/* * 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 . */ #include "tq.h" int32_t tqInit() { int8_t old; while (1) { old = atomic_val_compare_exchange_8(&tqMgmt.inited, 0, 2); if (old != 2) break; } if (old == 0) { tqMgmt.timer = taosTmrInit(10000, 100, 10000, "TQ"); if (tqMgmt.timer == NULL) { atomic_store_8(&tqMgmt.inited, 0); return -1; } atomic_store_8(&tqMgmt.inited, 1); } return 0; } void tqCleanUp() { int8_t old; while (1) { old = atomic_val_compare_exchange_8(&tqMgmt.inited, 1, 2); if (old != 2) break; } if (old == 1) { taosTmrCleanUp(tqMgmt.timer); atomic_store_8(&tqMgmt.inited, 0); } } STQ* tqOpen(const char* path, SVnode* pVnode, SWal* pWal) { STQ* pTq = taosMemoryCalloc(1, sizeof(STQ)); if (pTq == NULL) { terrno = TSDB_CODE_TQ_OUT_OF_MEMORY; return NULL; } pTq->path = strdup(path); pTq->pVnode = pVnode; pTq->pWal = pWal; pTq->handles = taosHashInit(64, MurmurHash3_32, true, HASH_ENTRY_LOCK); pTq->pStreamTasks = taosHashInit(64, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), true, HASH_NO_LOCK); pTq->pushMgr = taosHashInit(64, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), true, HASH_ENTRY_LOCK); if (tqMetaOpen(pTq) < 0) { ASSERT(0); } if (tqOffsetOpen(pTq) < 0) { ASSERT(0); } return pTq; } void tqClose(STQ* pTq) { if (pTq) { tqOffsetClose(pTq->pOffsetStore); taosHashCleanup(pTq->handles); taosHashCleanup(pTq->pStreamTasks); taosHashCleanup(pTq->pushMgr); taosMemoryFree(pTq->path); tqMetaClose(pTq); taosMemoryFree(pTq); } } int32_t tqSendMetaPollRsp(STQ* pTq, const SRpcMsg* pMsg, const SMqPollReq* pReq, const SMqMetaRsp* pRsp) { int32_t tlen = sizeof(SMqRspHead) + tEncodeSMqMetaRsp(NULL, pRsp); void* buf = rpcMallocCont(tlen); if (buf == NULL) { return -1; } ((SMqRspHead*)buf)->mqMsgType = TMQ_MSG_TYPE__POLL_META_RSP; ((SMqRspHead*)buf)->epoch = pReq->epoch; ((SMqRspHead*)buf)->consumerId = pReq->consumerId; void* abuf = POINTER_SHIFT(buf, sizeof(SMqRspHead)); tEncodeSMqMetaRsp(&abuf, pRsp); SRpcMsg resp = { .info = pMsg->info, .pCont = buf, .contLen = tlen, .code = 0, }; tmsgSendRsp(&resp); tqDebug("vg %d from consumer %ld (epoch %d) send rsp, res msg type %d, reqOffset: %ld, rspOffset: %ld", TD_VID(pTq->pVnode), pReq->consumerId, pReq->epoch, pRsp->resMsgType, pRsp->reqOffset, pRsp->rspOffset); return 0; } int32_t tqSendPollRsp(STQ* pTq, const SRpcMsg* pMsg, const SMqPollReq* pReq, const SMqDataBlkRsp* pRsp) { int32_t tlen = sizeof(SMqRspHead) + tEncodeSMqDataBlkRsp(NULL, pRsp); void* buf = rpcMallocCont(tlen); if (buf == NULL) { return -1; } ((SMqRspHead*)buf)->mqMsgType = TMQ_MSG_TYPE__POLL_RSP; ((SMqRspHead*)buf)->epoch = pReq->epoch; ((SMqRspHead*)buf)->consumerId = pReq->consumerId; void* abuf = POINTER_SHIFT(buf, sizeof(SMqRspHead)); tEncodeSMqDataBlkRsp(&abuf, pRsp); SRpcMsg resp = { .info = pMsg->info, .pCont = buf, .contLen = tlen, .code = 0, }; tmsgSendRsp(&resp); tqDebug("vg %d from consumer %ld (epoch %d) send rsp, block num: %d, reqOffset: %ld, rspOffset: %ld", TD_VID(pTq->pVnode), pReq->consumerId, pReq->epoch, pRsp->blockNum, pRsp->reqOffset, pRsp->rspOffset); return 0; } int32_t tqProcessOffsetCommitReq(STQ* pTq, char* msg, int32_t msgLen) { STqOffset offset = {0}; SDecoder decoder; tDecoderInit(&decoder, msg, msgLen); if (tDecodeSTqOffset(&decoder, &offset) < 0) { ASSERT(0); return -1; } tDecoderClear(&decoder); if (offset.type == TMQ_OFFSET__SNAPSHOT) { tqDebug("receive offset commit msg to %s on vg %d, offset(type:snapshot) uid: %ld, ts: %ld", offset.subKey, TD_VID(pTq->pVnode), offset.uid, offset.ts); } else if (offset.type == TMQ_OFFSET__LOG) { tqDebug("receive offset commit msg to %s on vg %d, offset(type:log) version: %ld", offset.subKey, TD_VID(pTq->pVnode), offset.version); } else { ASSERT(0); } STqOffset* pOffset = tqOffsetRead(pTq->pOffsetStore, offset.subKey); if (pOffset == NULL || pOffset->version < offset.version) { if (tqOffsetWrite(pTq->pOffsetStore, &offset) < 0) { ASSERT(0); return -1; } } return 0; } int32_t tqProcessPollReq(STQ* pTq, SRpcMsg* pMsg, int32_t workerId) { SMqPollReq* pReq = pMsg->pCont; int64_t consumerId = pReq->consumerId; int64_t timeout = pReq->timeout; int32_t reqEpoch = pReq->epoch; int64_t fetchOffset; int32_t code = 0; // get offset to fetch message if (pReq->currentOffset >= 0) { fetchOffset = pReq->currentOffset + 1; } else { STqOffset* pOffset = tqOffsetRead(pTq->pOffsetStore, pReq->subKey); if (pOffset != NULL) { ASSERT(pOffset->type == TMQ_OFFSET__LOG); tqDebug("consumer %ld, restore offset of %s on vg %d, offset(type:log) version: %ld", consumerId, pReq->subKey, TD_VID(pTq->pVnode), pOffset->version); fetchOffset = pOffset->version + 1; } else { if (pReq->currentOffset == TMQ_CONF__RESET_OFFSET__EARLIEAST) { fetchOffset = walGetFirstVer(pTq->pWal); } else if (pReq->currentOffset == TMQ_CONF__RESET_OFFSET__LATEST) { fetchOffset = walGetCommittedVer(pTq->pWal); } else if (pReq->currentOffset == TMQ_CONF__RESET_OFFSET__NONE) { tqError("tmq poll: no offset committed for consumer %ld in vg %d, subkey %s", consumerId, TD_VID(pTq->pVnode), pReq->subKey); terrno = TSDB_CODE_TQ_NO_COMMITTED_OFFSET; return -1; } tqDebug("consumer %ld, restore offset of %s on vg %d failed, config is %ld, set to %ld", consumerId, pReq->subKey, TD_VID(pTq->pVnode), pReq->currentOffset, fetchOffset); } } tqDebug("tmq poll: consumer %ld (epoch %d) recv poll req in vg %d, req offset %ld fetch offset %ld", consumerId, pReq->epoch, TD_VID(pTq->pVnode), pReq->currentOffset, fetchOffset); STqHandle* pHandle = taosHashGet(pTq->handles, pReq->subKey, strlen(pReq->subKey)); /*ASSERT(pHandle);*/ if (pHandle == NULL) { tqError("tmq poll: no consumer handle for consumer %ld in vg %d, subkey %s", consumerId, TD_VID(pTq->pVnode), pReq->subKey); return -1; } if (pHandle->consumerId != consumerId) { tqError("tmq poll: consumer handle mismatch for consumer %ld in vg %d, subkey %s, handle consumer id %ld", consumerId, TD_VID(pTq->pVnode), pReq->subKey, pHandle->consumerId); return -1; } int32_t consumerEpoch = atomic_load_32(&pHandle->epoch); while (consumerEpoch < reqEpoch) { consumerEpoch = atomic_val_compare_exchange_32(&pHandle->epoch, consumerEpoch, reqEpoch); } SWalHead* pHeadWithCkSum = taosMemoryMalloc(sizeof(SWalHead) + 2048); if (pHeadWithCkSum == NULL) { return -1; } walSetReaderCapacity(pHandle->pWalReader, 2048); SMqDataBlkRsp rsp = {0}; rsp.reqOffset = pReq->currentOffset; rsp.blockData = taosArrayInit(0, sizeof(void*)); rsp.blockDataLen = taosArrayInit(0, sizeof(int32_t)); rsp.withTbName = pReq->withTbName; if (rsp.withTbName) { rsp.blockTbName = taosArrayInit(0, sizeof(void*)); } if (pHandle->execHandle.subType == TOPIC_SUB_TYPE__COLUMN) { rsp.withSchema = false; rsp.withTag = false; } else { rsp.withSchema = true; rsp.withTag = false; rsp.blockSchema = taosArrayInit(0, sizeof(void*)); } while (1) { consumerEpoch = atomic_load_32(&pHandle->epoch); if (consumerEpoch > reqEpoch) { tqWarn("tmq poll: consumer %ld (epoch %d) vg %d offset %ld, found new consumer epoch %d, discard req epoch %d", consumerId, pReq->epoch, TD_VID(pTq->pVnode), fetchOffset, consumerEpoch, reqEpoch); break; } if (tqFetchLog(pTq, pHandle, &fetchOffset, &pHeadWithCkSum) < 0) { // TODO add push mgr break; } SWalReadHead* pHead = &pHeadWithCkSum->head; tqDebug("tmq poll: consumer %ld (epoch %d) iter log, vg %d offset %ld msgType %d", consumerId, pReq->epoch, TD_VID(pTq->pVnode), fetchOffset, pHead->msgType); if (pHead->msgType == TDMT_VND_SUBMIT) { SSubmitReq* pCont = (SSubmitReq*)&pHead->body; if (tqDataExec(pTq, &pHandle->execHandle, pCont, &rsp, workerId) < 0) { /*ASSERT(0);*/ } } else { ASSERT(pHandle->fetchMeta); ASSERT(pHead->msgType == TDMT_VND_CREATE_STB || pHead->msgType == TDMT_VND_ALTER_STB || pHead->msgType == TDMT_VND_DROP_STB || pHead->msgType == TDMT_VND_CREATE_TABLE || pHead->msgType == TDMT_VND_ALTER_TABLE || pHead->msgType == TDMT_VND_DROP_TABLE || pHead->msgType == TDMT_VND_DROP_TTL_TABLE); // return SMqMetaRsp metaRsp = {0}; metaRsp.reqOffset = pReq->currentOffset; metaRsp.rspOffset = fetchOffset; metaRsp.resMsgType = pHead->msgType; metaRsp.metaRspLen = pHead->bodyLen; metaRsp.metaRsp = pHead->body; if (tqSendMetaPollRsp(pTq, pMsg, pReq, &metaRsp) < 0) { code = -1; } code = 0; goto OVER; } // TODO batch optimization: // TODO continue scan until meeting batch requirement if (rsp.blockNum > 0 /* threshold */) { break; } else { fetchOffset++; } } taosMemoryFree(pHeadWithCkSum); ASSERT(taosArrayGetSize(rsp.blockData) == rsp.blockNum); ASSERT(taosArrayGetSize(rsp.blockDataLen) == rsp.blockNum); if (rsp.withSchema) { ASSERT(taosArrayGetSize(rsp.blockSchema) == rsp.blockNum); } rsp.rspOffset = fetchOffset; if (tqSendPollRsp(pTq, pMsg, pReq, &rsp) < 0) { code = -1; } OVER: // TODO wrap in destroy func taosArrayDestroy(rsp.blockDataLen); taosArrayDestroyP(rsp.blockData, (FDelete)taosMemoryFree); if (rsp.withSchema) { taosArrayDestroyP(rsp.blockSchema, (FDelete)tDeleteSSchemaWrapper); } if (rsp.withTbName) { taosArrayDestroyP(rsp.blockTbName, (FDelete)taosMemoryFree); } return code; } int32_t