315 lines
8.2 KiB
C
315 lines
8.2 KiB
C
/**************************************************************************//**
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*
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* @copyright (C) 2020 Nuvoton Technology Corp. All rights reserved.
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*
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* SPDX-License-Identifier: Apache-2.0
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*
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* Change Logs:
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* Date Author Notes
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* 2020-07-15 klcheng First version
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*
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******************************************************************************/
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#include <rtconfig.h>
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#if defined(BSP_USING_CLK)
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#include <rtdevice.h>
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#include <rthw.h>
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#include <rtdbg.h>
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#include <stdint.h>
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#include <string.h>
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#include "NuMicro.h"
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/* Private define ---------------------------------------------------------------*/
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/* pm run mode speed mapping */
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#define CONFIG_HIGH_SPEED_FREQ (96000000ul)
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#define CONFIG_NORMAL_SPEED_FREQ (96000000ul)
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#define CONFIG_MEDIMUM_SPEED_FREQ (64000000ul)
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#define CONFIG_LOW_SPEED_FREQ (48000000ul)
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/* pm sleep mode mapping */
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#define CONFIG_MODE_LIGHT (CLK_PMUCTL_PDMSEL_FWPD)
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#define CONFIG_MODE_DEEP (CLK_PMUCTL_PDMSEL_PD)
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#define CONFIG_MODE_STANDBY (CLK_PMUCTL_PDMSEL_SPD)
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#define CONFIG_MODE_SHUTDOWN (CLK_PMUCTL_PDMSEL_DPD)
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#if defined (NU_CLK_INVOKE_WKTMR)
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/* Wake-up timer clock source is 32K */
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#define WKTMR_INTERVAL (CLK_PMUCTL_WKTMRIS_209715)
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#endif
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/* Timer module assigned for pm device usage. */
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/* e.g. If TIMERn is reserved for pm, then define the PM_TIMER_USE_INSTANCE
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macro to n value (without parentheses). */
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#define PM_TIMER_USE_INSTANCE 5
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/* Concatenate */
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#define _CONCAT2_(x, y) x##y
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#define _CONCAT3_(x, y, z) x##y##z
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#define CONCAT2(x, y) _CONCAT2_(x, y)
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#define CONCAT3(x, y, z) _CONCAT3_(x,y,z)
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/* Concatenate the macros of timer instance for driver usage. */
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#define PM_TIMER CONCAT2(TIMER, PM_TIMER_USE_INSTANCE)
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#define PM_TMR CONCAT2(TMR, PM_TIMER_USE_INSTANCE)
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#define PM_TIMER_MODULE CONCAT2(PM_TMR, _MODULE)
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#define PM_TIMER_IRQn CONCAT2(PM_TMR, _IRQn)
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#define PM_TIMER_IRQHandler CONCAT2(PM_TMR, _IRQHandler)
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#define PM_TIMER_SEL_LXT CONCAT3(CLK_CLKSEL3_, PM_TMR, SEL_LXT)
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/* Private typedef --------------------------------------------------------------*/
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/* Private functions ------------------------------------------------------------*/
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static void pm_sleep(struct rt_pm *pm, rt_uint8_t mode);
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static void pm_run(struct rt_pm *pm, rt_uint8_t mode);
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static void pm_timer_start(struct rt_pm *pm, rt_uint32_t timeout);
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static void pm_timer_stop(struct rt_pm *pm);
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static rt_tick_t pm_timer_get_tick(struct rt_pm *pm);
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static rt_tick_t pm_tick_from_os_tick(rt_tick_t os_tick);
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static rt_tick_t os_tick_from_pm_tick(rt_tick_t pm_tick);
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/* Public functions -------------------------------------------------------------*/
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int rt_hw_pm_init(void);
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/* Private variables ------------------------------------------------------------*/
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static struct rt_pm_ops ops =
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{
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.sleep = pm_sleep,
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.run = pm_run,
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.timer_start = pm_timer_start,
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.timer_stop = pm_timer_stop,
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.timer_get_tick = pm_timer_get_tick,
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};
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struct rt_device pm;
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/* Sleep and power-down mapping */
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const static uint32_t g_au32SleepingMode[PM_SLEEP_MODE_MAX] =
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{
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0,
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0,
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CONFIG_MODE_LIGHT,
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CONFIG_MODE_DEEP,
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CONFIG_MODE_STANDBY,
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CONFIG_MODE_SHUTDOWN
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};
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/* pm sleep() entry */
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static void pm_sleep(struct rt_pm *pm, rt_uint8_t mode)
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{
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RT_ASSERT(mode < PM_SLEEP_MODE_MAX);
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if ((mode == PM_SLEEP_MODE_NONE) || (mode == PM_SLEEP_MODE_IDLE))
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return;
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/* wake-up source: */
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/* PM_SLEEP_MODE_LIGHT : TIMERn */
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/* PM_SLEEP_MODE_DEEP : TIMERn */
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/* PM_SLEEP_MODE_STANDBY : wake-up timer (optional) */
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/* PM_SLEEP_MODE_SHUTDOWN : wake-up timer (optional) */
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SYS_UnlockReg();
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#if defined (NU_CLK_INVOKE_WKTMR)
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if ((mode == PM_SLEEP_MODE_SHUTDOWN) || (mode == PM_SLEEP_MODE_STANDBY))
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{
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/* Enable wake-up timer with pre-defined interval if it is invoked */
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CLK_SET_WKTMR_INTERVAL(WKTMR_INTERVAL);
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CLK_ENABLE_WKTMR();
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}
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#endif
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/* Set Power-down Mode */
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CLK_SetPowerDownMode(g_au32SleepingMode[mode]);
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/* Here, take a break. */
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CLK_PowerDown();
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SYS_LockReg();
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}
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/* pm run() entry */
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static void pm_run(struct rt_pm *pm, rt_uint8_t mode)
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{
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static uint8_t prev_mode = RT_PM_DEFAULT_RUN_MODE;
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/* ignore it if power mode is the same. */
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if (mode == prev_mode)
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return;
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prev_mode = mode;
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SYS_UnlockReg();
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/* Switch run mode frequency using PLL + HXT if HXT is enabled.
