1" +//Bit 15: 8 reg_nr4_ysad_vrt_gain // unsigned , default = 16 gain for vertical sad, 16 normalized to "1" +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_drt_ysad_core_rate // unsigned , default = 6 rate of coring for sad(theta) - sad(theta+pi/2)*rate/64 +#define NR4_DRT_CSAD_GAIN (0x2da6) +#define P_NR4_DRT_CSAD_GAIN (volatile unsigned int *)((0x2da6 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_csad_hrz_gain // unsigned , default = 16 gain for horizontal sad, 16 normalized to "1" +//Bit 23:16 reg_nr4_csad_diag_gain // unsigned , default = 20 gain for diagonal sad, 16 normalized to "1" +//Bit 15: 8 reg_nr4_csad_vrt_gain // unsigned , default = 16 gain for vertical sad, 16 normalized to "1" +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_drt_csad_core_rate // unsigned , default = 6 rate of coring for sad(theta) - sad(theta+pi/2)*rate/64 +#define NR4_DRT_SAD_ALP_CORE (0x2da7) +#define P_NR4_DRT_SAD_ALP_CORE (volatile unsigned int *)((0x2da7 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:20 reg_nr4_ydrt_alp_core_rate // unsigned , default = 0 luma ratio to min_err, alpha = (min_err - (max_err - min_err)*rate + ofst)/max_err * 64; dft = 0/32 +//Bit 19:16 reg_nr4_cdrt_alp_core_rate // unsigned , default = 0 chroma ratio to min_err, alpha = (min_err - (max_err - min_err)*rate + ofst)/max_err * 64; dft = 0/32 +//Bit 15:14 reserved +//Bit 13: 8 reg_nr4_ydrt_alp_core_ofst // unsigned , default = 10 luma offset to min_err, alpha = (min_err - (max_err - min_err)*rate + ofst)/max_err * 64; dft = 10 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_cdrt_alp_core_ofst // unsigned , default = 10 chroma offset to min_err, alpha = (min_err - (max_err - min_err)*rate + ofst)/max_err * 64; dft = 10 +#define NR4_DRT_ALP_MINMAX (0x2da8) +#define P_NR4_DRT_ALP_MINMAX (volatile unsigned int *)((0x2da8 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_nr4_ydrt_alp_min // unsigned , default = 0 luma min value of alpha, dft = 0 +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_ydrt_alp_max // unsigned , default = 63 luma max value of alpha, dft = 63 +//Bit 15:14 reserved +//Bit 13: 8 reg_nr4_cdrt_alp_min // unsigned , default = 0 chroma min value of alpha, dft = 0 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_cdrt_alp_max // unsigned , default = 63 chroma max value of alpha, dft = 63 +//========== nr4_drt_regs register end ==========// +//========== nr4_snr_regs register begin ==========// +#define NR4_SNR_CTRL_REG (0x2da9) +#define P_NR4_SNR_CTRL_REG (volatile unsigned int *)((0x2da9 << 2) + 0xff900000) +//Bit 31:13 reserved +//Bit 12 reg_nr4_bet2_sel // unsigned , default = 1 +//Bit 11: 9 reg_nr4_snr2_sel_mode // unsigned , default = 0 0: no filter, 1: adpgau, adp_drt_lpf blend; 2: adpgau, drt4_lpf blend; 3: adp_drt_lpf method, 4: drt4_lpf method, 5: adp_drt_ //original image blend, 6: drt4_lpf, original image blend, 7: adpgau method; dft=1 +//Bit 8 reg_nr4_snr2_gaulpf_mode // unsigned , default = 1 0: 3*5 or 5*5 gaussian lpf; 1: 3*3 (window size) gaussian lpf; dft=1 +//Bit 7: 6 reg_nr4_snr2_alpha0_sad_mode // unsigned , default = 3 0: max_sad*max_ssd; 1: max_sad*max_sad; 2: adp_max_sad*max_ssd; 3: adp_max_sad*adp_max_sad dft=3 +//Bit 5: 4 reg_nr4_snr2_alpha1_sad_mode // unsigned , default = 2 0: max_sad; 1: cross_max_sad; 2 or 3: adp_sad dft=2 +//Bit 3: 2 reserved +//Bit 1: 0 reg_nr4_snr2_adp_drtlpf_mode // unsigned , default = 3 0: adp_drtlpf [2 1 1]/4, 1: adp_drtlpf [4 2 1 1]/8; 2: adp_drtlpf [2 2 2 1 1]/8; 3: adp_drtlpf [7 7 7 6 5]/32; dft=3; +#define NR4_SNR_ALPHA0_MAX_MIN (0x2daa) +#define P_NR4_SNR_ALPHA0_MAX_MIN (volatile unsigned int *)((0x2daa << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:23 reg_nr4_snr2_alp0_ymin // unsigned , default = 127 normalized to 128 as '1' +//Bit 22:16 reg_nr4_snr2_alp0_ymax // unsigned , default = 127 normalized to 128 as '1' +//Bit 15:14 reserved +//Bit 13: 7 reg_nr4_snr2_alp0_cmin // unsigned , default = 127 normalized to 128 as '1' +//Bit 6: 0 reg_nr4_snr2_alp0_cmax // unsigned , default = 127 normalized to 128 as '1' +#define NR4_ALP0C_ERR2CURV_LIMIT0 (0x2dab) +#define P_NR4_ALP0C_ERR2CURV_LIMIT0 (volatile unsigned int *)((0x2dab << 2) + 0xff900000) +//Bit 31:24 reg_nr4_snr2_alp0_minerr_cpar0 // unsigned , default = 0 threshold0 of curve to map mierr to alp0 for chroma channel, this will be set value of flat region mierr that no need blur. +//Bit 23:16 reg_nr4_snr2_alp0_minerr_cpar1 // unsigned , default = 25 threshold1 of curve to map mierr to alp0 for chroma channel,this will be set value of texture region mierr that can not blur. +//Bit 15: 8 reg_nr4_snr2_alp0_minerr_cpar5 // unsigned , default = 40 rate0 (for mierrth1) of curve to map mierr to alp0 for chroma channel. the larger of the value, the deep of the slope. 0~255. +#define NR4_ALP0C_ERR2CURV_LIMIT1 (0x2dac) +#define P_NR4_ALP0C_ERR2CURV_LIMIT1 (volatile unsigned int *)((0x2dac << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_snr2_alp0_minerr_cpar2 // unsigned , default = 127 level limit(for mierrth1) of curve to map mierr to alp0 for chroma channel, that we can do for texture region. 0~255. +#define NR4_ALP0Y_ERR2CURV_LIMIT0 (0x2dad) +#define P_NR4_ALP0Y_ERR2CURV_LIMIT0 (volatile unsigned int *)((0x2dad << 2) + 0xff900000) +//Bit 31:24 reg_nr4_snr2_alp0_minerr_ypar0 // unsigned , default = 0 threshold0 of curve to map mierr to alp0 for luma channel, this will be set value of flat region mierr that no need blur. 0~255. +//Bit 23:16 reg_nr4_snr2_alp0_minerr_ypar1 // unsigned , default = 25 threshold1 of curve to map mierr to alp0 for luma channel,this will be set value of texture region mierr that can not blur. +//Bit 15: 8 reg_nr4_snr2_alp0_minerr_ypar5 // unsigned , default = 40 rate0 (for mierrth1) of curve to map mierr to alp0 for luma channel. the larger of the value, the deep of the slope. 0~255. +#define NR4_ALP0Y_ERR2CURV_LIMIT1 (0x2dae) +#define P_NR4_ALP0Y_ERR2CURV_LIMIT1 (volatile unsigned int *)((0x2dae << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_snr2_alp0_minerr_ypar2 // unsigned , default = 127 level limit(for mierrth1) of curve to map mierr to alp0 for luma channel, alp0 that we can do for texture region. 0~255. +#define NR4_SNR_ALPA1_RATE_AND_OFST (0x2daf) +#define P_NR4_SNR_ALPA1_RATE_AND_OFST (volatile unsigned int *)((0x2daf << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:18 reg_nr4_snr2_alp1_ycore_rate // unsigned , default = 0 normalized 64 as "1" +//Bit 17:12 reg_nr4_snr2_alp1_ccore_rate // unsigned , default = 0 normalized 64 as "1" +//Bit 11: 6 reg_nr4_snr2_alp1_ycore_ofst // signed , default = 3 normalized 64 as "1" +//Bit 5: 0 reg_nr4_snr2_alp1_ccore_ofst // signed , default = 3 normalized 64 as "1" +#define NR4_SNR_ALPHA1_MAX_MIN (0x2db0) +#define P_NR4_SNR_ALPHA1_MAX_MIN (volatile unsigned int *)((0x2db0 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:18 reg_nr4_snr2_alp1_ymin // unsigned , default = 0 normalized to 64 as '1' +//Bit 17:12 reg_nr4_snr2_alp1_ymax // unsigned , default = 63 normalized to 64 as '1' +//Bit 11: 6 reg_nr4_snr2_alp1_cmin // unsigned , default = 0 normalized to 64 as '1' +//Bit 5: 0 reg_nr4_snr2_alp1_cmax // unsigned , default = 63 normalized to 64 as '1' +#define NR4_ALP1C_ERR2CURV_LIMIT0 (0x2db1) +#define P_NR4_ALP1C_ERR2CURV_LIMIT0 (volatile unsigned int *)((0x2db1 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_snr2_alp1_minerr_cpar0 // unsigned , default = 0 annel, this will be set value of flat region mierr that no need directional NR. 0~255. +//Bit 23:16 reg_nr4_snr2_alp1_minerr_cpar1 // unsigned , default = 24 hannel,this will be set value of texture region mierr that can not do directional NR. 0~255. +//Bit 15: 8 reg_nr4_snr2_alp1_minerr_cpar5 // unsigned , default = 0 a/chroma channel. the larger of the value, the deep of the slope. +//Bit 7: 0 reg_nr4_snr2_alp1_minerr_cpar6 // unsigned , default = 20 a/chroma channel. the larger of the value, the deep of the slope. 0~255 +#define NR4_ALP1C_ERR2CURV_LIMIT1 (0x2db2) +#define P_NR4_ALP1C_ERR2CURV_LIMIT1 (volatile unsigned int *)((0x2db2 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_snr2_alp1_minerr_cpar2 // unsigned , default = 0 will be set to alp1 that we can do for flat region. 0~255. +//Bit 15: 8 reg_nr4_snr2_alp1_minerr_cpar3 // unsigned , default = 16 this will be set to alp1 that we can do for misc region. 0~255. +//Bit 7: 0 reg_nr4_snr2_alp1_minerr_cpar4 // unsigned , default = 63 will be set to alp1 that we can do for texture region. 0~255.255 before +#define NR4_ALP1Y_ERR2CURV_LIMIT0 (0x2db3) +#define P_NR4_ALP1Y_ERR2CURV_LIMIT0 (volatile unsigned int *)((0x2db3 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_snr2_alp1_minerr_ypar0 // unsigned , default = 0 thra/chroma channel, this will be set value of flat region mierr that no need directional NR. 0~255. +//Bit 23:16 reg_nr4_snr2_alp1_minerr_ypar1 // unsigned , default = 24 thra/chroma channel,this will be set value of texture region mierr that can not do directional NR. 0~255. +//Bit 15: 8 reg_nr4_snr2_alp1_minerr_ypar5 // unsigned , default = 0 ratlp1 for luma/chroma channel. the larger of the value, the deep of the slope. +//Bit 7: 0 reg_nr4_snr2_alp1_minerr_ypar6 // unsigned , default = 20 ratlp1 for luma/chroma channel. the larger of the value, the deep of the slope. 0~255 +#define NR4_ALP1Y_ERR2CURV_LIMIT1 (0x2db4) +#define P_NR4_ALP1Y_ERR2CURV_LIMIT1 (volatile unsigned int *)((0x2db4 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_snr2_alp1_minerr_ypar2 // unsigned , default = 0 lev to alp1 for luma/chroma channel, this will be set to alp1 that we can do for flat region. 0~255. +//Bit 15: 8 reg_nr4_snr2_alp1_minerr_ypar3 // unsigned , default = 16 levierr to alp1 for luma/chroma channel, this will be set to alp1 that we can do for misc region. 0~255. +//Bit 7: 0 reg_nr4_snr2_alp1_minerr_ypar4 // unsigned , default = 63 lev to alp1 for luma/chroma channel, this will be set to alp1 that we can do for texture region. 0~255.255 before +//========== nr4_snr_regs register end ==========// +//========== nr4_tnr_regs register begin ==========// +#define NR4_MTN_CTRL (0x2db5) +#define P_NR4_MTN_CTRL (volatile unsigned int *)((0x2db5 << 2) + 0xff900000) +//Bit 31: 2 reserved +//Bit 1 reg_nr4_mtn_ref_en // unsigned , default = 1 enable motion refinement, dft = 1 +//Bit 0 reg_nr4_mtn_ref_bet_sel // unsigned , default = 0 beta selection mode for motion refinement, 0: beta1, 1: beta2, dft = 0 +#define NR4_MTN_REF_PAR0 (0x2db6) +#define P_NR4_MTN_REF_PAR0 (volatile unsigned int *)((0x2db6 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_mtn_ref_par0 // unsigned , default = 24 par0 for beta to gain, dft = +//Bit 23:16 reg_nr4_mtn_ref_par1 // unsigned , default = 60 par1 for beta to gain, dft = +//Bit 15: 8 reg_nr4_mtn_ref_par2 // unsigned , default = 4 par2 for beta to gain, dft = +//Bit 7: 0 reg_nr4_mtn_ref_par3 // unsigned , default = 32 par3 for beta to gain, dft = +#define NR4_MTN_REF_PAR1 (0x2db7) +#define P_NR4_MTN_REF_PAR1 (volatile unsigned int *)((0x2db7 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_mtn_ref_par4 // unsigned , default = 128 par4 for beta to gain, dft = +//Bit 15: 8 reg_nr4_mtn_ref_par5 // unsigned , default = 40 par5 for beta to gain, dft = +//Bit 7: 0 reg_nr4_mtn_ref_par6 // unsigned , default = 20 par6 for beta to gain, dft = +//========== nr4_tnr_regs register end ==========// +//========== nr4_mcnr_regs register begin ==========// +#define NR4_MCNR_LUMA_ENH_CTRL (0x2db8) +#define P_NR4_MCNR_LUMA_ENH_CTRL (volatile unsigned int *)((0x2db8 << 2) + 0xff900000) +//Bit 31: 4 reserved +//Bit 3 reg_nr4_luma_plus_en // unsigned , default = 1 enable luma enhancement, dft = 1 +//Bit 2 reg_nr4_luma_plus_wt_mode // unsigned , default = 1 luma weight calc mode, 0:sqrt(1+x^2), 1: 1+abs(x), dft = 0 +//Bit 1: 0 reg_nr4_luma_plus_orient_mode // unsigned , default = 1 0: only use previous orient for pre and cur luma plus, 1: 0: only use current orient for pre and cur luma plus +#define NR4_MCNR_LUMA_STAT_LIMTX (0x2db9) +#define P_NR4_MCNR_LUMA_STAT_LIMTX (volatile unsigned int *)((0x2db9 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_nr4_luma_plus_xst // unsigned , default = 8 start for luma plus statistic, dft = 8 +//Bit 15:14 reserved +//Bit 13: 0 reg_nr4_luma_plus_xed // unsigned , default = 711 end for luma plus statistic, dft = HSIZE-8-1; +#define NR4_MCNR_LUMA_STAT_LIMTY (0x2dba) +#define P_NR4_MCNR_LUMA_STAT_LIMTY (volatile unsigned int *)((0x2dba << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_nr4_luma_plus_yst // unsigned , default = 8 start for luma plus statistic, dft = 8 +//Bit 15:14 reserved +//Bit 13: 0 reg_nr4_luma_plus_yed // unsigned , default = 231 end for luma plus statistic, dft = VSIZE-8-1 +#define NR4_MCNR_LUMA_DIF_CALC (0x2dbb) +#define P_NR4_MCNR_LUMA_DIF_CALC (volatile unsigned int *)((0x2dbb << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_nr4_luma_plus_ugain // unsigned , default = 8 U's gain for luma enhancement, 16 normalized as '1' +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_luma_plus_vgain // unsigned , default = 8 V's gain for luma enhancement, 16 normalized as '1' +//Bit 15: 8 reg_nr4_luma_plus_ycor_thd // unsigned , default = 2 Y coring threshold for difference calc., dft = 0 +//Bit 7: 0 reg_nr4_luma_plus_ccor_thd // unsigned , default = 0 C coring threshold for difference calc., dft = 0 +#define NR4_MCNR_LUMAPRE_CAL_PRAM (0x2dbc) +#define P_NR4_MCNR_LUMAPRE_CAL_PRAM (volatile unsigned int *)((0x2dbc << 2) + 0xff900000) +//Bit 31:26 reserved +//Bit 25:24 reg_nr4_pre_u_orient // signed , default = 0 orientation of previous U, initial to 0, and will be updated by software +//Bit 23:18 reserved +//Bit 17:16 reg_nr4_pre_v_orient // signed , default = 0 orientation of previous V, initial to 0, and will be updated by software +//Bit 15: 8 reg_nr4_pre_u_mean // unsigned , default = 0 mean of previous U, initial to 0, and will be updated by software +//Bit 7: 0 reg_nr4_pre_v_mean // unsigned , default = 0 mean of previousV, initial to 0, and will be updated by software +#define NR4_MCNR_LUMACUR_CAL_PRAM (0x2dbd) +#define P_NR4_MCNR_LUMACUR_CAL_PRAM (volatile unsigned int *)((0x2dbd << 2) + 0xff900000) +//Bit 31:26 reserved +//Bit 25:24 reg_nr4_cur_u_orient // signed , default = 0 orientation of current U, initial to 0, and will be updated by software +//Bit 23:18 reserved +//Bit 17:16 reg_nr4_cur_v_orient // signed , default = 0 orientation of current V, initial to 0, and will be updated by software +//Bit 15: 8 reg_nr4_cur_u_mean // unsigned , default = 0 mean of current U, initial to 0, and will be updated by software +//Bit 7: 0 reg_nr4_cur_v_mean // unsigned , default = 0 mean of current, initial to 0, and will be updated by software +#define NR4_MCNR_MV_CTRL_REG (0x2dbe) +#define P_NR4_MCNR_MV_CTRL_REG (volatile unsigned int *)((0x2dbe << 2) + 0xff900000) +//Bit 31:14 reserved +//Bit 13:12 reg_nr4_sad_bitw // unsigned , default = 2 sad bit width (8 + x) before clip to u8, dft = 1 +//Bit 11: 4 reg_nr4_glb_gain // unsigned , default = 64 global gain calc. by software, 64 is normalized as '1' +//Bit 3: 0 reg_nr4_mv_err_rsft // unsigned , default = 8 right shift for mv err calc., dft = 9 +#define NR4_MCNR_MV_GAIN0 (0x2dbf) +#define P_NR4_MCNR_MV_GAIN0 (volatile unsigned int *)((0x2dbf << 2) + 0xff900000) +//Bit 31:28 reg_nr4_lftmvx_gain // unsigned , default = 1 left mvx gain for err calc., dft = 1 +//Bit 27:24 reg_nr4_lftmvy_gain // unsigned , default = 1 left mvy gain for err calc., dft = 1 +//Bit 23:20 reg_nr4_zmvx_gain // unsigned , default = 5 zero mvx gain for err calc., dft = 2 +//Bit 19:16 reg_nr4_zmvy_gain // unsigned , default = 5 zero mvy gain for err calc., dft = 4 +//Bit 15:12 reg_nr4_lmvx0_gain // unsigned , default = 2 line mvx0 gain for err calc., dft = 1 +//Bit 11: 8 reg_nr4_lmvx1_gain // unsigned , default = 2 line mvx1 gain for err calc., dft = 1 +//Bit 7: 4 reg_nr4_lmvy0_gain // unsigned , default = 2 line mvy0 gain for err calc., dft = 1 +//Bit 3: 0 reg_nr4_lmvy1_gain // unsigned , default = 2 line mvy1 gain for err calc., dft = 1 +#define NR4_MCNR_LMV_PARM (0x2dc0) +#define P_NR4_MCNR_LMV_PARM (volatile unsigned int *)((0x2dc0 << 2) + 0xff900000) +//Bit 31:28 reg_nr4_lmv_rt0 // unsigned , default = 3 ratio of max lmv +//Bit 27:24 reg_nr4_lmv_rt1 // unsigned , default = 3 ratio of second max lmv +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_lmv_num_lmt0 // unsigned , default = 16 lmv0 least/limit number of (total number - zero_bin) +//Bit 15:14 reserved +//Bit 13: 8 reg_nr4_lmv_num_lmt1 // unsigned , default = 8 lmv1 least/limit number of (total number - zero_bin - max0) +//Bit 7: 2 reserved +//Bit 1: 0 reg_nr4_max_sad_rng // unsigned , default = 1 search range of max2 sad in small region, dft = 1 +#define NR4_MCNR_ALP0_REG (0x2dc1) +#define P_NR4_MCNR_ALP0_REG (volatile unsigned int *)((0x2dc1 << 2) + 0xff900000) +//Bit 31:26 reserved +//Bit 25 reg_nr4_alp0_fail_chk // unsigned , default = 1 enable check for alp0 fail status +//Bit 24 reg_nr4_bet0_coef_ref_en // unsigned , default = 1 bet1 refinement by coef_blt +//Bit 23:16 reg_nr4_alp0_posad_gain // unsigned , default = 255 the sad (norm) gain for pixel pointed by MV; +//Bit 15:10 reserved +//Bit 9: 8 reg_nr4_alp0_norm_mode // unsigned , default = 0 alp0 select sad norm mode, 0: disable, 1: enable dc norm, 2: enable ac norm, 3: enable both (dc/ac) norm, dft = 3 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_alp0_norm_gain // unsigned , default = 16 alp0 gain for sad norm, '32' as '1', dft = 1 +#define NR4_MCNR_ALP1_AND_BET0_REG (0x2dc2) +#define P_NR4_MCNR_ALP1_AND_BET0_REG (volatile unsigned int *)((0x2dc2 << 2) + 0xff900000) +//Bit 31:26 reserved +//Bit 25:24 reg_nr4_alp1_norm_mode // unsigned , default = 3 alp1 select sad norm mode, 0: disable, 1: enable dc norm, 2: enable ac norm, 3: enable both (dc/ac) norm, dft = 3 +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_alp1_norm_gain // unsigned , default = 3 alp1 gain for sad norm, '32' as '1', dft = 1 +//Bit 15:10 reserved +//Bit 9: 8 reg_nr4_bet0_norm_mode // unsigned , default = 3 bet0 select sad norm mode, 0: disable, 1: enable dc norm, 2: enable ac norm, 3: enable both (dc/ac) norm, dft = 3 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_bet0_norm_gain // unsigned , default = 8 bet0 gain for sad norm, '32' as '1', dft = 1 +#define NR4_MCNR_BET1_AND_BET2_REG (0x2dc3) +#define P_NR4_MCNR_BET1_AND_BET2_REG (volatile unsigned int *)((0x2dc3 << 2) + 0xff900000) +//Bit 31:26 reserved +//Bit 25:24 reg_nr4_bet1_norm_mode // unsigned , default = 3 bet1 select sad norm mode, 0: disable, 1: enable dc norm, 2: enable ac norm, 3: enable both (dc/ac) norm, dft = 3 +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_bet1_norm_gain // unsigned , default = 8 bet1 gain for sad norm, '32' as '1', dft = 1 +//Bit 15:10 reserved +//Bit 9: 8 reg_nr4_bet2_norm_mode // unsigned , default = 0 bet2 select sad norm mode, 0: disable, 1: enable dc norm, 2: enable ac norm, 3: enable both (dc/ac) norm, dft = 3 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_bet2_norm_gain // unsigned , default = 16 bet2 gain for sad norm, '32' as '1', dft = 1 +#define NR4_MCNR_AC_DC_CRTL (0x2dc4) +#define P_NR4_MCNR_AC_DC_CRTL (volatile unsigned int *)((0x2dc4 << 2) + 0xff900000) +//Bit 31:16 reserved +//Bit 15:12 reserved +//Bit 11 reg_nr4_dc_mode // unsigned , default = 1 mode for dc selection,0: Y_lpf, 1: Y_lpf + (U_Lpf+V_lpf)/2, +//Bit 10 reg_nr4_ac_mode // unsigned , default = 1 mode for ac selection, 0: Y_abs_dif, 1: Y_abs_dif + (U_abs_dif + V_abs_dif)/2 +//Bit 9 reg_nr4_dc_sel // unsigned , default = 0 selection mode for dc value, 0: 3x5, 1: 5x5, dft = 1 +//Bit 8 reg_nr4_ac_sel // unsigned , default = 0 selection mode for ac value, 0: 3x5, 1: 5x5, dft = 1 +//Bit 7 reserved +//Bit 6: 4 reg_nr4_dc_shft // unsigned , default = 2 right shift for dc value, dft = 2 +//Bit 3 reserved +//Bit 2: 0 reg_nr4_ac_shft // unsigned , default = 0 right shift for ac value, dft = 2 +#define NR4_MCNR_CM_CTRL0 (0x2dc5) +#define P_NR4_MCNR_CM_CTRL0 (volatile unsigned int *)((0x2dc5 << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28 reg_nr4_cm_skin_prc_bet0 // unsigned , default = 0 enable skin tone processing for mcnr bet0 calc., dft = 1 +//Bit 27:26 reg_nr4_cm_chrm_sel // unsigned , default = 1 chrome selection for color match, 0: 1x1, 1: 3X3LPF, 2: 3x5LPF, 3: 5x5LPF for 5lines, 3x5LPF for 3lines, dft = 3 +//Bit 25:24 reg_nr4_cm_luma_sel // unsigned , default = 1 luma selection for color match, 0: 1x1, 1: 3X3LPF, 2: 3x5LPF, 3: 5x5LPF for 5lines, 3x5LPF for 3lines, dft = 3 +//Bit 23:21 reg_nr4_cm_skin_rshft_bet0 // unsigned , default = 3 right shift for bet0's skin color gains, dft = 3 +//Bit 20 reg_nr4_cm_var_sel // unsigned , default = 1 variation selection for color match, 0: 3x5, 1: 5x5 for 5lines, 3x5 for 3lines, dft = 1 +//Bit 19 reg_nr4_cm_green_prc_bet0 // unsigned , default = 1 enable green processing for mcnr bet0 calc., dft = 1 +//Bit 18:16 reg_nr4_cm_green_rshft_bet0 // unsigned , default = 4 right shift for bet0's green color gains, dft = 4 +//Bit 15:14 reg_nr4_preflt_mod // unsigned , default = 2 pre filter mode in mcnr, 0: mv pointed pixel, 1: bilater filter +//Bit 13:12 reg_nr4_alp1_mode // unsigned , default = 1 mode for alpha1's sad selection, 0: max sad, 1: three min sads, 2: min sad, 3: co sad +//Bit 11:10 reserved +//Bit 9: 8 reg_nr4_bet0_mode // unsigned , default = 0 mode for bet0's sad selection, 0: max sad, 1: three min sads, 2: min sad, 3: co sad, else: (co sad) - (min sad) +//Bit 7: 6 reserved +//Bit 5: 4 reg_nr4_bet1_mode // unsigned , default = 2 mode for bet1's sad selection, 0: max sad, 1: three min sads, 2: min sad, 3: co sad, else: (co sad) - (min sad) +//Bit 3: 2 reserved +//Bit 1: 0 reg_nr4_bet2_mode // unsigned , default = 1 mode for bet2's sad selection, 0: max sad, 1: three min sads, 2: min sad, 3: co sad, else: (co sad) - (min sad) +#define NR4_MCNR_CM_PRAM (0x2dc6) +#define P_NR4_MCNR_CM_PRAM (volatile unsigned int *)((0x2dc6 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29 reg_nr4_cm_blue_prc_alp0 // unsigned , default = 1 enable blue processing for mcnr alpha0 calc., dft = 1 +//Bit 28 reg_nr4_cm_blue_prc_alp1 // unsigned , default = 1 enable blue processing for mcnr alpha1 calc., dft = 1 +//Bit 27 reg_nr4_cm_skin_prc_alp0 // unsigned , default = 1 enable skin tone processing for mcnr alpha0 calc., dft = 1 +//Bit 26 reg_nr4_cm_green_prc_alp0 // unsigned , default = 1 enable green processing for mcnr alpha0 clac., dft = 1 +//Bit 25 reg_nr4_cm_skin_prc_alp1 // unsigned , default = 1 enable skin tone processing for mcnr alpha0 calc., dft = 1 +//Bit 24 reg_nr4_cm_green_prc_alp1 // unsigned , default = 1 enable green processing for mcnr alpha1 clac., dft = 1 +//Bit 23:20 reg_nr4_cm_blue_hue_st // unsigned , default = 13 hue start of blue, dft = +//Bit 19:16 reg_nr4_cm_blue_hue_ed // unsigned , default = 15 hue end of blue, dft = +//Bit 15:12 reg_nr4_cm_green_hue_st // unsigned , default = 7 hue start of green, dft = +//Bit 11: 8 reg_nr4_cm_green_hue_ed // unsigned , default = 10 hue end of green, dft = +//Bit 7: 4 reg_nr4_cm_skin_hue_st // unsigned , default = 5 hue start of skin, dft = +//Bit 3: 0 reg_nr4_cm_skin_hue_ed // unsigned , default = 6 hue end of skin, dft = +#define NR4_MCNR_CM_RSHFT_ALP0 (0x2dc7) +#define P_NR4_MCNR_CM_RSHFT_ALP0 (volatile unsigned int *)((0x2dc7 << 2) + 0xff900000) +//Bit 31:28 reserved +//Bit 27:25 reg_nr4_cm_blue_rshft_bet0 // unsigned , default = 5 right shift for bet0's blue color gains, dft = 5 +//Bit 24 reg_nr4_cm_blue_prc_bet0 // unsigned , default = 1 enable blue processing for mcnr bet0 calc., dft = 1 +//Bit 23 reserved +//Bit 22:20 reg_nr4_cm_blue_rshft_alp0 // unsigned , default = 5 right shift for alpha0/1's blue color gains, dft = 5 +//Bit 19 reserved +//Bit 18:16 reg_nr4_cm_blue_rshft_alp1 // unsigned , default = 5 right shift for alpha0/1's blue color gains, dft = 5 +//Bit 15 reserved +//Bit 14:12 reg_nr4_cm_green_rshft_alp0 // unsigned , default = 4 right shift for alpha0/1's green color gains, dft = 4 +//Bit 11 reserved +//Bit 10: 8 reg_nr4_cm_green_rshft_alp1 // unsigned , default = 4 right shift for alpha0/1's green color gains, dft = 4 +//Bit 7 reserved +//Bit 6: 4 reg_nr4_cm_skin_rshft_alp0 // unsigned , default = 3 right shift for alpha0/1's skin color gains, dft = 3 +//Bit 3 reserved +//Bit 2: 0 reg_nr4_cm_skin_rshft_alp1 // unsigned , default = 3 right shift for alpha0/1's skin color gains, dft = 3 +#define NR4_MCNR_BLUE_CENT (0x2dc8) +#define P_NR4_MCNR_BLUE_CENT (volatile unsigned int *)((0x2dc8 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_blue_centx // unsigned , default = 157 x coordinate of center of blue, dft = +//Bit 15: 8 reserved +//Bit 7: 0 reg_nr4_cm_blue_centy // unsigned , default = 110 y coordinate of center of blue, dft = +#define NR4_MCNR_BLUE_GAIN_PAR0 (0x2dc9) +#define P_NR4_MCNR_BLUE_GAIN_PAR0 (volatile unsigned int *)((0x2dc9 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_cm_blue_gain_par0 // unsigned , default = 32 par0 for blue gain, dft = +//Bit 23:16 reg_nr4_cm_blue_gain_par1 // unsigned , default = 255 par1 for blue gain, dft = +//Bit 15: 8 reg_nr4_cm_blue_gain_par2 // unsigned , default = 4 par2 for blue gain, dft = +//Bit 7: 0 reg_nr4_cm_blue_gain_par3 // unsigned , default = 32 par3 for blue gain, dft = +#define NR4_MCNR_BLUE_GAIN_PAR1 (0x2dca) +#define P_NR4_MCNR_BLUE_GAIN_PAR1 (volatile unsigned int *)((0x2dca << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_blue_gain_par4 // unsigned , default = 32 par4 for blue gain, dft = +//Bit 15: 8 reg_nr4_cm_blue_gain_par5 // unsigned , default = 32 par5 for blue gain, dft = +//Bit 7: 0 reg_nr4_cm_blue_gain_par6 // unsigned , default = 0 par6 for blue gain, dft = +#define NR4_MCNR_CM_BLUE_CLIP0 (0x2dcb) +#define P_NR4_MCNR_CM_BLUE_CLIP0 (volatile unsigned int *)((0x2dcb << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_blue_luma_min // unsigned , default = 40 luma min for blue color matching, dft = +//Bit 15: 8 reserved +//Bit 7: 0 reg_nr4_cm_blue_luma_max // unsigned , default = 180 luma max for blue color matching, dft = +#define NR4_MCNR_CM_BLUE_CLIP1 (0x2dcc) +#define P_NR4_MCNR_CM_BLUE_CLIP1 (volatile unsigned int *)((0x2dcc << 2) + 0xff900000) +//Bit 31:24 reg_nr4_cm_blue_sat_min // unsigned , default = 5 saturation min for blue color matching, dft = +//Bit 23:16 reg_nr4_cm_blue_sat_max // unsigned , default = 255 saturation max for blue color matching, dft = +//Bit 15: 8 reg_nr4_cm_blue_var_min // unsigned , default = 0 variation min for blue color matching, dft = +//Bit 7: 0 reg_nr4_cm_blue_var_max // unsigned , default = 12 variation max for blue color matching, dft = +#define NR4_MCNR_GREEN_CENT (0x2dcd) +#define P_NR4_MCNR_GREEN_CENT (volatile unsigned int *)((0x2dcd << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_green_centx // unsigned , default = 114 x coordinate of center of green, dft = +//Bit 15: 8 reserved +//Bit 7: 0 reg_nr4_cm_green_centy // unsigned , default = 126 y coordinate of center of green, dft = +#define NR4_MCNR_GREEN_GAIN_PAR0 (0x2dce) +#define P_NR4_MCNR_GREEN_GAIN_PAR0 (volatile unsigned int *)((0x2dce << 2) + 0xff900000) +//Bit 31:24 reg_nr4_cm_green_gain_par0 // unsigned , default = 16 par0 for green gain, dft = +//Bit 23:16 reg_nr4_cm_green_gain_par1 // unsigned , default = 255 par1 for green gain, dft = +//Bit 15: 8 reg_nr4_cm_green_gain_par2 // unsigned , default = 255 par2 for green gain, dft = +//Bit 7: 0 reg_nr4_cm_green_gain_par3 // unsigned , default = 16 par3 for green gain, dft = +#define NR4_MCNR_GREEN_GAIN_PAR1 (0x2dcf) +#define P_NR4_MCNR_GREEN_GAIN_PAR1 (volatile unsigned int *)((0x2dcf << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_green_gain_par4 // unsigned , default = 16 par4 for green gain, dft = +//Bit 15: 8 reg_nr4_cm_green_gain_par5 // unsigned , default = 128 par5 for green gain, dft = +//Bit 7: 0 reg_nr4_cm_green_gain_par6 // unsigned , default = 0 par6 for green gain, dft = +#define NR4_MCNR_GREEN_CLIP0 (0x2dd0) +#define P_NR4_MCNR_GREEN_CLIP0 (volatile unsigned int *)((0x2dd0 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_green_luma_min // unsigned , default = 40 luma min for green color matching, dft = +//Bit 15: 8 reserved +//Bit 7: 0 reg_nr4_cm_green_luma_max // unsigned , default = 160 luma max for green color matching, dft = +#define NR4_MCNR_GREEN_CLIP2 (0x2dd1) +#define P_NR4_MCNR_GREEN_CLIP2 (volatile unsigned int *)((0x2dd1 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_cm_green_sat_min // unsigned , default = 4 saturation min for green color matching, dft = +//Bit 23:16 reg_nr4_cm_green_sat_max // unsigned , default = 255 saturation max for green color matching, dft = +//Bit 15: 8 reg_nr4_cm_green_var_min // unsigned , default = 0 variation min for green color matching, dft = +//Bit 7: 0 reg_nr4_cm_green_var_max // unsigned , default = 12 variation max for green color matching, dft = +#define NR4_MCNR_SKIN_CENT (0x2dd2) +#define P_NR4_MCNR_SKIN_CENT (volatile unsigned int *)((0x2dd2 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_skin_centx // unsigned , default = 112 x coordinate of center of skin tone, dft = +//Bit 15: 8 reserved +//Bit 7: 0 reg_nr4_cm_skin_centy // unsigned , default = 149 y coordinate of center of skin tone, dft = +#define NR4_MCNR_SKIN_GAIN_PAR0 (0x2dd3) +#define P_NR4_MCNR_SKIN_GAIN_PAR0 (volatile unsigned int *)((0x2dd3 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_cm_skin_gain_par0 // unsigned , default = 20 par0 for skin gain, dft = +//Bit 23:16 reg_nr4_cm_skin_gain_par1 // unsigned , default = 255 par1 for skin gain, dft = +//Bit 15: 8 reg_nr4_cm_skin_gain_par2 // unsigned , default = 255 par2 for skin gain, dft = +//Bit 7: 0 reg_nr4_cm_skin_gain_par3 // unsigned , default = 8 par3 for skin gain, dft = +#define NR4_MCNR_SKIN_GAIN_PAR1 (0x2dd4) +#define P_NR4_MCNR_SKIN_GAIN_PAR1 (volatile unsigned int *)((0x2dd4 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_skin_gain_par4 // unsigned , default = 8 par4 for skin gain, dft = +//Bit 15: 8 reg_nr4_cm_skin_gain_par5 // unsigned , default = 128 par5 for skin gain, dft = +//Bit 7: 0 reg_nr4_cm_skin_gain_par6 // unsigned , default = 0 par6 for skin gain, dft = +#define NR4_MCNR_SKIN_CLIP0 (0x2dd5) +#define P_NR4_MCNR_SKIN_CLIP0 (volatile unsigned int *)((0x2dd5 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_cm_skin_luma_min // unsigned , default = 40 luma min for skin color matching, dft = +//Bit 15: 8 reserved +//Bit 7: 0 reg_nr4_cm_skin_luma_max // unsigned , default = 180 luma max for skin color matching, dft = +#define NR4_MCNR_SKIN_CLIP1 (0x2dd6) +#define P_NR4_MCNR_SKIN_CLIP1 (volatile unsigned int *)((0x2dd6 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_cm_skin_sat_min // unsigned , default = 5 saturation min for skin color matching, dft = +//Bit 23:16 reg_nr4_cm_skin_sat_max // unsigned , default = 255 saturation max for skin color matching, dft = +//Bit 15: 8 reg_nr4_cm_skin_var_min // unsigned , default = 0 variation min for skin color matching, dft = +//Bit 7: 0 reg_nr4_cm_skin_var_max // unsigned , default = 12 variation max for skin color matching, dft = +#define NR4_MCNR_ALP1_GLB_CTRL (0x2dd7) +#define P_NR4_MCNR_ALP1_GLB_CTRL (volatile unsigned int *)((0x2dd7 << 2) + 0xff900000) +//Bit 31 reg_nr4_alp1_glb_gain_en // unsigned , default = 0 alp1 adjust by global gain, dft = 1 +//Bit 30:28 reg_nr4_alp1_glb_gain_lsft // unsigned , default = 6 alp1 left shift before combine with global gain +//Bit 27 reg_nr4_bet0_glb_gain_en // unsigned , default = 1 bet0 adjust by global gain, dft = 1 +//Bit 26:24 reg_nr4_bet0_glb_gain_lsft // unsigned , default = 6 bet1 left shift before combine with global gain +//Bit 23 reg_nr4_bet1_glb_gain_en // unsigned , default = 0 bet1 adjust by global gain, dft = 0 +//Bit 22:20 reg_nr4_bet1_glb_gain_lsft // unsigned , default = 6 bet1 left shift before combine with global gain +//Bit 19 reg_nr4_bet2_glb_gain_en // unsigned , default = 1 bet2 adjust by global gain, dft = 1 +//Bit 18:16 reg_nr4_bet2_glb_gain_lsft // unsigned , default = 6 bet2 left shift before combine with global gain +//Bit 15 reg_nr4_alp1_ac_en // unsigned , default = 1 alp1 adjust by ac, dft = 1 +//Bit 14:12 reg_nr4_alp1_ac_lsft // unsigned , default = 5 alp1 left shift before combine with ac +//Bit 11 reg_nr4_bet0_ac_en // unsigned , default = 0 bet0 adjust by ac, dft = 1 +//Bit 10: 8 reg_nr4_bet0_ac_lsft // unsigned , default = 5 bet0 left shift before combine with ac +//Bit 7 reg_nr4_bet1_ac_en // unsigned , default = 0 bet1 adjust by ac, dft = 1 +//Bit 6: 4 reg_nr4_bet1_ac_lsft // unsigned , default = 5 bet1 left shift before combine with ac +//Bit 3 reg_nr4_bet2_ac_en // unsigned , default = 0 bet2 adjust by ac, dft = 1 +//Bit 2: 0 reg_nr4_bet2_ac_lsft // unsigned , default = 5 bet2 left shift before combine with ac +#define NR4_MCNR_DC2NORM_LUT0 (0x2dd8) +#define P_NR4_MCNR_DC2NORM_LUT0 (volatile unsigned int *)((0x2dd8 << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:24 reg_nr4_dc2norm_lut0 // unsigned , default = 16 normal 0~16, dc to norm for alpha adjust, dft = +//Bit 23:21 reserved +//Bit 20:16 reg_nr4_dc2norm_lut1 // unsigned , default = 16 normal 0~16, dc to norm for alpha adjust, dft = +//Bit 15:13 reserved +//Bit 12: 8 reg_nr4_dc2norm_lut2 // unsigned , default = 16 normal 0~16, dc to norm for alpha adjust, dft = +//Bit 7: 5 reserved +//Bit 4: 0 reg_nr4_dc2norm_lut3 // unsigned , default = 16 normal 0~16, dc to norm for alpha adjust, dft = +#define NR4_MCNR_DC2NORM_LUT1 (0x2dd9) +#define P_NR4_MCNR_DC2NORM_LUT1 (volatile unsigned int *)((0x2dd9 << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:24 reg_nr4_dc2norm_lut4 // unsigned , default = 16 normal 0~16, dc to norm for alpha adjust, dft = +//Bit 23:21 reserved +//Bit 20:16 reg_nr4_dc2norm_lut5 // unsigned , default = 16 normal 0~16, dc to norm for alpha adjust, dft = +//Bit 15:13 reserved +//Bit 12: 8 reg_nr4_dc2norm_lut6 // unsigned , default = 16 normal 0~16, dc to norm for alpha adjust, dft = +//Bit 7: 5 reserved +//Bit 4: 0 reg_nr4_dc2norm_lut7 // unsigned , default = 12 normal 0~16, dc to norm for alpha adjust, dft = +#define NR4_MCNR_DC2NORM_LUT2 (0x2dda) +#define P_NR4_MCNR_DC2NORM_LUT2 (volatile unsigned int *)((0x2dda << 2) + 0xff900000) +//Bit 31: 5 reserved +//Bit 4: 0 reg_nr4_dc2norm_lut8 // unsigned , default = 8 normal 0~16, dc to norm for alpha adjust, dft = +#define NR4_MCNR_AC2NORM_LUT0 (0x2ddb) +#define P_NR4_MCNR_AC2NORM_LUT0 (volatile unsigned int *)((0x2ddb << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:24 reg_nr4_ac2norm_lut0 // unsigned , default = 2 normal 0~16, ac to norm for alpha adjust, dft = +//Bit 23:21 reserved +//Bit 20:16 reg_nr4_ac2norm_lut1 // unsigned , default = 16 normal 0~16, ac to norm for alpha adjust, dft = +//Bit 15:13 reserved +//Bit 12: 8 reg_nr4_ac2norm_lut2 // unsigned , default = 16 normal 0~16, ac to norm for alpha adjust, dft = +//Bit 7: 5 reserved +//Bit 4: 0 reg_nr4_ac2norm_lut3 // unsigned , default = 12 normal 0~16, ac to norm for alpha adjust, dft = +#define NR4_MCNR_AC2NORM_LUT1 (0x2ddc) +#define P_NR4_MCNR_AC2NORM_LUT1 (volatile unsigned int *)((0x2ddc << 2) + 0xff900000) +//Bit 31:29 reserved +//Bit 28:24 reg_nr4_ac2norm_lut4 // unsigned , default = 4 normal 0~16, ac to norm for alpha adjust, dft = +//Bit 23:21 reserved +//Bit 20:16 reg_nr4_ac2norm_lut5 // unsigned , default = 2 normal 0~16, ac to norm for alpha adjust, dft = +//Bit 15:13 reserved +//Bit 12: 8 reg_nr4_ac2norm_lut6 // unsigned , default = 1 normal 0~16, ac to norm for alpha adjust, dft = +//Bit 7: 5 reserved +//Bit 4: 0 reg_nr4_ac2norm_lut7 // unsigned , default = 1 normal 0~16, ac to norm for alpha adjust, dft = +#define NR4_MCNR_AC2NORM_LUT2 (0x2ddd) +#define P_NR4_MCNR_AC2NORM_LUT2 (volatile unsigned int *)((0x2ddd << 2) + 0xff900000) +//Bit 31: 5 reserved +//Bit 4: 0 reg_nr4_ac2norm_lut8 // unsigned , default = 1 normal 0~16, ac to norm for alpha adjust, dft = +#define NR4_MCNR_SAD2ALP0_LUT0 (0x2dde) +#define P_NR4_MCNR_SAD2ALP0_LUT0 (volatile unsigned int *)((0x2dde << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2alp0_lut0 // unsigned , default = 255 sad to alpha0 for temporal pixel value, dft = 255 +//Bit 23:16 reg_nr4_sad2alp0_lut1 // unsigned , default = 252 sad to alpha0 for temporal pixel value, dft = 252 +//Bit 15: 8 reg_nr4_sad2alp0_lut2 // unsigned , default = 249 sad to alpha0 for temporal pixel value, dft = 249 +//Bit 7: 0 reg_nr4_sad2alp0_lut3 // unsigned , default = 235 sad to alpha0 for temporal pixel value, dft = 70 +#define NR4_MCNR_SAD2ALP0_LUT1 (0x2ddf) +#define P_NR4_MCNR_SAD2ALP0_LUT1 (volatile unsigned int *)((0x2ddf << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2alp0_lut4 // unsigned , default = 185 sad to alpha0 for temporal pixel value, dft = 12 +//Bit 23:16 reg_nr4_sad2alp0_lut5 // unsigned , default = 70 sad to alpha0 for temporal pixel value, dft = 1 +//Bit 15: 8 reg_nr4_sad2alp0_lut6 // unsigned , default = 14 sad to alpha0 for temporal pixel value, dft = 0 +//Bit 7: 0 reg_nr4_sad2alp0_lut7 // unsigned , default = 1 sad to alpha0 for temporal pixel value, dft = 0 +#define NR4_MCNR_SAD2ALP0_LUT2 (0x2de0) +#define P_NR4_MCNR_SAD2ALP0_LUT2 (volatile unsigned int *)((0x2de0 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2alp0_lut8 // unsigned , default = 0 sad to alpha0 for temporal pixel value, dft = 0 +//Bit 23:16 reg_nr4_sad2alp0_lut9 // unsigned , default = 0 sad to alpha0 for temporal pixel value, dft = 0 +//Bit 15: 8 reg_nr4_sad2alp0_lut10 // unsigned , default = 0 sad to alpha0 for temporal pixel value, dft = 0 +//Bit 7: 0 reg_nr4_sad2alp0_lut11 // unsigned , default = 0 sad to alpha0 for temporal pixel value, dft = 0 +#define NR4_MCNR_SAD2ALP0_LUT3 (0x2de1) +#define P_NR4_MCNR_SAD2ALP0_LUT3 (volatile unsigned int *)((0x2de1 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2alp0_lut12 // unsigned , default = 0 sad to alpha0 for temporal pixel value, dft = 0 +//Bit 23:16 reg_nr4_sad2alp0_lut13 // unsigned , default = 0 sad to alpha0 for temporal pixel value, dft = 0 +//Bit 15: 8 reg_nr4_sad2alp0_lut14 // unsigned , default = 0 sad to alpha0 for temporal pixel value, dft = 0 +//Bit 7: 0 reg_nr4_sad2alp0_lut15 // unsigned , default = 0 sad to alpha0 for temporal pixel value, dft = 0 +#define NR4_MCNR_SAD2ALP1_LUT0 (0x2de2) +#define P_NR4_MCNR_SAD2ALP1_LUT0 (volatile unsigned int *)((0x2de2 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2alp1_lut0 // unsigned , default = 192 sad to alpha1 for temporal blending, dft = 128 +//Bit 23:16 reg_nr4_sad2alp1_lut1 // unsigned , default = 160 sad to alpha1 for temporal blending, dft = 128 +//Bit 15: 8 reg_nr4_sad2alp1_lut2 // unsigned , default = 128 sad to alpha1 for temporal blending, dft = 128 +//Bit 7: 0 reg_nr4_sad2alp1_lut3 // unsigned , default = 96 sad to alpha1 for temporal blending, dft = 64 +#define NR4_MCNR_SAD2ALP1_LUT1 (0x2de3) +#define P_NR4_MCNR_SAD2ALP1_LUT1 (volatile unsigned int *)((0x2de3 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2alp1_lut4 // unsigned , default = 64 sad to alpha1 for temporal blending, dft = 64 +//Bit 23:16 reg_nr4_sad2alp1_lut5 // unsigned , default = 32 sad to alpha1 for temporal blending, dft = 128 +//Bit 15: 8 reg_nr4_sad2alp1_lut6 // unsigned , default = 16 sad to alpha1 for temporal blending, dft = 255 +//Bit 7: 0 reg_nr4_sad2alp1_lut7 // unsigned , default = 8 sad to alpha1 for temporal blending, dft = 255 +#define NR4_MCNR_SAD2ALP1_LUT2 (0x2de4) +#define P_NR4_MCNR_SAD2ALP1_LUT2 (volatile unsigned int *)((0x2de4 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2alp1_lut8 // unsigned , default = 4 sad to alpha1 for temporal blending, dft = 255 +//Bit 23:16 reg_nr4_sad2alp1_lut9 // unsigned , default = 0 sad to alpha1 for temporal blending, dft = 255 +//Bit 15: 8 reg_nr4_sad2alp1_lut10 // unsigned , default = 16 sad to alpha1 for temporal blending, dft = 255 +//Bit 7: 0 reg_nr4_sad2alp1_lut11 // unsigned , default = 64 sad to alpha1 for temporal blending, dft = 255 +#define NR4_MCNR_SAD2ALP1_LUT3 (0x2de5) +#define P_NR4_MCNR_SAD2ALP1_LUT3 (volatile unsigned int *)((0x2de5 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2alp1_lut12 // unsigned , default = 96 sad to alpha1 for temporal blending, dft = 255 +//Bit 23:16 reg_nr4_sad2alp1_lut13 // unsigned , default = 224 sad to alpha1 for temporal blending, dft = 255 +//Bit 15: 8 reg_nr4_sad2alp1_lut14 // unsigned , default = 255 sad to alpha1 for temporal blending, dft = 255 +//Bit 7: 0 reg_nr4_sad2alp1_lut15 // unsigned , default = 255 sad to alpha1 for temporal blending, dft = 255 +#define NR4_MCNR_SAD2BET0_LUT0 (0x2de6) +#define P_NR4_MCNR_SAD2BET0_LUT0 (volatile unsigned int *)((0x2de6 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet0_lut0 // unsigned , default = 0 sad to beta0 for tnr and mcnr blending, dft = 0 +//Bit 23:16 reg_nr4_sad2bet0_lut1 // unsigned , default = 2 sad to beta0 for tnr and mcnr blending, dft = 2 +//Bit 15: 8 reg_nr4_sad2bet0_lut2 // unsigned , default = 4 sad to beta0 for tnr and mcnr blending, dft = 4 +//Bit 7: 0 reg_nr4_sad2bet0_lut3 // unsigned , default = 8 sad to beta0 for tnr and mcnr blending, dft = 8 +#define NR4_MCNR_SAD2BET0_LUT1 (0x2de7) +#define P_NR4_MCNR_SAD2BET0_LUT1 (volatile unsigned int *)((0x2de7 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet0_lut4 // unsigned , default = 16 sad to beta0 for tnr and mcnr blending, dft = 16 +//Bit 23:16 reg_nr4_sad2bet0_lut5 // unsigned , default = 32 sad to beta0 for tnr and mcnr blending, dft = 32 +//Bit 15: 8 reg_nr4_sad2bet0_lut6 // unsigned , default = 48 sad to beta0 for tnr and mcnr blending, dft = 48 +//Bit 7: 0 reg_nr4_sad2bet0_lut7 // unsigned , default = 64 sad to beta0 for tnr and mcnr blending, dft = 64 +#define NR4_MCNR_SAD2BET0_LUT2 (0x2de8) +#define P_NR4_MCNR_SAD2BET0_LUT2 (volatile unsigned int *)((0x2de8 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet0_lut8 // unsigned , default = 80 sad to beta0 for tnr and mcnr blending, dft = 80 +//Bit 23:16 reg_nr4_sad2bet0_lut9 // unsigned , default = 96 sad to beta0 for tnr and mcnr blending, dft = 96 +//Bit 15: 8 reg_nr4_sad2bet0_lut10 // unsigned , default = 112 sad to beta0 for tnr and mcnr blending, dft = 112 +//Bit 7: 0 reg_nr4_sad2bet0_lut11 // unsigned , default = 128 sad to beta0 for tnr and mcnr blending, dft = 128 +#define NR4_MCNR_SAD2BET0_LUT3 (0x2de9) +#define P_NR4_MCNR_SAD2BET0_LUT3 (volatile unsigned int *)((0x2de9 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet0_lut12 // unsigned , default = 196 sad to beta0 for tnr and mcnr blending, dft = 160 +//Bit 23:16 reg_nr4_sad2bet0_lut13 // unsigned , default = 224 sad to beta0 for tnr and mcnr blending, dft = 192 +//Bit 15: 8 reg_nr4_sad2bet0_lut14 // unsigned , default = 255 sad to beta0 for tnr and mcnr blending, dft = 224 +//Bit 7: 0 reg_nr4_sad2bet0_lut15 // unsigned , default = 255 sad to beta0 for tnr and mcnr blending, dft = 255 +#define NR4_MCNR_SAD2BET1_LUT0 (0x2dea) +#define P_NR4_MCNR_SAD2BET1_LUT0 (volatile unsigned int *)((0x2dea << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet1_lut0 // unsigned , default = 0 sad to beta1 for deghost blending, dft = 0 +//Bit 23:16 reg_nr4_sad2bet1_lut1 // unsigned , default = 2 sad to beta1 for deghost blending, dft = 2 +//Bit 15: 8 reg_nr4_sad2bet1_lut2 // unsigned , default = 4 sad to beta1 for deghost blending, dft = 4 +//Bit 7: 0 reg_nr4_sad2bet1_lut3 // unsigned , default = 8 sad to beta1 for deghost blending, dft = 8 +#define NR4_MCNR_SAD2BET1_LUT1 (0x2deb) +#define P_NR4_MCNR_SAD2BET1_LUT1 (volatile unsigned int *)((0x2deb << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet1_lut4 // unsigned , default = 16 sad to beta1 for deghost blending, dft = 16 +//Bit 23:16 reg_nr4_sad2bet1_lut5 // unsigned , default = 32 sad to beta1 for deghost blending, dft = 32 +//Bit 15: 8 reg_nr4_sad2bet1_lut6 // unsigned , default = 48 sad to beta1 for deghost blending, dft = 48 +//Bit 7: 0 reg_nr4_sad2bet1_lut7 // unsigned , default = 64 sad to beta1 for deghost blending, dft = 64 +#define NR4_MCNR_SAD2BET1_LUT2 (0x2dec) +#define P_NR4_MCNR_SAD2BET1_LUT2 (volatile unsigned int *)((0x2dec << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet1_lut8 // unsigned , default = 80 sad to beta1 for deghost blending, dft = 80 +//Bit 23:16 reg_nr4_sad2bet1_lut9 // unsigned , default = 96 sad to beta1 for deghost blending, dft = 96 +//Bit 15: 8 reg_nr4_sad2bet1_lut10 // unsigned , default = 112 sad to beta1 for deghost blending, dft = 112 +//Bit 7: 0 reg_nr4_sad2bet1_lut11 // unsigned , default = 128 sad to beta1 for deghost blending, dft = 128 +#define NR4_MCNR_SAD2BET1_LUT3 (0x2ded) +#define P_NR4_MCNR_SAD2BET1_LUT3 (volatile unsigned int *)((0x2ded << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet1_lut12 // unsigned , default = 160 sad to beta1 for deghost blending, dft = 160 +//Bit 23:16 reg_nr4_sad2bet1_lut13 // unsigned , default = 192 sad to beta1 for deghost blending, dft = 192 +//Bit 15: 8 reg_nr4_sad2bet1_lut14 // unsigned , default = 224 sad to beta1 for deghost blending, dft = 224 +//Bit 7: 0 reg_nr4_sad2bet1_lut15 // unsigned , default = 255 sad to beta1 for deghost blending, dft = 255 +#define NR4_MCNR_SAD2BET2_LUT0 (0x2dee) +#define P_NR4_MCNR_SAD2BET2_LUT0 (volatile unsigned int *)((0x2dee << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet2_lut0 // unsigned , default = 0 sad to beta2 for snr and mcnr blending, dft = 0 +//Bit 23:16 reg_nr4_sad2bet2_lut1 // unsigned , default = 1 sad to beta2 for snr and mcnr blending, dft = 2 +//Bit 15: 8 reg_nr4_sad2bet2_lut2 // unsigned , default = 2 sad to beta2 for snr and mcnr blending, dft = 4 +//Bit 7: 0 reg_nr4_sad2bet2_lut3 // unsigned , default = 4 sad to beta2 for snr and mcnr blending, dft = 8 +#define NR4_MCNR_SAD2BET2_LUT1 (0x2def) +#define P_NR4_MCNR_SAD2BET2_LUT1 (volatile unsigned int *)((0x2def << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet2_lut4 // unsigned , default = 8 sad to beta2 for snr and mcnr blending, dft = 16 +//Bit 23:16 reg_nr4_sad2bet2_lut5 // unsigned , default = 16 sad to beta2 for snr and mcnr blending, dft = 32 +//Bit 15: 8 reg_nr4_sad2bet2_lut6 // unsigned , default = 32 sad to beta2 for snr and mcnr blending, dft = 48 +//Bit 7: 0 reg_nr4_sad2bet2_lut7 // unsigned , default = 48 sad to beta2 for snr and mcnr blending, dft = 64 +#define NR4_MCNR_SAD2BET2_LUT2 (0x2df0) +#define P_NR4_MCNR_SAD2BET2_LUT2 (volatile unsigned int *)((0x2df0 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet2_lut8 // unsigned , default = 64 sad to beta2 for snr and mcnr blending, dft = 80 +//Bit 23:16 reg_nr4_sad2bet2_lut9 // unsigned , default = 80 sad to beta2 for snr and mcnr blending, dft = 96 +//Bit 15: 8 reg_nr4_sad2bet2_lut10 // unsigned , default = 96 sad to beta2 for snr and mcnr blending, dft = 112 +//Bit 7: 0 reg_nr4_sad2bet2_lut11 // unsigned , default = 112 sad to beta2 for snr and mcnr blending, dft = 128 +#define NR4_MCNR_SAD2BET2_LUT3 (0x2df1) +#define P_NR4_MCNR_SAD2BET2_LUT3 (volatile unsigned int *)((0x2df1 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_sad2bet2_lut12 // unsigned , default = 128 sad to beta2 for snr and mcnr blending, dft = 160 +//Bit 23:16 reg_nr4_sad2bet2_lut13 // unsigned , default = 160 sad to beta2 for snr and mcnr blending, dft = 192 +//Bit 15: 8 reg_nr4_sad2bet2_lut14 // unsigned , default = 224 sad to beta2 for snr and mcnr blending, dft = 224 +//Bit 7: 0 reg_nr4_sad2bet2_lut15 // unsigned , default = 255 sad to beta2 for snr and mcnr blending, dft = 255 +#define NR4_MCNR_RO_U_SUM (0x2df2) +#define P_NR4_MCNR_RO_U_SUM (volatile unsigned int *)((0x2df2 << 2) + 0xff900000) +//Bit 31: 0 ro_nr4_u_sum // unsigned , default = 0 sum of U of current field/frame +#define NR4_MCNR_RO_V_SUM (0x2df3) +#define P_NR4_MCNR_RO_V_SUM (volatile unsigned int *)((0x2df3 << 2) + 0xff900000) +//Bit 31: 0 ro_nr4_v_sum // unsigned , default = 0 sum of V of current field/frame +#define NR4_MCNR_RO_GRDU_SUM (0x2df4) +#define P_NR4_MCNR_RO_GRDU_SUM (volatile unsigned int *)((0x2df4 << 2) + 0xff900000) +//Bit 31: 0 ro_nr4_grdu_sum // unsigned , default = 0 sum of gradient U of current field/frame +#define NR4_MCNR_RO_GRDV_SUM (0x2df5) +#define P_NR4_MCNR_RO_GRDV_SUM (volatile unsigned int *)((0x2df5 << 2) + 0xff900000) +//Bit 31: 0 ro_nr4_grdv_sum // unsigned , default = 0 sum of gradient V of current field/frame +#define NR4_TOP_CTRL (0x2dff) +#define P_NR4_TOP_CTRL (volatile unsigned int *)((0x2dff << 2) + 0xff900000) +//Bit 31:20 reg_gclk_ctrl // unsigned , default = 0 +//Bit 19 reserved +//Bit 18 reg_nr4_mcnr_en // unsigned , default = 1 ncnr enable or bypass, dft = 1 +//Bit 17 reg_nr2_en // unsigned , default = 1 nr2 enable, dft = 1 +//Bit 16 reg_nr4_en // unsigned , default = 1 nr4 enable, dft = 1 +//Bit 15 reg_nr2_proc_en // unsigned , default = 1 +//Bit 14 reg_det3d_en // unsigned , default = 1 +//Bit 13 di_polar_en // unsigned , default = 1 do does not have in C +//Bit 12 reg_cfr_enable // unsigned , default = 0 0-disable; 1:enable +//Bit 11: 9 reg_3dnr_enable_l // unsigned , default = 7 b0: Y b1:U b2:V +//Bit 8: 6 reg_3dnr_enable_r // unsigned , default = 7 b0: Y b1:U b2:V +//Bit 5 reg_nr4_lnbuf_ctrl // unsigned , default = 1 line buf ctrl for nr4: 0, 3lines, 1, 5lines, dft = 1 +//Bit 4 reg_nr4_snr2_en // unsigned , default = 0 snr2 enable, 0: use old snr, 1: use new snr2, dft = 1 +//Bit 3 reg_nr4_scene_change_en // unsigned , default = 1 enable scene change proc. dft = 1 +//Bit 2 nr2_sw_en // unsigned , default = 1 do does not have in C +//Bit 1 reserved +//Bit 0 reg_nr4_scene_change_flg // unsigned , default = 0 flags for scene change, dft = 0 +//========== nr4_mcnr_regs register end ==========// +// synopsys translate_off +// synopsys translate_on +// +// Closing file: nr4_regs.h +// +// synopsys translate_off +// synopsys translate_on +// +// Closing file: dnr_regs.h +// +//======================================================================== +// VI_HIST_SPL register (16'h2e00 - 16'h2eff) +//======================================================================== +//`define VI_HIST_SPL_VCBUS_BASE 8'h2e +// +// Reading file: vi_hist_spl_reg.h +// +// synopsys translate_off +// synopsys translate_on +// ---------------------------- +// VI_HIST_SPL 0x2e +// ---------------------------- +// ----------------------------------------------- +// CBUS_BASE: VI_HIST_SPL_VCBUS_BASE = 0x2e +// ----------------------------------------------- +//BIT 14: 34bin only, 0&255 and other 32bins +//Bit 13:11 hist_din_sel, 00: from vdin0 dout, 1: from vdin1, 2: from nr dout, 3: di output, 4: vpp output, 5: vd1_din, 6: vd2_din, 7:osd1_dout +//Bit 10:8 hist_din_comp_mux, mux of [29:22], [19:12], [9:2] for hist detect +//Bit 7:5 hist_dnlp_low the real pixels in each bins got by VI_DNLP_HISTXX should multiple with 2^(dnlp_low+3) +//Bit 3:2 hist_din_sel the source used for hist statistics. 00: from matrix0 dout, 01: from vsc_dout, 10: from matrix1 dout, 11: form matrix1 din +//Bit 1 hist_win_en 1'b0: hist used for full picture; 1'b1: hist used for pixels within hist window +//Bit 0 hist_spl_en 1'b0: disable hist readback; 1'b1: enable hist readback +#define VI_HIST_CTRL (0x2e00) +#define P_VI_HIST_CTRL (volatile unsigned int *)((0x2e00 << 2) + 0xff900000) +//Bit 28:16 hist_hstart horizontal start value to define hist window +//Bit 12:0 hist_hend horizontal end value to define hist window +#define VI_HIST_H_START_END (0x2e01) +#define P_VI_HIST_H_START_END (volatile unsigned int *)((0x2e01 << 2) + 0xff900000) +//Bit 28:16 hist_vstart vertical start value to define hist window +//Bit 12:0 hist_vend vertical end value to define hist window +#define VI_HIST_V_START_END (0x2e02) +#define P_VI_HIST_V_START_END (volatile unsigned int *)((0x2e02 << 2) + 0xff900000) +//Bit 15:8 hist_max maximum value +//Bit 7:0 hist_min minimum value +//read only +#define VI_HIST_MAX_MIN (0x2e03) +#define P_VI_HIST_MAX_MIN (volatile unsigned int *)((0x2e03 << 2) + 0xff900000) +//Bit 31:0 hist_spl_rd +//counts for the total luma value +//read only +#define VI_HIST_SPL_VAL (0x2e04) +#define P_VI_HIST_SPL_VAL (volatile unsigned int *)((0x2e04 << 2) + 0xff900000) +//Bit 21:0 hist_spl_pixel_count +//counts for the total calculated pixels +//read only +#define VI_HIST_SPL_PIX_CNT (0x2e05) +#define P_VI_HIST_SPL_PIX_CNT (volatile unsigned int *)((0x2e05 << 2) + 0xff900000) +//Bit 31:0 hist_chroma_sum +//counts for the total chroma value +//read only +#define VI_HIST_CHROMA_SUM (0x2e06) +#define P_VI_HIST_CHROMA_SUM (volatile unsigned int *)((0x2e06 << 2) + 0xff900000) +//Bit 31:16 higher hist bin +//Bit 15:0 lower hist bin +//0-255 are splited to 64 bins evenly, and VI_DNLP_HISTXX +//are the statistic number of pixels that within each bin. +//VI_DNLP_HIST00[15:0] counts for the first bin +//VI_DNLP_HIST00[31:16] counts for the second bin +//VI_DNLP_HIST01[15:0] counts for the third bin +//VI_DNLP_HIST01[31:16] counts for the fourth bin +//etc... +//read only +#define VI_DNLP_HIST00 (0x2e07) +#define P_VI_DNLP_HIST00 (volatile unsigned int *)((0x2e07 << 2) + 0xff900000) +#define VI_DNLP_HIST01 (0x2e08) +#define P_VI_DNLP_HIST01 (volatile unsigned int *)((0x2e08 << 2) + 0xff900000) +#define VI_DNLP_HIST02 (0x2e09) +#define P_VI_DNLP_HIST02 (volatile unsigned int *)((0x2e09 << 2) + 0xff900000) +#define VI_DNLP_HIST03 (0x2e0a) +#define P_VI_DNLP_HIST03 (volatile unsigned int *)((0x2e0a << 2) + 0xff900000) +#define VI_DNLP_HIST04 (0x2e0b) +#define P_VI_DNLP_HIST04 (volatile unsigned int *)((0x2e0b << 2) + 0xff900000) +#define VI_DNLP_HIST05 (0x2e0c) +#define P_VI_DNLP_HIST05 (volatile unsigned int *)((0x2e0c << 2) + 0xff900000) +#define VI_DNLP_HIST06 (0x2e0d) +#define P_VI_DNLP_HIST06 (volatile unsigned int *)((0x2e0d << 2) + 0xff900000) +#define VI_DNLP_HIST07 (0x2e0e) +#define P_VI_DNLP_HIST07 (volatile unsigned int *)((0x2e0e << 2) + 0xff900000) +#define VI_DNLP_HIST08 (0x2e0f) +#define P_VI_DNLP_HIST08 (volatile unsigned int *)((0x2e0f << 2) + 0xff900000) +#define VI_DNLP_HIST09 (0x2e10) +#define P_VI_DNLP_HIST09 (volatile unsigned int *)((0x2e10 << 2) + 0xff900000) +#define VI_DNLP_HIST10 (0x2e11) +#define P_VI_DNLP_HIST10 (volatile unsigned int *)((0x2e11 << 2) + 0xff900000) +#define VI_DNLP_HIST11 (0x2e12) +#define P_VI_DNLP_HIST11 (volatile unsigned int *)((0x2e12 << 2) + 0xff900000) +#define VI_DNLP_HIST12 (0x2e13) +#define P_VI_DNLP_HIST12 (volatile unsigned int *)((0x2e13 << 2) + 0xff900000) +#define VI_DNLP_HIST13 (0x2e14) +#define P_VI_DNLP_HIST13 (volatile unsigned int *)((0x2e14 << 2) + 0xff900000) +#define VI_DNLP_HIST14 (0x2e15) +#define P_VI_DNLP_HIST14 (volatile unsigned int *)((0x2e15 << 2) + 0xff900000) +#define VI_DNLP_HIST15 (0x2e16) +#define P_VI_DNLP_HIST15 (volatile unsigned int *)((0x2e16 << 2) + 0xff900000) +#define VI_DNLP_HIST16 (0x2e17) +#define P_VI_DNLP_HIST16 (volatile unsigned int *)((0x2e17 << 2) + 0xff900000) +#define VI_DNLP_HIST17 (0x2e18) +#define P_VI_DNLP_HIST17 (volatile unsigned int *)((0x2e18 << 2) + 0xff900000) +#define VI_DNLP_HIST18 (0x2e19) +#define P_VI_DNLP_HIST18 (volatile unsigned int *)((0x2e19 << 2) + 0xff900000) +#define VI_DNLP_HIST19 (0x2e1a) +#define P_VI_DNLP_HIST19 (volatile unsigned int *)((0x2e1a << 2) + 0xff900000) +#define VI_DNLP_HIST20 (0x2e1b) +#define P_VI_DNLP_HIST20 (volatile unsigned int *)((0x2e1b << 2) + 0xff900000) +#define VI_DNLP_HIST21 (0x2e1c) +#define P_VI_DNLP_HIST21 (volatile unsigned int *)((0x2e1c << 2) + 0xff900000) +#define VI_DNLP_HIST22 (0x2e1d) +#define P_VI_DNLP_HIST22 (volatile unsigned int *)((0x2e1d << 2) + 0xff900000) +#define VI_DNLP_HIST23 (0x2e1e) +#define P_VI_DNLP_HIST23 (volatile unsigned int *)((0x2e1e << 2) + 0xff900000) +#define VI_DNLP_HIST24 (0x2e1f) +#define P_VI_DNLP_HIST24 (volatile unsigned int *)((0x2e1f << 2) + 0xff900000) +#define VI_DNLP_HIST25 (0x2e20) +#define P_VI_DNLP_HIST25 (volatile unsigned int *)((0x2e20 << 2) + 0xff900000) +#define VI_DNLP_HIST26 (0x2e21) +#define P_VI_DNLP_HIST26 (volatile unsigned int *)((0x2e21 << 2) + 0xff900000) +#define VI_DNLP_HIST27 (0x2e22) +#define P_VI_DNLP_HIST27 (volatile unsigned int *)((0x2e22 << 2) + 0xff900000) +#define VI_DNLP_HIST28 (0x2e23) +#define P_VI_DNLP_HIST28 (volatile unsigned int *)((0x2e23 << 2) + 0xff900000) +#define VI_DNLP_HIST29 (0x2e24) +#define P_VI_DNLP_HIST29 (volatile unsigned int *)((0x2e24 << 2) + 0xff900000) +#define VI_DNLP_HIST30 (0x2e25) +#define P_VI_DNLP_HIST30 (volatile unsigned int *)((0x2e25 << 2) + 0xff900000) +#define VI_DNLP_HIST31 (0x2e26) +#define P_VI_DNLP_HIST31 (volatile unsigned int *)((0x2e26 << 2) + 0xff900000) +#define VI_DNLP_HIST32 (0x2e27) +#define P_VI_DNLP_HIST32 (volatile unsigned int *)((0x2e27 << 2) + 0xff900000) +//Bit 28:16 hist_pic_height active input data window height +//Bit 12:0 hist_pic_width active input data window width +#define VI_HIST_PIC_SIZE (0x2e28) +#define P_VI_HIST_PIC_SIZE (volatile unsigned int *)((0x2e28 << 2) + 0xff900000) +//Bit 15:8 hist_pix_white_value: >= this value will be white pixel +//Bit 7:0 hist_pix_black_value: <= this value will be black pixel +#define VI_HIST_BLACK_WHITE_VALUE (0x2e29) +#define P_VI_HIST_BLACK_WHITE_VALUE (volatile unsigned int *)((0x2e29 << 2) + 0xff900000) +#define VI_HIST_GCLK_CTRL (0x2e2a) +#define P_VI_HIST_GCLK_CTRL (volatile unsigned int *)((0x2e2a << 2) + 0xff900000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: vi_hist_spl_reg.h +// +//`define MCDI_VCBUS_BASE 8'h2f +// +// Reading file: mcdi_regs.h +// +// synopsys translate_off +// synopsys translate_on +// ----------------------------------------------- +// CBUS_BASE: MCDI_VCBUS_BASE = 0x2f +// ----------------------------------------------- +////=================================================================//// +//// memc di core 0 +////=================================================================//// +#define MCDI_HV_SIZEIN (0x2f00) +#define P_MCDI_HV_SIZEIN (volatile unsigned int *)((0x2f00 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, reg_mcdi_hsize image horizontal size (number of cols) default=1024 +//Bit 15:13, reserved +//Bit 12: 0, reg_mcdi_vsize image vertical size (number of rows) default=1024 +#define MCDI_HV_BLKSIZEIN (0x2f01) +#define P_MCDI_HV_BLKSIZEIN (volatile unsigned int *)((0x2f01 << 2) + 0xff900000) +//Bit 31, reg_mcdi_vrev default = 0 +//Bit 30, reg_mcdi_hrev default = 0 +//Bit 29:28, reserved +//Bit 27:16, reg_mcdi_blkhsize image horizontal blk size (number of cols) default=1024 +//Bit 15:13, reserved +//Bit 11: 0, reg_mcdi_blkvsize image vertical blk size (number of rows) default=1024 +#define MCDI_BLKTOTAL (0x2f02) +#define P_MCDI_BLKTOTAL (volatile unsigned int *)((0x2f02 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23: 0, reg_mcdi_blktotal +#define MCDI_MOTINEN (0x2f03) +#define P_MCDI_MOTINEN (volatile unsigned int *)((0x2f03 << 2) + 0xff900000) +//Bit 31: 2, reserved +//Bit 1, reg_mcdi_motionrefen. enable motion refinement of MA, default = 1 +//Bit 0, reg_mcdi_motionparadoxen. enable motion paradox detection, default = 1 +#define MCDI_CTRL_MODE (0x2f04) +#define P_MCDI_CTRL_MODE (volatile unsigned int *)((0x2f04 << 2) + 0xff900000) +//Bit 31:28, reserved +//Bit 27:26, reg_mcdi_lmvlocken 0:disable, 1: use max Lmv, 2: use no-zero Lmv, lmv lock enable mode, default = 2 +//Bit 25, reg_mcdi_reldetrptchken +// 0: unable; 1: enable, enable repeat pattern check (not repeat mv detection) in rel det part, default = 1 +//Bit 24, reg_mcdi_reldetgmvpd22chken +// 0: unable; 1: enable, enable pull-down 22 mode check in gmv lock mode for rel det, default = 1 +//Bit 23, reg_mcdi_pd22chken +// 0: unable; 1: enable, enable pull-down 22 mode check (lock) function, default = 1 +//Bit 22, reg_mcdi_reldetlpfen +// 0: unable; 1: enable, enable det value lpf, default = 1 +//Bit 21, reg_mcdi_reldetlmvpd22chken +// 0: unable; 1: enable, enable pull-down 22 mode check in lmv lock mode for rel det, default = 1 +//Bit 20, reg_mcdi_reldetlmvdifchken +// 0: unable; 1: enable, enable lmv dif check in lmv lock mode for rel det, default = 1 +//Bit 19, reg_mcdi_reldetgmvdifchken +// 0: unable; 1: enable, enable lmv dif check in lmv lock mode for rel det, default = 1 +//Bit 18, reg_mcdi_reldetpd22chken +// 0: unable; 1: enable, enable pull-down 22 mode check for rel det refinement, default = 1 +//Bit 17, reg_mcdi_reldetfrqchken +// 0: unable; 1: enable, enable mv frequency check in rel det, default = 1 +//Bit 16, reg_mcdi_qmeen +// 0: unable; 1: enable, enable quarter motion estimation, defautl = 1 +//Bit 15, reg_mcdi_refrptmven +// 0: unable; 1: enable, use repeat mv in refinement, default = 1 +//Bit 14, reg_mcdi_refgmven +// 0: unable; 1: enable, use gmv in refinement, default = 1 +//Bit 13, reg_mcdi_reflmven +// 0: unable; 1: enable, use lmvs in refinement, default = 1 +//Bit 12, reg_mcdi_refnmven +// 0: unable; 1: enable, use neighoring mvs in refinement, default = 1 +//Bit 11, reserved +//Bit 10, reg_mcdi_referrfrqchken +// 0: unable; 1: enable, enable mv frquency check while finding min err in ref, default = 1 +//Bit 9, reg_mcdi_refen +// 0: unable; 1: enable, enable mv refinement, default = 1 +//Bit 8, reg_mcdi_horlineen +// 0: unable; 1: enable,enable horizontal lines detection by sad map, default = 1 +//Bit 7, reg_mcdi_highvertfrqdeten +// 0: unable; 1: enable, enable high vertical frequency pattern detection, default = 1 +//Bit 6, reg_mcdi_gmvlocken +// 0: unable; 1: enable, enable gmv lock mode, default = 1 +//Bit 5, reg_mcdi_rptmven +// 0: unable; 1: enable, enable repeat pattern detection, default = 1 +//Bit 4, reg_mcdi_gmven +// 0: unable; 1: enable, enable global motion estimation, default = 1 +//Bit 3, reg_mcdi_lmven +// 0: unable; 1: enable, enable line mv estimation for hme, default = 1 +//Bit 2, reg_mcdi_chkedgeen +// 0: unable; 1: enable, enable check edge function, default = 1 +//Bit 1, reg_mcdi_txtdeten +// 0: unable; 1: enable, enable texture detection, default = 1 +//Bit 0, reg_mcdi_memcen +// 0: unable; 1: enable, enable of memc di, default = 1 +#define MCDI_UNI_MVDST (0x2f05) +#define P_MCDI_UNI_MVDST (volatile unsigned int *)((0x2f05 << 2) + 0xff900000) +//Bit 31:20, reserved +//Bit 19:17, reg_mcdi_unimvdstabsseg0 segment0 for uni-mv abs, default = 1 +//Bit 16:12, reg_mcdi_unimvdstabsseg1 segment1 for uni-mv abs, default = 15 +//Bit 11: 8, reg_mcdi_unimvdstabsdifgain0 2/2, gain0 of uni-mv abs dif for segment0, normalized 2 to '1', default = 2 +//Bit 7: 5, reg_mcdi_unimvdstabsdifgain1 2/2, gain1 of uni-mv abs dif for segment1, normalized 2 to '1', default = 2 +//Bit 4: 2, reg_mcdi_unimvdstabsdifgain2 2/2, gain2 of uni-mv abs dif beyond segment1, normalized 2 to '1', default = 2 +//Bit 1: 0, reg_mcdi_unimvdstsgnshft shift for neighboring distance of uni-mv, default = 0 +#define MCDI_BI_MVDST (0x2f06) +#define P_MCDI_BI_MVDST (volatile unsigned int *)((0x2f06 << 2) + 0xff900000) +//Bit 31:20, reserved +//Bit 19:17, reg_mcdi_bimvdstabsseg0 segment0 for bi-mv abs, default = 1 +//Bit 16:12, reg_mcdi_bimvdstabsseg1 segment1 for bi-mv abs, default = 9 +//Bit 11: 8, reg_mcdi_bimvdstabsdifgain0 6/2, gain0 of bi-mv abs dif for segment0, normalized 2 to '1', default = 6 +//Bit 7: 5, reg_mcdi_bimvdstabsdifgain1 3/2, gain1 of bi-mvabs dif for segment1, normalized 2 to '1', default = 3 +//Bit 4: 2, reg_mcdi_bimvdstabsdifgain2 2/2, gain2 of bi-mvabs dif beyond segment1, normalized 2 to '1', default = 2 +//Bit 1: 0, reg_mcdi_bimvdstsgnshft shift for neighboring distance of bi-mv, default = 0 +#define MCDI_SAD_GAIN (0x2f07) +#define P_MCDI_SAD_GAIN (volatile unsigned int *)((0x2f07 << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18:17, reg_mcdi_unisadcorepxlgain uni-sad core pixels gain, default = 3 +//Bit 16, reg_mcdi_unisadcorepxlnormen enable uni-sad core pixels normalization, default = 0 +//Bit 15:11, reserved +//Bit 10: 9, reg_mcdi_bisadcorepxlgain bi-sad core pixels gain, default = 3 +//Bit 8, reg_mcdi_bisadcorepxlnormen enable bi-sad core pixels normalization, default = 1 +//Bit 7: 3, reserved +//Bit 2: 1, reg_mcdi_biqsadcorepxlgain bi-qsad core pixels gain, default = 3 +//Bit 0, reg_mcdi_biqsadcorepxlnormen enable bi-qsad core pixels normalization, default = 1 +#define MCDI_TXT_THD (0x2f08) +#define P_MCDI_TXT_THD (volatile unsigned int *)((0x2f08 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_mcdi_txtminmaxdifthd, min max dif threshold (>=) for texture detection, default = 24 +//Bit 15: 8, reg_mcdi_txtmeandifthd, mean dif threshold (<) for texture detection, default = 9 +//Bit 7: 3, reserved +//Bit 2: 0, reg_mcdi_txtdetthd, texture detecting threshold, 0~4, default = 2 +#define MCDI_FLT_MODESEL (0x2f09) +#define P_MCDI_FLT_MODESEL (volatile unsigned int *)((0x2f09 << 2) + 0xff900000) +//Bit 31 reserved +//Bit 30:28, reg_mcdi_flthorlineselmode mode for horizontal line detecting flat calculation, default = 1, same as below +//Bit 27 reserved +//Bit 26:24, reg_mcdi_fltgmvselmode mode for gmv flat calculation, default = 4, same as below +//Bit 23, reserved +//Bit 22:20, reg_mcdi_fltsadselmode mode for sad flat calculation, default = 2, same as below +//Bit 19, reserved +//Bit 18:16, reg_mcdi_fltbadwselmode mode for badw flat calculation, default = 3, same as below +//Bit 15, reserved +//Bit 14:12, reg_mcdi_fltrptmvselmode mode for repeat mv flat calculation, default = 4, same as below +//Bit 11, reserved +//Bit 10: 8, reg_mcdi_fltbadrelselmode mode for bad rel flat calculation, default = 4, same as below +//Bit 7, reserved +//Bit 6: 4, reg_mcdi_fltcolcfdselmode mode for col cfd flat calculation, default = 2, same as below +//Bit 3, reserved +//Bit 2: 0, reg_mcdi_fltpd22chkselmode mode for pd22 check flat calculation, default = 2, # 0:cur dif h, 1: cur dif v, 2: pre dif h, 3: pre dif v, 4: cur flt, 5: pre flt, 6: cur+pre, 7: max all(cur,pre) +#define MCDI_CHK_EDGE_THD (0x2f0a) +#define P_MCDI_CHK_EDGE_THD (volatile unsigned int *)((0x2f0a << 2) + 0xff900000) +//Bit 23:28, reserved. +//Bit 27:24, reg_mcdi_chkedgedifsadthd. thd (<=) for sad dif check, 0~8, default = 1 +//Bit 23:16, reserved. +//Bit 15:12, reg_mcdi_chkedgemaxedgethd. max drt of edge, default = 15 +//Bit 11: 8, reg_mcdi_chkedgeminedgethd. min drt of edge, default = 2 +//Bit 7, reserved. +//Bit 6: 0, reg_mcdi_chkedgevdifthd. thd for vertical dif in check edge, default = 14 +#define MCDI_CHK_EDGE_GAIN_OFFST (0x2f0b) +#define P_MCDI_CHK_EDGE_GAIN_OFFST (volatile unsigned int *)((0x2f0b << 2) + 0xff900000) +//Bit 31:24, reserved. +//Bit 23:20, reg_mcdi_chkedgedifthd1. thd1 for edge dif check (<=), default = 4 +//Bit 19:16, reg_mcdi_chkedgedifthd0. thd0 for edge dif check (>=), default = 15 +//Bit :15, reserved. +//Bit 14:10, reg_mcdi_chkedgechklen. total check length for edge check, 1~24 (>0), default = 24 +//Bit 9: 8, reg_mcdi_chkedgeedgesel. final edge select mode, 0: original start edge, 1: lpf start edge, 2: orignal start+end edge, 3: lpf start+end edge, default = 1 +//Bit 7: 3, reg_mcdi_chkedgesaddstgain. distance gain for sad calc while getting edges, default = 4 +//Bit 2, reg_mcdi_chkedgechkmode. edge used in check mode, 0: original edge, 1: lpf edge, defautl = 1 +//Bit 1, reg_mcdi_chkedgestartedge. edge mode for start edge, 0: original edge, 1: lpf edge, defautl = 0 +//Bit 0, reg_mcdi_chkedgeedgelpf. edge lpf mode, 0:[0,2,4,2,0], 1:[1,2,2,2,1], default = 0 +#define MCDI_LMV_RT (0x2f0c) +#define P_MCDI_LMV_RT (volatile unsigned int *)((0x2f0c << 2) + 0xff900000) +//BIt 31:15, reserved +//Bit 14:12, reg_mcdi_lmvvalidmode valid mode for lmv calc., 100b: use char det, 010b: use flt, 001b: use hori flg +//Bit 11:10, reg_mcdi_lmvgainmvmode four modes of mv selection for lmv weight calucluation, default = 1 +// 0: cur(x-3), lst(x-1,x,x+1); 1: cur(x-4,x-3), lst(x,x+1); 2: cur(x-5,x-4,x-3), lst(x-1,x,x+1,x+2,x+3); 3: cur(x-6,x-5,x-4,x-3), lst(x-1,x,x+1,x+2); +//Bit 9, reg_mcdi_lmvinitmode initial lmvs at first row of input field, 0: intial value = 0; 1: inital = 32 (invalid), default = 0 +//Bit 8, reserved +//Bit 7: 4, reg_mcdi_lmvrt0 ratio of max mv, default = 5 +//Bit 3: 0, reg_mcdi_lmvrt1 ratio of second max mv, default = 5 +#define MCDI_LMV_GAINTHD (0x2f0d) +#define P_MCDI_LMV_GAINTHD (volatile unsigned int *)((0x2f0d << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_lmvvxmaxgain max gain of lmv weight, default = 96 +//Bit 23, reserved +//Bit 22:20, reg_mcdi_lmvdifthd0 dif threshold 0 (<) for small lmv, default = 1 +//Bit 19:17, reg_mcdi_lmvdifthd1 dif threshold 1 (<) for median lmv, default = 2 +//Bit 16:14, reg_mcdi_lmvdifthd2 dif threshold 2 (<) for large lmv, default = 3 +//Bit 13: 8, reg_mcdi_lmvnumlmt least/limit number of (total number - max0), default = 20 +//Bit 7: 0, reg_mcdi_lmvfltthd flt cnt thd (<) for lmv, default = 9 +#define MCDI_RPTMV_THD0 (0x2f0e) +#define P_MCDI_RPTMV_THD0 (volatile unsigned int *)((0x2f0e << 2) + 0xff900000) +//Bit 31:25, reg_mcdi_rptmvslpthd2 slope thd (>=) between i and i+3/i-3 (i+4/i-4), default = 64 +//Bit 24:20, reg_mcdi_rptmvslpthd1 slope thd (>=) between i and i+2/i-2, default = 4 +//Bit 19:10, reg_mcdi_rptmvampthd2 amplitude thd (>=) between max and min, when count cycles, default = 300 +//Bit 9: 0, reg_mcdi_rptmvampthd1 amplitude thd (>=) between average of max and min, default = 400 +#define MCDI_RPTMV_THD1 (0x2f0f) +#define P_MCDI_RPTMV_THD1 (volatile unsigned int *)((0x2f0f << 2) + 0xff900000) +//Bit 31:28, reserved +//Bit 27:25, reg_mcdi_rptmvcyccntthd thd (>=) of total cycles count, default = 2 +//Bit 24:21, reg_mcdi_rptmvcycdifthd dif thd (<) of cycles length, default = 3 +//Bit 20:18, reg_mcdi_rptmvcycvldthd thd (>) of valid cycles number, default = 1 +//Bit 17:15, reg_mcdi_rptmvhalfcycminthd min length thd (>=) of half cycle, default = 2 +//Bit 14:11, reg_mcdi_rptmvhalfcycdifthd neighboring half cycle length dif thd (<), default = 5 +//Bit 10: 8, reg_mcdi_rptmvminmaxcntthd least number of valid max and min, default = 2 +//Bit 7: 5, reg_mcdi_rptmvcycminthd min length thd (>=) of cycles, default = 2 +//Bit 4: 0, reg_mcdi_rptmvcycmaxthd max length thd (<) of cycles, default = 17 +#define MCDI_RPTMV_THD2 (0x2f10) +#define P_MCDI_RPTMV_THD2 (volatile unsigned int *)((0x2f10 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_mcdi_rptmvhdifthd0 higher hdif thd (>=) (vertical edge) for rpt detection, default = 8 +//Bit 15: 8, reg_mcdi_rptmvhdifthd1 hdif thd (>=) (slope edge) for rpt detection, default = 4 +//Bit 7: 0, reg_mcdi_rptmvvdifthd vdif thd (>=) (slope edge) for rpt detection, default = 1 +#define MCDI_RPTMV_SAD (0x2f11) +#define P_MCDI_RPTMV_SAD (volatile unsigned int *)((0x2f11 << 2) + 0xff900000) +//Bit 31:26, reserved +//Bit 25:16, reg_mcdi_rptmvsaddifthdgain 7x3x(16/16), gain for sad dif thd in rpt mv detection, 0~672, normalized 16 as '1', default = 336 +//Bit 15:10, reserved +//Bit 9: 0, reg_mcdi_rptmvsaddifthdoffst offset for sad dif thd in rpt mv detection, -512~511, default = 16 +#define MCDI_RPTMV_FLG (0x2f12) +#define P_MCDI_RPTMV_FLG (volatile unsigned int *)((0x2f12 << 2) + 0xff900000) +//Bit 31:18, reserved +//Bit 17:16, reg_mcdi_rptmvmode select mode of mvs for repeat motion estimation, 0: hmv, 1: qmv/2, 2 or 3: qmv/4, default = 2 +//Bit 15: 8, reg_mcdi_rptmvflgcntthd thd (>=) of min count number for rptmv of whole field, for rptmv estimation, default = 64 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_rptmvflgcntrt 4/32, ratio for repeat mv flag count, normalized 32 as '1', set 31 to 32, +#define MCDI_RPTMV_GAIN (0x2f13) +#define P_MCDI_RPTMV_GAIN (volatile unsigned int *)((0x2f13 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_rptmvlftgain up repeat mv gain for hme, default = 96 +//Bit 23:16, reg_mcdi_rptmvuplftgain up left repeat mv gain for hme, default = 32 +//Bit 15: 8, reg_mcdi_rptmvupgain up repeat mv gain for hme, default = 64 +//Bit 7: 0, reg_mcdi_rptmvuprightgain up right repeat mv gain for hme, default = 32 +#define MCDI_GMV_RT (0x2f14) +#define P_MCDI_GMV_RT (volatile unsigned int *)((0x2f14 << 2) + 0xff900000) +//Bit 31, reserved +//Bit 30:24, reg_mcdi_gmvmtnrt0 ratio 0 for motion senario, set 127 to 128, normalized 128 as '1', default =32 +//Bit 23, reserved +//Bit 22:16, reg_mcdi_gmvmtnrt1 ratio 1 for motion senario, set 127 to 128, normalized 128 as '1', default = 56 +//Bit 15, reserved +//Bit 14: 8, reg_mcdi_gmvstlrt0 ratio 0 for still senario, set 127 to 128, normalized 128 as '1', default = 56 +//Bit 7, reserved +//Bit 6: 0, reg_mcdi_gmvstlrt1 ratio 1 for still senario, set 127 to 128, normalized 128 as '1', default = 80 +#define MCDI_GMV_GAIN (0x2f15) +#define P_MCDI_GMV_GAIN (volatile unsigned int *)((0x2f15 << 2) + 0xff900000) +//Bit 31:25, reg_mcdi_gmvzeromvlockrt0 ratio 0 for locking zero mv, set 127 to 128, normalized 128 as '1', default = 100 +//Bit 24:18, reg_mcdi_gmvzeromvlockrt1 ratio 1 for locking zero mv, set 127 to 128, normalized 128 as '1', default = 112 +//Bit 17:16, reg_mcdi_gmvvalidmode valid mode for gmv calc., 10b: use flt, 01b: use hori flg, default = 3 +//Bit 15: 8, reg_mcdi_gmvvxgain gmv's vx gain when gmv locked for hme, default = 0 +//Bit 7: 0, reg_mcdi_gmvfltthd flat thd (<) for gmv calc. default = 3 +#define MCDI_HOR_SADOFST (0x2f16) +#define P_MCDI_HOR_SADOFST (volatile unsigned int *)((0x2f16 << 2) + 0xff900000) +//Bit 31:25, reserved +//Bit 24:16, reg_mcdi_horsaddifthdgain 21*1/8, gain/divisor for sad dif threshold in hor line detection, normalized 8 as '1', default = 21 +//Bit 15: 8, reg_mcdi_horsaddifthdoffst offset for sad dif threshold in hor line detection, -128~127, default = 0 +//Bit 7: 0, reg_mcdi_horvdifthd threshold (>=) of vertical dif of next block for horizontal line detection, default = 24 +#define MCDI_REF_MV_NUM (0x2f17) +#define P_MCDI_REF_MV_NUM (volatile unsigned int *)((0x2f17 << 2) + 0xff900000) +//Bit 31: 2, reserved +//Bit 1: 0, reg_mcdi_refmcmode. motion compensated mode used in refinement, 0: pre, 1: next, 2: (pre+next)/2, default = 0 +#define MCDI_REF_BADW_THD_GAIN (0x2f18) +#define P_MCDI_REF_BADW_THD_GAIN (volatile unsigned int *)((0x2f18 << 2) + 0xff900000) +//Bit 31:28, reserved +//Bit 27:24, reg_mcdi_refbadwcnt2gain. gain for badwv count num==3, default = 6 +//Bit 23:20, reg_mcdi_refbadwcnt1gain. gain for badwv count num==2, default = 3 +//Bit 19:16, reg_mcdi_refbadwcnt0gain. gain for badwv count num==1, default = 1 +//Bit 15:12, reg_mcdi_refbadwthd3. threshold 3 for detect badweave with largest average luma, default = 4 +//Bit 11: 8, reg_mcdi_refbadwthd2. threshold 2 for detect badweave with third smallest average luma, default = 3 +//Bit 7: 4, reg_mcdi_refbadwthd1. threshold 1 for detect badweave with second smallest average luma, default = 2 +//Bit 3: 0, reg_mcdi_refbadwthd0. threshold 0 for detect badweave with smallest average luma, default = 1 +#define MCDI_REF_BADW_SUM_GAIN (0x2f19) +#define P_MCDI_REF_BADW_SUM_GAIN (volatile unsigned int *)((0x2f19 << 2) + 0xff900000) +//Bit 31:13, reserved +//Bit 12: 8, reg_mcdi_refbadwsumgain0. sum gain for r channel, 0~16, default = 8 +//Bit 7: 5, reserved +//Bit 4, reg_mcdi_refbadwcalcmode. mode for badw calculation, 0:sum, 1:max, default = 0 +//Bit 3: 0, reserved +#define MCDI_REF_BS_THD_GAIN (0x2f1a) +#define P_MCDI_REF_BS_THD_GAIN (volatile unsigned int *)((0x2f1a << 2) + 0xff900000) +//Bit 31:28, reg_mcdi_refbsudgain1. up & down block stregth gain1, normalized to 8 as '1', default = 2 +//Bit 27:24, reg_mcdi_refbsudgain0. up & down block stregth gain0, normalized to 8 as '1', default = 4 +//Bit 23:19, reserved +//Bit 18:16, reg_mcdi_refbslftgain. left block strength gain, default = 0 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_refbsthd1. threshold 1 for detect block stregth in refinment, default = 16 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_refbsthd0. threshold 0 for detect block stregth in refinment, default = 8 +#define MCDI_REF_ERR_GAIN0 (0x2f1b) +#define P_MCDI_REF_ERR_GAIN0 (volatile unsigned int *)((0x2f1b << 2) + 0xff900000) +//Bit 31, reserved +//Bit 30:24, reg_mcdi_referrnbrdstgain. neighoring mv distances gain for err calc. in ref, normalized to 8 as '1', default = 48 +//Bit 23:20, reserved +//Bit 19:16, reg_mcdi_referrbsgain. bs gain for err calc. in ref, normalized to 8 as '1', default = 4 +//Bit 15, reserved +//Bit 14: 8, reg_mcdi_referrbadwgain. badw gain for err calc. in ref, normalized to 8 as '1', default = 64 +//Bit 7: 4, reserved +//Bit 3: 0, reg_mcdi_referrsadgain. sad gain for err calc. in ref, normalized to 8 as '1', default = 4 +#define MCDI_REF_ERR_GAIN1 (0x2f1c) +#define P_MCDI_REF_ERR_GAIN1 (volatile unsigned int *)((0x2f1c << 2) + 0xff900000) +//Bit 31:20, reserved +//Bit 19:16, reg_mcdi_referrchkedgegain. check edge gain for err calc. in ref, normalized to 8 as '1', default = 4 +//Bit 15:12, reserved +//Bit 11: 8, reg_mcdi_referrlmvgain. (locked) lmv gain for err calc. in ref, normalized to 8 as '1', default = 0 +//Bit 7: 4, reserved +//Bit 3: 0, reg_mcdi_referrgmvgain. (locked) gmv gain for err calc. in ref, normalized to 8 as '1', default = 0 +#define MCDI_REF_ERR_FRQ_CHK (0x2f1d) +#define P_MCDI_REF_ERR_FRQ_CHK (volatile unsigned int *)((0x2f1d << 2) + 0xff900000) +//Bit 31:28, reserved +//Bit 27:24, reg_mcdi_referrfrqgain. gain for mv frquency, normalized to 4 as '1', default = 10 +//Bit 23:21, reserved +//Bit 20:16, reg_mcdi_referrfrqmax. max gain for mv frquency check, default = 31 +//Bit 15, reserved +//Bit 14:12, reg_mcdi_ref_errfrqmvdifthd2. mv dif threshold 2 (<) for mv frquency check, default = 3 +//Bit 11, reserved +//Bit 10: 8, reg_mcdi_ref_errfrqmvdifthd1. mv dif threshold 1 (<) for mv frquency check, default = 2 +//Bit 7, reserved +//Bit 6: 4, reg_mcdi_ref_errfrqmvdifthd0. mv dif threshold 0 (<) for mv frquency check, default = 1 +//Bit 3: 0, reserved +#define MCDI_QME_LPF_MSK (0x2f1e) +#define P_MCDI_QME_LPF_MSK (volatile unsigned int *)((0x2f1e << 2) + 0xff900000) +//Bit 31:28, reserved +//Bit 27:24, reg_mcdi_qmechkedgelpfmsk0. lpf mask0 for chk edge in qme, 0~8, msk1 = (8-msk0), normalized to 8 as '1', default = 7 +//Bit 23:20, reserved +//Bit 19:16, reg_mcdi_qmebslpfmsk0. lpf mask0 for bs in qme, 0~8, msk1 = (8-msk0), normalized to 8 as '1', default = 7 +//Bit 15:12, reserved +//Bit 11: 8, reg_mcdi_qmebadwlpfmsk0. lpf mask0 for badw in qme, 0~8, msk1 = (8-msk0), normalized to 8 as '1', default = 7 +//Bit 7: 4, reserved +//Bit 3: 0, reg_mcdi_qmesadlpfmsk0. lpf mask0 for sad in qme, 0~8, msk1 = (8-msk0), normalized to 8 as '1', default = 7 +#define MCDI_REL_DIF_THD_02 (0x2f1f) +#define P_MCDI_REL_DIF_THD_02 (volatile unsigned int *)((0x2f1f << 2) + 0xff900000) +//Bit 31:24, reserved. +//Bit 23:16, reg_mcdi_reldifthd2. thd (<) for (hdif+vdif), default = 9 +//Bit 15: 8, reg_mcdi_reldifthd1. thd (<) for (vdif), default = 5 +//Bit 7: 0, reg_mcdi_reldifthd0. thd (>=) for (hdif-vdif), default = 48 +#define MCDI_REL_DIF_THD_34 (0x2f20) +#define P_MCDI_REL_DIF_THD_34 (volatile unsigned int *)((0x2f20 << 2) + 0xff900000) +//Bit 31:16, reserved. +//Bit 15: 8, reg_mcdi_reldifthd4. thd (<) for (hdif), default = 255 +//Bit 7: 0, reg_mcdi_reldifthd3. thd (>=) for (vdif-hdif), default = 48 +#define MCDI_REL_BADW_GAIN_OFFST_01 (0x2f21) +#define P_MCDI_REL_BADW_GAIN_OFFST_01 (volatile unsigned int *)((0x2f21 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_relbadwoffst1. offset for badw adj, for flat block, -128~127, default = 0 +//Bit 23:16, reg_mcdi_relbadwgain1. gain for badw adj, for flat block, default = 128 +//Bit 15: 8, reg_mcdi_relbadwoffst0. offset for badw adj, for vertical block, -128~127, default = 0 +//Bit 7: 0, reg_mcdi_relbadwgain0. gain for badw adj, for vertical block, default = 160 +#define MCDI_REL_BADW_GAIN_OFFST_23 (0x2f22) +#define P_MCDI_REL_BADW_GAIN_OFFST_23 (volatile unsigned int *)((0x2f22 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_relbadwoffst3. offset for badw adj, for other block, -128~127, default = 0 +//Bit 23:16, reg_mcdi_relbadwgain3. gain for badw adj, for other block, default = 48 +//Bit 15: 8, reg_mcdi_relbadwoffst2. offset for badw adj, for horizontal block, -128~127, default = 0 +//Bit 7: 0, reg_mcdi_relbadwgain2. gain for badw adj, for horizontal block, default = 48 +#define MCDI_REL_BADW_THD_GAIN_OFFST (0x2f23) +#define P_MCDI_REL_BADW_THD_GAIN_OFFST (volatile unsigned int *)((0x2f23 << 2) + 0xff900000) +//Bit 31:23, reserved. +//Bit 22:16, reg_mcdi_relbadwoffst. offset for badw thd adj, -64~63, default = 0 +//Bit 15: 8, reserved. +//Bit 7: 0, reg_mcdi_relbadwthdgain. gain0 for badw thd adj, normalized to 16 as '1', default = 16 +#define MCDI_REL_BADW_THD_MIN_MAX (0x2f24) +#define P_MCDI_REL_BADW_THD_MIN_MAX (volatile unsigned int *)((0x2f24 << 2) + 0xff900000) +//Bit 31:18, reserved. +//Bit 17: 8, reg_mcdi_relbadwthdmax. max for badw thd adj, default = 256 +//Bit 7: 0, reg_mcdi_relbadwthdmin. min for badw thd adj, default = 16 +#define MCDI_REL_SAD_GAIN_OFFST_01 (0x2f25) +#define P_MCDI_REL_SAD_GAIN_OFFST_01 (volatile unsigned int *)((0x2f25 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_relsadoffst1. offset for sad adj, for flat block, -128~127, default = 0 +//Bit 23:20, reserved. +//Bit 19:16, reg_mcdi_relsadgain1. gain for sad adj, for flat block, normalized to 8 as '1', default = 8 +//Bit 15: 8, reg_mcdi_relsadoffst0. offset for sad adj, for vertical block, -128~127, default = 0 +//Bit 7: 4, reserved. +//Bit 3: 0, reg_mcdi_relsadgain0. gain for sad adj, for vertical block, normalized to 8 as '1', default = 6 +#define MCDI_REL_SAD_GAIN_OFFST_23 (0x2f26) +#define P_MCDI_REL_SAD_GAIN_OFFST_23 (volatile unsigned int *)((0x2f26 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_relsadoffst3. offset for sad adj, for other block, -128~127, default = 0 +//Bit 23:20, reserved. +//Bit 19:16, reg_mcdi_relsadgain3. gain for sad adj, for other block, normalized to 8 as '1', default = 8 +//Bit 15: 8, reg_mcdi_relsadoffst2. offset for sad adj, for horizontal block, -128~127, default = 0 +//Bit 7: 4, reserved. +//Bit 3: 0, reg_mcdi_relsadgain2. gain for sad adj, for horizontal block, normalized to 8 as '1', default = 12 +#define MCDI_REL_SAD_THD_GAIN_OFFST (0x2f27) +#define P_MCDI_REL_SAD_THD_GAIN_OFFST (volatile unsigned int *)((0x2f27 << 2) + 0xff900000) +//Bit 31:24, reserved. +//Bit 23:16, reg_mcdi_relsadoffst. offset for sad thd adj, -128~127, default = 0 +//Bit 15:10, reserved. +//Bit 9: 0, reg_mcdi_relsadthdgain. gain for sad thd adj, 21*2/16, normalized to 16 as '1', default = 42 +#define MCDI_REL_SAD_THD_MIN_MAX (0x2f28) +#define P_MCDI_REL_SAD_THD_MIN_MAX (volatile unsigned int *)((0x2f28 << 2) + 0xff900000) +//Bit 31:27, reserved. +//Bit 26:16, reg_mcdi_relsadthdmax. max for sad thd adj, 21*32, default = 672 +//Bit 15: 9, reserved. +//Bit 8: 0, reg_mcdi_relsadthdmin. min for sad thd adj, 21*2, default = 42 +#define MCDI_REL_DET_GAIN_00 (0x2f29) +#define P_MCDI_REL_DET_GAIN_00 (volatile unsigned int *)((0x2f29 << 2) + 0xff900000) +//Bit 31:21, reserved. +//Bit 20:16, reg_mcdi_reldetbsgain0. gain0 (gmv locked) for bs, for det. calc. normalized to 16 as '1', default = 8 +//Bit 15:14, reserved. +//Bit 13: 8, reg_mcdi_reldetbadwgain0. gain0 (gmv locked) for badw, for det. calc. normalized to 16 as '1', default = 12 +//Bit 7: 5, reserved. +//Bit 4: 0, reg_mcdi_reldetsadgain0. gain0 (gmv locked) for qsad, for det. calc. normalized to 16 as '1', default = 8 +#define MCDI_REL_DET_GAIN_01 (0x2f2a) +#define P_MCDI_REL_DET_GAIN_01 (volatile unsigned int *)((0x2f2a << 2) + 0xff900000) +//Bit 31:14, reserved. +//Bit 12: 8, reg_mcdi_reldetchkedgegain0. gain0 (gmv locked) for chk_edge, for det. calc. normalized to 16 as '1', default = 2 +//Bit 7, reserved. +//Bit 6: 0, reg_mcdi_reldetnbrdstgain0. gain0 (gmv locked) for neighoring dist, for det. calc. normalized to 16 as '1', default = 24 +#define MCDI_REL_DET_GAIN_10 (0x2f2b) +#define P_MCDI_REL_DET_GAIN_10 (volatile unsigned int *)((0x2f2b << 2) + 0xff900000) +//Bit 31:21, reserved. +//Bit 20:16, reg_mcdi_reldetbsgain1. gain1 (lmv locked) for bs, for det. calc. normalized to 16 as '1', default = 0 +//Bit 15:14, reserved. +//Bit 13: 8, reg_mcdi_reldetbadwgain1. gain1 (lmv locked) for badw, for det. calc. normalized to 16 as '1', default = 8 +//Bit 7: 5, reserved. +//Bit 4: 0, reg_mcdi_reldetsadgain1. gain1 (lmv locked) for qsad, for det. calc. normalized to 16 as '1', default = 8 +#define MCDI_REL_DET_GAIN_11 (0x2f2c) +#define P_MCDI_REL_DET_GAIN_11 (volatile unsigned int *)((0x2f2c << 2) + 0xff900000) +//Bit 31:14, reserved. +//Bit 12: 8, reg_mcdi_reldetchkedgegain1. gain1 (lmv locked) for chk_edge, for det. calc. normalized to 16 as '1', default = 0 +//Bit 7, reserved. +//Bit 6: 0, reg_mcdi_reldetnbrdstgain1. gain1 (lmv locked) for neighoring dist, for det. calc. normalized to 16 as '1', default = 24 +#define MCDI_REL_DET_GAIN_20 (0x2f2d) +#define P_MCDI_REL_DET_GAIN_20 (volatile unsigned int *)((0x2f2d << 2) + 0xff900000) +//Bit 31:21, reserved. +//Bit 20:16, reg_mcdi_reldetbsgain2. gain2 (no locked) for bs, for det. calc. normalized to 16 as '1', default = 12 +//Bit 15:14, reserved. +//Bit 13: 8, reg_mcdi_reldetbadwgain2. gain2 (no locked) for badw, for det. calc. normalized to 16 as '1', default = 32 +//Bit 7: 5, reserved. +//Bit 4: 0, reg_mcdi_reldetsadgain2. gain2 (no locked) for qsad, for det. calc. normalized to 16 as '1', default = 16 +#define MCDI_REL_DET_GAIN_21 (0x2f2e) +#define P_MCDI_REL_DET_GAIN_21 (volatile unsigned int *)((0x2f2e << 2) + 0xff900000) +//Bit 31:26, reserved +//Bit 25:16, reg_mcdi_reldetoffst. offset for rel calculation, for det. calc. -512~511, default = 0 +//Bit 15:14, reserved. +//Bit 12: 8, reg_mcdi_reldetchkedgegain2. gain2 (no locked) for chk_edge, for det. calc. normalized to 16 as '1', default = 10 +//Bit 7, reserved. +//Bit 6: 0, reg_mcdi_reldetnbrdstgain2. gain2 (no locked) for neighoring dist, for det. calc. normalized to 16 as '1', default = 32 +#define MCDI_REL_DET_GMV_DIF_CHK (0x2f2f) +#define P_MCDI_REL_DET_GMV_DIF_CHK (volatile unsigned int *)((0x2f2f << 2) + 0xff900000) +//Bit 31:24, reserved. +//Bit 23:16, reg_mcdi_reldetgmvfltthd. flat thd (>=) for gmv lock decision, default = 0 +//Bit 15, reserved. +//Bit 14:12, reg_mcdi_reldetgmvdifthd. dif thd (>=) for current mv different from gmv for gmv dif check, actually used in Lmv lock check, default = 3 +//Bit 11, reserved. +//Bit 10: 8, reg_mcdi_reldetgmvdifmin. min mv dif for gmv dif check, default = 1, note: dif between reg_mcdi_rel_det_gmv_dif_max and reg_mcdi_rel_det_gmv_dif_min should be; 0,1,3,7, not work for others +//Bit 7: 4, reg_mcdi_reldetgmvdifmax. max mv dif for gmv dif check, default = 4 +//Bit 3: 1, reserved +//Bit 0, reg_mcdi_reldetgmvdifmvmode. mv mode used for gmv dif check, 0: use refmv, 1: use qmv, default = 0 +#define MCDI_REL_DET_LMV_DIF_CHK (0x2f30) +#define P_MCDI_REL_DET_LMV_DIF_CHK (volatile unsigned int *)((0x2f30 << 2) + 0xff900000) +//Bit 31:24, reserved. +//Bit 23:16, reg_mcdi_reldetlmvfltthd. flat thd (>=) for lmv lock decision, default = 12 +//Bit 15:14, reserved. +//Bit 13:12, reg_mcdi_reldetlmvlockchkmode. lmv lock check mode, 0:cur Lmv, 1: cur & (last | next), 2: last & cur & next Lmv, default = 1 +//Bit 11, reserved. +//Bit 10: 8, reg_mcdi_reldetlmvdifmin. min mv dif for lmv dif check, default = 1, note: dif between reg_mcdi_rel_det_lmv_dif_max and reg_mcdi_rel_det_lmv_dif_min should be; 0,1,3,7, not work for others +//Bit 7: 4, reg_mcdi_reldetlmvdifmax. max mv dif for lmv dif check, default = 4 +//Bit 3: 1, reserved +//Bit 0, reg_mcdi_reldetlmvdifmvmode. mv mode used for lmv dif check, 0: use refmv, 1: use qmv, default = 0 +#define MCDI_REL_DET_FRQ_CHK (0x2f31) +#define P_MCDI_REL_DET_FRQ_CHK (volatile unsigned int *)((0x2f31 << 2) + 0xff900000) +//Bit 31:12, reserved. +//Bit 11: 8, reg_mcdi_reldetfrqgain. gain for frequency check, normalized to 4 as '1', default = 10 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_reldetfrqmax. max value for frequency check, default = 31 +#define MCDI_REL_DET_PD22_CHK (0x2f32) +#define P_MCDI_REL_DET_PD22_CHK (volatile unsigned int *)((0x2f32 << 2) + 0xff900000) +//Bit 31:18, reserved. +//Bit 17: 8, reg_mcdi_reldetpd22chkoffst. offset for pd22 check happened, default = 512 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_reldetpd22chkgain. gain for pd22 check happened, normalized to 8 as '1', default = 12 +#define MCDI_REL_DET_RPT_CHK_ROW (0x2f33) +#define P_MCDI_REL_DET_RPT_CHK_ROW (volatile unsigned int *)((0x2f33 << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:16, reg_mcdi_reldetrptchkendrow. end row (<) number for repeat check, default = 2047 +//Bit 15:11, reserved +//Bit 10: 0, reg_mcdi_reldetrptchkstartrow. start row (>=) number for repeat check, default = 0 +#define MCDI_REL_DET_RPT_CHK_GAIN_QMV (0x2f34) +#define P_MCDI_REL_DET_RPT_CHK_GAIN_QMV (volatile unsigned int *)((0x2f34 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_mcdi_reldetrptchkqmvmax. max thd (<) of abs qmv for repeat check, default = 15, note that quarter mv's range is -63~63 +//Bit 23:22, reserved +//Bit 21:16, reg_mcdi_reldetrptchkqmvmin. min thd (>=) of abs qmv for repeat check, default = 10, note that quarter mv's range is -63~63 +//Bit 15, reserved/ +//Bit 14: 4, reg_mcdi_reldetrptchkoffst. offset for repeat check, default = 512 +//Bit 3: 0, reg_mcdi_reldetrptchkgain. gain for repeat check, normalized to 8 as '1', default = 4 +#define MCDI_REL_DET_RPT_CHK_THD_0 (0x2f35) +#define P_MCDI_REL_DET_RPT_CHK_THD_0 (volatile unsigned int *)((0x2f35 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_mcdi_reldetrptchkzerosadthd. zero sad thd (<) for repeat check, default = 255 +//Bit 15:14, reserved. +//Bit 13: 8, reg_mcdi_reldetrptchkzerobadwthd. zero badw thd (>=) for repeat check, default = 16 +//Bit 7: 4, reserved +//Bit 3: 0, reg_mcdi_reldetrptchkfrqdifthd. frequency dif thd (<) for repeat check, 0~10, default = 5 +#define MCDI_REL_DET_RPT_CHK_THD_1 (0x2f36) +#define P_MCDI_REL_DET_RPT_CHK_THD_1 (volatile unsigned int *)((0x2f36 << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_mcdi_reldetrptchkvdifthd. vertical dif thd (<) for repeat check, default = 16 +//Bit 7: 0, reg_mcdi_reldetrptchkhdifthd. horizontal dif thd (>=) for repeat check, default = 16 +#define MCDI_REL_DET_LPF_DIF_THD (0x2f37) +#define P_MCDI_REL_DET_LPF_DIF_THD (volatile unsigned int *)((0x2f37 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_reldetlpfdifthd3. hdif thd (<) for lpf selection of horizontal block, default = 9 +//Bit 23:16, reg_mcdi_reldetlpfdifthd2. vdif-hdif thd (>=) for lpf selection of horizontal block, default = 48 +//Bit 15: 8, reg_mcdi_reldetlpfdifthd1. vdif thd (<) for lpf selection of vertical block, default = 9 +//Bit 7: 0, reg_mcdi_reldetlpfdifthd0. hdif-vdif thd (>=) for lpf selection of vertical block, default = 48 +#define MCDI_REL_DET_LPF_MSK_00_03 (0x2f38) +#define P_MCDI_REL_DET_LPF_MSK_00_03 (volatile unsigned int *)((0x2f38 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:24, reg_mcdi_reldetlpfmsk03. det lpf mask03 for gmv/lmv locked mode, 0~16, default = 1 +//Bit 23:21, reserved +//Bit 20:16, reg_mcdi_reldetlpfmsk02. det lpf mask02 for gmv/lmv locked mode, 0~16, default = 1 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_reldetlpfmsk01. det lpf mask01 for gmv/lmv locked mode, 0~16, default = 5 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_reldetlpfmsk00. det lpf mask00 for gmv/lmv locked mode, 0~16, default = 8 +#define MCDI_REL_DET_LPF_MSK_04_12 (0x2f39) +#define P_MCDI_REL_DET_LPF_MSK_04_12 (volatile unsigned int *)((0x2f39 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:24, reg_mcdi_reldetlpfmsk12. det lpf mask12 for vertical blocks, 0~16, default = 0 +//Bit 23:21, reserved +//Bit 20:16, reg_mcdi_reldetlpfmsk11. det lpf mask11 for vertical blocks, 0~16, default = 0 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_reldetlpfmsk10. det lpf mask10 for vertical blocks, 0~16, default = 16 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_reldetlpfmsk04. det lpf mask04 for gmv/lmv locked mode, 0~16, default = 1 +#define MCDI_REL_DET_LPF_MSK_13_21 (0x2f3a) +#define P_MCDI_REL_DET_LPF_MSK_13_21 (volatile unsigned int *)((0x2f3a << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:24, reg_mcdi_reldetlpfmsk21. det lpf mask21 for horizontal blocks, 0~16, default = 6 +//Bit 23:21, reserved +//Bit 20:16, reg_mcdi_reldetlpfmsk20. det lpf mask20 for horizontal blocks, 0~16, default = 8 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_reldetlpfmsk14. det lpf mask14 for vertical blocks, 0~16, default = 0 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_reldetlpfmsk13. det lpf mask13 for vertical blocks, 0~16, default = 0 +#define MCDI_REL_DET_LPF_MSK_22_30 (0x2f3b) +#define P_MCDI_REL_DET_LPF_MSK_22_30 (volatile unsigned int *)((0x2f3b << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:24, reg_mcdi_reldetlpfmsk30. det lpf mask30 for other blocks, 0~16, default = 16 +//Bit 23:21, reserved +//Bit 20:16, reg_mcdi_reldetlpfmsk24. det lpf mask24 for horizontal blocks, 0~16, default = 1 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_reldetlpfmsk23. det lpf mask23 for horizontal blocks, 0~16, default = 0 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_reldetlpfmsk22. det lpf mask22 for horizontal blocks, 0~16, default = 1 +#define MCDI_REL_DET_LPF_MSK_31_34 (0x2f3c) +#define P_MCDI_REL_DET_LPF_MSK_31_34 (volatile unsigned int *)((0x2f3c << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:24, reg_mcdi_reldetlpfmsk34. det lpf mask34 for other blocks, 0~16, default = 0 +//Bit 23:21, reserved +//Bit 20:16, reg_mcdi_reldetlpfmsk33. det lpf mask33 for other blocks, 0~16, default = 0 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_reldetlpfmsk32. det lpf mask32 for other blocks, 0~16, default = 0 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_reldetlpfmsk31. det lpf mask31 for other blocks, 0~16, default = 0 +//Note: there are four group lpf masks from addr 37~3b, each group sum equal to 16. +#define MCDI_REL_DET_MIN (0x2f3d) +#define P_MCDI_REL_DET_MIN (volatile unsigned int *)((0x2f3d << 2) + 0xff900000) +//Bit 31: 7, reserved +//Bit 6: 0, reg_mcdi_reldetmin. min of detected value, default = 16 +#define MCDI_REL_DET_LUT_0_3 (0x2f3e) +#define P_MCDI_REL_DET_LUT_0_3 (volatile unsigned int *)((0x2f3e << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_reldetmaplut3. default = 8 +//Bit 23:16, reg_mcdi_reldetmaplut2. default = 4 +//Bit 15: 8, reg_mcdi_reldetmaplut1. default = 2 +//Bit 7: 0, reg_mcdi_reldetmaplut0. default = 0 +#define MCDI_REL_DET_LUT_4_7 (0x2f3f) +#define P_MCDI_REL_DET_LUT_4_7 (volatile unsigned int *)((0x2f3f << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_reldetmaplut7. default = 64 +//Bit 23:16, reg_mcdi_reldetmaplut6. default = 48 +//Bit 15: 8, reg_mcdi_reldetmaplut5. default = 32 +//Bit 7: 0, reg_mcdi_reldetmaplut4. default = 16 +#define MCDI_REL_DET_LUT_8_11 (0x2f40) +#define P_MCDI_REL_DET_LUT_8_11 (volatile unsigned int *)((0x2f40 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_reldetmaplut11. default = 160 +//Bit 23:16, reg_mcdi_reldetmaplut10. default = 128 +//Bit 15: 8, reg_mcdi_reldetmaplut9. default = 96 +//Bit 7: 0, reg_mcdi_reldetmaplut8. default = 80 +#define MCDI_REL_DET_LUT_12_15 (0x2f41) +#define P_MCDI_REL_DET_LUT_12_15 (volatile unsigned int *)((0x2f41 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_reldetmaplut15. default = 255 +//Bit 23:16, reg_mcdi_reldetmaplut14. default = 240 +//Bit 15: 8, reg_mcdi_reldetmaplut13. default = 224 +//Bit 7: 0, reg_mcdi_reldetmaplut12. default = 192 +#define MCDI_REL_DET_COL_CFD_THD (0x2f42) +#define P_MCDI_REL_DET_COL_CFD_THD (volatile unsigned int *)((0x2f42 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_reldetcolcfdfltthd. thd for flat smaller than (<) of column cofidence, default = 5 +//Bit 23:16, reg_mcdi_reldetcolcfdthd1. thd for rel larger than (>=) in rel calc. mode col confidence without gmv locking, default = 160 +//Bit 15: 8, reg_mcdi_reldetcolcfdthd0. thd for rel larger than (>=) in rel calc. mode col confidence when gmv locked, default = 100 +//Bit 7: 2, reg_mcdi_reldetcolcfdbadwthd. thd for badw larger than (>=) in qbadw calc. mode of column cofidence, default = 16 +//Bit 1, reserved +//Bit 0, reg_mcdi_reldetcolcfdcalcmode. calc. mode for column cofidence, 0: use rel, 1: use qbadw, default = 0 +#define MCDI_REL_DET_COL_CFD_AVG_LUMA (0x2f43) +#define P_MCDI_REL_DET_COL_CFD_AVG_LUMA (volatile unsigned int *)((0x2f43 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_reldetcolcfdavgmin1. avg luma min1 (>=) for column cofidence, valid between 16~235, default = 235 +//Bit 23:16, reg_mcdi_reldetcolcfdavgmax1. avg luma max1 (<) for column cofidence, valid between 16~235, default = 235 +//Bit 15: 8, reg_mcdi_reldetcolcfdavgmin0. avg luma min0 (>=) for column cofidence, valid between 16~235, default = 16 +//Bit 7: 0, reg_mcdi_reldetcolcfdavgmax0. avg luma max0 (<) for column cofidence, valid between 16~235, default = 21 +#define MCDI_REL_DET_BAD_THD_0 (0x2f44) +#define P_MCDI_REL_DET_BAD_THD_0 (volatile unsigned int *)((0x2f44 << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_mcdi_reldetbadsadthd. thd (>=) for bad sad, default = 120 (480/4) +//Bit 7: 6, reserved +//Bit 5: 0, reg_mcdi_reldetbadbadwthd. thd (>=) for bad badw, 0~42, default = 12 +#define MCDI_REL_DET_BAD_THD_1 (0x2f45) +#define P_MCDI_REL_DET_BAD_THD_1 (volatile unsigned int *)((0x2f45 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_mcdi_reldetbadrelfltthd. thd (>=) of flat for bad rel detection, default = 4 +//Bit 15: 8, reg_mcdi_reldetbadrelthd1. thd (>=) for bad rel without gmv/lmv locked, default = 160 +//Bit 7: 0, reg_mcdi_reldetbadrelthd0. thd (>=) for bad rel with gmv/lmv locked, default = 120 +#define MCDI_PD22_CHK_THD (0x2f46) +#define P_MCDI_PD22_CHK_THD (volatile unsigned int *)((0x2f46 << 2) + 0xff900000) +//Bit 31:25, reserved +//Bit 24:16, reg_mcdi_pd22chksaddifthd. sad dif thd (>=) for (pd22chksad - qsad) for pd22 check, default = 64 +//Bit 15:14, reserved +//Bit 13: 8, reg_mcdi_pd22chkqmvthd. thd (>=) of abs qmv for pd22 check, default = 2 +//Bit 