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|
// SPDX-License-Identifier: GPL-2.0-only
//
// Components shared between ASoC and HDA CS35L56 drivers
//
// Copyright (C) 2023 Cirrus Logic, Inc. and
// Cirrus Logic International Semiconductor Ltd.
#include <linux/gpio/consumer.h>
#include <linux/regmap.h>
#include <linux/regulator/consumer.h>
#include <linux/types.h>
#include "cs35l56.h"
static const struct reg_sequence cs35l56_patch[] = {
/*
* Firmware can change these to non-defaults to satisfy SDCA.
* Ensure that they are at known defaults.
*/
{ CS35L56_SWIRE_DP3_CH1_INPUT, 0x00000018 },
{ CS35L56_SWIRE_DP3_CH2_INPUT, 0x00000019 },
{ CS35L56_SWIRE_DP3_CH3_INPUT, 0x00000029 },
{ CS35L56_SWIRE_DP3_CH4_INPUT, 0x00000028 },
/* These are not reset by a soft-reset, so patch to defaults. */
{ CS35L56_MAIN_RENDER_USER_MUTE, 0x00000000 },
{ CS35L56_MAIN_RENDER_USER_VOLUME, 0x00000000 },
{ CS35L56_MAIN_POSTURE_NUMBER, 0x00000000 },
};
int cs35l56_set_patch(struct cs35l56_base *cs35l56_base)
{
return regmap_register_patch(cs35l56_base->regmap, cs35l56_patch,
ARRAY_SIZE(cs35l56_patch));
}
EXPORT_SYMBOL_NS_GPL(cs35l56_set_patch, SND_SOC_CS35L56_SHARED);
static const struct reg_default cs35l56_reg_defaults[] = {
{ CS35L56_ASP1_ENABLES1, 0x00000000 },
{ CS35L56_ASP1_CONTROL1, 0x00000028 },
{ CS35L56_ASP1_CONTROL2, 0x18180200 },
{ CS35L56_ASP1_CONTROL3, 0x00000002 },
{ CS35L56_ASP1_FRAME_CONTROL1, 0x03020100 },
{ CS35L56_ASP1_FRAME_CONTROL5, 0x00020100 },
{ CS35L56_ASP1_DATA_CONTROL1, 0x00000018 },
{ CS35L56_ASP1_DATA_CONTROL5, 0x00000018 },
/* no defaults for ASP1TX mixer */
{ CS35L56_SWIRE_DP3_CH1_INPUT, 0x00000018 },
{ CS35L56_SWIRE_DP3_CH2_INPUT, 0x00000019 },
{ CS35L56_SWIRE_DP3_CH3_INPUT, 0x00000029 },
{ CS35L56_SWIRE_DP3_CH4_INPUT, 0x00000028 },
{ CS35L56_IRQ1_CFG, 0x00000000 },
{ CS35L56_IRQ1_MASK_1, 0x83ffffff },
{ CS35L56_IRQ1_MASK_2, 0xffff7fff },
{ CS35L56_IRQ1_MASK_4, 0xe0ffffff },
{ CS35L56_IRQ1_MASK_8, 0xfc000fff },
{ CS35L56_IRQ1_MASK_18, 0x1f7df0ff },
{ CS35L56_IRQ1_MASK_20, 0x15c00000 },
{ CS35L56_MAIN_RENDER_USER_MUTE, 0x00000000 },
{ CS35L56_MAIN_RENDER_USER_VOLUME, 0x00000000 },
{ CS35L56_MAIN_POSTURE_NUMBER, 0x00000000 },
};
static bool cs35l56_is_dsp_memory(unsigned int reg)
{
switch (reg) {
case CS35L56_DSP1_XMEM_PACKED_0 ... CS35L56_DSP1_XMEM_PACKED_6143:
case CS35L56_DSP1_XMEM_UNPACKED32_0 ... CS35L56_DSP1_XMEM_UNPACKED32_4095:
case CS35L56_DSP1_XMEM_UNPACKED24_0 ... CS35L56_DSP1_XMEM_UNPACKED24_8191:
case CS35L56_DSP1_YMEM_PACKED_0 ... CS35L56_DSP1_YMEM_PACKED_4604:
case CS35L56_DSP1_YMEM_UNPACKED32_0 ... CS35L56_DSP1_YMEM_UNPACKED32_3070:
case CS35L56_DSP1_YMEM_UNPACKED24_0 ... CS35L56_DSP1_YMEM_UNPACKED24_6141:
case CS35L56_DSP1_PMEM_0 ... CS35L56_DSP1_PMEM_5114:
return true;
default:
return false;
}
}
static bool cs35l56_readable_reg(struct device *dev, unsigned int reg)
{
switch (reg) {
case CS35L56_DEVID:
case CS35L56_REVID:
case CS35L56_RELID:
case CS35L56_OTPID:
case CS35L56_SFT_RESET:
case CS35L56_GLOBAL_ENABLES:
case CS35L56_BLOCK_ENABLES:
case CS35L56_BLOCK_ENABLES2:
case CS35L56_REFCLK_INPUT:
case CS35L56_GLOBAL_SAMPLE_RATE:
case CS35L56_ASP1_ENABLES1:
case CS35L56_ASP1_CONTROL1:
case CS35L56_ASP1_CONTROL2:
case CS35L56_ASP1_CONTROL3:
case CS35L56_ASP1_FRAME_CONTROL1:
case CS35L56_ASP1_FRAME_CONTROL5:
case CS35L56_ASP1_DATA_CONTROL1:
case CS35L56_ASP1_DATA_CONTROL5:
