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|
/* Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* rk3399 chipset power control module for Chrome EC */
/*
* The description of each CONFIG_CHIPSET_POWER_SEQ_VERSION:
*
* Version 0: Initial/default revision for clamshell / convertible.
* Version 1: Simplified power tree for tablet / detachable.
*/
#include "charge_state.h"
#include "chipset.h"
#include "common.h"
#include "console.h"
#include "ec_commands.h"
#include "gpio.h"
#include "hooks.h"
#include "lid_switch.h"
#include "power.h"
#include "power_button.h"
#include "system.h"
#include "task.h"
#include "timer.h"
#include "usb_charge.h"
#include "util.h"
/* Console output macros */
#define CPUTS(outstr) cputs(CC_CHIPSET, outstr)
#define CPRINTS(format, args...) cprints(CC_CHIPSET, format, ## args)
/* Input state flags */
#if CONFIG_CHIPSET_POWER_SEQ_VERSION == 1
#define IN_PGOOD_PP1250_S3 POWER_SIGNAL_MASK(PP1250_S3_PWR_GOOD)
#define IN_PGOOD_PP900_S0 POWER_SIGNAL_MASK(PP900_S0_PWR_GOOD)
#else
#define IN_PGOOD_PP5000 POWER_SIGNAL_MASK(PP5000_PWR_GOOD)
#define IN_PGOOD_SYS POWER_SIGNAL_MASK(SYS_PWR_GOOD)
#endif
#define IN_PGOOD_AP POWER_SIGNAL_MASK(AP_PWR_GOOD)
#define IN_SUSPEND_DEASSERTED POWER_SIGNAL_MASK(SUSPEND_DEASSERTED)
/* Rails requires for S3 and S0 */
#if CONFIG_CHIPSET_POWER_SEQ_VERSION == 1
#define IN_PGOOD_S3 (IN_PGOOD_PP1250_S3)
#define IN_PGOOD_S0 (IN_PGOOD_S3 | IN_PGOOD_PP900_S0 | IN_PGOOD_AP)
/* This board can optionally wake-on-USB in S3 */
#define S3_USB_WAKE
/* This board has non-INT power signal pins */
#define POWER_SIGNAL_POLLING
/* This board supports CR50 deep sleep mode */
#define CR50_DEEP_SLEEP
/*
* If AP_PWR_GOOD assertion does not trigger an interrupt, poll the
* signal every 5ms, up to 200 times (~ 1 second timeout).
*/
#define PGOOD_S0_POLL_TIMEOUT (5 * MSEC)
#define PGOOD_S0_POLL_TRIES 200
#else
#define IN_PGOOD_S3 (IN_PGOOD_PP5000)
#define IN_PGOOD_S0 (IN_PGOOD_S3 | IN_PGOOD_AP | IN_PGOOD_SYS)
#endif
/* All inputs in the right state for S0 */
#define IN_ALL_S0 (IN_PGOOD_S0 | IN_SUSPEND_DEASSERTED)
/* Long power key press to force shutdown in S0 */
#define FORCED_SHUTDOWN_DELAY (8 * SECOND)
#define CHARGER_INITIALIZED_DELAY_MS 100
#define CHARGER_INITIALIZED_TRIES 40
/* Data structure for a GPIO operation for power sequencing */
struct power_seq_op {
/* enum gpio_signal in 8 bits */
uint8_t signal;
uint8_t level;
/* Number of milliseconds to delay after setting signal to level */
uint8_t delay;
};
BUILD_ASSERT(GPIO_COUNT < 256);
/*
* This is the power sequence for POWER_S5S3.
* The entries in the table are handled sequentially from the top
* to the bottom.
