/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2006-03-28 Bernard first version * 2006-04-29 Bernard implement thread timer * 2006-04-30 Bernard added THREAD_DEBUG * 2006-05-27 Bernard fixed the rt_thread_yield bug * 2006-06-03 Bernard fixed the thread timer init bug * 2006-08-10 Bernard fixed the timer bug in thread_sleep * 2006-09-03 Bernard changed rt_timer_delete to rt_timer_detach * 2006-09-03 Bernard implement rt_thread_detach * 2008-02-16 Bernard fixed the rt_thread_timeout bug * 2010-03-21 Bernard change the errno of rt_thread_delay/sleep to * RT_EOK. * 2010-11-10 Bernard add cleanup callback function in thread exit. * 2011-09-01 Bernard fixed rt_thread_exit issue when the current * thread preempted, which reported by Jiaxing Lee. * 2011-09-08 Bernard fixed the scheduling issue in rt_thread_startup. * 2012-12-29 Bernard fixed compiling warning. * 2016-08-09 ArdaFu add thread suspend and resume hook. * 2017-04-10 armink fixed the rt_thread_delete and rt_thread_detach * bug when thread has not startup. * 2018-11-22 Jesven yield is same to rt_schedule * add support for tasks bound to cpu * 2021-02-24 Meco Man rearrange rt_thread_control() - schedule the thread when close it * 2021-11-15 THEWON Remove duplicate work between idle and _thread_exit * 2021-12-27 Meco Man remove .init_priority * 2022-01-07 Gabriel Moving __on_rt_xxxxx_hook to thread.c * 2022-01-24 THEWON let rt_thread_sleep return thread->error when using signal */ #include #include #include #ifndef __on_rt_thread_inited_hook #define __on_rt_thread_inited_hook(thread) __ON_HOOK_ARGS(rt_thread_inited_hook, (thread)) #endif #ifndef __on_rt_thread_suspend_hook #define __on_rt_thread_suspend_hook(thread) __ON_HOOK_ARGS(rt_thread_suspend_hook, (thread)) #endif #ifndef __on_rt_thread_resume_hook #define __on_rt_thread_resume_hook(thread) __ON_HOOK_ARGS(rt_thread_resume_hook, (thread)) #endif #if defined(RT_USING_HOOK) && defined(RT_HOOK_USING_FUNC_PTR) static void (*rt_thread_suspend_hook)(rt_thread_t thread); static void (*rt_thread_resume_hook) (rt_thread_t thread); static void (*rt_thread_inited_hook) (rt_thread_t thread); /** * @brief This function sets a hook function when the system suspend a thread. * * @note The hook function must be simple and never be blocked or suspend. * * @param hook is the specified hook function. */ void rt_thread_suspend_sethook(void (*hook)(rt_thread_t thread)) { rt_thread_suspend_hook = hook; } /** * @brief This function sets a hook function when the system resume a thread. * * @note The hook function must be simple and never be blocked or suspend. * * @param hook is the specified hook function. */ void rt_thread_resume_sethook(void (*hook)(rt_thread_t thread)) { rt_thread_resume_hook = hook; } /** * @brief This function sets a hook function when a thread is initialized. * * @param hook is the specified hook function. */ void rt_thread_inited_sethook(void (*hook)(rt_thread_t thread)) { rt_thread_inited_hook = hook; } #endif /* RT_USING_HOOK */ static void _thread_exit(void) { struct rt_thread *thread; register rt_base_t level; /* get current thread */ thread = rt_thread_self(); /* disable interrupt */ level = rt_hw_interrupt_disable(); /* remove from schedule */ rt_schedule_remove_thread(thread); /* remove it from timer list */ rt_timer_detach(&thread->thread_timer); /* change stat */ thread->stat = RT_THREAD_CLOSE; /* insert to defunct thread list */ rt_thread_defunct_enqueue(thread); /* enable interrupt */ rt_hw_interrupt_enable(level); /* switch to next task */ rt_schedule(); } /** * @brief This function is the timeout function for thread, normally which is invoked * when thread is timeout to wait some