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u-boot/drivers/power/regulator/qcom-rpmh-regulator.c
Luca Weiss a6b78ac5d0 regulator: qcom-rpmh-regulator: add support for pm6150l regulators 
Add the pm6150l regulator data found on the Qualcomm SM6350 platform.
The tables are imported from the Linux driver. The SMPS regulators were
not added now.

Reviewed-by: Neil Armstrong <neil.armstrong@linaro.org>
Signed-off-by: Luca Weiss <luca.weiss@fairphone.com>
2025-10-29 12:27:33 +01:00

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// SPDX-License-Identifier: GPL-2.0
// Copyright (c) 2018-2021, The Linux Foundation. All rights reserved.
// Copyright (c) 2023 Qualcomm Innovation Center, Inc. All rights reserved.
#define pr_fmt(fmt) "%s: " fmt, __func__
#include <linux/err.h>
#include <dm/device_compat.h>
#include <dm/device.h>
#include <dm/devres.h>
#include <dm/lists.h>
#include <power/regulator.h>
#include <log.h>
#include <soc/qcom/cmd-db.h>
#include <soc/qcom/rpmh.h>
#include <dt-bindings/regulator/qcom,rpmh-regulator.h>
/**
* enum rpmh_regulator_type - supported RPMh accelerator types
* @VRM: RPMh VRM accelerator which supports voting on enable, voltage,
* and mode of LDO, SMPS, and BOB type PMIC regulators.
* @XOB: RPMh XOB accelerator which supports voting on the enable state
* of PMIC regulators.
*/
enum rpmh_regulator_type {
VRM,
XOB,
};
enum rpmh_regulator_mode {
REGULATOR_MODE_RETENTION,
REGULATOR_MODE_LPM,
REGULATOR_MODE_AUTO,
REGULATOR_MODE_HPM,
};
#define RPMH_REGULATOR_REG_VRM_VOLTAGE 0x0
#define RPMH_REGULATOR_REG_ENABLE 0x4
#define RPMH_REGULATOR_REG_VRM_MODE 0x8
#define PMIC4_LDO_MODE_RETENTION 4
#define PMIC4_LDO_MODE_LPM 5
#define PMIC4_LDO_MODE_HPM 7
#define PMIC4_SMPS_MODE_RETENTION 4
#define PMIC4_SMPS_MODE_PFM 5
#define PMIC4_SMPS_MODE_AUTO 6
#define PMIC4_SMPS_MODE_PWM 7
#define PMIC4_BOB_MODE_PASS 0
#define PMIC4_BOB_MODE_PFM 1
#define PMIC4_BOB_MODE_AUTO 2
#define PMIC4_BOB_MODE_PWM 3
#define PMIC5_LDO_MODE_RETENTION 3
#define PMIC5_LDO_MODE_LPM 4
#define PMIC5_LDO_MODE_HPM 7
#define PMIC5_SMPS_MODE_RETENTION 3
#define PMIC5_SMPS_MODE_PFM 4
#define PMIC5_SMPS_MODE_AUTO 6
#define PMIC5_SMPS_MODE_PWM 7
#define PMIC5_BOB_MODE_PASS 2
#define PMIC5_BOB_MODE_PFM 4
#define PMIC5_BOB_MODE_AUTO 6
#define PMIC5_BOB_MODE_PWM 7
/**
* struct linear_range - table of selector - value pairs
*
* Define a lookup-table for range of values. Intended to help when looking
* for a register value matching certaing physical measure (like voltage).
* Usable when increment of one in register always results a constant increment
* of the physical measure (like voltage).
*
* @min: Lowest value in range
* @min_sel: Lowest selector for range
* @max_sel: Highest selector for range
* @step: Value step size
*/
struct linear_range {
unsigned int min;
unsigned int min_sel;
unsigned int max_sel;
unsigned int step;
};
/* Initialize struct linear_range for regulators */
#define REGULATOR_LINEAR_RANGE(_min_uV, _min_sel, _max_sel, _step_uV) \
{ \
.min = _min_uV, \
.min_sel = _min_sel, \
.max_sel = _max_sel, \
.step = _step_uV, \
}
/**
* struct rpmh_vreg_hw_data - RPMh regulator hardware configurations
* @regulator_type: RPMh accelerator type used to manage this
* regulator
* @ops: Pointer to regulator ops callback structure
* @voltage_range: The single range of voltages supported by this
* PMIC regulator type
* @n_voltages: The number of unique voltage set points defined
* by voltage_range
* @hpm_min_load_uA: Minimum load current in microamps that requires
* high power mode (HPM) operation. This is used
* for LDO hardware type regulators only.
