[components][pm]improve low power management components

This commit is contained in:
EvalZero 2019-05-06 18:17:55 +08:00
parent 4a2242b94d
commit c57f2370ad
3 changed files with 312 additions and 322 deletions

View File

@ -7,6 +7,7 @@
* Date Author Notes
* 2012-06-02 Bernard the first version
* 2018-08-02 Tanek split run and sleep modes, support custom mode
* 2019-04-28 Zero-Free improve PM mode and device ops interface
*/
#ifndef __PM_H__
@ -16,91 +17,62 @@
#ifndef PM_HAS_CUSTOM_CONFIG
/* All modes used for rt_pm_request() adn rt_pm_release() */
/* All modes used for rt_pm_request() and rt_pm_release() */
enum
{
/* run modes */
PM_RUN_MODE_NORMAL = 0,
/* sleep modes */
PM_SLEEP_MODE_SLEEP,
PM_SLEEP_MODE_TIMER,
PM_SLEEP_MODE_NONE = 0,
PM_SLEEP_MODE_IDLE,
PM_SLEEP_MODE_LIGHT,
PM_SLEEP_MODE_DEEP,
PM_SLEEP_MODE_STANDBY,
PM_SLEEP_MODE_SHUTDOWN,
PM_SLEEP_MODE_MAX,
};
enum
{
/* run modes*/
PM_RUN_MODE_HIGH_SPEED = 0,
PM_RUN_MODE_NORMAL_SPEED,
PM_RUN_MODE_MEDIUM_SPEED,
PM_RUN_MODE_LOW_SPEED,
PM_RUN_MODE_MAX,
};
enum
{
RT_PM_FREQUENCY_PENDING = 0x01,
};
#define RT_PM_DEFAULT_SLEEP_MODE PM_SLEEP_MODE_IDLE
#define RT_PM_DEFAULT_RUN_MODE PM_RUN_MODE_NORMAL_SPEED
/* The name of all modes used in the msh command "pm_dump" */
#define PM_MODE_NAMES \
#define PM_SLEEP_MODE_NAMES \
{ \
"Running Mode", \
\
"Sleep Mode", \
"Timer Mode", \
"None Mode", \
"Idle Mode", \
"LightSleep Mode", \
"DeepSleep Mode", \
"Standby Mode", \
"Shutdown Mode", \
}
/* run mode count : 1 */
#define PM_RUN_MODE_COUNT 1
/* sleep mode count : 3 */
#define PM_SLEEP_MODE_COUNT 3
/* support redefining default run mode */
#ifndef PM_RUN_MODE_DEFAULT
#define PM_RUN_MODE_DEFAULT 0
#endif
/* support redefining default sleep mode */
#ifndef PM_SLEEP_MODE_DEFAULT
#define PM_SLEEP_MODE_DEFAULT (PM_SLEEP_MODE_START)
#endif
/* support redefining the minimum tick into sleep mode */
#ifndef PM_MIN_ENTER_SLEEP_TICK
#define PM_MIN_ENTER_SLEEP_TICK (1)
#endif
#define PM_RUN_MODE_NAMES \
{ \
"High Speed", \
"Normal Speed", \
"Medium Speed", \
"Low Mode", \
}
#else /* PM_HAS_CUSTOM_CONFIG */
#include <pm_cfg.h>
#ifndef PM_RUN_MODE_COUNT
#error "You must defined PM_RUN_MODE_COUNT on pm_cfg.h"
#endif
#ifndef PM_SLEEP_MODE_COUNT
#error "You must defined PM_SLEEP_MODE_COUNT on pm_cfg.h"
#endif
#ifndef PM_MODE_DEFAULT
#error "You must defined PM_MODE_DEFAULT on pm_cfg.h"
#endif
#ifndef PM_MODE_NAMES
#error "You must defined PM_MODE_NAMES on pm_cfg.h"
#endif
#ifndef PM_RUN_MODE_DEFAULT
#error "You must defined PM_RUN_MODE_DEFAULT on pm_cfg.h"
#endif
/* The default sleep mode(PM_SLEEP_MODE_DEFAULT) are not required.