resource. * * @param parameter is the parameter of thread timeout function */ static void _thread_timeout(void *parameter) { struct rt_thread *thread; register rt_base_t temp; thread = (struct rt_thread *)parameter; /* parameter check */ RT_ASSERT(thread != RT_NULL); RT_ASSERT((thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_SUSPEND); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); /* disable interrupt */ temp = rt_hw_interrupt_disable(); /* set error number */ thread->error = -RT_ETIMEOUT; /* remove from suspend list */ rt_list_remove(&(thread->tlist)); /* insert to schedule ready list */ rt_schedule_insert_thread(thread); /* enable interrupt */ rt_hw_interrupt_enable(temp); /* do schedule */ rt_schedule(); } static rt_err_t _thread_init(struct rt_thread *thread, const char *name, void (*entry)(void *parameter), void *parameter, void *stack_start, rt_uint32_t stack_size, rt_uint8_t priority, rt_uint32_t tick) { /* init thread list */ rt_list_init(&(thread->tlist)); thread->entry = (void *)entry; thread->parameter = parameter; /* stack init */ thread->stack_addr = stack_start; thread->stack_size = stack_size; /* init thread stack */ rt_memset(thread->stack_addr, '#', thread->stack_size); #ifdef ARCH_CPU_STACK_GROWS_UPWARD thread->sp = (void *)rt_hw_stack_init(thread->entry, thread->parameter, (void *)((char *)thread->stack_addr), (void *)_thread_exit); #else thread->sp = (void *)rt_hw_stack_init(thread->entry, thread->parameter, (rt_uint8_t *)((char *)thread->stack_addr + thread->stack_size - sizeof(rt_ubase_t)), (void *)_thread_exit); #endif /* ARCH_CPU_STACK_GROWS_UPWARD */ /* priority init */ RT_ASSERT(priority < RT_THREAD_PRIORITY_MAX); thread->current_priority = priority; thread->number_mask = 0; #if RT_THREAD_PRIORITY_MAX > 32 thread->number = 0; thread->high_mask = 0; #endif /* RT_THREAD_PRIORITY_MAX > 32 */ /* tick init */ thread->init_tick = tick; thread->remaining_tick = tick; /* error and flags */ thread->error = RT_EOK; thread->stat = RT_THREAD_INIT; #ifdef RT_USING_SMP /* not bind on any cpu */ thread->bind_cpu = RT_CPUS_NR; thread->oncpu = RT_CPU_DETACHED; /* lock init */ thread->scheduler_lock_nest = 0; thread->cpus_lock_nest = 0; thread->critical_lock_nest = 0; #endif /* RT_USING_SMP */ /* initialize cleanup function and user data */ thread->cleanup = 0; thread->user_data = 0; /* initialize thread timer */ rt_timer_init(&(thread->thread_timer), thread->name, _thread_timeout, thread, 0, RT_TIMER_FLAG_ONE_SHOT); /* initialize signal */ #ifdef RT_USING_SIGNALS thread->sig_mask = 0x00; thread->sig_pending = 0x00; #ifndef RT_USING_SMP thread->sig_ret = RT_NULL; #endif /* RT_USING_SMP */ thread->sig_vectors = RT_NULL; thread->si_list = RT_NULL; #endif /* RT_USING_SIGNALS */ #ifdef RT_USING_LWP thread->lwp = RT_NULL; #endif /* RT_USING_LWP */ #ifdef RT_USING_CPU_USAGE thread->duration_tick = 0; #endif RT_OBJECT_HOOK_CALL(rt_thread_inited_hook, (thread)); return RT_EOK; } /** * @addtogroup Thread */ /**@{*/ /** * @brief This function will initialize a thread. It's used to initialize a * static thread object. * * @param thread is the static thread object. * * @param name is the name of thread, which shall be unique. * * @param entry is the entry function of thread. * * @param parameter is the parameter of thread enter function. * * @param stack_start is the start address of thread stack. * * @param stack_size is the size of thread stack. * * @param priority is the priority of thread. * * @param tick is the time slice if there are same priority thread. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_init(struct rt_thread *thread, const char *name, void (*entry)(void *parameter), void *parameter, void *stack_start, rt_uint32_t stack_size, rt_uint8_t priority, rt_uint32_t tick) { /* parameter check */ RT_ASSERT(thread != RT_NULL); RT_ASSERT(stack_start != RT_NULL); /* initialize thread object */ rt_object_init((rt_object_t)thread, RT_Object_Class_Thread, name); return _thread_init(thread, name, entry, parameter, stack_start, stack_size, priority, tick); } RTM_EXPORT(rt_thread_init); /** * @brief This function will return self thread object. * * @return The self thread object. */ rt_thread_t rt_thread_self(void) { #ifdef RT_USING_SMP rt_base_t lock; rt_thread_t self; lock = rt_hw_local_irq_disable(); self = rt_cpu_self()->current_thread; rt_hw_local_irq_enable(lock); return self; #else extern rt_thread_t rt_current_thread; return rt_current_thread; #endif /* RT_USING_SMP */ } RTM_EXPORT(rt_thread_self); /** * @brief This function will start a thread and put it to system ready queue. * * @param thread is the thread to be started. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_startup(rt_thread_t thread) { /* parameter check */ RT_ASSERT(thread != RT_NULL); RT_ASSERT((thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_INIT); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); /* calculate priority attribute */ #if RT_THREAD_PRIORITY_MAX > 32 thread->number = thread->current_priority >> 3; /* 5bit */ thread->number_mask = 1L << thread->number; thread->high_mask = 1L << (thread->current_priority & 0x07); /* 3bit */ #else thread->number_mask = 1L << thread->current_priority; #endif /* RT_THREAD_PRIORITY_MAX > 32 */ RT_DEBUG_LOG(RT_DEBUG_THREAD, ("startup a thread:%s with priority:%d\n", thread->name, thread->current_priority)); /* change thread stat */ thread->stat = RT_THREAD_SUSPEND; /* then resume it */ rt_thread_resume(thread); if (rt_thread_self() != RT_NULL) { /* do a scheduling */ rt_schedule(); } return RT_EOK; } RTM_EXPORT(rt_thread_startup); /** * @brief This function will detach a thread. The thread object will be removed from * thread queue and detached/deleted from the system object management. * * @param thread is the thread to be deleted. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_detach(rt_thread_t thread) { rt_base_t lock; /* parameter check */ RT_ASSERT(thread != RT_NULL); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); RT_ASSERT(rt_object_is_systemobject((rt_object_t)thread)); if ((thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_CLOSE) return RT_EOK; if ((thread->stat & RT_THREAD_STAT_MASK) != RT_THREAD_INIT) { /* remove from schedule */ rt_schedule_remove_thread(thread); } /* disable interrupt */ lock = rt_hw_interrupt_disable(); /* release thread timer */ rt_timer_detach(&(thread->thread_timer)); /* change stat */ thread->stat = RT_THREAD_CLOSE; /* insert to defunct thread list */ rt_thread_defunct_enqueue(thread); /* enable interrupt */ rt_hw_interrupt_enable(lock); return RT_EOK; } RTM_EXPORT(rt_thread_detach); #ifdef RT_USING_HEAP /** * @brief This function will create a thread object and allocate thread object memory. * and stack. * * @param name is the name of thread, which shall be unique. * * @param entry is the entry function of thread. * * @param parameter is the parameter of thread enter function. * * @param stack_size is the size of thread stack. * * @param priority is the priority of thread. * * @param tick is the time slice if there are same priority thread. * * @return If the return value is a rt_thread structure pointer, the function is successfully executed. * If the return value is RT_NULL, it means this operation failed. */ rt_thread_t rt_thread_create(const char *name, void (*entry)(void *parameter), void *parameter, rt_uint32_t stack_size, rt_uint8_t priority, rt_uint32_t tick) { struct rt_thread *thread; void *stack_start; thread = (struct rt_thread *)rt_object_allocate(RT_Object_Class_Thread, name); if (thread == RT_NULL) return RT_NULL; stack_start = (void *)RT_KERNEL_MALLOC(stack_size); if (stack_start == RT_NULL) { /* allocate stack failure */ rt_object_delete((rt_object_t)thread); return RT_NULL; } _thread_init(thread, name, entry, parameter, stack_start, stack_size, priority, tick); return thread; } RTM_EXPORT(rt_thread_create); /** * @brief This function will delete a thread. The thread object will be removed from * thread queue and deleted from system object management in the idle thread. * * @param thread is the thread to be deleted. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_delete(rt_thread_t thread) { rt_base_t lock; /* parameter check */ RT_ASSERT(thread != RT_NULL); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); RT_ASSERT(rt_object_is_systemobject((rt_object_t)thread) == RT_FALSE); if ((thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_CLOSE) return RT_EOK; if ((thread->stat & RT_THREAD_STAT_MASK) != RT_THREAD_INIT) { /* remove from schedule */ rt_schedule_remove_thread(thread); } /* disable interrupt */ lock = rt_hw_interrupt_disable(); /* release thread timer */ rt_timer_detach(&(thread->thread_timer)); /* change stat */ thread->stat = RT_THREAD_CLOSE; /* insert to defunct thread list */ rt_thread_defunct_enqueue(thread); /* enable interrupt */ rt_hw_interrupt_enable(lock); return RT_EOK; } RTM_EXPORT(rt_thread_delete); #endif /* RT_USING_HEAP */ /** * @brief This function will let current thread yield processor, and scheduler will * choose the highest thread to run. After yield processor, the current thread * is still in READY state. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_yield(void) { struct rt_thread *thread; rt_base_t lock; thread = rt_thread_self(); lock = rt_hw_interrupt_disable(); thread->remaining_tick = thread->init_tick; thread->stat |= RT_THREAD_STAT_YIELD; rt_schedule(); rt_hw_interrupt_enable(lock); return RT_EOK; } RTM_EXPORT(rt_thread_yield); /** * @brief This function will let current thread sleep for some ticks. Change current thread state to suspend, * when the thread timer reaches the tick value, scheduler will awaken this thread. * * @param tick is the sleep ticks. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_sleep(rt_tick_t tick) { register rt_base_t temp; struct rt_thread *thread; /* set to current thread */ thread = rt_thread_self(); RT_ASSERT(thread != RT_NULL); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); /* disable interrupt */ temp = rt_hw_interrupt_disable(); /* reset thread error */ thread->error = RT_EOK; /* suspend thread */ rt_thread_suspend(thread); /* reset the timeout of thread timer and start it */ rt_timer_control(&(thread->thread_timer), RT_TIMER_CTRL_SET_TIME, &tick); rt_timer_start(&(thread->thread_timer)); /* enable interrupt */ rt_hw_interrupt_enable(temp); rt_schedule(); /* clear error number of this thread to RT_EOK */ if (thread->error == -RT_ETIMEOUT) thread->error = RT_EOK; return thread->error; } /** * @brief This function will let current thread delay for some ticks. * * @param tick is the delay ticks. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_delay(rt_tick_t tick) { return rt_thread_sleep(tick); } RTM_EXPORT(rt_thread_delay); /** * @brief This function will let current thread delay until (*tick + inc_tick). * * @param tick is the tick of last wakeup. * * @param inc_tick is the increment tick. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_delay_until(rt_tick_t *tick, rt_tick_t inc_tick) { register rt_base_t level; struct rt_thread *thread; rt_tick_t cur_tick; RT_ASSERT(tick != RT_NULL); /* set to current thread */ thread = rt_thread_self(); RT_ASSERT(thread != RT_NULL); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); /* disable interrupt */ level = rt_hw_interrupt_disable(); /* reset thread error */ thread->error = RT_EOK; cur_tick = rt_tick_get(); if (cur_tick - *tick < inc_tick) { rt_tick_t left_tick; *tick += inc_tick; left_tick = *tick - cur_tick; /* suspend thread */ rt_thread_suspend(thread); /* reset the timeout of thread timer and start it */ rt_timer_control(&(thread->thread_timer), RT_TIMER_CTRL_SET_TIME, &left_tick); rt_timer_start(&(thread->thread_timer)); /* enable interrupt */ rt_hw_interrupt_enable(level); rt_schedule(); /* clear error number of this thread to RT_EOK */ if (thread->error == -RT_ETIMEOUT) { thread->error = RT_EOK; } } else { *tick = cur_tick; rt_hw_interrupt_enable(level); } return thread->error; } RTM_EXPORT(rt_thread_delay_until); /** * @brief This function will let current thread delay for some milliseconds. * * @param ms is the delay ms time. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_mdelay(rt_int32_t ms) { rt_tick_t tick; tick = rt_tick_from_millisecond(ms); return rt_thread_sleep(tick); } RTM_EXPORT(rt_thread_mdelay); /** * @brief This function will control thread behaviors according to control command. * * @param thread is the specified thread to be controlled. * * @param cmd is the control command, which includes. * * RT_THREAD_CTRL_CHANGE_PRIORITY for changing priority level of thread. * * RT_THREAD_CTRL_STARTUP for starting a thread. * * RT_THREAD_CTRL_CLOSE for delete a thread. * * RT_THREAD_CTRL_BIND_CPU for bind the thread to a CPU. * * @param arg is the argument of control command. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_control(rt_thread_t thread, int cmd, void *arg) { register rt_base_t temp; /* parameter check */ RT_ASSERT(thread != RT_NULL); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); switch (cmd) { case RT_THREAD_CTRL_CHANGE_PRIORITY: { /* disable interrupt */ temp = rt_hw_interrupt_disable(); /* for ready thread, change queue */ if ((thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_READY) { /* remove thread from schedule queue first */ rt_schedule_remove_thread(thread); /* change thread priority */ thread->current_priority = *(rt_uint8_t *)arg; /* recalculate priority attribute */ #if RT_THREAD_PRIORITY_MAX > 32 thread->number = thread->current_priority >> 3; /* 5bit */ thread->number_mask = 1 << thread->number; thread->high_mask = 1 << (thread->current_priority & 0x07); /* 3bit */ #else thread->number_mask = 1 << thread->current_priority; #endif /* RT_THREAD_PRIORITY_MAX > 32 */ /* insert thread to schedule queue again */ rt_schedule_insert_thread(thread); } else { thread->current_priority = *(rt_uint8_t *)arg; /* recalculate priority attribute */ #if RT_THREAD_PRIORITY_MAX > 32 thread->number = thread->current_priority >> 3; /* 5bit */ thread->number_mask = 1 << thread->number; thread->high_mask = 1 << (thread->current_priority & 0x07); /* 3bit */ #else thread->number_mask = 1 << thread->current_priority; #endif /* RT_THREAD_PRIORITY_MAX > 32 */ } /* enable interrupt */ rt_hw_interrupt_enable(temp); break; } case RT_THREAD_CTRL_STARTUP: { return rt_thread_startup(thread); } case RT_THREAD_CTRL_CLOSE: { rt_err_t rt_err; if (rt_object_is_systemobject((rt_object_t)thread) == RT_TRUE) { rt_err = rt_thread_detach(thread); } #ifdef RT_USING_HEAP else { rt_err = rt_thread_delete(thread); } #endif /* RT_USING_HEAP */ rt_schedule(); return rt_err; } #ifdef RT_USING_SMP case RT_THREAD_CTRL_BIND_CPU: { rt_uint8_t cpu; if ((thread->stat & RT_THREAD_STAT_MASK) != RT_THREAD_INIT) { /* we only support bind cpu before started phase. */ return RT_ERROR; } cpu = (rt_uint8_t)(rt_size_t)arg; thread->bind_cpu = cpu > RT_CPUS_NR? RT_CPUS_NR : cpu; break; } #endif /* RT_USING_SMP */ default: break; } return RT_EOK; } RTM_EXPORT(rt_thread_control); /** * @brief This function will suspend the specified thread and change it to suspend state. * * @note This function ONLY can suspend current thread itself. * Do not use the rt_thread_suspend and rt_thread_resume functions to synchronize the activities of threads. * You have no way of knowing what code a thread is executing when you suspend it. * If you suspend a thread while it is executing a critical area which is protected by a mutex, * other threads attempt to use that mutex and have to wait. Deadlocks can occur very easily. * * @param thread is the thread to be suspended. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_suspend(rt_thread_t thread) { register rt_base_t stat; register rt_base_t temp; /* parameter check */ RT_ASSERT(thread != RT_NULL); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); RT_ASSERT(thread == rt_thread_self()); RT_DEBUG_LOG(RT_DEBUG_THREAD, ("thread suspend: %s\n", thread->name)); stat = thread->stat & RT_THREAD_STAT_MASK; if ((stat != RT_THREAD_READY) && (stat != RT_THREAD_RUNNING)) { RT_DEBUG_LOG(RT_DEBUG_THREAD, ("thread suspend: thread disorder, 0x%2x\n", thread->stat)); return -RT_ERROR; } /* disable interrupt */ temp = rt_hw_interrupt_disable(); /* change thread stat */ rt_schedule_remove_thread(thread); thread->stat = RT_THREAD_SUSPEND | (thread->stat & ~RT_THREAD_STAT_MASK); /* stop thread timer anyway */ rt_timer_stop(&(thread->thread_timer)); /* enable interrupt */ rt_hw_interrupt_enable(temp); RT_OBJECT_HOOK_CALL(rt_thread_suspend_hook, (thread)); return RT_EOK; } RTM_EXPORT(rt_thread_suspend); /** * @brief This function will resume a thread and put it to system ready queue. * * @note Do not use the rt_thread_suspend and rt_thread_resume functions to synchronize the activities of threads. * * @param thread is the thread to be resumed. * * @return Return the operation status. If the return value is RT_EOK, the function is successfully executed. * If the return value is any other values, it means this operation failed. */ rt_err_t rt_thread_resume(rt_thread_t thread) { register rt_base_t temp; /* parameter check */ RT_ASSERT(thread != RT_NULL); RT_ASSERT(rt_object_get_type((rt_object_t)thread) == RT_Object_Class_Thread); RT_DEBUG_LOG(RT_DEBUG_THREAD, ("thread resume: %s\n", thread->name)); if ((thread->stat & RT_THREAD_STAT_MASK) != RT_THREAD_SUSPEND) { RT_DEBUG_LOG(RT_DEBUG_THREAD, ("thread resume: thread disorder, %d\n", thread->stat)); return -RT_ERROR; } /* disable interrupt */ temp = rt_hw_interrupt_disable(); /* remove from suspend list */ rt_list_remove(&(thread->tlist)); rt_timer_stop(&thread->thread_timer); /* insert to schedule ready list */ rt_schedule_insert_thread(thread); /* enable interrupt */ rt_hw_interrupt_enable(temp); RT_OBJECT_HOOK_CALL(rt_thread_resume_hook, (thread)); return RT_EOK; } RTM_EXPORT(rt_thread_resume); /** * @brief This function will find the specified thread. * * @note Please don't invoke this function in interrupt status. * * @param name is the name of thread finding. * * @return If the return value is a rt_thread structure pointer, the function is successfully executed. * If the return value is RT_NULL, it means this operation failed. */ rt_thread_t rt_thread_find(char *name) { return (rt_thread_t)rt_object_find(name, RT_Object_Class_Thread); } RTM_EXPORT(rt_thread_find); /**@}*/