*/
#if CONFIG_CHIPSET_POWER_SEQ_VERSION == 1
static const struct power_seq_op s5s3_power_seq[] = {
{ GPIO_PP900_S3_EN, 1, 2 },
{ GPIO_PP3300_S3_EN, 1, 2 },
{ GPIO_PP1800_S3_EN, 1, 2 },
{ GPIO_PP1250_S3_EN, 1, 2 },
};
#else
static const struct power_seq_op s5s3_power_seq[] = {
{ GPIO_PPVAR_LOGIC_EN, 1, 0 },
{ GPIO_PP900_AP_EN, 1, 0 },
{ GPIO_PP900_PCIE_EN, 1, 2 },
{ GPIO_PP900_PMU_EN, 1, 0 },
{ GPIO_PP900_PLL_EN, 1, 0 },
{ GPIO_PP900_USB_EN, 1, 2 },
{ GPIO_SYS_RST_L, 0, 0 },
{ GPIO_PP1800_PMU_EN_L, 0, 2 },
{ GPIO_LPDDR_PWR_EN, 1, 2 },
{ GPIO_PP1800_USB_EN_L, 0, 2 },
{ GPIO_PP3300_USB_EN_L, 0, 0 },
{ GPIO_PP5000_EN, 1, 0 },
{ GPIO_PP3300_TRACKPAD_EN_L, 0, 1 },
{ GPIO_PP1800_LID_EN_L, 0, 0 },
{ GPIO_PP1800_SIXAXIS_EN_L, 0, 2 },
{ GPIO_PP1800_SENSOR_EN_L, 0, 0 },
};
#endif
/* The power sequence for POWER_S3S0 */
#if CONFIG_CHIPSET_POWER_SEQ_VERSION == 1
static const struct power_seq_op s3s0_power_seq[] = {
{ GPIO_AP_CORE_EN, 1, 2 },
{ GPIO_PP1800_S0_EN, 1, 0 },
};
#else
static const struct power_seq_op s3s0_power_seq[] = {
{ GPIO_PPVAR_CLOGIC_EN, 1, 2 },
{ GPIO_PP900_DDRPLL_EN, 1, 2 },
{ GPIO_PP1800_AP_AVDD_EN_L, 0, 2 },
{ GPIO_AP_CORE_EN, 1, 2 },
{ GPIO_PP1800_S0_EN_L, 0, 2 },
{ GPIO_PP3300_S0_EN_L, 0, 0 },
};
#endif
#ifdef S3_USB_WAKE
/* Sigs that may already be on in S3, if we need to wake-on-USB */
static const struct power_seq_op s3s0_usb_wake_power_seq[] = {
{ GPIO_PP900_S0_EN, 1, 2 },
{ GPIO_PP1800_USB_EN, 1, 2 },
{ GPIO_PP3300_S0_EN, 1, 2 },
};
#endif
/* The power sequence for POWER_S0S3 */
#if CONFIG_CHIPSET_POWER_SEQ_VERSION == 1
static const struct power_seq_op s0s3_power_seq[] = {
{ GPIO_AP_CORE_EN, 0, 20 },
};
#else
static const struct power_seq_op s0s3_power_seq[] = {
{ GPIO_PP3300_S0_EN_L, 1, 20 },
{ GPIO_PP1800_S0_EN_L, 1, 1 },
{ GPIO_AP_CORE_EN, 0, 20 },
{ GPIO_PP1800_AP_AVDD_EN_L, 1, 1 },
{ GPIO_PP900_DDRPLL_EN, 0, 1 },
{ GPIO_PPVAR_CLOGIC_EN, 0, 0 },
};
#endif
#ifdef S3_USB_WAKE
/* Sigs that need to be left on in S3, if we need to wake-on-USB */
static const struct power_seq_op s0s3_usb_wake_power_seq[] = {
{ GPIO_PP3300_S0_EN, 0, 20 },
{ GPIO_PP1800_S0_EN, 0, 1 },
{ GPIO_PP1800_USB_EN, 0, 1 },
{ GPIO_PP900_S0_EN, 0, 0 },
};
#endif
/* The power sequence for POWER_S3S5 */
#if CONFIG_CHIPSET_POWER_SEQ_VERSION == 1
static const struct power_seq_op s3s5_power_seq[] = {
{ GPIO_SYS_RST_L, 0, 0 },
{ GPIO_PP1250_S3_EN, 0, 2 },
{ GPIO_PP1800_S3_EN, 0, 2 },
{ GPIO_PP3300_S3_EN, 0, 2 },
{ GPIO_PP900_S3_EN, 0, 0 },
};
#else
static const struct power_seq_op s3s5_power_seq[] = {
{ GPIO_PP1800_SENSOR_EN_L, 1, 0},
{ GPIO_PP1800_SIXAXIS_EN_L, 1, 0},
{ GPIO_PP1800_LID_EN_L, 1, 0 },
{ GPIO_PP3300_TRACKPAD_EN_L, 1, 0 },
{ GPIO_PP5000_EN, 0, 0 },
{ GPIO_PP3300_USB_EN_L, 1, 20 },
{ GPIO_PP1800_USB_EN_L, 1, 10 },
{ GPIO_LPDDR_PWR_EN, 0, 20 },
{ GPIO_PP1800_PMU_EN_L, 1, 2 },
{ GPIO_PP900_PLL_EN, 0, 0 },
{ GPIO_PP900_PMU_EN, 0, 0 },
{ GPIO_PP900_USB_EN, 0, 6 },
{ GPIO_PP900_PCIE_EN, 0, 0 },
{ GPIO_PP900_AP_EN, 0, 0 },
{ GPIO_PPVAR_LOGIC_EN, 0, 0 },
};
#endif
static int forcing_shutdown;
void chipset_force_shutdown(enum chipset_shutdown_reason reason)
{
CPRINTS("%s(%d)", __func__, reason);
report_ap_reset(reason);
/*
* Force power off. This condition will reset once the state machine
* transitions to G3.
