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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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a0fcfed138
For some model PMIC's used on Intel boards we do not know how to handle the power or thermal opregions because we have no documentation. For example in the intel_pmic_chtwc.c driver thermal_table_count is 0, which means that our PMIC_THERMAL_OPREGION_ID handler will always fail with AE_BAD_PARAMETER, in this case it is better to simply not register the handler at all. Signed-off-by: Hans de Goede <hdegoede@redhat.com> Reviewed-by: Andy Shevchenko <andriy.shevchenko@linux.intel.com> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
379 lines
9.3 KiB
C
379 lines
9.3 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* intel_pmic.c - Intel PMIC operation region driver
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*
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* Copyright (C) 2014 Intel Corporation. All rights reserved.
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*/
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#include <linux/export.h>
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#include <linux/acpi.h>
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#include <linux/mfd/intel_soc_pmic.h>
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#include <linux/regmap.h>
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#include <acpi/acpi_lpat.h>
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#include "intel_pmic.h"
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#define PMIC_POWER_OPREGION_ID 0x8d
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#define PMIC_THERMAL_OPREGION_ID 0x8c
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#define PMIC_REGS_OPREGION_ID 0x8f
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struct intel_pmic_regs_handler_ctx {
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unsigned int val;
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u16 addr;
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};
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struct intel_pmic_opregion {
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struct mutex lock;
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struct acpi_lpat_conversion_table *lpat_table;
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struct regmap *regmap;
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struct intel_pmic_opregion_data *data;
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struct intel_pmic_regs_handler_ctx ctx;
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};
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static struct intel_pmic_opregion *intel_pmic_opregion;
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static int pmic_get_reg_bit(int address, struct pmic_table *table,
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int count, int *reg, int *bit)
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{
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int i;
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for (i = 0; i < count; i++) {
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if (table[i].address == address) {
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*reg = table[i].reg;
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if (bit)
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*bit = table[i].bit;
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return 0;
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}
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}
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return -ENOENT;
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}
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static acpi_status intel_pmic_power_handler(u32 function,
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acpi_physical_address address, u32 bits, u64 *value64,
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void *handler_context, void *region_context)
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{
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struct intel_pmic_opregion *opregion = region_context;
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struct regmap *regmap = opregion->regmap;
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struct intel_pmic_opregion_data *d = opregion->data;
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int reg, bit, result;
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if (bits != 32 || !value64)
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return AE_BAD_PARAMETER;
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if (function == ACPI_WRITE && !(*value64 == 0 || *value64 == 1))
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return AE_BAD_PARAMETER;
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result = pmic_get_reg_bit(address, d->power_table,
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d->power_table_count, ®, &bit);
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if (result == -ENOENT)
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return AE_BAD_PARAMETER;
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mutex_lock(&opregion->lock);
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result = function == ACPI_READ ?
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d->get_power(regmap, reg, bit, value64) :
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d->update_power(regmap, reg, bit, *value64 == 1);
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mutex_unlock(&opregion->lock);
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return result ? AE_ERROR : AE_OK;
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}
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static int pmic_read_temp(struct intel_pmic_opregion *opregion,
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int reg, u64 *value)
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{
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int raw_temp, temp;
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if (!opregion->data->get_raw_temp)
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return -ENXIO;
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raw_temp = opregion->data->get_raw_temp(opregion->regmap, reg);
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if (raw_temp < 0)
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return raw_temp;
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if (!opregion->lpat_table) {
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*value = raw_temp;
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return 0;
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}
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temp = acpi_lpat_raw_to_temp(opregion->lpat_table, raw_temp);
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if (temp < 0)
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return temp;
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*value = temp;
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return 0;
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}
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static int pmic_thermal_temp(struct intel_pmic_opregion *opregion, int reg,
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u32 function, u64 *value)
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{
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return function == ACPI_READ ?