case CS35L56_DACPCM1_INPUT:
case CS35L56_DACPCM2_INPUT:
case CS35L56_ASP1TX1_INPUT:
case CS35L56_ASP1TX2_INPUT:
case CS35L56_ASP1TX3_INPUT:
case CS35L56_ASP1TX4_INPUT:
case CS35L56_DSP1RX1_INPUT:
case CS35L56_DSP1RX2_INPUT:
case CS35L56_SWIRE_DP3_CH1_INPUT:
case CS35L56_SWIRE_DP3_CH2_INPUT:
case CS35L56_SWIRE_DP3_CH3_INPUT:
case CS35L56_SWIRE_DP3_CH4_INPUT:
case CS35L56_IRQ1_CFG:
case CS35L56_IRQ1_STATUS:
case CS35L56_IRQ1_EINT_1 ... CS35L56_IRQ1_EINT_8:
case CS35L56_IRQ1_EINT_18:
case CS35L56_IRQ1_EINT_20:
case CS35L56_IRQ1_MASK_1:
case CS35L56_IRQ1_MASK_2:
case CS35L56_IRQ1_MASK_4:
case CS35L56_IRQ1_MASK_8:
case CS35L56_IRQ1_MASK_18:
case CS35L56_IRQ1_MASK_20:
case CS35L56_DSP_VIRTUAL1_MBOX_1:
case CS35L56_DSP_VIRTUAL1_MBOX_2:
case CS35L56_DSP_VIRTUAL1_MBOX_3:
case CS35L56_DSP_VIRTUAL1_MBOX_4:
case CS35L56_DSP_VIRTUAL1_MBOX_5:
case CS35L56_DSP_VIRTUAL1_MBOX_6:
case CS35L56_DSP_VIRTUAL1_MBOX_7:
case CS35L56_DSP_VIRTUAL1_MBOX_8:
case CS35L56_DSP_RESTRICT_STS1:
case CS35L56_DSP1_SYS_INFO_ID ... CS35L56_DSP1_SYS_INFO_END:
case CS35L56_DSP1_AHBM_WINDOW_DEBUG_0:
case CS35L56_DSP1_AHBM_WINDOW_DEBUG_1:
case CS35L56_DSP1_SCRATCH1:
case CS35L56_DSP1_SCRATCH2:
case CS35L56_DSP1_SCRATCH3:
case CS35L56_DSP1_SCRATCH4:
return true;
default:
return cs35l56_is_dsp_memory(reg);
}
}
static bool cs35l56_precious_reg(struct device *dev, unsigned int reg)
{
switch (reg) {
case CS35L56_DSP1_XMEM_PACKED_0 ... CS35L56_DSP1_XMEM_PACKED_6143:
case CS35L56_DSP1_YMEM_PACKED_0 ... CS35L56_DSP1_YMEM_PACKED_4604:
case CS35L56_DSP1_PMEM_0 ... CS35L56_DSP1_PMEM_5114:
return true;
default:
return false;
}
}
static bool cs35l56_volatile_reg(struct device *dev, unsigned int reg)
{
switch (reg) {
case CS35L56_DEVID:
case CS35L56_REVID:
case CS35L56_RELID:
case CS35L56_OTPID:
case CS35L56_SFT_RESET:
case CS35L56_GLOBAL_ENABLES: /* owned by firmware */
case CS35L56_BLOCK_ENABLES: /* owned by firmware */
case CS35L56_BLOCK_ENABLES2: /* owned by firmware */
case CS35L56_REFCLK_INPUT: /* owned by firmware */
case CS35L56_GLOBAL_SAMPLE_RATE: /* owned by firmware */
case CS35L56_DACPCM1_INPUT: /* owned by firmware */
case CS35L56_DACPCM2_INPUT: /* owned by firmware */
case CS35L56_DSP1RX1_INPUT: /* owned by firmware */
case CS35L56_DSP1RX2_INPUT: /* owned by firmware */
case CS35L56_IRQ1_STATUS:
case CS35L56_IRQ1_EINT_1 ... CS35L56_IRQ1_EINT_8:
case CS35L56_IRQ1_EINT_18:
case CS35L56_IRQ1_EINT_20:
case CS35L56_DSP_VIRTUAL1_MBOX_1:
case CS35L56_DSP_VIRTUAL1_MBOX_2:
case CS35L56_DSP_VIRTUAL1_MBOX_3:
case CS35L56_DSP_VIRTUAL1_MBOX_4:
case CS35L56_DSP_VIRTUAL1_MBOX_5:
case CS35L56_DSP_VIRTUAL1_MBOX_6:
case CS35L56_DSP_VIRTUAL1_MBOX_7:
case CS35L56_DSP_VIRTUAL1_MBOX_8:
case CS35L56_DSP_RESTRICT_STS1:
case CS35L56_DSP1_SYS_INFO_ID ... CS35L56_DSP1_SYS_INFO_END:
case CS35L56_DSP1_AHBM_WINDOW_DEBUG_0:
case CS35L56_DSP1_AHBM_WINDOW_DEBUG_1:
case CS35L56_DSP1_SCRATCH1:
case CS35L56_DSP1_SCRATCH2:
case CS35L56_DSP1_SCRATCH3:
case CS35L56_DSP1_SCRATCH4:
return true;
case CS35L56_MAIN_RENDER_USER_MUTE:
case CS35L56_MAIN_RENDER_USER_VOLUME:
case CS35L56_MAIN_POSTURE_NUMBER:
return false;
default:
return cs35l56_is_dsp_memory(reg);
}
}
/*
* The firmware boot sequence can overwrite the ASP1 config registers so that
* they don't match regmap's view of their values. Rewrite the values from the
* regmap cache into the hardware registers.
