blob: 3033a4ab4b2b4809ebe775ff76a233ca86575e57 [file] [log] [blame]
/* Copyright (c) 2011-2017, The Linux Foundation. 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 version 2 and
* only version 2 as published by the Free Software Foundation.
*
* 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.
*
*/
#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/delay.h>
#include <linux/init.h>
#include <linux/io.h>
#include <linux/slab.h>
#include "spm_driver.h"
#define MSM_SPM_PMIC_STATE_IDLE 0
enum {
MSM_SPM_DEBUG_SHADOW = 1U << 0,
MSM_SPM_DEBUG_VCTL = 1U << 1,
};
static int msm_spm_debug_mask;
module_param_named(
debug_mask, msm_spm_debug_mask, int, 0664
);
struct saw2_data {
const char *ver_name;
uint32_t major;
uint32_t minor;
uint32_t *spm_reg_offset_ptr;
};
static uint32_t msm_spm_reg_offsets_saw2_v2_1[MSM_SPM_REG_NR] = {
[MSM_SPM_REG_SAW_SECURE] = 0x00,
[MSM_SPM_REG_SAW_ID] = 0x04,
[MSM_SPM_REG_SAW_CFG] = 0x08,
[MSM_SPM_REG_SAW_SPM_STS] = 0x0C,
[MSM_SPM_REG_SAW_AVS_STS] = 0x10,
[MSM_SPM_REG_SAW_PMIC_STS] = 0x14,
[MSM_SPM_REG_SAW_RST] = 0x18,
[MSM_SPM_REG_SAW_VCTL] = 0x1C,
[MSM_SPM_REG_SAW_AVS_CTL] = 0x20,
[MSM_SPM_REG_SAW_AVS_LIMIT] = 0x24,
[MSM_SPM_REG_SAW_AVS_DLY] = 0x28,
[MSM_SPM_REG_SAW_AVS_HYSTERESIS] = 0x2C,
[MSM_SPM_REG_SAW_SPM_CTL] = 0x30,
[MSM_SPM_REG_SAW_SPM_DLY] = 0x34,
[MSM_SPM_REG_SAW_PMIC_DATA_0] = 0x40,
[MSM_SPM_REG_SAW_PMIC_DATA_1] = 0x44,
[MSM_SPM_REG_SAW_PMIC_DATA_2] = 0x48,
[MSM_SPM_REG_SAW_PMIC_DATA_3] = 0x4C,
[MSM_SPM_REG_SAW_PMIC_DATA_4] = 0x50,
[MSM_SPM_REG_SAW_PMIC_DATA_5] = 0x54,
[MSM_SPM_REG_SAW_PMIC_DATA_6] = 0x58,
[MSM_SPM_REG_SAW_PMIC_DATA_7] = 0x5C,
[MSM_SPM_REG_SAW_SEQ_ENTRY] = 0x80,
[MSM_SPM_REG_SAW_VERSION] = 0xFD0,
};
static uint32_t msm_spm_reg_offsets_saw2_v3_0[MSM_SPM_REG_NR] = {
[MSM_SPM_REG_SAW_SECURE] = 0x00,
[MSM_SPM_REG_SAW_ID] = 0x04,
[MSM_SPM_REG_SAW_CFG] = 0x08,
[MSM_SPM_REG_SAW_SPM_STS] = 0x0C,
[MSM_SPM_REG_SAW_AVS_STS] = 0x10,
[MSM_SPM_REG_SAW_PMIC_STS] = 0x14,
[MSM_SPM_REG_SAW_RST] = 0x18,
[MSM_SPM_REG_SAW_VCTL] = 0x1C,
[MSM_SPM_REG_SAW_AVS_CTL] = 0x20,
[MSM_SPM_REG_SAW_AVS_LIMIT] = 0x24,
[MSM_SPM_REG_SAW_AVS_DLY] = 0x28,
[MSM_SPM_REG_SAW_AVS_HYSTERESIS] = 0x2C,
[MSM_SPM_REG_SAW_SPM_CTL] = 0x30,
[MSM_SPM_REG_SAW_SPM_DLY] = 0x34,
[MSM_SPM_REG_SAW_STS2] = 0x38,
[MSM_SPM_REG_SAW_PMIC_DATA_0] = 0x40,
[MSM_SPM_REG_SAW_PMIC_DATA_1] = 0x44,
[MSM_SPM_REG_SAW_PMIC_DATA_2] = 0x48,
[MSM_SPM_REG_SAW_PMIC_DATA_3] = 0x4C,
[MSM_SPM_REG_SAW_PMIC_DATA_4] = 0x50,
[MSM_SPM_REG_SAW_PMIC_DATA_5] = 0x54,