* @pmic_mode_map: Array indexed by regulator framework mode
* containing PMIC hardware modes. Must be large
* enough to index all framework modes supported
* by this regulator hardware type.
* @of_map_mode: Maps an RPMH_REGULATOR_MODE_* mode value defined
* in device tree to a regulator framework mode
*/
struct rpmh_vreg_hw_data {
enum rpmh_regulator_type regulator_type;
const struct dm_regulator_ops *ops;
struct linear_range voltage_range;
int n_voltages;
int hpm_min_load_uA;
struct dm_regulator_mode *pmic_mode_map;
int n_modes;
unsigned int (*of_map_mode)(unsigned int mode);
};
/**
* struct rpmh_vreg - individual RPMh regulator data structure encapsulating a
* single regulator device
* @dev: Device pointer for the top-level PMIC RPMh
* regulator parent device. This is used as a
* handle in RPMh write requests.
* @addr: Base address of the regulator resource within
* an RPMh accelerator
* @rdesc: Regulator descriptor
* @hw_data: PMIC regulator configuration data for this RPMh
* regulator
* @always_wait_for_ack: Boolean flag indicating if a request must always
* wait for an ACK from RPMh before continuing even
* if it corresponds to a strictly lower power
* state (e.g. enabled --> disabled).
* @enabled: Flag indicating if the regulator is enabled or
* not
* @bypassed: Boolean indicating if the regulator is in
* bypass (pass-through) mode or not. This is
* only used by BOB rpmh-regulator resources.
* @uv: Selector used for get_voltage_sel() and
* set_value() callbacks
* @mode: RPMh VRM regulator current framework mode
*/
struct rpmh_vreg {
struct udevice *dev;
u32 addr;
const struct rpmh_vreg_hw_data *hw_data;
bool always_wait_for_ack;
int enabled;
bool bypassed;
int uv;
int mode;
};
/**
* struct rpmh_vreg_init_data - initialization data for an RPMh regulator
* @name: Name for the regulator which also corresponds
* to the device tree subnode name of the regulator
* @resource_name: RPMh regulator resource name format string.
* This must include exactly one field: '%s' which
* is filled at run-time with the PMIC ID provided
* by device tree property qcom,pmic-id. Example:
* "ldo%s1" for RPMh resource "ldoa1".
* @supply_name: Parent supply regulator name
* @hw_data: Configuration data for this PMIC regulator type
*/
struct rpmh_vreg_init_data {
const char *name;
const char *resource_name;
const char *supply_name;
const struct rpmh_vreg_hw_data *hw_data;
};
/**
* rpmh_regulator_send_request() - send the request to RPMh
* @vreg: Pointer to the RPMh regulator
* @cmd: Pointer to the RPMh command to send
* @wait_for_ack: Boolean indicating if execution must wait until the
* request has been acknowledged as complete
*
* Return: 0 on success, errno on failure
*/
static int rpmh_regulator_send_request(struct rpmh_vreg *vreg,
const struct tcs_cmd *cmd, bool wait_for_ack)
{
int ret;
if (wait_for_ack || vreg->always_wait_for_ack)
ret = rpmh_write(vreg->dev->parent, RPMH_ACTIVE_ONLY_STATE, cmd, 1);
else
ret = rpmh_write_async(vreg->dev->parent, RPMH_ACTIVE_ONLY_STATE, cmd, 1);
return ret;
}
static int _rpmh_regulator_vrm_set_value(struct udevice *rdev,
int uv, bool wait_for_ack)
{
struct rpmh_vreg *vreg = dev_get_priv(rdev);
struct tcs_cmd cmd = {
.addr = vreg->addr + RPMH_REGULATOR_REG_VRM_VOLTAGE,
};
int ret;
unsigned int selector;
selector = (uv - vreg->hw_data->voltage_range.min) / vreg->hw_data->voltage_range.step;
cmd.data = DIV_ROUND_UP(vreg->hw_data->voltage_range.min +
selector * vreg->hw_data->voltage_range.step, 1000);
ret = rpmh_regulator_send_request(vreg, &cmd, wait_for_ack);
if (!ret)
vreg->uv = cmd.data * 1000;
return ret;
}
static int rpmh_regulator_vrm_set_value(struct udevice *rdev,
int uv)
{
struct rpmh_vreg *vreg = dev_get_priv(rdev);
debug("%s: set_value %d (current %d)\n", rdev->name, uv, vreg->uv);
if (vreg->enabled == -EINVAL) {
/*
* Cache the voltage and send it later when the regulator is
* enabled or disabled.