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pmic_read_temp(opregion, reg, value) : -EINVAL;
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}
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static int pmic_thermal_aux(struct intel_pmic_opregion *opregion, int reg,
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u32 function, u64 *value)
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{
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int raw_temp;
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if (function == ACPI_READ)
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return pmic_read_temp(opregion, reg, value);
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if (!opregion->data->update_aux)
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return -ENXIO;
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if (opregion->lpat_table) {
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raw_temp = acpi_lpat_temp_to_raw(opregion->lpat_table, *value);
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if (raw_temp < 0)
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return raw_temp;
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} else {
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raw_temp = *value;
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}
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return opregion->data->update_aux(opregion->regmap, reg, raw_temp);
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}
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static int pmic_thermal_pen(struct intel_pmic_opregion *opregion, int reg,
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int bit, u32 function, u64 *value)
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{
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struct intel_pmic_opregion_data *d = opregion->data;
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struct regmap *regmap = opregion->regmap;
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if (!d->get_policy || !d->update_policy)
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return -ENXIO;
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if (function == ACPI_READ)
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return d->get_policy(regmap, reg, bit, value);
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if (*value != 0 && *value != 1)
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return -EINVAL;
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return d->update_policy(regmap, reg, bit, *value);
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}
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static bool pmic_thermal_is_temp(int address)
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{
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return (address <= 0x3c) && !(address % 12);
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}
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static bool pmic_thermal_is_aux(int address)
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{
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return (address >= 4 && address <= 0x40 && !((address - 4) % 12)) ||
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(address >= 8 && address <= 0x44 && !((address - 8) % 12));
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}
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static bool pmic_thermal_is_pen(int address)
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{
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return address >= 0x48 && address <= 0x5c;
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}
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static acpi_status intel_pmic_thermal_handler(u32 function,
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acpi_physical_address address, u32 bits, u64 *value64,
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void *handler_context, void *region_context)
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{
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struct intel_pmic_opregion *opregion = region_context;
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struct intel_pmic_opregion_data *d = opregion->data;
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int reg, bit, result;
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if (bits != 32 || !value64)
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return AE_BAD_PARAMETER;
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result = pmic_get_reg_bit(address, d->thermal_table,
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d->thermal_table_count, ®, &bit);
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if (result == -ENOENT)
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return AE_BAD_PARAMETER;
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mutex_lock(&opregion->lock);
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if (pmic_thermal_is_temp(address))
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result = pmic_thermal_temp(opregion, reg, function, value64);
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else if (pmic_thermal_is_aux(address))
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result = pmic_thermal_aux(opregion, reg, function, value64);
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else if (pmic_thermal_is_pen(address))
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result = pmic_thermal_pen(opregion, reg, bit,
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function, value64);
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else
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result = -EINVAL;
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mutex_unlock(&opregion->lock);
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if (result < 0) {
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if (result == -EINVAL)
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return AE_BAD_PARAMETER;
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else
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return AE_ERROR;
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}
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return AE_OK;
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}
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static acpi_status intel_pmic_regs_handler(u32 function,
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acpi_physical_address address, u32 bits, u64 *value64,
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void *handler_context, void *region_context)
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{
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struct intel_pmic_opregion *opregion = region_context;
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int result = 0;
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switch (address) {
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case 0:
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return AE_OK;
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case 1:
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opregion->ctx.addr |= (*value64 & 0xff) << 8;
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return AE_OK;
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case 2:
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opregion->ctx.addr |= *value64 & 0xff;
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return AE_OK;
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case 3:
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opregion->ctx.val = *value64 & 0xff;
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return AE_OK;
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case 4:
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if (*value64) {
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result = regmap_write(opregion->regmap, opregion->ctx.addr,
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opregion->ctx.val);
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} else {
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result = regmap_read(opregion->regmap, opregion->ctx.addr,
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&opregion->ctx.val);
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if (result == 0)
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*value64 = opregion->ctx.val;
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}
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memset(&opregion->ctx, 0x00, sizeof(opregion->ctx));
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}
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if (result < 0) {
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if (result == -EINVAL)
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return AE_BAD_PARAMETER;
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else
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return AE_ERROR;
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}
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return AE_OK;
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}
