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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.
*/
/*
* GAIA SoC power sequencing module for Chrome EC
*
* This implements the following features:
*
* - Cold reset powers off the AP
*
* When powered off:
* - Press pwron turns on the AP
* - Hold pwron turns on the AP, and then 16s later turns it off and leaves
* it off until pwron is released and pressed again
*
* When powered on:
* - The PMIC PWRON signal is released <= 1 second after the power button is
* released (we expect that U-Boot as asserted XPSHOLD by then)
* - Holding pwron for 8s powers off the AP
* - Pressing and releasing pwron within that 8s is ignored
* - If XPSHOLD is dropped by the AP, then we power the AP off
*/
#include "clock.h"
#include "chipset.h" /* This module implements chipset functions too */
#include "common.h"
#include "console.h"
#include "gpio.h"
#include "hooks.h"
#include "lid_switch.h"
#include "keyboard_scan.h"
#include "power_led.h"
#include "pmu_tpschrome.h"
#include "system.h"
#include "task.h"
#include "timer.h"
#include "util.h"
/* Console output macros */
#define CPUTS(outstr) cputs(CC_CHIPSET, outstr)
#define CPRINTF(format, args...) cprintf(CC_CHIPSET, format, ## args)
/* Time necessary for the 5V and 3.3V regulator outputs to stabilize */
#ifdef BOARD_PIT
#define DELAY_5V_SETUP (2 * MSEC)
#define DELAY_3V_SETUP (2 * MSEC)
#else
#define DELAY_5V_SETUP MSEC
#endif
/* Delay between 1.35v and 3.3v rails startup */
#define DELAY_RAIL_STAGGERING 100 /* 100us */
/* Long power key press to force shutdown */
#define DELAY_FORCE_SHUTDOWN (8 * SECOND)
/* Time necessary for pulling down XPSHOLD to shutdown PMIC power */
#define DELAY_XPSHOLD_PULL (2 * MSEC)
/*
* If the power key is pressed to turn on, then held for this long, we
* power off.
*
* The idea here is that behavior for 8s for AP shutdown is unchanged
* but power-on is modified to allow enough time U-Boot to be updated
* via USB (which takes about 10sec).
*
* So after power button is pressed:
* Normal case: User releases power button and chipset_task() goes
* into the inner loop, waiting for next event to occur (power button
* press or XPSHOLD == 0).
*
* U-Boot updating: User presses and holds power button. If EC does not
* see XPSHOLD, it waits up to 16sec for an event. If no event occurs
* within 16sec, EC powers off AP.
*/
#define DELAY_SHUTDOWN_ON_POWER_HOLD (8 * SECOND)
#define DELAY_SHUTDOWN_ON_USB_BOOT (16 * SECOND)
/* Maximum delay after power button press before we deassert GPIO_PMIC_PWRON */
#define DELAY_RELEASE_PWRON SECOND /* 1s */
/* debounce time to prevent accidental power-on after keyboard power off */
#define KB_PWR_ON_DEBOUNCE 250 /* 250us */
/* debounce time to prevent accidental power event after lid open/close */
#define LID_SWITCH_DEBOUNCE 250 /* 250us */
/* PMIC fails to set the LDO2 output */
#define PMIC_TIMEOUT (100 * MSEC) /* 100ms */
/* Default timeout for input transition */
#define FAIL_TIMEOUT (500 * MSEC) /* 500ms */
/* Application processor power state */
static int ap_on;
static int ap_suspended;
/* simulated event state */
static int force_signal = -1;
static int force_value;
/* 1 if the power button was pressed last time we checked */
static char power_button_was_pressed;
/* 1 if lid-open event has been detected */
static char lid_opened;
/* time where we will power off, if power button still held down */
static timestamp_t power_off_deadline;
/* force AP power on (used for recovery keypress) */
static int auto_power_on;
enum power_request_t {
POWER_REQ_NONE,
POWER_REQ_OFF,
POWER_REQ_ON,
POWER_REQ_COUNT,
};
static enum power_request_t power_request;
/**
* Wait for GPIO "signal" to reach level "value".
* Returns EC_ERROR_TIMEOUT if timeout before reaching the desired state.
*
* @param signal Signal to watch
* @param value Value to watch for
* @param timeout Timeout in microseconds from now, or -1 to wait forever
* @return 0 if signal did change to required value, EC_ERROR_TIMEOUT if we
* timed out first.