*/
vreg->uv = uv;
return 0;
}
return _rpmh_regulator_vrm_set_value(rdev, uv,
uv > vreg->uv);
}
static int rpmh_regulator_vrm_get_value(struct udevice *rdev)
{
struct rpmh_vreg *vreg = dev_get_priv(rdev);
debug("%s: get_value %d\n", rdev->name, vreg->uv);
return vreg->uv;
}
static int rpmh_regulator_is_enabled(struct udevice *rdev)
{
struct rpmh_vreg *vreg = dev_get_priv(rdev);
debug("%s: is_enabled %d\n", rdev->name, vreg->enabled);
return vreg->enabled > 0;
}
static int rpmh_regulator_set_enable_state(struct udevice *rdev,
bool enable)
{
struct rpmh_vreg *vreg = dev_get_priv(rdev);
struct tcs_cmd cmd = {
.addr = vreg->addr + RPMH_REGULATOR_REG_ENABLE,
.data = enable,
};
int ret;
debug("%s: set_enable %d (current %d)\n", rdev->name, enable,
vreg->enabled);
if (vreg->enabled == -EINVAL &&
vreg->uv != -ENOTRECOVERABLE) {
ret = _rpmh_regulator_vrm_set_value(rdev,
vreg->uv, true);
if (ret < 0)
return ret;
}
ret = rpmh_regulator_send_request(vreg, &cmd, enable);
if (!ret)
vreg->enabled = enable;
return ret;
}
static int rpmh_regulator_vrm_set_mode_bypass(struct rpmh_vreg *vreg,
unsigned int mode, bool bypassed)
{
struct tcs_cmd cmd = {
.addr = vreg->addr + RPMH_REGULATOR_REG_VRM_MODE,
};
struct dm_regulator_mode *pmic_mode;
int i;
if (mode > REGULATOR_MODE_HPM)
return -EINVAL;
for (i = 0; i < vreg->hw_data->n_modes; i++) {
pmic_mode = &vreg->hw_data->pmic_mode_map[i];
if (pmic_mode->id == mode)
break;
}
if (pmic_mode->id != mode) {
printf("Invalid mode %d\n", mode);
return -EINVAL;
}
if (bypassed)
cmd.data = PMIC4_BOB_MODE_PASS;
else
cmd.data = pmic_mode->id;
return rpmh_regulator_send_request(vreg, &cmd, true);
}
static int rpmh_regulator_vrm_set_mode(struct udevice *rdev,
int mode)
{
struct rpmh_vreg *vreg = dev_get_priv(rdev);
int ret;
debug("%s: set_mode %d (current %d)\n", rdev->name, mode, vreg->mode);
if (mode == vreg->mode)
return 0;
ret = rpmh_regulator_vrm_set_mode_bypass(vreg, mode, vreg->bypassed);
if (!ret)
vreg->mode = mode;
return ret;
}
static int rpmh_regulator_vrm_get_mode(struct udevice *rdev)
{
struct rpmh_vreg *vreg = dev_get_priv(rdev);
debug("%s: get_mode %d\n", rdev->name, vreg->mode);
return vreg->mode;
}
static const struct dm_regulator_ops rpmh_regulator_vrm_drms_ops = {
.get_value = rpmh_regulator_vrm_get_value,
.set_value = rpmh_regulator_vrm_set_value,
.set_enable = rpmh_regulator_set_enable_state,
.get_enable = rpmh_regulator_is_enabled,
.set_mode = rpmh_regulator_vrm_set_mode,
.get_mode = rpmh_regulator_vrm_get_mode,
};
static struct dm_regulator_mode pmic_mode_map_pmic5_bob[] = {
{
.id = REGULATOR_MODE_LPM,
.register_value = PMIC5_BOB_MODE_PFM,
.name = "PMIC5_BOB_MODE_PFM"
}, {
.id = REGULATOR_MODE_AUTO,
