/* * File : timer.c * This file is part of RT-Thread RTOS * COPYRIGHT (C) 2006 - 2012, RT-Thread Development Team * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * Change Logs: * Date Author Notes * 2006-03-12 Bernard first version * 2006-04-29 Bernard implement thread timer * 2006-06-04 Bernard implement rt_timer_control * 2006-08-10 Bernard fix the periodic timer bug * 2006-09-03 Bernard implement rt_timer_detach * 2009-11-11 LiJin add soft timer * 2010-05-12 Bernard fix the timer check bug. * 2010-11-02 Charlie re-implement tick overflow issue * 2012-12-15 Bernard fix the next timeout issue in soft timer * 2014-07-12 Bernard does not lock scheduler when invoking soft-timer * timeout function. */ #include #include /* hard timer list */ static rt_list_t rt_timer_list[RT_TIMER_SKIP_LIST_LEVEL]; #ifdef RT_USING_TIMER_SOFT #ifndef RT_TIMER_THREAD_STACK_SIZE #define RT_TIMER_THREAD_STACK_SIZE 512 #endif #ifndef RT_TIMER_THREAD_PRIO #define RT_TIMER_THREAD_PRIO 0 #endif /* soft timer list */ static rt_list_t rt_soft_timer_list[RT_TIMER_SKIP_LIST_LEVEL]; static struct rt_thread timer_thread; ALIGN(RT_ALIGN_SIZE) static rt_uint8_t timer_thread_stack[RT_TIMER_THREAD_STACK_SIZE]; #endif #ifdef RT_USING_HOOK extern void (*rt_object_take_hook)(struct rt_object *object); extern void (*rt_object_put_hook)(struct rt_object *object); static void (*rt_timer_timeout_hook)(struct rt_timer *timer); /** * @addtogroup Hook */ /**@{*/ /** * This function will set a hook function, which will be invoked when timer * is timeout. * * @param hook the hook function */ void rt_timer_timeout_sethook(void (*hook)(struct rt_timer *timer)) { rt_timer_timeout_hook = hook; } /**@}*/ #endif static void _rt_timer_init(rt_timer_t timer, void (*timeout)(void *parameter), void *parameter, rt_tick_t time, rt_uint8_t flag) { int i; /* set flag */ timer->parent.flag = flag; /* set deactivated */ timer->parent.flag &= ~RT_TIMER_FLAG_ACTIVATED; timer->timeout_func = timeout; timer->parameter = parameter; timer->timeout_tick = 0; timer->init_tick = time; /* initialize timer list */ for (i = 0; i < RT_TIMER_SKIP_LIST_LEVEL; i++) { rt_list_init(&(timer->row[i])); } } /* the fist timer always in the last row */ static rt_tick_t rt_timer_list_next_timeout(rt_list_t timer_list[]) { struct rt_timer *timer; if (rt_list_isempty(&timer_list[RT_TIMER_SKIP_LIST_LEVEL - 1])) return RT_TICK_MAX; timer = rt_list_entry(timer_list[RT_TIMER_SKIP_LIST_LEVEL - 1].next, struct rt_timer, row[RT_TIMER_SKIP_LIST_LEVEL - 1]); return timer->timeout_tick; } rt_inline void _rt_timer_remove(rt_timer_t timer) { int i; for (i = 0; i < RT_TIMER_SKIP_LIST_LEVEL; i++) { rt_list_remove(&timer->row[i]); } } #if RT_DEBUG_TIMER static int rt_timer_count_height(struct rt_timer *timer) { int i, cnt = 0; for (i = 0; i < RT_TIMER_SKIP_LIST_LEVEL; i++) { if (!rt_list_isempty(&timer->row[i])) cnt++; } return cnt; } void rt_timer_dump(rt_list_t timer_heads[]) { rt_list_t *list; for (list = timer_heads[RT_TIMER_SKIP_LIST_LEVEL - 1].next; list != &timer_heads[RT_TIMER_SKIP_LIST_LEVEL - 1]; list = list->next) { struct rt_timer *timer = rt_list_entry(list, struct rt_timer, row[RT_TIMER_SKIP_LIST_LEVEL - 1]); rt_kprintf("%d", rt_timer_count_height(timer)); } rt_kprintf("\n"); } #endif /** * @addtogroup Clock */ /**@{*/ /** * This function will initialize a timer, normally this function is used to * initialize a static timer object. * * @param timer the static timer object * @param name the name of timer * @param timeout the timeout function * @param parameter the parameter of timeout function * @param time the tick of timer * @param flag the flag of timer */ void rt_timer_init(rt_timer_t timer, const char *name, void (*timeout)(void *parameter), void *parameter, rt_tick_t time, rt_uint8_t flag) { /* timer check */ RT_ASSERT(timer != RT_NULL); /* timer object