*/
int cs35l56_force_sync_asp1_registers_from_cache(struct cs35l56_base *cs35l56_base)
{
struct reg_sequence asp1_regs[] = {
{ .reg = CS35L56_ASP1_ENABLES1 },
{ .reg = CS35L56_ASP1_CONTROL1 },
{ .reg = CS35L56_ASP1_CONTROL2 },
{ .reg = CS35L56_ASP1_CONTROL3 },
{ .reg = CS35L56_ASP1_FRAME_CONTROL1 },
{ .reg = CS35L56_ASP1_FRAME_CONTROL5 },
{ .reg = CS35L56_ASP1_DATA_CONTROL1 },
{ .reg = CS35L56_ASP1_DATA_CONTROL5 },
};
int i, ret;
/* Read values from regmap cache into a write sequence */
for (i = 0; i < ARRAY_SIZE(asp1_regs); ++i) {
ret = regmap_read(cs35l56_base->regmap, asp1_regs[i].reg, &asp1_regs[i].def);
if (ret)
goto err;
}
/* Write the values cache-bypassed so that they will be written to silicon */
ret = regmap_multi_reg_write_bypassed(cs35l56_base->regmap, asp1_regs,
ARRAY_SIZE(asp1_regs));
if (ret)
goto err;
return 0;
err:
dev_err(cs35l56_base->dev, "Failed to sync ASP1 registers: %d\n", ret);
return ret;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_force_sync_asp1_registers_from_cache, SND_SOC_CS35L56_SHARED);
int cs35l56_mbox_send(struct cs35l56_base *cs35l56_base, unsigned int command)
{
unsigned int val;
int ret;
regmap_write(cs35l56_base->regmap, CS35L56_DSP_VIRTUAL1_MBOX_1, command);
ret = regmap_read_poll_timeout(cs35l56_base->regmap, CS35L56_DSP_VIRTUAL1_MBOX_1,
val, (val == 0),
CS35L56_MBOX_POLL_US, CS35L56_MBOX_TIMEOUT_US);
if (ret) {
dev_warn(cs35l56_base->dev, "MBOX command %#x failed: %d\n", command, ret);
return ret;
}
return 0;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_mbox_send, SND_SOC_CS35L56_SHARED);
int cs35l56_firmware_shutdown(struct cs35l56_base *cs35l56_base)
{
int ret;
unsigned int reg;
unsigned int val;
ret = cs35l56_mbox_send(cs35l56_base, CS35L56_MBOX_CMD_SHUTDOWN);
if (ret)
return ret;
if (cs35l56_base->rev < CS35L56_REVID_B0)
reg = CS35L56_DSP1_PM_CUR_STATE_A1;
else
reg = CS35L56_DSP1_PM_CUR_STATE;
ret = regmap_read_poll_timeout(cs35l56_base->regmap, reg,
val, (val == CS35L56_HALO_STATE_SHUTDOWN),
CS35L56_HALO_STATE_POLL_US,
CS35L56_HALO_STATE_TIMEOUT_US);
if (ret < 0)
dev_err(cs35l56_base->dev, "Failed to poll PM_CUR_STATE to 1 is %d (ret %d)\n",
val, ret);
return ret;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_firmware_shutdown, SND_SOC_CS35L56_SHARED);
int cs35l56_wait_for_firmware_boot(struct cs35l56_base *cs35l56_base)
{
unsigned int reg;
unsigned int val = 0;
int read_ret, poll_ret;
if (cs35l56_base->rev < CS35L56_REVID_B0)
reg = CS35L56_DSP1_HALO_STATE_A1;
else
reg = CS35L56_DSP1_HALO_STATE;
/*
* This can't be a regmap_read_poll_timeout() because cs35l56 will NAK
* I2C until it has booted which would terminate the poll
*/
poll_ret = read_poll_timeout(regmap_read, read_ret,
(val < 0xFFFF) && (val >= CS35L56_HALO_STATE_BOOT_DONE),
CS35L56_HALO_STATE_POLL_US,
CS35L56_HALO_STATE_TIMEOUT_US,
false,
cs35l56_base->regmap, reg, &val);
if (poll_ret) {
dev_err(cs35l56_base->dev, "Firmware boot timed out(%d): HALO_STATE=%#x\n",
read_ret, val);
return -EIO;
}
return 0;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_wait_for_firmware_boot, SND_SOC_CS35L56_SHARED);
void cs35l56_wait_control_port_ready(void)
{
/* Wait for control port to be ready (datasheet tIRS). */
usleep_range(CS35L56_CONTROL_PORT_READY_US, 2 * CS35L56_CONTROL_PORT_READY_US);
}
EXPORT_SYMBOL_NS_GPL(cs35l56_wait_control_port_ready, SND_SOC_CS35L56_SHARED);
void cs35l56_wait_min_reset_pulse(void)
{
/* Satisfy minimum reset pulse width spec */
usleep_range(CS35L56_RESET_PULSE_MIN_US, 2 * CS35L56_RESET_PULSE_MIN_US);
