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zephyr/subsys/pm/power.c
Flavio Ceolin 3dad4a068a pm: device: Get rid of z_pm_core_devices 
z_pm_core_devices was hack to set some priority between devices. It
was doing it hardcoding some devices that were the first to bring up
and the last to power down. Remove it and use the same list used to
initialize devices.

Fixes #34214

Signed-off-by: Flavio Ceolin <flavio.ceolin@intel.com>
2021-05-27 14:35:27 -04:00

286 lines
7.2 KiB
C
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/*
* Copyright (c) 2018 Intel Corporation.
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <zephyr.h>
#include <kernel.h>
#include <timeout_q.h>
#include <init.h>
#include <string.h>
#include <pm/pm.h>
#include <pm/state.h>
#include "policy/pm_policy.h"
#include <tracing/tracing.h>
#define PM_STATES_LEN (1 + PM_STATE_SOFT_OFF - PM_STATE_ACTIVE)
#define LOG_LEVEL CONFIG_PM_LOG_LEVEL
#include <logging/log.h>
LOG_MODULE_REGISTER(power);
static int post_ops_done = 1;
static struct pm_state_info z_power_state;
static sys_slist_t pm_notifiers = SYS_SLIST_STATIC_INIT(&pm_notifiers);
static struct k_spinlock pm_notifier_lock;
#ifdef CONFIG_PM_DEBUG
struct pm_debug_info {
uint32_t count;
uint32_t last_res;
uint32_t total_res;
};
static struct pm_debug_info pm_dbg_info[PM_STATES_LEN];
static uint32_t timer_start, timer_end;
static inline void pm_debug_start_timer(void)
{
timer_start = k_cycle_get_32();
}
static inline void pm_debug_stop_timer(void)
{
timer_end = k_cycle_get_32();
}
static void pm_log_debug_info(enum pm_state state)
{
uint32_t res = timer_end - timer_start;
pm_dbg_info[state].count++;
pm_dbg_info[state].last_res = res;
pm_dbg_info[state].total_res += res;
}
void pm_dump_debug_info(void)
{
for (int i = 0; i < PM_STATES_LEN; i++) {
LOG_DBG("PM:state = %d, count = %d last_res = %d, "
"total_res = %d\n", i, pm_dbg_info[i].count,
pm_dbg_info[i].last_res, pm_dbg_info[i].total_res);
}
}
#else
static inline void pm_debug_start_timer(void) { }
static inline void pm_debug_stop_timer(void) { }
static void pm_log_debug_info(enum pm_state state) { }
void pm_dump_debug_info(void) { }
#endif
__weak void pm_power_state_exit_post_ops(struct pm_state_info info)
{
/*
* This function is supposed to be overridden to do SoC or
* architecture specific post ops after sleep state exits.
*
* The kernel expects that irqs are unlocked after this.
*/
irq_unlock(0);
}
__weak void pm_power_state_set(struct pm_state_info info)
{
/*
* This function is supposed to be overridden to do SoC or
* architecture specific post ops after sleep state exits.
*/
}
/*
* Function called to notify when the system is entering / exiting a
* power state
*/
static inline void pm_state_notify(bool entering_state)
{
struct pm_notifier *notifier;
k_spinlock_key_t pm_notifier_key;
void (*callback)(enum pm_state state);
pm_notifier_key = k_spin_lock(&pm_notifier_lock);
SYS_SLIST_FOR_EACH_CONTAINER(&pm_notifiers, notifier, _node) {
if (entering_state) {
callback = notifier->state_entry;
} else {
callback = notifier->state_exit;
}
if (callback) {
callback(z_power_state.state);
}
}
k_spin_unlock(&pm_notifier_lock, pm_notifier_key);
}
void pm_system_resume(void)
{
/*
* This notification is called from the ISR of the event
* that caused exit from kernel idling after PM operations.
*
* Some CPU low power states require enabling of interrupts
* atomically when entering those states. The wake up from
* such a state first executes code in the ISR of the interrupt
* that caused the wake. This hook will be called from the ISR.
* For such CPU LPS states, do post operations and restores here.
* The kernel scheduler will get control after the ISR finishes
* and it may schedule another thread.
*
* Call pm_idle_exit_notification_disable() if this
* notification is not required.