* If the default mode is defined, it is requested once in rt_system_pm_init()
*/
#endif /* PM_HAS_CUSTOM_CONFIG */
/* run mode must start at 0 */
#define PM_RUN_MODE_START 0
/* the values of the run modes and sleep mode must be consecutive */
#define PM_SLEEP_MODE_START PM_RUN_MODE_COUNT
/* all mode count */
#define PM_MODE_COUNT (PM_RUN_MODE_COUNT + PM_SLEEP_MODE_COUNT)
/* The last mode, will be request in rt_system_pm_init() */
#define PM_MODE_MAX (PM_RUN_MODE_COUNT + PM_SLEEP_MODE_COUNT - 1)
#if PM_MODE_COUNT > 32
#error "The number of modes cannot exceed 32"
#endif
/**
* device control flag to request or release power
*/
@ -114,13 +86,8 @@ struct rt_pm;
*/
struct rt_pm_ops
{
void (*enter)(struct rt_pm *pm);
void (*exit)(struct rt_pm *pm);
#if PM_RUN_MODE_COUNT > 1
void (*frequency_change)(struct rt_pm *pm, rt_uint32_t frequency);
#endif
void (*sleep)(struct rt_pm *pm, uint8_t mode);
void (*run)(struct rt_pm *pm, uint8_t mode, uint32_t frequency);
void (*timer_start)(struct rt_pm *pm, rt_uint32_t timeout);
void (*timer_stop)(struct rt_pm *pm);
rt_tick_t (*timer_get_tick)(struct rt_pm *pm);
@ -128,18 +95,15 @@ struct rt_pm_ops
struct rt_device_pm_ops
{
#if PM_RUN_MODE_COUNT > 1
void (*frequency_change)(const struct rt_device* device);
#endif
void (*suspend)(const struct rt_device* device);
void (*resume) (const struct rt_device* device);
int (*suspend)(const struct rt_device *device, uint8_t mode);
void (*resume)(const struct rt_device *device, uint8_t mode);
int (*frequency_change)(const struct rt_device *device, uint8_t mode, uint32_t frequency);
};
struct rt_device_pm
{
const struct rt_device* device;
const struct rt_device_pm_ops* ops;
const struct rt_device *device;
const struct rt_device_pm_ops *ops;
};
/**
@ -150,32 +114,46 @@ struct rt_pm
struct rt_device parent;
/* modes */
rt_uint8_t modes[PM_MODE_COUNT];
rt_uint8_t current_mode; /* current pm mode */
rt_uint8_t exit_count;
rt_uint8_t modes[PM_SLEEP_MODE_MAX];
rt_uint8_t sleep_mode; /* current sleep mode */
rt_uint8_t run_mode; /* current running mode */
/* the list of device, which has PM feature */
rt_uint8_t device_pm_number;
struct rt_device_pm* device_pm;
struct rt_semaphore device_lock;
struct rt_device_pm *device_pm;
rt_uint32_t frequency;
/* if the mode has timer, the corresponding bit is 1*/
rt_uint32_t timer_mask;
rt_uint8_t timer_mask;
rt_uint8_t flags;
const struct rt_pm_ops *ops;
};
void rt_pm_enter(void);
void rt_pm_exit(void);
enum
{
RT_PM_ENTER_SLEEP = 0,
RT_PM_EXIT_SLEEP,
};
void rt_pm_request(rt_ubase_t mode);
void rt_pm_release(rt_ubase_t mode);
struct rt_pm_notify
{
void (*notify)(uint8_t event, uint8_t mode, void *data);
void *data;
};
void rt_pm_register_device(struct rt_device* device, const struct rt_device_pm_ops* ops);
void rt_pm_unregister_device(struct rt_device* device);
void rt_pm_request(uint8_t sleep_mode);
void rt_pm_release(uint8_t sleep_mode);
int rt_pm_run_mode_set(uint8_t run_mode, uint32_t frequency);
