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arm-trusted-firmware/plat/arm/common/arm_bl31_setup.c
Soby Mathew c099cd3942 ARM platforms: Move BL31 below BL2 to enable BL2 overlay 
The patch changes the layout of BL images in memory to enable
more efficient use of available space. Previously BL31 was loaded
with the expectation that BL2 memory would be reclaimed by BL32
loaded in SRAM. But with increasing memory requirements in the
firmware, we can no longer fit BL32 in SRAM anymore which means the
BL2 memory is not reclaimed by any runtime image. Positioning BL2
below BL1-RW and above BL31 means that the BL31 NOBITS can be
overlaid on BL2 and BL1-RW.

This patch also propogates the same memory layout to BL32 for AArch32
mode. The reset addresses for the following configurations are also
changed :
   * When RESET_TO_SP_MIN=1 for BL32 in AArch32 mode
   * When BL2_AT_EL3=1 for BL2

The restriction on BL31 to be only in DRAM when SPM is enabled
is now removed with this change. The update to the firmware design
guide for the BL memory layout is done in the following patch.

Change-Id: Icca438e257abe3e4f5a8215f945b9c3f9fbf29c9
Signed-off-by: Soby Mathew <soby.mathew@arm.com>
2018-06-07 12:26:19 +01:00

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/*
* Copyright (c) 2015-2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <arch_helpers.h>
#include <arm_def.h>
#include <assert.h>
#include <bl_common.h>
#include <console.h>
#include <debug.h>
#include <mmio.h>
#include <plat_arm.h>
#include <platform.h>
#include <ras.h>
#define BL31_END (uintptr_t)(&__BL31_END__)
/*
* Placeholder variables for copying the arguments that have been passed to
* BL31 from BL2.
*/
static entry_point_info_t bl32_image_ep_info;
static entry_point_info_t bl33_image_ep_info;
/*
* Check that BL31_BASE is above ARM_TB_FW_CONFIG_LIMIT. The reserved page
* is required for SOC_FW_CONFIG/TOS_FW_CONFIG passed from BL2.
*/
CASSERT(BL31_BASE >= ARM_TB_FW_CONFIG_LIMIT, assert_bl31_base_overflows);
/* Weak definitions may be overridden in specific ARM standard platform */
#pragma weak bl31_early_platform_setup2
#pragma weak bl31_platform_setup
#pragma weak bl31_plat_arch_setup
#pragma weak bl31_plat_get_next_image_ep_info
/*******************************************************************************
* Return a pointer to the 'entry_point_info' structure of the next image for the
* security state specified. BL33 corresponds to the non-secure image type
* while BL32 corresponds to the secure image type. A NULL pointer is returned
* if the image does not exist.
******************************************************************************/
entry_point_info_t *bl31_plat_get_next_image_ep_info(uint32_t type)
{
entry_point_info_t *next_image_info;
assert(sec_state_is_valid(type));
next_image_info = (type == NON_SECURE)
? &bl33_image_ep_info : &bl32_image_ep_info;
/*
* None of the images on the ARM development platforms can have 0x0
* as the entrypoint
*/
if (next_image_info->pc)
return next_image_info;
else
return NULL;
}
/*******************************************************************************
* Perform any BL31 early platform setup common to ARM standard platforms.
* Here is an opportunity to copy parameters passed by the calling EL (S-EL1
* in BL2 & S-EL3 in BL1) before they are lost (potentially). This needs to be
* done before the MMU is initialized so that the memory layout can be used
* while creating page tables. BL2 has flushed this information to memory, so
* we are guaranteed to pick up good data.
******************************************************************************/
#if LOAD_IMAGE_V2
void arm_bl31_early_platform_setup(void *from_bl2, uintptr_t soc_fw_config,
uintptr_t hw_config, void *plat_params_from_bl2)
#else
void arm_bl31_early_platform_setup(bl31_params_t *from_bl2, uintptr_t soc_fw_config,
uintptr_t hw_config, void *plat_params_from_bl2)
#endif
{
/* Initialize the console to provide early debug support */
console_init(PLAT_ARM_BOOT_UART_BASE, PLAT_ARM_BOOT_UART_CLK_IN_HZ,
ARM_CONSOLE_BAUDRATE);
#if RESET_TO_BL31
/* There are no parameters from BL2 if BL31 is a reset vector */
assert(from_bl2 == NULL);
assert(plat_params_from_bl2 == NULL);
# ifdef BL32_BASE
/* Populate entry point information for BL32 */
SET_PARAM_HEAD(&bl32_image_ep_info,
PARAM_EP,
VERSION_1,
0);
SET_SECURITY_STATE(bl32_image_ep_info.h.attr, SECURE);
bl32_image_ep_info.pc = BL32_BASE;
bl32_image_ep_info.spsr = arm_get_spsr_for_bl32_entry();
# endif /* BL32_BASE */
/* Populate entry point information for BL33 */
SET_PARAM_HEAD(&bl33_image_ep_info,
PARAM_EP,
VERSION_1,
0);
/*
* Tell BL31 where the non-trusted software image
* is located and the entry state information
*/
bl33_image_ep_info.pc = plat_get_ns_image_entrypoint();
bl33_image_ep_info.spsr = arm_get_spsr_for_bl33_entry();
SET_SECURITY_STATE(bl33_image_ep_info.h.attr, NON_SECURE);
# if ARM_LINUX_KERNEL_AS_BL33
/*
* According to the file ``Documentation/arm64/booting.txt`` of the