[MSM_SPM_REG_SAW_PMIC_DATA_6] = 0x58,
[MSM_SPM_REG_SAW_PMIC_DATA_7] = 0x5C,
[MSM_SPM_REG_SAW_SEQ_ENTRY] = 0x400,
[MSM_SPM_REG_SAW_VERSION] = 0xFD0,
};
static uint32_t msm_spm_reg_offsets_saw2_v4_1[MSM_SPM_REG_NR] = {
[MSM_SPM_REG_SAW_SECURE] = 0xC00,
[MSM_SPM_REG_SAW_ID] = 0xC04,
[MSM_SPM_REG_SAW_STS2] = 0xC10,
[MSM_SPM_REG_SAW_SPM_STS] = 0xC0C,
[MSM_SPM_REG_SAW_AVS_STS] = 0xC14,
[MSM_SPM_REG_SAW_PMIC_STS] = 0xC18,
[MSM_SPM_REG_SAW_RST] = 0xC1C,
[MSM_SPM_REG_SAW_VCTL] = 0x900,
[MSM_SPM_REG_SAW_AVS_CTL] = 0x904,
[MSM_SPM_REG_SAW_AVS_LIMIT] = 0x908,
[MSM_SPM_REG_SAW_AVS_DLY] = 0x90C,
[MSM_SPM_REG_SAW_SPM_CTL] = 0x0,
[MSM_SPM_REG_SAW_SPM_DLY] = 0x4,
[MSM_SPM_REG_SAW_CFG] = 0x0C,
[MSM_SPM_REG_SAW_PMIC_DATA_0] = 0x40,
[MSM_SPM_REG_SAW_PMIC_DATA_1] = 0x44,
[MSM_SPM_REG_SAW_PMIC_DATA_2] = 0x48,
[MSM_SPM_REG_SAW_PMIC_DATA_3] = 0x4C,
[MSM_SPM_REG_SAW_PMIC_DATA_4] = 0x50,
[MSM_SPM_REG_SAW_PMIC_DATA_5] = 0x54,
[MSM_SPM_REG_SAW_SEQ_ENTRY] = 0x400,
[MSM_SPM_REG_SAW_VERSION] = 0xFD0,
};
static struct saw2_data saw2_info[] = {
[0] = {
"SAW_v2.1",
0x2,
0x1,
msm_spm_reg_offsets_saw2_v2_1,
},
[1] = {
"SAW_v2.3",
0x3,
0x0,
msm_spm_reg_offsets_saw2_v3_0,
},
[2] = {
"SAW_v3.0",
0x1,
0x0,
msm_spm_reg_offsets_saw2_v3_0,
},
[3] = {
"SAW_v4.0",
0x4,
0x1,
msm_spm_reg_offsets_saw2_v4_1,
},
};
static uint32_t num_pmic_data;
static void msm_spm_drv_flush_shadow(struct msm_spm_driver_data *dev,
unsigned int reg_index)
{
if (!dev || !dev->reg_shadow)
return;
__raw_writel(dev->reg_shadow[reg_index],
dev->reg_base_addr + dev->reg_offsets[reg_index]);
}
static void msm_spm_drv_load_shadow(struct msm_spm_driver_data *dev,
unsigned int reg_index)
{
dev->reg_shadow[reg_index] =
__raw_readl(dev->reg_base_addr +
dev->reg_offsets[reg_index]);
}
static inline uint32_t msm_spm_drv_get_num_spm_entry(
struct msm_spm_driver_data *dev)
{
if (!dev)
return -ENODEV;
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_ID);
return (dev->reg_shadow[MSM_SPM_REG_SAW_ID] >> 24) & 0xFF;
}
static inline void msm_spm_drv_set_start_addr(
struct msm_spm_driver_data *dev, uint32_t ctl)
{
dev->reg_shadow[MSM_SPM_REG_SAW_SPM_CTL] = ctl;
}
static inline bool msm_spm_pmic_arb_present(struct msm_spm_driver_data *dev)
{
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_ID);
return (dev->reg_shadow[MSM_SPM_REG_SAW_ID] >> 2) & 0x1;
}
static inline void msm_spm_drv_set_vctl2(struct msm_spm_driver_data *dev,
uint32_t vlevel)
{
unsigned int pmic_data = 0;
/**
* VCTL_PORT has to be 0, for PMIC_STS register to be updated.