void rt_pm_device_register(struct rt_device *device, const struct rt_device_pm_ops *ops);
void rt_pm_device_unregister(struct rt_device *device);
void rt_pm_notify_set(void (*notify)(uint8_t event, uint8_t mode, void *data), void *data);
void rt_pm_default_set(uint8_t sleep_mode);
void rt_system_pm_init(const struct rt_pm_ops *ops,
rt_uint8_t timer_mask,
void *user_data);
uint8_t timer_mask,
void *user_data);
#endif /* __PM_H__ */

View File

@ -7,6 +7,7 @@
* Date Author Notes
* 2012-06-02 Bernard the first version
* 2018-08-02 Tanek split run and sleep modes, support custom mode
* 2019-04-28 Zero-Free improve PM mode and device ops interface
*/
#include <rthw.h>
@ -16,11 +17,25 @@
#ifdef RT_USING_PM
static struct rt_pm _pm;
static uint8_t _pm_default_sleep = RT_PM_DEFAULT_SLEEP_MODE;
static struct rt_pm_notify _pm_notify;
#define RT_PM_TICKLESS_THRESH (2)
RT_WEAK uint32_t rt_pm_enter_critical(void)
{
return rt_hw_interrupt_disable();
}
RT_WEAK void rt_pm_exit_critical(uint32_t ctx)
{
rt_hw_interrupt_enable(ctx);
}
/**
* This function will suspend all registered devices
*/
static void _pm_device_suspend(void)
static int _pm_device_suspend(uint8_t mode)
{
int index;
@ -28,15 +43,17 @@ static void _pm_device_suspend(void)
{
if (_pm.device_pm[index].ops->suspend != RT_NULL)
{
_pm.device_pm[index].ops->suspend(_pm.device_pm[index].device);
return _pm.device_pm[index].ops->suspend(_pm.device_pm[index].device, mode);
}
}
return RT_EOK;
}
/**
* This function will resume all registered devices
*/
static void _pm_device_resume(void)
static void _pm_device_resume(uint8_t mode)
{
int index;
@ -44,16 +61,15 @@ static void _pm_device_resume(void)
{
if (_pm.device_pm[index].ops->resume != RT_NULL)
{
_pm.device_pm[index].ops->resume(_pm.device_pm[index].device);
_pm.device_pm[index].ops->resume(_pm.device_pm[index].device, mode);
}
}
}
#if PM_RUN_MODE_COUNT > 1
/**
* This function will update the frequency of all registered devices
*/
static void _pm_device_frequency_change(void)
static void _pm_device_frequency_change(uint8_t mode, uint32_t frequency)
{
rt_uint32_t index;
@ -61,152 +77,148 @@ static void _pm_device_frequency_change(void)
for (index = 0; index < _pm.device_pm_number; index ++)
{
if (_pm.device_pm[index].ops->frequency_change != RT_NULL)
_pm.device_pm[index].ops->frequency_change(_pm.device_pm[index].device);
_pm.device_pm[index].ops->frequency_change(_pm.device_pm[index].device, mode, frequency);
}
}
/**
* This function will update the system clock frequency when idle
*/
static void _pm_frequency_scaling(struct rt_pm *pm)
{
rt_base_t level;
if (pm->flags & RT_PM_FREQUENCY_PENDING)
{
level = rt_hw_interrupt_disable();
/* change system runing mode */
pm->ops->run(pm, pm->run_mode, pm->frequency);
/* changer device frequency */
_pm_device_frequency_change(pm->run_mode, pm->frequency);
pm->flags &= ~RT_PM_FREQUENCY_PENDING;
rt_hw_interrupt_enable(level);
}
}
/**
* This function selects the sleep mode according to the rt_pm_request/rt_pm_release count.