*/
static int wait_in_signal(enum gpio_signal signal, int value, int timeout)
{
timestamp_t deadline;
timestamp_t now = get_time();
deadline.val = now.val + timeout;
while (((force_signal != signal) || (force_value != value)) &&
gpio_get_level(signal) != value) {
now = get_time();
if (timeout < 0) {
task_wait_event(-1);
} else if (timestamp_expired(deadline, &now) ||
(task_wait_event(deadline.val - now.val) ==
TASK_EVENT_TIMER)) {
CPRINTF("[%T power timeout waiting for GPIO %d/%s]\n",
signal, gpio_get_name(signal));
return EC_ERROR_TIMEOUT;
}
}
return EC_SUCCESS;
}
/**
* Set the PMIC PWROK signal.
*
* @param asserted Assert (=1) or deassert (=0) the signal. This is the
* logical level of the pin, not the physical level.
*/
static void set_pmic_pwrok(int asserted)
{
#ifdef BOARD_PIT
/* Signal is active-high */
gpio_set_level(GPIO_PMIC_PWRON, asserted);
#else
/* Signal is active-low */
gpio_set_level(GPIO_PMIC_PWRON_L, asserted ? 0 : 1);
#endif
}
/**
* Check for some event triggering the shutdown.
*
* It can be either a long power button press or a shutdown triggered from the
* AP and detected by reading XPSHOLD.
*
* @return 1 if a shutdown should happen, 0 if not
*/
static int check_for_power_off_event(void)
{
timestamp_t now;
int pressed = 0;
/* Check for power button press */
if (gpio_get_level(GPIO_KB_PWR_ON_L) == 0) {
udelay(KB_PWR_ON_DEBOUNCE);
if (gpio_get_level(GPIO_KB_PWR_ON_L) == 0)
pressed = 1;
}
#ifdef HAS_TASK_KEYSCAN
/* Dis/Enable keyboard scanning when the power button state changes */
if (!pressed || pressed != power_button_was_pressed)
keyboard_scan_enable(!pressed);
#endif
now = get_time();
if (pressed) {
set_pmic_pwrok(1);
if (!power_button_was_pressed) {
power_off_deadline.val = now.val + DELAY_FORCE_SHUTDOWN;
CPRINTF("[%T power waiting for long press %u]\n",
power_off_deadline.le.lo);
} else if (timestamp_expired(power_off_deadline, &now)) {
power_off_deadline.val = 0;
CPRINTF("[%T power off after long press now=%u, %u]\n",
now.le.lo, power_off_deadline.le.lo);
return 2;
}
} else if (power_button_was_pressed) {
CPRINTF("[%T power off cancel]\n");
set_pmic_pwrok(0);
}
power_button_was_pressed = pressed;
/* XPSHOLD released by AP : shutdown immediately */
if (gpio_get_level(GPIO_SOC1V8_XPSHOLD) == 0)
return 3;
if (power_request == POWER_REQ_OFF) {
power_request = POWER_REQ_NONE;
return 4;
}
return 0;
}
/**
* Deferred handling for suspend events
*
* The suspend event needs to be able to call the suspend and resume hooks.
* This cannot be done from interrupt level, since the handlers from those
* hooks may need to use mutexes or other functionality not present at
* interrupt level. Use a deferred function instead.
*
* Deferred functions are called from the hook task and not the chipset task,
* so that's a slight deviation from the spec in hooks.h, but a minor one.
*/
static void gaia_suspend_deferred(void)
{
int new_ap_suspended;
if (!ap_on) /* power on/off : not a real suspend / resume */
return;
/*
* Note: For Snow, suspend state can only be reliably
* determined when the AP is on (crosbug.com/p/13200).