* Ensure that vctl_port is always set to 0.
*/
if (dev->vctl_port) {
__WARN();
return;
}
pmic_data |= vlevel;
pmic_data |= (dev->vctl_port & 0x7) << 16;
dev->reg_shadow[MSM_SPM_REG_SAW_VCTL] &= ~0x700FF;
dev->reg_shadow[MSM_SPM_REG_SAW_VCTL] |= pmic_data;
dev->reg_shadow[MSM_SPM_REG_SAW_PMIC_DATA_3] &= ~0x700FF;
dev->reg_shadow[MSM_SPM_REG_SAW_PMIC_DATA_3] |= pmic_data;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_VCTL);
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_PMIC_DATA_3);
}
static inline uint32_t msm_spm_drv_get_num_pmic_data(
struct msm_spm_driver_data *dev)
{
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_ID);
mb(); /* Ensure we flush */
return (dev->reg_shadow[MSM_SPM_REG_SAW_ID] >> 4) & 0x7;
}
static inline uint32_t msm_spm_drv_get_sts_pmic_state(
struct msm_spm_driver_data *dev)
{
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_PMIC_STS);
return (dev->reg_shadow[MSM_SPM_REG_SAW_PMIC_STS] >> 16) &
0x03;
}
uint32_t msm_spm_drv_get_sts_curr_pmic_data(
struct msm_spm_driver_data *dev)
{
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_PMIC_STS);
return dev->reg_shadow[MSM_SPM_REG_SAW_PMIC_STS] & 0x300FF;
}
static inline void msm_spm_drv_get_saw2_ver(struct msm_spm_driver_data *dev,
uint32_t *major, uint32_t *minor)
{
uint32_t val = 0;
dev->reg_shadow[MSM_SPM_REG_SAW_VERSION] =
__raw_readl(dev->reg_base_addr + dev->ver_reg);
val = dev->reg_shadow[MSM_SPM_REG_SAW_VERSION];
*major = (val >> 28) & 0xF;
*minor = (val >> 16) & 0xFFF;
}
inline int msm_spm_drv_set_spm_enable(
struct msm_spm_driver_data *dev, bool enable)
{
uint32_t value = enable ? 0x01 : 0x00;
if (!dev)
return -EINVAL;
if ((dev->reg_shadow[MSM_SPM_REG_SAW_SPM_CTL] & 0x01) ^ value) {
dev->reg_shadow[MSM_SPM_REG_SAW_SPM_CTL] &= ~0x1;
dev->reg_shadow[MSM_SPM_REG_SAW_SPM_CTL] |= value;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_SPM_CTL);
wmb(); /* Ensure we flush */
}
return 0;
}
int msm_spm_drv_get_avs_enable(struct msm_spm_driver_data *dev)
{
if (!dev)
return -EINVAL;
return dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] & 0x01;
}
int msm_spm_drv_set_avs_enable(struct msm_spm_driver_data *dev,
bool enable)
{
uint32_t value = enable ? 0x1 : 0x0;
if (!dev)
return -EINVAL;
if ((dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] & 0x1) ^ value) {
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] &= ~0x1;
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] |= value;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
}
return 0;
}
int msm_spm_drv_set_avs_limit(struct msm_spm_driver_data *dev,
uint32_t min_lvl, uint32_t max_lvl)
{
uint32_t value = (max_lvl & 0xff) << 16 | (min_lvl & 0xff);
if (!dev)
return -EINVAL;
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_LIMIT] = value;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_AVS_LIMIT);
return 0;
}
static int msm_spm_drv_avs_irq_mask(enum msm_spm_avs_irq irq)
{
switch (irq) {
case MSM_SPM_AVS_IRQ_MIN:
return BIT(1);
case MSM_SPM_AVS_IRQ_MAX:
return BIT(2);
default:
return -EINVAL;
}
}
int msm_spm_drv_set_avs_irq_enable(struct msm_spm_driver_data *dev,
enum msm_spm_avs_irq irq, bool enable)
{
int mask = msm_spm_drv_avs_irq_mask(irq);
uint32_t value;
if (!dev)
return -EINVAL;
else if (mask < 0)
return mask;
value = enable ? mask : 0;
