/* * Copyright (c) 2006-2022, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2017-02-27 Bernard fix the re-work issue. * 2021-08-01 Meco Man remove rt_delayed_work_init() * 2021-08-14 Jackistang add comments for function interface * 2022-01-16 Meco Man add rt_work_urgent() */ #include #include #include #ifdef RT_USING_HEAP static void _delayed_work_timeout_handler(void *parameter); rt_inline rt_err_t _workqueue_work_completion(struct rt_workqueue *queue) { rt_err_t result; rt_enter_critical(); while (1) { /* try to take condition semaphore */ result = rt_sem_trytake(&(queue->sem)); if (result == -RT_ETIMEOUT) { /* it's timeout, release this semaphore */ rt_sem_release(&(queue->sem)); } else if (result == RT_EOK) { /* keep the sem value = 0 */ result = RT_EOK; break; } else { result = -RT_ERROR; break; } } rt_exit_critical(); return result; } static void _workqueue_thread_entry(void *parameter) { rt_base_t level; struct rt_work *work; struct rt_workqueue *queue; queue = (struct rt_workqueue *) parameter; RT_ASSERT(queue != RT_NULL); while (1) { level = rt_hw_interrupt_disable(); if (rt_list_isempty(&(queue->work_list))) { /* no software timer exist, suspend self. */ rt_thread_suspend(rt_thread_self()); rt_hw_interrupt_enable(level); rt_schedule(); continue; } /* we have work to do with. */ work = rt_list_entry(queue->work_list.next, struct rt_work, list); rt_list_remove(&(work->list)); queue->work_current = work; work->flags &= ~RT_WORK_STATE_PENDING; work->workqueue = RT_NULL; rt_hw_interrupt_enable(level); /* do work */ work->work_func(work, work->work_data); /* clean current work */ queue->work_current = RT_NULL; /* ack work completion */ _workqueue_work_completion(queue); } } static rt_err_t _workqueue_submit_work(struct rt_workqueue *queue, struct rt_work *work, rt_tick_t ticks) { rt_base_t level; rt_err_t err; level = rt_hw_interrupt_disable(); /* remove list */ rt_list_remove(&(work->list)); work->flags &= ~RT_WORK_STATE_PENDING; if (ticks == 0) { if (queue->work_current != work) { rt_list_insert_after(queue->work_list.prev, &(work->list)); work->flags |= RT_WORK_STATE_PENDING; work->workqueue = queue; err = RT_EOK; } else { err = -RT_EBUSY; } /* whether the workqueue is doing work */ if (queue->work_current == RT_NULL && ((queue->work_thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_SUSPEND)) { /* resume work thread */ rt_thread_resume(queue->work_thread); rt_hw_interrupt_enable(level); rt_schedule(); } else { rt_hw_interrupt_enable(level); } return err; } else if (ticks < RT_TICK_MAX / 2) { /* Timer started */ if (work->flags & RT_WORK_STATE_SUBMITTING) { rt_timer_stop(&work->timer); rt_timer_control(&work->timer, RT_TIMER_CTRL_SET_TIME, &ticks); } else { rt_timer_init(&(work->timer), "work", _delayed_work_timeout_handler, work, ticks, RT_TIMER_FLAG_ONE_SHOT | RT_TIMER_FLAG_SOFT_TIMER); work->flags |= RT_WORK_STATE_SUBMITTING; } work->workqueue = queue; /* insert delay work list */ rt_list_insert_after(queue->delayed_list.prev, &(work->list)); rt_hw_interrupt_enable(level); rt_timer_start(&(work->timer)); return RT_EOK; } rt_hw_interrupt_enable(level); return -RT_ERROR; } static rt_err_t _workqueue_cancel_work(struct rt_workqueue *queue, struct rt_work *work) { rt_base_t level; rt_err_t err; level = rt_hw_interrupt_disable(); rt_list_remove(&(work->list)); work->flags &= ~RT_WORK_STATE_PENDING; /* Timer started */ if (work->flags & RT_WORK_STATE_SUBMITTING) { rt_timer_stop(&(work->timer)); rt_timer_detach(&(work->timer)); work->flags &= ~RT_WORK_STATE_SUBMITTING; } err = queue->work_current != work ? RT_EOK : -RT_EBUSY; work->workqueue = RT_NULL; rt_hw_interrupt_enable(level); return err; } static void _delayed_work_timeout_handler(void *parameter) { struct rt_work *work; struct rt_workqueue *queue; rt_base_t level; work = (struct rt_work *)parameter; queue = work->workqueue; RT_ASSERT(queue != RT_NULL); level = rt_hw_interrupt_disable(); rt_timer_detach(&(work->timer)); work->flags &= ~RT_WORK_STATE_SUBMITTING; /* remove delay list */ rt_list_remove(&(work->list)); /* insert work queue */ if (queue->work_current != work) { rt_list_insert_after(queue->work_list.prev, &(work->list)); work->flags |= RT_WORK_STATE_PENDING; } /* whether the workqueue is doing work */ if (queue->work_current == RT_NULL && ((queue->work_thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_SUSPEND)) { /* resume work thread */ rt_thread_resume(queue->work_thread); rt_hw_interrupt_enable(level); rt_schedule(); } else { rt_hw_interrupt_enable(level); } } /** * @brief Initialize a work item, binding with a callback function. * * @param work is a pointer to the work item object. * * @param work_func is a callback function that will be called when this work item is executed. * * @param work_data is a user data passed to the callback function as the second parameter. */ void rt_work_init(struct rt_work *work, void (*work_func)(struct rt_work *work, void *work_data), void *work_data) { RT_ASSERT(work != RT_NULL); RT_ASSERT(work_func != RT_NULL); rt_list_init(&(work->list)); work->work_func = work_func; work->work_data = work_data; work->workqueue = RT_NULL; work->flags = 0; work->type = 0; } /** * @brief Create a work queue with a thread inside. * * @param name is a name of the work queue thread. * * @param stack_size is stack size of the work queue thread. * * @param priority is a priority of the work queue thread. * * @return Return a pointer to the workqueue object. It will return RT_NULL if failed. */ struct rt_workqueue *rt_workqueue_create(const char *name, rt_uint16_t stack_size, rt_uint8_t priority) { struct rt_workqueue *queue = RT_NULL; queue = (struct rt_workqueue *)RT_KERNEL_MALLOC(sizeof(struct rt_workqueue)); if (queue != RT_NULL) { /* initialize work list */ rt_list_init(&(queue->work_list)); rt_list_init(&(queue->delayed_list)); queue->work_current = RT_NULL; rt_sem_init(&(queue->sem), "wqueue", 0, RT_IPC_FLAG_FIFO); /* create the work thread */ queue->work_thread = rt_thread_create(name, _workqueue_thread_entry, queue, stack_size, priority, 10); if (queue->work_thread == RT_NULL) { RT_KERNEL_FREE(queue); return RT_NULL; } rt_thread_startup(queue->work_thread); } return queue; } /** * @brief Destroy a work queue. * * @param queue is a pointer to the workqueue object. * * @return RT_EOK Success. */ rt_err_t rt_workqueue_destroy(struct rt_workqueue *queue) { RT_ASSERT(queue != RT_NULL); rt_workqueue_cancel_all_work(queue); rt_thread_delete(queue->work_thread); rt_sem_detach(&(queue->sem)); RT_KERNEL_FREE(queue); return RT_EOK; } /** * @brief Submit a work item to the work queue without delay. * * @param queue is a pointer to the workqueue object. * * @param work is a pointer to the work item object. * * @return RT_EOK Success. * -RT_EBUSY This work item is executing. */ rt_err_t rt_workqueue_dowork(struct rt_workqueue *queue, struct rt_work *work) { RT_ASSERT(queue != RT_NULL); RT_ASSERT(work != RT_NULL); return _workqueue_submit_work(queue, work, 0); } /** * @brief Submit a work item to the work queue with a delay. * * @param queue is a pointer to the workqueue object. * * @param work is a pointer to the work item object. * * @param ticks is the delay ticks for the work item to be submitted to the work queue. * * NOTE: The max timeout tick should be no more than (RT_TICK_MAX/2 - 1) * * @return RT_EOK Success. * -RT_EBUSY This work item is executing. * -RT_ERROR The ticks parameter is invalid. */ rt_err_t rt_workqueue_submit_work(struct rt_workqueue *queue, struct rt_work *work, rt_tick_t ticks) { RT_ASSERT(queue != RT_NULL); RT_ASSERT(work != RT_NULL); RT_ASSERT(ticks < RT_TICK_MAX / 2); return _workqueue_submit_work(queue, work, ticks); } /** * @brief Submit a work item to the work queue without delay. This work item will be executed after the current work item. * * @param queue is a pointer to the workqueue object. * * @param work is a pointer to the work item object. * * @return RT_EOK Success. */ rt_err_t