7: 0, reg_mcdi_pd22chkfltthd. thd (>=) of flat for pd22 check, default = 4 +#define MCDI_PD22_CHK_GAIN_OFFST_0 (0x2f47) +#define P_MCDI_PD22_CHK_GAIN_OFFST_0 (volatile unsigned int *)((0x2f47 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_pd22chkedgeoffst0. offset0 of pd22chkedge from right film22 phase, -128~127, default = 0 +//Bit 23:21, reserved +//Bit 20:16, reg_mcdi_pd22chkedgegain0. gain0 of pd22chkedge from right film22 phase, normalized to 16 as '1', default = 16 +//Bit 15:12, reserved +//Bit 11: 8, reg_mcdi_pd22chkbadwoffst0. offset0 of pd22chkbadw from right film22 phase, -8~7, default = 0 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_pd22chkbadwgain0. gain0 of pd22chkbadw from right film22 phase, normalized to 16 as '1', default = 8 +#define MCDI_PD22_CHK_GAIN_OFFST_1 (0x2f48) +#define P_MCDI_PD22_CHK_GAIN_OFFST_1 (volatile unsigned int *)((0x2f48 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_pd22chkedgeoffst1. offset1 of pd22chkedge from right film22 phase, -128~127, default = 0 +//Bit 23:21, reserved +//Bit 20:16, reg_mcdi_pd22chkedgegain1. gain1 of pd22chkedge from right film22 phase, normalized to 16 as '1', default = 16 +//Bit 15:12, reserved +//Bit 11: 8, reg_mcdi_pd22chkbadwoffst1. offset1 of pd22chkbadw from right film22 phase, -8~7, default = 0 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_pd22chkbadwgain1. gain1 of pd22chkbadw from right film22 phase, normalized to 16 as '1', default = 12 +#define MCDI_LMV_LOCK_CNT_THD_GAIN (0x2f49) +#define P_MCDI_LMV_LOCK_CNT_THD_GAIN (volatile unsigned int *)((0x2f49 << 2) + 0xff900000) +//Bit 31:20, reserved +//Bit 19:16, reg_mcdi_lmvlockcntmax. max lmv lock count number, default = 6 +//Bit 15:12, reg_mcdi_lmvlockcntoffst. offset for lmv lock count, -8~7, default = 0 +//Bit 11: 8, reg_mcdi_lmvlockcntgain. gain for lmv lock count, normalized 8 as '1', 15 is set to 16, default = 8 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_lmvlockcntthd. lmv count thd (>=) before be locked, 1~31, default = 4 +#define MCDI_LMV_LOCK_ABS_DIF_THD (0x2f4a) +#define P_MCDI_LMV_LOCK_ABS_DIF_THD (volatile unsigned int *)((0x2f4a << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:24, reg_mcdi_lmvlockdifthd2. lmv dif thd for third part, before locked, default = 1 +//Bit 23, reserved +//Bit 22:20, reg_mcdi_lmvlockdifthd1. lmv dif thd for second part, before locked, default = 1 +//Bit 19, reserved +//Bit 18:16, reg_mcdi_lmvlockdifthd0. lmv dif thd for first part, before locked, default = 1 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_lmvlockabsmax. max abs (<) of lmv to be locked, default = 24 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_lmvlockabsmin. min abs (>=) of lmv to be locked, default = 1 +#define MCDI_LMV_LOCK_ROW (0x2f4b) +#define P_MCDI_LMV_LOCK_ROW (volatile unsigned int *)((0x2f4b << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:16, reg_mcdi_lmvlockendrow. end row (<) for lmv lock, default = 2047 +//Bit 15:11, reserved +//Bit 10: 0, reg_mcdi_lmvlockstartrow. start row (>=) for lmv lock, default = 0 +#define MCDI_LMV_LOCK_RT_MODE (0x2f4c) +#define P_MCDI_LMV_LOCK_RT_MODE (volatile unsigned int *)((0x2f4c << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:24, reg_mcdi_lmvlockextmode. extend lines for lmv lock check, check how many lines for lmv locking, default = 2 +//Bit 23:16, reg_mcdi_lmvlockfltcntrt. ratio of flt cnt for lock check, normalized 256 as '1', 255 is set to 256, default = 32 +//Bit 15: 8, reg_mcdi_lmvlocklmvcntrt1. ratio when use non-zero lmv for lock check, normalized 256 as '1', 255 is set to 256, default = 48 +//Bit 7: 0, reg_mcdi_lmvlocklmvcntrt0. ratio when use max lmv for lock check, normalized 256 as '1', 255 is set to 256, default = 106 +#define MCDI_GMV_LOCK_CNT_THD_GAIN (0x2f4d) +#define P_MCDI_GMV_LOCK_CNT_THD_GAIN (volatile unsigned int *)((0x2f4d << 2) + 0xff900000) +//Bit 31:20, reserved +//Bit 19:16, reg_mcdi_gmvlockcntmax. max gmv lock count number, default = 6 +//Bit 15:12, reg_mcdi_gmvlockcntoffst. offset for gmv lock count, -8~7, default = 0 +//Bit 11: 8, reg_mcdi_gmvlockcntgain. gain for gmv lock count, normalized 8 as '1', 15 is set to 16, default = 8 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_gmvlockcntthd. gmv count thd (>=) before be locked, 1~31, default = 4 +#define MCDI_GMV_LOCK_ABS_DIF_THD (0x2f4e) +#define P_MCDI_GMV_LOCK_ABS_DIF_THD (volatile unsigned int *)((0x2f4e << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:24, reg_mcdi_gmvlockdifthd2. gmv dif thd for third part, before locked, default = 3 +//Bit 23, reserved +//Bit 22:20, reg_mcdi_gmvlockdifthd1. gmv dif thd for second part, before locked, default = 2 +//Bit 19, reserved +//Bit 18:16, reg_mcdi_gmvlockdifthd0. gmv dif thd for first part, before locked, default = 1 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_gmvlockabsmax. max abs of gmv to be locked, default = 15 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_gmvlockabsmin. min abs of gmv to be locked, default = 1 +#define MCDI_HIGH_VERT_FRQ_DIF_THD (0x2f4f) +#define P_MCDI_HIGH_VERT_FRQ_DIF_THD (volatile unsigned int *)((0x2f4f << 2) + 0xff900000) +//Bit 31: 0, reg_mcdi_highvertfrqfldavgdifthd. high_vert_frq field average luma dif thd (>=), 3*Blk_Width*Blk_Height, set by software, default = 103680 +#define MCDI_HIGH_VERT_FRQ_DIF_DIF_THD (0x2f50) +#define P_MCDI_HIGH_VERT_FRQ_DIF_DIF_THD (volatile unsigned int *)((0x2f50 << 2) + 0xff900000) +//Bit 31: 0, reg_mcdi_highvertfrqfldavgdifdifthd. high_vert_frq field average luma dif's dif thd (<), 3*Blk_Width*Blk_Height, set by software, default = 103680 +#define MCDI_HIGH_VERT_FRQ_RT_GAIN (0x2f51) +#define P_MCDI_HIGH_VERT_FRQ_RT_GAIN (volatile unsigned int *)((0x2f51 << 2) + 0xff900000) +//Bit 31:20, reserved +//Bit 19:16, reg_mcdi_highvertfrqcntthd. high_vert_frq count thd (>=) before locked, 1~31, default = 4 +//Bit 15: 8, reg_mcdi_highvertfrqbadsadrt. ratio for high_vert_frq bad sad count, normalized 256 as '1', 255 is set to 256, default = 24 +//Bit 7: 0, reg_mcdi_highvertfrqbadbadwrt. ratio for high_vert_frq badw count, normalized 256 as '1', 255 is set to 256, default = 130 +#define MCDI_MOTION_PARADOX_THD (0x2f52) +#define P_MCDI_MOTION_PARADOX_THD (volatile unsigned int *)((0x2f52 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:24, reg_mcdi_motionparadoxcntthd. motion paradox count thd (>=) before locked, 1~31, default = 4 +//Bit 23:22, reserved +//Bit 21:16, reg_mcdi_motionparadoxgmvthd. abs gmv thd (<) of motion paradox, 0~32, note that 32 means invalid gmv, be careful, default = 32 +//Bit 15: 0, reserved +#define MCDI_MOTION_PARADOX_RT (0x2f53) +#define P_MCDI_MOTION_PARADOX_RT (volatile unsigned int *)((0x2f53 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_mcdi_motionparadoxbadsadrt. ratio for field bad sad count of motion paradox, normalized 256 as '1', 255 is set to 256, default = 24 +//Bit 15: 8, reg_mcdi_motionparadoxbadrelrt. ratio for field bad reliabilty count of motion paradox, normalized 256 as '1', 255 is set to 256, default = 120 +//Bit 7: 0, reg_mcdi_motionparadoxmtnrt. ratio for field motion count of motion paradox, normalized 256 as '1', 255 is set to 256, default = 218 +#define MCDI_MOTION_REF_THD (0x2f54) +#define P_MCDI_MOTION_REF_THD (volatile unsigned int *)((0x2f54 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:20, reg_mcdi_motionrefoffst. motion ref additive offset, default = 15 +//Bit 19:16, reg_mcdi_motionrefgain. motion ref gain, normalized 8 as '1', default = 8 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_motionrefrptmvthd. abs thd (>=) of rpt mv (0~31, 32 means invalid) for motion ref, default = 1 +//Bit 7: 2, reg_mcdi_motionrefqmvthd. min thd (>=) of abs qmv for motion ref, note that quarter mv's range is -63~63, default = 2 +//Bit 1: 0, reg_mcdi_motionreflpfmode. Mv and (8 x repeat flg) 's lpf mode of motion refinement, 0: no lpf, 1: [1 2 1], 2: [1 2 2 2 1], default = 1 +#define MCDI_REL_COL_REF_RT (0x2f55) +#define P_MCDI_REL_COL_REF_RT (volatile unsigned int *)((0x2f55 << 2) + 0xff900000) +//Bit 31: 8, reserved +//Bit 7: 0, reg_mcdi_relcolrefrt. ratio for column cofidence level against column number, for refinement, default = 135 +#define MCDI_PD22_CHK_THD_RT (0x2f56) +#define P_MCDI_PD22_CHK_THD_RT (volatile unsigned int *)((0x2f56 << 2) + 0xff900000) +//Bit 31:27, reserved +//Bit 26:16, reg_mcdi_pd22chkfltcntrt. ratio for flat count of field pulldown 22 check, normalized 2048 as '1', 2047 is set to 2048, default = 1 +//Bit 15: 8, reg_mcdi_pd22chkcntrt. ratio of pulldown 22 check count, normalized 256 as '1', 255 is set to 256, default = 100 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_pd22chkcntthd. thd (>=) for pd22 count before locked, 1~31, default = 4 +#define MCDI_CHAR_DET_DIF_THD (0x2f57) +#define P_MCDI_CHAR_DET_DIF_THD (volatile unsigned int *)((0x2f57 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_mcdi_chardetminmaxdifthd. thd (>=) for dif between min and max value, default = 64 +//Bit 15: 8, reg_mcdi_chardetmaxdifthd. thd (<) for dif between max value, default = 17 +//Bit 7: 0, reg_mcdi_chardetmindifthd. thd (<) for dif between min value, default = 17 +#define MCDI_CHAR_DET_CNT_THD (0x2f58) +#define P_MCDI_CHAR_DET_CNT_THD (volatile unsigned int *)((0x2f58 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_mcdi_chardettotcntthd. thd (>=) for total count, 0~21, default = 18 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_chardetmaxcntthd. thd (>=) for max count, 0~21, default = 1 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_chardetmincntthd. thd (>=) for min count, 0~21, default = 1 +//new add +#define MCDI_PD_22_CHK_WND0_X (0x2f59) +#define P_MCDI_PD_22_CHK_WND0_X (volatile unsigned int *)((0x2f59 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, reg_mcdi_pd22chkwnd0_x1 u13, x1 for window 0, HSIZE-1, software control, default = 719 +//Bit 15:13, reserved +//Bit 12: 0, reg_mcdi_pd22chkwnd0_x0 u13, x0 for window 0, software control, default = 0 +#define MCDI_PD_22_CHK_WND0_Y (0x2f5a) +#define P_MCDI_PD_22_CHK_WND0_Y (volatile unsigned int *)((0x2f5a << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, reg_mcdi_pd22chkwnd0_y1 u13, y1 for window 0 software control, default = 39 +//Bit 15:13, reserved +//Bit 12: 0, reg_mcdi_pd22chkwnd0_y0 u13, y0 for window 0, software control, default = 0 +#define MCDI_PD_22_CHK_WND1_X (0x2f5b) +#define P_MCDI_PD_22_CHK_WND1_X (volatile unsigned int *)((0x2f5b << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, reg_mcdi_pd22chkwnd1_x1 u13, x1 for window 1, HSIZE-1, software control, default = 719 +//Bit 15:13, reserved +//Bit 12: 0, reg_mcdi_pd22chkwnd1_x0 u13, x0 for window 1, software control, default = 0 +#define MCDI_PD_22_CHK_WND1_Y (0x2f5c) +#define P_MCDI_PD_22_CHK_WND1_Y (volatile unsigned int *)((0x2f5c << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, reg_mcdi_pd22chkwnd1_y1 u13, y1 for window 1 software control, default = 199 +//Bit 15:13, reserved +//Bit 12: 0, reg_mcdi_pd22chkwnd1_y0 u13, y0 for window 1, software control, default = 40 +#define MCDI_PD_22_CHK_FRC_LMV (0x2f5d) +#define P_MCDI_PD_22_CHK_FRC_LMV (volatile unsigned int *)((0x2f5d << 2) + 0xff900000) +//Bit 31:11, reserved +//Bit 10, reg_mcdi_pd22chklmvchk2 u1, lmv lock check while force vof for each windows, default = 1 +//Bit 9, reg_mcdi_pd22chklmvchk1 u1, lmv lock check while force vof for each windows, default = 0 +//Bit 8, reg_mcdi_pd22chklmvchk0 u1, lmv lock check while force vof for each windows, default = 0 +//Bit 7, reserved +//Bit 6, reg_mcdi_pd22chkfrcpd2 u1, force pd flags for each windows, default = 0 +//Bit 5, reg_mcdi_pd22chkfrcpd1 u1, force pd flags for each windows, default = 0 +//Bit 4, reg_mcdi_pd22chkfrcpd0 u1, force pd flags for each windows, default = 0 +//Bit 3, reserved +//Bit 2, reg_mcdi_pd22chkfrcvof2 u1, force vof flags for each windows, default = 1 +//Bit 1, reg_mcdi_pd22chkfrcvof1 u1, force vof flags for each windows, default = 0 +//Bit 0, reg_mcdi_pd22chkfrcvof0 u1, force vof flags for each windows, default = 0 +#define MCDI_PD_22_CHK_FLG_CNT (0x2f5e) +#define P_MCDI_PD_22_CHK_FLG_CNT (volatile unsigned int *)((0x2f5e << 2) + 0xff900000) +//Bit 31:27, reserved. +//Bit 26, reg_mcdi_pd22chkflg2. pull down 22 flag of prevoius one field. initial = 0 +//Bit 25, reg_mcdi_pd22chkflg1. pull down 22 flag of prevoius one field. initial = 0 +//Bit 24, reg_mcdi_pd22chkflg. pull down 22 flag of prevoius one field. initial = 0 +//Bit 23:16, reg_mcdi_pd22chkcnt2. pull down 22 count till prevoius one field. initial = 0 +//Bit 15: 8, reg_mcdi_pd22chkcnt1. pull down 22 count till prevoius one field. initial = 0 +//Bit 7: 0, reg_mcdi_pd22chkcnt. pull down 22 count till prevoius one field. initial = 0 +#define MCDI_RO_FLD_PD_22_PRE_CNT1 (0x2fca) +#define P_MCDI_RO_FLD_PD_22_PRE_CNT1 (volatile unsigned int *)((0x2fca << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22precnt1. prevoius pd22 check count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_PD_22_FOR_CNT1 (0x2fcb) +#define P_MCDI_RO_FLD_PD_22_FOR_CNT1 (volatile unsigned int *)((0x2fcb << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22forcnt1. forward pd22 check count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_PD_22_FLT_CNT1 (0x2fcc) +#define P_MCDI_RO_FLD_PD_22_FLT_CNT1 (volatile unsigned int *)((0x2fcc << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22fltcnt1. flat count (for pd22 check) of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_PD_22_PRE_CNT2 (0x2fcd) +#define P_MCDI_RO_FLD_PD_22_PRE_CNT2 (volatile unsigned int *)((0x2fcd << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22precnt2. prevoius pd22 check count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_PD_22_FOR_CNT2 (0x2fce) +#define P_MCDI_RO_FLD_PD_22_FOR_CNT2 (volatile unsigned int *)((0x2fce << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22forcnt2. forward pd22 check count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_PD_22_FLT_CNT2 (0x2fcf) +#define P_MCDI_RO_FLD_PD_22_FLT_CNT2 (volatile unsigned int *)((0x2fcf << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22fltcnt2. flat count (for pd22 check) of whole pre one field (block based). initial = 0 +#define MCDI_FIELD_MV (0x2f60) +#define P_MCDI_FIELD_MV (volatile unsigned int *)((0x2f60 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_pd22chkcnt +//Bit 23:16, reg_mcdi_fieldgmvcnt +//Bit 15, reg_mcdi_pd22chkflg +//Bit 14, reg_mcdi_fieldgmvlock +//Bit 13: 8, reg_mcdi_fieldrptmv. last field rpt mv +//Bit 7: 6, reserved +//Bit 5: 0, reg_mcdi_fieldgmv. last field gmv +#define MCDI_FIELD_HVF_PRDX_CNT (0x2f61) +#define P_MCDI_FIELD_HVF_PRDX_CNT (volatile unsigned int *)((0x2f61 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_motionparadoxcnt. +//Bit 23:17, reserved +//Bit 16, reg_mcdi_motionparadoxflg. +//Bit 15: 8, reg_mcdi_highvertfrqcnt. +//Bit 7: 4, reserved +//Bit 3: 2, reg_mcdi_highvertfrqphase. +//Bit 1, reserved +//Bit 0, reg_mcdi_highvertfrqflg. +#define MCDI_FIELD_LUMA_AVG_SUM_0 (0x2f62) +#define P_MCDI_FIELD_LUMA_AVG_SUM_0 (volatile unsigned int *)((0x2f62 << 2) + 0xff900000) +//Bit 31: 0, reg_mcdi_fld_luma_avg_sum0. +#define MCDI_FIELD_LUMA_AVG_SUM_1 (0x2f63) +#define P_MCDI_FIELD_LUMA_AVG_SUM_1 (volatile unsigned int *)((0x2f63 << 2) + 0xff900000) +//Bit 31: 0, reg_mcdi_fld_luma_avg_sum1. +#define MCDI_YCBCR_BLEND_CRTL (0x2f64) +#define P_MCDI_YCBCR_BLEND_CRTL (volatile unsigned int *)((0x2f64 << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_mcdi_ycbcrblendgain. ycbcr blending gain for cbcr in ycbcr. default = 0 +//Bit 7: 2, reserved. +//Bit 1: 0, reg_mcdi_ycbcrblendmode. 0:y+cmb(cb,cr), 1:med(r,g,b), 2:max(r,g,b), default = 2 +#define MCDI_MCVECWR_CANVAS_SIZE (0x2f65) +#define P_MCDI_MCVECWR_CANVAS_SIZE (volatile unsigned int *)((0x2f65 << 2) + 0xff900000) +#define MCDI_MCVECRD_CANVAS_SIZE (0x2f66) +#define P_MCDI_MCVECRD_CANVAS_SIZE (volatile unsigned int *)((0x2f66 << 2) + 0xff900000) +#define MCDI_MCINFOWR_CANVAS_SIZE (0x2f67) +#define P_MCDI_MCINFOWR_CANVAS_SIZE (volatile unsigned int *)((0x2f67 << 2) + 0xff900000) +#define MCDI_MCINFORD_CANVAS_SIZE (0x2f68) +#define P_MCDI_MCINFORD_CANVAS_SIZE (volatile unsigned int *)((0x2f68 << 2) + 0xff900000) +#define MCDI_MCVECWR_X (0x2f92) +#define P_MCDI_MCVECWR_X (volatile unsigned int *)((0x2f92 << 2) + 0xff900000) +#define MCDI_MCVECWR_Y (0x2f93) +#define P_MCDI_MCVECWR_Y (volatile unsigned int *)((0x2f93 << 2) + 0xff900000) +#define MCDI_MCVECWR_CTRL (0x2f94) +#define P_MCDI_MCVECWR_CTRL (volatile unsigned int *)((0x2f94 << 2) + 0xff900000) +#define MCDI_MCVECRD_X (0x2f95) +#define P_MCDI_MCVECRD_X (volatile unsigned int *)((0x2f95 << 2) + 0xff900000) +#define MCDI_MCVECRD_Y (0x2f96) +#define P_MCDI_MCVECRD_Y (volatile unsigned int *)((0x2f96 << 2) + 0xff900000) +#define MCDI_MCVECRD_CTRL (0x2f97) +#define P_MCDI_MCVECRD_CTRL (volatile unsigned int *)((0x2f97 << 2) + 0xff900000) +#define MCDI_MCINFOWR_X (0x2f98) +#define P_MCDI_MCINFOWR_X (volatile unsigned int *)((0x2f98 << 2) + 0xff900000) +#define MCDI_MCINFOWR_Y (0x2f99) +#define P_MCDI_MCINFOWR_Y (volatile unsigned int *)((0x2f99 << 2) + 0xff900000) +#define MCDI_MCINFOWR_CTRL (0x2f9a) +#define P_MCDI_MCINFOWR_CTRL (volatile unsigned int *)((0x2f9a << 2) + 0xff900000) +#define MCDI_MCINFORD_X (0x2f9b) +#define P_MCDI_MCINFORD_X (volatile unsigned int *)((0x2f9b << 2) + 0xff900000) +#define MCDI_MCINFORD_Y (0x2f9c) +#define P_MCDI_MCINFORD_Y (volatile unsigned int *)((0x2f9c << 2) + 0xff900000) +#define MCDI_MCINFORD_CTRL (0x2f9d) +#define P_MCDI_MCINFORD_CTRL (volatile unsigned int *)((0x2f9d << 2) + 0xff900000) +// ================================================================== MC registers ======================================================================================================== +#define MCDI_MC_CRTL (0x2f70) +#define P_MCDI_MC_CRTL (volatile unsigned int *)((0x2f70 << 2) + 0xff900000) +//Bit 31: 9, reserved +//Bit 8, reg_mcdi_mcpreflg. flag to use previous field for MC, 0:forward field, 1: previous field, default = 1 +//Bit 7, reg_mcdi_mcrelrefbycolcfden. enable rel refinement by column cofidence in mc blending, default = 1 +//Bit 6: 5, reg_mcdi_mclpfen. enable mc pixles/rel lpf, 0:disable, 1: lpf rel, 2: lpf mc pxls, 3: lpf both rel and mc pxls, default = 0 +//Bit 4: 2, reg_mcdi_mcdebugmode. enable mc debug mode, 0:disable, 1: split left/right, 2: split top/bottom, 3: debug mv, 4: debug rel, default = 0 +//Bit 1: 0, reg_mcdi_mcen. mcdi enable mode, 0:disable, 1: blend with ma, 2: full mc, default = 1 +#define MCDI_MC_LPF_MSK_0 (0x2f71) +#define P_MCDI_MC_LPF_MSK_0 (volatile unsigned int *)((0x2f71 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_mcdi_mclpfmsk02. mc lpf coef. 2 for pixel 0 of current block, normalized 16 as '1', default = 0 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_mclpfmsk01. mc lpf coef. 1 for pixel 0 of current block, normalized 16 as '1', default = 9 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_mclpfmsk00. mc lpf coef. 0 for pixel 0 of current block, normalized 16 as '1', default = 7 +#define MCDI_MC_LPF_MSK_1 (0x2f72) +#define P_MCDI_MC_LPF_MSK_1 (volatile unsigned int *)((0x2f72 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_mcdi_mclpfmsk12. mc lpf coef. 2 for pixel 1 of current block, 0~16, normalized 16 as '1', default = 0 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_mclpfmsk11. mc lpf coef. 1 for pixel 1 of current block, 0~16, normalized 16 as '1', default = 11 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_mclpfmsk10. mc lpf coef. 0 for pixel 1 of current block, 0~16, normalized 16 as '1', default = 5 +#define MCDI_MC_LPF_MSK_2 (0x2f73) +#define P_MCDI_MC_LPF_MSK_2 (volatile unsigned int *)((0x2f73 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_mcdi_mclpfmsk22. mc lpf coef. 2 for pixel 2 of current block, 0~16, normalized 16 as '1', default = 1 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_mclpfmsk21. mc lpf coef. 1 for pixel 2 of current block, 0~16, normalized 16 as '1', default = 14 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_mclpfmsk20. mc lpf coef. 0 for pixel 2 of current block, 0~16, normalized 16 as '1', default = 1 +#define MCDI_MC_LPF_MSK_3 (0x2f74) +#define P_MCDI_MC_LPF_MSK_3 (volatile unsigned int *)((0x2f74 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_mcdi_mclpfmsk32. mc lpf coef. 2 for pixel 3 of current block, 0~16, normalized 16 as '1', default = 5 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_mclpfmsk31. mc lpf coef. 1 for pixel 3 of current block, 0~16, normalized 16 as '1', default = 11 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_mclpfmsk30. mc lpf coef. 0 for pixel 3 of current block, 0~16, normalized 16 as '1', default = 0 +#define MCDI_MC_LPF_MSK_4 (0x2f75) +#define P_MCDI_MC_LPF_MSK_4 (volatile unsigned int *)((0x2f75 << 2) + 0xff900000) +//Bit 31:21, reserved +//Bit 20:16, reg_mcdi_mclpfmsk42. mc lpf coef. 2 for pixel 4 of current block, 0~16, normalized 16 as '1', default = 7 +//Bit 15:13, reserved +//Bit 12: 8, reg_mcdi_mclpfmsk41. mc lpf coef. 1 for pixel 4 of current block, 0~16, normalized 16 as '1', default = 9 +//Bit 7: 5, reserved +//Bit 4: 0, reg_mcdi_mclpfmsk40. mc lpf coef. 0 for pixel 4 of current block, 0~16, normalized 16 as '1', default = 0 +#define MCDI_MC_REL_GAIN_OFFST_0 (0x2f76) +#define P_MCDI_MC_REL_GAIN_OFFST_0 (volatile unsigned int *)((0x2f76 << 2) + 0xff900000) +//Bit 31:26, reserved +//Bit 25, reg_mcdi_mcmotionparadoxflg. flag of motion paradox, initial with 0 and read from software, default = 0 +//Bit 24, reg_mcdi_mchighvertfrqflg. flag of high vert frq, initial with 0 and read from software, default = 0 +//Bit 23:16, reg_mcdi_mcmotionparadoxoffst. offset (rel + offset) for rel (MC blending coef.) refinement if motion paradox detected before MC blending before MC blending, default = 128 +//Bit 15:12, reserved +//Bit 11: 8, reg_mcdi_mcmotionparadoxgain. gain for rel (MC blending coef.) refinement if motion paradox detected before MC blending, normalized 8 as '1', set 15 to 16, default = 8 +//Bit 7: 4, reg_mcdi_mchighvertfrqoffst. minus offset (alpha - offset) for motion (MA blending coef.) refinement if high vertical frequency detected before MA blending, default = 15 +//Bit 3: 0, reg_mcdi_mchighvertfrqgain. gain for motion (MA blending coef.) refinement if high vertical frequency detected before MA blending, normalized 8 as '1', set 15 to 16, default = 8 +#define MCDI_MC_REL_GAIN_OFFST_1 (0x2f77) +#define P_MCDI_MC_REL_GAIN_OFFST_1 (volatile unsigned int *)((0x2f77 << 2) + 0xff900000) +//Bit 31:24, reg_mcdi_mcoutofboundrayoffst. offset (rel + offset) for rel (MC blending coef.) refinement if MC pointed out of boundray before MC blending before MC blending, default = 255 +//Bit 23:20, reserved +//Bit 19:16, reg_mcdi_mcoutofboundraygain. gain for rel (MC blending coef.) refinement if MC pointed out of boundray before MC blending, normalized 8 as '1', set 15 to 16, default = 8 +//Bit 15: 8, reg_mcdi_mcrelrefbycolcfdoffst. offset (rel + offset) for rel (MC blending coef.) refinement if motion paradox detected before MC blending before MC blending, default = 255 +//Bit 7: 4, reserved. +//Bit 3: 0, reg_mcdi_mcrelrefbycolcfdgain. gain for rel (MC blending coef.) refinement if column cofidence failed before MC blending, normalized 8 as '1', set 15 to 16, default = 8 +#define MCDI_MC_COL_CFD_0 (0x2f78) +#define P_MCDI_MC_COL_CFD_0 (volatile unsigned int *)((0x2f78 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_0. column cofidence value 0 read from software. initial = 0 +#define MCDI_MC_COL_CFD_1 (0x2f79) +#define P_MCDI_MC_COL_CFD_1 (volatile unsigned int *)((0x2f79 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_1. column cofidence value 1 read from software. initial = 0 +#define MCDI_MC_COL_CFD_2 (0x2f7a) +#define P_MCDI_MC_COL_CFD_2 (volatile unsigned int *)((0x2f7a << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_2. column cofidence value 2 read from software. initial = 0 +#define MCDI_MC_COL_CFD_3 (0x2f7b) +#define P_MCDI_MC_COL_CFD_3 (volatile unsigned int *)((0x2f7b << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_3. column cofidence value 3 read from software. initial = 0 +#define MCDI_MC_COL_CFD_4 (0x2f7c) +#define P_MCDI_MC_COL_CFD_4 (volatile unsigned int *)((0x2f7c << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_4. column cofidence value 4 read from software. initial = 0 +#define MCDI_MC_COL_CFD_5 (0x2f7d) +#define P_MCDI_MC_COL_CFD_5 (volatile unsigned int *)((0x2f7d << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_5. column cofidence value 5 read from software. initial = 0 +#define MCDI_MC_COL_CFD_6 (0x2f7e) +#define P_MCDI_MC_COL_CFD_6 (volatile unsigned int *)((0x2f7e << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_6. column cofidence value 6 read from software. initial = 0 +#define MCDI_MC_COL_CFD_7 (0x2f7f) +#define P_MCDI_MC_COL_CFD_7 (volatile unsigned int *)((0x2f7f << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_7. column cofidence value 7 read from software. initial = 0 +#define MCDI_MC_COL_CFD_8 (0x2f80) +#define P_MCDI_MC_COL_CFD_8 (volatile unsigned int *)((0x2f80 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_8. column cofidence value 8 read from software. initial = 0 +#define MCDI_MC_COL_CFD_9 (0x2f81) +#define P_MCDI_MC_COL_CFD_9 (volatile unsigned int *)((0x2f81 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_9. column cofidence value 9 read from software. initial = 0 +#define MCDI_MC_COL_CFD_10 (0x2f82) +#define P_MCDI_MC_COL_CFD_10 (volatile unsigned int *)((0x2f82 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_10. column cofidence value 10 read from software. initial = 0 +#define MCDI_MC_COL_CFD_11 (0x2f83) +#define P_MCDI_MC_COL_CFD_11 (volatile unsigned int *)((0x2f83 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_11. column cofidence value 11 read from software. initial = 0 +#define MCDI_MC_COL_CFD_12 (0x2f84) +#define P_MCDI_MC_COL_CFD_12 (volatile unsigned int *)((0x2f84 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_12. column cofidence value 12 read from software. initial = 0 +#define MCDI_MC_COL_CFD_13 (0x2f85) +#define P_MCDI_MC_COL_CFD_13 (volatile unsigned int *)((0x2f85 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_13. column cofidence value 13 read from software. initial = 0 +#define MCDI_MC_COL_CFD_14 (0x2f86) +#define P_MCDI_MC_COL_CFD_14 (volatile unsigned int *)((0x2f86 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_14. column cofidence value 14 read from software. initial = 0 +#define MCDI_MC_COL_CFD_15 (0x2f87) +#define P_MCDI_MC_COL_CFD_15 (volatile unsigned int *)((0x2f87 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_15. column cofidence value 15 read from software. initial = 0 +#define MCDI_MC_COL_CFD_16 (0x2f88) +#define P_MCDI_MC_COL_CFD_16 (volatile unsigned int *)((0x2f88 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_16. column cofidence value 16 read from software. initial = 0 +#define MCDI_MC_COL_CFD_17 (0x2f89) +#define P_MCDI_MC_COL_CFD_17 (volatile unsigned int *)((0x2f89 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_17. column cofidence value 17 read from software. initial = 0 +#define MCDI_MC_COL_CFD_18 (0x2f8a) +#define P_MCDI_MC_COL_CFD_18 (volatile unsigned int *)((0x2f8a << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_18. column cofidence value 18 read from software. initial = 0 +#define MCDI_MC_COL_CFD_19 (0x2f8b) +#define P_MCDI_MC_COL_CFD_19 (volatile unsigned int *)((0x2f8b << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_19. column cofidence value 19 read from software. initial = 0 +#define MCDI_MC_COL_CFD_20 (0x2f8c) +#define P_MCDI_MC_COL_CFD_20 (volatile unsigned int *)((0x2f8c << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_20. column cofidence value 20 read from software. initial = 0 +#define MCDI_MC_COL_CFD_21 (0x2f8d) +#define P_MCDI_MC_COL_CFD_21 (volatile unsigned int *)((0x2f8d << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_21. column cofidence value 21 read from software. initial = 0 +#define MCDI_MC_COL_CFD_22 (0x2f8e) +#define P_MCDI_MC_COL_CFD_22 (volatile unsigned int *)((0x2f8e << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_22. column cofidence value 22 read from software. initial = 0 +#define MCDI_MC_COL_CFD_23 (0x2f8f) +#define P_MCDI_MC_COL_CFD_23 (volatile unsigned int *)((0x2f8f << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_23. column cofidence value 23 read from software. initial = 0 +#define MCDI_MC_COL_CFD_24 (0x2f90) +#define P_MCDI_MC_COL_CFD_24 (volatile unsigned int *)((0x2f90 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_24. column cofidence value 24 read from software. initial = 0 +#define MCDI_MC_COL_CFD_25 (0x2f91) +#define P_MCDI_MC_COL_CFD_25 (volatile unsigned int *)((0x2f91 << 2) + 0xff900000) +//Bit 31: 0, mcdi_mc_col_cfd_25. column cofidence value 25 read from software. initial = 0 +// ===================================================================================== PRE RO Registers ========================================================================================== +#define MCDI_RO_FLD_LUMA_AVG_SUM (0x2fa0) +#define P_MCDI_RO_FLD_LUMA_AVG_SUM (volatile unsigned int *)((0x2fa0 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldlumaavgsum. block's luma avg sum of current filed (block based). initial = 0 +#define MCDI_RO_GMV_VLD_CNT (0x2fa1) +#define P_MCDI_RO_GMV_VLD_CNT (volatile unsigned int *)((0x2fa1 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_gmvvldcnt. valid gmv's count of pre one filed (block based). initial = 0 +#define MCDI_RO_RPT_FLG_CNT (0x2fa2) +#define P_MCDI_RO_RPT_FLG_CNT (volatile unsigned int *)((0x2fa2 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_rptflgcnt. repeat mv's count of pre one filed (block based). initial = 0 +#define MCDI_RO_FLD_BAD_SAD_CNT (0x2fa3) +#define P_MCDI_RO_FLD_BAD_SAD_CNT (volatile unsigned int *)((0x2fa3 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldbadsadcnt. bad sad count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_BAD_BADW_CNT (0x2fa4) +#define P_MCDI_RO_FLD_BAD_BADW_CNT (volatile unsigned int *)((0x2fa4 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldbadbadwcnt. bad badw count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_BAD_REL_CNT (0x2fa5) +#define P_MCDI_RO_FLD_BAD_REL_CNT (volatile unsigned int *)((0x2fa5 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldbadrelcnt. bad rel count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_MTN_CNT (0x2fa6) +#define P_MCDI_RO_FLD_MTN_CNT (volatile unsigned int *)((0x2fa6 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldmtncnt. motion count of whole pre one field (pixel based). initial = 0 +#define MCDI_RO_FLD_VLD_CNT (0x2fa7) +#define P_MCDI_RO_FLD_VLD_CNT (volatile unsigned int *)((0x2fa7 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldvldcnt. valid motion count of whole pre one field (pixel based). initial = 0 +#define MCDI_RO_FLD_PD_22_PRE_CNT (0x2fa8) +#define P_MCDI_RO_FLD_PD_22_PRE_CNT (volatile unsigned int *)((0x2fa8 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22precnt. prevoius pd22 check count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_PD_22_FOR_CNT (0x2fa9) +#define P_MCDI_RO_FLD_PD_22_FOR_CNT (volatile unsigned int *)((0x2fa9 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22forcnt. forward pd22 check count of whole pre one field (block based). initial = 0 +#define MCDI_RO_FLD_PD_22_FLT_CNT (0x2faa) +#define P_MCDI_RO_FLD_PD_22_FLT_CNT (volatile unsigned int *)((0x2faa << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_fldpd22fltcnt. flat count (for pd22 check) of whole pre one field (block based). initial = 0 +#define MCDI_RO_HIGH_VERT_FRQ_FLG (0x2fab) +#define P_MCDI_RO_HIGH_VERT_FRQ_FLG (volatile unsigned int *)((0x2fab << 2) + 0xff900000) +//Bit 31:16, reserved. +//Bit 15: 8, ro_mcdi_highvertfrqcnt. high vertical frequency count till prevoius one field. initial = 0 +//Bit 7: 3, reserved. +//Bit 2: 1, ro_mcdi_highvertfrqphase. high vertical frequency phase of prevoius one field. initial = 2 +//Bit 0, ro_mcdi_highvertfrqflg. high vertical frequency flag of prevoius one field. initial = 0 +#define MCDI_RO_GMV_LOCK_FLG (0x2fac) +#define P_MCDI_RO_GMV_LOCK_FLG (volatile unsigned int *)((0x2fac << 2) + 0xff900000) +//Bit 31:16, reserved. +//Bit 15: 8, ro_mcdi_gmvlckcnt. global mv lock count till prevoius one field. initial = 0 +//Bit 7: 2, ro_mcdi_gmv. global mv of prevoius one field. -31~31, initial = 32 (invalid value) +//Bit 1, ro_mcdi_zerogmvlckflg. zero global mv lock flag of prevoius one field. initial = 0 +//Bit 0, ro_mcdi_gmvlckflg. global mv lock flag of prevoius one field. initial = 0 +#define MCDI_RO_RPT_MV (0x2fad) +#define P_MCDI_RO_RPT_MV (volatile unsigned int *)((0x2fad << 2) + 0xff900000) +//Bit 5: 0, ro_mcdi_rptmv. repeate mv of prevoius one field. -31~31, initial = 32 (invalid value) +#define MCDI_RO_MOTION_PARADOX_FLG (0x2fae) +#define P_MCDI_RO_MOTION_PARADOX_FLG (volatile unsigned int *)((0x2fae << 2) + 0xff900000) +//Bit 31:16, reserved. +//Bit 15: 8, ro_mcdi_motionparadoxcnt. motion paradox count till prevoius one field. initial = 0 +//Bit 7: 1, reserved. +//Bit 0, ro_mcdi_motionparadoxflg. motion paradox flag of prevoius one field. initial = 0 +#define MCDI_RO_PD_22_FLG (0x2faf) +#define P_MCDI_RO_PD_22_FLG (volatile unsigned int *)((0x2faf << 2) + 0xff900000) +//Bit 31:27, reserved. +//Bit 26, ro_mcdi_pd22flg2. pull down 22 flag of prevoius one field. initial = 0 +//Bit 25, ro_mcdi_pd22flg1. pull down 22 flag of prevoius one field. initial = 0 +//Bit 24, ro_mcdi_pd22flg. pull down 22 flag of prevoius one field. initial = 0 +//Bit 23:16, ro_mcdi_pd22cnt2. pull down 22 count till prevoius one field. initial = 0 +//Bit 15: 8, ro_mcdi_pd22cnt1. pull down 22 count till prevoius one field. initial = 0 +//Bit 7: 0, ro_mcdi_pd22cnt. pull down 22 count till prevoius one field. initial = 0 +#define MCDI_RO_COL_CFD_0 (0x2fb0) +#define P_MCDI_RO_COL_CFD_0 (volatile unsigned int *)((0x2fb0 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_0. column cofidence value 0. initial = 0 +#define MCDI_RO_COL_CFD_1 (0x2fb1) +#define P_MCDI_RO_COL_CFD_1 (volatile unsigned int *)((0x2fb1 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_1. column cofidence value 1. initial = 0 +#define MCDI_RO_COL_CFD_2 (0x2fb2) +#define P_MCDI_RO_COL_CFD_2 (volatile unsigned int *)((0x2fb2 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_2. column cofidence value 2. initial = 0 +#define MCDI_RO_COL_CFD_3 (0x2fb3) +#define P_MCDI_RO_COL_CFD_3 (volatile unsigned int *)((0x2fb3 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_3. column cofidence value 3. initial = 0 +#define MCDI_RO_COL_CFD_4 (0x2fb4) +#define P_MCDI_RO_COL_CFD_4 (volatile unsigned int *)((0x2fb4 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_4. column cofidence value 4. initial = 0 +#define MCDI_RO_COL_CFD_5 (0x2fb5) +#define P_MCDI_RO_COL_CFD_5 (volatile unsigned int *)((0x2fb5 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_5. column cofidence value 5. initial = 0 +#define MCDI_RO_COL_CFD_6 (0x2fb6) +#define P_MCDI_RO_COL_CFD_6 (volatile unsigned int *)((0x2fb6 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_6. column cofidence value 6. initial = 0 +#define MCDI_RO_COL_CFD_7 (0x2fb7) +#define P_MCDI_RO_COL_CFD_7 (volatile unsigned int *)((0x2fb7 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_7. column cofidence value 7. initial = 0 +#define MCDI_RO_COL_CFD_8 (0x2fb8) +#define P_MCDI_RO_COL_CFD_8 (volatile unsigned int *)((0x2fb8 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_8. column cofidence value 8. initial = 0 +#define MCDI_RO_COL_CFD_9 (0x2fb9) +#define P_MCDI_RO_COL_CFD_9 (volatile unsigned int *)((0x2fb9 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_9. column cofidence value 9. initial = 0 +#define MCDI_RO_COL_CFD_10 (0x2fba) +#define P_MCDI_RO_COL_CFD_10 (volatile unsigned int *)((0x2fba << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_10. column cofidence value 10. initial = 0 +#define MCDI_RO_COL_CFD_11 (0x2fbb) +#define P_MCDI_RO_COL_CFD_11 (volatile unsigned int *)((0x2fbb << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_11. column cofidence value 11. initial = 0 +#define MCDI_RO_COL_CFD_12 (0x2fbc) +#define P_MCDI_RO_COL_CFD_12 (volatile unsigned int *)((0x2fbc << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_12. column cofidence value 12. initial = 0 +#define MCDI_RO_COL_CFD_13 (0x2fbd) +#define P_MCDI_RO_COL_CFD_13 (volatile unsigned int *)((0x2fbd << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_13. column cofidence value 13. initial = 0 +#define MCDI_RO_COL_CFD_14 (0x2fbe) +#define P_MCDI_RO_COL_CFD_14 (volatile unsigned int *)((0x2fbe << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_14. column cofidence value 14. initial = 0 +#define MCDI_RO_COL_CFD_15 (0x2fbf) +#define P_MCDI_RO_COL_CFD_15 (volatile unsigned int *)((0x2fbf << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_15. column cofidence value 15. initial = 0 +#define MCDI_RO_COL_CFD_16 (0x2fc0) +#define P_MCDI_RO_COL_CFD_16 (volatile unsigned int *)((0x2fc0 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_16. column cofidence value 16. initial = 0 +#define MCDI_RO_COL_CFD_17 (0x2fc1) +#define P_MCDI_RO_COL_CFD_17 (volatile unsigned int *)((0x2fc1 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_17. column cofidence value 17. initial = 0 +#define MCDI_RO_COL_CFD_18 (0x2fc2) +#define P_MCDI_RO_COL_CFD_18 (volatile unsigned int *)((0x2fc2 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_18. column cofidence value 18. initial = 0 +#define MCDI_RO_COL_CFD_19 (0x2fc3) +#define P_MCDI_RO_COL_CFD_19 (volatile unsigned int *)((0x2fc3 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_19. column cofidence value 19. initial = 0 +#define MCDI_RO_COL_CFD_20 (0x2fc4) +#define P_MCDI_RO_COL_CFD_20 (volatile unsigned int *)((0x2fc4 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_20. column cofidence value 20. initial = 0 +#define MCDI_RO_COL_CFD_21 (0x2fc5) +#define P_MCDI_RO_COL_CFD_21 (volatile unsigned int *)((0x2fc5 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_21. column cofidence value 21. initial = 0 +#define MCDI_RO_COL_CFD_22 (0x2fc6) +#define P_MCDI_RO_COL_CFD_22 (volatile unsigned int *)((0x2fc6 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_22. column cofidence value 22. initial = 0 +#define MCDI_RO_COL_CFD_23 (0x2fc7) +#define P_MCDI_RO_COL_CFD_23 (volatile unsigned int *)((0x2fc7 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_23. column cofidence value 23. initial = 0 +#define MCDI_RO_COL_CFD_24 (0x2fc8) +#define P_MCDI_RO_COL_CFD_24 (volatile unsigned int *)((0x2fc8 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_24. column cofidence value 24. initial = 0 +#define MCDI_RO_COL_CFD_25 (0x2fc9) +#define P_MCDI_RO_COL_CFD_25 (volatile unsigned int *)((0x2fc9 << 2) + 0xff900000) +//Bit 31: 0, ro_mcdi_col_cfd_25. column cofidence value 25. initial = 0 +// add space 8'hd0-8'hef +// +// Reading file: dipd_regs.h +// +// synopsys translate_off +// synopsys translate_on +// using 8'he0-8'hef +#define DIPD_COMB_CTRL0 (0x2fd0) +#define P_DIPD_COMB_CTRL0 (volatile unsigned int *)((0x2fd0 << 2) + 0xff900000) +//Bit 31:0, reg_pd_comb_ctrl0 +#define DIPD_COMB_CTRL1 (0x2fd1) +#define P_DIPD_COMB_CTRL1 (volatile unsigned int *)((0x2fd1 << 2) + 0xff900000) +//Bit 31:0, reg_pd_comb_ctrl1 +#define DIPD_COMB_CTRL2 (0x2fd2) +#define P_DIPD_COMB_CTRL2 (volatile unsigned int *)((0x2fd2 << 2) + 0xff900000) +//Bit 31:0, reg_pd_comb_ctrl2 +#define DIPD_COMB_CTRL3 (0x2fd3) +#define P_DIPD_COMB_CTRL3 (volatile unsigned int *)((0x2fd3 << 2) + 0xff900000) +//Bit 31:0, reg_pd_comb_ctrl3 +#define DIPD_COMB_CTRL4 (0x2fd4) +#define P_DIPD_COMB_CTRL4 (volatile unsigned int *)((0x2fd4 << 2) + 0xff900000) +//Bit 31:0, reg_pd_comb_ctrl4 +#define DIPD_COMB_CTRL5 (0x2fd5) +#define P_DIPD_COMB_CTRL5 (volatile unsigned int *)((0x2fd5 << 2) + 0xff900000) +//Bit 31:0, reg_pd_comb_ctrl5 +#define DIPD_RO_COMB_0 (0x2fd6) +#define P_DIPD_RO_COMB_0 (volatile unsigned int *)((0x2fd6 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_0 +#define DIPD_RO_COMB_1 (0x2fd7) +#define P_DIPD_RO_COMB_1 (volatile unsigned int *)((0x2fd7 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_1 +#define DIPD_RO_COMB_2 (0x2fd8) +#define P_DIPD_RO_COMB_2 (volatile unsigned int *)((0x2fd8 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_2 +#define DIPD_RO_COMB_3 (0x2fd9) +#define P_DIPD_RO_COMB_3 (volatile unsigned int *)((0x2fd9 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_3 +#define DIPD_RO_COMB_4 (0x2fda) +#define P_DIPD_RO_COMB_4 (volatile unsigned int *)((0x2fda << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_4 +#define DIPD_RO_COMB_5 (0x2fdb) +#define P_DIPD_RO_COMB_5 (volatile unsigned int *)((0x2fdb << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_5 +#define DIPD_RO_COMB_6 (0x2fdc) +#define P_DIPD_RO_COMB_6 (volatile unsigned int *)((0x2fdc << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_6 +#define DIPD_RO_COMB_7 (0x2fdd) +#define P_DIPD_RO_COMB_7 (volatile unsigned int *)((0x2fdd << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_7 +#define DIPD_RO_COMB_8 (0x2fde) +#define P_DIPD_RO_COMB_8 (volatile unsigned int *)((0x2fde << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_8 +#define DIPD_RO_COMB_9 (0x2fdf) +#define P_DIPD_RO_COMB_9 (volatile unsigned int *)((0x2fdf << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_9 +#define DIPD_RO_COMB_10 (0x2fe0) +#define P_DIPD_RO_COMB_10 (volatile unsigned int *)((0x2fe0 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_10 +#define DIPD_RO_COMB_11 (0x2fe1) +#define P_DIPD_RO_COMB_11 (volatile unsigned int *)((0x2fe1 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_11 +#define DIPD_RO_COMB_12 (0x2fe2) +#define P_DIPD_RO_COMB_12 (volatile unsigned int *)((0x2fe2 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_12 +#define DIPD_RO_COMB_13 (0x2fe3) +#define P_DIPD_RO_COMB_13 (volatile unsigned int *)((0x2fe3 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_13 +#define DIPD_RO_COMB_14 (0x2fe4) +#define P_DIPD_RO_COMB_14 (volatile unsigned int *)((0x2fe4 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_14 +#define DIPD_RO_COMB_15 (0x2fe5) +#define P_DIPD_RO_COMB_15 (volatile unsigned int *)((0x2fe5 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_15 +#define DIPD_RO_COMB_16 (0x2fe6) +#define P_DIPD_RO_COMB_16 (volatile unsigned int *)((0x2fe6 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_16 +#define DIPD_RO_COMB_17 (0x2fe7) +#define P_DIPD_RO_COMB_17 (volatile unsigned int *)((0x2fe7 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_17 +#define DIPD_RO_COMB_18 (0x2fe8) +#define P_DIPD_RO_COMB_18 (volatile unsigned int *)((0x2fe8 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_18 +#define DIPD_RO_COMB_19 (0x2fe9) +#define P_DIPD_RO_COMB_19 (volatile unsigned int *)((0x2fe9 << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_19 +#define DIPD_RO_COMB_20 (0x2fea) +#define P_DIPD_RO_COMB_20 (volatile unsigned int *)((0x2fea << 2) + 0xff900000) +//Bit 31:0, ro_pd_comb_20 +// synopsys translate_off +// synopsys translate_on +// +// Closing file: dipd_regs.h +// +// addr space 8'hf0-8'hff +// +// Reading file: nr3_tnr_regs.h +// +// synopsys translate_off +// synopsys translate_on +#define NR3_MODE (0x2ff0) +#define P_NR3_MODE (volatile unsigned int *)((0x2ff0 << 2) + 0xff900000) +//Bit 31: 6 reserved +//Bit 5 reg_nr3_vtxt_mode // unsigned , default = 0 0: avg; 1:MAX +//Bit 4 reg_3dnr_nr3_cbyy_ignor_coop // unsigned , default = 0 ignore coop condition for cbyy motion decision +//Bit 3 reg_3dnr_nr3_ybyc_ignor_cnoop // unsigned , default = 0 ignore cnoop condition for ybyc motion decision +//Bit 2: 0 reg_3dnr_nr3_suremot_txt_mode // unsigned , default = 3 0: cur, 1:p2; 2: (cur+p2)/2; 3/up: min(cur,p2) +#define NR3_COOP_PARA (0x2ff1) +#define P_NR3_COOP_PARA (volatile unsigned int *)((0x2ff1 << 2) + 0xff900000) +//Bit 31:22 reserved +//Bit 21:20 reg_3dnr_nr3_coop_mode // unsigned , default = 2 0 original pixel 1: [1 2 1]/4 lpf; 2: [1 2 2 2 1]/8; 3: 3x3 lpf +//Bit 19:16 reg_3dnr_nr3_coop_ratio // unsigned , default = 8 cur and p2 color oop decision ratio: (avg1<(dif1*ratio/8 + ofst)); +//Bit 15: 8 reg_3dnr_nr3_coop_ofset // signed , default = -1 cur and p2 color oop decision ofst: (avg1<(dif1*ratio/8 + ofst)); +//Bit 7: 0 reg_3dnr_nr3_coop_sat_thrd // unsigned , default = 0 cur and p2 color oop decision min(sat0,sat1) threshold; +#define NR3_CNOOP_GAIN (0x2ff2) +#define P_NR3_CNOOP_GAIN (volatile unsigned int *)((0x2ff2 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:20 reg_3dnr_nr3_cnoop_ratio0 // unsigned , default = 8 cur and p2 color noop decision ratio0: (avg1<(MAX(sat0,sat2)*ratio0/8 + ofst0)); +//Bit 19:16 reg_3dnr_nr3_cnoop_ratio1 // unsigned , default = 8 cur and p2 color noop decision ratio1: (dif1<(MIN(sat0,sat2)*ratio1/8 + ofst1)); +//Bit 15: 8 reg_3dnr_nr3_cnoop_ofset0 // signed , default = 25 cur and p2 color noop decision ofset0: (avg1<(MAX(sat0,sat2)*ratio0/8 + ofst0)); +//Bit 7: 0 reg_3dnr_nr3_cnoop_ofset1 // signed , default = 0 cur and p2 color noop decision ofset1: (dif1<(MIN(sat0,sat2)*ratio1/8 + ofst1)); +#define NR3_YMOT_PARA (0x2ff3) +#define P_NR3_YMOT_PARA (volatile unsigned int *)((0x2ff3 << 2) + 0xff900000) +//Bit 31:20 reserved +//Bit 19 reg_3dnr_nr3_ymot_only_en // unsigned , default = 1 enable signal for ignor chroma motion: (ytxt &coop) +//Bit 18 reg_3dnr_nr3_ymot_only_cmtmode // unsigned , default = 1 0: cmot=ymot; 1: cmot = MIN(ymot, cmot) +//Bit 17:16 reg_3dnr_nr3_ymot_only_txtmode // unsigned , default = 0 0, min(txt0,txt2); 1, max(txt0,txt2);2, (txt0+txt2)/2; 3: sat(txt0, txt2) +//Bit 15: 8 reg_3dnr_nr3_ymot_only_txtthrd // unsigned , default = 10 threshold to luma texture to decide use ymot only +//Bit 7: 0 reg_3dnr_nr3_ymot_only_motthrd // unsigned , default = 30 threshold to luma motion to decide use ymot only +#define NR3_CMOT_PARA (0x2ff4) +#define P_NR3_CMOT_PARA (volatile unsigned int *)((0x2ff4 << 2) + 0xff900000) +//Bit 31:20 reserved +//Bit 19 reg_3dnr_nr3_cmot_only_en // unsigned , default = 1 enable signal for ignor luma motion: (ctxt &cnoop) +//Bit 18 reg_3dnr_nr3_cmot_only_ymtmode // unsigned , default = 0 0: ymot=cmot+ymot/4; 1: ymot = MIN(ymot, cmot) +//Bit 17:16 reg_3dnr_nr3_cmot_only_txtmode // unsigned , default = 0 0, min(txt0,txt2); 1, max(txt0,txt2);2, (txt0+txt2)/2; 3: sat(txt0, txt2) +//Bit 15: 8 reg_3dnr_nr3_cmot_only_txtthrd // unsigned , default = 20 threshold to chroma texture to decide use cmot only +//Bit 7: 0 reg_3dnr_nr3_cmot_only_motthrd // unsigned , default = 15 threshold to chroma motion to decide use cmot only +#define NR3_SUREMOT_YGAIN (0x2ff5) +#define P_NR3_SUREMOT_YGAIN (volatile unsigned int *)((0x2ff5 << 2) + 0xff900000) +//Bit 31:24 reg_3dnr_nr3_suremot_dec_yrate // unsigned , default = 16 (norm 16)lpfMot>(dec_rate*txt +ofst) then force lpfMot*frc_gain+frc_ofset +//Bit 23:16 reg_3dnr_nr3_suremot_dec_yofst // unsigned , default = 12 lpfMot>(dec_rate*txt +ofst) then force lpfMot*frc_gain+frc_ofset +//Bit 15: 8 reg_3dnr_nr3_suremot_frc_ygain // unsigned , default = 64 (norm 8)lpfMot>(dec_rate*txt +ofst) then force lpfMot*frc_gain+frc_ofset +//Bit 7: 0 reg_3dnr_nr3_suremot_frc_yofst // unsigned , default = 20 lpfMot>(dec_rate*txt +ofst) then force lpfMot*frc_gain+frc_ofset +#define NR3_SUREMOT_CGAIN (0x2ff6) +#define P_NR3_SUREMOT_CGAIN (volatile unsigned int *)((0x2ff6 << 2) + 0xff900000) +//Bit 31:24 reg_3dnr_nr3_suremot_dec_crate // unsigned , default = 34 (norm 16)lpfMot>(dec_rate*txt +ofst) then force lpfMot*frc_gain+frc_ofset +//Bit 23:16 reg_3dnr_nr3_suremot_dec_cofst // unsigned , default = 38 lpfMot>(dec_rate*txt +ofst) then force lpfMot*frc_gain+frc_ofset +//Bit 15: 8 reg_3dnr_nr3_suremot_frc_cgain // unsigned , default = 64 (norm 8)lpfMot>(dec_rate*txt +ofst) then force lpfMot*frc_gain+frc_ofset +//Bit 7: 0 reg_3dnr_nr3_suremot_frc_cofst // unsigned , default = 20 lpfMot>(dec_rate*txt +ofst) then force lpfMot*frc_gain+frc_ofset +// synopsys translate_off +// synopsys translate_on +// +// Closing file: nr3_tnr_regs.h +// +#define LBUF_TOP_CTRL (0x2fff) +#define P_LBUF_TOP_CTRL (volatile unsigned int *)((0x2fff << 2) + 0xff900000) +//bit 23:22 mode_444c422 +//bit 21:20 mode_422c444 +//bit 17 lbuf_fmt444_mode +//bit 16 lbuf_line5_mode +//bit 12:0 pre_lbuf_size +// synopsys translate_off +// synopsys translate_on +// +// Closing file: mcdi_regs.h +// +// VPU_VLOCK register (16'h3000 - 16'h30ff) +//======================================================================== +//`define VPU_VLOCK_VCBUS_BASE 8'h30 +// +// Reading file: vpu_vlock_reg.h +// +// synopsys translate_off +// synopsys translate_on +// ---------------------------- +// VPU_VLOCK 0x30 +// ---------------------------- +// ----------------------------------------------- +// CBUS_BASE: VPU_VLOCK_VCBUS_BASE = 0x30 +// ----------------------------------------------- +#define VPU_VLOCK_CTRL (0x3000) +#define P_VPU_VLOCK_CTRL (volatile unsigned int *)((0x3000 << 2) + 0xff900000) +#define VPU_VLOCK_MISC_CTRL (0x3001) +#define P_VPU_VLOCK_MISC_CTRL (volatile unsigned int *)((0x3001 << 2) + 0xff900000) +#define VPU_VLOCK_LOOP0_ACCUM_LMT (0x3002) +#define P_VPU_VLOCK_LOOP0_ACCUM_LMT (volatile unsigned int *)((0x3002 << 2) + 0xff900000) +#define VPU_VLOCK_LOOP0_CTRL0 (0x3003) +#define P_VPU_VLOCK_LOOP0_CTRL0 (volatile unsigned int *)((0x3003 << 2) + 0xff900000) +#define VPU_VLOCK_LOOP1_CTRL0 (0x3004) +#define P_VPU_VLOCK_LOOP1_CTRL0 (volatile unsigned int *)((0x3004 << 2) + 0xff900000) +#define VPU_VLOCK_LOOP1_IMISSYNC_MAX (0x3005) +#define P_VPU_VLOCK_LOOP1_IMISSYNC_MAX (volatile unsigned int *)((0x3005 << 2) + 0xff900000) +#define VPU_VLOCK_LOOP1_IMISSYNC_MIN (0x3006) +#define P_VPU_VLOCK_LOOP1_IMISSYNC_MIN (volatile unsigned int *)((0x3006 << 2) + 0xff900000) +#define VPU_VLOCK_OVWRITE_ACCUM0 (0x3007) +#define P_VPU_VLOCK_OVWRITE_ACCUM0 (volatile unsigned int *)((0x3007 << 2) + 0xff900000) +#define VPU_VLOCK_OVWRITE_ACCUM1 (0x3008) +#define P_VPU_VLOCK_OVWRITE_ACCUM1 (volatile unsigned int *)((0x3008 << 2) + 0xff900000) +#define VPU_VLOCK_OUTPUT0_CAPT_LMT (0x3009) +#define P_VPU_VLOCK_OUTPUT0_CAPT_LMT (volatile unsigned int *)((0x3009 << 2) + 0xff900000) +#define VPU_VLOCK_OUTPUT0_PLL_LMT (0x300a) +#define P_VPU_VLOCK_OUTPUT0_PLL_LMT (volatile unsigned int *)((0x300a << 2) + 0xff900000) +#define VPU_VLOCK_OUTPUT1_CAPT_LMT (0x300b) +#define P_VPU_VLOCK_OUTPUT1_CAPT_LMT (volatile unsigned int *)((0x300b << 2) + 0xff900000) +#define VPU_VLOCK_OUTPUT1_PLL_LMT (0x300c) +#define P_VPU_VLOCK_OUTPUT1_PLL_LMT (volatile unsigned int *)((0x300c << 2) + 0xff900000) +#define VPU_VLOCK_LOOP1_PHSDIF_TGT (0x300d) +#define P_VPU_VLOCK_LOOP1_PHSDIF_TGT (volatile unsigned int *)((0x300d << 2) + 0xff900000) +#define VPU_VLOCK_RO_LOOP0_ACCUM (0x300e) +#define P_VPU_VLOCK_RO_LOOP0_ACCUM (volatile unsigned int *)((0x300e << 2) + 0xff900000) +#define VPU_VLOCK_RO_LOOP1_ACCUM (0x300f) +#define P_VPU_VLOCK_RO_LOOP1_ACCUM (volatile unsigned int *)((0x300f << 2) + 0xff900000) +#define VPU_VLOCK_OROW_OCOL_MAX (0x3010) +#define P_VPU_VLOCK_OROW_OCOL_MAX (volatile unsigned int *)((0x3010 << 2) + 0xff900000) +#define VPU_VLOCK_RO_VS_I_DIST (0x3011) +#define P_VPU_VLOCK_RO_VS_I_DIST (volatile unsigned int *)((0x3011 << 2) + 0xff900000) +#define VPU_VLOCK_RO_VS_O_DIST (0x3012) +#define P_VPU_VLOCK_RO_VS_O_DIST (volatile unsigned int *)((0x3012 << 2) + 0xff900000) +#define VPU_VLOCK_RO_LINE_PIX_ADJ (0x3013) +#define P_VPU_VLOCK_RO_LINE_PIX_ADJ (volatile unsigned int *)((0x3013 << 2) + 0xff900000) +#define VPU_VLOCK_RO_OUTPUT_00_01 (0x3014) +#define P_VPU_VLOCK_RO_OUTPUT_00_01 (volatile unsigned int *)((0x3014 << 2) + 0xff900000) +#define VPU_VLOCK_RO_OUTPUT_10_11 (0x3015) +#define P_VPU_VLOCK_RO_OUTPUT_10_11 (volatile unsigned int *)((0x3015 << 2) + 0xff900000) +#define VPU_VLOCK_MX4096 (0x3016) +#define P_VPU_VLOCK_MX4096 (volatile unsigned int *)((0x3016 << 2) + 0xff900000) +#define VPU_VLOCK_STBDET_WIN0_WIN1 (0x3017) +#define P_VPU_VLOCK_STBDET_WIN0_WIN1 (volatile unsigned int *)((0x3017 << 2) + 0xff900000) +#define VPU_VLOCK_STBDET_CLP (0x3018) +#define P_VPU_VLOCK_STBDET_CLP (volatile unsigned int *)((0x3018 << 2) + 0xff900000) +#define VPU_VLOCK_STBDET_ABS_WIN0 (0x3019) +#define P_VPU_VLOCK_STBDET_ABS_WIN0 (volatile unsigned int *)((0x3019 << 2) + 0xff900000) +#define VPU_VLOCK_STBDET_ABS_WIN1 (0x301a) +#define P_VPU_VLOCK_STBDET_ABS_WIN1 (volatile unsigned int *)((0x301a << 2) + 0xff900000) +#define VPU_VLOCK_STBDET_SGN_WIN0 (0x301b) +#define P_VPU_VLOCK_STBDET_SGN_WIN0 (volatile unsigned int *)((0x301b << 2) + 0xff900000) +#define VPU_VLOCK_STBDET_SGN_WIN1 (0x301c) +#define P_VPU_VLOCK_STBDET_SGN_WIN1 (volatile unsigned int *)((0x301c << 2) + 0xff900000) +#define VPU_VLOCK_ADJ_EN_SYNC_CTRL (0x301d) +#define P_VPU_VLOCK_ADJ_EN_SYNC_CTRL (volatile unsigned int *)((0x301d << 2) + 0xff900000) +#define VPU_VLOCK_GCLK_EN (0x301e) +#define P_VPU_VLOCK_GCLK_EN (volatile unsigned int *)((0x301e << 2) + 0xff900000) +#define VPU_VLOCK_LOOP1_ACCUM_LMT (0x301f) +#define P_VPU_VLOCK_LOOP1_ACCUM_LMT (volatile unsigned int *)((0x301f << 2) + 0xff900000) +#define VPU_VLOCK_RO_M_INT_FRAC (0x3020) +#define P_VPU_VLOCK_RO_M_INT_FRAC (volatile unsigned int *)((0x3020 << 2) + 0xff900000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: vpu_vlock_reg.h +// +//`define VPPB_VCBUS_BASE 8'h31 +// +// Reading file: srscl_reg.h +// +// synopsys translate_off +// synopsys translate_on +// ----------------------------------------------- +// CBUS_BASE: VPPB_VCBUS_BASE = 0x31 +// ----------------------------------------------- +////=================================================================//// +//// vkeystone +////=================================================================//// +// 8'h00-8'h17 +// +// Reading file: vkstone_regs.h +// +// synopsys translate_off +// synopsys translate_on +#define VKS_CTRL (0x3100) +#define P_VKS_CTRL (volatile unsigned int *)((0x3100 << 2) + 0xff900000) +//Bit 31 reg_vks_en // unsigned , default = 1 enable signal of the vks function +//Bit 30 reg_vks_scl_mode0 // unsigned , default = 1 : b0 mode of vks ofset mode, 0: offset= offset; 1: offset= offset*step= ofset/scale; +//Bit 29 reg_vks_scl_mode1 // unsigned , default = 1 : b0 mode of vks ofset mode, 0: offset= offset; 1: offset= offset*step= ofset/scale; +//Bit 28 reg_vks_fill_mode // unsigned , default = 1 mode of out-of-boundary fill, 0 extension, 1: fill with the fill_value +//Bit 27:26 reg_vks_row_inp_mode // unsigned , default = 1 , interpolation mode from 16pieces ofset/step to each line ofset and step; 0: linear interpolation; 1: cubic interpolation (using ccoef) +//Bit 25 reg_vks_border_ext_mode0 // unsigned , default = 0 , extend mode of the border data of luma and chroma, 0: copy the most border one; 1: extropolate the border one +//Bit 24 reg_vks_border_ext_mode1 // unsigned , default = 0 , extend mode of the border data of luma and chroma, 0: copy the most border one; 1: extropolate the border one +//Bit 23 reg_vks_obuf_mode0 // unsigned , default = 1 , mode of output buffer left/right side. 0: no precalculate active pixels during output fill region; 1: precaclc active pixels during output fill regions +//Bit 22 reg_vks_obuf_mode1 // unsigned , default = 1 , mode of output buffer left/right side. 0: no precalculate active pixels during output fill region; 1: precaclc active pixels during output fill regions +//Bit 21:20 reg_vks_obuf_mrgn0 // unsigned , default = 3 , margin pixels for left right most active pixel to the fill pixels to avoid jump +//Bit 19:18 reg_vks_obuf_mrgn1 // unsigned , default = 3 , margin pixels for left right most active pixel to the fill pixels to avoid jump +//Bit 17:16 reg_vks_phs_qmode // unsigned , default = 2 , interpolation mode of the phase, 0: floor to 1/64 phase; 1: round to 1/64 phase; 2/3 linear intp +//Bit 15: 0 reg_vks_row_scl // unsigned , default = 11651 , scale of row to make it fit to the 16 pieces, scl = (2^23)/RowMax +#define VKS_OUT_WIN_SIZE (0x3101) +#define P_VKS_OUT_WIN_SIZE (volatile unsigned int *)((0x3101 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_vks_ocolmax // unsigned , default = 1280 output outer window col number, decided by the projector +//Bit 15:14 reserved +//Bit 13: 0 reg_vks_orowmax // unsigned , default = 720 output outer window row number, decided by the projector +#define VKS_PRELPF_YCOEF0 (0x3102) +#define P_VKS_PRELPF_YCOEF0 (volatile unsigned int *)((0x3102 << 2) + 0xff900000) +//Bit 31:24 reg_vks_prelpf_ycoef0 // signed , default = -128 coef of horizontal luma prelpf for Keystone, normalized 128 as '1' +//Bit 23:16 reg_vks_prelpf_ycoef1 // signed , default = 0 coef of horizontal luma prelpf for Keystone, normalized 128 as '1' +//Bit 15: 8 reg_vks_prelpf_ycoef2 // signed , default = 0 coef of horizontal luma prelpf for Keystone, normalized 128 as '1' +//Bit 7: 0 reg_vks_prelpf_ycoef3 // signed , default = 0 coef of horizontal luma prelpf for Keystone, normalized 128 as '1' +#define VKS_PRELPF_YCOEF1 (0x3103) +#define P_VKS_PRELPF_YCOEF1 (volatile unsigned int *)((0x3103 << 2) + 0xff900000) +//Bit 31:16 reserved +//Bit 15: 8 reg_vks_prelpf_ycoef4 // signed , default = 0 coef of horizontal luma prelpf for Keystone, normalized 128 as '1' +//Bit 7: 0 reg_vks_prelpf_ycoef5 // signed , default = 0 coef of horizontal luma prelpf for Keystone, normalized 128 as '1' +#define VKS_PRELPF_CCOEF0 (0x3104) +#define P_VKS_PRELPF_CCOEF0 (volatile unsigned int *)((0x3104 << 2) + 0xff900000) +//Bit 31:24 reg_vks_prelpf_ccoef0 // signed , default = -128 mode of horizontal chroma prelpf for Keystone, normalized 128 as '1' +//Bit 23:16 reg_vks_prelpf_ccoef1 // signed , default = 0 mode of horizontal chroma prelpf for Keystone, normalized 128 as '1' +//Bit 15: 8 reg_vks_prelpf_ccoef2 // signed , default = 0 mode of horizontal chroma prelpf for Keystone, normalized 128 as '1' +//Bit 7: 0 reg_vks_prelpf_ccoef3 // signed , default = 0 mode of horizontal chroma prelpf for Keystone, normalized 128 as '1' +#define VKS_PRELPF_CCOEF1 (0x3105) +#define P_VKS_PRELPF_CCOEF1 (volatile unsigned int *)((0x3105 << 2) + 0xff900000) +//Bit 31:16 reserved +//Bit 15: 8 reg_vks_prelpf_ccoef4 // signed , default = 0 mode of horizontal chroma prelpf for Keystone, normalized 128 as '1' +//Bit 7: 0 reg_vks_prelpf_ccoef5 // signed , default = 0 mode of horizontal chroma prelpf for Keystone, normalized 128 as '1' +#define VKS_FILL_VAL (0x3106) +#define P_VKS_FILL_VAL (volatile unsigned int *)((0x3106 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_vks_fill_value0 // unsigned , default = 0 , border fill color define. yuv: [0 128 128]; rgb:[0 0 0] +//Bit 15: 8 reg_vks_fill_value1 // unsigned , default = 128 , border fill color define. yuv: [0 128 128]; rgb:[0 0 0] +//Bit 7: 0 reg_vks_fill_value2 // unsigned , default = 128 , border fill color define. yuv: [0 128 128]; rgb:[0 0 0] +#define VKS_IWIN_HSIZE (0x3107) +#define P_VKS_IWIN_HSIZE (volatile unsigned int *)((0x3107 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_vks_iwinx0 // unsigned , default = 160 , input start-col and end-col; +//Bit 15:14 reserved +//Bit 13: 0 reg_vks_iwinx1 // unsigned , default = 1279 , input start-col and end-col; +#define VKS_IWIN_VSIZE (0x3108) +#define P_VKS_IWIN_VSIZE (volatile unsigned int *)((0x3108 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_vks_iwiny0 // unsigned , default = 0 , input start-row and end-row; +//Bit 15:14 reserved +//Bit 13: 0 reg_vks_iwiny1 // unsigned , default = 719 , input start-row and end-row; +#define VKS_TOP_MISC (0x3109) +#define P_VKS_TOP_MISC (volatile unsigned int *)((0x3109 << 2) + 0xff900000) +//Bit 31:19 reserved +//Bit 18 reg_flt_en // unsigned , default = 1 +//Bit 17 reg_frm_rst // unsigned , default = 0 +//Bit 16 reg_ctrl_sync // unsigned , default = 0 +//Bit 15: 8 blank_num // unsigned , default = 4 +//Bit 7: 0 flt_blank_num // unsigned , default = 9 +#define VKS_START_CTRL (0x310a) +#define P_VKS_START_CTRL (volatile unsigned int *)((0x310a << 2) + 0xff900000) +//Bit 31:17 reserved +//Bit 16 reg_vks_en_mode // unsigned , default = 0 +//Bit 15: 0 reg_hold_phnum // unsigned , default = 5 +#define VKS_LBUF_SIZE (0x310b) +#define P_VKS_LBUF_SIZE (volatile unsigned int *)((0x310b << 2) + 0xff900000) +//Bit 31:12 reserved +//Bit 11: 0 reg_lbuf_depth // unsigned , default = 1024 +#define VKS_PARA_ADDR_PORT (0x310e) +#define P_VKS_PARA_ADDR_PORT (volatile unsigned int *)((0x310e << 2) + 0xff900000) +#define VKS_PARA_DATA_PORT (0x310f) +#define P_VKS_PARA_DATA_PORT (volatile unsigned int *)((0x310f << 2) + 0xff900000) + + #define VKS_SCL_OFSET00 0x9 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset0 // unsigned , default = 118534 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET01 0xa // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset1 // unsigned , default = 111450 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET02 0xb // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset2 // unsigned , default = 104366 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET03 0xc // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset3 // unsigned , default = 97283 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET04 0xd // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset4 // unsigned , default = 90199 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET05 0xe // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset5 // unsigned , default = 83115 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET06 0xf // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset6 // unsigned , default = 76031 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET07 0x10 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset7 // unsigned , default = 68947 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET08 0x11 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset8 // unsigned , default = 61864 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET09 0x12 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset9 // unsigned , default = 54780 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET10 0x13 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset10 // unsigned , default = 47696 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET11 0x14 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset11 // unsigned , default = 40612 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET12 0x15 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset12 // unsigned , default = 33528 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET13 0x16 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset13 // unsigned , default = 26444 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET14 0x17 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset14 // unsigned , default = 19361 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET15 0x18 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset15 // unsigned , default = 12277 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_OFSET16 0x19 // +//Bit 31:20 reserved +//Bit 19: 0 reg_vks_scl_ofset16 // unsigned , default = 5193 , left offset of the input pixel offset from left, 12.8 12bits pixel + 8bits float phase + #define VKS_SCL_STEP00 0x1a // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step0 // unsigned , default = 331378 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP01 0x1b // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step1 // unsigned , default = 383191 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP02 0x1c // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step2 // unsigned , default = 435004 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP03 0x1d // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step3 // unsigned , default = 486818 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP04 0x1e // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step4 // unsigned , default = 538631 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP05 0x1f // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step5 // unsigned , default = 590444 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP06 0x20 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step6 // unsigned , default = 642257 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP07 0x21 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step7 // unsigned , default = 694070 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP08 0x22 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step8 // unsigned , default = 745884 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP09 0x23 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step9 // unsigned , default = 797697 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP10 0x24 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step10 // unsigned , default = 849510 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP11 0x25 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step11 // unsigned , default = 901323 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP12 0x26 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step12 // unsigned , default = 953136 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP13 0x27 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step13 // unsigned , default = 1004949 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP14 0x28 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step14 // unsigned , default = 1056763 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP15 0x29 // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step15 // unsigned , default = 1108576 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_SCL_STEP16 0x2a // +//Bit 31:24 reserved +//Bit 23: 0 reg_vks_scl_step16 // unsigned , default = 1160389 , for ratio of each line (defined piece),step: 4.20 opixnum = (ipixnum<<20)/step; scale:4.20 = 1/step + #define VKS_PPS_YCOEF00 0x2b // +//Bit 31:24 reg_vks_ycoef0 // signed , default = 0 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef1 // signed , default = 128 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef2 // signed , default = 0 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef3 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF01 0x2c // +//Bit 31:24 reg_vks_ycoef4 // signed , default = 0 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef5 // signed , default = 127 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef6 // signed , default = 1 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef7 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF02 0x2d // +//Bit 31:24 reg_vks_ycoef8 // signed , default = -1 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef9 // signed , default = 127 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef10 // signed , default = 2 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef11 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF03 0x2e // +//Bit 31:24 reg_vks_ycoef12 // signed , default = -2 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef13 // signed , default = 127 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef14 // signed , default = 3 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef15 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF04 0x2f // +//Bit 31:24 reg_vks_ycoef16 // signed , default = -3 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef17 // signed , default = 126 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef18 // signed , default = 5 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef19 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF05 0x30 // +//Bit 31:24 reg_vks_ycoef20 // signed , default = -4 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef21 // signed , default = 126 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef22 // signed , default = 6 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef23 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF06 0x31 // +//Bit 31:24 reg_vks_ycoef24 // signed , default = -5 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef25 // signed , default = 125 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef26 // signed , default = 8 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef27 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF07 0x32 // +//Bit 31:24 reg_vks_ycoef28 // signed , default = -5 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef29 // signed , default = 124 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef30 // signed , default = 9 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef31 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF08 0x33 // +//Bit 31:24 reg_vks_ycoef32 // signed , default = -6 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef33 // signed , default = 123 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef34 // signed , default = 11 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef35 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_YCOEF09 0x34 // +//Bit 31:24 reg_vks_ycoef36 // signed , default = -6 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef37 // signed , default = 122 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef38 // signed , default = 13 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef39 // signed , default = -1 poly-phase scalar coefs + #define VKS_PPS_YCOEF10 0x35 // +//Bit 31:24 reg_vks_ycoef40 // signed , default = -7 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef41 // signed , default = 121 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef42 // signed , default = 15 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef43 // signed , default = -1 poly-phase scalar coefs + #define VKS_PPS_YCOEF11 0x36 // +//Bit 31:24 reg_vks_ycoef44 // signed , default = -7 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef45 // signed , default = 119 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef46 // signed , default = 17 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef47 // signed , default = -1 poly-phase scalar coefs + #define VKS_PPS_YCOEF12 0x37 // +//Bit 31:24 reg_vks_ycoef48 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef49 // signed , default = 118 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef50 // signed , default = 19 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef51 // signed , default = -1 poly-phase scalar coefs + #define VKS_PPS_YCOEF13 0x38 // +//Bit 31:24 reg_vks_ycoef52 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef53 // signed , default = 116 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef54 // signed , default = 22 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef55 // signed , default = -2 poly-phase scalar coefs + #define VKS_PPS_YCOEF14 0x39 // +//Bit 31:24 reg_vks_ycoef56 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef57 // signed , default = 114 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef58 // signed , default = 24 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef59 // signed , default = -2 poly-phase scalar coefs + #define VKS_PPS_YCOEF15 0x3a // +//Bit 31:24 reg_vks_ycoef60 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef61 // signed , default = 112 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef62 // signed , default = 26 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef63 // signed , default = -2 poly-phase scalar coefs + #define VKS_PPS_YCOEF16 0x3b // +//Bit 31:24 reg_vks_ycoef64 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef65 // signed , default = 111 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef66 // signed , default = 29 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef67 // signed , default = -3 poly-phase scalar coefs + #define VKS_PPS_YCOEF17 0x3c // +//Bit 31:24 reg_vks_ycoef68 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef69 // signed , default = 109 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef70 // signed , default = 31 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef71 // signed , default = -3 poly-phase scalar coefs + #define VKS_PPS_YCOEF18 0x3d // +//Bit 31:24 reg_vks_ycoef72 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef73 // signed , default = 107 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef74 // signed , default = 33 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef75 // signed , default = -3 poly-phase scalar coefs + #define VKS_PPS_YCOEF19 0x3e // +//Bit 31:24 reg_vks_ycoef76 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef77 // signed , default = 104 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef78 // signed , default = 36 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef79 // signed , default = -3 poly-phase scalar coefs + #define VKS_PPS_YCOEF20 0x3f // +//Bit 31:24 reg_vks_ycoef80 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef81 // signed , default = 102 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef82 // signed , default = 39 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef83 // signed , default = -4 poly-phase scalar coefs + #define VKS_PPS_YCOEF21 0x40 // +//Bit 31:24 reg_vks_ycoef84 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef85 // signed , default = 100 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef86 // signed , default = 41 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef87 // signed , default = -4 poly-phase scalar coefs + #define VKS_PPS_YCOEF22 0x41 // +//Bit 31:24 reg_vks_ycoef88 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef89 // signed , default = 97 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef90 // signed , default = 44 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef91 // signed , default = -4 poly-phase scalar coefs + #define VKS_PPS_YCOEF23 0x42 // +//Bit 31:24 reg_vks_ycoef92 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef93 // signed , default = 95 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef94 // signed , default = 47 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef95 // signed , default = -5 poly-phase scalar coefs + #define VKS_PPS_YCOEF24 0x43 // +//Bit 31:24 reg_vks_ycoef96 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef97 // signed , default = 93 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef98 // signed , default = 49 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef99 // signed , default = -5 poly-phase scalar coefs + #define VKS_PPS_YCOEF25 0x44 // +//Bit 31:24 reg_vks_ycoef100 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef101 // signed , default = 90 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef102 // signed , default = 52 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef103 // signed , default = -5 poly-phase scalar coefs + #define VKS_PPS_YCOEF26 0x45 // +//Bit 31:24 reg_vks_ycoef104 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef105 // signed , default = 88 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef106 // signed , default = 55 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef107 // signed , default = -6 poly-phase scalar coefs + #define VKS_PPS_YCOEF27 0x46 // +//Bit 31:24 reg_vks_ycoef108 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef109 // signed , default = 85 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef110 // signed , default = 58 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef111 // signed , default = -6 poly-phase scalar coefs + #define VKS_PPS_YCOEF28 0x47 // +//Bit 31:24 reg_vks_ycoef112 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef113 // signed , default = 82 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef114 // signed , default = 60 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef115 // signed , default = -6 poly-phase scalar coefs + #define VKS_PPS_YCOEF29 0x48 // +//Bit 31:24 reg_vks_ycoef116 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef117 // signed , default = 80 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef118 // signed , default = 63 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef119 // signed , default = -7 poly-phase scalar coefs + #define VKS_PPS_YCOEF30 0x49 // +//Bit 31:24 reg_vks_ycoef120 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef121 // signed , default = 77 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef122 // signed , default = 66 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef123 // signed , default = -7 poly-phase scalar coefs + #define VKS_PPS_YCOEF31 0x4a // +//Bit 31:24 reg_vks_ycoef124 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef125 // signed , default = 74 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef126 // signed , default = 69 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef127 // signed , default = -7 poly-phase scalar coefs + #define VKS_PPS_YCOEF32 0x4b // +//Bit 31:24 reg_vks_ycoef128 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ycoef129 // signed , default = 72 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ycoef130 // signed , default = 72 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ycoef131 // signed , default = -8 poly-phase scalar coefs + #define VKS_PPS_CCOEF00 0x4c // +//Bit 31:24 reg_vks_ccoef0 // signed , default = 0 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef1 // signed , default = 128 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef2 // signed , default = 0 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef3 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF01 0x4d // +//Bit 31:24 reg_vks_ccoef4 // signed , default = 0 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef5 // signed , default = 127 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef6 // signed , default = 1 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef7 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF02 0x4e // +//Bit 31:24 reg_vks_ccoef8 // signed , default = -1 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef9 // signed , default = 127 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef10 // signed , default = 2 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef11 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF03 0x4f // +//Bit 31:24 reg_vks_ccoef12 // signed , default = -2 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef13 // signed , default = 127 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef14 // signed , default = 3 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef15 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF04 0x50 // +//Bit 31:24 reg_vks_ccoef16 // signed , default = -3 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef17 // signed , default = 126 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef18 // signed , default = 5 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef19 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF05 0x51 // +//Bit 31:24 reg_vks_ccoef20 // signed , default = -4 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef21 // signed , default = 126 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef22 // signed , default = 6 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef23 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF06 0x52 // +//Bit 31:24 reg_vks_ccoef24 // signed , default = -5 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef25 // signed , default = 125 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef26 // signed , default = 8 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef27 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF07 0x53 // +//Bit 31:24 reg_vks_ccoef28 // signed , default = -5 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef29 // signed , default = 124 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef30 // signed , default = 9 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef31 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF08 0x54 // +//Bit 31:24 reg_vks_ccoef32 // signed , default = -6 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef33 // signed , default = 123 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef34 // signed , default = 11 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef35 // signed , default = 0 poly-phase scalar coefs + #define VKS_PPS_CCOEF09 0x55 // +//Bit 31:24 reg_vks_ccoef36 // signed , default = -6 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef37 // signed , default = 122 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef38 // signed , default = 13 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef39 // signed , default = -1 poly-phase scalar coefs + #define VKS_PPS_CCOEF10 0x56 // +//Bit 31:24 reg_vks_ccoef40 // signed , default = -7 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef41 // signed , default = 121 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef42 // signed , default = 15 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef43 // signed , default = -1 poly-phase scalar coefs + #define VKS_PPS_CCOEF11 0x57 // +//Bit 31:24 reg_vks_ccoef44 // signed , default = -7 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef45 // signed , default = 119 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef46 // signed , default = 17 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef47 // signed , default = -1 poly-phase scalar coefs + #define VKS_PPS_CCOEF12 0x58 // +//Bit 31:24 reg_vks_ccoef48 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef49 // signed , default = 118 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef50 // signed , default = 19 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef51 // signed , default = -1 poly-phase scalar coefs + #define VKS_PPS_CCOEF13 0x59 // +//Bit 31:24 reg_vks_ccoef52 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef53 // signed , default = 116 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef54 // signed , default = 22 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef55 // signed , default = -2 poly-phase scalar coefs + #define VKS_PPS_CCOEF14 0x5a // +//Bit 31:24 reg_vks_ccoef56 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef57 // signed , default = 114 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef58 // signed , default = 24 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef59 // signed , default = -2 poly-phase scalar coefs + #define VKS_PPS_CCOEF15 0x5b // +//Bit 31:24 reg_vks_ccoef60 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef61 // signed , default = 112 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef62 // signed , default = 26 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef63 // signed , default = -2 poly-phase scalar coefs + #define VKS_PPS_CCOEF16 0x5c // +//Bit 31:24 reg_vks_ccoef64 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef65 // signed , default = 111 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef66 // signed , default = 29 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef67 // signed , default = -3 poly-phase scalar coefs + #define VKS_PPS_CCOEF17 0x5d // +//Bit 31:24 reg_vks_ccoef68 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef69 // signed , default = 109 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef70 // signed , default = 31 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef71 // signed , default = -3 poly-phase scalar coefs + #define VKS_PPS_CCOEF18 0x5e // +//Bit 31:24 reg_vks_ccoef72 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef73 // signed , default = 107 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef74 // signed , default = 33 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef75 // signed , default = -3 poly-phase scalar coefs + #define VKS_PPS_CCOEF19 0x5f // +//Bit 31:24 reg_vks_ccoef76 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef77 // signed , default = 104 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef78 // signed , default = 36 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef79 // signed , default = -3 poly-phase scalar coefs + #define VKS_PPS_CCOEF20 0x60 // +//Bit 31:24 reg_vks_ccoef80 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef81 // signed , default = 102 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef82 // signed , default = 39 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef83 // signed , default = -4 poly-phase scalar coefs + #define VKS_PPS_CCOEF21 0x61 // +//Bit 31:24 reg_vks_ccoef84 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef85 // signed , default = 100 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef86 // signed , default = 41 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef87 // signed , default = -4 poly-phase scalar coefs + #define VKS_PPS_CCOEF22 0x62 // +//Bit 31:24 reg_vks_ccoef88 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef89 // signed , default = 97 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef90 // signed , default = 44 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef91 // signed , default = -4 poly-phase scalar coefs + #define VKS_PPS_CCOEF23 0x63 // +//Bit 31:24 reg_vks_ccoef92 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef93 // signed , default = 95 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef94 // signed , default = 47 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef95 // signed , default = -5 poly-phase scalar coefs + #define VKS_PPS_CCOEF24 0x64 // +//Bit 31:24 reg_vks_ccoef96 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef97 // signed , default = 93 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef98 // signed , default = 49 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef99 // signed , default = -5 poly-phase scalar coefs + #define VKS_PPS_CCOEF25 0x65 // +//Bit 31:24 reg_vks_ccoef100 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef101 // signed , default = 90 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef102 // signed , default = 52 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef103 // signed , default = -5 poly-phase scalar coefs + #define VKS_PPS_CCOEF26 0x66 // +//Bit 31:24 reg_vks_ccoef104 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef105 // signed , default = 88 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef106 // signed , default = 55 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef107 // signed , default = -6 poly-phase scalar coefs + #define VKS_PPS_CCOEF27 0x67 // +//Bit 31:24 reg_vks_ccoef108 // signed , default = -9 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef109 // signed , default = 85 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef110 // signed , default = 58 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef111 // signed , default = -6 poly-phase scalar coefs + #define VKS_PPS_CCOEF28 0x68 // +//Bit 31:24 reg_vks_ccoef112 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef113 // signed , default = 82 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef114 // signed , default = 60 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef115 // signed , default = -6 poly-phase scalar coefs + #define VKS_PPS_CCOEF29 0x69 // +//Bit 31:24 reg_vks_ccoef116 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef117 // signed , default = 80 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef118 // signed , default = 63 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef119 // signed , default = -7 poly-phase scalar coefs + #define VKS_PPS_CCOEF30 0x6a // +//Bit 31:24 reg_vks_ccoef120 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef121 // signed , default = 77 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef122 // signed , default = 66 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef123 // signed , default = -7 poly-phase scalar coefs + #define VKS_PPS_CCOEF31 0x6b // +//Bit 31:24 reg_vks_ccoef124 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef125 // signed , default = 74 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef126 // signed , default = 69 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef127 // signed , default = -7 poly-phase scalar coefs + #define VKS_PPS_CCOEF32 0x6c // +//Bit 31:24 reg_vks_ccoef128 // signed , default = -8 poly-phase scalar coefs +//Bit 23:16 reg_vks_ccoef129 // signed , default = 72 poly-phase scalar coefs +//Bit 15: 8 reg_vks_ccoef130 // signed , default = 72 poly-phase scalar coefs +//Bit 7: 0 reg_vks_ccoef131 // signed , default = -8 poly-phase scalar coefs + + +// synopsys translate_off +// synopsys translate_on +// +// Closing file: vkstone_regs.h +// +////=================================================================//// +//// vpp dither +////=================================================================//// +// 8'h20-8'h3f +// +// Reading file: vpp_dither_regs.h +// +// synopsys translate_off +// synopsys translate_on +#define VPP_VE_DITHER_CTRL (0x3120) +#define P_VPP_VE_DITHER_CTRL (volatile unsigned int *)((0x3120 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_1 (0x3121) +#define P_VPP_VE_DITHER_LUT_1 (volatile unsigned int *)((0x3121 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_2 (0x3122) +#define P_VPP_VE_DITHER_LUT_2 (volatile unsigned int *)((0x3122 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_3 (0x3123) +#define P_VPP_VE_DITHER_LUT_3 (volatile unsigned int *)((0x3123 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_4 (0x3124) +#define P_VPP_VE_DITHER_LUT_4 (volatile unsigned int *)((0x3124 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_5 (0x3125) +#define P_VPP_VE_DITHER_LUT_5 (volatile unsigned int *)((0x3125 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_6 (0x3126) +#define P_VPP_VE_DITHER_LUT_6 (volatile unsigned int *)((0x3126 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_7 (0x3127) +#define P_VPP_VE_DITHER_LUT_7 (volatile unsigned int *)((0x3127 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_8 (0x3128) +#define P_VPP_VE_DITHER_LUT_8 (volatile unsigned int *)((0x3128 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_9 (0x3129) +#define P_VPP_VE_DITHER_LUT_9 (volatile unsigned int *)((0x3129 << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_10 (0x312a) +#define P_VPP_VE_DITHER_LUT_10 (volatile unsigned int *)((0x312a << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_11 (0x312b) +#define P_VPP_VE_DITHER_LUT_11 (volatile unsigned int *)((0x312b << 2) + 0xff900000) +#define VPP_VE_DITHER_LUT_12 (0x312c) +#define P_VPP_VE_DITHER_LUT_12 (volatile unsigned int *)((0x312c << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_CTRL (0x3130) +#define P_VPP_OSDSC_DITHER_CTRL (volatile unsigned int *)((0x3130 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_1 (0x3131) +#define P_VPP_OSDSC_DITHER_LUT_1 (volatile unsigned int *)((0x3131 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_2 (0x3132) +#define P_VPP_OSDSC_DITHER_LUT_2 (volatile unsigned int *)((0x3132 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_3 (0x3133) +#define P_VPP_OSDSC_DITHER_LUT_3 (volatile unsigned int *)((0x3133 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_4 (0x3134) +#define P_VPP_OSDSC_DITHER_LUT_4 (volatile unsigned int *)((0x3134 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_5 (0x3135) +#define P_VPP_OSDSC_DITHER_LUT_5 (volatile unsigned int *)((0x3135 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_6 (0x3136) +#define P_VPP_OSDSC_DITHER_LUT_6 (volatile unsigned int *)((0x3136 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_7 (0x3137) +#define P_VPP_OSDSC_DITHER_LUT_7 (volatile unsigned int *)((0x3137 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_8 (0x3138) +#define P_VPP_OSDSC_DITHER_LUT_8 (volatile unsigned int *)((0x3138 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_9 (0x3139) +#define P_VPP_OSDSC_DITHER_LUT_9 (volatile unsigned int *)((0x3139 << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_10 (0x313a) +#define P_VPP_OSDSC_DITHER_LUT_10 (volatile unsigned int *)((0x313a << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_11 (0x313b) +#define P_VPP_OSDSC_DITHER_LUT_11 (volatile unsigned int *)((0x313b << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_12 (0x313c) +#define P_VPP_OSDSC_DITHER_LUT_12 (volatile unsigned int *)((0x313c << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_13 (0x313d) +#define P_VPP_OSDSC_DITHER_LUT_13 (volatile unsigned int *)((0x313d << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_14 (0x313e) +#define P_VPP_OSDSC_DITHER_LUT_14 (volatile unsigned int *)((0x313e << 2) + 0xff900000) +#define VPP_OSDSC_DITHER_LUT_15 (0x313f) +#define P_VPP_OSDSC_DITHER_LUT_15 (volatile unsigned int *)((0x313f << 2) + 0xff900000) + + +/* osd super scale */ +#define OSDSR_HV_SIZEIN VPP_OSDSC_DITHER_CTRL +#define OSDSR_CTRL_MODE VPP_OSDSC_DITHER_LUT_1 +#define OSDSR_ABIC_HCOEF VPP_OSDSC_DITHER_LUT_2 +#define OSDSR_YBIC_HCOEF VPP_OSDSC_DITHER_LUT_3 +#define OSDSR_CBIC_HCOEF VPP_OSDSC_DITHER_LUT_4 +#define OSDSR_ABIC_VCOEF VPP_OSDSC_DITHER_LUT_5 +#define OSDSR_YBIC_VCOEF VPP_OSDSC_DITHER_LUT_6 +#define OSDSR_CBIC_VCOEF VPP_OSDSC_DITHER_LUT_7 +#define OSDSR_VAR_PARA VPP_OSDSC_DITHER_LUT_8 +#define OSDSR_CONST_PARA VPP_OSDSC_DITHER_LUT_9 +#define OSDSR_RKE_EXTWIN VPP_OSDSC_DITHER_LUT_10 +#define OSDSR_UK_GRAD2DDIAG_TH_RATE VPP_OSDSC_DITHER_LUT_11 +#define OSDSR_UK_GRAD2DDIAG_LIMIT VPP_OSDSC_DITHER_LUT_12 +#define OSDSR_UK_GRAD2DADJA_TH_RATE VPP_OSDSC_DITHER_LUT_13 +#define OSDSR_UK_GRAD2DADJA_LIMIT VPP_OSDSC_DITHER_LUT_14 +#define OSDSR_UK_BST_GAIN VPP_OSDSC_DITHER_LUT_15 + +// synopsys translate_off +// synopsys translate_on +// +// Closing file: vpp_dither_regs.h +// +// 8'h40-8'h4f +// +// Reading file: osdsc_deband_regs.h +// +// synopsys translate_off +// synopsys translate_on +#define OSD_DB_FLT_CTRL (0x3140) +#define P_OSD_DB_FLT_CTRL (volatile unsigned int *)((0x3140 << 2) + 0xff900000) +//Bit 31:27 reserved +//Bit 26 reg_nrdeband_reset1 // unsigned , default = 1 , 0 : no reload chrm seed 1: reload chrm seed +//Bit 25 reg_nrdeband_reset0 // unsigned , default = 1 , 0 : no reload luma seed 1: reload luma seed +//Bit 24 reg_nrdeband_rgb // unsigned , default = 0 , 0 : yuv 1: RGB +//Bit 23 reg_nrdeband_en11 // unsigned , default = 0 , debanding registers of side lines, [0] for luma, same for below +//Bit 22 reg_nrdeband_en10 // unsigned , default = 0 , debanding registers of side lines, [1] for chroma, same for below +//Bit 21 reg_nrdeband_siderand // unsigned , default = 1 , options to use side two lines use the rand, instead of use for the YUV three component of middle line, 0: seed[3]/bandrand[3] for middle line yuv; 1: seed[3]/bandrand[3] for nearby three lines Y; +//Bit 20 reg_nrdeband_randmode // unsigned , default = 0 , mode of rand noise adding, 0: same noise strength for all difs; else: strenght of noise will not exceed the difs, MIN((pPKReg->reg_nrdeband_bandrand[m]), noise[m]) +//Bit 19:17 reg_nrdeband_bandrand2 // unsigned , default = 6 +//Bit 16 reserved +//Bit 15:13 reg_nrdeband_bandrand1 // unsigned , default = 6 +//Bit 12 reserved +//Bit 11: 9 reg_nrdeband_bandrand0 // unsigned , default = 6 +//Bit 8 reserved +//Bit 7 reg_nrdeband_hpxor1 // unsigned , default = 1 , debanding random hp portion xor, [0] for luma +//Bit 6 reg_nrdeband_hpxor0 // unsigned , default = 1 , debanding random hp portion xor, [1] for chroma +//Bit 5 reg_nrdeband_en1 // unsigned , default = 0 , debanding registers, for luma +//Bit 4 reg_nrdeband_en0 // unsigned , default = 0 , debanding registers, for chroma +//Bit 3: 2 reg_nrdeband_lpf_mode1 // unsigned , default = 2 , lpf mode, 0: 3x3, 1:3x5; 2: 5x5; 3:5x7 +//Bit 1: 0 reg_nrdeband_lpf_mode0 // unsigned , default = 2 , lpf mode, 0: 3x3, 1:3x5; 2: 5x5; 3:5x7 +#define OSD_DB_FLT_CTRL1 (0x3141) +#define P_OSD_DB_FLT_CTRL1 (volatile unsigned int *)((0x3141 << 2) + 0xff900000) +//Bit 31:18 reserved +//Bit 17:16 reg_nrdeband_noise_rs // unsigned , default = 2 +//Bit 15:12 reg_nrdeband_randgain // unsigned , default = 8 +//Bit 11 reserved +//Bit 10: 8 reg_nrdeband_bandrand5 // unsigned , default = 6 +//Bit 7 reserved +//Bit 6: 4 reg_nrdeband_bandrand4 // unsigned , default = 6 +//Bit 3 reserved +//Bit 2: 0 reg_nrdeband_bandrand3 // unsigned , default = 6 +#define OSD_DB_FLT_LUMA_THRD (0x3142) +#define P_OSD_DB_FLT_LUMA_THRD (volatile unsigned int *)((0x3142 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_nrdeband_luma_th3 // unsigned , default = 36 , threshold to |Y-Ylpf|, if < th[0] use lpf +//Bit 23:22 reserved +//Bit 21:16 reg_nrdeband_luma_th2 // unsigned , default = 28 , elseif th1) of curve to map hpcon to hpgain for circle hp filter (all 8 direction same). 0~255.. unsigned , default = 20 +#define PK_CON_2CIRHPGAIN_LIMIT (0x3206) +#define P_PK_CON_2CIRHPGAIN_LIMIT (volatile unsigned int *)((0x3206 << 2) + 0xff900000) +//Bit 31:24, reg_pk_cirhpcon2gain2 : level limit(for hpconth1) of curve to map hpcon to hpgain for circle hp filter (all 8 direction same). 0~255.. unsigned , default = 5 +//Bit 7: 0, reserved +#define PK_CON_2CIRBPGAIN_TH_RATE (0x3207) +#define P_PK_CON_2CIRBPGAIN_TH_RATE (volatile unsigned int *)((0x3207 << 2) + 0xff900000) +//Bit 31:24, reg_pk_cirbpcon2gain0 : threshold0 of curve to map bpcon to bpgain for circle bp filter (all 8 direction same). 0~255.. unsigned , default = 20 +//Bit 23:16, reg_pk_cirbpcon2gain1 : threshold1 of curve to map bpcon to bpgain for circle bp filter (all 8 direction same).. unsigned , default = 50 +//Bit 15: 8, reg_pk_cirbpcon2gain5 : rate0 (for bpconth1) of curve to map bpcon to bpgain for circle bp filter (all 8 direction same). 