*/
static uint8_t _pm_select_sleep_mode(struct rt_pm *pm)
{
int index;
uint8_t mode;
mode = _pm_default_sleep;
for (index = PM_SLEEP_MODE_NONE; index < PM_SLEEP_MODE_MAX; index ++)
{
if (pm->modes[index])
{
mode = index;
break;
}
}
pm->sleep_mode = mode;
return mode;
}
/**
* This function changes the power sleep mode base on the result of selection
*/
static void _pm_change_sleep_mode(struct rt_pm *pm, uint8_t mode)
{
rt_tick_t timeout_tick, delta_tick;
rt_base_t level;
int ret = RT_EOK;
if (mode == PM_SLEEP_MODE_NONE)
{
pm->sleep_mode = mode;
pm->ops->sleep(pm, PM_SLEEP_MODE_NONE);
}
else
{
level = rt_pm_enter_critical();
/* Notify app will enter sleep mode */
if (_pm_notify.notify)
_pm_notify.notify(RT_PM_ENTER_SLEEP, mode, _pm_notify.data);
/* Suspend all peripheral device */
ret = _pm_device_suspend(mode);
if (ret != RT_EOK)
{
_pm_device_resume(mode);
if (_pm_notify.notify)
_pm_notify.notify(RT_PM_EXIT_SLEEP, mode, _pm_notify.data);
rt_pm_exit_critical(level);
return;
}
/* Tickless*/
if (pm->timer_mask & (0x01 << mode))
{
timeout_tick = rt_timer_next_timeout_tick();
if (timeout_tick == RT_TICK_MAX)
{
if (pm->ops->timer_start)
{
pm->ops->timer_start(pm, RT_TICK_MAX);
}
}
else
{
timeout_tick = timeout_tick - rt_tick_get();
if (timeout_tick < RT_PM_TICKLESS_THRESH)
{
mode = PM_SLEEP_MODE_IDLE;
}
else
{
pm->ops->timer_start(pm, timeout_tick);
}
}
}
/* enter lower power state */
pm->ops->sleep(pm, mode);
/* wake up from lower power state*/
if (pm->timer_mask & (0x01 << mode))
{
delta_tick = pm->ops->timer_get_tick(pm);
pm->ops->timer_stop(pm);
if (delta_tick)
{
rt_tick_set(rt_tick_get() + delta_tick);
rt_timer_check();
}
}
/* resume all device */
_pm_device_resume(pm->sleep_mode);
if (_pm_notify.notify)
_pm_notify.notify(RT_PM_EXIT_SLEEP, mode, _pm_notify.data);
rt_pm_exit_critical(level);
}
}
#endif
/**
* This function will enter corresponding power mode.
*/
void rt_pm_enter(void)
void rt_system_power_manager(void)
{
rt_ubase_t level;
struct rt_pm *pm;
rt_uint32_t index;
rt_tick_t timeout_tick;
uint8_t mode;
pm = &_pm;
/* CPU frequency scaling according to the runing mode settings */
_pm_frequency_scaling(&_pm);
/* disable interrupt before check run modes */
level = rt_hw_interrupt_disable();
/* check each run mode, and decide to swithc to run mode or sleep mode */
for (index = 0; index < PM_RUN_MODE_COUNT; index++)
{
if (pm->modes[index])
{
if (index > pm->current_mode)
{
pm->ops->exit(pm);
pm->current_mode = index;
pm->ops->enter(pm);
#if PM_RUN_MODE_COUNT > 1
pm->ops->frequency_change(pm, 0);
_pm_device_frequency_change();
#endif
}
rt_hw_interrupt_enable(level);
/* The current mode is run mode, no need to check sleep mode */
return ;
}
}
/* enable interrupt after check run modes */
rt_hw_interrupt_enable(level);
level = rt_hw_interrupt_disable();
/* check each sleep mode to decide which mode can system sleep. */