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int intel_pmic_install_opregion_handler(struct device *dev, acpi_handle handle,
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struct regmap *regmap,
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struct intel_pmic_opregion_data *d)
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{
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acpi_status status = AE_OK;
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struct intel_pmic_opregion *opregion;
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int ret;
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if (!dev || !regmap || !d)
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return -EINVAL;
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if (!handle)
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return -ENODEV;
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opregion = devm_kzalloc(dev, sizeof(*opregion), GFP_KERNEL);
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if (!opregion)
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return -ENOMEM;
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mutex_init(&opregion->lock);
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opregion->regmap = regmap;
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opregion->lpat_table = acpi_lpat_get_conversion_table(handle);
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if (d->power_table_count)
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status = acpi_install_address_space_handler(handle,
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PMIC_POWER_OPREGION_ID,
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intel_pmic_power_handler,
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NULL, opregion);
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if (ACPI_FAILURE(status)) {
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ret = -ENODEV;
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goto out_error;
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}
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if (d->thermal_table_count)
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status = acpi_install_address_space_handler(handle,
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PMIC_THERMAL_OPREGION_ID,
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intel_pmic_thermal_handler,
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NULL, opregion);
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if (ACPI_FAILURE(status)) {
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ret = -ENODEV;
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goto out_remove_power_handler;
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}
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status = acpi_install_address_space_handler(handle,
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PMIC_REGS_OPREGION_ID, intel_pmic_regs_handler, NULL,
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opregion);
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if (ACPI_FAILURE(status)) {
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ret = -ENODEV;
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goto out_remove_thermal_handler;
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}
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opregion->data = d;
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intel_pmic_opregion = opregion;
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return 0;
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out_remove_thermal_handler:
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if (d->thermal_table_count)
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acpi_remove_address_space_handler(handle,
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PMIC_THERMAL_OPREGION_ID,
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intel_pmic_thermal_handler);
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out_remove_power_handler:
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if (d->power_table_count)
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acpi_remove_address_space_handler(handle,
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PMIC_POWER_OPREGION_ID,
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intel_pmic_power_handler);
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out_error:
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acpi_lpat_free_conversion_table(opregion->lpat_table);
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return ret;
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}
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EXPORT_SYMBOL_GPL(intel_pmic_install_opregion_handler);
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/**
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* intel_soc_pmic_exec_mipi_pmic_seq_element - Execute PMIC MIPI sequence
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* @i2c_address: I2C client address for the PMIC
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* @reg_address: PMIC register address
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* @value: New value for the register bits to change
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* @mask: Mask indicating which register bits to change
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*
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* DSI LCD panels describe an initialization sequence in the i915 VBT (Video
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* BIOS Tables) using so called MIPI sequences. One possible element in these
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* sequences is a PMIC specific element of 15 bytes.
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*
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* This function executes these PMIC specific elements sending the embedded
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* commands to the PMIC.
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*
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* Return 0 on success, < 0 on failure.
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*/
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int intel_soc_pmic_exec_mipi_pmic_seq_element(u16 i2c_address, u32 reg_address,
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u32 value, u32 mask)
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{
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struct intel_pmic_opregion_data *d;
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int ret;
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if (!intel_pmic_opregion) {
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pr_warn("%s: No PMIC registered\n", __func__);
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return -ENXIO;
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}
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d = intel_pmic_opregion->data;
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mutex_lock(&intel_pmic_opregion->lock);
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if (d->exec_mipi_pmic_seq_element) {
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ret = d->exec_mipi_pmic_seq_element(intel_pmic_opregion->regmap,
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i2c_address, reg_address,
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value, mask);
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} else if (d->pmic_i2c_address) {
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if (i2c_address == d->pmic_i2c_address) {
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ret = regmap_update_bits(intel_pmic_opregion->regmap,
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reg_address, mask, value);
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} else {
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pr_err("%s: Unexpected i2c-addr: 0x%02x (reg-addr 0x%x value 0x%x mask 0x%x)\n",
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__func__, i2c_address, reg_address, value, mask);
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ret = -ENXIO;
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}
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} else {
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pr_warn("%s: Not implemented\n", __func__);
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pr_warn("%s: i2c-addr: 0x%x reg-addr 0x%x value 0x%x mask 0x%x\n",
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__func__, i2c_address, reg_address, value, mask);
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ret = -EOPNOTSUPP;
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}
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mutex_unlock(&intel_pmic_opregion->lock);
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return ret;
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}
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EXPORT_SYMBOL_GPL(intel_soc_pmic_exec_mipi_pmic_seq_element);
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