mirror of
https://github.com/lxsang/ant-http
synced 2024-11-13 23:38:21 +01:00
350 lines
9.0 KiB
C
350 lines
9.0 KiB
C
#include "scheduler.h"
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static void enqueue(antd_task_queue_t* q, antd_task_t* task)
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{
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antd_task_item_t it = *q;
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while(it && it->next != NULL)
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it = it->next;
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antd_task_item_t taski = (antd_task_item_t)malloc(sizeof *taski);
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taski->task = task;
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taski->next = NULL;
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if(!it) // first task
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{
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*q = taski;
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}
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else
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{
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it->next = taski;
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}
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}
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static void stop(antd_scheduler_t* scheduler)
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{
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scheduler->status = 0;
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// unlock all idle workers if any
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for (int i = 0; i < scheduler->n_workers; i++)
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sem_post(scheduler->worker_sem);
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sem_post(scheduler->scheduler_sem);
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for (int i = 0; i < scheduler->n_workers; i++)
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if(scheduler->workers[i].id != -1)
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pthread_join(scheduler->workers[i].tid, NULL);
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if(scheduler->workers) free(scheduler->workers);
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// destroy all the mutex
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pthread_mutex_destroy(&scheduler->scheduler_lock);
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pthread_mutex_destroy(&scheduler->worker_lock);
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pthread_mutex_destroy(&scheduler->pending_lock);
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sem_unlink("scheduler");
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sem_unlink("worker");
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sem_close(scheduler->scheduler_sem);
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sem_close(scheduler->worker_sem);
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}
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static antd_task_item_t dequeue(antd_task_queue_t* q)
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{
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antd_task_item_t it = *q;
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if(it)
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{
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*q = it->next;
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it->next = NULL;
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}
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return it;
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}
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static antd_callback_t* callback_of( void* (*callback)(void*) )
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{
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antd_callback_t* cb = NULL;
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if(callback)
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{
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cb = (antd_callback_t*)malloc(sizeof *cb);
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cb->handle = callback;
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cb->next = NULL;
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}
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return cb;
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}
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static void free_callback(antd_callback_t* cb)
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{
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antd_callback_t* it = cb;
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antd_callback_t* curr;
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while(it)
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{
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curr = it;
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it = it->next;
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free(curr);
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}
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}
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static void enqueue_callback(antd_callback_t* cb, antd_callback_t* el)
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{
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antd_callback_t* it = cb;
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while(it && it->next != NULL)
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it = it->next;
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if(!it) return; // this should not happend
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it->next = el;
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}
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static void execute_callback(antd_scheduler_t* scheduler, antd_task_t* task)
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{
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antd_callback_t* cb = task->callback;
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if(cb)
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{
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// call the first come call back
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task->handle = cb->handle;
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task->callback = task->callback->next;
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free(cb);
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antd_add_task(scheduler, task);
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}
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else
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{
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free(task);
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}
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}
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static void destroy_queue(antd_task_queue_t q)
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{
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antd_task_item_t it, curr;
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it = q;
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while(it)
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{
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// first free the task
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if(it->task && it->task->callback) free_callback(it->task->callback);
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if(it->task) free(it->task);
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// then free the placeholder
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curr = it;
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it = it->next;
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free(curr);
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}
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}
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static void work(antd_worker_t* worker)
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{
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antd_scheduler_t* scheduler = (antd_scheduler_t*) worker->manager;
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while(scheduler->status)
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{
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antd_task_item_t it;
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pthread_mutex_lock(&scheduler->worker_lock);
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it = dequeue(&scheduler->workers_queue);
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pthread_mutex_unlock(&scheduler->worker_lock);
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// execute the task
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//LOG("task executed by worker %d\n", worker->pid);
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// no task to execute, just sleep wait
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if(!it)
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{
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//LOG("Worker %d goes to idle state\n", worker->id);
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sem_wait(scheduler->worker_sem);
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}
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else
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{
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//LOG("task executed by worker %d\n", worker->id);
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antd_execute_task(scheduler, it);
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}
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}
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}
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/*
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Main API methods
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init the main scheduler
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*/
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void antd_scheduler_init(antd_scheduler_t* scheduler, int n)
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{
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scheduler->n_workers = n;
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scheduler->status = 1;
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scheduler->workers_queue = NULL;
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scheduler->pending_task = 0 ;
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// init semaphore
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scheduler->scheduler_sem = sem_open("scheduler", O_CREAT, 0600, 0);
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if (scheduler->scheduler_sem == SEM_FAILED)
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{
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LOG("Cannot open semaphore for scheduler\n");
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exit(-1);
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}
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scheduler->worker_sem = sem_open("worker", O_CREAT, 0600, 0);
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if (!scheduler->worker_sem)
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{
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LOG("Cannot open semaphore for workers\n");
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exit(-1);
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}
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// init lock
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pthread_mutex_init(&scheduler->scheduler_lock,NULL);
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pthread_mutex_init(&scheduler->worker_lock, NULL);
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pthread_mutex_init(&scheduler->pending_lock, NULL);
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for(int i = 0; i < N_PRIORITY; i++) scheduler->task_queue[i] = NULL;
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// create scheduler.workers
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if(n > 0)
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{
