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/* Copyright 2015 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.
*/
/* Skylake IMVP8 / ROP PMIC chipset power control module for Chrome EC */
#include "charge_state.h"
#include "chipset.h"
#include "common.h"
#include "console.h"
#include "hooks.h"
#include "host_command.h"
#include "power.h"
#include "power_button.h"
#include "system.h"
#include "task.h"
#include "util.h"
#include "wireless.h"
#include "lpc.h"
/* Console output macros */
#define CPUTS(outstr) cputs(CC_CHIPSET, outstr)
#define CPRINTS(format, args...) cprints(CC_CHIPSET, format, ## args)
/* Input state flags */
#define IN_PCH_SLP_S0_DEASSERTED POWER_SIGNAL_MASK(X86_SLP_S0_DEASSERTED)
#define IN_PCH_SLP_S3_DEASSERTED POWER_SIGNAL_MASK(X86_SLP_S3_DEASSERTED)
#define IN_PCH_SLP_S4_DEASSERTED POWER_SIGNAL_MASK(X86_SLP_S4_DEASSERTED)
#define IN_PCH_SLP_SUS_DEASSERTED POWER_SIGNAL_MASK(X86_SLP_SUS_DEASSERTED)
#ifdef CONFIG_POWER_S0IX
#define IN_ALL_PM_SLP_DEASSERTED (IN_PCH_SLP_S0_DEASSERTED | \
IN_PCH_SLP_S3_DEASSERTED | \
IN_PCH_SLP_S4_DEASSERTED | \
IN_PCH_SLP_SUS_DEASSERTED)
#else
#define IN_ALL_PM_SLP_DEASSERTED (IN_PCH_SLP_S3_DEASSERTED | \
IN_PCH_SLP_S4_DEASSERTED | \
IN_PCH_SLP_SUS_DEASSERTED)
#endif
/*
* DPWROK is NC / stuffing option on initial boards.
* TODO(shawnn): Figure out proper control signals.
*/
#define IN_PGOOD_ALL_CORE 0
#define IN_ALL_S0 (IN_PGOOD_ALL_CORE | IN_ALL_PM_SLP_DEASSERTED)
#define CHARGER_INITIALIZED_DELAY_MS 100
#define CHARGER_INITIALIZED_TRIES 40
static int throttle_cpu; /* Throttle CPU? */
static int forcing_shutdown; /* Forced shutdown in progress? */
static int power_s5_up; /* Chipset is sequencing up or down */
void chipset_force_shutdown(void)
{
CPRINTS("%s()", __func__);
/*
* Force off. Sending a reset command to the PMIC will power off
* the EC, so simulate a long power button press instead. This
* condition will reset once the state machine transitions to G3.
* Consider reducing the latency here by changing the power off
* hold time on the PMIC.
*/
if (!chipset_in_state(CHIPSET_STATE_HARD_OFF)) {
forcing_shutdown = 1;
power_button_pch_press();
}
}
__attribute__((weak)) void chipset_set_pmic_slp_sus_l(int level)
{
gpio_set_level(GPIO_PMIC_SLP_SUS_L, level);
}
static void chipset_force_g3(void)
{
CPRINTS("Forcing fake G3.");
chipset_set_pmic_slp_sus_l(0);
}
void chipset_reset(int cold_reset)
{
CPRINTS("%s(%d)", __func__, cold_reset);
if (cold_reset) {
if (gpio_get_level(GPIO_SYS_RESET_L) == 0)
return;
gpio_set_level(GPIO_SYS_RESET_L, 0);
/* Debounce time for SYS_RESET_L is 16 ms */
udelay(20 * MSEC);
gpio_set_level(GPIO_SYS_RESET_L, 1);
} else {
/*
* Send a RCIN_PCH_RCIN_L
* assert INIT# to the CPU without dropping power or asserting
* PLTRST# to reset the rest of the system.
*/
/* Pulse must be at least 16 PCI clocks long = 500 ns */
gpio_set_level(GPIO_PCH_RCIN_L, 0);
udelay(10);
gpio_set_level(GPIO_PCH_RCIN_L, 1);
}
}
void chipset_throttle_cpu(int throttle)
{
if (chipset_in_state(CHIPSET_STATE_ON))
gpio_set_level(GPIO_CPU_PROCHOT, throttle);
}
enum power_state power_chipset_init(void)
{
/*
* If we're switching between images without rebooting, see if the x86
* is already powered on; if so, leave it there instead of cycling
* through G3.