.register_value = PMIC5_BOB_MODE_AUTO,
.name = "PMIC5_BOB_MODE_AUTO"
}, {
.id = REGULATOR_MODE_HPM,
.register_value = PMIC5_BOB_MODE_PWM,
.name = "PMIC5_BOB_MODE_PWM"
},
};
static struct dm_regulator_mode pmic_mode_map_pmic5_smps[] = {
{
.id = REGULATOR_MODE_RETENTION,
.register_value = PMIC5_SMPS_MODE_RETENTION,
.name = "PMIC5_SMPS_MODE_RETENTION"
}, {
.id = REGULATOR_MODE_LPM,
.register_value = PMIC5_SMPS_MODE_PFM,
.name = "PMIC5_SMPS_MODE_PFM"
}, {
.id = REGULATOR_MODE_AUTO,
.register_value = PMIC5_SMPS_MODE_AUTO,
.name = "PMIC5_SMPS_MODE_AUTO"
}, {
.id = REGULATOR_MODE_HPM,
.register_value = PMIC5_SMPS_MODE_PWM,
.name = "PMIC5_SMPS_MODE_PWM"
},
};
static const struct rpmh_vreg_hw_data pmic5_bob = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(3000000, 0, 31, 32000),
.n_voltages = 32,
.pmic_mode_map = pmic_mode_map_pmic5_bob,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_bob),
};
static const struct rpmh_vreg_hw_data pmic5_ftsmps525_lv = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(300000, 0, 267, 4000),
.n_voltages = 268,
.pmic_mode_map = pmic_mode_map_pmic5_smps,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_smps),
};
static const struct rpmh_vreg_hw_data pmic5_ftsmps525_mv = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(600000, 0, 267, 8000),
.n_voltages = 268,
.pmic_mode_map = pmic_mode_map_pmic5_smps,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_smps),
};
static struct dm_regulator_mode pmic_mode_map_pmic5_ldo[] = {
{
.id = REGULATOR_MODE_RETENTION,
.register_value = PMIC5_LDO_MODE_RETENTION,
.name = "PMIC5_LDO_MODE_RETENTION"
}, {
.id = REGULATOR_MODE_LPM,
.register_value = PMIC5_LDO_MODE_LPM,
.name = "PMIC5_LDO_MODE_LPM"
}, {
.id = REGULATOR_MODE_HPM,
.register_value = PMIC5_LDO_MODE_HPM,
.name = "PMIC5_LDO_MODE_HPM"
},
};
static const struct rpmh_vreg_hw_data pmic5_pldo = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(1504000, 0, 255, 8000),
.n_voltages = 256,
.hpm_min_load_uA = 10000,
.pmic_mode_map = pmic_mode_map_pmic5_ldo,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_ldo),
};
static const struct rpmh_vreg_hw_data pmic5_pldo_lv = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(1504000, 0, 62, 8000),
.n_voltages = 63,
.hpm_min_load_uA = 10000,
.pmic_mode_map = pmic_mode_map_pmic5_ldo,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_ldo),
};
static const struct rpmh_vreg_hw_data pmic5_nldo = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(320000, 0, 123, 8000),
.n_voltages = 124,
.hpm_min_load_uA = 30000,
.pmic_mode_map = pmic_mode_map_pmic5_ldo,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_ldo),
};