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Otherwise, the system clock will use PLL + HIRC. */
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switch (mode)
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{
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case PM_RUN_MODE_HIGH_SPEED:
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CLK_SetCoreClock(CONFIG_HIGH_SPEED_FREQ);
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break;
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case PM_RUN_MODE_NORMAL_SPEED:
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CLK_SetCoreClock(CONFIG_NORMAL_SPEED_FREQ);
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break;
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case PM_RUN_MODE_MEDIUM_SPEED:
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CLK_SetCoreClock(CONFIG_MEDIMUM_SPEED_FREQ);
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break;
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case PM_RUN_MODE_LOW_SPEED:
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CLK_SetCoreClock(CONFIG_LOW_SPEED_FREQ);
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break;
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default:
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RT_ASSERT(0);
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break;
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}
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SystemCoreClockUpdate();
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SysTick_Config(SystemCoreClock / RT_TICK_PER_SECOND);
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SYS_LockReg();
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}
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static void hw_timer_init(void)
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{
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/* Assign a hardware timer for pm usage. */
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SYS_UnlockReg();
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CLK_SetModuleClock(PM_TIMER_MODULE, PM_TIMER_SEL_LXT, MODULE_NoMsk);
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CLK_EnableModuleClock(PM_TIMER_MODULE);
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SYS_LockReg();
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/* Initialize timer and enable wakeup function. */
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TIMER_Open(PM_TIMER, TIMER_CONTINUOUS_MODE, 1);
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TIMER_SET_PRESCALE_VALUE(PM_TIMER, 0);
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TIMER_EnableInt(PM_TIMER);
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TIMER_EnableWakeup(PM_TIMER);
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NVIC_EnableIRQ(PM_TIMER_IRQn);
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}
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/* convert os tick to pm timer tick */
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static rt_tick_t pm_tick_from_os_tick(rt_tick_t os_tick)
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{
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rt_uint32_t hz = TIMER_GetModuleClock(PM_TIMER);
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return (rt_tick_t)(hz * os_tick / RT_TICK_PER_SECOND);
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}
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/* convert pm timer tick to os tick */
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static rt_tick_t os_tick_from_pm_tick(rt_tick_t pm_tick)
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{
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static rt_uint32_t os_tick_remain = 0;
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rt_uint32_t ret, hz;
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hz = TIMER_GetModuleClock(PM_TIMER);
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ret = (pm_tick * RT_TICK_PER_SECOND + os_tick_remain) / hz;
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os_tick_remain += (pm_tick * RT_TICK_PER_SECOND);
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os_tick_remain %= hz;
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return ret;
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}
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/* pm_ops timer_get_tick() entry */
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static rt_tick_t pm_timer_get_tick(struct rt_pm *pm)
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{
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rt_tick_t tick;
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tick = TIMER_GetCounter(PM_TIMER);
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return os_tick_from_pm_tick(tick);
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}
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/* pm timer_start() entry */
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static void pm_timer_start(struct rt_pm *pm, rt_uint32_t timeout)
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{
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int tick;
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if (timeout == RT_TICK_MAX)
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return;
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/* start pm timer to compensate the os tick in power down mode */
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tick = pm_tick_from_os_tick(timeout);
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TIMER_SET_CMP_VALUE(PM_TIMER, tick);
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TIMER_Start(PM_TIMER);
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}
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/* pm timer_stop() entry */
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static void pm_timer_stop(struct rt_pm *pm)
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{
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TIMER_Stop(PM_TIMER);
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TIMER_ResetCounter(PM_TIMER);
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}
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/* pm device driver initialize. */
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int rt_hw_pm_init(void)
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{
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rt_uint8_t timer_mask;
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if (CLK_GetPMUWKSrc())
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{
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/* Release I/O hold status after wake-up from Standby Power-down Mode (SPD) */
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CLK->IOPDCTL = 1;
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/* Clear Power Manager Status register */
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CLK->PMUSTS = CLK_PMUSTS_CLRWK_Msk;
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}
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hw_timer_init();
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/* initialize timer mask */
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timer_mask = (1UL << PM_SLEEP_MODE_LIGHT) |
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(1UL << PM_SLEEP_MODE_DEEP);
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/* initialize system pm module */
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rt_system_pm_init(&ops, timer_mask, RT_NULL);
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return RT_EOK;
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}
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INIT_BOARD_EXPORT(rt_hw_pm_init);
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extern void rt_pm_exit_critical(rt_uint32_t ctx, rt_uint8_t sleep_mode);
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void rt_pm_exit_critical(rt_uint32_t ctx, rt_uint8_t sleep_mode)
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{
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if ( (sleep_mode==PM_SLEEP_MODE_LIGHT) || (sleep_mode==PM_SLEEP_MODE_DEEP) )
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{
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if (TIMER_GetIntFlag(PM_TIMER))
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{
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TIMER_ClearIntFlag(PM_TIMER);
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}
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if (TIMER_GetWakeupFlag(PM_TIMER))
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{
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TIMER_ClearWakeupFlag(PM_TIMER);
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}
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NVIC_ClearPendingIRQ(PM_TIMER_IRQn);
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}
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rt_hw_interrupt_enable(ctx);
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}
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#endif /* BSP_USING_CLK */
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