tqProcessVgDeleteReq(STQ* pTq, char* msg, int32_t msgLen) { SMqVDeleteReq* pReq = (SMqVDeleteReq*)msg; int32_t code = taosHashRemove(pTq->handles, pReq->subKey, strlen(pReq->subKey)); ASSERT(code == 0); if (tqMetaDeleteHandle(pTq, pReq->subKey) < 0) { ASSERT(0); } return 0; } int32_t tqProcessVgChangeReq(STQ* pTq, char* msg, int32_t msgLen) { SMqRebVgReq req = {0}; tDecodeSMqRebVgReq(msg, &req); // todo lock STqHandle* pHandle = taosHashGet(pTq->handles, req.subKey, strlen(req.subKey)); if (pHandle == NULL) { ASSERT(req.oldConsumerId == -1); ASSERT(req.newConsumerId != -1); STqHandle tqHandle = {0}; pHandle = &tqHandle; /*taosInitRWLatch(&pExec->lock);*/ memcpy(pHandle->subKey, req.subKey, TSDB_SUBSCRIBE_KEY_LEN); pHandle->consumerId = req.newConsumerId; pHandle->epoch = -1; pHandle->execHandle.subType = req.subType; pHandle->pWalReader = walOpenReadHandle(pTq->pVnode->pWal); for (int32_t i = 0; i < 5; i++) { pHandle->execHandle.pExecReader[i] = tqInitSubmitMsgScanner(pTq->pVnode->pMeta); } if (pHandle->execHandle.subType == TOPIC_SUB_TYPE__COLUMN) { pHandle->execHandle.execCol.qmsg = req.qmsg; req.qmsg = NULL; for (int32_t i = 0; i < 5; i++) { SReadHandle handle = { .reader = pHandle->execHandle.pExecReader[i], .meta = pTq->pVnode->pMeta, }; pHandle->execHandle.execCol.task[i] = qCreateStreamExecTaskInfo(pHandle->execHandle.execCol.qmsg, &handle); ASSERT(pHandle->execHandle.execCol.task[i]); } } else if (pHandle->execHandle.subType == TOPIC_SUB_TYPE__DB) { pHandle->execHandle.execDb.pFilterOutTbUid = taosHashInit(64, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), false, HASH_NO_LOCK); } else if (pHandle->execHandle.subType == TOPIC_SUB_TYPE__TABLE) { pHandle->execHandle.execTb.suid = req.suid; SArray* tbUidList = taosArrayInit(0, sizeof(int64_t)); tsdbGetCtbIdList(pTq->pVnode->pMeta, req.suid, tbUidList); tqDebug("vg %d, tq try get suid: %ld", TD_VID(pTq->pVnode), req.suid); for (int32_t i = 0; i < taosArrayGetSize(tbUidList); i++) { int64_t tbUid = *(int64_t*)taosArrayGet(tbUidList, i); tqDebug("vg %d, idx %d, uid: %ld", TD_VID(pTq->pVnode), i, tbUid); } for (int32_t i = 0; i < 5; i++) { tqReadHandleSetTbUidList(pHandle->execHandle.pExecReader[i], tbUidList); } taosArrayDestroy(tbUidList); } taosHashPut(pTq->handles, req.subKey, strlen(req.subKey), pHandle, sizeof(STqHandle)); if (tqMetaSaveHandle(pTq, req.subKey, pHandle) < 0) { // TODO } } else { /*ASSERT(pExec->consumerId == req.oldConsumerId);*/ // TODO handle qmsg and exec modification atomic_store_32(&pHandle->epoch, -1); atomic_store_64(&pHandle->consumerId, req.newConsumerId); atomic_add_fetch_32(&pHandle->epoch, 1); if (tqMetaSaveHandle(pTq, req.subKey, pHandle) < 0) { // TODO } } return 0; } int32_t tqProcessTaskDeployReq(STQ* pTq, char* msg, int32_t msgLen) { SStreamTask* pTask = taosMemoryCalloc(1, sizeof(SStreamTask)); if (pTask == NULL) { return -1; } SDecoder decoder; tDecoderInit(&decoder, (uint8_t*)msg, msgLen); if (tDecodeSStreamTask(&decoder, pTask) < 