/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * 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. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #define _DEFAULT_SOURCE #include "os.h" #include "ulog.h" #include "tqueue.h" #include "tworker.h" typedef void* (*ThreadFp)(void *param); int32_t tWorkerInit(SWorkerPool *pool) { pool->qset = taosOpenQset(); pool->workers = calloc(sizeof(SWorker), pool->max); pthread_mutex_init(&pool->mutex, NULL); for (int i = 0; i < pool->max; ++i) { SWorker *worker = pool->workers + i; worker->id = i; worker->pool = pool; } uInfo("worker:%s is initialized, min:%d max:%d", pool->name, pool->min, pool->max); return 0; } void tWorkerCleanup(SWorkerPool *pool) { for (int i = 0; i < pool->max; ++i) { SWorker *worker = pool->workers + i; if (taosCheckPthreadValid(worker->thread)) { taosQsetThreadResume(pool->qset); } } for (int i = 0; i < pool->max; ++i) { SWorker *worker = pool->workers + i; if (taosCheckPthreadValid(worker->thread)) { pthread_join(worker->thread, NULL); } } free(pool->workers); taosCloseQset(pool->qset); pthread_mutex_destroy(&pool->mutex); uInfo("worker:%s is closed", pool->name); } static void *tWorkerThreadFp(SWorker *worker) { SWorkerPool *pool = worker->pool; FProcessItem fp = NULL; void *msg = NULL; void *ahandle = NULL; int32_t code = 0; taosBlockSIGPIPE(); setThreadName(pool->name); uDebug("worker:%s:%d is running", pool->name, worker->id); while (1) { if (taosReadQitemFromQset(pool->qset, (void **)&msg, &ahandle, &fp) == 0) { uDebug("worker:%s:%d qset:%p, got no message and exiting", pool->name, worker->id, pool->qset); break; } if (fp) { (*fp)(msg, ahandle); } } return NULL; } taos_queue tWorkerAllocQueue(SWorkerPool *pool, void *ahandle, FProcessItem fp) { pthread_mutex_lock(&pool->mutex); taos_queue queue = taosOpenQueue(); if (queue == NULL) { pthread_mutex_unlock(&pool->mutex); return NULL; } taosSetQueueFp(queue, fp, NULL); taosAddIntoQset(pool->qset, queue, ahandle); // spawn a thread to process queue if (pool->num < pool->max) { do { SWorker *worker = pool->workers + pool->num; pthread_attr_t thAttr; pthread_attr_init(&thAttr); pthread_attr_setdetachstate(&thAttr, PTHREAD_CREATE_JOINABLE); if (pthread_create(&worker->thread, &thAttr, (ThreadFp)tWorkerThreadFp, worker) != 0) { uError("worker:%s:%d failed to create thread to process since %s", pool->name, worker->id, strerror(errno)); } pthread_attr_destroy(&thAttr); pool->num++; uDebug("worker:%s:%d is launched, total:%d", pool->name, worker->id, pool->num); } while (pool->num < pool->min); } pthread_mutex_unlock(&pool->mutex); uDebug("worker:%s, queue:%p is allocated, ahandle:%p", pool->name, queue, ahandle); return queue; } void tWorkerFreeQueue(SWorkerPool *pool, void *queue) { taosCloseQueue(queue); uDebug("worker:%s, queue:%p is freed", pool->name, queue); } int32_t tMWorkerInit(SMWorkerPool *pool) { pool->nextId = 0; pool->workers = calloc(sizeof(SMWorker), pool->max); if (pool->workers == NULL) return -1; pthread_mutex_init(&pool->mutex, NULL); for (int32_t i = 0; i < pool->max; ++i) { SMWorker *worker = pool->workers + i; worker->id = i; worker->qall = NULL; worker->qset = NULL; worker->pool = pool; } uInfo("worker:%s is initialized, max:%d", pool->name, pool->max); return 0; } void tMWorkerCleanup(SMWorkerPool *pool) { for (int32_t i = 0; i < pool->max; ++i) { SMWorker *worker = pool->workers + i; if (taosCheckPthreadValid(worker->thread)) { if (worker->qset) taosQsetThreadResume(worker->qset); } } for (int32_t i = 0; i < pool->max; ++i) { SMWorker *worker = pool->workers + i; if (taosCheckPthreadValid(worker->thread)) { pthread_join(worker->thread, NULL); taosFreeQall(worker->qall); taosCloseQset(worker->qset); } } free(pool->workers); pthread_mutex_destroy(&pool->mutex); uInfo("worker:%s is closed", pool->name); } static void *tWriteWorkerThreadFp(SMWorker *worker) { SMWorkerPool *pool = worker->pool; FProcessItems fp = NULL; void *msg = NULL; void *ahandle = NULL; int32_t numOfMsgs = 0; int32_t qtype = 0; taosBlockSIGPIPE(); setThreadName(pool->name); uDebug("worker:%s:%d is running", pool->name, worker->id); while (1) { numOfMsgs = taosReadAllQitemsFromQset(worker->qset, worker->qall, &ahandle, &fp); if (numOfMsgs == 0) { uDebug("worker:%s:%d qset:%p, got no message and exiting", pool->name, worker->id, worker->qset); break; } if (fp) { (*fp)(worker->qall, numOfMsgs, ahandle); } } return NULL; } taos_queue tMWorkerAllocQueue(SMWorkerPool *pool, void *ahandle, FProcessItems fp) { pthread_mutex_lock(&pool->mutex); SMWorker *worker = pool->workers + pool->nextId; taos_queue *queue = taosOpenQueue(); if (queue == NULL) { pthread_mutex_unlock(&pool->mutex); return NULL; } taosSetQueueFp(queue, NULL, fp); if (worker->qset == NULL) { worker->qset = taosOpenQset(); if (worker->qset == NULL) { taosCloseQueue(queue); pthread_mutex_unlock(&pool->mutex); return NULL; } taosAddIntoQset(worker->qset, queue, ahandle); worker->qall = taosAllocateQall(); if (worker->qall == NULL) { taosCloseQset(worker->qset); taosCloseQueue(queue); pthread_mutex_unlock(&pool->mutex); return NULL; } pthread_attr_t thAttr; pthread_attr_init(&thAttr); pthread_attr_setdetachstate(&thAttr, PTHREAD_CREATE_JOINABLE); if (pthread_create(&worker->thread, &thAttr, (ThreadFp)tWriteWorkerThreadFp, worker) != 0) { uError("worker:%s:%d failed to create thread to process since %s", pool->name, worker->id, strerror(errno)); taosFreeQall(worker->qall); taosCloseQset(worker->qset); taosCloseQueue(queue); queue = NULL; } else { uDebug("worker:%s:%d is launched, max:%d", pool->name, worker->id, pool->max); pool->nextId = (pool->nextId + 1) % pool->max; } pthread_attr_destroy(&thAttr); } else { taosAddIntoQset(worker->qset, queue, ahandle); pool->nextId = (pool->nextId + 1) % pool->max; } pthread_mutex_unlock(&pool->mutex); uDebug("worker:%s, queue:%p is allocated, ahandle:%p", pool->name, queue, ahandle); return queue; } void tMWorkerFreeQueue(SMWorkerPool *pool, taos_queue queue) { taosCloseQueue(queue); uDebug("worker:%s, queue:%p is freed", pool->name, queue); }