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rt-thread/components/drivers/clock_time/clock_hrtimer.c
Bernard Xiong 743b614875
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[components][clock_time] Refactor time subsystem around clock_time (#11111) 
* [components][clock_time] Refactor time subsystem around clock_time

Introduce the clock_time core with clock source/event separation, high-resolution scheduling, and boot-time helpers, plus clock_timer adapters for timer peripherals.

Remove legacy ktime/cputime/hwtimer implementations and migrate arch and BSP time paths to the new subsystem while keeping POSIX time integration functional.

Update drivers, Kconfig/SConscript wiring, documentation, and tests; add clock_time overview docs and align naming to clock_boottime/clock_hrtimer/clock_timer.

* [components][clock_time] Use BSP-provided clock timer frequency on riscv64

* [risc-v] Use runtime clock timer frequency for tick and delays

* [bsp] Add clock timer frequency hooks for riscv64 boards

* [bsp] Update Renesas RA driver doc clock_timer link

* [bsp] Sync zynqmp-r5-axu4ev rtconfig after config refresh

* [bsp][rk3500] Update rk3500 clock configuration

* [bsp][hpmicro] Add rt_hw_us_delay hook and update board delays

* [bsp][stm32l496-st-nucleo] enable clock_time for hwtimer sample in ci

* [bsp][hpmicro] Fix rtconfig include scope for hpm6750evk

Move rtconfig.h include outside the ENET_MULTIPLE_PORT guard for hpm6750evk and hpm6750evk2 so configuration macros are available regardless of ENET settings.

* [bsp][raspi3] select clock time for systimer

* [bsp][hpm5300evk] Trim trailing blank line

* [bsp][hpm5301evklite] Trim trailing blank line

* [bsp][hpm5e00evk] Trim trailing blank line

* [bsp][hpm6200evk] Trim trailing blank line

* [bsp][hpm6300evk] Trim trailing blank line

* [bsp][hpm6750evk] Trim trailing blank line

* [bsp][hpm6750evk2] Trim trailing blank line

* [bsp][hpm6750evkmini] Trim trailing blank line

* [bsp][hpm6800evk] Trim trailing blank line

* [bsp][hpm6e00evk] Trim trailing blank line

* [bsp][nxp] switch lpc178x to gcc and remove mcx timer source

* [bsp][stm32] fix the CONFIG_RT_USING_CLOCK_TIME issue.

* [docs][clock_time] add clock time documentation

* [docs][clock_time] Update clock time subsystem documentation

- Update device driver index to use correct page reference
- Clarify upper layer responsibilities in architecture overview
- Update README to describe POSIX/libc, Soft RTC, and device driver usage
- Refine architecture diagram with improved layout and color scheme
- Remove obsolete clock_timer.md file

* [kernel][utest] Trim trailing space

* [clock_time] Fix hrtimer wrap handling

* [clock_time] fix the static rt_inline issue

* [clock_time] fix the rt_clock_hrtimer_control result issue
2026-01-31 17:44:27 +08:00