0~255.. unsigned , default = 25 +#define PK_CON_2CIRBPGAIN_LIMIT (0x3208) +#define P_PK_CON_2CIRBPGAIN_LIMIT (volatile unsigned int *)((0x3208 << 2) + 0xff900000) +//Bit 31:24, reg_pk_cirbpcon2gain2 : level limit(for bpconth1) of curve to map bpcon to bpgain for circle bp filter (all 8 direction same). 0~255.. unsigned , default = 5 +//Bit 7: 0, reserved +#define PK_CON_2DRTHPGAIN_TH_RATE (0x3209) +#define P_PK_CON_2DRTHPGAIN_TH_RATE (volatile unsigned int *)((0x3209 << 2) + 0xff900000) +//Bit 31:24, reg_pk_drthpcon2gain0 : threshold0 of curve to map hpcon to hpgain for directional hp filter (best direction). 0~255.. unsigned , default = 25 +//Bit 23:16, reg_pk_drthpcon2gain1 : threshold1 of curve to map hpcon to hpgain for directional hp filter (best direction). 0~255.. unsigned , default = 60 +//Bit 15: 8, reg_pk_drthpcon2gain5 : rate0 (for hpconth1) of curve to map hpcon to hpgain for directional hp filter (best direction). 0~255.. unsigned , default = 20 +#define PK_CON_2DRTHPGAIN_LIMIT (0x320a) +#define P_PK_CON_2DRTHPGAIN_LIMIT (volatile unsigned int *)((0x320a << 2) + 0xff900000) +//Bit 31:24, reg_pk_drthpcon2gain2 : level limit(for hpconth1) of curve to map hpcon to hpgain for directional hp filter (best direction). 0~255.. unsigned , default = 5 +//Bit 7: 0, reserved +#define PK_CON_2DRTBPGAIN_TH_RATE (0x320b) +#define P_PK_CON_2DRTBPGAIN_TH_RATE (volatile unsigned int *)((0x320b << 2) + 0xff900000) +//Bit 31:24, reg_pk_drtbpcon2gain0 : threshold0 of curve to map bpcon to bpgain for directional bp filter (best direction). 0~255.. unsigned , default = 20 +//Bit 23:16, reg_pk_drtbpcon2gain1 : threshold1 of curve to map bpcon to bpgain for directional bp filter (best direction). 0~255.. unsigned , default = 50 +//Bit 15: 8, reg_pk_drtbpcon2gain5 : rate0 (for bpconth1) of curve to map bpcon to bpgain for directional bp filter (best direction). 0~255.. unsigned , default = 25 +#define PK_CON_2DRTBPGAIN_LIMIT (0x320c) +#define P_PK_CON_2DRTBPGAIN_LIMIT (volatile unsigned int *)((0x320c << 2) + 0xff900000) +//Bit 31:24, reg_pk_drtbpcon2gain2 : level limit(for bpconth1) of curve to map bpcon to bpgain for directional bp filter (best direction). 0~255.. unsigned , default = 5 +//Bit 7: 0, reserved +#define PK_CIRFB_LPF_MODE (0x320d) +#define P_PK_CIRFB_LPF_MODE (volatile unsigned int *)((0x320d << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:28, reg_cirhp_horz_mode : no horz filter on HP; 1: [1 2 1]/4; 2/3: [1 2 2 2 1]/8 . unsigned , default = 1 +//Bit 27:26, reserved +//Bit 25:24, reg_cirhp_vert_mode : no vert filter on HP; 1: [1 2 1]/4; 2/3: [1 2 2 2 1]/8 . unsigned , default = 1 +//Bit 23:22, reserved +//Bit 21:20, reg_cirhp_diag_mode : filter on HP; 1: [1 2 1]/4; . unsigned , default = 1 +//Bit 19:14, reserved +//Bit 13:12, reg_cirbp_horz_mode : no horz filter on BP; 1: [1 2 1]/4; 2/3: [1 2 2 2 1]/8 . unsigned , default = 1 +//Bit 11:10, reserved +//Bit 9: 8, reg_cirbp_vert_mode : no vert filter on BP; 1: [1 2 1]/4; 2/3: [1 2 2 2 1]/8 . unsigned , default = 1 +//Bit 7: 6, reserved +//Bit 5: 4, reg_cirbp_diag_mode : filter on BP; 1: [1 2 1]/4; . unsigned , default = 1 +//Bit 3: 0, reserved +#define PK_DRTFB_LPF_MODE (0x320e) +#define P_PK_DRTFB_LPF_MODE (volatile unsigned int *)((0x320e << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:28, reg_drthp_horz_mode : no horz filter on HP; 1: [1 2 1]/4; 2/3: [1 2 2 2 1]/8 2 . unsigned , default = 1 +//Bit 27:26, reserved +//Bit 25:24, reg_drthp_vert_mode : no vert filter on HP; 1: [1 2 1]/4; 2/3: [1 2 2 2 1]/8 2 . unsigned , default = 1 +//Bit 23:22, reserved +//Bit 21:20, reg_drthp_diag_mode : filter on HP; 1: [1 2 1]/4; 1 . unsigned , default = 1 +//Bit 19:14, reserved +//Bit 13:12, reg_drtbp_horz_mode : no horz filter on BP; 1: [1 2 1]/4; 2/3: [1 2 2 2 1]/8 2 . unsigned , default = 1 +//Bit 11:10, reserved +//Bit 9: 8, reg_drtbp_vert_mode : no vert filter on BP; 1: [1 2 1]/4; 2/3: [1 2 2 2 1]/8 2 . unsigned , default = 1 +//Bit 7: 6, reserved +//Bit 5: 4, reg_drtbp_diag_mode : filter on BP; 1: [1 2 1]/4; 1 . unsigned , default = 1 +//Bit 3: 0, reserved +#define PK_CIRFB_HP_CORING (0x320f) +#define P_PK_CIRFB_HP_CORING (volatile unsigned int *)((0x320f << 2) + 0xff900000) +//Bit 31:22, reserved +//Bit 21:16, reg_cirhp_horz_core : coring of HP for Horz . unsigned , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_cirhp_vert_core : coring of HP for Vert . unsigned , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_cirhp_diag_core : coring of HP for Diag . unsigned , default = 0 +#define PK_CIRFB_BP_CORING (0x3210) +#define P_PK_CIRFB_BP_CORING (volatile unsigned int *)((0x3210 << 2) + 0xff900000) +//Bit 31:22, reserved +//Bit 21:16, reg_cirbp_horz_core : coring of HP for Horz . unsigned , default = 1 +//Bit 15:14, reserved +//Bit 13: 8, reg_cirbp_vert_core : coring of HP for Vert . unsigned , default = 1 +//Bit 7: 6, reserved +//Bit 5: 0, reg_cirbp_diag_core : coring of HP for Diag . unsigned , default = 1 +#define PK_DRTFB_HP_CORING (0x3211) +#define P_PK_DRTFB_HP_CORING (volatile unsigned int *)((0x3211 << 2) + 0xff900000) +//Bit 31:22, reserved +//Bit 21:16, reg_drthp_horz_core : coring of HP for Horz . unsigned , default = 1 +//Bit 15:14, reserved +//Bit 13: 8, reg_drthp_vert_core : coring of HP for Vert . unsigned , default = 1 +//Bit 7: 6, reserved +//Bit 5: 0, reg_drthp_diag_core : coring of HP for Diag . unsigned , default = 1 +#define PK_DRTFB_BP_CORING (0x3212) +#define P_PK_DRTFB_BP_CORING (volatile unsigned int *)((0x3212 << 2) + 0xff900000) +//Bit 31:22, reserved +//Bit 21:16, reg_drtbp_horz_core : coring of HP for Horz . unsigned , default = 1 +//Bit 15:14, reserved +//Bit 13: 8, reg_drtbp_vert_core : coring of HP for Vert . unsigned , default = 1 +//Bit 7: 6, reserved +//Bit 5: 0, reg_drtbp_diag_core : coring of HP for Diag . unsigned , default = 1 +#define PK_CIRFB_BLEND_GAIN (0x3213) +#define P_PK_CIRFB_BLEND_GAIN (volatile unsigned int *)((0x3213 << 2) + 0xff900000) +//Bit 31:28, reg_hp_cir_hgain : normalized 8 as '1' . unsigned , default = 8 +//Bit 27:24, reg_hp_cir_vgain : normalized 8 as '1' . unsigned , default = 8 +//Bit 23:20, reg_hp_cir_dgain : normalized 8 as '1' . unsigned , default = 8 +//Bit 19:16, reserved +//Bit 15:12, reg_bp_cir_hgain : normalized 8 as '1' . unsigned , default = 8 +//Bit 11: 8, reg_bp_cir_vgain : normalized 8 as '1' . unsigned , default = 8 +//Bit 7: 4, reg_bp_cir_dgain : normalized 8 as '1' . unsigned , default = 8 +//Bit 3: 0, reserved +#define NR_ALPY_SSD_GAIN_OFST (0x3214) +#define P_NR_ALPY_SSD_GAIN_OFST (volatile unsigned int *)((0x3214 << 2) + 0xff900000) +//Bit 31:16, reserved +//Bit 15: 8, reg_nr_alp0_ssd_gain : gain to max ssd normalized 16 as '1' . unsigned , default = 16 +//Bit 7: 6, reserved +//Bit 5: 0, reg_nr_alp0_ssd_ofst : offset to ssd before dividing to min_err . signed , default = -2 +#define NR_ALP0Y_ERR2CURV_TH_RATE (0x3215) +#define P_NR_ALP0Y_ERR2CURV_TH_RATE (volatile unsigned int *)((0x3215 << 2) + 0xff900000) +//Bit 31:24, reg_nr_alp0_minerr_ypar0 : threshold0 of curve to map mierr to alp0 for luma channel, this will be set value of flat region mierr that no need blur. 0~255.. unsigned , default = 10 +//Bit 23:16, reg_nr_alp0_minerr_ypar1 : threshold1 of curve to map mierr to alp0 for luma channel,this will be set value of texture region mierr that can not blur.. unsigned , default = 25 +//Bit 15: 8, reg_nr_alp0_minerr_ypar5 : rate0 (for mierrth1) of curve to map mierr to alp0 for luma channel. the larger of the value, the deep of the slope. 0~255.. unsigned , default = 64 +#define NR_ALP0Y_ERR2CURV_LIMIT (0x3216) +#define P_NR_ALP0Y_ERR2CURV_LIMIT (volatile unsigned int *)((0x3216 << 2) + 0xff900000) +//Bit 31:24, reg_nr_alp0_minerr_ypar2 : level limit(for mierrth1) of curve to map mierr to alp0 for luma channel, this will be set to alp0 that we can do for texture region. 0~255.. unsigned , default = 63 +//Bit 7: 0, reserved +#define NR_ALP0C_ERR2CURV_TH_RATE (0x3217) +#define P_NR_ALP0C_ERR2CURV_TH_RATE (volatile unsigned int *)((0x3217 << 2) + 0xff900000) +//Bit 31:24, reg_nr_alp0_minerr_cpar0 : threshold0 of curve to map mierr to alp0 for chroma channel, this will be set value of flat region mierr that no need blur.. unsigned , default = 10 +//Bit 23:16, reg_nr_alp0_minerr_cpar1 : threshold1 of curve to map mierr to alp0 for chroma channel,this will be set value of texture region mierr that can not blur.. unsigned , default = 25 +//Bit 15: 8, reg_nr_alp0_minerr_cpar5 : rate0 (for mierrth1) of curve to map mierr to alp0 for chroma channel. the larger of the value, the deep of the slope. 0~255.. unsigned , default = 64 +#define NR_ALP0C_ERR2CURV_LIMIT (0x3218) +#define P_NR_ALP0C_ERR2CURV_LIMIT (volatile unsigned int *)((0x3218 << 2) + 0xff900000) +//Bit 31:24, reg_nr_alp0_minerr_cpar2 : level limit(for mierrth1) of curve to map mierr to alp0 for chroma channel, this will be set to alp0 that we can do for texture region. 0~255.. unsigned , default = 63 +//Bit 7: 0, reserved +#define NR_ALP0_MIN_MAX (0x3219) +#define P_NR_ALP0_MIN_MAX (volatile unsigned int *)((0x3219 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_nr_alp0_ymin : normalized to 64 as '1' . unsigned , default = 0 +//Bit 23:22, reserved +//Bit 21:16, reg_nr_alp0_ymax : normalized to 64 as '1' . unsigned , default = 63 +//Bit 15:14, reserved +//Bit 13: 8, reg_nr_alp0_cmin : normalized to 64 as '1' . unsigned , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_nr_alp0_cmax : normalized to 64 as '1' . unsigned , default = 63 +#define NR_ALP1_MIERR_CORING (0x321a) +#define P_NR_ALP1_MIERR_CORING (volatile unsigned int *)((0x321a << 2) + 0xff900000) +//Bit 31:17, reserved +//Bit 16, reg_nr_alp1_maxerr_mode : 0 max err; 1: xerr . unsigned , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_nr_alp1_core_rate : normalized 64 as "1" . unsigned , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_nr_alp1_core_ofst : normalized 64 as "1" . signed , default = 3 +#define NR_ALP1_ERR2CURV_TH_RATE (0x321b) +#define P_NR_ALP1_ERR2CURV_TH_RATE (volatile unsigned int *)((0x321b << 2) + 0xff900000) +//Bit 31:24, reg_nr_alp1_minerr_par0 : threshold0 of curve to map mierr to alp1 for luma/chroma channel, this will be set value of flat region mierr that no need directional NR. 0~255.. unsigned , default = 0 +//Bit 23:16, reg_nr_alp1_minerr_par1 : threshold1 of curve to map mierr to alp1 for luma/chroma channel,this will be set value of texture region mierr that can not do directional NR. 0~255.. unsigned , default = 24 +//Bit 15: 8, reg_nr_alp1_minerr_par5 : rate0 (for mierrth1) of curve to map mierr to alp1 for luma/chroma channel. the larger of the value, the deep of the slope. 0~255. unsigned , default = 20 +#define NR_ALP1_ERR2CURV_LIMIT (0x321c) +#define P_NR_ALP1_ERR2CURV_LIMIT (volatile unsigned int *)((0x321c << 2) + 0xff900000) +//Bit 31:24, reg_nr_alp1_minerr_par2 : level limit(for mierrth1) of curve to map mierr to alp1 for luma/chroma channel, this will be set to alp1 that we can do for texture region. 0~255.255 before. unsigned , default = 63 +//Bit 7: 0, reserved +#define NR_ALP1_MIN_MAX (0x321d) +#define P_NR_ALP1_MIN_MAX (volatile unsigned int *)((0x321d << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_nr_alp1_ymin : normalized to 64 as '1' . unsigned , default = 0 +//Bit 23:22, reserved +//Bit 21:16, reg_nr_alp1_ymax : normalized to 64 as '1' . unsigned , default = 63 +//Bit 15:14, reserved +//Bit 13: 8, reg_nr_alp1_cmin : normalized to 64 as '1' . unsigned , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_nr_alp1_cmax : normalized to 64 as '1' . unsigned , default = 63 +#define PK_ALP2_MIERR_CORING (0x321e) +#define P_PK_ALP2_MIERR_CORING (volatile unsigned int *)((0x321e << 2) + 0xff900000) +//Bit 31:17, reserved +//Bit 16, reg_pk_alp2_maxerr_mode : 0 max err; 1: xerr . unsigned , default = 1 +//Bit 15:14, reserved +//Bit 13: 8, reg_pk_alp2_core_rate : normalized 64 as "1" . unsigned , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_pk_alp2_core_ofst : normalized 64 as "1" . signed , default = 1 +#define PK_ALP2_ERR2CURV_TH_RATE (0x321f) +#define P_PK_ALP2_ERR2CURV_TH_RATE (volatile unsigned int *)((0x321f << 2) + 0xff900000) +//Bit 31:24, reg_pk_alp2_minerr_par0 : threshold0 of curve to map mierr to alp2 for luma channel, this will be set value of flat region mierr that no need peaking.. unsigned , default = 0 +//Bit 23:16, reg_pk_alp2_minerr_par1 : threshold1 of curve to map mierr to alp2 for luma channel,this will be set value of texture region mierr that can not do peaking. 0~255.. unsigned , default = 24 +//Bit 15: 8, reg_pk_alp2_minerr_par5 : rate0 (for mierrth1) of curve to map mierr to alp2 for luma channel. the larger of the value, the deep of the slope. 0~255.. unsigned , default = 20 +#define PK_ALP2_ERR2CURV_LIMIT (0x3220) +#define P_PK_ALP2_ERR2CURV_LIMIT (volatile unsigned int *)((0x3220 << 2) + 0xff900000) +//Bit 31:24, reg_pk_alp2_minerr_par2 : level limit(for mierrth1) of curve to map mierr to alp2 for luma channel, this will be set to alp2 that we can do for texture region. 0~255. default = 32;. unsigned , default = 32 +//Bit 7: 0, reserved +#define PK_ALP2_MIN_MAX (0x3221) +#define P_PK_ALP2_MIN_MAX (volatile unsigned int *)((0x3221 << 2) + 0xff900000) +//Bit 31:14, reserved +//Bit 13: 8, reg_pk_alp2_min : normalized to 64 as '1' . unsigned , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_pk_alp2_max : normalized to 64 as '1' . unsigned , default = 63 +#define PK_FINALGAIN_HP_BP (0x3222) +#define P_PK_FINALGAIN_HP_BP (volatile unsigned int *)((0x3222 << 2) + 0xff900000) +//Bit 31:18, reserved +//Bit 17:16, reg_final_gain_rs : s2: right shift bits for the gain normalization, 0 normal to 32 as 1; 1 normalize to 64 as 1; -2 normalized to 8 as 1; -1 normalize 16 as 1. default = 0 +//Bit 15: 8, reg_hp_final_gain : gain to highpass boost result (including directional/circle blending), normalized 32 as '1', 0~255. 1.25 * 32. unsigned , default = 40 +//Bit 7: 0, reg_bp_final_gain : gain to bandpass boost result (including directional/circle blending), normalized 32 as '1', 0~255. 1.25 * 32. unsigned , default = 30 +#define PK_OS_HORZ_CORE_GAIN (0x3223) +#define P_PK_OS_HORZ_CORE_GAIN (volatile unsigned int *)((0x3223 << 2) + 0xff900000) +//Bit 31:24, reg_pk_os_hsidecore : side coring (not to current pixel) to adaptive overshoot margin in horizontal direction. the larger of this value, the less overshoot admitted 0~255;. unsigned , default = 8 +//Bit 23:16, reg_pk_os_hsidegain : side gain (not to current pixel) to adaptive overshoot margin in horizontal direction. normalized to 32 as '1'. 0~255;. unsigned , default = 20 +//Bit 15: 8, reg_pk_os_hmidcore : midd coring (to current pixel) to adaptive overshoot margin in horizontal direction. the larger of this value, the less overshoot admitted 0~255;. unsigned , default = 2 +//Bit 7: 0, reg_pk_os_hmidgain : midd gain (to current pixel) to adaptive overshoot margin in horizontal direction. normalized to 32 as '1'. 0~255;. unsigned , default = 20 +#define PK_OS_VERT_CORE_GAIN (0x3224) +#define P_PK_OS_VERT_CORE_GAIN (volatile unsigned int *)((0x3224 << 2) + 0xff900000) +//Bit 31:24, reg_pk_os_vsidecore : side coring (not to current pixel) to adaptive overshoot margin in vertical direction. the larger of this value, the less overshoot admitted 0~255;. unsigned , default = 8 +//Bit 23:16, reg_pk_os_vsidegain : side gain (not to current pixel) to adaptive overshoot margin in vertical direction. normalized to 32 as '1'. 0~255;. unsigned , default = 20 +//Bit 15: 8, reg_pk_os_vmidcore : midd coring (to current pixel) to adaptive overshoot margin in vertical direction. the larger of this value, the less overshoot admitted 0~255;. unsigned , default = 2 +//Bit 7: 0, reg_pk_os_vmidgain : midd gain (to current pixel) to adaptive overshoot margin in vertical direction. normalized to 32 as '1'. 0~255;. unsigned , default = 20 +#define PK_OS_ADPT_MISC (0x3225) +#define P_PK_OS_ADPT_MISC (volatile unsigned int *)((0x3225 << 2) + 0xff900000) +//Bit 31:24, reg_pk_os_minerr_core : coring to minerr for adaptive overshoot margin. the larger of this value, the less overshoot admitted 0~255;. unsigned , default = 40 +//Bit 23:16, reg_pk_os_minerr_gain : gain to minerr based adaptive overshoot margin. normalized to 64 as '1'. 0~255;. unsigned , default = 6 +//Bit 15: 8, reg_pk_os_adpt_max : maximum limit adaptive overshoot margin (4x). 0~255; . unsigned , default = 200 +//Bit 7: 0, reg_pk_os_adpt_min : minimun limit adaptive overshoot margin (1x). 0~255; . unsigned , default = 20 +#define PK_OS_STATIC (0x3226) +#define P_PK_OS_STATIC (volatile unsigned int *)((0x3226 << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:28, reg_pk_osh_mode : 0~3: (2x+1) window in H direction . unsigned , default = 2 +//Bit 27:26, reserved +//Bit 25:24, reg_pk_osv_mode : 0~3: (2x+1) window in V direction . unsigned , default = 2 +//Bit 23:22, reserved +//Bit 21:12, reg_pk_os_down : static negative overshoot margin. 0~1023; . unsigned , default = 200 +//Bit 11:10, reserved +//Bit 9: 0, reg_pk_os_up : static positive overshoot margin. 0~1023; . unsigned , default = 200 +#define PK_NR_ENABLE (0x3227) +#define P_PK_NR_ENABLE (volatile unsigned int *)((0x3227 << 2) + 0xff900000) +//Bit 31: 4, reserved +//Bit 3: 2, reg_3d_mode , 0: no 3D; 1: L/R; 2: T/B; 3: horizontal interleaved, dft = 0 //. unsigned , default = 0 +//Bit 1, reg_pk_en . unsigned , default = 1 +//Bit 0, reg_nr_en . unsigned , default = 1 +#define PK_DRT_SAD_MISC (0x3228) +#define P_PK_DRT_SAD_MISC (volatile unsigned int *)((0x3228 << 2) + 0xff900000) +//Bit 31:24, reg_pk_sad_ver_gain : gain to sad[4], 16 normalized to "1"; . unsigned , default = 32 +//Bit 23:16, reg_pk_sad_hor_gain : gain to sad[0], 16 normalized to "1"; . unsigned , default = 24 +//Bit 15:12, reserved +//Bit 11 reserved +//Bit 10: 9, reg_pk_bias_diag : bias towards diag . unsigned , default = 0 +//Bit 8, reserved +//Bit 7: 5, reserved +//Bit 4: 0, reg_pk_drt_force : force direction of drt peaking filter, h2b: 0:hp drt force, 1: bp drt force; 2: bp+hp drt force, 3: no force;. unsigned , default = 24 +#define NR_TI_DNLP_BLEND (0x3229) +#define P_NR_TI_DNLP_BLEND (volatile unsigned int *)((0x3229 << 2) + 0xff900000) +//Bit 31:11, reserved +//Bit 10: 8, reg_dnlp_input_mode : dnlp input options. 0: org_y; 1: gau_y; 2: gauadp_y; 3: edgadplpf_y; 4: nr_y;5: lti_y; 6: pk_y (before os);7: pk_y (after os). unsigned , default = 4 +//Bit 7: 4, reserved +//Bit 3: 2, reg_nr_cti_blend_mode : blend mode of nr and lti result: 0: nr; 1:cti; 2: (nr+cti)/2; 3:cti + dlt_nr . unsigned , default = 1 +//Bit 1: 0, reg_nr_lti_blend_mode : blend mode of nr and lti result: 0: nr; 1:lti; 2: (nr+lti)/2; 3:lti + dlt_nr . unsigned , default = 2 +//////////////////////////////////////////////////////////////////////////////// +// new ti regsters from here +//////////////////////////////////////////////////////////////////////////////// +#define LTI_DIR_CORE_ALPHA (0x322a) +#define P_LTI_DIR_CORE_ALPHA (volatile unsigned int *)((0x322a << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_adp_lti_dir_alp_core_ofst : ofst to min_err, alpha = (min_err - (max_err-min_err)*rate + ofst)/max_err*64; dft=10. unsigned , default = 10 +//Bit 23:20, reserved +//Bit 19:16, reg_adp_lti_dir_alp_core_rate : ofset to min_err, alpha = (min_err - (max_err-min_err)*rate + ofst)/max_err*64; dft=0/32. unsigned , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_adp_lti_dir_alpmin : min value of alpha, alpha = (min_err+x +ofst)/max_err*64; dft=10 . unsigned , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_adp_lti_dir_alpmax : max value of alpha, alpha = (min_err+x +ofst)/max_err*64; dft=63 . unsigned , default = 63 +#define CTI_DIR_ALPHA (0x322b) +#define P_CTI_DIR_ALPHA (volatile unsigned int *)((0x322b << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_adp_cti_dir_alp_core_ofst : ofst to min_err, alpha = (min_err - (max_err-min_err)*rate + ofst)/max_err*64; dft=10. unsigned , default = 5 +//Bit 23:20, reserved +//Bit 19:16, reg_adp_cti_dir_alp_core_rate : ofset to min_err, alpha = (min_err - (max_err-min_err)*rate + ofst)/max_err*64; dft=0/32. unsigned , default = 0 +//Bit 15:14, reserved +//Bit 13: 8, reg_adp_cti_dir_alpmin : min value of alpha, alpha = (min_err +x+ofst)/max_err*64; dft=10 . unsigned , default = 0 +//Bit 7: 6, reserved +//Bit 5: 0, reg_adp_cti_dir_alpmax : max value of alpha, alpha = (min_err +x+ofst)/max_err*64; dft=63 . unsigned , default = 63 +#define LTI_CTI_DF_GAIN (0x322c) +#define P_LTI_CTI_DF_GAIN (volatile unsigned int *)((0x322c << 2) + 0xff900000) +//Bit 31:30, reserved +//Bit 29:24, reg_adp_lti_hdf_gain : 8 normalized to "1"; default = 12 . unsigned , default = 12 +//Bit 23:22, reserved +//Bit 21:16, reg_adp_lti_vdf_gain : 8 normalized to "1"; default = 12 . unsigned , default = 12 +//Bit 15:14, reserved +//Bit 13: 8, reg_adp_cti_hdf_gain : 8 normalized to "1"; default = 12 . unsigned , default = 12 +//Bit 7: 6, reserved +//Bit 5: 0, reg_adp_cti_vdf_gain : 8 normalized to "1"; default = 12 . unsigned , default = 12 +#define LTI_CTI_DIR_AC_DBG (0x322d) +#define P_LTI_CTI_DIR_AC_DBG (volatile unsigned int *)((0x322d << 2) + 0xff900000) +//Bit 31, reserved +//Bit 30, reg_adp_lti_dir_lpf : 0: no lpf; 1: [1 2 2 2 1]/8 lpf . unsigned , default = 1 +//Bit 29, reserved +//Bit 28, reg_adp_lti_dir_difmode : 0: y_dif; 1: y_dif + (u_dif+v_dif)/2; . unsigned , default = 1 +//Bit 27, reserved +//Bit 26, reg_adp_cti_dir_lpf : 0: no lpf; 1: [1 2 2 2 1]/8 lpf dft=1 . unsigned , default = 1 +//Bit 25:24, reg_adp_cti_dir_difmode : 0: (u_dif+v_dif); 1: y_dif/2 + (u_dif+v_dif)*3/4; 2: y_dif + (u_dif+v_dif)/2; 3: y_dif*2 (not recomended). unsigned , default = 2 +//Bit 23:22, reg_adp_hvlti_dcblend_mode : 0: hlti_dc; 1:vlti_dc; 2: avg 3; blend on alpha . unsigned , default = 3 +//Bit 21:20, reg_adp_hvcti_dcblend_mode : 0: hcti_dc; 1:vcti_dc; 2: avg 3; blend on alpha . unsigned , default = 2 +//Bit 19:18, reg_adp_hvlti_acblend_mode : hlti_ac; 1:vlti_ac; 2: add 3;:adaptive to alpha . unsigned , default = 3 +//Bit 17:16, reg_adp_hvcti_acblend_mode : hcti_ac; 1:vcti_ac; 2: add 3;: adaptive to alpha . unsigned , default = 2 +//Bit 15, reserved +//Bit 14:12, reg_adp_hlti_debug , for hlti debug, default = 0 . unsigned , default = 0 +//Bit 11, reserved +//Bit 10: 8, reg_adp_vlti_debug , for vlti debug, default = 0 . unsigned , default = 0 +//Bit 7, reserved +//Bit 6: 4, reg_adp_hcti_debug , for hcti debug, default = 0 . unsigned , default = 0 +//Bit 3, reserved +//Bit 2: 0, reg_adp_vcti_debug , for vcti debug, default = 0 . unsigned , default = 0 +#define HCTI_FLT_CLP_DC (0x322e) +#define P_HCTI_FLT_CLP_DC (volatile unsigned int *)((0x322e << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28, reg_adp_hcti_en , 0: no cti, 1: new cti, default = 1 . unsigned , default = 1 +//Bit 27:26, reg_adp_hcti_vdn_flt , 0: no lpf; 1:[0,2,4,2,0], 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 25:24, reg_adp_hcti_hdn_flt , 0: no lpf; 1:[0, 0, 0, 4, 8, 4, 0, 0, 0], 2:[0, 0, 2, 4, 4, 4, 2, 0, 0], 3: [1, 2, 2, 2, 2, 2, 2, 2, 1], default = 2. unsigned , default = 2 +//Bit 23:22, reg_adp_hcti_ddn_flt , 0: no lpf; 1:[0,2,4,2,0], 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 21:20, reg_adp_hcti_lpf0_flt , 0:no filter; 1:sigma=0.75, 2: sigma = 1.0, 3: sigma = 1.5, default = 1 . unsigned , default = 1 +//Bit 19:18, reg_adp_hcti_lpf1_flt , 0:no filter; 1:sigma= 2.0, 2: sigma = 3.0, 3: sigma = 4.0, default = 1 . unsigned , default = 1 +//Bit 17:16, reg_adp_hcti_lpf2_flt , 0:no filter; 1:sigma=5.0, 2: sigma = 9.0, 3: sigma = 13.0, default = 1 . unsigned , default = 1 +//Bit 15:12, reg_adp_hcti_hard_clp_win , window size, 0~8, default = 5 . unsigned , default = 5 +//Bit 11: 8, reg_adp_hcti_hard_win_min , window size, 0~8, default = 3 . unsigned , default = 3 +//Bit 7: 5, reserved +//Bit 4, reg_adp_hcti_clp_mode , 0: hard clip, 1: adaptive clip, default = 1 . unsigned , default = 1 +//Bit 3, reserved +//Bit 2: 0, reg_adp_hcti_dc_mode , 0:dn, 1:lpf0, 2:lpf1, 3:lpf2, 4: lpf3: 5: vdn result; 6/7:org, default = 0 . unsigned , default = 0 +#define HCTI_BST_GAIN (0x322f) +#define P_HCTI_BST_GAIN (volatile unsigned int *)((0x322f << 2) + 0xff900000) +//Bit 31:24, reg_adp_hcti_bst_gain0 : gain of the bandpass 0 (lpf1-lpf2)- LBP, default = 80 . unsigned , default = 80 +//Bit 23:16, reg_adp_hcti_bst_gain1 : gain of the bandpass 1 (lpf0-lpf1)- BP, default = 96 . unsigned , default = 96 +//Bit 15: 8, reg_adp_hcti_bst_gain2 : gain of the bandpass 2 (hdn-lpf0)- HP, default = 64 . unsigned , default = 64 +//Bit 7: 0, reg_adp_hcti_bst_gain3 : gain of the unsharp band (yuvin-hdn) - US, default = 16 . unsigned , default = 16 +#define HCTI_BST_CORE (0x3230) +#define P_HCTI_BST_CORE (volatile unsigned int *)((0x3230 << 2) + 0xff900000) +//Bit 31:24, reg_adp_hcti_bst_core0 : core of the bandpass 0 (lpf1-lpf2)- LBP, default = 5 . unsigned , default = 5 +//Bit 23:16, reg_adp_hcti_bst_core1 : core of the bandpass 1 (lpf0-lpf1)- BP, default = 5 . unsigned , default = 5 +//Bit 15: 8, reg_adp_hcti_bst_core2 : core of the bandpass 2 (hdn-lpf0)- HP, default = 5 . unsigned , default = 5 +//Bit 7: 0, reg_adp_hcti_bst_core3 : core of the unsharp band (yuvin-hdn) - US, default = 3 . unsigned , default = 5 +#define HCTI_CON_2_GAIN_0 (0x3231) +#define P_HCTI_CON_2_GAIN_0 (volatile unsigned int *)((0x3231 << 2) + 0xff900000) +//Bit 31:29, reg_adp_hcti_con_mode : con mode 0:[0, 0,-1, 1, 0, 0, 0]+[0, 0, 0, 1,-1, 0, 0], 1: [0, 0,-1, 0, 1, 0, 0], 2: [0,-1, 0, 0, 0, 1, 0], 3:[-1, 0, 0, 0, 0, 0, 1], 4: .... default = 1. unsigned , default = 1 +//Bit 28:26, reg_adp_hcti_dx_mode : dx mode 0: [-1 1 0]; 1~7: [-1 (2x+1)"0" 1], default = 2 . unsigned , default = 2 +//Bit 25:24, reg_adp_hcti_con_lpf : lpf mode of the con: 0: [1 2 1]/4; 1:[1 2 2 2 1]/8, default = 0 . unsigned , default = 0 +//Bit 23:16, reg_adp_hcti_con_2_gain0 , default = 25 . unsigned , default = 25 +//Bit 15: 8, reg_adp_hcti_con_2_gain1 , default = 60 . unsigned , default = 60 +//Bit 7: 0, reg_adp_hcti_con_2_gain2 0;, default = 5 . unsigned , default = 5 +#define HCTI_CON_2_GAIN_1 (0x3232) +#define P_HCTI_CON_2_GAIN_1 (volatile unsigned int *)((0x3232 << 2) + 0xff900000) +//Bit 31:24, reg_adp_hcti_con_2_gain3 96;, default = 96 . unsigned , default = 96 +//Bit 23:16, reg_adp_hcti_con_2_gain4 5;, default = 5 . unsigned , default = 5 +//Bit 15: 8, reg_adp_hcti_con_2_gain5 80;, default = 80 . unsigned , default = 80 +//Bit 7: 0, reg_adp_hcti_con_2_gain6 20;, default = 20 . unsigned , default = 20 +#define HCTI_OS_MARGIN (0x3233) +#define P_HCTI_OS_MARGIN (volatile unsigned int *)((0x3233 << 2) + 0xff900000) +//Bit 31: 8, reserved +//Bit 7: 0, reg_adp_hcti_os_margin : margin for hcti overshoot, default = 0 . unsigned , default = 0 +#define HLTI_FLT_CLP_DC (0x3234) +#define P_HLTI_FLT_CLP_DC (volatile unsigned int *)((0x3234 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28, reg_adp_hlti_en , 0: no cti, 1: new cti, default = 1 . unsigned , default = 1 +//Bit 27:26, reg_adp_hlti_vdn_flt , 0: no lpf; 1:[0,2,4,2,0], 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 25:24, reg_adp_hlti_hdn_flt , 0: no lpf; 1:[0, 0, 0, 4, 8, 4, 0, 0, 0], 2:[0, 0, 2, 4, 4, 4, 2, 0, 0], 3: [1, 2, 2, 2, 2, 2, 2, 2, 1], default = 1. unsigned , default = 1 +//Bit 23:22, reg_adp_hlti_ddn_flt , 0: no lpf; 1:[0,2,4,2,0], 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 1 . unsigned , default = 1 +//Bit 21:20, reg_adp_hlti_lpf0_flt , 0:no filter; 1:sigma=0.75, 2: sigma = 1.0, 3: sigma = 1.5, default = 1 . unsigned , default = 1 +//Bit 19:18, reg_adp_hlti_lpf1_flt , 0:no filter; 1:sigma= 2.0, 2: sigma = 3.0, 3: sigma = 4.0, default = 1 . unsigned , default = 1 +//Bit 17:16, reg_adp_hlti_lpf2_flt , 0:no filter; 1:sigma=5.0, 2: sigma = 9.0, 3: sigma = 13.0, default = 1 . unsigned , default = 1 +//Bit 15:12, reg_adp_hlti_hard_clp_win , window size, 0~8, default = 2 . unsigned , default = 2 +//Bit 11: 8, reg_adp_hlti_hard_win_min , window size, 0~8, default = 1 . unsigned , default = 1 +//Bit 7: 5, reserved +//Bit 4, reg_adp_hlti_clp_mode , 0: hard clip, 1: adaptive clip, default = 0 . unsigned , default = 0 +//Bit 3, reserved +//Bit 2: 0, reg_adp_hlti_dc_mode , 0:dn, 1:lpf0, 2:lpf1, 3:lpf2, 4: lpf3: 5: vdn result; 6/7:org, default = 4 . unsigned , default = 4 +#define HLTI_BST_GAIN (0x3235) +#define P_HLTI_BST_GAIN (volatile unsigned int *)((0x3235 << 2) + 0xff900000) +//Bit 31:24, reg_adp_hlti_bst_gain0 : gain of the bandpass 0 (lpf1-lpf2)- LBP, default = 32 . unsigned , default = 32 +//Bit 23:16, reg_adp_hlti_bst_gain1 : gain of the bandpass 1 (lpf0-lpf1)- BP, default = 32 . unsigned , default = 32 +//Bit 15: 8, reg_adp_hlti_bst_gain2 : gain of the bandpass 2 (hdn-lpf0)- HP, default = 28 . unsigned , default = 28 +//Bit 7: 0, reg_adp_hlti_bst_gain3 : gain of the unsharp band (yuvin-hdn) - US, default = 12 . unsigned , default = 12 +#define HLTI_BST_CORE (0x3236) +#define P_HLTI_BST_CORE (volatile unsigned int *)((0x3236 << 2) + 0xff900000) +//Bit 31:24, reg_adp_hlti_bst_core0 : core of the bandpass 0 (lpf1-lpf2)- LBP, default = 5 . unsigned , default = 5 +//Bit 23:16, reg_adp_hlti_bst_core1 : core of the bandpass 1 (lpf0-lpf1)- BP, default = 5 . unsigned , default = 5 +//Bit 15: 8, reg_adp_hlti_bst_core2 : core of the bandpass 2 (hdn-lpf0)- HP, default = 5 . unsigned , default = 5 +//Bit 7: 0, reg_adp_hlti_bst_core3 : core of the unsharp band (yuvin-hdn) - US, default = 3 . unsigned , default = 3 +#define HLTI_CON_2_GAIN_0 (0x3237) +#define P_HLTI_CON_2_GAIN_0 (volatile unsigned int *)((0x3237 << 2) + 0xff900000) +//Bit 31:29, reg_adp_hlti_con_mode : con mode 0:[0, 0,-1, 1, 0, 0, 0]+[0, 0, 0, 1,-1, 0, 0], 1: [0, 0,-1, 0, 1, 0, 0], 2: [0,-1, 0, 0, 0, 1, 0], 3:[-1, 0, 0, 0, 0, 0, 1], 4: ....., default = 1. unsigned , default = 1 +//Bit 28:26, reg_adp_hlti_dx_mode : dx mode 0: [-1 1 0]; 1~7: [-1 (2x+1)"0" 1], default = 1 . unsigned , default = 1 +//Bit 25:24, reg_adp_hlti_con_lpf : lpf mode of the con: 0: [1 2 1]/4; 1:[1 2 2 2 1]/8, default = 0 . unsigned , default = 0 +//Bit 23:16, reg_adp_hlti_con_2_gain0 25;, default = 25 . unsigned , default = 25 +//Bit 15: 8, reg_adp_hlti_con_2_gain1 60;, default = 60 . unsigned , default = 60 +//Bit 7: 0, reg_adp_hlti_con_2_gain2 0;, default = 5 . unsigned , default = 5 +#define HLTI_CON_2_GAIN_1 (0x3238) +#define P_HLTI_CON_2_GAIN_1 (volatile unsigned int *)((0x3238 << 2) + 0xff900000) +//Bit 31:24, reg_adp_hlti_con_2_gain3 96;, default = 96 . unsigned , default = 96 +//Bit 23:16, reg_adp_hlti_con_2_gain4 5;, default = 95 . unsigned , default = 95 +//Bit 15: 8, reg_adp_hlti_con_2_gain5 80;, default = 80 . unsigned , default = 80 +//Bit 7: 0, reg_adp_hlti_con_2_gain6 20;, default = 20 . unsigned , default = 20 +#define HLTI_OS_MARGIN (0x3239) +#define P_HLTI_OS_MARGIN (volatile unsigned int *)((0x3239 << 2) + 0xff900000) +//Bit 31: 8, reserved +//Bit 7: 0, reg_adp_hlti_os_margin : margin for hlti overshoot, default = 0 . unsigned , default = 0 +#define VLTI_FLT_CON_CLP (0x323a) +#define P_VLTI_FLT_CON_CLP (volatile unsigned int *)((0x323a << 2) + 0xff900000) +//Bit 31:15, reserved +//Bit 14, reg_adp_vlti_en : enable bit of vlti, default = 1 . unsigned , default = 1 +//Bit 13:12, reg_adp_vlti_hxn_flt : 0: no dn; 1: [1 2 1]/4; 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 11:10, reg_adp_vlti_dxn_flt : 0: no dn; 1: [1 2 1]/4; 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 9: 8, reg_adp_vlti_han_flt : 0: no dn; 1: [1 2 1]/4; 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 7: 6, reg_adp_vlti_dan_flt : 0: no dn; 1: [1 2 1]/4; 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 5: 4, reg_adp_vlti_dx_mode : 0:[-1 1] 1:[-1 0 -1]; 2/3: [-1 0 0 0 -1], default = 1 . unsigned , default = 1 +//Bit 3, reserved +//Bit 2, reg_adp_vlti_con_lpf : lpf mode of the con: 0: [1 2 1]/4; 1:[1 2 2 2 1]/8, default = 0 . unsigned , default = 0 +//Bit 1, reserved +//Bit 0, reg_adp_vlti_hard_clp_win : window size; 0: 1x3 window; 1: 1x5 window, default = 0 . unsigned , default = 0 +#define VLTI_BST_GAIN (0x323b) +#define P_VLTI_BST_GAIN (volatile unsigned int *)((0x323b << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_adp_vlti_bst_gain0 : gain to boost filter [-1 2 -1];, default = 32 . unsigned , default = 32 +//Bit 15: 8, reg_adp_vlti_bst_gain1 : gain to boost filter [-1 0 2 0 -1];, default = 32 . unsigned , default = 32 +//Bit 7: 0, reg_adp_vlti_bst_gain2 : gain to boost filter usf, default = 32 . unsigned , default = 32 +#define VLTI_BST_CORE (0x323c) +#define P_VLTI_BST_CORE (volatile unsigned int *)((0x323c << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_adp_vlti_bst_core0 : coring to boost filter [-1 2 -1];, default = 5 . unsigned , default = 5 +//Bit 15: 8, reg_adp_vlti_bst_core1 : coring to boost filter [-1 0 2 0 -1];, default = 5 . unsigned , default = 5 +//Bit 7: 0, reg_adp_vlti_bst_core2 : coring to boost filter usf, default = 3 . unsigned , default = 3 +#define VLTI_CON_2_GAIN_0 (0x323d) +#define P_VLTI_CON_2_GAIN_0 (volatile unsigned int *)((0x323d << 2) + 0xff900000) +//Bit 31:24, reg_adp_vlti_con_2_gain0 25;, default = 25 . unsigned , default = 25 +//Bit 23:16, reg_adp_vlti_con_2_gain1 60;, default = 60 . unsigned , default = 60 +//Bit 15: 8, reg_adp_vlti_con_2_gain2 0;, default = 5 . unsigned , default = 5 +//Bit 7: 0, reg_adp_vlti_con_2_gain3 96;, default = 96 . unsigned , default = 96 +#define VLTI_CON_2_GAIN_1 (0x323e) +#define P_VLTI_CON_2_GAIN_1 (volatile unsigned int *)((0x323e << 2) + 0xff900000) +//Bit 31:24, reg_adp_vlti_con_2_gain4 5;, default = 95 . unsigned , default = 95 +//Bit 23:16, reg_adp_vlti_con_2_gain5 80;, default = 80 . unsigned , default = 80 +//Bit 15: 8, reg_adp_vlti_con_2_gain6 20;, default = 20 . unsigned , default = 20 +//Bit 7: 0, reg_adp_vlti_os_margin : margin for vlti overshoot, default = 0 . unsigned , default = 0 +#define VCTI_FLT_CON_CLP (0x323f) +#define P_VCTI_FLT_CON_CLP (volatile unsigned int *)((0x323f << 2) + 0xff900000) +//Bit 31:15, reserved +//Bit 14, reg_adp_vcti_en : enable bit of vlti, default = 1 . unsigned , default = 1 +//Bit 13:12, reg_adp_vcti_hxn_flt : 0: no dn; 1: [1 2 1]/4; 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 11:10, reg_adp_vcti_dxn_flt : 0: no dn; 1: [1 2 1]/4; 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 9: 8, reg_adp_vcti_han_flt : 0: no dn; 1: [1 2 1]/4; 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 7: 6, reg_adp_vcti_dan_flt : 0: no dn; 1: [1 2 1]/4; 2 : [1 2 2 2 1]/8 3:[1 0 2 0 1]/4, default = 2 . unsigned , default = 2 +//Bit 5: 4, reg_adp_vcti_dx_mode : 0:[-1 1] 1:[-1 0 -1]; 2/3: [-1 0 0 0 -1], default = 1 . unsigned , default = 1 +//Bit 3, reserved +//Bit 2, reg_adp_vcti_con_lpf : lpf mode of the con: 0: [1 2 1]/4; 1:[1 2 2 2 1]/8, default = 0 . unsigned , default = 0 +//Bit 1, reserved +//Bit 0, reg_adp_vcti_hard_clp_win : window size; 0: 1x3 window; 1: 1x5 window, default = 0 . unsigned , default = 0 +#define VCTI_BST_GAIN (0x3240) +#define P_VCTI_BST_GAIN (volatile unsigned int *)((0x3240 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_adp_vcti_bst_gain0 : gain to boost filter [-1 2 -1];, default = 16 . unsigned , default = 16 +//Bit 15: 8, reg_adp_vcti_bst_gain1 : gain to boost filter [-1 0 2 0 -1];, default = 16 . unsigned , default = 16 +//Bit 7: 0, reg_adp_vcti_bst_gain2 : gain to boost filter usf, default = 16 . unsigned , default = 16 +#define VCTI_BST_CORE (0x3241) +#define P_VCTI_BST_CORE (volatile unsigned int *)((0x3241 << 2) + 0xff900000) +//Bit 31:24, reserved +//Bit 23:16, reg_adp_vcti_bst_core0 : coring to boost filter [-1 2 -1];, default = 5 . unsigned , default = 5 +//Bit 15: 8, reg_adp_vcti_bst_core1 : coring to boost filter [-1 0 2 0 -1];, default = 5 . unsigned , default = 5 +//Bit 7: 0, reg_adp_vcti_bst_core2 : coring to boost filter usf, default = 3 . unsigned , default = 3 +#define VCTI_CON_2_GAIN_0 (0x3242) +#define P_VCTI_CON_2_GAIN_0 (volatile unsigned int *)((0x3242 << 2) + 0xff900000) +//Bit 31:24, reg_adp_vcti_con_2_gain0 25;, default = 25 . unsigned , default = 25 +//Bit 23:16, reg_adp_vcti_con_2_gain1 60;, default = 60 . unsigned , default = 60 +//Bit 15: 8, reg_adp_vcti_con_2_gain2 0;, default = 5 . unsigned , default = 5 +//Bit 7: 0, reg_adp_vcti_con_2_gain3 96;, default = 96 . unsigned , default = 96 +#define VCTI_CON_2_GAIN_1 (0x3243) +#define P_VCTI_CON_2_GAIN_1 (volatile unsigned int *)((0x3243 << 2) + 0xff900000) +//Bit 31:24, reg_adp_vcti_con_2_gain4 5;, default = 95 . unsigned , default = 95 +//Bit 23:16, reg_adp_vcti_con_2_gain5 80;, default = 80 . unsigned , default = 80 +//Bit 15: 8, reg_adp_vcti_con_2_gain6 20;, default = 20 . unsigned , default = 20 +//Bit 7: 0, reg_adp_vcti_os_margin : margin for vcti overshoot, default = 0 . unsigned , default = 0 +#define SHARP_3DLIMIT (0x3244) +#define P_SHARP_3DLIMIT (volatile unsigned int *)((0x3244 << 2) + 0xff900000) +//Bit 31:29, reserved +//Bit 28:16, reg_3d_mid_width ,width of left part of 3d input, dft = half size of input width default = 0 . unsigned , default = 960 +//Bit 15:13, reserved +//Bit 12: 0, reg_3d_mid_height ,height of left part of 3d input, dft = half size of input height default = 0 . unsigned , default = 540 +#define DNLP_EN (0x3245) +#define P_DNLP_EN (volatile unsigned int *)((0x3245 << 2) + 0xff900000) +//Bit 31: 1, reserved +//Bit 0, reg_dnlp_en . unsigned , default = 1 +#define DNLP_00 (0x3246) +#define P_DNLP_00 (volatile unsigned int *)((0x3246 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid0 : dnlp00 . unsigned , default = 32'h08060402 +#define DNLP_01 (0x3247) +#define P_DNLP_01 (volatile unsigned int *)((0x3247 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid1 : dnlp01 . unsigned , default = 32'h100e0c0a +#define DNLP_02 (0x3248) +#define P_DNLP_02 (volatile unsigned int *)((0x3248 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid2 : dnlp02 . unsigned , default = 32'h1a171412 +#define DNLP_03 (0x3249) +#define P_DNLP_03 (volatile unsigned int *)((0x3249 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid3 : dnlp03 . unsigned , default = 32'h2824201d +#define DNLP_04 (0x324a) +#define P_DNLP_04 (volatile unsigned int *)((0x324a << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid4 : dnlp04 . unsigned , default = 32'h3834302c +#define DNLP_05 (0x324b) +#define P_DNLP_05 (volatile unsigned int *)((0x324b << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid5 : dnlp05 . unsigned , default = 32'h4b45403c +#define DNLP_06 (0x324c) +#define P_DNLP_06 (volatile unsigned int *)((0x324c << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid6 : dnlp06 . unsigned , default = 32'h605b5550 +#define DNLP_07 (0x324d) +#define P_DNLP_07 (volatile unsigned int *)((0x324d << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid7 : dnlp07 . unsigned , default = 32'h80787068 +#define DNLP_08 (0x324e) +#define P_DNLP_08 (volatile unsigned int *)((0x324e << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid8 : dnlp08 . unsigned , default = 32'ha0989088 +#define DNLP_09 (0x324f) +#define P_DNLP_09 (volatile unsigned int *)((0x324f << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid9 : dnlp09 . unsigned , default = 32'hb8b2aca6 +#define DNLP_10 (0x3250) +#define P_DNLP_10 (volatile unsigned int *)((0x3250 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid10 : dnlp10 . unsigned , default = 32'hc8c4c0bc +#define DNLP_11 (0x3251) +#define P_DNLP_11 (volatile unsigned int *)((0x3251 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid11 : dnlp11 . unsigned , default = 32'hd4d2cecb +#define DNLP_12 (0x3252) +#define P_DNLP_12 (volatile unsigned int *)((0x3252 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid12 : dnlp12 . unsigned , default = 32'hdad8d7d6 +#define DNLP_13 (0x3253) +#define P_DNLP_13 (volatile unsigned int *)((0x3253 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid13 : dnlp13 . unsigned , default = 32'he2e0dedc +#define DNLP_14 (0x3254) +#define P_DNLP_14 (volatile unsigned int *)((0x3254 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid14 : dnlp14 . unsigned , default = 32'hf0ece8e4 +#define DNLP_15 (0x3255) +#define P_DNLP_15 (volatile unsigned int *)((0x3255 << 2) + 0xff900000) +//Bit 31: 0, reg_dnlp_ygrid15 : dnlp15 . unsigned , default = 32'hfffcf8f4 +#define DEMO_CRTL (0x3256) +#define P_DEMO_CRTL (volatile unsigned int *)((0x3256 << 2) + 0xff900000) +//Bit 31:19, reserved +//Bit 18:17, demo_disp_position . unsigned , default = 2 +//Bit 16, demo_hsvsharp_enable . unsigned , default = 0 +//Bit 15:13, reserved +//Bit 12: 0, demo_left_top_screen_width : . unsigned , default = 360 +#define SHARP_SR2_CTRL (0x3257) +#define P_SHARP_SR2_CTRL (volatile unsigned int *)((0x3257 << 2) + 0xff900000) +//Bit 31:22, reserved +//Bit 21:16, reg_sr2_pk_la_err_dis_rate : . unsigned , low angle and high angle error should not be no less than nearby_error*rate/64; default = 24 +//Bit 15:8, reg_sr2_pk_sad_diag_gain : . unsigned , gain to sad[2] and sad[6], 16 normalized to "1"; default = 16 +//Bit 7, reg_sr2_vert_outphs : . unsigned , default = 0 +//Bit 6, reg_sr2_horz_outphs : . unsigned , default = 0 +//Bit 5, reg_sr2_vert_ratio : . unsigned , default = 0 +//Bit 4, reg_sr2_hori_ratio : . unsigned , default = 0 +//Bit 3, reg_sr2_bic_norm : . unsigned , default = 1 +//Bit 2, reg_sr2_enable : . unsigned , default = 0 +//Bit 1, reg_sr2_sharp_prc_lr_hbic : . unsigned , default = 0 +//Bit 0, reg_sr2_sharp_prc_lr : lti/cti/nr/peaking processing using LR grid, 0: on HR grid; 1:on LR grid, horizontally no upscale, but using simple bic . unsigned , default = 0 +#define SHARP_SR2_YBIC_HCOEF0 (0x3258) +#define P_SHARP_SR2_YBIC_HCOEF0 (volatile unsigned int *)((0x3258 << 2) + 0xff900000) +//Bit 31:24, reg_sr2_y_bic_hcoef03 Horizontal bi-cubic filter of 1.0 phase of luma channel Filter will be normalized to 128 as 鈥?鈥? default=0 +//Bit 23:16, reg_sr2_y_bic_hcoef02 the same as above; default=0 +//Bit 15: 8, reg_sr2_y_bic_hcoef01 the same as above; default=64 +//Bit 7: 0, reg_sr2_y_bic_hcoef00 the same as above; default=0 +#define SHARP_SR2_YBIC_HCOEF1 (0x3259) +#define P_SHARP_SR2_YBIC_HCOEF1 (volatile unsigned int *)((0x3259 << 2) + 0xff900000) +//Bit 31:24, reg_sr2_y_bic_hcoef13 Horizontal bi-cubic filter of 0.5 phase of luma channel,Filter will be normalized to 128 as 鈥?鈥? default=-4 +//Bit 23:16, reg_sr2_y_bic_hcoef12 the same as above; default=36 +//Bit 15: 8, reg_sr2_y_bic_hcoef11 the same as above; default=36 +//Bit 7: 0, reg_sr2_y_bic_hcoef10 the same as above; default=-4 +#define SHARP_SR2_CBIC_HCOEF0 (0x325a) +#define P_SHARP_SR2_CBIC_HCOEF0 (volatile unsigned int *)((0x325a << 2) + 0xff900000) +//Bit 31:24, reg_sr2_c_bic_hcoef03 Horizontal bi-cubic filter of 1.0 phase of luma channel ,Filter will be normalized to 128 as 鈥?鈥? default=0 +//Bit 23:16, reg_sr2_c_bic_hcoef02 the same as above; default=21 +//Bit 15: 8, reg_sr2_c_bic_hcoef01 the same as above; default=22 +//Bit 7: 0, reg_sr2_c_bic_hcoef00 the same as above; default=21 +#define SHARP_SR2_CBIC_HCOEF1 (0x325b) +#define P_SHARP_SR2_CBIC_HCOEF1 (volatile unsigned int *)((0x325b << 2) + 0xff900000) +//Bit 31:24, reg_sr2_c_bic_hcoef13 Horizontal bi-cubic filter of 0.5 phase of luma channel,Filter will be normalized to 128 as 鈥?鈥? default=-4 +//Bit 23:16, reg_sr2_c_bic_hcoef12 the same as above; default=36 +//Bit 15: 8, reg_sr2_c_bic_hcoef11 the same as above; default=36 +//Bit 7: 0, reg_sr2_c_bic_hcoef10 the same as above; default=-4 +#define SHARP_SR2_YBIC_VCOEF0 (0x325c) +#define P_SHARP_SR2_YBIC_VCOEF0 (volatile unsigned int *)((0x325c << 2) + 0xff900000) +//Bit 31:24, reg_sr2_y_bic_vcoef03 Horizontal bi-cubic filter of 1.0 phase of luma channel, Filter will be normalized to 128 as 鈥?鈥? default=0 +//Bit 23:16, reg_sr2_y_bic_vcoef02 the same as above; default=0 +//Bit 15: 8, reg_sr2_y_bic_vcoef01 the same as above; default=64 +//Bit 7: 0, reg_sr2_y_bic_vcoef00 the same as above; default=0 +#define SHARP_SR2_YBIC_VCOEF1 (0x325d) +#define P_SHARP_SR2_YBIC_VCOEF1 (volatile unsigned int *)((0x325d << 2) + 0xff900000) +//Bit 31:24, reg_sr2_y_bic_vcoef13 Horizontal bi-cubic filter of 0.5 phase of luma channe, lFilter will be normalized to 128 as 鈥?鈥? default=-4 +//Bit 23:16, reg_sr2_y_bic_vcoef12 the same as above; default=36 +//Bit 15: 8, reg_sr2_y_bic_vcoef11 the same as above; default=36 +//Bit 7: 0, reg_sr2_y_bic_vcoef10 the same as above; default=-4 +#define SHARP_SR2_CBIC_VCOEF0 (0x325e) +#define P_SHARP_SR2_CBIC_VCOEF0 (volatile unsigned int *)((0x325e << 2) + 0xff900000) +//Bit 31:24, reg_sr2_c_bic_vcoef03 Horizontal bi-cubic filter of 1.0 phase of luma channel, Filter will be normalized to 128 as 鈥?鈥? default=0 +//Bit 23:16, reg_sr2_c_bic_vcoef02 the same as above; default=21 +//Bit 15: 8, reg_sr2_c_bic_vcoef01 the same as above; default=22 +//Bit 7: 0, reg_sr2_c_bic_vcoef00 the same as above; default=21 +#define SHARP_SR2_CBIC_VCOEF1 (0x325f) +#define P_SHARP_SR2_CBIC_VCOEF1 (volatile unsigned int *)((0x325f << 2) + 0xff900000) +//Bit 31:24, reg_sr2_c_bic_vcoef13 Horizontal bi-cubic filter of 0.5 phase of luma channel,Filter will be normalized to 128 as 鈥?鈥? default=-4 +//Bit 23:16, reg_sr2_c_bic_vcoef12 the same as above; default=36 +//Bit 15: 8, reg_sr2_c_bic_vcoef11 the same as above; default=36 +//Bit 7: 0, reg_sr2_c_bic_vcoef10 the same as above; default=-4 +#define SHARP_SR2_MISC (0x3260) +#define P_SHARP_SR2_MISC (volatile unsigned int *)((0x3260 << 2) + 0xff900000) +//Bit 31:2, reserved +//Bit 1, reg_sr2_cmpmux_bef : . unsigned , default = 0,0 no swap anf for YUV->YUV; 1, swapped and for RGB->GBR; +//Bit 0, reg_sr2_cmpmux_aft : . unsigned , default = 0,0 no swap anf for YUV->YUV; 1, swapped and for GBR-RGB; +#define SHARP_SR3_SAD_CTRL (0x3261) +#define P_SHARP_SR3_SAD_CTRL (volatile unsigned int *)((0x3261 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_sr3_pk_sad_core_rate // u6: rate of coring for sad(theta) - sad(theta+pi/2)*rate/64 +//Bit 23:22 reserved +//Bit 21:16 reg_sr3_lti_sad_core_rate // u6: rate of coring for sad(theta) - sad(theta+pi/2)*rate/64 , default= 6 +//Bit 15:14 reserved +//Bit 13:8 reg_sr3_cti_sad_core_rate // u6: rate of coring for sad(theta) - sad(theta+pi/2)*rate/64 , default= 6 +//Bit 7, reg_sr3_lti_hsad_mode // u1: mode for hsad of lti caluclation; 0: block based; 1:othor shape; default= 1 +//Bit 6, reg_sr3_cti_hsad_mode // u1: mode for hsad of cti caluclation; 0: block based; 1:othor shape; default= 1 +//Bit 5, reg_sr3_lti_dsad_mode // u1: mode for dsad of lti caluclation, 0: block based; 1:othor shape; default= 1 +//Bit 4, reg_sr3_cti_dsad_mode // u1: mode for dsad of cti caluclation, 0: block based; 1:othor shape; default= 1 +//Bit 3, reg_sr3_lti_vsad_mode // u1: mode for vsad of lti caluclation, 0: block based; 1:othor shape; default= 1 +//Bit 2, reg_sr3_cti_vsad_mode // u1: mode for vsad of cti caluclation, 0: block based; 1:othor shape; default= 1 +//Bit 1, reg_sr3_lti_hsad_hlpf // u1: hlpf for hsad of lti caluclation, 0: no hlpf; 1: with [1 2 1] hlpf; default= 1 +//Bit 0, reg_sr3_cti_hsad_hlpf // u1: hlpf for hsad of cti caluclation, 0: no hlpf; 1: with [1 2 1] hlpf; default= 1 +#define SHARP_SR3_PK_CTRL0 (0x3262) +#define P_SHARP_SR3_PK_CTRL0 (volatile unsigned int *)((0x3262 << 2) + 0xff900000) +//Bit 31:12 reserved +//Bit 11, reg_sr3_pk_sad_mode // u1: mode for sad of peaking and noise reduction, 0: block based; 1:othor shape; default= 1 +//Bit 10, reg_sr3_pk_hsad_hlpf // u1: hlpf for hsad for peaking caluclation, 0: no hlpf; 1: with [1 2 2 2 1] hlpf; default= 1 +//Bit 9, reg_sr3_pk_vsad_hlpf // u1: hlpf for vsad for peaking caluclation, 0: no hlpf; 1: with [1 2 2 2 1] hlpf; default= 1 +//Bit 8, reg_sr3_pk_dsad_hlpf // u1: hlpf for dsad for peaking caluclation, 0: no hlpf; 1: with [1 2 2 2 1] hlpf; default= 1 +//Bit 7:6, reg_sr3_pk_hpdrt_mode // u2: mode for HPdrt filter: default= 3 +//Bit 5:4, reg_sr3_pk_bpdrt_mode // u2: mode for BPdrt filter: default= 3 +//Bit 3:2, reg_sr3_pk_drtbld_range // u2: range of the min2 and min direction distance; default =1 +//Bit 1, reserved +//Bit 0, reg_sr3_pk_ti_blend_mode // u1: blend mode of the TI and PK results: default = 0; +#define SHARP_SR3_PK_CTRL1 (0x3263) +#define P_SHARP_SR3_PK_CTRL1 (volatile unsigned int *)((0x3263 << 2) + 0xff900000) +//Bit 31, reserved +//Bit 30:28, reg_sr3_pk_hp_hvcon_replace8_maxsad //u3: replace HP hvcon by maxsad, default =1 +//Bit 27, reserved +//Bit 26:24, reg_sr3_pk_bp_hvcon_replace8_maxsad //u3: replace HP hvcon by maxsad, default =1 +//Bit 23:16, reg_sr3_pk_hp_hvcon_replace8lv_gain //u8: gain to local variant before calculating the hv gain for peaking, normalized to 32 as "1" default = 32; +//Bit 15:8, reg_sr3_pk_bp_hvcon_replace8lv_gain //u8: gain to local variant before calculating the hv gain for peaking, normalized to 32 as "1" default = 32; +//Bit 7, reg_sr3_sad_intlev_mode //u1: interleave detection xerr mode: 0 max; 1:sum default=1 +//Bit 6, reg_sr3_sad_intlev_mode1 //u1: mode 1 of using diagonal protection: 0: no digonal protection; 1: with diagonal protection default=1 +//Bit 5:0, reg_sr3_sad_intlev_gain //u6: interleave detection for sad gain applied, normalized to 8 as 1 default=12 +#define SHARP_DEJ_CTRL (0x3264) +#define P_SHARP_DEJ_CTRL (volatile unsigned int *)((0x3264 << 2) + 0xff900000) +//Bit 31:4 reserved +//Bit 3:2, reg_sr3_dejaggy_sameside_prtct // u2: enable of sr3 dejaggy same side curve protect from filter, [0] for proc, [1] for ctrl path, default=3 +//Bit 1, reg_sr3_dejaggy_sameside_mode // u1: mode of the sameside flag decision: default =1 +//Bit 0, reg_sr3_dejaggy_enable // u1: enable of sr3 dejaggy: default =0 +#define SHARP_DEJ_ALPHA (0x3265) +#define P_SHARP_DEJ_ALPHA (volatile unsigned int *)((0x3265 << 2) + 0xff900000) +//Bit 31:28, reg_sr3_dejaggy_ctrlchrm_alpha_1 //u4: alpha for LR video LPF, default = 0 +//Bit 27:24, reg_sr3_dejaggy_ctrlchrm_alpha_0 //u4: alpha for LR video LPF, default = 15 +//Bit 23:20, reg_sr3_dejaggy_ctrlluma_alpha_1 //u4: alpha for LR video LPF, default = 0 +//Bit 19:16, reg_sr3_dejaggy_ctrlluma_alpha_0 //u4: alpha for LR video LPF, default = 15 +//Bit 15:12, reg_sr3_dejaggy_procchrm_alpha_1 //u4: alpha for LR video LPF, default = 4 +//Bit 11:8, reg_sr3_dejaggy_procchrm_alpha_0 //u4: alpha for LR video LPF, default = 6 +//Bit 7:4, reg_sr3_dejaggy_procluma_alpha_1 //u4: alpha for LR video LPF, default = 4 +//Bit 3:0, reg_sr3_dejaggy_procluma_alpha_0 //u4: alpha for LR video LPF, default = 6 +#define SHARP_SR3_DRTLPF_EN (0x3266) +#define P_SHARP_SR3_DRTLPF_EN (volatile unsigned int *)((0x3266 << 2) + 0xff900000) +//Bit 31:15 reserved +//Bit 14:8, reg_pk_debug_edge . unsigned , default = 0 +//Bit 7, reserved +//Bit 6:4, reg_sr3_drtlpf_theta_en //u1x3 theta (pure vertical and horizontal HF burst protection) enable. 0: not enable, 1:enable protection +//Bit 3, reserved +//Bit 2:0 reg_sr3_drtlpf_enable //u1x3 directional lpf on luma U and V channels, default = 7 +#define SHARP_SR3_DRTLPF_ALPHA_0 (0x3267) +#define P_SHARP_SR3_DRTLPF_ALPHA_0 (volatile unsigned int *)((0x3267 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_sr3_drtlpf_alpha3 //u6: directional lpf alpha coef for min_sad/max_sad comparied, default = 9 +//Bit 23:22 reserved +//Bit 21:16 reg_sr3_drtlpf_alpha2 //u6: default =10 +//Bit 15:14 reserved +//Bit 13:8 reg_sr3_drtlpf_alpha1 //u6: default = 11 +//Bit 7:6 reserved +//Bit 5:0 reg_sr3_drtlpf_alpha0 //u6: default = 12 +#define SHARP_SR3_DRTLPF_ALPHA_1 (0x3268) +#define P_SHARP_SR3_DRTLPF_ALPHA_1 (volatile unsigned int *)((0x3268 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_sr3_drtlpf_alpha7 //u6: directional lpf alpha coef for min_sad/max_sad comparied, default = 1 +//Bit 23:22 reserved +//Bit 21:16 reg_sr3_drtlpf_alpha6 //u6: default = 4 +//Bit 15:14 reserved +//Bit 13:8 reg_sr3_drtlpf_alpha5 //u6: default = 7 +//Bit 7:6 reserved +//Bit 5:0 reg_sr3_drtlpf_alpha4 //u6: default = 8 +#define SHARP_SR3_DRTLPF_ALPHA_2 (0x3269) +#define P_SHARP_SR3_DRTLPF_ALPHA_2 (volatile unsigned int *)((0x3269 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_sr3_drtlpf_alpha11 //u6: directional lpf alpha coef for min_sad/max_sad comparied, default = 0 +//Bit 23:22 reserved +//Bit 21:16 reg_sr3_drtlpf_alpha10 //u6: default = 0 +//Bit 15:14 reserved +//Bit 13:8 reg_sr3_drtlpf_alpha9 //u6: default = 0 +//Bit 7:6 reserved +//Bit 5:0 reg_sr3_drtlpf_alpha8 //u6: default = 0 +#define SHARP_SR3_DRTLPF_ALPHA_OFST (0x326a) +#define P_SHARP_SR3_DRTLPF_ALPHA_OFST (volatile unsigned int *)((0x326a << 2) + 0xff900000) +//Bit 31:28 reg_sr3_drtlpf_alpha_ofst7 //s4: directional lpf alpha coef ofset of each directions, default = -8 +//Bit 27:24 reg_sr3_drtlpf_alpha_ofst6 //s4: default = -8 +//Bit 23:20 reg_sr3_drtlpf_alpha_ofst5 //s4: default = -8 +//Bit 19:16 reg_sr3_drtlpf_alpha_ofst4 //s4: default = -8 +//Bit 15:12 reg_sr3_drtlpf_alpha_ofst3 //s4: default = -8 +//Bit 11:8 reg_sr3_drtlpf_alpha_ofst2 //s4: default = -8 +//Bit 7:4 reg_sr3_drtlpf_alpha_ofst1 //s4: default = -8 +//Bit 3:0 reg_sr3_drtlpf_alpha_ofst0 //s4: default = -8 +#define SHARP_SR3_DERING_CTRL (0x326b) +#define P_SHARP_SR3_DERING_CTRL (volatile unsigned int *)((0x326b << 2) + 0xff900000) +//Bit 31 reserved +//Bit 30:28 reg_sr3_dering_enable // u3: dering enable bits; default = 1 +//Bit 27 reserved +//Bit 26:24 reg_sr3_dering_varlpf_mode // u3: local variant LPF mode: 0 no filter, 1, errosion 3x3; 2: 3x3 lpf; 3 and up: 3x3 errosion + lpf default = 3 +//Bit 23:20 reg_sr3_dering_maxrange // u4: maximum:range of dering in LR resolution, max to 12; default = 9 +//Bit 19:18 reserved +//Bit 17:16 reg_sr3_dering_lcvar_blend_mode // u2: mode for lcvar calculation: 0: HVblend; 1: diagblend; 2: HVblend+V (for hring); 3: HVblend+ DiagBlend default = 2 +//Bit 15:8 reg_sr3_dering_lcvar_gain // u8: gain to local variant and normalized to 32 as "1" default = 64 +//Bit 7:0 reg_sr3_dering_lcvar_nearby_maxsad_th // u8: threshold to use nearer side maxsad if that side sad is larger than this threshold, ortherwise, use the max one default = 28 +#define SHARP_SR3_DERING_LUMA2PKGAIN_0TO3 (0x326c) +#define P_SHARP_SR3_DERING_LUMA2PKGAIN_0TO3 (volatile unsigned int *)((0x326c << 2) + 0xff900000) +//Bit 31:24 reg_sr3_dering_luma2pkgain3 // u8: level limit(for th0th1) of curve for dering pkgain based on LPF luma level. default =24 +//Bit 15:8 reg_sr3_dering_luma2pkgain5 // u8: rate0 (for bpconth1) of curve for dering pkgain based on LPF luma level. default =255 +#define SHARP_SR3_DERING_LUMA2PKOS_0TO3 (0x326e) +#define P_SHARP_SR3_DERING_LUMA2PKOS_0TO3 (volatile unsigned int *)((0x326e << 2) + 0xff900000) +//Bit 31:24 reg_sr3_dering_luma2pkos3 // u8: level limit(for th0th1) of curve for dering pkOS based on LPF luma level. default =24 +//Bit 15:8 reg_sr3_dering_luma2pkos5 // u8: rate0 (for bpconth1) of curve for dering pkOS based on LPF luma level. default =255 +#define SHARP_SR3_DERING_GAINVS_MADSAD (0x3270) +#define P_SHARP_SR3_DERING_GAINVS_MADSAD (volatile unsigned int *)((0x3270 << 2) + 0xff900000) +//Bit 31:28 reg_sr3_dering_gainvs_maxsad7 //u4: pkgain vs maxsad value, 8 node interpolations, default = 0 +//Bit 27:24 reg_sr3_dering_gainvs_maxsad6 //u4: default = 0 +//Bit 23:20 reg_sr3_dering_gainvs_maxsad5 //u4: default = 0 +//Bit 19:16 reg_sr3_dering_gainvs_maxsad4 //u4: default = 0 +//Bit 15:12 reg_sr3_dering_gainvs_maxsad3 //u4: default = 0 +//Bit 11:8 reg_sr3_dering_gainvs_maxsad2 //u4: default = 0 +//Bit 7:4 reg_sr3_dering_gainvs_maxsad1 //u4: default = 4 +//Bit 3:0 reg_sr3_dering_gainvs_maxsad0 //u4: default = 8 +#define SHARP_SR3_DERING_GAINVS_VR2MAX (0x3271) +#define P_SHARP_SR3_DERING_GAINVS_VR2MAX (volatile unsigned int *)((0x3271 << 2) + 0xff900000) +//Bit 31:28 reg_sr3_dering_gainvs_vr2max7 //u4: pkgain vs ratio = max(local_var, floor)/maxsad nearby, default = 15 +//Bit 27:24 reg_sr3_dering_gainvs_vr2max6 //u4: default = 15 +//Bit 23:20 reg_sr3_dering_gainvs_vr2max5 //u4: default = 15 +//Bit 19:16 reg_sr3_dering_gainvs_vr2max4 //u4: default = 15 +//Bit 15:12 reg_sr3_dering_gainvs_vr2max3 //u4: default = 14 +//Bit 11:8 reg_sr3_dering_gainvs_vr2max2 //u4: default = 12 +//Bit 7:4 reg_sr3_dering_gainvs_vr2max1 //u4: default = 2 +//Bit 3:0 reg_sr3_dering_gainvs_vr2max0 //u4: default = 0 +#define SHARP_SR3_DERING_PARAM0 (0x3272) +#define P_SHARP_SR3_DERING_PARAM0 (volatile unsigned int *)((0x3272 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_sr3_dering_lcvar_floor //u8: local varianet no smaller than this value to calculate dgain max(localvar,x)/maxsad. default = 10 +//Bit 15:8 reg_sr3_dering_vr2max_gain //u8: gain to max(local_var, floor)/maxsad before feeding to LUT. default = 32 +//Bit 7:6 reserved +//Bit 5:0 reg_sr3_dering_vr2max_limt //u6: limit of maxsad to max(local_var, floor)*(max(maxsad, lmit))/maxsad. default = 16 +#define SHARP_SR3_DRTLPF_THETA (0x3273) +#define P_SHARP_SR3_DRTLPF_THETA (volatile unsigned int *)((0x3273 << 2) + 0xff900000) +//Bit 31:0 reg_sr3_drtlpf_theta //u4x8: directional lpf beta coef for min_sad/min2_sad compared to x=0:7 correspond to[1:8]/16; 0 means no drtLPF, 15: 100% alpha dependant drtLPF +#define SHARP_SATPRT_CTRL (0x3274) +#define P_SHARP_SATPRT_CTRL (volatile unsigned int *)((0x3274 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_satprt_sat_core //u8: 4x will be coring to cor(irgb_max-irgb_min) to calculate the oy_delt, the smaller the more protection to color, the larger only the rich color will be protected; +//Bit 15:8 reg_satprt_sat_rate //u8: rate to cor(irgb_max-irgb_min) to calculate the oy_delt, the larger the more protection to rich color; norm 16 as 1 +//Bit 7:4 reserved +//Bit 3:2 reg_satprt_csc_mode //u2: csc mode of current yuv input: 0:601, 1:709, 2:BT2020 NCL, 3:reserved +//Bit 1 reg_satprt_is_lmt //u1: flag telling the YUV is limited range data or full range data, 0 full range, 1: limited range +//Bit 0 reg_satprt_enable //u1: enable of saturation protection for dnlp adjustments +#define SHARP_SATPRT_DIVM (0x3275) +#define P_SHARP_SATPRT_DIVM (volatile unsigned int *)((0x3275 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:0 reg_satprt_div_m //u8x3, 1/m, normalized to 128 as 1, default=1 +#define SHARP_SATPRT_LMT_RGB (0x3276) +#define P_SHARP_SATPRT_LMT_RGB (volatile unsigned int *)((0x3276 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:0 reg_satprt_lmt_rgb //u10x3, limit of the rgb channel, for limited range RGB, set to 960, otherwise set to 1023 +#define SHARP_DB_FLT_CTRL (0x3277) +#define P_SHARP_DB_FLT_CTRL (volatile unsigned int *)((0x3277 << 2) + 0xff900000) +//Bit 31:27 reserved +//Bit 26 reg_nrdeband_reset1 +//Bit 25 reg_nrdeband_reset0 +//Bit 24 reg_nrdeband_rgb // unsigned , default = 0 0:yuv 1:RGB +//Bit 23 reg_nrdeband_en11 // unsigned , default = 1 debanding registers of side lines, [0] for luma, same for below +//Bit 22 reg_nrdeband_en10 // unsigned , default = 1 debanding registers of side lines, [1] for chroma, same for below +//Bit 21 reg_nrdeband_siderand // unsigned , default = 1 options to use side two lines use the rand, instead of use for the YUV three component of middle line, 0: seed[3]/bandrand[3] for middle line yuv; 1: seed[3]/bandrand[3] for nearby three lines Y; +//Bit 20 reg_nrdeband_randmode // unsigned , default = 0 mode of rand noise adding, 0: same noise strength for all difs; else: strenght of noise will not exceed the difs, MIN((pPKReg->reg_nrdeband_bandrand[m]), noise[m]) +//Bit 19:17 reg_nrdeband_bandrand2 // unsigned , default = 6 +//Bit 16 reserved +//Bit 15:13 reg_nrdeband_bandrand1 // unsigned , default = 6 +//Bit 12 reserved +//Bit 11: 9 reg_nrdeband_bandrand0 // unsigned , default = 6 +//Bit 8 reserved +//Bit 7 reg_nrdeband_hpxor1 // unsigned , default = 1 debanding random hp portion xor, [0] for luma +//Bit 6 reg_nrdeband_hpxor0 // unsigned , default = 1 debanding random hp portion xor, [1] for chroma +//Bit 5 reg_nrdeband_en1 // unsigned , default = 1 debanding registers, for luma +//Bit 4 reg_nrdeband_en0 // unsigned , default = 1 debanding registers, for chroma +//Bit 3: 2 reg_nrdeband_lpf_mode1 // unsigned , default = 2 lpf mode, 0: 3x3, 1:3x5; 2: 5x5; 3:5x7 +//Bit 1: 0 reg_nrdeband_lpf_mode0 // unsigned , default = 2 lpf mode, 0: 3x3, 1:3x5; 2: 5x5; 3:5x7 +#define SHARP_DB_FLT_YC_THRD (0x3278) +#define P_SHARP_DB_FLT_YC_THRD (volatile unsigned int *)((0x3278 << 2) + 0xff900000) +//Bit 31:28 reg_nrdeband_luma_th3 // unsigned , default = 9 threshold to |Y-Ylpf|, if < th[0] use lpf +//Bit 27:24 reg_nrdeband_luma_th2 // unsigned , default = 7 elseif req_th, then send the request +//bit[18:16] R-RW 0~7 0 reg_arsize : axi arsize +//bit[14:12] R-RW 0~7 0 reg_arprot : axi arprot +//bit[11:8] R-RW 0~15 0 reg_aruser : axi aruser +//bit[5:4] R-RW 0~3 0 reg_arid : axi arid +//bit[3:0] R-RW 0~2 0 reg_lens : default request lens, each burst has "reg_lens+1" data +#define DOLBY_TV_AXI2DMA_CTRL1 (0x33fb) +#define P_DOLBY_TV_AXI2DMA_CTRL1 (volatile unsigned int *)((0x33fb << 2) + 0xff900000) +//bit[31] R-RW 0~1 0 axi_addr_mode : 1 "canvas mode", 0 "normal mode" +//bit[27:16] R-RW 0~4095 0 dma_size0 : total data number in dma0 +//bit[11:0] R-RW 0~4095 0 dma_size1 : total data number in dma1 +#define DOLBY_TV_AXI2DMA_CTRL2 (0x33fc) +#define P_DOLBY_TV_AXI2DMA_CTRL2 (volatile unsigned int *)((0x33fc << 2) + 0xff900000) +//bit[31:0] R-RW 0~4294967295 0 axi_start_addr : axi start address +#define DOLBY_TV_AXI2DMA_CTRL3 (0x33fd) +#define P_DOLBY_TV_AXI2DMA_CTRL3 (volatile unsigned int *)((0x33fd << 2) + 0xff900000) +//bit[11:0] R-RW 0~4095 0 hold_line : after hold_line the axi slave start requesting +#define DOLBY_TV_STATUS0 (0x33fe) +#define P_DOLBY_TV_STATUS0 (volatile unsigned int *)((0x33fe << 2) + 0xff900000) +#define DOLBY_TV_STATUS1 (0x33ff) +#define P_DOLBY_TV_STATUS1 (volatile unsigned int *)((0x33ff << 2) + 0xff900000) +#define DOLBY_TV_ADAPTIVE_SCALE_REGADDR (0x33e0) +#define P_DOLBY_TV_ADAPTIVE_SCALE_REGADDR (volatile unsigned int *)((0x33e0 << 2) + 0xff900000) +#define DOLBY_TV_ADAPTIVE_SCALE_REGDATA (0x33e1) +#define P_DOLBY_TV_ADAPTIVE_SCALE_REGDATA (volatile unsigned int *)((0x33e1 << 2) + 0xff900000) +#define DOLBY_TV_ADAPTIVE_SCALE_LUTADDR (0x33e2) +#define P_DOLBY_TV_ADAPTIVE_SCALE_LUTADDR (volatile unsigned int *)((0x33e2 << 2) + 0xff900000) +#define DOLBY_TV_ADAPTIVE_SCALE_LUTDATA (0x33e3) +#define P_DOLBY_TV_ADAPTIVE_SCALE_LUTDATA (volatile unsigned int *)((0x33e3 << 2) + 0xff900000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: dolby_regs.h +// +// ----------------------------------------------- +// CBUS_BASE: DOLBY1A_VCBUS_BASE = 0x34 +// ----------------------------------------------- +// +// Reading file: dolby1a_regs.h +// +// synopsys translate_off +// synopsys translate_on +#define DOLBY_CORE2A_REG_START (0x3400) +#define P_DOLBY_CORE2A_REG_START (volatile unsigned int *)((0x3400 << 2) + 0xff900000) +#define DOLBY_CORE2A_CLKGATE_CTRL (0x3432) +#define P_DOLBY_CORE2A_CLKGATE_CTRL (volatile unsigned int *)((0x3432 << 2) + 0xff900000) +#define DOLBY_CORE2A_SWAP_CTRL0 (0x3433) +#define P_DOLBY_CORE2A_SWAP_CTRL0 (volatile unsigned int *)((0x3433 << 2) + 0xff900000) +#define DOLBY_CORE2A_SWAP_CTRL1 (0x3434) +#define P_DOLBY_CORE2A_SWAP_CTRL1 (volatile unsigned int *)((0x3434 << 2) + 0xff900000) +#define DOLBY_CORE2A_SWAP_CTRL2 (0x3435) +#define P_DOLBY_CORE2A_SWAP_CTRL2 (volatile unsigned int *)((0x3435 << 2) + 0xff900000) +#define DOLBY_CORE2A_SWAP_CTRL3 (0x3436) +#define P_DOLBY_CORE2A_SWAP_CTRL3 (volatile unsigned int *)((0x3436 << 2) + 0xff900000) +#define DOLBY_CORE2A_SWAP_CTRL4 (0x3437) +#define P_DOLBY_CORE2A_SWAP_CTRL4 (volatile unsigned int *)((0x3437 << 2) + 0xff900000) +#define DOLBY_CORE2A_SWAP_CTRL5 (0x3438) +#define P_DOLBY_CORE2A_SWAP_CTRL5 (volatile unsigned int *)((0x3438 << 2) + 0xff900000) +#define DOLBY_CORE2A_DMA_CTRL (0x3439) +#define P_DOLBY_CORE2A_DMA_CTRL (volatile unsigned int *)((0x3439 << 2) + 0xff900000) +#define DOLBY_CORE2A_DMA_STATUS (0x343a) +#define P_DOLBY_CORE2A_DMA_STATUS (volatile unsigned int *)((0x343a << 2) + 0xff900000) +#define DOLBY_CORE2A_STATUS0 (0x343b) +#define P_DOLBY_CORE2A_STATUS0 (volatile unsigned int *)((0x343b << 2) + 0xff900000) +#define DOLBY_CORE2A_STATUS1 (0x343c) +#define P_DOLBY_CORE2A_STATUS1 (volatile unsigned int *)((0x343c << 2) + 0xff900000) +#define DOLBY_CORE2A_STATUS2 (0x343d) +#define P_DOLBY_CORE2A_STATUS2 (volatile unsigned int *)((0x343d << 2) + 0xff900000) +#define DOLBY_CORE2A_STATUS3 (0x343e) +#define P_DOLBY_CORE2A_STATUS3 (volatile unsigned int *)((0x343e << 2) + 0xff900000) +#define DOLBY_CORE2A_DMA_PORT (0x343f) +#define P_DOLBY_CORE2A_DMA_PORT (volatile unsigned int *)((0x343f << 2) + 0xff900000) +#define DOLBY_CORE2A_AXI2DMA_CTRL0 (0x3440) +#define P_DOLBY_CORE2A_AXI2DMA_CTRL0 (volatile unsigned int *)((0x3440 << 2) + 0xff900000) +#define DOLBY_CORE2A_AXI2DMA_CTRL1 (0x3441) +#define P_DOLBY_CORE2A_AXI2DMA_CTRL1 (volatile unsigned int *)((0x3441 << 2) + 0xff900000) +#define DOLBY_CORE2A_AXI2DMA_CTRL2 (0x3442) +#define P_DOLBY_CORE2A_AXI2DMA_CTRL2 (volatile unsigned int *)((0x3442 << 2) + 0xff900000) +#define DOLBY_CORE2A_AXI2DMA_CTRL3 (0x3443) +#define P_DOLBY_CORE2A_AXI2DMA_CTRL3 (volatile unsigned int *)((0x3443 << 2) + 0xff900000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: dolby1a_regs.h +// +// ----------------------------------------------- +// CBUS_BASE: DOLBY1B_VCBUS_BASE = 0x35 +// ----------------------------------------------- +//`include "dolby1b_regs.h" +// ----------------------------------------------- +// CBUS_BASE: DOLBY2_VCBUS_BASE = 0x36 +// ----------------------------------------------- +// +// Reading file: dolby2_regs.h +// +// synopsys translate_off +// synopsys translate_on +#define DOLBY_CORE3_REG_START (0x3600) +#define P_DOLBY_CORE3_REG_START (volatile unsigned int *)((0x3600 << 2) + 0xff900000) +#define DOLBY_CORE3_CLKGATE_CTRL (0x36f0) +#define P_DOLBY_CORE3_CLKGATE_CTRL (volatile unsigned int *)((0x36f0 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL0 (0x36f1) +#define P_DOLBY_CORE3_SWAP_CTRL0 (volatile unsigned int *)((0x36f1 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL1 (0x36f2) +#define P_DOLBY_CORE3_SWAP_CTRL1 (volatile unsigned int *)((0x36f2 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL2 (0x36f3) +#define P_DOLBY_CORE3_SWAP_CTRL2 (volatile unsigned int *)((0x36f3 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL3 (0x36f4) +#define P_DOLBY_CORE3_SWAP_CTRL3 (volatile unsigned int *)((0x36f4 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL4 (0x36f5) +#define P_DOLBY_CORE3_SWAP_CTRL4 (volatile unsigned int *)((0x36f5 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL5 (0x36f6) +#define P_DOLBY_CORE3_SWAP_CTRL5 (volatile unsigned int *)((0x36f6 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL6 (0x36f7) +#define P_DOLBY_CORE3_SWAP_CTRL6 (volatile unsigned int *)((0x36f7 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL7 (0x36f8) +#define P_DOLBY_CORE3_SWAP_CTRL7 (volatile unsigned int *)((0x36f8 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL8 (0x36f9) +#define P_DOLBY_CORE3_SWAP_CTRL8 (volatile unsigned int *)((0x36f9 << 2) + 0xff900000) +#define DOLBY_CORE3_SWAP_CTRL9 (0x36fa) +#define P_DOLBY_CORE3_SWAP_CTRL9 (volatile unsigned int *)((0x36fa << 2) + 0xff900000) +#define DOLBY_CORE3_STATUS0 (0x36fb) +#define P_DOLBY_CORE3_STATUS0 (volatile unsigned int *)((0x36fb << 2) + 0xff900000) +#define DOLBY_CORE3_STATUS1 (0x36fc) +#define P_DOLBY_CORE3_STATUS1 (volatile unsigned int *)((0x36fc << 2) + 0xff900000) +#define DOLBY_CORE3_STATUS2 (0x36fd) +#define P_DOLBY_CORE3_STATUS2 (volatile unsigned int *)((0x36fd << 2) + 0xff900000) +#define DOLBY_CORE3_STATUS3 (0x36fe) +#define P_DOLBY_CORE3_STATUS3 (volatile unsigned int *)((0x36fe << 2) + 0xff900000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: dolby2_regs.h +// +//`define MADC_VCBUS_BASE 8'h37 +// +// Reading file: vpu_madc_regs.h +// +// synopsys translate_off +// synopsys translate_on +// ----------------------------------------------- +// CBUS_BASE: MADC_VCBUS_BASE = 0x37 +// ----------------------------------------------- +// 0x00-0x1f +// +// Reading file: nr4_nm_regs.h +// +// synopsys translate_off +// synopsys translate_on +#define NR4_MCNR_SAD_GAIN (0x3700) +#define P_NR4_MCNR_SAD_GAIN (volatile unsigned int *)((0x3700 << 2) + 0xff900000) +//Bit 31:25 reserved +//Bit 24 reg_nr4_bld12vs3_usemaxsad // unsigned , default = 0 use minsad/maxsad instead of minsad/avgsad to decision if it was texture or flat region, 1: use minsad/maxsad +//Bit 23:16 reg_nr4_bld12vs3_rate_gain // unsigned , default = 64 gain to minsad/maxsad or minsad/avgsad before LUT, 64 normalized as "1" +//Bit 15: 8 reg_nr4_bld1vs2_rate_gain // unsigned , default = 32 gain to minsad/maxsad or minsad/avgsad before the LUT, 64 normalized as"1" +//Bit 7: 0 reg_nr4_coefblt_gain // unsigned , default = 64 gain to final coefblt, normalized 64 as "1" +#define NR4_MCNR_LPF_CTRL (0x3701) +#define P_NR4_MCNR_LPF_CTRL (volatile unsigned int *)((0x3701 << 2) + 0xff900000) +//Bit 31 reserved +//Bit 30:22 reg_nr4_preflt_alpofst // signed , default = 0 pre filter alpha ofst +//Bit 21:16 reg_nr4_preflt_alpgain // unsigned , default = 16 pre filter alpha gain +//Bit 15:14 reg_nr4_preflt_alpsel // unsigned , default = 3 pre filter alpha selection for adaptive blending, 0: mv pointed sad, 1: weighted mv pointed sad, 2or3: coefblt +//Bit 13: 8 reg_nr4_avgsad_gain // unsigned , default = 8 gain for avg sad before luts +//Bit 7 reserved +//Bit 6 reg_nr4_maxsad_mod // unsigned , default = 1 max sad select mode, 0: mx2_sad, 1: max sad +//Bit 5 reg_nr4_minsad_mod // unsigned , default = 1 min sad select mode, 0: sad with min err, 1: min sad +//Bit 4 reg_nr4_minmaxsad_lpf // unsigned , default = 1 mode of lpf for minmaxsad, 0: no LPF, 1: [1 2 1]/4 +//Bit 3 reg_nr4_avgsad_lpf // unsigned , default = 1 mode of lpf for avgsad, 0: no LPF, 1: [1 2 1]/4 +//Bit 2 reg_nr4_minavgsad_ratio_lpf // unsigned , default = 1 mode of lpf for minsad/avgsad and zmvsad/avgsad, 0: no LPF, 1: [1 2 1]/4 +//Bit 1 reg_nr4_bldvs_lut_lpf // unsigned , default = 1 mode of lpf for bld12vs3 and bld1vs2 LUT results, 0: no LPF, 1: [1 2 1]/4 +//Bit 0 reg_nr4_final_coef_lpf // unsigned , default = 1 mode of lpf for final coef_blt_blend123, 0: no LPF, 1: [1 2 1]/4 +#define NR4_MCNR_BLD_VS3LUT0 (0x3702) +#define P_NR4_MCNR_BLD_VS3LUT0 (volatile unsigned int *)((0x3702 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_nr4_bld12vs3_lut0 // unsigned , default = 0 +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_bld12vs3_lut1 // unsigned , default = 8 +//Bit 15:14 reserved +//Bit 13: 8 reg_nr4_bld12vs3_lut2 // unsigned , default = 10 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_bld12vs3_lut3 // unsigned , default = 11 +#define NR4_MCNR_BLD_VS3LUT1 (0x3703) +#define P_NR4_MCNR_BLD_VS3LUT1 (volatile unsigned int *)((0x3703 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_nr4_bld12vs3_lut4 // unsigned , default = 12 +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_bld12vs3_lut5 // unsigned , default = 14 +//Bit 15:14 reserved +//Bit 13: 8 reg_nr4_bld12vs3_lut6 // unsigned , default = 16 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_bld12vs3_lut7 // unsigned , default = 24 +#define NR4_MCNR_BLD_VS3LUT2 (0x3704) +#define P_NR4_MCNR_BLD_VS3LUT2 (volatile unsigned int *)((0x3704 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_nr4_bld12vs3_lut8 // unsigned , default = 50 +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_bld12vs3_lut9 // unsigned , default = 58 +//Bit 15:14 reserved +//Bit 13: 8 reg_nr4_bld12vs3_lut10 // unsigned , default = 63 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_bld12vs3_lut11 // unsigned , default = 63 +#define NR4_MCNR_BLD_VS2LUT0 (0x3705) +#define P_NR4_MCNR_BLD_VS2LUT0 (volatile unsigned int *)((0x3705 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_nr4_bld1vs2_lut0 // unsigned , default = 63 +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_bld1vs2_lut1 // unsigned , default = 32 +//Bit 15:14 reserved +//Bit 13: 8 reg_nr4_bld1vs2_lut2 // unsigned , default = 16 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_bld1vs2_lut3 // unsigned , default = 8 +#define NR4_MCNR_BLD_VS2LUT1 (0x3706) +#define P_NR4_MCNR_BLD_VS2LUT1 (volatile unsigned int *)((0x3706 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:24 reg_nr4_bld1vs2_lut4 // unsigned , default = 4 +//Bit 23:22 reserved +//Bit 21:16 reg_nr4_bld1vs2_lut5 // unsigned , default = 2 +//Bit 15:14 reserved +//Bit 13: 8 reg_nr4_bld1vs2_lut6 // unsigned , default = 1 +//Bit 7: 6 reserved +//Bit 5: 0 reg_nr4_bld1vs2_lut7 // unsigned , default = 0 +#define NR4_COEFBLT_LUT10 (0x3707) +#define P_NR4_COEFBLT_LUT10 (volatile unsigned int *)((0x3707 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut10 // signed , default = -128 +//Bit 23:16 reg_nr4_coefblt_lut11 // signed , default = -128 +//Bit 15: 8 reg_nr4_coefblt_lut12 // signed , default = -126 +//Bit 7: 0 reg_nr4_coefblt_lut13 // signed , default = -124 +#define NR4_COEFBLT_LUT11 (0x3708) +#define P_NR4_COEFBLT_LUT11 (volatile unsigned int *)((0x3708 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut14 // signed , default = -120 +//Bit 23:16 reg_nr4_coefblt_lut15 // signed , default = -110 +//Bit 15: 8 reg_nr4_coefblt_lut16 // signed , default = -100 +//Bit 7: 0 reg_nr4_coefblt_lut17 // signed , default = -90 +#define NR4_COEFBLT_LUT12 (0x3709) +#define P_NR4_COEFBLT_LUT12 (volatile unsigned int *)((0x3709 << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut18 // signed , default = -56 +//Bit 23:16 reg_nr4_coefblt_lut19 // signed , default = -32 +//Bit 15: 8 reg_nr4_coefblt_lut110 // signed , default = -64 +//Bit 7: 0 reg_nr4_coefblt_lut111 // signed , default = -128 +#define NR4_COEFBLT_LUT20 (0x370a) +#define P_NR4_COEFBLT_LUT20 (volatile unsigned int *)((0x370a << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut20 // signed , default = -128 +//Bit 23:16 reg_nr4_coefblt_lut21 // signed , default = -120 +//Bit 15: 8 reg_nr4_coefblt_lut22 // signed , default = -112 +//Bit 7: 0 reg_nr4_coefblt_lut23 // signed , default = -104 +#define NR4_COEFBLT_LUT21 (0x370b) +#define P_NR4_COEFBLT_LUT21 (volatile unsigned int *)((0x370b << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut24 // signed , default = -96 +//Bit 23:16 reg_nr4_coefblt_lut25 // signed , default = -88 +//Bit 15: 8 reg_nr4_coefblt_lut26 // signed , default = -76 +//Bit 7: 0 reg_nr4_coefblt_lut27 // signed , default = -64 +#define NR4_COEFBLT_LUT22 (0x370c) +#define P_NR4_COEFBLT_LUT22 (volatile unsigned int *)((0x370c << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut28 // signed , default = -48 +//Bit 23:16 reg_nr4_coefblt_lut29 // signed , default = -32 +//Bit 15: 8 reg_nr4_coefblt_lut210 // signed , default = -64 +//Bit 7: 0 reg_nr4_coefblt_lut211 // signed , default = -108 +#define NR4_COEFBLT_LUT30 (0x370d) +#define P_NR4_COEFBLT_LUT30 (volatile unsigned int *)((0x370d << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut30 // signed , default = 8 +//Bit 23:16 reg_nr4_coefblt_lut31 // signed , default = 16 +//Bit 15: 8 reg_nr4_coefblt_lut32 // signed , default = 24 +//Bit 7: 0 reg_nr4_coefblt_lut33 // signed , default = 30 +#define NR4_COEFBLT_LUT31 (0x370e) +#define P_NR4_COEFBLT_LUT31 (volatile unsigned int *)((0x370e << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut34 // signed , default = 36 +//Bit 23:16 reg_nr4_coefblt_lut35 // signed , default = 48 +//Bit 15: 8 reg_nr4_coefblt_lut36 // signed , default = 70 +//Bit 7: 0 reg_nr4_coefblt_lut37 // signed , default = 96 +#define NR4_COEFBLT_LUT32 (0x370f) +#define P_NR4_COEFBLT_LUT32 (volatile unsigned int *)((0x370f << 2) + 0xff900000) +//Bit 31:24 reg_nr4_coefblt_lut38 // signed , default = 120 +//Bit 23:16 reg_nr4_coefblt_lut39 // signed , default = 64 +//Bit 15: 8 reg_nr4_coefblt_lut310 // signed , default = 16 +//Bit 7: 0 reg_nr4_coefblt_lut311 // signed , default = -8 +#define NR4_COEFBLT_CONV (0x3710) +#define P_NR4_COEFBLT_CONV (volatile unsigned int *)((0x3710 << 2) + 0xff900000) +//Bit 31:24 reserved +//Bit 23:16 reg_nr4_coefblt_convmin // unsigned , default = 0 minimum of coef. bilateral conversion +//Bit 15: 8 reg_nr4_coefblt_convmax // unsigned , default = 255 maximum of coef. bilateral conversion +//Bit 7: 0 reg_nr4_coefblt_convmid // unsigned , default = 128 value at midpoint of coef. bilateral conversion +#define NR4_DBGWIN_YX0 (0x3711) +#define P_NR4_DBGWIN_YX0 (volatile unsigned int *)((0x3711 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_nr4_dgbwin_yx0 // unsigned , default = 100 ystart for debug window +//Bit 15:14 reserved +//Bit 13: 0 reg_nr4_dgbwin_yx1 // unsigned , default = 160 yend for debug window +#define NR4_DBGWIN_YX1 (0x3712) +#define P_NR4_DBGWIN_YX1 (volatile unsigned int *)((0x3712 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_nr4_dgbwin_yx2 // unsigned , default = 200 xstart for debug window +//Bit 15:14 reserved +//Bit 13: 0 reg_nr4_dgbwin_yx3 // unsigned , default = 300 xend for debug window +#define NR4_NM_X_CFG (0x3713) +#define P_NR4_NM_X_CFG (volatile unsigned int *)((0x3713 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_nr4_nm_xst // unsigned , default = 8 start for noise meter statistic, dft = 8 +//Bit 15:14 reserved +//Bit 13: 0 reg_nr4_nm_xed // unsigned , default = 711 end for noise meter statistic, dft = HSIZE-8-1; +#define NR4_NM_Y_CFG (0x3714) +#define P_NR4_NM_Y_CFG (volatile unsigned int *)((0x3714 << 2) + 0xff900000) +//Bit 31:30 reserved +//Bit 29:16 reg_nr4_nm_yst // unsigned , default = 8 start for noise meter statistic, dft = 8; +//Bit 15:14 reserved +//Bit 13: 0 reg_nr4_nm_yed // unsigned , default = 231 end for noise meter statistic, dft = VSIZE-8-1; +#define NR4_NM_SAD_THD (0x3715) +#define P_NR4_NM_SAD_THD (volatile unsigned int *)((0x3715 << 2) + 0xff900000) +//Bit 31: 8 reserved +//Bit 7: 0 reg_nr4_nm_sad_thd // unsigned , default = 255 threshold for (flat region) sad count, dft = 4 +#define NR4_MCNR_BANDSPLIT_PRAM (0x3716) +#define P_NR4_MCNR_BANDSPLIT_PRAM (volatile unsigned int *)((0x3716 << 2) + 0xff900000) +//Bit 31: 5 reserved +//Bit 4 reg_nr4_mc_use_bandsplit // unsigned , default = 1 separate lp and us for mc IIR filter, 0: no BS used; 1: use BS +//Bit 3 reg_nr4_mc_apply_on_lp // unsigned , default = 1 use mcnr only on lowpass portion; +//Bit 2 reg_nr4_mc_apply_on_us // unsigned , default = 1 use mcnr only on lp complimentary portion; +//Bit 1: 0 reg_nr4_mc_zmvbs_use_adplpf // unsigned , default = 1 use adapptive LPF for the zmv pointing data for MCNR, for abs(mvx)reg_nrdeband_bandrand[m]), noise[m]) +//Bit 19:17 reg_nrdeband_bandrand2 // unsigned , default = 6 +//Bit 16 reserved +//Bit 15:13 reg_nrdeband_bandrand1 // unsigned , default = 6 +//Bit 12 reserved +//Bit 11: 9 reg_nrdeband_bandrand0 // unsigned , default = 6 +//Bit 8 reserved +//Bit 7 reg_nrdeband_hpxor1 // unsigned , default = 1 debanding random hp portion xor, [0] for luma +//Bit 6 reg_nrdeband_hpxor0 // unsigned , default = 1 debanding random hp portion xor, [1] for chroma +//Bit 5 reg_nrdeband_en1 // unsigned , default = 1 debanding registers, for luma +//Bit 4 reg_nrdeband_en0 // unsigned , default = 1 debanding registers, for chroma +//Bit 3: 2 reg_nrdeband_lpf_mode1 // unsigned , default = 2 lpf mode, 0: 3x3, 1:3x5; 2: 5x5; 3:5x7 +//Bit 1: 0 reg_nrdeband_lpf_mode0 // unsigned , default = 2 lpf mode, 0: 3x3, 1:3x5; 2: 5x5; 3:5x7 +#define NR_DB_FLT_YC_THRD (0x3739) +#define P_NR_DB_FLT_YC_THRD (volatile unsigned int *)((0x3739 << 2) + 0xff900000) +//Bit 31:28 reg_nrdeband_luma_th3 // unsigned , default = 9 threshold to |Y-Ylpf|, if < th[0] use lpf +//Bit 27:24 reg_nrdeband_luma_th2 // unsigned , default = 7 elseif th3, use filter3 +//Bit 23:16, color antiflick filter2 n3 +//Bit 15:8, color antiflick filter2 n2 +//Bit 7:0, color antiflick filter2 n1 +#define GE2D_ANTIFLICK_COLOR_FILT2 (0x00dc) +#define P_GE2D_ANTIFLICK_COLOR_FILT2 (volatile unsigned int *)((0x00dc << 2) + 0xff940000) +//Bit 23:16, color antiflick filter3 n3 +//Bit 15:8, color antiflick filter3 n2 +//Bit 7:0, color antiflick filter3 n1 +#define GE2D_ANTIFLICK_COLOR_FILT3 (0x00dd) +#define P_GE2D_ANTIFLICK_COLOR_FILT3 (volatile unsigned int *)((0x00dd << 2) + 0xff940000) +//Bit 31:24, Alpha threhold1, when 0th3, use filter3 +//Bit 23:16, Alpha antiflick filter2 n3 +//Bit 15:8, Alpha antiflick filter2 n2 +//Bit 7:0, Alpha antiflick filter2 n1 +#define GE2D_ANTIFLICK_ALPHA_FILT2 (0x00e0) +#define P_GE2D_ANTIFLICK_ALPHA_FILT2 (volatile unsigned int *)((0x00e0 << 2) + 0xff940000) +//Bit 23:16, Alpha antiflick filter3 n3 +//Bit 15:8, Alpha antiflick filter3 n2 +//Bit 7:0, Alpha antiflick filter3 n1 +#define GE2D_ANTIFLICK_ALPHA_FILT3 (0x00e1) +#define P_GE2D_ANTIFLICK_ALPHA_FILT3 (volatile unsigned int *)((0x00e1 << 2) + 0xff940000) +//dout = clipto_0_255(((din + din_offset) * map_coef + ((1 << (map_sr - 1))) >> map_sr + dout_offset) +//Bit 30:22 din_offset (signed data) +//Bit 21:14 map_coef (unsigned data) +//Bit 13:10 map_sr (unsigned data) +//Bit 9:1 dout_offset (signed data) +//Bit 0 enable +#define GE2D_SRC1_RANGE_MAP_Y_CTRL (0x00e3) +#define P_GE2D_SRC1_RANGE_MAP_Y_CTRL (volatile unsigned int *)((0x00e3 << 2) + 0xff940000) +//dout = clipto_0_255(((din + din_offset) * map_coef + ((1 << (map_sr - 1))) >> map_sr + dout_offset) +//Bit 30:22 din_offset (signed data) +//Bit 21:14 map_coef (unsigned data) +//Bit 13:10 map_sr (unsigned data) +//Bit 9:1 dout_offset (signed data) +//Bit 0 enable +#define GE2D_SRC1_RANGE_MAP_CB_CTRL (0x00e4) +#define P_GE2D_SRC1_RANGE_MAP_CB_CTRL (volatile unsigned int *)((0x00e4 << 2) + 0xff940000) +//dout = clipto_0_255(((din + din_offset) * map_coef + ((1 << (map_sr - 1))) >> map_sr + dout_offset) +//Bit 30:22 din_offset (signed data) +//Bit 21:14 map_coef (unsigned data) +//Bit 13:10 map_sr (unsigned data) +//Bit 9:1 dout_offset (signed data) +//Bit 0 enable +#define GE2D_SRC1_RANGE_MAP_CR_CTRL (0x00e5) +#define P_GE2D_SRC1_RANGE_MAP_CR_CTRL (volatile unsigned int *)((0x00e5 << 2) + 0xff940000) +//Bit 21:16 src1 prearbitor burst number +//Bit 13:8 src2 prearbitor burst number +//Bit 5:0 dst prearbitor burst number +#define GE2D_ARB_BURST_NUM (0x00e6) +#define P_GE2D_ARB_BURST_NUM (volatile unsigned int *)((0x00e6 << 2) + 0xff940000) +//each 6bit ID, high 4bit are thread ID, low 2bits are the token +//Bit 21:16 src1 ID +//Bit 13:8 src2 ID +//Bit 5:0 dst ID +#define GE2D_TID_TOKEN (0x00e7) +#define P_GE2D_TID_TOKEN (volatile unsigned int *)((0x00e7 << 2) + 0xff940000) +//Bit 31:28 dst2_bytemask_val. 1-bit mask for each byte (8-bit). Applicable only if both dst_bitmask_en=1 and dst_bytemask_only=1. +//Bit 27:26, dst2 picture struct, 00: frame, 10:top, 11: bottom +//Bit 25:24, dst2 8bit mode component selection, +// 00: select Y(R), 01: Cb(G), 10: Cr(B), 11: Alpha +//Bit 22:19 dst2 color_map +// dst2_format=0 : output 8-bit; +// dst2_format=1, dst2_color_map=1: output 16-bit YCbCr 655; +// dst2_format=1, dst2_color_map=2: output 16-bit YCbCr 844; +// dst2_format=1, dst2_color_map=3: output 16-bit YCbCrA 6442; +// dst2_format=1, dst2_color_map=4: output 16-bit YCbCrA 4444; +// dst2_format=1, dst2_color_map=5: output 16-bit YCbCr 565; +// dst2_format=1, dst2_color_map=6: output 16-bit AYCbCr 4444; +// dst2_format=1, dst2_color_map=7: output 16-bit AYCbCr 1555; +// dst2_format=1, dst2_color_map=8: output 16-bit YCbCrA 4642; +// dst2_format=1, dst2_color_map=9: output 16-bit CbCr 88; +// dst2_format=1, dst2_color_map=10:output 16-bit CrCb 88; +// dst2_format=2, dst2_color_map=0: output 24-bit YCbCr 888; +// dst2_format=2, dst2_color_map=1: output 24-bit YCbCrA 5658; +// dst2_format=2, dst2_color_map=2: output 24-bit AYCbCr 8565; +// dst2_format=2, dst2_color_map=3: output 24-bit YCbCrA 6666; +// dst2_format=2, dst2_color_map=4: output 24-bit AYCbCr 6666; +// dst2_format=2, dst2_color_map=5: output 24-bit CrCbY 888; +// dst2_format=3, dst2_color_map=0: output 32-bit YCbCrA 8888; +// dst2_format=3, dst2_color_map=1: output 32-bit AYCbCr 8888; +// dst2_format=3, dst2_color_map=2: output 32-bit ACrCbY 8888; +// dst2_format=3, dst2_color_map=3: output 32-bit CrCbYA 8888. +//Bit 17:16 dst2_format, 00: 8bit, 01:16bit, 10:24bit, 11: 32bit +//Bit 15 reserved +//Bit 14 dst2_color_round_mode, 0: truncate, 1: + 0.5 rounding +//Bit 13:12, dst2_x_discard_mode. 00: no discard; 10=discard even x; 11=discard odd x. Note: x is post reverse/rotation. +//Bit 11:10, dst2_y_discard_mode. 00: no discard; 10=discard even y; 11=discard odd y. Note: y is post reverse/rotation. +//Bit 9 reserved +//Bit 8, dst2_enable. 0: disable dst2 (default); 1=enable dst2. +//Bit 7: 6 reserved +//Bit 5: 4, dst1_x_discard_mode. 00: no discard; 10=discard even x; 11=discard odd x. Note: x is post reverse/rotation. +//Bit 3: 2, dst1_y_discard_mode. 00: no discard; 10=discard even y; 11=discard odd y. Note: y is post reverse/rotation. +//Bit 1 reserved +//Bit 0, dst1_enable. 0: disable dst1; 1=enable dst1 (default). +#define GE2D_GEN_CTRL3 (0x00e8) +#define P_GE2D_GEN_CTRL3 (volatile unsigned int *)((0x00e8 << 2) + 0xff940000) +//Read only +// Bit 13:0 ge2d_dst2_status, for debug only +#define GE2D_STATUS2 (0x00e9) +#define P_GE2D_STATUS2 (volatile unsigned int *)((0x00e9 << 2) + 0xff940000) +//Bit 27:26 src1 Y fifo size control, 00: 512, 01: 256, 10: 128 11: 96 +//Bit 25:24 src2 fifo size control, 00: 512, 01: 256, 10: 128 11: 96 +//Bit 23:22 dst1 fifo size control, 00: 512, 01: 256, 10: 128 11: 64 +//Bit 21:20 dst2 fifo size control, 00: 512, 01: 256, 10: 128 11: 64 +//Bit 19:18, dst1 fifo burst control, 00: 24x64, 01: 32x64, 10: 48x64, 11:64x64 +//Bit 17:16, dst2 fifo burst control, 00: 24x64, 01: 32x64, 10: 48x64, 11:64x64 +//Bit 15:1, top_wrap_ctrl +//bit 0, if true, disable bug fix about the dp_out_done/scale_out_done(test1823) hang issue when scaling down ratio is high. +#define GE2D_GEN_CTRL4 (0x00ea) +#define P_GE2D_GEN_CTRL4 (volatile unsigned int *)((0x00ea << 2) + 0xff940000) +#define GE2D_GCLK_CTRL0 (0x00ef) +#define P_GE2D_GCLK_CTRL0 (volatile unsigned int *)((0x00ef << 2) + 0xff940000) +#define GE2D_GCLK_CTRL1 (0x00f0) +#define P_GE2D_GCLK_CTRL1 (volatile unsigned int *)((0x00f0 << 2) + 0xff940000) +// synopsys translate_off +// synopsys translate_on +// +// Closing file: ./ge2d_regs.h +// + +// canvas.h +// --------------------------- +#define DC_CAV_LUT_DATAL (0x0012 << 2) +#define P_DC_CAV_LUT_DATAL (volatile unsigned int *)((0x0012 << 2) + 0xff638000) +#define DC_CAV_LUT_DATAH (0x0013 << 2) +#define P_DC_CAV_LUT_DATAH (volatile unsigned int *)((0x0013 << 2) + 0xff638000) +#define DC_CAV_LUT_ADDR (0x0014 << 2) +#define P_DC_CAV_LUT_ADDR (volatile unsigned int *)((0x0014 << 2) + 0xff638000) +#define DC_CAV_LUT_RDATAL (0x0015 << 2) +#define P_DC_CAV_LUT_RDATAL (volatile unsigned int *)((0x0015 << 2) + 0xff638000) +#define DC_CAV_LUT_RDATAH (0x0016 << 2) +#define P_DC_CAV_LUT_RDATAH (volatile unsigned int *)((0x0016 << 2) + 0xff638000) + + +#define VPU_RDARB_MODE_L1C1 (0x2790) +#define VPU_RDARB_MODE_L1C2 (0x2799) +#define VPU_RDARB_MODE_L2C1 (0x279d) +#define VPU_WRARB_MODE_L2C1 (0x27a2) + +// secure_apb.h + +// registers for mipi_dsi (12'h8a0 - 12'h8ff) +//======================================================================== +// +// Reading file: dsi_regs.h +// +// synopsys translate_off +// synopsys translate_on +//=========================================================================== +// MIPI DSI HOST CONTROLLER Registers 0x1c00 - 0x1cff +//=========================================================================== +// ----------------------------------------------- +// CBUS_BASE: DSI_CBUS_BASE = 0x1c +#define MIPI_DSI_REGISTER +// ----------------------------------------------- +//------------------------------------------------------------------------------ +// DWC IP registers: Synopsys IP, please refer to MIPI DSI HOST Databook +//------------------------------------------------------------------------------ +#define MIPI_DSI_DWC_VERSION_OS 0x1c00 +#define MIPI_DSI_DWC_PWR_UP_OS 0x1c01 +#define MIPI_DSI_DWC_CLKMGR_CFG_OS 0x1c02 +#define MIPI_DSI_DWC_DPI_VCID_OS 0x1c03 +#define MIPI_DSI_DWC_DPI_COLOR_CODING_OS 0x1c04 +#define MIPI_DSI_DWC_DPI_CFG_POL_OS 0x1c05 +#define MIPI_DSI_DWC_DPI_LP_CMD_TIM_OS 0x1c06 +#define MIPI_DSI_DWC_PCKHDL_CFG_OS 0x1c0b +#define MIPI_DSI_DWC_GEN_VCID_OS 0x1c0c +#define MIPI_DSI_DWC_MODE_CFG_OS 0x1c0d +#define MIPI_DSI_DWC_VID_MODE_CFG_OS 0x1c0e +#define MIPI_DSI_DWC_VID_PKT_SIZE_OS 0x1c0f +#define MIPI_DSI_DWC_VID_NUM_CHUNKS_OS 0x1c10 +#define MIPI_DSI_DWC_VID_NULL_SIZE_OS 0x1c11 +#define MIPI_DSI_DWC_VID_HSA_TIME_OS 0x1c12 +#define MIPI_DSI_DWC_VID_HBP_TIME_OS 0x1c13 +#define MIPI_DSI_DWC_VID_HLINE_TIME_OS 0x1c14 +#define MIPI_DSI_DWC_VID_VSA_LINES_OS 0x1c15 +#define MIPI_DSI_DWC_VID_VBP_LINES_OS 0x1c16 +#define MIPI_DSI_DWC_VID_VFP_LINES_OS 0x1c17 +#define MIPI_DSI_DWC_VID_VACTIVE_LINES_OS 0x1c18 +#define MIPI_DSI_DWC_EDPI_CMD_SIZE_OS 0x1c19 +#define MIPI_DSI_DWC_CMD_MODE_CFG_OS 0x1c1a +#define MIPI_DSI_DWC_GEN_HDR_OS 0x1c1b +#define MIPI_DSI_DWC_GEN_PLD_DATA_OS 0x1c1c +#define MIPI_DSI_DWC_CMD_PKT_STATUS_OS 0x1c1d +#define MIPI_DSI_DWC_TO_CNT_CFG_OS 0x1c1e +#define MIPI_DSI_DWC_HS_RD_TO_CNT_OS 0x1c1f +#define MIPI_DSI_DWC_LP_RD_TO_CNT_OS 0x1c20 +#define MIPI_DSI_DWC_HS_WR_TO_CNT_OS 0x1c21 +#define MIPI_DSI_DWC_LP_WR_TO_CNT_OS 0x1c22 +#define MIPI_DSI_DWC_BTA_TO_CNT_OS 0x1c23 +#define MIPI_DSI_DWC_SDF_3D_OS 0x1c24 +#define MIPI_DSI_DWC_LPCLK_CTRL_OS 0x1c25 +#define MIPI_DSI_DWC_PHY_TMR_LPCLK_CFG_OS 0x1c26 +#define MIPI_DSI_DWC_PHY_TMR_CFG_OS 0x1c27 +#define MIPI_DSI_DWC_PHY_RSTZ_OS 0x1c28 +#define MIPI_DSI_DWC_PHY_IF_CFG_OS 0x1c29 +#define MIPI_DSI_DWC_PHY_ULPS_CTRL_OS 0x1c2a +#define MIPI_DSI_DWC_PHY_TX_TRIGGERS_OS 0x1c2b +#define MIPI_DSI_DWC_PHY_STATUS_OS 0x1c2c +#define MIPI_DSI_DWC_PHY_TST_CTRL0_OS 0x1c2d +#define MIPI_DSI_DWC_PHY_TST_CTRL1_OS 0x1c2e +#define MIPI_DSI_DWC_INT_ST0_OS 0x1c2f +#define MIPI_DSI_DWC_INT_ST1_OS 0x1c30 +#define MIPI_DSI_DWC_INT_MSK0_OS 0x1c31 +#define MIPI_DSI_DWC_INT_MSK1_OS 0x1c32 +//------------------------------------------------------------------------------ +// Top-level registers: AmLogic proprietary +//------------------------------------------------------------------------------ +// 31: 4 Reserved. Default 0. +// 3 RW ~tim_rst_n: 1=Assert SW reset on mipi_dsi_host_timing block. 0=Release reset. Default 1. +// 2 RW ~dpi_rst_n: 1=Assert SW reset on mipi_dsi_host_dpi block. 0=Release reset. Default 1. +// 1 RW ~intr_rst_n: 1=Assert SW reset on mipi_dsi_host_intr block. 0=Release reset. Default 1. +// 0 RW ~dwc_rst_n: 1=Assert SW reset on IP core. 0=Release reset. Default 1. +#define MIPI_DSI_TOP_SW_RESET 0x1cf0 +// 31: 5 Reserved. Default 0. +// 4 RW manual_edpihalt: 1=Manual suspend VencL; 0=do not suspend VencL. Default 0. +// 3 RW auto_edpihalt_en: 1=Enable IP's edpihalt signal to suspend VencL; 0=IP's edpihalt signal does not affect VencL. Default 0. +// 2 RW clock_freerun: Apply to auto-clock gate only. Default 0. +// 0=Default, use auto-clock gating to save power; +// 1=use free-run clock, disable auto-clock gating, for debug mode. +// 1 RW enable_pixclk: A manual clock gate option, due to DWC IP does not have auto-clock gating. 1=Enable pixclk. Default 0. +// 0 RW enable_sysclk: A manual clock gate option, due to DWC IP does not have auto-clock gating. 1=Enable sysclk. Default 0. +#define MIPI_DSI_TOP_CLK_CNTL 0x1cf1 +// 31:27 Reserved. Default 0. +// 26 RW de_dpi_pol: 1= Invert DE polarity from mipi_dsi_host_dpi. Default 0. +// 25 RW hsync_dpi_pol: 1= Invert HS polarity from mipi_dsi_host_dpi. Default 0. +// 24 RW vsync_dpi_pol: 1= Invert VS polarity from mipi_dsi_host_dpi. Default 0. +// 23:20 RW dpi_color_mode: Define DPI pixel format. Default 0. +// 0=16-bit RGB565 config 1; +// 1=16-bit RGB565 config 2; +// 2=16-bit RGB565 config 3; +// 3=18-bit RGB666 config 1; +// 4=18-bit RGB666 config 2; +// 5=24-bit RGB888; +// 6=20-bit YCbCr 4:2:2; +// 7=24-bit YCbCr 4:2:2; +// 8=16-bit YCbCr 4:2:2; +// 9=30-bit RGB; +// 10=36-bit RGB; +// 11=12-bit YCbCr 4:2:0. +// 19 Reserved. Default 0. +// 18:16 RW in_color_mode: Define VENC data width. Default 0. +// 0=30-bit pixel; +// 1=24-bit pixel; +// 2=18-bit pixel, RGB666; +// 3=16-bit pixel, RGB565. +// 15:14 RW chroma_subsample: Define method of chroma subsampling. Default 0. +// Applicable to YUV422 or YUV420 only. +// 0=Use even pixel's chroma; +// 1=Use odd pixel's chroma; +// 2=Use averaged value between even and odd pair. +// 13:12 RW comp2_sel: Select which component to be Cr or B: 0=comp0; 1=comp1; 2=comp2. Default 2. +// 11:10 RW comp1_sel: Select which component to be Cb or G: 0=comp0; 1=comp1; 2=comp2. Default 1. +// 9: 8 RW comp0_sel: Select which component to be Y or R: 0=comp0; 1=comp1; 2=comp2. Default 0. +// 7 Reserved. Default 0. +// 6 RW de_venc_pol: 1= Invert DE polarity from VENC. Default 0. +// 5 RW hsync_venc_pol: 1= Invert HS polarity from VENC. Default 0. +// 4 RW vsync_venc_pol: 1= Invert VS polarity from VENC. Default 0. +// 3 RW dpicolorm: Signal to IP. Default 0. +// 2 RW dpishutdn: Signal to IP. Default 0. +// 1 Reserved. Default 0. +// 0 Reserved. Default 0. +#define MIPI_DSI_TOP_CNTL 0x1cf2 +// 31:16 Reserved. Default 0. +// 15: 8 RW suspend_frame_rate: Define rate of timed-suspend. Default 0. +// 0=Execute suspend every frame; 1=Every other frame; ...; 255=Every 256 frame. +// 7: 3 Reserved. Default 0. +// 2 RW timed_suspend_en: 1=Enable timed suspend VencL. 0=Disable timed suspend. Default 0. +// 1 RW manual_suspend_en: 1=Enable manual suspend VencL. 