}
EXPORT_SYMBOL_NS_GPL(cs35l56_wait_min_reset_pulse, SND_SOC_CS35L56_SHARED);
static const struct reg_sequence cs35l56_system_reset_seq[] = {
REG_SEQ0(CS35L56_DSP_VIRTUAL1_MBOX_1, CS35L56_MBOX_CMD_SYSTEM_RESET),
};
void cs35l56_system_reset(struct cs35l56_base *cs35l56_base, bool is_soundwire)
{
/*
* Must enter cache-only first so there can't be any more register
* accesses other than the controlled system reset sequence below.
*/
regcache_cache_only(cs35l56_base->regmap, true);
regmap_multi_reg_write_bypassed(cs35l56_base->regmap,
cs35l56_system_reset_seq,
ARRAY_SIZE(cs35l56_system_reset_seq));
/* On SoundWire the registers won't be accessible until it re-enumerates. */
if (is_soundwire)
return;
cs35l56_wait_control_port_ready();
regcache_cache_only(cs35l56_base->regmap, false);
}
EXPORT_SYMBOL_NS_GPL(cs35l56_system_reset, SND_SOC_CS35L56_SHARED);
int cs35l56_irq_request(struct cs35l56_base *cs35l56_base, int irq)
{
int ret;
if (!irq)
return 0;
ret = devm_request_threaded_irq(cs35l56_base->dev, irq, NULL, cs35l56_irq,
IRQF_ONESHOT | IRQF_SHARED | IRQF_TRIGGER_LOW,
"cs35l56", cs35l56_base);
if (!ret)
cs35l56_base->irq = irq;
else
dev_err(cs35l56_base->dev, "Failed to get IRQ: %d\n", ret);
return ret;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_irq_request, SND_SOC_CS35L56_SHARED);
irqreturn_t cs35l56_irq(int irq, void *data)
{
struct cs35l56_base *cs35l56_base = data;
unsigned int status1 = 0, status8 = 0, status20 = 0;
unsigned int mask1, mask8, mask20;
unsigned int val;
int rv;
irqreturn_t ret = IRQ_NONE;
if (!cs35l56_base->init_done)
return IRQ_NONE;
mutex_lock(&cs35l56_base->irq_lock);
rv = pm_runtime_resume_and_get(cs35l56_base->dev);
if (rv < 0) {
dev_err(cs35l56_base->dev, "irq: failed to get pm_runtime: %d\n", rv);
goto err_unlock;
}
regmap_read(cs35l56_base->regmap, CS35L56_IRQ1_STATUS, &val);
if ((val & CS35L56_IRQ1_STS_MASK) == 0) {
dev_dbg(cs35l56_base->dev, "Spurious IRQ: no pending interrupt\n");
goto err;
}
/* Ack interrupts */
regmap_read(cs35l56_base->regmap, CS35L56_IRQ1_EINT_1, &status1);
regmap_read(cs35l56_base->regmap, CS35L56_IRQ1_MASK_1, &mask1);
status1 &= ~mask1;
regmap_write(cs35l56_base->regmap, CS35L56_IRQ1_EINT_1, status1);
regmap_read(cs35l56_base->regmap, CS35L56_IRQ1_EINT_8, &status8);
regmap_read(cs35l56_base->regmap, CS35L56_IRQ1_MASK_8, &mask8);
status8 &= ~mask8;
regmap_write(cs35l56_base->regmap, CS35L56_IRQ1_EINT_8, status8);
regmap_read(cs35l56_base->regmap, CS35L56_IRQ1_EINT_20, &status20);
regmap_read(cs35l56_base->regmap, CS35L56_IRQ1_MASK_20, &mask20);
status20 &= ~mask20;
/* We don't want EINT20 but they default to unmasked: force mask */
regmap_write(cs35l56_base->regmap, CS35L56_IRQ1_MASK_20, 0xffffffff);
dev_dbg(cs35l56_base->dev, "%s: %#x %#x\n", __func__, status1, status8);
/* Check to see if unmasked bits are active */
if (!status1 && !status8 && !status20)
goto err;
if (status1 & CS35L56_AMP_SHORT_ERR_EINT1_MASK)
dev_crit(cs35l56_base->dev, "Amp short error\n");
if (status8 & CS35L56_TEMP_ERR_EINT1_MASK)
dev_crit(cs35l56_base->dev, "Overtemp error\n");
ret = IRQ_HANDLED;
err:
pm_runtime_put(cs35l56_base->dev);
err_unlock:
mutex_unlock(&cs35l56_base->irq_lock);
return ret;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_irq, SND_SOC_CS35L56_SHARED);
int cs35l56_is_fw_reload_needed(struct cs35l56_base *cs35l56_base)
{
unsigned int val;
int ret;
/*
* In secure mode FIRMWARE_MISSING is cleared by the BIOS loader so
* can't be used here to test for memory retention.