for (index = PM_SLEEP_MODE_START; index < PM_SLEEP_MODE_START + PM_SLEEP_MODE_COUNT; index++)
{
if (pm->modes[index])
{
/* let mcu sleep when system is idle */
/* run mode to sleep mode */
if (pm->current_mode < PM_SLEEP_MODE_START)
{
/* exit run mode */
pm->ops->exit(pm);
}
/* set current power mode */
pm->current_mode = index;
pm->exit_count = 1;
/* suspend all of devices with PM feature */
_pm_device_suspend();
/* should start pm timer */
if (pm->timer_mask & (1 << index))
{
/* get next os tick */
timeout_tick = rt_timer_next_timeout_tick();
if (timeout_tick != RT_TICK_MAX)
{
timeout_tick -= rt_tick_get();
#if defined(PM_MIN_ENTER_SLEEP_TICK) && PM_MIN_ENTER_SLEEP_TICK > 0
if (timeout_tick < PM_MIN_ENTER_SLEEP_TICK)
{
rt_hw_interrupt_enable(level);
/* limit the minimum time to enter timer sleep mode */
return ;
}
#endif
}
/* startup pm timer */
pm->ops->timer_start(pm, timeout_tick);
}
/* enter sleep and wait to be waken up */
pm->ops->enter(pm);
/* exit from low power mode */
rt_pm_exit();
rt_hw_interrupt_enable(level);
return ;
}
}
rt_hw_interrupt_enable(level);
}
/**
* This function exits from sleep mode.
*/
void rt_pm_exit(void)
{
rt_ubase_t level;
struct rt_pm *pm;
rt_tick_t delta_tick;
pm = &_pm;
level = rt_hw_interrupt_disable();
if (pm->exit_count)
{
pm->exit_count = 0;
if (pm->current_mode >= PM_SLEEP_MODE_START)
{
/* sleep mode with timer */
if (pm->timer_mask & (1 << pm->current_mode))
{
/* get the tick of pm timer */
delta_tick = pm->ops->timer_get_tick(pm);
/* stop pm timer */
pm->ops->timer_stop(pm);
if (delta_tick)
{
/* adjust OS tick */
rt_tick_set(rt_tick_get() + delta_tick);
/* check system timer */
rt_timer_check();
}
}
/* exit from sleep mode */
pm->ops->exit(pm);
/* resume the device with PM feature */
_pm_device_resume();
}
}
rt_hw_interrupt_enable(level);
/* Low Power Mode Processing */
mode = _pm_select_sleep_mode(&_pm);
_pm_change_sleep_mode(&_pm, mode);
}
/**
@ -215,60 +227,18 @@ void rt_pm_exit(void)
*
* @param parameter the parameter of run mode or sleep mode
*/
void rt_pm_request(rt_ubase_t mode)
void rt_pm_request(uint8_t mode)
{
rt_ubase_t level;
rt_base_t level;
struct rt_pm *pm;
pm = &_pm;
if (mode > PM_MODE_MAX)
if (mode > (PM_SLEEP_MODE_MAX - 1))
return;
level = rt_hw_interrupt_disable();
/* update pm modes table */
pm->modes[mode] ++;
/* request higter mode with a smaller mode value*/
if (mode < pm->current_mode)
{
/* the old current mode is RUN mode, need to all pm->ops->exit(),
* if not, it has already called in rt_pm_exit()
*/
if (pm->current_mode < PM_SLEEP_MODE_START)
{
pm->ops->exit(pm);
}
else if (pm->exit_count)
{
/* call exeit when global interrupt is disable */
pm->ops->exit(pm);
pm->exit_count = 0;
}
/* update current mode */
pm->current_mode = mode;
/* current mode is higher run mode */
if (mode < PM_SLEEP_MODE_START)
{
/* enter run mode */
pm->ops->enter(pm);
#if PM_RUN_MODE_COUNT > 1
/* frequency change */
pm->ops->frequency_change(pm, 0);