initialization */ rt_object_init((rt_object_t)timer, RT_Object_Class_Timer, name); _rt_timer_init(timer, timeout, parameter, time, flag); } RTM_EXPORT(rt_timer_init); /** * This function will detach a timer from timer management. * * @param timer the static timer object * * @return the operation status, RT_EOK on OK; RT_ERROR on error */ rt_err_t rt_timer_detach(rt_timer_t timer) { register rt_base_t level; /* timer check */ RT_ASSERT(timer != RT_NULL); RT_ASSERT(rt_object_get_type(&timer->parent) == RT_Object_Class_Timer); RT_ASSERT(rt_object_is_systemobject(&timer->parent)); /* disable interrupt */ level = rt_hw_interrupt_disable(); _rt_timer_remove(timer); /* enable interrupt */ rt_hw_interrupt_enable(level); rt_object_detach((rt_object_t)timer); return RT_EOK; } RTM_EXPORT(rt_timer_detach); #ifdef RT_USING_HEAP /** * This function will create a timer * * @param name the name of timer * @param timeout the timeout function * @param parameter the parameter of timeout function * @param time the tick of timer * @param flag the flag of timer * * @return the created timer object */ rt_timer_t rt_timer_create(const char *name, void (*timeout)(void *parameter), void *parameter, rt_tick_t time, rt_uint8_t flag) { struct rt_timer *timer; /* allocate a object */ timer = (struct rt_timer *)rt_object_allocate(RT_Object_Class_Timer, name); if (timer == RT_NULL) { return RT_NULL; } _rt_timer_init(timer, timeout, parameter, time, flag); return timer; } RTM_EXPORT(rt_timer_create); /** * This function will delete a timer and release timer memory * * @param timer the timer to be deleted * * @return the operation status, RT_EOK on OK; RT_ERROR on error */ rt_err_t rt_timer_delete(rt_timer_t timer) { register rt_base_t level; /* timer check */ RT_ASSERT(timer != RT_NULL); RT_ASSERT(rt_object_get_type(&timer->parent) == RT_Object_Class_Timer); RT_ASSERT(rt_object_is_systemobject(&timer->parent) == RT_FALSE); /* disable interrupt */ level = rt_hw_interrupt_disable(); _rt_timer_remove(timer); /* enable interrupt */ rt_hw_interrupt_enable(level); rt_object_delete((rt_object_t)timer); return RT_EOK; } RTM_EXPORT(rt_timer_delete); #endif /** * This function will start the timer * * @param timer the timer to be started * * @return the operation status, RT_EOK on OK, -RT_ERROR on error */ rt_err_t rt_timer_start(rt_timer_t timer) { unsigned int row_lvl; rt_list_t *timer_list; register rt_base_t level; rt_list_t *row_head[RT_TIMER_SKIP_LIST_LEVEL]; unsigned int tst_nr; static unsigned int random_nr; /* timer check */ RT_ASSERT(timer != RT_NULL); RT_ASSERT(rt_object_get_type(&timer->parent) == RT_Object_Class_Timer); /* stop timer firstly */ level = rt_hw_interrupt_disable(); /* remove timer from list */ _rt_timer_remove(timer); /* change status of timer */ timer->parent.flag &= ~RT_TIMER_FLAG_ACTIVATED; rt_hw_interrupt_enable(level); RT_OBJECT_HOOK_CALL(rt_object_take_hook, (&(timer->parent))); /* * get timeout tick, * the max timeout tick shall not great than RT_TICK_MAX/2 */ RT_ASSERT(timer->init_tick < RT_TICK_MAX / 2); timer->timeout_tick = rt_tick_get() + timer->init_tick; /* disable interrupt */ level = rt_hw_interrupt_disable(); #ifdef RT_USING_TIMER_SOFT if (timer->parent.flag & RT_TIMER_FLAG_SOFT_TIMER) { /* insert timer to soft timer list */ timer_list = rt_soft_timer_list; } else #endif { /* insert timer to system timer list */ timer_list = rt_timer_list; } row_head[0] = &timer_list[0]; for (row_lvl = 0; row_lvl < RT_TIMER_SKIP_LIST_LEVEL; row_lvl++) { for (; row_head[row_lvl] != timer_list[row_lvl].prev; row_head[row_lvl] = row_head[row_lvl]->next) { struct rt_timer *t; rt_list_t *p = row_head[row_lvl]->next; /* fix up the entry pointer */ t = rt_list_entry(p, struct rt_timer, row[row_lvl]); /* If we have two timers that timeout at the same time, it's * preferred that the timer inserted early get