* Assume that tuning must be re-loaded.
*/
if (cs35l56_base->secured)
return true;
ret = pm_runtime_resume_and_get(cs35l56_base->dev);
if (ret) {
dev_err(cs35l56_base->dev, "Failed to runtime_get: %d\n", ret);
return ret;
}
ret = regmap_read(cs35l56_base->regmap, CS35L56_PROTECTION_STATUS, &val);
if (ret)
dev_err(cs35l56_base->dev, "Failed to read PROTECTION_STATUS: %d\n", ret);
else
ret = !!(val & CS35L56_FIRMWARE_MISSING);
pm_runtime_put_autosuspend(cs35l56_base->dev);
return ret;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_is_fw_reload_needed, SND_SOC_CS35L56_SHARED);
static const struct reg_sequence cs35l56_hibernate_seq[] = {
/* This must be the last register access */
REG_SEQ0(CS35L56_DSP_VIRTUAL1_MBOX_1, CS35L56_MBOX_CMD_ALLOW_AUTO_HIBERNATE),
};
static const struct reg_sequence cs35l56_hibernate_wake_seq[] = {
REG_SEQ0(CS35L56_DSP_VIRTUAL1_MBOX_1, CS35L56_MBOX_CMD_WAKEUP),
};
static void cs35l56_issue_wake_event(struct cs35l56_base *cs35l56_base)
{
/*
* Dummy transactions to trigger I2C/SPI auto-wake. Issue two
* transactions to meet the minimum required time from the rising edge
* to the last falling edge of wake.
*
* It uses bypassed write because we must wake the chip before
* disabling regmap cache-only.
*
* This can NAK on I2C which will terminate the write sequence so the
* single-write sequence is issued twice.
*/
regmap_multi_reg_write_bypassed(cs35l56_base->regmap,
cs35l56_hibernate_wake_seq,
ARRAY_SIZE(cs35l56_hibernate_wake_seq));
usleep_range(CS35L56_WAKE_HOLD_TIME_US, 2 * CS35L56_WAKE_HOLD_TIME_US);
regmap_multi_reg_write_bypassed(cs35l56_base->regmap,
cs35l56_hibernate_wake_seq,
ARRAY_SIZE(cs35l56_hibernate_wake_seq));
cs35l56_wait_control_port_ready();
}
int cs35l56_runtime_suspend_common(struct cs35l56_base *cs35l56_base)
{
unsigned int val;
int ret;
if (!cs35l56_base->init_done)
return 0;
/* Firmware must have entered a power-save state */
ret = regmap_read_poll_timeout(cs35l56_base->regmap,
CS35L56_TRANSDUCER_ACTUAL_PS,
val, (val >= CS35L56_PS3),
CS35L56_PS3_POLL_US,
CS35L56_PS3_TIMEOUT_US);
if (ret)
dev_warn(cs35l56_base->dev, "PS3 wait failed: %d\n", ret);
/* Clear BOOT_DONE so it can be used to detect a reboot */
regmap_write(cs35l56_base->regmap, CS35L56_IRQ1_EINT_4, CS35L56_OTP_BOOT_DONE_MASK);
if (!cs35l56_base->can_hibernate) {
regcache_cache_only(cs35l56_base->regmap, true);
dev_dbg(cs35l56_base->dev, "Suspended: no hibernate");
return 0;
}
/*
* Must enter cache-only first so there can't be any more register
* accesses other than the controlled hibernate sequence below.