0) { ASSERT(0); } tDecoderClear(&decoder); ASSERT(pTask->isDataScan == 0 || pTask->isDataScan == 1); pTask->execStatus = TASK_EXEC_STATUS__IDLE; pTask->inputQueue = streamQueueOpen(); pTask->outputQueue = streamQueueOpen(); pTask->inputStatus = TASK_INPUT_STATUS__NORMAL; pTask->outputStatus = TASK_OUTPUT_STATUS__NORMAL; if (pTask->inputQueue == NULL || pTask->outputQueue == NULL) goto FAIL; pTask->pMsgCb = &pTq->pVnode->msgCb; // exec if (pTask->execType != TASK_EXEC__NONE) { // expand runners if (pTask->isDataScan) { STqReadHandle* pStreamReader = tqInitSubmitMsgScanner(pTq->pVnode->pMeta); SReadHandle handle = { .reader = pStreamReader, .meta = pTq->pVnode->pMeta, .vnode = pTq->pVnode, }; /*pTask->exec.inputHandle = pStreamReader;*/ pTask->exec.executor = qCreateStreamExecTaskInfo(pTask->exec.qmsg, &handle); ASSERT(pTask->exec.executor); } else { pTask->exec.executor = qCreateStreamExecTaskInfo(pTask->exec.qmsg, NULL); ASSERT(pTask->exec.executor); } } // sink /*pTask->ahandle = pTq->pVnode;*/ if (pTask->sinkType == TASK_SINK__SMA) { pTask->smaSink.vnode = pTq->pVnode; pTask->smaSink.smaSink = smaHandleRes; } else if (pTask->sinkType == TASK_SINK__TABLE) { pTask->tbSink.vnode = pTq->pVnode; pTask->tbSink.tbSinkFunc = tqTableSink; ASSERT(pTask->tbSink.pSchemaWrapper); ASSERT(pTask->tbSink.pSchemaWrapper->pSchema); pTask->tbSink.pTSchema = tdGetSTSChemaFromSSChema(&pTask->tbSink.pSchemaWrapper->pSchema, pTask->tbSink.pSchemaWrapper->nCols); ASSERT(pTask->tbSink.pTSchema); } streamSetupTrigger(pTask); tqInfo("deploy stream task id %d child id %d on vg %d", pTask->taskId, pTask->selfChildId, TD_VID(pTq->pVnode)); taosHashPut(pTq->pStreamTasks, &pTask->taskId, sizeof(int32_t), &pTask, sizeof(void*)); return 0; FAIL: if (pTask->inputQueue) streamQueueClose(pTask->inputQueue); if (pTask->outputQueue) streamQueueClose(pTask->outputQueue); if (pTask) taosMemoryFree(pTask); return -1; } int32_t tqProcessStreamTrigger(STQ* pTq, SSubmitReq* pReq) { void* pIter = NULL; bool failed = false; SStreamDataSubmit* pSubmit = NULL; pSubmit = streamDataSubmitNew(pReq); if (pSubmit == NULL) { failed = true; } while (1) { pIter = taosHashIterate(pTq->pStreamTasks, pIter); if (pIter == NULL) break; SStreamTask* pTask = *(SStreamTask**)pIter; if (atomic_load_8(&pTask->taskStatus) == TASK_STATUS__DROPPING) { continue; } if (!pTask->isDataScan) continue; if (!failed) { if (streamTaskInput(pTask, (SStreamQueueItem*)pSubmit) < 0) { continue; } if (streamLaunchByWrite(pTask, TD_VID(pTq->pVnode)) < 0) { continue; } } else { streamTaskInputFail(pTask); } } if (pSubmit) { streamDataSubmitRefDec(pSubmit); taosFreeQitem(pSubmit); } return failed ? -1 : 0; } int32_t tqProcessTaskRunReq(STQ* pTq, SRpcMsg* pMsg) { // SStreamTaskRunReq* pReq = pMsg->pCont; int32_t taskId = pReq->taskId; SStreamTask* pTask = *(SStreamTask**)taosHashGet(pTq->pStreamTasks, &taskId, sizeof(int32_t)); if (atomic_load_8(&pTask->taskStatus) != TASK_STATUS__NORMAL) { return 0; } streamProcessRunReq(pTask); return 0; } int32_t