if ((dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] & mask) ^ value) {
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] &= ~mask;
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] |= value;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
}
return 0;
}
int msm_spm_drv_avs_clear_irq(struct msm_spm_driver_data *dev,
enum msm_spm_avs_irq irq)
{
int mask = msm_spm_drv_avs_irq_mask(irq);
if (!dev)
return -EINVAL;
else if (mask < 0)
return mask;
if (dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] & mask) {
/*
* The interrupt status is cleared by disabling and then
* re-enabling the interrupt.
*/
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] &= ~mask;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] |= mask;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
}
return 0;
}
void msm_spm_drv_flush_seq_entry(struct msm_spm_driver_data *dev)
{
int i;
int num_spm_entry = msm_spm_drv_get_num_spm_entry(dev);
if (!dev) {
__WARN();
return;
}
for (i = 0; i < num_spm_entry; i++) {
__raw_writel(dev->reg_seq_entry_shadow[i],
dev->reg_base_addr
+ dev->reg_offsets[MSM_SPM_REG_SAW_SEQ_ENTRY]
+ 4 * i);
}
mb(); /* Ensure we flush */
}
void dump_regs(struct msm_spm_driver_data *dev, int cpu)
{
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_SPM_STS);
mb(); /* Ensure we flush */
pr_err("CPU%d: spm register MSM_SPM_REG_SAW_SPM_STS: 0x%x\n", cpu,
dev->reg_shadow[MSM_SPM_REG_SAW_SPM_STS]);
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_SPM_CTL);
mb(); /* Ensure we flush */
pr_err("CPU%d: spm register MSM_SPM_REG_SAW_SPM_CTL: 0x%x\n", cpu,
dev->reg_shadow[MSM_SPM_REG_SAW_SPM_CTL]);
}
int msm_spm_drv_write_seq_data(struct msm_spm_driver_data *dev,
uint8_t *cmd, uint32_t *offset)
{
uint32_t cmd_w;
uint32_t offset_w = *offset / 4;
uint8_t last_cmd;
if (!cmd)
return -EINVAL;
while (1) {
int i;
cmd_w = 0;
last_cmd = 0;
cmd_w = dev->reg_seq_entry_shadow[offset_w];
for (i = (*offset % 4); i < 4; i++) {
last_cmd = *(cmd++);
cmd_w |= last_cmd << (i * 8);
(*offset)++;
if (last_cmd == 0x0f)
break;
}
dev->reg_seq_entry_shadow[offset_w++] = cmd_w;
if (last_cmd == 0x0f)
break;
}
return 0;
}
int msm_spm_drv_set_low_power_mode(struct msm_spm_driver_data *dev,
uint32_t ctl)
{
/* SPM is configured to reset start address to zero after end of Program
*/
if (!dev)
return -EINVAL;
msm_spm_drv_set_start_addr(dev, ctl);
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_SPM_CTL);
wmb(); /* Ensure we flush */
if (msm_spm_debug_mask & MSM_SPM_DEBUG_SHADOW) {
int i;
for (i = 0; i < MSM_SPM_REG_NR; i++)
pr_info("%s: reg %02x = 0x%08x\n", __func__,
dev->reg_offsets[i], dev->reg_shadow[i]);
}
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_SPM_STS);
return 0;
}
uint32_t msm_spm_drv_get_vdd(struct msm_spm_driver_data *dev)
{
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_PMIC_STS);
return dev->reg_shadow[MSM_SPM_REG_SAW_PMIC_STS] & 0xFF;
}
#ifdef CONFIG_MSM_AVS_HW
static bool msm_spm_drv_is_avs_enabled(struct msm_spm_driver_data *dev)
{
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
return dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] & BIT(0);
}
static void msm_spm_drv_disable_avs(struct msm_spm_driver_data *dev)
{
msm_spm_drv_load_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] &= ~BIT(27);
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
}