*/
regcache_cache_only(cs35l56_base->regmap, true);
regmap_multi_reg_write_bypassed(cs35l56_base->regmap,
cs35l56_hibernate_seq,
ARRAY_SIZE(cs35l56_hibernate_seq));
dev_dbg(cs35l56_base->dev, "Suspended: hibernate");
return 0;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_runtime_suspend_common, SND_SOC_CS35L56_SHARED);
int cs35l56_runtime_resume_common(struct cs35l56_base *cs35l56_base, bool is_soundwire)
{
unsigned int val;
int ret;
if (!cs35l56_base->init_done)
return 0;
if (!cs35l56_base->can_hibernate)
goto out_sync;
/* Must be done before releasing cache-only */
if (!is_soundwire)
cs35l56_issue_wake_event(cs35l56_base);
out_sync:
regcache_cache_only(cs35l56_base->regmap, false);
ret = cs35l56_wait_for_firmware_boot(cs35l56_base);
if (ret) {
dev_err(cs35l56_base->dev, "Hibernate wake failed: %d\n", ret);
goto err;
}
ret = cs35l56_mbox_send(cs35l56_base, CS35L56_MBOX_CMD_PREVENT_AUTO_HIBERNATE);
if (ret)
goto err;
/* BOOT_DONE will be 1 if the amp reset */
regmap_read(cs35l56_base->regmap, CS35L56_IRQ1_EINT_4, &val);
if (val & CS35L56_OTP_BOOT_DONE_MASK) {
dev_dbg(cs35l56_base->dev, "Registers reset in suspend\n");
regcache_mark_dirty(cs35l56_base->regmap);
}
regcache_sync(cs35l56_base->regmap);
dev_dbg(cs35l56_base->dev, "Resumed");
return 0;
err:
regcache_cache_only(cs35l56_base->regmap, true);
regmap_multi_reg_write_bypassed(cs35l56_base->regmap,
cs35l56_hibernate_seq,
ARRAY_SIZE(cs35l56_hibernate_seq));
return ret;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_runtime_resume_common, SND_SOC_CS35L56_SHARED);
static const struct cs_dsp_region cs35l56_dsp1_regions[] = {
{ .type = WMFW_HALO_PM_PACKED, .base = CS35L56_DSP1_PMEM_0 },
{ .type = WMFW_HALO_XM_PACKED, .base = CS35L56_DSP1_XMEM_PACKED_0 },
{ .type = WMFW_HALO_YM_PACKED, .base = CS35L56_DSP1_YMEM_PACKED_0 },
{ .type = WMFW_ADSP2_XM, .base = CS35L56_DSP1_XMEM_UNPACKED24_0 },
{ .type = WMFW_ADSP2_YM, .base = CS35L56_DSP1_YMEM_UNPACKED24_0 },
};
void cs35l56_init_cs_dsp(struct cs35l56_base *cs35l56_base, struct cs_dsp *cs_dsp)
{
cs_dsp->num = 1;
cs_dsp->type = WMFW_HALO;
cs_dsp->rev = 0;
cs_dsp->dev = cs35l56_base->dev;
cs_dsp->regmap = cs35l56_base->regmap;
cs_dsp->base = CS35L56_DSP1_CORE_BASE;
cs_dsp->base_sysinfo = CS35L56_DSP1_SYS_INFO_ID;
cs_dsp->mem = cs35l56_dsp1_regions;
cs_dsp->num_mems = ARRAY_SIZE(cs35l56_dsp1_regions);
cs_dsp->no_core_startstop = true;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_init_cs_dsp, SND_SOC_CS35L56_SHARED);
int cs35l56_read_prot_status(struct cs35l56_base *cs35l56_base,
bool *fw_missing, unsigned int *fw_version)
{
unsigned int prot_status;
int ret;
ret = regmap_read(cs35l56_base->regmap, CS35L56_PROTECTION_STATUS, &prot_status);
if (ret) {
dev_err(cs35l56_base->dev, "Get PROTECTION_STATUS failed: %d\n", ret);
return ret;
}
*fw_missing = !!(prot_status & CS35L56_FIRMWARE_MISSING);
ret = regmap_read(cs35l56_base->regmap, CS35L56_DSP1_FW_VER, fw_version);
if (ret) {
dev_err(cs35l56_base->dev, "Get FW VER failed: %d\n", ret);
return ret;
}
return 0;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_read_prot_status, SND_SOC_CS35L56_SHARED);
int cs35l56_hw_init(struct cs35l56_base *cs35l56_base)
{
int ret;
unsigned int devid, revid, otpid, secured, fw_ver;
bool fw_missing;
/*
* When the system is not using a reset_gpio ensure the device is
* awake, otherwise the device has just been released from reset and
* the driver must wait for the control port to become usable.
*/
if (!cs35l56_base->reset_gpio)
cs35l56_issue_wake_event(cs35l56_base);
else
cs35l56_wait_control_port_ready();
/*
* The HALO_STATE register is in different locations on Ax and B0
* devices so the REVID needs to be determined before waiting for the
* firmware to boot.
