/* * 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 "mndStream.h" #include "audit.h" #include "mndDb.h" #include "mndPrivilege.h" #include "mndScheduler.h" #include "mndShow.h" #include "mndStb.h" #include "mndTrans.h" #include "mndVgroup.h" #include "osMemory.h" #include "parser.h" #include "tmisce.h" #include "tname.h" #define MND_STREAM_MAX_NUM 60 typedef struct { int8_t placeHolder; // // to fix windows compile error, define place holder } SMStreamNodeCheckMsg; static int32_t mndNodeCheckSentinel = 0; SStreamExecInfo execInfo; static int32_t mndStreamActionInsert(SSdb *pSdb, SStreamObj *pStream); static int32_t mndStreamActionDelete(SSdb *pSdb, SStreamObj *pStream); static int32_t mndStreamActionUpdate(SSdb *pSdb, SStreamObj *pOldStream, SStreamObj *pNewStream); static int32_t mndProcessCreateStreamReq(SRpcMsg *pReq); static int32_t mndProcessDropStreamReq(SRpcMsg *pReq); static int32_t mndProcessCreateStreamReqFromMNode(SRpcMsg *pReq); static int32_t mndProcessDropStreamReqFromMNode(SRpcMsg *pReq); static int32_t mndProcessStreamCheckpoint(SRpcMsg *pReq); static int32_t mndRetrieveStream(SRpcMsg *pReq, SShowObj *pShow, SSDataBlock *pBlock, int32_t rows); static void mndCancelGetNextStream(SMnode *pMnode, void *pIter); static int32_t mndRetrieveStreamTask(SRpcMsg *pReq, SShowObj *pShow, SSDataBlock *pBlock, int32_t rows); static void mndCancelGetNextStreamTask(SMnode *pMnode, void *pIter); static int32_t mndProcessPauseStreamReq(SRpcMsg *pReq); static int32_t mndProcessResumeStreamReq(SRpcMsg *pReq); static int32_t mndBuildStreamCheckpointSourceReq(void **pBuf, int32_t *pLen, int32_t nodeId, int64_t checkpointId, int64_t streamId, int32_t taskId, int32_t transId, int8_t mndTrigger); static int32_t mndProcessNodeCheck(SRpcMsg *pReq); static int32_t mndProcessNodeCheckReq(SRpcMsg *pMsg); static int32_t extractNodeListFromStream(SMnode *pMnode, SArray *pNodeList); static int32_t mndProcessStreamReqCheckpoint(SRpcMsg *pReq); static int32_t mndProcessCheckpointReport(SRpcMsg *pReq); static int32_t mndProcessConsensusInTmr(SRpcMsg *pMsg); static void doSendQuickRsp(SRpcHandleInfo *pInfo, int32_t msgSize, int32_t vgId, int32_t code); static SVgroupChangeInfo mndFindChangedNodeInfo(SMnode *pMnode, const SArray *pPrevNodeList, const SArray *pNodeList); static void addAllStreamTasksIntoBuf(SMnode *pMnode, SStreamExecInfo *pExecInfo); static void removeExpiredNodeInfo(const SArray *pNodeSnapshot); static int32_t doKillCheckpointTrans(SMnode *pMnode, const char *pDbName, size_t len); static SSdbRow *mndStreamActionDecode(SSdbRaw *pRaw); SSdbRaw *mndStreamSeqActionEncode(SStreamObj *pStream); SSdbRow *mndStreamSeqActionDecode(SSdbRaw *pRaw); static int32_t mndStreamSeqActionInsert(SSdb *pSdb, SStreamSeq *pStream); static int32_t mndStreamSeqActionDelete(SSdb *pSdb, SStreamSeq *pStream); static int32_t mndStreamSeqActionUpdate(SSdb *pSdb, SStreamSeq *pOldStream, SStreamSeq *pNewStream); int32_t mndInitStream(SMnode *pMnode) { SSdbTable table = { .sdbType = SDB_STREAM, .keyType = SDB_KEY_BINARY, .encodeFp = (SdbEncodeFp)mndStreamActionEncode, .decodeFp = (SdbDecodeFp)mndStreamActionDecode, .insertFp = (SdbInsertFp)mndStreamActionInsert, .updateFp = (SdbUpdateFp)mndStreamActionUpdate, .deleteFp = (SdbDeleteFp)mndStreamActionDelete, }; SSdbTable tableSeq = { .sdbType = SDB_STREAM_SEQ, .keyType = SDB_KEY_BINARY, .encodeFp = (SdbEncodeFp)mndStreamSeqActionEncode, .decodeFp = (SdbDecodeFp)mndStreamSeqActionDecode, .insertFp = (SdbInsertFp)mndStreamSeqActionInsert, .updateFp = (SdbUpdateFp)mndStreamSeqActionUpdate, .deleteFp = (SdbDeleteFp)mndStreamSeqActionDelete, }; mndSetMsgHandle(pMnode, TDMT_MND_CREATE_STREAM, mndProcessCreateStreamReq); mndSetMsgHandle(pMnode, TDMT_MND_DROP_STREAM, mndProcessDropStreamReq); mndSetMsgHandle(pMnode, TDMT_MND_NODECHECK_TIMER, mndProcessNodeCheck); mndSetMsgHandle(pMnode, TDMT_STREAM_TASK_DEPLOY_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_STREAM_TASK_DROP_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_STREAM_TASK_PAUSE_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_STREAM_TASK_RESUME_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_STREAM_TASK_STOP_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_VND_STREAM_TASK_UPDATE_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_VND_STREAM_TASK_RESET_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_STREAM_TASK_UPDATE_CHKPT_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_STREAM_CONSEN_CHKPT_RSP, mndTransProcessRsp); // for msgs inside mnode // TODO change the name mndSetMsgHandle(pMnode, TDMT_STREAM_CREATE, mndProcessCreateStreamReqFromMNode); mndSetMsgHandle(pMnode, TDMT_STREAM_CREATE_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_STREAM_DROP, mndProcessDropStreamReqFromMNode); mndSetMsgHandle(pMnode, TDMT_STREAM_DROP_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_VND_STREAM_CHECK_POINT_SOURCE_RSP, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_MND_STREAM_BEGIN_CHECKPOINT, mndProcessStreamCheckpoint); mndSetMsgHandle(pMnode, TDMT_MND_STREAM_REQ_CHKPT, mndProcessStreamReqCheckpoint); mndSetMsgHandle(pMnode, TDMT_MND_STREAM_CHKPT_REPORT, mndProcessCheckpointReport); mndSetMsgHandle(pMnode, TDMT_MND_STREAM_UPDATE_CHKPT_EVT, mndScanCheckpointReportInfo); mndSetMsgHandle(pMnode, TDMT_STREAM_TASK_REPORT_CHECKPOINT, mndTransProcessRsp); mndSetMsgHandle(pMnode, TDMT_MND_STREAM_HEARTBEAT, mndProcessStreamHb); mndSetMsgHandle(pMnode, TDMT_MND_STREAM_NODECHANGE_CHECK, mndProcessNodeCheckReq); mndSetMsgHandle(pMnode, TDMT_MND_STREAM_CONSEN_TIMER, mndProcessConsensusInTmr); mndSetMsgHandle(pMnode, TDMT_MND_PAUSE_STREAM, mndProcessPauseStreamReq); mndSetMsgHandle(pMnode, TDMT_MND_RESUME_STREAM, mndProcessResumeStreamReq); mndAddShowRetrieveHandle(pMnode, TSDB_MGMT_TABLE_STREAMS, mndRetrieveStream); mndAddShowFreeIterHandle(pMnode, TSDB_MGMT_TABLE_STREAMS, mndCancelGetNextStream); mndAddShowRetrieveHandle(pMnode, TSDB_MGMT_TABLE_STREAM_TASKS, mndRetrieveStreamTask); mndAddShowFreeIterHandle(pMnode, TSDB_MGMT_TABLE_STREAM_TASKS, mndCancelGetNextStreamTask); int32_t