*/
forcing_shutdown = 1;
task_wake(TASK_ID_CHIPSET);
}
#define SYS_RST_HOLD_US (1 * MSEC)
void chipset_reset(enum chipset_reset_reason reason)
{
#ifdef CONFIG_CMD_RTC
/* Print out the RTC to help correlate resets in logs. */
print_system_rtc(CC_CHIPSET);
#endif
CPRINTS("%s(%d)", __func__, reason);
report_ap_reset(reason);
/* Pulse SYS_RST */
gpio_set_level(GPIO_SYS_RST_L, 0);
if (in_interrupt_context())
udelay(SYS_RST_HOLD_US);
else
usleep(SYS_RST_HOLD_US);
gpio_set_level(GPIO_SYS_RST_L, 1);
}
enum power_state power_chipset_init(void)
{
if (system_jumped_to_this_image()) {
if ((power_get_signals() & IN_ALL_S0) == IN_ALL_S0) {
disable_sleep(SLEEP_MASK_AP_RUN);
CPRINTS("already in S0");
return POWER_S0;
}
} else if (!(system_get_reset_flags() & RESET_FLAG_AP_OFF))
/* Auto-power on */
chipset_exit_hard_off();
return POWER_G3;
}
static void force_shutdown(void)
{
forcing_shutdown = 1;
task_wake(TASK_ID_CHIPSET);
}
DECLARE_DEFERRED(force_shutdown);
/*
* Debounce PGOOD_AP if we lose it suddenly during S0, since output voltage
* transitions may cause spurious pulses.
*/
#define PGOOD_AP_DEBOUNCE_TIMEOUT (100 * MSEC)
/*
* The AP informs the EC of its S0 / S3 state through IN_SUSPEND_DEASSERTED /
* AP_EC_S3_S0_L. Latency between deassertion and power rails coming up must
* be minimized, so check for deassertion at various stages of our suspend
* power sequencing, and immediately transition out of suspend if necessary.
*/
#define SLEEP_INTERVAL_MS 5
#define MSLEEP_CHECK_ABORTED_SUSPEND(msec) \
do { \
int sleep_remain = msec; \
do { \
msleep(MIN(sleep_remain, SLEEP_INTERVAL_MS)); \
sleep_remain -= SLEEP_INTERVAL_MS; \
if (!forcing_shutdown && \
power_get_signals() & IN_SUSPEND_DEASSERTED) { \
CPRINTS("suspend aborted"); \
return POWER_S3S0; \
} \
} while (sleep_remain > 0); \
} while (0)
BUILD_ASSERT(POWER_S3S0 != 0);
/**
* Step through the power sequence table and do corresponding GPIO operations.
*
* @param power_seq_ops The pointer to the power sequence table.
* @param op_count The number of entries of power_seq_ops.
* @return non-zero if suspend aborted during POWER_S0S3, 0 otherwise.
*/
static int power_seq_run(const struct power_seq_op *power_seq_ops, int op_count)
{
int i;
for (i = 0; i < op_count; i++) {
gpio_set_level(power_seq_ops[i].signal,
power_seq_ops[i].level);
if (!power_seq_ops[i].delay)
continue;
if ((power_seq_ops == s0s3_power_seq)
#ifdef S3_USB_WAKE
|| (power_seq_ops == s0s3_usb_wake_power_seq)
#endif
)
MSLEEP_CHECK_ABORTED_SUSPEND(power_seq_ops[i].delay);
else
msleep(power_seq_ops[i].delay);
}
return 0;
}
enum power_state power_handle_state(enum power_state state)
{
#ifndef CR50_DEEP_SLEEP
static int sys_reset_asserted;
#endif
#ifdef S3_USB_WAKE
static int usb_wake_enabled;
#endif
int tries = 0;
switch (state) {
case POWER_G3:
break;
case POWER_S5:
if (forcing_shutdown)
return POWER_S5G3;
else
return POWER_S5S3;
break;
case POWER_S3:
if (!power_has_signals(IN_PGOOD_S3) || forcing_shutdown)
return POWER_S3S5;
else if (power_get_signals() & IN_SUSPEND_DEASSERTED)
return POWER_S3S0;
break;
case POWER_S0:
if (!power_has_signals(IN_PGOOD_S3) ||
forcing_shutdown ||
!(power_get_signals() & IN_SUSPEND_DEASSERTED))
return POWER_S0S3;
#if CONFIG_CHIPSET_POWER_SEQ_VERSION != 1
/*
* Wait up to PGOOD_AP_DEBOUNCE_TIMEOUT for IN_PGOOD_AP to
* come back before transitioning back to S3. PGOOD_SYS can
* also glitch, with a glitch duration < 1ms, so debounce
* it here as well.