*/
ret = regmap_read(cs35l56_base->regmap, CS35L56_REVID, &revid);
if (ret < 0) {
dev_err(cs35l56_base->dev, "Get Revision ID failed\n");
return ret;
}
cs35l56_base->rev = revid & (CS35L56_AREVID_MASK | CS35L56_MTLREVID_MASK);
ret = cs35l56_wait_for_firmware_boot(cs35l56_base);
if (ret)
return ret;
ret = regmap_read(cs35l56_base->regmap, CS35L56_DEVID, &devid);
if (ret < 0) {
dev_err(cs35l56_base->dev, "Get Device ID failed\n");
return ret;
}
devid &= CS35L56_DEVID_MASK;
switch (devid) {
case 0x35A56:
break;
default:
dev_err(cs35l56_base->dev, "Unknown device %x\n", devid);
return ret;
}
ret = regmap_read(cs35l56_base->regmap, CS35L56_DSP_RESTRICT_STS1, &secured);
if (ret) {
dev_err(cs35l56_base->dev, "Get Secure status failed\n");
return ret;
}
/* When any bus is restricted treat the device as secured */
if (secured & CS35L56_RESTRICTED_MASK)
cs35l56_base->secured = true;
ret = regmap_read(cs35l56_base->regmap, CS35L56_OTPID, &otpid);
if (ret < 0) {
dev_err(cs35l56_base->dev, "Get OTP ID failed\n");
return ret;
}
ret = cs35l56_read_prot_status(cs35l56_base, &fw_missing, &fw_ver);
if (ret)
return ret;
dev_info(cs35l56_base->dev, "Cirrus Logic CS35L56%s Rev %02X OTP%d fw:%d.%d.%d (patched=%u)\n",
cs35l56_base->secured ? "s" : "", cs35l56_base->rev, otpid,
fw_ver >> 16, (fw_ver >> 8) & 0xff, fw_ver & 0xff, !fw_missing);
/* Wake source and *_BLOCKED interrupts default to unmasked, so mask them */
regmap_write(cs35l56_base->regmap, CS35L56_IRQ1_MASK_20, 0xffffffff);
regmap_update_bits(cs35l56_base->regmap, CS35L56_IRQ1_MASK_1,
CS35L56_AMP_SHORT_ERR_EINT1_MASK,
0);
regmap_update_bits(cs35l56_base->regmap, CS35L56_IRQ1_MASK_8,
CS35L56_TEMP_ERR_EINT1_MASK,
0);
return 0;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_hw_init, SND_SOC_CS35L56_SHARED);
int cs35l56_get_speaker_id(struct cs35l56_base *cs35l56_base)
{
struct gpio_descs *descs;
int speaker_id;
int i, ret;
/* Read the speaker type qualifier from the motherboard GPIOs */
descs = gpiod_get_array_optional(cs35l56_base->dev, "spk-id", GPIOD_IN);
if (!descs) {
return -ENOENT;
} else if (IS_ERR(descs)) {
ret = PTR_ERR(descs);
return dev_err_probe(cs35l56_base->dev, ret, "Failed to get spk-id-gpios\n");
}
speaker_id = 0;
for (i = 0; i < descs->ndescs; i++) {
ret = gpiod_get_value_cansleep(descs->desc[i]);
if (ret < 0) {
dev_err_probe(cs35l56_base->dev, ret, "Failed to read spk-id[%d]\n", i);
goto err;
}
speaker_id |= (ret << i);
}
dev_dbg(cs35l56_base->dev, "Speaker ID = %d\n", speaker_id);
ret = speaker_id;
err:
gpiod_put_array(descs);
return ret;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_get_speaker_id, SND_SOC_CS35L56_SHARED);
static const u32 cs35l56_bclk_valid_for_pll_freq_table[] = {
[0x0C] = 128000,
[0x0F] = 256000,
[0x11] = 384000,
[0x12] = 512000,
[0x15] = 768000,
[0x17] = 1024000,
[0x1A] = 1500000,
[0x1B] = 1536000,
[0x1C] = 2000000,
[0x1D] = 2048000,
[0x1E] = 2400000,
[0x20] = 3000000,
[0x21] = 3072000,
[0x23] = 4000000,
[0x24] = 4096000,
[0x25] = 4800000,
[0x27] = 6000000,
[0x28] = 6144000,
[0x29] = 6250000,
[0x2A] = 6400000,
[0x2E] = 8000000,
[0x2F] = 8192000,
[0x30] = 9600000,
[0x32] = 12000000,
[0x33] = 12288000,
[0x37] = 13500000,
[0x38] = 19200000,
[0x39] = 22579200,
[0x3B] = 24576000,
};
int cs35l56_get_bclk_freq_id(unsigned int freq)
{
int i;
if (freq == 0)
return -EINVAL;
/* The BCLK frequency must be a valid PLL REFCLK */
for (i = 0; i < ARRAY_SIZE(cs35l56_bclk_valid_for_pll_freq_table); ++i) {