_pm_device_frequency_change();
#endif
}
else
{
/* do nothing when request higher sleep mode,
* and swithc to new sleep mode in rt_pm_enter()
*/
}
}
pm = &_pm;
if (pm->modes[mode] < 255)
pm->modes[mode] ++;
rt_hw_interrupt_enable(level);
}
@ -279,21 +249,18 @@ void rt_pm_request(rt_ubase_t mode)
* @param parameter the parameter of run mode or sleep mode
*
*/
void rt_pm_release(rt_ubase_t mode)
void rt_pm_release(uint8_t mode)
{
rt_ubase_t level;
struct rt_pm *pm;
pm = &_pm;
if (mode > PM_MODE_MAX)
if (mode > (PM_SLEEP_MODE_MAX - 1))
return;
level = rt_hw_interrupt_disable();
pm = &_pm;
if (pm->modes[mode] > 0)
pm->modes[mode] --;
rt_hw_interrupt_enable(level);
}
@ -303,9 +270,9 @@ void rt_pm_release(rt_ubase_t mode)
* @param device the device with PM feature
* @param ops the PM ops for device
*/
void rt_pm_register_device(struct rt_device *device, const struct rt_device_pm_ops *ops)
void rt_pm_device_register(struct rt_device *device, const struct rt_device_pm_ops *ops)
{
rt_ubase_t level;
rt_base_t level;
struct rt_device_pm *device_pm;
RT_DEBUG_NOT_IN_INTERRUPT;
@ -322,8 +289,6 @@ void rt_pm_register_device(struct rt_device *device, const struct rt_device_pm_o
_pm.device_pm_number += 1;
}
rt_sem_release(&(_pm.device_lock));
rt_hw_interrupt_enable(level);
}
@ -332,7 +297,7 @@ void rt_pm_register_device(struct rt_device *device, const struct rt_device_pm_o
*
* @param device the device with PM feature
*/
void rt_pm_unregister_device(struct rt_device *device)
void rt_pm_device_unregister(struct rt_device *device)
{
rt_ubase_t level;
rt_uint32_t index;
@ -362,6 +327,23 @@ void rt_pm_unregister_device(struct rt_device *device)
rt_hw_interrupt_enable(level);
}
/**
* This function set notification callback for application
*/
void rt_pm_notify_set(void (*notify)(uint8_t event, uint8_t mode, void *data), void *data)
{
_pm_notify.notify = notify;
_pm_notify.data = data;
}
/**
* This function set default sleep mode when no pm_request
*/
void rt_pm_default_set(uint8_t sleep_mode)
{
_pm_default_sleep = sleep_mode;
}
/**
* RT-Thread device interface for PM device
*/
@ -377,7 +359,7 @@ static rt_size_t _rt_pm_device_read(rt_device_t dev,
pm = (struct rt_pm *)dev;
RT_ASSERT(pm != RT_NULL);
if (pos <= PM_MODE_MAX)
if (pos < PM_SLEEP_MODE_MAX)
{
int mode;
@ -434,6 +416,34 @@ static rt_err_t _rt_pm_device_control(rt_device_t dev,
return RT_EOK;
}
int rt_pm_run_mode_set(uint8_t mode, uint32_t frequency)
{
rt_base_t level;
struct rt_pm *pm;
if (mode > PM_RUN_MODE_MAX)
return -RT_EINVAL;
level = rt_hw_interrupt_disable();
pm = &_pm;
if (mode < pm->run_mode)
{
/* change system runing mode */
pm->ops->run(pm, mode, frequency);
/* changer device frequency */
_pm_device_frequency_change(mode, frequency);
}
else
{
pm->flags |= RT_PM_FREQUENCY_PENDING;
}
pm->frequency = frequency;
pm->run_mode = mode;
rt_hw_interrupt_enable(level);
return RT_EOK;
}
/**
* This function will initialize power management.