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/*
* Copyright (c) 2006-2026, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2025-01-01 RT-Thread Clock time hrtimer
*/
#include <rtdevice.h>
#include <rthw.h>
#include <rtthread.h>
#include <drivers/clock_time.h>
#define DBG_SECTION_NAME "drv.clock_time"
#define DBG_LEVEL DBG_INFO
#include <rtdbg.h>
#define CLOCK_TIME_NSEC_PER_SEC (1000000000ULL)
#ifdef ARCH_CPU_64BIT
#define _HRTIMER_MAX_CNT UINT64_MAX
#else
#define _HRTIMER_MAX_CNT UINT32_MAX
#endif
static rt_list_t _timer_list = RT_LIST_OBJECT_INIT(_timer_list);
static RT_DEFINE_SPINLOCK(_spinlock);
rt_inline rt_clock_hrtimer_t _first_hrtimer(void)
{
return rt_list_isempty(&_timer_list) ? RT_NULL : rt_list_first_entry(&_timer_list, struct rt_clock_hrtimer, node);
}
rt_inline unsigned long _clock_time_get_cnt(void)
{
return rt_clock_time_get_counter();
}
rt_inline rt_bool_t _cnt_before(unsigned long a, unsigned long b)
{
return ((rt_base_t)(a - b)) < 0;
}
rt_inline rt_bool_t _cnt_after(unsigned long a, unsigned long b)
{
return _cnt_before(b, a);
}
rt_weak rt_uint64_t rt_clock_hrtimer_getres(void)
{
return rt_clock_time_get_event_res_scaled();
}
rt_weak unsigned long rt_clock_hrtimer_getfrq(void)
{
return (unsigned long)rt_clock_time_get_event_freq();
}
static rt_tick_t _hrtimer_cnt_to_tick(unsigned long cnt)
{
rt_uint64_t res = rt_clock_hrtimer_getres();
rt_uint64_t ns;
if (res == 0)
{
return 0;
}
ns = ((rt_uint64_t)cnt * res) / RT_CLOCK_TIME_RESMUL;
if (ns == 0)
{
return 1;
}
ns = (ns * RT_TICK_PER_SECOND + CLOCK_TIME_NSEC_PER_SEC - 1) / CLOCK_TIME_NSEC_PER_SEC;
if (ns == 0)
{
return 1;
}
return (rt_tick_t)ns;
}
rt_weak rt_err_t rt_clock_hrtimer_settimeout(unsigned long cnt)
{
static rt_timer_t timer = RT_NULL;
static struct rt_timer _sh_rtimer;
rt_tick_t tick;
RT_ASSERT(cnt > 0);
if (rt_clock_time_set_timeout(cnt) == RT_EOK)
{
return RT_EOK;
}
tick = _hrtimer_cnt_to_tick(cnt);
if (tick == 0)
{
return -RT_ERROR;
}
if (timer == RT_NULL)
{
timer = &_sh_rtimer;
rt_timer_init(timer, "shrtimer", (void (*)(void *))rt_clock_hrtimer_process, RT_NULL,
tick, RT_TIMER_FLAG_ONE_SHOT);
}
else
{
rt_timer_control(timer, RT_TIMER_CTRL_SET_TIME, &tick);
rt_timer_control(timer, RT_TIMER_CTRL_SET_PARM, RT_NULL);
}
if (timer->parent.flag & RT_TIMER_FLAG_ACTIVATED)
{
rt_timer_stop(timer);
}
rt_timer_start(timer);
return RT_EOK;
}
static unsigned long _cnt_convert(unsigned long cnt)
{
unsigned long count;
rt_uint64_t src_res;
rt_uint64_t event_res;
rt_uint64_t result;
count = cnt - _clock_time_get_cnt();
if (count > (_HRTIMER_MAX_CNT / 2))
{
return 0;
}
src_res = rt_clock_time_get_res_scaled();
event_res = rt_clock_hrtimer_getres();
if (src_res == 0 || event_res == 0)
{
return 0;
}
result = ((rt_uint64_t)count * src_res) / event_res;
return result == 0 ? 1 : (unsigned long)result;
}
static void _sleep_timeout(void *parameter)
{
struct rt_clock_hrtimer *timer = parameter;
rt_completion_done(&timer->completion);