called early. * So insert the new timer to the end the the some-timeout timer * list. */ if ((t->timeout_tick - timer->timeout_tick) == 0) { continue; } else if ((t->timeout_tick - timer->timeout_tick) < RT_TICK_MAX / 2) { break; } } if (row_lvl != RT_TIMER_SKIP_LIST_LEVEL - 1) row_head[row_lvl + 1] = row_head[row_lvl] + 1; } /* Interestingly, this super simple timer insert counter works very very * well on distributing the list height uniformly. By means of "very very * well", I mean it beats the randomness of timer->timeout_tick very easily * (actually, the timeout_tick is not random and easy to be attacked). */ random_nr++; tst_nr = random_nr; rt_list_insert_after(row_head[RT_TIMER_SKIP_LIST_LEVEL - 1], &(timer->row[RT_TIMER_SKIP_LIST_LEVEL - 1])); for (row_lvl = 2; row_lvl <= RT_TIMER_SKIP_LIST_LEVEL; row_lvl++) { if (!(tst_nr & RT_TIMER_SKIP_LIST_MASK)) rt_list_insert_after(row_head[RT_TIMER_SKIP_LIST_LEVEL - row_lvl], &(timer->row[RT_TIMER_SKIP_LIST_LEVEL - row_lvl])); else break; /* Shift over the bits we have tested. Works well with 1 bit and 2 * bits. */ tst_nr >>= (RT_TIMER_SKIP_LIST_MASK + 1) >> 1; } timer->parent.flag |= RT_TIMER_FLAG_ACTIVATED; /* enable interrupt */ rt_hw_interrupt_enable(level); #ifdef RT_USING_TIMER_SOFT if (timer->parent.flag & RT_TIMER_FLAG_SOFT_TIMER) { /* check whether timer thread is ready */ if ((timer_thread.stat & RT_THREAD_STAT_MASK) != RT_THREAD_READY) { /* resume timer thread to check soft timer */ rt_thread_resume(&timer_thread); rt_schedule(); } } #endif return RT_EOK; } RTM_EXPORT(rt_timer_start); /** * This function will stop the timer * * @param timer the timer to be stopped * * @return the operation status, RT_EOK on OK, -RT_ERROR on error */ rt_err_t rt_timer_stop(rt_timer_t timer) { register rt_base_t level; /* timer check */ RT_ASSERT(timer != RT_NULL); RT_ASSERT(rt_object_get_type(&timer->parent) == RT_Object_Class_Timer); if (!(timer->parent.flag & RT_TIMER_FLAG_ACTIVATED)) return -RT_ERROR; RT_OBJECT_HOOK_CALL(rt_object_put_hook, (&(timer->parent))); /* disable interrupt */ level = rt_hw_interrupt_disable(); _rt_timer_remove(timer); /* enable interrupt */ rt_hw_interrupt_enable(level); /* change stat */ timer->parent.flag &= ~RT_TIMER_FLAG_ACTIVATED; return RT_EOK; } RTM_EXPORT(rt_timer_stop); /** * This function will get or set some options of the timer * * @param timer the timer to be get or set * @param cmd the control command * @param arg the argument * * @return RT_EOK */ rt_err_t rt_timer_control(rt_timer_t timer, int cmd, void *arg) { /* timer check */ RT_ASSERT(timer != RT_NULL); RT_ASSERT(rt_object_get_type(&timer->parent) == RT_Object_Class_Timer); switch (cmd) { case RT_TIMER_CTRL_GET_TIME: *(rt_tick_t *)arg = timer->init_tick; break; case RT_TIMER_CTRL_SET_TIME: timer->init_tick = *(rt_tick_t *)arg; break; case RT_TIMER_CTRL_SET_ONESHOT: timer->parent.flag &= ~RT_TIMER_FLAG_PERIODIC; break; case RT_TIMER_CTRL_SET_PERIODIC: timer->parent.flag |= RT_TIMER_FLAG_PERIODIC; break; } return RT_EOK; } RTM_EXPORT(rt_timer_control); /** * This function will check timer list, if a timeout event happens, the * corresponding timeout function will be invoked. * * @note this function shall be invoked in operating system timer interrupt. */ void rt_timer_check(void) { struct rt_timer *t; rt_tick_t current_tick; register rt_base_t level; RT_DEBUG_LOG(RT_DEBUG_TIMER, ("timer check enter\n")); current_tick = rt_tick_get(); /* disable interrupt */ level = rt_hw_interrupt_disable(); while (!rt_list_isempty(&rt_timer_list[RT_TIMER_SKIP_LIST_LEVEL - 1])) { t = rt_list_entry(rt_timer_list[RT_TIMER_SKIP_LIST_LEVEL - 1].next, struct rt_timer, row[RT_TIMER_SKIP_LIST_LEVEL - 1]); /* * It supposes that the new tick shall less than the half duration of * tick max. */ if ((current_tick - t->timeout_tick) < RT_TICK_MAX / 