*
@ -466,37 +476,23 @@ void rt_system_pm_init(const struct rt_pm_ops *ops,
/* register PM device to the system */
rt_device_register(device, "pm", RT_DEVICE_FLAG_RDWR);
/* todo : add to kernel source code */
rt_thread_idle_sethook(rt_pm_enter);
rt_memset(pm->modes, 0, sizeof(pm->modes));
pm->current_mode = PM_RUN_MODE_DEFAULT;
pm->sleep_mode = _pm_default_sleep;
pm->run_mode = RT_PM_DEFAULT_RUN_MODE;
pm->timer_mask = timer_mask;
pm->ops = ops;
pm->device_pm = RT_NULL;
pm->device_pm_number = 0;
/* initialize semaphore */
rt_sem_init(&(pm->device_lock), "pm", 1, RT_IPC_FLAG_FIFO);
/* request in default running mode */
rt_pm_request(PM_RUN_MODE_DEFAULT);
#ifdef PM_SLEEP_MODE_DEFAULT
/* request in default sleep mode */
rt_pm_request(PM_SLEEP_MODE_DEFAULT);
#endif
/* must hold on deep shutdown mode */
rt_pm_request(PM_MODE_MAX);
}
#ifdef RT_USING_FINSH
#include <finsh.h>
static const char *_pm_sleep_str[] = PM_SLEEP_MODE_NAMES;
static const char *_pm_run_str[] = PM_RUN_MODE_NAMES;
static void rt_pm_release_mode(int argc, char **argv)
{
int mode = 0;
@ -521,9 +517,20 @@ static void rt_pm_request_mode(int argc, char **argv)
}
MSH_CMD_EXPORT_ALIAS(rt_pm_request_mode, pm_request, request power management mode);
static void rt_pm_run_mode_switch(int argc, char **argv)
{
int mode = 0;
if (argc >= 2)
{
mode = atoi(argv[1]);
}
rt_pm_run_mode_set(mode, 0);
}
MSH_CMD_EXPORT_ALIAS(rt_pm_run_mode_switch, pm_run_set, switch power management run mode);
static void rt_pm_dump_status(void)
{
static const char *pm_str[] = PM_MODE_NAMES;
rt_uint32_t index;
struct rt_pm *pm;
@ -531,17 +538,18 @@ static void rt_pm_dump_status(void)
rt_kprintf("| Power Management Mode | Counter | Timer |\n");
rt_kprintf("+-----------------------+---------+-------+\n");
for (index = 0; index <= PM_MODE_MAX; index ++)
for (index = 0; index < PM_SLEEP_MODE_MAX; index ++)
{
int has_timer = 0;
if (pm->timer_mask & (1 << index))
has_timer = 1;
rt_kprintf("| %021s | %7d | %5d |\n", pm_str[index], pm->modes[index], has_timer);
rt_kprintf("| %021s | %7d | %5d |\n", _pm_sleep_str[index], pm->modes[index], has_timer);
}
rt_kprintf("+-----------------------+---------+-------+\n");
rt_kprintf("pm current mode: %s\n", pm_str[pm->current_mode]);
rt_kprintf("pm current sleep mode: %s\n", _pm_sleep_str[pm->sleep_mode]);
rt_kprintf("pm current run mode: %s\n", _pm_run_str[pm->run_mode]);
}
FINSH_FUNCTION_EXPORT_ALIAS(rt_pm_dump_status, pm_dump, dump power management status);
MSH_CMD_EXPORT_ALIAS(rt_pm_dump_status, pm_dump, dump power management status);

View File

@ -228,6 +228,7 @@ void rt_thread_idle_excute(void)
}
}
extern void rt_system_power_manager(void);
static void rt_thread_idle_entry(void *parameter)
{
#ifdef RT_USING_SMP
@ -255,6 +256,9 @@ static void rt_thread_idle_entry(void *parameter)
#endif
rt_thread_idle_excute();
#ifdef RT_USING_PM
rt_system_power_manager();
#endif
}
}