static const struct rpmh_vreg_hw_data pmic5_nldo515 = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(320000, 0, 210, 8000),
.n_voltages = 211,
.hpm_min_load_uA = 30000,
.pmic_mode_map = pmic_mode_map_pmic5_ldo,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_ldo),
};
static const struct rpmh_vreg_hw_data pmic5_ftsmps527 = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(320000, 0, 215, 8000),
.n_voltages = 215,
.pmic_mode_map = pmic_mode_map_pmic5_smps,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_smps),
};
static const struct rpmh_vreg_hw_data pmic5_pldo515_mv = {
.regulator_type = VRM,
.ops = &rpmh_regulator_vrm_drms_ops,
.voltage_range = REGULATOR_LINEAR_RANGE(1800000, 0, 187, 8000),
.n_voltages = 188,
.hpm_min_load_uA = 10000,
.pmic_mode_map = pmic_mode_map_pmic5_ldo,
.n_modes = ARRAY_SIZE(pmic_mode_map_pmic5_ldo),
};
#define RPMH_VREG(_name, _resource_name, _hw_data, _supply_name) \
{ \
.name = _name, \
.resource_name = _resource_name, \
.hw_data = _hw_data, \
.supply_name = _supply_name, \
}
static const struct rpmh_vreg_init_data pm6150l_vreg_data[] = {
/* smps1 - smps8 are not added to u-boot yet */
RPMH_VREG("ldo1", "ldo%s1", &pmic5_pldo_lv, "vdd-l1-l8"),
RPMH_VREG("ldo2", "ldo%s2", &pmic5_nldo, "vdd-l2-l3"),
RPMH_VREG("ldo3", "ldo%s3", &pmic5_nldo, "vdd-l2-l3"),
RPMH_VREG("ldo4", "ldo%s4", &pmic5_pldo, "vdd-l4-l5-l6"),
RPMH_VREG("ldo5", "ldo%s5", &pmic5_pldo, "vdd-l4-l5-l6"),
RPMH_VREG("ldo6", "ldo%s6", &pmic5_pldo, "vdd-l4-l5-l6"),
RPMH_VREG("ldo7", "ldo%s7", &pmic5_pldo, "vdd-l7-l11"),
RPMH_VREG("ldo8", "ldo%s8", &pmic5_pldo, "vdd-l1-l8"),
RPMH_VREG("ldo9", "ldo%s9", &pmic5_pldo, "vdd-l9-l10"),
RPMH_VREG("ldo10", "ldo%s10", &pmic5_pldo, "vdd-l9-l10"),
RPMH_VREG("ldo11", "ldo%s11", &pmic5_pldo, "vdd-l7-l11"),
RPMH_VREG("bob", "bob%s1", &pmic5_bob, "vdd-bob"),
{}
};
static const struct rpmh_vreg_init_data pm8150_vreg_data[] = {
RPMH_VREG("ldo13", "ldo%s13", &pmic5_pldo, "vdd-l13-l16-l17"),
{}
};
static const struct rpmh_vreg_init_data pm8150l_vreg_data[] = {
RPMH_VREG("ldo1", "ldo%s1", &pmic5_pldo_lv, "vdd-l1-l8"),
RPMH_VREG("ldo4", "ldo%s4", &pmic5_pldo, "vdd-l4-l5-l6"),
RPMH_VREG("ldo5", "ldo%s5", &pmic5_pldo, "vdd-l4-l5-l6"),
RPMH_VREG("ldo6", "ldo%s6", &pmic5_pldo, "vdd-l4-l5-l6"),
RPMH_VREG("ldo7", "ldo%s7", &pmic5_pldo, "vdd-l7-l11"),
RPMH_VREG("ldo8", "ldo%s8", &pmic5_pldo_lv, "vdd-l1-l8"),
RPMH_VREG("ldo9", "ldo%s9", &pmic5_pldo, "vdd-l9-l10"),
RPMH_VREG("ldo10", "ldo%s10", &pmic5_pldo, "vdd-l9-l10"),
RPMH_VREG("ldo11", "ldo%s11", &pmic5_pldo, "vdd-l7-l11"),
{}
};
static const struct rpmh_vreg_init_data pm8550_vreg_data[] = {
RPMH_VREG("ldo1", "ldo%s1", &pmic5_nldo515, "vdd-l1-l4-l10"),