1=Cancel manual suspend VencL. Default 0. +// 0 RW suspend_on_edpihalt:1=Enable IP's edpihalt signal to suspend VencL; 0=IP's edpihalt signal does not affect VencL. Default 1. +#define MIPI_DSI_TOP_SUSPEND_CNTL 0x1cf3 +// 31:29 Reserved. Default 0. +// 28:16 RW suspend_line_end: Define timed-suspend region. Suspend from [pix_start,line_start] to [pix_end,line_end]. Default 0. +// 15:13 Reserved. Default 0. +// 12: 0 RW suspend_line_start: Define timed-suspend region. Suspend from [pix_start,line_start] to [pix_end,line_end]. Default 0. +#define MIPI_DSI_TOP_SUSPEND_LINE 0x1cf4 +// 31:29 Reserved. Default 0. +// 28:16 RW suspend_pix_end: Define timed-suspend region. Suspend from [pix_start,line_start] to [pix_end,line_end]. Default 0. +// 15:13 Reserved. Default 0. +// 12: 0 RW suspend_pix_start: Define timed-suspend region. Suspend from [pix_start,line_start] to [pix_end,line_end]. Default 0. +#define MIPI_DSI_TOP_SUSPEND_PIX 0x1cf5 +// 31:20 Reserved. Default 0. +// 19:10 RW meas_vsync: Control on measuring Host Controller's vsync. Default 0. +// [ 19] meas_en: 1=Enable measurement +// [ 18] accum_meas_en: 0=meas_count is cleared at the end of each measure; +// 1=meas_count is accumulated at the end of each measure. +// [17:10] vsync_span: Define the duration of a measure is to last for how many Vsyncs. +// 9: 0 RW meas_edpite: Control on measuring Display Slave's edpite. Default 0. +// [ 9] meas_en: 1=Enable measurement +// [ 8] accum_meas_en: 0=meas_count is cleared at the end of each measure; +// 1=meas_count is accumulated at the end of each measure. +// [ 7: 0] edpite_span: Define the duration of a measure is to last for how many edpite. +#define MIPI_DSI_TOP_MEAS_CNTL 0x1cf6 +// 31 R stat_edpihalt: status of edpihalt signal from IP. Default 0. +// 30:29 Reserved. Default 0. +// 28:16 R stat_te_line: Snapshot of Host's line position at edpite. Default 0. +// 15:13 Reserved. Default 0. +// 12: 0 R stat_te_pix: Snapshot of Host's pixel position at edpite. Default 0. +#define MIPI_DSI_TOP_STAT 0x1cf7 +// To measure display slave's frame rate, we can use a reference clock to measure the duration of one of more edpite pulse(s). +// Measurement control is by register MIPI_DSI_TOP_MEAS_CNTL bit[9:0]. +// Reference clock comes from clk_rst_tst.cts_dsi_meas_clk, and is defined by HIU register HHI_VDIN_MEAS_CLK_CNTL bit[23:12]. +// Mesurement result is in MIPI_DSI_TOP_MEAS_STAT_TE0 and MIPI_DSI_TOP_MEAS_STAT_TE1, as below: +// edpite_meas_count[47:0]: Number of reference clock cycles counted during one measure period (non-incremental measure), or +// during all measure periods so far (incremental measure). +// edpite_meas_count_n[3:0]:Number of measure periods has been done. Number can wrap over. +// +// 31: 0 R edpite_meas_count[31:0]. Default 0. +#define MIPI_DSI_TOP_MEAS_STAT_TE0 0x1cf8 +// 19:16 R edpite_meas_count_n. Default 0. +// 15: 0 R edpite_meas_count[47:32]. Default 0. +#define MIPI_DSI_TOP_MEAS_STAT_TE1 0x1cf9 +// To measure Host's frame rate, we can use a reference clock to measure the duration of one of more Vsync pulse(s). +// Measurement control is by register MIPI_DSI_TOP_MEAS_CNTL bit[19:10]. +// Reference clock comes from clk_rst_tst.cts_dsi_meas_clk, and is defined by HIU register HHI_VDIN_MEAS_CLK_CNTL bit[23:12]. +// Mesurement result is in MIPI_DSI_TOP_MEAS_STAT_VS0 and MIPI_DSI_TOP_MEAS_STAT_VS1, as below: +// vsync_meas_count[47:0]: Number of reference clock cycles counted during one measure period (non-incremental measure), or +// during all measure periods so far (incremental measure). +// vsync_meas_count_n[3:0]: Number of measure periods has been done. Number can wrap over. +// +// 31: 0 R vsync_meas_count[31:0]. Default 0. +#define MIPI_DSI_TOP_MEAS_STAT_VS0 0x1cfa +// 19:16 R vsync_meas_count_n. Default 0. +// 15: 0 R vsync_meas_count[47:32]. Default 0. +#define MIPI_DSI_TOP_MEAS_STAT_VS1 0x1cfb +// 31:16 RW intr_stat/clr. For each bit, read as this interrupt level status, write 1 to clear. Default 0. +// Note: To clear the interrupt level, simply write 1 to the specific bit, no need to write 0 afterwards. +// [31:22] Reserved +// [ 21] stat/clr of EOF interrupt +// [ 20] stat/clr of de_fall interrupt +// [ 19] stat/clr of de_rise interrupt +// [ 18] stat/clr of vs_fall interrupt +// [ 17] stat/clr of vs_rise interrupt +// [ 16] stat/clr of dwc_edpite interrupt +// 15: 0 RW intr_enable. For each bit, 1=enable this interrupt, 0=disable. Default 0. +// [15: 6] Reserved +// [ 5] EOF (End_Of_Field) interrupt +// [ 4] de_fall interrupt +// [ 3] de_rise interrupt +// [ 2] vs_fall interrupt +// [ 1] vs_rise interrupt +// [ 0] dwc_edpite interrupt +#define MIPI_DSI_TOP_INTR_CNTL_STAT 0x1cfc +// 31: 2 Reserved. Default 0. +// 1: 0 RW mem_pd. Default 3. +#define MIPI_DSI_TOP_MEM_PD 0x1cfd +// synopsys translate_off +// synopsys translate_on +// +// Closing file: dsi_regs.h +#define VD1_HDR2_CTRL 0x3800 +#define VD1_HDR2_CLK_GATE 0x3801 +#define VD1_HDR2_MATRIXI_COEF00_01 0x3802 +#define VD1_HDR2_MATRIXI_COEF02_10 0x3803 +#define VD1_HDR2_MATRIXI_COEF11_12 0x3804 +#define VD1_HDR2_MATRIXI_COEF20_21 0x3805 +#define VD1_HDR2_MATRIXI_COEF22 0x3806 +#define VD1_HDR2_MATRIXI_COEF30_31 0x3807 +#define VD1_HDR2_MATRIXI_COEF32_40 0x3808 +#define VD1_HDR2_MATRIXI_COEF41_42 0x3809 +#define VD1_HDR2_MATRIXI_OFFSET0_1 0x380a +#define VD1_HDR2_MATRIXI_OFFSET2 0x380b +#define VD1_HDR2_MATRIXI_PRE_OFFSET0_1 0x380c +#define VD1_HDR2_MATRIXI_PRE_OFFSET2 0x380d +#define VD1_HDR2_MATRIXO_COEF00_01 0x380e +#define VD1_HDR2_MATRIXO_COEF02_10 0x380f +#define VD1_HDR2_MATRIXO_COEF11_12 0x3810 +#define VD1_HDR2_MATRIXO_COEF20_21 0x3811 +#define VD1_HDR2_MATRIXO_COEF22 0x3812 +#define VD1_HDR2_MATRIXO_COEF30_31 0x3813 +#define VD1_HDR2_MATRIXO_COEF32_40 0x3814 +#define VD1_HDR2_MATRIXO_COEF41_42 0x3815 +#define VD1_HDR2_MATRIXO_OFFSET0_1 0x3816 +#define VD1_HDR2_MATRIXO_OFFSET2 0x3817 +#define VD1_HDR2_MATRIXO_PRE_OFFSET0_1 0x3818 +#define VD1_HDR2_MATRIXO_PRE_OFFSET2 0x3819 +#define VD1_HDR2_MATRIXI_CLIP 0x381a +#define VD1_HDR2_MATRIXO_CLIP 0x381b +#define VD1_HDR2_CGAIN_OFFT 0x381c +#define VD1_EOTF_LUT_ADDR_PORT 0x381e +#define VD1_EOTF_LUT_DATA_PORT 0x381f +#define VD1_OETF_LUT_ADDR_PORT 0x3820 +#define VD1_OETF_LUT_DATA_PORT 0x3821 +#define VD1_CGAIN_LUT_ADDR_PORT 0x3822 +#define VD1_CGAIN_LUT_DATA_PORT 0x3823 +#define VD1_HDR2_CGAIN_COEF0 0x3824 +#define VD1_HDR2_CGAIN_COEF1 0x3825 +#define VD1_OGAIN_LUT_ADDR_PORT 0x3826 +#define VD1_OGAIN_LUT_DATA_PORT 0x3827 +#define VD1_HDR2_ADPS_CTRL 0x3828 +#define VD1_HDR2_ADPS_ALPHA0 0x3829 +#define VD1_HDR2_ADPS_ALPHA1 0x382a +#define VD1_HDR2_ADPS_BETA0 0x382b +#define VD1_HDR2_ADPS_BETA1 0x382c +#define VD1_HDR2_ADPS_BETA2 0x382d +#define VD1_HDR2_ADPS_COEF0 0x382e +#define VD1_HDR2_ADPS_COEF1 0x382f +#define VD1_HDR2_GMUT_CTRL 0x3830 +#define VD1_HDR2_GMUT_COEF0 0x3831 +#define VD1_HDR2_GMUT_COEF1 0x3832 +#define VD1_HDR2_GMUT_COEF2 0x3833 +#define VD1_HDR2_GMUT_COEF3 0x3834 +#define VD1_HDR2_GMUT_COEF4 0x3835 +#define VD1_HDR2_PIPE_CTRL1 0x3836 +#define VD1_HDR2_PIPE_CTRL2 0x3837 +#define VD1_HDR2_PIPE_CTRL3 0x3838 +#define VD1_HDR2_PROC_WIN1 0x3839 +#define VD1_HDR2_PROC_WIN2 0x383a +#define VD1_HDR2_MATRIXI_EN_CTRL 0x383b +#define VD1_HDR2_MATRIXO_EN_CTRL 0x383c + +#define VD2_HDR2_CTRL 0x3850 +#define VD2_HDR2_CLK_GATE 0x3851 +#define VD2_HDR2_MATRIXI_COEF00_01 0x3852 +#define VD2_HDR2_MATRIXI_COEF02_10 0x3853 +#define VD2_HDR2_MATRIXI_COEF11_12 0x3854 +#define VD2_HDR2_MATRIXI_COEF20_21 0x3855 +#define VD2_HDR2_MATRIXI_COEF22 0x3856 +#define VD2_HDR2_MATRIXI_COEF30_31 0x3857 +#define VD2_HDR2_MATRIXI_COEF32_40 0x3858 +#define VD2_HDR2_MATRIXI_COEF41_42 0x3859 +#define VD2_HDR2_MATRIXI_OFFSET0_1 0x385a +#define VD2_HDR2_MATRIXI_OFFSET2 0x385b +#define VD2_HDR2_MATRIXI_PRE_OFFSET0_1 0x385c +#define VD2_HDR2_MATRIXI_PRE_OFFSET2 0x385d +#define VD2_HDR2_MATRIXO_COEF00_01 0x385e +#define VD2_HDR2_MATRIXO_COEF02_10 0x385f +#define VD2_HDR2_MATRIXO_COEF11_12 0x3860 +#define VD2_HDR2_MATRIXO_COEF20_21 0x3861 +#define VD2_HDR2_MATRIXO_COEF22 0x3862 +#define VD2_HDR2_MATRIXO_COEF30_31 0x3863 +#define VD2_HDR2_MATRIXO_COEF32_40 0x3864 +#define VD2_HDR2_MATRIXO_COEF41_42 0x3865 +#define VD2_HDR2_MATRIXO_OFFSET0_1 0x3866 +#define VD2_HDR2_MATRIXO_OFFSET2 0x3867 +#define VD2_HDR2_MATRIXO_PRE_OFFSET0_1 0x3868 +#define VD2_HDR2_MATRIXO_PRE_OFFSET2 0x3869 +#define VD2_HDR2_MATRIXI_CLIP 0x386a +#define VD2_HDR2_MATRIXO_CLIP 0x386b +#define VD2_HDR2_CGAIN_OFFT 0x386c +#define VD2_EOTF_LUT_ADDR_PORT 0x386e +#define VD2_EOTF_LUT_DATA_PORT 0x386f +#define VD2_OETF_LUT_ADDR_PORT 0x3870 +#define VD2_OETF_LUT_DATA_PORT 0x3871 +#define VD2_CGAIN_LUT_ADDR_PORT 0x3872 +#define VD2_CGAIN_LUT_DATA_PORT 0x3873 +#define VD2_HDR2_CGAIN_COEF0 0x3874 +#define VD2_HDR2_CGAIN_COEF1 0x3875 +#define VD2_OGAIN_LUT_ADDR_PORT 0x3876 +#define VD2_OGAIN_LUT_DATA_PORT 0x3877 +#define VD2_HDR2_ADPS_CTRL 0x3878 +#define VD2_HDR2_ADPS_ALPHA0 0x3879 +#define VD2_HDR2_ADPS_ALPHA1 0x387a +#define VD2_HDR2_ADPS_BETA0 0x387b +#define VD2_HDR2_ADPS_BETA1 0x387c +#define VD2_HDR2_ADPS_BETA2 0x387d +#define VD2_HDR2_ADPS_COEF0 0x387e +#define VD2_HDR2_ADPS_COEF1 0x387f +#define VD2_HDR2_GMUT_CTRL 0x3880 +#define VD2_HDR2_GMUT_COEF0 0x3881 +#define VD2_HDR2_GMUT_COEF1 0x3882 +#define VD2_HDR2_GMUT_COEF2 0x3883 +#define VD2_HDR2_GMUT_COEF3 0x3884 +#define VD2_HDR2_GMUT_COEF4 0x3885 +#define VD2_HDR2_PIPE_CTRL1 0x3886 +#define VD2_HDR2_PIPE_CTRL2 0x3887 +#define VD2_HDR2_PIPE_CTRL3 0x3888 +#define VD2_HDR2_PROC_WIN1 0x3889 +#define VD2_HDR2_PROC_WIN2 0x388a +#define VD2_HDR2_MATRIXI_EN_CTRL 0x388b +#define VD2_HDR2_MATRIXO_EN_CTRL 0x388c + +#define OSD1_HDR2_CTRL 0x38a0 +#define OSD1_HDR2_CLK_GATE 0x38a1 +#define OSD1_HDR2_MATRIXI_COEF00_01 0x38a2 +#define OSD1_HDR2_MATRIXI_COEF02_10 0x38a3 +#define OSD1_HDR2_MATRIXI_COEF11_12 0x38a4 +#define OSD1_HDR2_MATRIXI_COEF20_21 0x38a5 +#define OSD1_HDR2_MATRIXI_COEF22 0x38a6 +#define OSD1_HDR2_MATRIXI_COEF30_31 0x38a7 +#define OSD1_HDR2_MATRIXI_COEF32_40 0x38a8 +#define OSD1_HDR2_MATRIXI_COEF41_42 0x38a9 +#define OSD1_HDR2_MATRIXI_OFFSET0_1 0x38aa +#define OSD1_HDR2_MATRIXI_OFFSET2 0x38ab +#define OSD1_HDR2_MATRIXI_PRE_OFFSET0_1 0x38ac +#define OSD1_HDR2_MATRIXI_PRE_OFFSET2 0x38ad +#define OSD1_HDR2_MATRIXO_COEF00_01 0x38ae +#define OSD1_HDR2_MATRIXO_COEF02_10 0x38af +#define OSD1_HDR2_MATRIXO_COEF11_12 0x38b0 +#define OSD1_HDR2_MATRIXO_COEF20_21 0x38b1 +#define OSD1_HDR2_MATRIXO_COEF22 0x38b2 +#define OSD1_HDR2_MATRIXO_COEF30_31 0x38b3 +#define OSD1_HDR2_MATRIXO_COEF32_40 0x38b4 +#define OSD1_HDR2_MATRIXO_COEF41_42 0x38b5 +#define OSD1_HDR2_MATRIXO_OFFSET0_1 0x38b6 +#define OSD1_HDR2_MATRIXO_OFFSET2 0x38b7 +#define OSD1_HDR2_MATRIXO_PRE_OFFSET0_1 0x38b8 +#define OSD1_HDR2_MATRIXO_PRE_OFFSET2 0x38b9 +#define OSD1_HDR2_MATRIXI_CLIP 0x38ba +#define OSD1_HDR2_MATRIXO_CLIP 0x38bb +#define OSD1_HDR2_CGAIN_OFFT 0x38bc +#define OSD1_EOTF_LUT_ADDR_PORT 0x38be +#define OSD1_EOTF_LUT_DATA_PORT 0x38bf +#define OSD1_OETF_LUT_ADDR_PORT 0x38c0 +#define OSD1_OETF_LUT_DATA_PORT 0x38c1 +#define OSD1_CGAIN_LUT_ADDR_PORT 0x38c2 +#define OSD1_CGAIN_LUT_DATA_PORT 0x38c3 +#define OSD1_HDR2_CGAIN_COEF0 0x38c4 +#define OSD1_HDR2_CGAIN_COEF1 0x38c5 +#define OSD1_OGAIN_LUT_ADDR_PORT 0x38c6 +#define OSD1_OGAIN_LUT_DATA_PORT 0x38c7 +#define OSD1_HDR2_ADPS_CTRL 0x38c8 +#define OSD1_HDR2_ADPS_ALPHA0 0x38c9 +#define OSD1_HDR2_ADPS_ALPHA1 0x38ca +#define OSD1_HDR2_ADPS_BETA0 0x38cb +#define OSD1_HDR2_ADPS_BETA1 0x38cc +#define OSD1_HDR2_ADPS_BETA2 0x38cd +#define OSD1_HDR2_ADPS_COEF0 0x38ce +#define OSD1_HDR2_ADPS_COEF1 0x38cf +#define OSD1_HDR2_GMUT_CTRL 0x38d0 +#define OSD1_HDR2_GMUT_COEF0 0x38d1 +#define OSD1_HDR2_GMUT_COEF1 0x38d2 +#define OSD1_HDR2_GMUT_COEF2 0x38d3 +#define OSD1_HDR2_GMUT_COEF3 0x38d4 +#define OSD1_HDR2_GMUT_COEF4 0x38d5 +#define OSD1_HDR2_PIPE_CTRL1 0x38d6 +#define OSD1_HDR2_PIPE_CTRL2 0x38d7 +#define OSD1_HDR2_PIPE_CTRL3 0x38d8 +#define OSD1_HDR2_PROC_WIN1 0x38d9 +#define OSD1_HDR2_PROC_WIN2 0x38da +#define OSD1_HDR2_MATRIXI_EN_CTRL 0x38db +#define OSD1_HDR2_MATRIXO_EN_CTRL 0x38dc diff --git a/include/amlogic/asm/romboot.h b/include/amlogic/asm/romboot.h new file mode 100644 index 0000000000..338365e87a --- /dev/null +++ b/include/amlogic/asm/romboot.h @@ -0,0 +1,53 @@ + +/* + * arch/arm/include/asm/arch-txl/romboot.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#ifndef __BOOT_ROM_H_ +#define __BOOT_ROM_H_ +#ifndef __ASSEMBLY__ +//#include +//uint8_t simple_i2c(uint8_t adr); +//void spi_pin_mux(void); +//void spi_init(void); +//uint32_t spi_read(uint32_t src, uint32_t mem, uint32_t size); +//void udelay(uint32_t usec); +//void boot_des_decrypt(uint8_t *ct, uint8_t *pt, uint32_t size); + +#endif /* ! __ASSEMBLY__ */ +#include "config.h" + +/* Magic number to "boot" up A53 */ +#define AO_SEC_SD_CFG10_CB 0x80000000 + +/*BOOT device and ddr size*/ +/*31-28: boot device id, 27-24: boot device para, 23-20: reserved*/ +/*19-8: ddr size, 7-0: board revision*/ +//#define P_AO_SEC_GP_CFG0 0xDA100240 //defined in secure_apb.h +#define AO_SEC_GP_CFG7_W0_BIT 8 +#define AO_SEC_GP_CFG7_W0 0x100 + +#define BOOT_ID_RESERVED 0 +#define BOOT_ID_EMMC 1 +#define BOOT_ID_NAND 2 +#define BOOT_ID_SPI 3 +#define BOOT_ID_SDCARD 4 +#define BOOT_ID_USB 5 + +#endif /* __BOOT_ROM_H_ */ diff --git a/include/amlogic/asm/sd_emmc.h b/include/amlogic/asm/sd_emmc.h new file mode 100644 index 0000000000..81de3a9674 --- /dev/null +++ b/include/amlogic/asm/sd_emmc.h @@ -0,0 +1,136 @@ +/* SPDX-License-Identifier: GPL-2.0+ */ +/* + * (C) Copyright 2016 Carlo Caione + */ + +#ifndef __SD_EMMC_H__ +#define __SD_EMMC_H__ + +#include + +#define SDIO_PORT_A 0 +#define SDIO_PORT_B 1 +#define SDIO_PORT_C 2 + +#define SD_EMMC_CLKSRC_24M 24000000 /* 24 MHz */ +#define SD_EMMC_CLKSRC_DIV2 1000000000 /* 1 GHz */ + +#define MESON_SD_EMMC_CLOCK 0x00 +#define CLK_MAX_DIV GENMASK(5, 0) +#define CLK_MAX_SRC GENMASK(7, 6) +#define Cfg_div 0 +#define Cfg_src 6 +#define Cfg_co_phase 8 +#define Cfg_tx_phase 10 +#define Cfg_rx_phase 12 +#define Cfg_sram_pd 14 +#define Cfg_tx_delay 16 +#define Cfg_rx_delay 22 +#define Cfg_always_on 28 +#define Cfg_irq_sdio_sleep 29 +#define Cfg_irq_sdio_sleep_ds 30 + +#define MESON_SD_EMMC_DELAY1 0x4 +#define DLY_D0_MASK GENMASK(5, 0) +#define DLY_D1_MASK GENMASK(11, 6) +#define DLY_D2_MASK GENMASK(17, 12) +#define DLY_D3_MASK GENMASK(23, 18) +#define DLY_D4_MASK GENMASK(31, 24) +#define Dly_d0 0 +#define Dly_d1 6 +#define Dly_d2 12 +#define Dly_d3 18 +#define Dly_d4 24 + +#define MESON_SD_EMMC_DELAY2 0x8 +#define DLY_D5_MASK GENMASK(5, 0) +#define DLY_D6_MASK GENMASK(11, 6) +#define DLY_D7_MASK GENMASK(17, 12) +#define DLY_D8_MASK GENMASK(23, 18) +#define DLY_D9_MASK GENMASK(31, 24) +#define Dly_d5 0 +#define Dly_d6 6 +#define Dly_d7 12 +#define Dly_d8 18 +#define Dly_d9 24 + +#define MESON_SD_EMMC_ADJUST 0xC +#define CALI_SEL_MASK GENMASK(11, 8) +#define ADJ_DLY_MASK GENMASK(21, 16) +#define Cfg_cali_sel 8 +#define Cfg_cali_en 12 +#define Cfg_adj_en 13 +#define Cfg_cali_rise 14 +#define Cfg_ds_en 15 +#define Cfg_adj_dly 16 +#define Cfg_adj_auto 22 +#define Cfg_adj_init 23 + +#define MESON_SD_EMMC_START 0x40 +#define CFG_DESC_INIT BIT(0) +#define CFG_DESC_BUSY BIT(1) +#define CFG_DESC_ADDR 2 + +#define MESON_SD_EMMC_CFG 0x44 +#define CFG_BUS_WIDTH_MASK GENMASK(1, 0) +#define CFG_BUS_WIDTH_1 0 +#define CFG_BUS_WIDTH_4 1 +#define CFG_BUS_WIDTH_8 2 +#define CFG_DDR BIT(2) +#define CFG_BL_LEN_MASK GENMASK(7, 4) +#define CFG_BL_LEN_SHIFT 4 +#define CFG_BL_LEN_512 (9 << 4) +#define CFG_RESP_TIMEOUT_MASK GENMASK(11, 8) +#define CFG_RESP_TIMEOUT_256 (8 << 8) +#define CFG_RC_CC_MASK GENMASK(15, 12) +#define CFG_RC_CC_16 (4 << 12) +#define CFG_SDCLK_ALWAYS_ON BIT(18) +#define CFG_AUTO_CLK BIT(23) + +#define MESON_SD_EMMC_STATUS 0x48 +#define STATUS_MASK GENMASK(15, 0) +#define STATUS_ERR_MASK GENMASK(12, 0) +#define STATUS_RXD_ERR_MASK GENMASK(7, 0) +#define STATUS_TXD_ERR BIT(8) +#define STATUS_DESC_ERR BIT(9) +#define STATUS_RESP_ERR BIT(10) +#define STATUS_RESP_TIMEOUT BIT(11) +#define STATUS_DESC_TIMEOUT BIT(12) +#define STATUS_END_OF_CHAIN BIT(13) + +#define MESON_SD_EMMC_IRQ_EN 0x4c + +#define MESON_SD_EMMC_CMD_CFG 0x50 +#define CMD_CFG_LENGTH_MASK GENMASK(8, 0) +#define CMD_CFG_BLOCK_MODE BIT(9) +#define CMD_CFG_R1B BIT(10) +#define CMD_CFG_END_OF_CHAIN BIT(11) +#define CMD_CFG_TIMEOUT_4S (12 << 12) +#define CMD_CFG_NO_RESP BIT(16) +#define CMD_CFG_NO_CMD BIT(17) +#define CMD_CFG_DATA_IO BIT(18) +#define CMD_CFG_DATA_WR BIT(19) +#define CMD_CFG_RESP_NOCRC BIT(20) +#define CMD_CFG_RESP_128 BIT(21) +#define CMD_CFG_RESP_NUM BIT(22) +#define CMD_CFG_DATA_NUM BIT(23) +#define CMD_CFG_CMD_INDEX_MASK GENMASK(29, 24) +#define CMD_CFG_CMD_INDEX_SHIFT 24 +#define CMD_CFG_ERR BIT(30) +#define CMD_CFG_OWNER BIT(31) + +#define MESON_SD_EMMC_CMD_ARG 0x54 +#define MESON_SD_EMMC_CMD_DAT 0x58 +#define MESON_SD_EMMC_CMD_RSP 0x5c +#define MESON_SD_EMMC_CMD_RSP1 0x60 +#define MESON_SD_EMMC_CMD_RSP2 0x64 +#define MESON_SD_EMMC_CMD_RSP3 0x68 + +#define SD_EMMC_RXD_ERROR (1 << 0) +#define SD_EMMC_TXD_ERROR (1 << 1) +#define SD_EMMC_DESC_ERROR (1 << 2) +#define SD_EMMC_RESP_CRC_ERROR (1 << 3) +#define SD_EMMC_RESP_TIMEOUT_ERROR (1 << 4) +#define SD_EMMC_DESC_TIMEOUT_ERROR (1 << 5) + +#endif diff --git a/include/amlogic/asm/secure_apb.h b/include/amlogic/asm/secure_apb.h new file mode 100644 index 0000000000..a146334e50 --- /dev/null +++ b/include/amlogic/asm/secure_apb.h @@ -0,0 +1,4235 @@ +// ---------------------------------------------------------------------- +// This file is automatically generated from the script: +// +// ./create_headers_from_register_map_h.pl +// +// and was applied to the file +// +// ./register_map.h +// +// DO NOT EDIT!!!!! +// ---------------------------------------------------------------------- +// +#include + +#ifdef REGISTER_H +#else +#define REGISTER_H +#endif + +// ---------------------------------------------------------------------- +// This file is automatically generated from the script: +// +// ./create_headers_from_secure_apb4_h.pl +// +// and was applied to the file +// +// ./secure_apb4_ee.h ./ao_rti_reg.h +// +// DO NOT EDIT!!!!! +// ---------------------------------------------------------------------- +// + +#ifdef SECURE_APB_H +#else +#define SECURE_APB_H + +// +// Reading file: ./secure_apb4_ee.h +// +// synopsys translate_off +// synopsys translate_on +//======================================================================== +// MIPI_DSI_PHY +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF644000 +// APB4_DECODER_SECURE_BASE 32'hFF644000 +//`define MIPI_DSI_PHY_START 8'h00 +//`define MIPI_DSI_PHY_END 16'hffff +#define MIPI_DSI_PHY_CTRL (0xff644000 + (0x000 << 2)) +#define SEC_MIPI_DSI_PHY_CTRL (0xff644000 + (0x000 << 2)) +#define P_MIPI_DSI_PHY_CTRL (volatile uint32_t *)(0xff644000 + (0x000 << 2)) +#define MIPI_DSI_CHAN_CTRL (0xff644000 + (0x001 << 2)) +#define SEC_MIPI_DSI_CHAN_CTRL (0xff644000 + (0x001 << 2)) +#define P_MIPI_DSI_CHAN_CTRL (volatile uint32_t *)(0xff644000 + (0x001 << 2)) +#define MIPI_DSI_CHAN_STS (0xff644000 + (0x002 << 2)) +#define SEC_MIPI_DSI_CHAN_STS (0xff644000 + (0x002 << 2)) +#define P_MIPI_DSI_CHAN_STS (volatile uint32_t *)(0xff644000 + (0x002 << 2)) +#define MIPI_DSI_CLK_TIM (0xff644000 + (0x003 << 2)) +#define SEC_MIPI_DSI_CLK_TIM (0xff644000 + (0x003 << 2)) +#define P_MIPI_DSI_CLK_TIM (volatile uint32_t *)(0xff644000 + (0x003 << 2)) +#define MIPI_DSI_HS_TIM (0xff644000 + (0x004 << 2)) +#define SEC_MIPI_DSI_HS_TIM (0xff644000 + (0x004 << 2)) +#define P_MIPI_DSI_HS_TIM (volatile uint32_t *)(0xff644000 + (0x004 << 2)) +#define MIPI_DSI_LP_TIM (0xff644000 + (0x005 << 2)) +#define SEC_MIPI_DSI_LP_TIM (0xff644000 + (0x005 << 2)) +#define P_MIPI_DSI_LP_TIM (volatile uint32_t *)(0xff644000 + (0x005 << 2)) +#define MIPI_DSI_ANA_UP_TIM (0xff644000 + (0x006 << 2)) +#define SEC_MIPI_DSI_ANA_UP_TIM (0xff644000 + (0x006 << 2)) +#define P_MIPI_DSI_ANA_UP_TIM (volatile uint32_t *)(0xff644000 + (0x006 << 2)) +#define MIPI_DSI_INIT_TIM (0xff644000 + (0x007 << 2)) +#define SEC_MIPI_DSI_INIT_TIM (0xff644000 + (0x007 << 2)) +#define P_MIPI_DSI_INIT_TIM (volatile uint32_t *)(0xff644000 + (0x007 << 2)) +#define MIPI_DSI_WAKEUP_TIM (0xff644000 + (0x008 << 2)) +#define SEC_MIPI_DSI_WAKEUP_TIM (0xff644000 + (0x008 << 2)) +#define P_MIPI_DSI_WAKEUP_TIM (volatile uint32_t *)(0xff644000 + (0x008 << 2)) +#define MIPI_DSI_LPOK_TIM (0xff644000 + (0x009 << 2)) +#define SEC_MIPI_DSI_LPOK_TIM (0xff644000 + (0x009 << 2)) +#define P_MIPI_DSI_LPOK_TIM (volatile uint32_t *)(0xff644000 + (0x009 << 2)) +#define MIPI_DSI_LP_WCHDOG (0xff644000 + (0x00a << 2)) +#define SEC_MIPI_DSI_LP_WCHDOG (0xff644000 + (0x00a << 2)) +#define P_MIPI_DSI_LP_WCHDOG (volatile uint32_t *)(0xff644000 + (0x00a << 2)) +#define MIPI_DSI_ANA_CTRL (0xff644000 + (0x00b << 2)) +#define SEC_MIPI_DSI_ANA_CTRL (0xff644000 + (0x00b << 2)) +#define P_MIPI_DSI_ANA_CTRL (volatile uint32_t *)(0xff644000 + (0x00b << 2)) +#define MIPI_DSI_CLK_TIM1 (0xff644000 + (0x00c << 2)) +#define SEC_MIPI_DSI_CLK_TIM1 (0xff644000 + (0x00c << 2)) +#define P_MIPI_DSI_CLK_TIM1 (volatile uint32_t *)(0xff644000 + (0x00c << 2)) +#define MIPI_DSI_TURN_WCHDOG (0xff644000 + (0x00d << 2)) +#define SEC_MIPI_DSI_TURN_WCHDOG (0xff644000 + (0x00d << 2)) +#define P_MIPI_DSI_TURN_WCHDOG (volatile uint32_t *)(0xff644000 + (0x00d << 2)) +#define MIPI_DSI_ULPS_CHECK (0xff644000 + (0x00e << 2)) +#define SEC_MIPI_DSI_ULPS_CHECK (0xff644000 + (0x00e << 2)) +#define P_MIPI_DSI_ULPS_CHECK (volatile uint32_t *)(0xff644000 + (0x00e << 2)) +#define MIPI_DSI_TEST_CTRL0 (0xff644000 + (0x00f << 2)) +#define SEC_MIPI_DSI_TEST_CTRL0 (0xff644000 + (0x00f << 2)) +#define P_MIPI_DSI_TEST_CTRL0 (volatile uint32_t *)(0xff644000 + (0x00f << 2)) +#define MIPI_DSI_TEST_CTRL1 (0xff644000 + (0x010 << 2)) +#define SEC_MIPI_DSI_TEST_CTRL1 (0xff644000 + (0x010 << 2)) +#define P_MIPI_DSI_TEST_CTRL1 (volatile uint32_t *)(0xff644000 + (0x010 << 2)) +//======================================================================== +// Temp sensor PLL +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF634800 +// APB4_DECODER_SECURE_BASE 32'hFF634800 +#define TS_PLL_CFG_REG1 (0xff634800 + (0x001 << 2)) +#define SEC_TS_PLL_CFG_REG1 (0xff634800 + (0x001 << 2)) +#define P_TS_PLL_CFG_REG1 (volatile uint32_t *)(0xff634800 + (0x001 << 2)) +#define TS_PLL_CFG_REG2 (0xff634800 + (0x002 << 2)) +#define SEC_TS_PLL_CFG_REG2 (0xff634800 + (0x002 << 2)) +#define P_TS_PLL_CFG_REG2 (volatile uint32_t *)(0xff634800 + (0x002 << 2)) +#define TS_PLL_CFG_REG3 (0xff634800 + (0x003 << 2)) +#define SEC_TS_PLL_CFG_REG3 (0xff634800 + (0x003 << 2)) +#define P_TS_PLL_CFG_REG3 (volatile uint32_t *)(0xff634800 + (0x003 << 2)) +#define TS_PLL_CFG_REG4 (0xff634800 + (0x004 << 2)) +#define SEC_TS_PLL_CFG_REG4 (0xff634800 + (0x004 << 2)) +#define P_TS_PLL_CFG_REG4 (volatile uint32_t *)(0xff634800 + (0x004 << 2)) +#define TS_PLL_CFG_REG5 (0xff634800 + (0x005 << 2)) +#define SEC_TS_PLL_CFG_REG5 (0xff634800 + (0x005 << 2)) +#define P_TS_PLL_CFG_REG5 (volatile uint32_t *)(0xff634800 + (0x005 << 2)) +#define TS_PLL_CFG_REG6 (0xff634800 + (0x006 << 2)) +#define SEC_TS_PLL_CFG_REG6 (0xff634800 + (0x006 << 2)) +#define P_TS_PLL_CFG_REG6 (volatile uint32_t *)(0xff634800 + (0x006 << 2)) +#define TS_PLL_CFG_REG7 (0xff634800 + (0x007 << 2)) +#define SEC_TS_PLL_CFG_REG7 (0xff634800 + (0x007 << 2)) +#define P_TS_PLL_CFG_REG7 (volatile uint32_t *)(0xff634800 + (0x007 << 2)) +#define TS_PLL_STAT0 (0xff634800 + (0x010 << 2)) +#define SEC_TS_PLL_STAT0 (0xff634800 + (0x010 << 2)) +#define P_TS_PLL_STAT0 (volatile uint32_t *)(0xff634800 + (0x010 << 2)) +#define TS_PLL_STAT1 (0xff634800 + (0x011 << 2)) +#define SEC_TS_PLL_STAT1 (0xff634800 + (0x011 << 2)) +#define P_TS_PLL_STAT1 (volatile uint32_t *)(0xff634800 + (0x011 << 2)) +#define TS_PLL_STAT2 (0xff634800 + (0x012 << 2)) +#define SEC_TS_PLL_STAT2 (0xff634800 + (0x012 << 2)) +#define P_TS_PLL_STAT2 (volatile uint32_t *)(0xff634800 + (0x012 << 2)) +#define TS_PLL_STAT3 (0xff634800 + (0x013 << 2)) +#define SEC_TS_PLL_STAT3 (0xff634800 + (0x013 << 2)) +#define P_TS_PLL_STAT3 (volatile uint32_t *)(0xff634800 + (0x013 << 2)) +#define TS_PLL_STAT4 (0xff634800 + (0x014 << 2)) +#define SEC_TS_PLL_STAT4 (0xff634800 + (0x014 << 2)) +#define P_TS_PLL_STAT4 (volatile uint32_t *)(0xff634800 + (0x014 << 2)) +#define TS_PLL_STAT5 (0xff634800 + (0x015 << 2)) +#define SEC_TS_PLL_STAT5 (0xff634800 + (0x015 << 2)) +#define P_TS_PLL_STAT5 (volatile uint32_t *)(0xff634800 + (0x015 << 2)) +#define TS_PLL_STAT6 (0xff634800 + (0x016 << 2)) +#define SEC_TS_PLL_STAT6 (0xff634800 + (0x016 << 2)) +#define P_TS_PLL_STAT6 (volatile uint32_t *)(0xff634800 + (0x016 << 2)) +#define TS_PLL_STAT7 (0xff634800 + (0x017 << 2)) +#define SEC_TS_PLL_STAT7 (0xff634800 + (0x017 << 2)) +#define P_TS_PLL_STAT7 (volatile uint32_t *)(0xff634800 + (0x017 << 2)) +#define TS_PLL_STAT8 (0xff634800 + (0x018 << 2)) +#define SEC_TS_PLL_STAT8 (0xff634800 + (0x018 << 2)) +#define P_TS_PLL_STAT8 (volatile uint32_t *)(0xff634800 + (0x018 << 2)) +#define TS_PLL_STAT9 (0xff634800 + (0x019 << 2)) +#define SEC_TS_PLL_STAT9 (0xff634800 + (0x019 << 2)) +#define P_TS_PLL_STAT9 (volatile uint32_t *)(0xff634800 + (0x019 << 2)) +//======================================================================== +// Temp sensor DDR +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF634C00 +// APB4_DECODER_SECURE_BASE 32'hFF634C00 +#define TS_DDR_CFG_REG1 (0xff634c00 + (0x001 << 2)) +#define SEC_TS_DDR_CFG_REG1 (0xff634c00 + (0x001 << 2)) +#define P_TS_DDR_CFG_REG1 (volatile uint32_t *)(0xff634c00 + (0x001 << 2)) +#define TS_DDR_CFG_REG2 (0xff634c00 + (0x002 << 2)) +#define SEC_TS_DDR_CFG_REG2 (0xff634c00 + (0x002 << 2)) +#define P_TS_DDR_CFG_REG2 (volatile uint32_t *)(0xff634c00 + (0x002 << 2)) +#define TS_DDR_CFG_REG3 (0xff634c00 + (0x003 << 2)) +#define SEC_TS_DDR_CFG_REG3 (0xff634c00 + (0x003 << 2)) +#define P_TS_DDR_CFG_REG3 (volatile uint32_t *)(0xff634c00 + (0x003 << 2)) +#define TS_DDR_CFG_REG4 (0xff634c00 + (0x004 << 2)) +#define SEC_TS_DDR_CFG_REG4 (0xff634c00 + (0x004 << 2)) +#define P_TS_DDR_CFG_REG4 (volatile uint32_t *)(0xff634c00 + (0x004 << 2)) +#define TS_DDR_CFG_REG5 (0xff634c00 + (0x005 << 2)) +#define SEC_TS_DDR_CFG_REG5 (0xff634c00 + (0x005 << 2)) +#define P_TS_DDR_CFG_REG5 (volatile uint32_t *)(0xff634c00 + (0x005 << 2)) +#define TS_DDR_CFG_REG6 (0xff634c00 + (0x006 << 2)) +#define SEC_TS_DDR_CFG_REG6 (0xff634c00 + (0x006 << 2)) +#define P_TS_DDR_CFG_REG6 (volatile uint32_t *)(0xff634c00 + (0x006 << 2)) +#define TS_DDR_CFG_REG7 (0xff634c00 + (0x007 << 2)) +#define SEC_TS_DDR_CFG_REG7 (0xff634c00 + (0x007 << 2)) +#define P_TS_DDR_CFG_REG7 (volatile uint32_t *)(0xff634c00 + (0x007 << 2)) +#define TS_DDR_STAT0 (0xff634c00 + (0x010 << 2)) +#define SEC_TS_DDR_STAT0 (0xff634c00 + (0x010 << 2)) +#define P_TS_DDR_STAT0 (volatile uint32_t *)(0xff634c00 + (0x010 << 2)) +#define TS_DDR_STAT1 (0xff634c00 + (0x011 << 2)) +#define SEC_TS_DDR_STAT1 (0xff634c00 + (0x011 << 2)) +#define P_TS_DDR_STAT1 (volatile uint32_t *)(0xff634c00 + (0x011 << 2)) +#define TS_DDR_STAT2 (0xff634c00 + (0x012 << 2)) +#define SEC_TS_DDR_STAT2 (0xff634c00 + (0x012 << 2)) +#define P_TS_DDR_STAT2 (volatile uint32_t *)(0xff634c00 + (0x012 << 2)) +#define TS_DDR_STAT3 (0xff634c00 + (0x013 << 2)) +#define SEC_TS_DDR_STAT3 (0xff634c00 + (0x013 << 2)) +#define P_TS_DDR_STAT3 (volatile uint32_t *)(0xff634c00 + (0x013 << 2)) +#define TS_DDR_STAT4 (0xff634c00 + (0x014 << 2)) +#define SEC_TS_DDR_STAT4 (0xff634c00 + (0x014 << 2)) +#define P_TS_DDR_STAT4 (volatile uint32_t *)(0xff634c00 + (0x014 << 2)) +#define TS_DDR_STAT5 (0xff634c00 + (0x015 << 2)) +#define SEC_TS_DDR_STAT5 (0xff634c00 + (0x015 << 2)) +#define P_TS_DDR_STAT5 (volatile uint32_t *)(0xff634c00 + (0x015 << 2)) +#define TS_DDR_STAT6 (0xff634c00 + (0x016 << 2)) +#define SEC_TS_DDR_STAT6 (0xff634c00 + (0x016 << 2)) +#define P_TS_DDR_STAT6 (volatile uint32_t *)(0xff634c00 + (0x016 << 2)) +#define TS_DDR_STAT7 (0xff634c00 + (0x017 << 2)) +#define SEC_TS_DDR_STAT7 (0xff634c00 + (0x017 << 2)) +#define P_TS_DDR_STAT7 (volatile uint32_t *)(0xff634c00 + (0x017 << 2)) +#define TS_DDR_STAT8 (0xff634c00 + (0x018 << 2)) +#define SEC_TS_DDR_STAT8 (0xff634c00 + (0x018 << 2)) +#define P_TS_DDR_STAT8 (volatile uint32_t *)(0xff634c00 + (0x018 << 2)) +#define TS_DDR_STAT9 (0xff634c00 + (0x019 << 2)) +#define SEC_TS_DDR_STAT9 (0xff634c00 + (0x019 << 2)) +#define P_TS_DDR_STAT9 (volatile uint32_t *)(0xff634c00 + (0x019 << 2)) +//======================================================================== +// Temp sensor GPU +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF635000 +// APB4_DECODER_SECURE_BASE 32'hFF635000 +//`define TS_GPU_CFG_REG1 8'h01 +//`define TS_GPU_CFG_REG2 8'h02 +//`define TS_GPU_CFG_REG3 8'h03 +//`define TS_GPU_CFG_REG4 8'h04 +//`define TS_GPU_CFG_REG5 8'h05 +//`define TS_GPU_CFG_REG6 8'h06 +//`define TS_GPU_CFG_REG7 8'h07 +//`define TS_GPU_STAT0 8'h10 +//`define TS_GPU_STAT1 8'h11 +//`define TS_GPU_STAT2 8'h12 +//`define TS_GPU_STAT3 8'h13 +//`define TS_GPU_STAT4 8'h14 +//`define TS_GPU_STAT5 8'h15 +//`define TS_GPU_STAT6 8'h16 +//`define TS_GPU_STAT7 8'h17 +//`define TS_GPU_STAT8 8'h18 +//`define TS_GPU_STAT9 8'h19 +//======================================================================== +// RNG +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF634000 +// APB4_DECODER_SECURE_BASE 32'hFF634000 +//======================================================================== +// ACODEC +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF632000 +// APB4_DECODER_SECURE_BASE 32'hFF632000 +#define ACODEC_0 (0xff632000 + (0x000 << 2)) +#define SEC_ACODEC_0 (0xff632000 + (0x000 << 2)) +#define P_ACODEC_0 (volatile uint32_t *)(0xff632000 + (0x000 << 2)) +#define ACODEC_1 (0xff632000 + (0x001 << 2)) +#define SEC_ACODEC_1 (0xff632000 + (0x001 << 2)) +#define P_ACODEC_1 (volatile uint32_t *)(0xff632000 + (0x001 << 2)) +#define ACODEC_2 (0xff632000 + (0x002 << 2)) +#define SEC_ACODEC_2 (0xff632000 + (0x002 << 2)) +#define P_ACODEC_2 (volatile uint32_t *)(0xff632000 + (0x002 << 2)) +#define ACODEC_3 (0xff632000 + (0x003 << 2)) +#define SEC_ACODEC_3 (0xff632000 + (0x003 << 2)) +#define P_ACODEC_3 (volatile uint32_t *)(0xff632000 + (0x003 << 2)) +#define ACODEC_4 (0xff632000 + (0x004 << 2)) +#define SEC_ACODEC_4 (0xff632000 + (0x004 << 2)) +#define P_ACODEC_4 (volatile uint32_t *)(0xff632000 + (0x004 << 2)) +#define ACODEC_5 (0xff632000 + (0x005 << 2)) +#define SEC_ACODEC_5 (0xff632000 + (0x005 << 2)) +#define P_ACODEC_5 (volatile uint32_t *)(0xff632000 + (0x005 << 2)) +#define ACODEC_6 (0xff632000 + (0x006 << 2)) +#define SEC_ACODEC_6 (0xff632000 + (0x006 << 2)) +#define P_ACODEC_6 (volatile uint32_t *)(0xff632000 + (0x006 << 2)) +#define ACODEC_7 (0xff632000 + (0x007 << 2)) +#define SEC_ACODEC_7 (0xff632000 + (0x007 << 2)) +#define P_ACODEC_7 (volatile uint32_t *)(0xff632000 + (0x007 << 2)) +//======================================================================== +// AML USB PHY A +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF636000 +// APB4_DECODER_SECURE_BASE 32'hFF636000 +#define AMLUSB_A0 (0xff636000 + (0x000 << 2)) +#define SEC_AMLUSB_A0 (0xff636000 + (0x000 << 2)) +#define P_AMLUSB_A0 (volatile uint32_t *)(0xff636000 + (0x000 << 2)) +#define AMLUSB_A1 (0xff636000 + (0x001 << 2)) +#define SEC_AMLUSB_A1 (0xff636000 + (0x001 << 2)) +#define P_AMLUSB_A1 (volatile uint32_t *)(0xff636000 + (0x001 << 2)) +#define AMLUSB_A2 (0xff636000 + (0x002 << 2)) +#define SEC_AMLUSB_A2 (0xff636000 + (0x002 << 2)) +#define P_AMLUSB_A2 (volatile uint32_t *)(0xff636000 + (0x002 << 2)) +#define AMLUSB_A3 (0xff636000 + (0x003 << 2)) +#define SEC_AMLUSB_A3 (0xff636000 + (0x003 << 2)) +#define P_AMLUSB_A3 (volatile uint32_t *)(0xff636000 + (0x003 << 2)) +#define AMLUSB_A4 (0xff636000 + (0x004 << 2)) +#define SEC_AMLUSB_A4 (0xff636000 + (0x004 << 2)) +#define P_AMLUSB_A4 (volatile uint32_t *)(0xff636000 + (0x004 << 2)) +#define AMLUSB_A5 (0xff636000 + (0x005 << 2)) +#define SEC_AMLUSB_A5 (0xff636000 + (0x005 << 2)) +#define P_AMLUSB_A5 (volatile uint32_t *)(0xff636000 + (0x005 << 2)) +#define AMLUSB_A6 (0xff636000 + (0x006 << 2)) +#define SEC_AMLUSB_A6 (0xff636000 + (0x006 << 2)) +#define P_AMLUSB_A6 (volatile uint32_t *)(0xff636000 + (0x006 << 2)) +#define AMLUSB_A7 (0xff636000 + (0x007 << 2)) +#define SEC_AMLUSB_A7 (0xff636000 + (0x007 << 2)) +#define P_AMLUSB_A7 (volatile uint32_t *)(0xff636000 + (0x007 << 2)) +#define AMLUSB_A8 (0xff636000 + (0x008 << 2)) +#define SEC_AMLUSB_A8 (0xff636000 + (0x008 << 2)) +#define P_AMLUSB_A8 (volatile uint32_t *)(0xff636000 + (0x008 << 2)) +#define AMLUSB_A9 (0xff636000 + (0x009 << 2)) +#define SEC_AMLUSB_A9 (0xff636000 + (0x009 << 2)) +#define P_AMLUSB_A9 (volatile uint32_t *)(0xff636000 + (0x009 << 2)) +#define AMLUSB_A10 (0xff636000 + (0x00a << 2)) +#define SEC_AMLUSB_A10 (0xff636000 + (0x00a << 2)) +#define P_AMLUSB_A10 (volatile uint32_t *)(0xff636000 + (0x00a << 2)) +#define AMLUSB_A11 (0xff636000 + (0x00b << 2)) +#define SEC_AMLUSB_A11 (0xff636000 + (0x00b << 2)) +#define P_AMLUSB_A11 (volatile uint32_t *)(0xff636000 + (0x00b << 2)) +#define AMLUSB_A12 (0xff636000 + (0x00c << 2)) +#define SEC_AMLUSB_A12 (0xff636000 + (0x00c << 2)) +#define P_AMLUSB_A12 (volatile uint32_t *)(0xff636000 + (0x00c << 2)) +#define AMLUSB_A13 (0xff636000 + (0x00d << 2)) +#define SEC_AMLUSB_A13 (0xff636000 + (0x00d << 2)) +#define P_AMLUSB_A13 (volatile uint32_t *)(0xff636000 + (0x00d << 2)) +#define AMLUSB_A14 (0xff636000 + (0x00e << 2)) +#define SEC_AMLUSB_A14 (0xff636000 + (0x00e << 2)) +#define P_AMLUSB_A14 (volatile uint32_t *)(0xff636000 + (0x00e << 2)) +#define AMLUSB_A15 (0xff636000 + (0x00f << 2)) +#define SEC_AMLUSB_A15 (0xff636000 + (0x00f << 2)) +#define P_AMLUSB_A15 (volatile uint32_t *)(0xff636000 + (0x00f << 2)) +#define AMLUSB_A16 (0xff636000 + (0x010 << 2)) +#define SEC_AMLUSB_A16 (0xff636000 + (0x010 << 2)) +#define P_AMLUSB_A16 (volatile uint32_t *)(0xff636000 + (0x010 << 2)) +#define AMLUSB_A17 (0xff636000 + (0x011 << 2)) +#define SEC_AMLUSB_A17 (0xff636000 + (0x011 << 2)) +#define P_AMLUSB_A17 (volatile uint32_t *)(0xff636000 + (0x011 << 2)) +#define AMLUSB_A18 (0xff636000 + (0x012 << 2)) +#define SEC_AMLUSB_A18 (0xff636000 + (0x012 << 2)) +#define P_AMLUSB_A18 (volatile uint32_t *)(0xff636000 + (0x012 << 2)) +#define AMLUSB_A19 (0xff636000 + (0x013 << 2)) +#define SEC_AMLUSB_A19 (0xff636000 + (0x013 << 2)) +#define P_AMLUSB_A19 (volatile uint32_t *)(0xff636000 + (0x013 << 2)) +#define AMLUSB_A20 (0xff636000 + (0x014 << 2)) +#define SEC_AMLUSB_A20 (0xff636000 + (0x014 << 2)) +#define P_AMLUSB_A20 (volatile uint32_t *)(0xff636000 + (0x014 << 2)) +#define AMLUSB_A21 (0xff636000 + (0x015 << 2)) +#define SEC_AMLUSB_A21 (0xff636000 + (0x015 << 2)) +#define P_AMLUSB_A21 (volatile uint32_t *)(0xff636000 + (0x015 << 2)) +#define AMLUSB_A22 (0xff636000 + (0x016 << 2)) +#define SEC_AMLUSB_A22 (0xff636000 + (0x016 << 2)) +#define P_AMLUSB_A22 (volatile uint32_t *)(0xff636000 + (0x016 << 2)) +#define AMLUSB_A23 (0xff636000 + (0x017 << 2)) +#define SEC_AMLUSB_A23 (0xff636000 + (0x017 << 2)) +#define P_AMLUSB_A23 (volatile uint32_t *)(0xff636000 + (0x017 << 2)) +#define AMLUSB_A24 (0xff636000 + (0x018 << 2)) +#define SEC_AMLUSB_A24 (0xff636000 + (0x018 << 2)) +#define P_AMLUSB_A24 (volatile uint32_t *)(0xff636000 + (0x018 << 2)) +#define AMLUSB_A25 (0xff636000 + (0x019 << 2)) +#define SEC_AMLUSB_A25 (0xff636000 + (0x019 << 2)) +#define P_AMLUSB_A25 (volatile uint32_t *)(0xff636000 + (0x019 << 2)) +#define AMLUSB_A26 (0xff636000 + (0x01a << 2)) +#define SEC_AMLUSB_A26 (0xff636000 + (0x01a << 2)) +#define P_AMLUSB_A26 (volatile uint32_t *)(0xff636000 + (0x01a << 2)) +#define AMLUSB_A27 (0xff636000 + (0x01b << 2)) +#define SEC_AMLUSB_A27 (0xff636000 + (0x01b << 2)) +#define P_AMLUSB_A27 (volatile uint32_t *)(0xff636000 + (0x01b << 2)) +#define AMLUSB_A28 (0xff636000 + (0x01c << 2)) +#define SEC_AMLUSB_A28 (0xff636000 + (0x01c << 2)) +#define P_AMLUSB_A28 (volatile uint32_t *)(0xff636000 + (0x01c << 2)) +#define AMLUSB_A29 (0xff636000 + (0x01d << 2)) +#define SEC_AMLUSB_A29 (0xff636000 + (0x01d << 2)) +#define P_AMLUSB_A29 (volatile uint32_t *)(0xff636000 + (0x01d << 2)) +#define AMLUSB_A30 (0xff636000 + (0x01e << 2)) +#define SEC_AMLUSB_A30 (0xff636000 + (0x01e << 2)) +#define P_AMLUSB_A30 (volatile uint32_t *)(0xff636000 + (0x01e << 2)) +#define AMLUSB_A31 (0xff636000 + (0x01f << 2)) +#define SEC_AMLUSB_A31 (0xff636000 + (0x01f << 2)) +#define P_AMLUSB_A31 (volatile uint32_t *)(0xff636000 + (0x01f << 2)) +//======================================================================== +// AML USB PHY B +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF63A000 +// APB4_DECODER_SECURE_BASE 32'hFF63A000 +#define AMLUSB_B0 (0xff63a000 + (0x000 << 2)) +#define SEC_AMLUSB_B0 (0xff63a000 + (0x000 << 2)) +#define P_AMLUSB_B0 (volatile uint32_t *)(0xff63a000 + (0x000 << 2)) +#define AMLUSB_B1 (0xff63a000 + (0x001 << 2)) +#define SEC_AMLUSB_B1 (0xff63a000 + (0x001 << 2)) +#define P_AMLUSB_B1 (volatile uint32_t *)(0xff63a000 + (0x001 << 2)) +#define AMLUSB_B2 (0xff63a000 + (0x002 << 2)) +#define SEC_AMLUSB_B2 (0xff63a000 + (0x002 << 2)) +#define P_AMLUSB_B2 (volatile uint32_t *)(0xff63a000 + (0x002 << 2)) +#define AMLUSB_B3 (0xff63a000 + (0x003 << 2)) +#define SEC_AMLUSB_B3 (0xff63a000 + (0x003 << 2)) +#define P_AMLUSB_B3 (volatile uint32_t *)(0xff63a000 + (0x003 << 2)) +#define AMLUSB_B4 (0xff63a000 + (0x004 << 2)) +#define SEC_AMLUSB_B4 (0xff63a000 + (0x004 << 2)) +#define P_AMLUSB_B4 (volatile uint32_t *)(0xff63a000 + (0x004 << 2)) +#define AMLUSB_B5 (0xff63a000 + (0x005 << 2)) +#define SEC_AMLUSB_B5 (0xff63a000 + (0x005 << 2)) +#define P_AMLUSB_B5 (volatile uint32_t *)(0xff63a000 + (0x005 << 2)) +#define AMLUSB_B6 (0xff63a000 + (0x006 << 2)) +#define SEC_AMLUSB_B6 (0xff63a000 + (0x006 << 2)) +#define P_AMLUSB_B6 (volatile uint32_t *)(0xff63a000 + (0x006 << 2)) +#define AMLUSB_B7 (0xff63a000 + (0x007 << 2)) +#define SEC_AMLUSB_B7 (0xff63a000 + (0x007 << 2)) +#define P_AMLUSB_B7 (volatile uint32_t *)(0xff63a000 + (0x007 << 2)) +#define AMLUSB_B8 (0xff63a000 + (0x008 << 2)) +#define SEC_AMLUSB_B8 (0xff63a000 + (0x008 << 2)) +#define P_AMLUSB_B8 (volatile uint32_t *)(0xff63a000 + (0x008 << 2)) +#define AMLUSB_B9 (0xff63a000 + (0x009 << 2)) +#define SEC_AMLUSB_B9 (0xff63a000 + (0x009 << 2)) +#define P_AMLUSB_B9 (volatile uint32_t *)(0xff63a000 + (0x009 << 2)) +#define AMLUSB_B10 (0xff63a000 + (0x00a << 2)) +#define SEC_AMLUSB_B10 (0xff63a000 + (0x00a << 2)) +#define P_AMLUSB_B10 (volatile uint32_t *)(0xff63a000 + (0x00a << 2)) +#define AMLUSB_B11 (0xff63a000 + (0x00b << 2)) +#define SEC_AMLUSB_B11 (0xff63a000 + (0x00b << 2)) +#define P_AMLUSB_B11 (volatile uint32_t *)(0xff63a000 + (0x00b << 2)) +#define AMLUSB_B12 (0xff63a000 + (0x00c << 2)) +#define SEC_AMLUSB_B12 (0xff63a000 + (0x00c << 2)) +#define P_AMLUSB_B12 (volatile uint32_t *)(0xff63a000 + (0x00c << 2)) +#define AMLUSB_B13 (0xff63a000 + (0x00d << 2)) +#define SEC_AMLUSB_B13 (0xff63a000 + (0x00d << 2)) +#define P_AMLUSB_B13 (volatile uint32_t *)(0xff63a000 + (0x00d << 2)) +#define AMLUSB_B14 (0xff63a000 + (0x00e << 2)) +#define SEC_AMLUSB_B14 (0xff63a000 + (0x00e << 2)) +#define P_AMLUSB_B14 (volatile uint32_t *)(0xff63a000 + (0x00e << 2)) +#define AMLUSB_B15 (0xff63a000 + (0x00f << 2)) +#define SEC_AMLUSB_B15 (0xff63a000 + (0x00f << 2)) +#define P_AMLUSB_B15 (volatile uint32_t *)(0xff63a000 + (0x00f << 2)) +#define AMLUSB_B16 (0xff63a000 + (0x010 << 2)) +#define SEC_AMLUSB_B16 (0xff63a000 + (0x010 << 2)) +#define P_AMLUSB_B16 (volatile uint32_t *)(0xff63a000 + (0x010 << 2)) +#define AMLUSB_B17 (0xff63a000 + (0x011 << 2)) +#define SEC_AMLUSB_B17 (0xff63a000 + (0x011 << 2)) +#define P_AMLUSB_B17 (volatile uint32_t *)(0xff63a000 + (0x011 << 2)) +#define AMLUSB_B18 (0xff63a000 + (0x012 << 2)) +#define SEC_AMLUSB_B18 (0xff63a000 + (0x012 << 2)) +#define P_AMLUSB_B18 (volatile uint32_t *)(0xff63a000 + (0x012 << 2)) +#define AMLUSB_B19 (0xff63a000 + (0x013 << 2)) +#define SEC_AMLUSB_B19 (0xff63a000 + (0x013 << 2)) +#define P_AMLUSB_B19 (volatile uint32_t *)(0xff63a000 + (0x013 << 2)) +#define AMLUSB_B20 (0xff63a000 + (0x014 << 2)) +#define SEC_AMLUSB_B20 (0xff63a000 + (0x014 << 2)) +#define P_AMLUSB_B20 (volatile uint32_t *)(0xff63a000 + (0x014 << 2)) +#define AMLUSB_B21 (0xff63a000 + (0x015 << 2)) +#define SEC_AMLUSB_B21 (0xff63a000 + (0x015 << 2)) +#define P_AMLUSB_B21 (volatile uint32_t *)(0xff63a000 + (0x015 << 2)) +#define AMLUSB_B22 (0xff63a000 + (0x016 << 2)) +#define SEC_AMLUSB_B22 (0xff63a000 + (0x016 << 2)) +#define P_AMLUSB_B22 (volatile uint32_t *)(0xff63a000 + (0x016 << 2)) +#define AMLUSB_B23 (0xff63a000 + (0x017 << 2)) +#define SEC_AMLUSB_B23 (0xff63a000 + (0x017 << 2)) +#define P_AMLUSB_B23 (volatile uint32_t *)(0xff63a000 + (0x017 << 2)) +#define AMLUSB_B24 (0xff63a000 + (0x018 << 2)) +#define SEC_AMLUSB_B24 (0xff63a000 + (0x018 << 2)) +#define P_AMLUSB_B24 (volatile uint32_t *)(0xff63a000 + (0x018 << 2)) +#define AMLUSB_B25 (0xff63a000 + (0x019 << 2)) +#define SEC_AMLUSB_B25 (0xff63a000 + (0x019 << 2)) +#define P_AMLUSB_B25 (volatile uint32_t *)(0xff63a000 + (0x019 << 2)) +#define AMLUSB_B26 (0xff63a000 + (0x01a << 2)) +#define SEC_AMLUSB_B26 (0xff63a000 + (0x01a << 2)) +#define P_AMLUSB_B26 (volatile uint32_t *)(0xff63a000 + (0x01a << 2)) +#define AMLUSB_B27 (0xff63a000 + (0x01b << 2)) +#define SEC_AMLUSB_B27 (0xff63a000 + (0x01b << 2)) +#define P_AMLUSB_B27 (volatile uint32_t *)(0xff63a000 + (0x01b << 2)) +#define AMLUSB_B28 (0xff63a000 + (0x01c << 2)) +#define SEC_AMLUSB_B28 (0xff63a000 + (0x01c << 2)) +#define P_AMLUSB_B28 (volatile uint32_t *)(0xff63a000 + (0x01c << 2)) +#define AMLUSB_B29 (0xff63a000 + (0x01d << 2)) +#define SEC_AMLUSB_B29 (0xff63a000 + (0x01d << 2)) +#define P_AMLUSB_B29 (volatile uint32_t *)(0xff63a000 + (0x01d << 2)) +#define AMLUSB_B30 (0xff63a000 + (0x01e << 2)) +#define SEC_AMLUSB_B30 (0xff63a000 + (0x01e << 2)) +#define P_AMLUSB_B30 (volatile uint32_t *)(0xff63a000 + (0x01e << 2)) +#define AMLUSB_B31 (0xff63a000 + (0x01f << 2)) +#define SEC_AMLUSB_B31 (0xff63a000 + (0x01f << 2)) +#define P_AMLUSB_B31 (volatile uint32_t *)(0xff63a000 + (0x01f << 2)) +//======================================================================== +// PERIPHS +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF634400 +// APB4_DECODER_SECURE_BASE 32'hFF634400 +// The following are handled by $periphs/rtl/periphs_reg.v +//`define PREG_CTLREG0_ADDR 8'h00 +// ---------------------------- +// ---------------------------- +//`define PREG_JTAG_GPIO_ADDR 8'h0b // DWORD base address (0xc120002c >> 2) +// ---------------------------- +// Pre-defined GPIO addresses +// ---------------------------- +#define PREG_PAD_GPIO0_EN_N (0xff634400 + (0x010 << 2)) +#define SEC_PREG_PAD_GPIO0_EN_N (0xff634400 + (0x010 << 2)) +#define P_PREG_PAD_GPIO0_EN_N (volatile uint32_t *)(0xff634400 + (0x010 << 2)) +#define PREG_PAD_GPIO0_O (0xff634400 + (0x011 << 2)) +#define SEC_PREG_PAD_GPIO0_O (0xff634400 + (0x011 << 2)) +#define P_PREG_PAD_GPIO0_O (volatile uint32_t *)(0xff634400 + (0x011 << 2)) +#define PREG_PAD_GPIO0_I (0xff634400 + (0x012 << 2)) +#define SEC_PREG_PAD_GPIO0_I (0xff634400 + (0x012 << 2)) +#define P_PREG_PAD_GPIO0_I (volatile uint32_t *)(0xff634400 + (0x012 << 2)) +// ---------------------------- +#define PREG_PAD_GPIO1_EN_N (0xff634400 + (0x013 << 2)) +#define SEC_PREG_PAD_GPIO1_EN_N (0xff634400 + (0x013 << 2)) +#define P_PREG_PAD_GPIO1_EN_N (volatile uint32_t *)(0xff634400 + (0x013 << 2)) +#define PREG_PAD_GPIO1_O (0xff634400 + (0x014 << 2)) +#define SEC_PREG_PAD_GPIO1_O (0xff634400 + (0x014 << 2)) +#define P_PREG_PAD_GPIO1_O (volatile uint32_t *)(0xff634400 + (0x014 << 2)) +#define PREG_PAD_GPIO1_I (0xff634400 + (0x015 << 2)) +#define SEC_PREG_PAD_GPIO1_I (0xff634400 + (0x015 << 2)) +#define P_PREG_PAD_GPIO1_I (volatile uint32_t *)(0xff634400 + (0x015 << 2)) +// ---------------------------- +#define PREG_PAD_GPIO2_EN_N (0xff634400 + (0x016 << 2)) +#define SEC_PREG_PAD_GPIO2_EN_N (0xff634400 + (0x016 << 2)) +#define P_PREG_PAD_GPIO2_EN_N (volatile uint32_t *)(0xff634400 + (0x016 << 2)) +#define PREG_PAD_GPIO2_O (0xff634400 + (0x017 << 2)) +#define SEC_PREG_PAD_GPIO2_O (0xff634400 + (0x017 << 2)) +#define P_PREG_PAD_GPIO2_O (volatile uint32_t *)(0xff634400 + (0x017 << 2)) +#define PREG_PAD_GPIO2_I (0xff634400 + (0x018 << 2)) +#define SEC_PREG_PAD_GPIO2_I (0xff634400 + (0x018 << 2)) +#define P_PREG_PAD_GPIO2_I (volatile uint32_t *)(0xff634400 + (0x018 << 2)) +// ---------------------------- +#define PREG_PAD_GPIO3_EN_N (0xff634400 + (0x019 << 2)) +#define SEC_PREG_PAD_GPIO3_EN_N (0xff634400 + (0x019 << 2)) +#define P_PREG_PAD_GPIO3_EN_N (volatile uint32_t *)(0xff634400 + (0x019 << 2)) +#define PREG_PAD_GPIO3_O (0xff634400 + (0x01a << 2)) +#define SEC_PREG_PAD_GPIO3_O (0xff634400 + (0x01a << 2)) +#define P_PREG_PAD_GPIO3_O (volatile uint32_t *)(0xff634400 + (0x01a << 2)) +#define PREG_PAD_GPIO3_I (0xff634400 + (0x01b << 2)) +#define SEC_PREG_PAD_GPIO3_I (0xff634400 + (0x01b << 2)) +#define P_PREG_PAD_GPIO3_I (volatile uint32_t *)(0xff634400 + (0x01b << 2)) +// ---------------------------- +#define PREG_PAD_GPIO4_EN_N (0xff634400 + (0x01c << 2)) +#define SEC_PREG_PAD_GPIO4_EN_N (0xff634400 + (0x01c << 2)) +#define P_PREG_PAD_GPIO4_EN_N (volatile uint32_t *)(0xff634400 + (0x01c << 2)) +#define PREG_PAD_GPIO4_O (0xff634400 + (0x01d << 2)) +#define SEC_PREG_PAD_GPIO4_O (0xff634400 + (0x01d << 2)) +#define P_PREG_PAD_GPIO4_O (volatile uint32_t *)(0xff634400 + (0x01d << 2)) +#define PREG_PAD_GPIO4_I (0xff634400 + (0x01e << 2)) +#define SEC_PREG_PAD_GPIO4_I (0xff634400 + (0x01e << 2)) +#define P_PREG_PAD_GPIO4_I (volatile uint32_t *)(0xff634400 + (0x01e << 2)) +// ---------------------------- +#define PREG_PAD_GPIO5_EN_N (0xff634400 + (0x020 << 2)) +#define SEC_PREG_PAD_GPIO5_EN_N (0xff634400 + (0x020 << 2)) +#define P_PREG_PAD_GPIO5_EN_N (volatile uint32_t *)(0xff634400 + (0x020 << 2)) +#define PREG_PAD_GPIO5_O (0xff634400 + (0x021 << 2)) +#define SEC_PREG_PAD_GPIO5_O (0xff634400 + (0x021 << 2)) +#define P_PREG_PAD_GPIO5_O (volatile uint32_t *)(0xff634400 + (0x021 << 2)) +#define PREG_PAD_GPIO5_I (0xff634400 + (0x022 << 2)) +#define SEC_PREG_PAD_GPIO5_I (0xff634400 + (0x022 << 2)) +#define P_PREG_PAD_GPIO5_I (volatile uint32_t *)(0xff634400 + (0x022 << 2)) +// ---------------------------- +// ---------------------------- +// Pad conntrols +// ---------------------------- +//`define PAD_PULL_UP_REG6 8'h39 +#define PAD_PULL_UP_REG0 (0xff634400 + (0x03a << 2)) +#define SEC_PAD_PULL_UP_REG0 (0xff634400 + (0x03a << 2)) +#define P_PAD_PULL_UP_REG0 (volatile uint32_t *)(0xff634400 + (0x03a << 2)) +#define PAD_PULL_UP_REG1 (0xff634400 + (0x03b << 2)) +#define SEC_PAD_PULL_UP_REG1 (0xff634400 + (0x03b << 2)) +#define P_PAD_PULL_UP_REG1 (volatile uint32_t *)(0xff634400 + (0x03b << 2)) +#define PAD_PULL_UP_REG2 (0xff634400 + (0x03c << 2)) +#define SEC_PAD_PULL_UP_REG2 (0xff634400 + (0x03c << 2)) +#define P_PAD_PULL_UP_REG2 (volatile uint32_t *)(0xff634400 + (0x03c << 2)) +#define PAD_PULL_UP_REG3 (0xff634400 + (0x03d << 2)) +#define SEC_PAD_PULL_UP_REG3 (0xff634400 + (0x03d << 2)) +#define P_PAD_PULL_UP_REG3 (volatile uint32_t *)(0xff634400 + (0x03d << 2)) +#define PAD_PULL_UP_REG4 (0xff634400 + (0x03e << 2)) +#define SEC_PAD_PULL_UP_REG4 (0xff634400 + (0x03e << 2)) +#define P_PAD_PULL_UP_REG4 (volatile uint32_t *)(0xff634400 + (0x03e << 2)) +#define PAD_PULL_UP_REG5 (0xff634400 + (0x03f << 2)) +#define SEC_PAD_PULL_UP_REG5 (0xff634400 + (0x03f << 2)) +#define P_PAD_PULL_UP_REG5 (volatile uint32_t *)(0xff634400 + (0x03f << 2)) +// ---------------------------- +// Random (2) +// ---------------------------- +//`define RAND64_ADDR0 8'h40 // DWORD base address (0xc1200138 >> 2) +//`define RAND64_ADDR1 8'h41 // DWORD base address (0xc120013c >> 2) +// --------------------------- +// Ethernet (1) +// ---------------------------- +//`define PREG_ETHERNET_ADDR0 8'h42 // DWORD base address (0xc1200290 >> 2) +// --------------------------- +// AM_ANALOG_TOP +// ---------------------------- +//`define PREG_AM_ANALOG_ADDR 8'h43 // DWORD base address (0xc1200298 >> 2) +// --------------------------- +// Mali55 (1) +// ---------------------------- +//`define PREG_MALI_BYTE_CNTL 8'h44 +// --------------------------- +// WIFI (1) +// ---------------------------- +//`define PREG_WIFI_CNTL 8'h45 +#define PAD_PULL_UP_EN_REG0 (0xff634400 + (0x048 << 2)) +#define SEC_PAD_PULL_UP_EN_REG0 (0xff634400 + (0x048 << 2)) +#define P_PAD_PULL_UP_EN_REG0 (volatile uint32_t *)(0xff634400 + (0x048 << 2)) +#define PAD_PULL_UP_EN_REG1 (0xff634400 + (0x049 << 2)) +#define SEC_PAD_PULL_UP_EN_REG1 (0xff634400 + (0x049 << 2)) +#define P_PAD_PULL_UP_EN_REG1 (volatile uint32_t *)(0xff634400 + (0x049 << 2)) +#define PAD_PULL_UP_EN_REG2 (0xff634400 + (0x04a << 2)) +#define SEC_PAD_PULL_UP_EN_REG2 (0xff634400 + (0x04a << 2)) +#define P_PAD_PULL_UP_EN_REG2 (volatile uint32_t *)(0xff634400 + (0x04a << 2)) +#define PAD_PULL_UP_EN_REG3 (0xff634400 + (0x04b << 2)) +#define SEC_PAD_PULL_UP_EN_REG3 (0xff634400 + (0x04b << 2)) +#define P_PAD_PULL_UP_EN_REG3 (volatile uint32_t *)(0xff634400 + (0x04b << 2)) +#define PAD_PULL_UP_EN_REG4 (0xff634400 + (0x04c << 2)) +#define SEC_PAD_PULL_UP_EN_REG4 (0xff634400 + (0x04c << 2)) +#define P_PAD_PULL_UP_EN_REG4 (volatile uint32_t *)(0xff634400 + (0x04c << 2)) +#define PAD_PULL_UP_EN_REG5 (0xff634400 + (0x04d << 2)) +#define SEC_PAD_PULL_UP_EN_REG5 (0xff634400 + (0x04d << 2)) +#define P_PAD_PULL_UP_EN_REG5 (volatile uint32_t *)(0xff634400 + (0x04d << 2)) +//`define PAD_PULL_UP_EN_REG6 8'h4e +// --------------------------- +#define PREG_ETH_REG0 (0xff634400 + (0x050 << 2)) +#define SEC_PREG_ETH_REG0 (0xff634400 + (0x050 << 2)) +#define P_PREG_ETH_REG0 (volatile uint32_t *)(0xff634400 + (0x050 << 2)) +#define PREG_ETH_REG1 (0xff634400 + (0x051 << 2)) +#define SEC_PREG_ETH_REG1 (0xff634400 + (0x051 << 2)) +#define P_PREG_ETH_REG1 (volatile uint32_t *)(0xff634400 + (0x051 << 2)) +#define PREG_NAND_CFG_KEY0 (0xff634400 + (0x052 << 2)) +#define SEC_PREG_NAND_CFG_KEY0 (0xff634400 + (0x052 << 2)) +#define P_PREG_NAND_CFG_KEY0 (volatile uint32_t *)(0xff634400 + (0x052 << 2)) +#define PREG_NAND_CFG_KEY1 (0xff634400 + (0x053 << 2)) +#define SEC_PREG_NAND_CFG_KEY1 (0xff634400 + (0x053 << 2)) +#define P_PREG_NAND_CFG_KEY1 (volatile uint32_t *)(0xff634400 + (0x053 << 2)) +#define PREG_VPU_SECURE0 (0xff634400 + (0x054 << 2)) +#define SEC_PREG_VPU_SECURE0 (0xff634400 + (0x054 << 2)) +#define P_PREG_VPU_SECURE0 (volatile uint32_t *)(0xff634400 + (0x054 << 2)) +#define PREG_VPU_SECURE1 (0xff634400 + (0x055 << 2)) +#define SEC_PREG_VPU_SECURE1 (0xff634400 + (0x055 << 2)) +#define P_PREG_VPU_SECURE1 (volatile uint32_t *)(0xff634400 + (0x055 << 2)) +#define PREG_ETH_REG2 (0xff634400 + (0x056 << 2)) +#define SEC_PREG_ETH_REG2 (0xff634400 + (0x056 << 2)) +#define P_PREG_ETH_REG2 (volatile uint32_t *)(0xff634400 + (0x056 << 2)) +#define PREG_ETH_REG3 (0xff634400 + (0x057 << 2)) +#define SEC_PREG_ETH_REG3 (0xff634400 + (0x057 << 2)) +#define P_PREG_ETH_REG3 (volatile uint32_t *)(0xff634400 + (0x057 << 2)) +#define PREG_ETH_REG4 (0xff634400 + (0x058 << 2)) +#define SEC_PREG_ETH_REG4 (0xff634400 + (0x058 << 2)) +#define P_PREG_ETH_REG4 (volatile uint32_t *)(0xff634400 + (0x058 << 2)) +// --------------------------- +// Generic production test +// ---------------------------- +#define PROD_TEST_REG0 (0xff634400 + (0x060 << 2)) +#define SEC_PROD_TEST_REG0 (0xff634400 + (0x060 << 2)) +#define P_PROD_TEST_REG0 (volatile uint32_t *)(0xff634400 + (0x060 << 2)) +#define PROD_TEST_REG1 (0xff634400 + (0x061 << 2)) +#define SEC_PROD_TEST_REG1 (0xff634400 + (0x061 << 2)) +#define P_PROD_TEST_REG1 (volatile uint32_t *)(0xff634400 + (0x061 << 2)) +#define PROD_TEST_REG2 (0xff634400 + (0x062 << 2)) +#define SEC_PROD_TEST_REG2 (0xff634400 + (0x062 << 2)) +#define P_PROD_TEST_REG2 (volatile uint32_t *)(0xff634400 + (0x062 << 2)) +#define PROD_TEST_REG3 (0xff634400 + (0x063 << 2)) +#define SEC_PROD_TEST_REG3 (0xff634400 + (0x063 << 2)) +#define P_PROD_TEST_REG3 (volatile uint32_t *)(0xff634400 + (0x063 << 2)) +// am_analog_top +// ---------------------------- +//`define METAL_REVISION 8'h6a +//`define ADC_TOP_MISC 8'h6b +//`define DPLL_TOP_MISC 8'h6c +//`define ANALOG_TOP_MISC 8'h6d +//`define AM_ANALOG_TOP_REG0 8'h6e +//`define AM_ANALOG_TOP_REG1 8'h6f +// --------------------------- +// Sticky regs +// ---------------------------- +#define PREG_STICKY_REG0 (0xff634400 + (0x070 << 2)) +#define SEC_PREG_STICKY_REG0 (0xff634400 + (0x070 << 2)) +#define P_PREG_STICKY_REG0 (volatile uint32_t *)(0xff634400 + (0x070 << 2)) +#define PREG_STICKY_REG1 (0xff634400 + (0x071 << 2)) +#define SEC_PREG_STICKY_REG1 (0xff634400 + (0x071 << 2)) +#define P_PREG_STICKY_REG1 (volatile uint32_t *)(0xff634400 + (0x071 << 2)) +#define PREG_STICKY_REG2 (0xff634400 + (0x072 << 2)) +#define SEC_PREG_STICKY_REG2 (0xff634400 + (0x072 << 2)) +#define P_PREG_STICKY_REG2 (volatile uint32_t *)(0xff634400 + (0x072 << 2)) +#define PREG_STICKY_REG3 (0xff634400 + (0x073 << 2)) +#define SEC_PREG_STICKY_REG3 (0xff634400 + (0x073 << 2)) +#define P_PREG_STICKY_REG3 (volatile uint32_t *)(0xff634400 + (0x073 << 2)) +#define PREG_STICKY_REG4 (0xff634400 + (0x074 << 2)) +#define SEC_PREG_STICKY_REG4 (0xff634400 + (0x074 << 2)) +#define P_PREG_STICKY_REG4 (volatile uint32_t *)(0xff634400 + (0x074 << 2)) +#define PREG_STICKY_REG5 (0xff634400 + (0x075 << 2)) +#define SEC_PREG_STICKY_REG5 (0xff634400 + (0x075 << 2)) +#define P_PREG_STICKY_REG5 (volatile uint32_t *)(0xff634400 + (0x075 << 2)) +#define PREG_STICKY_REG6 (0xff634400 + (0x076 << 2)) +#define SEC_PREG_STICKY_REG6 (0xff634400 + (0x076 << 2)) +#define P_PREG_STICKY_REG6 (volatile uint32_t *)(0xff634400 + (0x076 << 2)) +#define PREG_STICKY_REG7 (0xff634400 + (0x077 << 2)) +#define SEC_PREG_STICKY_REG7 (0xff634400 + (0x077 << 2)) +#define P_PREG_STICKY_REG7 (volatile uint32_t *)(0xff634400 + (0x077 << 2)) +#define PREG_STICKY_REG8 (0xff634400 + (0x078 << 2)) +#define SEC_PREG_STICKY_REG8 (0xff634400 + (0x078 << 2)) +#define P_PREG_STICKY_REG8 (volatile uint32_t *)(0xff634400 + (0x078 << 2)) +#define PREG_STICKY_REG9 (0xff634400 + (0x079 << 2)) +#define SEC_PREG_STICKY_REG9 (0xff634400 + (0x079 << 2)) +#define P_PREG_STICKY_REG9 (volatile uint32_t *)(0xff634400 + (0x079 << 2)) +//`define PREG_WRITE_ONCE_REG 8'h7e +// --------------------------- +// AM Ring Oscillator +// ---------------------------- +#define AM_RING_OSC_REG0 (0xff634400 + (0x07f << 2)) +#define SEC_AM_RING_OSC_REG0 (0xff634400 + (0x07f << 2)) +#define P_AM_RING_OSC_REG0 (volatile uint32_t *)(0xff634400 + (0x07f << 2)) +// Control whether to provide random number to HDMITX20 +//`define HDMITX20_RNDNUM 8'h80 +// --------------------------- +// Bus Monitoring +// ---------------------------- +#define BUS_MONITOR_CNTL (0xff634400 + (0x081 << 2)) +#define SEC_BUS_MONITOR_CNTL (0xff634400 + (0x081 << 2)) +#define P_BUS_MONITOR_CNTL (volatile uint32_t *)(0xff634400 + (0x081 << 2)) +#define BUS_MON0_ADDR (0xff634400 + (0x082 << 2)) +#define SEC_BUS_MON0_ADDR (0xff634400 + (0x082 << 2)) +#define P_BUS_MON0_ADDR (volatile uint32_t *)(0xff634400 + (0x082 << 2)) +#define BUS_MON0_DATA (0xff634400 + (0x083 << 2)) +#define SEC_BUS_MON0_DATA (0xff634400 + (0x083 << 2)) +#define P_BUS_MON0_DATA (volatile uint32_t *)(0xff634400 + (0x083 << 2)) +#define BUS_MON0_DATA_MSK (0xff634400 + (0x084 << 2)) +#define SEC_BUS_MON0_DATA_MSK (0xff634400 + (0x084 << 2)) +#define P_BUS_MON0_DATA_MSK (volatile uint32_t *)(0xff634400 + (0x084 << 2)) +#define BUS_MON1_ADDR (0xff634400 + (0x085 << 2)) +#define SEC_BUS_MON1_ADDR (0xff634400 + (0x085 << 2)) +#define P_BUS_MON1_ADDR (volatile uint32_t *)(0xff634400 + (0x085 << 2)) +#define BUS_MON1_DATA (0xff634400 + (0x086 << 2)) +#define SEC_BUS_MON1_DATA (0xff634400 + (0x086 << 2)) +#define P_BUS_MON1_DATA (volatile uint32_t *)(0xff634400 + (0x086 << 2)) +#define BUS_MON1_DATA_MSK (0xff634400 + (0x087 << 2)) +#define SEC_BUS_MON1_DATA_MSK (0xff634400 + (0x087 << 2)) +#define P_BUS_MON1_DATA_MSK (volatile uint32_t *)(0xff634400 + (0x087 << 2)) +#define ASYNC_FIFO_LOCK_ADR (0xff634400 + (0x088 << 2)) +#define SEC_ASYNC_FIFO_LOCK_ADR (0xff634400 + (0x088 << 2)) +#define P_ASYNC_FIFO_LOCK_ADR (volatile uint32_t *)(0xff634400 + (0x088 << 2)) +#define SECE_TIMER_CTRL (0xff634400 + (0x089 << 2)) +#define SEC_SECE_TIMER_CTRL (0xff634400 + (0x089 << 2)) +#define P_SECE_TIMER_CTRL (volatile uint32_t *)(0xff634400 + (0x089 << 2)) +#define SECE_TIMER_LOW (0xff634400 + (0x08a << 2)) +#define SEC_SECE_TIMER_LOW (0xff634400 + (0x08a << 2)) +#define P_SECE_TIMER_LOW (volatile uint32_t *)(0xff634400 + (0x08a << 2)) +#define SECE_TIMER_HIG (0xff634400 + (0x08b << 2)) +#define SEC_SECE_TIMER_HIG (0xff634400 + (0x08b << 2)) +#define P_SECE_TIMER_HIG (volatile uint32_t *)(0xff634400 + (0x08b << 2)) +// --------------------------- +// System CPU control registers +// ---------------------------- +#define SYS_CPU_POR_CFG0 (0xff634400 + (0x090 << 2)) +#define SEC_SYS_CPU_POR_CFG0 (0xff634400 + (0x090 << 2)) +#define P_SYS_CPU_POR_CFG0 (volatile uint32_t *)(0xff634400 + (0x090 << 2)) +#define SYS_CPU_POR_CFG1 (0xff634400 + (0x091 << 2)) +#define SEC_SYS_CPU_POR_CFG1 (0xff634400 + (0x091 << 2)) +#define P_SYS_CPU_POR_CFG1 (volatile uint32_t *)(0xff634400 + (0x091 << 2)) +#define SYS_CPU_CFG0 (0xff634400 + (0x092 << 2)) +#define SEC_SYS_CPU_CFG0 (0xff634400 + (0x092 << 2)) +#define P_SYS_CPU_CFG0 (volatile uint32_t *)(0xff634400 + (0x092 << 2)) +#define SYS_CPU_CFG1 (0xff634400 + (0x093 << 2)) +#define SEC_SYS_CPU_CFG1 (0xff634400 + (0x093 << 2)) +#define P_SYS_CPU_CFG1 (volatile uint32_t *)(0xff634400 + (0x093 << 2)) +#define SYS_CPU_CFG2 (0xff634400 + (0x094 << 2)) +#define SEC_SYS_CPU_CFG2 (0xff634400 + (0x094 << 2)) +#define P_SYS_CPU_CFG2 (volatile uint32_t *)(0xff634400 + (0x094 << 2)) +#define SYS_CPU_CFG3 (0xff634400 + (0x095 << 2)) +#define SEC_SYS_CPU_CFG3 (0xff634400 + (0x095 << 2)) +#define P_SYS_CPU_CFG3 (volatile uint32_t *)(0xff634400 + (0x095 << 2)) +#define SYS_CPU_CFG4 (0xff634400 + (0x096 << 2)) +#define SEC_SYS_CPU_CFG4 (0xff634400 + (0x096 << 2)) +#define P_SYS_CPU_CFG4 (volatile uint32_t *)(0xff634400 + (0x096 << 2)) +#define SYS_CPU_CFG5 (0xff634400 + (0x097 << 2)) +#define SEC_SYS_CPU_CFG5 (0xff634400 + (0x097 << 2)) +#define P_SYS_CPU_CFG5 (volatile uint32_t *)(0xff634400 + (0x097 << 2)) +#define SYS_CPU_CFG6 (0xff634400 + (0x098 << 2)) +#define SEC_SYS_CPU_CFG6 (0xff634400 + (0x098 << 2)) +#define P_SYS_CPU_CFG6 (volatile uint32_t *)(0xff634400 + (0x098 << 2)) +#define SYS_CPU_CFG7 (0xff634400 + (0x099 << 2)) +#define SEC_SYS_CPU_CFG7 (0xff634400 + (0x099 << 2)) +#define P_SYS_CPU_CFG7 (volatile uint32_t *)(0xff634400 + (0x099 << 2)) +#define SYS_CPU_CFG8 (0xff634400 + (0x09a << 2)) +#define SEC_SYS_CPU_CFG8 (0xff634400 + (0x09a << 2)) +#define P_SYS_CPU_CFG8 (volatile uint32_t *)(0xff634400 + (0x09a << 2)) +#define SYS_CPU_CFG9 (0xff634400 + (0x09b << 2)) +#define SEC_SYS_CPU_CFG9 (0xff634400 + (0x09b << 2)) +#define P_SYS_CPU_CFG9 (volatile uint32_t *)(0xff634400 + (0x09b << 2)) +#define SYS_CPU_CFG10 (0xff634400 + (0x09c << 2)) +#define SEC_SYS_CPU_CFG10 (0xff634400 + (0x09c << 2)) +#define P_SYS_CPU_CFG10 (volatile uint32_t *)(0xff634400 + (0x09c << 2)) +//`define SYS_CPU_CFG11 8'h9d +//`define SYS_CPU_CFG12 8'h9e +//`define SYS_CPU_CFG13 8'h9f +#define SYS_CPU_STATUS0 (0xff634400 + (0x0a0 << 2)) +#define SEC_SYS_CPU_STATUS0 (0xff634400 + (0x0a0 << 2)) +#define P_SYS_CPU_STATUS0 (volatile uint32_t *)(0xff634400 + (0x0a0 << 2)) +#define SYS_CPU_STATUS1 (0xff634400 + (0x0a1 << 2)) +#define SEC_SYS_CPU_STATUS1 (0xff634400 + (0x0a1 << 2)) +#define P_SYS_CPU_STATUS1 (volatile uint32_t *)(0xff634400 + (0x0a1 << 2)) +#define SYS_CPU_STATUS2 (0xff634400 + (0x0a2 << 2)) +#define SEC_SYS_CPU_STATUS2 (0xff634400 + (0x0a2 << 2)) +#define P_SYS_CPU_STATUS2 (volatile uint32_t *)(0xff634400 + (0x0a2 << 2)) +#define SYS_CPU_STATUS3 (0xff634400 + (0x0a3 << 2)) +#define SEC_SYS_CPU_STATUS3 (0xff634400 + (0x0a3 << 2)) +#define P_SYS_CPU_STATUS3 (volatile uint32_t *)(0xff634400 + (0x0a3 << 2)) +#define SYS_CPU_STATUS4 (0xff634400 + (0x0a4 << 2)) +#define SEC_SYS_CPU_STATUS4 (0xff634400 + (0x0a4 << 2)) +#define P_SYS_CPU_STATUS4 (volatile uint32_t *)(0xff634400 + (0x0a4 << 2)) +#define SYS_CPU_STATUS5 (0xff634400 + (0x0a5 << 2)) +#define SEC_SYS_CPU_STATUS5 (0xff634400 + (0x0a5 << 2)) +#define P_SYS_CPU_STATUS5 (volatile uint32_t *)(0xff634400 + (0x0a5 << 2)) +#define SYS_CPU_MISC (0xff634400 + (0x0a8 << 2)) +#define SEC_SYS_CPU_MISC (0xff634400 + (0x0a8 << 2)) +#define P_SYS_CPU_MISC (volatile uint32_t *)(0xff634400 + (0x0a8 << 2)) +// ---------------------------- +// Pin Mux (9) +// ---------------------------- +#define PERIPHS_LOCK_PAD (0xff634400 + (0x0ae << 2)) +#define SEC_PERIPHS_LOCK_PAD (0xff634400 + (0x0ae << 2)) +#define P_PERIPHS_LOCK_PAD (volatile uint32_t *)(0xff634400 + (0x0ae << 2)) +#define PERIPHS_LOCK_PIN_MUX (0xff634400 + (0x0af << 2)) +#define SEC_PERIPHS_LOCK_PIN_MUX (0xff634400 + (0x0af << 2)) +#define P_PERIPHS_LOCK_PIN_MUX (volatile uint32_t *)(0xff634400 + (0x0af << 2)) +#define PERIPHS_PIN_MUX_0 (0xff634400 + (0x0b0 << 2)) +#define SEC_PERIPHS_PIN_MUX_0 (0xff634400 + (0x0b0 << 2)) +#define P_PERIPHS_PIN_MUX_0 (volatile uint32_t *)(0xff634400 + (0x0b0 << 2)) +#define PERIPHS_PIN_MUX_1 (0xff634400 + (0x0b1 << 2)) +#define SEC_PERIPHS_PIN_MUX_1 (0xff634400 + (0x0b1 << 2)) +#define P_PERIPHS_PIN_MUX_1 (volatile uint32_t *)(0xff634400 + (0x0b1 << 2)) +#define PERIPHS_PIN_MUX_2 (0xff634400 + (0x0b2 << 2)) +#define SEC_PERIPHS_PIN_MUX_2 (0xff634400 + (0x0b2 << 2)) +#define P_PERIPHS_PIN_MUX_2 (volatile uint32_t *)(0xff634400 + (0x0b2 << 2)) +#define PERIPHS_PIN_MUX_3 (0xff634400 + (0x0b3 << 2)) +#define SEC_PERIPHS_PIN_MUX_3 (0xff634400 + (0x0b3 << 2)) +#define P_PERIPHS_PIN_MUX_3 (volatile uint32_t *)(0xff634400 + (0x0b3 << 2)) +#define PERIPHS_PIN_MUX_4 (0xff634400 + (0x0b4 << 2)) +#define SEC_PERIPHS_PIN_MUX_4 (0xff634400 + (0x0b4 << 2)) +#define P_PERIPHS_PIN_MUX_4 (volatile uint32_t *)(0xff634400 + (0x0b4 << 2)) +#define PERIPHS_PIN_MUX_5 (0xff634400 + (0x0b5 << 2)) +#define SEC_PERIPHS_PIN_MUX_5 (0xff634400 + (0x0b5 << 2)) +#define P_PERIPHS_PIN_MUX_5 (volatile uint32_t *)(0xff634400 + (0x0b5 << 2)) +#define PERIPHS_PIN_MUX_6 (0xff634400 + (0x0b6 << 2)) +#define SEC_PERIPHS_PIN_MUX_6 (0xff634400 + (0x0b6 << 2)) +#define P_PERIPHS_PIN_MUX_6 (volatile uint32_t *)(0xff634400 + (0x0b6 << 2)) +#define PERIPHS_PIN_MUX_7 (0xff634400 + (0x0b7 << 2)) +#define SEC_PERIPHS_PIN_MUX_7 (0xff634400 + (0x0b7 << 2)) +#define P_PERIPHS_PIN_MUX_7 (volatile uint32_t *)(0xff634400 + (0x0b7 << 2)) +#define PERIPHS_PIN_MUX_8 (0xff634400 + (0x0b8 << 2)) +#define SEC_PERIPHS_PIN_MUX_8 (0xff634400 + (0x0b8 << 2)) +#define P_PERIPHS_PIN_MUX_8 (volatile uint32_t *)(0xff634400 + (0x0b8 << 2)) +#define PERIPHS_PIN_MUX_9 (0xff634400 + (0x0b9 << 2)) +#define SEC_PERIPHS_PIN_MUX_9 (0xff634400 + (0x0b9 << 2)) +#define P_PERIPHS_PIN_MUX_9 (volatile uint32_t *)(0xff634400 + (0x0b9 << 2)) +#define PERIPHS_PIN_MUX_A (0xff634400 + (0x0ba << 2)) +#define SEC_PERIPHS_PIN_MUX_A (0xff634400 + (0x0ba << 2)) +#define P_PERIPHS_PIN_MUX_A (volatile uint32_t *)(0xff634400 + (0x0ba << 2)) +#define PERIPHS_PIN_MUX_B (0xff634400 + (0x0bb << 2)) +#define SEC_PERIPHS_PIN_MUX_B (0xff634400 + (0x0bb << 2)) +#define P_PERIPHS_PIN_MUX_B (volatile uint32_t *)(0xff634400 + (0x0bb << 2)) +#define PERIPHS_PIN_MUX_C (0xff634400 + (0x0bc << 2)) +#define SEC_PERIPHS_PIN_MUX_C (0xff634400 + (0x0bc << 2)) +#define P_PERIPHS_PIN_MUX_C (volatile uint32_t *)(0xff634400 + (0x0bc << 2)) +#define PERIPHS_PIN_MUX_D (0xff634400 + (0x0bd << 2)) +#define SEC_PERIPHS_PIN_MUX_D (0xff634400 + (0x0bd << 2)) +#define P_PERIPHS_PIN_MUX_D (volatile uint32_t *)(0xff634400 + (0x0bd << 2)) +#define PERIPHS_PIN_MUX_E (0xff634400 + (0x0be << 2)) +#define SEC_PERIPHS_PIN_MUX_E (0xff634400 + (0x0be << 2)) +#define P_PERIPHS_PIN_MUX_E (volatile uint32_t *)(0xff634400 + (0x0be << 2)) +#define PERIPHS_PIN_MUX_F (0xff634400 + (0x0bf << 2)) +#define SEC_PERIPHS_PIN_MUX_F (0xff634400 + (0x0bf << 2)) +#define P_PERIPHS_PIN_MUX_F (volatile uint32_t *)(0xff634400 + (0x0bf << 2)) +#define EFUSE_CFG_LOCK (0xff634400 + (0x0c0 << 2)) +#define SEC_EFUSE_CFG_LOCK (0xff634400 + (0x0c0 << 2)) +#define P_EFUSE_CFG_LOCK (volatile uint32_t *)(0xff634400 + (0x0c0 << 2)) +#define EFUSE_CLK_A53_CFG01 (0xff634400 + (0x0c1 << 2)) +#define SEC_EFUSE_CLK_A53_CFG01 (0xff634400 + (0x0c1 << 2)) +#define P_EFUSE_CLK_A53_CFG01 (volatile uint32_t *)(0xff634400 + (0x0c1 << 2)) +#define EFUSE_CLK_A53_CFG2 (0xff634400 + (0x0c2 << 2)) +#define SEC_EFUSE_CLK_A53_CFG2 (0xff634400 + (0x0c2 << 2)) +#define P_EFUSE_CLK_A53_CFG2 (volatile uint32_t *)(0xff634400 + (0x0c2 << 2)) +#define EFUSE_CLK_ENCP_CFG0 (0xff634400 + (0x0c3 << 2)) +#define SEC_EFUSE_CLK_ENCP_CFG0 (0xff634400 + (0x0c3 << 2)) +#define P_EFUSE_CLK_ENCP_CFG0 (volatile uint32_t *)(0xff634400 + (0x0c3 << 2)) +#define EFUSE_CLK_MALI_CFG0 (0xff634400 + (0x0c4 << 2)) +#define SEC_EFUSE_CLK_MALI_CFG0 (0xff634400 + (0x0c4 << 2)) +#define P_EFUSE_CLK_MALI_CFG0 (volatile uint32_t *)(0xff634400 + (0x0c4 << 2)) +#define EFUSE_CLK_HEVCB_CFG0 (0xff634400 + (0x0c5 << 2)) +#define SEC_EFUSE_CLK_HEVCB_CFG0 (0xff634400 + (0x0c5 << 2)) +#define P_EFUSE_CLK_HEVCB_CFG0 (volatile uint32_t *)(0xff634400 + (0x0c5 << 2)) +#define PAD_DS_REG0A (0xff634400 + (0x0d0 << 2)) +#define SEC_PAD_DS_REG0A (0xff634400 + (0x0d0 << 2)) +#define P_PAD_DS_REG0A (volatile uint32_t *)(0xff634400 + (0x0d0 << 2)) +#define PAD_DS_REG1A (0xff634400 + (0x0d1 << 2)) +#define SEC_PAD_DS_REG1A (0xff634400 + (0x0d1 << 2)) +#define P_PAD_DS_REG1A (volatile uint32_t *)(0xff634400 + (0x0d1 << 2)) +#define PAD_DS_REG2A (0xff634400 + (0x0d2 << 2)) +#define SEC_PAD_DS_REG2A (0xff634400 + (0x0d2 << 2)) +#define P_PAD_DS_REG2A (volatile uint32_t *)(0xff634400 + (0x0d2 << 2)) +#define PAD_DS_REG2B (0xff634400 + (0x0d3 << 2)) +#define SEC_PAD_DS_REG2B (0xff634400 + (0x0d3 << 2)) +#define P_PAD_DS_REG2B (volatile uint32_t *)(0xff634400 + (0x0d3 << 2)) +#define PAD_DS_REG3A (0xff634400 + (0x0d4 << 2)) +#define SEC_PAD_DS_REG3A (0xff634400 + (0x0d4 << 2)) +#define P_PAD_DS_REG3A (volatile uint32_t *)(0xff634400 + (0x0d4 << 2)) +#define PAD_DS_REG4A (0xff634400 + (0x0d5 << 2)) +#define SEC_PAD_DS_REG4A (0xff634400 + (0x0d5 << 2)) +#define P_PAD_DS_REG4A (volatile uint32_t *)(0xff634400 + (0x0d5 << 2)) +#define PAD_DS_REG5A (0xff634400 + (0x0d6 << 2)) +#define SEC_PAD_DS_REG5A (0xff634400 + (0x0d6 << 2)) +#define P_PAD_DS_REG5A (volatile uint32_t *)(0xff634400 + (0x0d6 << 2)) +//======================================================================== +// RESET_SEC - Registers +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF64E000 +// APB4_DECODER_SECURE_BASE 32'hFF64E000 +#define RESET0_SEC_REGISTER (0xff64e000 + (0x000 << 2)) +#define SEC_RESET0_SEC_REGISTER (0xff64e000 + (0x000 << 2)) +#define P_RESET0_SEC_REGISTER (volatile uint32_t *)(0xff64e000 + (0x000 << 2)) +#define RESET1_SEC_REGISTER (0xff64e000 + (0x001 << 2)) +#define SEC_RESET1_SEC_REGISTER (0xff64e000 + (0x001 << 2)) +#define P_RESET1_SEC_REGISTER (volatile uint32_t *)(0xff64e000 + (0x001 << 2)) +#define RESET2_SEC_REGISTER (0xff64e000 + (0x002 << 2)) +#define SEC_RESET2_SEC_REGISTER (0xff64e000 + (0x002 << 2)) +#define P_RESET2_SEC_REGISTER (volatile uint32_t *)(0xff64e000 + (0x002 << 2)) +#define RESET0_SEC_LEVEL (0xff64e000 + (0x010 << 2)) +#define SEC_RESET0_SEC_LEVEL (0xff64e000 + (0x010 << 2)) +#define P_RESET0_SEC_LEVEL (volatile uint32_t *)(0xff64e000 + (0x010 << 2)) +#define RESET1_SEC_LEVEL (0xff64e000 + (0x011 << 2)) +#define SEC_RESET1_SEC_LEVEL (0xff64e000 + (0x011 << 2)) +#define P_RESET1_SEC_LEVEL (volatile uint32_t *)(0xff64e000 + (0x011 << 2)) +#define RESET2_SEC_LEVEL (0xff64e000 + (0x012 << 2)) +#define SEC_RESET2_SEC_LEVEL (0xff64e000 + (0x012 << 2)) +#define P_RESET2_SEC_LEVEL (volatile uint32_t *)(0xff64e000 + (0x012 << 2)) +#define RESET0_SEC_MASK (0xff64e000 + (0x020 << 2)) +#define SEC_RESET0_SEC_MASK (0xff64e000 + (0x020 << 2)) +#define P_RESET0_SEC_MASK (volatile uint32_t *)(0xff64e000 + (0x020 << 2)) +#define RESET1_SEC_MASK (0xff64e000 + (0x021 << 2)) +#define SEC_RESET1_SEC_MASK (0xff64e000 + (0x021 << 2)) +#define P_RESET1_SEC_MASK (volatile uint32_t *)(0xff64e000 + (0x021 << 2)) +#define RESET2_SEC_MASK (0xff64e000 + (0x022 << 2)) +#define SEC_RESET2_SEC_MASK (0xff64e000 + (0x022 << 2)) +#define P_RESET2_SEC_MASK (volatile uint32_t *)(0xff64e000 + (0x022 << 2)) +//======================================================================== +// AUDIO locker - Registers +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF64a000 +// APB4_DECODER_SECURE_BASE 32'hFF64a000 +#define AUD_LOCK_EN (0xff64a000 + (0x000 << 2)) +#define SEC_AUD_LOCK_EN (0xff64a000 + (0x000 << 2)) +#define P_AUD_LOCK_EN (volatile uint32_t *)(0xff64a000 + (0x000 << 2)) +#define AUD_LOCK_SW_RESET (0xff64a000 + (0x001 << 2)) +#define SEC_AUD_LOCK_SW_RESET (0xff64a000 + (0x001 << 2)) +#define P_AUD_LOCK_SW_RESET (volatile uint32_t *)(0xff64a000 + (0x001 << 2)) +#define AUD_LOCK_SW_LATCH (0xff64a000 + (0x002 << 2)) +#define SEC_AUD_LOCK_SW_LATCH (0xff64a000 + (0x002 << 2)) +#define P_AUD_LOCK_SW_LATCH (volatile uint32_t *)(0xff64a000 + (0x002 << 2)) +#define AUD_LOCK_HW_LATCH (0xff64a000 + (0x003 << 2)) +#define SEC_AUD_LOCK_HW_LATCH (0xff64a000 + (0x003 << 2)) +#define P_AUD_LOCK_HW_LATCH (volatile uint32_t *)(0xff64a000 + (0x003 << 2)) +#define AUD_LOCK_REFCLK_SRC (0xff64a000 + (0x004 << 2)) +#define SEC_AUD_LOCK_REFCLK_SRC (0xff64a000 + (0x004 << 2)) +#define P_AUD_LOCK_REFCLK_SRC (volatile uint32_t *)(0xff64a000 + (0x004 << 2)) +#define AUD_LOCK_REFCLK_LAT_INT (0xff64a000 + (0x005 << 2)) +#define SEC_AUD_LOCK_REFCLK_LAT_INT (0xff64a000 + (0x005 << 2)) +#define P_AUD_LOCK_REFCLK_LAT_INT (volatile uint32_t *)(0xff64a000 + (0x005 << 2)) +#define AUD_LOCK_IMCLK_LAT_INT (0xff64a000 + (0x006 << 2)) +#define SEC_AUD_LOCK_IMCLK_LAT_INT (0xff64a000 + (0x006 << 2)) +#define P_AUD_LOCK_IMCLK_LAT_INT (volatile uint32_t *)(0xff64a000 + (0x006 << 2)) +#define AUD_LOCK_OMCLK_LAT_INT (0xff64a000 + (0x007 << 2)) +#define SEC_AUD_LOCK_OMCLK_LAT_INT (0xff64a000 + (0x007 << 2)) +#define P_AUD_LOCK_OMCLK_LAT_INT (volatile uint32_t *)(0xff64a000 + (0x007 << 2)) +#define AUD_LOCK_REFCLK_DS_INT (0xff64a000 + (0x008 << 2)) +#define SEC_AUD_LOCK_REFCLK_DS_INT (0xff64a000 + (0x008 << 2)) +#define P_AUD_LOCK_REFCLK_DS_INT (volatile uint32_t *)(0xff64a000 + (0x008 << 2)) +#define AUD_LOCK_IMCLK_DS_INT (0xff64a000 + (0x009 << 2)) +#define SEC_AUD_LOCK_IMCLK_DS_INT (0xff64a000 + (0x009 << 2)) +#define P_AUD_LOCK_IMCLK_DS_INT (volatile uint32_t *)(0xff64a000 + (0x009 << 2)) +#define AUD_LOCK_OMCLK_DS_INT (0xff64a000 + (0x00a << 2)) +#define SEC_AUD_LOCK_OMCLK_DS_INT (0xff64a000 + (0x00a << 2)) +#define P_AUD_LOCK_OMCLK_DS_INT (volatile uint32_t *)(0xff64a000 + (0x00a << 2)) +#define AUD_LOCK_INT_CLR (0xff64a000 + (0x00b << 2)) +#define SEC_AUD_LOCK_INT_CLR (0xff64a000 + (0x00b << 2)) +#define P_AUD_LOCK_INT_CLR (volatile uint32_t *)(0xff64a000 + (0x00b << 2)) +#define AUD_LOCK_GCLK_CTRL (0xff64a000 + (0x00c << 2)) +#define SEC_AUD_LOCK_GCLK_CTRL (0xff64a000 + (0x00c << 2)) +#define P_AUD_LOCK_GCLK_CTRL (volatile uint32_t *)(0xff64a000 + (0x00c << 2)) +#define AUD_LOCK_INT_CTRL (0xff64a000 + (0x00d << 2)) +#define SEC_AUD_LOCK_INT_CTRL (0xff64a000 + (0x00d << 2)) +#define P_AUD_LOCK_INT_CTRL (volatile uint32_t *)(0xff64a000 + (0x00d << 2)) +#define RO_REF2IMCLK_CNT_L (0xff64a000 + (0x010 << 2)) +#define SEC_RO_REF2IMCLK_CNT_L (0xff64a000 + (0x010 << 2)) +#define P_RO_REF2IMCLK_CNT_L (volatile uint32_t *)(0xff64a000 + (0x010 << 2)) +#define RO_REF2IMCLK_CNT_H (0xff64a000 + (0x011 << 2)) +#define SEC_RO_REF2IMCLK_CNT_H (0xff64a000 + (0x011 << 2)) +#define P_RO_REF2IMCLK_CNT_H (volatile uint32_t *)(0xff64a000 + (0x011 << 2)) +#define RO_REF2OMCLK_CNT_L (0xff64a000 + (0x012 << 2)) +#define SEC_RO_REF2OMCLK_CNT_L (0xff64a000 + (0x012 << 2)) +#define P_RO_REF2OMCLK_CNT_L (volatile uint32_t *)(0xff64a000 + (0x012 << 2)) +#define RO_REF2OMCLK_CNT_H (0xff64a000 + (0x013 << 2)) +#define SEC_RO_REF2OMCLK_CNT_H (0xff64a000 + (0x013 << 2)) +#define P_RO_REF2OMCLK_CNT_H (volatile uint32_t *)(0xff64a000 + (0x013 << 2)) +#define RO_IMCLK2REF_CNT_L (0xff64a000 + (0x014 << 2)) +#define SEC_RO_IMCLK2REF_CNT_L (0xff64a000 + (0x014 << 2)) +#define P_RO_IMCLK2REF_CNT_L (volatile uint32_t *)(0xff64a000 + (0x014 << 2)) +#define RO_IMCLK2REF_CNT_H (0xff64a000 + (0x015 << 2)) +#define SEC_RO_IMCLK2REF_CNT_H (0xff64a000 + (0x015 << 2)) +#define P_RO_IMCLK2REF_CNT_H (volatile uint32_t *)(0xff64a000 + (0x015 << 2)) +#define RO_OMCLK2REF_CNT_L (0xff64a000 + (0x016 << 2)) +#define SEC_RO_OMCLK2REF_CNT_L (0xff64a000 + (0x016 << 2)) +#define P_RO_OMCLK2REF_CNT_L (volatile uint32_t *)(0xff64a000 + (0x016 << 2)) +#define RO_OMCLK2REF_CNT_H (0xff64a000 + (0x017 << 2)) +#define SEC_RO_OMCLK2REF_CNT_H (0xff64a000 + (0x017 << 2)) +#define P_RO_OMCLK2REF_CNT_H (volatile uint32_t *)(0xff64a000 + (0x017 << 2)) +#define RO_REFCLK_PKG_CNT (0xff64a000 + (0x018 << 2)) +#define SEC_RO_REFCLK_PKG_CNT (0xff64a000 + (0x018 << 2)) +#define P_RO_REFCLK_PKG_CNT (volatile uint32_t *)(0xff64a000 + (0x018 << 2)) +#define RO_IMCLK_PKG_CNT (0xff64a000 + (0x019 << 2)) +#define SEC_RO_IMCLK_PKG_CNT (0xff64a000 + (0x019 << 2)) +#define P_RO_IMCLK_PKG_CNT (volatile uint32_t *)(0xff64a000 + (0x019 << 2)) +#define RO_OMCLK_PKG_CNT (0xff64a000 + (0x01a << 2)) +#define SEC_RO_OMCLK_PKG_CNT (0xff64a000 + (0x01a << 2)) +#define P_RO_OMCLK_PKG_CNT (volatile uint32_t *)(0xff64a000 + (0x01a << 2)) +#define RO_AUD_LOCK_INT_STATUS (0xff64a000 + (0x01b << 2)) +#define SEC_RO_AUD_LOCK_INT_STATUS (0xff64a000 + (0x01b << 2)) +#define P_RO_AUD_LOCK_INT_STATUS (volatile uint32_t *)(0xff64a000 + (0x01b << 2)) +//======================================================================== +// AUDIO - Registers +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF642000 +// APB4_DECODER_SECURE_BASE 32'hFF642000 +#define EE_AUDIO_CLK_GATE_EN (0xff642000 + (0x000 << 2)) +#define SEC_EE_AUDIO_CLK_GATE_EN (0xff642000 + (0x000 << 2)) +#define P_EE_AUDIO_CLK_GATE_EN (volatile uint32_t *)(0xff642000 + (0x000 << 2)) +#define EE_AUDIO_MCLK_A_CTRL (0xff642000 + (0x001 << 2)) +#define SEC_EE_AUDIO_MCLK_A_CTRL (0xff642000 + (0x001 << 2)) +#define P_EE_AUDIO_MCLK_A_CTRL (volatile uint32_t *)(0xff642000 + (0x001 << 2)) +#define EE_AUDIO_MCLK_B_CTRL (0xff642000 + (0x002 << 2)) +#define SEC_EE_AUDIO_MCLK_B_CTRL (0xff642000 + (0x002 << 2)) +#define P_EE_AUDIO_MCLK_B_CTRL (volatile uint32_t *)(0xff642000 + (0x002 << 2)) +#define EE_AUDIO_MCLK_C_CTRL (0xff642000 + (0x003 << 2)) +#define SEC_EE_AUDIO_MCLK_C_CTRL (0xff642000 + (0x003 << 2)) +#define P_EE_AUDIO_MCLK_C_CTRL (volatile uint32_t *)(0xff642000 + (0x003 << 2)) +#define EE_AUDIO_MCLK_D_CTRL (0xff642000 + (0x004 << 2)) +#define SEC_EE_AUDIO_MCLK_D_CTRL (0xff642000 + (0x004 << 2)) +#define P_EE_AUDIO_MCLK_D_CTRL (volatile uint32_t *)(0xff642000 + (0x004 << 2)) +#define EE_AUDIO_MCLK_E_CTRL (0xff642000 + (0x005 << 2)) +#define SEC_EE_AUDIO_MCLK_E_CTRL (0xff642000 + (0x005 << 2)) +#define P_EE_AUDIO_MCLK_E_CTRL (volatile uint32_t *)(0xff642000 + (0x005 << 2)) +#define EE_AUDIO_MCLK_F_CTRL (0xff642000 + (0x006 << 2)) +#define SEC_EE_AUDIO_MCLK_F_CTRL (0xff642000 + (0x006 << 2)) +#define P_EE_AUDIO_MCLK_F_CTRL (volatile uint32_t *)(0xff642000 + (0x006 << 2)) +#define EE_AUDIO_PAD_CTRL0 (0xff642000 + (0x007 << 2)) +#define SEC_EE_AUDIO_PAD_CTRL0 (0xff642000 + (0x007 << 2)) +#define P_EE_AUDIO_PAD_CTRL0 (volatile uint32_t *)(0xff642000 + (0x007 << 2)) +#define EE_AUDIO_PAD_CTRL1 (0xff642000 + (0x008 << 2)) +#define SEC_EE_AUDIO_PAD_CTRL1 (0xff642000 + (0x008 << 2)) +#define P_EE_AUDIO_PAD_CTRL1 (volatile uint32_t *)(0xff642000 + (0x008 << 2)) +#define EE_AUDIO_SW_RESET (0xff642000 + (0x009 << 2)) +#define SEC_EE_AUDIO_SW_RESET (0xff642000 + (0x009 << 2)) +#define P_EE_AUDIO_SW_RESET (volatile uint32_t *)(0xff642000 + (0x009 << 2)) +#define EE_AUDIO_MST_A_SCLK_CTRL0 (0xff642000 + (0x010 << 2)) +#define SEC_EE_AUDIO_MST_A_SCLK_CTRL0 (0xff642000 + (0x010 << 2)) +#define P_EE_AUDIO_MST_A_SCLK_CTRL0 (volatile uint32_t *)(0xff642000 + (0x010 << 2)) +#define EE_AUDIO_MST_A_SCLK_CTRL1 (0xff642000 + (0x011 << 2)) +#define SEC_EE_AUDIO_MST_A_SCLK_CTRL1 (0xff642000 + (0x011 << 2)) +#define P_EE_AUDIO_MST_A_SCLK_CTRL1 (volatile uint32_t *)(0xff642000 + (0x011 << 2)) +#define EE_AUDIO_MST_B_SCLK_CTRL0 (0xff642000 + (0x012 << 2)) +#define SEC_EE_AUDIO_MST_B_SCLK_CTRL0 (0xff642000 + (0x012 << 2)) +#define P_EE_AUDIO_MST_B_SCLK_CTRL0 (volatile uint32_t *)(0xff642000 + (0x012 << 2)) +#define EE_AUDIO_MST_B_SCLK_CTRL1 (0xff642000 + (0x013 << 2)) +#define SEC_EE_AUDIO_MST_B_SCLK_CTRL1 (0xff642000 + (0x013 << 2)) +#define P_EE_AUDIO_MST_B_SCLK_CTRL1 (volatile uint32_t *)(0xff642000 + (0x013 << 2)) +#define EE_AUDIO_MST_C_SCLK_CTRL0 (0xff642000 + (0x014 << 2)) +#define SEC_EE_AUDIO_MST_C_SCLK_CTRL0 (0xff642000 + (0x014 << 2)) +#define P_EE_AUDIO_MST_C_SCLK_CTRL0 (volatile uint32_t *)(0xff642000 + (0x014 << 2)) +#define EE_AUDIO_MST_C_SCLK_CTRL1 (0xff642000 + (0x015 << 2)) +#define SEC_EE_AUDIO_MST_C_SCLK_CTRL1 (0xff642000 + (0x015 << 2)) +#define P_EE_AUDIO_MST_C_SCLK_CTRL1 (volatile uint32_t *)(0xff642000 + (0x015 << 2)) +#define EE_AUDIO_MST_D_SCLK_CTRL0 (0xff642000 + (0x016 << 2)) +#define SEC_EE_AUDIO_MST_D_SCLK_CTRL0 (0xff642000 + (0x016 << 2)) +#define P_EE_AUDIO_MST_D_SCLK_CTRL0 (volatile uint32_t *)(0xff642000 + (0x016 << 2)) +#define EE_AUDIO_MST_D_SCLK_CTRL1 (0xff642000 + (0x017 << 2)) +#define SEC_EE_AUDIO_MST_D_SCLK_CTRL1 (0xff642000 + (0x017 << 2)) +#define P_EE_AUDIO_MST_D_SCLK_CTRL1 (volatile uint32_t *)(0xff642000 + (0x017 << 2)) +#define EE_AUDIO_MST_E_SCLK_CTRL0 (0xff642000 + (0x018 << 2)) +#define SEC_EE_AUDIO_MST_E_SCLK_CTRL0 (0xff642000 + (0x018 << 2)) +#define P_EE_AUDIO_MST_E_SCLK_CTRL0 (volatile uint32_t *)(0xff642000 + (0x018 << 2)) +#define EE_AUDIO_MST_E_SCLK_CTRL1 (0xff642000 + (0x019 << 2)) +#define SEC_EE_AUDIO_MST_E_SCLK_CTRL1 (0xff642000 + (0x019 << 2)) +#define P_EE_AUDIO_MST_E_SCLK_CTRL1 (volatile uint32_t *)(0xff642000 + (0x019 << 2)) +#define EE_AUDIO_MST_F_SCLK_CTRL0 (0xff642000 + (0x01a << 2)) +#define SEC_EE_AUDIO_MST_F_SCLK_CTRL0 (0xff642000 + (0x01a << 2)) +#define P_EE_AUDIO_MST_F_SCLK_CTRL0 (volatile uint32_t *)(0xff642000 + (0x01a << 2)) +#define EE_AUDIO_MST_F_SCLK_CTRL1 (0xff642000 + (0x01b << 2)) +#define SEC_EE_AUDIO_MST_F_SCLK_CTRL1 (0xff642000 + (0x01b << 2)) +#define P_EE_AUDIO_MST_F_SCLK_CTRL1 (volatile uint32_t *)(0xff642000 + (0x01b << 2)) +#define EE_AUDIO_CLK_TDMIN_A_CTRL (0xff642000 + (0x020 << 2)) +#define SEC_EE_AUDIO_CLK_TDMIN_A_CTRL (0xff642000 + (0x020 << 2)) +#define P_EE_AUDIO_CLK_TDMIN_A_CTRL (volatile uint32_t *)(0xff642000 + (0x020 << 2)) +#define EE_AUDIO_CLK_TDMIN_B_CTRL (0xff642000 + (0x021 << 2)) +#define SEC_EE_AUDIO_CLK_TDMIN_B_CTRL (0xff642000 + (0x021 << 2)) +#define P_EE_AUDIO_CLK_TDMIN_B_CTRL (volatile uint32_t *)(0xff642000 + (0x021 << 2)) +#define EE_AUDIO_CLK_TDMIN_C_CTRL (0xff642000 + (0x022 << 2)) +#define SEC_EE_AUDIO_CLK_TDMIN_C_CTRL (0xff642000 + (0x022 << 2)) +#define P_EE_AUDIO_CLK_TDMIN_C_CTRL (volatile uint32_t *)(0xff642000 + (0x022 << 2)) +#define EE_AUDIO_CLK_TDMIN_LB_CTRL (0xff642000 + (0x023 << 2)) +#define SEC_EE_AUDIO_CLK_TDMIN_LB_CTRL (0xff642000 + (0x023 << 2)) +#define P_EE_AUDIO_CLK_TDMIN_LB_CTRL (volatile uint32_t *)(0xff642000 + (0x023 << 2)) +#define EE_AUDIO_CLK_TDMOUT_A_CTRL (0xff642000 + (0x024 << 2)) +#define SEC_EE_AUDIO_CLK_TDMOUT_A_CTRL (0xff642000 + (0x024 << 2)) +#define P_EE_AUDIO_CLK_TDMOUT_A_CTRL (volatile uint32_t *)(0xff642000 + (0x024 << 2)) +#define EE_AUDIO_CLK_TDMOUT_B_CTRL (0xff642000 + (0x025 << 2)) +#define SEC_EE_AUDIO_CLK_TDMOUT_B_CTRL (0xff642000 + (0x025 << 2)) +#define P_EE_AUDIO_CLK_TDMOUT_B_CTRL (volatile uint32_t *)(0xff642000 + (0x025 << 2)) +#define EE_AUDIO_CLK_TDMOUT_C_CTRL (0xff642000 + (0x026 << 2)) +#define SEC_EE_AUDIO_CLK_TDMOUT_C_CTRL (0xff642000 + (0x026 << 2)) +#define P_EE_AUDIO_CLK_TDMOUT_C_CTRL (volatile uint32_t *)(0xff642000 + (0x026 << 2)) +#define EE_AUDIO_CLK_SPDIFIN_CTRL (0xff642000 + (0x027 << 2)) +#define SEC_EE_AUDIO_CLK_SPDIFIN_CTRL (0xff642000 + (0x027 << 2)) +#define P_EE_AUDIO_CLK_SPDIFIN_CTRL (volatile uint32_t *)(0xff642000 + (0x027 << 2)) +#define EE_AUDIO_CLK_SPDIFOUT_CTRL (0xff642000 + (0x028 << 2)) +#define SEC_EE_AUDIO_CLK_SPDIFOUT_CTRL (0xff642000 + (0x028 << 2)) +#define P_EE_AUDIO_CLK_SPDIFOUT_CTRL (volatile uint32_t *)(0xff642000 + (0x028 << 2)) +#define EE_AUDIO_CLK_RESAMPLE_CTRL (0xff642000 + (0x029 << 2)) +#define SEC_EE_AUDIO_CLK_RESAMPLE_CTRL (0xff642000 + (0x029 << 2)) +#define P_EE_AUDIO_CLK_RESAMPLE_CTRL (volatile uint32_t *)(0xff642000 + (0x029 << 2)) +#define EE_AUDIO_CLK_LOCKER_CTRL (0xff642000 + (0x02a << 2)) +#define SEC_EE_AUDIO_CLK_LOCKER_CTRL (0xff642000 + (0x02a << 2)) +#define P_EE_AUDIO_CLK_LOCKER_CTRL (volatile uint32_t *)(0xff642000 + (0x02a << 2)) +#define EE_AUDIO_CLK_PDMIN_CTRL0 (0xff642000 + (0x02b << 2)) +#define SEC_EE_AUDIO_CLK_PDMIN_CTRL0 (0xff642000 + (0x02b << 2)) +#define P_EE_AUDIO_CLK_PDMIN_CTRL0 (volatile uint32_t *)(0xff642000 + (0x02b << 2)) +#define EE_AUDIO_CLK_PDMIN_CTRL1 (0xff642000 + (0x02c << 2)) +#define SEC_EE_AUDIO_CLK_PDMIN_CTRL1 (0xff642000 + (0x02c << 2)) +#define P_EE_AUDIO_CLK_PDMIN_CTRL1 (volatile uint32_t *)(0xff642000 + (0x02c << 2)) +#define EE_AUDIO_CLK_SPDIFOUT_B_CTRL (0xff642000 + (0x02d << 2)) +#define SEC_EE_AUDIO_CLK_SPDIFOUT_B_CTRL (0xff642000 + (0x02d << 2)) +#define P_EE_AUDIO_CLK_SPDIFOUT_B_CTRL (volatile uint32_t *)(0xff642000 + (0x02d << 2)) +#define EE_AUDIO_TODDR_A_CTRL0 (0xff642000 + (0x040 << 2)) +#define SEC_EE_AUDIO_TODDR_A_CTRL0 (0xff642000 + (0x040 << 2)) +#define P_EE_AUDIO_TODDR_A_CTRL0 (volatile uint32_t *)(0xff642000 + (0x040 << 2)) +#define EE_AUDIO_TODDR_A_CTRL1 (0xff642000 + (0x041 << 2)) +#define SEC_EE_AUDIO_TODDR_A_CTRL1 (0xff642000 + (0x041 << 2)) +#define P_EE_AUDIO_TODDR_A_CTRL1 (volatile uint32_t *)(0xff642000 + (0x041 << 2)) +#define EE_AUDIO_TODDR_A_START_ADDR (0xff642000 + (0x042 << 2)) +#define SEC_EE_AUDIO_TODDR_A_START_ADDR (0xff642000 + (0x042 << 2)) +#define P_EE_AUDIO_TODDR_A_START_ADDR (volatile uint32_t *)(0xff642000 + (0x042 << 2)) +#define EE_AUDIO_TODDR_A_FINISH_ADDR (0xff642000 + (0x043 << 2)) +#define SEC_EE_AUDIO_TODDR_A_FINISH_ADDR (0xff642000 + (0x043 << 2)) +#define P_EE_AUDIO_TODDR_A_FINISH_ADDR (volatile uint32_t *)(0xff642000 + (0x043 << 2)) +#define EE_AUDIO_TODDR_A_INT_ADDR (0xff642000 + (0x044 << 2)) +#define SEC_EE_AUDIO_TODDR_A_INT_ADDR (0xff642000 + (0x044 << 2)) +#define P_EE_AUDIO_TODDR_A_INT_ADDR (volatile uint32_t *)(0xff642000 + (0x044 << 2)) +#define EE_AUDIO_TODDR_A_STATUS1 (0xff642000 + (0x045 << 2)) +#define SEC_EE_AUDIO_TODDR_A_STATUS1 (0xff642000 + (0x045 << 2)) +#define P_EE_AUDIO_TODDR_A_STATUS1 (volatile uint32_t *)(0xff642000 + (0x045 << 2)) +#define EE_AUDIO_TODDR_A_STATUS2 (0xff642000 + (0x046 << 2)) +#define SEC_EE_AUDIO_TODDR_A_STATUS2 (0xff642000 + (0x046 << 2)) +#define P_EE_AUDIO_TODDR_A_STATUS2 (volatile uint32_t *)(0xff642000 + (0x046 << 2)) +#define EE_AUDIO_TODDR_A_START_ADDRB (0xff642000 + (0x047 << 2)) +#define SEC_EE_AUDIO_TODDR_A_START_ADDRB (0xff642000 + (0x047 << 2)) +#define P_EE_AUDIO_TODDR_A_START_ADDRB (volatile uint32_t *)(0xff642000 + (0x047 << 2)) +#define EE_AUDIO_TODDR_A_FINISH_ADDRB (0xff642000 + (0x048 << 2)) +#define SEC_EE_AUDIO_TODDR_A_FINISH_ADDRB (0xff642000 + (0x048 << 2)) +#define P_EE_AUDIO_TODDR_A_FINISH_ADDRB (volatile uint32_t *)(0xff642000 + (0x048 << 2)) +#define EE_AUDIO_TODDR_A_INIT_ADDR (0xff642000 + (0x049 << 2)) +#define SEC_EE_AUDIO_TODDR_A_INIT_ADDR (0xff642000 + (0x049 << 2)) +#define P_EE_AUDIO_TODDR_A_INIT_ADDR (volatile uint32_t *)(0xff642000 + (0x049 << 2)) +#define EE_AUDIO_TODDR_B_CTRL0 (0xff642000 + (0x050 << 2)) +#define SEC_EE_AUDIO_TODDR_B_CTRL0 (0xff642000 + (0x050 << 2)) +#define P_EE_AUDIO_TODDR_B_CTRL0 (volatile uint32_t *)(0xff642000 + (0x050 << 2)) +#define EE_AUDIO_TODDR_B_CTRL1 (0xff642000 + (0x051 << 2)) +#define SEC_EE_AUDIO_TODDR_B_CTRL1 (0xff642000 + (0x051 << 2)) +#define P_EE_AUDIO_TODDR_B_CTRL1 (volatile uint32_t *)(0xff642000 + (0x051 << 2)) +#define EE_AUDIO_TODDR_B_START_ADDR (0xff642000 + (0x052 << 2)) +#define SEC_EE_AUDIO_TODDR_B_START_ADDR (0xff642000 + (0x052 << 2)) +#define P_EE_AUDIO_TODDR_B_START_ADDR (volatile uint32_t *)(0xff642000 + (0x052 << 2)) +#define EE_AUDIO_TODDR_B_FINISH_ADDR (0xff642000 + (0x053 << 2)) +#define SEC_EE_AUDIO_TODDR_B_FINISH_ADDR (0xff642000 + (0x053 << 2)) +#define P_EE_AUDIO_TODDR_B_FINISH_ADDR (volatile uint32_t *)(0xff642000 + (0x053 << 2)) +#define EE_AUDIO_TODDR_B_INT_ADDR (0xff642000 + (0x054 << 2)) +#define SEC_EE_AUDIO_TODDR_B_INT_ADDR (0xff642000 + (0x054 << 2)) +#define P_EE_AUDIO_TODDR_B_INT_ADDR (volatile uint32_t *)(0xff642000 + (0x054 << 2)) +#define EE_AUDIO_TODDR_B_STATUS1 (0xff642000 + (0x055 << 2)) +#define SEC_EE_AUDIO_TODDR_B_STATUS1 (0xff642000 + (0x055 << 2)) +#define P_EE_AUDIO_TODDR_B_STATUS1 (volatile uint32_t *)(0xff642000 + (0x055 << 2)) +#define EE_AUDIO_TODDR_B_STATUS2 (0xff642000 + (0x056 << 2)) +#define SEC_EE_AUDIO_TODDR_B_STATUS2 (0xff642000 + (0x056 << 2)) +#define P_EE_AUDIO_TODDR_B_STATUS2 (volatile uint32_t *)(0xff642000 + (0x056 << 2)) +#define EE_AUDIO_TODDR_B_START_ADDRB (0xff642000 + (0x057 << 2)) +#define SEC_EE_AUDIO_TODDR_B_START_ADDRB (0xff642000 + (0x057 << 2)) +#define P_EE_AUDIO_TODDR_B_START_ADDRB (volatile uint32_t *)(0xff642000 + (0x057 << 2)) +#define EE_AUDIO_TODDR_B_FINISH_ADDRB (0xff642000 + (0x058 << 2)) +#define SEC_EE_AUDIO_TODDR_B_FINISH_ADDRB (0xff642000 + (0x058 << 2)) +#define P_EE_AUDIO_TODDR_B_FINISH_ADDRB (volatile uint32_t *)(0xff642000 + (0x058 << 2)) +#define EE_AUDIO_TODDR_B_INIT_ADDR (0xff642000 + (0x059 << 2)) +#define SEC_EE_AUDIO_TODDR_B_INIT_ADDR (0xff642000 + (0x059 << 2)) +#define P_EE_AUDIO_TODDR_B_INIT_ADDR (volatile uint32_t *)(0xff642000 + (0x059 << 2)) +#define EE_AUDIO_TODDR_C_CTRL0 (0xff642000 + (0x060 << 2)) +#define SEC_EE_AUDIO_TODDR_C_CTRL0 (0xff642000 + (0x060 << 2)) +#define P_EE_AUDIO_TODDR_C_CTRL0 (volatile uint32_t *)(0xff642000 + (0x060 << 2)) +#define EE_AUDIO_TODDR_C_CTRL1 (0xff642000 + (0x061 << 2)) +#define SEC_EE_AUDIO_TODDR_C_CTRL1 (0xff642000 + (0x061 << 2)) +#define P_EE_AUDIO_TODDR_C_CTRL1 (volatile uint32_t *)(0xff642000 + (0x061 << 2)) +#define EE_AUDIO_TODDR_C_START_ADDR (0xff642000 + (0x062 << 2)) +#define SEC_EE_AUDIO_TODDR_C_START_ADDR (0xff642000 + (0x062 << 2)) +#define P_EE_AUDIO_TODDR_C_START_ADDR (volatile uint32_t *)(0xff642000 + (0x062 << 2)) +#define EE_AUDIO_TODDR_C_FINISH_ADDR (0xff642000 + (0x063 << 2)) +#define SEC_EE_AUDIO_TODDR_C_FINISH_ADDR (0xff642000 + (0x063 << 2)) +#define P_EE_AUDIO_TODDR_C_FINISH_ADDR (volatile uint32_t *)(0xff642000 + (0x063 << 2)) +#define EE_AUDIO_TODDR_C_INT_ADDR (0xff642000 + (0x064 << 2)) +#define SEC_EE_AUDIO_TODDR_C_INT_ADDR (0xff642000 + (0x064 << 2)) +#define P_EE_AUDIO_TODDR_C_INT_ADDR (volatile uint32_t *)(0xff642000 + (0x064 << 2)) +#define EE_AUDIO_TODDR_C_STATUS1 (0xff642000 + (0x065 << 2)) +#define SEC_EE_AUDIO_TODDR_C_STATUS1 (0xff642000 + (0x065 << 2)) +#define P_EE_AUDIO_TODDR_C_STATUS1 (volatile uint32_t *)(0xff642000 + (0x065 << 2)) +#define EE_AUDIO_TODDR_C_STATUS2 (0xff642000 + (0x066 << 2)) +#define SEC_EE_AUDIO_TODDR_C_STATUS2 (0xff642000 + (0x066 << 2)) +#define P_EE_AUDIO_TODDR_C_STATUS2 (volatile uint32_t *)(0xff642000 + (0x066 << 2)) +#define EE_AUDIO_TODDR_C_START_ADDRB (0xff642000 + (0x067 << 2)) +#define SEC_EE_AUDIO_TODDR_C_START_ADDRB (0xff642000 + (0x067 << 2)) +#define P_EE_AUDIO_TODDR_C_START_ADDRB (volatile uint32_t *)(0xff642000 + (0x067 << 2)) +#define EE_AUDIO_TODDR_C_FINISH_ADDRB (0xff642000 + (0x068 << 2)) +#define SEC_EE_AUDIO_TODDR_C_FINISH_ADDRB (0xff642000 + (0x068 << 2)) +#define P_EE_AUDIO_TODDR_C_FINISH_ADDRB (volatile uint32_t *)(0xff642000 + (0x068 << 2)) +#define EE_AUDIO_TODDR_C_INIT_ADDR (0xff642000 + (0x069 << 2)) +#define SEC_EE_AUDIO_TODDR_C_INIT_ADDR (0xff642000 + (0x069 << 2)) +#define P_EE_AUDIO_TODDR_C_INIT_ADDR (volatile uint32_t *)(0xff642000 + (0x069 << 2)) +#define EE_AUDIO_FRDDR_A_CTRL0 (0xff642000 + (0x070 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_CTRL0 (0xff642000 + (0x070 << 2)) +#define P_EE_AUDIO_FRDDR_A_CTRL0 (volatile uint32_t *)(0xff642000 + (0x070 << 2)) +#define EE_AUDIO_FRDDR_A_CTRL1 (0xff642000 + (0x071 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_CTRL1 (0xff642000 + (0x071 << 2)) +#define P_EE_AUDIO_FRDDR_A_CTRL1 (volatile uint32_t *)(0xff642000 + (0x071 << 2)) +#define EE_AUDIO_FRDDR_A_START_ADDR (0xff642000 + (0x072 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_START_ADDR (0xff642000 + (0x072 << 2)) +#define P_EE_AUDIO_FRDDR_A_START_ADDR (volatile uint32_t *)(0xff642000 + (0x072 << 2)) +#define EE_AUDIO_FRDDR_A_FINISH_ADDR (0xff642000 + (0x073 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_FINISH_ADDR (0xff642000 + (0x073 << 2)) +#define P_EE_AUDIO_FRDDR_A_FINISH_ADDR (volatile uint32_t *)(0xff642000 + (0x073 << 2)) +#define EE_AUDIO_FRDDR_A_INT_ADDR (0xff642000 + (0x074 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_INT_ADDR (0xff642000 + (0x074 << 2)) +#define P_EE_AUDIO_FRDDR_A_INT_ADDR (volatile uint32_t *)(0xff642000 + (0x074 << 2)) +#define EE_AUDIO_FRDDR_A_STATUS1 (0xff642000 + (0x075 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_STATUS1 (0xff642000 + (0x075 << 2)) +#define P_EE_AUDIO_FRDDR_A_STATUS1 (volatile uint32_t *)(0xff642000 + (0x075 << 2)) +#define EE_AUDIO_FRDDR_A_STATUS2 (0xff642000 + (0x076 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_STATUS2 (0xff642000 + (0x076 << 2)) +#define P_EE_AUDIO_FRDDR_A_STATUS2 (volatile uint32_t *)(0xff642000 + (0x076 << 2)) +#define EE_AUDIO_FRDDR_A_START_ADDRB (0xff642000 + (0x077 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_START_ADDRB (0xff642000 + (0x077 << 2)) +#define P_EE_AUDIO_FRDDR_A_START_ADDRB (volatile uint32_t *)(0xff642000 + (0x077 << 2)) +#define EE_AUDIO_FRDDR_A_FINISH_ADDRB (0xff642000 + (0x078 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_FINISH_ADDRB (0xff642000 + (0x078 << 2)) +#define P_EE_AUDIO_FRDDR_A_FINISH_ADDRB (volatile uint32_t *)(0xff642000 + (0x078 << 2)) +#define EE_AUDIO_FRDDR_A_INIT_ADDR (0xff642000 + (0x079 << 2)) +#define SEC_EE_AUDIO_FRDDR_A_INIT_ADDR (0xff642000 + (0x079 << 2)) +#define P_EE_AUDIO_FRDDR_A_INIT_ADDR (volatile uint32_t *)(0xff642000 + (0x079 << 2)) +#define EE_AUDIO_FRDDR_B_CTRL0 (0xff642000 + (0x080 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_CTRL0 (0xff642000 + (0x080 << 2)) +#define P_EE_AUDIO_FRDDR_B_CTRL0 (volatile uint32_t *)(0xff642000 + (0x080 << 2)) +#define EE_AUDIO_FRDDR_B_CTRL1 (0xff642000 + (0x081 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_CTRL1 (0xff642000 + (0x081 << 2)) +#define P_EE_AUDIO_FRDDR_B_CTRL1 (volatile uint32_t *)(0xff642000 + (0x081 << 2)) +#define EE_AUDIO_FRDDR_B_START_ADDR (0xff642000 + (0x082 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_START_ADDR (0xff642000 + (0x082 << 2)) +#define P_EE_AUDIO_FRDDR_B_START_ADDR (volatile uint32_t *)(0xff642000 + (0x082 << 2)) +#define EE_AUDIO_FRDDR_B_FINISH_ADDR (0xff642000 + (0x083 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_FINISH_ADDR (0xff642000 + (0x083 << 2)) +#define P_EE_AUDIO_FRDDR_B_FINISH_ADDR (volatile uint32_t *)(0xff642000 + (0x083 << 2)) +#define EE_AUDIO_FRDDR_B_INT_ADDR (0xff642000 + (0x084 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_INT_ADDR (0xff642000 + (0x084 << 2)) +#define P_EE_AUDIO_FRDDR_B_INT_ADDR (volatile uint32_t *)(0xff642000 + (0x084 << 2)) +#define EE_AUDIO_FRDDR_B_STATUS1 (0xff642000 + (0x085 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_STATUS1 (0xff642000 + (0x085 << 2)) +#define P_EE_AUDIO_FRDDR_B_STATUS1 (volatile uint32_t *)(0xff642000 + (0x085 << 2)) +#define EE_AUDIO_FRDDR_B_STATUS2 (0xff642000 + (0x086 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_STATUS2 (0xff642000 + (0x086 << 2)) +#define P_EE_AUDIO_FRDDR_B_STATUS2 (volatile uint32_t *)(0xff642000 + (0x086 << 2)) +#define EE_AUDIO_FRDDR_B_START_ADDRB (0xff642000 + (0x087 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_START_ADDRB (0xff642000 + (0x087 << 2)) +#define P_EE_AUDIO_FRDDR_B_START_ADDRB (volatile uint32_t *)(0xff642000 + (0x087 << 2)) +#define EE_AUDIO_FRDDR_B_FINISH_ADDRB (0xff642000 + (0x088 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_FINISH_ADDRB (0xff642000 + (0x088 << 2)) +#define P_EE_AUDIO_FRDDR_B_FINISH_ADDRB (volatile uint32_t *)(0xff642000 + (0x088 << 2)) +#define EE_AUDIO_FRDDR_B_INIT_ADDR (0xff642000 + (0x089 << 2)) +#define SEC_EE_AUDIO_FRDDR_B_INIT_ADDR (0xff642000 + (0x089 << 2)) +#define P_EE_AUDIO_FRDDR_B_INIT_ADDR (volatile uint32_t *)(0xff642000 + (0x089 << 2)) +#define EE_AUDIO_FRDDR_C_CTRL0 (0xff642000 + (0x090 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_CTRL0 (0xff642000 + (0x090 << 2)) +#define P_EE_AUDIO_FRDDR_C_CTRL0 (volatile uint32_t *)(0xff642000 + (0x090 << 2)) +#define EE_AUDIO_FRDDR_C_CTRL1 (0xff642000 + (0x091 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_CTRL1 (0xff642000 + (0x091 << 2)) +#define P_EE_AUDIO_FRDDR_C_CTRL1 (volatile uint32_t *)(0xff642000 + (0x091 << 2)) +#define EE_AUDIO_FRDDR_C_START_ADDR (0xff642000 + (0x092 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_START_ADDR (0xff642000 + (0x092 << 2)) +#define P_EE_AUDIO_FRDDR_C_START_ADDR (volatile uint32_t *)(0xff642000 + (0x092 << 2)) +#define EE_AUDIO_FRDDR_C_FINISH_ADDR (0xff642000 + (0x093 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_FINISH_ADDR (0xff642000 + (0x093 << 2)) +#define P_EE_AUDIO_FRDDR_C_FINISH_ADDR (volatile uint32_t *)(0xff642000 + (0x093 << 2)) +#define EE_AUDIO_FRDDR_C_INT_ADDR (0xff642000 + (0x094 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_INT_ADDR (0xff642000 + (0x094 << 2)) +#define P_EE_AUDIO_FRDDR_C_INT_ADDR (volatile uint32_t *)(0xff642000 + (0x094 << 2)) +#define EE_AUDIO_FRDDR_C_STATUS1 (0xff642000 + (0x095 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_STATUS1 (0xff642000 + (0x095 << 2)) +#define P_EE_AUDIO_FRDDR_C_STATUS1 (volatile uint32_t *)(0xff642000 + (0x095 << 2)) +#define EE_AUDIO_FRDDR_C_STATUS2 (0xff642000 + (0x096 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_STATUS2 (0xff642000 + (0x096 << 2)) +#define P_EE_AUDIO_FRDDR_C_STATUS2 (volatile uint32_t *)(0xff642000 + (0x096 << 2)) +#define EE_AUDIO_FRDDR_C_START_ADDRB (0xff642000 + (0x097 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_START_ADDRB (0xff642000 + (0x097 << 2)) +#define P_EE_AUDIO_FRDDR_C_START_ADDRB (volatile uint32_t *)(0xff642000 + (0x097 << 2)) +#define EE_AUDIO_FRDDR_C_FINISH_ADDRB (0xff642000 + (0x098 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_FINISH_ADDRB (0xff642000 + (0x098 << 2)) +#define P_EE_AUDIO_FRDDR_C_FINISH_ADDRB (volatile uint32_t *)(0xff642000 + (0x098 << 2)) +#define EE_AUDIO_FRDDR_C_INIT_ADDR (0xff642000 + (0x099 << 2)) +#define SEC_EE_AUDIO_FRDDR_C_INIT_ADDR (0xff642000 + (0x099 << 2)) +#define P_EE_AUDIO_FRDDR_C_INIT_ADDR (volatile uint32_t *)(0xff642000 + (0x099 << 2)) +#define EE_AUDIO_ARB_CTRL (0xff642000 + (0x0a0 << 2)) +#define SEC_EE_AUDIO_ARB_CTRL (0xff642000 + (0x0a0 << 2)) +#define P_EE_AUDIO_ARB_CTRL (volatile uint32_t *)(0xff642000 + (0x0a0 << 2)) +#define EE_AUDIO_LB_CTRL0 (0xff642000 + (0x0b0 << 2)) +#define SEC_EE_AUDIO_LB_CTRL0 (0xff642000 + (0x0b0 << 2)) +#define P_EE_AUDIO_LB_CTRL0 (volatile uint32_t *)(0xff642000 + (0x0b0 << 2)) +#define EE_AUDIO_LB_CTRL1 (0xff642000 + (0x0b1 << 2)) +#define SEC_EE_AUDIO_LB_CTRL1 (0xff642000 + (0x0b1 << 2)) +#define P_EE_AUDIO_LB_CTRL1 (volatile uint32_t *)(0xff642000 + (0x0b1 << 2)) +#define EE_AUDIO_LB_DAT_CH_ID0 (0xff642000 + (0x0b2 << 2)) +#define SEC_EE_AUDIO_LB_DAT_CH_ID0 (0xff642000 + (0x0b2 << 2)) +#define P_EE_AUDIO_LB_DAT_CH_ID0 (volatile uint32_t *)(0xff642000 + (0x0b2 << 2)) +#define EE_AUDIO_LB_DAT_CH_ID1 (0xff642000 + (0x0b3 << 2)) +#define SEC_EE_AUDIO_LB_DAT_CH_ID1 (0xff642000 + (0x0b3 << 2)) +#define P_EE_AUDIO_LB_DAT_CH_ID1 (volatile uint32_t *)(0xff642000 + (0x0b3 << 2)) +#define EE_AUDIO_LB_LB_CH_ID0 (0xff642000 + (0x0b4 << 2)) +#define SEC_EE_AUDIO_LB_LB_CH_ID0 (0xff642000 + (0x0b4 << 2)) +#define P_EE_AUDIO_LB_LB_CH_ID0 (volatile uint32_t *)(0xff642000 + (0x0b4 << 2)) +#define EE_AUDIO_LB_LB_CH_ID1 (0xff642000 + (0x0b5 << 2)) +#define SEC_EE_AUDIO_LB_LB_CH_ID1 (0xff642000 + (0x0b5 << 2)) +#define P_EE_AUDIO_LB_LB_CH_ID1 (volatile uint32_t *)(0xff642000 + (0x0b5 << 2)) +#define EE_AUDIO_LB_STS (0xff642000 + (0x0b6 << 2)) +#define SEC_EE_AUDIO_LB_STS (0xff642000 + (0x0b6 << 2)) +#define P_EE_AUDIO_LB_STS (volatile uint32_t *)(0xff642000 + (0x0b6 << 2)) +#define EE_AUDIO_TDMIN_A_CTRL (0xff642000 + (0x0c0 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_CTRL (0xff642000 + (0x0c0 << 2)) +#define P_EE_AUDIO_TDMIN_A_CTRL (volatile uint32_t *)(0xff642000 + (0x0c0 << 2)) +#define EE_AUDIO_TDMIN_A_SWAP (0xff642000 + (0x0c1 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_SWAP (0xff642000 + (0x0c1 << 2)) +#define P_EE_AUDIO_TDMIN_A_SWAP (volatile uint32_t *)(0xff642000 + (0x0c1 << 2)) +#define EE_AUDIO_TDMIN_A_MASK0 (0xff642000 + (0x0c2 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MASK0 (0xff642000 + (0x0c2 << 2)) +#define P_EE_AUDIO_TDMIN_A_MASK0 (volatile uint32_t *)(0xff642000 + (0x0c2 << 2)) +#define EE_AUDIO_TDMIN_A_MASK1 (0xff642000 + (0x0c3 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MASK1 (0xff642000 + (0x0c3 << 2)) +#define P_EE_AUDIO_TDMIN_A_MASK1 (volatile uint32_t *)(0xff642000 + (0x0c3 << 2)) +#define EE_AUDIO_TDMIN_A_MASK2 (0xff642000 + (0x0c4 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MASK2 (0xff642000 + (0x0c4 << 2)) +#define P_EE_AUDIO_TDMIN_A_MASK2 (volatile uint32_t *)(0xff642000 + (0x0c4 << 2)) +#define EE_AUDIO_TDMIN_A_MASK3 (0xff642000 + (0x0c5 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MASK3 (0xff642000 + (0x0c5 << 2)) +#define P_EE_AUDIO_TDMIN_A_MASK3 (volatile uint32_t *)(0xff642000 + (0x0c5 << 2)) +#define EE_AUDIO_TDMIN_A_STAT (0xff642000 + (0x0c6 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_STAT (0xff642000 + (0x0c6 << 2)) +#define P_EE_AUDIO_TDMIN_A_STAT (volatile uint32_t *)(0xff642000 + (0x0c6 << 2)) +#define EE_AUDIO_TDMIN_A_MUTE_VAL (0xff642000 + (0x0c7 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MUTE_VAL (0xff642000 + (0x0c7 << 2)) +#define P_EE_AUDIO_TDMIN_A_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x0c7 << 2)) +#define EE_AUDIO_TDMIN_A_MUTE0 (0xff642000 + (0x0c8 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MUTE0 (0xff642000 + (0x0c8 << 2)) +#define P_EE_AUDIO_TDMIN_A_MUTE0 (volatile uint32_t *)(0xff642000 + (0x0c8 << 2)) +#define EE_AUDIO_TDMIN_A_MUTE1 (0xff642000 + (0x0c9 << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MUTE1 (0xff642000 + (0x0c9 << 2)) +#define P_EE_AUDIO_TDMIN_A_MUTE1 (volatile uint32_t *)(0xff642000 + (0x0c9 << 2)) +#define EE_AUDIO_TDMIN_A_MUTE2 (0xff642000 + (0x0ca << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MUTE2 (0xff642000 + (0x0ca << 2)) +#define P_EE_AUDIO_TDMIN_A_MUTE2 (volatile uint32_t *)(0xff642000 + (0x0ca << 2)) +#define EE_AUDIO_TDMIN_A_MUTE3 (0xff642000 + (0x0cb << 2)) +#define SEC_EE_AUDIO_TDMIN_A_MUTE3 (0xff642000 + (0x0cb << 2)) +#define P_EE_AUDIO_TDMIN_A_MUTE3 (volatile uint32_t *)(0xff642000 + (0x0cb << 2)) +#define EE_AUDIO_TDMIN_B_CTRL (0xff642000 + (0x0d0 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_CTRL (0xff642000 + (0x0d0 << 2)) +#define P_EE_AUDIO_TDMIN_B_CTRL (volatile uint32_t *)(0xff642000 + (0x0d0 << 2)) +#define EE_AUDIO_TDMIN_B_SWAP (0xff642000 + (0x0d1 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_SWAP (0xff642000 + (0x0d1 << 2)) +#define P_EE_AUDIO_TDMIN_B_SWAP (volatile uint32_t *)(0xff642000 + (0x0d1 << 2)) +#define EE_AUDIO_TDMIN_B_MASK0 (0xff642000 + (0x0d2 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MASK0 (0xff642000 + (0x0d2 << 2)) +#define P_EE_AUDIO_TDMIN_B_MASK0 (volatile uint32_t *)(0xff642000 + (0x0d2 << 2)) +#define EE_AUDIO_TDMIN_B_MASK1 (0xff642000 + (0x0d3 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MASK1 (0xff642000 + (0x0d3 << 2)) +#define P_EE_AUDIO_TDMIN_B_MASK1 (volatile uint32_t *)(0xff642000 + (0x0d3 << 2)) +#define EE_AUDIO_TDMIN_B_MASK2 (0xff642000 + (0x0d4 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MASK2 (0xff642000 + (0x0d4 << 2)) +#define P_EE_AUDIO_TDMIN_B_MASK2 (volatile uint32_t *)(0xff642000 + (0x0d4 << 2)) +#define EE_AUDIO_TDMIN_B_MASK3 (0xff642000 + (0x0d5 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MASK3 (0xff642000 + (0x0d5 << 2)) +#define P_EE_AUDIO_TDMIN_B_MASK3 (volatile uint32_t *)(0xff642000 + (0x0d5 << 2)) +#define EE_AUDIO_TDMIN_B_STAT (0xff642000 + (0x0d6 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_STAT (0xff642000 + (0x0d6 << 2)) +#define P_EE_AUDIO_TDMIN_B_STAT (volatile uint32_t *)(0xff642000 + (0x0d6 << 2)) +#define EE_AUDIO_TDMIN_B_MUTE_VAL (0xff642000 + (0x0d7 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MUTE_VAL (0xff642000 + (0x0d7 << 2)) +#define P_EE_AUDIO_TDMIN_B_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x0d7 << 2)) +#define EE_AUDIO_TDMIN_B_MUTE0 (0xff642000 + (0x0d8 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MUTE0 (0xff642000 + (0x0d8 << 2)) +#define P_EE_AUDIO_TDMIN_B_MUTE0 (volatile uint32_t *)(0xff642000 + (0x0d8 << 2)) +#define EE_AUDIO_TDMIN_B_MUTE1 (0xff642000 + (0x0d9 << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MUTE1 (0xff642000 + (0x0d9 << 2)) +#define P_EE_AUDIO_TDMIN_B_MUTE1 (volatile uint32_t *)(0xff642000 + (0x0d9 << 2)) +#define EE_AUDIO_TDMIN_B_MUTE2 (0xff642000 + (0x0da << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MUTE2 (0xff642000 + (0x0da << 2)) +#define P_EE_AUDIO_TDMIN_B_MUTE2 (volatile uint32_t *)(0xff642000 + (0x0da << 2)) +#define EE_AUDIO_TDMIN_B_MUTE3 (0xff642000 + (0x0db << 2)) +#define SEC_EE_AUDIO_TDMIN_B_MUTE3 (0xff642000 + (0x0db << 2)) +#define P_EE_AUDIO_TDMIN_B_MUTE3 (volatile uint32_t *)(0xff642000 + (0x0db << 2)) +#define EE_AUDIO_TDMIN_C_CTRL (0xff642000 + (0x0e0 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_CTRL (0xff642000 + (0x0e0 << 2)) +#define P_EE_AUDIO_TDMIN_C_CTRL (volatile uint32_t *)(0xff642000 + (0x0e0 << 2)) +#define EE_AUDIO_TDMIN_C_SWAP (0xff642000 + (0x0e1 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_SWAP (0xff642000 + (0x0e1 << 2)) +#define P_EE_AUDIO_TDMIN_C_SWAP (volatile uint32_t *)(0xff642000 + (0x0e1 << 2)) +#define EE_AUDIO_TDMIN_C_MASK0 (0xff642000 + (0x0e2 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MASK0 (0xff642000 + (0x0e2 << 2)) +#define P_EE_AUDIO_TDMIN_C_MASK0 (volatile uint32_t *)(0xff642000 + (0x0e2 << 2)) +#define EE_AUDIO_TDMIN_C_MASK1 (0xff642000 + (0x0e3 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MASK1 (0xff642000 + (0x0e3 << 2)) +#define P_EE_AUDIO_TDMIN_C_MASK1 (volatile uint32_t *)(0xff642000 + (0x0e3 << 2)) +#define EE_AUDIO_TDMIN_C_MASK2 (0xff642000 + (0x0e4 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MASK2 (0xff642000 + (0x0e4 << 2)) +#define P_EE_AUDIO_TDMIN_C_MASK2 (volatile uint32_t *)(0xff642000 + (0x0e4 << 2)) +#define EE_AUDIO_TDMIN_C_MASK3 (0xff642000 + (0x0e5 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MASK3 (0xff642000 + (0x0e5 << 2)) +#define P_EE_AUDIO_TDMIN_C_MASK3 (volatile uint32_t *)(0xff642000 + (0x0e5 << 2)) +#define EE_AUDIO_TDMIN_C_STAT (0xff642000 + (0x0e6 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_STAT (0xff642000 + (0x0e6 << 2)) +#define P_EE_AUDIO_TDMIN_C_STAT (volatile uint32_t *)(0xff642000 + (0x0e6 << 2)) +#define EE_AUDIO_TDMIN_C_MUTE_VAL (0xff642000 + (0x0e7 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MUTE_VAL (0xff642000 + (0x0e7 << 2)) +#define P_EE_AUDIO_TDMIN_C_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x0e7 << 2)) +#define EE_AUDIO_TDMIN_C_MUTE0 (0xff642000 + (0x0e8 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MUTE0 (0xff642000 + (0x0e8 << 2)) +#define P_EE_AUDIO_TDMIN_C_MUTE0 (volatile uint32_t *)(0xff642000 + (0x0e8 << 2)) +#define EE_AUDIO_TDMIN_C_MUTE1 (0xff642000 + (0x0e9 << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MUTE1 (0xff642000 + (0x0e9 << 2)) +#define P_EE_AUDIO_TDMIN_C_MUTE1 (volatile uint32_t *)(0xff642000 + (0x0e9 << 2)) +#define EE_AUDIO_TDMIN_C_MUTE2 (0xff642000 + (0x0ea << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MUTE2 (0xff642000 + (0x0ea << 2)) +#define P_EE_AUDIO_TDMIN_C_MUTE2 (volatile uint32_t *)(0xff642000 + (0x0ea << 2)) +#define EE_AUDIO_TDMIN_C_MUTE3 (0xff642000 + (0x0eb << 2)) +#define SEC_EE_AUDIO_TDMIN_C_MUTE3 (0xff642000 + (0x0eb << 2)) +#define P_EE_AUDIO_TDMIN_C_MUTE3 (volatile uint32_t *)(0xff642000 + (0x0eb << 2)) +#define EE_AUDIO_TDMIN_LB_CTRL (0xff642000 + (0x0f0 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_CTRL (0xff642000 + (0x0f0 << 2)) +#define P_EE_AUDIO_TDMIN_LB_CTRL (volatile uint32_t *)(0xff642000 + (0x0f0 << 2)) +#define EE_AUDIO_TDMIN_LB_SWAP (0xff642000 + (0x0f1 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_SWAP (0xff642000 + (0x0f1 << 2)) +#define P_EE_AUDIO_TDMIN_LB_SWAP (volatile uint32_t *)(0xff642000 + (0x0f1 << 2)) +#define EE_AUDIO_TDMIN_LB_MASK0 (0xff642000 + (0x0f2 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MASK0 (0xff642000 + (0x0f2 << 2)) +#define P_EE_AUDIO_TDMIN_LB_MASK0 (volatile uint32_t *)(0xff642000 + (0x0f2 << 2)) +#define EE_AUDIO_TDMIN_LB_MASK1 (0xff642000 + (0x0f3 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MASK1 (0xff642000 + (0x0f3 << 2)) +#define P_EE_AUDIO_TDMIN_LB_MASK1 (volatile uint32_t *)(0xff642000 + (0x0f3 << 2)) +#define EE_AUDIO_TDMIN_LB_MASK2 (0xff642000 + (0x0f4 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MASK2 (0xff642000 + (0x0f4 << 2)) +#define P_EE_AUDIO_TDMIN_LB_MASK2 (volatile uint32_t *)(0xff642000 + (0x0f4 << 2)) +#define EE_AUDIO_TDMIN_LB_MASK3 (0xff642000 + (0x0f5 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MASK3 (0xff642000 + (0x0f5 << 2)) +#define P_EE_AUDIO_TDMIN_LB_MASK3 (volatile uint32_t *)(0xff642000 + (0x0f5 << 2)) +#define EE_AUDIO_TDMIN_LB_STAT (0xff642000 + (0x0f6 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_STAT (0xff642000 + (0x0f6 << 2)) +#define P_EE_AUDIO_TDMIN_LB_STAT (volatile uint32_t *)(0xff642000 + (0x0f6 << 2)) +#define EE_AUDIO_TDMIN_LB_MUTE_VAL (0xff642000 + (0x0f7 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MUTE_VAL (0xff642000 + (0x0f7 << 2)) +#define P_EE_AUDIO_TDMIN_LB_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x0f7 << 2)) +#define EE_AUDIO_TDMIN_LB_MUTE0 (0xff642000 + (0x0f8 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MUTE0 (0xff642000 + (0x0f8 << 2)) +#define P_EE_AUDIO_TDMIN_LB_MUTE0 (volatile uint32_t *)(0xff642000 + (0x0f8 << 2)) +#define EE_AUDIO_TDMIN_LB_MUTE1 (0xff642000 + (0x0f9 << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MUTE1 (0xff642000 + (0x0f9 << 2)) +#define P_EE_AUDIO_TDMIN_LB_MUTE1 (volatile uint32_t *)(0xff642000 + (0x0f9 << 2)) +#define EE_AUDIO_TDMIN_LB_MUTE2 (0xff642000 + (0x0fa << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MUTE2 (0xff642000 + (0x0fa << 2)) +#define P_EE_AUDIO_TDMIN_LB_MUTE2 (volatile uint32_t *)(0xff642000 + (0x0fa << 2)) +#define EE_AUDIO_TDMIN_LB_MUTE3 (0xff642000 + (0x0fb << 2)) +#define SEC_EE_AUDIO_TDMIN_LB_MUTE3 (0xff642000 + (0x0fb << 2)) +#define P_EE_AUDIO_TDMIN_LB_MUTE3 (volatile uint32_t *)(0xff642000 + (0x0fb << 2)) +#define EE_AUDIO_SPDIFIN_CTRL0 (0xff642000 + (0x100 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_CTRL0 (0xff642000 + (0x100 << 2)) +#define P_EE_AUDIO_SPDIFIN_CTRL0 (volatile uint32_t *)(0xff642000 + (0x100 << 2)) +#define EE_AUDIO_SPDIFIN_CTRL1 (0xff642000 + (0x101 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_CTRL1 (0xff642000 + (0x101 << 2)) +#define P_EE_AUDIO_SPDIFIN_CTRL1 (volatile uint32_t *)(0xff642000 + (0x101 << 2)) +#define EE_AUDIO_SPDIFIN_CTRL2 (0xff642000 + (0x102 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_CTRL2 (0xff642000 + (0x102 << 2)) +#define P_EE_AUDIO_SPDIFIN_CTRL2 (volatile uint32_t *)(0xff642000 + (0x102 << 2)) +#define EE_AUDIO_SPDIFIN_CTRL3 (0xff642000 + (0x103 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_CTRL3 (0xff642000 + (0x103 << 2)) +#define P_EE_AUDIO_SPDIFIN_CTRL3 (volatile uint32_t *)(0xff642000 + (0x103 << 2)) +#define EE_AUDIO_SPDIFIN_CTRL4 (0xff642000 + (0x104 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_CTRL4 (0xff642000 + (0x104 << 2)) +#define P_EE_AUDIO_SPDIFIN_CTRL4 (volatile uint32_t *)(0xff642000 + (0x104 << 2)) +#define EE_AUDIO_SPDIFIN_CTRL5 (0xff642000 + (0x105 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_CTRL5 (0xff642000 + (0x105 << 2)) +#define P_EE_AUDIO_SPDIFIN_CTRL5 (volatile uint32_t *)(0xff642000 + (0x105 << 2)) +#define EE_AUDIO_SPDIFIN_CTRL6 (0xff642000 + (0x106 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_CTRL6 (0xff642000 + (0x106 << 2)) +#define P_EE_AUDIO_SPDIFIN_CTRL6 (volatile uint32_t *)(0xff642000 + (0x106 << 2)) +#define EE_AUDIO_SPDIFIN_STAT0 (0xff642000 + (0x107 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_STAT0 (0xff642000 + (0x107 << 2)) +#define P_EE_AUDIO_SPDIFIN_STAT0 (volatile uint32_t *)(0xff642000 + (0x107 << 2)) +#define EE_AUDIO_SPDIFIN_STAT1 (0xff642000 + (0x108 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_STAT1 (0xff642000 + (0x108 << 2)) +#define P_EE_AUDIO_SPDIFIN_STAT1 (volatile uint32_t *)(0xff642000 + (0x108 << 2)) +#define EE_AUDIO_SPDIFIN_STAT2 (0xff642000 + (0x109 << 2)) +#define SEC_EE_AUDIO_SPDIFIN_STAT2 (0xff642000 + (0x109 << 2)) +#define P_EE_AUDIO_SPDIFIN_STAT2 (volatile uint32_t *)(0xff642000 + (0x109 << 2)) +#define EE_AUDIO_SPDIFIN_MUTE_VAL (0xff642000 + (0x10a << 2)) +#define SEC_EE_AUDIO_SPDIFIN_MUTE_VAL (0xff642000 + (0x10a << 2)) +#define P_EE_AUDIO_SPDIFIN_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x10a << 2)) +#define EE_AUDIO_RESAMPLE_CTRL0 (0xff642000 + (0x110 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_CTRL0 (0xff642000 + (0x110 << 2)) +#define P_EE_AUDIO_RESAMPLE_CTRL0 (volatile uint32_t *)(0xff642000 + (0x110 << 2)) +#define EE_AUDIO_RESAMPLE_CTRL1 (0xff642000 + (0x111 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_CTRL1 (0xff642000 + (0x111 << 2)) +#define P_EE_AUDIO_RESAMPLE_CTRL1 (volatile uint32_t *)(0xff642000 + (0x111 << 2)) +#define EE_AUDIO_RESAMPLE_CTRL2 (0xff642000 + (0x112 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_CTRL2 (0xff642000 + (0x112 << 2)) +#define P_EE_AUDIO_RESAMPLE_CTRL2 (volatile uint32_t *)(0xff642000 + (0x112 << 2)) +#define EE_AUDIO_RESAMPLE_CTRL3 (0xff642000 + (0x113 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_CTRL3 (0xff642000 + (0x113 << 2)) +#define P_EE_AUDIO_RESAMPLE_CTRL3 (volatile uint32_t *)(0xff642000 + (0x113 << 2)) +#define EE_AUDIO_RESAMPLE_COEF0 (0xff642000 + (0x114 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_COEF0 (0xff642000 + (0x114 << 2)) +#define P_EE_AUDIO_RESAMPLE_COEF0 (volatile uint32_t *)(0xff642000 + (0x114 << 2)) +#define EE_AUDIO_RESAMPLE_COEF1 (0xff642000 + (0x115 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_COEF1 (0xff642000 + (0x115 << 2)) +#define P_EE_AUDIO_RESAMPLE_COEF1 (volatile uint32_t *)(0xff642000 + (0x115 << 2)) +#define EE_AUDIO_RESAMPLE_COEF2 (0xff642000 + (0x116 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_COEF2 (0xff642000 + (0x116 << 2)) +#define P_EE_AUDIO_RESAMPLE_COEF2 (volatile uint32_t *)(0xff642000 + (0x116 << 2)) +#define EE_AUDIO_RESAMPLE_COEF3 (0xff642000 + (0x117 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_COEF3 (0xff642000 + (0x117 << 2)) +#define P_EE_AUDIO_RESAMPLE_COEF3 (volatile uint32_t *)(0xff642000 + (0x117 << 2)) +#define EE_AUDIO_RESAMPLE_COEF4 (0xff642000 + (0x118 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_COEF4 (0xff642000 + (0x118 << 2)) +#define P_EE_AUDIO_RESAMPLE_COEF4 (volatile uint32_t *)(0xff642000 + (0x118 << 2)) +#define EE_AUDIO_RESAMPLE_STATUS1 (0xff642000 + (0x119 << 2)) +#define SEC_EE_AUDIO_RESAMPLE_STATUS1 (0xff642000 + (0x119 << 2)) +#define P_EE_AUDIO_RESAMPLE_STATUS1 (volatile uint32_t *)(0xff642000 + (0x119 << 2)) +#define EE_AUDIO_SPDIFOUT_STAT (0xff642000 + (0x120 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_STAT (0xff642000 + (0x120 << 2)) +#define P_EE_AUDIO_SPDIFOUT_STAT (volatile uint32_t *)(0xff642000 + (0x120 << 2)) +#define EE_AUDIO_SPDIFOUT_GAIN0 (0xff642000 + (0x121 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_GAIN0 (0xff642000 + (0x121 << 2)) +#define P_EE_AUDIO_SPDIFOUT_GAIN0 (volatile uint32_t *)(0xff642000 + (0x121 << 2)) +#define EE_AUDIO_SPDIFOUT_GAIN1 (0xff642000 + (0x122 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_GAIN1 (0xff642000 + (0x122 << 2)) +#define P_EE_AUDIO_SPDIFOUT_GAIN1 (volatile uint32_t *)(0xff642000 + (0x122 << 2)) +#define EE_AUDIO_SPDIFOUT_CTRL0 (0xff642000 + (0x123 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CTRL0 (0xff642000 + (0x123 << 2)) +#define P_EE_AUDIO_SPDIFOUT_CTRL0 (volatile uint32_t *)(0xff642000 + (0x123 << 2)) +#define EE_AUDIO_SPDIFOUT_CTRL1 (0xff642000 + (0x124 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CTRL1 (0xff642000 + (0x124 << 2)) +#define P_EE_AUDIO_SPDIFOUT_CTRL1 (volatile uint32_t *)(0xff642000 + (0x124 << 2)) +#define EE_AUDIO_SPDIFOUT_PREAMB (0xff642000 + (0x125 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_PREAMB (0xff642000 + (0x125 << 2)) +#define P_EE_AUDIO_SPDIFOUT_PREAMB (volatile uint32_t *)(0xff642000 + (0x125 << 2)) +#define EE_AUDIO_SPDIFOUT_SWAP (0xff642000 + (0x126 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_SWAP (0xff642000 + (0x126 << 2)) +#define P_EE_AUDIO_SPDIFOUT_SWAP (volatile uint32_t *)(0xff642000 + (0x126 << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS0 (0xff642000 + (0x127 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS0 (0xff642000 + (0x127 << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS0 (volatile uint32_t *)(0xff642000 + (0x127 << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS1 (0xff642000 + (0x128 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS1 (0xff642000 + (0x128 << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS1 (volatile uint32_t *)(0xff642000 + (0x128 << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS2 (0xff642000 + (0x129 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS2 (0xff642000 + (0x129 << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS2 (volatile uint32_t *)(0xff642000 + (0x129 << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS3 (0xff642000 + (0x12a << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS3 (0xff642000 + (0x12a << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS3 (volatile uint32_t *)(0xff642000 + (0x12a << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS4 (0xff642000 + (0x12b << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS4 (0xff642000 + (0x12b << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS4 (volatile uint32_t *)(0xff642000 + (0x12b << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS5 (0xff642000 + (0x12c << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS5 (0xff642000 + (0x12c << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS5 (volatile uint32_t *)(0xff642000 + (0x12c << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS6 (0xff642000 + (0x12d << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS6 (0xff642000 + (0x12d << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS6 (volatile uint32_t *)(0xff642000 + (0x12d << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS7 (0xff642000 + (0x12e << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS7 (0xff642000 + (0x12e << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS7 (volatile uint32_t *)(0xff642000 + (0x12e << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS8 (0xff642000 + (0x12f << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS8 (0xff642000 + (0x12f << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS8 (volatile uint32_t *)(0xff642000 + (0x12f << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTS9 (0xff642000 + (0x130 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTS9 (0xff642000 + (0x130 << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTS9 (volatile uint32_t *)(0xff642000 + (0x130 << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTSA (0xff642000 + (0x131 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTSA (0xff642000 + (0x131 << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTSA (volatile uint32_t *)(0xff642000 + (0x131 << 2)) +#define EE_AUDIO_SPDIFOUT_CHSTSB (0xff642000 + (0x132 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_CHSTSB (0xff642000 + (0x132 << 2)) +#define P_EE_AUDIO_SPDIFOUT_CHSTSB (volatile uint32_t *)(0xff642000 + (0x132 << 2)) +#define EE_AUDIO_SPDIFOUT_MUTE_VAL (0xff642000 + (0x133 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_MUTE_VAL (0xff642000 + (0x133 << 2)) +#define P_EE_AUDIO_SPDIFOUT_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x133 << 2)) +#define EE_AUDIO_TDMOUT_A_CTRL0 (0xff642000 + (0x140 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_CTRL0 (0xff642000 + (0x140 << 2)) +#define P_EE_AUDIO_TDMOUT_A_CTRL0 (volatile uint32_t *)(0xff642000 + (0x140 << 2)) +#define EE_AUDIO_TDMOUT_A_CTRL1 (0xff642000 + (0x141 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_CTRL1 (0xff642000 + (0x141 << 2)) +#define P_EE_AUDIO_TDMOUT_A_CTRL1 (volatile uint32_t *)(0xff642000 + (0x141 << 2)) +#define EE_AUDIO_TDMOUT_A_SWAP (0xff642000 + (0x142 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_SWAP (0xff642000 + (0x142 << 2)) +#define P_EE_AUDIO_TDMOUT_A_SWAP (volatile uint32_t *)(0xff642000 + (0x142 << 2)) +#define EE_AUDIO_TDMOUT_A_MASK0 (0xff642000 + (0x143 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MASK0 (0xff642000 + (0x143 << 2)) +#define P_EE_AUDIO_TDMOUT_A_MASK0 (volatile uint32_t *)(0xff642000 + (0x143 << 2)) +#define EE_AUDIO_TDMOUT_A_MASK1 (0xff642000 + (0x144 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MASK1 (0xff642000 + (0x144 << 2)) +#define P_EE_AUDIO_TDMOUT_A_MASK1 (volatile uint32_t *)(0xff642000 + (0x144 << 2)) +#define EE_AUDIO_TDMOUT_A_MASK2 (0xff642000 + (0x145 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MASK2 (0xff642000 + (0x145 << 2)) +#define P_EE_AUDIO_TDMOUT_A_MASK2 (volatile uint32_t *)(0xff642000 + (0x145 << 2)) +#define EE_AUDIO_TDMOUT_A_MASK3 (0xff642000 + (0x146 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MASK3 (0xff642000 + (0x146 << 2)) +#define P_EE_AUDIO_TDMOUT_A_MASK3 (volatile uint32_t *)(0xff642000 + (0x146 << 2)) +#define EE_AUDIO_TDMOUT_A_STAT (0xff642000 + (0x147 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_STAT (0xff642000 + (0x147 << 2)) +#define P_EE_AUDIO_TDMOUT_A_STAT (volatile uint32_t *)(0xff642000 + (0x147 << 2)) +#define EE_AUDIO_TDMOUT_A_GAIN0 (0xff642000 + (0x148 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_GAIN0 (0xff642000 + (0x148 << 2)) +#define P_EE_AUDIO_TDMOUT_A_GAIN0 (volatile uint32_t *)(0xff642000 + (0x148 << 2)) +#define EE_AUDIO_TDMOUT_A_GAIN1 (0xff642000 + (0x149 << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_GAIN1 (0xff642000 + (0x149 << 2)) +#define P_EE_AUDIO_TDMOUT_A_GAIN1 (volatile uint32_t *)(0xff642000 + (0x149 << 2)) +#define EE_AUDIO_TDMOUT_A_MUTE_VAL (0xff642000 + (0x14a << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MUTE_VAL (0xff642000 + (0x14a << 2)) +#define P_EE_AUDIO_TDMOUT_A_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x14a << 2)) +#define EE_AUDIO_TDMOUT_A_MUTE0 (0xff642000 + (0x14b << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MUTE0 (0xff642000 + (0x14b << 2)) +#define P_EE_AUDIO_TDMOUT_A_MUTE0 (volatile uint32_t *)(0xff642000 + (0x14b << 2)) +#define EE_AUDIO_TDMOUT_A_MUTE1 (0xff642000 + (0x14c << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MUTE1 (0xff642000 + (0x14c << 2)) +#define P_EE_AUDIO_TDMOUT_A_MUTE1 (volatile uint32_t *)(0xff642000 + (0x14c << 2)) +#define EE_AUDIO_TDMOUT_A_MUTE2 (0xff642000 + (0x14d << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MUTE2 (0xff642000 + (0x14d << 2)) +#define P_EE_AUDIO_TDMOUT_A_MUTE2 (volatile uint32_t *)(0xff642000 + (0x14d << 2)) +#define EE_AUDIO_TDMOUT_A_MUTE3 (0xff642000 + (0x14e << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MUTE3 (0xff642000 + (0x14e << 2)) +#define P_EE_AUDIO_TDMOUT_A_MUTE3 (volatile uint32_t *)(0xff642000 + (0x14e << 2)) +#define EE_AUDIO_TDMOUT_A_MASK_VAL (0xff642000 + (0x14f << 2)) +#define SEC_EE_AUDIO_TDMOUT_A_MASK_VAL (0xff642000 + (0x14f << 2)) +#define P_EE_AUDIO_TDMOUT_A_MASK_VAL (volatile uint32_t *)(0xff642000 + (0x14f << 2)) +#define EE_AUDIO_TDMOUT_B_CTRL0 (0xff642000 + (0x150 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_CTRL0 (0xff642000 + (0x150 << 2)) +#define P_EE_AUDIO_TDMOUT_B_CTRL0 (volatile uint32_t *)(0xff642000 + (0x150 << 2)) +#define EE_AUDIO_TDMOUT_B_CTRL1 (0xff642000 + (0x151 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_CTRL1 (0xff642000 + (0x151 << 2)) +#define P_EE_AUDIO_TDMOUT_B_CTRL1 (volatile uint32_t *)(0xff642000 + (0x151 << 2)) +#define EE_AUDIO_TDMOUT_B_SWAP (0xff642000 + (0x152 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_SWAP (0xff642000 + (0x152 << 2)) +#define P_EE_AUDIO_TDMOUT_B_SWAP (volatile uint32_t *)(0xff642000 + (0x152 << 2)) +#define EE_AUDIO_TDMOUT_B_MASK0 (0xff642000 + (0x153 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MASK0 (0xff642000 + (0x153 << 2)) +#define P_EE_AUDIO_TDMOUT_B_MASK0 (volatile uint32_t *)(0xff642000 + (0x153 << 2)) +#define EE_AUDIO_TDMOUT_B_MASK1 (0xff642000 + (0x154 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MASK1 (0xff642000 + (0x154 << 2)) +#define P_EE_AUDIO_TDMOUT_B_MASK1 (volatile uint32_t *)(0xff642000 + (0x154 << 2)) +#define EE_AUDIO_TDMOUT_B_MASK2 (0xff642000 + (0x155 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MASK2 (0xff642000 + (0x155 << 2)) +#define P_EE_AUDIO_TDMOUT_B_MASK2 (volatile uint32_t *)(0xff642000 + (0x155 << 2)) +#define EE_AUDIO_TDMOUT_B_MASK3 (0xff642000 + (0x156 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MASK3 (0xff642000 + (0x156 << 2)) +#define P_EE_AUDIO_TDMOUT_B_MASK3 (volatile uint32_t *)(0xff642000 + (0x156 << 2)) +#define EE_AUDIO_TDMOUT_B_STAT (0xff642000 + (0x157 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_STAT (0xff642000 + (0x157 << 2)) +#define P_EE_AUDIO_TDMOUT_B_STAT (volatile uint32_t *)(0xff642000 + (0x157 << 2)) +#define EE_AUDIO_TDMOUT_B_GAIN0 (0xff642000 + (0x158 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_GAIN0 (0xff642000 + (0x158 << 2)) +#define P_EE_AUDIO_TDMOUT_B_GAIN0 (volatile uint32_t *)(0xff642000 + (0x158 << 2)) +#define EE_AUDIO_TDMOUT_B_GAIN1 (0xff642000 + (0x159 << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_GAIN1 (0xff642000 + (0x159 << 2)) +#define P_EE_AUDIO_TDMOUT_B_GAIN1 (volatile uint32_t *)(0xff642000 + (0x159 << 2)) +#define EE_AUDIO_TDMOUT_B_MUTE_VAL (0xff642000 + (0x15a << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MUTE_VAL (0xff642000 + (0x15a << 2)) +#define P_EE_AUDIO_TDMOUT_B_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x15a << 2)) +#define EE_AUDIO_TDMOUT_B_MUTE0 (0xff642000 + (0x15b << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MUTE0 (0xff642000 + (0x15b << 2)) +#define P_EE_AUDIO_TDMOUT_B_MUTE0 (volatile uint32_t *)(0xff642000 + (0x15b << 2)) +#define EE_AUDIO_TDMOUT_B_MUTE1 (0xff642000 + (0x15c << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MUTE1 (0xff642000 + (0x15c << 2)) +#define P_EE_AUDIO_TDMOUT_B_MUTE1 (volatile uint32_t *)(0xff642000 + (0x15c << 2)) +#define EE_AUDIO_TDMOUT_B_MUTE2 (0xff642000 + (0x15d << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MUTE2 (0xff642000 + (0x15d << 2)) +#define P_EE_AUDIO_TDMOUT_B_MUTE2 (volatile uint32_t *)(0xff642000 + (0x15d << 2)) +#define EE_AUDIO_TDMOUT_B_MUTE3 (0xff642000 + (0x15e << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MUTE3 (0xff642000 + (0x15e << 2)) +#define P_EE_AUDIO_TDMOUT_B_MUTE3 (volatile uint32_t *)(0xff642000 + (0x15e << 2)) +#define EE_AUDIO_TDMOUT_B_MASK_VAL (0xff642000 + (0x15f << 2)) +#define SEC_EE_AUDIO_TDMOUT_B_MASK_VAL (0xff642000 + (0x15f << 2)) +#define P_EE_AUDIO_TDMOUT_B_MASK_VAL (volatile uint32_t *)(0xff642000 + (0x15f << 2)) +#define EE_AUDIO_TDMOUT_C_CTRL0 (0xff642000 + (0x160 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_CTRL0 (0xff642000 + (0x160 << 2)) +#define P_EE_AUDIO_TDMOUT_C_CTRL0 (volatile uint32_t *)(0xff642000 + (0x160 << 2)) +#define EE_AUDIO_TDMOUT_C_CTRL1 (0xff642000 + (0x161 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_CTRL1 (0xff642000 + (0x161 << 2)) +#define P_EE_AUDIO_TDMOUT_C_CTRL1 (volatile uint32_t *)(0xff642000 + (0x161 << 2)) +#define EE_AUDIO_TDMOUT_C_SWAP (0xff642000 + (0x162 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_SWAP (0xff642000 + (0x162 << 2)) +#define P_EE_AUDIO_TDMOUT_C_SWAP (volatile uint32_t *)(0xff642000 + (0x162 << 2)) +#define EE_AUDIO_TDMOUT_C_MASK0 (0xff642000 + (0x163 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MASK0 (0xff642000 + (0x163 << 2)) +#define P_EE_AUDIO_TDMOUT_C_MASK0 (volatile uint32_t *)(0xff642000 + (0x163 << 2)) +#define EE_AUDIO_TDMOUT_C_MASK1 (0xff642000 + (0x164 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MASK1 (0xff642000 + (0x164 << 2)) +#define P_EE_AUDIO_TDMOUT_C_MASK1 (volatile uint32_t *)(0xff642000 + (0x164 << 2)) +#define EE_AUDIO_TDMOUT_C_MASK2 (0xff642000 + (0x165 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MASK2 (0xff642000 + (0x165 << 2)) +#define P_EE_AUDIO_TDMOUT_C_MASK2 (volatile uint32_t *)(0xff642000 + (0x165 << 2)) +#define EE_AUDIO_TDMOUT_C_MASK3 (0xff642000 + (0x166 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MASK3 (0xff642000 + (0x166 << 2)) +#define P_EE_AUDIO_TDMOUT_C_MASK3 (volatile uint32_t *)(0xff642000 + (0x166 << 2)) +#define EE_AUDIO_TDMOUT_C_STAT (0xff642000 + (0x167 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_STAT (0xff642000 + (0x167 << 2)) +#define P_EE_AUDIO_TDMOUT_C_STAT (volatile uint32_t *)(0xff642000 + (0x167 << 2)) +#define EE_AUDIO_TDMOUT_C_GAIN0 (0xff642000 + (0x168 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_GAIN0 (0xff642000 + (0x168 << 2)) +#define P_EE_AUDIO_TDMOUT_C_GAIN0 (volatile uint32_t *)(0xff642000 + (0x168 << 2)) +#define EE_AUDIO_TDMOUT_C_GAIN1 (0xff642000 + (0x169 << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_GAIN1 (0xff642000 + (0x169 << 2)) +#define P_EE_AUDIO_TDMOUT_C_GAIN1 (volatile uint32_t *)(0xff642000 + (0x169 << 2)) +#define EE_AUDIO_TDMOUT_C_MUTE_VAL (0xff642000 + (0x16a << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MUTE_VAL (0xff642000 + (0x16a << 2)) +#define P_EE_AUDIO_TDMOUT_C_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x16a << 2)) +#define EE_AUDIO_TDMOUT_C_MUTE0 (0xff642000 + (0x16b << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MUTE0 (0xff642000 + (0x16b << 2)) +#define P_EE_AUDIO_TDMOUT_C_MUTE0 (volatile uint32_t *)(0xff642000 + (0x16b << 2)) +#define EE_AUDIO_TDMOUT_C_MUTE1 (0xff642000 + (0x16c << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MUTE1 (0xff642000 + (0x16c << 2)) +#define P_EE_AUDIO_TDMOUT_C_MUTE1 (volatile uint32_t *)(0xff642000 + (0x16c << 2)) +#define EE_AUDIO_TDMOUT_C_MUTE2 (0xff642000 + (0x16d << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MUTE2 (0xff642000 + (0x16d << 2)) +#define P_EE_AUDIO_TDMOUT_C_MUTE2 (volatile uint32_t *)(0xff642000 + (0x16d << 2)) +#define EE_AUDIO_TDMOUT_C_MUTE3 (0xff642000 + (0x16e << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MUTE3 (0xff642000 + (0x16e << 2)) +#define P_EE_AUDIO_TDMOUT_C_MUTE3 (volatile uint32_t *)(0xff642000 + (0x16e << 2)) +#define EE_AUDIO_TDMOUT_C_MASK_VAL (0xff642000 + (0x16f << 2)) +#define SEC_EE_AUDIO_TDMOUT_C_MASK_VAL (0xff642000 + (0x16f << 2)) +#define P_EE_AUDIO_TDMOUT_C_MASK_VAL (volatile uint32_t *)(0xff642000 + (0x16f << 2)) +#define EE_AUDIO_POW_DET_CTRL0 (0xff642000 + (0x180 << 2)) +#define SEC_EE_AUDIO_POW_DET_CTRL0 (0xff642000 + (0x180 << 2)) +#define P_EE_AUDIO_POW_DET_CTRL0 (volatile uint32_t *)(0xff642000 + (0x180 << 2)) +#define EE_AUDIO_POW_DET_CTRL1 (0xff642000 + (0x181 << 2)) +#define SEC_EE_AUDIO_POW_DET_CTRL1 (0xff642000 + (0x181 << 2)) +#define P_EE_AUDIO_POW_DET_CTRL1 (volatile uint32_t *)(0xff642000 + (0x181 << 2)) +#define EE_AUDIO_POW_DET_TH_HI (0xff642000 + (0x182 << 2)) +#define SEC_EE_AUDIO_POW_DET_TH_HI (0xff642000 + (0x182 << 2)) +#define P_EE_AUDIO_POW_DET_TH_HI (volatile uint32_t *)(0xff642000 + (0x182 << 2)) +#define EE_AUDIO_POW_DET_TH_LO (0xff642000 + (0x183 << 2)) +#define SEC_EE_AUDIO_POW_DET_TH_LO (0xff642000 + (0x183 << 2)) +#define P_EE_AUDIO_POW_DET_TH_LO (volatile uint32_t *)(0xff642000 + (0x183 << 2)) +#define EE_AUDIO_POW_DET_VALUE (0xff642000 + (0x184 << 2)) +#define SEC_EE_AUDIO_POW_DET_VALUE (0xff642000 + (0x184 << 2)) +#define P_EE_AUDIO_POW_DET_VALUE (volatile uint32_t *)(0xff642000 + (0x184 << 2)) +#define EE_AUDIO_SECURITY_CTRL (0xff642000 + (0x193 << 2)) +#define SEC_EE_AUDIO_SECURITY_CTRL (0xff642000 + (0x193 << 2)) +#define P_EE_AUDIO_SECURITY_CTRL (volatile uint32_t *)(0xff642000 + (0x193 << 2)) +#define EE_AUDIO_SPDIFOUT_B_STAT (0xff642000 + (0x1a0 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_STAT (0xff642000 + (0x1a0 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_STAT (volatile uint32_t *)(0xff642000 + (0x1a0 << 2)) +#define EE_AUDIO_SPDIFOUT_B_GAIN0 (0xff642000 + (0x1a1 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_GAIN0 (0xff642000 + (0x1a1 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_GAIN0 (volatile uint32_t *)(0xff642000 + (0x1a1 << 2)) +#define EE_AUDIO_SPDIFOUT_B_GAIN1 (0xff642000 + (0x1a2 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_GAIN1 (0xff642000 + (0x1a2 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_GAIN1 (volatile uint32_t *)(0xff642000 + (0x1a2 << 2)) +#define EE_AUDIO_SPDIFOUT_B_CTRL0 (0xff642000 + (0x1a3 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CTRL0 (0xff642000 + (0x1a3 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CTRL0 (volatile uint32_t *)(0xff642000 + (0x1a3 << 2)) +#define EE_AUDIO_SPDIFOUT_B_CTRL1 (0xff642000 + (0x1a4 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CTRL1 (0xff642000 + (0x1a4 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CTRL1 (volatile uint32_t *)(0xff642000 + (0x1a4 << 2)) +#define EE_AUDIO_SPDIFOUT_B_PREAMB (0xff642000 + (0x1a5 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_PREAMB (0xff642000 + (0x1a5 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_PREAMB (volatile uint32_t *)(0xff642000 + (0x1a5 << 2)) +#define EE_AUDIO_SPDIFOUT_B_SWAP (0xff642000 + (0x1a6 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_SWAP (0xff642000 + (0x1a6 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_SWAP (volatile uint32_t *)(0xff642000 + (0x1a6 << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS0 (0xff642000 + (0x1a7 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS0 (0xff642000 + (0x1a7 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS0 (volatile uint32_t *)(0xff642000 + (0x1a7 << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS1 (0xff642000 + (0x1a8 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS1 (0xff642000 + (0x1a8 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS1 (volatile uint32_t *)(0xff642000 + (0x1a8 << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS2 (0xff642000 + (0x1a9 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS2 (0xff642000 + (0x1a9 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS2 (volatile uint32_t *)(0xff642000 + (0x1a9 << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS3 (0xff642000 + (0x1aa << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS3 (0xff642000 + (0x1aa << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS3 (volatile uint32_t *)(0xff642000 + (0x1aa << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS4 (0xff642000 + (0x1ab << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS4 (0xff642000 + (0x1ab << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS4 (volatile uint32_t *)(0xff642000 + (0x1ab << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS5 (0xff642000 + (0x1ac << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS5 (0xff642000 + (0x1ac << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS5 (volatile uint32_t *)(0xff642000 + (0x1ac << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS6 (0xff642000 + (0x1ad << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS6 (0xff642000 + (0x1ad << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS6 (volatile uint32_t *)(0xff642000 + (0x1ad << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS7 (0xff642000 + (0x1ae << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS7 (0xff642000 + (0x1ae << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS7 (volatile uint32_t *)(0xff642000 + (0x1ae << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS8 (0xff642000 + (0x1af << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS8 (0xff642000 + (0x1af << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS8 (volatile uint32_t *)(0xff642000 + (0x1af << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTS9 (0xff642000 + (0x1b0 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTS9 (0xff642000 + (0x1b0 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTS9 (volatile uint32_t *)(0xff642000 + (0x1b0 << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTSA (0xff642000 + (0x1b1 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTSA (0xff642000 + (0x1b1 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTSA (volatile uint32_t *)(0xff642000 + (0x1b1 << 2)) +#define EE_AUDIO_SPDIFOUT_B_CHSTSB (0xff642000 + (0x1b2 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_CHSTSB (0xff642000 + (0x1b2 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_CHSTSB (volatile uint32_t *)(0xff642000 + (0x1b2 << 2)) +#define EE_AUDIO_SPDIFOUT_B_MUTE_VAL (0xff642000 + (0x1b3 << 2)) +#define SEC_EE_AUDIO_SPDIFOUT_B_MUTE_VAL (0xff642000 + (0x1b3 << 2)) +#define P_EE_AUDIO_SPDIFOUT_B_MUTE_VAL (volatile uint32_t *)(0xff642000 + (0x1b3 << 2)) +#define EE_AUDIO_TORAM_CTRL0 (0xff642000 + (0x1c0 << 2)) +#define SEC_EE_AUDIO_TORAM_CTRL0 (0xff642000 + (0x1c0 << 2)) +#define P_EE_AUDIO_TORAM_CTRL0 (volatile uint32_t *)(0xff642000 + (0x1c0 << 2)) +#define EE_AUDIO_TORAM_CTRL1 (0xff642000 + (0x1c1 << 2)) +#define SEC_EE_AUDIO_TORAM_CTRL1 (0xff642000 + (0x1c1 << 2)) +#define P_EE_AUDIO_TORAM_CTRL1 (volatile uint32_t *)(0xff642000 + (0x1c1 << 2)) +#define EE_AUDIO_TORAM_START_ADDR (0xff642000 + (0x1c2 << 2)) +#define SEC_EE_AUDIO_TORAM_START_ADDR (0xff642000 + (0x1c2 << 2)) +#define P_EE_AUDIO_TORAM_START_ADDR (volatile uint32_t *)(0xff642000 + (0x1c2 << 2)) +#define EE_AUDIO_TORAM_FINISH_ADDR (0xff642000 + (0x1c3 << 2)) +#define SEC_EE_AUDIO_TORAM_FINISH_ADDR (0xff642000 + (0x1c3 << 2)) +#define P_EE_AUDIO_TORAM_FINISH_ADDR (volatile uint32_t *)(0xff642000 + (0x1c3 << 2)) +#define EE_AUDIO_TORAM_INT_ADDR (0xff642000 + (0x1c4 << 2)) +#define SEC_EE_AUDIO_TORAM_INT_ADDR (0xff642000 + (0x1c4 << 2)) +#define P_EE_AUDIO_TORAM_INT_ADDR (volatile uint32_t *)(0xff642000 + (0x1c4 << 2)) +#define EE_AUDIO_TORAM_STATUS1 (0xff642000 + (0x1c5 << 2)) +#define SEC_EE_AUDIO_TORAM_STATUS1 (0xff642000 + (0x1c5 << 2)) +#define P_EE_AUDIO_TORAM_STATUS1 (volatile uint32_t *)(0xff642000 + (0x1c5 << 2)) +#define EE_AUDIO_TORAM_STATUS2 (0xff642000 + (0x1c6 << 2)) +#define SEC_EE_AUDIO_TORAM_STATUS2 (0xff642000 + (0x1c6 << 2)) +#define P_EE_AUDIO_TORAM_STATUS2 (volatile uint32_t *)(0xff642000 + (0x1c6 << 2)) +#define EE_AUDIO_TORAM_INIT_ADDR (0xff642000 + (0x1c7 << 2)) +#define SEC_EE_AUDIO_TORAM_INIT_ADDR (0xff642000 + (0x1c7 << 2)) +#define P_EE_AUDIO_TORAM_INIT_ADDR (volatile uint32_t *)(0xff642000 + (0x1c7 << 2)) +#define EE_AUDIO_TOACODEC_CTRL0 (0xff642000 + (0x1d0 << 2)) +#define SEC_EE_AUDIO_TOACODEC_CTRL0 (0xff642000 + (0x1d0 << 2)) +#define P_EE_AUDIO_TOACODEC_CTRL0 (volatile uint32_t *)(0xff642000 + (0x1d0 << 2)) +#define EE_AUDIO_TOHDMITX_CTRL0 (0xff642000 + (0x1d1 << 2)) +#define SEC_EE_AUDIO_TOHDMITX_CTRL0 (0xff642000 + (0x1d1 << 2)) +#define P_EE_AUDIO_TOHDMITX_CTRL0 (volatile uint32_t *)(0xff642000 + (0x1d1 << 2)) +//eq drc register +#define AED_EQ_CH1_COEF00 (0xff642000 + (0x200 << 2)) +#define SEC_AED_EQ_CH1_COEF00 (0xff642000 + (0x200 << 2)) +#define P_AED_EQ_CH1_COEF00 (volatile uint32_t *)(0xff642000 + (0x200 << 2)) +#define AED_EQ_CH1_COEF01 (0xff642000 + (0x201 << 2)) +#define SEC_AED_EQ_CH1_COEF01 (0xff642000 + (0x201 << 2)) +#define P_AED_EQ_CH1_COEF01 (volatile uint32_t *)(0xff642000 + (0x201 << 2)) +#define AED_EQ_CH1_COEF02 (0xff642000 + (0x202 << 2)) +#define SEC_AED_EQ_CH1_COEF02 (0xff642000 + (0x202 << 2)) +#define P_AED_EQ_CH1_COEF02 (volatile uint32_t *)(0xff642000 + (0x202 << 2)) +#define AED_EQ_CH1_COEF03 (0xff642000 + (0x203 << 2)) +#define SEC_AED_EQ_CH1_COEF03 (0xff642000 + (0x203 << 2)) +#define P_AED_EQ_CH1_COEF03 (volatile uint32_t *)(0xff642000 + (0x203 << 2)) +#define AED_EQ_CH1_COEF04 (0xff642000 + (0x204 << 2)) +#define SEC_AED_EQ_CH1_COEF04 (0xff642000 + (0x204 << 2)) +#define P_AED_EQ_CH1_COEF04 (volatile uint32_t *)(0xff642000 + (0x204 << 2)) +#define AED_EQ_CH1_COEF10 (0xff642000 + (0x205 << 2)) +#define SEC_AED_EQ_CH1_COEF10 (0xff642000 + (0x205 << 2)) +#define P_AED_EQ_CH1_COEF10 (volatile uint32_t *)(0xff642000 + (0x205 << 2)) +#define AED_EQ_CH1_COEF11 (0xff642000 + (0x206 << 2)) +#define SEC_AED_EQ_CH1_COEF11 (0xff642000 + (0x206 << 2)) +#define P_AED_EQ_CH1_COEF11 (volatile uint32_t *)(0xff642000 + (0x206 << 2)) +#define AED_EQ_CH1_COEF12 (0xff642000 + (0x207 << 2)) +#define SEC_AED_EQ_CH1_COEF12 (0xff642000 + (0x207 << 2)) +#define P_AED_EQ_CH1_COEF12 (volatile uint32_t *)(0xff642000 + (0x207 << 2)) +#define AED_EQ_CH1_COEF13 (0xff642000 + (0x208 << 2)) +#define SEC_AED_EQ_CH1_COEF13 (0xff642000 + (0x208 << 2)) +#define P_AED_EQ_CH1_COEF13 (volatile uint32_t *)(0xff642000 + (0x208 << 2)) +#define AED_EQ_CH1_COEF14 (0xff642000 + (0x209 << 2)) +#define SEC_AED_EQ_CH1_COEF14 (0xff642000 + (0x209 << 2)) +#define P_AED_EQ_CH1_COEF14 (volatile uint32_t *)(0xff642000 + (0x209 << 2)) +#define AED_EQ_CH1_COEF20 (0xff642000 + (0x20a << 2)) +#define SEC_AED_EQ_CH1_COEF20 (0xff642000 + (0x20a << 2)) +#define P_AED_EQ_CH1_COEF20 (volatile uint32_t *)(0xff642000 + (0x20a << 2)) +#define AED_EQ_CH1_COEF21 (0xff642000 + (0x20b << 2)) +#define SEC_AED_EQ_CH1_COEF21 (0xff642000 + (0x20b << 2)) +#define P_AED_EQ_CH1_COEF21 (volatile uint32_t *)(0xff642000 + (0x20b << 2)) +#define AED_EQ_CH1_COEF22 (0xff642000 + (0x20c << 2)) +#define SEC_AED_EQ_CH1_COEF22 (0xff642000 + (0x20c << 2)) +#define P_AED_EQ_CH1_COEF22 (volatile uint32_t *)(0xff642000 + (0x20c << 2)) +#define AED_EQ_CH1_COEF23 (0xff642000 + (0x20d << 2)) +#define SEC_AED_EQ_CH1_COEF23 (0xff642000 + (0x20d << 2)) +#define P_AED_EQ_CH1_COEF23 (volatile uint32_t *)(0xff642000 + (0x20d << 2)) +#define AED_EQ_CH1_COEF24 (0xff642000 + (0x20e << 2)) +#define SEC_AED_EQ_CH1_COEF24 (0xff642000 + (0x20e << 2)) +#define P_AED_EQ_CH1_COEF24 (volatile uint32_t *)(0xff642000 + (0x20e << 2)) +#define AED_EQ_CH1_COEF30 (0xff642000 + (0x20f << 2)) +#define SEC_AED_EQ_CH1_COEF30 (0xff642000 + (0x20f << 2)) +#define P_AED_EQ_CH1_COEF30 (volatile uint32_t *)(0xff642000 + (0x20f << 2)) +#define AED_EQ_CH1_COEF31 (0xff642000 + (0x210 << 2)) +#define SEC_AED_EQ_CH1_COEF31 (0xff642000 + (0x210 << 2)) +#define P_AED_EQ_CH1_COEF31 (volatile uint32_t *)(0xff642000 + (0x210 << 2)) +#define AED_EQ_CH1_COEF32 (0xff642000 + (0x211 << 2)) +#define SEC_AED_EQ_CH1_COEF32 (0xff642000 + (0x211 << 2)) +#define P_AED_EQ_CH1_COEF32 (volatile uint32_t *)(0xff642000 + (0x211 << 2)) +#define AED_EQ_CH1_COEF33 (0xff642000 + (0x212 << 2)) +#define SEC_AED_EQ_CH1_COEF33 (0xff642000 + (0x212 << 2)) +#define P_AED_EQ_CH1_COEF33 (volatile uint32_t *)(0xff642000 + (0x212 << 2)) +#define AED_EQ_CH1_COEF34 (0xff642000 + (0x213 << 2)) +#define SEC_AED_EQ_CH1_COEF34 (0xff642000 + (0x213 << 2)) +#define P_AED_EQ_CH1_COEF34 (volatile uint32_t *)(0xff642000 + (0x213 << 2)) +#define AED_EQ_CH1_COEF40 (0xff642000 + (0x214 << 2)) +#define SEC_AED_EQ_CH1_COEF40 (0xff642000 + (0x214 << 2)) +#define P_AED_EQ_CH1_COEF40 (volatile uint32_t *)(0xff642000 + (0x214 << 2)) +#define AED_EQ_CH1_COEF41 (0xff642000 + (0x215 << 2)) +#define SEC_AED_EQ_CH1_COEF41 (0xff642000 + (0x215 << 2)) +#define P_AED_EQ_CH1_COEF41 (volatile uint32_t *)(0xff642000 + (0x215 << 2)) +#define AED_EQ_CH1_COEF42 (0xff642000 + (0x216 << 2)) +#define SEC_AED_EQ_CH1_COEF42 (0xff642000 + (0x216 << 2)) +#define P_AED_EQ_CH1_COEF42 (volatile uint32_t *)(0xff642000 + (0x216 << 2)) +#define AED_EQ_CH1_COEF43 (0xff642000 + (0x217 << 2)) +#define SEC_AED_EQ_CH1_COEF43 (0xff642000 + (0x217 << 2)) +#define P_AED_EQ_CH1_COEF43 (volatile uint32_t *)(0xff642000 + (0x217 << 2)) +#define AED_EQ_CH1_COEF44 (0xff642000 + (0x218 << 2)) +#define SEC_AED_EQ_CH1_COEF44 (0xff642000 + (0x218 << 2)) +#define P_AED_EQ_CH1_COEF44 (volatile uint32_t *)(0xff642000 + (0x218 << 2)) +#define AED_EQ_CH1_COEF50 (0xff642000 + (0x219 << 2)) +#define SEC_AED_EQ_CH1_COEF50 (0xff642000 + (0x219 << 2)) +#define P_AED_EQ_CH1_COEF50 (volatile uint32_t *)(0xff642000 + (0x219 << 2)) +#define AED_EQ_CH1_COEF51 (0xff642000 + (0x21a << 2)) +#define SEC_AED_EQ_CH1_COEF51 (0xff642000 + (0x21a << 2)) +#define P_AED_EQ_CH1_COEF51 (volatile uint32_t *)(0xff642000 + (0x21a << 2)) +#define AED_EQ_CH1_COEF52 (0xff642000 + (0x21b << 2)) +#define SEC_AED_EQ_CH1_COEF52 (0xff642000 + (0x21b << 2)) +#define P_AED_EQ_CH1_COEF52 (volatile uint32_t *)(0xff642000 + (0x21b << 2)) +#define AED_EQ_CH1_COEF53 (0xff642000 + (0x21c << 2)) +#define SEC_AED_EQ_CH1_COEF53 (0xff642000 + (0x21c << 2)) +#define P_AED_EQ_CH1_COEF53 (volatile uint32_t *)(0xff642000 + (0x21c << 2)) +#define AED_EQ_CH1_COEF54 (0xff642000 + (0x21d << 2)) +#define SEC_AED_EQ_CH1_COEF54 (0xff642000 + (0x21d << 2)) +#define P_AED_EQ_CH1_COEF54 (volatile uint32_t *)(0xff642000 + (0x21d << 2)) +#define AED_EQ_CH1_COEF60 (0xff642000 + (0x21e << 2)) +#define SEC_AED_EQ_CH1_COEF60 (0xff642000 + (0x21e << 2)) +#define P_AED_EQ_CH1_COEF60 (volatile uint32_t *)(0xff642000 + (0x21e << 2)) +#define AED_EQ_CH1_COEF61 (0xff642000 + (0x21f << 2)) +#define SEC_AED_EQ_CH1_COEF61 (0xff642000 + (0x21f << 2)) +#define P_AED_EQ_CH1_COEF61 (volatile uint32_t *)(0xff642000 + (0x21f << 2)) +#define AED_EQ_CH1_COEF62 (0xff642000 + (0x220 << 2)) +#define SEC_AED_EQ_CH1_COEF62 (0xff642000 + (0x220 << 2)) +#define P_AED_EQ_CH1_COEF62 (volatile uint32_t *)(0xff642000 + (0x220 << 2)) +#define AED_EQ_CH1_COEF63 (0xff642000 + (0x221 << 2)) +#define SEC_AED_EQ_CH1_COEF63 (0xff642000 + (0x221 << 2)) +#define P_AED_EQ_CH1_COEF63 (volatile uint32_t *)(0xff642000 + (0x221 << 2)) +#define AED_EQ_CH1_COEF64 (0xff642000 + (0x222 << 2)) +#define SEC_AED_EQ_CH1_COEF64 (0xff642000 + (0x222 << 2)) +#define P_AED_EQ_CH1_COEF64 (volatile uint32_t *)(0xff642000 + (0x222 << 2)) +#define AED_EQ_CH1_COEF70 (0xff642000 + (0x223 << 2)) +#define SEC_AED_EQ_CH1_COEF70 (0xff642000 + (0x223 << 2)) +#define P_AED_EQ_CH1_COEF70 (volatile uint32_t *)(0xff642000 + (0x223 << 2)) +#define AED_EQ_CH1_COEF71 (0xff642000 + (0x224 << 2)) +#define SEC_AED_EQ_CH1_COEF71 (0xff642000 + (0x224 << 2)) +#define P_AED_EQ_CH1_COEF71 (volatile uint32_t *)(0xff642000 + (0x224 << 2)) +#define AED_EQ_CH1_COEF72 (0xff642000 + (0x225 << 2)) +#define SEC_AED_EQ_CH1_COEF72 (0xff642000 + (0x225 << 2)) +#define P_AED_EQ_CH1_COEF72 (volatile uint32_t *)(0xff642000 + (0x225 << 2)) +#define AED_EQ_CH1_COEF73 (0xff642000 + (0x226 << 2)) +#define SEC_AED_EQ_CH1_COEF73 (0xff642000 + (0x226 << 2)) +#define P_AED_EQ_CH1_COEF73 (volatile uint32_t *)(0xff642000 + (0x226 << 2)) +#define AED_EQ_CH1_COEF74 (0xff642000 + (0x227 << 2)) +#define SEC_AED_EQ_CH1_COEF74 (0xff642000 + (0x227 << 2)) +#define P_AED_EQ_CH1_COEF74 (volatile uint32_t *)(0xff642000 + (0x227 << 2)) +#define AED_EQ_CH1_COEF80 (0xff642000 + (0x228 << 2)) +#define SEC_AED_EQ_CH1_COEF80 (0xff642000 + (0x228 << 2)) +#define P_AED_EQ_CH1_COEF80 (volatile uint32_t *)(0xff642000 + (0x228 << 2)) +#define AED_EQ_CH1_COEF81 (0xff642000 + (0x229 << 2)) +#define SEC_AED_EQ_CH1_COEF81 (0xff642000 + (0x229 << 2)) +#define P_AED_EQ_CH1_COEF81 (volatile uint32_t *)(0xff642000 + (0x229 << 2)) +#define AED_EQ_CH1_COEF82 (0xff642000 + (0x22a << 2)) +#define SEC_AED_EQ_CH1_COEF82 (0xff642000 + (0x22a << 2)) +#define P_AED_EQ_CH1_COEF82 (volatile uint32_t *)(0xff642000 + (0x22a << 2)) +#define AED_EQ_CH1_COEF83 (0xff642000 + (0x22b << 2)) +#define SEC_AED_EQ_CH1_COEF83 (0xff642000 + (0x22b << 2)) +#define P_AED_EQ_CH1_COEF83 (volatile uint32_t *)(0xff642000 + (0x22b << 2)) +#define AED_EQ_CH1_COEF84 (0xff642000 + (0x22c << 2)) +#define SEC_AED_EQ_CH1_COEF84 (0xff642000 + (0x22c << 2)) +#define P_AED_EQ_CH1_COEF84 (volatile uint32_t *)(0xff642000 + (0x22c << 2)) +#define AED_EQ_CH1_COEF90 (0xff642000 + (0x22d << 2)) +#define SEC_AED_EQ_CH1_COEF90 (0xff642000 + (0x22d << 2)) +#define P_AED_EQ_CH1_COEF90 (volatile uint32_t *)(0xff642000 + (0x22d << 2)) +#define AED_EQ_CH1_COEF91 (0xff642000 + (0x22e << 2)) +#define SEC_AED_EQ_CH1_COEF91 (0xff642000 + (0x22e << 2)) +#define P_AED_EQ_CH1_COEF91 (volatile uint32_t *)(0xff642000 + (0x22e << 2)) +#define AED_EQ_CH1_COEF92 (0xff642000 + (0x22f << 2)) +#define SEC_AED_EQ_CH1_COEF92 (0xff642000 + (0x22f << 2)) +#define P_AED_EQ_CH1_COEF92 (volatile uint32_t *)(0xff642000 + (0x22f << 2)) +#define AED_EQ_CH1_COEF93 (0xff642000 + (0x230 << 2)) +#define SEC_AED_EQ_CH1_COEF93 (0xff642000 + (0x230 << 2)) +#define P_AED_EQ_CH1_COEF93 (volatile uint32_t *)(0xff642000 + (0x230 << 2)) +#define AED_EQ_CH1_COEF94 (0xff642000 + (0x231 << 2)) +#define SEC_AED_EQ_CH1_COEF94 (0xff642000 + (0x231 << 2)) +#define P_AED_EQ_CH1_COEF94 (volatile uint32_t *)(0xff642000 + (0x231 << 2)) +#define AED_EQ_CH2_COEF00 (0xff642000 + (0x232 << 2)) +#define SEC_AED_EQ_CH2_COEF00 (0xff642000 + (0x232 << 2)) +#define P_AED_EQ_CH2_COEF00 (volatile uint32_t *)(0xff642000 + (0x232 << 2)) +#define AED_EQ_CH2_COEF01 (0xff642000 + (0x233 << 2)) +#define SEC_AED_EQ_CH2_COEF01 (0xff642000 + (0x233 << 2)) +#define P_AED_EQ_CH2_COEF01 (volatile uint32_t *)(0xff642000 + (0x233 << 2)) +#define AED_EQ_CH2_COEF02 (0xff642000 + (0x234 << 2)) +#define SEC_AED_EQ_CH2_COEF02 (0xff642000 + (0x234 << 2)) +#define P_AED_EQ_CH2_COEF02 (volatile uint32_t *)(0xff642000 + (0x234 << 2)) +#define AED_EQ_CH2_COEF03 (0xff642000 + (0x235 << 2)) +#define SEC_AED_EQ_CH2_COEF03 (0xff642000 + (0x235 << 2)) +#define P_AED_EQ_CH2_COEF03 (volatile uint32_t *)(0xff642000 + (0x235 << 2)) +#define AED_EQ_CH2_COEF04 (0xff642000 + (0x236 << 2)) +#define SEC_AED_EQ_CH2_COEF04 (0xff642000 + (0x236 << 2)) +#define P_AED_EQ_CH2_COEF04 (volatile uint32_t *)(0xff642000 + (0x236 << 2)) +#define AED_EQ_CH2_COEF10 (0xff642000 + (0x237 << 2)) +#define SEC_AED_EQ_CH2_COEF10 (0xff642000 + (0x237 << 2)) +#define P_AED_EQ_CH2_COEF10 (volatile uint32_t *)(0xff642000 + (0x237 << 2)) +#define AED_EQ_CH2_COEF11 (0xff642000 + (0x238 << 2)) +#define SEC_AED_EQ_CH2_COEF11 (0xff642000 + (0x238 << 2)) +#define P_AED_EQ_CH2_COEF11 (volatile uint32_t *)(0xff642000 + (0x238 << 2)) +#define AED_EQ_CH2_COEF12 (0xff642000 + (0x239 << 2)) +#define SEC_AED_EQ_CH2_COEF12 (0xff642000 + (0x239 << 2)) +#define P_AED_EQ_CH2_COEF12 (volatile uint32_t *)(0xff642000 + (0x239 << 2)) +#define AED_EQ_CH2_COEF13 (0xff642000 + (0x23a << 2)) +#define SEC_AED_EQ_CH2_COEF13 (0xff642000 + (0x23a << 2)) +#define P_AED_EQ_CH2_COEF13 (volatile uint32_t *)(0xff642000 + (0x23a << 2)) +#define AED_EQ_CH2_COEF14 (0xff642000 + (0x23b << 2)) +#define SEC_AED_EQ_CH2_COEF14 (0xff642000 + (0x23b << 2)) +#define P_AED_EQ_CH2_COEF14 (volatile uint32_t *)(0xff642000 + (0x23b << 2)) +#define AED_EQ_CH2_COEF20 (0xff642000 + (0x23c << 2)) +#define SEC_AED_EQ_CH2_COEF20 (0xff642000 + (0x23c << 2)) +#define P_AED_EQ_CH2_COEF20 (volatile uint32_t *)(0xff642000 + (0x23c << 2)) +#define AED_EQ_CH2_COEF21 (0xff642000 + (0x23d << 2)) +#define SEC_AED_EQ_CH2_COEF21 (0xff642000 + (0x23d << 2)) +#define P_AED_EQ_CH2_COEF21 (volatile uint32_t *)(0xff642000 + (0x23d << 2)) +#define AED_EQ_CH2_COEF22 (0xff642000 + (0x23e << 2)) +#define SEC_AED_EQ_CH2_COEF22 (0xff642000 + (0x23e << 2)) +#define P_AED_EQ_CH2_COEF22 (volatile uint32_t *)(0xff642000 + (0x23e << 2)) +#define AED_EQ_CH2_COEF23 (0xff642000 + (0x23f << 2)) +#define SEC_AED_EQ_CH2_COEF23 (0xff642000 + (0x23f << 2)) +#define P_AED_EQ_CH2_COEF23 (volatile uint32_t *)(0xff642000 + (0x23f << 2)) +#define AED_EQ_CH2_COEF24 (0xff642000 + (0x240 << 2)) +#define SEC_AED_EQ_CH2_COEF24 (0xff642000 + (0x240 << 2)) +#define P_AED_EQ_CH2_COEF24 (volatile uint32_t *)(0xff642000 + (0x240 << 2)) +#define AED_EQ_CH2_COEF30 (0xff642000 + (0x241 << 2)) +#define SEC_AED_EQ_CH2_COEF30 (0xff642000 + (0x241 << 2)) +#define P_AED_EQ_CH2_COEF30 (volatile uint32_t *)(0xff642000 + (0x241 << 2)) +#define AED_EQ_CH2_COEF31 (0xff642000 + (0x242 << 2)) +#define SEC_AED_EQ_CH2_COEF31 (0xff642000 + (0x242 << 2)) +#define P_AED_EQ_CH2_COEF31 (volatile uint32_t *)(0xff642000 + (0x242 << 2)) +#define AED_EQ_CH2_COEF32 (0xff642000 + (0x243 << 2)) +#define SEC_AED_EQ_CH2_COEF32 (0xff642000 + (0x243 << 2)) +#define P_AED_EQ_CH2_COEF32 (volatile uint32_t *)(0xff642000 + (0x243 << 2)) +#define AED_EQ_CH2_COEF33 (0xff642000 + (0x244 << 2)) +#define SEC_AED_EQ_CH2_COEF33 (0xff642000 + (0x244 << 2)) +#define P_AED_EQ_CH2_COEF33 (volatile uint32_t *)(0xff642000 + (0x244 << 2)) +#define AED_EQ_CH2_COEF34 (0xff642000 + (0x245 << 2)) +#define SEC_AED_EQ_CH2_COEF34 (0xff642000 + (0x245 << 2)) +#define P_AED_EQ_CH2_COEF34 (volatile uint32_t *)(0xff642000 + (0x245 << 2)) +#define AED_EQ_CH2_COEF40 (0xff642000 + (0x246 << 2)) +#define SEC_AED_EQ_CH2_COEF40 (0xff642000 + (0x246 << 2)) +#define P_AED_EQ_CH2_COEF40 (volatile uint32_t *)(0xff642000 + (0x246 << 2)) +#define AED_EQ_CH2_COEF41 (0xff642000 + (0x247 << 2)) +#define SEC_AED_EQ_CH2_COEF41 (0xff642000 + (0x247 << 2)) +#define P_AED_EQ_CH2_COEF41 (volatile uint32_t *)(0xff642000 + (0x247 << 2)) +#define AED_EQ_CH2_COEF42 (0xff642000 + (0x248 << 2)) +#define SEC_AED_EQ_CH2_COEF42 (0xff642000 + (0x248 << 2)) +#define P_AED_EQ_CH2_COEF42 (volatile uint32_t *)(0xff642000 + (0x248 << 2)) +#define AED_EQ_CH2_COEF43 (0xff642000 + (0x249 << 2)) +#define SEC_AED_EQ_CH2_COEF43 (0xff642000 + (0x249 << 2)) +#define P_AED_EQ_CH2_COEF43 (volatile uint32_t *)(0xff642000 + (0x249 << 2)) +#define AED_EQ_CH2_COEF44 (0xff642000 + (0x24a << 2)) +#define SEC_AED_EQ_CH2_COEF44 (0xff642000 + (0x24a << 2)) +#define P_AED_EQ_CH2_COEF44 (volatile uint32_t *)(0xff642000 + (0x24a << 2)) +#define AED_EQ_CH2_COEF50 (0xff642000 + (0x24b << 2)) +#define SEC_AED_EQ_CH2_COEF50 (0xff642000 + (0x24b << 2)) +#define P_AED_EQ_CH2_COEF50 (volatile uint32_t *)(0xff642000 + (0x24b << 2)) +#define AED_EQ_CH2_COEF51 (0xff642000 + (0x24c << 2)) +#define SEC_AED_EQ_CH2_COEF51 (0xff642000 + (0x24c << 2)) +#define P_AED_EQ_CH2_COEF51 (volatile uint32_t *)(0xff642000 + (0x24c << 2)) +#define AED_EQ_CH2_COEF52 (0xff642000 + (0x24d << 2)) +#define SEC_AED_EQ_CH2_COEF52 (0xff642000 + (0x24d << 2)) +#define P_AED_EQ_CH2_COEF52 (volatile uint32_t *)(0xff642000 + (0x24d << 2)) +#define AED_EQ_CH2_COEF53 (0xff642000 + (0x24e << 2)) +#define SEC_AED_EQ_CH2_COEF53 (0xff642000 + (0x24e << 2)) +#define P_AED_EQ_CH2_COEF53 (volatile uint32_t *)(0xff642000 + (0x24e << 2)) +#define AED_EQ_CH2_COEF54 (0xff642000 + (0x24f << 2)) +#define SEC_AED_EQ_CH2_COEF54 (0xff642000 + (0x24f << 2)) +#define P_AED_EQ_CH2_COEF54 (volatile uint32_t *)(0xff642000 + (0x24f << 2)) +#define AED_EQ_CH2_COEF60 (0xff642000 + (0x250 << 2)) +#define SEC_AED_EQ_CH2_COEF60 (0xff642000 + (0x250 << 2)) +#define P_AED_EQ_CH2_COEF60 (volatile uint32_t *)(0xff642000 + (0x250 << 2)) +#define AED_EQ_CH2_COEF61 (0xff642000 + (0x251 << 2)) +#define SEC_AED_EQ_CH2_COEF61 (0xff642000 + (0x251 << 2)) +#define P_AED_EQ_CH2_COEF61 (volatile uint32_t *)(0xff642000 + (0x251 << 2)) +#define AED_EQ_CH2_COEF62 (0xff642000 + (0x252 << 2)) +#define SEC_AED_EQ_CH2_COEF62 (0xff642000 + (0x252 << 2)) +#define P_AED_EQ_CH2_COEF62 (volatile uint32_t *)(0xff642000 + (0x252 << 2)) +#define AED_EQ_CH2_COEF63 (0xff642000 + (0x253 << 2)) +#define SEC_AED_EQ_CH2_COEF63 (0xff642000 + (0x253 << 2)) +#define P_AED_EQ_CH2_COEF63 (volatile uint32_t *)(0xff642000 + (0x253 << 2)) +#define AED_EQ_CH2_COEF64 (0xff642000 + (0x254 << 2)) +#define SEC_AED_EQ_CH2_COEF64 (0xff642000 + (0x254 << 2)) +#define P_AED_EQ_CH2_COEF64 (volatile uint32_t *)(0xff642000 + (0x254 << 2)) +#define AED_EQ_CH2_COEF70 (0xff642000 + (0x255 << 2)) +#define SEC_AED_EQ_CH2_COEF70 (0xff642000 + (0x255 << 2)) +#define P_AED_EQ_CH2_COEF70 (volatile uint32_t *)(0xff642000 + (0x255 << 2)) +#define AED_EQ_CH2_COEF71 (0xff642000 + (0x256 << 2)) +#define SEC_AED_EQ_CH2_COEF71 (0xff642000 + (0x256 << 2)) +#define P_AED_EQ_CH2_COEF71 (volatile uint32_t *)(0xff642000 + (0x256 << 2)) +#define AED_EQ_CH2_COEF72 (0xff642000 + (0x257 << 2)) +#define SEC_AED_EQ_CH2_COEF72 (0xff642000 + (0x257 << 2)) +#define P_AED_EQ_CH2_COEF72 (volatile uint32_t *)(0xff642000 + (0x257 << 2)) +#define AED_EQ_CH2_COEF73 (0xff642000 + (0x258 << 2)) +#define SEC_AED_EQ_CH2_COEF73 (0xff642000 + (0x258 << 2)) +#define P_AED_EQ_CH2_COEF73 (volatile uint32_t *)(0xff642000 + (0x258 << 2)) +#define AED_EQ_CH2_COEF74 (0xff642000 + (0x259 << 2)) +#define SEC_AED_EQ_CH2_COEF74 (0xff642000 + (0x259 << 2)) +#define P_AED_EQ_CH2_COEF74 (volatile uint32_t *)(0xff642000 + (0x259 << 2)) +#define AED_EQ_CH2_COEF80 (0xff642000 + (0x25a << 2)) +#define SEC_AED_EQ_CH2_COEF80 (0xff642000 + (0x25a << 2)) +#define P_AED_EQ_CH2_COEF80 (volatile uint32_t *)(0xff642000 + (0x25a << 2)) +#define AED_EQ_CH2_COEF81 (0xff642000 + (0x25b << 2)) +#define SEC_AED_EQ_CH2_COEF81 (0xff642000 + (0x25b << 2)) +#define P_AED_EQ_CH2_COEF81 (volatile uint32_t *)(0xff642000 + (0x25b << 2)) +#define AED_EQ_CH2_COEF82 (0xff642000 + (0x25c << 2)) +#define SEC_AED_EQ_CH2_COEF82 (0xff642000 + (0x25c << 2)) +#define P_AED_EQ_CH2_COEF82 (volatile uint32_t *)(0xff642000 + (0x25c << 2)) +#define AED_EQ_CH2_COEF83 (0xff642000 + (0x25d << 2)) +#define SEC_AED_EQ_CH2_COEF83 (0xff642000 + (0x25d << 2)) +#define P_AED_EQ_CH2_COEF83 (volatile uint32_t *)(0xff642000 + (0x25d << 2)) +#define AED_EQ_CH2_COEF84 (0xff642000 + (0x25e << 2)) +#define SEC_AED_EQ_CH2_COEF84 (0xff642000 + (0x25e << 2)) +#define P_AED_EQ_CH2_COEF84 (volatile uint32_t *)(0xff642000 + (0x25e << 2)) +#define AED_EQ_CH2_COEF90 (0xff642000 + (0x25f << 2)) +#define SEC_AED_EQ_CH2_COEF90 (0xff642000 + (0x25f << 2)) +#define P_AED_EQ_CH2_COEF90 (volatile uint32_t *)(0xff642000 + (0x25f << 2)) +#define AED_EQ_CH2_COEF91 (0xff642000 + (0x260 << 2)) +#define SEC_AED_EQ_CH2_COEF91 (0xff642000 + (0x260 << 2)) +#define P_AED_EQ_CH2_COEF91 (volatile uint32_t *)(0xff642000 + (0x260 << 2)) +#define AED_EQ_CH2_COEF92 (0xff642000 + (0x261 << 2)) +#define SEC_AED_EQ_CH2_COEF92 (0xff642000 + (0x261 << 2)) +#define P_AED_EQ_CH2_COEF92 (volatile uint32_t *)(0xff642000 + (0x261 << 2)) +#define AED_EQ_CH2_COEF93 (0xff642000 + (0x262 << 2)) +#define SEC_AED_EQ_CH2_COEF93 (0xff642000 + (0x262 << 2)) +#define P_AED_EQ_CH2_COEF93 (volatile uint32_t *)(0xff642000 + (0x262 << 2)) +#define AED_EQ_CH2_COEF94 (0xff642000 + (0x263 << 2)) +#define SEC_AED_EQ_CH2_COEF94 (0xff642000 + (0x263 << 2)) +#define P_AED_EQ_CH2_COEF94 (volatile uint32_t *)(0xff642000 + (0x263 << 2)) +#define AED_EQ_EN (0xff642000 + (0x264 << 2)) +#define SEC_AED_EQ_EN (0xff642000 + (0x264 << 2)) +#define P_AED_EQ_EN (volatile uint32_t *)(0xff642000 + (0x264 << 2)) +#define AED_EQ_VOLUME (0xff642000 + (0x265 << 2)) +#define SEC_AED_EQ_VOLUME (0xff642000 + (0x265 << 2)) +#define P_AED_EQ_VOLUME (volatile uint32_t *)(0xff642000 + (0x265 << 2)) +#define AED_EQ_VOLUME_SLEW_CNT (0xff642000 + (0x266 << 2)) +#define SEC_AED_EQ_VOLUME_SLEW_CNT (0xff642000 + (0x266 << 2)) +#define P_AED_EQ_VOLUME_SLEW_CNT (volatile uint32_t *)(0xff642000 + (0x266 << 2)) +#define AED_MUTE (0xff642000 + (0x267 << 2)) +#define SEC_AED_MUTE (0xff642000 + (0x267 << 2)) +#define P_AED_MUTE (volatile uint32_t *)(0xff642000 + (0x267 << 2)) +#define AED_DRC_EN (0xff642000 + (0x268 << 2)) +#define SEC_AED_DRC_EN (0xff642000 + (0x268 << 2)) +#define P_AED_DRC_EN (volatile uint32_t *)(0xff642000 + (0x268 << 2)) +#define AED_DRC_AE (0xff642000 + (0x269 << 2)) +#define SEC_AED_DRC_AE (0xff642000 + (0x269 << 2)) +#define P_AED_DRC_AE (volatile uint32_t *)(0xff642000 + (0x269 << 2)) +#define AED_DRC_AA (0xff642000 + (0x26a << 2)) +#define SEC_AED_DRC_AA (0xff642000 + (0x26a << 2)) +#define P_AED_DRC_AA (volatile uint32_t *)(0xff642000 + (0x26a << 2)) +#define AED_DRC_AD (0xff642000 + (0x26b << 2)) +#define SEC_AED_DRC_AD (0xff642000 + (0x26b << 2)) +#define P_AED_DRC_AD (volatile uint32_t *)(0xff642000 + (0x26b << 2)) +#define AED_DRC_AE_1M (0xff642000 + (0x26c << 2)) +#define SEC_AED_DRC_AE_1M (0xff642000 + (0x26c << 2)) +#define P_AED_DRC_AE_1M (volatile uint32_t *)(0xff642000 + (0x26c << 2)) +#define AED_DRC_AA_1M (0xff642000 + (0x26d << 2)) +#define SEC_AED_DRC_AA_1M (0xff642000 + (0x26d << 2)) +#define P_AED_DRC_AA_1M (volatile uint32_t *)(0xff642000 + (0x26d << 2)) +#define AED_DRC_AD_1M (0xff642000 + (0x26e << 2)) +#define SEC_AED_DRC_AD_1M (0xff642000 + (0x26e << 2)) +#define P_AED_DRC_AD_1M (volatile uint32_t *)(0xff642000 + (0x26e << 2)) +#define AED_DRC_OFFSET0 (0xff642000 + (0x26f << 2)) +#define SEC_AED_DRC_OFFSET0 (0xff642000 + (0x26f << 2)) +#define P_AED_DRC_OFFSET0 (volatile uint32_t *)(0xff642000 + (0x26f << 2)) +#define AED_DRC_OFFSET1 (0xff642000 + (0x270 << 2)) +#define SEC_AED_DRC_OFFSET1 (0xff642000 + (0x270 << 2)) +#define P_AED_DRC_OFFSET1 (volatile uint32_t *)(0xff642000 + (0x270 << 2)) +#define AED_DRC_THD0 (0xff642000 + (0x271 << 2)) +#define SEC_AED_DRC_THD0 (0xff642000 + (0x271 << 2)) +#define P_AED_DRC_THD0 (volatile uint32_t *)(0xff642000 + (0x271 << 2)) +#define AED_DRC_THD1 (0xff642000 + (0x272 << 2)) +#define SEC_AED_DRC_THD1 (0xff642000 + (0x272 << 2)) +#define P_AED_DRC_THD1 (volatile uint32_t *)(0xff642000 + (0x272 << 2)) +#define AED_DRC_K0 (0xff642000 + (0x273 << 2)) +#define SEC_AED_DRC_K0 (0xff642000 + (0x273 << 2)) +#define P_AED_DRC_K0 (volatile uint32_t *)(0xff642000 + (0x273 << 2)) +#define AED_DRC_K1 (0xff642000 + (0x274 << 2)) +#define SEC_AED_DRC_K1 (0xff642000 + (0x274 << 2)) +#define P_AED_DRC_K1 (volatile uint32_t *)(0xff642000 + (0x274 << 2)) +#define AED_CLIP_THD (0xff642000 + (0x275 << 2)) +#define SEC_AED_CLIP_THD (0xff642000 + (0x275 << 2)) +#define P_AED_CLIP_THD (volatile uint32_t *)(0xff642000 + (0x275 << 2)) +#define AED_NG_THD0 (0xff642000 + (0x276 << 2)) +#define SEC_AED_NG_THD0 (0xff642000 + (0x276 << 2)) +#define P_AED_NG_THD0 (volatile uint32_t *)(0xff642000 + (0x276 << 2)) +#define AED_NG_THD1 (0xff642000 + (0x277 << 2)) +#define SEC_AED_NG_THD1 (0xff642000 + (0x277 << 2)) +#define P_AED_NG_THD1 (volatile uint32_t *)(0xff642000 + (0x277 << 2)) +#define AED_NG_CNT_THD (0xff642000 + (0x278 << 2)) +#define SEC_AED_NG_CNT_THD (0xff642000 + (0x278 << 2)) +#define P_AED_NG_CNT_THD (volatile uint32_t *)(0xff642000 + (0x278 << 2)) +#define AED_NG_CTL (0xff642000 + (0x279 << 2)) +#define SEC_AED_NG_CTL (0xff642000 + (0x279 << 2)) +#define P_AED_NG_CTL (volatile uint32_t *)(0xff642000 + (0x279 << 2)) +#define AED_ED_CTL (0xff642000 + (0x27a << 2)) +#define SEC_AED_ED_CTL (0xff642000 + (0x27a << 2)) +#define P_AED_ED_CTL (volatile uint32_t *)(0xff642000 + (0x27a << 2)) +#define AED_DEBUG0 (0xff642000 + (0x27b << 2)) +#define SEC_AED_DEBUG0 (0xff642000 + (0x27b << 2)) +#define P_AED_DEBUG0 (volatile uint32_t *)(0xff642000 + (0x27b << 2)) +#define AED_DEBUG1 (0xff642000 + (0x27c << 2)) +#define SEC_AED_DEBUG1 (0xff642000 + (0x27c << 2)) +#define P_AED_DEBUG1 (volatile uint32_t *)(0xff642000 + (0x27c << 2)) +#define AED_DEBUG2 (0xff642000 + (0x27d << 2)) +#define SEC_AED_DEBUG2 (0xff642000 + (0x27d << 2)) +#define P_AED_DEBUG2 (volatile uint32_t *)(0xff642000 + (0x27d << 2)) +#define AED_DEBUG3 (0xff642000 + (0x27e << 2)) +#define SEC_AED_DEBUG3 (0xff642000 + (0x27e << 2)) +#define P_AED_DEBUG3 (volatile uint32_t *)(0xff642000 + (0x27e << 2)) +#define AED_DEBUG4 (0xff642000 + (0x27f << 2)) +#define SEC_AED_DEBUG4 (0xff642000 + (0x27f << 2)) +#define P_AED_DEBUG4 (volatile uint32_t *)(0xff642000 + (0x27f << 2)) +#define AED_DEBUG5 (0xff642000 + (0x280 << 2)) +#define SEC_AED_DEBUG5 (0xff642000 + (0x280 << 2)) +#define P_AED_DEBUG5 (volatile uint32_t *)(0xff642000 + (0x280 << 2)) +#define AED_DEBUG6 (0xff642000 + (0x281 << 2)) +#define SEC_AED_DEBUG6 (0xff642000 + (0x281 << 2)) +#define P_AED_DEBUG6 (volatile uint32_t *)(0xff642000 + (0x281 << 2)) +#define AED_DRC_AA_H (0xff642000 + (0x282 << 2)) +#define SEC_AED_DRC_AA_H (0xff642000 + (0x282 << 2)) +#define P_AED_DRC_AA_H (volatile uint32_t *)(0xff642000 + (0x282 << 2)) +#define AED_DRC_AD_H (0xff642000 + (0x283 << 2)) +#define SEC_AED_DRC_AD_H (0xff642000 + (0x283 << 2)) +#define P_AED_DRC_AD_H (volatile uint32_t *)(0xff642000 + (0x283 << 2)) +#define AED_DRC_AA_1M_H (0xff642000 + (0x284 << 2)) +#define SEC_AED_DRC_AA_1M_H (0xff642000 + (0x284 << 2)) +#define P_AED_DRC_AA_1M_H (volatile uint32_t *)(0xff642000 + (0x284 << 2)) +#define AED_DRC_AD_1M_H (0xff642000 + (0x285 << 2)) +#define SEC_AED_DRC_AD_1M_H (0xff642000 + (0x285 << 2)) +#define P_AED_DRC_AD_1M_H (volatile uint32_t *)(0xff642000 + (0x285 << 2)) +#define AED_NG_CNT (0xff642000 + (0x286 << 2)) +#define SEC_AED_NG_CNT (0xff642000 + (0x286 << 2)) +#define P_AED_NG_CNT (volatile uint32_t *)(0xff642000 + (0x286 << 2)) +#define AED_NG_STEP (0xff642000 + (0x287 << 2)) +#define SEC_AED_NG_STEP (0xff642000 + (0x287 << 2)) +#define P_AED_NG_STEP (volatile uint32_t *)(0xff642000 + (0x287 << 2)) +#define AED_TOP_CTL (0xff642000 + (0x288 << 2)) +#define SEC_AED_TOP_CTL (0xff642000 + (0x288 << 2)) +#define P_AED_TOP_CTL (volatile uint32_t *)(0xff642000 + (0x288 << 2)) +#define AED_TOP_REQ_CTL (0xff642000 + (0x289 << 2)) +#define SEC_AED_TOP_REQ_CTL (0xff642000 + (0x289 << 2)) +#define P_AED_TOP_REQ_CTL (volatile uint32_t *)(0xff642000 + (0x289 << 2)) +//======================================================================== +// HIU - Registers +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF63C000 +// APB4_DECODER_SECURE_BASE 32'hFF63C000 +#define HHI_MIPI_CNTL0 (0xff63c000 + (0x000 << 2)) +#define SEC_HHI_MIPI_CNTL0 (0xff63c000 + (0x000 << 2)) +#define P_HHI_MIPI_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x000 << 2)) +#define HHI_MIPI_CNTL1 (0xff63c000 + (0x001 << 2)) +#define SEC_HHI_MIPI_CNTL1 (0xff63c000 + (0x001 << 2)) +#define P_HHI_MIPI_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x001 << 2)) +#define HHI_MIPI_CNTL2 (0xff63c000 + (0x002 << 2)) +#define SEC_HHI_MIPI_CNTL2 (0xff63c000 + (0x002 << 2)) +#define P_HHI_MIPI_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x002 << 2)) +#define HHI_MIPI_STS (0xff63c000 + (0x003 << 2)) +#define SEC_HHI_MIPI_STS (0xff63c000 + (0x003 << 2)) +#define P_HHI_MIPI_STS (volatile uint32_t *)(0xff63c000 + (0x003 << 2)) +#define HHI_CHECK_CLK_RESULT (0xff63c000 + (0x004 << 2)) +#define SEC_HHI_CHECK_CLK_RESULT (0xff63c000 + (0x004 << 2)) +#define P_HHI_CHECK_CLK_RESULT (volatile uint32_t *)(0xff63c000 + (0x004 << 2)) +#define SCR_HIU (0xff63c000 + (0x00b << 2)) +#define SEC_SCR_HIU (0xff63c000 + (0x00b << 2)) +#define P_SCR_HIU (volatile uint32_t *)(0xff63c000 + (0x00b << 2)) +//`define HHI_SYS_STS 8'h0c +#define HPG_TIMER (0xff63c000 + (0x00f << 2)) +#define SEC_HPG_TIMER (0xff63c000 + (0x00f << 2)) +#define P_HPG_TIMER (volatile uint32_t *)(0xff63c000 + (0x00f << 2)) +#define HHI_GP0_PLL_CNTL0 (0xff63c000 + (0x010 << 2)) +#define SEC_HHI_GP0_PLL_CNTL0 (0xff63c000 + (0x010 << 2)) +#define P_HHI_GP0_PLL_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x010 << 2)) +#define HHI_GP0_PLL_CNTL1 (0xff63c000 + (0x011 << 2)) +#define SEC_HHI_GP0_PLL_CNTL1 (0xff63c000 + (0x011 << 2)) +#define P_HHI_GP0_PLL_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x011 << 2)) +#define HHI_GP0_PLL_CNTL2 (0xff63c000 + (0x012 << 2)) +#define SEC_HHI_GP0_PLL_CNTL2 (0xff63c000 + (0x012 << 2)) +#define P_HHI_GP0_PLL_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x012 << 2)) +#define HHI_GP0_PLL_CNTL3 (0xff63c000 + (0x013 << 2)) +#define SEC_HHI_GP0_PLL_CNTL3 (0xff63c000 + (0x013 << 2)) +#define P_HHI_GP0_PLL_CNTL3 (volatile uint32_t *)(0xff63c000 + (0x013 << 2)) +#define HHI_GP0_PLL_CNTL4 (0xff63c000 + (0x014 << 2)) +#define SEC_HHI_GP0_PLL_CNTL4 (0xff63c000 + (0x014 << 2)) +#define P_HHI_GP0_PLL_CNTL4 (volatile uint32_t *)(0xff63c000 + (0x014 << 2)) +#define HHI_GP0_PLL_CNTL5 (0xff63c000 + (0x015 << 2)) +#define SEC_HHI_GP0_PLL_CNTL5 (0xff63c000 + (0x015 << 2)) +#define P_HHI_GP0_PLL_CNTL5 (volatile uint32_t *)(0xff63c000 + (0x015 << 2)) +#define HHI_GP0_PLL_CNTL6 (0xff63c000 + (0x016 << 2)) +#define SEC_HHI_GP0_PLL_CNTL6 (0xff63c000 + (0x016 << 2)) +#define P_HHI_GP0_PLL_CNTL6 (volatile uint32_t *)(0xff63c000 + (0x016 << 2)) +#define HHI_GP0_PLL_STS (0xff63c000 + (0x017 << 2)) +#define SEC_HHI_GP0_PLL_STS (0xff63c000 + (0x017 << 2)) +#define P_HHI_GP0_PLL_STS (volatile uint32_t *)(0xff63c000 + (0x017 << 2)) +//`define HHI_GP1_PLL_CNTL0 8'h18 +//`define HHI_GP1_PLL_CNTL1 8'h19 +//`define HHI_GP1_PLL_CNTL2 8'h1a +//`define HHI_GP1_PLL_CNTL3 8'h1b +//`define HHI_GP1_PLL_CNTL4 8'h1c +//`define HHI_GP1_PLL_CNTL5 8'h1d +//`define HHI_GP1_PLL_CNTL6 8'h1e +//`define HHI_GP1_PLL_STS 8'h1f +//`define HHI_CADC_CNTL 8'h20 +//`define HHI_CADC_CNTL2 8'h21 +//`define HHI_CADC_CNTL3 8'h22 +//`define HHI_CADC_CNTL4 8'h23 +//`define HHI_CADC_CNTL5 8'h24 +//`define HHI_CADC_CNTL6 8'h25 +#define HHI_PCIE_PLL_CNTL0 (0xff63c000 + (0x026 << 2)) +#define SEC_HHI_PCIE_PLL_CNTL0 (0xff63c000 + (0x026 << 2)) +#define P_HHI_PCIE_PLL_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x026 << 2)) +#define HHI_PCIE_PLL_CNTL1 (0xff63c000 + (0x027 << 2)) +#define SEC_HHI_PCIE_PLL_CNTL1 (0xff63c000 + (0x027 << 2)) +#define P_HHI_PCIE_PLL_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x027 << 2)) +#define HHI_PCIE_PLL_CNTL2 (0xff63c000 + (0x028 << 2)) +#define SEC_HHI_PCIE_PLL_CNTL2 (0xff63c000 + (0x028 << 2)) +#define P_HHI_PCIE_PLL_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x028 << 2)) +#define HHI_PCIE_PLL_CNTL3 (0xff63c000 + (0x029 << 2)) +#define SEC_HHI_PCIE_PLL_CNTL3 (0xff63c000 + (0x029 << 2)) +#define P_HHI_PCIE_PLL_CNTL3 (volatile uint32_t *)(0xff63c000 + (0x029 << 2)) +#define HHI_PCIE_PLL_CNTL4 (0xff63c000 + (0x02a << 2)) +#define SEC_HHI_PCIE_PLL_CNTL4 (0xff63c000 + (0x02a << 2)) +#define P_HHI_PCIE_PLL_CNTL4 (volatile uint32_t *)(0xff63c000 + (0x02a << 2)) +#define HHI_PCIE_PLL_CNTL5 (0xff63c000 + (0x02b << 2)) +#define SEC_HHI_PCIE_PLL_CNTL5 (0xff63c000 + (0x02b << 2)) +#define P_HHI_PCIE_PLL_CNTL5 (volatile uint32_t *)(0xff63c000 + (0x02b << 2)) +#define HHI_PCIE_PLL_STS (0xff63c000 + (0x02c << 2)) +#define SEC_HHI_PCIE_PLL_STS (0xff63c000 + (0x02c << 2)) +#define P_HHI_PCIE_PLL_STS (volatile uint32_t *)(0xff63c000 + (0x02c << 2)) +//`define HHI_DADC_CNTL 8'h27 +//`define HHI_DADC_CNTL2 8'h28 +//`define HHI_DADC_RDBK0_I 8'h29 +//`define HHI_DADC_CNTL3 8'h2a +//`define HHI_DADC_CNTL4 8'h2b +//`define HHI_AFE_TUNNING_CNTL 8'h2c +//`define HHI_AFE_TUNNING_CNTL_I 8'h2d +//`define HHI_CVBS_DETECT_CNTL 8'h2e +#define HHI_XTAL_DIVN_CNTL (0xff63c000 + (0x02f << 2)) +#define SEC_HHI_XTAL_DIVN_CNTL (0xff63c000 + (0x02f << 2)) +#define P_HHI_XTAL_DIVN_CNTL (volatile uint32_t *)(0xff63c000 + (0x02f << 2)) +#define HHI_GCLK2_MPEG0 (0xff63c000 + (0x030 << 2)) +#define SEC_HHI_GCLK2_MPEG0 (0xff63c000 + (0x030 << 2)) +#define P_HHI_GCLK2_MPEG0 (volatile uint32_t *)(0xff63c000 + (0x030 << 2)) +#define HHI_GCLK2_MPEG1 (0xff63c000 + (0x031 << 2)) +#define SEC_HHI_GCLK2_MPEG1 (0xff63c000 + (0x031 << 2)) +#define P_HHI_GCLK2_MPEG1 (volatile uint32_t *)(0xff63c000 + (0x031 << 2)) +#define HHI_GCLK2_MPEG2 (0xff63c000 + (0x032 << 2)) +#define SEC_HHI_GCLK2_MPEG2 (0xff63c000 + (0x032 << 2)) +#define P_HHI_GCLK2_MPEG2 (volatile uint32_t *)(0xff63c000 + (0x032 << 2)) +#define HHI_GCLK2_OTHER (0xff63c000 + (0x034 << 2)) +#define SEC_HHI_GCLK2_OTHER (0xff63c000 + (0x034 << 2)) +#define P_HHI_GCLK2_OTHER (volatile uint32_t *)(0xff63c000 + (0x034 << 2)) +//`define HHI_GCLK2_AO 8'h35 +#define HHI_HIFI_PLL_CNTL0 (0xff63c000 + (0x036 << 2)) +#define SEC_HHI_HIFI_PLL_CNTL0 (0xff63c000 + (0x036 << 2)) +#define P_HHI_HIFI_PLL_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x036 << 2)) +#define HHI_HIFI_PLL_CNTL1 (0xff63c000 + (0x037 << 2)) +#define SEC_HHI_HIFI_PLL_CNTL1 (0xff63c000 + (0x037 << 2)) +#define P_HHI_HIFI_PLL_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x037 << 2)) +#define HHI_HIFI_PLL_CNTL2 (0xff63c000 + (0x038 << 2)) +#define SEC_HHI_HIFI_PLL_CNTL2 (0xff63c000 + (0x038 << 2)) +#define P_HHI_HIFI_PLL_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x038 << 2)) +#define HHI_HIFI_PLL_CNTL3 (0xff63c000 + (0x039 << 2)) +#define SEC_HHI_HIFI_PLL_CNTL3 (0xff63c000 + (0x039 << 2)) +#define P_HHI_HIFI_PLL_CNTL3 (volatile uint32_t *)(0xff63c000 + (0x039 << 2)) +#define HHI_HIFI_PLL_CNTL4 (0xff63c000 + (0x03a << 2)) +#define SEC_HHI_HIFI_PLL_CNTL4 (0xff63c000 + (0x03a << 2)) +#define P_HHI_HIFI_PLL_CNTL4 (volatile uint32_t *)(0xff63c000 + (0x03a << 2)) +#define HHI_HIFI_PLL_CNTL5 (0xff63c000 + (0x03b << 2)) +#define SEC_HHI_HIFI_PLL_CNTL5 (0xff63c000 + (0x03b << 2)) +#define P_HHI_HIFI_PLL_CNTL5 (volatile uint32_t *)(0xff63c000 + (0x03b << 2)) +#define HHI_HIFI_PLL_CNTL6 (0xff63c000 + (0x03c << 2)) +#define SEC_HHI_HIFI_PLL_CNTL6 (0xff63c000 + (0x03c << 2)) +#define P_HHI_HIFI_PLL_CNTL6 (volatile uint32_t *)(0xff63c000 + (0x03c << 2)) +#define HHI_HIFI_PLL_STS (0xff63c000 + (0x03d << 2)) +#define SEC_HHI_HIFI_PLL_STS (0xff63c000 + (0x03d << 2)) +#define P_HHI_HIFI_PLL_STS (volatile uint32_t *)(0xff63c000 + (0x03d << 2)) +#define HHI_TIMER90K (0xff63c000 + (0x03f << 2)) +#define SEC_HHI_TIMER90K (0xff63c000 + (0x03f << 2)) +#define P_HHI_TIMER90K (volatile uint32_t *)(0xff63c000 + (0x03f << 2)) +#define HHI_MEM_PD_REG0 (0xff63c000 + (0x040 << 2)) +#define SEC_HHI_MEM_PD_REG0 (0xff63c000 + (0x040 << 2)) +#define P_HHI_MEM_PD_REG0 (volatile uint32_t *)(0xff63c000 + (0x040 << 2)) +//VIU1 +//bit 29:28 mem_pd_vi_sharp, 2'b00: Sharpness line buffer memory power on, 2'b11: power down +//bit 29:28 mem_pd_vi_dipost, 2'b00: Deinterlace - di_post memory power on, 2'b11: power down +//bit 27:26 mem_pd_vi_dipre, 2'b00: Deinterlace - di_pre memory power on, 2'b11: power down +//bit 25:24 mem_pd_vi_prot3, 2'b00: picture rotation3 memory power on, 2'b11: power down +//bit 23:22 mem_pd_vi_prot2, 2'b00: picture rotation2 memory power on, 2'b11: power down +//bit 21:20 mem_pd_vi_prot1, 2'b00: picture rotation1 memory power on, 2'b11: power down +//bit 19:18 mem_pd_vi_vdin1, 2'b00: vdin1 memory power on, 2'b11: power down +//bit 17:16 mem_pd_vi_vdin0, 2'b00: vdin0 memory power on, 2'b11: power down +//bit 15:14 mem_pd_vi_osd_sc, 2'b00: osd_scaler memory power on, 2'b11: power down +//bit 13:12 mem_pd_vi_scale, 2'b00: scaler memory power on, 2'b11: power down +//bit 11:10 mem_pd_vi_ofifo, 2'b00: vpp output fifo memory power on, 2'b11: power down +//bit 9:8 mem_pd_vi_chroma, 2'b00: color management module memory power on, 2'b11: power down +//bit 7:6 mem_pd_vi_vd2, 2'b00: vd2 memory power on, 2'b11: power down +//bit 5:4 mem_pd_vi_vd1, 2'b00: vd1 memory power on, 2'b11: power down +//bit 3:2 mem_pd_vi_osd2, 2'b00: osd2 memory power on, 2'b11: power down +//bit 1:0 mem_pd_vi_osd1, 2'b00: osd1 memory power on, 2'b11: power down +#define HHI_VPU_MEM_PD_REG0 (0xff63c000 + (0x041 << 2)) +#define SEC_HHI_VPU_MEM_PD_REG0 (0xff63c000 + (0x041 << 2)) +#define P_HHI_VPU_MEM_PD_REG0 (volatile uint32_t *)(0xff63c000 + (0x041 << 2)) +//bit 29:28 mem_pd_atv_dmd, 2'b00: ATV DMD memory power on, 2'b11: power down +//bit 29:28 mem_pd_cvd2, 2'b00: CVD2 memory power on, 2'b11: power down +//bit 27:26 mem_pd_isp, 2'b00: ISP memory power on, 2'b11: power down +//bit 25:24 mem_pd_venci_int, 2'b00: cvbs- enci interface memory power on, 2'b11: power down +//bit 23:22 mem_pd_venc_l_top,2'b00: panel - encl top memory power on, 2'b11: power down +//bit 21:20 mem_pd_vencp_int, 2'b00: hdmi - encp interface memory power on, 2'b11: power down +//bit 13:12 mem_pd_vi2_osd_sc,2'b00: viu2 OSD scaler memory power on, 2'b11: power down +//bit 11:10 mem_pd_vi2_scale, 2'b00: viu2 scaler memory power on, 2'b11: power down +//bit 9:8 mem_pd_vi2_ofifo, 2'b00: viu2 vpp output fifo memory power on, 2'b11: power down +//bit 7:6 mem_pd_vi2_chroma,2'b00: viu2 color management module memory power on, 2'b11: power down +//bit 5:4 mem_pd_vi2_vd1, 2'b00: viu2 vd1 memory power on, 2'b11: power down +//bit 3:2 mem_pd_vi2_osd2, 2'b00: viu2 osd2 memory power on, 2'b11: power down +//bit 1:0 mem_pd_vi2_osd1, 2'b00: viu2 osd1 memory power on, 2'b11: power down +#define HHI_VPU_MEM_PD_REG1 (0xff63c000 + (0x042 << 2)) +#define SEC_HHI_VPU_MEM_PD_REG1 (0xff63c000 + (0x042 << 2)) +#define P_HHI_VPU_MEM_PD_REG1 (volatile uint32_t *)(0xff63c000 + (0x042 << 2)) +#define HHI_VPU_MEM_PD_REG3 (0xff63c000 + (0x043 << 2)) +#define SEC_HHI_VPU_MEM_PD_REG3 (0xff63c000 + (0x043 << 2)) +#define P_HHI_VPU_MEM_PD_REG3 (volatile uint32_t *)(0xff63c000 + (0x043 << 2)) +#define HHI_VPU_MEM_PD_REG4 (0xff63c000 + (0x044 << 2)) +#define SEC_HHI_VPU_MEM_PD_REG4 (0xff63c000 + (0x044 << 2)) +#define P_HHI_VPU_MEM_PD_REG4 (volatile uint32_t *)(0xff63c000 + (0x044 << 2)) +//`define HHI_DEMOD_MEM_PD_REG 8'h43 +//`define HHI_AUD_DAC_CTRL 8'h44 +// `define HHI_VIID_PLL_CNTL4 8'h46 // video PLL read back +// `define HHI_VIID_PLL_CNTL 8'h47 // Video PLL control, word 1 +// `define HHI_VIID_PLL_CNTL2 8'h48 // Video PLL control, word 2 +// `define HHI_VIID_PLL_CNTL3 8'h49 // Video PLL control, word 3 +#define HHI_VIID_CLK_DIV (0xff63c000 + (0x04a << 2)) +#define SEC_HHI_VIID_CLK_DIV (0xff63c000 + (0x04a << 2)) +#define P_HHI_VIID_CLK_DIV (volatile uint32_t *)(0xff63c000 + (0x04a << 2)) +#define HHI_VIID_CLK_CNTL (0xff63c000 + (0x04b << 2)) +#define SEC_HHI_VIID_CLK_CNTL (0xff63c000 + (0x04b << 2)) +#define P_HHI_VIID_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x04b << 2)) +//`define HHI_VIID_DIVIDER_CNTL 8'h4c +//bit 1:0 mem_pd_vi_wm, 2'b00: viu1 wm memory power on, 2'b11: power down +#define HHI_VPU_MEM_PD_REG2 (0xff63c000 + (0x04d << 2)) +#define SEC_HHI_VPU_MEM_PD_REG2 (0xff63c000 + (0x04d << 2)) +#define P_HHI_VPU_MEM_PD_REG2 (volatile uint32_t *)(0xff63c000 + (0x04d << 2)) +// Gated clock enables. There are 64 enables for the MPEG clocks and 32 enables for other clock domains +#define HHI_GCLK_LOCK (0xff63c000 + (0x04f << 2)) +#define SEC_HHI_GCLK_LOCK (0xff63c000 + (0x04f << 2)) +#define P_HHI_GCLK_LOCK (volatile uint32_t *)(0xff63c000 + (0x04f << 2)) +#define HHI_GCLK_MPEG0 (0xff63c000 + (0x050 << 2)) +#define SEC_HHI_GCLK_MPEG0 (0xff63c000 + (0x050 << 2)) +#define P_HHI_GCLK_MPEG0 (volatile uint32_t *)(0xff63c000 + (0x050 << 2)) +#define HHI_GCLK_MPEG1 (0xff63c000 + (0x051 << 2)) +#define SEC_HHI_GCLK_MPEG1 (0xff63c000 + (0x051 << 2)) +#define P_HHI_GCLK_MPEG1 (volatile uint32_t *)(0xff63c000 + (0x051 << 2)) +#define HHI_GCLK_MPEG2 (0xff63c000 + (0x052 << 2)) +#define SEC_HHI_GCLK_MPEG2 (0xff63c000 + (0x052 << 2)) +#define P_HHI_GCLK_MPEG2 (volatile uint32_t *)(0xff63c000 + (0x052 << 2)) +#define HHI_GCLK_OTHER (0xff63c000 + (0x054 << 2)) +#define SEC_HHI_GCLK_OTHER (0xff63c000 + (0x054 << 2)) +#define P_HHI_GCLK_OTHER (volatile uint32_t *)(0xff63c000 + (0x054 << 2)) +#define HHI_GCLK_SP_MPEG (0xff63c000 + (0x055 << 2)) +#define SEC_HHI_GCLK_SP_MPEG (0xff63c000 + (0x055 << 2)) +#define P_HHI_GCLK_SP_MPEG (volatile uint32_t *)(0xff63c000 + (0x055 << 2)) +//`define HHI_SYS_OSCIN_CNTL 8'h56 +#define HHI_SYS_CPU_CLK_CNTL1 (0xff63c000 + (0x057 << 2)) +#define SEC_HHI_SYS_CPU_CLK_CNTL1 (0xff63c000 + (0x057 << 2)) +#define P_HHI_SYS_CPU_CLK_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x057 << 2)) +#define HHI_SYS_CPU_RESET_CNTL (0xff63c000 + (0x058 << 2)) +#define SEC_HHI_SYS_CPU_RESET_CNTL (0xff63c000 + (0x058 << 2)) +#define P_HHI_SYS_CPU_RESET_CNTL (volatile uint32_t *)(0xff63c000 + (0x058 << 2)) +// PLL Controls +#define HHI_VID_CLK_DIV (0xff63c000 + (0x059 << 2)) +#define SEC_HHI_VID_CLK_DIV (0xff63c000 + (0x059 << 2)) +#define P_HHI_VID_CLK_DIV (volatile uint32_t *)(0xff63c000 + (0x059 << 2)) +#define HHI_MPEG_CLK_CNTL (0xff63c000 + (0x05d << 2)) +#define SEC_HHI_MPEG_CLK_CNTL (0xff63c000 + (0x05d << 2)) +#define P_HHI_MPEG_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x05d << 2)) +#define HHI_VID_CLK_CNTL (0xff63c000 + (0x05f << 2)) +#define SEC_HHI_VID_CLK_CNTL (0xff63c000 + (0x05f << 2)) +#define P_HHI_VID_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x05f << 2)) +//`define HHI_WIFI_CLK_CNTL 8'h60 // MPEG clock control +//`define HHI_WIFI_PLL_CNTL 8'h61 // WIFI PLL control, word 1 +//`define HHI_WIFI_PLL_CNTL2 8'h62 // WIFI PLL control, word 2 +//`define HHI_WIFI_PLL_CNTL3 8'h63 // WIFI PLL control, word 3 +#define HHI_TS_CLK_CNTL (0xff63c000 + (0x064 << 2)) +#define SEC_HHI_TS_CLK_CNTL (0xff63c000 + (0x064 << 2)) +#define P_HHI_TS_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x064 << 2)) +#define HHI_VID_CLK_CNTL2 (0xff63c000 + (0x065 << 2)) +#define SEC_HHI_VID_CLK_CNTL2 (0xff63c000 + (0x065 << 2)) +#define P_HHI_VID_CLK_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x065 << 2)) +//`define HHI_VID_DIVIDER_CNTL 8'h66 +#define HHI_SYS_CPU_CLK_CNTL (0xff63c000 + (0x067 << 2)) +#define SEC_HHI_SYS_CPU_CLK_CNTL (0xff63c000 + (0x067 << 2)) +#define P_HHI_SYS_CPU_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x067 << 2)) +#define HHI_VID_PLL_CLK_DIV (0xff63c000 + (0x068 << 2)) +#define SEC_HHI_VID_PLL_CLK_DIV (0xff63c000 + (0x068 << 2)) +#define P_HHI_VID_PLL_CLK_DIV (volatile uint32_t *)(0xff63c000 + (0x068 << 2)) +// Moved to Martin's domain `define HHI_DDR_PLL_CNTL 8'h68 // DDR PLL control, word 1 +// Moved to Martin's domain `define HHI_DDR_PLL_CNTL2 8'h69 // DDR PLL control, word 2 +// Moved to Martin's domain `define HHI_DDR_PLL_CNTL3 8'h6a // DDR PLL control, word 3 +// Moved to Martin's domain `define HHI_DDR_PLL_CNTL4 8'h6b // DDR PLL control, word 3 +#define HHI_MALI_CLK_CNTL (0xff63c000 + (0x06c << 2)) +#define SEC_HHI_MALI_CLK_CNTL (0xff63c000 + (0x06c << 2)) +#define P_HHI_MALI_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x06c << 2)) +#define HHI_VPU_CLKC_CNTL (0xff63c000 + (0x06d << 2)) +#define SEC_HHI_VPU_CLKC_CNTL (0xff63c000 + (0x06d << 2)) +#define P_HHI_VPU_CLKC_CNTL (volatile uint32_t *)(0xff63c000 + (0x06d << 2)) +//`define HHI_MIPI_PHY_CLK_CNTL 8'h6e +#define HHI_VPU_CLK_CNTL (0xff63c000 + (0x06f << 2)) +#define SEC_HHI_VPU_CLK_CNTL (0xff63c000 + (0x06f << 2)) +#define P_HHI_VPU_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x06f << 2)) +//`define HHI_OTHER_PLL_CNTL 8'h70 // OTHER PLL control, word 1 +//`define HHI_OTHER_PLL_CNTL2 8'h71 // OTHER PLL control, word 2 +//`define HHI_OTHER_PLL_CNTL3 8'h72 // OTHER PLL control, word 3 +#define HHI_HDMI_CLK_CNTL (0xff63c000 + (0x073 << 2)) +#define SEC_HHI_HDMI_CLK_CNTL (0xff63c000 + (0x073 << 2)) +#define P_HHI_HDMI_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x073 << 2)) +//`define HHI_DEMOD_CLK_CNTL 8'h74 // DEMOD clock control +//`define HHI_SATA_CLK_CNTL 8'h75 // SATA clock control +#define HHI_ETH_CLK_CNTL (0xff63c000 + (0x076 << 2)) +#define SEC_HHI_ETH_CLK_CNTL (0xff63c000 + (0x076 << 2)) +#define P_HHI_ETH_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x076 << 2)) +//`define HHI_CLK_DOUBLE_CNTL 8'h77 // Ethernet clock control +#define HHI_VDEC_CLK_CNTL (0xff63c000 + (0x078 << 2)) +#define SEC_HHI_VDEC_CLK_CNTL (0xff63c000 + (0x078 << 2)) +#define P_HHI_VDEC_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x078 << 2)) +#define HHI_VDEC2_CLK_CNTL (0xff63c000 + (0x079 << 2)) +#define SEC_HHI_VDEC2_CLK_CNTL (0xff63c000 + (0x079 << 2)) +#define P_HHI_VDEC2_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x079 << 2)) +#define HHI_VDEC3_CLK_CNTL (0xff63c000 + (0x07a << 2)) +#define SEC_HHI_VDEC3_CLK_CNTL (0xff63c000 + (0x07a << 2)) +#define P_HHI_VDEC3_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x07a << 2)) +#define HHI_VDEC4_CLK_CNTL (0xff63c000 + (0x07b << 2)) +#define SEC_HHI_VDEC4_CLK_CNTL (0xff63c000 + (0x07b << 2)) +#define P_HHI_VDEC4_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x07b << 2)) +#define HHI_HDCP22_CLK_CNTL (0xff63c000 + (0x07c << 2)) +#define SEC_HHI_HDCP22_CLK_CNTL (0xff63c000 + (0x07c << 2)) +#define P_HHI_HDCP22_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x07c << 2)) +#define HHI_VAPBCLK_CNTL (0xff63c000 + (0x07d << 2)) +#define SEC_HHI_VAPBCLK_CNTL (0xff63c000 + (0x07d << 2)) +#define P_HHI_VAPBCLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x07d << 2)) +//`define HHI_VP9DEC_CLK_CNTL 8'h7e +// `define HHI_SYS_CPU_AUTO_CLK0 8'h78 never used +// `define HHI_SYS_CPU_AUTO_CLK1 8'h79 never used +// `define HHI_MEDIA_CPU_AUTO_CLK0 8'h7a never used +// `define HHI_MEDIA_CPU_AUTO_CLK1 8'h7b never used +//`define HHI_HDMI_AFC_CNTL 8'h7f +//`define HHI_HDMIRX_CLK_CNTL 8'h80 +//`define HHI_HDMIRX_AUD_CLK_CNTL 8'h81 +//`define HHI_EDP_APB_CLK_CNTL 8'h82 +#define HHI_VPU_CLKB_CNTL (0xff63c000 + (0x083 << 2)) +#define SEC_HHI_VPU_CLKB_CNTL (0xff63c000 + (0x083 << 2)) +#define P_HHI_VPU_CLKB_CNTL (volatile uint32_t *)(0xff63c000 + (0x083 << 2)) +//`define HHI_VID_PLL_MOD_CNTL0 8'h84 +//`define HHI_VID_PLL_MOD_LOW_TCNT 8'h85 +//`define HHI_VID_PLL_MOD_HIGH_TCNT 8'h86 +//`define HHI_VID_PLL_MOD_NOM_TCNT 8'h87 +// Removed `define HHI_DDR_CLK_CNTL 8'h88 +//`define HHI_32K_CLK_CNTL 8'h89 +#define HHI_GEN_CLK_CNTL (0xff63c000 + (0x08a << 2)) +#define SEC_HHI_GEN_CLK_CNTL (0xff63c000 + (0x08a << 2)) +#define P_HHI_GEN_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x08a << 2)) +//`define HHI_GEN_CLK_CNTL2 8'h8b +//`define HHI_AUDPLL_CLK_OUT_CNTL 8'h8c +//`define HHI_JTAG_CONFIG 8'h8e +//`define HHI_VAFE_CLKXTALIN_CNTL 8'h8f +//`define HHI_VAFE_CLKOSCIN_CNTL 8'h90 +//`define HHI_VAFE_CLKIN_CNTL 8'h91 +//`define HHI_TVFE_AUTOMODE_CLK_CNTL 8'h92 +//`define HHI_VAFE_CLKPI_CNTL 8'h93 +#define HHI_VDIN_MEAS_CLK_CNTL (0xff63c000 + (0x094 << 2)) +#define SEC_HHI_VDIN_MEAS_CLK_CNTL (0xff63c000 + (0x094 << 2)) +#define P_HHI_VDIN_MEAS_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x094 << 2)) +#define HHI_MIPIDSI_PHY_CLK_CNTL (0xff63c000 + (0x095 << 2)) +#define SEC_HHI_MIPIDSI_PHY_CLK_CNTL (0xff63c000 + (0x095 << 2)) +#define P_HHI_MIPIDSI_PHY_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x095 << 2)) +#define HHI_NAND_CLK_CNTL (0xff63c000 + (0x097 << 2)) +#define SEC_HHI_NAND_CLK_CNTL (0xff63c000 + (0x097 << 2)) +#define P_HHI_NAND_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x097 << 2)) +//`define HHI_ISP_LED_CLK_CNTL 8'h98 +#define HHI_SD_EMMC_CLK_CNTL (0xff63c000 + (0x099 << 2)) +#define SEC_HHI_SD_EMMC_CLK_CNTL (0xff63c000 + (0x099 << 2)) +#define P_HHI_SD_EMMC_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x099 << 2)) +#define HHI_WAVE420L_CLK_CNTL (0xff63c000 + (0x09a << 2)) +#define SEC_HHI_WAVE420L_CLK_CNTL (0xff63c000 + (0x09a << 2)) +#define P_HHI_WAVE420L_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x09a << 2)) +#define HHI_WAVE420L_CLK_CNTL2 (0xff63c000 + (0x09b << 2)) +#define SEC_HHI_WAVE420L_CLK_CNTL2 (0xff63c000 + (0x09b << 2)) +#define P_HHI_WAVE420L_CLK_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x09b << 2)) +//`define HHI_EDP_TX_PHY_CNTL0 8'h9c +//`define HHI_EDP_TX_PHY_CNTL1 8'h9d +//`define HHI_ADC_PLL_CNTL5 8'h9e +//`define HHI_ADC_PLL_CNTL6 8'h9f +#define HHI_MPLL_CNTL0 (0xff63c000 + (0x09e << 2)) +#define SEC_HHI_MPLL_CNTL0 (0xff63c000 + (0x09e << 2)) +#define P_HHI_MPLL_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x09e << 2)) +#define HHI_MPLL_CNTL1 (0xff63c000 + (0x09f << 2)) +#define SEC_HHI_MPLL_CNTL1 (0xff63c000 + (0x09f << 2)) +#define P_HHI_MPLL_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x09f << 2)) +#define HHI_MPLL_CNTL2 (0xff63c000 + (0x0a0 << 2)) +#define SEC_HHI_MPLL_CNTL2 (0xff63c000 + (0x0a0 << 2)) +#define P_HHI_MPLL_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x0a0 << 2)) +#define HHI_MPLL_CNTL3 (0xff63c000 + (0x0a1 << 2)) +#define SEC_HHI_MPLL_CNTL3 (0xff63c000 + (0x0a1 << 2)) +#define P_HHI_MPLL_CNTL3 (volatile uint32_t *)(0xff63c000 + (0x0a1 << 2)) +#define HHI_MPLL_CNTL4 (0xff63c000 + (0x0a2 << 2)) +#define SEC_HHI_MPLL_CNTL4 (0xff63c000 + (0x0a2 << 2)) +#define P_HHI_MPLL_CNTL4 (volatile uint32_t *)(0xff63c000 + (0x0a2 << 2)) +#define HHI_MPLL_CNTL5 (0xff63c000 + (0x0a3 << 2)) +#define SEC_HHI_MPLL_CNTL5 (0xff63c000 + (0x0a3 << 2)) +#define P_HHI_MPLL_CNTL5 (volatile uint32_t *)(0xff63c000 + (0x0a3 << 2)) +#define HHI_MPLL_CNTL6 (0xff63c000 + (0x0a4 << 2)) +#define SEC_HHI_MPLL_CNTL6 (0xff63c000 + (0x0a4 << 2)) +#define P_HHI_MPLL_CNTL6 (volatile uint32_t *)(0xff63c000 + (0x0a4 << 2)) +#define HHI_MPLL_CNTL7 (0xff63c000 + (0x0a5 << 2)) +#define SEC_HHI_MPLL_CNTL7 (0xff63c000 + (0x0a5 << 2)) +#define P_HHI_MPLL_CNTL7 (volatile uint32_t *)(0xff63c000 + (0x0a5 << 2)) +#define HHI_MPLL_CNTL8 (0xff63c000 + (0x0a6 << 2)) +#define SEC_HHI_MPLL_CNTL8 (0xff63c000 + (0x0a6 << 2)) +#define P_HHI_MPLL_CNTL8 (volatile uint32_t *)(0xff63c000 + (0x0a6 << 2)) +#define HHI_MPLL_STS (0xff63c000 + (0x0a7 << 2)) +#define SEC_HHI_MPLL_STS (0xff63c000 + (0x0a7 << 2)) +#define P_HHI_MPLL_STS (volatile uint32_t *)(0xff63c000 + (0x0a7 << 2)) +#define HHI_FIX_PLL_CNTL0 (0xff63c000 + (0x0a8 << 2)) +#define SEC_HHI_FIX_PLL_CNTL0 (0xff63c000 + (0x0a8 << 2)) +#define P_HHI_FIX_PLL_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x0a8 << 2)) +#define HHI_FIX_PLL_CNTL1 (0xff63c000 + (0x0a9 << 2)) +#define SEC_HHI_FIX_PLL_CNTL1 (0xff63c000 + (0x0a9 << 2)) +#define P_HHI_FIX_PLL_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x0a9 << 2)) +#define HHI_FIX_PLL_CNTL2 (0xff63c000 + (0x0aa << 2)) +#define SEC_HHI_FIX_PLL_CNTL2 (0xff63c000 + (0x0aa << 2)) +#define P_HHI_FIX_PLL_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x0aa << 2)) +#define HHI_FIX_PLL_CNTL3 (0xff63c000 + (0x0ab << 2)) +#define SEC_HHI_FIX_PLL_CNTL3 (0xff63c000 + (0x0ab << 2)) +#define P_HHI_FIX_PLL_CNTL3 (volatile uint32_t *)(0xff63c000 + (0x0ab << 2)) +#define HHI_FIX_PLL_CNTL4 (0xff63c000 + (0x0ac << 2)) +#define SEC_HHI_FIX_PLL_CNTL4 (0xff63c000 + (0x0ac << 2)) +#define P_HHI_FIX_PLL_CNTL4 (volatile uint32_t *)(0xff63c000 + (0x0ac << 2)) +#define HHI_FIX_PLL_CNTL5 (0xff63c000 + (0x0ad << 2)) +#define SEC_HHI_FIX_PLL_CNTL5 (0xff63c000 + (0x0ad << 2)) +#define P_HHI_FIX_PLL_CNTL5 (volatile uint32_t *)(0xff63c000 + (0x0ad << 2)) +#define HHI_FIX_PLL_CNTL6 (0xff63c000 + (0x0ae << 2)) +#define SEC_HHI_FIX_PLL_CNTL6 (0xff63c000 + (0x0ae << 2)) +#define P_HHI_FIX_PLL_CNTL6 (volatile uint32_t *)(0xff63c000 + (0x0ae << 2)) +#define HHI_FIX_PLL_STS (0xff63c000 + (0x0af << 2)) +#define SEC_HHI_FIX_PLL_STS (0xff63c000 + (0x0af << 2)) +#define P_HHI_FIX_PLL_STS (volatile uint32_t *)(0xff63c000 + (0x0af << 2)) +//`define HHI_ADC_PLL_CNTL 8'haa +//`define HHI_ADC_PLL_CNTL2 8'hab +//`define HHI_ADC_PLL_CNTL3 8'hac +//`define HHI_ADC_PLL_CNTL4 8'had +//`define HHI_ADC_PLL_STS 8'hae +//`define HHI_ADC_PLL_CNTL1 8'haf +//`define HHI_AUDCLK_PLL_CNTL 8'hb0 +//`define HHI_AUDCLK_PLL_CNTL2 8'hb1 +//`define HHI_AUDCLK_PLL_CNTL3 8'hb2 +//`define HHI_AUDCLK_PLL_CNTL4 8'hb3 +//`define HHI_AUDCLK_PLL_CNTL5 8'hb4 +//`define HHI_AUDCLK_PLL_CNTL6 8'hb5 +//`define HHI_L2_DDR_CLK_CNTL 8'hb6 +//`define HHI_PLL_TOP_MISC 8'hba +#define HHI_VDAC_CNTL0 (0xff63c000 + (0x0bb << 2)) +#define SEC_HHI_VDAC_CNTL0 (0xff63c000 + (0x0bb << 2)) +#define P_HHI_VDAC_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x0bb << 2)) +#define HHI_VDAC_CNTL1 (0xff63c000 + (0x0bc << 2)) +#define SEC_HHI_VDAC_CNTL1 (0xff63c000 + (0x0bc << 2)) +#define P_HHI_VDAC_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x0bc << 2)) +#define HHI_SYS_PLL_CNTL0 (0xff63c000 + (0x0bd << 2)) +#define SEC_HHI_SYS_PLL_CNTL0 (0xff63c000 + (0x0bd << 2)) +#define P_HHI_SYS_PLL_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x0bd << 2)) +#define HHI_SYS_PLL_CNTL1 (0xff63c000 + (0x0be << 2)) +#define SEC_HHI_SYS_PLL_CNTL1 (0xff63c000 + (0x0be << 2)) +#define P_HHI_SYS_PLL_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x0be << 2)) +#define HHI_SYS_PLL_CNTL2 (0xff63c000 + (0x0bf << 2)) +#define SEC_HHI_SYS_PLL_CNTL2 (0xff63c000 + (0x0bf << 2)) +#define P_HHI_SYS_PLL_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x0bf << 2)) +#define HHI_SYS_PLL_CNTL3 (0xff63c000 + (0x0c0 << 2)) +#define SEC_HHI_SYS_PLL_CNTL3 (0xff63c000 + (0x0c0 << 2)) +#define P_HHI_SYS_PLL_CNTL3 (volatile uint32_t *)(0xff63c000 + (0x0c0 << 2)) +#define HHI_SYS_PLL_CNTL4 (0xff63c000 + (0x0c1 << 2)) +#define SEC_HHI_SYS_PLL_CNTL4 (0xff63c000 + (0x0c1 << 2)) +#define P_HHI_SYS_PLL_CNTL4 (volatile uint32_t *)(0xff63c000 + (0x0c1 << 2)) +#define HHI_SYS_PLL_CNTL5 (0xff63c000 + (0x0c2 << 2)) +#define SEC_HHI_SYS_PLL_CNTL5 (0xff63c000 + (0x0c2 << 2)) +#define P_HHI_SYS_PLL_CNTL5 (volatile uint32_t *)(0xff63c000 + (0x0c2 << 2)) +#define HHI_SYS_PLL_CNTL6 (0xff63c000 + (0x0c3 << 2)) +#define SEC_HHI_SYS_PLL_CNTL6 (0xff63c000 + (0x0c3 << 2)) +#define P_HHI_SYS_PLL_CNTL6 (volatile uint32_t *)(0xff63c000 + (0x0c3 << 2)) +#define HHI_SYS_PLL_STS (0xff63c000 + (0x0c4 << 2)) +#define SEC_HHI_SYS_PLL_STS (0xff63c000 + (0x0c4 << 2)) +#define P_HHI_SYS_PLL_STS (volatile uint32_t *)(0xff63c000 + (0x0c4 << 2)) +#define HHI_HDMI_PLL_CNTL0 (0xff63c000 + (0x0c8 << 2)) +#define SEC_HHI_HDMI_PLL_CNTL0 (0xff63c000 + (0x0c8 << 2)) +#define P_HHI_HDMI_PLL_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x0c8 << 2)) +#define HHI_HDMI_PLL_CNTL1 (0xff63c000 + (0x0c9 << 2)) +#define SEC_HHI_HDMI_PLL_CNTL1 (0xff63c000 + (0x0c9 << 2)) +#define P_HHI_HDMI_PLL_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x0c9 << 2)) +#define HHI_HDMI_PLL_CNTL2 (0xff63c000 + (0x0ca << 2)) +#define SEC_HHI_HDMI_PLL_CNTL2 (0xff63c000 + (0x0ca << 2)) +#define P_HHI_HDMI_PLL_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x0ca << 2)) +#define HHI_HDMI_PLL_CNTL3 (0xff63c000 + (0x0cb << 2)) +#define SEC_HHI_HDMI_PLL_CNTL3 (0xff63c000 + (0x0cb << 2)) +#define P_HHI_HDMI_PLL_CNTL3 (volatile uint32_t *)(0xff63c000 + (0x0cb << 2)) +#define HHI_HDMI_PLL_CNTL4 (0xff63c000 + (0x0cc << 2)) +#define SEC_HHI_HDMI_PLL_CNTL4 (0xff63c000 + (0x0cc << 2)) +#define P_HHI_HDMI_PLL_CNTL4 (volatile uint32_t *)(0xff63c000 + (0x0cc << 2)) +#define HHI_HDMI_PLL_CNTL5 (0xff63c000 + (0x0cd << 2)) +#define SEC_HHI_HDMI_PLL_CNTL5 (0xff63c000 + (0x0cd << 2)) +#define P_HHI_HDMI_PLL_CNTL5 (volatile uint32_t *)(0xff63c000 + (0x0cd << 2)) +#define HHI_HDMI_PLL_CNTL6 (0xff63c000 + (0x0ce << 2)) +#define SEC_HHI_HDMI_PLL_CNTL6 (0xff63c000 + (0x0ce << 2)) +#define P_HHI_HDMI_PLL_CNTL6 (volatile uint32_t *)(0xff63c000 + (0x0ce << 2)) +#define HHI_HDMI_PLL_STS (0xff63c000 + (0x0cf << 2)) +#define SEC_HHI_HDMI_PLL_STS (0xff63c000 + (0x0cf << 2)) +#define P_HHI_HDMI_PLL_STS (volatile uint32_t *)(0xff63c000 + (0x0cf << 2)) +//`define HHI_MIPI_CSI_PHY_CLK_CNTL 8'hd0 +//`define HHI_DSI_LVDS_EDP_CNTL0 8'hd1 +//`define HHI_DSI_LVDS_EDP_CNTL1 8'hd2 +//`define HHI_CSI_PHY_CNTL0 8'hd3 +//`define HHI_CSI_PHY_CNTL1 8'hd4 +//`define HHI_CSI_PHY_CNTL2 8'hd5 +//`define HHI_CSI_PHY_CNTL3 8'hd6 +//`define HHI_CSI_PHY_CNTL4 8'hd7 +//`define HHI_DIF_CSI_PHY_CNTL0 8'hd8 +//`define HHI_DIF_CSI_PHY_CNTL1 8'hd9 +//`define HHI_DIF_CSI_PHY_CNTL2 8'hda +//`define HHI_DIF_CSI_PHY_CNTL3 8'hdb +//`define HHI_DIF_CSI_PHY_CNTL4 8'hdc +//`define HHI_DIF_CSI_PHY_CNTL5 8'hdd +//`define HHI_LVDS_TX_PHY_CNTL0 8'hde +//`define HHI_LVDS_TX_PHY_CNTL1 8'hdf +//`define HHI_VID2_PLL_CNTL 8'he0 +//`define HHI_VID2_PLL_CNTL2 8'he1 +//`define HHI_VID2_PLL_CNTL3 8'he2 +//`define HHI_VID2_PLL_CNTL4 8'he3 +//`define HHI_VID2_PLL_CNTL5 8'he4 +//`define HHI_VID2_PLL_CNTL_I 8'he5 +#define HHI_HDMI_PHY_CNTL0 (0xff63c000 + (0x0e8 << 2)) +#define SEC_HHI_HDMI_PHY_CNTL0 (0xff63c000 + (0x0e8 << 2)) +#define P_HHI_HDMI_PHY_CNTL0 (volatile uint32_t *)(0xff63c000 + (0x0e8 << 2)) +#define HHI_HDMI_PHY_CNTL1 (0xff63c000 + (0x0e9 << 2)) +#define SEC_HHI_HDMI_PHY_CNTL1 (0xff63c000 + (0x0e9 << 2)) +#define P_HHI_HDMI_PHY_CNTL1 (volatile uint32_t *)(0xff63c000 + (0x0e9 << 2)) +#define HHI_HDMI_PHY_CNTL2 (0xff63c000 + (0x0ea << 2)) +#define SEC_HHI_HDMI_PHY_CNTL2 (0xff63c000 + (0x0ea << 2)) +#define P_HHI_HDMI_PHY_CNTL2 (volatile uint32_t *)(0xff63c000 + (0x0ea << 2)) +#define HHI_HDMI_PHY_CNTL3 (0xff63c000 + (0x0eb << 2)) +#define SEC_HHI_HDMI_PHY_CNTL3 (0xff63c000 + (0x0eb << 2)) +#define P_HHI_HDMI_PHY_CNTL3 (volatile uint32_t *)(0xff63c000 + (0x0eb << 2)) +#define HHI_HDMI_PHY_CNTL4 (0xff63c000 + (0x0ec << 2)) +#define SEC_HHI_HDMI_PHY_CNTL4 (0xff63c000 + (0x0ec << 2)) +#define P_HHI_HDMI_PHY_CNTL4 (volatile uint32_t *)(0xff63c000 + (0x0ec << 2)) +#define HHI_HDMI_PHY_CNTL5 (0xff63c000 + (0x0ed << 2)) +#define SEC_HHI_HDMI_PHY_CNTL5 (0xff63c000 + (0x0ed << 2)) +#define P_HHI_HDMI_PHY_CNTL5 (volatile uint32_t *)(0xff63c000 + (0x0ed << 2)) +#define HHI_HDMI_PHY_STATUS (0xff63c000 + (0x0ee << 2)) +#define SEC_HHI_HDMI_PHY_STATUS (0xff63c000 + (0x0ee << 2)) +#define P_HHI_HDMI_PHY_STATUS (volatile uint32_t *)(0xff63c000 + (0x0ee << 2)) +//`define HHI_ADEC_SYS_CLK_CNTL 8'hf1 +#define HHI_VID_LOCK_CLK_CNTL (0xff63c000 + (0x0f2 << 2)) +#define SEC_HHI_VID_LOCK_CLK_CNTL (0xff63c000 + (0x0f2 << 2)) +#define P_HHI_VID_LOCK_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x0f2 << 2)) +//`define HHI_ATV_DMD_SYS_CLK_CNTL 8'hf3 +#define HHI_AXI_PIPEL_CNTL (0xff63c000 + (0x0f4 << 2)) +#define SEC_HHI_AXI_PIPEL_CNTL (0xff63c000 + (0x0f4 << 2)) +#define P_HHI_AXI_PIPEL_CNTL (volatile uint32_t *)(0xff63c000 + (0x0f4 << 2)) +#define HHI_BT656_CLK_CNTL (0xff63c000 + (0x0f5 << 2)) +#define SEC_HHI_BT656_CLK_CNTL (0xff63c000 + (0x0f5 << 2)) +#define P_HHI_BT656_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x0f5 << 2)) +#define HHI_CDAC_CLK_CNTL (0xff63c000 + (0x0f6 << 2)) +#define SEC_HHI_CDAC_CLK_CNTL (0xff63c000 + (0x0f6 << 2)) +#define P_HHI_CDAC_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x0f6 << 2)) +#define HHI_SPICC_CLK_CNTL (0xff63c000 + (0x0f7 << 2)) +#define SEC_HHI_SPICC_CLK_CNTL (0xff63c000 + (0x0f7 << 2)) +#define P_HHI_SPICC_CLK_CNTL (volatile uint32_t *)(0xff63c000 + (0x0f7 << 2)) +//`define HHI_HDMIRX_AUD_PLL_CNTL 8'hf8 +//`define HHI_HDMIRX_AUD_PLL_CNTL2 8'hf9 +//`define HHI_HDMIRX_AUD_PLL_CNTL3 8'hfa +//`define HHI_HDMIRX_AUD_PLL_CNTL4 8'hfb +//`define HHI_HDMIRX_AUD_PLL_CNTL5 8'hfc +//`define HHI_HDMIRX_AUD_PLL_CNTL6 8'hfd +//`define HHI_HDMIRX_AUD_PLL_CNTL_I 8'hfe +//======================================================================== +// HIU - Mailbox +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF63C400 +// APB4_DECODER_SECURE_BASE 32'hFF63C400 +#define HIU_MAILBOX_SET_0 (0xff63c400 + (0x001 << 2)) +#define SEC_HIU_MAILBOX_SET_0 (0xff63c400 + (0x001 << 2)) +#define P_HIU_MAILBOX_SET_0 (volatile uint32_t *)(0xff63c400 + (0x001 << 2)) +#define HIU_MAILBOX_STAT_0 (0xff63c400 + (0x002 << 2)) +#define SEC_HIU_MAILBOX_STAT_0 (0xff63c400 + (0x002 << 2)) +#define P_HIU_MAILBOX_STAT_0 (volatile uint32_t *)(0xff63c400 + (0x002 << 2)) +#define HIU_MAILBOX_CLR_0 (0xff63c400 + (0x003 << 2)) +#define SEC_HIU_MAILBOX_CLR_0 (0xff63c400 + (0x003 << 2)) +#define P_HIU_MAILBOX_CLR_0 (volatile uint32_t *)(0xff63c400 + (0x003 << 2)) +#define HIU_MAILBOX_SET_1 (0xff63c400 + (0x004 << 2)) +#define SEC_HIU_MAILBOX_SET_1 (0xff63c400 + (0x004 << 2)) +#define P_HIU_MAILBOX_SET_1 (volatile uint32_t *)(0xff63c400 + (0x004 << 2)) +#define HIU_MAILBOX_STAT_1 (0xff63c400 + (0x005 << 2)) +#define SEC_HIU_MAILBOX_STAT_1 (0xff63c400 + (0x005 << 2)) +#define P_HIU_MAILBOX_STAT_1 (volatile uint32_t *)(0xff63c400 + (0x005 << 2)) +#define HIU_MAILBOX_CLR_1 (0xff63c400 + (0x006 << 2)) +#define SEC_HIU_MAILBOX_CLR_1 (0xff63c400 + (0x006 << 2)) +#define P_HIU_MAILBOX_CLR_1 (volatile uint32_t *)(0xff63c400 + (0x006 << 2)) +#define HIU_MAILBOX_SET_2 (0xff63c400 + (0x007 << 2)) +#define SEC_HIU_MAILBOX_SET_2 (0xff63c400 + (0x007 << 2)) +#define P_HIU_MAILBOX_SET_2 (volatile uint32_t *)(0xff63c400 + (0x007 << 2)) +#define HIU_MAILBOX_STAT_2 (0xff63c400 + (0x008 << 2)) +#define SEC_HIU_MAILBOX_STAT_2 (0xff63c400 + (0x008 << 2)) +#define P_HIU_MAILBOX_STAT_2 (volatile uint32_t *)(0xff63c400 + (0x008 << 2)) +#define HIU_MAILBOX_CLR_2 (0xff63c400 + (0x009 << 2)) +#define SEC_HIU_MAILBOX_CLR_2 (0xff63c400 + (0x009 << 2)) +#define P_HIU_MAILBOX_CLR_2 (volatile uint32_t *)(0xff63c400 + (0x009 << 2)) +#define HIU_MAILBOX_SET_3 (0xff63c400 + (0x00a << 2)) +#define SEC_HIU_MAILBOX_SET_3 (0xff63c400 + (0x00a << 2)) +#define P_HIU_MAILBOX_SET_3 (volatile uint32_t *)(0xff63c400 + (0x00a << 2)) +#define HIU_MAILBOX_STAT_3 (0xff63c400 + (0x00b << 2)) +#define SEC_HIU_MAILBOX_STAT_3 (0xff63c400 + (0x00b << 2)) +#define P_HIU_MAILBOX_STAT_3 (volatile uint32_t *)(0xff63c400 + (0x00b << 2)) +#define HIU_MAILBOX_CLR_3 (0xff63c400 + (0x00c << 2)) +#define SEC_HIU_MAILBOX_CLR_3 (0xff63c400 + (0x00c << 2)) +#define P_HIU_MAILBOX_CLR_3 (volatile uint32_t *)(0xff63c400 + (0x00c << 2)) +#define HIU_MAILBOX_SET_4 (0xff63c400 + (0x00d << 2)) +#define SEC_HIU_MAILBOX_SET_4 (0xff63c400 + (0x00d << 2)) +#define P_HIU_MAILBOX_SET_4 (volatile uint32_t *)(0xff63c400 + (0x00d << 2)) +#define HIU_MAILBOX_STAT_4 (0xff63c400 + (0x00e << 2)) +#define SEC_HIU_MAILBOX_STAT_4 (0xff63c400 + (0x00e << 2)) +#define P_HIU_MAILBOX_STAT_4 (volatile uint32_t *)(0xff63c400 + (0x00e << 2)) +#define HIU_MAILBOX_CLR_4 (0xff63c400 + (0x00f << 2)) +#define SEC_HIU_MAILBOX_CLR_4 (0xff63c400 + (0x00f << 2)) +#define P_HIU_MAILBOX_CLR_4 (volatile uint32_t *)(0xff63c400 + (0x00f << 2)) +#define HIU_MAILBOX_SET_5 (0xff63c400 + (0x010 << 2)) +#define SEC_HIU_MAILBOX_SET_5 (0xff63c400 + (0x010 << 2)) +#define P_HIU_MAILBOX_SET_5 (volatile uint32_t *)(0xff63c400 + (0x010 << 2)) +#define HIU_MAILBOX_STAT_5 (0xff63c400 + (0x011 << 2)) +#define SEC_HIU_MAILBOX_STAT_5 (0xff63c400 + (0x011 << 2)) +#define P_HIU_MAILBOX_STAT_5 (volatile uint32_t *)(0xff63c400 + (0x011 << 2)) +#define HIU_MAILBOX_CLR_5 (0xff63c400 + (0x012 << 2)) +#define SEC_HIU_MAILBOX_CLR_5 (0xff63c400 + (0x012 << 2)) +#define P_HIU_MAILBOX_CLR_5 (volatile uint32_t *)(0xff63c400 + (0x012 << 2)) +#define HIU_MAILBOX_SET_6 (0xff63c400 + (0x013 << 2)) +#define SEC_HIU_MAILBOX_SET_6 (0xff63c400 + (0x013 << 2)) +#define P_HIU_MAILBOX_SET_6 (volatile uint32_t *)(0xff63c400 + (0x013 << 2)) +#define HIU_MAILBOX_STAT_6 (0xff63c400 + (0x014 << 2)) +#define SEC_HIU_MAILBOX_STAT_6 (0xff63c400 + (0x014 << 2)) +#define P_HIU_MAILBOX_STAT_6 (volatile uint32_t *)(0xff63c400 + (0x014 << 2)) +#define HIU_MAILBOX_CLR_6 (0xff63c400 + (0x015 << 2)) +#define SEC_HIU_MAILBOX_CLR_6 (0xff63c400 + (0x015 << 2)) +#define P_HIU_MAILBOX_CLR_6 (volatile uint32_t *)(0xff63c400 + (0x015 << 2)) +#define HIU_MAILBOX_SET_7 (0xff63c400 + (0x016 << 2)) +#define SEC_HIU_MAILBOX_SET_7 (0xff63c400 + (0x016 << 2)) +#define P_HIU_MAILBOX_SET_7 (volatile uint32_t *)(0xff63c400 + (0x016 << 2)) +#define HIU_MAILBOX_STAT_7 (0xff63c400 + (0x017 << 2)) +#define SEC_HIU_MAILBOX_STAT_7 (0xff63c400 + (0x017 << 2)) +#define P_HIU_MAILBOX_STAT_7 (volatile uint32_t *)(0xff63c400 + (0x017 << 2)) +#define HIU_MAILBOX_CLR_7 (0xff63c400 + (0x018 << 2)) +#define SEC_HIU_MAILBOX_CLR_7 (0xff63c400 + (0x018 << 2)) +#define P_HIU_MAILBOX_CLR_7 (volatile uint32_t *)(0xff63c400 + (0x018 << 2)) +//======================================================================== +// EFUSE +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF630000 +// APB4_DECODER_SECURE_BASE 32'hFF630000 +#define EFUSE_CLR (0xff630000 + (0x000 << 2)) +#define SEC_EFUSE_CLR (0xff630000 + (0x000 << 2)) +#define P_EFUSE_CLR (volatile uint32_t *)(0xff630000 + (0x000 << 2)) +#define EFUSE_START (0xff630000 + (0x001 << 2)) +#define SEC_EFUSE_START (0xff630000 + (0x001 << 2)) +#define P_EFUSE_START (volatile uint32_t *)(0xff630000 + (0x001 << 2)) +#define EFUSE_WDATA0 (0xff630000 + (0x004 << 2)) +#define SEC_EFUSE_WDATA0 (0xff630000 + (0x004 << 2)) +#define P_EFUSE_WDATA0 (volatile uint32_t *)(0xff630000 + (0x004 << 2)) +#define EFUSE_WDATA1 (0xff630000 + (0x005 << 2)) +#define SEC_EFUSE_WDATA1 (0xff630000 + (0x005 << 2)) +#define P_EFUSE_WDATA1 (volatile uint32_t *)(0xff630000 + (0x005 << 2)) +#define EFUSE_WDATA2 (0xff630000 + (0x006 << 2)) +#define SEC_EFUSE_WDATA2 (0xff630000 + (0x006 << 2)) +#define P_EFUSE_WDATA2 (volatile uint32_t *)(0xff630000 + (0x006 << 2)) +#define EFUSE_WDATA3 (0xff630000 + (0x007 << 2)) +#define SEC_EFUSE_WDATA3 (0xff630000 + (0x007 << 2)) +#define P_EFUSE_WDATA3 (volatile uint32_t *)(0xff630000 + (0x007 << 2)) +#define EFUSE_RDATA0 (0xff630000 + (0x008 << 2)) +#define SEC_EFUSE_RDATA0 (0xff630000 + (0x008 << 2)) +#define P_EFUSE_RDATA0 (volatile uint32_t *)(0xff630000 + (0x008 << 2)) +#define EFUSE_RDATA1 (0xff630000 + (0x009 << 2)) +#define SEC_EFUSE_RDATA1 (0xff630000 + (0x009 << 2)) +#define P_EFUSE_RDATA1 (volatile uint32_t *)(0xff630000 + (0x009 << 2)) +#define EFUSE_RDATA2 (0xff630000 + (0x00a << 2)) +#define SEC_EFUSE_RDATA2 (0xff630000 + (0x00a << 2)) +#define P_EFUSE_RDATA2 (volatile uint32_t *)(0xff630000 + (0x00a << 2)) +#define EFUSE_RDATA3 (0xff630000 + (0x00b << 2)) +#define SEC_EFUSE_RDATA3 (0xff630000 + (0x00b << 2)) +#define P_EFUSE_RDATA3 (volatile uint32_t *)(0xff630000 + (0x00b << 2)) +#define EFUSE_LIC0 (0xff630000 + (0x00c << 2)) +#define SEC_EFUSE_LIC0 (0xff630000 + (0x00c << 2)) +#define P_EFUSE_LIC0 (volatile uint32_t *)(0xff630000 + (0x00c << 2)) +#define EFUSE_LIC1 (0xff630000 + (0x00d << 2)) +#define SEC_EFUSE_LIC1 (0xff630000 + (0x00d << 2)) +#define P_EFUSE_LIC1 (volatile uint32_t *)(0xff630000 + (0x00d << 2)) +#define EFUSE_LIC2 (0xff630000 + (0x00e << 2)) +#define SEC_EFUSE_LIC2 (0xff630000 + (0x00e << 2)) +#define P_EFUSE_LIC2 (volatile uint32_t *)(0xff630000 + (0x00e << 2)) +#define EFUSE_LIC3 (0xff630000 + (0x00f << 2)) +#define SEC_EFUSE_LIC3 (0xff630000 + (0x00f << 2)) +#define P_EFUSE_LIC3 (volatile uint32_t *)(0xff630000 + (0x00f << 2)) +#define KL_START0 (0xff630000 + (0x020 << 2)) +#define SEC_KL_START0 (0xff630000 + (0x020 << 2)) +#define P_KL_START0 (volatile uint32_t *)(0xff630000 + (0x020 << 2)) +#define KL_START1 (0xff630000 + (0x021 << 2)) +#define SEC_KL_START1 (0xff630000 + (0x021 << 2)) +#define P_KL_START1 (volatile uint32_t *)(0xff630000 + (0x021 << 2)) +#define KL_RESP0_0 (0xff630000 + (0x024 << 2)) +#define SEC_KL_RESP0_0 (0xff630000 + (0x024 << 2)) +#define P_KL_RESP0_0 (volatile uint32_t *)(0xff630000 + (0x024 << 2)) +#define KL_RESP0_1 (0xff630000 + (0x025 << 2)) +#define SEC_KL_RESP0_1 (0xff630000 + (0x025 << 2)) +#define P_KL_RESP0_1 (volatile uint32_t *)(0xff630000 + (0x025 << 2)) +#define KL_RESP0_2 (0xff630000 + (0x026 << 2)) +#define SEC_KL_RESP0_2 (0xff630000 + (0x026 << 2)) +#define P_KL_RESP0_2 (volatile uint32_t *)(0xff630000 + (0x026 << 2)) +#define KL_RESP0_3 (0xff630000 + (0x027 << 2)) +#define SEC_KL_RESP0_3 (0xff630000 + (0x027 << 2)) +#define P_KL_RESP0_3 (volatile uint32_t *)(0xff630000 + (0x027 << 2)) +#define KL_RESP1_0 (0xff630000 + (0x028 << 2)) +#define SEC_KL_RESP1_0 (0xff630000 + (0x028 << 2)) +#define P_KL_RESP1_0 (volatile uint32_t *)(0xff630000 + (0x028 << 2)) +#define KL_RESP1_1 (0xff630000 + (0x029 << 2)) +#define SEC_KL_RESP1_1 (0xff630000 + (0x029 << 2)) +#define P_KL_RESP1_1 (volatile uint32_t *)(0xff630000 + (0x029 << 2)) +#define KL_RESP1_2 (0xff630000 + (0x02a << 2)) +#define SEC_KL_RESP1_2 (0xff630000 + (0x02a << 2)) +#define P_KL_RESP1_2 (volatile uint32_t *)(0xff630000 + (0x02a << 2)) +#define KL_RESP1_3 (0xff630000 + (0x02b << 2)) +#define SEC_KL_RESP1_3 (0xff630000 + (0x02b << 2)) +#define P_KL_RESP1_3 (volatile uint32_t *)(0xff630000 + (0x02b << 2)) +#define KL_RAM (0xff630000 + (0x040 << 2)) +#define SEC_KL_RAM (0xff630000 + (0x040 << 2)) +#define P_KL_RAM (volatile uint32_t *)(0xff630000 + (0x040 << 2)) +#define RNG_SEC_CONFIG_REG1 (0xff630000 + (0x081 << 2)) +#define SEC_RNG_SEC_CONFIG_REG1 (0xff630000 + (0x081 << 2)) +#define P_RNG_SEC_CONFIG_REG1 (volatile uint32_t *)(0xff630000 + (0x081 << 2)) +#define RNG_SEC_CONFIG_REG2 (0xff630000 + (0x082 << 2)) +#define SEC_RNG_SEC_CONFIG_REG2 (0xff630000 + (0x082 << 2)) +#define P_RNG_SEC_CONFIG_REG2 (volatile uint32_t *)(0xff630000 + (0x082 << 2)) +#define RNG_SEC_DATA (0xff630000 + (0x084 << 2)) +#define SEC_RNG_SEC_DATA (0xff630000 + (0x084 << 2)) +#define P_RNG_SEC_DATA (volatile uint32_t *)(0xff630000 + (0x084 << 2)) +#define RNG_SEC_STS (0xff630000 + (0x085 << 2)) +#define SEC_RNG_SEC_STS (0xff630000 + (0x085 << 2)) +#define P_RNG_SEC_STS (volatile uint32_t *)(0xff630000 + (0x085 << 2)) +#define RNG_USR_DATA (0xff630000 + (0x086 << 2)) +#define SEC_RNG_USR_DATA (0xff630000 + (0x086 << 2)) +#define P_RNG_USR_DATA (volatile uint32_t *)(0xff630000 + (0x086 << 2)) +#define RNG_USR_STS (0xff630000 + (0x087 << 2)) +#define SEC_RNG_USR_STS (0xff630000 + (0x087 << 2)) +#define P_RNG_USR_STS (volatile uint32_t *)(0xff630000 + (0x087 << 2)) +//======================================================================== +// Ethernet Phy +//======================================================================== +// APB4_DECODER_NON_SECURE_BASE 32'hFF64C000 +// APB4_DECODER_SECURE_BASE 32'hFF64C000 +#define ETH_PHY_DBG_CTL0 (0xff64c000 + (0x000 << 2)) +#define SEC_ETH_PHY_DBG_CTL0 (0xff64c000 + (0x000 << 2)) +#define P_ETH_PHY_DBG_CTL0 (volatile uint32_t *)(0xff64c000 + (0x000 << 2)) +#define ETH_PHY_DBG_CTL1 (0xff64c000 + (0x001 << 2)) +#define SEC_ETH_PHY_DBG_CTL1 (0xff64c000 + (0x001 << 2)) +#define P_ETH_PHY_DBG_CTL1 (volatile uint32_t *)(0xff64c000 + (0x001 << 2)) +#define ETH_PHY_DBG_CFG0 (0xff64c000 + (0x002 << 2)) +#define SEC_ETH_PHY_DBG_CFG0 (0xff64c000 + (0x002 << 2)) +#define P_ETH_PHY_DBG_CFG0 (volatile uint32_t *)(0xff64c000 + (0x002 << 2)) +#define ETH_PHY_DBG_CFG1 (0xff64c000 + (0x003 << 2)) +#define SEC_ETH_PHY_DBG_CFG1 (0xff64c000 + (0x003 << 2)) +#define P_ETH_PHY_DBG_CFG1 (volatile uint32_t *)(0xff64c000 + (0x003 << 2)) +#define ETH_PHY_DBG_CFG2 (0xff64c000 + (0x004 << 2)) +#define SEC_ETH_PHY_DBG_CFG2 (0xff64c000 + (0x004 << 2)) +#define P_ETH_PHY_DBG_CFG2 (volatile uint32_t *)(0xff64c000 + (0x004 << 2)) +#define ETH_PHY_DBG_CFG3 (0xff64c000 + (0x005 << 2)) +#define SEC_ETH_PHY_DBG_CFG3 (0xff64c000 + (0x005 << 2)) +#define P_ETH_PHY_DBG_CFG3 (volatile uint32_t *)(0xff64c000 + (0x005 << 2)) +#define ETH_PHY_DBG_CFG4 (0xff64c000 + (0x006 << 2)) +#define SEC_ETH_PHY_DBG_CFG4 (0xff64c000 + (0x006 << 2)) +#define P_ETH_PHY_DBG_CFG4 (volatile uint32_t *)(0xff64c000 + (0x006 << 2)) +#define ETH_PLL_STS (0xff64c000 + (0x010 << 2)) +#define SEC_ETH_PLL_STS (0xff64c000 + (0x010 << 2)) +#define P_ETH_PLL_STS (volatile uint32_t *)(0xff64c000 + (0x010 << 2)) +#define ETH_PLL_CTL0 (0xff64c000 + (0x011 << 2)) +#define SEC_ETH_PLL_CTL0 (0xff64c000 + (0x011 << 2)) +#define P_ETH_PLL_CTL0 (volatile uint32_t *)(0xff64c000 + (0x011 << 2)) +#define ETH_PLL_CTL1 (0xff64c000 + (0x012 << 2)) +#define SEC_ETH_PLL_CTL1 (0xff64c000 + (0x012 << 2)) +#define P_ETH_PLL_CTL1 (volatile uint32_t *)(0xff64c000 + (0x012 << 2)) +#define ETH_PLL_CTL2 (0xff64c000 + (0x013 << 2)) +#define SEC_ETH_PLL_CTL2 (0xff64c000 + (0x013 << 2)) +#define P_ETH_PLL_CTL2 (volatile uint32_t *)(0xff64c000 + (0x013 << 2)) +#define ETH_PLL_CTL3 (0xff64c000 + (0x014 << 2)) +#define SEC_ETH_PLL_CTL3 (0xff64c000 + (0x014 << 2)) +#define P_ETH_PLL_CTL3 (volatile uint32_t *)(0xff64c000 + (0x014 << 2)) +#define ETH_PLL_CTL4 (0xff64c000 + (0x015 << 2)) +#define SEC_ETH_PLL_CTL4 (0xff64c000 + (0x015 << 2)) +#define P_ETH_PLL_CTL4 (volatile uint32_t *)(0xff64c000 + (0x015 << 2)) +#define ETH_PLL_CTL5 (0xff64c000 + (0x016 << 2)) +#define SEC_ETH_PLL_CTL5 (0xff64c000 + (0x016 << 2)) +#define P_ETH_PLL_CTL5 (volatile uint32_t *)(0xff64c000 + (0x016 << 2)) +#define ETH_PLL_CTL6 (0xff64c000 + (0x017 << 2)) +#define SEC_ETH_PLL_CTL6 (0xff64c000 + (0x017 << 2)) +#define P_ETH_PLL_CTL6 (volatile uint32_t *)(0xff64c000 + (0x017 << 2)) +#define ETH_PLL_CTL7 (0xff64c000 + (0x018 << 2)) +#define SEC_ETH_PLL_CTL7 (0xff64c000 + (0x018 << 2)) +#define P_ETH_PLL_CTL7 (volatile uint32_t *)(0xff64c000 + (0x018 << 2)) +#define ETH_PHY_CNTL0 (0xff64c000 + (0x020 << 2)) +#define SEC_ETH_PHY_CNTL0 (0xff64c000 + (0x020 << 2)) +#define P_ETH_PHY_CNTL0 (volatile uint32_t *)(0xff64c000 + (0x020 << 2)) +#define ETH_PHY_CNTL1 (0xff64c000 + (0x021 << 2)) +#define SEC_ETH_PHY_CNTL1 (0xff64c000 + (0x021 << 2)) +#define P_ETH_PHY_CNTL1 (volatile uint32_t *)(0xff64c000 + (0x021 << 2)) +#define ETH_PHY_CNTL2 (0xff64c000 + (0x022 << 2)) +#define SEC_ETH_PHY_CNTL2 (0xff64c000 + (0x022 << 2)) +#define P_ETH_PHY_CNTL2 (volatile uint32_t *)(0xff64c000 + (0x022 << 2)) +#define ETH_PHY_STS0 (0xff64c000 + (0x025 << 2)) +#define SEC_ETH_PHY_STS0 (0xff64c000 + (0x025 << 2)) +#define P_ETH_PHY_STS0 (volatile uint32_t *)(0xff64c000 + (0x025 << 2)) +#define ETH_PHY_STS1 (0xff64c000 + (0x026 << 2)) +#define SEC_ETH_PHY_STS1 (0xff64c000 + (0x026 << 2)) +#define P_ETH_PHY_STS1 (volatile uint32_t *)(0xff64c000 + (0x026 << 2)) +#define ETH_PHY_STS2 (0xff64c000 + (0x027 << 2)) +#define SEC_ETH_PHY_STS2 (0xff64c000 + (0x027 << 2)) +#define P_ETH_PHY_STS2 (volatile uint32_t *)(0xff64c000 + (0x027 << 2)) +#define ETH_PHY_DBG_REG (0xff64c000 + (0x028 << 2)) +#define SEC_ETH_PHY_DBG_REG (0xff64c000 + (0x028 << 2)) +#define P_ETH_PHY_DBG_REG (volatile uint32_t *)(0xff64c000 + (0x028 << 2)) +//======================================================================== +// PDM +//======================================================================== +// +// Reading file: ../audio/rtl/pdm_reg.vh +// +// APB4_DECODER_NON_SECURE_BASE 32'hFF640000 +// APB4_DECODER_SECURE_BASE 32'hFF640000 +#define PDM_CTRL (0xff640000 + (0x000 << 2)) +#define SEC_PDM_CTRL (0xff640000 + (0x000 << 2)) +#define P_PDM_CTRL (volatile uint32_t *)(0xff640000 + (0x000 << 2)) +#define PDM_HCIC_CTRL1 (0xff640000 + (0x001 << 2)) +#define SEC_PDM_HCIC_CTRL1 (0xff640000 + (0x001 << 2)) +#define P_PDM_HCIC_CTRL1 (volatile uint32_t *)(0xff640000 + (0x001 << 2)) +#define PDM_HCIC_CTRL2 (0xff640000 + (0x002 << 2)) +#define SEC_PDM_HCIC_CTRL2 (0xff640000 + (0x002 << 2)) +#define P_PDM_HCIC_CTRL2 (volatile uint32_t *)(0xff640000 + (0x002 << 2)) +#define PDM_F1_CTRL (0xff640000 + (0x003 << 2)) +#define SEC_PDM_F1_CTRL (0xff640000 + (0x003 << 2)) +#define P_PDM_F1_CTRL (volatile uint32_t *)(0xff640000 + (0x003 << 2)) +#define PDM_F2_CTRL (0xff640000 + (0x004 << 2)) +#define SEC_PDM_F2_CTRL (0xff640000 + (0x004 << 2)) +#define P_PDM_F2_CTRL (volatile uint32_t *)(0xff640000 + (0x004 << 2)) +#define PDM_F3_CTRL (0xff640000 + (0x005 << 2)) +#define SEC_PDM_F3_CTRL (0xff640000 + (0x005 << 2)) +#define P_PDM_F3_CTRL (volatile uint32_t *)(0xff640000 + (0x005 << 2)) +#define PDM_HPF_CTRL (0xff640000 + (0x006 << 2)) +#define SEC_PDM_HPF_CTRL (0xff640000 + (0x006 << 2)) +#define P_PDM_HPF_CTRL (volatile uint32_t *)(0xff640000 + (0x006 << 2)) +#define PDM_CHAN_CTRL (0xff640000 + (0x007 << 2)) +#define SEC_PDM_CHAN_CTRL (0xff640000 + (0x007 << 2)) +#define P_PDM_CHAN_CTRL (volatile uint32_t *)(0xff640000 + (0x007 << 2)) +#define PDM_CHAN_CTRL1 (0xff640000 + (0x008 << 2)) +#define SEC_PDM_CHAN_CTRL1 (0xff640000 + (0x008 << 2)) +#define P_PDM_CHAN_CTRL1 (volatile uint32_t *)(0xff640000 + (0x008 << 2)) +#define PDM_COEFF_ADDR (0xff640000 + (0x009 << 2)) +#define SEC_PDM_COEFF_ADDR (0xff640000 + (0x009 << 2)) +#define P_PDM_COEFF_ADDR (volatile uint32_t *)(0xff640000 + (0x009 << 2)) +#define PDM_COEFF_DATA (0xff640000 + (0x00a << 2)) +#define SEC_PDM_COEFF_DATA (0xff640000 + (0x00a << 2)) +#define P_PDM_COEFF_DATA (volatile uint32_t *)(0xff640000 + (0x00a << 2)) +#define PDM_CLKG_CTRL (0xff640000 + (0x00b << 2)) +#define SEC_PDM_CLKG_CTRL (0xff640000 + (0x00b << 2)) +#define P_PDM_CLKG_CTRL (volatile uint32_t *)(0xff640000 + (0x00b << 2)) +#define PDM_STS (0xff640000 + (0x00c << 2)) +#define SEC_PDM_STS (0xff640000 + (0x00c << 2)) +#define P_PDM_STS (volatile uint32_t *)(0xff640000 + (0x00c << 2)) +//bit 1 HPF filter output overflow. means the PCLK is too slow. +//bit 0 HCIC filter output overflow. means the CTS_PDM_CLK is too slow. can't finished the filter function. +#define PDM_MUTE_VALUE (0xff640000 + (0x00d << 2)) +#define SEC_PDM_MUTE_VALUE (0xff640000 + (0x00d << 2)) +#define P_PDM_MUTE_VALUE (volatile uint32_t *)(0xff640000 + (0x00d << 2)) +// +// Closing file: ../audio/rtl/pdm_reg.vh +// +// synopsys translate_off +// synopsys translate_on +// +// Closing file: ./secure_apb4_ee.h +// +// +// Reading file: ./ao_rti_reg.h +// +//#define AO_RTI_REG_BASE 0x00 +// APB4_DECODER_NON_SECURE_BASE 32'hFF800000 +// APB4_DECODER_SECURE_BASE 32'hFF800000 +// Registers not affected by the Watchdog timer +#define AO_RTI_STATUS_REG0 (0xff800000 + (0x000 << 2)) +#define SEC_AO_RTI_STATUS_REG0 (0xff800000 + (0x000 << 2)) +#define P_AO_RTI_STATUS_REG0 (volatile uint32_t *)(0xff800000 + (0x000 << 2)) +#define AO_RTI_STATUS_REG1 (0xff800000 + (0x001 << 2)) +#define SEC_AO_RTI_STATUS_REG1 (0xff800000 + (0x001 << 2)) +#define P_AO_RTI_STATUS_REG1 (volatile uint32_t *)(0xff800000 + (0x001 << 2)) +#define AO_RTI_STATUS_REG2 (0xff800000 + (0x002 << 2)) +#define SEC_AO_RTI_STATUS_REG2 (0xff800000 + (0x002 << 2)) +#define P_AO_RTI_STATUS_REG2 (volatile uint32_t *)(0xff800000 + (0x002 << 2)) +#define AO_RTI_STATUS_REG3 (0xff800000 + (0x003 << 2)) +#define SEC_AO_RTI_STATUS_REG3 (0xff800000 + (0x003 << 2)) +#define P_AO_RTI_STATUS_REG3 (volatile uint32_t *)(0xff800000 + (0x003 << 2)) +//`define AO_RTI_PWR_CNTL_REG1 8'h03 +#define AO_RTI_PWR_CNTL_REG0 (0xff800000 + (0x004 << 2)) +#define SEC_AO_RTI_PWR_CNTL_REG0 (0xff800000 + (0x004 << 2)) +#define P_AO_RTI_PWR_CNTL_REG0 (volatile uint32_t *)(0xff800000 + (0x004 << 2)) +#define AO_RTI_PINMUX_REG0 (0xff800000 + (0x005 << 2)) +#define SEC_AO_RTI_PINMUX_REG0 (0xff800000 + (0x005 << 2)) +#define P_AO_RTI_PINMUX_REG0 (volatile uint32_t *)(0xff800000 + (0x005 << 2)) +#define AO_RTI_PINMUX_REG1 (0xff800000 + (0x006 << 2)) +#define SEC_AO_RTI_PINMUX_REG1 (0xff800000 + (0x006 << 2)) +#define P_AO_RTI_PINMUX_REG1 (volatile uint32_t *)(0xff800000 + (0x006 << 2)) +//`define AO_REMAP_REG1 8'h08 +#define AO_PAD_DS_A (0xff800000 + (0x007 << 2)) +#define SEC_AO_PAD_DS_A (0xff800000 + (0x007 << 2)) +#define P_AO_PAD_DS_A (volatile uint32_t *)(0xff800000 + (0x007 << 2)) +#define AO_PAD_DS_B (0xff800000 + (0x008 << 2)) +#define SEC_AO_PAD_DS_B (0xff800000 + (0x008 << 2)) +#define P_AO_PAD_DS_B (volatile uint32_t *)(0xff800000 + (0x008 << 2)) +#define AO_GPIO_O_EN_N (0xff800000 + (0x009 << 2)) +#define SEC_AO_GPIO_O_EN_N (0xff800000 + (0x009 << 2)) +#define P_AO_GPIO_O_EN_N (volatile uint32_t *)(0xff800000 + (0x009 << 2)) +#define AO_GPIO_I (0xff800000 + (0x00a << 2)) +#define SEC_AO_GPIO_I (0xff800000 + (0x00a << 2)) +#define P_AO_GPIO_I (volatile uint32_t *)(0xff800000 + (0x00a << 2)) +#define AO_RTI_PULL_UP_REG (0xff800000 + (0x00b << 2)) +#define SEC_AO_RTI_PULL_UP_REG (0xff800000 + (0x00b << 2)) +#define P_AO_RTI_PULL_UP_REG (volatile uint32_t *)(0xff800000 + (0x00b << 2)) +#define AO_RTI_PULL_UP_EN_REG (0xff800000 + (0x00c << 2)) +#define SEC_AO_RTI_PULL_UP_EN_REG (0xff800000 + (0x00c << 2)) +#define P_AO_RTI_PULL_UP_EN_REG (volatile uint32_t *)(0xff800000 + (0x00c << 2)) +#define AO_GPIO_O (0xff800000 + (0x00d << 2)) +#define SEC_AO_GPIO_O (0xff800000 + (0x00d << 2)) +#define P_AO_GPIO_O (volatile uint32_t *)(0xff800000 + (0x00d << 2)) +//`define AO_RTI_JTAG_CONFIG_REG 8'h0C +//`define AO_RTI_WD_MARK 8'h0D +#define AO_CPU_CNTL (0xff800000 + (0x00e << 2)) +#define SEC_AO_CPU_CNTL (0xff800000 + (0x00e << 2)) +#define P_AO_CPU_CNTL (volatile uint32_t *)(0xff800000 + (0x00e << 2)) +#define AO_CPU_CNTL2 (0xff800000 + (0x00f << 2)) +#define SEC_AO_CPU_CNTL2 (0xff800000 + (0x00f << 2)) +#define P_AO_CPU_CNTL2 (volatile uint32_t *)(0xff800000 + (0x00f << 2)) +#define AO_RTI_GEN_CNTL_REG0 (0xff800000 + (0x010 << 2)) +#define SEC_AO_RTI_GEN_CNTL_REG0 (0xff800000 + (0x010 << 2)) +#define P_AO_RTI_GEN_CNTL_REG0 (volatile uint32_t *)(0xff800000 + (0x010 << 2)) +#define AO_CPU_CNTL_NS (0xff800000 + (0x011 << 2)) +#define SEC_AO_CPU_CNTL_NS (0xff800000 + (0x011 << 2)) +#define P_AO_CPU_CNTL_NS (volatile uint32_t *)(0xff800000 + (0x011 << 2)) +#define AO_METAL_REVISION_1 (0xff800000 + (0x012 << 2)) +#define SEC_AO_METAL_REVISION_1 (0xff800000 + (0x012 << 2)) +#define P_AO_METAL_REVISION_1 (volatile uint32_t *)(0xff800000 + (0x012 << 2)) +#define AO_CLK_GATE0 (0xff800000 + (0x013 << 2)) +#define SEC_AO_CLK_GATE0 (0xff800000 + (0x013 << 2)) +#define P_AO_CLK_GATE0 (volatile uint32_t *)(0xff800000 + (0x013 << 2)) +#define AO_CLK_GATE0_SP (0xff800000 + (0x014 << 2)) +#define SEC_AO_CLK_GATE0_SP (0xff800000 + (0x014 << 2)) +#define P_AO_CLK_GATE0_SP (volatile uint32_t *)(0xff800000 + (0x014 << 2)) +#define AO_TIMEBASE_CNTL1 (0xff800000 + (0x015 << 2)) +#define SEC_AO_TIMEBASE_CNTL1 (0xff800000 + (0x015 << 2)) +#define P_AO_TIMEBASE_CNTL1 (volatile uint32_t *)(0xff800000 + (0x015 << 2)) +#define AO_OSCIN_CNTL (0xff800000 + (0x016 << 2)) +#define SEC_AO_OSCIN_CNTL (0xff800000 + (0x016 << 2)) +#define P_AO_OSCIN_CNTL (volatile uint32_t *)(0xff800000 + (0x016 << 2)) +#define AO_PINMUX_LOCK (0xff800000 + (0x017 << 2)) +#define SEC_AO_PINMUX_LOCK (0xff800000 + (0x017 << 2)) +#define P_AO_PINMUX_LOCK (volatile uint32_t *)(0xff800000 + (0x017 << 2)) +#define AO_AHB2DDR_CNTL (0xff800000 + (0x018 << 2)) +#define SEC_AO_AHB2DDR_CNTL (0xff800000 + (0x018 << 2)) +#define P_AO_AHB2DDR_CNTL (volatile uint32_t *)(0xff800000 + (0x018 << 2)) +#define AO_TIMEBASE_CNTL (0xff800000 + (0x019 << 2)) +#define SEC_AO_TIMEBASE_CNTL (0xff800000 + (0x019 << 2)) +#define P_AO_TIMEBASE_CNTL (volatile uint32_t *)(0xff800000 + (0x019 << 2)) +#define AO_GEN_CLK_CNTL (0xff800000 + (0x01a << 2)) +#define SEC_AO_GEN_CLK_CNTL (0xff800000 + (0x01a << 2)) +#define P_AO_GEN_CLK_CNTL (volatile uint32_t *)(0xff800000 + (0x01a << 2)) +//`define AO_RTI_INTER_OSC_CTL0 8'h1b +//`define AO_RTI_INTER_OSC_CTL1 8'h1c +#define AO_CEC_CLK_CNTL_REG0 (0xff800000 + (0x01d << 2)) +#define SEC_AO_CEC_CLK_CNTL_REG0 (0xff800000 + (0x01d << 2)) +#define P_AO_CEC_CLK_CNTL_REG0 (volatile uint32_t *)(0xff800000 + (0x01d << 2)) +#define AO_CEC_CLK_CNTL_REG1 (0xff800000 + (0x01e << 2)) +#define SEC_AO_CEC_CLK_CNTL_REG1 (0xff800000 + (0x01e << 2)) +#define P_AO_CEC_CLK_CNTL_REG1 (volatile uint32_t *)(0xff800000 + (0x01e << 2)) +#define AO_METAL_REVISION (0xff800000 + (0x01f << 2)) +#define SEC_AO_METAL_REVISION (0xff800000 + (0x01f << 2)) +#define P_AO_METAL_REVISION (volatile uint32_t *)(0xff800000 + (0x01f << 2)) +//`define AO_IRQ_MASK_FIQ_SEL 8'h20 +#define AO_IRQ_GPIO_REG (0xff800000 + (0x021 << 2)) +#define SEC_AO_IRQ_GPIO_REG (0xff800000 + (0x021 << 2)) +#define P_AO_IRQ_GPIO_REG (volatile uint32_t *)(0xff800000 + (0x021 << 2)) +//`define AO_IRQ_STAT 8'h22 +//`define AO_IRQ_STAT_CLR 8'h23 +#define AO_SAR_CLK (0xff800000 + (0x024 << 2)) +#define SEC_AO_SAR_CLK (0xff800000 + (0x024 << 2)) +#define P_AO_SAR_CLK (volatile uint32_t *)(0xff800000 + (0x024 << 2)) +#define AO_RTC_ALT_CLK_CNTL0 (0xff800000 + (0x025 << 2)) +#define SEC_AO_RTC_ALT_CLK_CNTL0 (0xff800000 + (0x025 << 2)) +#define P_AO_RTC_ALT_CLK_CNTL0 (volatile uint32_t *)(0xff800000 + (0x025 << 2)) +#define AO_RTC_ALT_CLK_CNTL1 (0xff800000 + (0x026 << 2)) +#define SEC_AO_RTC_ALT_CLK_CNTL1 (0xff800000 + (0x026 << 2)) +#define P_AO_RTC_ALT_CLK_CNTL1 (volatile uint32_t *)(0xff800000 + (0x026 << 2)) +#define AO_TIMESTAMP_CNTL2 (0xff800000 + (0x027 << 2)) +#define SEC_AO_TIMESTAMP_CNTL2 (0xff800000 + (0x027 << 2)) +#define P_AO_TIMESTAMP_CNTL2 (volatile uint32_t *)(0xff800000 + (0x027 << 2)) +#define AO_DEBUG_REG0 (0xff800000 + (0x028 << 2)) +#define SEC_AO_DEBUG_REG0 (0xff800000 + (0x028 << 2)) +#define P_AO_DEBUG_REG0 (volatile uint32_t *)(0xff800000 + (0x028 << 2)) +#define AO_DEBUG_REG1 (0xff800000 + (0x029 << 2)) +#define SEC_AO_DEBUG_REG1 (0xff800000 + (0x029 << 2)) +#define P_AO_DEBUG_REG1 (volatile uint32_t *)(0xff800000 + (0x029 << 2)) +#define AO_DEBUG_REG2 (0xff800000 + (0x02a << 2)) +#define SEC_AO_DEBUG_REG2 (0xff800000 + (0x02a << 2)) +#define P_AO_DEBUG_REG2 (volatile uint32_t *)(0xff800000 + (0x02a << 2)) +#define AO_DEBUG_REG3 (0xff800000 + (0x02b << 2)) +#define SEC_AO_DEBUG_REG3 (0xff800000 + (0x02b << 2)) +#define P_AO_DEBUG_REG3 (volatile uint32_t *)(0xff800000 + (0x02b << 2)) +#define AO_TIMESTAMP_CNTL1 (0xff800000 + (0x02c << 2)) +#define SEC_AO_TIMESTAMP_CNTL1 (0xff800000 + (0x02c << 2)) +#define P_AO_TIMESTAMP_CNTL1 (volatile uint32_t *)(0xff800000 + (0x02c << 2)) +#define AO_TIMESTAMP_CNTL (0xff800000 + (0x02d << 2)) +#define SEC_AO_TIMESTAMP_CNTL (0xff800000 + (0x02d << 2)) +#define P_AO_TIMESTAMP_CNTL (volatile uint32_t *)(0xff800000 + (0x02d << 2)) +#define AO_TIMESTAMP_RD0 (0xff800000 + (0x02e << 2)) +#define SEC_AO_TIMESTAMP_RD0 (0xff800000 + (0x02e << 2)) +#define P_AO_TIMESTAMP_RD0 (volatile uint32_t *)(0xff800000 + (0x02e << 2)) +#define AO_TIMESTAMP_RD1 (0xff800000 + (0x02f << 2)) +#define SEC_AO_TIMESTAMP_RD1 (0xff800000 + (0x02f << 2)) +#define P_AO_TIMESTAMP_RD1 (volatile uint32_t *)(0xff800000 + (0x02f << 2)) +#define SP_HOLD_CTRL (0xff800000 + (0x031 << 2)) +#define SEC_SP_HOLD_CTRL (0xff800000 + (0x031 << 2)) +#define P_SP_HOLD_CTRL (volatile uint32_t *)(0xff800000 + (0x031 << 2)) +#define AO_FR_EE_WR_ONCE (0xff800000 + (0x032 << 2)) +#define SEC_AO_FR_EE_WR_ONCE (0xff800000 + (0x032 << 2)) +#define P_AO_FR_EE_WR_ONCE (volatile uint32_t *)(0xff800000 + (0x032 << 2)) +#define AO_CPU_STAT1 (0xff800000 + (0x033 << 2)) +#define SEC_AO_CPU_STAT1 (0xff800000 + (0x033 << 2)) +#define P_AO_CPU_STAT1 (volatile uint32_t *)(0xff800000 + (0x033 << 2)) +#define AO_CPU_STAT2 (0xff800000 + (0x034 << 2)) +#define SEC_AO_CPU_STAT2 (0xff800000 + (0x034 << 2)) +#define P_AO_CPU_STAT2 (volatile uint32_t *)(0xff800000 + (0x034 << 2)) +#define AO_CPU_TIMESTAMP (0xff800000 + (0x035 << 2)) +#define SEC_AO_CPU_TIMESTAMP (0xff800000 + (0x035 << 2)) +#define P_AO_CPU_TIMESTAMP (volatile uint32_t *)(0xff800000 + (0x035 << 2)) +#define AO_CPU_TIMESTAMP2 (0xff800000 + (0x036 << 2)) +#define SEC_AO_CPU_TIMESTAMP2 (0xff800000 + (0x036 << 2)) +#define P_AO_CPU_TIMESTAMP2 (volatile uint32_t *)(0xff800000 + (0x036 << 2)) +#define AO_CPU_CNTL3 (0xff800000 + (0x037 << 2)) +#define SEC_AO_CPU_CNTL3 (0xff800000 + (0x037 << 2)) +#define P_AO_CPU_CNTL3 (volatile uint32_t *)(0xff800000 + (0x037 << 2)) +// general Power control +#define AO_RTI_PWR_SYS_CPU_CNTL0 (0xff800000 + (0x038 << 2)) +#define SEC_AO_RTI_PWR_SYS_CPU_CNTL0 (0xff800000 + (0x038 << 2)) +#define P_AO_RTI_PWR_SYS_CPU_CNTL0 (volatile uint32_t *)(0xff800000 + (0x038 << 2)) +#define AO_RTI_PWR_SYS_CPU_CNTL1 (0xff800000 + (0x039 << 2)) +#define SEC_AO_RTI_PWR_SYS_CPU_CNTL1 (0xff800000 + (0x039 << 2)) +#define P_AO_RTI_PWR_SYS_CPU_CNTL1 (volatile uint32_t *)(0xff800000 + (0x039 << 2)) +#define AO_RTI_GEN_PWR_SLEEP0 (0xff800000 + (0x03a << 2)) +#define SEC_AO_RTI_GEN_PWR_SLEEP0 (0xff800000 + (0x03a << 2)) +#define P_AO_RTI_GEN_PWR_SLEEP0 (volatile uint32_t *)(0xff800000 + (0x03a << 2)) +#define AO_RTI_GEN_PWR_ISO0 (0xff800000 + (0x03b << 2)) +#define SEC_AO_RTI_GEN_PWR_ISO0 (0xff800000 + (0x03b << 2)) +#define P_AO_RTI_GEN_PWR_ISO0 (volatile uint32_t *)(0xff800000 + (0x03b << 2)) +#define AO_RTI_GEN_PWR_ACK0 (0xff800000 + (0x03c << 2)) +#define SEC_AO_RTI_GEN_PWR_ACK0 (0xff800000 + (0x03c << 2)) +#define P_AO_RTI_GEN_PWR_ACK0 (volatile uint32_t *)(0xff800000 + (0x03c << 2)) +#define AO_RTI_PWR_SYS_CPU_MEM_PD0 (0xff800000 + (0x03d << 2)) +#define SEC_AO_RTI_PWR_SYS_CPU_MEM_PD0 (0xff800000 + (0x03d << 2)) +#define P_AO_RTI_PWR_SYS_CPU_MEM_PD0 (volatile uint32_t *)(0xff800000 + (0x03d << 2)) +#define AO_RTI_PWR_SYS_CPU_MEM_PD1 (0xff800000 + (0x03e << 2)) +#define SEC_AO_RTI_PWR_SYS_CPU_MEM_PD1 (0xff800000 + (0x03e << 2)) +#define P_AO_RTI_PWR_SYS_CPU_MEM_PD1 (volatile uint32_t *)(0xff800000 + (0x03e << 2)) +#define AO_CPU_CNTL4 (0xff800000 + (0x03f << 2)) +#define SEC_AO_CPU_CNTL4 (0xff800000 + (0x03f << 2)) +#define P_AO_CPU_CNTL4 (volatile uint32_t *)(0xff800000 + (0x03f << 2)) +#define AO_CEC_GEN_CNTL (0xff800000 + (0x040 << 2)) +#define SEC_AO_CEC_GEN_CNTL (0xff800000 + (0x040 << 2)) +#define P_AO_CEC_GEN_CNTL (volatile uint32_t *)(0xff800000 + (0x040 << 2)) +#define AO_CEC_RW_REG (0xff800000 + (0x041 << 2)) +#define SEC_AO_CEC_RW_REG (0xff800000 + (0x041 << 2)) +#define P_AO_CEC_RW_REG (volatile uint32_t *)(0xff800000 + (0x041 << 2)) +#define AO_CEC_INTR_MASKN (0xff800000 + (0x042 << 2)) +#define SEC_AO_CEC_INTR_MASKN (0xff800000 + (0x042 << 2)) +#define P_AO_CEC_INTR_MASKN (volatile uint32_t *)(0xff800000 + (0x042 << 2)) +#define AO_CEC_INTR_CLR (0xff800000 + (0x043 << 2)) +#define SEC_AO_CEC_INTR_CLR (0xff800000 + (0x043 << 2)) +#define P_AO_CEC_INTR_CLR (volatile uint32_t *)(0xff800000 + (0x043 << 2)) +#define AO_CEC_INTR_STAT (0xff800000 + (0x044 << 2)) +#define SEC_AO_CEC_INTR_STAT (0xff800000 + (0x044 << 2)) +#define P_AO_CEC_INTR_STAT (volatile uint32_t *)(0xff800000 + (0x044 << 2)) +#define AO_CPU_CNTL5 (0xff800000 + (0x045 << 2)) +#define SEC_AO_CPU_CNTL5 (0xff800000 + (0x045 << 2)) +#define P_AO_CPU_CNTL5 (volatile uint32_t *)(0xff800000 + (0x045 << 2)) +#define AO_WATCHDOG_CNTL (0xff800000 + (0x048 << 2)) +#define SEC_AO_WATCHDOG_CNTL (0xff800000 + (0x048 << 2)) +#define P_AO_WATCHDOG_CNTL (volatile uint32_t *)(0xff800000 + (0x048 << 2)) +#define AO_WATCHDOG_CNTL1 (0xff800000 + (0x049 << 2)) +#define SEC_AO_WATCHDOG_CNTL1 (0xff800000 + (0x049 << 2)) +#define P_AO_WATCHDOG_CNTL1 (volatile uint32_t *)(0xff800000 + (0x049 << 2)) +#define AO_WATCHDOG_TCNT (0xff800000 + (0x04a << 2)) +#define SEC_AO_WATCHDOG_TCNT (0xff800000 + (0x04a << 2)) +#define P_AO_WATCHDOG_TCNT (volatile uint32_t *)(0xff800000 + (0x04a << 2)) +#define AO_WATCHDOG_RESET (0xff800000 + (0x04b << 2)) +#define SEC_AO_WATCHDOG_RESET (0xff800000 + (0x04b << 2)) +#define P_AO_WATCHDOG_RESET (volatile uint32_t *)(0xff800000 + (0x04b << 2)) +#define AO_RTI_STICKY_REG0 (0xff800000 + (0x04c << 2)) +#define SEC_AO_RTI_STICKY_REG0 (0xff800000 + (0x04c << 2)) +#define P_AO_RTI_STICKY_REG0 (volatile uint32_t *)(0xff800000 + (0x04c << 2)) +#define AO_RTI_STICKY_REG1 (0xff800000 + (0x04d << 2)) +#define SEC_AO_RTI_STICKY_REG1 (0xff800000 + (0x04d << 2)) +#define P_AO_RTI_STICKY_REG1 (volatile uint32_t *)(0xff800000 + (0x04d << 2)) +#define AO_RTI_STICKY_REG2 (0xff800000 + (0x04e << 2)) +#define SEC_AO_RTI_STICKY_REG2 (0xff800000 + (0x04e << 2)) +#define P_AO_RTI_STICKY_REG2 (volatile uint32_t *)(0xff800000 + (0x04e << 2)) +#define AO_RTI_STICKY_REG3 (0xff800000 + (0x04f << 2)) +#define SEC_AO_RTI_STICKY_REG3 (0xff800000 + (0x04f << 2)) +#define P_AO_RTI_STICKY_REG3 (volatile uint32_t *)(0xff800000 + (0x04f << 2)) +// +// Secure APB3 Slot 2 registers +// +#define AO_SEC_REG0 (0xff800000 + (0x050 << 2)) +#define SEC_AO_SEC_REG0 (0xff800000 + (0x050 << 2)) +#define P_AO_SEC_REG0 (volatile uint32_t *)(0xff800000 + (0x050 << 2)) +//`define AO_SEC_REG1 8'h51 +#define AO_IR_BLASTER_ADDR0 (0xff800000 + (0x053 << 2)) +#define SEC_AO_IR_BLASTER_ADDR0 (0xff800000 + (0x053 << 2)) +#define P_AO_IR_BLASTER_ADDR0 (volatile uint32_t *)(0xff800000 + (0x053 << 2)) +#define AO_IR_BLASTER_ADDR1 (0xff800000 + (0x054 << 2)) +#define SEC_AO_IR_BLASTER_ADDR1 (0xff800000 + (0x054 << 2)) +#define P_AO_IR_BLASTER_ADDR1 (volatile uint32_t *)(0xff800000 + (0x054 << 2)) +#define AO_IR_BLASTER_ADDR2 (0xff800000 + (0x055 << 2)) +#define SEC_AO_IR_BLASTER_ADDR2 (0xff800000 + (0x055 << 2)) +#define P_AO_IR_BLASTER_ADDR2 (volatile uint32_t *)(0xff800000 + (0x055 << 2)) +#define AO_IR_BLASTER_ADDR3 (0xff800000 + (0x056 << 2)) +#define SEC_AO_IR_BLASTER_ADDR3 (0xff800000 + (0x056 << 2)) +#define P_AO_IR_BLASTER_ADDR3 (volatile uint32_t *)(0xff800000 + (0x056 << 2)) +#define AO_SEC_TMODE_PWD0 (0xff800000 + (0x058 << 2)) +#define SEC_AO_SEC_TMODE_PWD0 (0xff800000 + (0x058 << 2)) +#define P_AO_SEC_TMODE_PWD0 (volatile uint32_t *)(0xff800000 + (0x058 << 2)) +#define AO_SEC_TMODE_PWD1 (0xff800000 + (0x059 << 2)) +#define SEC_AO_SEC_TMODE_PWD1 (0xff800000 + (0x059 << 2)) +#define P_AO_SEC_TMODE_PWD1 (volatile uint32_t *)(0xff800000 + (0x059 << 2)) +#define AO_SEC_TMODE_PWD2 (0xff800000 + (0x05a << 2)) +#define SEC_AO_SEC_TMODE_PWD2 (0xff800000 + (0x05a << 2)) +#define P_AO_SEC_TMODE_PWD2 (volatile uint32_t *)(0xff800000 + (0x05a << 2)) +#define AO_SEC_TMODE_PWD3 (0xff800000 + (0x05b << 2)) +#define SEC_AO_SEC_TMODE_PWD3 (0xff800000 + (0x05b << 2)) +#define P_AO_SEC_TMODE_PWD3 (volatile uint32_t *)(0xff800000 + (0x05b << 2)) +#define AO_WRITE_ONCE0 (0xff800000 + (0x05c << 2)) +#define SEC_AO_WRITE_ONCE0 (0xff800000 + (0x05c << 2)) +#define P_AO_WRITE_ONCE0 (volatile uint32_t *)(0xff800000 + (0x05c << 2)) +#define AO_WRITE_ONCE1 (0xff800000 + (0x05d << 2)) +#define SEC_AO_WRITE_ONCE1 (0xff800000 + (0x05d << 2)) +#define P_AO_WRITE_ONCE1 (volatile uint32_t *)(0xff800000 + (0x05d << 2)) +#define AO_WRITE_ONCE2 (0xff800000 + (0x05e << 2)) +#define SEC_AO_WRITE_ONCE2 (0xff800000 + (0x05e << 2)) +#define P_AO_WRITE_ONCE2 (volatile uint32_t *)(0xff800000 + (0x05e << 2)) +#define AO_SEC_SCRATCH (0xff800000 + (0x05f << 2)) +#define SEC_AO_SEC_SCRATCH (0xff800000 + (0x05f << 2)) +#define P_AO_SEC_SCRATCH (volatile uint32_t *)(0xff800000 + (0x05f << 2)) +#define AO_MSG_INDEX0 (0xff800000 + (0x060 << 2)) +#define SEC_AO_MSG_INDEX0 (0xff800000 + (0x060 << 2)) +#define P_AO_MSG_INDEX0 (volatile uint32_t *)(0xff800000 + (0x060 << 2)) +#define AO_MSG_INDEX1 (0xff800000 + (0x061 << 2)) +#define SEC_AO_MSG_INDEX1 (0xff800000 + (0x061 << 2)) +#define P_AO_MSG_INDEX1 (volatile uint32_t *)(0xff800000 + (0x061 << 2)) +#define AO_MSG_INDEX2 (0xff800000 + (0x062 << 2)) +#define SEC_AO_MSG_INDEX2 (0xff800000 + (0x062 << 2)) +#define P_AO_MSG_INDEX2 (volatile uint32_t *)(0xff800000 + (0x062 << 2)) +#define AO_MSG_INDEX3 (0xff800000 + (0x063 << 2)) +#define SEC_AO_MSG_INDEX3 (0xff800000 + (0x063 << 2)) +#define P_AO_MSG_INDEX3 (volatile uint32_t *)(0xff800000 + (0x063 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_MASK_0 (0xff800000 + (0x066 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_MASK_0 (0xff800000 + (0x066 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_MASK_0 (volatile uint32_t *)(0xff800000 + (0x066 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_MASK_1 (0xff800000 + (0x067 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_MASK_1 (0xff800000 + (0x067 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_MASK_1 (volatile uint32_t *)(0xff800000 + (0x067 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_MASK_2 (0xff800000 + (0x068 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_MASK_2 (0xff800000 + (0x068 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_MASK_2 (volatile uint32_t *)(0xff800000 + (0x068 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG0_0 (0xff800000 + (0x069 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG0_0 (0xff800000 + (0x069 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG0_0 (volatile uint32_t *)(0xff800000 + (0x069 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG0_1 (0xff800000 + (0x06a << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG0_1 (0xff800000 + (0x06a << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG0_1 (volatile uint32_t *)(0xff800000 + (0x06a << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG0_2 (0xff800000 + (0x06b << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG0_2 (0xff800000 + (0x06b << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG0_2 (volatile uint32_t *)(0xff800000 + (0x06b << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG1_0 (0xff800000 + (0x06c << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG1_0 (0xff800000 + (0x06c << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG1_0 (volatile uint32_t *)(0xff800000 + (0x06c << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG1_1 (0xff800000 + (0x06d << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG1_1 (0xff800000 + (0x06d << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG1_1 (volatile uint32_t *)(0xff800000 + (0x06d << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG1_2 (0xff800000 + (0x06e << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG1_2 (0xff800000 + (0x06e << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG1_2 (volatile uint32_t *)(0xff800000 + (0x06e << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG2_0 (0xff800000 + (0x06f << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG2_0 (0xff800000 + (0x06f << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG2_0 (volatile uint32_t *)(0xff800000 + (0x06f << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG2_1 (0xff800000 + (0x070 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG2_1 (0xff800000 + (0x070 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG2_1 (volatile uint32_t *)(0xff800000 + (0x070 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG2_2 (0xff800000 + (0x071 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG2_2 (0xff800000 + (0x071 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG2_2 (volatile uint32_t *)(0xff800000 + (0x071 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG3_0 (0xff800000 + (0x072 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG3_0 (0xff800000 + (0x072 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG3_0 (volatile uint32_t *)(0xff800000 + (0x072 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG3_1 (0xff800000 + (0x073 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG3_1 (0xff800000 + (0x073 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG3_1 (volatile uint32_t *)(0xff800000 + (0x073 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG3_2 (0xff800000 + (0x074 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG3_2 (0xff800000 + (0x074 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG3_2 (volatile uint32_t *)(0xff800000 + (0x074 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG4_0 (0xff800000 + (0x075 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG4_0 (0xff800000 + (0x075 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG4_0 (volatile uint32_t *)(0xff800000 + (0x075 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG4_1 (0xff800000 + (0x076 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG4_1 (0xff800000 + (0x076 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG4_1 (volatile uint32_t *)(0xff800000 + (0x076 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG4_2 (0xff800000 + (0x077 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG4_2 (0xff800000 + (0x077 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG4_2 (volatile uint32_t *)(0xff800000 + (0x077 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG5_0 (0xff800000 + (0x078 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG5_0 (0xff800000 + (0x078 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG5_0 (volatile uint32_t *)(0xff800000 + (0x078 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG5_1 (0xff800000 + (0x079 << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG5_1 (0xff800000 + (0x079 << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG5_1 (volatile uint32_t *)(0xff800000 + (0x079 << 2)) +#define AO_SEC_SHARED_AHB_SRAM_REG5_2 (0xff800000 + (0x07a << 2)) +#define SEC_AO_SEC_SHARED_AHB_SRAM_REG5_2 (0xff800000 + (0x07a << 2)) +#define P_AO_SEC_SHARED_AHB_SRAM_REG5_2 (volatile uint32_t *)(0xff800000 + (0x07a << 2)) +#define AO_SEC_AO_CPU_SRAM_REG0_0 (0xff800000 + (0x07c << 2)) +#define SEC_AO_SEC_AO_CPU_SRAM_REG0_0 (0xff800000 + (0x07c << 2)) +#define P_AO_SEC_AO_CPU_SRAM_REG0_0 (volatile uint32_t *)(0xff800000 + (0x07c << 2)) +#define AO_SEC_AO_CPU_SRAM_REG0_1 (0xff800000 + (0x07d << 2)) +#define SEC_AO_SEC_AO_CPU_SRAM_REG0_1 (0xff800000 + (0x07d << 2)) +#define P_AO_SEC_AO_CPU_SRAM_REG0_1 (volatile uint32_t *)(0xff800000 + (0x07d << 2)) +#define AO_SEC_AO_CPU_SRAM_REG1_0 (0xff800000 + (0x07e << 2)) +#define SEC_AO_SEC_AO_CPU_SRAM_REG1_0 (0xff800000 + (0x07e << 2)) +#define P_AO_SEC_AO_CPU_SRAM_REG1_0 (volatile uint32_t *)(0xff800000 + (0x07e << 2)) +#define AO_SEC_AO_CPU_SRAM_REG1_1 (0xff800000 + (0x07f << 2)) +#define SEC_AO_SEC_AO_CPU_SRAM_REG1_1 (0xff800000 + (0x07f << 2)) +#define P_AO_SEC_AO_CPU_SRAM_REG1_1 (volatile uint32_t *)(0xff800000 + (0x07f << 2)) +#define AO_SEC_SD_CFG0 (0xff800000 + (0x080 << 2)) +#define SEC_AO_SEC_SD_CFG0 (0xff800000 + (0x080 << 2)) +#define P_AO_SEC_SD_CFG0 (volatile uint32_t *)(0xff800000 + (0x080 << 2)) +#define AO_SEC_SD_CFG1 (0xff800000 + (0x081 << 2)) +#define SEC_AO_SEC_SD_CFG1 (0xff800000 + (0x081 << 2)) +#define P_AO_SEC_SD_CFG1 (volatile uint32_t *)(0xff800000 + (0x081 << 2)) +#define AO_SEC_SD_CFG2 (0xff800000 + (0x082 << 2)) +#define SEC_AO_SEC_SD_CFG2 (0xff800000 + (0x082 << 2)) +#define P_AO_SEC_SD_CFG2 (volatile uint32_t *)(0xff800000 + (0x082 << 2)) +#define AO_SEC_SD_CFG3 (0xff800000 + (0x083 << 2)) +#define SEC_AO_SEC_SD_CFG3 (0xff800000 + (0x083 << 2)) +#define P_AO_SEC_SD_CFG3 (volatile uint32_t *)(0xff800000 + (0x083 << 2)) +#define AO_SEC_SD_CFG4 (0xff800000 + (0x084 << 2)) +#define SEC_AO_SEC_SD_CFG4 (0xff800000 + (0x084 << 2)) +#define P_AO_SEC_SD_CFG4 (volatile uint32_t *)(0xff800000 + (0x084 << 2)) +#define AO_SEC_SD_CFG5 (0xff800000 + (0x085 << 2)) +#define SEC_AO_SEC_SD_CFG5 (0xff800000 + (0x085 << 2)) +#define P_AO_SEC_SD_CFG5 (volatile uint32_t *)(0xff800000 + (0x085 << 2)) +#define AO_SEC_SD_CFG6 (0xff800000 + (0x086 << 2)) +#define SEC_AO_SEC_SD_CFG6 (0xff800000 + (0x086 << 2)) +#define P_AO_SEC_SD_CFG6 (volatile uint32_t *)(0xff800000 + (0x086 << 2)) +#define AO_SEC_SD_CFG7 (0xff800000 + (0x087 << 2)) +#define SEC_AO_SEC_SD_CFG7 (0xff800000 + (0x087 << 2)) +#define P_AO_SEC_SD_CFG7 (volatile uint32_t *)(0xff800000 + (0x087 << 2)) +#define AO_SEC_SD_CFG8 (0xff800000 + (0x088 << 2)) +#define SEC_AO_SEC_SD_CFG8 (0xff800000 + (0x088 << 2)) +#define P_AO_SEC_SD_CFG8 (volatile uint32_t *)(0xff800000 + (0x088 << 2)) +#define AO_SEC_SD_CFG9 (0xff800000 + (0x089 << 2)) +#define SEC_AO_SEC_SD_CFG9 (0xff800000 + (0x089 << 2)) +#define P_AO_SEC_SD_CFG9 (volatile uint32_t *)(0xff800000 + (0x089 << 2)) +#define AO_SEC_SD_CFG10 (0xff800000 + (0x08a << 2)) +#define SEC_AO_SEC_SD_CFG10 (0xff800000 + (0x08a << 2)) +#define P_AO_SEC_SD_CFG10 (volatile uint32_t *)(0xff800000 + (0x08a << 2)) +#define AO_SEC_SD_CFG11 (0xff800000 + (0x08b << 2)) +#define SEC_AO_SEC_SD_CFG11 (0xff800000 + (0x08b << 2)) +#define P_AO_SEC_SD_CFG11 (volatile uint32_t *)(0xff800000 + (0x08b << 2)) +#define AO_SEC_SD_CFG12 (0xff800000 + (0x08c << 2)) +#define SEC_AO_SEC_SD_CFG12 (0xff800000 + (0x08c << 2)) +#define P_AO_SEC_SD_CFG12 (volatile uint32_t *)(0xff800000 + (0x08c << 2)) +#define AO_SEC_SD_CFG13 (0xff800000 + (0x08d << 2)) +#define SEC_AO_SEC_SD_CFG13 (0xff800000 + (0x08d << 2)) +#define P_AO_SEC_SD_CFG13 (volatile uint32_t *)(0xff800000 + (0x08d << 2)) +#define AO_SEC_SD_CFG14 (0xff800000 + (0x08e << 2)) +#define SEC_AO_SEC_SD_CFG14 (0xff800000 + (0x08e << 2)) +#define P_AO_SEC_SD_CFG14 (volatile uint32_t *)(0xff800000 + (0x08e << 2)) +#define AO_SEC_SD_CFG15 (0xff800000 + (0x08f << 2)) +#define SEC_AO_SEC_SD_CFG15 (0xff800000 + (0x08f << 2)) +#define P_AO_SEC_SD_CFG15 (volatile uint32_t *)(0xff800000 + (0x08f << 2)) +#define AO_SEC_GP_CFG0 (0xff800000 + (0x090 << 2)) +#define SEC_AO_SEC_GP_CFG0 (0xff800000 + (0x090 << 2)) +#define P_AO_SEC_GP_CFG0 (volatile uint32_t *)(0xff800000 + (0x090 << 2)) +#define AO_SEC_GP_CFG1 (0xff800000 + (0x091 << 2)) +#define SEC_AO_SEC_GP_CFG1 (0xff800000 + (0x091 << 2)) +#define P_AO_SEC_GP_CFG1 (volatile uint32_t *)(0xff800000 + (0x091 << 2)) +#define AO_SEC_GP_CFG2 (0xff800000 + (0x092 << 2)) +#define SEC_AO_SEC_GP_CFG2 (0xff800000 + (0x092 << 2)) +#define P_AO_SEC_GP_CFG2 (volatile uint32_t *)(0xff800000 + (0x092 << 2)) +#define AO_SEC_GP_CFG3 (0xff800000 + (0x093 << 2)) +#define SEC_AO_SEC_GP_CFG3 (0xff800000 + (0x093 << 2)) +#define P_AO_SEC_GP_CFG3 (volatile uint32_t *)(0xff800000 + (0x093 << 2)) +#define AO_SEC_GP_CFG4 (0xff800000 + (0x094 << 2)) +#define SEC_AO_SEC_GP_CFG4 (0xff800000 + (0x094 << 2)) +#define P_AO_SEC_GP_CFG4 (volatile uint32_t *)(0xff800000 + (0x094 << 2)) +#define AO_SEC_GP_CFG5 (0xff800000 + (0x095 << 2)) +#define SEC_AO_SEC_GP_CFG5 (0xff800000 + (0x095 << 2)) +#define P_AO_SEC_GP_CFG5 (volatile uint32_t *)(0xff800000 + (0x095 << 2)) +#define AO_SEC_GP_CFG6 (0xff800000 + (0x096 << 2)) +#define SEC_AO_SEC_GP_CFG6 (0xff800000 + (0x096 << 2)) +#define P_AO_SEC_GP_CFG6 (volatile uint32_t *)(0xff800000 + (0x096 << 2)) +#define AO_SEC_GP_CFG7 (0xff800000 + (0x097 << 2)) +#define SEC_AO_SEC_GP_CFG7 (0xff800000 + (0x097 << 2)) +#define P_AO_SEC_GP_CFG7 (volatile uint32_t *)(0xff800000 + (0x097 << 2)) +#define AO_SEC_GP_CFG8 (0xff800000 + (0x098 << 2)) +#define SEC_AO_SEC_GP_CFG8 (0xff800000 + (0x098 << 2)) +#define P_AO_SEC_GP_CFG8 (volatile uint32_t *)(0xff800000 + (0x098 << 2)) +#define AO_SEC_GP_CFG9 (0xff800000 + (0x099 << 2)) +#define SEC_AO_SEC_GP_CFG9 (0xff800000 + (0x099 << 2)) +#define P_AO_SEC_GP_CFG9 (volatile uint32_t *)(0xff800000 + (0x099 << 2)) +#define AO_SEC_GP_CFG10 (0xff800000 + (0x09a << 2)) +#define SEC_AO_SEC_GP_CFG10 (0xff800000 + (0x09a << 2)) +#define P_AO_SEC_GP_CFG10 (volatile uint32_t *)(0xff800000 + (0x09a << 2)) +#define AO_SEC_GP_CFG11 (0xff800000 + (0x09b << 2)) +#define SEC_AO_SEC_GP_CFG11 (0xff800000 + (0x09b << 2)) +#define P_AO_SEC_GP_CFG11 (volatile uint32_t *)(0xff800000 + (0x09b << 2)) +#define AO_SEC_GP_CFG12 (0xff800000 + (0x09c << 2)) +#define SEC_AO_SEC_GP_CFG12 (0xff800000 + (0x09c << 2)) +#define P_AO_SEC_GP_CFG12 (volatile uint32_t *)(0xff800000 + (0x09c << 2)) +#define AO_SEC_GP_CFG13 (0xff800000 + (0x09d << 2)) +#define SEC_AO_SEC_GP_CFG13 (0xff800000 + (0x09d << 2)) +#define P_AO_SEC_GP_CFG13 (volatile uint32_t *)(0xff800000 + (0x09d << 2)) +#define AO_SEC_GP_CFG14 (0xff800000 + (0x09e << 2)) +#define SEC_AO_SEC_GP_CFG14 (0xff800000 + (0x09e << 2)) +#define P_AO_SEC_GP_CFG14 (volatile uint32_t *)(0xff800000 + (0x09e << 2)) +#define AO_SEC_GP_CFG15 (0xff800000 + (0x09f << 2)) +#define SEC_AO_SEC_GP_CFG15 (0xff800000 + (0x09f << 2)) +#define P_AO_SEC_GP_CFG15 (volatile uint32_t *)(0xff800000 + (0x09f << 2)) +#define AO_CECB_CLK_CNTL_REG0 (0xff800000 + (0x0a0 << 2)) +#define SEC_AO_CECB_CLK_CNTL_REG0 (0xff800000 + (0x0a0 << 2)) +#define P_AO_CECB_CLK_CNTL_REG0 (volatile uint32_t *)(0xff800000 + (0x0a0 << 2)) +#define AO_CECB_CLK_CNTL_REG1 (0xff800000 + (0x0a1 << 2)) +#define SEC_AO_CECB_CLK_CNTL_REG1 (0xff800000 + (0x0a1 << 2)) +#define P_AO_CECB_CLK_CNTL_REG1 (volatile uint32_t *)(0xff800000 + (0x0a1 << 2)) +#define AO_CECB_GEN_CNTL (0xff800000 + (0x0a2 << 2)) +#define SEC_AO_CECB_GEN_CNTL (0xff800000 + (0x0a2 << 2)) +#define P_AO_CECB_GEN_CNTL (volatile uint32_t *)(0xff800000 + (0x0a2 << 2)) +#define AO_CECB_RW_REG (0xff800000 + (0x0a3 << 2)) +#define SEC_AO_CECB_RW_REG (0xff800000 + (0x0a3 << 2)) +#define P_AO_CECB_RW_REG (volatile uint32_t *)(0xff800000 + (0x0a3 << 2)) +#define AO_CECB_INTR_MASKN (0xff800000 + (0x0a4 << 2)) +#define SEC_AO_CECB_INTR_MASKN (0xff800000 + (0x0a4 << 2)) +#define P_AO_CECB_INTR_MASKN (volatile uint32_t *)(0xff800000 + (0x0a4 << 2)) +#define AO_CECB_INTR_CLR (0xff800000 + (0x0a5 << 2)) +#define SEC_AO_CECB_INTR_CLR (0xff800000 + (0x0a5 << 2)) +#define P_AO_CECB_INTR_CLR (volatile uint32_t *)(0xff800000 + (0x0a5 << 2)) +#define AO_CECB_INTR_STAT (0xff800000 + (0x0a6 << 2)) +#define SEC_AO_CECB_INTR_STAT (0xff800000 + (0x0a6 << 2)) +#define P_AO_CECB_INTR_STAT (volatile uint32_t *)(0xff800000 + (0x0a6 << 2)) +#define AO_SEC_M4_CPU_SRAM_REG0_0 (0xff800000 + (0x0a7 << 2)) +#define SEC_AO_SEC_M4_CPU_SRAM_REG0_0 (0xff800000 + (0x0a7 << 2)) +#define P_AO_SEC_M4_CPU_SRAM_REG0_0 (volatile uint32_t *)(0xff800000 + (0x0a7 << 2)) +#define AO_SEC_M4_CPU_SRAM_REG0_1 (0xff800000 + (0x0a8 << 2)) +#define SEC_AO_SEC_M4_CPU_SRAM_REG0_1 (0xff800000 + (0x0a8 << 2)) +#define P_AO_SEC_M4_CPU_SRAM_REG0_1 (volatile uint32_t *)(0xff800000 + (0x0a8 << 2)) +#define AO_SEC_M4_CPU_SRAM_REG1_0 (0xff800000 + (0x0a9 << 2)) +#define SEC_AO_SEC_M4_CPU_SRAM_REG1_0 (0xff800000 + (0x0a9 << 2)) +#define P_AO_SEC_M4_CPU_SRAM_REG1_0 (volatile uint32_t *)(0xff800000 + (0x0a9 << 2)) +#define AO_SEC_M4_CPU_SRAM_REG1_1 (0xff800000 + (0x0aa << 2)) +#define SEC_AO_SEC_M4_CPU_SRAM_REG1_1 (0xff800000 + (0x0aa << 2)) +#define P_AO_SEC_M4_CPU_SRAM_REG1_1 (volatile uint32_t *)(0xff800000 + (0x0aa << 2)) +#define AO_SEC_M4_CPU_SRAM_REG2_0 (0xff800000 + (0x0ab << 2)) +#define SEC_AO_SEC_M4_CPU_SRAM_REG2_0 (0xff800000 + (0x0ab << 2)) +#define P_AO_SEC_M4_CPU_SRAM_REG2_0 (volatile uint32_t *)(0xff800000 + (0x0ab << 2)) +//`define AO_RTC_ADDR0 8'h70 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC +//`define AO_RTC_ADDR1 8'h71 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC +//`define AO_RTC_ADDR2 8'h72 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC +//`define AO_RTC_ADDR3 8'h73 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC +//`define AO_RTC_ADDR4 8'h74 //TODO: DEFINE IF WE'RE IMPLEMENTING AO_RTC +#define AO_SEC_JTAG_SP_CTRL (0xff800000 + (0x0ac << 2)) +#define SEC_AO_SEC_JTAG_SP_CTRL (0xff800000 + (0x0ac << 2)) +#define P_AO_SEC_JTAG_SP_CTRL (volatile uint32_t *)(0xff800000 + (0x0ac << 2)) +#define AO_SEC_JTAG_PWD_SP_0 (0xff800000 + (0x0ad << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_0 (0xff800000 + (0x0ad << 2)) +#define P_AO_SEC_JTAG_PWD_SP_0 (volatile uint32_t *)(0xff800000 + (0x0ad << 2)) +#define AO_SEC_JTAG_PWD_SP_1 (0xff800000 + (0x0ae << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_1 (0xff800000 + (0x0ae << 2)) +#define P_AO_SEC_JTAG_PWD_SP_1 (volatile uint32_t *)(0xff800000 + (0x0ae << 2)) +#define AO_SEC_JTAG_PWD_SP_2 (0xff800000 + (0x0af << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_2 (0xff800000 + (0x0af << 2)) +#define P_AO_SEC_JTAG_PWD_SP_2 (volatile uint32_t *)(0xff800000 + (0x0af << 2)) +#define AO_SEC_JTAG_PWD_SP_3 (0xff800000 + (0x0b0 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_3 (0xff800000 + (0x0b0 << 2)) +#define P_AO_SEC_JTAG_PWD_SP_3 (volatile uint32_t *)(0xff800000 + (0x0b0 << 2)) +#define AO_SEC_JTAG_PWD_SP_CNTL (0xff800000 + (0x0b1 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_CNTL (0xff800000 + (0x0b1 << 2)) +#define P_AO_SEC_JTAG_PWD_SP_CNTL (volatile uint32_t *)(0xff800000 + (0x0b1 << 2)) +#define AO_SEC_JTAG_PWD_SP_ADDR0 (0xff800000 + (0x0b2 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_ADDR0 (0xff800000 + (0x0b2 << 2)) +#define P_AO_SEC_JTAG_PWD_SP_ADDR0 (volatile uint32_t *)(0xff800000 + (0x0b2 << 2)) +#define AO_SEC_JTAG_PWD_SP_ADDR1 (0xff800000 + (0x0b3 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_ADDR1 (0xff800000 + (0x0b3 << 2)) +#define P_AO_SEC_JTAG_PWD_SP_ADDR1 (volatile uint32_t *)(0xff800000 + (0x0b3 << 2)) +#define AO_SEC_JTAG_PWD_SP_ADDR2 (0xff800000 + (0x0b4 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_ADDR2 (0xff800000 + (0x0b4 << 2)) +#define P_AO_SEC_JTAG_PWD_SP_ADDR2 (volatile uint32_t *)(0xff800000 + (0x0b4 << 2)) +#define AO_SEC_JTAG_PWD_SP_ADDR3 (0xff800000 + (0x0b5 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SP_ADDR3 (0xff800000 + (0x0b5 << 2)) +#define P_AO_SEC_JTAG_PWD_SP_ADDR3 (volatile uint32_t *)(0xff800000 + (0x0b5 << 2)) +#define AO_SEC_JTAG_SCP_CTRL (0xff800000 + (0x0b6 << 2)) +#define SEC_AO_SEC_JTAG_SCP_CTRL (0xff800000 + (0x0b6 << 2)) +#define P_AO_SEC_JTAG_SCP_CTRL (volatile uint32_t *)(0xff800000 + (0x0b6 << 2)) +#define AO_SEC_JTAG_PWD_SCP_0 (0xff800000 + (0x0b7 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_0 (0xff800000 + (0x0b7 << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_0 (volatile uint32_t *)(0xff800000 + (0x0b7 << 2)) +#define AO_SEC_JTAG_PWD_SCP_1 (0xff800000 + (0x0b8 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_1 (0xff800000 + (0x0b8 << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_1 (volatile uint32_t *)(0xff800000 + (0x0b8 << 2)) +#define AO_SEC_JTAG_PWD_SCP_2 (0xff800000 + (0x0b9 << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_2 (0xff800000 + (0x0b9 << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_2 (volatile uint32_t *)(0xff800000 + (0x0b9 << 2)) +#define AO_SEC_JTAG_PWD_SCP_3 (0xff800000 + (0x0ba << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_3 (0xff800000 + (0x0ba << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_3 (volatile uint32_t *)(0xff800000 + (0x0ba << 2)) +#define AO_SEC_JTAG_PWD_SCP_CNTL (0xff800000 + (0x0bb << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_CNTL (0xff800000 + (0x0bb << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_CNTL (volatile uint32_t *)(0xff800000 + (0x0bb << 2)) +#define AO_SEC_JTAG_PWD_SCP_ADDR0 (0xff800000 + (0x0bc << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_ADDR0 (0xff800000 + (0x0bc << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_ADDR0 (volatile uint32_t *)(0xff800000 + (0x0bc << 2)) +#define AO_SEC_JTAG_PWD_SCP_ADDR1 (0xff800000 + (0x0bd << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_ADDR1 (0xff800000 + (0x0bd << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_ADDR1 (volatile uint32_t *)(0xff800000 + (0x0bd << 2)) +#define AO_SEC_JTAG_PWD_SCP_ADDR2 (0xff800000 + (0x0be << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_ADDR2 (0xff800000 + (0x0be << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_ADDR2 (volatile uint32_t *)(0xff800000 + (0x0be << 2)) +#define AO_SEC_JTAG_PWD_SCP_ADDR3 (0xff800000 + (0x0bf << 2)) +#define SEC_AO_SEC_JTAG_PWD_SCP_ADDR3 (0xff800000 + (0x0bf << 2)) +#define P_AO_SEC_JTAG_PWD_SCP_ADDR3 (volatile uint32_t *)(0xff800000 + (0x0bf << 2)) +#define M4_CPU_CNTL (0xff800000 + (0x0c0 << 2)) +#define SEC_M4_CPU_CNTL (0xff800000 + (0x0c0 << 2)) +#define P_M4_CPU_CNTL (volatile uint32_t *)(0xff800000 + (0x0c0 << 2)) +#define M4_CPU_CNTL_NS (0xff800000 + (0x0c1 << 2)) +#define SEC_M4_CPU_CNTL_NS (0xff800000 + (0x0c1 << 2)) +#define P_M4_CPU_CNTL_NS (volatile uint32_t *)(0xff800000 + (0x0c1 << 2)) +#define M4_CPU_CNTL2 (0xff800000 + (0x0c2 << 2)) +#define SEC_M4_CPU_CNTL2 (0xff800000 + (0x0c2 << 2)) +#define P_M4_CPU_CNTL2 (volatile uint32_t *)(0xff800000 + (0x0c2 << 2)) +#define M4_CPU_CNTL3 (0xff800000 + (0x0c3 << 2)) +#define SEC_M4_CPU_CNTL3 (0xff800000 + (0x0c3 << 2)) +#define P_M4_CPU_CNTL3 (volatile uint32_t *)(0xff800000 + (0x0c3 << 2)) +#define M4_CPU_CNTL4 (0xff800000 + (0x0c4 << 2)) +#define SEC_M4_CPU_CNTL4 (0xff800000 + (0x0c4 << 2)) +#define P_M4_CPU_CNTL4 (volatile uint32_t *)(0xff800000 + (0x0c4 << 2)) +#define M4_CPU_CNTL5 (0xff800000 + (0x0c5 << 2)) +#define SEC_M4_CPU_CNTL5 (0xff800000 + (0x0c5 << 2)) +#define P_M4_CPU_CNTL5 (volatile uint32_t *)(0xff800000 + (0x0c5 << 2)) +#define M4_CPU_TIMESTAMP (0xff800000 + (0x0c6 << 2)) +#define SEC_M4_CPU_TIMESTAMP (0xff800000 + (0x0c6 << 2)) +#define P_M4_CPU_TIMESTAMP (volatile uint32_t *)(0xff800000 + (0x0c6 << 2)) +#define M4_CPU_TIMESTAMP2 (0xff800000 + (0x0c7 << 2)) +#define SEC_M4_CPU_TIMESTAMP2 (0xff800000 + (0x0c7 << 2)) +#define P_M4_CPU_TIMESTAMP2 (volatile uint32_t *)(0xff800000 + (0x0c7 << 2)) +#define M4_CPU_STAT1 (0xff800000 + (0x0c8 << 2)) +#define SEC_M4_CPU_STAT1 (0xff800000 + (0x0c8 << 2)) +#define P_M4_CPU_STAT1 (volatile uint32_t *)(0xff800000 + (0x0c8 << 2)) +#define M4_CPU_STAT2 (0xff800000 + (0x0c9 << 2)) +#define SEC_M4_CPU_STAT2 (0xff800000 + (0x0c9 << 2)) +#define P_M4_CPU_STAT2 (volatile uint32_t *)(0xff800000 + (0x0c9 << 2)) +#define AO_CEC_STICKY_DATA0 (0xff800000 + (0x0ca << 2)) +#define SEC_AO_CEC_STICKY_DATA0 (0xff800000 + (0x0ca << 2)) +#define P_AO_CEC_STICKY_DATA0 (volatile uint32_t *)(0xff800000 + (0x0ca << 2)) +#define AO_CEC_STICKY_DATA1 (0xff800000 + (0x0cb << 2)) +#define SEC_AO_CEC_STICKY_DATA1 (0xff800000 + (0x0cb << 2)) +#define P_AO_CEC_STICKY_DATA1 (volatile uint32_t *)(0xff800000 + (0x0cb << 2)) +#define AO_CEC_STICKY_DATA2 (0xff800000 + (0x0cc << 2)) +#define SEC_AO_CEC_STICKY_DATA2 (0xff800000 + (0x0cc << 2)) +#define P_AO_CEC_STICKY_DATA2 (volatile uint32_t *)(0xff800000 + (0x0cc << 2)) +#define AO_CEC_STICKY_DATA3 (0xff800000 + (0x0cd << 2)) +#define SEC_AO_CEC_STICKY_DATA3 (0xff800000 + (0x0cd << 2)) +#define P_AO_CEC_STICKY_DATA3 (volatile uint32_t *)(0xff800000 + (0x0cd << 2)) +#define AO_CEC_STICKY_DATA4 (0xff800000 + (0x0ce << 2)) +#define SEC_AO_CEC_STICKY_DATA4 (0xff800000 + (0x0ce << 2)) +#define P_AO_CEC_STICKY_DATA4 (volatile uint32_t *)(0xff800000 + (0x0ce << 2)) +#define AO_CEC_STICKY_DATA5 (0xff800000 + (0x0cf << 2)) +#define SEC_AO_CEC_STICKY_DATA5 (0xff800000 + (0x0cf << 2)) +#define P_AO_CEC_STICKY_DATA5 (volatile uint32_t *)(0xff800000 + (0x0cf << 2)) +#define AO_CEC_STICKY_DATA6 (0xff800000 + (0x0d0 << 2)) +#define SEC_AO_CEC_STICKY_DATA6 (0xff800000 + (0x0d0 << 2)) +#define P_AO_CEC_STICKY_DATA6 (volatile uint32_t *)(0xff800000 + (0x0d0 << 2)) +#define AO_CEC_STICKY_DATA7 (0xff800000 + (0x0d1 << 2)) +#define SEC_AO_CEC_STICKY_DATA7 (0xff800000 + (0x0d1 << 2)) +#define P_AO_CEC_STICKY_DATA7 (volatile uint32_t *)(0xff800000 + (0x0d1 << 2)) +#define AO_SEC_SP_CFG0 (0xff800000 + (0x0e0 << 2)) +#define SEC_AO_SEC_SP_CFG0 (0xff800000 + (0x0e0 << 2)) +#define P_AO_SEC_SP_CFG0 (volatile uint32_t *)(0xff800000 + (0x0e0 << 2)) +#define AO_SEC_SP_CFG1 (0xff800000 + (0x0e1 << 2)) +#define SEC_AO_SEC_SP_CFG1 (0xff800000 + (0x0e1 << 2)) +#define P_AO_SEC_SP_CFG1 (volatile uint32_t *)(0xff800000 + (0x0e1 << 2)) +#define AO_SEC_SP_CFG2 (0xff800000 + (0x0e2 << 2)) +#define SEC_AO_SEC_SP_CFG2 (0xff800000 + (0x0e2 << 2)) +#define P_AO_SEC_SP_CFG2 (volatile uint32_t *)(0xff800000 + (0x0e2 << 2)) +#define AO_SEC_SP_CFG3 (0xff800000 + (0x0e3 << 2)) +#define SEC_AO_SEC_SP_CFG3 (0xff800000 + (0x0e3 << 2)) +#define P_AO_SEC_SP_CFG3 (volatile uint32_t *)(0xff800000 + (0x0e3 << 2)) +#define AO_SEC_SP_CFG4 (0xff800000 + (0x0e4 << 2)) +#define SEC_AO_SEC_SP_CFG4 (0xff800000 + (0x0e4 << 2)) +#define P_AO_SEC_SP_CFG4 (volatile uint32_t *)(0xff800000 + (0x0e4 << 2)) +#define AO_SEC_SP_CFG5 (0xff800000 + (0x0e5 << 2)) +#define SEC_AO_SEC_SP_CFG5 (0xff800000 + (0x0e5 << 2)) +#define P_AO_SEC_SP_CFG5 (volatile uint32_t *)(0xff800000 + (0x0e5 << 2)) +#define AO_SEC_SP_CFG6 (0xff800000 + (0x0e6 << 2)) +#define SEC_AO_SEC_SP_CFG6 (0xff800000 + (0x0e6 << 2)) +#define P_AO_SEC_SP_CFG6 (volatile uint32_t *)(0xff800000 + (0x0e6 << 2)) +#define AO_SEC_SP_CFG7 (0xff800000 + (0x0e7 << 2)) +#define SEC_AO_SEC_SP_CFG7 (0xff800000 + (0x0e7 << 2)) +#define P_AO_SEC_SP_CFG7 (volatile uint32_t *)(0xff800000 + (0x0e7 << 2)) +#define AO_SEC_SP_CFG8 (0xff800000 + (0x0e8 << 2)) +#define SEC_AO_SEC_SP_CFG8 (0xff800000 + (0x0e8 << 2)) +#define P_AO_SEC_SP_CFG8 (volatile uint32_t *)(0xff800000 + (0x0e8 << 2)) +#define AO_SEC_SP_CFG9 (0xff800000 + (0x0e9 << 2)) +#define SEC_AO_SEC_SP_CFG9 (0xff800000 + (0x0e9 << 2)) +#define P_AO_SEC_SP_CFG9 (volatile uint32_t *)(0xff800000 + (0x0e9 << 2)) +#define AO_SEC_SP_CFG10 (0xff800000 + (0x0ea << 2)) +#define SEC_AO_SEC_SP_CFG10 (0xff800000 + (0x0ea << 2)) +#define P_AO_SEC_SP_CFG10 (volatile uint32_t *)(0xff800000 + (0x0ea << 2)) +#define AO_SEC_SP_CFG11 (0xff800000 + (0x0eb << 2)) +#define SEC_AO_SEC_SP_CFG11 (0xff800000 + (0x0eb << 2)) +#define P_AO_SEC_SP_CFG11 (volatile uint32_t *)(0xff800000 + (0x0eb << 2)) +#define AO_SEC_SP_CFG12 (0xff800000 + (0x0ec << 2)) +#define SEC_AO_SEC_SP_CFG12 (0xff800000 + (0x0ec << 2)) +#define P_AO_SEC_SP_CFG12 (volatile uint32_t *)(0xff800000 + (0x0ec << 2)) +#define AO_SEC_SP_CFG13 (0xff800000 + (0x0ed << 2)) +#define SEC_AO_SEC_SP_CFG13 (0xff800000 + (0x0ed << 2)) +#define P_AO_SEC_SP_CFG13 (volatile uint32_t *)(0xff800000 + (0x0ed << 2)) +#define AO_SEC_SP_CFG14 (0xff800000 + (0x0ee << 2)) +#define SEC_AO_SEC_SP_CFG14 (0xff800000 + (0x0ee << 2)) +#define P_AO_SEC_SP_CFG14 (volatile uint32_t *)(0xff800000 + (0x0ee << 2)) +#define AO_SEC_SP_CFG15 (0xff800000 + (0x0ef << 2)) +#define SEC_AO_SEC_SP_CFG15 (0xff800000 + (0x0ef << 2)) +#define P_AO_SEC_SP_CFG15 (volatile uint32_t *)(0xff800000 + (0x0ef << 2)) +#define AO_TIMER_CTRL (0xff800000 + (0x0f0 << 2)) +#define SEC_AO_TIMER_CTRL (0xff800000 + (0x0f0 << 2)) +#define P_AO_TIMER_CTRL (volatile uint32_t *)(0xff800000 + (0x0f0 << 2)) +#define AO_TIMER_SEC_SCP_CTRL (0xff800000 + (0x0f1 << 2)) +#define SEC_AO_TIMER_SEC_SCP_CTRL (0xff800000 + (0x0f1 << 2)) +#define P_AO_TIMER_SEC_SCP_CTRL (volatile uint32_t *)(0xff800000 + (0x0f1 << 2)) +#define AO_TIMER_SEC_SP_CTRL (0xff800000 + (0x0f2 << 2)) +#define SEC_AO_TIMER_SEC_SP_CTRL (0xff800000 + (0x0f2 << 2)) +#define P_AO_TIMER_SEC_SP_CTRL (volatile uint32_t *)(0xff800000 + (0x0f2 << 2)) +#define AO_TIMERA_REG (0xff800000 + (0x0f3 << 2)) +#define SEC_AO_TIMERA_REG (0xff800000 + (0x0f3 << 2)) +#define P_AO_TIMERA_REG (volatile uint32_t *)(0xff800000 + (0x0f3 << 2)) +#define AO_TIMERA_CUR_REG (0xff800000 + (0x0f4 << 2)) +#define SEC_AO_TIMERA_CUR_REG (0xff800000 + (0x0f4 << 2)) +#define P_AO_TIMERA_CUR_REG (volatile uint32_t *)(0xff800000 + (0x0f4 << 2)) +#define AO_TIMERB_REG (0xff800000 + (0x0f5 << 2)) +#define SEC_AO_TIMERB_REG (0xff800000 + (0x0f5 << 2)) +#define P_AO_TIMERB_REG (volatile uint32_t *)(0xff800000 + (0x0f5 << 2)) +#define AO_TIMERB_CUR_REG (0xff800000 + (0x0f6 << 2)) +#define SEC_AO_TIMERB_CUR_REG (0xff800000 + (0x0f6 << 2)) +#define P_AO_TIMERB_CUR_REG (volatile uint32_t *)(0xff800000 + (0x0f6 << 2)) +#define AO_TIMERC_REG (0xff800000 + (0x0f7 << 2)) +#define SEC_AO_TIMERC_REG (0xff800000 + (0x0f7 << 2)) +#define P_AO_TIMERC_REG (volatile uint32_t *)(0xff800000 + (0x0f7 << 2)) +#define AO_TIMERC_CUR_REG (0xff800000 + (0x0f8 << 2)) +#define SEC_AO_TIMERC_CUR_REG (0xff800000 + (0x0f8 << 2)) +#define P_AO_TIMERC_CUR_REG (volatile uint32_t *)(0xff800000 + (0x0f8 << 2)) +#define AO_TIMERE_REG (0xff800000 + (0x0f9 << 2)) +#define SEC_AO_TIMERE_REG (0xff800000 + (0x0f9 << 2)) +#define P_AO_TIMERE_REG (volatile uint32_t *)(0xff800000 + (0x0f9 << 2)) +#define AO_TIMERE_HI_REG (0xff800000 + (0x0fa << 2)) +#define SEC_AO_TIMERE_HI_REG (0xff800000 + (0x0fa << 2)) +#define P_AO_TIMERE_HI_REG (volatile uint32_t *)(0xff800000 + (0x0fa << 2)) +#define AO_TIMERF_REG (0xff800000 + (0x0fb << 2)) +#define SEC_AO_TIMERF_REG (0xff800000 + (0x0fb << 2)) +#define P_AO_TIMERF_REG (volatile uint32_t *)(0xff800000 + (0x0fb << 2)) +#define AO_TIMERF_HI_REG (0xff800000 + (0x0fc << 2)) +#define SEC_AO_TIMERF_HI_REG (0xff800000 + (0x0fc << 2)) +#define P_AO_TIMERF_HI_REG (volatile uint32_t *)(0xff800000 + (0x0fc << 2)) +#define AO_TIMERG_REG (0xff800000 + (0x0fd << 2)) +#define SEC_AO_TIMERG_REG (0xff800000 + (0x0fd << 2)) +#define P_AO_TIMERG_REG (volatile uint32_t *)(0xff800000 + (0x0fd << 2)) +#define AO_TIMERG_HI_REG (0xff800000 + (0x0fe << 2)) +#define SEC_AO_TIMERG_HI_REG (0xff800000 + (0x0fe << 2)) +#define P_AO_TIMERG_HI_REG (volatile uint32_t *)(0xff800000 + (0x0fe << 2)) +// ---------------------------- +// PWM C-D +// ---------------------------- +//#define AO_PWM_CD_REG_BASE 0x02 +// APB4_DECODER_NON_SECURE_BASE 32'hFF802000 +// APB4_DECODER_SECURE_BASE 32'hFF802000 +#define AO_PWM_PWM_C (0xff802000 + (0x000 << 2)) +#define SEC_AO_PWM_PWM_C (0xff802000 + (0x000 << 2)) +#define P_AO_PWM_PWM_C (volatile uint32_t *)(0xff802000 + (0x000 << 2)) +#define AO_PWM_PWM_D (0xff802000 + (0x001 << 2)) +#define SEC_AO_PWM_PWM_D (0xff802000 + (0x001 << 2)) +#define P_AO_PWM_PWM_D (volatile uint32_t *)(0xff802000 + (0x001 << 2)) +#define AO_PWM_MISC_REG_CD (0xff802000 + (0x002 << 2)) +#define SEC_AO_PWM_MISC_REG_CD (0xff802000 + (0x002 << 2)) +#define P_AO_PWM_MISC_REG_CD (volatile uint32_t *)(0xff802000 + (0x002 << 2)) +#define AO_PWM_DELTA_SIGMA_CD (0xff802000 + (0x003 << 2)) +#define SEC_AO_PWM_DELTA_SIGMA_CD (0xff802000 + (0x003 << 2)) +#define P_AO_PWM_DELTA_SIGMA_CD (volatile uint32_t *)(0xff802000 + (0x003 << 2)) +#define AO_PWM_TIME_CD (0xff802000 + (0x004 << 2)) +#define SEC_AO_PWM_TIME_CD (0xff802000 + (0x004 << 2)) +#define P_AO_PWM_TIME_CD (volatile uint32_t *)(0xff802000 + (0x004 << 2)) +#define AO_PWM_C2 (0xff802000 + (0x005 << 2)) +#define SEC_AO_PWM_C2 (0xff802000 + (0x005 << 2)) +#define P_AO_PWM_C2 (volatile uint32_t *)(0xff802000 + (0x005 << 2)) +#define AO_PWM_D2 (0xff802000 + (0x006 << 2)) +#define SEC_AO_PWM_D2 (0xff802000 + (0x006 << 2)) +#define P_AO_PWM_D2 (volatile uint32_t *)(0xff802000 + (0x006 << 2)) +#define AO_PWM_BLINK_CD (0xff802000 + (0x007 << 2)) +#define SEC_AO_PWM_BLINK_CD (0xff802000 + (0x007 << 2)) +#define P_AO_PWM_BLINK_CD (volatile uint32_t *)(0xff802000 + (0x007 << 2)) +#define AO_PWM_LOCK_CD (0xff802000 + (0x008 << 2)) +#define SEC_AO_PWM_LOCK_CD (0xff802000 + (0x008 << 2)) +#define P_AO_PWM_LOCK_CD (volatile uint32_t *)(0xff802000 + (0x008 << 2)) +// ---------------------------- +// UART +// ---------------------------- +//#define AO_UART_REG_BASE 0x03 +// APB4_DECODER_NON_SECURE_BASE 32'hFF803000 +// APB4_DECODER_SECURE_BASE 32'hFF803000 +#define AO_UART_WFIFO (0xff803000 + (0x000 << 2)) +#define SEC_AO_UART_WFIFO (0xff803000 + (0x000 << 2)) +#define P_AO_UART_WFIFO (volatile uint32_t *)(0xff803000 + (0x000 << 2)) +#define AO_UART_RFIFO (0xff803000 + (0x001 << 2)) +#define SEC_AO_UART_RFIFO (0xff803000 + (0x001 << 2)) +#define P_AO_UART_RFIFO (volatile uint32_t *)(0xff803000 + (0x001 << 2)) +#define AO_UART_CONTROL (0xff803000 + (0x002 << 2)) +#define SEC_AO_UART_CONTROL (0xff803000 + (0x002 << 2)) +#define P_AO_UART_CONTROL (volatile uint32_t *)(0xff803000 + (0x002 << 2)) +#define AO_UART_STATUS (0xff803000 + (0x003 << 2)) +#define SEC_AO_UART_STATUS (0xff803000 + (0x003 << 2)) +#define P_AO_UART_STATUS (volatile uint32_t *)(0xff803000 + (0x003 << 2)) +#define AO_UART_MISC (0xff803000 + (0x004 << 2)) +#define SEC_AO_UART_MISC (0xff803000 + (0x004 << 2)) +#define P_AO_UART_MISC (volatile uint32_t *)(0xff803000 + (0x004 << 2)) +#define AO_UART_REG5 (0xff803000 + (0x005 << 2)) +#define SEC_AO_UART_REG5 (0xff803000 + (0x005 << 2)) +#define P_AO_UART_REG5 (volatile uint32_t *)(0xff803000 + (0x005 << 2)) +// ---------------------------- +// UART2 +// ---------------------------- +//#define AO_UART2_REG_BASE 0x04 +// APB4_DECODER_NON_SECURE_BASE 32'hFF804000 +// APB4_DECODER_SECURE_BASE 32'hFF804000 +#define AO_UART2_WFIFO (0xff804000 + (0x000 << 2)) +#define SEC_AO_UART2_WFIFO (0xff804000 + (0x000 << 2)) +#define P_AO_UART2_WFIFO (volatile uint32_t *)(0xff804000 + (0x000 << 2)) +#define AO_UART2_RFIFO (0xff804000 + (0x001 << 2)) +#define SEC_AO_UART2_RFIFO (0xff804000 + (0x001 << 2)) +#define P_AO_UART2_RFIFO (volatile uint32_t *)(0xff804000 + (0x001 << 2)) +#define AO_UART2_CONTROL (0xff804000 + (0x002 << 2)) +#define SEC_AO_UART2_CONTROL (0xff804000 + (0x002 << 2)) +#define P_AO_UART2_CONTROL (volatile uint32_t *)(0xff804000 + (0x002 << 2)) +#define AO_UART2_STATUS (0xff804000 + (0x003 << 2)) +#define SEC_AO_UART2_STATUS (0xff804000 + (0x003 << 2)) +#define P_AO_UART2_STATUS (volatile uint32_t *)(0xff804000 + (0x003 << 2)) +#define AO_UART2_MISC (0xff804000 + (0x004 << 2)) +#define SEC_AO_UART2_MISC (0xff804000 + (0x004 << 2)) +#define P_AO_UART2_MISC (volatile uint32_t *)(0xff804000 + (0x004 << 2)) +#define AO_UART2_REG5 (0xff804000 + (0x005 << 2)) +#define SEC_AO_UART2_REG5 (0xff804000 + (0x005 << 2)) +#define P_AO_UART2_REG5 (volatile uint32_t *)(0xff804000 + (0x005 << 2)) +// ---------------------------- +// I2C Master (8) +// ---------------------------- +//#define AO_I2C_M_REG_BASE 0x05 +// APB4_DECODER_NON_SECURE_BASE 32'hFF805000 +// APB4_DECODER_SECURE_BASE 32'hFF805000 +#define AO_I2C_M_0_CONTROL_REG (0xff805000 + (0x000 << 2)) +#define SEC_AO_I2C_M_0_CONTROL_REG (0xff805000 + (0x000 << 2)) +#define P_AO_I2C_M_0_CONTROL_REG (volatile uint32_t *)(0xff805000 + (0x000 << 2)) +#define AO_I2C_M_0_SLAVE_ADDR (0xff805000 + (0x001 << 2)) +#define SEC_AO_I2C_M_0_SLAVE_ADDR (0xff805000 + (0x001 << 2)) +#define P_AO_I2C_M_0_SLAVE_ADDR (volatile uint32_t *)(0xff805000 + (0x001 << 2)) +#define AO_I2C_M_0_TOKEN_LIST0 (0xff805000 + (0x002 << 2)) +#define SEC_AO_I2C_M_0_TOKEN_LIST0 (0xff805000 + (0x002 << 2)) +#define P_AO_I2C_M_0_TOKEN_LIST0 (volatile uint32_t *)(0xff805000 + (0x002 << 2)) +#define AO_I2C_M_0_TOKEN_LIST1 (0xff805000 + (0x003 << 2)) +#define SEC_AO_I2C_M_0_TOKEN_LIST1 (0xff805000 + (0x003 << 2)) +#define P_AO_I2C_M_0_TOKEN_LIST1 (volatile uint32_t *)(0xff805000 + (0x003 << 2)) +#define AO_I2C_M_0_WDATA_REG0 (0xff805000 + (0x004 << 2)) +#define SEC_AO_I2C_M_0_WDATA_REG0 (0xff805000 + (0x004 << 2)) +#define P_AO_I2C_M_0_WDATA_REG0 (volatile uint32_t *)(0xff805000 + (0x004 << 2)) +#define AO_I2C_M_0_WDATA_REG1 (0xff805000 + (0x005 << 2)) +#define SEC_AO_I2C_M_0_WDATA_REG1 (0xff805000 + (0x005 << 2)) +#define P_AO_I2C_M_0_WDATA_REG1 (volatile uint32_t *)(0xff805000 + (0x005 << 2)) +#define AO_I2C_M_0_RDATA_REG0 (0xff805000 + (0x006 << 2)) +#define SEC_AO_I2C_M_0_RDATA_REG0 (0xff805000 + (0x006 << 2)) +#define P_AO_I2C_M_0_RDATA_REG0 (volatile uint32_t *)(0xff805000 + (0x006 << 2)) +#define AO_I2C_M_0_RDATA_REG1 (0xff805000 + (0x007 << 2)) +#define SEC_AO_I2C_M_0_RDATA_REG1 (0xff805000 + (0x007 << 2)) +#define P_AO_I2C_M_0_RDATA_REG1 (volatile uint32_t *)(0xff805000 + (0x007 << 2)) +#define AO_I2C_M_0_TIMEOUT_TH (0xff805000 + (0x008 << 2)) +#define SEC_AO_I2C_M_0_TIMEOUT_TH (0xff805000 + (0x008 << 2)) +#define P_AO_I2C_M_0_TIMEOUT_TH (volatile uint32_t *)(0xff805000 + (0x008 << 2)) +// ---------------------------- +// I2C Slave (3) +// ---------------------------- +//#define AO_I2C_S_REG_BASE 0x06 +// APB4_DECODER_NON_SECURE_BASE 32'hFF806000 +// APB4_DECODER_SECURE_BASE 32'hFF806000 +#define AO_I2C_S_CONTROL_REG (0xff806000 + (0x000 << 2)) +#define SEC_AO_I2C_S_CONTROL_REG (0xff806000 + (0x000 << 2)) +#define P_AO_I2C_S_CONTROL_REG (volatile uint32_t *)(0xff806000 + (0x000 << 2)) +#define AO_I2C_S_SEND_REG (0xff806000 + (0x001 << 2)) +#define SEC_AO_I2C_S_SEND_REG (0xff806000 + (0x001 << 2)) +#define P_AO_I2C_S_SEND_REG (volatile uint32_t *)(0xff806000 + (0x001 << 2)) +#define AO_I2C_S_RECV_REG (0xff806000 + (0x002 << 2)) +#define SEC_AO_I2C_S_RECV_REG (0xff806000 + (0x002 << 2)) +#define P_AO_I2C_S_RECV_REG (volatile uint32_t *)(0xff806000 + (0x002 << 2)) +#define AO_I2C_S_CNTL1_REG (0xff806000 + (0x003 << 2)) +#define SEC_AO_I2C_S_CNTL1_REG (0xff806000 + (0x003 << 2)) +#define P_AO_I2C_S_CNTL1_REG (volatile uint32_t *)(0xff806000 + (0x003 << 2)) +// ---------------------------- +// PWM A-B +// ---------------------------- +//#define AO_PWM_AB_REG_BASE 0x07 +// APB4_DECODER_NON_SECURE_BASE 32'hFF807000 +// APB4_DECODER_SECURE_BASE 32'hFF807000 +#define AO_PWM_PWM_A (0xff807000 + (0x000 << 2)) +#define SEC_AO_PWM_PWM_A (0xff807000 + (0x000 << 2)) +#define P_AO_PWM_PWM_A (volatile uint32_t *)(0xff807000 + (0x000 << 2)) +#define AO_PWM_PWM_B (0xff807000 + (0x001 << 2)) +#define SEC_AO_PWM_PWM_B (0xff807000 + (0x001 << 2)) +#define P_AO_PWM_PWM_B (volatile uint32_t *)(0xff807000 + (0x001 << 2)) +#define AO_PWM_MISC_REG_AB (0xff807000 + (0x002 << 2)) +#define SEC_AO_PWM_MISC_REG_AB (0xff807000 + (0x002 << 2)) +#define P_AO_PWM_MISC_REG_AB (volatile uint32_t *)(0xff807000 + (0x002 << 2)) +#define AO_PWM_DELTA_SIGMA_AB (0xff807000 + (0x003 << 2)) +#define SEC_AO_PWM_DELTA_SIGMA_AB (0xff807000 + (0x003 << 2)) +#define P_AO_PWM_DELTA_SIGMA_AB (volatile uint32_t *)(0xff807000 + (0x003 << 2)) +#define AO_PWM_TIME_AB (0xff807000 + (0x004 << 2)) +#define SEC_AO_PWM_TIME_AB (0xff807000 + (0x004 << 2)) +#define P_AO_PWM_TIME_AB (volatile uint32_t *)(0xff807000 + (0x004 << 2)) +#define AO_PWM_A2 (0xff807000 + (0x005 << 2)) +#define SEC_AO_PWM_A2 (0xff807000 + (0x005 << 2)) +#define P_AO_PWM_A2 (volatile uint32_t *)(0xff807000 + (0x005 << 2)) +#define AO_PWM_B2 (0xff807000 + (0x006 << 2)) +#define SEC_AO_PWM_B2 (0xff807000 + (0x006 << 2)) +#define P_AO_PWM_B2 (volatile uint32_t *)(0xff807000 + (0x006 << 2)) +#define AO_PWM_BLINK_AB (0xff807000 + (0x007 << 2)) +#define SEC_AO_PWM_BLINK_AB (0xff807000 + (0x007 << 2)) +#define P_AO_PWM_BLINK_AB (volatile uint32_t *)(0xff807000 + (0x007 << 2)) +#define AO_PWM_LOCK_AB (0xff807000 + (0x008 << 2)) +#define SEC_AO_PWM_LOCK_AB (0xff807000 + (0x008 << 2)) +#define P_AO_PWM_LOCK_AB (volatile uint32_t *)(0xff807000 + (0x008 << 2)) +// ---------------------------- +// Multiformat IR Remote +// ---------------------------- +//#define AO_MF_IR_DEC_REG_BASE 0x08 +// APB4_DECODER_NON_SECURE_BASE 32'hFF808000 +// APB4_DECODER_SECURE_BASE 32'hFF808000 +#define AO_IR_DEC_LDR_ACTIVE (0xff808000 + (0x000 << 2)) +#define SEC_AO_IR_DEC_LDR_ACTIVE (0xff808000 + (0x000 << 2)) +#define P_AO_IR_DEC_LDR_ACTIVE (volatile uint32_t *)(0xff808000 + (0x000 << 2)) +#define AO_IR_DEC_LDR_IDLE (0xff808000 + (0x001 << 2)) +#define SEC_AO_IR_DEC_LDR_IDLE (0xff808000 + (0x001 << 2)) +#define P_AO_IR_DEC_LDR_IDLE (volatile uint32_t *)(0xff808000 + (0x001 << 2)) +#define AO_IR_DEC_LDR_REPEAT (0xff808000 + (0x002 << 2)) +#define SEC_AO_IR_DEC_LDR_REPEAT (0xff808000 + (0x002 << 2)) +#define P_AO_IR_DEC_LDR_REPEAT (volatile uint32_t *)(0xff808000 + (0x002 << 2)) +#define AO_IR_DEC_BIT_0 (0xff808000 + (0x003 << 2)) +#define SEC_AO_IR_DEC_BIT_0 (0xff808000 + (0x003 << 2)) +#define P_AO_IR_DEC_BIT_0 (volatile uint32_t *)(0xff808000 + (0x003 << 2)) +#define AO_IR_DEC_REG0 (0xff808000 + (0x004 << 2)) +#define SEC_AO_IR_DEC_REG0 (0xff808000 + (0x004 << 2)) +#define P_AO_IR_DEC_REG0 (volatile uint32_t *)(0xff808000 + (0x004 << 2)) +#define AO_IR_DEC_FRAME (0xff808000 + (0x005 << 2)) +#define SEC_AO_IR_DEC_FRAME (0xff808000 + (0x005 << 2)) +#define P_AO_IR_DEC_FRAME (volatile uint32_t *)(0xff808000 + (0x005 << 2)) +#define AO_IR_DEC_STATUS (0xff808000 + (0x006 << 2)) +#define SEC_AO_IR_DEC_STATUS (0xff808000 + (0x006 << 2)) +#define P_AO_IR_DEC_STATUS (volatile uint32_t *)(0xff808000 + (0x006 << 2)) +#define AO_IR_DEC_REG1 (0xff808000 + (0x007 << 2)) +#define SEC_AO_IR_DEC_REG1 (0xff808000 + (0x007 << 2)) +#define P_AO_IR_DEC_REG1 (volatile uint32_t *)(0xff808000 + (0x007 << 2)) +#define AO_MF_IR_DEC_LDR_ACTIVE (0xff808000 + (0x010 << 2)) +#define SEC_AO_MF_IR_DEC_LDR_ACTIVE (0xff808000 + (0x010 << 2)) +#define P_AO_MF_IR_DEC_LDR_ACTIVE (volatile uint32_t *)(0xff808000 + (0x010 << 2)) +#define AO_MF_IR_DEC_LDR_IDLE (0xff808000 + (0x011 << 2)) +#define SEC_AO_MF_IR_DEC_LDR_IDLE (0xff808000 + (0x011 << 2)) +#define P_AO_MF_IR_DEC_LDR_IDLE (volatile uint32_t *)(0xff808000 + (0x011 << 2)) +#define AO_MF_IR_DEC_LDR_REPEAT (0xff808000 + (0x012 << 2)) +#define SEC_AO_MF_IR_DEC_LDR_REPEAT (0xff808000 + (0x012 << 2)) +#define P_AO_MF_IR_DEC_LDR_REPEAT (volatile uint32_t *)(0xff808000 + (0x012 << 2)) +#define AO_MF_IR_DEC_BIT_0 (0xff808000 + (0x013 << 2)) +#define SEC_AO_MF_IR_DEC_BIT_0 (0xff808000 + (0x013 << 2)) +#define P_AO_MF_IR_DEC_BIT_0 (volatile uint32_t *)(0xff808000 + (0x013 << 2)) +#define AO_MF_IR_DEC_REG0 (0xff808000 + (0x014 << 2)) +#define SEC_AO_MF_IR_DEC_REG0 (0xff808000 + (0x014 << 2)) +#define P_AO_MF_IR_DEC_REG0 (volatile uint32_t *)(0xff808000 + (0x014 << 2)) +#define AO_MF_IR_DEC_FRAME (0xff808000 + (0x015 << 2)) +#define SEC_AO_MF_IR_DEC_FRAME (0xff808000 + (0x015 << 2)) +#define P_AO_MF_IR_DEC_FRAME (volatile uint32_t *)(0xff808000 + (0x015 << 2)) +#define AO_MF_IR_DEC_STATUS (0xff808000 + (0x016 << 2)) +#define SEC_AO_MF_IR_DEC_STATUS (0xff808000 + (0x016 << 2)) +#define P_AO_MF_IR_DEC_STATUS (volatile uint32_t *)(0xff808000 + (0x016 << 2)) +#define AO_MF_IR_DEC_REG1 (0xff808000 + (0x017 << 2)) +#define SEC_AO_MF_IR_DEC_REG1 (0xff808000 + (0x017 << 2)) +#define P_AO_MF_IR_DEC_REG1 (volatile uint32_t *)(0xff808000 + (0x017 << 2)) +#define AO_MF_IR_DEC_REG2 (0xff808000 + (0x018 << 2)) +#define SEC_AO_MF_IR_DEC_REG2 (0xff808000 + (0x018 << 2)) +#define P_AO_MF_IR_DEC_REG2 (volatile uint32_t *)(0xff808000 + (0x018 << 2)) +#define AO_MF_IR_DEC_DURATN2 (0xff808000 + (0x019 << 2)) +#define SEC_AO_MF_IR_DEC_DURATN2 (0xff808000 + (0x019 << 2)) +#define P_AO_MF_IR_DEC_DURATN2 (volatile uint32_t *)(0xff808000 + (0x019 << 2)) +#define AO_MF_IR_DEC_DURATN3 (0xff808000 + (0x01a << 2)) +#define SEC_AO_MF_IR_DEC_DURATN3 (0xff808000 + (0x01a << 2)) +#define P_AO_MF_IR_DEC_DURATN3 (volatile uint32_t *)(0xff808000 + (0x01a << 2)) +#define AO_MF_IR_DEC_FRAME1 (0xff808000 + (0x01b << 2)) +#define SEC_AO_MF_IR_DEC_FRAME1 (0xff808000 + (0x01b << 2)) +#define P_AO_MF_IR_DEC_FRAME1 (volatile uint32_t *)(0xff808000 + (0x01b << 2)) +#define AO_MF_IR_DEC_STATUS1 (0xff808000 + (0x01c << 2)) +#define SEC_AO_MF_IR_DEC_STATUS1 (0xff808000 + (0x01c << 2)) +#define P_AO_MF_IR_DEC_STATUS1 (volatile uint32_t *)(0xff808000 + (0x01c << 2)) +#define AO_MF_IR_DEC_STATUS2 (0xff808000 + (0x01d << 2)) +#define SEC_AO_MF_IR_DEC_STATUS2 (0xff808000 + (0x01d << 2)) +#define P_AO_MF_IR_DEC_STATUS2 (volatile uint32_t *)(0xff808000 + (0x01d << 2)) +#define AO_MF_IR_DEC_REG3 (0xff808000 + (0x01e << 2)) +#define SEC_AO_MF_IR_DEC_REG3 (0xff808000 + (0x01e << 2)) +#define P_AO_MF_IR_DEC_REG3 (volatile uint32_t *)(0xff808000 + (0x01e << 2)) +#define AO_MF_IR_DEC_FRAME_RSV0 (0xff808000 + (0x01f << 2)) +#define SEC_AO_MF_IR_DEC_FRAME_RSV0 (0xff808000 + (0x01f << 2)) +#define P_AO_MF_IR_DEC_FRAME_RSV0 (volatile uint32_t *)(0xff808000 + (0x01f << 2)) +#define AO_MF_IR_DEC_FRAME_RSV1 (0xff808000 + (0x020 << 2)) +#define SEC_AO_MF_IR_DEC_FRAME_RSV1 (0xff808000 + (0x020 << 2)) +#define P_AO_MF_IR_DEC_FRAME_RSV1 (volatile uint32_t *)(0xff808000 + (0x020 << 2)) +#define AO_MF_IR_DEC_FILTE (0xff808000 + (0x021 << 2)) +#define SEC_AO_MF_IR_DEC_FILTE (0xff808000 + (0x021 << 2)) +#define P_AO_MF_IR_DEC_FILTE (volatile uint32_t *)(0xff808000 + (0x021 << 2)) +#define AO_MF_IR_DEC_IRQ_CTL (0xff808000 + (0x022 << 2)) +#define SEC_AO_MF_IR_DEC_IRQ_CTL (0xff808000 + (0x022 << 2)) +#define P_AO_MF_IR_DEC_IRQ_CTL (volatile uint32_t *)(0xff808000 + (0x022 << 2)) +#define AO_MF_IR_DEC_FIFO_CTL (0xff808000 + (0x023 << 2)) +#define SEC_AO_MF_IR_DEC_FIFO_CTL (0xff808000 + (0x023 << 2)) +#define P_AO_MF_IR_DEC_FIFO_CTL (volatile uint32_t *)(0xff808000 + (0x023 << 2)) +#define AO_MF_IR_DEC_WIDTH_NEW (0xff808000 + (0x024 << 2)) +#define SEC_AO_MF_IR_DEC_WIDTH_NEW (0xff808000 + (0x024 << 2)) +#define P_AO_MF_IR_DEC_WIDTH_NEW (volatile uint32_t *)(0xff808000 + (0x024 << 2)) +#define AO_MF_IR_DEC_REPEAT_DET (0xff808000 + (0x025 << 2)) +#define SEC_AO_MF_IR_DEC_REPEAT_DET (0xff808000 + (0x025 << 2)) +#define P_AO_MF_IR_DEC_REPEAT_DET (volatile uint32_t *)(0xff808000 + (0x025 << 2)) +#define AO_IR_DEC_DEMOD_CNTL0 (0xff808000 + (0x030 << 2)) +#define SEC_AO_IR_DEC_DEMOD_CNTL0 (0xff808000 + (0x030 << 2)) +#define P_AO_IR_DEC_DEMOD_CNTL0 (volatile uint32_t *)(0xff808000 + (0x030 << 2)) +#define AO_IR_DEC_DEMOD_CNTL1 (0xff808000 + (0x031 << 2)) +#define SEC_AO_IR_DEC_DEMOD_CNTL1 (0xff808000 + (0x031 << 2)) +#define P_AO_IR_DEC_DEMOD_CNTL1 (volatile uint32_t *)(0xff808000 + (0x031 << 2)) +#define AO_IR_DEC_DEMOD_IIR_THD (0xff808000 + (0x032 << 2)) +#define SEC_AO_IR_DEC_DEMOD_IIR_THD (0xff808000 + (0x032 << 2)) +#define P_AO_IR_DEC_DEMOD_IIR_THD (volatile uint32_t *)(0xff808000 + (0x032 << 2)) +#define AO_IR_DEC_DEMOD_THD0 (0xff808000 + (0x033 << 2)) +#define SEC_AO_IR_DEC_DEMOD_THD0 (0xff808000 + (0x033 << 2)) +#define P_AO_IR_DEC_DEMOD_THD0 (volatile uint32_t *)(0xff808000 + (0x033 << 2)) +#define AO_IR_DEC_DEMOD_THD1 (0xff808000 + (0x034 << 2)) +#define SEC_AO_IR_DEC_DEMOD_THD1 (0xff808000 + (0x034 << 2)) +#define P_AO_IR_DEC_DEMOD_THD1 (volatile uint32_t *)(0xff808000 + (0x034 << 2)) +#define AO_IR_DEC_DEMOD_SUM_CNT0 (0xff808000 + (0x035 << 2)) +#define SEC_AO_IR_DEC_DEMOD_SUM_CNT0 (0xff808000 + (0x035 << 2)) +#define P_AO_IR_DEC_DEMOD_SUM_CNT0 (volatile uint32_t *)(0xff808000 + (0x035 << 2)) +#define AO_IR_DEC_DEMOD_SUM_CNT1 (0xff808000 + (0x036 << 2)) +#define SEC_AO_IR_DEC_DEMOD_SUM_CNT1 (0xff808000 + (0x036 << 2)) +#define P_AO_IR_DEC_DEMOD_SUM_CNT1 (volatile uint32_t *)(0xff808000 + (0x036 << 2)) +#define AO_IR_DEC_DEMOD_CNT0 (0xff808000 + (0x037 << 2)) +#define SEC_AO_IR_DEC_DEMOD_CNT0 (0xff808000 + (0x037 << 2)) +#define P_AO_IR_DEC_DEMOD_CNT0 (volatile uint32_t *)(0xff808000 + (0x037 << 2)) +#define AO_IR_DEC_DEMOD_CNT1 (0xff808000 + (0x038 << 2)) +#define SEC_AO_IR_DEC_DEMOD_CNT1 (0xff808000 + (0x038 << 2)) +#define P_AO_IR_DEC_DEMOD_CNT1 (volatile uint32_t *)(0xff808000 + (0x038 << 2)) +// --------------------------- +// SAR ADC +// --------------------------- +//#define AO_SAR_ADC_REG_BASE 0x09 +// APB4_DECODER_NON_SECURE_BASE 32'hFF809000 +// APB4_DECODER_SECURE_BASE 32'hFF809000 +#define AO_SAR_ADC_REG0 (0xff809000 + (0x000 << 2)) +#define SEC_AO_SAR_ADC_REG0 (0xff809000 + (0x000 << 2)) +#define P_AO_SAR_ADC_REG0 (volatile uint32_t *)(0xff809000 + (0x000 << 2)) +#define AO_SAR_ADC_CHAN_LIST (0xff809000 + (0x001 << 2)) +#define SEC_AO_SAR_ADC_CHAN_LIST (0xff809000 + (0x001 << 2)) +#define P_AO_SAR_ADC_CHAN_LIST (volatile uint32_t *)(0xff809000 + (0x001 << 2)) +#define AO_SAR_ADC_AVG_CNTL (0xff809000 + (0x002 << 2)) +#define SEC_AO_SAR_ADC_AVG_CNTL (0xff809000 + (0x002 << 2)) +#define P_AO_SAR_ADC_AVG_CNTL (volatile uint32_t *)(0xff809000 + (0x002 << 2)) +#define AO_SAR_ADC_REG3 (0xff809000 + (0x003 << 2)) +#define SEC_AO_SAR_ADC_REG3 (0xff809000 + (0x003 << 2)) +#define P_AO_SAR_ADC_REG3 (volatile uint32_t *)(0xff809000 + (0x003 << 2)) +#define AO_SAR_ADC_DELAY (0xff809000 + (0x004 << 2)) +#define SEC_AO_SAR_ADC_DELAY (0xff809000 + (0x004 << 2)) +#define P_AO_SAR_ADC_DELAY (volatile uint32_t *)(0xff809000 + (0x004 << 2)) +#define AO_SAR_ADC_LAST_RD (0xff809000 + (0x005 << 2)) +#define SEC_AO_SAR_ADC_LAST_RD (0xff809000 + (0x005 << 2)) +#define P_AO_SAR_ADC_LAST_RD (volatile uint32_t *)(0xff809000 + (0x005 << 2)) +#define AO_SAR_ADC_FIFO_RD (0xff809000 + (0x006 << 2)) +#define SEC_AO_SAR_ADC_FIFO_RD (0xff809000 + (0x006 << 2)) +#define P_AO_SAR_ADC_FIFO_RD (volatile uint32_t *)(0xff809000 + (0x006 << 2)) +#define AO_SAR_ADC_AUX_SW (0xff809000 + (0x007 << 2)) +#define SEC_AO_SAR_ADC_AUX_SW (0xff809000 + (0x007 << 2)) +#define P_AO_SAR_ADC_AUX_SW (volatile uint32_t *)(0xff809000 + (0x007 << 2)) +#define AO_SAR_ADC_CHAN_10_SW (0xff809000 + (0x008 << 2)) +#define SEC_AO_SAR_ADC_CHAN_10_SW (0xff809000 + (0x008 << 2)) +#define P_AO_SAR_ADC_CHAN_10_SW (volatile uint32_t *)(0xff809000 + (0x008 << 2)) +#define AO_SAR_ADC_DETECT_IDLE_SW (0xff809000 + (0x009 << 2)) +#define SEC_AO_SAR_ADC_DETECT_IDLE_SW (0xff809000 + (0x009 << 2)) +#define P_AO_SAR_ADC_DETECT_IDLE_SW (volatile uint32_t *)(0xff809000 + (0x009 << 2)) +#define AO_SAR_ADC_DELTA_10 (0xff809000 + (0x00a << 2)) +#define SEC_AO_SAR_ADC_DELTA_10 (0xff809000 + (0x00a << 2)) +#define P_AO_SAR_ADC_DELTA_10 (volatile uint32_t *)(0xff809000 + (0x00a << 2)) +#define AO_SAR_ADC_REG11 (0xff809000 + (0x00b << 2)) +#define SEC_AO_SAR_ADC_REG11 (0xff809000 + (0x00b << 2)) +#define P_AO_SAR_ADC_REG11 (volatile uint32_t *)(0xff809000 + (0x00b << 2)) +#define AO_SAR_ADC_REG12 (0xff809000 + (0x00c << 2)) +#define SEC_AO_SAR_ADC_REG12 (0xff809000 + (0x00c << 2)) +#define P_AO_SAR_ADC_REG12 (volatile uint32_t *)(0xff809000 + (0x00c << 2)) +#define AO_SAR_ADC_REG13 (0xff809000 + (0x00d << 2)) +#define SEC_AO_SAR_ADC_REG13 (0xff809000 + (0x00d << 2)) +#define P_AO_SAR_ADC_REG13 (volatile uint32_t *)(0xff809000 + (0x00d << 2)) +#define AO_SAR_ADC_CHNL01 (0xff809000 + (0x00e << 2)) +#define SEC_AO_SAR_ADC_CHNL01 (0xff809000 + (0x00e << 2)) +#define P_AO_SAR_ADC_CHNL01 (volatile uint32_t *)(0xff809000 + (0x00e << 2)) +#define AO_SAR_ADC_CHNL23 (0xff809000 + (0x00f << 2)) +#define SEC_AO_SAR_ADC_CHNL23 (0xff809000 + (0x00f << 2)) +#define P_AO_SAR_ADC_CHNL23 (volatile uint32_t *)(0xff809000 + (0x00f << 2)) +#define AO_SAR_ADC_CHNL45 (0xff809000 + (0x010 << 2)) +#define SEC_AO_SAR_ADC_CHNL45 (0xff809000 + (0x010 << 2)) +#define P_AO_SAR_ADC_CHNL45 (volatile uint32_t *)(0xff809000 + (0x010 << 2)) +#define AO_SAR_ADC_CHNL67 (0xff809000 + (0x011 << 2)) +#define SEC_AO_SAR_ADC_CHNL67 (0xff809000 + (0x011 << 2)) +#define P_AO_SAR_ADC_CHNL67 (volatile uint32_t *)(0xff809000 + (0x011 << 2)) +// --------------------------- +// MAIL BOX (M3/M4) +// --------------------------- +//#define AO_MAILBOX_REG_BASE 0x0a +// APB4_DECODER_NON_SECURE_BASE 32'hFF80a000 +// APB4_DECODER_SECURE_BASE 32'hFF80a000 +#define AO_MAILBOX_SET_0 (0xff80a000 + (0x001 << 2)) +#define SEC_AO_MAILBOX_SET_0 (0xff80a000 + (0x001 << 2)) +#define P_AO_MAILBOX_SET_0 (volatile uint32_t *)(0xff80a000 + (0x001 << 2)) +#define AO_MAILBOX_STAT_0 (0xff80a000 + (0x002 << 2)) +#define SEC_AO_MAILBOX_STAT_0 (0xff80a000 + (0x002 << 2)) +#define P_AO_MAILBOX_STAT_0 (volatile uint32_t *)(0xff80a000 + (0x002 << 2)) +#define AO_MAILBOX_CLR_0 (0xff80a000 + (0x003 << 2)) +#define SEC_AO_MAILBOX_CLR_0 (0xff80a000 + (0x003 << 2)) +#define P_AO_MAILBOX_CLR_0 (volatile uint32_t *)(0xff80a000 + (0x003 << 2)) +#define AO_MAILBOX_SET_1 (0xff80a000 + (0x004 << 2)) +#define SEC_AO_MAILBOX_SET_1 (0xff80a000 + (0x004 << 2)) +#define P_AO_MAILBOX_SET_1 (volatile uint32_t *)(0xff80a000 + (0x004 << 2)) +#define AO_MAILBOX_STAT_1 (0xff80a000 + (0x005 << 2)) +#define SEC_AO_MAILBOX_STAT_1 (0xff80a000 + (0x005 << 2)) +#define P_AO_MAILBOX_STAT_1 (volatile uint32_t *)(0xff80a000 + (0x005 << 2)) +#define AO_MAILBOX_CLR_1 (0xff80a000 + (0x006 << 2)) +#define SEC_AO_MAILBOX_CLR_1 (0xff80a000 + (0x006 << 2)) +#define P_AO_MAILBOX_CLR_1 (volatile uint32_t *)(0xff80a000 + (0x006 << 2)) +#define AO_MAILBOX_SET_2 (0xff80a000 + (0x007 << 2)) +#define SEC_AO_MAILBOX_SET_2 (0xff80a000 + (0x007 << 2)) +#define P_AO_MAILBOX_SET_2 (volatile uint32_t *)(0xff80a000 + (0x007 << 2)) +#define AO_MAILBOX_STAT_2 (0xff80a000 + (0x008 << 2)) +#define SEC_AO_MAILBOX_STAT_2 (0xff80a000 + (0x008 << 2)) +#define P_AO_MAILBOX_STAT_2 (volatile uint32_t *)(0xff80a000 + (0x008 << 2)) +#define AO_MAILBOX_CLR_2 (0xff80a000 + (0x009 << 2)) +#define SEC_AO_MAILBOX_CLR_2 (0xff80a000 + (0x009 << 2)) +#define P_AO_MAILBOX_CLR_2 (volatile uint32_t *)(0xff80a000 + (0x009 << 2)) +#define AO_MAILBOX_SET_3 (0xff80a000 + (0x00a << 2)) +#define SEC_AO_MAILBOX_SET_3 (0xff80a000 + (0x00a << 2)) +#define P_AO_MAILBOX_SET_3 (volatile uint32_t *)(0xff80a000 + (0x00a << 2)) +#define AO_MAILBOX_STAT_3 (0xff80a000 + (0x00b << 2)) +#define SEC_AO_MAILBOX_STAT_3 (0xff80a000 + (0x00b << 2)) +#define P_AO_MAILBOX_STAT_3 (volatile uint32_t *)(0xff80a000 + (0x00b << 2)) +#define AO_MAILBOX_CLR_3 (0xff80a000 + (0x00c << 2)) +#define SEC_AO_MAILBOX_CLR_3 (0xff80a000 + (0x00c << 2)) +#define P_AO_MAILBOX_CLR_3 (volatile uint32_t *)(0xff80a000 + (0x00c << 2)) +// --------------------------- +// RTC (4) +// --------------------------- +// Moved to the secure APB3 bus +// `define AO_RTC_ADDR0 8'hd0 +// `define AO_RTC_ADDR1 8'hd1 +// `define AO_RTC_ADDR2 8'hd2 +// `define AO_RTC_ADDR3 8'hd3 +// `define AO_RTC_ADDR4 8'hd4 +// +// Closing file: ./ao_rti_reg.h +// + +#define P_DMA_T0 (volatile uint32_t *)0xff63e000 +#define P_DMA_T1 (volatile uint32_t *)0xff63e004 +#define P_DMA_T2 (volatile uint32_t *)0xff63e008 +#define P_DMA_T3 (volatile uint32_t *)0xff63e00c +#define P_DMA_T4 (volatile uint32_t *)0xff63e010 +#define P_DMA_T5 (volatile uint32_t *)0xff63e014 +#define P_DMA_STS0 (volatile uint32_t *)0xff63e020 +#define P_DMA_STS1 (volatile uint32_t *)0xff63e024 +#define P_DMA_STS2 (volatile uint32_t *)0xff63e028 +#define P_DMA_STS3 (volatile uint32_t *)0xff63e02c +#define P_DMA_STS4 (volatile uint32_t *)0xff63e030 +#define P_DMA_STS5 (volatile uint32_t *)0xff63e034 +#define P_DMA_CFG (volatile uint32_t *)0xff63e040 +#define P_DMA_SEC (volatile uint32_t *)0xff63e044 + +#endif // SECURE_APB_H + + diff --git a/include/amlogic/auge_sound.h b/include/amlogic/auge_sound.h new file mode 100644 index 0000000000..2defa8018a --- /dev/null +++ b/include/amlogic/auge_sound.h @@ -0,0 +1,24 @@ +/* SPDX-License-Identifier: (GPL-2.0+ OR MIT) */ +/* + * include/amlogic/auge_sound.h + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the named License, + * or any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + */ + +#ifndef __AUGE_SOUND_H__ +#define __AUGE_SOUND_H__ + +/* auge audio register is defined in asm/arch/secure_apb.h */ + +int aml_audio_init(void); + +#endif diff --git a/include/amlogic/blxx2bl33_param.h b/include/amlogic/blxx2bl33_param.h new file mode 100644 index 0000000000..b2a5304e14 --- /dev/null +++ b/include/amlogic/blxx2bl33_param.h @@ -0,0 +1,27 @@ +#ifndef __BLXX2BL33_PARAM_H__ +#define __BLXX2BL33_PARAM_H__ +#include + +/* !!! don't try to modify the Micro unless make a consistency with blxx */ + +#define BL2E2BL33_PARAM_START (0x0e00000) +#define BL2E2BL33_PARAM_END (0x1000000) + +#define BLXX2BL33_PARAM_DEBUG (0) + +/* define the parameter type here and make sure the same with blxx */ +enum { + STORAGE_PARAM_TPYE = 1, + BL2PARMA_PARAM_TYPE = 2, + /* other */ +}; + +struct param_e { + unsigned int type; + unsigned int len; /* must be 8 bytes align */ + unsigned char data[1]; /* user defined parameter */ +}; + +struct param_e *param_of(int type); + +#endif \ No newline at end of file diff --git a/include/amlogic/canvas.h b/include/amlogic/canvas.h new file mode 100644 index 0000000000..dc9ed10f02 --- /dev/null +++ b/include/amlogic/canvas.h @@ -0,0 +1,68 @@ +/* + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * +*/ + +#ifndef CANVAS_H +#define CANVAS_H + +#define CANVAS_ADDR_LMASK 0x1fffffff +#define CANVAS_WIDTH_LMASK 0x7 +#define CANVAS_WIDTH_LWID 3 +#define CANVAS_WIDTH_LBIT 29 + +#define CANVAS_WIDTH_HMASK 0x1ff +#define CANVAS_WIDTH_HBIT 0 +#define CANVAS_HEIGHT_MASK 0x1fff +#define CANVAS_HEIGHT_BIT 9 +#define CANVAS_YWRAP (1<<23) +#define CANVAS_XWRAP (1<<22) +#define CANVAS_ADDR_NOWRAP 0x00 +#define CANVAS_ADDR_WRAPX 0x01 +#define CANVAS_ADDR_WRAPY 0x02 +#define CANVAS_BLKMODE_MASK 3 +#define CANVAS_BLKMODE_BIT 24 +#define CANVAS_BLKMODE_LINEAR 0x00 +#define CANVAS_BLKMODE_32X32 0x01 +#define CANVAS_BLKMODE_64X32 0x02 + +#define CANVAS_LUT_INDEX_BIT 0 +#define CANVAS_LUT_INDEX_MASK 0x7 +#define CANVAS_LUT_WR_EN (0x2 << 8) +#define CANVAS_LUT_RD_EN (0x1 << 8) + +typedef struct { + ulong addr; + u32 width; + u32 height; + u32 wrap; + u32 blkmode; +} canvas_t; + +#define OSD1_CANVAS_INDEX 0x40 +#define OSD2_CANVAS_INDEX 0x43 + +extern void canvas_init(void); + +extern void canvas_config(u32 index, ulong addr, u32 width, + u32 height, u32 wrap, u32 blkmode); + +extern void canvas_read(u32 index, canvas_t *p); + +extern void canvas_copy(unsigned src, unsigned dst); + +extern void canvas_update_addr(u32 index, u32 addr); + +extern unsigned int canvas_get_addr(u32 index); + +#endif /* CANVAS_H */ diff --git a/include/amlogic/color.h b/include/amlogic/color.h new file mode 100644 index 0000000000..9839d11999 --- /dev/null +++ b/include/amlogic/color.h @@ -0,0 +1,51 @@ +/* + * include/linux/amlogic/vout/color.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * +*/ + + +#ifndef _COLOR_H_ +#define _COLOR_H_ + +enum color_index_e { + COLOR_INDEX_NULL = 0, + COLOR_INDEX_02_PAL4 = 2, + COLOR_INDEX_04_PAL16 = 4, + COLOR_INDEX_08_PAL256 = 8, + COLOR_INDEX_16_655 = 9, + COLOR_INDEX_16_844 = 10, + COLOR_INDEX_16_6442 = 11 , + COLOR_INDEX_16_4444_R = 12, + COLOR_INDEX_16_4642_R = 13, + COLOR_INDEX_16_1555_A = 14, + COLOR_INDEX_16_4444_A = 15, + COLOR_INDEX_16_565 = 16, + + COLOR_INDEX_24_6666_A = 19, + COLOR_INDEX_24_6666_R = 20, + COLOR_INDEX_24_8565 = 21, + COLOR_INDEX_24_5658 = 22, + COLOR_INDEX_24_888_B = 23, + COLOR_INDEX_24_RGB = 24, + + COLOR_INDEX_32_BGRA = 29, + COLOR_INDEX_32_ABGR = 30, + COLOR_INDEX_32_RGBA = 31, + COLOR_INDEX_32_ARGB = 32, + + COLOR_INDEX_YUV_422 = 33, +}; + +#endif diff --git a/include/amlogic/cpu_id.h b/include/amlogic/cpu_id.h new file mode 100644 index 0000000000..588c131262 --- /dev/null +++ b/include/amlogic/cpu_id.h @@ -0,0 +1,90 @@ +/* + * include/amlogic/cpu_id.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#define MESON_CPU_MAJOR_ID_M6 0x16 +#define MESON_CPU_MAJOR_ID_M6TV 0x17 +#define MESON_CPU_MAJOR_ID_M6TVL 0x18 +#define MESON_CPU_MAJOR_ID_M8 0x19 +#define MESON_CPU_MAJOR_ID_MTVD 0x1A +#define MESON_CPU_MAJOR_ID_M8B 0x1B +#define MESON_CPU_MAJOR_ID_MG9TV 0x1C +#define MESON_CPU_MAJOR_ID_M8M2 0x1D +#define MESON_CPU_MAJOR_ID_GXBB 0x1F +#define MESON_CPU_MAJOR_ID_GXTVBB 0x20 +#define MESON_CPU_MAJOR_ID_GXL 0x21 +#define MESON_CPU_MAJOR_ID_GXM 0x22 +#define MESON_CPU_MAJOR_ID_TXL 0x23 +#define MESON_CPU_MAJOR_ID_TXLX 0x24 +#define MESON_CPU_MAJOR_ID_AXG 0x25 +#define MESON_CPU_MAJOR_ID_GXLX 0x26 +#define MESON_CPU_MAJOR_ID_TXHD 0x27 +#define MESON_CPU_MAJOR_ID_G12A 0x28 +#define MESON_CPU_MAJOR_ID_G12B 0x29 +#define MESON_CPU_MAJOR_ID_SM1 0x2B +#define MESON_CPU_MAJOR_ID_A1 0x2C +#define MESON_CPU_MAJOR_ID_TL1 0x2E +#define MESON_CPU_MAJOR_ID_TM2 0x2F +#define MESON_CPU_MAJOR_ID_C1 0x30 +#define MESON_CPU_MAJOR_ID_SC2 0x32 +#define MESON_CPU_MAJOR_ID_C2 0x33 + + +#define MESON_CPU_PACKAGE_ID_905D 0X00 +#define MESON_CPU_PACKAGE_ID_905M 0x20 +#define MESON_CPU_PACKAGE_ID_905X 0X80 +#define MESON_CPU_PACKAGE_ID_905L 0XC0 +#define MESON_CPU_PACKAGE_ID_905M2 0XE0 + +#define MESON_CPU_PACKAGE_ID_T962X 0x10 +#define MESON_CPU_PACKAGE_ID_T962E 0x20 + +#define MESON_CPU_PACKAGE_ID_A113X 0x37 +#define MESON_CPU_PACKAGE_ID_A113D 0xD0 + +#define MESON_CPU_CHIP_REVISION_A 0xA +#define MESON_CPU_CHIP_REVISION_B 0xB +#define MESON_CPU_CHIP_REVISION_C 0xC +#define MESON_CPU_CHIP_REVISION_D 0xD + +typedef struct cpu_id { + unsigned int family_id:8; + unsigned int package_id:8; + unsigned int chip_rev:8; //RevA/RevB etc. + unsigned int reserve:4; + unsigned int layout_ver:4; +} cpu_id_t; + +typedef struct chip_id { + unsigned int version; + unsigned char chipid[16]; +} chip_id_t; + +cpu_id_t get_cpu_id(void); + +extern chip_id_t aml_chip_id; +int get_chip_id(unsigned char *buff, unsigned int size); + +/** + * TODO: Remove this API after move static system information to RO + * register or SRAM + * + * Should *NOT* call this API directly, always use get_chip_id() + */ +int __get_chip_id(unsigned char *buff, unsigned int size); diff --git a/include/amlogic/enc_clk_config.h b/include/amlogic/enc_clk_config.h new file mode 100644 index 0000000000..8b13789179 --- /dev/null +++ b/include/amlogic/enc_clk_config.h @@ -0,0 +1 @@ + diff --git a/include/amlogic/fb.h b/include/amlogic/fb.h new file mode 100644 index 0000000000..d19e96928e --- /dev/null +++ b/include/amlogic/fb.h @@ -0,0 +1,399 @@ +#ifndef _LINUX_FB_H +#define _LINUX_FB_H + +/* Definitions of frame buffers */ + +#define FB_MAX 32 /* sufficient for now */ + +/* ioctls + 0x46 is 'F' */ +#define FBIOGET_VSCREENINFO 0x4600 +#define FBIOPUT_VSCREENINFO 0x4601 +#define FBIOGET_FSCREENINFO 0x4602 +#define FBIOGETCMAP 0x4604 +#define FBIOPUTCMAP 0x4605 +#define FBIOPAN_DISPLAY 0x4606 +#ifdef __KERNEL__ +#define FBIO_CURSOR _IOWR('F', 0x08, struct fb_cursor_user) +#else +#define FBIO_CURSOR _IOWR('F', 0x08, struct fb_cursor) +#endif +/* 0x4607-0x460B are defined below */ +/* #define FBIOGET_MONITORSPEC 0x460C */ +/* #define FBIOPUT_MONITORSPEC 0x460D */ +/* #define FBIOSWITCH_MONIBIT 0x460E */ +#define FBIOGET_CON2FBMAP 0x460F +#define FBIOPUT_CON2FBMAP 0x4610 +#define FBIOBLANK 0x4611 /* arg: 0 or vesa level + 1 */ +#define FBIOGET_VBLANK _IOR('F', 0x12, struct fb_vblank) +#define FBIO_ALLOC 0x4613 +#define FBIO_FREE 0x4614 +#define FBIOGET_GLYPH 0x4615 +#define FBIOGET_HWCINFO 0x4616 +#define FBIOPUT_MODEINFO 0x4617 +#define FBIOGET_DISPINFO 0x4618 + + +#define FB_TYPE_PACKED_PIXELS 0 /* Packed Pixels */ +#define FB_TYPE_PLANES 1 /* Non interleaved planes */ +#define FB_TYPE_INTERLEAVED_PLANES 2 /* Interleaved planes */ +#define FB_TYPE_TEXT 3 /* Text/attributes */ +#define FB_TYPE_VGA_PLANES 4 /* EGA/VGA planes */ + +#define FB_AUX_TEXT_MDA 0 /* Monochrome text */ +#define FB_AUX_TEXT_CGA 1 /* CGA/EGA/VGA Color text */ +#define FB_AUX_TEXT_S3_MMIO 2 /* S3 MMIO fasttext */ +#define FB_AUX_TEXT_MGA_STEP16 3 /* MGA Millenium I: text, attr, 14 reserved bytes */ +#define FB_AUX_TEXT_MGA_STEP8 4 /* other MGAs: text, attr, 6 reserved bytes */ +#define FB_AUX_TEXT_SVGA_GROUP 8 /* 8-15: SVGA tileblit compatible modes */ +#define FB_AUX_TEXT_SVGA_MASK 7 /* lower three bits says step */ +#define FB_AUX_TEXT_SVGA_STEP2 8 /* SVGA text mode: text, attr */ +#define FB_AUX_TEXT_SVGA_STEP4 9 /* SVGA text mode: text, attr, 2 reserved bytes */ +#define FB_AUX_TEXT_SVGA_STEP8 10 /* SVGA text mode: text, attr, 6 reserved bytes */ +#define FB_AUX_TEXT_SVGA_STEP16 11 /* SVGA text mode: text, attr, 14 reserved bytes */ +#define FB_AUX_TEXT_SVGA_LAST 15 /* reserved up to 15 */ + +#define FB_AUX_VGA_PLANES_VGA4 0 /* 16 color planes (EGA/VGA) */ +#define FB_AUX_VGA_PLANES_CFB4 1 /* CFB4 in planes (VGA) */ +#define FB_AUX_VGA_PLANES_CFB8 2 /* CFB8 in planes (VGA) */ + +#define FB_VISUAL_MONO01 0 /* Monochr. 1=Black 0=White */ +#define FB_VISUAL_MONO10 1 /* Monochr. 