*/
new_ap_suspended = !gpio_get_level(GPIO_SUSPEND_L);
/* We never want to call two suspend or two resumes in a row */
if (ap_suspended == new_ap_suspended)
return;
ap_suspended = new_ap_suspended;
if (ap_suspended) {
if (lid_is_open())
powerled_set_state(POWERLED_STATE_SUSPEND);
else
powerled_set_state(POWERLED_STATE_OFF);
/* Call hooks here since we don't know it prior to AP suspend */
hook_notify(HOOK_CHIPSET_SUSPEND);
} else {
powerled_set_state(POWERLED_STATE_ON);
hook_notify(HOOK_CHIPSET_RESUME);
}
}
DECLARE_DEFERRED(gaia_suspend_deferred);
void power_interrupt(enum gpio_signal signal)
{
if (signal == GPIO_SUSPEND_L) {
/* Handle suspend events in the hook task */
hook_call_deferred(gaia_suspend_deferred, 0);
} else {
/* All other events are handled in the chipset task */
task_wake(TASK_ID_CHIPSET);
}
}
static void gaia_lid_event(void)
{
/* Power task only cares about lid-open events */
if (!lid_is_open())
return;
lid_opened = 1;
task_wake(TASK_ID_CHIPSET);
}
DECLARE_HOOK(HOOK_LID_CHANGE, gaia_lid_event, HOOK_PRIO_DEFAULT);
static int gaia_power_init(void)
{
/* Enable interrupts for our GPIOs */
gpio_enable_interrupt(GPIO_KB_PWR_ON_L);
gpio_enable_interrupt(GPIO_SOC1V8_XPSHOLD);
gpio_enable_interrupt(GPIO_SUSPEND_L);
gpio_enable_interrupt(GPIO_PP1800_LDO2);
/* Leave power off only if requested by reset flags */
if (!(system_get_reset_flags() & RESET_FLAG_AP_OFF)) {
CPRINTF("[%T auto_power_on is set due to reset_flag 0x%x]\n",
system_get_reset_flags());
auto_power_on = 1;
}
#ifdef BOARD_PIT
/*
* Force the AP into reset unless we're doing a sysjump. Otherwise a
* suspended AP may still be in a strange state from the last reboot,
* and will hold XPSHOLD for a long time if it's in a low power state.
* See crosbug.com/p/22233.
*/
if (!(system_get_reset_flags() & RESET_FLAG_SYSJUMP)) {
CPRINTF("[%T not sysjump; forcing AP reset]\n");
gpio_set_level(GPIO_AP_RESET_L, 0);
udelay(1000);
gpio_set_level(GPIO_AP_RESET_L, 1);
}
#endif
return EC_SUCCESS;
}
/*****************************************************************************/
/* Chipset interface */
int chipset_in_state(int state_mask)
{
/* If AP is off, match any off state for now */
if ((state_mask & CHIPSET_STATE_ANY_OFF) && !ap_on)
return 1;
/* If AP is on, match on state */
if ((state_mask & CHIPSET_STATE_ON) && ap_on && !ap_suspended)
return 1;
/* if AP is suspended, match on state */
if ((state_mask & CHIPSET_STATE_SUSPEND) && ap_on && ap_suspended)
return 1;
/* In any other case, we don't have a match */
return 0;
}
void chipset_exit_hard_off(void)
{
/*
* TODO(crosbug.com/p/23822): Implement, if/when we take the AP down to
* a hard-off state.
*/
}
void chipset_reset(int is_cold)
{
/*
* TODO(crosbug.com/p/23822): Implement cold reset. For now, all
* resets are warm resets.
*/
CPRINTF("[%T EC triggered warm reboot]\n");
/*
* This is a hack to do an AP warm reboot while still preserving RAM
* contents. This is useful for looking at kernel log message contents
* from previous boot in cases where the AP/OS is hard hung.
*/
#ifdef CONFIG_CHIPSET_HAS_PP5000
gpio_set_level(GPIO_EN_PP5000, 0);
#endif
gpio_set_level(GPIO_EN_PP3300, 0);
power_request = POWER_REQ_ON;
task_wake(TASK_ID_CHIPSET);
}
void chipset_force_shutdown(void)
{
/* Turn off all rails */
gpio_set_level(GPIO_EN_PP3300, 0);
#ifdef CONFIG_CHIPSET_HAS_PP1350
/*
* Turn off PP1350 unless we're immediately waking back up. This
* works with the hack in chipset_reset() to preserve the contents of
* RAM across a reset.
*/
if (power_request != POWER_REQ_ON)
gpio_set_level(GPIO_EN_PP1350, 0);
#endif
set_pmic_pwrok(0);
#ifdef CONFIG_CHIPSET_HAS_PP5000
gpio_set_level(GPIO_EN_PP5000, 0);
#endif
#ifdef BOARD_PIT
/*
* Force the AP into reset. Otherwise it will hold XPSHOLD for a long
* time if it's in a low power state. See crosbug.com/p/22233.
*/
gpio_set_level(GPIO_AP_RESET_L, 0);
udelay(1000);
gpio_set_level(GPIO_AP_RESET_L, 1);
#endif
}
/*****************************************************************************/
/**
* Check if there has been a power-on event
*
* This checks all power-on event signals and returns non-zero if any have been
* triggered (with debounce taken into account).