RPMH_VREG("ldo2", "ldo%s2", &pmic5_pldo, "vdd-l2-l13-l14"),
RPMH_VREG("ldo3", "ldo%s3", &pmic5_nldo515, "vdd-l3"),
RPMH_VREG("ldo4", "ldo%s4", &pmic5_nldo515, "vdd-l1-l4-l10"),
RPMH_VREG("ldo5", "ldo%s5", &pmic5_pldo, "vdd-l5-l16"),
RPMH_VREG("ldo6", "ldo%s6", &pmic5_pldo, "vdd-l6-l7"),
RPMH_VREG("ldo7", "ldo%s7", &pmic5_pldo, "vdd-l6-l7"),
RPMH_VREG("ldo8", "ldo%s8", &pmic5_pldo, "vdd-l8-l9"),
RPMH_VREG("ldo9", "ldo%s9", &pmic5_pldo, "vdd-l8-l9"),
RPMH_VREG("ldo10", "ldo%s10", &pmic5_nldo515, "vdd-l1-l4-l10"),
RPMH_VREG("ldo11", "ldo%s11", &pmic5_nldo515, "vdd-l11"),
RPMH_VREG("ldo12", "ldo%s12", &pmic5_nldo515, "vdd-l12"),
RPMH_VREG("ldo13", "ldo%s13", &pmic5_pldo, "vdd-l2-l13-l14"),
RPMH_VREG("ldo14", "ldo%s14", &pmic5_pldo, "vdd-l2-l13-l14"),
RPMH_VREG("ldo15", "ldo%s15", &pmic5_nldo515, "vdd-l15"),
RPMH_VREG("ldo16", "ldo%s16", &pmic5_pldo, "vdd-l5-l16"),
RPMH_VREG("ldo17", "ldo%s17", &pmic5_pldo, "vdd-l17"),
RPMH_VREG("bob1", "bob%s1", &pmic5_bob, "vdd-bob1"),
RPMH_VREG("bob2", "bob%s2", &pmic5_bob, "vdd-bob2"),
{}
};
static const struct rpmh_vreg_init_data pm8550vs_vreg_data[] = {
RPMH_VREG("smps1", "smp%s1", &pmic5_ftsmps525_lv, "vdd-s1"),
RPMH_VREG("smps2", "smp%s2", &pmic5_ftsmps525_lv, "vdd-s2"),
RPMH_VREG("smps3", "smp%s3", &pmic5_ftsmps525_lv, "vdd-s3"),
RPMH_VREG("smps4", "smp%s4", &pmic5_ftsmps525_lv, "vdd-s4"),
RPMH_VREG("smps5", "smp%s5", &pmic5_ftsmps525_lv, "vdd-s5"),
RPMH_VREG("smps6", "smp%s6", &pmic5_ftsmps525_mv, "vdd-s6"),
RPMH_VREG("ldo1", "ldo%s1", &pmic5_nldo515, "vdd-l1"),
RPMH_VREG("ldo2", "ldo%s2", &pmic5_nldo515, "vdd-l2"),
RPMH_VREG("ldo3", "ldo%s3", &pmic5_nldo515, "vdd-l3"),
{}
};
static const struct rpmh_vreg_init_data pm8550ve_vreg_data[] = {
RPMH_VREG("smps1", "smp%s1", &pmic5_ftsmps525_lv, "vdd-s1"),
RPMH_VREG("smps2", "smp%s2", &pmic5_ftsmps525_lv, "vdd-s2"),
RPMH_VREG("smps3", "smp%s3", &pmic5_ftsmps525_lv, "vdd-s3"),
RPMH_VREG("smps4", "smp%s4", &pmic5_ftsmps525_mv, "vdd-s4"),
RPMH_VREG("smps5", "smp%s5", &pmic5_ftsmps525_lv, "vdd-s5"),
RPMH_VREG("smps6", "smp%s6", &pmic5_ftsmps525_lv, "vdd-s6"),
RPMH_VREG("smps7", "smp%s7", &pmic5_ftsmps525_lv, "vdd-s7"),
RPMH_VREG("smps8", "smp%s8", &pmic5_ftsmps525_lv, "vdd-s8"),
RPMH_VREG("ldo1", "ldo%s1", &pmic5_nldo515, "vdd-l1"),
RPMH_VREG("ldo2", "ldo%s2", &pmic5_nldo515, "vdd-l2"),
RPMH_VREG("ldo3", "ldo%s3", &pmic5_nldo515, "vdd-l3"),
{}
};
static const struct rpmh_vreg_init_data pmc8380_vreg_data[] = {
RPMH_VREG("smps1", "smp%s1", &pmic5_ftsmps525_lv, "vdd-s1"),
RPMH_VREG("smps2", "smp%s2", &pmic5_ftsmps525_lv, "vdd-s2"),
RPMH_VREG("smps3", "smp%s3", &pmic5_ftsmps525_lv, "vdd-s3"),
RPMH_VREG("smps4", "smp%s4", &pmic5_ftsmps525_mv, "vdd-s4"),