}
static void _insert_timer_to_list_locked(rt_clock_hrtimer_t timer)
{
rt_clock_hrtimer_t iter;
rt_list_for_each_entry(iter, &_timer_list, node)
{
if (_cnt_before(timer->timeout_cnt, iter->timeout_cnt))
{
break;
}
}
rt_list_insert_before(&iter->node, &(timer->node));
timer->flag |= RT_TIMER_FLAG_ACTIVATED;
}
static void _hrtimer_process_locked(void)
{
rt_clock_hrtimer_t timer;
while ((timer = _first_hrtimer()) != RT_NULL)
{
unsigned long now = _clock_time_get_cnt();
if (_cnt_before(now, timer->timeout_cnt))
{
break;
}
rt_list_remove(&(timer->node));
if (timer->flag & RT_TIMER_FLAG_PERIODIC)
{
timer->timeout_cnt = timer->delay_cnt + now;
_insert_timer_to_list_locked(timer);
}
else
{
timer->flag &= ~RT_TIMER_FLAG_ACTIVATED;
}
if (timer->timeout_func)
{
timer->timeout_func(timer->parameter);
}
}
}
static void _set_next_timeout_locked(void)
{
rt_clock_hrtimer_t timer;
rt_ubase_t next_timeout_cnt;
rt_bool_t find_next;
do
{
find_next = RT_FALSE;
if ((timer = _first_hrtimer()) != RT_NULL)
{
next_timeout_cnt = _cnt_convert(timer->timeout_cnt);
if (next_timeout_cnt > 0)
{
rt_clock_hrtimer_settimeout(next_timeout_cnt);
}
else
{
_hrtimer_process_locked();
find_next = RT_TRUE;
}
}
}
while (find_next);
}
void rt_clock_hrtimer_process(void)
{
rt_base_t level = rt_spin_lock_irqsave(&_spinlock);
_hrtimer_process_locked();
_set_next_timeout_locked();
rt_spin_unlock_irqrestore(&_spinlock, level);
}
void rt_clock_hrtimer_init(rt_clock_hrtimer_t timer,
const char *name,
rt_uint8_t flag,
void (*timeout)(void *parameter),
void *parameter)
{
RT_ASSERT(timer != RT_NULL);
RT_ASSERT(timeout != RT_NULL);
rt_memset(timer, 0, sizeof(struct rt_clock_hrtimer));
timer->flag = flag & ~RT_TIMER_FLAG_ACTIVATED;
timer->timeout_func = timeout;
timer->parameter = parameter;
rt_strncpy(timer->name, name, RT_NAME_MAX - 1);
rt_list_init(&(timer->node));
rt_completion_init(&timer->completion);
}
rt_err_t rt_clock_hrtimer_start(rt_clock_hrtimer_t timer, unsigned long delay_cnt)
{
rt_base_t level;
RT_ASSERT(timer != RT_NULL);
RT_ASSERT(delay_cnt < (_HRTIMER_MAX_CNT / 2));
timer->delay_cnt = delay_cnt;
timer->timeout_cnt = timer->delay_cnt + _clock_time_get_cnt();
level = rt_spin_lock_irqsave(&_spinlock);
if (timer->flag & RT_TIMER_FLAG_ACTIVATED)
{
rt_spin_unlock_irqrestore(&_spinlock, level);
return -RT_ERROR;
}
_insert_timer_to_list_locked(timer);
_set_next_timeout_locked();
rt_spin_unlock_irqrestore(&_spinlock, level);
return RT_EOK;
}
rt_err_t rt_clock_hrtimer_stop(rt_clock_hrtimer_t timer)
{
rt_base_t level;
RT_ASSERT(timer != RT_NULL);
level = rt_spin_lock_irqsave(&_spinlock);
if (!(timer->flag & RT_TIMER_FLAG_ACTIVATED))
{
rt_spin_unlock_irqrestore(&_spinlock, level);
return -RT_ERROR;
}
rt_list_remove(&timer->node);
timer->flag &= ~RT_TIMER_FLAG_ACTIVATED;
_set_next_timeout_locked();
rt_spin_unlock_irqrestore(&_spinlock, level);
return RT_EOK;
}
rt_err_t rt_clock_hrtimer_control(rt_clock_hrtimer_t timer, int cmd, void *arg)
