/* * 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 "tqueue.h" #include "taoserror.h" #include "tlog.h" int64_t tsRpcQueueMemoryAllowed = 0; int64_t tsRpcQueueMemoryUsed = 0; void taosSetQueueMemoryCapacity(STaosQueue *queue, int64_t cap) { queue->memLimit = cap; } void taosSetQueueCapacity(STaosQueue *queue, int64_t size) { queue->itemLimit = size; } STaosQueue *taosOpenQueue() { STaosQueue *queue = taosMemoryCalloc(1, sizeof(STaosQueue)); if (queue == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } if (taosThreadMutexInit(&queue->mutex, NULL) != 0) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } uDebug("queue:%p is opened", queue); return queue; } void taosSetQueueFp(STaosQueue *queue, FItem itemFp, FItems itemsFp) { if (queue == NULL) return; queue->itemFp = itemFp; queue->itemsFp = itemsFp; } void taosCloseQueue(STaosQueue *queue) { if (queue == NULL) return; STaosQnode *pTemp; STaosQset *qset; taosThreadMutexLock(&queue->mutex); STaosQnode *pNode = queue->head; queue->head = NULL; qset = queue->qset; taosThreadMutexUnlock(&queue->mutex); if (queue->qset) { taosRemoveFromQset(qset, queue); } while (pNode) { pTemp = pNode; pNode = pNode->next; taosMemoryFree(pTemp); } taosThreadMutexDestroy(&queue->mutex); taosMemoryFree(queue); uDebug("queue:%p is closed", queue); } bool taosQueueEmpty(STaosQueue *queue) { if (queue == NULL) return true; bool empty = false; taosThreadMutexLock(&queue->mutex); if (queue->head == NULL && queue->tail == NULL && queue->numOfItems == 0 /*&& queue->memOfItems == 0*/) { empty = true; } taosThreadMutexUnlock(&queue->mutex); return empty; } void taosUpdateItemSize(STaosQueue *queue, int32_t items) { if (queue == NULL) return; taosThreadMutexLock(&queue->mutex); queue->numOfItems -= items; taosThreadMutexUnlock(&queue->mutex); } int32_t taosQueueItemSize(STaosQueue *queue) { if (queue == NULL) return 0; taosThreadMutexLock(&queue->mutex); int32_t numOfItems = queue->numOfItems; taosThreadMutexUnlock(&queue->mutex); uTrace("queue:%p, numOfItems:%d memOfItems:%" PRId64, queue, queue->numOfItems, queue->memOfItems); return numOfItems; } int64_t taosQueueMemorySize(STaosQueue *queue) { taosThreadMutexLock(&queue->mutex); int64_t memOfItems = queue->memOfItems; taosThreadMutexUnlock(&queue->mutex); return memOfItems; } void *taosAllocateQitem(int32_t size, EQItype itype, int64_t dataSize) { STaosQnode *pNode = taosMemoryCalloc(1, sizeof(STaosQnode) + size); if (pNode == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } pNode->dataSize = dataSize; pNode->size = size; pNode->itype = itype; pNode->timestamp = taosGetTimestampUs(); if (itype == RPC_QITEM) { int64_t alloced = atomic_add_fetch_64(&tsRpcQueueMemoryUsed, size + dataSize); if (alloced > tsRpcQueueMemoryAllowed) { uError("failed to alloc qitem, size:%" PRId64 " alloc:%" PRId64 " allowed:%" PRId64, size + dataSize, alloced, tsRpcQueueMemoryUsed); atomic_sub_fetch_64(&tsRpcQueueMemoryUsed, size + dataSize); taosMemoryFree(pNode); terrno = TSDB_CODE_OUT_OF_RPC_MEMORY_QUEUE; return NULL; } uTrace("item:%p, node:%p is allocated, alloc:%" PRId64, pNode->item, pNode, alloced); } else { uTrace("item:%p, node:%p is allocated", pNode->item, pNode); } return pNode->item; } void taosFreeQitem(void *pItem) { if (pItem == NULL) return; STaosQnode *pNode = (STaosQnode *)((char *)pItem - sizeof(STaosQnode)); if (pNode->itype == RPC_QITEM) { int64_t alloced = atomic_sub_fetch_64(&tsRpcQueueMemoryUsed, pNode->size + pNode->dataSize); uTrace("item:%p, node:%p is freed, alloc:%" PRId64, pItem, pNode, alloced); } else { uTrace("item:%p, node:%p is freed", pItem, pNode); } taosMemoryFree(pNode); } int32_t taosWriteQitem(STaosQueue *queue, void *pItem) { int32_t code = 0; STaosQnode *pNode = (STaosQnode *)(((char *)pItem) - sizeof(STaosQnode)); pNode->next = NULL; taosThreadMutexLock(&queue->mutex); if (queue->memLimit > 0 && (queue->memOfItems + pNode->size + pNode->dataSize) > queue->memLimit) { code = TSDB_CODE_UTIL_QUEUE_OUT_OF_MEMORY; uError("item:%p failed to put into queue:%p, queue mem limit: %" PRId64 ", reason: %s" PRId64, pItem, queue, queue->memLimit, tstrerror(code)); taosThreadMutexUnlock(&queue->mutex); return code; } else if (queue->itemLimit > 0 && queue->numOfItems + 1 > queue->itemLimit) { code = TSDB_CODE_UTIL_QUEUE_OUT_OF_MEMORY; uError("item:%p failed to put into queue:%p, queue size limit: %" PRId64 ", reason: %s" PRId64, pItem, queue, queue->itemLimit, tstrerror(code)); taosThreadMutexUnlock(&queue->mutex); return code; } if (queue->tail) { queue->tail->next = pNode; queue->tail = pNode; } else { queue->head = pNode; queue->tail = pNode; } queue->numOfItems++; queue->memOfItems += (pNode->size + pNode->dataSize); if (queue->qset) atomic_add_fetch_32(&queue->qset->numOfItems, 1); uTrace("item:%p is put into queue:%p, items:%d mem:%" PRId64, pItem, queue, queue->numOfItems, queue->memOfItems); taosThreadMutexUnlock(&queue->mutex); if (queue->qset) tsem_post(&queue->qset->sem); return code; } int32_t taosReadQitem(STaosQueue *queue, void **ppItem) { STaosQnode *pNode = NULL; int32_t code = 0; taosThreadMutexLock(&queue->mutex); if (queue->head) { pNode = queue->head; *ppItem = pNode->item; queue->head = pNode->next; if (queue->head == NULL) queue->tail = NULL; queue->numOfItems--; queue->memOfItems -= (pNode->size + pNode->dataSize); if (queue->qset) atomic_sub_fetch_32(&queue->qset->numOfItems, 1); code = 1; uTrace("item:%p is read out from queue:%p, items:%d mem:%" PRId64, *ppItem, queue, queue->numOfItems, queue->memOfItems); } taosThreadMutexUnlock(&queue->mutex); return code; } STaosQall *taosAllocateQall() { STaosQall *qall = taosMemoryCalloc(1, sizeof(STaosQall)); if (qall != NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; } return qall; } void taosFreeQall(STaosQall *qall) { taosMemoryFree(qall); } int32_t taosReadAllQitems(STaosQueue *queue, STaosQall *qall) { int32_t numOfItems = 0; bool empty; taosThreadMutexLock(&queue->mutex); empty = queue->head == NULL; if (!empty) { memset(qall, 0, sizeof(STaosQall)); qall->current = queue->head; qall->start = queue->head; qall->numOfItems = queue->numOfItems; numOfItems = qall->numOfItems; queue->head = NULL; queue->tail = NULL; queue->numOfItems = 0; queue->memOfItems = 0; uTrace("read %d items from queue:%p, items:%d mem:%" PRId64, numOfItems, queue, queue->numOfItems, queue->memOfItems); if (queue->qset) atomic_sub_fetch_32(&queue->qset->numOfItems, qall->numOfItems); } taosThreadMutexUnlock(&queue->mutex); // if source queue is empty, we set destination qall to empty too. if (empty) { qall->current = NULL; qall->start = NULL; qall->numOfItems = 0; } return numOfItems; } int32_t taosGetQitem(STaosQall *qall, void **ppItem) { STaosQnode *pNode; int32_t num = 0; pNode = qall->current; if (pNode) qall->current = pNode->next; if (pNode) { *ppItem = pNode->item; num = 1; uTrace("item:%p is fetched", *ppItem); } else { *ppItem = NULL; } return num; } STaosQset *taosOpenQset() { STaosQset *qset = taosMemoryCalloc(sizeof(STaosQset), 1); if (qset == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } taosThreadMutexInit(&qset->mutex, NULL); tsem_init(&qset->sem, 0, 0); uDebug("qset:%p is opened", qset); return qset; } void taosCloseQset(STaosQset *qset) { if (qset == NULL) return; // remove all the queues from qset taosThreadMutexLock(&qset->mutex); while (qset->head) { STaosQueue *queue = qset->head; qset->head = qset->head->next; queue->qset = NULL; queue->next = NULL; } taosThreadMutexUnlock(&qset->mutex); taosThreadMutexDestroy(&qset->mutex); tsem_destroy(&qset->sem); taosMemoryFree(qset); uDebug("qset:%p is closed", qset); } // tsem_post 'qset->sem', so that reader threads waiting for it // resumes execution and return, should only be used to signal the // thread to exit. void taosQsetThreadResume(STaosQset *qset) { uDebug("qset:%p, it will exit", qset); tsem_post(&qset->sem); } int32_t taosAddIntoQset(STaosQset *qset, STaosQueue *queue, void *ahandle) { if (queue->qset) return -1; taosThreadMutexLock(&qset->mutex); queue->next = qset->head; queue->ahandle = ahandle; qset->head = queue; qset->numOfQueues++; taosThreadMutexLock(&queue->mutex); atomic_add_fetch_32(&qset->numOfItems, queue->numOfItems); queue->qset = qset; taosThreadMutexUnlock(&queue->mutex); taosThreadMutexUnlock(&qset->mutex); uTrace("queue:%p is added into qset:%p", queue, qset); return 0; } void taosRemoveFromQset(STaosQset *qset, STaosQueue *queue) { STaosQueue *tqueue = NULL; taosThreadMutexLock(&qset->mutex); if (qset->head) { if (qset->head == queue) { qset->head = qset->head->next; tqueue = queue; } else { STaosQueue *prev = qset->head; tqueue = qset->head->next; while (tqueue) { if (tqueue == queue) { prev->next = tqueue->next; break; } else { prev = tqueue; tqueue = tqueue->next; } } } if (tqueue) { if (qset->current == queue) qset->current = tqueue->next; qset->numOfQueues--; taosThreadMutexLock(&queue->mutex); atomic_sub_fetch_32(&qset->numOfItems, queue->numOfItems); queue->qset = NULL; queue->next = NULL; taosThreadMutexUnlock(&queue->mutex); } } taosThreadMutexUnlock(&qset->mutex); uDebug("queue:%p is removed from qset:%p", queue, qset); } int32_t taosReadQitemFromQset(STaosQset *qset, void **ppItem, SQueueInfo *qinfo) { STaosQnode *pNode = NULL; int32_t code = 0; tsem_wait(&qset->sem); taosThreadMutexLock(&qset->mutex); for (int32_t i = 0; i < qset->numOfQueues; ++i) { if (qset->current == NULL) qset->current = qset->head; STaosQueue *queue = qset->current; if (queue) qset->current = queue->next; if (queue == NULL) break; if (queue->head == NULL) continue; taosThreadMutexLock(&queue->mutex); if (queue->head) { pNode = queue->head; *ppItem = pNode->item; qinfo->ahandle = queue->ahandle; qinfo->fp = queue->itemFp; qinfo->queue = queue; qinfo->timestamp = pNode->timestamp; queue->head = pNode->next; if (queue->head == NULL) queue->tail = NULL; // queue->numOfItems--; queue->memOfItems -= (pNode->size + pNode->dataSize); atomic_sub_fetch_32(&qset->numOfItems, 1); code = 1; uTrace("item:%p is read out from queue:%p, items:%d mem:%" PRId64, *ppItem, queue, queue->numOfItems - 1, queue->memOfItems); } taosThreadMutexUnlock(&queue->mutex); if (pNode) break; } taosThreadMutexUnlock(&qset->mutex); return code; } int32_t taosReadAllQitemsFromQset(STaosQset *qset, STaosQall *qall, SQueueInfo *qinfo) { STaosQueue *queue; int32_t code = 0; tsem_wait(&qset->sem); taosThreadMutexLock(&qset->mutex); for (int32_t i = 0; i < qset->numOfQueues; ++i) { if (qset->current == NULL) qset->current = qset->head; queue = qset->current; if (queue) qset->current = queue->next; if (queue == NULL) break; if (queue->head == NULL) continue; taosThreadMutexLock(&queue->mutex); if (queue->head) { qall->current = queue->head; qall->start = queue->head; qall->numOfItems = queue->numOfItems; code = qall->numOfItems; qinfo->ahandle = queue->ahandle; qinfo->fp = queue->itemsFp; qinfo->queue = queue; queue->head = NULL; queue->tail = NULL; // queue->numOfItems = 0; queue->memOfItems = 0; uTrace("read %d items from queue:%p, items:0 mem:%" PRId64, code, queue, queue->memOfItems); atomic_sub_fetch_32(&qset->numOfItems, qall->numOfItems); for (int32_t j = 1; j < qall->numOfItems; ++j) { tsem_wait(&qset->sem); } } taosThreadMutexUnlock(&queue->mutex); if (code != 0) break; } taosThreadMutexUnlock(&qset->mutex); return code; } int32_t taosQallItemSize(STaosQall *qall) { return qall->numOfItems; } void taosResetQitems(STaosQall *qall) { qall->current = qall->start; } int32_t taosGetQueueNumber(STaosQset *qset) { return qset->numOfQueues; } #if 0 void taosResetQsetThread(STaosQset *qset, void *pItem) { if (pItem == NULL) return; STaosQnode *pNode = (STaosQnode *)((char *)pItem - sizeof(STaosQnode)); taosThreadMutexLock(&qset->mutex); for (int32_t i = 0; i < pNode->queue->numOfItems; ++i) { tsem_post(&qset->sem); } taosThreadMutexUnlock(&qset->mutex); } #endif