1=White 0=Black */ +#define FB_VISUAL_TRUECOLOR 2 /* True color */ +#define FB_VISUAL_PSEUDOCOLOR 3 /* Pseudo color (like atari) */ +#define FB_VISUAL_DIRECTCOLOR 4 /* Direct color */ +#define FB_VISUAL_STATIC_PSEUDOCOLOR 5 /* Pseudo color readonly */ + +#define FB_ACCEL_NONE 0 /* no hardware accelerator */ +#define FB_ACCEL_ATARIBLITT 1 /* Atari Blitter */ +#define FB_ACCEL_AMIGABLITT 2 /* Amiga Blitter */ +#define FB_ACCEL_S3_TRIO64 3 /* Cybervision64 (S3 Trio64) */ +#define FB_ACCEL_NCR_77C32BLT 4 /* RetinaZ3 (NCR 77C32BLT) */ +#define FB_ACCEL_S3_VIRGE 5 /* Cybervision64/3D (S3 ViRGE) */ +#define FB_ACCEL_ATI_MACH64GX 6 /* ATI Mach 64GX family */ +#define FB_ACCEL_DEC_TGA 7 /* DEC 21030 TGA */ +#define FB_ACCEL_ATI_MACH64CT 8 /* ATI Mach 64CT family */ +#define FB_ACCEL_ATI_MACH64VT 9 /* ATI Mach 64CT family VT class */ +#define FB_ACCEL_ATI_MACH64GT 10 /* ATI Mach 64CT family GT class */ +#define FB_ACCEL_SUN_CREATOR 11 /* Sun Creator/Creator3D */ +#define FB_ACCEL_SUN_CGSIX 12 /* Sun cg6 */ +#define FB_ACCEL_SUN_LEO 13 /* Sun leo/zx */ +#define FB_ACCEL_IMS_TWINTURBO 14 /* IMS Twin Turbo */ +#define FB_ACCEL_3DLABS_PERMEDIA2 15 /* 3Dlabs Permedia 2 */ +#define FB_ACCEL_MATROX_MGA2064W 16 /* Matrox MGA2064W (Millenium) */ +#define FB_ACCEL_MATROX_MGA1064SG 17 /* Matrox MGA1064SG (Mystique) */ +#define FB_ACCEL_MATROX_MGA2164W 18 /* Matrox MGA2164W (Millenium II) */ +#define FB_ACCEL_MATROX_MGA2164W_AGP 19 /* Matrox MGA2164W (Millenium II) */ +#define FB_ACCEL_MATROX_MGAG100 20 /* Matrox G100 (Productiva G100) */ +#define FB_ACCEL_MATROX_MGAG200 21 /* Matrox G200 (Myst, Mill, ...) */ +#define FB_ACCEL_SUN_CG14 22 /* Sun cgfourteen */ +#define FB_ACCEL_SUN_BWTWO 23 /* Sun bwtwo */ +#define FB_ACCEL_SUN_CGTHREE 24 /* Sun cgthree */ +#define FB_ACCEL_SUN_TCX 25 /* Sun tcx */ +#define FB_ACCEL_MATROX_MGAG400 26 /* Matrox G400 */ +#define FB_ACCEL_NV3 27 /* nVidia RIVA 128 */ +#define FB_ACCEL_NV4 28 /* nVidia RIVA TNT */ +#define FB_ACCEL_NV5 29 /* nVidia RIVA TNT2 */ +#define FB_ACCEL_CT_6555x 30 /* C&T 6555x */ +#define FB_ACCEL_3DFX_BANSHEE 31 /* 3Dfx Banshee */ +#define FB_ACCEL_ATI_RAGE128 32 /* ATI Rage128 family */ +#define FB_ACCEL_IGS_CYBER2000 33 /* CyberPro 2000 */ +#define FB_ACCEL_IGS_CYBER2010 34 /* CyberPro 2010 */ +#define FB_ACCEL_IGS_CYBER5000 35 /* CyberPro 5000 */ +#define FB_ACCEL_SIS_GLAMOUR 36 /* SiS 300/630/540 */ +#define FB_ACCEL_3DLABS_PERMEDIA3 37 /* 3Dlabs Permedia 3 */ +#define FB_ACCEL_ATI_RADEON 38 /* ATI Radeon family */ +#define FB_ACCEL_I810 39 /* Intel 810/815 */ +#define FB_ACCEL_SIS_GLAMOUR_2 40 /* SiS 315, 650, 740 */ +#define FB_ACCEL_SIS_XABRE 41 /* SiS 330 ("Xabre") */ +#define FB_ACCEL_I830 42 /* Intel 830M/845G/85x/865G */ +#define FB_ACCEL_NV_10 43 /* nVidia Arch 10 */ +#define FB_ACCEL_NV_20 44 /* nVidia Arch 20 */ +#define FB_ACCEL_NV_30 45 /* nVidia Arch 30 */ +#define FB_ACCEL_NV_40 46 /* nVidia Arch 40 */ +#define FB_ACCEL_XGI_VOLARI_V 47 /* XGI Volari V3XT, V5, V8 */ +#define FB_ACCEL_XGI_VOLARI_Z 48 /* XGI Volari Z7 */ +#define FB_ACCEL_OMAP1610 49 /* TI OMAP16xx */ +#define FB_ACCEL_TRIDENT_TGUI 50 /* Trident TGUI */ +#define FB_ACCEL_TRIDENT_3DIMAGE 51 /* Trident 3DImage */ +#define FB_ACCEL_TRIDENT_BLADE3D 52 /* Trident Blade3D */ +#define FB_ACCEL_TRIDENT_BLADEXP 53 /* Trident BladeXP */ +#define FB_ACCEL_CIRRUS_ALPINE 53 /* Cirrus Logic 543x/544x/5480 */ +#define FB_ACCEL_NEOMAGIC_NM2070 90 /* NeoMagic NM2070 */ +#define FB_ACCEL_NEOMAGIC_NM2090 91 /* NeoMagic NM2090 */ +#define FB_ACCEL_NEOMAGIC_NM2093 92 /* NeoMagic NM2093 */ +#define FB_ACCEL_NEOMAGIC_NM2097 93 /* NeoMagic NM2097 */ +#define FB_ACCEL_NEOMAGIC_NM2160 94 /* NeoMagic NM2160 */ +#define FB_ACCEL_NEOMAGIC_NM2200 95 /* NeoMagic NM2200 */ +#define FB_ACCEL_NEOMAGIC_NM2230 96 /* NeoMagic NM2230 */ +#define FB_ACCEL_NEOMAGIC_NM2360 97 /* NeoMagic NM2360 */ +#define FB_ACCEL_NEOMAGIC_NM2380 98 /* NeoMagic NM2380 */ +#define FB_ACCEL_PXA3XX 99 /* PXA3xx */ + +#define FB_ACCEL_SAVAGE4 0x80 /* S3 Savage4 */ +#define FB_ACCEL_SAVAGE3D 0x81 /* S3 Savage3D */ +#define FB_ACCEL_SAVAGE3D_MV 0x82 /* S3 Savage3D-MV */ +#define FB_ACCEL_SAVAGE2000 0x83 /* S3 Savage2000 */ +#define FB_ACCEL_SAVAGE_MX_MV 0x84 /* S3 Savage/MX-MV */ +#define FB_ACCEL_SAVAGE_MX 0x85 /* S3 Savage/MX */ +#define FB_ACCEL_SAVAGE_IX_MV 0x86 /* S3 Savage/IX-MV */ +#define FB_ACCEL_SAVAGE_IX 0x87 /* S3 Savage/IX */ +#define FB_ACCEL_PROSAVAGE_PM 0x88 /* S3 ProSavage PM133 */ +#define FB_ACCEL_PROSAVAGE_KM 0x89 /* S3 ProSavage KM133 */ +#define FB_ACCEL_S3TWISTER_P 0x8a /* S3 Twister */ +#define FB_ACCEL_S3TWISTER_K 0x8b /* S3 TwisterK */ +#define FB_ACCEL_SUPERSAVAGE 0x8c /* S3 Supersavage */ +#define FB_ACCEL_PROSAVAGE_DDR 0x8d /* S3 ProSavage DDR */ +#define FB_ACCEL_PROSAVAGE_DDRK 0x8e /* S3 ProSavage DDR-K */ + +struct fb_fix_screeninfo { + char id[16]; /* identification string eg "TT Builtin" */ + unsigned long smem_start; /* Start of frame buffer mem */ + /* (physical address) */ + __u32 smem_len; /* Length of frame buffer mem */ + __u32 type; /* see FB_TYPE_* */ + __u32 type_aux; /* Interleave for interleaved Planes */ + __u32 visual; /* see FB_VISUAL_* */ + __u16 xpanstep; /* zero if no hardware panning */ + __u16 ypanstep; /* zero if no hardware panning */ + __u16 ywrapstep; /* zero if no hardware ywrap */ + __u32 line_length; /* length of a line in bytes */ + unsigned long mmio_start; /* Start of Memory Mapped I/O */ + /* (physical address) */ + __u32 mmio_len; /* Length of Memory Mapped I/O */ + __u32 accel; /* Indicate to driver which */ + /* specific chip/card we have */ + __u16 reserved[3]; /* Reserved for future compatibility */ +}; + +/* Interpretation of offset for color fields: All offsets are from the right, + * inside a "pixel" value, which is exactly 'bits_per_pixel' wide (means: you + * can use the offset as right argument to <<). A pixel afterwards is a bit + * stream and is written to video memory as that unmodified. + * + * For pseudocolor: offset and length should be the same for all color + * components. Offset specifies the position of the least significant bit + * of the pallette index in a pixel value. Length indicates the number + * of available palette entries (i.e. # of entries = 1 << length). + */ +struct fb_bitfield { + __u32 offset; /* beginning of bitfield */ + __u32 length; /* length of bitfield */ + __u32 msb_right; /* != 0 : Most significant bit is */ + /* right */ +}; + +#define FB_NONSTD_HAM 1 /* Hold-And-Modify (HAM) */ +#define FB_NONSTD_REV_PIX_IN_B 2 /* order of pixels in each byte is reversed */ + +#define FB_ACTIVATE_NOW 0 /* set values immediately (or vbl)*/ +#define FB_ACTIVATE_NXTOPEN 1 /* activate on next open */ +#define FB_ACTIVATE_TEST 2 /* don't set, round up impossible */ +#define FB_ACTIVATE_MASK 15 + /* values */ +#define FB_ACTIVATE_VBL 16 /* activate values on next vbl */ +#define FB_CHANGE_CMAP_VBL 32 /* change colormap on vbl */ +#define FB_ACTIVATE_ALL 64 /* change all VCs on this fb */ +#define FB_ACTIVATE_FORCE 128 /* force apply even when no change*/ +#define FB_ACTIVATE_INV_MODE 256 /* invalidate videomode */ + +#define FB_ACCELF_TEXT 1 /* (OBSOLETE) see fb_info.flags and vc_mode */ + +#define FB_SYNC_HOR_HIGH_ACT 1 /* horizontal sync high active */ +#define FB_SYNC_VERT_HIGH_ACT 2 /* vertical sync high active */ +#define FB_SYNC_EXT 4 /* external sync */ +#define FB_SYNC_COMP_HIGH_ACT 8 /* composite sync high active */ +#define FB_SYNC_BROADCAST 16 /* broadcast video timings */ + /* vtotal = 144d/288n/576i => PAL */ + /* vtotal = 121d/242n/484i => NTSC */ +#define FB_SYNC_ON_GREEN 32 /* sync on green */ + +#define FB_VMODE_NONINTERLACED 0 /* non interlaced */ +#define FB_VMODE_INTERLACED 1 /* interlaced */ +#define FB_VMODE_DOUBLE 2 /* double scan */ +#define FB_VMODE_ODD_FLD_FIRST 4 /* interlaced: top line first */ +#define FB_VMODE_MASK 255 + +#define FB_VMODE_YWRAP 256 /* ywrap instead of panning */ +#define FB_VMODE_SMOOTH_XPAN 512 /* smooth xpan possible (internally used) */ +#define FB_VMODE_CONUPDATE 512 /* don't update x/yoffset */ + +/* + * Display rotation support + */ +#define FB_ROTATE_UR 0 +#define FB_ROTATE_CW 1 +#define FB_ROTATE_UD 2 +#define FB_ROTATE_CCW 3 + +#define PICOS2KHZ(a) (1000000000UL/(a)) +#define KHZ2PICOS(a) (1000000000UL/(a)) + +struct fb_var_screeninfo { + __u32 xres; /* visible resolution */ + __u32 yres; + __u32 xres_virtual; /* virtual resolution */ + __u32 yres_virtual; + __u32 xoffset; /* offset from virtual to visible */ + __u32 yoffset; /* resolution */ + + __u32 bits_per_pixel; /* guess what */ + __u32 grayscale; /* != 0 Graylevels instead of colors */ + + struct fb_bitfield red; /* bitfield in fb mem if true color, */ + struct fb_bitfield green; /* else only length is significant */ + struct fb_bitfield blue; + struct fb_bitfield transp; /* transparency */ + + __u32 nonstd; /* != 0 Non standard pixel format */ + + __u32 activate; /* see FB_ACTIVATE_* */ + + __u32 height; /* height of picture in mm */ + __u32 width; /* width of picture in mm */ + + __u32 accel_flags; /* (OBSOLETE) see fb_info.flags */ + + /* Timing: All values in pixclocks, except pixclock (of course) */ + __u32 pixclock; /* pixel clock in ps (pico seconds) */ + __u32 left_margin; /* time from sync to picture */ + __u32 right_margin; /* time from picture to sync */ + __u32 upper_margin; /* time from sync to picture */ + __u32 lower_margin; + __u32 hsync_len; /* length of horizontal sync */ + __u32 vsync_len; /* length of vertical sync */ + __u32 sync; /* see FB_SYNC_* */ + __u32 vmode; /* see FB_VMODE_* */ + __u32 rotate; /* angle we rotate counter clockwise */ + __u32 reserved[5]; /* Reserved for future compatibility */ +}; + +struct fb_cmap { + __u32 start; /* First entry */ + __u32 len; /* Number of entries */ + __u16 *red; /* Red values */ + __u16 *green; + __u16 *blue; + __u16 *transp; /* transparency, can be NULL */ +}; + +struct fb_con2fbmap { + __u32 console; + __u32 framebuffer; +}; + +/* VESA Blanking Levels */ +#define VESA_NO_BLANKING 0 +#define VESA_VSYNC_SUSPEND 1 +#define VESA_HSYNC_SUSPEND 2 +#define VESA_POWERDOWN 3 + +#define CANVAS_ALIGNED(x) (((x) + 63) & ~63) + +enum osd_index_e { + OSD1 = 0, + OSD2, + VIU2_OSD1 +}; + +enum { + /* screen: unblanked, hsync: on, vsync: on */ + FB_BLANK_UNBLANK = VESA_NO_BLANKING, + + /* screen: blanked, hsync: on, vsync: on */ + FB_BLANK_NORMAL = VESA_NO_BLANKING + 1, + + /* screen: blanked, hsync: on, vsync: off */ + FB_BLANK_VSYNC_SUSPEND = VESA_VSYNC_SUSPEND + 1, + + /* screen: blanked, hsync: off, vsync: on */ + FB_BLANK_HSYNC_SUSPEND = VESA_HSYNC_SUSPEND + 1, + + /* screen: blanked, hsync: off, vsync: off */ + FB_BLANK_POWERDOWN = VESA_POWERDOWN + 1 +}; + +#define FB_VBLANK_VBLANKING 0x001 /* currently in a vertical blank */ +#define FB_VBLANK_HBLANKING 0x002 /* currently in a horizontal blank */ +#define FB_VBLANK_HAVE_VBLANK 0x004 /* vertical blanks can be detected */ +#define FB_VBLANK_HAVE_HBLANK 0x008 /* horizontal blanks can be detected */ +#define FB_VBLANK_HAVE_COUNT 0x010 /* global retrace counter is available */ +#define FB_VBLANK_HAVE_VCOUNT 0x020 /* the vcount field is valid */ +#define FB_VBLANK_HAVE_HCOUNT 0x040 /* the hcount field is valid */ +#define FB_VBLANK_VSYNCING 0x080 /* currently in a vsync */ +#define FB_VBLANK_HAVE_VSYNC 0x100 /* verical syncs can be detected */ + +struct fb_vblank { + __u32 flags; /* FB_VBLANK flags */ + __u32 count; /* counter of retraces since boot */ + __u32 vcount; /* current scanline position */ + __u32 hcount; /* current scandot position */ + __u32 reserved[4]; /* reserved for future compatibility */ +}; + +/* Internal HW accel */ +#define ROP_COPY 0 +#define ROP_XOR 1 + +struct fb_copyarea { + __u32 dx; + __u32 dy; + __u32 width; + __u32 height; + __u32 sx; + __u32 sy; +}; + +struct fb_fillrect { + __u32 dx; /* screen-relative */ + __u32 dy; + __u32 width; + __u32 height; + __u32 color; + __u32 rop; +}; + +struct fb_image { + __u32 dx; /* Where to place image */ + __u32 dy; + __u32 width; /* Size of image */ + __u32 height; + __u32 fg_color; /* Only used when a mono bitmap */ + __u32 bg_color; + __u8 depth; /* Depth of the image */ + const char *data; /* Pointer to image data */ + struct fb_cmap cmap; /* color map info */ +}; + +/* + * hardware cursor control + */ + +#define FB_CUR_SETIMAGE 0x01 +#define FB_CUR_SETPOS 0x02 +#define FB_CUR_SETHOT 0x04 +#define FB_CUR_SETCMAP 0x08 +#define FB_CUR_SETSHAPE 0x10 +#define FB_CUR_SETSIZE 0x20 +#define FB_CUR_SETALL 0xFF + +struct fbcurpos { + __u16 x, y; +}; + +struct fb_cursor { + __u16 set; /* what to set */ + __u16 enable; /* cursor on/off */ + __u16 rop; /* bitop operation */ + const char *mask; /* cursor mask bits */ + struct fbcurpos hot; /* cursor hot spot */ + struct fb_image image; /* Cursor image */ +}; + +#ifdef CONFIG_FB_BACKLIGHT +/* Settings for the generic backlight code */ +#define FB_BACKLIGHT_LEVELS 128 +#define FB_BACKLIGHT_MAX 0xFF +#endif + +#endif /* _LINUX_FB_H */ diff --git a/include/amlogic/instaboot.h b/include/amlogic/instaboot.h new file mode 100644 index 0000000000..cfcae9ef4a --- /dev/null +++ b/include/amlogic/instaboot.h @@ -0,0 +1,24 @@ +#ifndef __INSTABOOT_H_ +#define __INSTABOOT_H_ + +#define __NEW_UTS_LEN 64 + +struct new_utsname { + char sysname[__NEW_UTS_LEN + 1]; + char nodename[__NEW_UTS_LEN + 1]; + char release[__NEW_UTS_LEN + 1]; + char version[__NEW_UTS_LEN + 1]; + char machine[__NEW_UTS_LEN + 1]; + char domainname[__NEW_UTS_LEN + 1]; +}; + +struct instaboot_info { + struct new_utsname uts; + unsigned int version_code; +}; +#define INSTABOOT_SIG "INSTABOOT" + +extern int get_instaboot_header(struct instaboot_info* ib_info); +extern int fdt_instaboot(void *fdt); + +#endif /* __INSTABOOT_H_ */ diff --git a/include/amlogic/jtag.h b/include/amlogic/jtag.h new file mode 100644 index 0000000000..c85c513721 --- /dev/null +++ b/include/amlogic/jtag.h @@ -0,0 +1,61 @@ +#ifndef __MESON_JTAG_H__ +#define __MESON_JTAG_H__ + +#define INVALID_ID -1 + +/* ioctl command */ +#define JTAG_CLRPINMUX 0 +#define JTAG_SETPINMUX 1 +#define JTAG_EANBLE 2 +#define JTAG_DISABLE 3 + +/* jtag type */ +#define JTAG_A 0 +#define JTAG_B 1 +#define SWD_A 2 + +/* core type */ +#define AP 1 /* a35 a53 a72 ... */ +#define SCP 2 /* m3 */ +#define SP 3 /* m4 */ +#define DSPA 4 /* dsp-a */ +#define DSPB 5 /* dsp-b */ +#define DIF 6 /* dif */ +#define AOCPU 7 /* aocpu */ +#define AUCPU 8 /* aucpu */ + +/* + * bitmap for jtag select ID: + * + * |---|---|---|---|---|---|---|------|------| + * | 9 | 8 | 6 | 5 | 4 | 3 | 2 | 1 | 0 | + * |---|---|---|---|---|---|---|------|------| + * | core type | jtag type |cluster type | + * |---------------|-----------|-------------| + */ +#define CORE_TYPE_SHIFT 5 +#define JTAG_TYPE_SHIFT 2 +#define CLUSTER_TYPE_SHIFT 0 + +#define CORE_TYPE_MASK 0xf +#define JTAG_TYPE_MASK 0x7 +#define CLUSTER_TYPE_MASK 0x3 + +#define JTAG_SELECT_ID(core_type, jtag_type, cluster_type) \ + (((core_type & CORE_TYPE_MASK) << CORE_TYPE_SHIFT) |\ + ((jtag_type & JTAG_TYPE_MASK) << JTAG_TYPE_SHIFT) |\ + ((cluster_type & CLUSTER_TYPE_MASK) << CLUSTER_TYPE_SHIFT)) + +#define CLUSTER_TYPE_UPDATE(id, cluster_type) \ + ((id & (~(CLUSTER_TYPE_MASK))) | cluster_type) + +#define CORE_TYPE_GET(id) \ + ((id >> CORE_TYPE_SHIFT) & CORE_TYPE_MASK) + +#define JTAG_TYPE_GET(id) \ + ((id >> JTAG_TYPE_SHIFT) & JTAG_TYPE_MASK) + +#define CLUSTER_TYPE_GET(id) \ + ((id >> CLUSTER_TYPE_SHIFT) & CLUSTER_TYPE_MASK) + +#endif /*_MESON_JTAG_H_*/ diff --git a/include/amlogic/keyunify.h b/include/amlogic/keyunify.h new file mode 100644 index 0000000000..c89865f574 --- /dev/null +++ b/include/amlogic/keyunify.h @@ -0,0 +1,56 @@ +/* + * \file keymanage.h + * \brief API from drivers/keymange + * + * \version 1.0.0 + * \date 15/07/7 + * \author Sam.Wu + * + * Copyright (c) 2015 Amlogic. All Rights Reserved. + * + */ +#ifndef __KEYUNIFY_H__ +#define __KEYUNIFY_H__ + +//APIs of key_unify*: unify interfaces for nandkeys/emmckeys/efuse keys + +int key_unify_init(const char* seednum, const char* dtbaddr); + +int key_unify_uninit(void); + +//keyType: user type to define how to parse/check the key value before burn to target +int key_unify_write(const char* keyname, const void* keydata, const unsigned datalen); + +int key_unify_read(const char* keyname, void* keydata, const unsigned bufLen); + +int key_unify_query_size(const char* keyname, ssize_t* keysize); + +int key_unify_query_exist(const char* keyname, int* exist); + +int key_unify_query_secure(const char* keyname, int* isSecure); + +int key_unify_query_canOverWrite(const char* keyname, int* canOverWrite); + +//Does the key configured in dts +int key_unify_query_key_has_configure(const char* keyname); + +//Another APIs with APP concers, like special flower hdcp2 +//These APIs are based on key_unify_* +// +int key_manage_init(const char* seednum, const char* dtbaddr); +int key_manage_exit(void); + +int key_manage_write(const char* keyname, const void* keydata, const unsigned datalen); + +int key_manage_read(const char* keyname, void* keydata, const unsigned bufLen); + +int key_manage_query_size(const char* keyname, ssize_t* keysize); + +int key_manage_query_exist(const char* keyname, int* exist); + +int key_manage_query_secure(const char* keyname, int* isSecure); + +int key_manage_query_canOverWrite(const char* keyname, int* canOverWrite); + +#endif// #ifndef __KEYUNIFY_H__ + diff --git a/include/amlogic/media/vout/aml_cvbs.h b/include/amlogic/media/vout/aml_cvbs.h new file mode 100644 index 0000000000..e4d0687d9b --- /dev/null +++ b/include/amlogic/media/vout/aml_cvbs.h @@ -0,0 +1,13 @@ +#ifndef __INC_AML_CVBS_H__ +#define __INC_AML_CVBS_H__ + +void cvbs_init(void); +void cvbs_show_valid_vmode(void); +int cvbs_outputmode_check(char *vmode_name, unsigned int frac); +int cvbs_set_vmode(char* vmode_name); +int cvbs_set_bist(char* bist_mode); +int cvbs_set_vdac(int status); +int cvbs_reg_debug(int argc, char* const argv[]); + +#endif + diff --git a/include/amlogic/media/vout/aml_vinfo.h b/include/amlogic/media/vout/aml_vinfo.h new file mode 100644 index 0000000000..7a453b26d6 --- /dev/null +++ b/include/amlogic/media/vout/aml_vinfo.h @@ -0,0 +1,148 @@ +#ifndef __AML_VINFO_H_ +#define __AML_VINFO_H_ + +struct vinfo_s { + ushort width; /* Number of columns (i.e. 160) */ + ushort height; /* Number of rows (i.e. 100) */ + ushort field_height; /* for interlace */ + u_char vl_bpix; /* Bits per pixel, 0 = 1 */ + + void *vd_base; /* Start of framebuffer memory */ + + void *vd_console_address; /* Start of console buffer */ + short console_col; + short console_row; + + int vd_color_fg; + int vd_color_bg; + + ushort *cmap; /* Pointer to the colormap */ + void *priv; /* Pointer to driver-specific data */ +}; + + +/************************************************************************/ +/* ** BITMAP DISPLAY SUPPORT */ +/************************************************************************/ +#if defined(CONFIG_CMD_BMP) || defined(CONFIG_SPLASH_SCREEN) +# include +# include +#endif + +/* + * Information about displays we are using. This is for configuring + * the LCD controller and memory allocation. Someone has to know what + * is connected, as we can't autodetect anything. + */ +#define CONFIG_SYS_HIGH 0 /* Pins are active high */ +#define CONFIG_SYS_LOW 1 /* Pins are active low */ + +#define LCD_COLOR2 2 +#define LCD_COLOR4 4 +#define LCD_COLOR8 8 +#define LCD_COLOR16 16 +#define LCD_COLOR24 24 +#define LCD_COLOR32 32 + + +/*----------------------------------------------------------------------*/ +#if defined(CONFIG_LCD_INFO_BELOW_LOGO) +# define LCD_INFO_X 0 +# define LCD_INFO_Y (BMP_LOGO_HEIGHT + VIDEO_FONT_HEIGHT) +#elif defined(CONFIG_LCD_LOGO) +# define LCD_INFO_X (BMP_LOGO_WIDTH + 4 * VIDEO_FONT_WIDTH) +# define LCD_INFO_Y (VIDEO_FONT_HEIGHT) +#else +# define LCD_INFO_X (VIDEO_FONT_WIDTH) +# define LCD_INFO_Y (VIDEO_FONT_HEIGHT) +#endif + +/* Calculate nr. of bits per pixel and nr. of colors */ +#define NBITS(bit_code) (bit_code) +#define NCOLORS(bit_code) (1 << NBITS(bit_code)) + +/************************************************************************/ +/* ** CONSOLE CONSTANTS */ +/************************************************************************/ +#if LCD_BPP == LCD_MONOCHROME + +/* + * Simple black/white definitions + */ +# define CONSOLE_COLOR_BLACK 0 +# define CONSOLE_COLOR_WHITE 1 /* Must remain last / highest */ + +#elif LCD_BPP == LCD_COLOR8 + +/* + * 8bpp color definitions + */ +# define CONSOLE_COLOR_BLACK 0 +# define CONSOLE_COLOR_RED 1 +# define CONSOLE_COLOR_GREEN 2 +# define CONSOLE_COLOR_YELLOW 3 +# define CONSOLE_COLOR_BLUE 4 +# define CONSOLE_COLOR_MAGENTA 5 +# define CONSOLE_COLOR_CYAN 6 +# define CONSOLE_COLOR_GREY 14 +# define CONSOLE_COLOR_WHITE 15 /* Must remain last / highest */ + +#elif LCD_BPP == LCD_COLOR24 +/* + * 24bpp color definitions + */ +# define CONSOLE_COLOR_BLACK 0 +# define CONSOLE_COLOR_RED 0x0000ff +# define CONSOLE_COLOR_GREEN 0x00ff00 +# define CONSOLE_COLOR_YELLOW 0x00ffff +# define CONSOLE_COLOR_BLUE 0xff0000 +# define CONSOLE_COLOR_MAGENTA 0xff00ff +# define CONSOLE_COLOR_CYAN 0xffff00 +# define CONSOLE_COLOR_GREY 0x808080 +# define CONSOLE_COLOR_WHITE 0xffffff /* Must remain last / highest */ + +#else + +/* + * 16bpp color definitions + */ +# define CONSOLE_COLOR_BLACK 0x0000 +# define CONSOLE_COLOR_RED 0xf800 +# define CONSOLE_COLOR_GREEN 0x07e0 +# define CONSOLE_COLOR_YELLOW 0xffe0 +# define CONSOLE_COLOR_BLUE 0x001f +# define CONSOLE_COLOR_MAGENTA 0xf81f +# define CONSOLE_COLOR_CYAN 0x07ff +# define CONSOLE_COLOR_WHITE 0xffff /* Must remain last / highest */ + +#endif /* color definitions */ + +/************************************************************************/ +#ifndef PAGE_SIZE +# define PAGE_SIZE 4096 +#endif + +/************************************************************************/ +/* ** CONSOLE DEFINITIONS & FUNCTIONS */ +/************************************************************************/ +#if defined(CONFIG_LCD_LOGO) && !defined(CONFIG_LCD_INFO_BELOW_LOGO) +# define CONSOLE_ROWS ((info->vl_row-BMP_LOGO_HEIGHT) \ + / VIDEO_FONT_HEIGHT) +#else +# define CONSOLE_ROWS (info->vl_row / VIDEO_FONT_HEIGHT) +#endif + +#define CONSOLE_COLS (panel_info.vl_col / VIDEO_FONT_WIDTH) +#define CONSOLE_ROW_SIZE (VIDEO_FONT_HEIGHT * lcd_line_length) +#define CONSOLE_ROW_FIRST (info->vd_console_address) +#define CONSOLE_ROW_SECOND (info->vd_console_address + CONSOLE_ROW_SIZE) +#define CONSOLE_ROW_LAST (info->vd_console_address + CONSOLE_SIZE \ + - CONSOLE_ROW_SIZE) +#define CONSOLE_SIZE (CONSOLE_ROW_SIZE * CONSOLE_ROWS) +#define CONSOLE_SCROLL_SIZE (CONSOLE_SIZE - CONSOLE_ROW_SIZE) + +# define COLOR_MASK(c) (c) + +/************************************************************************/ + +#endif diff --git a/include/amlogic/media/vout/aml_vmode.h b/include/amlogic/media/vout/aml_vmode.h new file mode 100644 index 0000000000..738bcd73b2 --- /dev/null +++ b/include/amlogic/media/vout/aml_vmode.h @@ -0,0 +1,98 @@ + +#ifndef __AML_VMODE_H_ +#define __AML_VMODE_H_ + +typedef enum vmode_e { + VMODE_480I = 0, + VMODE_480I_RPT, + VMODE_480CVBS, + VMODE_480P, + VMODE_480P_RPT, + VMODE_480P_120HZ, + VMODE_576I, + VMODE_576I_RPT, + VMODE_576CVBS, + VMODE_576P, + VMODE_576P_RPT, + VMODE_576P_100HZ, + VMODE_720P, + VMODE_768P, + VMODE_1080I, + VMODE_1080P, + VMODE_720P_50HZ, + VMODE_720P_100HZ, + VMODE_720P_120HZ, + VMODE_1080I_50HZ, + VMODE_1080I_100HZ, + VMODE_1080I_120HZ, + VMODE_1080P_30HZ, + VMODE_1080P_50HZ, + VMODE_1080P_25HZ, + VMODE_1080P_24HZ, + VMODE_1080P_100HZ, + VMODE_1080P_120HZ, + VMODE_4K2K_30HZ, + VMODE_4K2K_25HZ, + VMODE_4K2K_24HZ, + VMODE_4K2K_SMPTE, + VMODE_4K2K_SMPTE_25HZ, + VMODE_4K2K_SMPTE_30HZ, + VMODE_4K2K_SMPTE_50HZ, + VMODE_4K2K_SMPTE_60HZ, + VMODE_4K2K_SMPTE_50HZ_Y420, + VMODE_4K2K_SMPTE_60HZ_Y420, + VMODE_4K2K_FAKE_5G, + VMODE_4K2K_60HZ, + VMODE_4K2K_60HZ_Y420, + VMODE_4K2K_50HZ, + VMODE_4K2K_50HZ_Y420, + VMODE_4K2K_5G, + VMODE_4K1K_120HZ, + VMODE_4K1K_120HZ_Y420, + VMODE_4K1K_100HZ, + VMODE_4K1K_100HZ_Y420, + VMODE_4K05K_240HZ, + VMODE_4K05K_240HZ_Y420, + VMODE_4K05K_200HZ, + VMODE_4K05K_200HZ_Y420, + VMODE_640x480p60hz, + VMODE_800x480p60hz, + VMODE_800x600p60hz, + VMODE_852x480p60hz, + VMODE_854x480p60hz, + VMODE_1024x600p60hz, + VMODE_1024x768p60hz, + VMODE_1152x864p75hz, + VMODE_1280x600p60hz, + VMODE_1280x768p60hz, + VMODE_1280x800p60hz, + VMODE_1280x960p60hz, + VMODE_1280x1024p60hz, + VMODE_1360x768p60hz, + VMODE_1366x768p60hz, + VMODE_1400x1050p60hz, + VMODE_1440x900p60hz, + VMODE_1440x2560p60hz, + VMODE_1440x2560p70hz, + VMODE_1600x900p60hz, + VMODE_1600x1200p60hz, + VMODE_1680x1050p60hz, + VMODE_1920x1200p60hz, + VMODE_2160x1200p90hz, + VMODE_2560x1080p60hz, + VMODE_2560x1440p60hz, + VMODE_2560x1600p60hz, + VMODE_3440x1440p60hz, + VMODE_VGA, + VMODE_SVGA, + VMODE_XGA, + VMODE_SXGA, + VMODE_WSXGA, + VMODE_FHDVGA, + VMODE_LCD, + VMODE_MAX, + VMODE_INIT_NULL, + VMODE_MASK = 0xFF, +} vmode_t; + +#endif diff --git a/include/amlogic/media/vout/aml_vout.h b/include/amlogic/media/vout/aml_vout.h new file mode 100644 index 0000000000..53448bfc1e --- /dev/null +++ b/include/amlogic/media/vout/aml_vout.h @@ -0,0 +1,25 @@ +#ifndef __AML_VOUT_H_ +#define __AML_VOUT_H_ + +#include + +#define VOUT_VIU1_SEL 1 +#define VOUT_VIU2_SEL 2 + +enum viu_mux_e { + VIU_MUX_ENCL = 0, + VIU_MUX_ENCI, + VIU_MUX_ENCP, + VIU_MUX_MAX, +}; + +void vout_init(void); +void vout_vinfo_dump(void); +int vout_get_current_vmode(void); +int vout_get_current_axis(int *axis); +void vout_set_current_vmode(int mode); +struct vinfo_s *vout_get_current_vinfo(void); +void vout_viu_mux(int viu_sel, int venc_sel); +extern unsigned long get_fb_addr(void); +#endif + diff --git a/include/amlogic/media/vout/hdmitx/hdmi_common.h b/include/amlogic/media/vout/hdmitx/hdmi_common.h new file mode 100644 index 0000000000..66fdedd1d6 --- /dev/null +++ b/include/amlogic/media/vout/hdmitx/hdmi_common.h @@ -0,0 +1,655 @@ +#ifndef __HDMI_COMMON_H__ +#define __HDMI_COMMON_H__ + +/* Little-Endian format */ +enum scdc_addr { + SINK_VER = 0x01, + SOURCE_VER, /* RW */ + UPDATE_0 = 0x10, /* RW */ + UPDATE_1, /* RW */ + TMDS_CFG = 0x20, /* RW */ + SCRAMBLER_ST, + CONFIG_0 = 0x30, /* RW */ + STATUS_FLAGS_0 = 0x40, + STATUS_FLAGS_1, + ERR_DET_0_L = 0x50, + ERR_DET_0_H, + ERR_DET_1_L, + ERR_DET_1_H, + ERR_DET_2_L, + ERR_DET_2_H, + ERR_DET_CHKSUM, + TEST_CONFIG_0 = 0xC0, /* RW */ + MANUFACT_IEEE_OUI_2 = 0xD0, + MANUFACT_IEEE_OUI_1, + MANUFACT_IEEE_OUI_0, + DEVICE_ID = 0xD3, /* 0xD3 ~ 0xDD */ + /* RW 0xDE ~ 0xFF */ + MANUFACT_SPECIFIC = 0xDE, +}; + +#define HDMITX_VIC420_OFFSET 0x100 +#define HDMITX_VESA_OFFSET 0x300 + +/* HDMI VIC definitions */ +enum hdmi_vic { + /* Refer to CEA 861-D */ + HDMI_unkown = 0, + HDMI_640x480p60_4x3 = 1, + HDMI_720x480p60_4x3 = 2, + HDMI_720x480p60_16x9 = 3, + HDMI_1280x720p60_16x9 = 4, + HDMI_1920x1080i60_16x9 = 5, + HDMI_720x480i60_4x3 = 6, + HDMI_720x480i60_16x9 = 7, + HDMI_720x240p60_4x3 = 8, + HDMI_720x240p60_16x9 = 9, + HDMI_2880x480i60_4x3 = 10, + HDMI_2880x480i60_16x9 = 11, + HDMI_2880x240p60_4x3 = 12, + HDMI_2880x240p60_16x9 = 13, + HDMI_1440x480p60_4x3 = 14, + HDMI_1440x480p60_16x9 = 15, + HDMI_1920x1080p60_16x9 = 16, + HDMI_720x576p50_4x3 = 17, + HDMI_720x576p50_16x9 = 18, + HDMI_1280x720p50_16x9 = 19, + HDMI_1920x1080i50_16x9 = 20, + HDMI_720x576i50_4x3 = 21, + HDMI_720x576i50_16x9 = 22, + HDMI_720x288p_4x3 = 23, + HDMI_720x288p_16x9 = 24, + HDMI_2880x576i50_4x3 = 25, + HDMI_2880x576i50_16x9 = 26, + HDMI_2880x288p50_4x3 = 27, + HDMI_2880x288p50_16x9 = 28, + HDMI_1440x576p_4x3 = 29, + HDMI_1440x576p_16x9 = 30, + HDMI_1920x1080p50_16x9 = 31, + HDMI_1920x1080p24_16x9 = 32, + HDMI_1920x1080p25_16x9 = 33, + HDMI_1920x1080p30_16x9 = 34, + HDMI_2880x480p60_4x3 = 35, + HDMI_2880x480p60_16x9 = 36, + HDMI_2880x576p50_4x3 = 37, + HDMI_2880x576p50_16x9 = 38, + HDMI_1920x1080i_t1250_50_16x9 = 39, + HDMI_1920x1080i100_16x9 = 40, + HDMI_1280x720p100_16x9 = 41, + HDMI_720x576p100_4x3 = 42, + HDMI_720x576p100_16x9 = 43, + HDMI_720x576i100_4x3 = 44, + HDMI_720x576i100_16x9 = 45, + HDMI_1920x1080i120_16x9 = 46, + HDMI_1280x720p120_16x9 = 47, + HDMI_720x480p120_4x3 = 48, + HDMI_720x480p120_16x9 = 49, + HDMI_720x480i120_4x3 = 50, + HDMI_720x480i120_16x9 = 51, + HDMI_720x576p200_4x3 = 52, + HDMI_720x576p200_16x9 = 53, + HDMI_720x576i200_4x3 = 54, + HDMI_720x576i200_16x9 = 55, + HDMI_720x480p240_4x3 = 56, + HDMI_720x480p240_16x9 = 57, + HDMI_720x480i240_4x3 = 58, + HDMI_720x480i240_16x9 = 59, + /* Refet to CEA 861-F */ + HDMI_1280x720p24_16x9 = 60, + HDMI_1280x720p25_16x9 = 61, + HDMI_1280x720p30_16x9 = 62, + HDMI_1920x1080p120_16x9 = 63, + HDMI_1920x1080p100_16x9 = 64, + HDMI_1280x720p24_64x27 = 65, + HDMI_1280x720p25_64x27 = 66, + HDMI_1280x720p30_64x27 = 67, + HDMI_1280x720p50_64x27 = 68, + HDMI_1280x720p60_64x27 = 69, + HDMI_1280x720p100_64x27 = 70, + HDMI_1280x720p120_64x27 = 71, + HDMI_1920x1080p24_64x27 = 72, + HDMI_1920x1080p25_64x27 = 73, + HDMI_1920x1080p30_64x27 = 74, + HDMI_1920x1080p50_64x27 = 75, + HDMI_1920x1080p60_64x27 = 76, + HDMI_1920x1080p100_64x27 = 77, + HDMI_1920x1080p120_64x27 = 78, + HDMI_1680x720p24_64x27 = 79, + HDMI_1680x720p25_64x27 = 80, + HDMI_1680x720p30_64x27 = 81, + HDMI_1680x720p50_64x27 = 82, + HDMI_1680x720p60_64x27 = 83, + HDMI_1680x720p100_64x27 = 84, + HDMI_1680x720p120_64x27 = 85, + HDMI_2560x1080p24_64x27 = 86, + HDMI_2560x1080p25_64x27 = 87, + HDMI_2560x1080p30_64x27 = 88, + HDMI_2560x1080p50_64x27 = 89, + HDMI_2560x1080p60_64x27 = 90, + HDMI_2560x1080p100_64x27 = 91, + HDMI_2560x1080p120_64x27 = 92, + HDMI_3840x2160p24_16x9 = 93, + HDMI_3840x2160p25_16x9 = 94, + HDMI_3840x2160p30_16x9 = 95, + HDMI_3840x2160p50_16x9 = 96, + HDMI_3840x2160p60_16x9 = 97, + HDMI_4096x2160p24_256x135 = 98, + HDMI_4096x2160p25_256x135 = 99, + HDMI_4096x2160p30_256x135 = 100, + HDMI_4096x2160p50_256x135 = 101, + HDMI_4096x2160p60_256x135 = 102, + HDMI_3840x2160p24_64x27 = 103, + HDMI_3840x2160p25_64x27 = 104, + HDMI_3840x2160p30_64x27 = 105, + HDMI_3840x2160p50_64x27 = 106, + HDMI_3840x2160p60_64x27 = 107, + HDMI_RESERVED = 108, + /* + the following vic is for those y420 mode + they are all beyond OFFSET_HDMITX_VIC420(0x1000) + and they has same vic with normal vic in the lower bytes. + */ + HDMI_VIC_Y420 = HDMITX_VIC420_OFFSET, + HDMI_3840x2160p50_16x9_Y420 = + HDMITX_VIC420_OFFSET + HDMI_3840x2160p50_16x9, + HDMI_3840x2160p60_16x9_Y420 = + HDMITX_VIC420_OFFSET + HDMI_3840x2160p60_16x9, + HDMI_4096x2160p50_256x135_Y420 = + HDMITX_VIC420_OFFSET + HDMI_4096x2160p50_256x135, + HDMI_4096x2160p60_256x135_Y420 = + HDMITX_VIC420_OFFSET + HDMI_4096x2160p60_256x135, + HDMI_3840x2160p50_64x27_Y420 = + HDMITX_VIC420_OFFSET + HDMI_3840x2160p50_64x27, + HDMI_3840x2160p60_64x27_Y420 = + HDMITX_VIC420_OFFSET + HDMI_3840x2160p60_64x27, + HDMIV_640x480p60hz = HDMITX_VESA_OFFSET, + HDMIV_800x480p60hz, + HDMIV_800x600p60hz, + HDMIV_852x480p60hz, + HDMIV_854x480p60hz, + HDMIV_1024x600p60hz, + HDMIV_1024x768p60hz, + HDMIV_1152x864p75hz, + HDMIV_1280x600p60hz, + HDMIV_1280x768p60hz, + HDMIV_1280x800p60hz, + HDMIV_1280x960p60hz, + HDMIV_1280x1024p60hz, + HDMIV_1360x768p60hz, + HDMIV_1366x768p60hz, + HDMIV_1400x1050p60hz, + HDMIV_1440x900p60hz, + HDMIV_1440x2560p60hz, + HDMIV_1440x2560p70hz, + HDMIV_1600x900p60hz, + HDMIV_1600x1200p60hz, + HDMIV_1680x1050p60hz, + HDMIV_1920x1200p60hz, + HDMIV_2160x1200p90hz, + HDMIV_2560x1080p60hz, + HDMIV_2560x1440p60hz, + HDMIV_2560x1600p60hz, + HDMIV_3440x1440p60hz, + HDMIV_2400x1200p90hz, +}; + +/* Compliance with old definitions */ +#define HDMI_640x480p60 HDMI_640x480p60_4x3 +#define HDMI_480p60 HDMI_720x480p60_4x3 +#define HDMI_480p60_16x9 HDMI_720x480p60_16x9 +#define HDMI_720p60 HDMI_1280x720p60_16x9 +#define HDMI_1080i60 HDMI_1920x1080i60_16x9 +#define HDMI_480i60 HDMI_720x480i60_4x3 +#define HDMI_480i60_16x9 HDMI_720x480i60_16x9 +#define HDMI_480i60_16x9_rpt HDMI_2880x480i60_16x9 +#define HDMI_1440x480p60 HDMI_1440x480p60_4x3 +#define HDMI_1440x480p60_16x9 HDMI_1440x480p60_16x9 +#define HDMI_1080p60 HDMI_1920x1080p60_16x9 +#define HDMI_576p50 HDMI_720x576p50_4x3 +#define HDMI_576p50_16x9 HDMI_720x576p50_16x9 +#define HDMI_720p50 HDMI_1280x720p50_16x9 +#define HDMI_1080i50 HDMI_1920x1080i50_16x9 +#define HDMI_576i50 HDMI_720x576i50_4x3 +#define HDMI_576i50_16x9 HDMI_720x576i50_16x9 +#define HDMI_576i50_16x9_rpt HDMI_2880x576i50_16x9 +#define HDMI_1080p50 HDMI_1920x1080p50_16x9 +#define HDMI_1080p24 HDMI_1920x1080p24_16x9 +#define HDMI_1080p25 HDMI_1920x1080p25_16x9 +#define HDMI_1080p30 HDMI_1920x1080p30_16x9 +#define HDMI_1080p120 HDMI_1920x1080p120_16x9 +#define HDMI_480p60_16x9_rpt HDMI_2880x480p60_16x9 +#define HDMI_576p50_16x9_rpt HDMI_2880x576p50_16x9 +#define HDMI_4k2k_24 HDMI_3840x2160p24_16x9 +#define HDMI_4k2k_25 HDMI_3840x2160p25_16x9 +#define HDMI_4k2k_30 HDMI_3840x2160p30_16x9 +#define HDMI_4k2k_50 HDMI_3840x2160p50_16x9 +#define HDMI_4k2k_60 HDMI_3840x2160p60_16x9 +#define HDMI_4k2k_smpte_24 HDMI_4096x2160p24_256x135 +#define HDMI_4k2k_smpte_50 HDMI_4096x2160p50_256x135 +#define HDMI_4k2k_smpte_60 HDMI_4096x2160p60_256x135 + +/* CEA TIMING STRUCT DEFINITION */ +struct hdmi_cea_timing { + unsigned int pixel_freq; /* Unit: 1000 */ + unsigned int h_freq; /* Unit: Hz */ + unsigned int v_freq; /* Unit: 0.001 Hz */ + unsigned int vsync_polarity:1; /* 1: positive 0: negative */ + unsigned int hsync_polarity:1; + unsigned short h_active; + unsigned short h_total; + unsigned short h_blank; + unsigned short h_front; + unsigned short h_sync; + unsigned short h_back; + unsigned short v_active; + unsigned short v_total; + unsigned short v_blank; + unsigned short v_front; + unsigned short v_sync; + unsigned short v_back; + unsigned short v_sync_ln; +}; + +/* Refer CEA861-D Page 116 Table 55 */ +struct dtd { + unsigned short pixel_clock; + unsigned short h_active; + unsigned short h_blank; + unsigned short v_active; + unsigned short v_blank; + unsigned short h_sync_offset; + unsigned short h_sync; + unsigned short v_sync_offset; + unsigned short v_sync; + unsigned char h_image_size; + unsigned char v_image_size; + unsigned char h_border; + unsigned char v_border; + unsigned char flags; + enum hdmi_vic vic; +}; + +/* Dolby Version support information from EDID*/ +/* Refer to DV Spec version2.9 page26 to page39*/ +enum block_type { + ERROR_NULL = 0, + ERROR_LENGTH, + ERROR_OUI, + ERROR_VER, + CORRECT, +}; + + + +#define DV_IEEE_OUI 0x00D046 +#define HDR10_PLUS_IEEE_OUI 0x90848B + +#define HDMI_PACKET_VEND 1 +#define HDMI_PACKET_DRM 0x86 + +#define CMD_CONF_OFFSET (0x14 << 24) +#define CONF_AVI_BT2020 (CMD_CONF_OFFSET + 0X2000 + 0x00) + #define CLR_AVI_BT2020 0x0 + #define SET_AVI_BT2020 0x1 +/* set value as COLORSPACE_RGB444, YUV422, YUV444, YUV420 */ +#define CONF_AVI_RGBYCC_INDIC (CMD_CONF_OFFSET + 0X2000 + 0x01) +#define CONF_AVI_Q01 (CMD_CONF_OFFSET + 0X2000 + 0x02) + #define RGB_RANGE_DEFAULT 0 + #define RGB_RANGE_LIM 1 + #define RGB_RANGE_FUL 2 + #define RGB_RANGE_RSVD 3 +#define CONF_AVI_YQ01 (CMD_CONF_OFFSET + 0X2000 + 0x03) + #define YCC_RANGE_LIM 0 + #define YCC_RANGE_FUL 1 + #define YCC_RANGE_RSVD 2 + +struct hdr_info { + unsigned int hdr_sup_eotf_sdr:1; + unsigned int hdr_sup_eotf_hdr:1; + unsigned int hdr_sup_eotf_smpte_st_2084:1; + unsigned int hdr_sup_eotf_hlg:1; + unsigned int hdr_sup_SMD_type1:1; + unsigned char hdr_lum_max; + unsigned char hdr_lum_avg; + unsigned char hdr_lum_min; + unsigned char rawdata[7]; +}; + +struct hdr10_plus_info { + uint32_t ieeeoui; + uint8_t length; + uint8_t application_version; +}; + +enum hdmi_hdr_transfer { + T_UNKNOWN = 0, + T_BT709, + T_UNDEF, + T_BT601, + T_BT470M, + T_BT470BG, + T_SMPTE170M, + T_SMPTE240M, + T_LINEAR, + T_LOG100, + T_LOG316, + T_IEC61966_2_4, + T_BT1361E, + T_IEC61966_2_1, + T_BT2020_10, + T_BT2020_12, + T_SMPTE_ST_2084, + T_SMPTE_ST_28, + T_HLG, +}; + +enum hdmi_hdr_color { + C_UNKNOWN = 0, + C_BT709, + C_UNDEF, + C_BT601, + C_BT470M, + C_BT470BG, + C_SMPTE170M, + C_SMPTE240M, + C_FILM, + C_BT2020, +}; + +/* master_display_info for display device */ +struct master_display_info_s { + u32 present_flag; + u32 features; /* feature bits bt2020/2084 */ + u32 primaries[3][2]; /* normalized 50000 in G,B,R order */ + u32 white_point[2]; /* normalized 50000 */ + u32 luminance[2]; /* max/min lumin, normalized 10000 */ + u32 max_content; /* Maximum Content Light Level */ + u32 max_frame_average; /* Maximum Frame-average Light Level */ +}; + +struct hdr10plus_para { + uint8_t application_version; + uint8_t targeted_max_lum; + uint8_t average_maxrgb; + uint8_t distribution_values[9]; + uint8_t num_bezier_curve_anchors; + uint32_t knee_point_x; + uint32_t knee_point_y; + uint8_t bezier_curve_anchors[9]; + uint8_t graphics_overlay_flag; + uint8_t no_delay_flag; +}; + +struct dv_info { + unsigned char rawdata[27]; + enum block_type block_flag; + uint32_t ieeeoui; + uint8_t ver; /* 0 or 1 or 2*/ + uint8_t length;/*ver1: 15 or 12*/ + + uint8_t sup_yuv422_12bit:1; + /* if as 0, then support RGB tunnel mode */ + uint8_t sup_2160p60hz:1; + /* if as 0, then support 2160p30hz */ + uint8_t sup_global_dimming:1; + uint16_t Rx; + uint16_t Ry; + uint16_t Gx; + uint16_t Gy; + uint16_t Bx; + uint16_t By; + uint16_t Wx; + uint16_t Wy; + uint16_t tminPQ; + uint16_t tmaxPQ; + uint8_t dm_major_ver; + uint8_t dm_minor_ver; + uint8_t dm_version; + uint8_t tmaxLUM; + uint8_t colorimetry:1;/* ver1*/ + uint8_t tminLUM; + uint8_t low_latency;/* ver1_12 and 2*/ + uint8_t sup_backlight_control:1;/*only ver2*/ + uint8_t backlt_min_luma;/*only ver2*/ + uint8_t Interface;/*only ver2*/ + uint8_t sup_10b_12b_444;/*only ver2*/ + uint8_t support_DV_RGB_444_8BIT; + uint8_t support_LL_YCbCr_422_12BIT; + uint8_t support_LL_RGB_444_10BIT; + uint8_t support_LL_RGB_444_12BIT; +}; + +enum eotf_type { + EOTF_T_NULL = 0, + EOTF_T_DOLBYVISION, + EOTF_T_HDR10, + EOTF_T_SDR, + EOTF_T_LL_MODE, + EOTF_T_MAX, +}; + +enum mode_type { + YUV422_BIT12 = 0, + RGB_8BIT, + RGB_10_12BIT, + YUV444_10_12BIT, +}; + +/* Dolby Version VSIF parameter*/ +struct dv_vsif_para { + uint8_t ver; /* 0 or 1 or 2*/ + uint8_t length;/*ver1: 15 or 12*/ + union { + struct { + uint8_t low_latency:1; + uint8_t dobly_vision_signal:1; + uint8_t backlt_ctrl_MD_present:1; + uint8_t auxiliary_MD_present:1; + uint8_t eff_tmax_PQ_hi; + uint8_t eff_tmax_PQ_low; + uint8_t auxiliary_runmode; + uint8_t auxiliary_runversion; + uint8_t auxiliary_debug0; + } ver2; + } vers; +}; + +#define Y420CMDB_MAX 32 +#define VIC_MAX_NUM 256 +struct rx_cap { + unsigned int native_Mode; + /*video*/ + unsigned int VIC[VIC_MAX_NUM]; + unsigned int VIC_count; + unsigned int native_VIC; + /*vendor*/ + unsigned int IEEEOUI; + unsigned int Max_TMDS_Clock1; /* HDMI1.4b TMDS_CLK */ + unsigned int HF_IEEEOUI; /* For HDMI Forum */ + unsigned int Max_TMDS_Clock2; /* HDMI2.0 TMDS_CLK */ + /* CEA861-F, Table 56, Colorimetry Data Block */ + unsigned int colorimetry_data; + unsigned int scdc_present:1; + unsigned int scdc_rr_capable:1; /* SCDC read request */ + unsigned int lte_340mcsc_scramble:1; + unsigned support_ycbcr444_flag:1; + unsigned support_ycbcr422_flag:1; + unsigned int dc_y444:1; + unsigned int dc_30bit:1; + unsigned int dc_36bit:1; + unsigned int dc_48bit:1; + unsigned int dc_y420:1; + unsigned int dc_30bit_420:1; + unsigned int dc_36bit_420:1; + unsigned int dc_48bit_420:1; + unsigned char edid_version; + unsigned char edid_revision; + unsigned int ColorDeepSupport; + unsigned int Video_Latency; + unsigned int Audio_Latency; + unsigned int Interlaced_Video_Latency; + unsigned int Interlaced_Audio_Latency; + unsigned int threeD_present; + unsigned int threeD_Multi_present; + unsigned int hdmi_vic_LEN; + enum hdmi_vic preferred_mode; + struct dtd dtd[16]; + unsigned char dtd_idx; + unsigned char flag_vfpdb; + unsigned char number_of_dtd; + unsigned char pref_colorspace; + struct hdr_info hdr_info; + struct dv_info dv_info; + struct hdr10_plus_info hdr10plus_info; + /*blk0 check sum*/ + unsigned char chksum; + /*blk0-3 check sum*/ + char checksum[10]; + unsigned char edid_changed; + /* for total = 32*8 = 256 VICs */ + /* for Y420CMDB bitmap */ + unsigned char bitmap_valid; + unsigned char bitmap_length; + unsigned char y420_all_vic; + unsigned char y420cmdb_bitmap[Y420CMDB_MAX]; +}; + +enum color_attr_type { + COLOR_ATTR_YCBCR444_12BIT = 0, + COLOR_ATTR_YCBCR422_12BIT, + COLOR_ATTR_YCBCR420_12BIT, + COLOR_ATTR_RGB_12BIT, + COLOR_ATTR_YCBCR444_10BIT, + COLOR_ATTR_YCBCR422_10BIT, + COLOR_ATTR_YCBCR420_10BIT, + COLOR_ATTR_RGB_10BIT, + COLOR_ATTR_YCBCR444_8BIT, + COLOR_ATTR_YCBCR422_8BIT, + COLOR_ATTR_YCBCR420_8BIT, + COLOR_ATTR_RGB_8BIT, + COLOR_ATTR_RESERVED, +}; + +struct color_attr_to_string { + enum color_attr_type color_attr; + const char *color_attr_string; +}; + +enum hdmi_color_depth { + HDMI_COLOR_DEPTH_24B = 4, + HDMI_COLOR_DEPTH_30B = 5, + HDMI_COLOR_DEPTH_36B = 6, + HDMI_COLOR_DEPTH_48B = 7, +}; + +enum hdmi_color_format { + HDMI_COLOR_FORMAT_RGB, + HDMI_COLOR_FORMAT_422, + HDMI_COLOR_FORMAT_444, + HDMI_COLOR_FORMAT_420, +}; + +enum hdmi_color_range { + HDMI_COLOR_RANGE_LIM, + HDMI_COLOR_RANGE_FUL, +}; + +enum hdmi_audio_packet { + HDMI_AUDIO_PACKET_SMP = 0x02, + HDMI_AUDIO_PACKET_1BT = 0x07, + HDMI_AUDIO_PACKET_DST = 0x08, + HDMI_AUDIO_PACKET_HBR = 0x09, +}; + +enum hdmi_phy_para { + HDMI_PHYPARA_6G = 1, /* 2160p60hz 444 8bit */ + HDMI_PHYPARA_4p5G, /* 2160p50hz 420 12bit */ + HDMI_PHYPARA_3p7G, /* 2160p30hz 444 10bit */ + HDMI_PHYPARA_3G, /* 2160p24hz 444 8bit */ + HDMI_PHYPARA_LT3G, /* 1080p60hz 444 12bit */ + HDMI_PHYPARA_DEF = HDMI_PHYPARA_LT3G, + HDMI_PHYPARA_270M, /* 480p60hz 444 8bit */ +}; + +/* get hdmi cea timing + * t: struct hdmi_cea_timing * + */ +#define GET_TIMING(name) (t->name) + +struct parse_cd { + enum hdmi_color_depth cd; + const char *name; +}; + +struct parse_cs { + enum hdmi_color_format cs; + const char *name; +}; + +struct parse_cr { + enum hdmi_color_format cr; + const char *name; +}; + +#define EDID_BLK_NO 4 +#define EDID_BLK_SIZE 128 +struct hdmi_format_para { + enum hdmi_vic vic; + char *name; /* full name, 1280x720p60hz */ + char *sname; /* short name, 1280x720p60hz -> 720p60hz */ + char ext_name[32]; + enum hdmi_color_depth cd; /* cd8, cd10 or cd12 */ + enum hdmi_color_format cs; /* rgb, y444, y422, y420 */ + enum hdmi_color_range cr; /* limit, full */ + unsigned int pixel_repetition_factor; + unsigned int progress_mode:1; /* 0: Interlace 1: Progressive */ + unsigned int scrambler_en:1; + unsigned int tmds_clk_div40:1; + unsigned int tmds_clk; /* Unit: 1000 */ + struct hdmi_cea_timing timing; +}; + +struct hdmi_support_mode { + enum hdmi_vic vic; + char *sname; + char y420; +}; + +#define DOLBY_VISION_LL_RGB 3 +#define DOLBY_VISION_LL_YUV 2 +#define DOLBY_VISION_STD_ENABLE 1 +#define DOLBY_VISION_DISABLE 0 +#define DOLBY_VISION_ENABLE 1 + +#define HDMI_IEEEOUI 0x000C03 +#define MODE_LEN 32 +#define VESA_MAX_TIMING 64 + +typedef struct input_hdmi_data { + char ubootenv_hdmimode[MODE_LEN]; + char ubootenv_colorattribute[MODE_LEN]; + int ubootenv_dv_type; + #if 0 + bool isbestpolicy; + bool isSupport4K30Hz; + bool isSupport4K; + bool isDeepColor; + bool isframeratepriority; + bool isLowPowerMode; + #endif + struct rx_cap *pRXCap; +} hdmi_data_t; + +typedef struct scene_output_info { + char final_displaymode[MODE_LEN]; + char final_deepcolor[MODE_LEN]; + int final_dv_type; +} scene_output_info_t; + +struct dispmode_vic { + const char *disp_mode; + enum hdmi_vic VIC; +}; + +#endif + diff --git a/include/amlogic/media/vout/hdmitx/hdmitx.h b/include/amlogic/media/vout/hdmitx/hdmitx.h new file mode 100644 index 0000000000..1458741089 --- /dev/null +++ b/include/amlogic/media/vout/hdmitx/hdmitx.h @@ -0,0 +1,11 @@ +#ifndef __HDMITX_H_ +#define __HDMITX_H_ +#include "hdmi_common.h" +#include "hdmitx_module.h" +#include "hdmitx_reg.h" +#include "mach_reg.h" + +int hdmitx_likely_frac_rate_mode(char *m); +int hdmi_outputmode_check(char *mode, unsigned int frac); + +#endif diff --git a/include/amlogic/media/vout/hdmitx/hdmitx_ext.h b/include/amlogic/media/vout/hdmitx/hdmitx_ext.h new file mode 100644 index 0000000000..acf58a8091 --- /dev/null +++ b/include/amlogic/media/vout/hdmitx/hdmitx_ext.h @@ -0,0 +1,6 @@ +#ifndef __HDMITX_EXT_H__ +#define __HDMITX_EXT_H__ + +void hdmitx_init(void); + +#endif diff --git a/include/amlogic/media/vout/hdmitx/hdmitx_module.h b/include/amlogic/media/vout/hdmitx/hdmitx_module.h new file mode 100644 index 0000000000..60d22f63e3 --- /dev/null +++ b/include/amlogic/media/vout/hdmitx/hdmitx_module.h @@ -0,0 +1,106 @@ +#ifndef __HDMITX_MODULE_H__ +#define __HDMITX_MODULE_H__ + +#include "hdmi_common.h" +#include "hdmitx_ext.h" + +struct hdmitx_dev { + unsigned char rx_edid[512]; /* some RX may exceeds 256Bytes */ + struct { + int (*get_hpd_state)(void); + int (*read_edid)(unsigned char *buf, unsigned char addr, + unsigned char blk_no); + void (*turn_off)(void); + void (*list_support_modes)(void); + void (*dump_regs)(void); + void (*test_bist)(unsigned int mode); + void (*test_prbs)(void); + void (*set_div40)(bool div40); + void (*output_blank)(unsigned int blank); + } hwop; + unsigned char rawedid[EDID_BLK_SIZE * EDID_BLK_NO]; + struct rx_cap RXCap; + struct hdmi_format_para *para; + enum hdmi_vic vic; + unsigned int frac_rate_policy; + unsigned int mode420; + unsigned int dc30; + enum eotf_type hdmi_current_eotf_type; + enum mode_type hdmi_current_tunnel_mode; + /* Add dongle_mode, clock, phy may be different from mbox */ + unsigned int dongle_mode; +}; + +struct hdmitx_dev *hdmitx_get_hdev(void); + +struct hdmi_format_para *hdmi_get_fmt_paras(enum hdmi_vic vic); +enum hdmi_vic hdmi_get_fmt_vic(char const *name); +void hdmi_parse_attr(struct hdmi_format_para *para, char const *name); +int hdmitx_edid_VIC_support(enum hdmi_vic vic); +enum hdmi_vic hdmitx_edid_vic_tab_map_vic(const char *disp_mode); +const char *hdmitx_edid_vic_tab_map_string(enum hdmi_vic vic); +const char *hdmitx_edid_vic_to_string(enum hdmi_vic vic); +bool hdmitx_edid_check_valid_mode(struct hdmitx_dev *hdev, + struct hdmi_format_para *para); +enum hdmi_vic hdmitx_edid_get_VIC(struct hdmitx_dev *hdev, + const char *disp_mode, char force_flag); +bool edid_parsing_ok(struct hdmitx_dev *hdev); +bool is_dolby_enabled(void); +bool is_tv_support_dv(struct hdmitx_dev *hdev); +void dolbyvision_scene_process(hdmi_data_t *hdmi_data, + scene_output_info_t *output_info); +void sdr_scene_process(hdmi_data_t *hdmi_data, + scene_output_info_t *output_info); +void get_hdmi_data(struct hdmitx_dev *hdev, hdmi_data_t *data); +bool pre_process_str(char *name); +struct hdmi_format_para *hdmi_tst_fmt_name(char const *name, char const *attr); +bool is_supported_mode_attr(hdmi_data_t *hdmi_data, char *mode_attr); +int get_ubootenv_dv_type(void); +void hdmi_tx_set(struct hdmitx_dev *hdev); +/* Parsing RAW EDID data from edid to pRXCap */ +unsigned int hdmi_edid_parsing(unsigned char *edid, struct rx_cap *pRXCap); +struct hdmi_format_para *hdmi_match_dtd_paras(struct dtd *t); +bool hdmimode_is_interlaced(enum hdmi_vic vic); +void hdmitx_ddc_init(void); +void hdmitx_set_clk(struct hdmitx_dev *hdev); +void hdmitx_turnoff(void); +int hdmitx_get_hpd_state(void); +void hdmitx_prbs(void); +unsigned int hdmitx_rd_check_reg(unsigned int addr, unsigned int exp_data, + unsigned int mask); +void hdmitx_hdcp_init(void); +void hdmitx_set_phypara(enum hdmi_phy_para mode); +void hdmitx_test_prbs(void); +void hdmitx_set_div40(bool div40); + +extern void hdmitx_set_drm_pkt(struct master_display_info_s *data); +bool hdmitx_find_vendor(struct hdmitx_dev *hdev); +#ifndef CONFIG_AML_HDMITX20 +void __attribute__((weak))hdmitx_set_drm_pkt(struct master_display_info_s *data) +{ +} +#endif + +void hdmitx_set_vsif_pkt(enum eotf_type type, enum mode_type tunnel_mode, + struct dv_vsif_para *data); +void hdmitx_set_hdr10plus_pkt(unsigned int flag, + struct hdr10plus_para *data); + +#ifndef printk +#define printk printf +#endif +#ifndef pr_info +#define pr_info printf +#endif + +#define hdmitx_debug() /* printf("hd: %s[%d]\n", __func__, __LINE__) */ + +extern struct hdr_info *hdmitx_get_rx_hdr_info(void); +#ifndef CONFIG_AML_HDMITX20 +struct hdr_info * __attribute__((weak))hdmitx_get_rx_hdr_info(void) +{ + return NULL; +} +#endif + +#endif diff --git a/include/amlogic/media/vout/hdmitx/hdmitx_reg.h b/include/amlogic/media/vout/hdmitx/hdmitx_reg.h new file mode 100644 index 0000000000..b13e4ab986 --- /dev/null +++ b/include/amlogic/media/vout/hdmitx/hdmitx_reg.h @@ -0,0 +1,1041 @@ +/* + * driver/amlogic/media/vout/hdmitx/hdmitx_reg.h + * + * Copyright (C) 2018 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +*/ + +#ifndef _HDMI_TX_REG_H +#define _HDMI_TX_REG_H + +/* TOP-level wrapper registers addresses */ +/* bit24: 1 means secure access */ +/* bit28: 1 means DWC, 0 means TOP */ +#define SEC_OFFSET (0x1UL << 24) +#define TOP_OFFSET_MASK (0x0UL << 24) +#define TOP_SEC_OFFSET_MASK ((TOP_OFFSET_MASK) | (SEC_OFFSET)) +#define DWC_OFFSET_MASK (0x10UL << 24) +#define DWC_SEC_OFFSET_MASK ((DWC_OFFSET_MASK) | (SEC_OFFSET)) + +/* Bit 7 RW Reserved. Default 1. */ +/* Bit 6 RW Reserved. Default 1. */ +/* Bit 5 RW Reserved. Default 1. */ +/* Bit 4 RW sw_reset_phyif: PHY interface. 1=Apply reset; 0=Release from reset. + * Default 1. + * Bit 3 RW sw_reset_intr: interrupt module. 1=Apply reset; + * 0=Release from reset. Default 1. + * Bit 2 RW sw_reset_mem: KSV/REVOC mem. 1=Apply reset; 0=Release from reset. + * Default 1. + * Bit 1 RW sw_reset_rnd: random number interface to HDCP. 1=Apply reset; + * 0=Release from reset. Default 1. + * Bit 0 RW sw_reset_core: connects to IP's ~irstz. 1=Apply reset; + * 0=Release from reset. Default 1. + */ +#define HDMITX_TOP_SW_RESET (TOP_OFFSET_MASK + 0x000) + +/* Bit 12 RW i2s_ws_inv:1=Invert i2s_ws; 0=No invert. Default 0. */ +/* Bit 11 RW i2s_clk_inv: 1=Invert i2s_clk; 0=No invert. Default 0. */ +/* Bit 10 RW spdif_clk_inv: 1=Invert spdif_clk; 0=No invert. Default 0. */ +/* Bit 9 RW tmds_clk_inv: 1=Invert tmds_clk; 0=No invert. Default 0. */ +/* Bit 8 RW pixel_clk_inv: 1=Invert pixel_clk; 0=No invert. Default 0. */ +/* Bit 4 RW cec_clk_en: 1=enable cec_clk; 0=disable. Default 0. */ +/* Bit 3 RW i2s_clk_en: 1=enable i2s_clk; 0=disable. Default 0. */ +/* Bit 2 RW spdif_clk_en: 1=enable spdif_clk; 0=disable. Default 0. */ +/* Bit 1 RW tmds_clk_en: 1=enable tmds_clk; 0=disable. Default 0. */ +/* Bit 0 RW pixel_clk_en: 1=enable pixel_clk; 0=disable. Default 0. */ +#define HDMITX_TOP_CLK_CNTL (TOP_OFFSET_MASK + 0x001) + +/* Bit 11: 0 RW hpd_valid_width: filter out width <= M*1024. Default 0. */ +/* Bit 15:12 RW hpd_glitch_width: filter out glitch <= N. Default 0. */ +#define HDMITX_TOP_HPD_FILTER (TOP_OFFSET_MASK + 0x002) + +/* intr_maskn: MASK_N, one bit per interrupt source. + * 1=Enable interrupt source; 0=Disable interrupt source. Default 0. + * [ 4] hdcp22_rndnum_err + * [ 3] nonce_rfrsh_rise + * [ 2] hpd_fall_intr + * [ 1] hpd_rise_intr + * [ 0] core_intr + */ +#define HDMITX_TOP_INTR_MASKN (TOP_OFFSET_MASK + 0x003) + +/* Bit 30: 0 RW intr_stat: For each bit, write 1 to manually set the interrupt + * bit, read back the interrupt status. */ +/* Bit 31 R IP interrupt status */ +/* Bit 2 RW hpd_fall */ +/* Bit 1 RW hpd_rise */ +/* Bit 0 RW IP interrupt */ +#define HDMITX_TOP_INTR_STAT (TOP_OFFSET_MASK + 0x004) + +/* [4] hdcp22_rndnum_err */ +/* [3] nonce_rfrsh_rise */ +/* [2] hpd_fall */ +/* [1] hpd_rise */ +/* [0] core_intr_rise */ +#define HDMITX_TOP_INTR_STAT_CLR (TOP_OFFSET_MASK + 0x005) + +/* Bit 14:12 RW tmds_sel: 3'b000=Output zero; 3'b001=Output normal TMDS data; + * 3'b010=Output PRBS data; 3'b100=Output shift pattern. Default 0. + * Bit 11: 9 RW shift_pttn_repeat: 0=New pattern every clk cycle; 1=New pattern + * every 2 clk cycles; ...; 7=New pattern every 8 clk cycles. Default 0. + * Bit 8 RW shift_pttn_en: 1= Eanble shift pattern generator; 0=Disable. + * Default 0. + * Bit 4: 3 RW prbs_pttn_mode: 0=PRBS11; 1=PRBS15; 2=PRBS7; 3=PRBS31. Default 0. + * Bit 2: 1 RW prbs_pttn_width: 0=idle; 1=output 8-bit pattern; + * 2=Output 1-bit pattern; 3=output 10-bit pattern. Default 0. + * Bit 0 RW prbs_pttn_en: 1=Enable PRBS generator; 0=Disable. Default 0. + */ +#define HDMITX_TOP_BIST_CNTL (TOP_OFFSET_MASK + 0x006) + +/* Bit 29:20 RW shift_pttn_data[59:50]. Default 0. */ +/* Bit 19:10 RW shift_pttn_data[69:60]. Default 0. */ +/* Bit 9: 0 RW shift_pttn_data[79:70]. Default 0. */ +#define HDMITX_TOP_SHIFT_PTTN_012 (TOP_OFFSET_MASK + 0x007) + +/* Bit 29:20 RW shift_pttn_data[29:20]. Default 0. */ +/* Bit 19:10 RW shift_pttn_data[39:30]. Default 0. */ +/* Bit 9: 0 RW shift_pttn_data[49:40]. Default 0. */ +#define HDMITX_TOP_SHIFT_PTTN_345 (TOP_OFFSET_MASK + 0x008) + +/* Bit 19:10 RW shift_pttn_data[ 9: 0]. Default 0. */ +/* Bit 9: 0 RW shift_pttn_data[19:10]. Default 0. */ +#define HDMITX_TOP_SHIFT_PTTN_67 (TOP_OFFSET_MASK + 0x009) + +/* Bit 25:16 RW tmds_clk_pttn[19:10]. Default 0. */ +/* Bit 9: 0 RW tmds_clk_pttn[ 9: 0]. Default 0. */ +#define HDMITX_TOP_TMDS_CLK_PTTN_01 (TOP_OFFSET_MASK + 0x00A) + +/* Bit 25:16 RW tmds_clk_pttn[39:30]. Default 0. */ +/* Bit 9: 0 RW tmds_clk_pttn[29:20]. Default 0. */ +#define HDMITX_TOP_TMDS_CLK_PTTN_23 (TOP_OFFSET_MASK + 0x00B) + +/* Bit 1 RW shift_tmds_clk_pttn:1=Enable shifting clk pattern, + * used when TMDS CLK rate = TMDS character rate /4. Default 0. + * Bit 0 R Reserved. Default 0. + */ +/* [ 1] shift_tmds_clk_pttn */ +/* [ 0] load_tmds_clk_pttn */ +#define HDMITX_TOP_TMDS_CLK_PTTN_CNTL (TOP_OFFSET_MASK + 0x00C) + +/* Bit 0 RW revocmem_wr_fail: Read back 1 to indicate Host write REVOC MEM + * failure, write 1 to clear the failure flag. Default 0. + */ +#define HDMITX_TOP_REVOCMEM_STAT (TOP_OFFSET_MASK + 0x00D) + +/* Bit 0 R filtered HPD status. */ +#define HDMITX_TOP_STAT0 (TOP_OFFSET_MASK + 0x00E) +#define HDMITX_TOP_SKP_CNTL_STAT (TOP_SEC_OFFSET_MASK + 0x010) +#define HDMITX_TOP_NONCE_0 (TOP_SEC_OFFSET_MASK + 0x011) +#define HDMITX_TOP_NONCE_1 (TOP_SEC_OFFSET_MASK + 0x012) +#define HDMITX_TOP_NONCE_2 (TOP_SEC_OFFSET_MASK + 0x013) +#define HDMITX_TOP_NONCE_3 (TOP_SEC_OFFSET_MASK + 0x014) +#define HDMITX_TOP_PKF_0 (TOP_SEC_OFFSET_MASK + 0x015) +#define HDMITX_TOP_PKF_1 (TOP_SEC_OFFSET_MASK + 0x016) +#define HDMITX_TOP_PKF_2 (TOP_SEC_OFFSET_MASK + 0x017) +#define HDMITX_TOP_PKF_3 (TOP_SEC_OFFSET_MASK + 0x018) +#define HDMITX_TOP_DUK_0 (TOP_SEC_OFFSET_MASK + 0x019) +#define HDMITX_TOP_DUK_1 (TOP_SEC_OFFSET_MASK + 0x01A) +#define HDMITX_TOP_DUK_2 (TOP_SEC_OFFSET_MASK + 0x01B) +#define HDMITX_TOP_DUK_3 (TOP_SEC_OFFSET_MASK + 0x01C) +/* [26:24] infilter_ddc_intern_clk_divide */ +/* [23:16] infilter_ddc_sample_clk_divide */ +/* [10: 8] infilter_cec_intern_clk_divide */ +/* [ 7: 0] infilter_cec_sample_clk_divide */ +#define HDMITX_TOP_INFILTER (TOP_OFFSET_MASK + 0x01D) +#define HDMITX_TOP_NSEC_SCRATCH (TOP_OFFSET_MASK + 0x01E) +#define HDMITX_TOP_SEC_SCRATCH (TOP_SEC_OFFSET_MASK + 0x01F) +#define HDMITX_TOP_EMP_CNTL0 (TOP_OFFSET_MASK + 0x020) +#define HDMITX_TOP_EMP_CNTL1 (TOP_OFFSET_MASK + 0x021) +#define HDMITX_TOP_EMP_MEMADDR_START (TOP_OFFSET_MASK + 0x022) +#define HDMITX_TOP_EMP_STAT0 (TOP_OFFSET_MASK + 0x023) +#define HDMITX_TOP_EMP_STAT1 (TOP_OFFSET_MASK + 0x024) +#define HDMITX_TOP_AXI_ASYNC_CNTL0 (TOP_OFFSET_MASK + 0x025) +#define HDMITX_TOP_AXI_ASYNC_CNTL1 (TOP_OFFSET_MASK + 0x026) +#define HDMITX_TOP_AXI_ASYNC_STAT0 (TOP_OFFSET_MASK + 0x027) +#define HDMITX_TOP_I2C_BUSY_CNT_MAX (TOP_OFFSET_MASK + 0x028) +#define HDMITX_TOP_I2C_BUSY_CNT_STAT (TOP_OFFSET_MASK + 0x029) +#define HDMITX_TOP_HDCP22_BSOD (TOP_OFFSET_MASK + 0x02A) +#define HDMITX_TOP_DDC_CNTL (TOP_OFFSET_MASK + 0x02B) +#define HDMITX_TOP_REVOCMEM_ADDR_S (TOP_OFFSET_MASK + 0x2000 >> 2) +#define HDMITX_TOP_REVOCMEM_ADDR_E (TOP_OFFSET_MASK + 0x365E >> 2) + +#define HDMITX_TOP_DONT_TOUCH0 (TOP_OFFSET_MASK + 0x0FE) +#define HDMITX_TOP_DONT_TOUCH1 (TOP_OFFSET_MASK + 0x0FF) + +/* DWC_HDMI_TX Controller registers addresses */ + +/* Identification Registers */ +#define HDMITX_DWC_DESIGN_ID (DWC_OFFSET_MASK + 0x0000) +#define HDMITX_DWC_REVISION_ID (DWC_OFFSET_MASK + 0x0001) +#define HDMITX_DWC_PRODUCT_ID0 (DWC_OFFSET_MASK + 0x0002) +#define HDMITX_DWC_PRODUCT_ID1 (DWC_OFFSET_MASK + 0x0003) +#define HDMITX_DWC_CONFIG0_ID (DWC_OFFSET_MASK + 0x0004) +#define HDMITX_DWC_CONFIG1_ID (DWC_OFFSET_MASK + 0x0005) +#define HDMITX_DWC_CONFIG2_ID (DWC_OFFSET_MASK + 0x0006) +#define HDMITX_DWC_CONFIG3_ID (DWC_OFFSET_MASK + 0x0007) + +/* Interrupt Registers */ +#define HDMITX_DWC_IH_FC_STAT0 (DWC_OFFSET_MASK + 0x0100) +#define HDMITX_DWC_IH_FC_STAT1 (DWC_OFFSET_MASK + 0x0101) +#define HDMITX_DWC_IH_FC_STAT2 (DWC_OFFSET_MASK + 0x0102) +#define HDMITX_DWC_IH_AS_STAT0 (DWC_OFFSET_MASK + 0x0103) +#define HDMITX_DWC_IH_PHY_STAT0 (DWC_OFFSET_MASK + 0x0104) +#define HDMITX_DWC_IH_I2CM_STAT0 (DWC_OFFSET_MASK + 0x0105) +#define HDMITX_DWC_IH_CEC_STAT0 (DWC_OFFSET_MASK + 0x0106) +#define HDMITX_DWC_IH_VP_STAT0 (DWC_OFFSET_MASK + 0x0107) +#define HDMITX_DWC_IH_I2CMPHY_STAT0 (DWC_OFFSET_MASK + 0x0108) +#define HDMITX_DWC_IH_DECODE (DWC_OFFSET_MASK + 0x0170) +/* [ 7] mute_AUDI */ +/* [ 6] mute_ACP */ +/* [ 5] mute_HBR */ +/* [ 4] mute_MAS */ +/* [ 3] mute_NVBI */ +/* [ 2] mute_AUDS */ +/* [ 1] mute_ACR */ +/* [ 0] mute_NULL */ +#define HDMITX_DWC_IH_MUTE_FC_STAT0 (DWC_OFFSET_MASK + 0x0180) +/* [ 7] mute_GMD */ +/* [ 6] mute_ISRC1 */ +/* [ 5] mute_ISRC2 */ +/* [ 4] mute_VSD */ +/* [ 3] mute_SPD */ +/* [ 2] mute_AMP */ +/* [ 1] mute_AVI */ +/* [ 0] mute_GCP */ +#define HDMITX_DWC_IH_MUTE_FC_STAT1 (DWC_OFFSET_MASK + 0x0181) +/* [ 1] mute_LowPriority_fifo_full */ +/* [ 0] mute_HighPriority_fifo_full */ +#define HDMITX_DWC_IH_MUTE_FC_STAT2 (DWC_OFFSET_MASK + 0x0182) +/* [ 4] mute_aud_fifo_underrun */ +/* [ 3] mute_aud_fifo_overrun */ +/* [ 2] mute_aud_fifo_empty_thr. oififoemptythr tied to 0. */ +/* [ 1] mute_aud_fifo_empty */ +/* [ 0] mute_aud_fifo_full */ +#define HDMITX_DWC_IH_MUTE_AS_STAT0 (DWC_OFFSET_MASK + 0x0183) +#define HDMITX_DWC_IH_MUTE_PHY_STAT0 (DWC_OFFSET_MASK + 0x0184) +/* [ 2] mute_scdc_readreq */ +/* [ 1] mute_edid_i2c_master_done */ +/* [ 0] mute_edid_i2c_master_error */ +#define HDMITX_DWC_IH_MUTE_I2CM_STAT0 (DWC_OFFSET_MASK + 0x0185) +/* [ 6] cec_wakeup */ +/* [ 5] cec_error_follower */ +/* [ 4] cec_error_initiator */ +/* [ 3] cec_arb_lost */ +/* [ 2] cec_nack */ +/* [ 1] cec_eom */ +/* [ 0] cec_done */ +#define HDMITX_DWC_IH_MUTE_CEC_STAT0 (DWC_OFFSET_MASK + 0x0186) +#define HDMITX_DWC_IH_MUTE_VP_STAT0 (DWC_OFFSET_MASK + 0x0187) +#define HDMITX_DWC_IH_MUTE_I2CMPHY_STAT0 (DWC_OFFSET_MASK + 0x0188) +/* [ 1] mute_wakeup_interrupt */ +/* [ 0] mute_all_interrupt */ +#define HDMITX_DWC_IH_MUTE (DWC_OFFSET_MASK + 0x01FF) + +/* Video Sampler Registers */ +/* [ 7] internal_de_generator */ +/* [4:0] video_mapping */ +#define HDMITX_DWC_TX_INVID0 (DWC_OFFSET_MASK + 0x0200) +/* [ 2] bcbdata_stuffing */ +/* [ 1] rcrdata_stuffing */ +/* [ 0] gydata_stuffing */ +#define HDMITX_DWC_TX_INSTUFFING (DWC_OFFSET_MASK + 0x0201) +#define HDMITX_DWC_TX_GYDATA0 (DWC_OFFSET_MASK + 0x0202) +#define HDMITX_DWC_TX_GYDATA1 (DWC_OFFSET_MASK + 0x0203) +#define HDMITX_DWC_TX_RCRDATA0 (DWC_OFFSET_MASK + 0x0204) +#define HDMITX_DWC_TX_RCRDATA1 (DWC_OFFSET_MASK + 0x0205) +#define HDMITX_DWC_TX_BCBDATA0 (DWC_OFFSET_MASK + 0x0206) +#define HDMITX_DWC_TX_BCBDATA1 (DWC_OFFSET_MASK + 0x0207) + +/* Video Packetizer Registers */ +#define HDMITX_DWC_VP_STATUS (DWC_OFFSET_MASK + 0x0800) +/* [3:0] desired_pr_factor */ +#define HDMITX_DWC_VP_PR_CD (DWC_OFFSET_MASK + 0x0801) +/* [ 5] default_phase */ +/* [ 2] ycc422_stuffing */ +/* [ 1] pp_stuffing */ +/* [ 0] pr_stuffing */ +#define HDMITX_DWC_VP_STUFF (DWC_OFFSET_MASK + 0x0802) +#define HDMITX_DWC_VP_REMAP (DWC_OFFSET_MASK + 0x0803) +#define HDMITX_DWC_VP_CONF (DWC_OFFSET_MASK + 0x0804) +/* [ 7] mask_int_full_prpt */ +/* [ 6] mask_int_empty_prpt */ +/* [ 5] mask_int_full_ppack */ +/* [ 4] mask_int_empty_ppack */ +/* [ 3] mask_int_full_remap */ +/* [ 2] mask_int_empty_remap */ +/* [ 1] mask_int_full_byp */ +/* [ 0] mask_int_empty_byp */ +#define HDMITX_DWC_VP_MASK (DWC_OFFSET_MASK + 0x0807) + +/* Frmae Composer Registers */ +/* [ 7] HDCP_keepout */ +/* [ 6] vs_in_pol: 0=active low; 1=active high. */ +/* [ 5] hs_in_pol: 0=active low; 1=active high. */ +/* [ 4] de_in_pol: 0=active low; 1=active high. */ +/* [ 3] dvi_modez: 0=dvi; 1=hdmi. */ +/* [ 1] r_v_blank_in_osc */ +/* [ 0] in_I_P: 0=progressive; 1=interlaced. */ +#define HDMITX_DWC_FC_INVIDCONF (DWC_OFFSET_MASK + 0x1000) +/* [7:0] H_in_active[7:0] */ +#define HDMITX_DWC_FC_INHACTV0 (DWC_OFFSET_MASK + 0x1001) +/* [5:0] H_in_active[13:8] */ +#define HDMITX_DWC_FC_INHACTV1 (DWC_OFFSET_MASK + 0x1002) +/* [7:0] H_in_blank[7:0] */ +#define HDMITX_DWC_FC_INHBLANK0 (DWC_OFFSET_MASK + 0x1003) +/* [4:0] H_in_blank[12:8] */ +#define HDMITX_DWC_FC_INHBLANK1 (DWC_OFFSET_MASK + 0x1004) +/* [7:0] V_in_active[7:0] */ +#define HDMITX_DWC_FC_INVACTV0 (DWC_OFFSET_MASK + 0x1005) +/* [4:0] V_in_active[12:8] */ +#define HDMITX_DWC_FC_INVACTV1 (DWC_OFFSET_MASK + 0x1006) +/* [7:0] V_in_blank */ +#define HDMITX_DWC_FC_INVBLANK (DWC_OFFSET_MASK + 0x1007) +/* [7:0] H_in_delay[7:0] */ +#define HDMITX_DWC_FC_HSYNCINDELAY0 (DWC_OFFSET_MASK + 0x1008) +/* [4:0] H_in_delay[12:8] */ +#define HDMITX_DWC_FC_HSYNCINDELAY1 (DWC_OFFSET_MASK + 0x1009) +/* [7:0] H_in_width[7:0] */ +#define HDMITX_DWC_FC_HSYNCINWIDTH0 (DWC_OFFSET_MASK + 0x100A) +/* [1:0] H_in_width[9:8] */ +#define HDMITX_DWC_FC_HSYNCINWIDTH1 (DWC_OFFSET_MASK + 0x100B) +/* [7:0] V_in_delay */ +#define HDMITX_DWC_FC_VSYNCINDELAY (DWC_OFFSET_MASK + 0x100C) +/* [5:0] V_in_width */ +#define HDMITX_DWC_FC_VSYNCINWIDTH (DWC_OFFSET_MASK + 0x100D) +#define HDMITX_DWC_FC_INFREQ0 (DWC_OFFSET_MASK + 0x100E) +#define HDMITX_DWC_FC_INFREQ1 (DWC_OFFSET_MASK + 0x100F) +#define HDMITX_DWC_FC_INFREQ2 (DWC_OFFSET_MASK + 0x1010) +#define HDMITX_DWC_FC_CTRLDUR (DWC_OFFSET_MASK + 0x1011) +#define HDMITX_DWC_FC_EXCTRLDUR (DWC_OFFSET_MASK + 0x1012) +#define HDMITX_DWC_FC_EXCTRLSPAC (DWC_OFFSET_MASK + 0x1013) +#define HDMITX_DWC_FC_CH0PREAM (DWC_OFFSET_MASK + 0x1014) +#define HDMITX_DWC_FC_CH1PREAM (DWC_OFFSET_MASK + 0x1015) +#define HDMITX_DWC_FC_CH2PREAM (DWC_OFFSET_MASK + 0x1016) +/* [3:2] YQ */ +/* [1:0] CN */ +#define HDMITX_DWC_FC_AVICONF3 (DWC_OFFSET_MASK + 0x1017) +/* [ 2] default_phase */ +/* [ 1] set_avmute */ +/* [ 0] clear_avmute */ +#define HDMITX_DWC_FC_GCP (DWC_OFFSET_MASK + 0x1018) +/* [ 7] rgb_ycc_indication[2] */ +/* [ 6] active_format_present */ +/* [5:4] scan_information */ +/* [3:2] bar_information */ +/* [1:0] rgb_ycc_indication[1:0] */ +#define HDMITX_DWC_FC_AVICONF0 (DWC_OFFSET_MASK + 0x1019) +/* [7:6] colorimetry */ +/* [5:4] picture_aspect_ratio */ +/* [3:0] active_aspect_ratio */ +#define HDMITX_DWC_FC_AVICONF1 (DWC_OFFSET_MASK + 0x101A) +/* [ 7] IT_content */ +/* [6:4] extended_colorimetry */ +/* [3:2] quantization_range */ +/* [1:0] non_uniform_picture_scaling */ +#define HDMITX_DWC_FC_AVICONF2 (DWC_OFFSET_MASK + 0x101B) +#define HDMITX_DWC_FC_AVIVID (DWC_OFFSET_MASK + 0x101C) +#define HDMITX_DWC_FC_AVIETB0 (DWC_OFFSET_MASK + 0x101D) +#define HDMITX_DWC_FC_AVIETB1 (DWC_OFFSET_MASK + 0x101E) +#define HDMITX_DWC_FC_AVISBB0 (DWC_OFFSET_MASK + 0x101F) +#define HDMITX_DWC_FC_AVISBB1 (DWC_OFFSET_MASK + 0x1020) +#define HDMITX_DWC_FC_AVIELB0 (DWC_OFFSET_MASK + 0x1021) +#define HDMITX_DWC_FC_AVIELB1 (DWC_OFFSET_MASK + 0x1022) +#define HDMITX_DWC_FC_AVISRB0 (DWC_OFFSET_MASK + 0x1023) +#define HDMITX_DWC_FC_AVISRB1 (DWC_OFFSET_MASK + 0x1024) +/* [3:0] CT: coding type */ +#define HDMITX_DWC_FC_AUDICONF0 (DWC_OFFSET_MASK + 0x1025) +/* [5:4] SS: sampling size */ +/* [2:0] SF: sampling frequency */ +#define HDMITX_DWC_FC_AUDICONF1 (DWC_OFFSET_MASK + 0x1026) +/* CA: channel allocation */ +#define HDMITX_DWC_FC_AUDICONF2 (DWC_OFFSET_MASK + 0x1027) +/* [6:5] LFEPBL: LFE playback info */ +/* [ 4] DM_INH: down mix enable */ +/* [3:0] LSv: Level shift value */ +#define HDMITX_DWC_FC_AUDICONF3 (DWC_OFFSET_MASK + 0x1028) +#define HDMITX_DWC_FC_VSDIEEEID0 (DWC_OFFSET_MASK + 0x1029) +#define HDMITX_DWC_FC_VSDSIZE (DWC_OFFSET_MASK + 0x102A) +#define HDMITX_DWC_FC_VSDIEEEID1 (DWC_OFFSET_MASK + 0x1030) +#define HDMITX_DWC_FC_VSDIEEEID2 (DWC_OFFSET_MASK + 0x1031) +#define HDMITX_DWC_FC_VSDPAYLOAD0 (DWC_OFFSET_MASK + 0x1032) +#define HDMITX_DWC_FC_VSDPAYLOAD1 (DWC_OFFSET_MASK + 0x1033) +#define HDMITX_DWC_FC_VSDPAYLOAD2 (DWC_OFFSET_MASK + 0x1034) +#define HDMITX_DWC_FC_VSDPAYLOAD3 (DWC_OFFSET_MASK + 0x1035) +#define HDMITX_DWC_FC_VSDPAYLOAD4 (DWC_OFFSET_MASK + 0x1036) +#define HDMITX_DWC_FC_VSDPAYLOAD5 (DWC_OFFSET_MASK + 0x1037) +#define HDMITX_DWC_FC_VSDPAYLOAD6 (DWC_OFFSET_MASK + 0x1038) +#define HDMITX_DWC_FC_VSDPAYLOAD7 (DWC_OFFSET_MASK + 0x1039) +#define HDMITX_DWC_FC_VSDPAYLOAD8 (DWC_OFFSET_MASK + 0x103A) +#define HDMITX_DWC_FC_VSDPAYLOAD9 (DWC_OFFSET_MASK + 0x103B) +#define HDMITX_DWC_FC_VSDPAYLOAD10 (DWC_OFFSET_MASK + 0x103C) +#define HDMITX_DWC_FC_VSDPAYLOAD11 (DWC_OFFSET_MASK + 0x103D) +#define HDMITX_DWC_FC_VSDPAYLOAD12 (DWC_OFFSET_MASK + 0x103E) +#define HDMITX_DWC_FC_VSDPAYLOAD13 (DWC_OFFSET_MASK + 0x103F) +#define HDMITX_DWC_FC_VSDPAYLOAD14 (DWC_OFFSET_MASK + 0x1040) +#define HDMITX_DWC_FC_VSDPAYLOAD15 (DWC_OFFSET_MASK + 0x1041) +#define HDMITX_DWC_FC_VSDPAYLOAD16 (DWC_OFFSET_MASK + 0x1042) +#define HDMITX_DWC_FC_VSDPAYLOAD17 (DWC_OFFSET_MASK + 0x1043) +#define HDMITX_DWC_FC_VSDPAYLOAD18 (DWC_OFFSET_MASK + 0x1044) +#define HDMITX_DWC_FC_VSDPAYLOAD19 (DWC_OFFSET_MASK + 0x1045) +#define HDMITX_DWC_FC_VSDPAYLOAD20 (DWC_OFFSET_MASK + 0x1046) +#define HDMITX_DWC_FC_VSDPAYLOAD21 (DWC_OFFSET_MASK + 0x1047) +#define HDMITX_DWC_FC_VSDPAYLOAD22 (DWC_OFFSET_MASK + 0x1048) +#define HDMITX_DWC_FC_VSDPAYLOAD23 (DWC_OFFSET_MASK + 0x1049) +#define HDMITX_DWC_FC_SPDVENDORNAME0 (DWC_OFFSET_MASK + 0x104A) +#define HDMITX_DWC_FC_SPDVENDORNAME1 (DWC_OFFSET_MASK + 0x104B) +#define HDMITX_DWC_FC_SPDVENDORNAME2 (DWC_OFFSET_MASK + 0x104C) +#define HDMITX_DWC_FC_SPDVENDORNAME3 (DWC_OFFSET_MASK + 0x104D) +#define HDMITX_DWC_FC_SPDVENDORNAME4 (DWC_OFFSET_MASK + 0x104E) +#define HDMITX_DWC_FC_SPDVENDORNAME5 (DWC_OFFSET_MASK + 0x104F) +#define HDMITX_DWC_FC_SPDVENDORNAME6 (DWC_OFFSET_MASK + 0x1050) +#define HDMITX_DWC_FC_SPDVENDORNAME7 (DWC_OFFSET_MASK + 0x1051) +#define HDMITX_DWC_FC_SDPPRODUCTNAME0 (DWC_OFFSET_MASK + 0x1052) +#define HDMITX_DWC_FC_SDPPRODUCTNAME1 (DWC_OFFSET_MASK + 0x1053) +#define HDMITX_DWC_FC_SDPPRODUCTNAME2 (DWC_OFFSET_MASK + 0x1054) +#define HDMITX_DWC_FC_SDPPRODUCTNAME3 (DWC_OFFSET_MASK + 0x1055) +#define HDMITX_DWC_FC_SDPPRODUCTNAME4 (DWC_OFFSET_MASK + 0x1056) +#define HDMITX_DWC_FC_SDPPRODUCTNAME5 (DWC_OFFSET_MASK + 0x1057) +#define HDMITX_DWC_FC_SDPPRODUCTNAME6 (DWC_OFFSET_MASK + 0x1058) +#define HDMITX_DWC_FC_SDPPRODUCTNAME7 (DWC_OFFSET_MASK + 0x1059) +#define HDMITX_DWC_FC_SDPPRODUCTNAME8 (DWC_OFFSET_MASK + 0x105A) +#define HDMITX_DWC_FC_SDPPRODUCTNAME9 (DWC_OFFSET_MASK + 0x105B) +#define HDMITX_DWC_FC_SDPPRODUCTNAME10 (DWC_OFFSET_MASK + 0x105C) +#define HDMITX_DWC_FC_SDPPRODUCTNAME11 (DWC_OFFSET_MASK + 0x105D) +#define HDMITX_DWC_FC_SDPPRODUCTNAME12 (DWC_OFFSET_MASK + 0x105E) +#define HDMITX_DWC_FC_SDPPRODUCTNAME13 (DWC_OFFSET_MASK + 0x105F) +#define HDMITX_DWC_FC_SDPPRODUCTNAME14 (DWC_OFFSET_MASK + 0x1060) +#define HDMITX_DWC_FC_SPDPRODUCTNAME15 (DWC_OFFSET_MASK + 0x1061) +#define HDMITX_DWC_FC_SPDDEVICEINF (DWC_OFFSET_MASK + 0x1062) +/* [7:4] aud_packet_sampflat */ +/* [ 0] aud_packet_layout */ +#define HDMITX_DWC_FC_AUDSCONF (DWC_OFFSET_MASK + 0x1063) +#define HDMITX_DWC_FC_AUDSSTAT (DWC_OFFSET_MASK + 0x1064) +/* [ 7] V3r */ +/* [ 6] V2r */ +/* [ 5] V1r */ +/* [ 4] V0r */ +/* [ 3] V3l */ +/* [ 2] V2l */ +/* [ 1] V1l */ +/* [ 0] V0l */ +#define HDMITX_DWC_FC_AUDSV (DWC_OFFSET_MASK + 0x1065) +#define HDMITX_DWC_FC_AUDSU (DWC_OFFSET_MASK + 0x1066) +#define HDMITX_DWC_FC_AUDSCHNLS0 (DWC_OFFSET_MASK + 0x1067) +#define HDMITX_DWC_FC_AUDSCHNLS1 (DWC_OFFSET_MASK + 0x1068) +#define HDMITX_DWC_FC_AUDSCHNLS2 (DWC_OFFSET_MASK + 0x1069) +#define HDMITX_DWC_FC_AUDSCHNLS3 (DWC_OFFSET_MASK + 0x106A) +#define HDMITX_DWC_FC_AUDSCHNLS4 (DWC_OFFSET_MASK + 0x106B) +#define HDMITX_DWC_FC_AUDSCHNLS5 (DWC_OFFSET_MASK + 0x106C) +#define HDMITX_DWC_FC_AUDSCHNLS6 (DWC_OFFSET_MASK + 0x106D) +#define HDMITX_DWC_FC_AUDSCHNLS7 (DWC_OFFSET_MASK + 0x106E) +#define HDMITX_DWC_FC_AUDSCHNLS8 (DWC_OFFSET_MASK + 0x106F) +#define HDMITX_DWC_FC_DATACH0FILL (DWC_OFFSET_MASK + 0x1070) +#define HDMITX_DWC_FC_DATACH1FILL (DWC_OFFSET_MASK + 0x1071) +#define HDMITX_DWC_FC_DATACH2FILL (DWC_OFFSET_MASK + 0x1072) +#define HDMITX_DWC_FC_CTRLQHIGH (DWC_OFFSET_MASK + 0x1073) +#define HDMITX_DWC_FC_CTRLQLOW (DWC_OFFSET_MASK + 0x1074) +#define HDMITX_DWC_FC_ACP0 (DWC_OFFSET_MASK + 0x1075) +#define HDMITX_DWC_FC_ACP16 (DWC_OFFSET_MASK + 0x1082) +#define HDMITX_DWC_FC_ACP15 (DWC_OFFSET_MASK + 0x1083) +#define HDMITX_DWC_FC_ACP14 (DWC_OFFSET_MASK + 0x1084) +#define HDMITX_DWC_FC_ACP13 (DWC_OFFSET_MASK + 0x1085) +#define HDMITX_DWC_FC_ACP12 (DWC_OFFSET_MASK + 0x1086) +#define HDMITX_DWC_FC_ACP11 (DWC_OFFSET_MASK + 0x1087) +#define HDMITX_DWC_FC_ACP10 (DWC_OFFSET_MASK + 0x1088) +#define HDMITX_DWC_FC_ACP9 (DWC_OFFSET_MASK + 0x1089) +#define HDMITX_DWC_FC_ACP8 (DWC_OFFSET_MASK + 0x108A) +#define HDMITX_DWC_FC_ACP7 (DWC_OFFSET_MASK + 0x108B) +#define HDMITX_DWC_FC_ACP6 (DWC_OFFSET_MASK + 0x108C) +#define HDMITX_DWC_FC_ACP5 (DWC_OFFSET_MASK + 0x108D) +#define HDMITX_DWC_FC_ACP4 (DWC_OFFSET_MASK + 0x108E) +#define HDMITX_DWC_FC_ACP3 (DWC_OFFSET_MASK + 0x108F) +#define HDMITX_DWC_FC_ACP2 (DWC_OFFSET_MASK + 0x1090) +#define HDMITX_DWC_FC_ACP1 (DWC_OFFSET_MASK + 0x1091) +#define HDMITX_DWC_FC_ISCR1_0 (DWC_OFFSET_MASK + 0x1092) +#define HDMITX_DWC_FC_ISCR1_16 (DWC_OFFSET_MASK + 0x1093) +#define HDMITX_DWC_FC_ISCR1_15 (DWC_OFFSET_MASK + 0x1094) +#define HDMITX_DWC_FC_ISCR1_14 (DWC_OFFSET_MASK + 0x1095) +#define HDMITX_DWC_FC_ISCR1_13 (DWC_OFFSET_MASK + 0x1096) +#define HDMITX_DWC_FC_ISCR1_12 (DWC_OFFSET_MASK + 0x1097) +#define HDMITX_DWC_FC_ISCR1_11 (DWC_OFFSET_MASK + 0x1098) +#define HDMITX_DWC_FC_ISCR1_10 (DWC_OFFSET_MASK + 0x1099) +#define HDMITX_DWC_FC_ISCR1_9 (DWC_OFFSET_MASK + 0x109A) +#define HDMITX_DWC_FC_ISCR1_8 (DWC_OFFSET_MASK + 0x109B) +#define HDMITX_DWC_FC_ISCR1_7 (DWC_OFFSET_MASK + 0x109C) +#define HDMITX_DWC_FC_ISCR1_6 (DWC_OFFSET_MASK + 0x109D) +#define HDMITX_DWC_FC_ISCR1_5 (DWC_OFFSET_MASK + 0x109E) +#define HDMITX_DWC_FC_ISCR1_4 (DWC_OFFSET_MASK + 0x109F) +#define HDMITX_DWC_FC_ISCR1_3 (DWC_OFFSET_MASK + 0x10A0) +#define HDMITX_DWC_FC_ISCR1_2 (DWC_OFFSET_MASK + 0x10A1) +#define HDMITX_DWC_FC_ISCR1_1 (DWC_OFFSET_MASK + 0x10A2) +#define HDMITX_DWC_FC_ISCR0_15 (DWC_OFFSET_MASK + 0x10A3) +#define HDMITX_DWC_FC_ISCR0_14 (DWC_OFFSET_MASK + 0x10A4) +#define HDMITX_DWC_FC_ISCR0_13 (DWC_OFFSET_MASK + 0x10A5) +#define HDMITX_DWC_FC_ISCR0_12 (DWC_OFFSET_MASK + 0x10A6) +#define HDMITX_DWC_FC_ISCR0_11 (DWC_OFFSET_MASK + 0x10A7) +#define HDMITX_DWC_FC_ISCR0_10 (DWC_OFFSET_MASK + 0x10A8) +#define HDMITX_DWC_FC_ISCR0_9 (DWC_OFFSET_MASK + 0x10A9) +#define HDMITX_DWC_FC_ISCR0_8 (DWC_OFFSET_MASK + 0x10AA) +#define HDMITX_DWC_FC_ISCR0_7 (DWC_OFFSET_MASK + 0x10AB) +#define HDMITX_DWC_FC_ISCR0_6 (DWC_OFFSET_MASK + 0x10AC) +#define HDMITX_DWC_FC_ISCR0_5 (DWC_OFFSET_MASK + 0x10AD) +#define HDMITX_DWC_FC_ISCR0_4 (DWC_OFFSET_MASK + 0x10AE) +#define HDMITX_DWC_FC_ISCR0_3 (DWC_OFFSET_MASK + 0x10AF) +#define HDMITX_DWC_FC_ISCR0_2 (DWC_OFFSET_MASK + 0x10B0) +#define HDMITX_DWC_FC_ISCR0_1 (DWC_OFFSET_MASK + 0x10B1) +#define HDMITX_DWC_FC_ISCR0_0 (DWC_OFFSET_MASK + 0x10B2) +/* [ 4] spd_auto */ +/* [ 3] vsd_auto */ +/* [ 2] isrc2_auto */ +/* [ 1] isrc1_auto */ +/* [ 0] acp_auto */ +#define HDMITX_DWC_FC_DATAUTO0 (DWC_OFFSET_MASK + 0x10B3) +#define HDMITX_DWC_FC_DATAUTO1 (DWC_OFFSET_MASK + 0x10B4) +#define HDMITX_DWC_FC_DATAUTO2 (DWC_OFFSET_MASK + 0x10B5) +#define HDMITX_DWC_FC_DATMAN (DWC_OFFSET_MASK + 0x10B6) +/* [ 5] nvbi_auto: insert on Vsync */ +/* [ 4] amp_auto: insert on Vsync */ +/* [ 3] avi_auto: insert on Vsync */ +/* [ 2] gcp_auto: insert on Vsync */ +/* [ 1] audi_auto: insert on Vsync */ +/* [ 0] acr_auto: insert on CTS update. Assert this bit later to avoid + * inital packets with false CTS value + */ +#define HDMITX_DWC_FC_DATAUTO3 (DWC_OFFSET_MASK + 0x10B7) +#define HDMITX_DWC_FC_RDRB0 (DWC_OFFSET_MASK + 0x10B8) +#define HDMITX_DWC_FC_RDRB1 (DWC_OFFSET_MASK + 0x10B9) +#define HDMITX_DWC_FC_RDRB2 (DWC_OFFSET_MASK + 0x10BA) +#define HDMITX_DWC_FC_RDRB3 (DWC_OFFSET_MASK + 0x10BB) +#define HDMITX_DWC_FC_RDRB4 (DWC_OFFSET_MASK + 0x10BC) +#define HDMITX_DWC_FC_RDRB5 (DWC_OFFSET_MASK + 0x10BD) +#define HDMITX_DWC_FC_RDRB6 (DWC_OFFSET_MASK + 0x10BE) +#define HDMITX_DWC_FC_RDRB7 (DWC_OFFSET_MASK + 0x10BF) +#define HDMITX_DWC_FC_RDRB8 (DWC_OFFSET_MASK + 0x10C0) +#define HDMITX_DWC_FC_RDRB9 (DWC_OFFSET_MASK + 0x10C1) +#define HDMITX_DWC_FC_RDRB10 (DWC_OFFSET_MASK + 0x10C2) +#define HDMITX_DWC_FC_RDRB11 (DWC_OFFSET_MASK + 0x10C3) +/* [ 7] AUDI_int_mask */ +/* [ 6] ACP_int_mask */ +/* [ 5] HBR_int_mask */ +/* [ 2] AUDS_int_mask */ +/* [ 1] ACR_int_mask */ +/* [ 0] NULL_int_mask */ +#define HDMITX_DWC_FC_MASK0 (DWC_OFFSET_MASK + 0x10D2) +/* [ 7] GMD_int_mask */ +/* [ 6] ISRC1_int_mask */ +/* [ 5] ISRC2_int_mask */ +/* [ 4] VSD_int_mask */ +/* [ 3] SPD_int_mask */ +/* [ 1] AVI_int_mask */ +/* [ 0] GCP_int_mask */ +#define HDMITX_DWC_FC_MASK1 (DWC_OFFSET_MASK + 0x10D6) +/* [ 1] LowPriority_fifo_full */ +/* [ 0] HighPriority_fifo_full */ +#define HDMITX_DWC_FC_MASK2 (DWC_OFFSET_MASK + 0x10DA) +/* [7:4] incoming_pr_factor */ +/* [3:0] output_pr_factor */ +#define HDMITX_DWC_FC_PRCONF (DWC_OFFSET_MASK + 0x10E0) +/* [ 4] scrambler_ucp_line */ +/* [ 0] scrambler_en. Only update this bit once we've sent SCDC message*/ +#define HDMITX_DWC_FC_SCRAMBLER_CTRL (DWC_OFFSET_MASK + 0x10E1) +#define HDMITX_DWC_FC_MULTISTREAM_CTRL (DWC_OFFSET_MASK + 0x10E2) +/* [ 6] nvbi_tx_en */ +/* [ 5] amp_tx_en */ +/* [ 4] aut_tx_en */ +/* [ 3] audi_tx_en */ +/* [ 2] avi_tx_en */ +/* [ 1] gcp_tx_en */ +/* [ 0] acr_tx_en */ +#define HDMITX_DWC_FC_PACKET_TX_EN (DWC_OFFSET_MASK + 0x10E3) +/* [ 1] actspc_hdlr_tgl */ +/* [ 0] actspc_hdlr_en */ +#define HDMITX_DWC_FC_ACTSPC_HDLR_CFG (DWC_OFFSET_MASK + 0x10E8) +#define HDMITX_DWC_FC_INVACT_2D_0 (DWC_OFFSET_MASK + 0x10E9) +/* [3:0] fc_invact_2d_0[11:8] */ +/* [7:0] fc_invact_2d_0[7:0] */ +#define HDMITX_DWC_FC_INVACT_2D_1 (DWC_OFFSET_MASK + 0x10EA) + +#define HDMITX_DWC_FC_GMD_STAT (DWC_OFFSET_MASK + 0x1100) +#define HDMITX_DWC_FC_GMD_EN (DWC_OFFSET_MASK + 0x1101) +#define HDMITX_DWC_FC_GMD_UP (DWC_OFFSET_MASK + 0x1102) +#define HDMITX_DWC_FC_GMD_CONF (DWC_OFFSET_MASK + 0x1103) +#define HDMITX_DWC_FC_GMD_HB (DWC_OFFSET_MASK + 0x1104) +#define HDMITX_DWC_FC_GMD_PB0 (DWC_OFFSET_MASK + 0x1105) +#define HDMITX_DWC_FC_GMD_PB1 (DWC_OFFSET_MASK + 0x1106) +#define HDMITX_DWC_FC_GMD_PB2 (DWC_OFFSET_MASK + 0x1107) +#define HDMITX_DWC_FC_GMD_PB3 (DWC_OFFSET_MASK + 0x1108) +#define HDMITX_DWC_FC_GMD_PB4 (DWC_OFFSET_MASK + 0x1109) +#define HDMITX_DWC_FC_GMD_PB5 (DWC_OFFSET_MASK + 0x110A) +#define HDMITX_DWC_FC_GMD_PB6 (DWC_OFFSET_MASK + 0x110B) +#define HDMITX_DWC_FC_GMD_PB7 (DWC_OFFSET_MASK + 0x110C) +#define HDMITX_DWC_FC_GMD_PB8 (DWC_OFFSET_MASK + 0x110D) +#define HDMITX_DWC_FC_GMD_PB9 (DWC_OFFSET_MASK + 0x110E) +#define HDMITX_DWC_FC_GMD_PB10 (DWC_OFFSET_MASK + 0x110F) +#define HDMITX_DWC_FC_GMD_PB11 (DWC_OFFSET_MASK + 0x1110) +#define HDMITX_DWC_FC_GMD_PB12 (DWC_OFFSET_MASK + 0x1111) +#define HDMITX_DWC_FC_GMD_PB13 (DWC_OFFSET_MASK + 0x1112) +#define HDMITX_DWC_FC_GMD_PB14 (DWC_OFFSET_MASK + 0x1113) +#define HDMITX_DWC_FC_GMD_PB15 (DWC_OFFSET_MASK + 0x1114) +#define HDMITX_DWC_FC_GMD_PB16 (DWC_OFFSET_MASK + 0x1115) +#define HDMITX_DWC_FC_GMD_PB17 (DWC_OFFSET_MASK + 0x1116) +#define HDMITX_DWC_FC_GMD_PB18 (DWC_OFFSET_MASK + 0x1117) +#define HDMITX_DWC_FC_GMD_PB19 (DWC_OFFSET_MASK + 0x1118) +#define HDMITX_DWC_FC_GMD_PB20 (DWC_OFFSET_MASK + 0x1119) +#define HDMITX_DWC_FC_GMD_PB21 (DWC_OFFSET_MASK + 0x111A) +#define HDMITX_DWC_FC_GMD_PB22 (DWC_OFFSET_MASK + 0x111B) +#define HDMITX_DWC_FC_GMD_PB23 (DWC_OFFSET_MASK + 0x111C) +#define HDMITX_DWC_FC_GMD_PB24 (DWC_OFFSET_MASK + 0x111D) +#define HDMITX_DWC_FC_GMD_PB25 (DWC_OFFSET_MASK + 0x111E) +#define HDMITX_DWC_FC_GMD_PB26 (DWC_OFFSET_MASK + 0x111F) +#define HDMITX_DWC_FC_GMD_PB27 (DWC_OFFSET_MASK + 0x1120) + +/* Audio Metadata Packet Registers */ +#define HDMITX_DWC_FC_AMP_HB01 (DWC_OFFSET_MASK + 0x1128) +#define HDMITX_DWC_FC_AMP_HB02 (DWC_OFFSET_MASK + 0x1129) +#define HDMITX_DWC_FC_AMP_PB00 (DWC_OFFSET_MASK + 0x112A) +#define HDMITX_DWC_FC_AMP_PB01 (DWC_OFFSET_MASK + 0x112B) +#define HDMITX_DWC_FC_AMP_PB02 (DWC_OFFSET_MASK + 0x112C) +#define HDMITX_DWC_FC_AMP_PB03 (DWC_OFFSET_MASK + 0x112D) +#define HDMITX_DWC_FC_AMP_PB04 (DWC_OFFSET_MASK + 0x112E) +#define HDMITX_DWC_FC_AMP_PB05 (DWC_OFFSET_MASK + 0x112F) +#define HDMITX_DWC_FC_AMP_PB06 (DWC_OFFSET_MASK + 0x1130) +#define HDMITX_DWC_FC_AMP_PB07 (DWC_OFFSET_MASK + 0x1131) +#define HDMITX_DWC_FC_AMP_PB08 (DWC_OFFSET_MASK + 0x1132) +#define HDMITX_DWC_FC_AMP_PB09 (DWC_OFFSET_MASK + 0x1133) +#define HDMITX_DWC_FC_AMP_PB10 (DWC_OFFSET_MASK + 0x1134) +#define HDMITX_DWC_FC_AMP_PB11 (DWC_OFFSET_MASK + 0x1135) +#define HDMITX_DWC_FC_AMP_PB12 (DWC_OFFSET_MASK + 0x1136) +#define HDMITX_DWC_FC_AMP_PB13 (DWC_OFFSET_MASK + 0x1137) +#define HDMITX_DWC_FC_AMP_PB14 (DWC_OFFSET_MASK + 0x1138) +#define HDMITX_DWC_FC_AMP_PB15 (DWC_OFFSET_MASK + 0x1139) +#define HDMITX_DWC_FC_AMP_PB16 (DWC_OFFSET_MASK + 0x113A) +#define HDMITX_DWC_FC_AMP_PB17 (DWC_OFFSET_MASK + 0x113B) +#define HDMITX_DWC_FC_AMP_PB18 (DWC_OFFSET_MASK + 0x113C) +#define HDMITX_DWC_FC_AMP_PB19 (DWC_OFFSET_MASK + 0x113D) +#define HDMITX_DWC_FC_AMP_PB20 (DWC_OFFSET_MASK + 0x113E) +#define HDMITX_DWC_FC_AMP_PB21 (DWC_OFFSET_MASK + 0x113F) +#define HDMITX_DWC_FC_AMP_PB22 (DWC_OFFSET_MASK + 0x1140) +#define HDMITX_DWC_FC_AMP_PB23 (DWC_OFFSET_MASK + 0x1141) +#define HDMITX_DWC_FC_AMP_PB24 (DWC_OFFSET_MASK + 0x1142) +#define HDMITX_DWC_FC_AMP_PB25 (DWC_OFFSET_MASK + 0x1143) +#define HDMITX_DWC_FC_AMP_PB26 (DWC_OFFSET_MASK + 0x1144) +#define HDMITX_DWC_FC_AMP_PB27 (DWC_OFFSET_MASK + 0x1145) + +/* NTSC VBI Packet Registers */ +#define HDMITX_DWC_FC_NVBI_HB01 (DWC_OFFSET_MASK + 0x1148) +#define HDMITX_DWC_FC_NVBI_HB02 (DWC_OFFSET_MASK + 0x1149) +#define HDMITX_DWC_FC_NVBI_PB01 (DWC_OFFSET_MASK + 0x114A) +#define HDMITX_DWC_FC_NVBI_PB02 (DWC_OFFSET_MASK + 0x114B) +#define HDMITX_DWC_FC_NVBI_PB03 (DWC_OFFSET_MASK + 0x114C) +#define HDMITX_DWC_FC_NVBI_PB04 (DWC_OFFSET_MASK + 0x114D) +#define HDMITX_DWC_FC_NVBI_PB05 (DWC_OFFSET_MASK + 0x114E) +#define HDMITX_DWC_FC_NVBI_PB06 (DWC_OFFSET_MASK + 0x114F) +#define HDMITX_DWC_FC_NVBI_PB07 (DWC_OFFSET_MASK + 0x1150) +#define HDMITX_DWC_FC_NVBI_PB08 (DWC_OFFSET_MASK + 0x1151) +#define HDMITX_DWC_FC_NVBI_PB09 (DWC_OFFSET_MASK + 0x1152) +#define HDMITX_DWC_FC_NVBI_PB10 (DWC_OFFSET_MASK + 0x1153) +#define HDMITX_DWC_FC_NVBI_PB11 (DWC_OFFSET_MASK + 0x1154) +#define HDMITX_DWC_FC_NVBI_PB12 (DWC_OFFSET_MASK + 0x1155) +#define HDMITX_DWC_FC_NVBI_PB13 (DWC_OFFSET_MASK + 0x1156) +#define HDMITX_DWC_FC_NVBI_PB14 (DWC_OFFSET_MASK + 0x1157) +#define HDMITX_DWC_FC_NVBI_PB15 (DWC_OFFSET_MASK + 0x1158) +#define HDMITX_DWC_FC_NVBI_PB16 (DWC_OFFSET_MASK + 0x1159) +#define HDMITX_DWC_FC_NVBI_PB17 (DWC_OFFSET_MASK + 0x115A) +#define HDMITX_DWC_FC_NVBI_PB18 (DWC_OFFSET_MASK + 0x115B) +#define HDMITX_DWC_FC_NVBI_PB19 (DWC_OFFSET_MASK + 0x115C) +#define HDMITX_DWC_FC_NVBI_PB20 (DWC_OFFSET_MASK + 0x115D) +#define HDMITX_DWC_FC_NVBI_PB21 (DWC_OFFSET_MASK + 0x115E) +#define HDMITX_DWC_FC_NVBI_PB22 (DWC_OFFSET_MASK + 0x115F) +#define HDMITX_DWC_FC_NVBI_PB23 (DWC_OFFSET_MASK + 0x1160) +#define HDMITX_DWC_FC_NVBI_PB24 (DWC_OFFSET_MASK + 0x1161) +#define HDMITX_DWC_FC_NVBI_PB25 (DWC_OFFSET_MASK + 0x1162) +#define HDMITX_DWC_FC_NVBI_PB26 (DWC_OFFSET_MASK + 0x1163) +#define HDMITX_DWC_FC_NVBI_PB27 (DWC_OFFSET_MASK + 0x1164) +#define HDMITX_DWC_FC_DRM_HB01 (DWC_OFFSET_MASK + 0x1168) +#define HDMITX_DWC_FC_DRM_HB02 (DWC_OFFSET_MASK + 0x1169) +#define HDMITX_DWC_FC_DRM_PB00 (DWC_OFFSET_MASK + 0x116A) +#define HDMITX_DWC_FC_DRM_PB01 (DWC_OFFSET_MASK + 0x116B) +#define HDMITX_DWC_FC_DRM_PB02 (DWC_OFFSET_MASK + 0x116C) +#define HDMITX_DWC_FC_DRM_PB03 (DWC_OFFSET_MASK + 0x116D) +#define HDMITX_DWC_FC_DRM_PB04 (DWC_OFFSET_MASK + 0x116E) +#define HDMITX_DWC_FC_DRM_PB05 (DWC_OFFSET_MASK + 0x116F) +#define HDMITX_DWC_FC_DRM_PB06 (DWC_OFFSET_MASK + 0x1170) +#define HDMITX_DWC_FC_DRM_PB07 (DWC_OFFSET_MASK + 0x1171) +#define HDMITX_DWC_FC_DRM_PB08 (DWC_OFFSET_MASK + 0x1172) +#define HDMITX_DWC_FC_DRM_PB09 (DWC_OFFSET_MASK + 0x1173) +#define HDMITX_DWC_FC_DRM_PB10 (DWC_OFFSET_MASK + 0x1174) +#define HDMITX_DWC_FC_DRM_PB11 (DWC_OFFSET_MASK + 0x1175) +#define HDMITX_DWC_FC_DRM_PB12 (DWC_OFFSET_MASK + 0x1176) +#define HDMITX_DWC_FC_DRM_PB13 (DWC_OFFSET_MASK + 0x1177) +#define HDMITX_DWC_FC_DRM_PB14 (DWC_OFFSET_MASK + 0x1178) +#define HDMITX_DWC_FC_DRM_PB15 (DWC_OFFSET_MASK + 0x1179) +#define HDMITX_DWC_FC_DRM_PB16 (DWC_OFFSET_MASK + 0x117A) +#define HDMITX_DWC_FC_DRM_PB17 (DWC_OFFSET_MASK + 0x117B) +#define HDMITX_DWC_FC_DRM_PB18 (DWC_OFFSET_MASK + 0x117C) +#define HDMITX_DWC_FC_DRM_PB19 (DWC_OFFSET_MASK + 0x117D) +#define HDMITX_DWC_FC_DRM_PB20 (DWC_OFFSET_MASK + 0x117E) +#define HDMITX_DWC_FC_DRM_PB21 (DWC_OFFSET_MASK + 0x117F) +#define HDMITX_DWC_FC_DRM_PB22 (DWC_OFFSET_MASK + 0x1180) +#define HDMITX_DWC_FC_DRM_PB23 (DWC_OFFSET_MASK + 0x1181) +#define HDMITX_DWC_FC_DRM_PB24 (DWC_OFFSET_MASK + 0x1182) +#define HDMITX_DWC_FC_DRM_PB25 (DWC_OFFSET_MASK + 0x1183) +#define HDMITX_DWC_FC_DRM_PB26 (DWC_OFFSET_MASK + 0x1184) + +#define HDMITX_DWC_FC_DBGFORCE (DWC_OFFSET_MASK + 0x1200) +#define HDMITX_DWC_FC_DBGAUD0CH0 (DWC_OFFSET_MASK + 0x1201) +#define HDMITX_DWC_FC_DBGAUD1CH0 (DWC_OFFSET_MASK + 0x1202) +#define HDMITX_DWC_FC_DBGAUD2CH0 (DWC_OFFSET_MASK + 0x1203) +#define HDMITX_DWC_FC_DBGAUD0CH1 (DWC_OFFSET_MASK + 0x1204) +#define HDMITX_DWC_FC_DBGAUD1CH1 (DWC_OFFSET_MASK + 0x1205) +#define HDMITX_DWC_FC_DBGAUD2CH1 (DWC_OFFSET_MASK + 0x1206) +#define HDMITX_DWC_FC_DBGAUD0CH2 (DWC_OFFSET_MASK + 0x1207) +#define HDMITX_DWC_FC_DBGAUD1CH2 (DWC_OFFSET_MASK + 0x1208) +#define HDMITX_DWC_FC_DBGAUD2CH2 (DWC_OFFSET_MASK + 0x1209) +#define HDMITX_DWC_FC_DBGAUD0CH3 (DWC_OFFSET_MASK + 0x120A) +#define HDMITX_DWC_FC_DBGAUD1CH3 (DWC_OFFSET_MASK + 0x120B) +#define HDMITX_DWC_FC_DBGAUD2CH3 (DWC_OFFSET_MASK + 0x120C) +#define HDMITX_DWC_FC_DBGAUD0CH4 (DWC_OFFSET_MASK + 0x120D) +#define HDMITX_DWC_FC_DBGAUD1CH4 (DWC_OFFSET_MASK + 0x120E) +#define HDMITX_DWC_FC_DBGAUD2CH4 (DWC_OFFSET_MASK + 0x120F) +#define HDMITX_DWC_FC_DBGAUD0CH5 (DWC_OFFSET_MASK + 0x1210) +#define HDMITX_DWC_FC_DBGAUD1CH5 (DWC_OFFSET_MASK + 0x1211) +#define HDMITX_DWC_FC_DBGAUD2CH5 (DWC_OFFSET_MASK + 0x1212) +#define HDMITX_DWC_FC_DBGAUD0CH6 (DWC_OFFSET_MASK + 0x1213) +#define HDMITX_DWC_FC_DBGAUD1CH6 (DWC_OFFSET_MASK + 0x1214) +#define HDMITX_DWC_FC_DBGAUD2CH6 (DWC_OFFSET_MASK + 0x1215) +#define HDMITX_DWC_FC_DBGAUD0CH7 (DWC_OFFSET_MASK + 0x1216) +#define HDMITX_DWC_FC_DBGAUD1CH7 (DWC_OFFSET_MASK + 0x1217) +#define HDMITX_DWC_FC_DBGAUD2CH7 (DWC_OFFSET_MASK + 0x1218) +#define HDMITX_DWC_FC_DBGTMDS0 (DWC_OFFSET_MASK + 0x1219) +#define HDMITX_DWC_FC_DBGTMDS1 (DWC_OFFSET_MASK + 0x121A) +#define HDMITX_DWC_FC_DBGTMDS2 (DWC_OFFSET_MASK + 0x121B) + +/* HDMI Source PHY Registers */ +#define HDMITX_DWC_PHY_CONF0 (DWC_OFFSET_MASK + 0x3000) +#define HDMITX_DWC_PHY_TST0 (DWC_OFFSET_MASK + 0x3001) +#define HDMITX_DWC_PHY_TST1 (DWC_OFFSET_MASK + 0x3002) +#define HDMITX_DWC_PHY_TST2 (DWC_OFFSET_MASK + 0x3003) +#define HDMITX_DWC_PHY_STAT0 (DWC_OFFSET_MASK + 0x3004) +#define HDMITX_DWC_PHY_INT0 (DWC_OFFSET_MASK + 0x3005) +#define HDMITX_DWC_PHY_MASK0 (DWC_OFFSET_MASK + 0x3006) +#define HDMITX_DWC_PHY_POL0 (DWC_OFFSET_MASK + 0x3007) + +/* I2C Master PHY Registers */ +#define HDMITX_DWC_I2CM_PHY_SLAVE (DWC_OFFSET_MASK + 0x3020) +#define HDMITX_DWC_I2CM_PHY_ADDRESS (DWC_OFFSET_MASK + 0x3021) +#define HDMITX_DWC_I2CM_PHY_DATAO_1 (DWC_OFFSET_MASK + 0x3022) +#define HDMITX_DWC_I2CM_PHY_DATAO_0 (DWC_OFFSET_MASK + 0x3023) +#define HDMITX_DWC_I2CM_PHY_DATAI_1 (DWC_OFFSET_MASK + 0x3024) +#define HDMITX_DWC_I2CM_PHY_DATAI_0 (DWC_OFFSET_MASK + 0x3025) +#define HDMITX_DWC_I2CM_PHY_OPERATION (DWC_OFFSET_MASK + 0x3026) +#define HDMITX_DWC_I2CM_PHY_INT (DWC_OFFSET_MASK + 0x3027) +#define HDMITX_DWC_I2CM_PHY_CTLINT (DWC_OFFSET_MASK + 0x3028) +#define HDMITX_DWC_I2CM_PHY_DIV (DWC_OFFSET_MASK + 0x3029) +#define HDMITX_DWC_I2CM_PHY_SOFTRSTZ (DWC_OFFSET_MASK + 0x302A) +#define HDMITX_DWC_I2CM_PHY_SS_SCL_HCNT_1 (DWC_OFFSET_MASK + 0x302B) +#define HDMITX_DWC_I2CM_PHY_SS_SCL_HCNT_0 (DWC_OFFSET_MASK + 0x302C) +#define HDMITX_DWC_I2CM_PHY_SS_SCL_LCNT_1 (DWC_OFFSET_MASK + 0x302D) +#define HDMITX_DWC_I2CM_PHY_SS_SCL_LCNT_0 (DWC_OFFSET_MASK + 0x302E) +#define HDMITX_DWC_I2CM_PHY_FS_SCL_HCNT_1 (DWC_OFFSET_MASK + 0x302F) +#define HDMITX_DWC_I2CM_PHY_FS_SCL_HCNT_0 (DWC_OFFSET_MASK + 0x3030) +#define HDMITX_DWC_I2CM_PHY_FS_SCL_LCNT_1 (DWC_OFFSET_MASK + 0x3031) +#define HDMITX_DWC_I2CM_PHY_FS_SCL_LCNT_0 (DWC_OFFSET_MASK + 0x3032) +#define HDMITX_DWC_I2CM_PHY_SDA_HOLD (DWC_OFFSET_MASK + 0x3033) + +/* Audio Sampler Registers */ + + /* [ 7] sw_audio_fifo_rst */ + /* [ 5] 0=select SPDIF; 1=select I2S. */ + /* [3:0] i2s_in_en: enable it later in test.c */ + +#define HDMITX_DWC_AUD_CONF0 (DWC_OFFSET_MASK + 0x3100) +/* [4:0] i2s_width */ +/* [7:5] i2s_mode: 0=standard I2S mode */ +#define HDMITX_DWC_AUD_CONF1 (DWC_OFFSET_MASK + 0x3101) +/* [ 3] fifo_empty_mask: 0=enable int; 1=mask int. */ +/* [ 2] fifo_full_mask: 0=enable int; 1=mask int. */ +#define HDMITX_DWC_AUD_INT (DWC_OFFSET_MASK + 0x3102) + /* [ 1] NLPCM */ +#define HDMITX_DWC_AUD_CONF2 (DWC_OFFSET_MASK + 0x3103) + +/* [ 4] fifo_overrun_mask: 0=enable int; 1=mask int. + * Enable it later when audio starts. + */ +#define HDMITX_DWC_AUD_INT1 (DWC_OFFSET_MASK + 0x3104) + +#define HDMITX_DWC_AUD_N1 (DWC_OFFSET_MASK + 0x3200) +#define HDMITX_DWC_AUD_N2 (DWC_OFFSET_MASK + 0x3201) +#define HDMITX_DWC_AUD_N3 (DWC_OFFSET_MASK + 0x3202) +#define HDMITX_DWC_AUD_CTS1 (DWC_OFFSET_MASK + 0x3203) +#define HDMITX_DWC_AUD_CTS2 (DWC_OFFSET_MASK + 0x3204) +#define HDMITX_DWC_AUD_CTS3 (DWC_OFFSET_MASK + 0x3205) +#define HDMITX_DWC_AUD_INPUTCLKFS (DWC_OFFSET_MASK + 0x3206) +/* [ 7] sw_audio_fifo_rst */ +#define HDMITX_DWC_AUD_SPDIF0 (DWC_OFFSET_MASK + 0x3300) +/* [4:0] spdif_width */ +/* [ 7] setnlpcm */ +#define HDMITX_DWC_AUD_SPDIF1 (DWC_OFFSET_MASK + 0x3301) +/* [ 3] SPDIF fifo_empty_mask: 0=enable int; 1=mask int. */ +/* [ 2] SPDIF fifo_full_mask: 0=enable int; 1=mask int. */ +#define HDMITX_DWC_AUD_SPDIFINT (DWC_OFFSET_MASK + 0x3302) +/* [ 4] SPDIF fifo_overrun_mask: 0=enable int; 1=mask int. */ +#define HDMITX_DWC_AUD_SPDIFINT1 (DWC_OFFSET_MASK + 0x3303) + +/* Generic Parallel Audio Interface Registers (DWC_OFFSET_MASK + 0x3500) */ +/* Audio DMA Registers (DWC_OFFSET_MASK + 0x3600) */ + +/* Main Controller Registers */ +/* [ 6] hdcpclk_disable */ +/* [ 5] cecclk_disable */ +/* [ 4] cscclk_disable */ +/* [ 3] audclk_disable */ +/* [ 2] prepclk_disable */ +/* [ 1] tmdsclk_disable */ +/* [ 0] pixelclk_disable */ +#define HDMITX_DWC_MC_CLKDIS (DWC_OFFSET_MASK + 0x4001) +/* + * [ 7] gpaswrst_req: 0=generate reset pulse; 1=no reset. + * [ 6] cecswrst_req: 0=generate reset pulse; 1=no reset. + * [ 4] spdifswrst_req: 0=generate reset pulse; 1=no reset. + * [ 3] i2sswrst_req: 0=generate reset pulse; 1=no reset. + * [ 2] prepswrst_req: 0=generate reset pulse; 1=no reset. + * [ 1] tmdsswrst_req: 0=generate reset pulse; 1=no reset. + * [ 0] pixelswrst_req: 0=generate reset pulse; 1=no reset. + */ +#define HDMITX_DWC_MC_SWRSTZREQ (DWC_OFFSET_MASK + 0x4002) +#define HDMITX_DWC_MC_OPCTRL (DWC_OFFSET_MASK + 0x4003) +/* [ 0] CSC enable */ +#define HDMITX_DWC_MC_FLOWCTRL (DWC_OFFSET_MASK + 0x4004) +#define HDMITX_DWC_MC_PHYRSTZ (DWC_OFFSET_MASK + 0x4005) +#define HDMITX_DWC_MC_LOCKONCLOCK (DWC_OFFSET_MASK + 0x4006) + +/* Color Space Converter Registers */ +/* [ 7] csc_limit */ +#define HDMITX_DWC_CSC_CFG (DWC_OFFSET_MASK + 0x4100) +#define HDMITX_DWC_CSC_SCALE (DWC_OFFSET_MASK + 0x4101) +#define HDMITX_DWC_CSC_COEF_A1_MSB (DWC_OFFSET_MASK + 0x4102) +#define HDMITX_DWC_CSC_COEF_A1_LSB (DWC_OFFSET_MASK + 0x4103) +#define HDMITX_DWC_CSC_COEF_A2_MSB (DWC_OFFSET_MASK + 0x4104) +#define HDMITX_DWC_CSC_COEF_A2_LSB (DWC_OFFSET_MASK + 0x4105) +#define HDMITX_DWC_CSC_COEF_A3_MSB (DWC_OFFSET_MASK + 0x4106) +#define HDMITX_DWC_CSC_COEF_A3_LSB (DWC_OFFSET_MASK + 0x4107) +#define HDMITX_DWC_CSC_COEF_A4_MSB (DWC_OFFSET_MASK + 0x4108) +#define HDMITX_DWC_CSC_COEF_A4_LSB (DWC_OFFSET_MASK + 0x4109) +#define HDMITX_DWC_CSC_COEF_B1_MSB (DWC_OFFSET_MASK + 0x410A) +#define HDMITX_DWC_CSC_COEF_B1_LSB (DWC_OFFSET_MASK + 0x410B) +#define HDMITX_DWC_CSC_COEF_B2_MSB (DWC_OFFSET_MASK + 0x410C) +#define HDMITX_DWC_CSC_COEF_B2_LSB (DWC_OFFSET_MASK + 0x410D) +#define HDMITX_DWC_CSC_COEF_B3_MSB (DWC_OFFSET_MASK + 0x410E) +#define HDMITX_DWC_CSC_COEF_B3_LSB (DWC_OFFSET_MASK + 0x410F) +#define HDMITX_DWC_CSC_COEF_B4_MSB (DWC_OFFSET_MASK + 0x4110) +#define HDMITX_DWC_CSC_COEF_B4_LSB (DWC_OFFSET_MASK + 0x4111) +#define HDMITX_DWC_CSC_COEF_C1_MSB (DWC_OFFSET_MASK + 0x4112) +#define HDMITX_DWC_CSC_COEF_C1_LSB (DWC_OFFSET_MASK + 0x4113) +#define HDMITX_DWC_CSC_COEF_C2_MSB (DWC_OFFSET_MASK + 0x4114) +#define HDMITX_DWC_CSC_COEF_C2_LSB (DWC_OFFSET_MASK + 0x4115) +#define HDMITX_DWC_CSC_COEF_C3_MSB (DWC_OFFSET_MASK + 0x4116) +#define HDMITX_DWC_CSC_COEF_C3_LSB (DWC_OFFSET_MASK + 0x4117) +#define HDMITX_DWC_CSC_COEF_C4_MSB (DWC_OFFSET_MASK + 0x4118) +#define HDMITX_DWC_CSC_COEF_C4_LSB (DWC_OFFSET_MASK + 0x4119) +#define HDMITX_DWC_CSC_LIMIT_UP_MSB (DWC_OFFSET_MASK + 0x411A) +#define HDMITX_DWC_CSC_LIMIT_UP_LSB (DWC_OFFSET_MASK + 0x411B) +#define HDMITX_DWC_CSC_LIMIT_DN_MSB (DWC_OFFSET_MASK + 0x411C) +#define HDMITX_DWC_CSC_LIMIT_DN_LSB (DWC_OFFSET_MASK + 0x411D) + +/* HDCP Encryption Engine Registers */ +#define HDMITX_DWC_A_HDCPCFG0 (DWC_SEC_OFFSET_MASK + 0x5000) +/* [ 4] hdcp_lock */ +/* [ 3] dissha1check */ +/* [ 2] ph2upshiftenc */ +/* [ 1] encryptiondisable */ +/* [ 0] swresetn. Write 0 to activate, self-clear to 1. */ +#define HDMITX_DWC_A_HDCPCFG1 (DWC_SEC_OFFSET_MASK + 0x5001) +#define HDMITX_DWC_A_HDCPOBS0 (DWC_OFFSET_MASK + 0x5002) +#define HDMITX_DWC_A_HDCPOBS1 (DWC_OFFSET_MASK + 0x5003) +#define HDMITX_DWC_A_HDCPOBS2 (DWC_OFFSET_MASK + 0x5004) +#define HDMITX_DWC_A_HDCPOBS3 (DWC_OFFSET_MASK + 0x5005) +#define HDMITX_DWC_A_APIINTCLR (DWC_OFFSET_MASK + 0x5006) +#define HDMITX_DWC_A_APIINTSTAT (DWC_OFFSET_MASK + 0x5007) +/* [ 7] hdcp_engaged_int_mask */ +/* [ 6] hdcp_failed_int_mask */ +/* [ 4] i2c_nack_int_mask */ +/* [ 3] lost_arbitration_int_mask */ +/* [ 2] keepout_error_int_mask */ +/* [ 1] ksv_sha1_calc_int_mask */ +/* [ 0] ksv_access_int_mask */ +#define HDMITX_DWC_A_APIINTMSK (DWC_OFFSET_MASK + 0x5008) +/* [6:5] unencryptconf */ +/* [ 4] dataenpol */ +/* [ 3] vsyncpol */ +/* [ 1] hsyncpol */ +#define HDMITX_DWC_A_VIDPOLCFG (DWC_OFFSET_MASK + 0x5009) +#define HDMITX_DWC_A_OESSWCFG (DWC_OFFSET_MASK + 0x500A) +#define HDMITX_DWC_A_COREVERLSB (DWC_OFFSET_MASK + 0x5014) +#define HDMITX_DWC_A_COREVERMSB (DWC_OFFSET_MASK + 0x5015) +/* [ 3] sha1_fail */ +/* [ 2] ksv_ctrl_update */ +/* [ 1] Rsvd for read-only ksv_mem_access */ +/* [ 0] ksv_mem_request */ +#define HDMITX_DWC_A_KSVMEMCTRL (DWC_OFFSET_MASK + 0x5016) + +#define HDMITX_DWC_HDCP_BSTATUS_0 (DWC_OFFSET_MASK + 0x5020) +#define HDMITX_DWC_HDCP_BSTATUS_1 (DWC_OFFSET_MASK + 0x5021) +#define HDMITX_DWC_HDCP_M0_0 (DWC_OFFSET_MASK + 0x5022) +#define HDMITX_DWC_HDCP_M0_1 (DWC_OFFSET_MASK + 0x5023) +#define HDMITX_DWC_HDCP_M0_2 (DWC_OFFSET_MASK + 0x5024) +#define HDMITX_DWC_HDCP_M0_3 (DWC_OFFSET_MASK + 0x5025) +#define HDMITX_DWC_HDCP_M0_4 (DWC_OFFSET_MASK + 0x5026) +#define HDMITX_DWC_HDCP_M0_5 (DWC_OFFSET_MASK + 0x5027) +#define HDMITX_DWC_HDCP_M0_6 (DWC_OFFSET_MASK + 0x5028) +#define HDMITX_DWC_HDCP_M0_7 (DWC_OFFSET_MASK + 0x5029) +#define HDMITX_DWC_HDCP_KSV (DWC_OFFSET_MASK + 0x502A) +#define HDMITX_DWC_HDCP_VH (DWC_OFFSET_MASK + 0x52A5) +#define HDMITX_DWC_HDCP_REVOC_SIZE_0 (DWC_OFFSET_MASK + 0x52B9) +#define HDMITX_DWC_HDCP_REVOC_SIZE_1 (DWC_OFFSET_MASK + 0x52BA) +#define HDMITX_DWC_HDCP_REVOC_LIST (DWC_OFFSET_MASK + 0x52BB) + +/* HDCP BKSV Registers */ +#define HDMITX_DWC_HDCPREG_BKSV0 (DWC_OFFSET_MASK + 0x7800) +#define HDMITX_DWC_HDCPREG_BKSV1 (DWC_OFFSET_MASK + 0x7801) +#define HDMITX_DWC_HDCPREG_BKSV2 (DWC_OFFSET_MASK + 0x7802) +#define HDMITX_DWC_HDCPREG_BKSV3 (DWC_OFFSET_MASK + 0x7803) +#define HDMITX_DWC_HDCPREG_BKSV4 (DWC_OFFSET_MASK + 0x7804) + +/* HDCP AN Registers */ +#define HDMITX_DWC_HDCPREG_ANCONF (DWC_OFFSET_MASK + 0x7805) +#define HDMITX_DWC_HDCPREG_AN0 (DWC_OFFSET_MASK + 0x7806) +#define HDMITX_DWC_HDCPREG_AN1 (DWC_OFFSET_MASK + 0x7807) +#define HDMITX_DWC_HDCPREG_AN2 (DWC_OFFSET_MASK + 0x7808) +#define HDMITX_DWC_HDCPREG_AN3 (DWC_OFFSET_MASK + 0x7809) +#define HDMITX_DWC_HDCPREG_AN4 (DWC_OFFSET_MASK + 0x780A) +#define HDMITX_DWC_HDCPREG_AN5 (DWC_OFFSET_MASK + 0x780B) +#define HDMITX_DWC_HDCPREG_AN6 (DWC_OFFSET_MASK + 0x780C) +#define HDMITX_DWC_HDCPREG_AN7 (DWC_OFFSET_MASK + 0x780D) +#define HDMITX_DWC_HDCPREG_RMLCTL (DWC_OFFSET_MASK + 0x780E) + +/* Encrypted DPK Embedded Storage Registers */ +#define HDMITX_DWC_HDCPREG_RMLSTS (DWC_OFFSET_MASK + 0x780F) +#define HDMITX_DWC_HDCPREG_SEED0 (DWC_SEC_OFFSET_MASK + 0x7810) +#define HDMITX_DWC_HDCPREG_SEED1 (DWC_SEC_OFFSET_MASK + 0x7811) +#define HDMITX_DWC_HDCPREG_DPK0 (DWC_SEC_OFFSET_MASK + 0x7812) +#define HDMITX_DWC_HDCPREG_DPK1 (DWC_SEC_OFFSET_MASK + 0x7813) +#define HDMITX_DWC_HDCPREG_DPK2 (DWC_SEC_OFFSET_MASK + 0x7814) +#define HDMITX_DWC_HDCPREG_DPK3 (DWC_SEC_OFFSET_MASK + 0x7815) +#define HDMITX_DWC_HDCPREG_DPK4 (DWC_SEC_OFFSET_MASK + 0x7816) +#define HDMITX_DWC_HDCPREG_DPK5 (DWC_SEC_OFFSET_MASK + 0x7817) +#define HDMITX_DWC_HDCPREG_DPK6 (DWC_SEC_OFFSET_MASK + 0x7818) + +/* HDCP22 Registers */ +#define HDMITX_DWC_HDCP22REG_ID (DWC_OFFSET_MASK + 0x7900) +#define HDMITX_DWC_HDCP22REG_CTRL (DWC_SEC_OFFSET_MASK + 0x7904) +#define HDMITX_DWC_HDCP22REG_CTRL1 (DWC_OFFSET_MASK + 0x7905) +#define HDMITX_DWC_HDCP22REG_STS (DWC_OFFSET_MASK + 0x7908) +#define HDMITX_DWC_HDCP22REG_MASK (DWC_OFFSET_MASK + 0x790C) +#define HDMITX_DWC_HDCP22REG_STAT (DWC_OFFSET_MASK + 0x790D) +#define HDMITX_DWC_HDCP22REG_MUTE (DWC_OFFSET_MASK + 0x790E) + + +/* ********** CEC related ********** */ + +/* CEC 2.0 Engine Registers */ +#define HDMITX_DWC_CEC_CTRL (DWC_OFFSET_MASK + 0x7D00) +#define HDMITX_DWC_CEC_INTR_MASK (DWC_OFFSET_MASK + 0x7D02) +#define HDMITX_DWC_CEC_LADD_LOW (DWC_OFFSET_MASK + 0x7D05) +#define HDMITX_DWC_CEC_LADD_HIGH (DWC_OFFSET_MASK + 0x7D06) +#define HDMITX_DWC_CEC_TX_CNT (DWC_OFFSET_MASK + 0x7D07) +#define HDMITX_DWC_CEC_RX_CNT (DWC_OFFSET_MASK + 0x7D08) +#define HDMITX_DWC_CEC_TX_DATA00 (DWC_OFFSET_MASK + 0x7D10) +#define HDMITX_DWC_CEC_TX_DATA01 (DWC_OFFSET_MASK + 0x7D11) +#define HDMITX_DWC_CEC_TX_DATA02 (DWC_OFFSET_MASK + 0x7D12) +#define HDMITX_DWC_CEC_TX_DATA03 (DWC_OFFSET_MASK + 0x7D13) +#define HDMITX_DWC_CEC_TX_DATA04 (DWC_OFFSET_MASK + 0x7D14) +#define HDMITX_DWC_CEC_TX_DATA05 (DWC_OFFSET_MASK + 0x7D15) +#define HDMITX_DWC_CEC_TX_DATA06 (DWC_OFFSET_MASK + 0x7D16) +#define HDMITX_DWC_CEC_TX_DATA07 (DWC_OFFSET_MASK + 0x7D17) +#define HDMITX_DWC_CEC_TX_DATA08 (DWC_OFFSET_MASK + 0x7D18) +#define HDMITX_DWC_CEC_TX_DATA09 (DWC_OFFSET_MASK + 0x7D19) +#define HDMITX_DWC_CEC_TX_DATA10 (DWC_OFFSET_MASK + 0x7D1A) +#define HDMITX_DWC_CEC_TX_DATA11 (DWC_OFFSET_MASK + 0x7D1B) +#define HDMITX_DWC_CEC_TX_DATA12 (DWC_OFFSET_MASK + 0x7D1C) +#define HDMITX_DWC_CEC_TX_DATA13 (DWC_OFFSET_MASK + 0x7D1D) +#define HDMITX_DWC_CEC_TX_DATA14 (DWC_OFFSET_MASK + 0x7D1E) +#define HDMITX_DWC_CEC_TX_DATA15 (DWC_OFFSET_MASK + 0x7D1F) +#define HDMITX_DWC_CEC_RX_DATA00 (DWC_OFFSET_MASK + 0x7D20) +#define HDMITX_DWC_CEC_RX_DATA01 (DWC_OFFSET_MASK + 0x7D21) +#define HDMITX_DWC_CEC_RX_DATA02 (DWC_OFFSET_MASK + 0x7D22) +#define HDMITX_DWC_CEC_RX_DATA03 (DWC_OFFSET_MASK + 0x7D23) +#define HDMITX_DWC_CEC_RX_DATA04 (DWC_OFFSET_MASK + 0x7D24) +#define HDMITX_DWC_CEC_RX_DATA05 (DWC_OFFSET_MASK + 0x7D25) +#define HDMITX_DWC_CEC_RX_DATA06 (DWC_OFFSET_MASK + 0x7D26) +#define HDMITX_DWC_CEC_RX_DATA07 (DWC_OFFSET_MASK + 0x7D27) +#define HDMITX_DWC_CEC_RX_DATA08 (DWC_OFFSET_MASK + 0x7D28) +#define HDMITX_DWC_CEC_RX_DATA09 (DWC_OFFSET_MASK + 0x7D29) +#define HDMITX_DWC_CEC_RX_DATA10 (DWC_OFFSET_MASK + 0x7D2A) +#define HDMITX_DWC_CEC_RX_DATA11 (DWC_OFFSET_MASK + 0x7D2B) +#define HDMITX_DWC_CEC_RX_DATA12 (DWC_OFFSET_MASK + 0x7D2C) +#define HDMITX_DWC_CEC_RX_DATA13 (DWC_OFFSET_MASK + 0x7D2D) +#define HDMITX_DWC_CEC_RX_DATA14 (DWC_OFFSET_MASK + 0x7D2E) +#define HDMITX_DWC_CEC_RX_DATA15 (DWC_OFFSET_MASK + 0x7D2F) +#define HDMITX_DWC_CEC_LOCK_BUF (DWC_OFFSET_MASK + 0x7D30) +#define HDMITX_DWC_CEC_WAKEUPCTRL (DWC_OFFSET_MASK + 0x7D31) + +/* I2C Master Registers(E-DDC/SCDC) */ +#define HDMITX_DWC_I2CM_SLAVE (DWC_OFFSET_MASK + 0x7E00) +#define HDMITX_DWC_I2CM_ADDRESS (DWC_OFFSET_MASK + 0x7E01) +#define HDMITX_DWC_I2CM_DATAO (DWC_OFFSET_MASK + 0x7E02) +#define HDMITX_DWC_I2CM_DATAI (DWC_OFFSET_MASK + 0x7E03) +#define HDMITX_DWC_I2CM_OPERATION (DWC_OFFSET_MASK + 0x7E04) +/* [ 2] done_mask */ +/* [ 6] read_req_mask */ +#define HDMITX_DWC_I2CM_INT (DWC_OFFSET_MASK + 0x7E05) +/* [ 6] nack_mask */ +/* [ 2] arbitration_error_mask */ +#define HDMITX_DWC_I2CM_CTLINT (DWC_OFFSET_MASK + 0x7E06) +/* [ 3] i2c_fast_mode: 0=standard mode; 1=fast mode. */ +#define HDMITX_DWC_I2CM_DIV (DWC_OFFSET_MASK + 0x7E07) +#define HDMITX_DWC_I2CM_SEGADDR (DWC_OFFSET_MASK + 0x7E08) +#define HDMITX_DWC_I2CM_SOFTRSTZ (DWC_OFFSET_MASK + 0x7E09) +#define HDMITX_DWC_I2CM_SEGPTR (DWC_OFFSET_MASK + 0x7E0A) +/* I2CM_SS_SCL_HCNT = RndUp(min_ss_scl_htime*Freq(sfrclkInMHz)/1000) */ +/* I2CM_SS_SCL_LCNT = RndUp(min_ss_scl_ltime*Freq(sfrclkInMHz)/1000) */ +/* I2CM_FS_SCL_HCNT = RndUp(min_fs_scl_htime*Freq(sfrclkInMHz)/1000) */ +/* I2CM_FS_SCL_LCNT = RndUp(min_fs_scl_ltime*Freq(sfrclkInMHz)/1000) */ +/* Where Freq(sfrclkInMHz)=24; */ +#define HDMITX_DWC_I2CM_SS_SCL_HCNT_1 (DWC_OFFSET_MASK + 0x7E0B) +#define HDMITX_DWC_I2CM_SS_SCL_HCNT_0 (DWC_OFFSET_MASK + 0x7E0C) +#define HDMITX_DWC_I2CM_SS_SCL_LCNT_1 (DWC_OFFSET_MASK + 0x7E0D) +#define HDMITX_DWC_I2CM_SS_SCL_LCNT_0 (DWC_OFFSET_MASK + 0x7E0E) +#define HDMITX_DWC_I2CM_FS_SCL_HCNT_1 (DWC_OFFSET_MASK + 0x7E0F) +#define HDMITX_DWC_I2CM_FS_SCL_HCNT_0 (DWC_OFFSET_MASK + 0x7E10) +#define HDMITX_DWC_I2CM_FS_SCL_LCNT_1 (DWC_OFFSET_MASK + 0x7E11) +#define HDMITX_DWC_I2CM_FS_SCL_LCNT_0 (DWC_OFFSET_MASK + 0x7E12) +#define HDMITX_DWC_I2CM_SDA_HOLD (DWC_OFFSET_MASK + 0x7E13) +/* [ 5] updt_rd_vsyncpoll_en */ +/* [ 4] read_request_en */ +/* [ 0] read_update */ +#define HDMITX_DWC_I2CM_SCDC_UPDATE (DWC_OFFSET_MASK + 0x7E14) +#define HDMITX_DWC_I2CM_READ_BUFF0 (DWC_OFFSET_MASK + 0x7E20) +#define HDMITX_DWC_I2CM_READ_BUFF1 (DWC_OFFSET_MASK + 0x7E21) +#define HDMITX_DWC_I2CM_READ_BUFF2 (DWC_OFFSET_MASK + 0x7E22) +#define HDMITX_DWC_I2CM_READ_BUFF3 (DWC_OFFSET_MASK + 0x7E23) +#define HDMITX_DWC_I2CM_READ_BUFF4 (DWC_OFFSET_MASK + 0x7E24) +#define HDMITX_DWC_I2CM_READ_BUFF5 (DWC_OFFSET_MASK + 0x7E25) +#define HDMITX_DWC_I2CM_READ_BUFF6 (DWC_OFFSET_MASK + 0x7E26) +#define HDMITX_DWC_I2CM_READ_BUFF7 (DWC_OFFSET_MASK + 0x7E27) +#define HDMITX_DWC_I2CM_SCDC_UPDATE0 (DWC_OFFSET_MASK + 0x7E30) +#define HDMITX_DWC_I2CM_SCDC_UPDATE1 (DWC_OFFSET_MASK + 0x7E31) + +#endif /* __HDMI_TX_REG_H_ */ diff --git a/include/amlogic/media/vout/hdmitx/mach_reg.h b/include/amlogic/media/vout/hdmitx/mach_reg.h new file mode 100644 index 0000000000..865eddb198 --- /dev/null +++ b/include/amlogic/media/vout/hdmitx/mach_reg.h @@ -0,0 +1,625 @@ +#ifndef __MACH_REG_H__ +#define __MACH_REG_H__ + +/* + * RePacket HDMI related registers rd/wr + */ +struct reg_map { + uint32_t base_addr; +}; + +#define CBUS_REG_IDX 0 +#define PERIPHS_REG_IDX 1 +#define VCBUS_REG_IDX 2 +#define AOBUS_REG_IDX 3 +#define HHI_REG_IDX 4 +#define RESET_CBUS_REG_IDX 5 +#define HDMITX_REG_IDX 6 +#define HDMITX_SEC_REG_IDX 7 +#define ELP_ESM_REG_IDX 8 +/* new added in SC2 */ +#define ANACTRL_REG_IDX 9 +#define PWRCTRL_REG_IDX 10 +#define RESETCTRL_REG_IDX 11 +#define SYSCTRL_REG_IDX 12 +#define REG_IDX_END 13 + +#define BASE_REG_OFFSET 24 + +#define PERIPHS_REG_ADDR(reg) \ + ((PERIPHS_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define VCBUS_REG_ADDR(reg) \ + ((VCBUS_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define AOBUS_REG_ADDR(reg) \ + ((AOBUS_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define HHI_REG_ADDR(reg) \ + ((HHI_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define RESET_CBUS_REG_ADDR(reg) \ + ((RESET_CBUS_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define HDMITX_SEC_REG_ADDR(reg) \ + ((HDMITX_SEC_REG_IDX << BASE_REG_OFFSET) + (reg))/*DWC*/ +#define HDMITX_REG_ADDR(reg) \ + ((HDMITX_REG_IDX << BASE_REG_OFFSET) + (reg))/*TOP*/ +#define ELP_ESM_REG_ADDR(reg) \ + ((ELP_ESM_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define ANACTRL_REG_ADDR(reg) \ + ((ANACTRL_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define PWRCTRL_REG_ADDR(reg) \ + ((PWRCTRL_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define RESETCTRL_REG_ADDR(reg) \ + ((RESETCTRL_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) +#define SYSCTRL_REG_ADDR(reg) \ + ((SYSCTRL_REG_IDX << BASE_REG_OFFSET) + ((reg) << 2)) + +struct reg_s { + unsigned int reg; + unsigned int val; +}; + +unsigned int hd_read_reg(unsigned int addr); +void hd_write_reg(unsigned int addr, unsigned int val); +void hd_set_reg_bits(unsigned int addr, unsigned int value, unsigned int offset, + unsigned int len); +uint32_t hd_get_paddr(uint32_t addr); +unsigned int hdmitx_rd_reg(unsigned int addr); +void hdmitx_wr_reg(unsigned int addr, unsigned int data); +void hdmitx_set_reg_bits(unsigned int addr, unsigned int value, + unsigned int offset, unsigned int len); +void hdmitx_poll_reg(unsigned int addr, unsigned int val, unsigned long timeout); + +/* REG_BASE: REGISTER_BASE_ADDR = 0xfe000000 */ +#define CLKCTRL_SYS_CLK_EN0_REG2 0x0013 +#define P_CLKCTRL_SYS_CLK_EN0_REG2 HHI_REG_ADDR(CLKCTRL_SYS_CLK_EN0_REG2) +#define CLKCTRL_VID_CLK_CTRL 0x0030 +#define P_CLKCTRL_VID_CLK_CTRL HHI_REG_ADDR(CLKCTRL_VID_CLK_CTRL) +#define CLKCTRL_VID_CLK_CTRL2 0x0031 +#define P_CLKCTRL_VID_CLK_CTRL2 HHI_REG_ADDR(CLKCTRL_VID_CLK_CTRL2) +#define CLKCTRL_VID_CLK_DIV 0x0032 +#define P_CLKCTRL_VID_CLK_DIV HHI_REG_ADDR(CLKCTRL_VID_CLK_DIV) +#define CLKCTRL_HDMI_CLK_CTRL 0x0038 +#define P_CLKCTRL_HDMI_CLK_CTRL HHI_REG_ADDR(CLKCTRL_HDMI_CLK_CTRL) +#define CLKCTRL_VID_PLL_CLK_DIV 0x0039 +#define P_CLKCTRL_VID_PLL_CLK_DIV HHI_REG_ADDR(CLKCTRL_VID_PLL_CLK_DIV) +#define CLKCTRL_HDCP22_CLK_CTRL 0x0040 +#define P_CLKCTRL_HDCP22_CLK_CTRL HHI_REG_ADDR(CLKCTRL_HDCP22_CLK_CTRL) + +/* REG_BASE: REGISTER_BASE_ADDR = 0xfe002000 */ +#define RESETCTRL_RESET0 0x0000 +#define P_RESETCTRL_RESET0 RESETCTRL_REG_ADDR(RESETCTRL_RESET0) +#define RESETCTRL_RESET2 0x0002 +#define P_RESETCTRL_RESET2 RESETCTRL_REG_ADDR(RESETCTRL_RESET2) + +/* REG_BASE: REGISTER_BASE_ADDR = 0xfe004000 */ +#define PADCTRL_PIN_MUX_REGB 0x0b +#define P_PADCTRL_PIN_MUX_REGB PERIPHS_REG_ADDR(PADCTRL_PIN_MUX_REGB) +#define PADCTRL_GPIOH_I 0x50 +#define P_PADCTRL_GPIOH_I PERIPHS_REG_ADDR(PADCTRL_GPIOH_I) + +/* REG_BASE: REGISTER_BASE_ADDR = 0xfe008000 */ +#define ANACTRL_HDMIPLL_CTRL0 0x0070 +#define P_ANACTRL_HDMIPLL_CTRL0 ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_CTRL0) +#define ANACTRL_HDMIPLL_CTRL1 0x0071 +#define P_ANACTRL_HDMIPLL_CTRL1 ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_CTRL1) +#define ANACTRL_HDMIPLL_CTRL2 0x0072 +#define P_ANACTRL_HDMIPLL_CTRL2 ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_CTRL2) +#define ANACTRL_HDMIPLL_CTRL3 0x0073 +#define P_ANACTRL_HDMIPLL_CTRL3 ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_CTRL3) +#define ANACTRL_HDMIPLL_CTRL4 0x0074 +#define P_ANACTRL_HDMIPLL_CTRL4 ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_CTRL4) +#define ANACTRL_HDMIPLL_CTRL5 0x0075 +#define P_ANACTRL_HDMIPLL_CTRL5 ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_CTRL5) +#define