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scheduler->workers = (antd_worker_t*)malloc(n*(sizeof(antd_worker_t)));
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if(!scheduler->workers)
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{
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LOG("Cannot allocate memory for worker\n");
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exit(-1);
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}
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for(int i = 0; i < scheduler->n_workers;i++)
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{
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scheduler->workers[i].id = -1;
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scheduler->workers[i].manager = (void*)scheduler;
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if (pthread_create(&scheduler->workers[i].tid, NULL,(void *(*)(void *))work, (void*)&scheduler->workers[i]) != 0)
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{
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perror("pthread_create: cannot create worker\n");
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}
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else
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{
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scheduler->workers[i].id = i;
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}
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}
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}
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LOG("Antd scheduler initialized with %d worker\n", scheduler->n_workers);
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}
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/*
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destroy all pending task
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pthread_mutex_lock(&scheduler.queue_lock);
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*/
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void antd_scheduler_destroy(antd_scheduler_t* scheduler)
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{
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// free all the chains
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stop(scheduler);
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LOG("Destroy remaining queue\n");
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for(int i=0; i < N_PRIORITY; i++)
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{
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destroy_queue(scheduler->task_queue[i]);
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}
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destroy_queue(scheduler->workers_queue);
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}
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/*
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create a task
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*/
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antd_task_t* antd_create_task(void* (*handle)(void*), void *data, void* (*callback)(void*))
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{
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antd_task_t* task = (antd_task_t*)malloc(sizeof *task);
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task->stamp = (unsigned long)time(NULL);
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task->data = data;
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task->handle = handle;
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task->callback = callback_of(callback);
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task->priority = NORMAL_PRIORITY;
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task->type = LIGHT;
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return task;
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}
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/*
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scheduling a task
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*/
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void antd_add_task(antd_scheduler_t* scheduler, antd_task_t* task)
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{
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// check if task is exist
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int prio = task->priority>N_PRIORITY-1?N_PRIORITY-1:task->priority;
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//LOG("Prio is %d\n", prio);
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pthread_mutex_lock(&scheduler->scheduler_lock);
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enqueue(&scheduler->task_queue[prio], task);
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pthread_mutex_unlock(&scheduler->scheduler_lock);
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pthread_mutex_lock(&scheduler->pending_lock);
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scheduler->pending_task++;
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pthread_mutex_unlock(&scheduler->pending_lock);
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// wake up the scheduler if idle
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sem_post(scheduler->scheduler_sem);
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}
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void antd_execute_task(antd_scheduler_t* scheduler, antd_task_item_t taski)
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{
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if(!taski)
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return;
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// execute the task
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void *ret = (*(taski->task->handle))(taski->task->data);
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// check the return data if it is a new task
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if(!ret)
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{
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// call the first callback
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execute_callback(scheduler, taski->task);
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free(taski);
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}
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else
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{
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antd_task_t* rtask = (antd_task_t*) ret;
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if(taski->task->callback)
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{
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if(rtask->callback)
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{
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enqueue_callback(rtask->callback, taski->task->callback);
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}
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else
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{
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rtask->callback = taski->task->callback;
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}
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}
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if(!rtask->handle)
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{
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// call the first callback
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execute_callback(scheduler, rtask);
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free(taski->task);
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free(taski);
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}
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else
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{
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antd_add_task(scheduler, rtask);
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free(taski->task);
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free(taski);
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}
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}
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pthread_mutex_lock(&scheduler->pending_lock);
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scheduler->pending_task--;
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pthread_mutex_unlock(&scheduler->pending_lock);
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}
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int antd_scheduler_busy(antd_scheduler_t* scheduler)
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{
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return scheduler->pending_task != 0;
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}
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int antd_task_schedule(antd_scheduler_t* scheduler)
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{
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// fetch next task from the task_queue
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antd_task_item_t it = NULL;
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pthread_mutex_lock(&scheduler->scheduler_lock);
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for(int i = 0; i< N_PRIORITY; i++)
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{
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it = dequeue(&scheduler->task_queue[i]);
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if(it)
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break;
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}
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pthread_mutex_unlock(&scheduler->scheduler_lock);
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if(!it)
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{
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return 0;
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}
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// has the task now
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// check the type of task
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if(it->task->type == LIGHT || scheduler->n_workers <= 0)
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{
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// do it by myself
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antd_execute_task( scheduler, it);
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}
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else
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{
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// delegate to other workers by
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//pushing to the worker queue
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pthread_mutex_lock(&scheduler->worker_lock);
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enqueue(&scheduler->workers_queue, it->task);
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pthread_mutex_unlock(&scheduler->worker_lock);
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// wake up idle worker
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sem_post(scheduler->worker_sem);
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free(it);
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}
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return 1;
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}
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void antd_wait(antd_scheduler_t* scheduler)
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{
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int stat;
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while(scheduler->status)
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{
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stat = antd_task_schedule(scheduler);
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if(!stat)
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{
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// no task found, go to idle state
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sem_wait(scheduler->scheduler_sem);
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}
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}
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} |