*/
if (!post_ops_done) {
post_ops_done = 1;
pm_power_state_exit_post_ops(z_power_state);
pm_state_notify(false);
}
}
void pm_power_state_force(struct pm_state_info info)
{
__ASSERT(info.state < PM_STATES_LEN,
"Invalid power state %d!", info.state);
if (info.state == PM_STATE_ACTIVE) {
return;
}
(void)arch_irq_lock();
z_power_state = info;
post_ops_done = 0;
pm_state_notify(true);
k_sched_lock();
pm_debug_start_timer();
/* Enter power state */
pm_power_state_set(z_power_state);
pm_debug_stop_timer();
pm_system_resume();
k_sched_unlock();
}
#if CONFIG_PM_DEVICE
static enum pm_state _handle_device_abort(struct pm_state_info info)
{
LOG_DBG("Some devices didn't enter suspend state!");
pm_resume_devices();
z_power_state.state = PM_STATE_ACTIVE;
return PM_STATE_ACTIVE;
}
#endif
enum pm_state pm_system_suspend(int32_t ticks)
{
SYS_PORT_TRACING_FUNC_ENTER(pm, system_suspend, ticks);
z_power_state = pm_policy_next_state(ticks);
if (z_power_state.state == PM_STATE_ACTIVE) {
LOG_DBG("No PM operations done.");
SYS_PORT_TRACING_FUNC_EXIT(pm, system_suspend, ticks, z_power_state.state);
return z_power_state.state;
}
post_ops_done = 0;
if (ticks != K_TICKS_FOREVER) {
/*
* Just a sanity check in case the policy manager does not
* handle this error condition properly.
*/
__ASSERT(z_power_state.min_residency_us >=
z_power_state.exit_latency_us,
"min_residency_us < exit_latency_us");
/*
* We need to set the timer to interrupt a little bit early to
* accommodate the time required by the CPU to fully wake up.
*/
z_set_timeout_expiry(ticks -
k_us_to_ticks_ceil32(z_power_state.exit_latency_us), true);
}
#if CONFIG_PM_DEVICE
bool should_resume_devices = true;
switch (z_power_state.state) {
case PM_STATE_RUNTIME_IDLE:
__fallthrough;
case PM_STATE_SUSPEND_TO_IDLE:
__fallthrough;
case PM_STATE_STANDBY:
/* low power peripherals. */
if (pm_low_power_devices()) {
SYS_PORT_TRACING_FUNC_EXIT(pm, system_suspend,
ticks, _handle_device_abort(z_power_state));
return _handle_device_abort(z_power_state);
}
break;
case PM_STATE_SUSPEND_TO_RAM:
__fallthrough;
case PM_STATE_SUSPEND_TO_DISK:
if (pm_suspend_devices()) {
SYS_PORT_TRACING_FUNC_EXIT(pm, system_suspend,
ticks, _handle_device_abort(z_power_state));
return _handle_device_abort(z_power_state);
}
break;
default:
should_resume_devices = false;
break;
}
#endif
/*
* This function runs with interruptions locked but it is
* expected the SoC to unlock them in
* pm_power_state_exit_post_ops() when returning to active
* state. We don't want to be scheduled out yet, first we need
* to send a notification about leaving the idle state. So,
* we lock the scheduler here and unlock just after we have
* sent the notification in pm_system_resume().
*/
k_sched_lock();
pm_debug_start_timer();
/* Enter power state */
pm_state_notify(true);
pm_power_state_set(z_power_state);
pm_debug_stop_timer();
/* Wake up sequence starts here */
#if CONFIG_PM_DEVICE
if (should_resume_devices) {
/* Turn on peripherals and restore device states as necessary */
pm_resume_devices();
}
#endif
pm_log_debug_info(z_power_state.state);
pm_system_resume();
k_sched_unlock();
SYS_PORT_TRACING_FUNC_EXIT(pm, system_suspend, ticks, z_power_state.state);
return z_power_state.state;
}
void pm_notifier_register(struct pm_notifier *notifier)
{
k_spinlock_key_t pm_notifier_key = k_spin_lock(&pm_notifier_lock);
sys_slist_append(&pm_notifiers, &notifier->_node);
k_spin_unlock(&pm_notifier_lock, pm_notifier_key);
}
int pm_notifier_unregister(struct pm_notifier *notifier)
{
int ret = -EINVAL;
k_spinlock_key_t pm_notifier_key;
pm_notifier_key = k_spin_lock(&pm_notifier_lock);
if (sys_slist_find_and_remove(&pm_notifiers, &(notifier->_node))) {
ret = 0;
}
k_spin_unlock(&pm_notifier_lock, pm_notifier_key);
return ret;
}
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