rt_workqueue_urgent_work(struct rt_workqueue *queue, struct rt_work *work) { rt_base_t level; RT_ASSERT(queue != RT_NULL); RT_ASSERT(work != RT_NULL); level = rt_hw_interrupt_disable(); /* NOTE: the work MUST be initialized firstly */ rt_list_remove(&(work->list)); rt_list_insert_after(&queue->work_list, &(work->list)); /* whether the workqueue is doing work */ if (queue->work_current == RT_NULL && ((queue->work_thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_SUSPEND)) { /* resume work thread */ rt_thread_resume(queue->work_thread); rt_hw_interrupt_enable(level); rt_schedule(); } else { rt_hw_interrupt_enable(level); } return RT_EOK; } /** * @brief Cancel a work item in the work queue. * * @param queue is a pointer to the workqueue object. * * @param work is a pointer to the work item object. * * @return RT_EOK Success. * -RT_EBUSY This work item is executing. */ rt_err_t rt_workqueue_cancel_work(struct rt_workqueue *queue, struct rt_work *work) { RT_ASSERT(work != RT_NULL); RT_ASSERT(queue != RT_NULL); return _workqueue_cancel_work(queue, work); } /** * @brief Cancel a work item in the work queue. If the work item is executing, this function will block until it is done. * * @param queue is a pointer to the workqueue object. * * @param work is a pointer to the work item object. * * @return RT_EOK Success. */ rt_err_t rt_workqueue_cancel_work_sync(struct rt_workqueue *queue, struct rt_work *work) { RT_ASSERT(queue != RT_NULL); RT_ASSERT(work != RT_NULL); if (queue->work_current == work) /* it's current work in the queue */ { /* wait for work completion */ rt_sem_take(&(queue->sem), RT_WAITING_FOREVER); } else { _workqueue_cancel_work(queue, work); } return RT_EOK; } /** * @brief This function will cancel all work items in work queue. * * @param queue is a pointer to the workqueue object. * * @return RT_EOK Success. */ rt_err_t rt_workqueue_cancel_all_work(struct rt_workqueue *queue) { struct rt_work *work; RT_ASSERT(queue != RT_NULL); /* cancel work */ rt_enter_critical(); while (rt_list_isempty(&queue->work_list) == RT_FALSE) { work = rt_list_first_entry(&queue->work_list, struct rt_work, list); _workqueue_cancel_work(queue, work); } /* cancel delay work */ while (rt_list_isempty(&queue->delayed_list) == RT_FALSE) { work = rt_list_first_entry(&queue->delayed_list, struct rt_work, list); _workqueue_cancel_work(queue, work); } rt_exit_critical(); return RT_EOK; } #ifdef RT_USING_SYSTEM_WORKQUEUE static struct rt_workqueue *sys_workq; /* system work queue */ /** * @brief Submit a work item to the system work queue with a delay. * * @param work is a pointer to the work item object. * * @param ticks is the delay OS ticks for the work item to be submitted to the work queue. * * NOTE: The max timeout tick should be no more than (RT_TICK_MAX/2 - 1) * * @return RT_EOK Success. * -RT_EBUSY This work item is executing. * -RT_ERROR The ticks parameter is invalid. */ rt_err_t rt_work_submit(struct rt_work *work, rt_tick_t ticks) { return rt_workqueue_submit_work(sys_workq, work, ticks); } /** * @brief Submit a work item to the system work queue without delay. This work item will be executed after the current work item. * * @param work is a pointer to the work item object. * * @return RT_EOK Success. */ rt_err_t rt_work_urgent(struct rt_work *work) { return rt_workqueue_urgent_work(sys_workq, work); } /** * @brief Cancel a work item in the system work queue. * * @param work is a pointer to the work item object. * * @return RT_EOK Success. * -RT_EBUSY This work item is executing. */ rt_err_t rt_work_cancel(struct rt_work *work) { return rt_workqueue_cancel_work(sys_workq, work); } static int rt_work_sys_workqueue_init(void) { if (sys_workq != RT_NULL) return RT_EOK; sys_workq = rt_workqueue_create("sys workq", RT_SYSTEM_WORKQUEUE_STACKSIZE, RT_SYSTEM_WORKQUEUE_PRIORITY); RT_ASSERT(sys_workq != RT_NULL); return RT_EOK; } INIT_PREV_EXPORT(rt_work_sys_workqueue_init); #endif /* RT_USING_SYSTEM_WORKQUEUE */ #endif /* RT_USING_HEAP */