*/
if (system_jumped_to_this_image()) {
if ((power_get_signals() & IN_ALL_S0) == IN_ALL_S0) {
/* Disable idle task deep sleep when in S0. */
disable_sleep(SLEEP_MASK_AP_RUN);
CPRINTS("already in S0");
return POWER_S0;
} else {
/* Force all signals to their G3 states */
chipset_force_g3();
}
}
return POWER_G3;
}
static void handle_rsmrst(enum power_state state)
{
/*
* Pass through RSMRST asynchronously, as PCH may not react
* immediately to power changes.
*/
int rsmrst_in = gpio_get_level(GPIO_RSMRST_L_PGOOD);
int rsmrst_out = gpio_get_level(GPIO_PCH_RSMRST_L);
/* Nothing to do. */
if (rsmrst_in == rsmrst_out)
return;
/*
* Wait at least 10ms between power signals going high
* and deasserting RSMRST to PCH.
*/
if (rsmrst_in)
msleep(10);
gpio_set_level(GPIO_PCH_RSMRST_L, rsmrst_in);
CPRINTS("RSMRST: %d", rsmrst_in);
}
static void handle_slp_sus(enum power_state state)
{
/* If we're down or going down don't do anythin with SLP_SUS_L. */
if (state == POWER_G3 || state == POWER_S5G3)
return;
/* Always mimic PCH SLP_SUS request for all other states. */
chipset_set_pmic_slp_sus_l(gpio_get_level(GPIO_PCH_SLP_SUS_L));
}
#ifdef CONFIG_BOARD_HAS_RTC_RESET
static enum power_state power_wait_s5_rtc_reset(void)
{
static int s5_exit_tries;
/* Wait for S5 exit and then attempt RTC reset */
while ((power_get_signals() & IN_PCH_SLP_S4_DEASSERTED) == 0) {
/* Handle RSMRST passthru event while waiting */
handle_rsmrst(POWER_S5);
if (task_wait_event(SECOND*4) == TASK_EVENT_TIMER) {
CPRINTS("timeout waiting for S5 exit");
chipset_force_g3();
/* Assert RTCRST# and retry 5 times */
board_rtc_reset();
if (++s5_exit_tries > 4) {
s5_exit_tries = 0;
return POWER_G3; /* Stay off */
}
udelay(10 * MSEC);
return POWER_G3S5; /* Power up again */
}
}
s5_exit_tries = 0;
return POWER_S5S3; /* Power up to next state */
}
#endif
static enum power_state _power_handle_state(enum power_state state)
{
int tries = 0;
switch (state) {
case POWER_G3:
break;
case POWER_S5:
if (forcing_shutdown) {
power_button_pch_release();
forcing_shutdown = 0;
}
#ifdef CONFIG_BOARD_HAS_RTC_RESET
/* Wait for S5 exit and attempt RTC reset it supported */
if (power_s5_up)
return power_wait_s5_rtc_reset();
#endif
if (gpio_get_level(GPIO_PCH_SLP_S4_L) == 1)
return POWER_S5S3; /* Power up to next state */
break;
case POWER_S3:
if (!power_has_signals(IN_PGOOD_ALL_CORE)) {
/* Required rail went away */
chipset_force_shutdown();
return POWER_S3S5;
} else if (gpio_get_level(GPIO_PCH_SLP_S3_L) == 1) {
/* Power up to next state */
return POWER_S3S0;
} else if (gpio_get_level(GPIO_PCH_SLP_S4_L) == 0) {
/* Power down to next state */
return POWER_S3S5;
}
break;
case POWER_S0:
if (!power_has_signals(IN_PGOOD_ALL_CORE)) {
chipset_force_shutdown();
return POWER_S0S3;
#ifdef CONFIG_POWER_S0IX
} else if ((gpio_get_level(GPIO_PCH_SLP_S0_L) == 0) &&
(gpio_get_level(GPIO_PCH_SLP_S3_L) == 1)) {
return POWER_S0S0ix;
#endif
} else if (gpio_get_level(GPIO_PCH_SLP_S3_L) == 0) {
/* Power down to next state */
return POWER_S0S3;
}
break;
#ifdef CONFIG_POWER_S0IX
case POWER_S0ix:
/*
* TODO: add code for unexpected power loss
*/
if ((gpio_get_level(GPIO_PCH_SLP_S0_L) == 1) &&
(gpio_get_level(GPIO_PCH_SLP_S3_L) == 1)) {
return POWER_S0ixS0;
}
break;
#endif
case POWER_G3S5:
/* Call hooks to initialize PMIC */
hook_notify(HOOK_CHIPSET_PRE_INIT);
/*
* Allow up to 1s 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();
return POWER_G3;
}
if (power_wait_signals(IN_PCH_SLP_SUS_DEASSERTED)) {
chipset_force_shutdown();
return POWER_G3;
}
power_s5_up = 1;
return POWER_S5;
case POWER_S5S3:
if (!power_has_signals(IN_PGOOD_ALL_CORE)) {
/* Required rail went away */
chipset_force_shutdown();
return POWER_S5G3;
}
/* Call hooks now that rails are up */
hook_notify(HOOK_CHIPSET_STARTUP);
return POWER_S3;
case POWER_S3S0:
if (!power_has_signals(IN_PGOOD_ALL_CORE)) {
/* Required rail went away */
chipset_force_shutdown();
return POWER_S3S5;
}
gpio_set_level(GPIO_ENABLE_BACKLIGHT, 1);
/* Enable wireless */
wireless_set_state(WIRELESS_ON);
/* 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);
/*
* Throttle CPU if necessary. This should only be asserted
* when +VCCP is powered (it is by now).