*/
if (power_wait_signals_timeout(IN_PGOOD_AP | IN_PGOOD_SYS,
PGOOD_AP_DEBOUNCE_TIMEOUT)
== EC_ERROR_TIMEOUT)
return POWER_S0S3;
/*
* power_wait_signals_timeout() can block and consume task
* wake events, so re-verify the state of the world.
*/
if (!power_has_signals(IN_PGOOD_S3) ||
forcing_shutdown ||
!(power_get_signals() & IN_SUSPEND_DEASSERTED))
return POWER_S0S3;
#endif
break;
case POWER_G3S5:
forcing_shutdown = 0;
/*
* Allow time for charger to be initialized, in case we're
* trying to boot the AP with no battery.
*/
while (charge_prevent_power_on(0) &&
tries++ < CHARGER_INITIALIZED_TRIES) {
msleep(CHARGER_INITIALIZED_DELAY_MS);
}
/* Return to G3 if battery level is too low. */
if (charge_want_shutdown() ||
tries > CHARGER_INITIALIZED_TRIES) {
CPRINTS("power-up inhibited");
chipset_force_shutdown(
CHIPSET_SHUTDOWN_BATTERY_INHIBIT);
return POWER_G3;
}
/* Power up to next state */
return POWER_S5;
case POWER_S5S3:
power_seq_run(s5s3_power_seq, ARRAY_SIZE(s5s3_power_seq));
#ifndef CR50_DEEP_SLEEP
/*
* Assert SYS_RST now, to be released in S3S0, to avoid
* resetting the TPM soon after power-on.
*/
sys_reset_asserted = 1;
#endif
if (power_wait_signals(IN_PGOOD_S3)) {
chipset_force_shutdown(CHIPSET_SHUTDOWN_WAIT);
return POWER_S3S5;
}
/* Call hooks now that rails are up */
hook_notify(HOOK_CHIPSET_STARTUP);
/* Power up to next state */
return POWER_S3;
case POWER_S3S0:
#ifdef S3_USB_WAKE
/* Bring up S3 USB wake rails, if they are down */
if (!usb_wake_enabled)
power_seq_run(s3s0_usb_wake_power_seq,
ARRAY_SIZE(s3s0_usb_wake_power_seq));
usb_wake_enabled = 0;
#endif
power_seq_run(s3s0_power_seq, ARRAY_SIZE(s3s0_power_seq));
#ifndef CR50_DEEP_SLEEP
/* Release SYS_RST if we came from S5 */
if (sys_reset_asserted) {
#endif
msleep(10);
gpio_set_level(GPIO_SYS_RST_L, 1);
#ifndef CR50_DEEP_SLEEP
sys_reset_asserted = 0;
}
#endif
#ifdef POWER_SIGNAL_POLLING
/*
* Poll power signals every PGOOD_S0_POLL_TIMEOUT us, since
* AP_PWR_GOOD assertion doesn't trigger a power signal
* interrupt.
*/
while (power_wait_signals_timeout(IN_PGOOD_S0,
PGOOD_S0_POLL_TIMEOUT) == EC_ERROR_TIMEOUT &&
++tries < PGOOD_S0_POLL_TRIES)
;
if (tries >= PGOOD_S0_POLL_TRIES) {
CPRINTS("power timeout on input; "
"wanted 0x%04x, got 0x%04x",
IN_PGOOD_S0, power_get_signals() & IN_PGOOD_S0);
#else
if (power_wait_signals(IN_PGOOD_S0)) {
#endif /* POWER_SIGNAL_POLLING */
chipset_force_shutdown(CHIPSET_SHUTDOWN_WAIT);
return POWER_S0S3;
}
/* Call hooks now that rails are up */
hook_notify(HOOK_CHIPSET_RESUME);
/*
* Disable idle task deep sleep. This means that the low
* power idle task will not go into deep sleep while in S0.