2) { RT_OBJECT_HOOK_CALL(rt_timer_timeout_hook, (t)); /* remove timer from timer list firstly */ _rt_timer_remove(t); /* call timeout function */ t->timeout_func(t->parameter); /* re-get tick */ current_tick = rt_tick_get(); RT_DEBUG_LOG(RT_DEBUG_TIMER, ("current tick: %d\n", current_tick)); if ((t->parent.flag & RT_TIMER_FLAG_PERIODIC) && (t->parent.flag & RT_TIMER_FLAG_ACTIVATED)) { /* start it */ t->parent.flag &= ~RT_TIMER_FLAG_ACTIVATED; rt_timer_start(t); } else { /* stop timer */ t->parent.flag &= ~RT_TIMER_FLAG_ACTIVATED; } } else break; } /* enable interrupt */ rt_hw_interrupt_enable(level); RT_DEBUG_LOG(RT_DEBUG_TIMER, ("timer check leave\n")); } /** * This function will return the next timeout tick in the system. * * @return the next timeout tick in the system */ rt_tick_t rt_timer_next_timeout_tick(void) { return rt_timer_list_next_timeout(rt_timer_list); } #ifdef RT_USING_TIMER_SOFT /** * This function will check timer list, if a timeout event happens, the * corresponding timeout function will be invoked. */ void rt_soft_timer_check(void) { rt_tick_t current_tick; rt_list_t *n; struct rt_timer *t; RT_DEBUG_LOG(RT_DEBUG_TIMER, ("software timer check enter\n")); current_tick = rt_tick_get(); /* lock scheduler */ rt_enter_critical(); for (n = rt_soft_timer_list[RT_TIMER_SKIP_LIST_LEVEL - 1].next; n != &(rt_soft_timer_list[RT_TIMER_SKIP_LIST_LEVEL - 1]);) { t = rt_list_entry(n, struct rt_timer, row[RT_TIMER_SKIP_LIST_LEVEL - 1]); /* * It supposes that the new tick shall less than the half duration of * tick max. */ if ((current_tick - t->timeout_tick) < RT_TICK_MAX / 2) { RT_OBJECT_HOOK_CALL(rt_timer_timeout_hook, (t)); /* move node to the next */ n = n->next; /* remove timer from timer list firstly */ _rt_timer_remove(t); /* not lock scheduler when performing timeout function */ rt_exit_critical(); /* call timeout function */ t->timeout_func(t->parameter); /* re-get tick */ current_tick = rt_tick_get(); RT_DEBUG_LOG(RT_DEBUG_TIMER, ("current tick: %d\n", current_tick)); /* lock scheduler */ rt_enter_critical(); if ((t->parent.flag & RT_TIMER_FLAG_PERIODIC) && (t->parent.flag & RT_TIMER_FLAG_ACTIVATED)) { /* start it */ t->parent.flag &= ~RT_TIMER_FLAG_ACTIVATED; rt_timer_start(t); } else { /* stop timer */ t->parent.flag &= ~RT_TIMER_FLAG_ACTIVATED; } } else break; /* not check anymore */ } /* unlock scheduler */ rt_exit_critical(); RT_DEBUG_LOG(RT_DEBUG_TIMER, ("software timer check leave\n")); } /* system timer thread entry */ static void rt_thread_timer_entry(void *parameter) { rt_tick_t next_timeout; while (1) { /* get the next timeout tick */ next_timeout = rt_timer_list_next_timeout(rt_soft_timer_list); if (next_timeout == RT_TICK_MAX) { /* no software timer exist, suspend self. */ rt_thread_suspend(rt_thread_self()); rt_schedule(); } else { rt_tick_t current_tick; /* get current tick */ current_tick = rt_tick_get(); if ((next_timeout - current_tick) < RT_TICK_MAX / 2) { /* get the delta timeout tick */ next_timeout = next_timeout - current_tick; rt_thread_delay(next_timeout); } } /* check software timer */ rt_soft_timer_check(); } } #endif /** * @ingroup SystemInit * * This function will initialize system timer */ void rt_system_timer_init(void) { int i; for (i = 0; i < sizeof(rt_timer_list) / sizeof(rt_timer_list[0]); i++) { rt_list_init(rt_timer_list + i); } } /** * @ingroup SystemInit * * This function will initialize system timer thread */ void rt_system_timer_thread_init(void) { #ifdef RT_USING_TIMER_SOFT int i; for (i = 0; i < sizeof(rt_soft_timer_list) / sizeof(rt_soft_timer_list[0]); i++) { rt_list_init(rt_soft_timer_list + i); } /* start software timer thread */ rt_thread_init(&timer_thread, "timer", rt_thread_timer_entry, RT_NULL, &timer_thread_stack[0], sizeof(timer_thread_stack), RT_TIMER_THREAD_PRIO, 10); /* startup */ rt_thread_startup(&timer_thread); #endif } /**@}*/