/* * 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 "streamInt.h" #include "ttimer.h" #include "wal.h" static void launchFillHistoryTask(SStreamTask* pTask); static void streamTaskSetRangeStreamCalc(SStreamTask* pTask); static void streamTaskSetForReady(SStreamTask* pTask, int32_t numOfReqs) { ASSERT(pTask->status.downstreamReady == 0); pTask->status.downstreamReady = 1; int64_t el = (taosGetTimestampMs() - pTask->tsInfo.init); qDebug("s-task:%s all %d downstream ready, init completed, elapsed time:%dms, task status:%s", pTask->id.idStr, numOfReqs, (int32_t) el, streamGetTaskStatusStr(pTask->status.taskStatus)); } int32_t streamStartRecoverTask(SStreamTask* pTask, int8_t igUntreated) { SStreamScanHistoryReq req; streamBuildSourceRecover1Req(pTask, &req, igUntreated); int32_t len = sizeof(SStreamScanHistoryReq); void* serializedReq = rpcMallocCont(len); if (serializedReq == NULL) { return -1; } memcpy(serializedReq, &req, len); SRpcMsg rpcMsg = {.contLen = len, .pCont = serializedReq, .msgType = TDMT_VND_STREAM_SCAN_HISTORY}; if (tmsgPutToQueue(pTask->pMsgCb, STREAM_QUEUE, &rpcMsg) < 0) { /*ASSERT(0);*/ } return 0; } const char* streamGetTaskStatusStr(int32_t status) { switch(status) { case TASK_STATUS__NORMAL: return "normal"; case TASK_STATUS__SCAN_HISTORY: return "scan-history"; case TASK_STATUS__HALT: return "halt"; case TASK_STATUS__PAUSE: return "paused"; case TASK_STATUS__DROPPING: return "dropping"; default:return ""; } } static int32_t doLaunchScanHistoryTask(SStreamTask* pTask) { SVersionRange* pRange = &pTask->dataRange.range; if (pTask->info.fillHistory) { streamSetParamForScanHistory(pTask); } streamSetParamForStreamScannerStep1(pTask, pRange, &pTask->dataRange.window); int32_t code = streamStartRecoverTask(pTask, 0); return code; } int32_t streamTaskLaunchScanHistory(SStreamTask* pTask) { if (pTask->info.taskLevel == TASK_LEVEL__SOURCE) { if (pTask->status.taskStatus == TASK_STATUS__SCAN_HISTORY) { return doLaunchScanHistoryTask(pTask); } else { ASSERT(pTask->status.taskStatus == TASK_STATUS__NORMAL); qDebug("s-task:%s no need to scan-history-data, status:%s, sched-status:%d, ver:%" PRId64, pTask->id.idStr, streamGetTaskStatusStr(pTask->status.taskStatus), pTask->status.schedStatus, walReaderGetCurrentVer(pTask->exec.pWalReader)); } } else if (pTask->info.taskLevel == TASK_LEVEL__AGG) { if (pTask->info.fillHistory) { streamSetParamForScanHistory(pTask); } streamTaskEnablePause(pTask); streamTaskScanHistoryPrepare(pTask); } else if (pTask->info.taskLevel == TASK_LEVEL__SINK) { qDebug("s-task:%s sink task do nothing to handle scan-history", pTask->id.idStr); streamTaskScanHistoryPrepare(pTask); } return 0; } // check status int32_t streamTaskDoCheckDownstreamTasks(SStreamTask* pTask) { SHistDataRange* pRange = &pTask->dataRange; STimeWindow* pWindow = &pRange->window; SStreamTaskCheckReq req = { .streamId = pTask->id.streamId, .upstreamTaskId = pTask->id.taskId, .upstreamNodeId = pTask->info.nodeId, .childId = pTask->info.selfChildId, }; // serialize if (pTask->outputInfo.type == TASK_OUTPUT__FIXED_DISPATCH) { req.reqId = tGenIdPI64(); req.downstreamNodeId = pTask->fixedEpDispatcher.nodeId; req.downstreamTaskId = pTask->fixedEpDispatcher.taskId; pTask->checkReqId = req.reqId; qDebug("s-task:%s check single downstream task:0x%x(vgId:%d) ver:%" PRId64 "-%" PRId64 " window:%" PRId64 "-%" PRId64 ", req:0x%" PRIx64, pTask->id.idStr, req.downstreamTaskId, req.downstreamNodeId, pRange->range.minVer, pRange->range.maxVer, pWindow->skey, pWindow->ekey, req.reqId); streamDispatchCheckMsg(pTask, &req, pTask->fixedEpDispatcher.nodeId, &pTask->fixedEpDispatcher.epSet); } else if (pTask->outputInfo.type == TASK_OUTPUT__SHUFFLE_DISPATCH) { SArray* vgInfo = pTask->shuffleDispatcher.dbInfo.pVgroupInfos; int32_t numOfVgs = taosArrayGetSize(vgInfo); pTask->notReadyTasks = numOfVgs; pTask->checkReqIds = taosArrayInit(numOfVgs, sizeof(int64_t)); qDebug("s-task:%s