tqProcessTaskDispatchReq(STQ* pTq, SRpcMsg* pMsg) { char* msgStr = pMsg->pCont; char* msgBody = POINTER_SHIFT(msgStr, sizeof(SMsgHead)); int32_t msgLen = pMsg->contLen - sizeof(SMsgHead); SStreamDispatchReq req; SDecoder decoder; tDecoderInit(&decoder, msgBody, msgLen); tDecodeStreamDispatchReq(&decoder, &req); int32_t taskId = req.taskId; SStreamTask* pTask = *(SStreamTask**)taosHashGet(pTq->pStreamTasks, &taskId, sizeof(int32_t)); if (atomic_load_8(&pTask->taskStatus) != TASK_STATUS__NORMAL) { return 0; } SRpcMsg rsp = { .info = pMsg->info, .code = 0, }; streamProcessDispatchReq(pTask, &req, &rsp); return 0; } int32_t tqProcessTaskRecoverReq(STQ* pTq, SRpcMsg* pMsg) { SStreamTaskRecoverReq* pReq = pMsg->pCont; int32_t taskId = pReq->taskId; SStreamTask* pTask = *(SStreamTask**)taosHashGet(pTq->pStreamTasks, &taskId, sizeof(int32_t)); if (atomic_load_8(&pTask->taskStatus) != TASK_STATUS__NORMAL) { return 0; } streamProcessRecoverReq(pTask, pReq, pMsg); return 0; } int32_t tqProcessTaskDispatchRsp(STQ* pTq, SRpcMsg* pMsg) { SStreamDispatchRsp* pRsp = POINTER_SHIFT(pMsg->pCont, sizeof(SMsgHead)); int32_t taskId = pRsp->taskId; SStreamTask* pTask = *(SStreamTask**)taosHashGet(pTq->pStreamTasks, &taskId, sizeof(int32_t)); if (atomic_load_8(&pTask->taskStatus) != TASK_STATUS__NORMAL) { return 0; } streamProcessDispatchRsp(pTask, pRsp); return 0; } int32_t tqProcessTaskRecoverRsp(STQ* pTq, SRpcMsg* pMsg) { SStreamTaskRecoverRsp* pRsp = pMsg->pCont; int32_t taskId = pRsp->taskId; SStreamTask* pTask = *(SStreamTask**)taosHashGet(pTq->pStreamTasks, &taskId, sizeof(int32_t)); if (atomic_load_8(&pTask->taskStatus) != TASK_STATUS__NORMAL) { return 0; } streamProcessRecoverRsp(pTask, pRsp); return 0; } int32_t tqProcessTaskDropReq(STQ* pTq, char* msg, int32_t msgLen) { SVDropStreamTaskReq* pReq = (SVDropStreamTaskReq*)msg; SStreamTask* pTask = *(SStreamTask**)taosHashGet(pTq->pStreamTasks, &pReq->taskId, sizeof(int32_t)); atomic_store_8(&pTask->taskStatus, TASK_STATUS__DROPPING); // todo // clear queue // push drop req into queue // launch exec to free memory // remove from hash return 0; #if 0 int32_t code = taosHashRemove(pTq->pStreamTasks, &pReq->taskId, sizeof(int32_t)); // set status dropping ASSERT(code == 0); if (code == 0) { // sendrsp } return code; #endif } int32_t tqProcessTaskRetrieveReq(STQ* pTq, SRpcMsg* pMsg) { char* msgStr = pMsg->pCont; char* msgBody = POINTER_SHIFT(msgStr, sizeof(SMsgHead)); int32_t msgLen = pMsg->contLen - sizeof(SMsgHead); SStreamRetrieveReq req; SDecoder decoder; tDecoderInit(&decoder, msgBody, msgLen); tDecodeStreamRetrieveReq(&decoder, &req); int32_t taskId = req.dstTaskId; SStreamTask* pTask = *(SStreamTask**)taosHashGet(pTq->pStreamTasks, &taskId, sizeof(int32_t)); if (atomic_load_8(&pTask->taskStatus) != TASK_STATUS__NORMAL) { return 0; } SRpcMsg rsp = { .info = pMsg->info, .code = 0, }; streamProcessRetrieveReq(pTask, &req, &rsp); return 0; } int32_t tqProcessTaskRetrieveRsp(STQ* pTq, SRpcMsg* pMsg) { // return 0; }