RPMH_VREG("smps5", "smp%s5", &pmic5_ftsmps525_lv, "vdd-s5"),
RPMH_VREG("smps6", "smp%s6", &pmic5_ftsmps525_lv, "vdd-s6"),
RPMH_VREG("smps7", "smp%s7", &pmic5_ftsmps525_lv, "vdd-s7"),
RPMH_VREG("smps8", "smp%s8", &pmic5_ftsmps525_lv, "vdd-s8"),
RPMH_VREG("ldo1", "ldo%s1", &pmic5_nldo515, "vdd-l1"),
RPMH_VREG("ldo2", "ldo%s2", &pmic5_nldo515, "vdd-l2"),
RPMH_VREG("ldo3", "ldo%s3", &pmic5_nldo515, "vdd-l3"),
{}
};
static const struct rpmh_vreg_init_data pmm8654au_vreg_data[] = {
RPMH_VREG("smps1", "smp%s1", &pmic5_ftsmps527, "vdd-s1"),
RPMH_VREG("smps2", "smp%s2", &pmic5_ftsmps527, "vdd-s2"),
RPMH_VREG("smps3", "smp%s3", &pmic5_ftsmps527, "vdd-s3"),
RPMH_VREG("smps4", "smp%s4", &pmic5_ftsmps527, "vdd-s4"),
RPMH_VREG("smps5", "smp%s5", &pmic5_ftsmps527, "vdd-s5"),
RPMH_VREG("smps6", "smp%s6", &pmic5_ftsmps527, "vdd-s6"),
RPMH_VREG("smps7", "smp%s7", &pmic5_ftsmps527, "vdd-s7"),
RPMH_VREG("smps8", "smp%s8", &pmic5_ftsmps527, "vdd-s8"),
RPMH_VREG("smps9", "smp%s9", &pmic5_ftsmps527, "vdd-s9"),
RPMH_VREG("ldo1", "ldo%s1", &pmic5_nldo515, "vdd-s9"),
RPMH_VREG("ldo2", "ldo%s2", &pmic5_nldo515, "vdd-l2-l3"),
RPMH_VREG("ldo3", "ldo%s3", &pmic5_nldo515, "vdd-l2-l3"),
RPMH_VREG("ldo4", "ldo%s4", &pmic5_nldo515, "vdd-s9"),
RPMH_VREG("ldo5", "ldo%s5", &pmic5_nldo515, "vdd-s9"),
RPMH_VREG("ldo6", "ldo%s6", &pmic5_nldo515, "vdd-l6-l7"),
RPMH_VREG("ldo7", "ldo%s7", &pmic5_nldo515, "vdd-l6-l7"),
RPMH_VREG("ldo8", "ldo%s8", &pmic5_pldo515_mv, "vdd-l8-l9"),
RPMH_VREG("ldo9", "ldo%s9", &pmic5_pldo, "vdd-l8-l9"),
{}
};
/* probe an individual regulator */
static int rpmh_regulator_probe(struct udevice *dev)
{
const struct rpmh_vreg_init_data *init_data;
struct rpmh_vreg *priv;
struct dm_regulator_uclass_plat *plat_data;
init_data = (const struct rpmh_vreg_init_data *)dev_get_driver_data(dev);
priv = dev_get_priv(dev);
plat_data = dev_get_uclass_plat(dev);
priv->dev = dev;
priv->addr = cmd_db_read_addr(dev->name);
if (!priv->addr) {
dev_err(dev, "Failed to read RPMh address for %s\n", dev->name);
return -ENODEV;
}
priv->hw_data = init_data->hw_data;
priv->enabled = -EINVAL;
priv->uv = -ENOTRECOVERABLE;
if (ofnode_read_u32(dev_ofnode(dev), "regulator-initial-mode", &priv->mode))
priv->mode = -EINVAL;
plat_data->mode = priv->hw_data->pmic_mode_map;
plat_data->mode_count = priv->hw_data->n_modes;
return 0;
}
/* for non-drm, xob, or bypass regulators add additional driver definitions */
U_BOOT_DRIVER(rpmh_regulator_drm) = {
.name = "rpmh_regulator_drm",
.id = UCLASS_REGULATOR,
.probe = rpmh_regulator_probe,
.priv_auto = sizeof(struct rpmh_vreg),
.ops = &rpmh_regulator_vrm_drms_ops,
};
/* This driver intentionally only supports a subset of the available regulators.