ANACTRL_HDMIPLL_CTRL6 0x0076 +#define P_ANACTRL_HDMIPLL_CTRL6 ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_CTRL6) +#define ANACTRL_HDMIPLL_STS 0x0077 +#define P_ANACTRL_HDMIPLL_STS ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_STS) +#define ANACTRL_HDMIPLL_VLOCK 0x0079 +#define P_ANACTRL_HDMIPLL_VLOCK ANACTRL_REG_ADDR(ANACTRL_HDMIPLL_VLOCK) +#define ANACTRL_HDMIPHY_CTRL0 0x0080 +#define P_ANACTRL_HDMIPHY_CTRL0 ANACTRL_REG_ADDR(ANACTRL_HDMIPHY_CTRL0) +#define ANACTRL_HDMIPHY_CTRL1 0x0081 +#define P_ANACTRL_HDMIPHY_CTRL1 ANACTRL_REG_ADDR(ANACTRL_HDMIPHY_CTRL1) +#define ANACTRL_HDMIPHY_CTRL2 0x0082 +#define P_ANACTRL_HDMIPHY_CTRL2 ANACTRL_REG_ADDR(ANACTRL_HDMIPHY_CTRL2) +#define ANACTRL_HDMIPHY_CTRL3 0x0083 +#define P_ANACTRL_HDMIPHY_CTRL3 ANACTRL_REG_ADDR(ANACTRL_HDMIPHY_CTRL3) +#define ANACTRL_HDMIPHY_CTRL4 0x0084 +#define P_ANACTRL_HDMIPHY_CTRL4 ANACTRL_REG_ADDR(ANACTRL_HDMIPHY_CTRL4) +#define ANACTRL_HDMIPHY_CTRL5 0x0085 +#define P_ANACTRL_HDMIPHY_CTRL5 ANACTRL_REG_ADDR(ANACTRL_HDMIPHY_CTRL5) +#define ANACTRL_HDMIPHY_STS 0x0086 +#define P_ANACTRL_HDMIPHY_STS ANACTRL_REG_ADDR(ANACTRL_HDMIPHY_STS) + +/* REG_BASE: REGISTER_BASE_ADDR = 0xfe00c000 */ +#define PWRCTRL_MEM_PD11 0x001b +#define P_PWRCTRL_MEM_PD11 PWRCTRL_REG_ADDR(PWRCTRL_MEM_PD11) + +/* REG_BASE: REGISTER_BASE_ADDR = 0xfe010000 */ +#define SYSCTRL_DEBUG_REG0 0x90 +#define P_SYSCTRL_DEBUG_REG0 SYSCTRL_REG_ADDR(SYSCTRL_DEBUG_REG0) + +/* REG_BASE: REGISTER_BASE_ADDR = 0xff000000 */ +#define VENC_DVI_SETTING 0x1b62 /* register.h:8014 */ +#define P_VENC_DVI_SETTING VCBUS_REG_ADDR(VENC_DVI_SETTING) + +#define VENC_VIDEO_TST_EN 0x1b70 +#define P_VENC_VIDEO_TST_EN VCBUS_REG_ADDR(VENC_VIDEO_TST_EN) +#define VENC_VIDEO_TST_MDSEL 0x1b71 +#define P_VENC_VIDEO_TST_MDSEL VCBUS_REG_ADDR(VENC_VIDEO_TST_MDSEL) +#define VENC_VIDEO_TST_Y 0x1b72 +#define P_VENC_VIDEO_TST_Y VCBUS_REG_ADDR(VENC_VIDEO_TST_Y) +#define VENC_VIDEO_TST_CB 0x1b73 +#define P_VENC_VIDEO_TST_CB VCBUS_REG_ADDR(VENC_VIDEO_TST_CB) +#define VENC_VIDEO_TST_CR 0x1b74 +#define P_VENC_VIDEO_TST_CR VCBUS_REG_ADDR(VENC_VIDEO_TST_CR) +#define VENC_VIDEO_TST_CLRBAR_STRT 0x1b75 +#define P_VENC_VIDEO_TST_CLRBAR_STRT VCBUS_REG_ADDR(VENC_VIDEO_TST_CLRBAR_STRT) +#define VENC_VIDEO_TST_CLRBAR_WIDTH 0x1b76 +#define P_VENC_VIDEO_TST_CLRBAR_WIDTH \ + VCBUS_REG_ADDR(VENC_VIDEO_TST_CLRBAR_WIDTH) +#define VENC_VIDEO_TST_VDCNT_STSET 0x1b77 +#define P_VENC_VIDEO_TST_VDCNT_STSET VCBUS_REG_ADDR(VENC_VIDEO_TST_VDCNT_STSET) +#define VENC_VDAC_SETTING 0x1b7e +#define P_VENC_VDAC_SETTING VCBUS_REG_ADDR(VENC_VDAC_SETTING) +#define ENCP_VIDEO_EN 0x1b80 /* register.h:8078 */ +#define P_ENCP_VIDEO_EN VCBUS_REG_ADDR(ENCP_VIDEO_EN) +#define ENCP_VIDEO_SYNC_MODE 0x1b81 /* register.h:8079 */ +#define P_ENCP_VIDEO_SYNC_MODE VCBUS_REG_ADDR(ENCP_VIDEO_SYNC_MODE) +#define ENCP_MACV_EN 0x1b82 /* register.h:8080 */ +#define P_ENCP_MACV_EN VCBUS_REG_ADDR(ENCP_MACV_EN) +#define ENCP_VIDEO_Y_SCL 0x1b83 /* register.h:8081 */ +#define P_ENCP_VIDEO_Y_SCL VCBUS_REG_ADDR(ENCP_VIDEO_Y_SCL) +#define ENCP_VIDEO_PB_SCL 0x1b84 /* register.h:8082 */ +#define P_ENCP_VIDEO_PB_SCL VCBUS_REG_ADDR(ENCP_VIDEO_PB_SCL) +#define ENCP_VIDEO_PR_SCL 0x1b85 /* register.h:8083 */ +#define P_ENCP_VIDEO_PR_SCL VCBUS_REG_ADDR(ENCP_VIDEO_PR_SCL) +#define ENCP_VIDEO_SYNC_SCL 0x1b86 /* register.h:8084 */ +#define P_ENCP_VIDEO_SYNC_SCL VCBUS_REG_ADDR(ENCP_VIDEO_SYNC_SCL) +#define ENCP_VIDEO_MACV_SCL 0x1b87 /* register.h:8085 */ +#define P_ENCP_VIDEO_MACV_SCL VCBUS_REG_ADDR(ENCP_VIDEO_MACV_SCL) +#define ENCP_VIDEO_Y_OFFST 0x1b88 /* register.h:8086 */ +#define P_ENCP_VIDEO_Y_OFFST VCBUS_REG_ADDR(ENCP_VIDEO_Y_OFFST) +#define ENCP_VIDEO_PB_OFFST 0x1b89 /* register.h:8087 */ +#define P_ENCP_VIDEO_PB_OFFST VCBUS_REG_ADDR(ENCP_VIDEO_PB_OFFST) +#define ENCP_VIDEO_PR_OFFST 0x1b8a /* register.h:8088 */ +#define P_ENCP_VIDEO_PR_OFFST VCBUS_REG_ADDR(ENCP_VIDEO_PR_OFFST) +#define ENCP_VIDEO_SYNC_OFFST 0x1b8b /* register.h:8089 */ +#define P_ENCP_VIDEO_SYNC_OFFST VCBUS_REG_ADDR(ENCP_VIDEO_SYNC_OFFST) +#define ENCP_VIDEO_MACV_OFFST 0x1b8c /* register.h:8090 */ +#define P_ENCP_VIDEO_MACV_OFFST VCBUS_REG_ADDR(ENCP_VIDEO_MACV_OFFST) +#define ENCP_VIDEO_MODE 0x1b8d /* register.h:8092 */ +#define P_ENCP_VIDEO_MODE VCBUS_REG_ADDR(ENCP_VIDEO_MODE) +#define ENCP_VIDEO_MODE_ADV 0x1b8e /* register.h:8093 */ +#define P_ENCP_VIDEO_MODE_ADV VCBUS_REG_ADDR(ENCP_VIDEO_MODE_ADV) +#define ENCP_DBG_PX_RST 0x1b90 /* register.h:8095 */ +#define P_ENCP_DBG_PX_RST VCBUS_REG_ADDR(ENCP_DBG_PX_RST) +#define ENCP_DBG_LN_RST 0x1b91 /* register.h:8096 */ +#define P_ENCP_DBG_LN_RST VCBUS_REG_ADDR(ENCP_DBG_LN_RST) +#define ENCP_DBG_PX_INT 0x1b92 /* register.h:8097 */ +#define P_ENCP_DBG_PX_INT VCBUS_REG_ADDR(ENCP_DBG_PX_INT) +#define ENCP_DBG_LN_INT 0x1b93 /* register.h:8098 */ +#define P_ENCP_DBG_LN_INT VCBUS_REG_ADDR(ENCP_DBG_LN_INT) +#define ENCP_VIDEO_YFP1_HTIME 0x1b94 /* register.h:8100 */ +#define P_ENCP_VIDEO_YFP1_HTIME VCBUS_REG_ADDR(ENCP_VIDEO_YFP1_HTIME) +#define ENCP_VIDEO_YFP2_HTIME 0x1b95 /* register.h:8101 */ +#define P_ENCP_VIDEO_YFP2_HTIME VCBUS_REG_ADDR(ENCP_VIDEO_YFP2_HTIME) +#define ENCP_VIDEO_YC_DLY 0x1b96 /* register.h:8102 */ +#define P_ENCP_VIDEO_YC_DLY VCBUS_REG_ADDR(ENCP_VIDEO_YC_DLY) +#define ENCP_VIDEO_MAX_PXCNT 0x1b97 /* register.h:8103 */ +#define P_ENCP_VIDEO_MAX_PXCNT VCBUS_REG_ADDR(ENCP_VIDEO_MAX_PXCNT) +#define ENCP_VIDEO_HSPULS_BEGIN 0x1b98 /* register.h:8104 */ +#define P_ENCP_VIDEO_HSPULS_BEGIN VCBUS_REG_ADDR(ENCP_VIDEO_HSPULS_BEGIN) +#define ENCP_VIDEO_HSPULS_END 0x1b99 /* register.h:8105 */ +#define P_ENCP_VIDEO_HSPULS_END VCBUS_REG_ADDR(ENCP_VIDEO_HSPULS_END) +#define ENCP_VIDEO_HSPULS_SWITCH 0x1b9a /* register.h:8106 */ +#define P_ENCP_VIDEO_HSPULS_SWITCH VCBUS_REG_ADDR(ENCP_VIDEO_HSPULS_SWITCH) +#define ENCP_VIDEO_VSPULS_BEGIN 0x1b9b /* register.h:8107 */ +#define P_ENCP_VIDEO_VSPULS_BEGIN VCBUS_REG_ADDR(ENCP_VIDEO_VSPULS_BEGIN) +#define ENCP_VIDEO_VSPULS_END 0x1b9c /* register.h:8108 */ +#define P_ENCP_VIDEO_VSPULS_END VCBUS_REG_ADDR(ENCP_VIDEO_VSPULS_END) +#define ENCP_VIDEO_VSPULS_BLINE 0x1b9d /* register.h:8109 */ +#define P_ENCP_VIDEO_VSPULS_BLINE VCBUS_REG_ADDR(ENCP_VIDEO_VSPULS_BLINE) +#define ENCP_VIDEO_VSPULS_ELINE 0x1b9e /* register.h:8110 */ +#define P_ENCP_VIDEO_VSPULS_ELINE VCBUS_REG_ADDR(ENCP_VIDEO_VSPULS_ELINE) +#define ENCP_VIDEO_EQPULS_BEGIN 0x1b9f /* register.h:8111 */ +#define P_ENCP_VIDEO_EQPULS_BEGIN VCBUS_REG_ADDR(ENCP_VIDEO_EQPULS_BEGIN) +#define ENCP_VIDEO_EQPULS_END 0x1ba0 /* register.h:8112 */ +#define P_ENCP_VIDEO_EQPULS_END VCBUS_REG_ADDR(ENCP_VIDEO_EQPULS_END) +#define ENCP_VIDEO_EQPULS_BLINE 0x1ba1 /* register.h:8113 */ +#define P_ENCP_VIDEO_EQPULS_BLINE VCBUS_REG_ADDR(ENCP_VIDEO_EQPULS_BLINE) +#define ENCP_VIDEO_EQPULS_ELINE 0x1ba2 /* register.h:8114 */ +#define P_ENCP_VIDEO_EQPULS_ELINE VCBUS_REG_ADDR(ENCP_VIDEO_EQPULS_ELINE) +#define ENCP_VIDEO_HAVON_END 0x1ba3 /* register.h:8115 */ +#define P_ENCP_VIDEO_HAVON_END VCBUS_REG_ADDR(ENCP_VIDEO_HAVON_END) +#define ENCP_VIDEO_HAVON_BEGIN 0x1ba4 /* register.h:8116 */ +#define P_ENCP_VIDEO_HAVON_BEGIN VCBUS_REG_ADDR(ENCP_VIDEO_HAVON_BEGIN) +#define ENCP_VIDEO_VAVON_ELINE 0x1baf /* register.h:8117 */ +#define P_ENCP_VIDEO_VAVON_ELINE VCBUS_REG_ADDR(ENCP_VIDEO_VAVON_ELINE) +#define ENCP_VIDEO_VAVON_BLINE 0x1ba6 /* register.h:8118 */ +#define P_ENCP_VIDEO_VAVON_BLINE VCBUS_REG_ADDR(ENCP_VIDEO_VAVON_BLINE) +#define ENCP_VIDEO_HSO_BEGIN 0x1ba7 /* register.h:8119 */ +#define P_ENCP_VIDEO_HSO_BEGIN VCBUS_REG_ADDR(ENCP_VIDEO_HSO_BEGIN) +#define ENCP_VIDEO_HSO_END 0x1ba8 /* register.h:8120 */ +#define P_ENCP_VIDEO_HSO_END VCBUS_REG_ADDR(ENCP_VIDEO_HSO_END) +#define ENCP_VIDEO_VSO_BEGIN 0x1ba9 /* register.h:8121 */ +#define P_ENCP_VIDEO_VSO_BEGIN VCBUS_REG_ADDR(ENCP_VIDEO_VSO_BEGIN) +#define ENCP_VIDEO_VSO_END 0x1baa /* register.h:8122 */ +#define P_ENCP_VIDEO_VSO_END VCBUS_REG_ADDR(ENCP_VIDEO_VSO_END) +#define ENCP_VIDEO_VSO_BLINE 0x1bab /* register.h:8123 */ +#define P_ENCP_VIDEO_VSO_BLINE VCBUS_REG_ADDR(ENCP_VIDEO_VSO_BLINE) +#define ENCP_VIDEO_VSO_ELINE 0x1bac /* register.h:8124 */ +#define P_ENCP_VIDEO_VSO_ELINE VCBUS_REG_ADDR(ENCP_VIDEO_VSO_ELINE) +#define ENCP_VIDEO_SYNC_WAVE_CURVE 0x1bad /* register.h:8125 */ +#define P_ENCP_VIDEO_SYNC_WAVE_CURVE VCBUS_REG_ADDR(ENCP_VIDEO_SYNC_WAVE_CURVE) +#define ENCP_VIDEO_MAX_LNCNT 0x1bae /* register.h:8126 */ +#define P_ENCP_VIDEO_MAX_LNCNT VCBUS_REG_ADDR(ENCP_VIDEO_MAX_LNCNT) +#define ENCP_VIDEO_SY_VAL 0x1bb0 /* register.h:8127 */ +#define P_ENCP_VIDEO_SY_VAL VCBUS_REG_ADDR(ENCP_VIDEO_SY_VAL) +#define ENCP_VIDEO_SY2_VAL 0x1bb1 /* register.h:8128 */ +#define P_ENCP_VIDEO_SY2_VAL VCBUS_REG_ADDR(ENCP_VIDEO_SY2_VAL) +#define ENCP_VIDEO_BLANKY_VAL 0x1bb2 /* register.h:8129 */ +#define P_ENCP_VIDEO_BLANKY_VAL VCBUS_REG_ADDR(ENCP_VIDEO_BLANKY_VAL) +#define ENCP_VIDEO_BLANKPB_VAL 0x1bb3 /* register.h:8130 */ +#define P_ENCP_VIDEO_BLANKPB_VAL VCBUS_REG_ADDR(ENCP_VIDEO_BLANKPB_VAL) +#define ENCP_VIDEO_BLANKPR_VAL 0x1bb4 /* register.h:8131 */ +#define P_ENCP_VIDEO_BLANKPR_VAL VCBUS_REG_ADDR(ENCP_VIDEO_BLANKPR_VAL) +#define ENCP_VIDEO_HOFFST 0x1bb5 /* register.h:8132 */ +#define P_ENCP_VIDEO_HOFFST VCBUS_REG_ADDR(ENCP_VIDEO_HOFFST) +#define ENCP_VIDEO_VOFFST 0x1bb6 /* register.h:8133 */ +#define P_ENCP_VIDEO_VOFFST VCBUS_REG_ADDR(ENCP_VIDEO_VOFFST) +#define ENCP_VIDEO_RGB_CTRL 0x1bb7 /* register.h:8134 */ +#define P_ENCP_VIDEO_RGB_CTRL VCBUS_REG_ADDR(ENCP_VIDEO_RGB_CTRL) +#define ENCP_VIDEO_FILT_CTRL 0x1bb8 /* register.h:8135 */ +#define P_ENCP_VIDEO_FILT_CTRL VCBUS_REG_ADDR(ENCP_VIDEO_FILT_CTRL) +#define ENCP_VIDEO_OFLD_VPEQ_OFST 0x1bb9 /* register.h:8136 */ +#define P_ENCP_VIDEO_OFLD_VPEQ_OFST VCBUS_REG_ADDR(ENCP_VIDEO_OFLD_VPEQ_OFST) +#define ENCP_VIDEO_OFLD_VOAV_OFST 0x1bba /* register.h:8137 */ +#define P_ENCP_VIDEO_OFLD_VOAV_OFST VCBUS_REG_ADDR(ENCP_VIDEO_OFLD_VOAV_OFST) +#define ENCP_VIDEO_MATRIX_CB 0x1bbb /* register.h:8138 */ +#define P_ENCP_VIDEO_MATRIX_CB VCBUS_REG_ADDR(ENCP_VIDEO_MATRIX_CB) +#define ENCP_VIDEO_MATRIX_CR 0x1bbc /* register.h:8139 */ +#define P_ENCP_VIDEO_MATRIX_CR VCBUS_REG_ADDR(ENCP_VIDEO_MATRIX_CR) +#define ENCP_VIDEO_RGBIN_CTRL 0x1bbd /* register.h:8140 */ +#define P_ENCP_VIDEO_RGBIN_CTRL VCBUS_REG_ADDR(ENCP_VIDEO_RGBIN_CTRL) +#define ENCP_MACV_BLANKY_VAL 0x1bc0 /* register.h:8142 */ +#define P_ENCP_MACV_BLANKY_VAL VCBUS_REG_ADDR(ENCP_MACV_BLANKY_VAL) +#define ENCP_MACV_MAXY_VAL 0x1bc1 /* register.h:8143 */ +#define P_ENCP_MACV_MAXY_VAL VCBUS_REG_ADDR(ENCP_MACV_MAXY_VAL) +#define ENCP_MACV_1ST_PSSYNC_STRT 0x1bc2 /* register.h:8144 */ +#define P_ENCP_MACV_1ST_PSSYNC_STRT VCBUS_REG_ADDR(ENCP_MACV_1ST_PSSYNC_STRT) +#define ENCP_MACV_PSSYNC_STRT 0x1bc3 /* register.h:8145 */ +#define P_ENCP_MACV_PSSYNC_STRT VCBUS_REG_ADDR(ENCP_MACV_PSSYNC_STRT) +#define ENCP_MACV_AGC_STRT 0x1bc4 /* register.h:8146 */ +#define P_ENCP_MACV_AGC_STRT VCBUS_REG_ADDR(ENCP_MACV_AGC_STRT) +#define ENCP_MACV_AGC_END 0x1bc5 /* register.h:8147 */ +#define P_ENCP_MACV_AGC_END VCBUS_REG_ADDR(ENCP_MACV_AGC_END) +#define ENCP_MACV_WAVE_END 0x1bc6 /* register.h:8148 */ +#define P_ENCP_MACV_WAVE_END VCBUS_REG_ADDR(ENCP_MACV_WAVE_END) +#define ENCP_MACV_STRTLINE 0x1bc7 /* register.h:8149 */ +#define P_ENCP_MACV_STRTLINE VCBUS_REG_ADDR(ENCP_MACV_STRTLINE) +#define ENCP_MACV_ENDLINE 0x1bc8 /* register.h:8150 */ +#define P_ENCP_MACV_ENDLINE VCBUS_REG_ADDR(ENCP_MACV_ENDLINE) +#define ENCP_MACV_TS_CNT_MAX_L 0x1bc9 /* register.h:8151 */ +#define P_ENCP_MACV_TS_CNT_MAX_L VCBUS_REG_ADDR(ENCP_MACV_TS_CNT_MAX_L) +#define ENCP_MACV_TS_CNT_MAX_H 0x1bca /* register.h:8152 */ +#define P_ENCP_MACV_TS_CNT_MAX_H VCBUS_REG_ADDR(ENCP_MACV_TS_CNT_MAX_H) +#define ENCP_MACV_TIME_DOWN 0x1bcb /* register.h:8153 */ +#define P_ENCP_MACV_TIME_DOWN VCBUS_REG_ADDR(ENCP_MACV_TIME_DOWN) +#define ENCP_MACV_TIME_LO 0x1bcc /* register.h:8154 */ +#define P_ENCP_MACV_TIME_LO VCBUS_REG_ADDR(ENCP_MACV_TIME_LO) +#define ENCP_MACV_TIME_UP 0x1bcd /* register.h:8155 */ +#define P_ENCP_MACV_TIME_UP VCBUS_REG_ADDR(ENCP_MACV_TIME_UP) +#define ENCP_MACV_TIME_RST 0x1bce /* register.h:8156 */ +#define P_ENCP_MACV_TIME_RST VCBUS_REG_ADDR(ENCP_MACV_TIME_RST) +#define ENCP_VBI_CTRL 0x1bd0 /* register.h:8158 */ +#define P_ENCP_VBI_CTRL VCBUS_REG_ADDR(ENCP_VBI_CTRL) +#define ENCP_VBI_SETTING 0x1bd1 /* register.h:8159 */ +#define P_ENCP_VBI_SETTING VCBUS_REG_ADDR(ENCP_VBI_SETTING) +#define ENCP_VBI_BEGIN 0x1bd2 /* register.h:8160 */ +#define P_ENCP_VBI_BEGIN VCBUS_REG_ADDR(ENCP_VBI_BEGIN) +#define ENCP_VBI_WIDTH 0x1bd3 /* register.h:8161 */ +#define P_ENCP_VBI_WIDTH VCBUS_REG_ADDR(ENCP_VBI_WIDTH) +#define ENCP_VBI_HVAL 0x1bd4 /* register.h:8162 */ +#define P_ENCP_VBI_HVAL VCBUS_REG_ADDR(ENCP_VBI_HVAL) +#define ENCP_VBI_DATA0 0x1bd5 /* register.h:8163 */ +#define P_ENCP_VBI_DATA0 VCBUS_REG_ADDR(ENCP_VBI_DATA0) +#define ENCP_VBI_DATA1 0x1bd6 /* register.h:8164 */ +#define P_ENCP_VBI_DATA1 VCBUS_REG_ADDR(ENCP_VBI_DATA1) + +#define ENCI_VIDEO_MODE 0x1b00 /* register.h:8185 */ +#define P_ENCI_VIDEO_MODE VCBUS_REG_ADDR(ENCI_VIDEO_MODE) +#define ENCI_VIDEO_MODE_ADV 0x1b01 /* register.h:8186 */ +#define P_ENCI_VIDEO_MODE_ADV VCBUS_REG_ADDR(ENCI_VIDEO_MODE_ADV) +#define ENCI_VIDEO_FSC_ADJ 0x1b02 /* register.h:8187 */ +#define P_ENCI_VIDEO_FSC_ADJ VCBUS_REG_ADDR(ENCI_VIDEO_FSC_ADJ) +#define ENCI_VIDEO_BRIGHT 0x1b03 /* register.h:8188 */ +#define P_ENCI_VIDEO_BRIGHT VCBUS_REG_ADDR(ENCI_VIDEO_BRIGHT) +#define ENCI_VIDEO_CONT 0x1b04 /* register.h:8189 */ +#define P_ENCI_VIDEO_CONT VCBUS_REG_ADDR(ENCI_VIDEO_CONT) +#define ENCI_VIDEO_SAT 0x1b05 /* register.h:8190 */ +#define P_ENCI_VIDEO_SAT VCBUS_REG_ADDR(ENCI_VIDEO_SAT) +#define ENCI_VIDEO_HUE 0x1b06 /* register.h:8191 */ +#define P_ENCI_VIDEO_HUE VCBUS_REG_ADDR(ENCI_VIDEO_HUE) +#define ENCI_VIDEO_SCH 0x1b07 /* register.h:8192 */ +#define P_ENCI_VIDEO_SCH VCBUS_REG_ADDR(ENCI_VIDEO_SCH) +#define ENCI_SYNC_MODE 0x1b08 /* register.h:8193 */ +#define P_ENCI_SYNC_MODE VCBUS_REG_ADDR(ENCI_SYNC_MODE) +#define ENCI_SYNC_CTRL 0x1b09 /* register.h:8194 */ +#define P_ENCI_SYNC_CTRL VCBUS_REG_ADDR(ENCI_SYNC_CTRL) +#define ENCI_SYNC_HSO_BEGIN 0x1b0a /* register.h:8195 */ +#define P_ENCI_SYNC_HSO_BEGIN VCBUS_REG_ADDR(ENCI_SYNC_HSO_BEGIN) +#define ENCI_SYNC_HSO_END 0x1b0b /* register.h:8196 */ +#define P_ENCI_SYNC_HSO_END VCBUS_REG_ADDR(ENCI_SYNC_HSO_END) +#define ENCI_SYNC_VSO_EVN 0x1b0c /* register.h:8197 */ +#define P_ENCI_SYNC_VSO_EVN VCBUS_REG_ADDR(ENCI_SYNC_VSO_EVN) +#define ENCI_SYNC_VSO_ODD 0x1b0d /* register.h:8198 */ +#define P_ENCI_SYNC_VSO_ODD VCBUS_REG_ADDR(ENCI_SYNC_VSO_ODD) +#define ENCI_SYNC_VSO_EVNLN 0x1b0e /* register.h:8199 */ +#define P_ENCI_SYNC_VSO_EVNLN VCBUS_REG_ADDR(ENCI_SYNC_VSO_EVNLN) +#define ENCI_SYNC_VSO_ODDLN 0x1b0f /* register.h:8200 */ +#define P_ENCI_SYNC_VSO_ODDLN VCBUS_REG_ADDR(ENCI_SYNC_VSO_ODDLN) +#define ENCI_SYNC_HOFFST 0x1b10 /* register.h:8201 */ +#define P_ENCI_SYNC_HOFFST VCBUS_REG_ADDR(ENCI_SYNC_HOFFST) +#define ENCI_SYNC_VOFFST 0x1b11 /* register.h:8202 */ +#define P_ENCI_SYNC_VOFFST VCBUS_REG_ADDR(ENCI_SYNC_VOFFST) +#define ENCI_SYNC_ADJ 0x1b12 /* register.h:8203 */ +#define P_ENCI_SYNC_ADJ VCBUS_REG_ADDR(ENCI_SYNC_ADJ) +#define ENCI_RGB_SETTING 0x1b13 /* register.h:8204 */ +#define P_ENCI_RGB_SETTING VCBUS_REG_ADDR(ENCI_RGB_SETTING) +#define ENCI_DE_H_BEGIN 0x1b16 /* register.h:8207 */ +#define P_ENCI_DE_H_BEGIN VCBUS_REG_ADDR(ENCI_DE_H_BEGIN) +#define ENCI_DE_H_END 0x1b17 /* register.h:8208 */ +#define P_ENCI_DE_H_END VCBUS_REG_ADDR(ENCI_DE_H_END) +#define ENCI_DE_V_BEGIN_EVEN 0x1b18 /* register.h:8209 */ +#define P_ENCI_DE_V_BEGIN_EVEN VCBUS_REG_ADDR(ENCI_DE_V_BEGIN_EVEN) +#define ENCI_DE_V_END_EVEN 0x1b19 /* register.h:8210 */ +#define P_ENCI_DE_V_END_EVEN VCBUS_REG_ADDR(ENCI_DE_V_END_EVEN) +#define ENCI_DE_V_BEGIN_ODD 0x1b1a /* register.h:8211 */ +#define P_ENCI_DE_V_BEGIN_ODD VCBUS_REG_ADDR(ENCI_DE_V_BEGIN_ODD) +#define ENCI_DE_V_END_ODD 0x1b1b /* register.h:8212 */ +#define P_ENCI_DE_V_END_ODD VCBUS_REG_ADDR(ENCI_DE_V_END_ODD) +#define ENCI_VBI_SETTING 0x1b20 /* register.h:8213 */ +#define P_ENCI_VBI_SETTING VCBUS_REG_ADDR(ENCI_VBI_SETTING) +#define ENCI_VBI_CCDT_EVN 0x1b21 /* register.h:8214 */ +#define P_ENCI_VBI_CCDT_EVN VCBUS_REG_ADDR(ENCI_VBI_CCDT_EVN) +#define ENCI_VBI_CCDT_ODD 0x1b22 /* register.h:8215 */ +#define P_ENCI_VBI_CCDT_ODD VCBUS_REG_ADDR(ENCI_VBI_CCDT_ODD) +#define ENCI_VBI_CC525_LN 0x1b23 /* register.h:8216 */ +#define P_ENCI_VBI_CC525_LN VCBUS_REG_ADDR(ENCI_VBI_CC525_LN) +#define ENCI_VBI_CC625_LN 0x1b24 /* register.h:8217 */ +#define P_ENCI_VBI_CC625_LN VCBUS_REG_ADDR(ENCI_VBI_CC625_LN) +#define ENCI_VBI_WSSDT 0x1b25 /* register.h:8218 */ +#define P_ENCI_VBI_WSSDT VCBUS_REG_ADDR(ENCI_VBI_WSSDT) +#define ENCI_VBI_WSS_LN 0x1b26 /* register.h:8219 */ +#define P_ENCI_VBI_WSS_LN VCBUS_REG_ADDR(ENCI_VBI_WSS_LN) +#define ENCI_VBI_CGMSDT_L 0x1b27 /* register.h:8220 */ +#define P_ENCI_VBI_CGMSDT_L VCBUS_REG_ADDR(ENCI_VBI_CGMSDT_L) +#define ENCI_VBI_CGMSDT_H 0x1b28 /* register.h:8221 */ +#define P_ENCI_VBI_CGMSDT_H VCBUS_REG_ADDR(ENCI_VBI_CGMSDT_H) +#define ENCI_VBI_CGMS_LN 0x1b29 /* register.h:8222 */ +#define P_ENCI_VBI_CGMS_LN VCBUS_REG_ADDR(ENCI_VBI_CGMS_LN) +#define ENCI_VBI_TTX_HTIME 0x1b2a /* register.h:8223 */ +#define P_ENCI_VBI_TTX_HTIME VCBUS_REG_ADDR(ENCI_VBI_TTX_HTIME) +#define ENCI_VBI_TTX_LN 0x1b2b /* register.h:8224 */ +#define P_ENCI_VBI_TTX_LN VCBUS_REG_ADDR(ENCI_VBI_TTX_LN) +#define ENCI_VBI_TTXDT0 0x1b2c /* register.h:8225 */ +#define P_ENCI_VBI_TTXDT0 VCBUS_REG_ADDR(ENCI_VBI_TTXDT0) +#define ENCI_VBI_TTXDT1 0x1b2d /* register.h:8226 */ +#define P_ENCI_VBI_TTXDT1 VCBUS_REG_ADDR(ENCI_VBI_TTXDT1) +#define ENCI_VBI_TTXDT2 0x1b2e /* register.h:8227 */ +#define P_ENCI_VBI_TTXDT2 VCBUS_REG_ADDR(ENCI_VBI_TTXDT2) +#define ENCI_VBI_TTXDT3 0x1b2f /* register.h:8228 */ +#define P_ENCI_VBI_TTXDT3 VCBUS_REG_ADDR(ENCI_VBI_TTXDT3) +#define ENCI_MACV_N0 0x1b30 /* register.h:8229 */ +#define P_ENCI_MACV_N0 VCBUS_REG_ADDR(ENCI_MACV_N0) +#define ENCI_MACV_N1 0x1b31 /* register.h:8230 */ +#define P_ENCI_MACV_N1 VCBUS_REG_ADDR(ENCI_MACV_N1) +#define ENCI_MACV_N2 0x1b32 /* register.h:8231 */ +#define P_ENCI_MACV_N2 VCBUS_REG_ADDR(ENCI_MACV_N2) +#define ENCI_MACV_N3 0x1b33 /* register.h:8232 */ +#define P_ENCI_MACV_N3 VCBUS_REG_ADDR(ENCI_MACV_N3) +#define ENCI_MACV_N4 0x1b34 /* register.h:8233 */ +#define P_ENCI_MACV_N4 VCBUS_REG_ADDR(ENCI_MACV_N4) +#define ENCI_MACV_N5 0x1b35 /* register.h:8234 */ +#define P_ENCI_MACV_N5 VCBUS_REG_ADDR(ENCI_MACV_N5) +#define ENCI_MACV_N6 0x1b36 /* register.h:8235 */ +#define P_ENCI_MACV_N6 VCBUS_REG_ADDR(ENCI_MACV_N6) +#define ENCI_MACV_N7 0x1b37 /* register.h:8236 */ +#define P_ENCI_MACV_N7 VCBUS_REG_ADDR(ENCI_MACV_N7) +#define ENCI_MACV_N8 0x1b38 /* register.h:8237 */ +#define P_ENCI_MACV_N8 VCBUS_REG_ADDR(ENCI_MACV_N8) +#define ENCI_MACV_N9 0x1b39 /* register.h:8238 */ +#define P_ENCI_MACV_N9 VCBUS_REG_ADDR(ENCI_MACV_N9) +#define ENCI_MACV_N10 0x1b3a /* register.h:8239 */ +#define P_ENCI_MACV_N10 VCBUS_REG_ADDR(ENCI_MACV_N10) +#define ENCI_MACV_N11 0x1b3b /* register.h:8240 */ +#define P_ENCI_MACV_N11 VCBUS_REG_ADDR(ENCI_MACV_N11) +#define ENCI_MACV_N12 0x1b3c /* register.h:8241 */ +#define P_ENCI_MACV_N12 VCBUS_REG_ADDR(ENCI_MACV_N12) +#define ENCI_MACV_N13 0x1b3d /* register.h:8242 */ +#define P_ENCI_MACV_N13 VCBUS_REG_ADDR(ENCI_MACV_N13) +#define ENCI_MACV_N14 0x1b3e /* register.h:8243 */ +#define P_ENCI_MACV_N14 VCBUS_REG_ADDR(ENCI_MACV_N14) +#define ENCI_MACV_N15 0x1b3f /* register.h:8244 */ +#define P_ENCI_MACV_N15 VCBUS_REG_ADDR(ENCI_MACV_N15) +#define ENCI_MACV_N16 0x1b40 /* register.h:8245 */ +#define P_ENCI_MACV_N16 VCBUS_REG_ADDR(ENCI_MACV_N16) +#define ENCI_MACV_N17 0x1b41 /* register.h:8246 */ +#define P_ENCI_MACV_N17 VCBUS_REG_ADDR(ENCI_MACV_N17) +#define ENCI_MACV_N18 0x1b42 /* register.h:8247 */ +#define P_ENCI_MACV_N18 VCBUS_REG_ADDR(ENCI_MACV_N18) +#define ENCI_MACV_N19 0x1b43 /* register.h:8248 */ +#define P_ENCI_MACV_N19 VCBUS_REG_ADDR(ENCI_MACV_N19) +#define ENCI_MACV_N20 0x1b44 /* register.h:8249 */ +#define P_ENCI_MACV_N20 VCBUS_REG_ADDR(ENCI_MACV_N20) +#define ENCI_MACV_N21 0x1b45 /* register.h:8250 */ +#define P_ENCI_MACV_N21 VCBUS_REG_ADDR(ENCI_MACV_N21) +#define ENCI_MACV_N22 0x1b46 /* register.h:8251 */ +#define P_ENCI_MACV_N22 VCBUS_REG_ADDR(ENCI_MACV_N22) +#define ENCI_DBG_PX_RST 0x1b48 /* register.h:8253 */ +#define P_ENCI_DBG_PX_RST VCBUS_REG_ADDR(ENCI_DBG_PX_RST) +#define ENCI_DBG_FLDLN_RST 0x1b49 /* register.h:8254 */ +#define P_ENCI_DBG_FLDLN_RST VCBUS_REG_ADDR(ENCI_DBG_FLDLN_RST) +#define ENCI_DBG_PX_INT 0x1b4a /* register.h:8255 */ +#define P_ENCI_DBG_PX_INT VCBUS_REG_ADDR(ENCI_DBG_PX_INT) +#define ENCI_DBG_FLDLN_INT 0x1b4b /* register.h:8256 */ +#define P_ENCI_DBG_FLDLN_INT VCBUS_REG_ADDR(ENCI_DBG_FLDLN_INT) +#define ENCI_DBG_MAXPX 0x1b4c /* register.h:8257 */ +#define P_ENCI_DBG_MAXPX VCBUS_REG_ADDR(ENCI_DBG_MAXPX) +#define ENCI_DBG_MAXLN 0x1b4d /* register.h:8258 */ +#define P_ENCI_DBG_MAXLN VCBUS_REG_ADDR(ENCI_DBG_MAXLN) +#define ENCI_MACV_MAX_AMP 0x1b50 /* register.h:8259 */ +#define P_ENCI_MACV_MAX_AMP VCBUS_REG_ADDR(ENCI_MACV_MAX_AMP) +#define ENCI_MACV_PULSE_LO 0x1b51 /* register.h:8260 */ +#define P_ENCI_MACV_PULSE_LO VCBUS_REG_ADDR(ENCI_MACV_PULSE_LO) +#define ENCI_MACV_PULSE_HI 0x1b52 /* register.h:8261 */ +#define P_ENCI_MACV_PULSE_HI VCBUS_REG_ADDR(ENCI_MACV_PULSE_HI) +#define ENCI_MACV_BKP_MAX 0x1b53 /* register.h:8262 */ +#define P_ENCI_MACV_BKP_MAX VCBUS_REG_ADDR(ENCI_MACV_BKP_MAX) +#define ENCI_CFILT_CTRL 0x1b54 /* register.h:8263 */ +#define P_ENCI_CFILT_CTRL VCBUS_REG_ADDR(ENCI_CFILT_CTRL) +#define ENCI_CFILT7 0x1b55 /* register.h:8264 */ +#define P_ENCI_CFILT7 VCBUS_REG_ADDR(ENCI_CFILT7) +#define ENCI_YC_DELAY 0x1b56 /* register.h:8265 */ +#define P_ENCI_YC_DELAY VCBUS_REG_ADDR(ENCI_YC_DELAY) +#define ENCI_VIDEO_EN 0x1b57 /* register.h:8266 */ +#define P_ENCI_VIDEO_EN VCBUS_REG_ADDR(ENCI_VIDEO_EN) +#define VENC_VIDEO_PROG_MODE 0x1b68 /* /../ucode/register.h:8023 */ +#define P_VENC_VIDEO_PROG_MODE VCBUS_REG_ADDR(VENC_VIDEO_PROG_MODE) + +#define ENCI_DVI_HSO_BEGIN 0x1c00 /* register.h:8280 */ +#define P_ENCI_DVI_HSO_BEGIN VCBUS_REG_ADDR(ENCI_DVI_HSO_BEGIN) +#define ENCI_DVI_HSO_END 0x1c01 /* register.h:8281 */ +#define P_ENCI_DVI_HSO_END VCBUS_REG_ADDR(ENCI_DVI_HSO_END) +#define ENCI_DVI_VSO_BLINE_EVN 0x1c02 /* register.h:8282 */ +#define P_ENCI_DVI_VSO_BLINE_EVN VCBUS_REG_ADDR(ENCI_DVI_VSO_BLINE_EVN) +#define ENCI_DVI_VSO_BLINE_ODD 0x1c03 /* register.h:8283 */ +#define P_ENCI_DVI_VSO_BLINE_ODD VCBUS_REG_ADDR(ENCI_DVI_VSO_BLINE_ODD) +#define ENCI_DVI_VSO_ELINE_EVN 0x1c04 /* register.h:8284 */ +#define P_ENCI_DVI_VSO_ELINE_EVN VCBUS_REG_ADDR(ENCI_DVI_VSO_ELINE_EVN) +#define ENCI_DVI_VSO_ELINE_ODD 0x1c05 /* register.h:8285 */ +#define P_ENCI_DVI_VSO_ELINE_ODD VCBUS_REG_ADDR(ENCI_DVI_VSO_ELINE_ODD) +#define ENCI_DVI_VSO_BEGIN_EVN 0x1c06 /* register.h:8286 */ +#define P_ENCI_DVI_VSO_BEGIN_EVN VCBUS_REG_ADDR(ENCI_DVI_VSO_BEGIN_EVN) +#define ENCI_DVI_VSO_BEGIN_ODD 0x1c07 /* register.h:8287 */ +#define P_ENCI_DVI_VSO_BEGIN_ODD VCBUS_REG_ADDR(ENCI_DVI_VSO_BEGIN_ODD) +#define ENCI_DVI_VSO_END_EVN 0x1c08 /* register.h:8288 */ +#define P_ENCI_DVI_VSO_END_EVN VCBUS_REG_ADDR(ENCI_DVI_VSO_END_EVN) +#define ENCI_DVI_VSO_END_ODD 0x1c09 /* register.h:8289 */ +#define P_ENCI_DVI_VSO_END_ODD VCBUS_REG_ADDR(ENCI_DVI_VSO_END_ODD) +#define ENCI_CFILT_CTRL2 0x1c0a /* register.h:8295 */ +#define P_ENCI_CFILT_CTRL2 VCBUS_REG_ADDR(ENCI_CFILT_CTRL2) +#define ENCI_DACSEL_0 0x1c0b /* register.h:8296 */ +#define P_ENCI_DACSEL_0 VCBUS_REG_ADDR(ENCI_DACSEL_0) +#define ENCI_DACSEL_1 0x1c0c /* register.h:8297 */ +#define P_ENCI_DACSEL_1 VCBUS_REG_ADDR(ENCI_DACSEL_1) +#define ENCP_DACSEL_0 0x1c0d /* register.h:8298 */ +#define P_ENCP_DACSEL_0 VCBUS_REG_ADDR(ENCP_DACSEL_0) +#define ENCP_DACSEL_1 0x1c0e /* register.h:8299 */ +#define P_ENCP_DACSEL_1 VCBUS_REG_ADDR(ENCP_DACSEL_1) +#define ENCP_MAX_LINE_SWITCH_POINT 0x1c0f /* register.h:8300 */ +#define P_ENCP_MAX_LINE_SWITCH_POINT VCBUS_REG_ADDR(ENCP_MAX_LINE_SWITCH_POINT) +#define ENCI_TST_EN 0x1c10 /* register.h:8301 */ +#define P_ENCI_TST_EN VCBUS_REG_ADDR(ENCI_TST_EN) +#define ENCI_TST_MDSEL 0x1c11 /* register.h:8302 */ +#define P_ENCI_TST_MDSEL VCBUS_REG_ADDR(ENCI_TST_MDSEL) +#define ENCI_TST_Y 0x1c12 /* register.h:8303 */ +#define P_ENCI_TST_Y VCBUS_REG_ADDR(ENCI_TST_Y) +#define ENCI_TST_CB 0x1c13 /* register.h:8304 */ +#define P_ENCI_TST_CB VCBUS_REG_ADDR(ENCI_TST_CB) +#define ENCI_TST_CR 0x1c14 /* register.h:8305 */ +#define P_ENCI_TST_CR VCBUS_REG_ADDR(ENCI_TST_CR) +#define ENCI_TST_CLRBAR_STRT 0x1c15 /* register.h:8306 */ +#define P_ENCI_TST_CLRBAR_STRT VCBUS_REG_ADDR(ENCI_TST_CLRBAR_STRT) +#define ENCI_TST_CLRBAR_WIDTH 0x1c16 /* register.h:8307 */ +#define P_ENCI_TST_CLRBAR_WIDTH VCBUS_REG_ADDR(ENCI_TST_CLRBAR_WIDTH) +#define ENCI_TST_VDCNT_STSET 0x1c17 /* register.h:8308 */ +#define P_ENCI_TST_VDCNT_STSET VCBUS_REG_ADDR(ENCI_TST_VDCNT_STSET) +#define ENCI_VFIFO2VD_CTL 0x1c18 /* register.h:8313 */ +#define P_ENCI_VFIFO2VD_CTL VCBUS_REG_ADDR(ENCI_VFIFO2VD_CTL) +#define ENCI_VFIFO2VD_PIXEL_START 0x1c19 /* register.h:8315 */ +#define P_ENCI_VFIFO2VD_PIXEL_START \ + VCBUS_REG_ADDR(ENCI_VFIFO2VD_PIXEL_START) +#define ENCI_VFIFO2VD_PIXEL_END 0x1c1a /* register.h:8317 */ +#define P_ENCI_VFIFO2VD_PIXEL_END VCBUS_REG_ADDR(ENCI_VFIFO2VD_PIXEL_END) +#define ENCI_VFIFO2VD_LINE_TOP_START 0x1c1b /* register.h:8319 */ +#define P_ENCI_VFIFO2VD_LINE_TOP_START \ + VCBUS_REG_ADDR(ENCI_VFIFO2VD_LINE_TOP_START) +#define ENCI_VFIFO2VD_LINE_TOP_END 0x1c1c /* register.h:8321 */ +#define P_ENCI_VFIFO2VD_LINE_TOP_END \ + VCBUS_REG_ADDR(ENCI_VFIFO2VD_LINE_TOP_END) +#define ENCI_VFIFO2VD_LINE_BOT_START 0x1c1d /* register.h:8323 */ +#define P_ENCI_VFIFO2VD_LINE_BOT_START \ + VCBUS_REG_ADDR(ENCI_VFIFO2VD_LINE_BOT_START) +#define ENCI_VFIFO2VD_LINE_BOT_END 0x1c1e /* register.h:8325 */ +#define P_ENCI_VFIFO2VD_LINE_BOT_END \ + VCBUS_REG_ADDR(ENCI_VFIFO2VD_LINE_BOT_END) +#define ENCI_VFIFO2VD_CTL2 0x1c1f /* register.h:8326 */ +#define P_ENCI_VFIFO2VD_CTL2 VCBUS_REG_ADDR(ENCI_VFIFO2VD_CTL2) + +#define ENCP_DVI_HSO_BEGIN 0x1c30 /* register.h:8354 */ +#define P_ENCP_DVI_HSO_BEGIN VCBUS_REG_ADDR(ENCP_DVI_HSO_BEGIN) +#define ENCP_DVI_HSO_END 0x1c31 /* register.h:8355 */ +#define P_ENCP_DVI_HSO_END VCBUS_REG_ADDR(ENCP_DVI_HSO_END) +#define ENCP_DVI_VSO_BLINE_EVN 0x1c32 /* register.h:8356 */ +#define P_ENCP_DVI_VSO_BLINE_EVN VCBUS_REG_ADDR(ENCP_DVI_VSO_BLINE_EVN) +#define ENCP_DVI_VSO_BLINE_ODD 0x1c33 /* register.h:8357 */ +#define P_ENCP_DVI_VSO_BLINE_ODD VCBUS_REG_ADDR(ENCP_DVI_VSO_BLINE_ODD) +#define ENCP_DVI_VSO_ELINE_EVN 0x1c34 /* register.h:8358 */ +#define P_ENCP_DVI_VSO_ELINE_EVN VCBUS_REG_ADDR(ENCP_DVI_VSO_ELINE_EVN) +#define ENCP_DVI_VSO_ELINE_ODD 0x1c35 /* register.h:8359 */ +#define P_ENCP_DVI_VSO_ELINE_ODD VCBUS_REG_ADDR(ENCP_DVI_VSO_ELINE_ODD) +#define ENCP_DVI_VSO_BEGIN_EVN 0x1c36 /* register.h:8360 */ +#define P_ENCP_DVI_VSO_BEGIN_EVN VCBUS_REG_ADDR(ENCP_DVI_VSO_BEGIN_EVN) +#define ENCP_DVI_VSO_BEGIN_ODD 0x1c37 /* register.h:8361 */ +#define P_ENCP_DVI_VSO_BEGIN_ODD VCBUS_REG_ADDR(ENCP_DVI_VSO_BEGIN_ODD) +#define ENCP_DVI_VSO_END_EVN 0x1c38 /* register.h:8362 */ +#define P_ENCP_DVI_VSO_END_EVN VCBUS_REG_ADDR(ENCP_DVI_VSO_END_EVN) +#define ENCP_DVI_VSO_END_ODD 0x1c39 /* register.h:8363 */ +#define P_ENCP_DVI_VSO_END_ODD VCBUS_REG_ADDR(ENCP_DVI_VSO_END_ODD) +#define ENCP_DE_H_BEGIN 0x1c3a /* register.h:8364 */ +#define P_ENCP_DE_H_BEGIN VCBUS_REG_ADDR(ENCP_DE_H_BEGIN) +#define ENCP_DE_H_END 0x1c3b /* register.h:8365 */ +#define P_ENCP_DE_H_END VCBUS_REG_ADDR(ENCP_DE_H_END) +#define ENCP_DE_V_BEGIN_EVEN 0x1c3c /* register.h:8366 */ +#define P_ENCP_DE_V_BEGIN_EVEN VCBUS_REG_ADDR(ENCP_DE_V_BEGIN_EVEN) +#define ENCP_DE_V_END_EVEN 0x1c3d /* register.h:8367 */ +#define P_ENCP_DE_V_END_EVEN VCBUS_REG_ADDR(ENCP_DE_V_END_EVEN) +#define ENCP_DE_V_BEGIN_ODD 0x1c3e /* register.h:8368 */ +#define P_ENCP_DE_V_BEGIN_ODD VCBUS_REG_ADDR(ENCP_DE_V_BEGIN_ODD) +#define ENCP_DE_V_END_ODD 0x1c3f /* register.h:8369 */ +#define P_ENCP_DE_V_END_ODD VCBUS_REG_ADDR(ENCP_DE_V_END_ODD) +#define ENCI_SYNC_LINE_LENGTH 0x1c40 /* register.h:8372 */ +#define P_ENCI_SYNC_LINE_LENGTH VCBUS_REG_ADDR(ENCI_SYNC_LINE_LENGTH) +#define ENCI_SYNC_PIXEL_EN 0x1c41 /* register.h:8375 */ +#define P_ENCI_SYNC_PIXEL_EN VCBUS_REG_ADDR(ENCI_SYNC_PIXEL_EN) +#define ENCI_SYNC_TO_LINE_EN 0x1c42 /* register.h:8382 */ +#define P_ENCI_SYNC_TO_LINE_EN VCBUS_REG_ADDR(ENCI_SYNC_TO_LINE_EN) +#define ENCI_SYNC_TO_PIXEL 0x1c43 /* register.h:8384 */ +#define P_ENCI_SYNC_TO_PIXEL VCBUS_REG_ADDR(ENCI_SYNC_TO_PIXEL) +#define ENCP_SYNC_LINE_LENGTH 0x1c44 /* register.h:8387 */ +#define P_ENCP_SYNC_LINE_LENGTH VCBUS_REG_ADDR(ENCP_SYNC_LINE_LENGTH) +#define ENCP_SYNC_PIXEL_EN 0x1c45 /* register.h:8390 */ +#define P_ENCP_SYNC_PIXEL_EN VCBUS_REG_ADDR(ENCP_SYNC_PIXEL_EN) +#define ENCP_SYNC_TO_LINE_EN 0x1c46 /* register.h:8397 */ +#define P_ENCP_SYNC_TO_LINE_EN VCBUS_REG_ADDR(ENCP_SYNC_TO_LINE_EN) +#define ENCP_SYNC_TO_PIXEL 0x1c47 /* register.h:8399 */ +#define P_ENCP_SYNC_TO_PIXEL VCBUS_REG_ADDR(ENCP_SYNC_TO_PIXEL) + +#define VPP_POSTBLEND_H_SIZE 0x1d21 +#define P_VPP_POSTBLEND_H_SIZE VCBUS_REG_ADDR(VPP_POSTBLEND_H_SIZE) + + +#define VPU_VIU_VENC_MUX_CTRL 0x271a /* register.h:9214 */ +#define P_VPU_VIU_VENC_MUX_CTRL VCBUS_REG_ADDR(VPU_VIU_VENC_MUX_CTRL) +#define VPU_HDMI_SETTING 0x271b /* register.h:9229 */ +#define P_VPU_HDMI_SETTING VCBUS_REG_ADDR(VPU_HDMI_SETTING) + +#define VPU_HDMI_DATA_OVR 0x2727 /* register.h:9270 */ +#define P_VPU_HDMI_DATA_OVR VCBUS_REG_ADDR(VPU_HDMI_DATA_OVR) +#define VPU_HDMI_FMT_CTRL 0x2743 +#define P_VPU_HDMI_FMT_CTRL VCBUS_REG_ADDR(VPU_HDMI_FMT_CTRL) +/* For GXM and later */ +#define VPU_HDMI_DITH_CNTL 0x27fc +#define P_VPU_HDMI_DITH_CNTL VCBUS_REG_ADDR(VPU_HDMI_DITH_CNTL) + +#endif diff --git a/include/amlogic/media/vout/lcd/aml_lcd.h b/include/amlogic/media/vout/lcd/aml_lcd.h new file mode 100644 index 0000000000..ef3334a5fb --- /dev/null +++ b/include/amlogic/media/vout/lcd/aml_lcd.h @@ -0,0 +1,168 @@ +/* + * include/amlogic/media/vout/lcd/aml_lcd.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#ifndef INC_AML_LCD_H +#define INC_AML_LCD_H + +#include +#include +#include +#ifdef CONFIG_AML_LCD_EXTERN +#include +#endif +#ifdef CONFIG_AML_BL_EXTERN +#include +#endif + +#define LCD_GPIO_MAX 0xff +#define LCD_GPIO_OUTPUT_LOW 0 +#define LCD_GPIO_OUTPUT_HIGH 1 +#define LCD_GPIO_INPUT 2 + + +#define LCD_EXT_I2C_BUS_0 0 //A +#define LCD_EXT_I2C_BUS_1 1 //B +#define LCD_EXT_I2C_BUS_2 2 //C +#define LCD_EXT_I2C_BUS_3 3 //D +#define LCD_EXT_I2C_BUS_4 4 //AO +#define LCD_EXT_I2C_BUS_MAX 0xff + + +#define LCD_EXT_I2C_BUS_INVALID 0xff +#define LCD_EXT_I2C_ADDR_INVALID 0xff +#define LCD_EXT_GPIO_INVALID 0xff + +#define LCD_EXT_SPI_CLK_FREQ_DFT 10 /* unit: KHz */ + + +#define LCD_EXT_CMD_TYPE_CMD_DELAY 0x00 +#define LCD_EXT_CMD_TYPE_CMD2_DELAY 0x01 /* for i2c device 2nd addr */ +#define LCD_EXT_CMD_TYPE_NONE 0x10 +#define LCD_EXT_CMD_TYPE_CMD 0xc0 +#define LCD_EXT_CMD_TYPE_CMD2 0xc1 /* for i2c device 2nd addr */ +#define LCD_EXT_CMD_TYPE_GPIO 0xf0 +#define LCD_EXT_CMD_TYPE_CHECK 0xfc +#define LCD_EXT_CMD_TYPE_DELAY 0xfd +#define LCD_EXT_CMD_TYPE_END 0xff + +#define LCD_EXT_CMD_SIZE_DYNAMIC 0xff +#define LCD_EXT_DYNAMIC_SIZE_INDEX 1 + + +#define LCD_GPIO_NAME_MAX 15 +struct lcd_cpu_gpio_s { + char name[LCD_GPIO_NAME_MAX]; + struct gpio_desc gpio; + int probe_flag; + int register_flag; +}; + + +#define Rsv_val 0xffffffff +struct ext_lcd_config_s { + const char panel_type[20]; + int lcd_type; + unsigned char lcd_bits; + + unsigned short h_active; + unsigned short v_active; + unsigned short h_period; + unsigned short v_period; + unsigned short hsync_width; + unsigned short hsync_bp; + unsigned short hsync_pol; + unsigned short vsync_width; + unsigned short vsync_bp; + unsigned short vsync_pol; + + unsigned int customer_val_0; //fr_adjust_type + unsigned int customer_val_1; //ss_level + unsigned int customer_val_2; //clk_auto_generate + unsigned int customer_val_3; //pixel clock(unit in Hz) + unsigned int customer_val_4; + unsigned int customer_val_5; + unsigned int customer_val_6; + unsigned int customer_val_7; + unsigned int customer_val_8; + unsigned int customer_val_9; + + unsigned int if_attr_val0; + unsigned int if_attr_val1; + unsigned int if_attr_val2; + unsigned int if_attr_val3; + unsigned int if_attr_val4; + unsigned int if_attr_val5; + unsigned int if_attr_val6; + unsigned int if_attr_val7; + unsigned int if_attr_val8; + unsigned int if_attr_val9; + + unsigned char *cmd_init_on; + unsigned char *cmd_init_off; + struct lcd_power_step_s *power_on_step; + struct lcd_power_step_s *power_off_step; + + /* backlight */ + unsigned int level_default; + unsigned int level_max; + unsigned int level_min; + unsigned int level_mid; + unsigned int level_mid_mapping; + + unsigned int bl_method; + unsigned int bl_en_gpio; + unsigned short bl_en_gpio_on; + unsigned short bl_en_gpio_off; + unsigned short bl_power_on_delay; + unsigned short bl_power_off_delay; + + unsigned int pwm_method; + unsigned int pwm_port; + unsigned int pwm_freq; + unsigned int pwm_duty_max; + unsigned int pwm_duty_min; + unsigned int pwm_gpio; + unsigned int pwm_gpio_off; + + unsigned int pwm2_method; + unsigned int pwm2_port; + unsigned int pwm2_freq; + unsigned int pwm2_duty_max; + unsigned int pwm2_duty_min; + unsigned int pwm2_gpio; + unsigned int pwm2_gpio_off; + + unsigned int pwm_level_max; + unsigned int pwm_level_min; + unsigned int pwm2_level_max; + unsigned int pwm2_level_min; + + unsigned int pwm_on_delay; + unsigned int pwm_off_delay; + + /* backlight extern */ + unsigned int bl_ext_index; +}; + +#define LCD_NUM_MAX 10 + +extern struct ext_lcd_config_s ext_lcd_config[LCD_NUM_MAX]; + +#endif /* INC_AML_LCD_H */ diff --git a/include/amlogic/media/vout/lcd/bl_extern.h b/include/amlogic/media/vout/lcd/bl_extern.h new file mode 100644 index 0000000000..6604672cea --- /dev/null +++ b/include/amlogic/media/vout/lcd/bl_extern.h @@ -0,0 +1,88 @@ +/* + * include/amlogicmedia/vout/lcd/bl_extern.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#ifndef _INC_AML_BL_EXTERN_H_ +#define _INC_AML_BL_EXTERN_H_ + +enum bl_extern_type_e { + BL_EXTERN_I2C = 0, + BL_EXTERN_SPI, + BL_EXTERN_MIPI, + BL_EXTERN_MAX, +}; + +#define BL_EXTERN_I2C_BUS_A 0 +#define BL_EXTERN_I2C_BUS_B 1 +#define BL_EXTERN_I2C_BUS_C 2 +#define BL_EXTERN_I2C_BUS_D 3 +#define BL_EXTERN_I2C_BUS_AO 4 + +#define BL_EXTERN_I2C_BUS_0 BL_EXTERN_I2C_BUS_A +#define BL_EXTERN_I2C_BUS_1 BL_EXTERN_I2C_BUS_B +#define BL_EXTERN_I2C_BUS_2 BL_EXTERN_I2C_BUS_C +#define BL_EXTERN_I2C_BUS_3 BL_EXTERN_I2C_BUS_D +#define BL_EXTERN_I2C_BUS_4 BL_EXTERN_I2C_BUS_AO +#define BL_EXTERN_I2C_BUS_MAX 5 + +#define BL_EXTERN_INIT_ON_MAX 200 +#define BL_EXTERN_INIT_OFF_MAX 50 + +#define BL_EXTERN_GPIO_NUM_MAX 6 +#define BL_EXTERN_INDEX_INVALID 0xff +#define BL_EXTERN_NAME_LEN_MAX 30 +struct bl_extern_config_s { + unsigned char index; + char name[BL_EXTERN_NAME_LEN_MAX]; + enum bl_extern_type_e type; + unsigned char i2c_addr; + unsigned char i2c_bus; + unsigned int dim_min; + unsigned int dim_max; + + unsigned char init_loaded; + unsigned char cmd_size; + unsigned char *init_on; + unsigned char *init_off; + unsigned int init_on_cnt; + unsigned int init_off_cnt; +}; + +/* global API */ +#define BL_EXT_DRIVER_MAX 10 +struct aml_bl_extern_driver_s { + int (*power_on)(void); + int (*power_off)(void); + int (*set_level)(unsigned int level); + void (*config_print)(void); + int (*device_power_on)(void); + int (*device_power_off)(void); + int (*device_bri_update)(unsigned int level); + struct bl_extern_config_s *config; +}; + +extern struct aml_bl_extern_driver_s *aml_bl_extern_get_driver(void); +extern int aml_bl_extern_device_load(const void *dt_blob, int index); +extern struct bl_extern_config_s bl_extern_config_dtf; +#ifdef CONFIG_AML_LCD_TABLET +extern int dsi_write_cmd(unsigned char *payload); +#endif + +#endif + diff --git a/include/amlogic/media/vout/lcd/bl_ldim.h b/include/amlogic/media/vout/lcd/bl_ldim.h new file mode 100644 index 0000000000..fb42eb3f71 --- /dev/null +++ b/include/amlogic/media/vout/lcd/bl_ldim.h @@ -0,0 +1,118 @@ +/* + * include/amlogic/media/vout/lcd/bl_ldim.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#ifndef INC_AML_BL_LDIM_H +#define INC_AML_BL_LDIM_H + +#include +#include +#include +#include + +enum ldim_dev_type_e { + LDIM_DEV_TYPE_NORMAL = 0, + LDIM_DEV_TYPE_SPI, + LDIM_DEV_TYPE_I2C, + LDIM_DEV_TYPE_MAX, +}; + +#define LDIM_INIT_ON_MAX 300 +#define LDIM_INIT_OFF_MAX 20 + +struct ldim_pinmux_ctrl_s { + char *name; + unsigned int pinmux_set[LCD_PINMUX_NUM][2]; + unsigned int pinmux_clr[LCD_PINMUX_NUM][2]; +}; + +struct ldim_config_s { + unsigned char row; + unsigned char col; +}; + +struct ldim_dev_config_s { + char name[20]; + char pinmux_name[20]; + unsigned char type; + int cs_hold_delay; + int cs_clk_delay; + int en_gpio; + int en_gpio_on; + int en_gpio_off; + int lamp_err_gpio; + unsigned char fault_check; + unsigned char write_check; + + unsigned int dim_min; + unsigned int dim_max; + + unsigned char init_loaded; + unsigned char cmd_size; + unsigned char *init_on; + unsigned char *init_off; + unsigned int init_on_cnt; + unsigned int init_off_cnt; + + unsigned char pinctrl_ver; + struct ldim_pinmux_ctrl_s *ldim_pinmux; + struct bl_pwm_config_s pwm_config; + char gpio_name[BL_GPIO_NUM_MAX][LCD_GPIO_NAME_MAX]; + + unsigned short bl_regnum; +}; + +#define LDIM_SPI_NAME_MAX 30 +struct ldim_spi_dev_info_s { + char modalias[20]; + char spi_name[LDIM_SPI_NAME_MAX]; + int mode; + int max_speed_hz; + int bus_num; + int chip_select; + int wordlen; + + struct spi_slave *spi; +}; + +/*******global API******/ +struct aml_ldim_driver_s { + int valid_flag; + int dev_index; + struct ldim_config_s *ldim_conf; + struct ldim_dev_config_s *ldev_conf; + unsigned short *ldim_matrix_buf; + int (*power_on)(void); + int (*power_off)(void); + int (*set_level)(unsigned int level); + void (*config_print)(void); + int (*pinmux_ctrl)(int status); + void (*device_config_print)(void); + int (*device_power_on)(void); + int (*device_power_off)(void); + int (*device_bri_update)(unsigned short *buf, unsigned char len); + struct ldim_spi_dev_info_s *spi_info; +}; + +extern struct ldim_dev_config_s ldim_config_dft; + +extern struct aml_ldim_driver_s *aml_ldim_get_driver(void); +extern int aml_ldim_probe(char *dt_addr, int flag); /* flag: 0=dts, 1=bsp, 2=unifykey */ + +#endif /* INC_AML_BL_LDIM_H */ diff --git a/include/amlogic/media/vout/lcd/lcd_extern.h b/include/amlogic/media/vout/lcd/lcd_extern.h new file mode 100644 index 0000000000..dc6ef565a8 --- /dev/null +++ b/include/amlogic/media/vout/lcd/lcd_extern.h @@ -0,0 +1,116 @@ +/* + * include/amlogic/media/vout/lcd/lcd_extern.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#ifndef _INC_AML_LCD_EXTERN_H_ +#define _INC_AML_LCD_EXTERN_H_ +#include + +enum lcd_extern_type_e { + LCD_EXTERN_I2C = 0, + LCD_EXTERN_SPI, + LCD_EXTERN_MIPI, + LCD_EXTERN_MAX, +}; + +#define LCD_EXTERN_I2C_BUS_A 0 +#define LCD_EXTERN_I2C_BUS_B 1 +#define LCD_EXTERN_I2C_BUS_C 2 +#define LCD_EXTERN_I2C_BUS_D 3 +#define LCD_EXTERN_I2C_BUS_AO 4 + +#define LCD_EXTERN_I2C_BUS_0 LCD_EXTERN_I2C_BUS_A +#define LCD_EXTERN_I2C_BUS_1 LCD_EXTERN_I2C_BUS_B +#define LCD_EXTERN_I2C_BUS_2 LCD_EXTERN_I2C_BUS_C +#define LCD_EXTERN_I2C_BUS_3 LCD_EXTERN_I2C_BUS_D +#define LCD_EXTERN_I2C_BUS_4 LCD_EXTERN_I2C_BUS_AO +#define LCD_EXTERN_I2C_BUS_MAX 5 + + +#define LCD_EXTERN_INIT_ON_MAX 3000 +#define LCD_EXTERN_INIT_OFF_MAX 100 + +#define LCD_EXTERN_GPIO_NUM_MAX 6 +#define LCD_EXTERN_GPIO_LEN_MAX 10 +#define LCD_EXTERN_INDEX_INVALID 0xff +#define LCD_EXTERN_NAME_LEN_MAX 30 + +#define LCD_EXTERN_NUM_MAX 20 + +struct lcd_extern_config_s { + unsigned char index; + char name[LCD_EXTERN_NAME_LEN_MAX]; + enum lcd_extern_type_e type; + unsigned char status; + + unsigned char i2c_addr; + unsigned char i2c_addr2; + unsigned char i2c_bus; + + unsigned char spi_clk_pol; + unsigned short spi_clk_freq; /*KHz */ + unsigned short spi_delay_us; + + unsigned char cmd_size; + unsigned char table_init_loaded; /* internal use */ + unsigned int table_init_on_cnt; + unsigned int table_init_off_cnt; + unsigned char *table_init_on; + unsigned char *table_init_off; +}; + +struct lcd_extern_common_s { + unsigned char lcd_ext_key_valid; + char gpio_name[LCD_EXTERN_GPIO_NUM_MAX][LCD_EXTERN_GPIO_LEN_MAX]; + + unsigned char i2c_bus; + unsigned char i2c_gpio_sck; + unsigned char i2c_gpio_sda; + + unsigned char spi_gpio_cs; + unsigned char spi_gpio_clk; + unsigned char spi_gpio_data; + + struct lcd_pinmux_ctrl_s *lcd_ext_pinmux; + unsigned int pinmux_set[LCD_PINMUX_NUM][2]; + unsigned int pinmux_clr[LCD_PINMUX_NUM][2]; + unsigned char pinmux_gpio_off; + unsigned char pinmux_valid; +}; + +//global API +struct aml_lcd_extern_driver_s { + struct lcd_extern_config_s *config; + struct lcd_extern_common_s *common; + int (*reg_read) (unsigned char reg, unsigned char *buf); + int (*reg_write) (unsigned char reg, unsigned char value); + int (*power_on)(void); + int (*power_off)(void); + void (*info_print)(void); +}; + +extern struct aml_lcd_extern_driver_s *aml_lcd_extern_get_driver(void); +extern int aml_lcd_extern_probe(const void *dt_blob, int index); +extern int aml_lcd_extern_remove(void); + +extern struct lcd_extern_config_s ext_config_dtf; +extern struct lcd_extern_common_s ext_common_dft; + +#endif + diff --git a/include/amlogic/media/vout/lcd/lcd_vout.h b/include/amlogic/media/vout/lcd/lcd_vout.h new file mode 100644 index 0000000000..a5c0f3d817 --- /dev/null +++ b/include/amlogic/media/vout/lcd/lcd_vout.h @@ -0,0 +1,520 @@ +/* + * include/amlogic/media/vout/lcd/lcd_vout.h + * + * Copyright (C) 2015 Amlogic, Inc. All rights reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for + * more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#ifndef INC_AML_LCD_VOUT_H +#define INC_AML_LCD_VOUT_H + +#include +#include +#include +#include + +/* ********************************** + * debug print define + * ********************************** */ +//#define LCD_DEBUG_INFO +extern unsigned int lcd_debug_print_flag; + +#define LCDPR(fmt, args...) printf("lcd: "fmt"", ## args) +#define LCDERR(fmt, args...) printf("lcd: error: "fmt"", ## args) + +/* ********************************** + * clk parameter bit define + * pll_ctrl, div_ctrl, clk_ctrl + * ********************************** */ +/* ******** pll_ctrl ******** */ +#define PLL_CTRL_OD3 20 /* [21:20] */ +#define PLL_CTRL_OD2 18 /* [19:18] */ +#define PLL_CTRL_OD1 16 /* [17:16] */ +#define PLL_CTRL_N 9 /* [13:9] */ +#define PLL_CTRL_M 0 /* [8:0] */ + +/* ******** div_ctrl ******** */ +#define DIV_CTRL_EDP_DIV1 24 /* [26:24] */ +#define DIV_CTRL_EDP_DIV0 20 /* [23:20] */ +#define DIV_CTRL_DIV_SEL 8 /* [15:8] */ +#define DIV_CTRL_XD 0 /* [7:0] */ + +/* ******** clk_ctrl ******** */ +#define CLK_CTRL_LEVEL 28 /* [30:28] */ +#define CLK_CTRL_FRAC 0 /* [18:0] */ + + +#define LCD_PINMUX_END 0xff +#define LCD_PINMUX_NUM 15 + +/* ********************************** + * VENC to TCON sync delay + * ********************************** */ +#define TTL_DELAY 13 + + +/* ********************************** + * global control define + * ********************************** */ +enum lcd_mode_e { + LCD_MODE_TV = 0, + LCD_MODE_TABLET, + LCD_MODE_MAX, +}; + +enum lcd_chip_e { + LCD_CHIP_G12A = 0, + LCD_CHIP_G12B, /* 1 */ + LCD_CHIP_TL1, + LCD_CHIP_SM1, + LCD_CHIP_MAX, +}; + +enum lcd_type_e { + LCD_TTL = 0, + LCD_LVDS, + LCD_VBYONE, + LCD_MIPI, + LCD_MLVDS, + LCD_TYPE_MAX, +}; + +#define MOD_LEN_MAX 30 +struct lcd_basic_s { + char model_name[MOD_LEN_MAX]; + enum lcd_type_e lcd_type; + unsigned char lcd_bits; + + unsigned short h_active; /* Horizontal display area */ + unsigned short v_active; /* Vertical display area */ + unsigned short h_period; /* Horizontal total period time */ + unsigned short v_period; /* Vertical total period time */ + unsigned short h_period_min; + unsigned short h_period_max; + unsigned short v_period_min; + unsigned short v_period_max; + unsigned int lcd_clk_min; + unsigned int lcd_clk_max; + + unsigned short screen_width; /* screen physical width in "mm" unit */ + unsigned short screen_height; /* screen physical height in "mm" unit */ +}; + +#define LCD_CLK_FRAC_UPDATE (1 << 0) +#define LCD_CLK_PLL_CHANGE (1 << 1) +struct lcd_timing_s { + unsigned char clk_auto; /* clk parameters auto generation */ + unsigned char fr_adjust_type; /* 0=clock, 1=htotal, 2=vtotal */ + unsigned char clk_change; /* internal used */ + unsigned int lcd_clk; /* pixel clock(unit: Hz) */ + unsigned int lcd_clk_dft; /* internal used */ + unsigned int h_period_dft; /* internal used */ + unsigned int v_period_dft; /* internal used */ + unsigned int pll_ctrl; /* pll settings */ + unsigned int div_ctrl; /* divider settings */ + unsigned int clk_ctrl; /* clock settings */ + + unsigned int ss_level; + + unsigned short sync_duration_num; + unsigned short sync_duration_den; + + unsigned short video_on_pixel; + unsigned short video_on_line; + + unsigned short hsync_width; + unsigned short hsync_bp; + unsigned short hsync_pol; + unsigned short vsync_width; + unsigned short vsync_bp; + unsigned short vsync_pol; + /* unsigned int vsync_h_phase; // [31]sign, [15:0]value */ + unsigned int h_offset; + unsigned int v_offset; + + unsigned short de_hs_addr; + unsigned short de_he_addr; + unsigned short de_vs_addr; + unsigned short de_ve_addr; + + unsigned short hs_hs_addr; + unsigned short hs_he_addr; + unsigned short hs_vs_addr; + unsigned short hs_ve_addr; + + unsigned short vs_hs_addr; + unsigned short vs_he_addr; + unsigned short vs_vs_addr; + unsigned short vs_ve_addr; +}; + +struct ttl_config_s { + unsigned int clk_pol; + unsigned int sync_valid; /* [1]DE, [0]hvsync */ + unsigned int swap_ctrl; /* [1]rb swap, [0]bit swap */ +}; + +#define LVDS_PHY_VSWING_DFT 3 +#define LVDS_PHY_PREEM_DFT 0 +#define LVDS_PHY_CLK_VSWING_DFT 0 +#define LVDS_PHY_CLK_PREEM_DFT 0 +struct lvds_config_s { + unsigned int lvds_repack; + unsigned int dual_port; + unsigned int pn_swap; + unsigned int port_swap; + unsigned int lane_reverse; + unsigned int port_sel; + unsigned int phy_vswing; + unsigned int phy_preem; + unsigned int phy_clk_vswing; + unsigned int phy_clk_preem; +}; + +#define VX1_PHY_VSWING_DFT 3 +#define VX1_PHY_PREEM_DFT 0 + +#define VX1_PWR_ON_RESET_DLY_DFT 500 /* 500ms */ +#define VX1_HPD_DATA_DELAY_DFT 10 /* 10ms */ +#define VX1_CDR_TRAINING_HOLD_DFT 200 /* 200ms */ + +#define VX1_SW_FILTER_TIME_DFT 10 /* 10*100us=1ms */ +#define VX1_SW_FILTER_CNT_DFT 6 +#define VX1_SW_FILTER_RETRY_CNT_DFT 2 +#define VX1_SW_FILTER_RETRY_DLY_DFT 100 /* 100ms */ +#define VX1_SW_CDR_DET_TIME_DFT 20 /* 20us*100=2ms */ +#define VX1_SW_CDR_DET_CNT_DFT 100 +#define VX1_SW_CDR_TIMEOUT_CNT_DFT 100 + +struct vbyone_config_s { + unsigned int lane_count; + unsigned int region_num; + unsigned int byte_mode; + unsigned int color_fmt; + unsigned int phy_div; + unsigned int bit_rate; + unsigned int phy_vswing; /*[5:4]:ext_pullup, [3:0]vswing*/ + unsigned int phy_preem; + unsigned int ctrl_flag; + /* bit[0]:power_on_reset_en + bit[1]:hpd_data_delay_en + bit[2]:cdr_training_hold_en + bit[3]:hw_filter_en + bit[5:4]:sw_filter */ + + /* ctrl timing */ + unsigned int power_on_reset_delay; /* ms */ + unsigned int hpd_data_delay; /* ms */ + unsigned int cdr_training_hold; /* ms */ + /* hw filter */ + unsigned int hpd_hw_filter_time; /* ms */ + unsigned int hpd_hw_filter_cnt; + unsigned int lockn_hw_filter_time; /* ms */ + unsigned int lockn_hw_filter_cnt; + /* sw filter */ + unsigned int vx1_sw_filter_en; /* 0=disable, 1=sw_filter, 2=sw_filter with sw_reset */ + unsigned int vx1_sw_filter_time; /* 100us base */ + unsigned int vx1_sw_filter_cnt; + unsigned int vx1_sw_filter_retry_cnt; + unsigned int vx1_sw_filter_retry_delay; /* ms base */ + unsigned int vx1_sw_cdr_detect_time; /* us base * 100 times, must cover tcon lockn pulse */ + unsigned int vx1_sw_cdr_detect_cnt; + unsigned int vx1_sw_cdr_timeout_cnt; +}; + +/* mipi-dsi config */ +/* Operation mode parameters */ +#define OPERATION_VIDEO_MODE 0 +#define OPERATION_COMMAND_MODE 1 + +#define SYNC_PULSE 0x0 +#define SYNC_EVENT 0x1 +#define BURST_MODE 0x2 + +/* command config */ +#define DSI_CMD_SIZE_INDEX 1 /* byte[1] */ +#define DSI_GPIO_INDEX 2 /* byte[2] */ + +#define DSI_INIT_ON_MAX 100 +#define DSI_INIT_OFF_MAX 30 + +struct dsi_config_s { + unsigned char lane_num; + unsigned int bit_rate_max; /* MHz */ + unsigned int bit_rate_min; /* MHz*/ + unsigned int bit_rate; /* Hz */ + unsigned int clk_factor; /* bit_rate/pclk */ + unsigned int factor_numerator; + unsigned int factor_denominator; /* 100 */ + unsigned char operation_mode_init; /* 0=video mode, 1=command mode */ + unsigned char operation_mode_display; /* 0=video mode, 1=command mode */ + unsigned char video_mode_type; /* 0=sync_pulse, 1=sync_event, 2=burst */ + unsigned char clk_always_hs; /* 0=disable, 1=enable */ + unsigned char phy_switch; /* 0=auto, 1=standard, 2=slow */ + + unsigned int venc_data_width; + unsigned int dpi_data_format; + + unsigned char *dsi_init_on; + unsigned char *dsi_init_off; + unsigned char extern_init; + + unsigned char check_en; + unsigned char check_reg; + unsigned char check_cnt; + unsigned char check_state; +}; + +struct mlvds_config_s { + unsigned int channel_num; + unsigned int channel_sel0; + unsigned int channel_sel1; + unsigned int clk_phase; /* [13:12]=clk01_sel, [11:8]=pi2, [7:4]=pi1, [3:0]=pi0 */ + unsigned int pn_swap; + unsigned int bit_swap; /* MSB/LSB reverse */ + unsigned int phy_vswing; + unsigned int phy_preem; + + /* internal used */ + unsigned int pi_clk_sel; /* bit[9:0] */ + unsigned int bit_rate; /* Hz */ +}; + +struct lcd_ctrl_config_s { + struct ttl_config_s *ttl_config; + struct lvds_config_s *lvds_config; + struct vbyone_config_s *vbyone_config; + struct dsi_config_s *mipi_config; + struct mlvds_config_s *mlvds_config; +}; + +/* ********************************** + * power control define + * ********************************** */ +enum lcd_power_type_e { + LCD_POWER_TYPE_CPU = 0, + LCD_POWER_TYPE_PMU, + LCD_POWER_TYPE_SIGNAL, + LCD_POWER_TYPE_EXTERN, + LCD_POWER_TYPE_MAX, +}; + +#define LCD_CPU_GPIO_NAME_MAX 15 + +/* Power Control */ +#define LCD_CPU_GPIO_NUM_MAX 10 + +#define LCD_PWR_STEP_MAX 15 +struct lcd_power_step_s { + unsigned char type; + int index; /* point to lcd_cpu_gpio or lcd_extern */ + unsigned short value; + unsigned short delay; +}; + +struct lcd_power_ctrl_s { + char cpu_gpio[LCD_CPU_GPIO_NUM_MAX][LCD_CPU_GPIO_NAME_MAX]; + struct lcd_power_step_s power_on_step[LCD_PWR_STEP_MAX]; + struct lcd_power_step_s power_off_step[LCD_PWR_STEP_MAX]; +}; + +#define LCD_PINMX_MAX 20 +#define BL_PINMUX_MAX 20 +#define LCD_PINMUX_NAME_LEN_MAX 30 +struct lcd_pinmux_ctrl_s { + char *name; + unsigned int pinmux_set[LCD_PINMUX_NUM][2]; + unsigned int pinmux_clr[LCD_PINMUX_NUM][2]; +}; + +#define LCD_ENABLE_RETRY_MAX 3 +struct lcd_config_s { + unsigned char lcd_mode; + unsigned char lcd_key_valid; + unsigned char lcd_clk_path; /* 0=hpll, 1=gp0_pll */ + unsigned char retry_enable_flag; + unsigned char retry_enable_cnt; + unsigned int backlight_index; + struct lcd_basic_s lcd_basic; + struct lcd_timing_s lcd_timing; + struct lcd_ctrl_config_s lcd_control; + struct lcd_power_ctrl_s *lcd_power; + unsigned char pinctrl_ver; + struct lcd_pinmux_ctrl_s *lcd_pinmux; + unsigned int pinmux_set[LCD_PINMUX_NUM][2]; + unsigned int pinmux_clr[LCD_PINMUX_NUM][2]; +}; + +extern struct lcd_config_s lcd_config_dft; + +/* ==============backlight control config================== */ +enum bl_ctrl_method_e { + BL_CTRL_GPIO = 0, + BL_CTRL_PWM, + BL_CTRL_PWM_COMBO, + BL_CTRL_LOCAL_DIMMING, + BL_CTRL_EXTERN, + BL_CTRL_MAX, +}; + +enum bl_pwm_method_e { + BL_PWM_NEGATIVE = 0, + BL_PWM_POSITIVE, + BL_PWM_METHOD_MAX, +}; + +enum bl_pwm_port_e { + BL_PWM_A = 0, + BL_PWM_B, + BL_PWM_C, + BL_PWM_D, + BL_PWM_E, + BL_PWM_F, + BL_PWM_VS, + BL_PWM_MAX, +}; + +enum bl_off_policy_e { + BL_OFF_POLICY_NONE = 0, + BL_OFF_POLICY_ALWAYS, + BL_OFF_POLICY_ONCE, + BL_OFF_POLICY_MAX, +}; + +#define XTAL_FREQ_HZ (24*1000*1000) /* 24M in HZ */ +#define XTAL_HALF_FREQ_HZ (24*1000*500) /* 24M/2 in HZ */ + +#define BL_FREQ_DEFAULT 1000 /* unit: HZ */ +#define BL_FREQ_VS_DEFAULT 2 /* multiple 2 of vfreq */ + +#define BL_LEVEL_MAX 255 +#define BL_LEVEL_MIN 10 +#define BL_LEVEL_OFF 1 + +#define BL_LEVEL_MID 128 +#define BL_LEVEL_MID_MAPPED BL_LEVEL_MID //102 +#define BL_LEVEL_DEFAULT BL_LEVEL_MID + +#define BL_GPIO_NUM_MAX 5 + +struct bl_pwm_config_s { + unsigned int index; + enum bl_pwm_method_e pwm_method; + enum bl_pwm_port_e pwm_port; + unsigned int level_max; + unsigned int level_min; + unsigned int pwm_freq; /* pwm_vs: 1~4(vfreq), pwm: freq(unit: Hz) */ + unsigned int pwm_duty; /* unit: % */ + unsigned int pwm_duty_max; /* unit: % */ + unsigned int pwm_duty_min; /* unit: % */ + unsigned int pwm_cnt; /* internal used for pwm control */ + unsigned int pwm_pre_div; /* internal used for pwm control */ + unsigned int pwm_max; /* internal used for pwm control */ + unsigned int pwm_min; /* internal used for pwm control */ + unsigned int pwm_level; /* internal used for pwm control */ + unsigned int pwm_gpio; + unsigned int pwm_gpio_off; + unsigned int pinmux_flag; + unsigned int pinmux_set[10][2]; + unsigned int pinmux_clr[10][2]; +}; + +struct bl_config_s { + unsigned char bl_key_valid; + char name[20]; + int level_default; + int level_min; + int level_max; + int level_mid; + int level_mid_mapping; + int level; + + enum bl_ctrl_method_e method; + unsigned int en_gpio; + unsigned int en_gpio_on; + unsigned int en_gpio_off; + unsigned short power_on_delay; + unsigned short power_off_delay; + unsigned int dim_max; + unsigned int dim_min; + unsigned int en_sequence_reverse; + + struct bl_pwm_config_s *bl_pwm; + struct bl_pwm_config_s *bl_pwm_combo0; + struct bl_pwm_config_s *bl_pwm_combo1; + unsigned int pwm_on_delay; + unsigned int pwm_off_delay; + + char gpio_name[BL_GPIO_NUM_MAX][LCD_CPU_GPIO_NAME_MAX]; + unsigned char pinctrl_ver; + struct lcd_pinmux_ctrl_s *bl_pinmux; + unsigned int pinmux_set[10][2]; + unsigned int pinmux_clr[10][2]; + int bl_extern_index; +}; + +extern struct bl_config_s bl_config_dft; + +/* ==============lcd driver================== */ +struct aml_lcd_drv_s { + char version[15]; + enum lcd_chip_e chip_type; + unsigned char lcd_status; + + struct lcd_config_s *lcd_config; + struct bl_config_s *bl_config; + + int (*outputmode_check)(char *mode, unsigned int frac); + int (*config_check)(char *mode, unsigned int frac); + void (*driver_init_pre)(void); + int (*driver_init)(void); + void (*driver_disable)(void); + void (*list_support_mode)(void); + int (*lcd_probe)(void); + int (*lcd_outputmode_check)(char *mode, unsigned int frac); + void (*lcd_prepare)(char *mode, unsigned int frac); + void (*lcd_enable)(char *mode, unsigned int frac); + void (*lcd_disable)(void); + void (*lcd_set_ss)(int level); + char *(*lcd_get_ss)(void); + void (*lcd_test)(int num); + void (*lcd_clk)(void); + void (*lcd_info)(void); + void (*lcd_reg)(void); + void (*lcd_tcon_reg)(void); + void (*lcd_tcon_table)(void); + void (*bl_power_ctrl)(int status); + void (*bl_set_level)(unsigned int level); + unsigned int (*bl_get_level)(void); + void (*bl_config_print)(void); + int unifykey_test_flag; + void (*unifykey_test)(void); + void (*unifykey_tcon_test)(void); + void (*unifykey_dump)(void); + void (*lcd_extern_info)(void); + + /* for factory test */ + struct lcd_power_step_s *factory_lcd_power_on_step; + int factory_bl_power_on_delay; +}; + +extern void lcd_config_bsp_init(void); + +extern struct aml_lcd_drv_s *aml_lcd_get_driver(void); + +extern int lcd_probe(void); + +#endif /* INC_AML_LCD_VOUT_H */ diff --git a/include/amlogic/media/vpp/vpp.h b/include/amlogic/media/vpp/vpp.h new file mode 100644 index 0000000000..d77ddd3879 --- /dev/null +++ b/include/amlogic/media/vpp/vpp.h @@ -0,0 +1,24 @@ +#ifndef _VPP_INC_H_ +#define _VPP_INC_H_ + +extern void vpp_init(void); +void vpp_pq_init(int brightness, int contrast, int sat, int hue); +void vpp_pq_load(void); + +#define VPP_CM_RGB 0 /* same as COLOR_FMT_RGB444*/ +#define VPP_CM_YUV 2 /* same as COLOR_FMT_YUV444*/ + +enum vpp_gamma_sel_e { + VPP_GAMMA_R = 0, + VPP_GAMMA_G, + VPP_GAMMA_B +}; + +extern void vpp_load_gamma_table(unsigned short *data, unsigned int len, enum vpp_gamma_sel_e flag); +extern void vpp_init_lcd_gamma_table(void); + +extern void vpp_matrix_update(int type); +extern void vpp_viu2_matrix_update(int type); +extern void hdr_tx_pkt_cb(void); + +#endif diff --git a/include/amlogic/media/vpu/vpu.h b/include/amlogic/media/vpu/vpu.h new file mode 100644 index 0000000000..26bd575e07 --- /dev/null +++ b/include/amlogic/media/vpu/vpu.h @@ -0,0 +1,11 @@ +#ifndef _VPU_INC_H_ +#define _VPU_INC_H_ + +extern void vcbus_test(void); +extern int vpu_probe(void); +extern int vpu_remove(void); +extern int vpu_clk_change(int level); +extern void vpu_clk_get(void); +extern void vpu_info_print(void); + +#endif diff --git a/include/amlogic/saradc.h b/include/amlogic/saradc.h new file mode 100644 index 0000000000..7344a2bfa1 --- /dev/null +++ b/include/amlogic/saradc.h @@ -0,0 +1,103 @@ +#ifndef __MESON_SARADC_H__ +#define __MESON_SARADC_H__ + +#include +#include +#include + +enum ADC_CHANNEL_TYPE { + MESON_SARADC_CH0 = 0, + MESON_SARADC_CH1, + MESON_SARADC_CH2, + MESON_SARADC_CH3, + MESON_SARADC_CH4, + MESON_SARADC_CH5, + MESON_SARADC_CH6, + MESON_SARADC_CH7, + MESON_SARADC_CH_MAX, +}; + +enum MESON_SARADC_AVG_MODE { + NO_AVERAGING = 0x0, + MEAN_AVERAGING = 0x1, + MEDIAN_AVERAGING = 0x2, +}; + +enum MESON_SARADC_NUM_SAMPLES { + ONE_SAMPLE = 0x0, + TWO_SAMPLES = 0x1, + FOUR_SAMPLES = 0x2, + EIGHT_SAMPLES = 0x3, +}; + +enum MESON_SARADC_RESOLUTION { + SARADC_10BIT = 10, + SARADC_12BIT = 12, + SARADC_22BIT = 22, +}; + +enum MESON_SARADC_BIT_STATE { + BIT_LOW = 0, + BIT_HIGH = 1, +}; + +struct meson_saradc; + +struct meson_saradc_diff_ops { + void (*extra_init)(struct meson_saradc *priv); + void (*set_ch7_mux)(struct meson_saradc *priv, int ch, int mux); + void (*enable_decim_filter)(struct meson_saradc *priv, + int ch, unsigned int mode); + void (*set_ref_voltage)(struct meson_saradc *priv, unsigned int mode); + int (*get_fifo_channel)(int val); + int (*get_fifo_data)(struct meson_saradc *priv, + struct adc_uclass_platdata *uc_pdata, int val); +}; + +/* + * struct meson_saradc_data - describe the differences of different platform + * + * @reg3_ring_counter_disable: to disable continuous ring counter. + * gxl and later: 1; others(gxtvbb etc): 0 + * @reg11_vref_en: g12a and later: 0; others(axg etc): 1 + * @reg11_cmv_sel: g12a and later: 0; others(axg etc): 1 + * @reg11_eoc: g12a and later: 1; others(axg etc): 0 + * @has_bl30_integration: + * @num_channels: the number of adc channels + * @self_test_channel: channel of self-test + * @resolution: gxl and later: 12bit; others(gxtvbb etc): 10bit + * @clock_rate: saradc clock rate + */ +struct meson_saradc_data { + bool reg3_ring_counter_disable; + bool reg11_vref_en; + bool reg11_cmv_sel; + bool reg11_eoc; + bool has_bl30_integration; + unsigned char self_test_channel; + unsigned char num_channels; + unsigned int resolution; + const struct meson_saradc_diff_ops *dops; + unsigned int capacity; + unsigned long clock_rate; +}; + +struct meson_saradc { + phys_addr_t base; + int active_channel; + unsigned int current_mode; + struct clk xtal; + struct clk adc_mux; + struct clk adc_div; + struct clk adc_gate; + struct meson_saradc_data *data; +}; + +extern const struct adc_ops meson_saradc_ops; +int meson_saradc_probe(struct udevice *dev); +int meson_saradc_remove(struct udevice *dev); +int meson_saradc_ofdata_to_platdata(struct udevice *dev); + +#define SARADC_CH_SELF_TEST MESON_SARADC_CH7 + +#endif /*_MESON_SARADC_H_*/ diff --git a/include/amlogic/secure_storage.h b/include/amlogic/secure_storage.h new file mode 100644 index 0000000000..3a0148204b --- /dev/null +++ b/include/amlogic/secure_storage.h @@ -0,0 +1,46 @@ +#ifndef __SECURE_STORAGE_H__ +#define __SECURE_STORAGE_H__ + +/* return value*/ +#define RET_OK 0 +#define RET_EFAIL 1 +#define RET_EINVAL 2 +#define RET_EMEM 3 + +#define RET_EUND -1 +#define SMC_UNK 0xffffffff + + +#ifdef CONFIG_SECURE_STORAGE +/* funtion name: secure_storage_write + * keyname : key name is ascii string + * keybuf : key buf + * keylen : key buf len + * keyattr: Secure/Normal, ... + * + * return 0: ok, 0x1fe: no space, other fail + * */ +int32_t secure_storage_write(uint8_t *keyname, uint8_t *keybuf, + uint32_t keylen, uint32_t keyattr); +int32_t secure_storage_read(uint8_t *keyname, uint8_t *keybuf, + uint32_t keylen, uint32_t *reallen); +int32_t secure_storage_query(uint8_t *keyname, uint32_t *retval); +int32_t secure_storage_tell(uint8_t *keyname, uint32_t *retval); +int32_t secure_storage_verify(uint8_t *keyname, uint8_t *hashbuf); +int32_t secure_storage_status(uint8_t *keyname, uint32_t *retval); +void *secure_storage_getbuffer(uint32_t *size); +void secure_storage_notifier(void); +void secure_storage_notifier_ex(uint32_t storagesize, uint32_t rsvarg); +int32_t secure_storage_list(uint8_t *listbuf, uint32_t buflen, + uint32_t *readlen); +int32_t secure_storage_remove(uint8_t *keyname); +void secure_storage_set_info(uint32_t info); +int32_t secure_storage_set_enctype(uint32_t type); +/* return 0: success, -1: fail*/ +int32_t secure_storage_get_enctype(void); +/*return -1: no storage, 0: default enc, 1: efuse enc, 2: fixed enc*/ +int32_t secure_storage_version(void); +/*return -1: no storage, others: version*/ +#endif + +#endif diff --git a/include/amlogic/sound.h b/include/amlogic/sound.h new file mode 100644 index 0000000000..4aceb7c9fd --- /dev/null +++ b/include/amlogic/sound.h @@ -0,0 +1,180 @@ +/* + * include/amlogic/sound.h + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the named License, + * or any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + */ + +#ifndef _SOUND_H_ +#define _SOUND_H_ + +#define AIU_958_BPF 0x1500 +#define AIU_958_BRST 0x1501 +#define AIU_958_LENGTH 0x1502 +#define AIU_958_PADDSIZE 0x1503 +#define AIU_958_MISC 0x1504 +#define AIU_958_FORCE_LEFT 0x1505 +#define AIU_958_DISCARD_NUM 0x1506 +#define AIU_958_DCU_FF_CTRL 0x1507 +#define AIU_958_CHSTAT_L0 0x1508 +#define AIU_958_CHSTAT_L1 0x1509 +#define AIU_958_CTRL 0x150a +#define AIU_958_RPT 0x150b +#define AIU_I2S_MUTE_SWAP 0x150c +#define AIU_I2S_SOURCE_DESC 0x150d +#define AIU_I2S_MED_CTRL 0x150e +#define AIU_I2S_MED_THRESH 0x150f +#define AIU_I2S_DAC_CFG 0x1510 +#define AIU_I2S_SYNC 0x1511 +#define AIU_I2S_MISC 0x1512 +#define AIU_I2S_OUT_CFG 0x1513 +#define AIU_I2S_FF_CTRL 0x1514 +#define AIU_RST_SOFT 0x1515 +#define AIU_CLK_CTRL 0x1516 +#define AIU_MIX_ADCCFG 0x1517 +#define AIU_MIX_CTRL 0x1518 +#define AIU_CLK_CTRL_MORE 0x1519 +#define AIU_958_POP 0x151a +#define AIU_MIX_GAIN 0x151b +#define AIU_958_SYNWORD1 0x151c +#define AIU_958_SYNWORD2 0x151d +#define AIU_958_SYNWORD3 0x151e +#define AIU_958_SYNWORD1_MASK 0x151f +#define AIU_958_SYNWORD2_MASK 0x1520 +#define AIU_958_SYNWORD3_MASK 0x1521 +#define AIU_958_FFRDOUT_THD 0x1522 +#define AIU_958_LENGTH_PER_PAUSE 0x1523 +#define AIU_958_PAUSE_NUM 0x1524 +#define AIU_958_PAUSE_PAYLOAD 0x1525 +#define AIU_958_AUTO_PAUSE 0x1526 +#define AIU_958_PAUSE_PD_LENGTH 0x1527 +#define AIU_CODEC_DAC_LRCLK_CTRL 0x1528 +#define AIU_CODEC_ADC_LRCLK_CTRL 0x1529 +#define AIU_HDMI_CLK_DATA_CTRL 0x152a +#define AIU_CODEC_CLK_DATA_CTRL 0x152b +#define AIU_ACODEC_CTRL 0x152c +#define AIU_958_CHSTAT_R0 0x1530 +#define AIU_958_CHSTAT_R1 0x1531 +#define AIU_958_VALID_CTRL 0x1532 +#define AIU_AUDIO_AMP_REG0 0x153c +#define AIU_AUDIO_AMP_REG1 0x153d +#define AIU_AUDIO_AMP_REG2 0x153e +#define AIU_AUDIO_AMP_REG3 0x153f +#define AIU_AIFIFO2_CTRL 0x1540 +#define AIU_AIFIFO2_STATUS 0x1541 +#define AIU_AIFIFO2_GBIT 0x1542 +#define AIU_AIFIFO2_CLB 0x1543 +#define AIU_CRC_CTRL 0x1544 +#define AIU_CRC_STATUS 0x1545 +#define AIU_CRC_SHIFT_REG 0x1546 +#define AIU_CRC_IREG 0x1547 +#define AIU_CRC_CAL_REG1 0x1548 +#define AIU_CRC_CAL_REG0 0x1549 +#define AIU_CRC_POLY_COEF1 0x154a +#define AIU_CRC_POLY_COEF0 0x154b +#define AIU_CRC_BIT_SIZE1 0x154c +#define AIU_CRC_BIT_SIZE0 0x154d +#define AIU_CRC_BIT_CNT1 0x154e +#define AIU_CRC_BIT_CNT0 0x154f +#define AIU_AMCLK_GATE_HI 0x1550 +#define AIU_AMCLK_GATE_LO 0x1551 +#define AIU_AMCLK_MSR 0x1552 +#define AIU_AUDAC_CTRL0 0x1553 +#define AIU_DELTA_SIGMA0 0x1555 +#define AIU_DELTA_SIGMA1 0x1556 +#define AIU_DELTA_SIGMA2 0x1557 +#define AIU_DELTA_SIGMA3 0x1558 +#define AIU_DELTA_SIGMA4 0x1559 +#define AIU_DELTA_SIGMA5 0x155a +#define AIU_DELTA_SIGMA6 0x155b +#define AIU_DELTA_SIGMA7 0x155c +#define AIU_DELTA_SIGMA_LCNTS 0x155d +#define AIU_DELTA_SIGMA_RCNTS 0x155e +#define AIU_MEM_I2S_START_PTR 0x1560 +#define AIU_MEM_I2S_RD_PTR 0x1561 +#define AIU_MEM_I2S_END_PTR 0x1562 +#define AIU_MEM_I2S_MASKS 0x1563 +#define AIU_MEM_I2S_CONTROL 0x1564 +#define AIU_MEM_IEC958_START_PTR 0x1565 +#define AIU_MEM_IEC958_RD_PTR 0x1566 +#define AIU_MEM_IEC958_END_PTR 0x1567 +#define AIU_MEM_IEC958_MASKS 0x1568 +#define AIU_MEM_IEC958_CONTROL 0x1569 +#define AIU_MEM_AIFIFO2_START_PTR 0x156a +#define AIU_MEM_AIFIFO2_CURR_PTR 0x156b +#define AIU_MEM_AIFIFO2_END_PTR 0x156c +#define AIU_MEM_AIFIFO2_BYTES_AVAIL 0x156d +#define AIU_MEM_AIFIFO2_CONTROL 0x156e +#define AIU_MEM_AIFIFO2_MAN_WP 0x156f +#define AIU_MEM_AIFIFO2_MAN_RP 0x1570 +#define AIU_MEM_AIFIFO2_LEVEL 0x1571 +#define AIU_MEM_AIFIFO2_BUF_CNTL 0x1572 +#define AIU_MEM_I2S_MAN_WP 0x1573 +#define AIU_MEM_I2S_MAN_RP 0x1574 +#define AIU_MEM_I2S_LEVEL 0x1575 +#define AIU_MEM_I2S_BUF_CNTL 0x1576 +#define AIU_MEM_I2S_BUF_WRAP_COUNT 0x1577 +#define AIU_MEM_I2S_MEM_CTL 0x1578 +#define AIU_MEM_IEC958_MEM_CTL 0x1579 +#define AIU_MEM_IEC958_WRAP_COUNT 0x157a +#define AIU_MEM_IEC958_IRQ_LEVEL 0x157b +#define AIU_MEM_IEC958_MAN_WP 0x157c +#define AIU_MEM_IEC958_MAN_RP 0x157d +#define AIU_MEM_IEC958_LEVEL 0x157e +#define AIU_MEM_IEC958_BUF_CNTL 0x157f +#define AIU_AIFIFO_CTRL 0x1580 +#define AIU_AIFIFO_STATUS 0x1581 +#define AIU_AIFIFO_GBIT 0x1582 +#define AIU_AIFIFO_CLB 0x1583 +#define AIU_MEM_AIFIFO_START_PTR 0x1584 +#define AIU_MEM_AIFIFO_CURR_PTR 0x1585 +#define AIU_MEM_AIFIFO_END_PTR 0x1586 +#define AIU_MEM_AIFIFO_BYTES_AVAIL 0x1587 +#define AIU_MEM_AIFIFO_CONTROL 0x1588 +#define AIU_MEM_AIFIFO_MAN_WP 0x1589 +#define AIU_MEM_AIFIFO_MAN_RP 0x158a +#define AIU_MEM_AIFIFO_LEVEL 0x158b +#define AIU_MEM_AIFIFO_BUF_CNTL 0x158c +#define AIU_MEM_AIFIFO_BUF_WRAP_COUNT 0x158d +#define AIU_MEM_AIFIFO2_BUF_WRAP_COUNT 0x158e +#define AIU_MEM_AIFIFO_MEM_CTL 0x158f +#define AIFIFO_TIME_STAMP_CNTL 0x1590 +#define AIFIFO_TIME_STAMP_SYNC_0 0x1591 +#define AIFIFO_TIME_STAMP_SYNC_1 0x1592 +#define AIFIFO_TIME_STAMP_0 0x1593 +#define AIFIFO_TIME_STAMP_1 0x1594 +#define AIFIFO_TIME_STAMP_2 0x1595 +#define AIFIFO_TIME_STAMP_3 0x1596 +#define AIFIFO_TIME_STAMP_LENGTH 0x1597 +#define AIFIFO2_TIME_STAMP_CNTL 0x1598 +#define AIFIFO2_TIME_STAMP_SYNC_0 0x1599 +#define AIFIFO2_TIME_STAMP_SYNC_1 0x159a +#define AIFIFO2_TIME_STAMP_0 0x159b +#define AIFIFO2_TIME_STAMP_1 0x159c +#define AIFIFO2_TIME_STAMP_2 0x159d +#define AIFIFO2_TIME_STAMP_3 0x159e +#define AIFIFO2_TIME_STAMP_LENGTH 0x159f +#define IEC958_TIME_STAMP_CNTL 0x15a0 +#define IEC958_TIME_STAMP_SYNC_0 0x15a1 +#define IEC958_TIME_STAMP_SYNC_1 0x15a2 +#define IEC958_TIME_STAMP_0 0x15a3 +#define IEC958_TIME_STAMP_1 0x15a4 +#define IEC958_TIME_STAMP_2 0x15a5 +#define IEC958_TIME_STAMP_3 0x15a6 +#define IEC958_TIME_STAMP_LENGTH 0x15a7 +#define AIU_MEM_AIFIFO2_MEM_CTL 0x15a8 +#define AIU_I2S_CBUS_DDR_CNTL 0x15a9 +#define AIU_I2S_CBUS_DDR_WDATA 0x15aa +#define AIU_I2S_CBUS_DDR_ADDR 0x15ab + +int aml_audio_init(void); + +#endif /* _SOUND_H_ */ diff --git a/include/amlogic/spicc.h b/include/amlogic/spicc.h new file mode 100644 index 0000000000..282af845c5 --- /dev/null +++ b/include/amlogic/spicc.h @@ -0,0 +1,44 @@ +/* + * Amlogic Meson SPI communication controller(SPICC) + * + * Copyright (C) 2017 Amlogic Corporation + * + * Licensed under the GPL-2 or later. + * + */ + +#ifndef __SPICC_H__ +#define __SPICC_H__ + +#define SPICC_DEFAULT_CLK_RATE 166666666 +#define CS_GPIO_MAX 2 + +/* + * @compatible: + * @reg: controller registers address. + * @mem_map: memory_mapped for read operations. + * @clk_rate: + * @clk_set_rate: + * @pinctrl_enable: + * @num_chipselect: + * @cs_gpios: + */ +struct spicc_platdata { +#ifndef CONFIG_OF_CONTROL + char *compatible; + int clk_rate; + int (*clk_set_rate)(int rate); + int (*clk_enable)(bool enable); + int (*pinctrl_enable)(bool enable); +#endif + void __iomem *reg; + const char *cs_gpio_names[CS_GPIO_MAX]; + unsigned int clk_cs_delay; + unsigned int mo_delay; + unsigned int mi_delay; + unsigned int mi_capture_delay; + unsigned int tt_delay; + unsigned int ti_delay; +}; + +#endif /* __SPICC_H__ */ \ No newline at end of file diff --git a/include/amlogic/spifc.h b/include/amlogic/spifc.h new file mode 100644 index 0000000000..0eb759896a --- /dev/null +++ b/include/amlogic/spifc.h @@ -0,0 +1,44 @@ +/* + * Amlogic SPI flash controller(SPIFC) + * + * Copyright (C) 2018 Amlogic Corporation + * + * Licensed under the GPL-2 or later. + * + */ + +#ifndef __SPIFC_H__ +#define __SPIFC_H__ + +/* + * @reg: controller registers base address. + * @mem_map: memory_mapped for read operations. + * @core: clk source, usually clk_81, 166M max. + * @speed: spi bus frequency, and you should know + * we use clk_81 as the clk source now, max + * speed is 166M. + * @io_num: max io number, SIO0 SIO1 SIO2 SIO3. + * @max_cs: the max slave device number, we support + * spi-nor, spi-nand now. + * @cs_gpios: gpio array, we use the cs pin as + * gpio, cause the spifc controller + * can not hold enough time sometimes. + */ + +struct spifc_platdata { + ulong reg; + ulong mem_map; + u32 speed; + u32 mode; + u32 io_num; + u32 max_cs; +}; + +/* this is cs pin number, not slave device cs number */ +/* #define SPIFC_MAX_CS 1 */ +#define SPIFC_BUS_NUM 0 +/* slave device cs number */ +#define SPIFC_SNOR_CS 0 +#define SPIFC_SNAND_CS 1 + +#endif /* __SPIFC_H__ */ \ No newline at end of file diff --git a/include/amlogic/storage.h b/include/amlogic/storage.h new file mode 100644 index 0000000000..5bdb4cb00e --- /dev/null +++ b/include/amlogic/storage.h @@ -0,0 +1,501 @@ +/* SPDX-License-Identifier: GPL-2.0+ */ +/* + * Header file of storage interface module + * + * Copyright (C) 2018 Amlogic Corporation + * + * Licensed under the GPL-2 or later. + * + */ + +#ifndef __STORAGE_H__ +#define __STORAGE_H__ + +#include +#include +#include +#include +#include +#include +#include + +#define RSV_UNVAIL 140 /* rsv unvail error */ + +#define DISPROTECT_KEY BIT(0) +#define DISPROTECT_SECURE BIT(1) +#define DISPROTECT_FBBT BIT(2) +#define DISPROTECT_HYNIX BIT(3) + +#define PART_PROTECT_FLAG BIT(4) +enum boot_type_e { + BOOT_EMMC = 1, + BOOT_SD = 1 << 1, + BOOT_NAND_NFTL = 1 << 2, + BOOT_NAND_MTD = 1 << 3, + BOOT_SNAND = 1 << 4,/* spi nand */ + BOOT_SNOR = 1 << 5,/* spi nor */ + BOOT_NONE = 0xFF +}; + +#define RSV_KEY "key" +#define RSV_ENV "env" +#define RSV_DTB "dtb" +#define RSV_BBT "bbt" + +#define DISCRETE_BOOTLOADER 1 +#define COMPACT_BOOTLOADER 0 + +struct nand_startup_parameter { + int page_size; + int block_size; + int layout_reserve_size; + int pages_per_block; + int setup_data; + /* */ + int page0_disable; +}; + +#define BL2E_STORAGE_PARAM_SIZE (0x80) +#define BOOT_FIRST_BLOB_SIZE (254*1024) +#define BOOT_FILLER_SIZE (4*1024) +#define BOOT_RESERVED_SIZE (4*1024) +#define BOOT_RANDOM_NONCE (16) +#define BOOT_BL2E_SIZE (66672) //74864-8K +#define BOOT_EBL2E_SIZE (BOOT_FILLER_SIZE + BOOT_RESERVED_SIZE + BOOT_BL2E_SIZE) +#define BOOT_BL2X_SIZE (66672) +#define MAX_BOOT_AREA_ENTRIES (8) +/* bl2 core address base */ +#define BL2_CORE_BASE_OFFSET_EMMC (0x200) +/* boot area entry index */ +#define BOOT_AREA_BB1ST (0) +/* filler and reserved are considered part of the bl2E in storage view */ +#define BOOT_AREA_BL2E (1) +#define BOOT_AREA_BL2X (2) +#define BOOT_AREA_DDRFIP (3) +#define BOOT_AREA_DEVFIP (4) +#define BOOT_AREA_INVALID (MAX_BOOT_AREA_ENTRIES) + +typedef struct boot_area_entry { + /* name */ + char name[11]; + /* index */ + uint8_t idx; + uint64_t offset; + uint64_t size; +} boot_area_entry_t; + +struct boot_layout { + boot_area_entry_t *boot_entry; +}; + +struct emmc_startup_parameter { + //sd_emmc_setup_t setup; +}; + +struct spi_nand_startup_parameter { + uint32_t pagesize; + uint32_t pages_per_eraseblock; + uint32_t eraseblocks_per_lun; + uint32_t planes_per_lun; + uint32_t luns_per_target; + uint32_t ntargets; + int layout_reserve_size; +}; + +struct storage_boot_entry { + uint32_t offset; + uint32_t size; +}; + +union storage_independent_parameter { + struct nand_startup_parameter nsp; + struct emmc_startup_parameter esp; + struct spi_nand_startup_parameter snasp; +}; + +struct storage_startup_parameter { + uint8_t boot_device; + uint8_t boot_seq; + uint8_t boot_bakups; + uint8_t reserved; + struct storage_boot_entry boot_entry[MAX_BOOT_AREA_ENTRIES]; + union storage_independent_parameter sip; +}; + +struct storage_info_t { + u8 name[32]; + u8 id[8]; + u32 read_unit; + u32 write_unit; + u32 erase_unit; + u64 caps;/* total size */ + u8 mode;/* bootloader mode, compact or discrete */ +}; + +struct storage_t { + enum boot_type_e type; + struct storage_info_t info; + u32 init_flag; + struct list_head list; + int (*get_part_count)(void); + int (*list_part_name)(int idx, char *part_name); + /* when part_name is null, default to ops in whole chip */ + /* int (*block_is_bad)(const char *part_name, loff_t off); */ + u64 (*get_part_size)(const char *part_name); + int (*read)(const char *part_name, loff_t off, + size_t size, void *dest); + int (*write)(const char *part_name, loff_t off, + size_t size, void *source); + int (*erase)(const char *part_name, loff_t off, + size_t size, int scrub_flag); + +#define BOOT_OPS_ALL 0xFF/* for cpy parameter operates all copies */ + u8 (*get_copies)(const char *part_name); + u64 (*get_copy_size)(const char *part_name); + int (*boot_read)(const char *part_name, + u8 cpy, size_t size, void *dest); + int (*boot_write)(const char *part_name, + u8 cpy, size_t size, void *source); + int (*boot_erase)(const char *part_name, u8 cpy); + + u32 (*get_rsv_size)(const char *rsv_name); + int (*read_rsv)(const char *rsv_name, size_t size, void *buf); + int (*write_rsv)(const char *rsv_name, size_t size, void *buf); + int (*erase_rsv)(const char *rsv_name); + int (*protect_rsv)(const char *rsv_name, + bool ops);/*true:on false:off*/ +}; + +struct device_node_t { + enum boot_type_e index; + char *type; + int (*pre)(void); + int (*probe)(u32 init_flag); +}; + +/** + * we use a valid device list to manage the storage devices, + * and every type of device can only exist ONE in this list. + * we will scan and add the valid storage device to the list + * in the init process, and of cause you can register the device + * by you own. + */ +#define NAND_BOOT_NORMAL 0 +#define NAND_BOOT_UPGRATE 1 +#define NAND_BOOT_ERASE_PROTECT_CACHE 2 +#define NAND_BOOT_ERASE_ALL 3 +#define NAND_BOOT_SCRUB_ALL 4 +#define NAND_SCAN_ID_INIT 5 +/** + * @usage: init all the valid storage device + * + * @init_flag: it's only works for MLC/EMMC driver + * 0 NAND_BOOT_NORMAL:normal init, but can't operates the phy data area + * 1 NAND_BOOT_UPGRATE:same as 0, but operation on phy data area is allowed + * 2 NAND_BOOT_ERASE_PROTECT_CACHE:only erase rsv area + * 3 NAND_BOOT_ERASE_ALL:erase whole device + * 4 NAND_BOOT_SCRUB_ALL:erase whole device + * 5 NAND_SCAN_ID_INIT:only read nand id + * + * @return: init result + * 0 = failed + * other = device_index that device probe successfully + */ +int store_init(u32 init_flag); + +/** + * @usage: register a storage device to the valid list + * + * @param: the description pointer of your storage device + * + * @return: registration result + * 0 = success + * 1 = fail + */ +int store_register(struct storage_t *store_dev); + +/** + * @usage: unregister a storage device from the valid list + * + * @store_dev: the description pointer of your storage device + */ +void store_unregister(struct storage_t *store_dev); + +/** + * @usage: check the type of device is valid on this board + * + * @type: the device type that you want to check + * + * @return: is the device valid + * 0 = invalid + * 1 = valid + */ +u8 store_device_valid(enum boot_type_e type); + +/** + * @usage: set the 'type' device as current device, and you can operates it + * + * @type: the device type that you want to set + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_set_device(enum boot_type_e type); + +/** + * @usage: get the type of current storage device + * + * @return: storage device type + */ +enum boot_type_e store_get_type(void); + +/** + * @usage: get information about the current device + * + * @info: the pointer for the information + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_get_device_info(struct storage_info_t *info); + +/** + * @usage: read data from storage device + * + * @name: partition name, when it's null the target + * will regards as whole device. + * @off: offset to the 0 address of partition/device + * @size: the amount of bytes to read + * @buf: pointer of target buffer + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_read(const char *name, loff_t off, size_t size, void *buf); + +/** + * @usage: write data to storage device + * + * @name: partition name, when it's null the target + * will regards as whole device. + * @off: offset to the 0 address of partition/device + * @size: the amount of bytes to write + * @buf: pointer of source buffer + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_write(const char *name, loff_t off, size_t size, void *buf); + +/** + * @usage: erase the storage device + * + * @name: partition name, when it's null the target + * will regards as whole device. + * @off: offset to the 0 address of partition/device + * @size: the amount of bytes to erase + * @scrub: scrub flag(scrub operates will works only when the device support) + * 0 = no scrub, just erase + * 1 = use scrub operates instead of erase + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_erase(const char *name, loff_t off, size_t size, int scrub); + +/** + * @usage: get the partition size or capacity of device + * + * @name: partition name, when it's null the target + * will regards as whole device. + * + * @return: the amount of bytes to the partition or device size + */ +u64 store_part_size(const char *name); + +/** + * @usage: get the copy number of [name] + * + * @name: only can be "bl2" or "tpl"/"fip" in discrete mode + * be "bootloader" in compact mode + * @return: the copy number of the "bootloader" or "tpl" + */ +u8 store_boot_copy_num(const char *name); + +/** + * @usage: get the 1st boot copy nubmer of current device. + * for eMMC: 0 -> user partition; 1 -> boot0; 2 -> boot1 + */ +u8 store_boot_copy_start(void); + +/** + * @usage: get the bootup index of [name] + * + * @name: do not care discrete mode or compact mode + * "bl2" "spl" could be used as the one romboot loaded + * "fip" "devfip" "tpl" or "bootloader" would be the main u-boot. + * @return: the copy number of the "bootloader" or "tpl" + */ +u8 store_bootup_bootidx(const char *name); + +/** + * @usage: restore the bootidx/bootdev etc. + */ +void store_restore_bootidx(void); + +/** + * @usage: get the copy size of [name] + * + * @name: name: only can be "bl2" or "tpl"/"fip" in discrete mode + * be "bootloader" in compact mode + * + * @return: the size of every copy + */ +u64 store_boot_copy_size(const char *name); + +/** + * @usage: read the [name] data from storage device + * + * @name: only can be "bl2" or "tpl"/"fip" in discrete mode + * be "bootloader" in compact mode + * @copy: which copy you want read + * @size: the amount of bytes to read + * @buf: pointer of the target buffer + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_boot_read(const char *name, u8 copy, size_t size, void *buf); + +/** + * @usage: write the [name] data into storage device + * + * @name: only can be "bl2" or "tpl"/"fip" in discrete mode + * be "bootloader" in compact mode + * @copy: which copy you want write, + * it will write to all copies when copy = BOOT_OPS_ALL + * @size: the amount of bytes to write + * @buf: pointer of the source buffer + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_boot_write(const char *name, u8 copy, size_t size, void *buf); + +/** + * @usage: erase the [name] data + * + * @name: only can be "bl2" or "tpl"/"fip" in discrete mode + * be "bootloader" in compact mode + * @copy: which copy you want erase, + * it will erase all copies when copy = BOOT_OPS_ALL + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_boot_erase(const char *name, u8 copy); + +/** + * @usage: get the rsv info size + * + * @name: rsv info name, please refer to + * RSV_KEY "key" + * RSV_ENV "env" + * RSV_DTB "dtb" + * RSV_BBT "bbt" + * + * @return: the amount bytes of the rsv info + */ +u32 store_rsv_size(const char *name); + +/** + * @usage: read the rsv info from storage device + * + * @name: rsv info name, please refer to + * RSV_KEY "key" + * RSV_ENV "env" + * RSV_DTB "dtb" + * RSV_BBT "bbt" + * @size: the amount of bytes to read + * @buf: pointer of the target buffer + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_rsv_read(const char *name, size_t size, void *buf); + +/** + * @usage: write the rsv info to the storage device + * + * @name: rsv info name, please refer to + * RSV_KEY "key" + * RSV_ENV "env" + * RSV_DTB "dtb" + * RSV_BBT "bbt" + * @size: the amount of bytes to write + * @buf: pointer of the source buffer + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_rsv_write(const char *name, size_t size, void *buf); + +/** + * @usage: erase the rsv info + * + * @name: rsv info name, please refer to + * RSV_KEY "key" + * RSV_ENV "env" + * RSV_DTB "dtb" + * RSV_BBT "bbt" + * it will erase all reserve information + * when name is null + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_rsv_erase(const char *name); + +/** + * @usage: turn on/off the protection of rsv info + * + * @name: rsv info name, please refer to + * RSV_KEY "key" + * RSV_ENV "env" + * RSV_DTB "dtb" + * RSV_BBT "bbt" + * it will operates all reserve information + * when name is null + * @ops: turn on/off the rsv info protection + * true = turn on the protection + * flase = turn off the protection + * + * @return: result of the operation + * 0 = success + * other = fail + */ +int store_rsv_protect(const char *name, bool ops); + +/** + * @usage: get bootloader mode for current storage + * + * @return: result of the operation + * 0 = COMPACT_BOOTLOADER + * 1 = DISCRETE_BOOTLOADER + */ +int store_get_device_bootloader_mode(void); + +int sheader_need(void); +void sheader_load(void *addr); + +#endif/* __STORAGE_H__ */ diff --git a/include/amlogic/storagekey.h b/include/amlogic/storagekey.h new file mode 100644 index 0000000000..f258b82c95 --- /dev/null +++ b/include/amlogic/storagekey.h @@ -0,0 +1,57 @@ +#ifndef __STORAGEKEY_H__ +#define __STORAGEKEY_H__ + + +/* storage key interface */ +/** + *1.amlkey_init: init storage key + * return ok 0, fail not 0 + */ +extern int32_t amlkey_init(uint8_t *seed, uint32_t len); + +/** + *2. amlkey_isexsit: query key, already programmed ? + * return: exsit 1, non 0 + */ +extern int32_t amlkey_isexsit(const uint8_t * name); + +/** + * 3. query if the key is secure + * return secure 1, non 0; + */ +extern int32_t amlkey_issecure(const uint8_t * name); + +/** + * 4. amlkey_size: actual bytes of key value + * return actual size. + */ +extern ssize_t amlkey_size(const uint8_t *name); + +/** + *5. amlkey_read: read non-secure key in bytes. + * return actual size read back; 0 means read failed! + */ +extern ssize_t amlkey_read(const uint8_t *name, + uint8_t *buffer, uint32_t len); + +/** + * 6. amlkey_write: write secure/non-secure key in bytes. + * return actual size write down. 0 means write failed! + */ +extern ssize_t amlkey_write(const uint8_t *name, + uint8_t *buffer, uint32_t len, uint32_t secure); + +/** + * 7. get the hash value of programmed secure key | 32bytes length, sha256 + * return success 0, fail -1 + */ +extern int32_t amlkey_hash_4_secure(const uint8_t * name, uint8_t * hash); + +/** + * 8. amlkey_del: del key by name + * return success 0, fail non-0. + */ +extern int32_t amlkey_del(const uint8_t * name); + + +#endif /* __STORAGEKEY_H__ */ diff --git a/include/amlogic/store_wrapper.h b/include/amlogic/store_wrapper.h new file mode 100644 index 0000000000..0f3007de95 --- /dev/null +++ b/include/amlogic/store_wrapper.h @@ -0,0 +1,56 @@ +/* + * \file store_wrapper.h + * \brief wraaper for storage apis + * + * \version 1.0.0 + * \date 2019/5/30 + * \author Sam.Wu + * + * Copyright (c) 2019 Amlogic. All Rights Reserved. + * + */ +#ifndef __STORE_WRAPPER_H__ +#define __STORE_WRAPPER_H__ +#include + +//logic write/read, if not MTD, same as store_write +int store_logic_write(const char *name, loff_t off, size_t size, void *buf); + +int store_logic_read(const char *name, loff_t off, size_t size, void *buf); + +u64 store_logic_cap(const char* partName); + +#define AML_MAGIC_HDR_L (0x4c4d4140) //"@AML" +#define AML_MAGIC_HDR_R (0x544f4f42) //"BOOT" + +#define AML_MAGIC_CORE (0X54534242) //"BBST" +#define AML_MAGIC_BL2E (0x45324c42) //"BL2E" +#define AML_MAGIC_BL2X (0x58324c42) //"BL2X" +#define AML_MAGIC_DDRF (0x46524444) //"DDRF" +#define AML_MAGIC_DEVF (0x46564544) //"DEVF" +typedef struct{ + unsigned int nMagic; //"BBST", "BL2E", "BL2X", "DDRF", "DEVF" + unsigned int nOffset; //offset from file head of file + unsigned int nPayLoadSize; //size of payload + unsigned int nReserved; //reserved for future +}payload_info_item_t, *p_payload_info_item_t; + +typedef struct{ + unsigned char szSHA2[32]; //sha256 of sizeof(payload_info_t) - sizeof(szSHA2) + unsigned int nMagicL; //"@AML" + unsigned int nMagicR; //"BOOT" + unsigned char byVersion; //version:0,1,2,.... + unsigned char byItemNum; //number of items + unsigned short nSize; //sizeof(this) = sizeof(hdr) + sizeof(item) * byItemNum + unsigned char szReserved1[4]; + char szTimeStamp[16];//"SC2-YYYYMMDDHHmm" e.g "SC2-202007082259" + +}payload_info_hdr_t, *p_payload_info_hdr_t; + +typedef struct{ + payload_info_hdr_t hdr; //header + payload_info_item_t arrItems[1]; //items +}payload_info_t, *p_payload_info_t; + +#endif//#ifndef __STORE_WRAPPER_H__ + diff --git a/include/amlstorage/emmc_partitions.h b/include/amlstorage/emmc_partitions.h new file mode 100644 index 0000000000..5edc1f89c8 --- /dev/null +++ b/include/amlstorage/emmc_partitions.h @@ -0,0 +1,271 @@ +#ifndef _AML_MMC_H +#define _AML_MMC_H + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +//#include +#include +#include +#include + +#define AML_MMC_DBG + +#define MAX_DEVICE_NUM 32 +#define MAX_DEVICE_NAME_LEN 16 +#define MAX_MMC_PART_NUM 32 +#define MAX_MMC_PART_NAME_LEN 16 + +#ifndef CONFIG_AML_MMC_INHERENT_PART +#define PARTITION_RESERVED (8*SZ_1M) // 8MB +#define MMC_BOOT_PARTITION_RESERVED (32*SZ_1M) // 32MB +#define RESERVED_GPT_OFFSET (36*SZ_1M) // 36MB + +#define MMC_BOOT_NAME "bootloader" +#define MMC_BOOT_NAME0 "bootloader-boot0" +#define MMC_BOOT_NAME1 "bootloader-boot1" +#define MMC_BOOT_DEVICE_SIZE (0x4*SZ_1M) + +#define MMC_RESERVED_NAME "reserved" +#define MMC_RESERVED_SIZE (64*SZ_1M) +#define MMC_BOTTOM_RSV_SIZE (0) +#endif /* CONFIG_AML_MMC_INHERENT_PART */ + +#define MMC_FREERTOS_NAME "rtos-0" +#define MMC_NBG_NAME "NBG" + +#define MMC_CACHE_NAME "cache" +// #define MMC_CACHE_SIZE (512*SZ_1M) // this is not used and should be get from spl + +#define MMC_ENV_NAME "env" +#define MMC_ENV_SIZE (8*SZ_1M) + +#define MMC_KEY_NAME "key" +#define MMC_KEY_SIZE (256*1024) +#define EMMCKEY_RESERVE_OFFSET (0x4000) +#define MMC_RESERVED_OFFSET (36*SZ_1M) +#define MMC_BLOCK_SIZE (512) +// #define MMC_SECURE_NAME "secure" +// #define MMC_SECURE_SIZE (0x1*SZ_1M) + +#define MMC_DDR_PARAMETER_NAME "ddr-parameter" +#define DDR_PARAMETER_OFFSET (SZ_1M * 8) +#define DDR_PARAMETER_SIZE (4 * 512) + +#define MMC_MPT_VERSION_1 "01.00.00" +#define MMC_MPT_VERSION_2 "01.02.00" +/* version in use, fixme when kenel driver is updated. */ +#define MMC_MPT_VERSION MMC_MPT_VERSION_1 + +#define MMC_PARTITIONS_MAGIC "MPT" // MMC Partition Table +#define MMC_CARD_PARTITION_NAME "card" + +/* virtual partitions*/ + +#define MMC_MBR_NAME ("AML_MBR") +/* offset&size of mbr will not be used */ +#define MMC_MBR_OFFSET (0x0) +#define MMC_MBR_SIZE (0x200) + +/* +* partition table +* |<----partition_table---->|<----key---->| +* +*/ +#define MMC_TABLE_NAME ("AML_TABLE") +#define MMC_TABLE_OFFSET (0x0) +#define MMC_TABLE_SIZE (16*1024) + +/* +* write 128KB data pattern +* |<----pattern---->||<------DTB------>| +*/ +#define MMC_PATTERN_NAME "pattern" +#define CALI_PATTERN_OFFSET (SZ_1M * 3) +#define CALI_PATTERN_SIZE (256 * 512) +#define CALI_BLOCK_SIZE (512) +#define CALI_PATTERN (0x55aa55aa) + +#define MMC_MAGIC_NAME "magic" +#define MAGIC_OFFSET (SZ_1M * 6) +#define MAGIC_SIZE (256 * 512) +#define MAGIC_BLOCK_SIZE (512) +#define MAGIC_PATTERN (0X00FF00FF) + +#define MMC_RANDOM_NAME "random" +#define RANDOM_OFFSET (SZ_1M * 7) +#define RANDOM_SIZE (256 * 512) +#define RANDOM_BLOCK_SIZE (512) +#define RANDOM_PATTERN (0X52414E44) +/* + * 2 copies dtb were stored in dtb area. + * each is 256K. + * timestamp&checksum are in the tail. + * |<--------------DTB Area-------------->| + * |<------DTB1------->|<------DTB2------>| + */ +#define MMC_DTB_NAME "dtb" +#define DTB_OFFSET (SZ_1M * 4) +#define DTB_BLK_SIZE (512) +#define DTB_BLK_CNT (512) +#define DTB_SIZE (DTB_BLK_CNT * DTB_BLK_SIZE) +#define DTB_COPIES (2) +#define DTB_AREA_BLK_CNT (DTB_BLK_CNT * DTB_COPIES) +#define EMMC_DTB_DEV (1) +#define EMMC_FASTBOOT_CONTEXT_DEV (1) + +#define MMC_FASTBOOT_CONTEXT_NAME "fastboot_context" +#define FASTBOOT_CONTEXT_OFFSET (SZ_1M * 5) +#define FASTBOOT_CONTEXT_SIZE (512) +#define GPT_LBA_COUNT 34 +#define GPT_TOTAL_SIZE (GPT_LBA_COUNT * 512) + +struct virtual_partition { + char name[MAX_MMC_PART_NAME_LEN]; + uint64_t offset; + uint64_t size; +}; + +#define VIRTUAL_PARTITION_ELEMENT(na, of, sz) {.name = na, .offset = of, .size = sz,} + +struct aml_pattern { + char name[MAX_MMC_PART_NAME_LEN]; + unsigned int pattern; +}; +#define AML_PATTERN_ELEMENT(na, pa) {.name = na, .pattern = pa,} + +#ifdef AML_MMC_DBG +#define aml_mmc_dbg(fmt, ...) printk( "%s: line:%d " fmt "\n", \ + __func__, __LINE__, ##__VA_ARGS__) + +#define aml_mmc_msg(fmt, ...) printk( "%s: line:%d " fmt "\n", \ + __func__, __LINE__, ##__VA_ARGS__) +#else +#define aml_mmc_dbg(fmt, ...) +#define aml_mmc_msg(fmt, ...) printk( fmt "\n", ##__VA_ARGS__) +#endif + +#define DOS_MBR 0 +#define DOS_PBR 1 + +#define DOS_PBR_FSTYPE_OFFSET 0x36 +#define DOS_PBR32_FSTYPE_OFFSET 0x52 + +#define DOS_PART_DISKSIG_OFFSET 0x1b8 +#define DOS_PART_TBL_OFFSET 0x1be +#define DOS_PART_MAGIC_OFFSET 0x1fe +#define DOS_PBR_MEDIA_TYPE_OFFSET 0x15 + +#define DOS_PARTITION_COUNT 32 + +typedef struct dos_partition { + unsigned char boot_ind; /* 0x80 - active */ + unsigned char head; /* starting head */ + unsigned char sector; /* starting sector */ + unsigned char cyl; /* starting cylinder */ + unsigned char sys_ind; /* What partition type */ + unsigned char end_head; /* end head */ + unsigned char end_sector; /* end sector */ + unsigned char end_cyl; /* end cylinder */ + unsigned char start4[4]; /* starting sector counting from 0 */ + unsigned char size4[4]; /* nr of sectors in partition */ +} dos_partition_t; + +struct dos_mbr_or_ebr{ + unsigned char bootstart[446]; + struct dos_partition part_entry[4]; + unsigned char magic[2]; +}; + +struct mmc_partitions_fmt { + char magic[4]; + unsigned char version[12]; + int part_num; + int checksum; + struct partitions partitions[MAX_MMC_PART_NUM]; +}; + +struct mmc_partition_config{ + unsigned char version[12]; + int part_num; + struct partitions partitions[MAX_MMC_PART_NUM]; + unsigned option; + void * private_data; +}; + +/* +struct _mmc_device{ + char name[MAX_DEVICE_NAME_LEN]; + uint64_t offset; + uint64_t size; + void * private_data; + struct list_head list; +}; +*/ + +#define LOCK_MAJOR_VERSION 1 +#define LOCK_MINOR_VERSION 0 + +#define LOCK_DATA_SIZE 16 + +typedef struct LockData { + uint8_t version_major; + uint8_t version_minor; + uint8_t unlock_ability; + + /* Padding to eight bytes. */ + uint8_t reserved1; + + /* 0: unlock 1: lock*/ + uint8_t lock_state; + + /* 0: unlock 1: lock*/ + uint8_t lock_critical_state; + + /* 0: enable bootloader version rollback 1: prevent bootloader version rollback*/ + uint8_t lock_bootloader; + uint8_t reserved2[1]; +} LockData_t; + +/*512Bytes*/ +typedef struct FastbootContext { + /* locks */ + LockData_t lock; + uint8_t rsv[248]; + /* checksum, storage driver care */ + uint32_t crc32; +} FastbootContext_t; + +extern bool is_partition_checked; +extern struct partitions emmc_partition_table[]; + +extern int get_emmc_partition_arraysize(void); + +/* + * get the partition number by name + * return value + * < 0 means no partition found + * >= 0 means valid partition + */ +extern int get_partition_num_by_name(char const *name); + +struct partitions* find_mmc_partition_by_name (char const *name); +struct partitions *aml_get_partition_by_name(const char *name); +int mmc_boot_size(char *name, uint64_t* size); +struct virtual_partition *aml_get_virtual_partition_by_name(const char *name); +bool aml_is_emmc_tsd (struct mmc *mmc); +int mmc_device_init (struct mmc *mmc); + +#define PARTITION_ELEMENT(na, sz, flags) {.name = na, .size = sz, .mask_flags = flags,} + +#endif diff --git a/include/amlstorage/emmc_storage.h b/include/amlstorage/emmc_storage.h new file mode 100644 index 0000000000..f2dc55fde7 --- /dev/null +++ b/include/amlstorage/emmc_storage.h @@ -0,0 +1,76 @@ +/*********************************************** +*****Storage config of board, for ACS use.***** +***********************************************/ + +#ifndef __STORAGE_H +#define __STORAGE_H + +#include +#include +#ifndef __ASSEMBLY__ + +//Partition table defines +#define NAND_PART_SIZE_FULL -1 +#define MAX_PART_NUM 32 +#define MAX_PART_NAME_LEN 16 +//#define SZ_1M 0x100000 + +#define STORE_CODE 1 +#define STORE_CACHE (1<<1) +#define STORE_DATA (1<<2) + +#define SPI_BOOT_FLAG 0 +#define NAND_BOOT_FLAG 1 +#define EMMC_BOOT_FLAG 2 +#define CARD_BOOT_FLAG 3 +#define SPI_NAND_FLAG 4 +#define SPI_EMMC_FLAG 5 + +#define CARD_TYPE_SHIFT 4 +#define CARD_TYPE_MASK 0xf +#define CARD_TYPE_UNKNOWN 0 /* unknown */ +//#define CARD_TYPE_MMC 1 /* MMC card */ +//#define CARD_TYPE_SD 2 /* SD card */ +#define CARD_TYPE_SDIO 3 /* SDIO card */ +#define CARD_TYPE_SD_COMBO 4 /* SD combo (IO+mem) card */ +#define CARD_TYPE_NON_SDIO 5 /* NON sdio device (means SD/MMC card) */ + +#define AML_GET_CARD_TYPE(val, port) ((val >> (port * CARD_TYPE_SHIFT)) & CARD_TYPE_MASK) +#define AML_SET_CARD_TYPE(val, port, type) \ + (val |= ((type & CARD_TYPE_MASK) << (port * CARD_TYPE_SHIFT))) + +/* storage device */ +#define STORAGE_DEV_NOSET (0) +#define STORAGE_DEV_EMMC (1) +#define STORAGE_DEV_NAND (2) +#define STORAGE_DEV_SPI (3) +#define STORAGE_DEV_SDCARD (4) +#define STORAGE_DEV_USB (5) + +struct partitions { + char name[MAX_PART_NAME_LEN]; /* identifier string */ + uint64_t size; /* partition size */ + uint64_t offset; /* offset within the master space */ + unsigned mask_flags; /* master flags to mask out for this partition */ +}; + +struct config_nand { + unsigned enable_slc; + unsigned order_ce; + unsigned reserved[2]; +}; + +struct config_mmc { + unsigned type; + unsigned port; + unsigned reserved[2]; +}; + +struct store_config { + unsigned store_device_flag; // indicate storage devices on each board + struct config_nand nand_configs; // specital config for nand + struct config_mmc mmc_configs; // specital config for mmc +}; + +#endif +#endif diff --git a/include/amlstorage/partition_table.h b/include/amlstorage/partition_table.h new file mode 100644 index 0000000000..4e170f3748 --- /dev/null +++ b/include/amlstorage/partition_table.h @@ -0,0 +1,72 @@ +#ifndef _PARTITION_TABLE_H +#define _PARTITION_TABLE_H +// #ifdef CONFIG_STORE_COMPATIBLE +#include +#include +// #endif +//#include +//#include + + +#define STORE_DBG +#ifdef STORE_DBG +#define store_dbg(fmt, ...) printk( "%s: line:%d " fmt "\n", \ + __func__, __LINE__, ##__VA_ARGS__) + +#define store_msg(fmt, ...) printk( "%s: line:%d " fmt "\n", \ + __func__, __LINE__, ##__VA_ARGS__) +#else +#define store_dbg(fmt, ...) +#define store_msg(fmt, ...) printk( fmt "\n", ##__VA_ARGS__) +#endif + +//boot_flag +//#define R_BOOT_DEVICE_FLAG READ_CBUS_REG(ASSIST_POR_CONFIG) + +//#if MESON_CPU_TYPE >= MESON_CPU_TYPE_MESON8 +//#define POR_BOOT_VALUE ((((R_BOOT_DEVICE_FLAG>>9)&1)<<2)|((R_BOOT_DEVICE_FLAG>>6)&3)) +//#else +//#define POR_BOOT_VALUE (R_BOOT_DEVICE_FLAG & 7) +//#endif + +//#if 1 /*defined in poc.h*/ +//#define POR_NAND_BOOT() ((POR_BOOT_VALUE == 7) || (POR_BOOT_VALUE == 6)) +//#define POR_SPI_BOOT() ((POR_BOOT_VALUE == 5) || (POR_BOOT_VALUE == 4)) +//#define POR_EMMC_BOOT() ((IS_MESON_M8M2_CPU | IS_MESON_M8BABY_CPU)?((POR_BOOT_VALUE == 3) || ((POR_BOOT_VALUE == 1))):(POR_BOOT_VALUE == 3)) +//#define POR_CARD_BOOT() (POR_BOOT_VALUE == 0) +//#endif + +#define SPI_BOOT_FLAG 0 +#define NAND_BOOT_FLAG 1 +#define EMMC_BOOT_FLAG 2 +#define CARD_BOOT_FLAG 3 +#define SPI_NAND_FLAG 4 +#define SPI_EMMC_FLAG 5 + +#define _AML_DEVICE_BOOT_FLAG_DEFAULT (0XFFFFFFFF) + +#define START_ADDR 0xd9000200 +#define TABLE_MAGIC_NAME "part" +#define STORE_MAGIC_NAME "stor" +#define ACS_SET_LEN 128 + +extern int info_disprotect; + +extern int has_boot_slot; +extern int has_system_slot; +extern bool dynamic_partition; +extern bool vendor_boot_partition; + +extern int get_partition_from_dts(unsigned char * buffer); + +extern int get_partitions_table(struct partitions **table); + +#define AML_DTB_IMG_MAX_SZ ((256<<10) - 512) +extern struct partitions *get_partitions(void); + +extern int get_partition_count(void); +extern void free_partitions(void); +/* only nand&emmc for gxb and later soc */ + +#endif// #ifndef _PARTITION_TABLE_H + -- 2.34.1