check %d downstream tasks, ver:%" PRId64 "-%" PRId64 " window:%" PRId64 "-%" PRId64, pTask->id.idStr, numOfVgs, pRange->range.minVer, pRange->range.maxVer, pWindow->skey, pWindow->ekey); for (int32_t i = 0; i < numOfVgs; i++) { SVgroupInfo* pVgInfo = taosArrayGet(vgInfo, i); req.reqId = tGenIdPI64(); taosArrayPush(pTask->checkReqIds, &req.reqId); req.downstreamNodeId = pVgInfo->vgId; req.downstreamTaskId = pVgInfo->taskId; qDebug("s-task:%s (vgId:%d) check downstream task:0x%x (vgId:%d) (shuffle), idx:%d", pTask->id.idStr, pTask->info.nodeId, req.downstreamTaskId, req.downstreamNodeId, i); streamDispatchCheckMsg(pTask, &req, pVgInfo->vgId, &pVgInfo->epSet); } } else { qDebug("s-task:%s (vgId:%d) set downstream ready, since no downstream", pTask->id.idStr, pTask->info.nodeId); streamTaskSetForReady(pTask, 0); streamTaskSetRangeStreamCalc(pTask); streamTaskLaunchScanHistory(pTask); launchFillHistoryTask(pTask); } return 0; } int32_t streamRecheckDownstream(SStreamTask* pTask, const SStreamTaskCheckRsp* pRsp) { SStreamTaskCheckReq req = { .reqId = pRsp->reqId, .streamId = pRsp->streamId, .upstreamTaskId = pRsp->upstreamTaskId, .upstreamNodeId = pRsp->upstreamNodeId, .downstreamTaskId = pRsp->downstreamTaskId, .downstreamNodeId = pRsp->downstreamNodeId, .childId = pRsp->childId, }; qDebug("s-task:%s (vgId:%d) check downstream task:0x%x (vgId:%d) (recheck)", pTask->id.idStr, pTask->info.nodeId, req.downstreamTaskId, req.downstreamNodeId); if (pTask->outputInfo.type == TASK_OUTPUT__FIXED_DISPATCH) { streamDispatchCheckMsg(pTask, &req, pRsp->downstreamNodeId, &pTask->fixedEpDispatcher.epSet); } else if (pTask->outputInfo.type == TASK_OUTPUT__SHUFFLE_DISPATCH) { SArray* vgInfo = pTask->shuffleDispatcher.dbInfo.pVgroupInfos; int32_t numOfVgs = taosArrayGetSize(vgInfo); for (int32_t i = 0; i < numOfVgs; i++) { SVgroupInfo* pVgInfo = taosArrayGet(vgInfo, i); if (pVgInfo->taskId == req.downstreamTaskId) { streamDispatchCheckMsg(pTask, &req, pRsp->downstreamNodeId, &pVgInfo->epSet); } } } return 0; } int32_t streamTaskCheckStatus(SStreamTask* pTask) { return (pTask->status.downstreamReady == 1)? 1:0; } static void doProcessDownstreamReadyRsp(SStreamTask* pTask, int32_t numOfReqs) { streamTaskSetForReady(pTask, numOfReqs); const char* id = pTask->id.idStr; int8_t status = pTask->status.taskStatus; const char* str = streamGetTaskStatusStr(status); ASSERT(status == TASK_STATUS__SCAN_HISTORY || status == TASK_STATUS__NORMAL); streamTaskSetRangeStreamCalc(pTask); if (status == TASK_STATUS__SCAN_HISTORY) { qDebug("s-task:%s enter into scan-history data stage, status:%s", id, str); streamTaskLaunchScanHistory(pTask); } else { qDebug("s-task:%s downstream tasks are ready, now ready for data from wal, status:%s", id, str); } // when current stream task is ready, check the related fill history task. launchFillHistoryTask(pTask); } int32_t streamProcessCheckRsp(SStreamTask* pTask, const SStreamTaskCheckRsp* pRsp) { ASSERT(pTask->id.taskId == pRsp->upstreamTaskId); const char* id = pTask->id.idStr; if (pRsp->status == 1) { if (pTask->outputInfo.type == TASK_OUTPUT__SHUFFLE_DISPATCH) { bool found = false; int32_t numOfReqs = taosArrayGetSize(pTask->checkReqIds); for (int32_t i = 0; i < numOfReqs; i++) { int64_t reqId = *(int64_t*)taosArrayGet(pTask->checkReqIds, i); if (reqId == pRsp->reqId) { found = true; break; } } if (!found) { return -1; } int32_t left = atomic_sub_fetch_32(&pTask->notReadyTasks, 1); ASSERT(left >= 0); if (left == 0) { taosArrayDestroy(pTask->checkReqIds); pTask->checkReqIds = NULL; doProcessDownstreamReadyRsp(pTask, numOfReqs); } else { int32_t total = taosArrayGetSize(pTask->shuffleDispatcher.dbInfo.pVgroupInfos); qDebug("s-task:%s (vgId:%d) recv check rsp from task:0x%x (vgId:%d) status:%d, total:%d not ready:%d", id, pRsp->upstreamNodeId, pRsp->downstreamTaskId, pRsp->downstreamNodeId, pRsp->status, total, left); } } else { ASSERT(pTask->outputInfo.type == TASK_OUTPUT__FIXED_DISPATCH); if (pRsp->reqId != pTask->checkReqId) { return -1; } doProcessDownstreamReadyRsp(pTask, 1); } } else { // not ready, wait for 100ms and retry qDebug("s-task:%s downstream taskId:0x%x (vgId:%d) not ready, wait for 100ms and retry", id, pRsp->downstreamTaskId, pRsp->downstreamNodeId); taosMsleep(100); streamRecheckDownstream(pTask, pRsp); } return 0; } int32_t streamSendCheckRsp(const SStreamMeta* pMeta, const SStreamTaskCheckReq* pReq, SStreamTaskCheckRsp* pRsp, SRpcHandleInfo *pRpcInfo, int32_t taskId) { SEncoder encoder; int32_t code; int32_t len; tEncodeSize(tEncodeStreamTaskCheckRsp, pRsp, len, code); if (code < 0) { qError("vgId:%d failed to encode task check rsp, s-task:0x%x", pMeta->vgId, taskId); return -1; } void* buf = rpcMallocCont(sizeof(SMsgHead) + len); ((SMsgHead*)buf)->vgId = htonl(pReq->upstreamNodeId); void* abuf = POINTER_SHIFT(buf, sizeof(SMsgHead)); tEncoderInit(&encoder, (uint8_t*)abuf, len); tEncodeStreamTaskCheckRsp(&encoder, pRsp); tEncoderClear(&encoder); SRpcMsg rspMsg = {.code = 0, .pCont = buf, .contLen = sizeof(SMsgHead) + len, .info = *pRpcInfo}; tmsgSendRsp(&rspMsg); return 0; } // common int32_t streamSetParamForScanHistory(SStreamTask* pTask) { qDebug("s-task:%s set operator option for scan-history data", pTask->id.idStr); return qSetStreamOperatorOptionForScanHistory(pTask->exec.pExecutor); } int32_t streamRestoreParam(SStreamTask* pTask) { qDebug("s-task:%s restore operator param after scan-history", pTask->id.idStr); return qRestoreStreamOperatorOption(pTask->exec.pExecutor); } int32_t streamSetStatusNormal(SStreamTask* pTask) { int32_t status = atomic_load_8(&pTask->status.taskStatus); if (status == TASK_STATUS__DROPPING) { qError("s-task:%s cannot be set normal, since in dropping state", pTask->id.idStr); return -1; } else { qDebug("s-task:%s set task status to be normal, prev:%s", pTask->id.idStr, streamGetTaskStatusStr(status)); atomic_store_8(&pTask->status.taskStatus, TASK_STATUS__NORMAL); return 0; } } // source int32_t streamSetParamForStreamScannerStep1(SStreamTask* pTask, SVersionRange *pVerRange, STimeWindow* pWindow) { return qStreamSourceScanParamForHistoryScanStep1(pTask->exec.pExecutor, pVerRange, pWindow); } int32_t streamSetParamForStreamScannerStep2(SStreamTask* pTask, SVersionRange *pVerRange, STimeWindow* pWindow) { return qStreamSourceScanParamForHistoryScanStep2(pTask->exec.pExecutor, pVerRange, pWindow); } int32_t streamBuildSourceRecover1Req(SStreamTask* pTask, SStreamScanHistoryReq* pReq, int8_t igUntreated) { pReq->msgHead.vgId = pTask->info.nodeId; pReq->streamId = pTask->id.streamId; pReq->taskId = pTask->id.taskId; pReq->igUntreated = igUntreated; return 0; } int32_t streamSourceScanHistoryData(SStreamTask* pTask) { return streamScanExec(pTask, 100); } int32_t streamDispatchScanHistoryFinishMsg(SStreamTask* pTask) { SStreamScanHistoryFinishReq req = { .streamId = pTask->id.streamId, .childId = pTask->info.selfChildId, .upstreamTaskId = pTask->id.taskId, .upstreamNodeId = pTask->pMeta->vgId, }; // serialize if (pTask->outputInfo.type == TASK_OUTPUT__FIXED_DISPATCH) { req.downstreamTaskId = pTask->fixedEpDispatcher.taskId; pTask->notReadyTasks = 1; streamDoDispatchScanHistoryFinishMsg(pTask, &req, pTask->fixedEpDispatcher.nodeId, &pTask->fixedEpDispatcher.epSet); } else if (pTask->outputInfo.type == TASK_OUTPUT__SHUFFLE_DISPATCH) { SArray* vgInfo = pTask->shuffleDispatcher.dbInfo.pVgroupInfos; int32_t numOfVgs = taosArrayGetSize(vgInfo); pTask->notReadyTasks = numOfVgs; qDebug("s-task:%s send scan-history data complete msg to downstream (shuffle-dispatch) %d tasks, status:%s", pTask->id.idStr, numOfVgs, streamGetTaskStatusStr(pTask->status.taskStatus)); for (int32_t i = 0; i < numOfVgs; i++) { SVgroupInfo* pVgInfo = taosArrayGet(vgInfo, i); req.downstreamTaskId = pVgInfo->taskId; streamDoDispatchScanHistoryFinishMsg(pTask, &req, pVgInfo->vgId, &pVgInfo->epSet); } } else { qDebug("s-task:%s no downstream tasks, invoke scan-history finish rsp directly", pTask->id.idStr); streamProcessScanHistoryFinishRsp(pTask); } return 0; } static int32_t doDispatchTransferMsg(SStreamTask* pTask, const SStreamTransferReq* pReq, int32_t vgId, SEpSet* pEpSet) { void* buf = NULL; int32_t code = -1; SRpcMsg msg = {0}; int32_t tlen; tEncodeSize(tEncodeStreamScanHistoryFinishReq, pReq, tlen, code); if (code < 0) { return -1; } buf = rpcMallocCont(sizeof(SMsgHead) + tlen); if (buf == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } ((SMsgHead*)buf)->vgId = htonl(vgId); void* abuf = POINTER_SHIFT(buf, sizeof(SMsgHead)); SEncoder encoder; tEncoderInit(&encoder, abuf, tlen); if ((code = tEncodeStreamScanHistoryFinishReq(&encoder, pReq)) < 0) { if (buf) { rpcFreeCont(buf); } return code; } tEncoderClear(&encoder); msg.contLen = tlen + sizeof(SMsgHead); msg.pCont = buf; msg.msgType = TDMT_STREAM_TRANSFER_STATE; msg.info.noResp = 1; tmsgSendReq(pEpSet, &msg); qDebug("s-task:%s level:%d, status:%s dispatch transfer state msg to taskId:0x%x (vgId:%d)", pTask->id.idStr, pTask->info.taskLevel, streamGetTaskStatusStr(pTask->status.taskStatus), pReq->downstreamTaskId, vgId); return 0; } int32_t streamDispatchTransferStateMsg(SStreamTask* pTask) { SStreamTransferReq req = { .streamId = pTask->id.streamId, .childId = pTask->info.selfChildId }; // serialize if (pTask->outputInfo.type == TASK_OUTPUT__FIXED_DISPATCH) { req.downstreamTaskId = pTask->fixedEpDispatcher.taskId; doDispatchTransferMsg(pTask, &req, pTask->fixedEpDispatcher.nodeId, &pTask->fixedEpDispatcher.epSet); } else if (pTask->outputInfo.type == TASK_OUTPUT__SHUFFLE_DISPATCH) { SArray* vgInfo = pTask->shuffleDispatcher.dbInfo.pVgroupInfos; int32_t numOfVgs = taosArrayGetSize(vgInfo); for (int32_t i = 0; i < numOfVgs; i++) { SVgroupInfo* pVgInfo = taosArrayGet(vgInfo, i); req.downstreamTaskId = pVgInfo->taskId; doDispatchTransferMsg(pTask, &req, pVgInfo->vgId, &pVgInfo->epSet); } } return 0; } // agg int32_t streamTaskScanHistoryPrepare(SStreamTask* pTask) { pTask->numOfWaitingUpstream = taosArrayGetSize(pTask->pUpstreamEpInfoList); qDebug("s-task:%s level:%d task wait for %d upstream tasks complete scan-history procedure, status:%s", pTask->id.idStr, pTask->info.taskLevel, pTask->numOfWaitingUpstream, streamGetTaskStatusStr(pTask->status.taskStatus)); return 0; } int32_t streamAggUpstreamScanHistoryFinish(SStreamTask* pTask) { void* exec = pTask->exec.pExecutor; if (pTask->info.fillHistory && qRestoreStreamOperatorOption(exec) < 0) { return -1; } if (qStreamRecoverFinish(exec) < 0) { return -1; } return 0; } int32_t streamProcessScanHistoryFinishReq(SStreamTask* pTask, SStreamScanHistoryFinishReq* pReq, SRpcHandleInfo* pRpcInfo) { int32_t taskLevel = pTask->info.taskLevel; ASSERT(taskLevel == TASK_LEVEL__AGG || taskLevel == TASK_LEVEL__SINK); // sink node do not send end of scan history msg to its upstream, which is agg task. streamAddEndScanHistoryMsg(pTask, pRpcInfo, pReq); int32_t left = atomic_sub_fetch_32(&pTask->numOfWaitingUpstream, 1); ASSERT(left >= 0); if (left == 0) { int32_t numOfTasks = taosArrayGetSize(pTask->pUpstreamEpInfoList); qDebug( "s-task:%s all %d upstream tasks finish scan-history data, set param for agg task for stream data and send " "rsp to all upstream tasks", pTask->id.idStr, numOfTasks); if (pTask->info.taskLevel == TASK_LEVEL__AGG) { streamAggUpstreamScanHistoryFinish(pTask); } streamNotifyUpstreamContinue(pTask); // sink node does not receive the pause msg from mnode, so does not need enable it if (pTask->info.taskLevel == TASK_LEVEL__AGG) { streamTaskEnablePause(pTask); } } else { qDebug("s-task:%s receive scan-history data finish msg from upstream:0x%x(index:%d), unfinished:%d", pTask->id.idStr, pReq->upstreamTaskId, pReq->childId, left); } return 0; } int32_t streamProcessScanHistoryFinishRsp(SStreamTask* pTask) { ASSERT(pTask->status.taskStatus == TASK_STATUS__SCAN_HISTORY); SStreamMeta* pMeta = pTask->pMeta; // execute in the scan history complete call back msg, ready to process data from inputQ streamSetStatusNormal(pTask); atomic_store_8(&pTask->status.schedStatus, TASK_SCHED_STATUS__INACTIVE); taosWLockLatch(&pMeta->lock); streamMetaSaveTask(pMeta, pTask); taosWUnLockLatch(&pMeta->lock); // history data scan in the stream time window finished, now let's enable the pause streamTaskEnablePause(pTask); if (pTask->info.taskLevel == TASK_LEVEL__SOURCE) { streamSchedExec(pTask); } return TSDB_CODE_SUCCESS; } static void doCheckDownstreamStatus(SStreamTask* pTask, SStreamTask* pHTask) { pHTask->dataRange.range.minVer = 0; pHTask->dataRange.range.maxVer = pTask->chkInfo.currentVer; if (pTask->info.taskLevel == TASK_LEVEL__SOURCE) { qDebug("s-task:%s set the launch condition for fill-history s-task:%s, window:%" PRId64 " - %" PRId64 " ver range:%" PRId64 " - %" PRId64, pTask->id.idStr, pHTask->id.idStr, pHTask->dataRange.window.skey, pHTask->dataRange.window.ekey, pHTask->dataRange.range.minVer, pHTask->dataRange.range.maxVer); } else { qDebug("s-task:%s no fill history condition for non-source task:%s", pTask->id.idStr, pHTask->id.idStr); } // check if downstream tasks have been ready streamTaskDoCheckDownstreamTasks(pHTask); } typedef struct SStreamTaskRetryInfo { SStreamMeta* pMeta; int32_t taskId; } SStreamTaskRetryInfo; static void tryLaunchHistoryTask(void* param, void* tmrId) { SStreamTaskRetryInfo* pInfo = param; SStreamMeta* pMeta = pInfo->pMeta; qDebug("s-task:0x%x in timer to launch related history task", pInfo->taskId); taosWLockLatch(&pMeta->lock); SStreamTask** ppTask = (SStreamTask**)taosHashGet(pMeta->pTasks, &pInfo->taskId, sizeof(int32_t)); if (ppTask) { ASSERT((*ppTask)->status.timerActive == 1); if (streamTaskShouldStop(&(*ppTask)->status)) { const char* pStatus = streamGetTaskStatusStr((*ppTask)->status.taskStatus); qDebug("s-task:%s status:%s quit timer task", (*ppTask)->id.idStr, pStatus); taosMemoryFree(pInfo); (*ppTask)->status.timerActive = 0; taosWUnLockLatch(&pMeta->lock); return; } } taosWUnLockLatch(&pMeta->lock); SStreamTask* pTask = streamMetaAcquireTask(pMeta, pInfo->taskId); if (pTask != NULL) { ASSERT(pTask->status.timerActive == 1); // abort the timer if intend to stop task SStreamTask* pHTask = streamMetaAcquireTask(pMeta, pTask->historyTaskId.taskId); if (pHTask == NULL && (!streamTaskShouldStop(&pTask->status))) { const char* pStatus = streamGetTaskStatusStr(pTask->status.taskStatus); qWarn( "s-task:%s vgId:%d status:%s failed to launch history task:0x%x, since it may not be built, or may have been " "destroyed, or should stop", pTask->id.idStr, pMeta->vgId, pStatus, pTask->historyTaskId.taskId); taosTmrReset(tryLaunchHistoryTask, 100, pInfo, streamEnv.timer, &pTask->launchTaskTimer); streamMetaReleaseTask(pMeta, pTask); return; } if (pHTask != NULL) { doCheckDownstreamStatus(pTask, pHTask); streamMetaReleaseTask(pMeta, pHTask); } // not in timer anymore pTask->status.timerActive = 0; streamMetaReleaseTask(pMeta, pTask); } else { qError("s-task:0x%x failed to load task, it may have been destroyed", pInfo->taskId); } taosMemoryFree(pInfo); } // todo fix the bug: 2. race condition // an fill history task needs to be started. int32_t streamLaunchFillHistoryTask(SStreamTask* pTask) { SStreamMeta* pMeta = pTask->pMeta; int32_t hTaskId = pTask->historyTaskId.taskId; // Set the execute conditions, including the query time window and the version range SStreamTask** pHTask = taosHashGet(pMeta->pTasks, &hTaskId, sizeof(hTaskId)); if (pHTask == NULL) { qWarn("s-task:%s vgId:%d failed to launch history task:0x%x, since it is not built yet", pTask->id.idStr, pMeta->vgId, hTaskId); SStreamTaskRetryInfo* pInfo = taosMemoryCalloc(1, sizeof(SStreamTaskRetryInfo)); pInfo->taskId = pTask->id.taskId; pInfo->pMeta = pTask->pMeta; if (pTask->launchTaskTimer == NULL) { pTask->launchTaskTimer = taosTmrStart(tryLaunchHistoryTask, 100, pInfo, streamEnv.timer); if (pTask->launchTaskTimer == NULL) { // todo failed to create timer taosMemoryFree(pInfo); } else { pTask->status.timerActive = 1; // timer is active qDebug("s-task:%s set timer active flag", pTask->id.idStr); } } else { // timer exists pTask->status.timerActive = 1; qDebug("s-task:%s set timer active flag, task timer not null", pTask->id.idStr); taosTmrReset(tryLaunchHistoryTask, 100, pInfo, streamEnv.timer, &pTask->launchTaskTimer); } // try again in 500ms return TSDB_CODE_SUCCESS; } doCheckDownstreamStatus(pTask, *pHTask); return TSDB_CODE_SUCCESS; } int32_t streamTaskScanHistoryDataComplete(SStreamTask* pTask) { if (atomic_load_8(&pTask->status.taskStatus) == TASK_STATUS__DROPPING) { return 0; } // restore param int32_t code = 0; if (pTask->info.fillHistory) { code = streamRestoreParam(pTask); if (code < 0) { return -1; } } // dispatch recover finish req to all related downstream task code = streamDispatchScanHistoryFinishMsg(pTask); if (code < 0) { return -1; } return 0; } bool streamTaskRecoverScanStep1Finished(SStreamTask* pTask) { void* exec = pTask->exec.pExecutor; return qStreamRecoverScanStep1Finished(exec); } bool streamTaskRecoverScanStep2Finished(SStreamTask* pTask) { void* exec = pTask->exec.pExecutor; return qStreamRecoverScanStep2Finished(exec); } int32_t streamTaskRecoverSetAllStepFinished(SStreamTask* pTask) { void* exec = pTask->exec.pExecutor; return qStreamRecoverSetAllStepFinished(exec); } bool streamHistoryTaskSetVerRangeStep2(SStreamTask* pTask, int64_t latestVer) { SVersionRange* pRange = &pTask->dataRange.range; ASSERT(latestVer >= pRange->maxVer); int64_t nextStartVer = pRange->maxVer + 1; if (nextStartVer > latestVer - 1) { // no input data yet. no need to execute the secondardy scan while stream task halt streamTaskRecoverSetAllStepFinished(pTask); qDebug( "s-task:%s no need to perform secondary scan-history data(step 2), since no data ingest during step1 scan, " "related stream task currentVer:%" PRId64, pTask->id.idStr, latestVer); return true; } else { // 2. do secondary scan of the history data, the time window remain, and the version range is updated to // [pTask->dataRange.range.maxVer, ver1] pRange->minVer = nextStartVer; pRange->maxVer = latestVer - 1; return false; } } int32_t tEncodeStreamTaskCheckReq(SEncoder* pEncoder, const SStreamTaskCheckReq* pReq) { if (tStartEncode(pEncoder) < 0) return -1; if (tEncodeI64(pEncoder, pReq->reqId) < 0) return -1; if (tEncodeI64(pEncoder, pReq->streamId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->upstreamNodeId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->upstreamTaskId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->downstreamNodeId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->downstreamTaskId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->childId) < 0) return -1; tEndEncode(pEncoder); return pEncoder->pos; } int32_t tDecodeStreamTaskCheckReq(SDecoder* pDecoder, SStreamTaskCheckReq* pReq) { if (tStartDecode(pDecoder) < 0) return -1; if (tDecodeI64(pDecoder, &pReq->reqId) < 0) return -1; if (tDecodeI64(pDecoder, &pReq->streamId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->upstreamNodeId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->upstreamTaskId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->downstreamNodeId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->downstreamTaskId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->childId) < 0) return -1; tEndDecode(pDecoder); return 0; } int32_t tEncodeStreamTaskCheckRsp(SEncoder* pEncoder, const SStreamTaskCheckRsp* pRsp) { if (tStartEncode(pEncoder) < 0) return -1; if (tEncodeI64(pEncoder, pRsp->reqId) < 0) return -1; if (tEncodeI64(pEncoder, pRsp->streamId) < 0) return -1; if (tEncodeI32(pEncoder, pRsp->upstreamNodeId) < 0) return -1; if (tEncodeI32(pEncoder, pRsp->upstreamTaskId) < 0) return -1; if (tEncodeI32(pEncoder, pRsp->downstreamNodeId) < 0) return -1; if (tEncodeI32(pEncoder, pRsp->downstreamTaskId) < 0) return -1; if (tEncodeI32(pEncoder, pRsp->childId) < 0) return -1; if (tEncodeI8(pEncoder, pRsp->status) < 0) return -1; tEndEncode(pEncoder); return pEncoder->pos; } int32_t tDecodeStreamTaskCheckRsp(SDecoder* pDecoder, SStreamTaskCheckRsp* pRsp) { if (tStartDecode(pDecoder) < 0) return -1; if (tDecodeI64(pDecoder, &pRsp->reqId) < 0) return -1; if (tDecodeI64(pDecoder, &pRsp->streamId) < 0) return -1; if (tDecodeI32(pDecoder, &pRsp->upstreamNodeId) < 0) return -1; if (tDecodeI32(pDecoder, &pRsp->upstreamTaskId) < 0) return -1; if (tDecodeI32(pDecoder, &pRsp->downstreamNodeId) < 0) return -1; if (tDecodeI32(pDecoder, &pRsp->downstreamTaskId) < 0) return -1; if (tDecodeI32(pDecoder, &pRsp->childId) < 0) return -1; if (tDecodeI8(pDecoder, &pRsp->status) < 0) return -1; tEndDecode(pDecoder); return 0; } int32_t tEncodeStreamScanHistoryFinishReq(SEncoder* pEncoder, const SStreamScanHistoryFinishReq* pReq) { if (tStartEncode(pEncoder) < 0) return -1; if (tEncodeI64(pEncoder, pReq->streamId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->upstreamTaskId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->upstreamNodeId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->downstreamTaskId) < 0) return -1; if (tEncodeI32(pEncoder, pReq->childId) < 0) return -1; tEndEncode(pEncoder); return pEncoder->pos; } int32_t tDecodeStreamScanHistoryFinishReq(SDecoder* pDecoder, SStreamScanHistoryFinishReq* pReq) { if (tStartDecode(pDecoder) < 0) return -1; if (tDecodeI64(pDecoder, &pReq->streamId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->upstreamTaskId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->upstreamNodeId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->downstreamTaskId) < 0) return -1; if (tDecodeI32(pDecoder, &pReq->childId) < 0) return -1; tEndDecode(pDecoder); return 0; } void streamTaskSetRangeStreamCalc(SStreamTask* pTask) { if (pTask->historyTaskId.taskId == 0) { SHistDataRange* pRange = &pTask->dataRange; if (pTask->info.fillHistory == 1) { qDebug("s-task:%s fill-history task, time window:%" PRId64 "-%" PRId64 ", verRange:%" PRId64 "-%" PRId64, pTask->id.idStr, pRange->window.skey, pRange->window.ekey, pRange->range.minVer, pRange->range.maxVer); } else { qDebug("s-task:%s no related fill-history task, stream time window:%" PRId64 "-%" PRId64 ", verRange:%" PRId64 "-%" PRId64, pTask->id.idStr, pRange->window.skey, pRange->window.ekey, pRange->range.minVer, pRange->range.maxVer); } } else { SHistDataRange* pRange = &pTask->dataRange; int64_t ekey = 0; if (pRange->window.ekey < INT64_MAX) { ekey = pRange->window.ekey + 1; } else { ekey = pRange->window.ekey; } int64_t ver = pRange->range.minVer; pRange->window.skey = ekey; pRange->window.ekey = INT64_MAX; pRange->range.minVer = 0; pRange->range.maxVer = ver; qDebug("s-task:%s level:%d related fill-history task exists, update stream calc time window:%" PRId64 " - %" PRId64 ", verRang:%" PRId64 " - %" PRId64, pTask->id.idStr, pTask->info.taskLevel, pRange->window.skey, pRange->window.ekey, pRange->range.minVer, pRange->range.maxVer); } } void launchFillHistoryTask(SStreamTask* pTask) { int32_t tId = pTask->historyTaskId.taskId; if (tId == 0) { return; } ASSERT(pTask->status.downstreamReady == 1); qDebug("s-task:%s start to launch related fill-history task:0x%x", pTask->id.idStr, tId); // launch associated fill history task streamLaunchFillHistoryTask(pTask); } void streamTaskCheckDownstreamTasks(SStreamTask* pTask) { if (pTask->info.fillHistory) { qDebug("s-task:%s fill history task, wait for being launched", pTask->id.idStr); return; } ASSERT(pTask->status.downstreamReady == 0); // check downstream tasks for itself streamTaskDoCheckDownstreamTasks(pTask); } // normal -> pause, pause/stop/dropping -> pause, halt -> pause, scan-history -> pause void streamTaskPause(SStreamTask* pTask) { SStreamMeta* pMeta = pTask->pMeta; int64_t st = taosGetTimestampMs(); int8_t status = pTask->status.taskStatus; if (status == TASK_STATUS__DROPPING) { qDebug("vgId:%d s-task:%s task already dropped, do nothing", pMeta->vgId, pTask->id.idStr); return; } const char* str = streamGetTaskStatusStr(status); if (status == TASK_STATUS__STOP || status == TASK_STATUS__PAUSE) { qDebug("vgId:%d s-task:%s task already stopped/paused, status:%s, do nothing", pMeta->vgId, pTask->id.idStr, str); return; } while (!pTask->status.pauseAllowed || (pTask->status.taskStatus == TASK_STATUS__HALT)) { status = pTask->status.taskStatus; if (status == TASK_STATUS__DROPPING) { qDebug("vgId:%d s-task:%s task already dropped, do nothing", pMeta->vgId, pTask->id.idStr); return; } if (status == TASK_STATUS__STOP || status == TASK_STATUS__PAUSE) { qDebug("vgId:%d s-task:%s task already stopped/paused, status:%s, do nothing", pMeta->vgId, pTask->id.idStr, str); return; } const char* pStatus = streamGetTaskStatusStr(status); qDebug("s-task:%s wait for the task can be paused, status:%s, vgId:%d", pTask->id.idStr, pStatus, pMeta->vgId); taosMsleep(100); } // todo: use the lock of the task. taosWLockLatch(&pMeta->lock); status = pTask->status.taskStatus; if (status == TASK_STATUS__DROPPING || status == TASK_STATUS__STOP) { taosWUnLockLatch(&pMeta->lock); qDebug("vgId:%d s-task:%s task already dropped/stopped/paused, do nothing", pMeta->vgId, pTask->id.idStr); return; } atomic_store_8(&pTask->status.keepTaskStatus, pTask->status.taskStatus); atomic_store_8(&pTask->status.taskStatus, TASK_STATUS__PAUSE); taosWUnLockLatch(&pMeta->lock); int64_t el = taosGetTimestampMs() - st; qDebug("vgId:%d s-task:%s set pause flag, prev:%s, elapsed time:%dms", pMeta->vgId, pTask->id.idStr, streamGetTaskStatusStr(pTask->status.keepTaskStatus), (int32_t)el); } void streamTaskResume(SStreamTask* pTask) { int8_t status = pTask->status.taskStatus; if (status == TASK_STATUS__PAUSE) { pTask->status.taskStatus = pTask->status.keepTaskStatus; pTask->status.keepTaskStatus = TASK_STATUS__NORMAL; qDebug("s-task:%s resume from pause", pTask->id.idStr); } else { qError("s-task:%s not in pause, failed to resume, status:%s", pTask->id.idStr, streamGetTaskStatusStr(status)); } } // todo fix race condition void streamTaskDisablePause(SStreamTask* pTask) { // pre-condition check const char* id = pTask->id.idStr; while (pTask->status.taskStatus == TASK_STATUS__PAUSE) { qDebug("s-task:%s already in pause, wait for pause being cancelled, and set pause disabled, recheck in 100ms", id); taosMsleep(100); } qDebug("s-task:%s disable task pause", id); pTask->status.pauseAllowed = 0; } void streamTaskEnablePause(SStreamTask* pTask) { qDebug("s-task:%s enable task pause", pTask->id.idStr); pTask->status.pauseAllowed = 1; } void streamTaskHalt(SStreamTask* pTask) { int8_t status = pTask->status.taskStatus; if (status == TASK_STATUS__DROPPING || status == TASK_STATUS__STOP) { return; } if (status == TASK_STATUS__HALT) { return; } // upgrade to halt status if (status == TASK_STATUS__PAUSE) { qDebug("s-task:%s upgrade status to %s from %s", pTask->id.idStr, streamGetTaskStatusStr(TASK_STATUS__HALT), streamGetTaskStatusStr(TASK_STATUS__PAUSE)); } else { qDebug("s-task:%s halt task", pTask->id.idStr); } pTask->status.keepTaskStatus = status; pTask->status.taskStatus = TASK_STATUS__HALT; } void streamTaskResumeFromHalt(SStreamTask* pTask) { const char* id = pTask->id.idStr; int8_t status = pTask->status.taskStatus; if (status != TASK_STATUS__HALT) { qError("s-task:%s not in halt status, status:%s", id, streamGetTaskStatusStr(status)); return; } pTask->status.taskStatus = pTask->status.keepTaskStatus; pTask->status.keepTaskStatus = TASK_STATUS__NORMAL; qDebug("s-task:%s resume from halt, current status:%s", id, streamGetTaskStatusStr(pTask->status.taskStatus)); }