* This function checks to see if a given regulator node in DT matches a regulator
* defined in the driver.
*/
static const struct rpmh_vreg_init_data *
vreg_get_init_data(const struct rpmh_vreg_init_data *init_data, ofnode node)
{
const struct rpmh_vreg_init_data *data;
for (data = init_data; data->name; data++) {
if (!strcmp(data->name, ofnode_get_name(node)))
return data;
}
return NULL;
}
static int rpmh_regulators_bind(struct udevice *dev)
{
const struct rpmh_vreg_init_data *init_data, *data;
const char *pmic_id;
char *name;
struct driver *drv;
ofnode node;
int ret;
size_t namelen;
init_data = (const struct rpmh_vreg_init_data *)dev_get_driver_data(dev);
if (!init_data) {
dev_err(dev, "No RPMh regulator init data\n");
return -ENODEV;
}
pmic_id = ofnode_read_string(dev_ofnode(dev), "qcom,pmic-id");
if (!pmic_id) {
dev_err(dev, "No PMIC ID\n");
return -ENODEV;
}
drv = lists_driver_lookup_name("rpmh_regulator_drm");
ofnode_for_each_subnode(node, dev_ofnode(dev)) {
data = vreg_get_init_data(init_data, node);
if (!data)
continue;
/* %s is replaced with pmic_id, so subtract 2, then add 1 for the null terminator */
namelen = strlen(data->resource_name) + strlen(pmic_id) - 1;
name = devm_kzalloc(dev, namelen, GFP_KERNEL);
ret = snprintf(name, namelen, data->resource_name, pmic_id);
if (ret < 0 || ret >= namelen) {
dev_err(dev, "Failed to create RPMh regulator name\n");
return -ENOMEM;
}
ret = device_bind_with_driver_data(dev, drv, name, (ulong)data,
node, NULL);
if (ret < 0) {
dev_err(dev, "Failed to bind RPMh regulator %s: %d\n", name, ret);
return ret;
}
}
return 0;
}
static const struct udevice_id rpmh_regulator_ids[] = {
{
.compatible = "qcom,pm6150l-rpmh-regulators",
.data = (ulong)pm6150l_vreg_data,
},
{
.compatible = "qcom,pm8150-rpmh-regulators",
.data = (ulong)pm8150_vreg_data,
},
{
.compatible = "qcom,pm8150l-rpmh-regulators",
.data = (ulong)pm8150l_vreg_data,
},
{
.compatible = "qcom,pm8550-rpmh-regulators",
.data = (ulong)pm8550_vreg_data,
},
{
.compatible = "qcom,pm8550ve-rpmh-regulators",
.data = (ulong)pm8550ve_vreg_data,
},
{
.compatible = "qcom,pm8550vs-rpmh-regulators",
.data = (ulong)pm8550vs_vreg_data,
},
{
.compatible = "qcom,pmc8380-rpmh-regulators",
.data = (ulong)pmc8380_vreg_data,
},
{
.compatible = "qcom,pmm8654au-rpmh-regulators",
.data = (ulong)pmm8654au_vreg_data,
},
{ /* sentinal */ },
};
/* Driver for a 'bank' of regulators. This creates devices for each
* individual regulator
*/
U_BOOT_DRIVER(rpmh_regulators) = {
.name = "rpmh_regulators",
.id = UCLASS_MISC,
.bind = rpmh_regulators_bind,
.of_match = rpmh_regulator_ids,
.ops = &rpmh_regulator_vrm_drms_ops,
};
MODULE_DESCRIPTION("Qualcomm RPMh regulator driver");
MODULE_LICENSE("GPL v2");
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