*
* @return non-zero if there has been a power-on event, 0 if not.
*/
static int check_for_power_on_event(void)
{
/* Check if we've already powered the system on */
if (gpio_get_level(GPIO_EN_PP3300)) {
CPRINTF("[%T system is on, thus clear auto_power_on]\n");
auto_power_on = 0; /* no need to arrange another power on */
return 1;
}
/* power on requested at EC startup for recovery */
if (auto_power_on) {
auto_power_on = 0;
return 2;
}
/* Check lid open */
if (lid_opened) {
lid_opened = 0;
return 3;
}
/* check for power button press */
if (gpio_get_level(GPIO_KB_PWR_ON_L) == 0) {
udelay(KB_PWR_ON_DEBOUNCE);
if (gpio_get_level(GPIO_KB_PWR_ON_L) == 0)
return 4;
}
if (power_request == POWER_REQ_ON) {
power_request = POWER_REQ_NONE;
return 5;
}
return 0;
}
/**
* Power on the AP
*
* @return 0 if ok, -1 on error (PP1800_LDO2 failed to come on)
*/
static int power_on(void)
{
#ifdef CONFIG_CHIPSET_HAS_PP5000
/* Enable 5v power rail */
gpio_set_level(GPIO_EN_PP5000, 1);
/* Wait for it to stabilize */
usleep(DELAY_5V_SETUP);
#endif
#ifdef BOARD_PIT
/*
* 3.3V rail must come up right after 5V, because it sources power to
* various buck supplies.
*/
gpio_set_level(GPIO_EN_PP3300, 1);
usleep(DELAY_3V_SETUP);
#endif
if (gpio_get_level(GPIO_SOC1V8_XPSHOLD) == 0) {
/* Initialize non-AP components */
hook_notify(HOOK_CHIPSET_PRE_INIT);
/*
* Initiate PMIC power-on sequence only if cold booting AP to
* avoid accidental reset (crosbug.com/p/12650).
*/
set_pmic_pwrok(1);
}
/* wait for all PMIC regulators to be ready */
wait_in_signal(GPIO_PP1800_LDO2, 1, PMIC_TIMEOUT);
/*
* If PP1800_LDO2 did not come up (e.g. PMIC_TIMEOUT was reached),
* turn off 5V rail (and 3.3V, if turned on above) and start over.
*/
if (gpio_get_level(GPIO_PP1800_LDO2) == 0) {
gpio_set_level(GPIO_EN_PP5000, 0);
gpio_set_level(GPIO_EN_PP3300, 0);
usleep(DELAY_5V_SETUP);
CPRINTF("[%T power error: PMIC failed to enable]\n");
return -1;
}
/* Enable DDR 1.35v power rail */
gpio_set_level(GPIO_EN_PP1350, 1);
/* Wait to avoid large inrush current */
usleep(DELAY_RAIL_STAGGERING);
/* Enable 3.3v power rail, if it's not already on */
gpio_set_level(GPIO_EN_PP3300, 1);
ap_on = 1;
disable_sleep(SLEEP_MASK_AP_RUN);
powerled_set_state(POWERLED_STATE_ON);
/* Call hooks now that AP is running */
hook_notify(HOOK_CHIPSET_STARTUP);
CPRINTF("[%T AP running ...]\n");
return 0;
}
/**
* Wait for the power button to be released
*
* @return 0 if ok, -1 if power button failed to release
*/
static int wait_for_power_button_release(unsigned int timeout_us)
{
/* wait for Power button release */
wait_in_signal(GPIO_KB_PWR_ON_L, 1, timeout_us);
udelay(KB_PWR_ON_DEBOUNCE);
if (gpio_get_level(GPIO_KB_PWR_ON_L) == 0) {
CPRINTF("[%T power button not released in time]\n");
return -1;
}
CPRINTF("[%T power button released]\n");
return 0;
}
/**
* Wait for the XPSHOLD signal from the AP to be asserted within timeout_us
* and if asserted clear the PMIC_PWRON signal
*
* @return 0 if ok, -1 if power button failed to release
*/
static int react_to_xpshold(unsigned int timeout_us)
{
/* wait for Power button release */
wait_in_signal(GPIO_SOC1V8_XPSHOLD, 1, timeout_us);
if (gpio_get_level(GPIO_SOC1V8_XPSHOLD) == 0) {
CPRINTF("[%T XPSHOLD not seen in time]\n");
return -1;
}
CPRINTF("[%T XPSHOLD seen]\n");
set_pmic_pwrok(0);
return 0;
}
/**
* Power off the AP
*/
static void power_off(void)
{
/* Call hooks before we drop power rails */