*/
disable_sleep(SLEEP_MASK_AP_RUN);
/* Power up to next state */
return POWER_S0;
case POWER_S0S3:
/* Call hooks before we remove power rails */
hook_notify(HOOK_CHIPSET_SUSPEND);
MSLEEP_CHECK_ABORTED_SUSPEND(20);
if (power_seq_run(s0s3_power_seq, ARRAY_SIZE(s0s3_power_seq)))
return POWER_S3S0;
#ifdef S3_USB_WAKE
/* Leave up rails needed for S3 USB wake, if requested */
usb_wake_enabled = (power_get_host_sleep_state() ==
HOST_SLEEP_EVENT_S3_WAKEABLE_SUSPEND);
if (!usb_wake_enabled &&
power_seq_run(s0s3_usb_wake_power_seq,
ARRAY_SIZE(s0s3_usb_wake_power_seq)))
return POWER_S3S0;
#endif
/*
* Enable idle task deep sleep. Allow the low power idle task
* to go into deep sleep in S3 or lower.
*/
enable_sleep(SLEEP_MASK_AP_RUN);
/*
* In case the power button is held awaiting power-off timeout,
* power off immediately now that we're entering S3.
*/
if (power_button_is_pressed()) {
forcing_shutdown = 1;
hook_call_deferred(&force_shutdown_data, -1);
}
return POWER_S3;
case POWER_S3S5:
#ifdef S3_USB_WAKE
/* Make sure all S3 rails are off */
if (usb_wake_enabled) {
power_seq_run(s0s3_usb_wake_power_seq,
ARRAY_SIZE(s0s3_usb_wake_power_seq));
usb_wake_enabled = 0;
}
#endif
/* Call hooks before we remove power rails */
hook_notify(HOOK_CHIPSET_SHUTDOWN);
power_seq_run(s3s5_power_seq, ARRAY_SIZE(s3s5_power_seq));
/* Start shutting down */
return POWER_S5;
case POWER_S5G3:
return POWER_G3;
}
return state;
}
static void power_button_changed(void)
{
static uint8_t tablet_boot_on_button_release;
if (power_button_is_pressed()) {
if (chipset_in_state(CHIPSET_STATE_ANY_OFF)) {
#if CONFIG_CHIPSET_POWER_SEQ_VERSION != 1
/* Power up from off */
chipset_exit_hard_off();
#else
tablet_boot_on_button_release = 1;
#endif
}
/* Delayed power down from S0/S3, cancel on PB release */
hook_call_deferred(&force_shutdown_data,
FORCED_SHUTDOWN_DELAY);
} else {
#if CONFIG_CHIPSET_POWER_SEQ_VERSION == 1
if (tablet_boot_on_button_release) {
/* Power up from off */
chipset_exit_hard_off();
tablet_boot_on_button_release = 0;
}
#endif
/* Power button released, cancel deferred shutdown */
hook_call_deferred(&force_shutdown_data, -1);
}
}
DECLARE_HOOK(HOOK_POWER_BUTTON_CHANGE, power_button_changed, HOOK_PRIO_DEFAULT);
#ifdef CONFIG_LID_SWITCH
static void lid_changed(void)
{
/* Power-up from off on lid open */
if (lid_is_open() && chipset_in_state(CHIPSET_STATE_ANY_OFF))
chipset_exit_hard_off();
}
DECLARE_HOOK(HOOK_LID_CHANGE, lid_changed, HOOK_PRIO_DEFAULT);
#endif
#ifdef POWER_SIGNAL_POLLING
/*
* Polling for non-INT power signal pins.
* Call power_signal_interrupt() when the GPIO status of those pins changes.
*/
static void power_signal_changed(void)
{
static uint8_t in_signals; /* Current power signal status */
uint8_t inew = 0;
const struct power_signal_info *s = power_signal_list;
int i;
BUILD_ASSERT(POWER_SIGNAL_COUNT <= 8);
for (i = 0; i < POWER_SIGNAL_COUNT; i++, s++) {
/* Skip if this is an INT pin. */
if (s->gpio < GPIO_IH_COUNT)
continue;
if (power_signal_is_asserted(s))
inew |= 1 << i;
}
if (inew != in_signals) {
/*
* Pass a fake power gpio_signal to power_signal_interrupt().
* Note that here we make power_signal_interrupt() reentrant.
*/
power_signal_interrupt(POWER_SIGNAL_COUNT);
in_signals = inew;
}
}
DECLARE_HOOK(HOOK_TICK, power_signal_changed, HOOK_PRIO_DEFAULT);
#endif
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