{
rt_base_t level;
RT_ASSERT(timer != RT_NULL);
level = rt_spin_lock_irqsave(&_spinlock);
switch (cmd)
{
case RT_TIMER_CTRL_GET_TIME:
*(unsigned long *)arg = timer->delay_cnt;
break;
case RT_TIMER_CTRL_SET_TIME:
RT_ASSERT((*(unsigned long *)arg) < (_HRTIMER_MAX_CNT / 2));
timer->delay_cnt = *(unsigned long *)arg;
timer->timeout_cnt = *(unsigned long *)arg + _clock_time_get_cnt();
break;
case RT_TIMER_CTRL_SET_ONESHOT:
timer->flag &= ~RT_TIMER_FLAG_PERIODIC;
break;
case RT_TIMER_CTRL_SET_PERIODIC:
timer->flag |= RT_TIMER_FLAG_PERIODIC;
break;
case RT_TIMER_CTRL_GET_STATE:
if (timer->flag & RT_TIMER_FLAG_ACTIVATED)
{
*(rt_uint32_t *)arg = RT_TIMER_FLAG_ACTIVATED;
}
else
{
*(rt_uint32_t *)arg = RT_TIMER_FLAG_DEACTIVATED;
}
break;
case RT_TIMER_CTRL_GET_REMAIN_TIME:
*(unsigned long *)arg = timer->timeout_cnt;
break;
case RT_TIMER_CTRL_GET_FUNC:
if (arg != RT_NULL)
{
*(void **)arg = (void *)timer->timeout_func;
}
break;
case RT_TIMER_CTRL_SET_FUNC:
timer->timeout_func = (void (*)(void *))arg;
break;
case RT_TIMER_CTRL_GET_PARM:
*(void **)arg = timer->parameter;
break;
case RT_TIMER_CTRL_SET_PARM:
timer->parameter = arg;
break;
default:
break;
}
rt_spin_unlock_irqrestore(&_spinlock, level);
return RT_EOK;
}
rt_err_t rt_clock_hrtimer_detach(rt_clock_hrtimer_t timer)
{
rt_base_t level;
RT_ASSERT(timer != RT_NULL);
rt_completion_wakeup_by_errno(&timer->completion, RT_ERROR);
level = rt_spin_lock_irqsave(&_spinlock);
timer->flag &= ~RT_TIMER_FLAG_ACTIVATED;
if (timer->error == -RT_EINTR || timer->error == RT_EINTR)
{
rt_list_remove(&timer->node);
_set_next_timeout_locked();
}
rt_spin_unlock_irqrestore(&_spinlock, level);
return RT_EOK;
}
void rt_clock_hrtimer_delay_init(struct rt_clock_hrtimer *timer)
{
rt_clock_hrtimer_init(timer, "hrtimer_sleep", RT_TIMER_FLAG_ONE_SHOT | RT_TIMER_FLAG_HARD_TIMER,
_sleep_timeout, timer);
}
void rt_clock_hrtimer_delay_detach(struct rt_clock_hrtimer *timer)
{
rt_clock_hrtimer_detach(timer);
}
rt_err_t rt_clock_hrtimer_sleep(struct rt_clock_hrtimer *timer, unsigned long cnt)
{
rt_err_t err;
if (cnt == 0)
{
return -RT_EINVAL;
}
err = rt_clock_hrtimer_start(timer, cnt);
if (err)
{
return err;
}
err = rt_completion_wait_flags(&(timer->completion), RT_WAITING_FOREVER,
RT_INTERRUPTIBLE);
rt_clock_hrtimer_keep_errno(timer, err);
return err;
}
rt_err_t rt_clock_hrtimer_ndelay(struct rt_clock_hrtimer *timer, unsigned long ns)
{
rt_uint64_t res = rt_clock_time_get_res_scaled();
if (res == 0)
{
return -RT_ERROR;
}
return rt_clock_hrtimer_sleep(timer, (ns * RT_CLOCK_TIME_RESMUL) / res);
}
rt_err_t rt_clock_hrtimer_udelay(struct rt_clock_hrtimer *timer, unsigned long us)
{
return rt_clock_hrtimer_ndelay(timer, us * 1000);
}
rt_err_t rt_clock_hrtimer_mdelay(struct rt_clock_hrtimer *timer, unsigned long ms)
{
return rt_clock_hrtimer_ndelay(timer, ms * 1000000);
}
void rt_clock_time_event_isr(void)
{
rt_clock_hrtimer_process();
}
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