* Linux kernel tree, Linux expects the physical address of the device
* tree blob (DTB) in x0, while x1-x3 are reserved for future use and
* must be 0.
*/
bl33_image_ep_info.args.arg0 = (u_register_t)ARM_PRELOADED_DTB_BASE;
bl33_image_ep_info.args.arg1 = 0U;
bl33_image_ep_info.args.arg2 = 0U;
bl33_image_ep_info.args.arg3 = 0U;
# endif
#else /* RESET_TO_BL31 */
/*
* In debug builds, we pass a special value in 'plat_params_from_bl2'
* to verify platform parameters from BL2 to BL31.
* In release builds, it's not used.
*/
assert(((unsigned long long)plat_params_from_bl2) ==
ARM_BL31_PLAT_PARAM_VAL);
# if LOAD_IMAGE_V2
/*
* Check params passed from BL2 should not be NULL,
*/
bl_params_t *params_from_bl2 = (bl_params_t *)from_bl2;
assert(params_from_bl2 != NULL);
assert(params_from_bl2->h.type == PARAM_BL_PARAMS);
assert(params_from_bl2->h.version >= VERSION_2);
bl_params_node_t *bl_params = params_from_bl2->head;
/*
* Copy BL33 and BL32 (if present), entry point information.
* They are stored in Secure RAM, in BL2's address space.
*/
while (bl_params) {
if (bl_params->image_id == BL32_IMAGE_ID)
bl32_image_ep_info = *bl_params->ep_info;
if (bl_params->image_id == BL33_IMAGE_ID)
bl33_image_ep_info = *bl_params->ep_info;
bl_params = bl_params->next_params_info;
}
if (bl33_image_ep_info.pc == 0)
panic();
# else /* LOAD_IMAGE_V2 */
/*
* Check params passed from BL2 should not be NULL,
*/
assert(from_bl2 != NULL);
assert(from_bl2->h.type == PARAM_BL31);
assert(from_bl2->h.version >= VERSION_1);
/* Dynamic Config is not supported for LOAD_IMAGE_V1 */
assert(soc_fw_config == 0);
assert(hw_config == 0);
/*
* Copy BL32 (if populated by BL2) and BL33 entry point information.
* They are stored in Secure RAM, in BL2's address space.
*/
if (from_bl2->bl32_ep_info)
bl32_image_ep_info = *from_bl2->bl32_ep_info;
bl33_image_ep_info = *from_bl2->bl33_ep_info;
# endif /* LOAD_IMAGE_V2 */
#endif /* RESET_TO_BL31 */
}
void bl31_early_platform_setup2(u_register_t arg0, u_register_t arg1,
u_register_t arg2, u_register_t arg3)
{
arm_bl31_early_platform_setup((void *)arg0, arg1, arg2, (void *)arg3);
/*
* Initialize Interconnect for this cluster during cold boot.
* No need for locks as no other CPU is active.
*/
plat_arm_interconnect_init();
/*
* Enable Interconnect coherency for the primary CPU's cluster.
* Earlier bootloader stages might already do this (e.g. Trusted
* Firmware's BL1 does it) but we can't assume so. There is no harm in
* executing this code twice anyway.
* Platform specific PSCI code will enable coherency for other
* clusters.
*/
plat_arm_interconnect_enter_coherency();
}
/*******************************************************************************
* Perform any BL31 platform setup common to ARM standard platforms
******************************************************************************/
void arm_bl31_platform_setup(void)
{
/* Initialize the GIC driver, cpu and distributor interfaces */
plat_arm_gic_driver_init();
plat_arm_gic_init();
#if RESET_TO_BL31
/*
* Do initial security configuration to allow DRAM/device access
* (if earlier BL has not already done so).
*/
plat_arm_security_setup();
#if defined(PLAT_ARM_MEM_PROT_ADDR)
arm_nor_psci_do_dyn_mem_protect();
#endif /* PLAT_ARM_MEM_PROT_ADDR */
#endif /* RESET_TO_BL31 */
/* Enable and initialize the System level generic timer */
mmio_write_32(ARM_SYS_CNTCTL_BASE + CNTCR_OFF,
CNTCR_FCREQ(0) | CNTCR_EN);
/* Allow access to the System counter timer module */
arm_configure_sys_timer();
/* Initialize power controller before setting up topology */
plat_arm_pwrc_setup();
#if RAS_EXTENSION
ras_init();
#endif
}
/*******************************************************************************
* Perform any BL31 platform runtime setup prior to BL31 exit common to ARM
* standard platforms
******************************************************************************/
void arm_bl31_plat_runtime_setup(void)
{
/* Initialize the runtime console */
console_init(PLAT_ARM_BL31_RUN_UART_BASE, PLAT_ARM_BL31_RUN_UART_CLK_IN_HZ,
ARM_CONSOLE_BAUDRATE);
}
void bl31_platform_setup(void)
{
arm_bl31_platform_setup();
}
void bl31_plat_runtime_setup(void)
{
arm_bl31_plat_runtime_setup();
}
/*******************************************************************************
* Perform the very early platform specific architectural setup shared between
* ARM standard platforms. This only does basic initialization. Later
* architectural setup (bl31_arch_setup()) does not do anything platform
* specific.
******************************************************************************/
void arm_bl31_plat_arch_setup(void)
{
arm_setup_page_tables(BL31_BASE,
BL31_END - BL31_BASE,
BL_CODE_BASE,
BL_CODE_END,
BL_RO_DATA_BASE,
BL_RO_DATA_END
#if USE_COHERENT_MEM
, BL_COHERENT_RAM_BASE,
BL_COHERENT_RAM_END
#endif
);
enable_mmu_el3(0);
}
void bl31_plat_arch_setup(void)
{
arm_bl31_plat_arch_setup();
}
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