*/
gpio_set_level(GPIO_CPU_PROCHOT, throttle_cpu);
return POWER_S0;
case POWER_S0S3:
/* Call hooks before we remove power rails */
hook_notify(HOOK_CHIPSET_SUSPEND);
gpio_set_level(GPIO_ENABLE_BACKLIGHT, 0);
/* Suspend wireless */
wireless_set_state(WIRELESS_SUSPEND);
/*
* 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);
return POWER_S3;
#ifdef CONFIG_POWER_S0IX
case POWER_S0S0ix:
/* call hooks before standby */
hook_notify(HOOK_CHIPSET_SUSPEND);
lpc_enable_wake_mask_for_lid_open();
/*
* Enable idle task deep sleep. Allow the low power idle task
* to go into deep sleep in S0ix.
*/
enable_sleep(SLEEP_MASK_AP_RUN);
return POWER_S0ix;
case POWER_S0ixS0:
lpc_disable_wake_mask_for_lid_open();
/* 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);
return POWER_S0;
#endif
case POWER_S3S5:
/* Call hooks before we remove power rails */
hook_notify(HOOK_CHIPSET_SHUTDOWN);
/* Disable wireless */
wireless_set_state(WIRELESS_OFF);
/* Always enter into S5 state. The S5 state is required to
* correctly handle global resets which have a bit of delay
* while the SLP_Sx_L signals are asserted then deasserted. */
power_s5_up = 0;
return POWER_S5;
case POWER_S5G3:
chipset_force_g3();
return POWER_G3;
default:
break;
}
return state;
}
enum power_state power_handle_state(enum power_state state)
{
enum power_state new_state;
/* Process RSMRST_L state changes. */
handle_rsmrst(state);
new_state = _power_handle_state(state);
/* Process SLP_SUS_L state changes after a new state is decided. */
handle_slp_sus(new_state);
return new_state;
}
#ifdef CONFIG_POWER_S0IX
static struct {
int required; /* indicates de-bounce required. */
int done; /* debounced */
} slp_s0_debounce = {
.required = 0,
.done = 1,
};
int chipset_get_ps_debounced_level(enum gpio_signal signal)
{
/*
* If power state is updated in power_update_signal() by any interrupts
* other than SLP_S0 during the 1 msec pulse(invalid SLP_S0 signal),
* reading SLP_S0 should be corrected with slp_s0_debounce.done flag.
*/
int level = gpio_get_level(signal);
return (signal == GPIO_PCH_SLP_S0_L) ?
(level & slp_s0_debounce.done) : level;
}
static void slp_s0_assertion_deferred(void)
{
int s0_level = gpio_get_level(GPIO_PCH_SLP_S0_L);
/*
(s0_level != 0) ||
((s0_level == 0) && (slp_s0_debounce.required == 0))
*/
if (s0_level == slp_s0_debounce.required) {
if (s0_level)
slp_s0_debounce.done = 1; /* debounced! */
power_signal_interrupt(GPIO_PCH_SLP_S0_L);
}
slp_s0_debounce.required = 0;
}
DECLARE_DEFERRED(slp_s0_assertion_deferred);
void power_signal_interrupt_S0(enum gpio_signal signal)
{
if (gpio_get_level(GPIO_PCH_SLP_S0_L)) {
slp_s0_debounce.required = 1;
hook_call_deferred(&slp_s0_assertion_deferred_data, 3 * MSEC);
}
else if (slp_s0_debounce.required == 0) {
slp_s0_debounce.done = 0;
slp_s0_assertion_deferred();
}
}
#endif
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