if (cs35l56_bclk_valid_for_pll_freq_table[i] == freq)
return i;
}
return -EINVAL;
}
EXPORT_SYMBOL_NS_GPL(cs35l56_get_bclk_freq_id, SND_SOC_CS35L56_SHARED);
static const char * const cs35l56_supplies[/* auto-sized */] = {
"VDD_P",
"VDD_IO",
"VDD_A",
};
void cs35l56_fill_supply_names(struct regulator_bulk_data *data)
{
int i;
BUILD_BUG_ON(ARRAY_SIZE(cs35l56_supplies) != CS35L56_NUM_BULK_SUPPLIES);
for (i = 0; i < ARRAY_SIZE(cs35l56_supplies); i++)
data[i].supply = cs35l56_supplies[i];
}
EXPORT_SYMBOL_NS_GPL(cs35l56_fill_supply_names, SND_SOC_CS35L56_SHARED);
const char * const cs35l56_tx_input_texts[] = {
"None", "ASP1RX1", "ASP1RX2", "VMON", "IMON", "ERRVOL", "CLASSH",
"VDDBMON", "VBSTMON", "DSP1TX1", "DSP1TX2", "DSP1TX3", "DSP1TX4",
"DSP1TX5", "DSP1TX6", "DSP1TX7", "DSP1TX8", "TEMPMON",
"INTERPOLATOR", "SDW1RX1", "SDW1RX2",
};
EXPORT_SYMBOL_NS_GPL(cs35l56_tx_input_texts, SND_SOC_CS35L56_SHARED);
const unsigned int cs35l56_tx_input_values[] = {
CS35L56_INPUT_SRC_NONE,
CS35L56_INPUT_SRC_ASP1RX1,
CS35L56_INPUT_SRC_ASP1RX2,
CS35L56_INPUT_SRC_VMON,
CS35L56_INPUT_SRC_IMON,
CS35L56_INPUT_SRC_ERR_VOL,
CS35L56_INPUT_SRC_CLASSH,
CS35L56_INPUT_SRC_VDDBMON,
CS35L56_INPUT_SRC_VBSTMON,
CS35L56_INPUT_SRC_DSP1TX1,
CS35L56_INPUT_SRC_DSP1TX2,
CS35L56_INPUT_SRC_DSP1TX3,
CS35L56_INPUT_SRC_DSP1TX4,
CS35L56_INPUT_SRC_DSP1TX5,
CS35L56_INPUT_SRC_DSP1TX6,
CS35L56_INPUT_SRC_DSP1TX7,
CS35L56_INPUT_SRC_DSP1TX8,
CS35L56_INPUT_SRC_TEMPMON,
CS35L56_INPUT_SRC_INTERPOLATOR,
CS35L56_INPUT_SRC_SWIRE_DP1_CHANNEL1,
CS35L56_INPUT_SRC_SWIRE_DP1_CHANNEL2,
};
EXPORT_SYMBOL_NS_GPL(cs35l56_tx_input_values, SND_SOC_CS35L56_SHARED);
struct regmap_config cs35l56_regmap_i2c = {
.reg_bits = 32,
.val_bits = 32,
.reg_stride = 4,
.reg_format_endian = REGMAP_ENDIAN_BIG,
.val_format_endian = REGMAP_ENDIAN_BIG,
.max_register = CS35L56_DSP1_PMEM_5114,
.reg_defaults = cs35l56_reg_defaults,
.num_reg_defaults = ARRAY_SIZE(cs35l56_reg_defaults),
.volatile_reg = cs35l56_volatile_reg,
.readable_reg = cs35l56_readable_reg,
.precious_reg = cs35l56_precious_reg,
.cache_type = REGCACHE_MAPLE,
};
EXPORT_SYMBOL_NS_GPL(cs35l56_regmap_i2c, SND_SOC_CS35L56_SHARED);
struct regmap_config cs35l56_regmap_spi = {
.reg_bits = 32,
.val_bits = 32,
.pad_bits = 16,
.reg_stride = 4,
.reg_format_endian = REGMAP_ENDIAN_BIG,
.val_format_endian = REGMAP_ENDIAN_BIG,
.max_register = CS35L56_DSP1_PMEM_5114,
.reg_defaults = cs35l56_reg_defaults,
.num_reg_defaults = ARRAY_SIZE(cs35l56_reg_defaults),
.volatile_reg = cs35l56_volatile_reg,
.readable_reg = cs35l56_readable_reg,
.precious_reg = cs35l56_precious_reg,
.cache_type = REGCACHE_MAPLE,
};
EXPORT_SYMBOL_NS_GPL(cs35l56_regmap_spi, SND_SOC_CS35L56_SHARED);
struct regmap_config cs35l56_regmap_sdw = {
.reg_bits = 32,
.val_bits = 32,
.reg_stride = 4,
.reg_format_endian = REGMAP_ENDIAN_LITTLE,
.val_format_endian = REGMAP_ENDIAN_BIG,
.max_register = CS35L56_DSP1_PMEM_5114,
.reg_defaults = cs35l56_reg_defaults,
.num_reg_defaults = ARRAY_SIZE(cs35l56_reg_defaults),
.volatile_reg = cs35l56_volatile_reg,
.readable_reg = cs35l56_readable_reg,
.precious_reg = cs35l56_precious_reg,
.cache_type = REGCACHE_MAPLE,
};
EXPORT_SYMBOL_NS_GPL(cs35l56_regmap_sdw, SND_SOC_CS35L56_SHARED);
MODULE_DESCRIPTION("ASoC CS35L56 Shared");
MODULE_AUTHOR("Richard Fitzgerald <rf@opensource.cirrus.com>");
MODULE_AUTHOR("Simon Trimmer <simont@opensource.cirrus.com>");
MODULE_LICENSE("GPL");
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