static void msm_spm_drv_enable_avs(struct msm_spm_driver_data *dev)
{
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] |= BIT(27);
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
}
static void msm_spm_drv_set_avs_vlevel(struct msm_spm_driver_data *dev,
unsigned int vlevel)
{
vlevel &= 0x3f;
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] &= ~0x7efc00;
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] |= ((vlevel - 4) << 10);
dev->reg_shadow[MSM_SPM_REG_SAW_AVS_CTL] |= (vlevel << 17);
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_AVS_CTL);
}
#else
static bool msm_spm_drv_is_avs_enabled(struct msm_spm_driver_data *dev)
{
return false;
}
static void msm_spm_drv_disable_avs(struct msm_spm_driver_data *dev) { }
static void msm_spm_drv_enable_avs(struct msm_spm_driver_data *dev) { }
static void msm_spm_drv_set_avs_vlevel(struct msm_spm_driver_data *dev,
unsigned int vlevel) { }
#endif
int msm_spm_drv_set_vdd(struct msm_spm_driver_data *dev, unsigned int vlevel)
{
uint32_t timeout_us, new_level;
bool avs_enabled;
if (!dev)
return -EINVAL;
avs_enabled = msm_spm_drv_is_avs_enabled(dev);
if (!msm_spm_pmic_arb_present(dev))
return -ENODEV;
if (msm_spm_debug_mask & MSM_SPM_DEBUG_VCTL)
pr_info("%s: requesting vlevel %#x\n", __func__, vlevel);
if (avs_enabled)
msm_spm_drv_disable_avs(dev);
/* Kick the state machine back to idle */
dev->reg_shadow[MSM_SPM_REG_SAW_RST] = 1;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_RST);
msm_spm_drv_set_vctl2(dev, vlevel);
timeout_us = dev->vctl_timeout_us;
/* Confirm the voltage we set was what hardware sent */
do {
udelay(1);
new_level = msm_spm_drv_get_sts_curr_pmic_data(dev);
/* FSM is idle */
if (((new_level & 0x30000) == 0) &&
((new_level & 0xFF) == vlevel))
break;
} while (--timeout_us);
if (!timeout_us) {
pr_info("Wrong level %#x\n", new_level);
goto set_vdd_bail;
}
if (msm_spm_debug_mask & MSM_SPM_DEBUG_VCTL)
pr_info("%s: done, remaining timeout %u us\n",
__func__, timeout_us);
/* Set AVS min/max */
if (avs_enabled) {
msm_spm_drv_set_avs_vlevel(dev, vlevel);
msm_spm_drv_enable_avs(dev);
}
return 0;
set_vdd_bail:
if (avs_enabled)
msm_spm_drv_enable_avs(dev);
pr_err("%s: failed %#x, remaining timeout %uus, vlevel %#x\n",
__func__, vlevel, timeout_us, new_level);
return -EIO;
}
static int msm_spm_drv_get_pmic_port(struct msm_spm_driver_data *dev,
enum msm_spm_pmic_port port)
{
int index = -1;
switch (port) {
case MSM_SPM_PMIC_VCTL_PORT:
index = dev->vctl_port;
break;
case MSM_SPM_PMIC_PHASE_PORT:
index = dev->phase_port;
break;
case MSM_SPM_PMIC_PFM_PORT:
index = dev->pfm_port;
break;
default:
break;
}
return index;
}
int msm_spm_drv_set_pmic_data(struct msm_spm_driver_data *dev,
enum msm_spm_pmic_port port, unsigned int data)
{
unsigned int pmic_data = 0;
unsigned int timeout_us = 0;
int index = 0;
if (!msm_spm_pmic_arb_present(dev))
return -ENODEV;
index = msm_spm_drv_get_pmic_port(dev, port);
if (index < 0)
return -ENODEV;
pmic_data |= data & 0xFF;
pmic_data |= (index & 0x7) << 16;
dev->reg_shadow[MSM_SPM_REG_SAW_VCTL] &= ~0x700FF;
dev->reg_shadow[MSM_SPM_REG_SAW_VCTL] |= pmic_data;
msm_spm_drv_flush_shadow(dev, MSM_SPM_REG_SAW_VCTL);
mb(); /* Ensure we flush */
timeout_us = dev->vctl_timeout_us;
/**
* Confirm the pmic data set was what hardware sent by
* checking the PMIC FSM state.