hook_notify(HOOK_CHIPSET_SHUTDOWN);
/* switch off all rails */
chipset_force_shutdown();
ap_on = 0;
ap_suspended = 0;
lid_opened = 0;
enable_sleep(SLEEP_MASK_AP_RUN);
powerled_set_state(POWERLED_STATE_OFF);
#ifdef CONFIG_PMU_TPS65090
pmu_shutdown();
#endif
CPRINTF("[%T power shutdown complete]\n");
}
/*
* Calculates the delay in microseconds to the next time we have to check
* for a power event,
*
*@return delay to next check, or -1 if no future check is needed
*/
static int next_pwr_event(void)
{
if (!power_off_deadline.val)
return -1;
return power_off_deadline.val - get_time().val;
}
/*****************************************************************************/
static int wait_for_power_on(void)
{
int value;
while (1) {
value = check_for_power_on_event();
if (!value) {
task_wait_event(-1);
continue;
}
#ifdef HAS_TASK_CHARGER
/*
* If the system is already on (value == 1), the kernel
* would handle low power condition and we should not
* shutdown the system from EC.
*/
if (value != 1 && charge_keep_power_off()) {
CPRINTF("[%T power on ignored due to low battery]\n");
continue;
}
#endif
CPRINTF("[%T power on %d]\n", value);
return value;
}
}
void chipset_task(void)
{
int value;
gaia_power_init();
ap_on = 0;
while (1) {
/* Wait until we need to power on, then power on */
wait_for_power_on();
if (!power_on()) {
int continue_power = 0;
if (!react_to_xpshold(DELAY_RELEASE_PWRON)) {
/* AP looks good */
if (!wait_for_power_button_release(
DELAY_SHUTDOWN_ON_POWER_HOLD))
continue_power = 1;
} else {
/* AP is possibly in bad shape */
/* allow USB boot in 16 secs */
if (!wait_for_power_button_release(
DELAY_SHUTDOWN_ON_USB_BOOT))
continue_power = 1;
}
if (continue_power) {
power_button_was_pressed = 0;
while (!(value = check_for_power_off_event()))
task_wait_event(next_pwr_event());
CPRINTF("[%T power ending loop %d]\n", value);
}
}
power_off();
wait_for_power_button_release(-1);
}
}
/*****************************************************************************/
/* Console debug command */
static int command_force_power(int argc, char **argv)
{
/* simulate power button pressed */
force_signal = GPIO_KB_PWR_ON_L;
force_value = 1;
/* Wake up the task */
task_wake(TASK_ID_CHIPSET);
/* Wait 100 ms */
msleep(100);
/* Release power button */
force_signal = -1;
force_value = 0;
return EC_SUCCESS;
}
DECLARE_CONSOLE_COMMAND(forcepower, command_force_power,
NULL,
"Force power on",
NULL);
static const char *power_req_name[POWER_REQ_COUNT] = {
"none",
"off",
"on",
};
/* Power states that we can report */
enum power_state_t {
PSTATE_UNKNOWN,
PSTATE_OFF,
PSTATE_SUSPEND,
PSTATE_ON,
PSTATE_COUNT,
};
static const char * const state_name[] = {
"unknown",
"off",
"suspend",
"on",
};
static int command_power(int argc, char **argv)
{
int v;
if (argc < 2) {
enum power_state_t state;
state = PSTATE_UNKNOWN;
if (chipset_in_state(CHIPSET_STATE_ANY_OFF))
state = PSTATE_OFF;
if (chipset_in_state(CHIPSET_STATE_SUSPEND))
state = PSTATE_SUSPEND;
if (chipset_in_state(CHIPSET_STATE_ON))
state = PSTATE_ON;
ccprintf("%s\n", state_name[state]);
return EC_SUCCESS;
}
if (!parse_bool(argv[1], &v))
return EC_ERROR_PARAM1;
power_request = v ? POWER_REQ_ON : POWER_REQ_OFF;
ccprintf("Requesting power %s\n", power_req_name[power_request]);
task_wake(TASK_ID_CHIPSET);
return EC_SUCCESS;
}
DECLARE_CONSOLE_COMMAND(power, command_power,
"on/off",
"Turn AP power on/off",
NULL);
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