* We cannot use the sts_pmic_data and check it against
* the value like we do fot set_vdd, since the PMIC_STS
* is only updated for SAW_VCTL sent with port index 0.
*/
do {
if (msm_spm_drv_get_sts_pmic_state(dev) ==
MSM_SPM_PMIC_STATE_IDLE)
break;
udelay(1);
} while (--timeout_us);
if (!timeout_us) {
pr_err("%s: failed, remaining timeout %u us, data %d\n",
__func__, timeout_us, data);
return -EIO;
}
return 0;
}
void msm_spm_drv_reinit(struct msm_spm_driver_data *dev, bool seq_write)
{
int i;
if (seq_write)
msm_spm_drv_flush_seq_entry(dev);
for (i = 0; i < MSM_SPM_REG_SAW_PMIC_DATA_0 + num_pmic_data; i++)
msm_spm_drv_load_shadow(dev, i);
for (i = MSM_SPM_REG_NR_INITIALIZE + 1; i < MSM_SPM_REG_NR; i++)
msm_spm_drv_load_shadow(dev, i);
}
int msm_spm_drv_reg_init(struct msm_spm_driver_data *dev,
struct msm_spm_platform_data *data)
{
int i;
bool found = false;
dev->ver_reg = data->ver_reg;
dev->reg_base_addr = data->reg_base_addr;
msm_spm_drv_get_saw2_ver(dev, &dev->major, &dev->minor);
for (i = 0; i < ARRAY_SIZE(saw2_info); i++)
if (dev->major == saw2_info[i].major &&
dev->minor == saw2_info[i].minor) {
pr_debug("%s: Version found\n",
saw2_info[i].ver_name);
dev->reg_offsets = saw2_info[i].spm_reg_offset_ptr;
found = true;
break;
}
if (!found) {
pr_err("%s: No SAW version found\n", __func__);
WARN_ON(!found);
}
return 0;
}
void msm_spm_drv_upd_reg_shadow(struct msm_spm_driver_data *dev, int id,
int val)
{
dev->reg_shadow[id] = val;
msm_spm_drv_flush_shadow(dev, id);
/* Complete the above writes before other accesses */
mb();
}
int msm_spm_drv_init(struct msm_spm_driver_data *dev,
struct msm_spm_platform_data *data)
{
int num_spm_entry;
if (!dev || !data)
return -ENODEV;
dev->vctl_port = data->vctl_port;
dev->phase_port = data->phase_port;
dev->pfm_port = data->pfm_port;
dev->reg_base_addr = data->reg_base_addr;
memcpy(dev->reg_shadow, data->reg_init_values,
sizeof(data->reg_init_values));
dev->vctl_timeout_us = data->vctl_timeout_us;
if (!num_pmic_data)
num_pmic_data = msm_spm_drv_get_num_pmic_data(dev);
num_spm_entry = msm_spm_drv_get_num_spm_entry(dev);
dev->reg_seq_entry_shadow =
kzalloc(sizeof(*dev->reg_seq_entry_shadow) * num_spm_entry,
GFP_KERNEL);
if (!dev->reg_seq_entry_shadow)
return -ENOMEM;
return 0;
}