code = mndInitExecInfo(); if (code) { return code; } code = sdbSetTable(pMnode->pSdb, table); if (code) { return terrno; } code = sdbSetTable(pMnode->pSdb, tableSeq); return code; } void mndCleanupStream(SMnode *pMnode) { taosArrayDestroy(execInfo.pTaskList); taosArrayDestroy(execInfo.pNodeList); taosHashCleanup(execInfo.pTaskMap); taosHashCleanup(execInfo.transMgmt.pDBTrans); taosHashCleanup(execInfo.pTransferStateStreams); taosHashCleanup(execInfo.pChkptStreams); taosHashCleanup(execInfo.pStreamConsensus); taosThreadMutexDestroy(&execInfo.lock); mDebug("mnd stream exec info cleanup"); } SSdbRow *mndStreamActionDecode(SSdbRaw *pRaw) { terrno = TSDB_CODE_OUT_OF_MEMORY; SSdbRow *pRow = NULL; SStreamObj *pStream = NULL; void *buf = NULL; int8_t sver = 0; if (sdbGetRawSoftVer(pRaw, &sver) != 0) { goto STREAM_DECODE_OVER; } if (sver < 1 || sver > MND_STREAM_VER_NUMBER) { terrno = 0; mError("stream read invalid ver, data ver: %d, curr ver: %d", sver, MND_STREAM_VER_NUMBER); goto STREAM_DECODE_OVER; } pRow = sdbAllocRow(sizeof(SStreamObj)); if (pRow == NULL) { goto STREAM_DECODE_OVER; } pStream = sdbGetRowObj(pRow); if (pStream == NULL) { goto STREAM_DECODE_OVER; } int32_t tlen; int32_t dataPos = 0; SDB_GET_INT32(pRaw, dataPos, &tlen, STREAM_DECODE_OVER); buf = taosMemoryMalloc(tlen + 1); if (buf == NULL) { goto STREAM_DECODE_OVER; } SDB_GET_BINARY(pRaw, dataPos, buf, tlen, STREAM_DECODE_OVER); SDecoder decoder; tDecoderInit(&decoder, buf, tlen + 1); if (tDecodeSStreamObj(&decoder, pStream, sver) < 0) { tDecoderClear(&decoder); goto STREAM_DECODE_OVER; } tDecoderClear(&decoder); terrno = TSDB_CODE_SUCCESS; STREAM_DECODE_OVER: taosMemoryFreeClear(buf); if (terrno != TSDB_CODE_SUCCESS) { char *p = (pStream == NULL) ? "null" : pStream->name; mError("stream:%s, failed to decode from raw:%p since %s", p, pRaw, terrstr()); taosMemoryFreeClear(pRow); return NULL; } mTrace("stream:%s, decode from raw:%p, row:%p, checkpoint:%" PRId64, pStream->name, pRaw, pStream, pStream->checkpointId); return pRow; } static int32_t mndStreamActionInsert(SSdb *pSdb, SStreamObj *pStream) { mTrace("stream:%s, perform insert action", pStream->name); return 0; } static int32_t mndStreamActionDelete(SSdb *pSdb, SStreamObj *pStream) { mTrace("stream:%s, perform delete action", pStream->name); taosWLockLatch(&pStream->lock); tFreeStreamObj(pStream); taosWUnLockLatch(&pStream->lock); return 0; } static int32_t mndStreamActionUpdate(SSdb *pSdb, SStreamObj *pOldStream, SStreamObj *pNewStream) { mTrace("stream:%s, perform update action", pOldStream->name); atomic_exchange_32(&pOldStream->version, pNewStream->version); taosWLockLatch(&pOldStream->lock); pOldStream->status = pNewStream->status; pOldStream->updateTime = pNewStream->updateTime; pOldStream->checkpointId = pNewStream->checkpointId; pOldStream->checkpointFreq = pNewStream->checkpointFreq; taosWUnLockLatch(&pOldStream->lock); return 0; } int32_t mndAcquireStream(SMnode *pMnode, char *streamName, SStreamObj **pStream) { terrno = 0; SSdb *pSdb = pMnode->pSdb; (*pStream) = sdbAcquire(pSdb, SDB_STREAM, streamName); if ((*pStream) == NULL && terrno == TSDB_CODE_SDB_OBJ_NOT_THERE) { terrno = TSDB_CODE_MND_STREAM_NOT_EXIST; } return terrno; } void mndReleaseStream(SMnode *pMnode, SStreamObj *pStream) { SSdb *pSdb = pMnode->pSdb; sdbRelease(pSdb, pStream); } static void mndShowStreamStatus(char *dst, SStreamObj *pStream) { int8_t status = atomic_load_8(&pStream->status); if (status == STREAM_STATUS__NORMAL) { strcpy(dst, "ready"); } else if (status == STREAM_STATUS__STOP) { strcpy(dst, "stop"); } else if (status == STREAM_STATUS__FAILED) { strcpy(dst, "failed"); } else if (status == STREAM_STATUS__RECOVER) { strcpy(dst, "recover"); } else if (status == STREAM_STATUS__PAUSE) { strcpy(dst, "paused"); } } SSdbRaw *mndStreamSeqActionEncode(SStreamObj *pStream) { return NULL; } SSdbRow *mndStreamSeqActionDecode(SSdbRaw *pRaw) { return NULL; } int32_t mndStreamSeqActionInsert(SSdb *pSdb, SStreamSeq *pStream) { return 0; } int32_t mndStreamSeqActionDelete(SSdb *pSdb, SStreamSeq *pStream) { return 0; } int32_t mndStreamSeqActionUpdate(SSdb *pSdb, SStreamSeq *pOldStream, SStreamSeq *pNewStream) { return 0; } static void mndShowStreamTrigger(char *dst, SStreamObj *pStream) { int8_t trigger = pStream->conf.trigger; if (trigger == STREAM_TRIGGER_AT_ONCE) { strcpy(dst, "at once"); } else if (trigger == STREAM_TRIGGER_WINDOW_CLOSE) { strcpy(dst, "window close"); } else if (trigger == STREAM_TRIGGER_MAX_DELAY) { strcpy(dst, "max delay"); } } static int32_t mndCheckCreateStreamReq(SCMCreateStreamReq *pCreate) { if (pCreate->name[0] == 0 || pCreate->sql == NULL || pCreate->sql[0] == 0 || pCreate->sourceDB[0] == 0 || pCreate->targetStbFullName[0] == 0) { terrno = TSDB_CODE_MND_INVALID_STREAM_OPTION; return -1; } return 0; } static int32_t createSchemaByFields(const SArray *pFields, SSchemaWrapper *pWrapper) { pWrapper->nCols = taosArrayGetSize(pFields); pWrapper->pSchema = taosMemoryCalloc(pWrapper->nCols, sizeof(SSchema)); if (NULL == pWrapper->pSchema) { return TSDB_CODE_OUT_OF_MEMORY; } SNode *pNode; int32_t index = 0; for (int32_t i = 0; i < pWrapper->nCols; i++) { SField *pField = (SField *)taosArrayGet(pFields, i); if (TSDB_DATA_TYPE_NULL == pField->type) { pWrapper->pSchema[index].type = TSDB_DATA_TYPE_VARCHAR; pWrapper->pSchema[index].bytes = VARSTR_HEADER_SIZE; } else { pWrapper->pSchema[index].type = pField->type; pWrapper->pSchema[index].bytes = pField->bytes; } pWrapper->pSchema[index].colId = index + 1; strcpy(pWrapper->pSchema[index].name, pField->name); pWrapper->pSchema[index].flags = pField->flags; index += 1; } return TSDB_CODE_SUCCESS; } static bool hasDestPrimaryKey(SSchemaWrapper *pWrapper) { if (pWrapper->nCols < 2) { return false; } for (int32_t i = 1; i < pWrapper->nCols; i++) { if (pWrapper->pSchema[i].flags & COL_IS_KEY) { return true; } } return false; } static int32_t mndBuildStreamObjFromCreateReq(SMnode *pMnode, SStreamObj *pObj, SCMCreateStreamReq *pCreate) { SNode *pAst = NULL; SQueryPlan *pPlan = NULL; mInfo("stream:%s to create", pCreate->name); memcpy(pObj->name, pCreate->name, TSDB_STREAM_FNAME_LEN); pObj->createTime = taosGetTimestampMs(); pObj->updateTime = pObj->createTime; pObj->version = 1; if (pCreate->smaId > 0) { pObj->subTableWithoutMd5 = 1; } pObj->smaId = pCreate->smaId; pObj->indexForMultiAggBalance = -1; pObj->uid = mndGenerateUid(pObj->name, strlen(pObj->name)); char p[TSDB_STREAM_FNAME_LEN + 32] = {0}; snprintf(p, tListLen(p), "%s_%s", pObj->name, "fillhistory"); pObj->hTaskUid = mndGenerateUid(pObj->name, strlen(pObj->name)); pObj->status = 0; pObj->conf.igExpired = pCreate->igExpired; pObj->conf.trigger = pCreate->triggerType; pObj->conf.triggerParam = pCreate->maxDelay; pObj->conf.watermark = pCreate->watermark; pObj->conf.fillHistory = pCreate->fillHistory; pObj->deleteMark = pCreate->deleteMark; pObj->igCheckUpdate = pCreate->igUpdate; memcpy(pObj->sourceDb, pCreate->sourceDB, TSDB_DB_FNAME_LEN); SDbObj *pSourceDb = mndAcquireDb(pMnode, pCreate->sourceDB); if (pSourceDb == NULL) { mInfo("stream:%s failed to create, source db %s not exist since %s", pCreate->name, pObj->sourceDb, terrstr()); return -1; } pObj->sourceDbUid = pSourceDb->uid; mndReleaseDb(pMnode, pSourceDb); memcpy(pObj->targetSTbName, pCreate->targetStbFullName, TSDB_TABLE_FNAME_LEN); SDbObj *pTargetDb = mndAcquireDbByStb(pMnode, pObj->targetSTbName); if (pTargetDb == NULL) { mInfo("stream:%s failed to create, target db %s not exist since %s", pCreate->name, pObj->targetDb, terrstr()); return -1; } tstrncpy(pObj->targetDb, pTargetDb->name, TSDB_DB_FNAME_LEN); if (pCreate->createStb == STREAM_CREATE_STABLE_TRUE) { pObj->targetStbUid = mndGenerateUid(pObj->targetSTbName, TSDB_TABLE_FNAME_LEN); } else { pObj->targetStbUid = pCreate->targetStbUid; } pObj->targetDbUid = pTargetDb->uid; mndReleaseDb(pMnode, pTargetDb); pObj->sql = pCreate->sql; pObj->ast = pCreate->ast; pCreate->sql = NULL; pCreate->ast = NULL; // deserialize ast if (nodesStringToNode(pObj->ast, &pAst) < 0) { goto FAIL; } // create output schema if (createSchemaByFields(pCreate->pCols, &pObj->outputSchema) != TSDB_CODE_SUCCESS) { goto FAIL; } int32_t numOfNULL = taosArrayGetSize(pCreate->fillNullCols); if (numOfNULL > 0) { pObj->outputSchema.nCols += numOfNULL; SSchema *pFullSchema = taosMemoryCalloc(pObj->outputSchema.nCols, sizeof(SSchema)); if (!pFullSchema) { goto FAIL; } int32_t nullIndex = 0; int32_t dataIndex = 0; for (int16_t i = 0; i < pObj->outputSchema.nCols; i++) { SColLocation *pos = taosArrayGet(pCreate->fillNullCols, nullIndex); if (nullIndex >= numOfNULL || i < pos->slotId) { pFullSchema[i].bytes = pObj->outputSchema.pSchema[dataIndex].bytes; pFullSchema[i].colId = i + 1; // pObj->outputSchema.pSchema[dataIndex].colId; pFullSchema[i].flags = pObj->outputSchema.pSchema[dataIndex].flags; strcpy(pFullSchema[i].name, pObj->outputSchema.pSchema[dataIndex].name); pFullSchema[i].type = pObj->outputSchema.pSchema[dataIndex].type; dataIndex++; } else { pFullSchema[i].bytes = 0; pFullSchema[i].colId = pos->colId; pFullSchema[i].flags = COL_SET_NULL; memset(pFullSchema[i].name, 0, TSDB_COL_NAME_LEN); pFullSchema[i].type = pos->type; nullIndex++; } } taosMemoryFree(pObj->outputSchema.pSchema); pObj->outputSchema.pSchema = pFullSchema; } bool hasKey = hasDestPrimaryKey(&pObj->outputSchema); SPlanContext cxt = { .pAstRoot = pAst, .topicQuery = false, .streamQuery = true, .triggerType = pObj->conf.trigger == STREAM_TRIGGER_MAX_DELAY ? STREAM_TRIGGER_WINDOW_CLOSE : pObj->conf.trigger, .watermark = pObj->conf.watermark, .igExpired = pObj->conf.igExpired, .deleteMark = pObj->deleteMark, .igCheckUpdate = pObj->igCheckUpdate, .destHasPrimaryKey = hasKey, }; // using ast and param to build physical plan if (qCreateQueryPlan(&cxt, &pPlan, NULL) < 0) { goto FAIL; } // save physcial plan if (nodesNodeToString((SNode *)pPlan, false, &pObj->physicalPlan, NULL) != 0) { goto FAIL; } pObj->tagSchema.nCols = pCreate->numOfTags; if (pCreate->numOfTags) { pObj->tagSchema.pSchema = taosMemoryCalloc(pCreate->numOfTags, sizeof(SSchema)); } /*A(pCreate->numOfTags == taosArrayGetSize(pCreate->pTags));*/ for (int32_t i = 0; i < pCreate->numOfTags; i++) { SField *pField = taosArrayGet(pCreate->pTags, i); pObj->tagSchema.pSchema[i].colId = pObj->outputSchema.nCols + i + 1; pObj->tagSchema.pSchema[i].bytes = pField->bytes; pObj->tagSchema.pSchema[i].flags = pField->flags; pObj->tagSchema.pSchema[i].type = pField->type; memcpy(pObj->tagSchema.pSchema[i].name, pField->name, TSDB_COL_NAME_LEN); } FAIL: if (pAst != NULL) nodesDestroyNode(pAst); if (pPlan != NULL) qDestroyQueryPlan(pPlan); return 0; } int32_t mndPersistTaskDeployReq(STrans *pTrans, SStreamTask *pTask) { SEncoder encoder; tEncoderInit(&encoder, NULL, 0); if (pTask->ver < SSTREAM_TASK_SUBTABLE_CHANGED_VER) { pTask->ver = SSTREAM_TASK_VER; } tEncodeStreamTask(&encoder, pTask); int32_t size = encoder.pos; int32_t tlen = sizeof(SMsgHead) + size; tEncoderClear(&encoder); void *buf = taosMemoryCalloc(1, tlen); if (buf == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } ((SMsgHead *)buf)->vgId = htonl(pTask->info.nodeId); void *abuf = POINTER_SHIFT(buf, sizeof(SMsgHead)); tEncoderInit(&encoder, abuf, size); tEncodeStreamTask(&encoder, pTask); tEncoderClear(&encoder); int32_t code = setTransAction(pTrans, buf, tlen, TDMT_STREAM_TASK_DEPLOY, &pTask->info.epSet, 0, 0); if (code != 0) { taosMemoryFree(buf); return -1; } return 0; } int32_t mndPersistStreamTasks(STrans *pTrans, SStreamObj *pStream) { SStreamTaskIter *pIter = NULL; int32_t code = createStreamTaskIter(pStream, &pIter); if (code) { mError("failed to create task iter for stream:%s", pStream->name); return code; } while (streamTaskIterNextTask(pIter)) { SStreamTask *pTask = NULL; code = streamTaskIterGetCurrent(pIter, &pTask); if (code) { destroyStreamTaskIter(pIter); return code; } if (mndPersistTaskDeployReq(pTrans, pTask) < 0) { destroyStreamTaskIter(pIter); return -1; } } destroyStreamTaskIter(pIter); // persistent stream task for already stored ts data if (pStream->conf.fillHistory) { int32_t level = taosArrayGetSize(pStream->pHTasksList); for (int32_t i = 0; i < level; i++) { SArray *pLevel = taosArrayGetP(pStream->pHTasksList, i); int32_t numOfTasks = taosArrayGetSize(pLevel); for (int32_t j = 0; j < numOfTasks; j++) { SStreamTask *pTask = taosArrayGetP(pLevel, j); if (mndPersistTaskDeployReq(pTrans, pTask) < 0) { return -1; } } } } return 0; } int32_t mndPersistStream(STrans *pTrans, SStreamObj *pStream) { if (mndPersistStreamTasks(pTrans, pStream) < 0) { return -1; } return mndPersistTransLog(pStream, pTrans, SDB_STATUS_READY); } static int32_t mndCreateStbForStream(SMnode *pMnode, STrans *pTrans, const SStreamObj *pStream, const char *user) { SStbObj *pStb = NULL; SDbObj *pDb = NULL; SMCreateStbReq createReq = {0}; tstrncpy(createReq.name, pStream->targetSTbName, TSDB_TABLE_FNAME_LEN); createReq.numOfColumns = pStream->outputSchema.nCols; createReq.numOfTags = 1; // group id createReq.pColumns = taosArrayInit_s(sizeof(SFieldWithOptions), createReq.numOfColumns); // build fields for (int32_t i = 0; i < createReq.numOfColumns; i++) { SFieldWithOptions *pField = taosArrayGet(createReq.pColumns, i); tstrncpy(pField->name, pStream->outputSchema.pSchema[i].name, TSDB_COL_NAME_LEN); pField->flags = pStream->outputSchema.pSchema[i].flags; pField->type = pStream->outputSchema.pSchema[i].type; pField->bytes = pStream->outputSchema.pSchema[i].bytes; pField->compress = createDefaultColCmprByType(pField->type); } if (pStream->tagSchema.nCols == 0) { createReq.numOfTags = 1; createReq.pTags = taosArrayInit_s(sizeof(SField), 1); // build tags SField *pField = taosArrayGet(createReq.pTags, 0); strcpy(pField->name, "group_id"); pField->type = TSDB_DATA_TYPE_UBIGINT; pField->flags = 0; pField->bytes = 8; } else { createReq.numOfTags = pStream->tagSchema.nCols; createReq.pTags = taosArrayInit_s(sizeof(SField), createReq.numOfTags); for (int32_t i = 0; i < createReq.numOfTags; i++) { SField *pField = taosArrayGet(createReq.pTags, i); pField->bytes = pStream->tagSchema.pSchema[i].bytes; pField->flags = pStream->tagSchema.pSchema[i].flags; pField->type = pStream->tagSchema.pSchema[i].type; tstrncpy(pField->name, pStream->tagSchema.pSchema[i].name, TSDB_COL_NAME_LEN); } } if (mndCheckCreateStbReq(&createReq) != 0) { goto _OVER; } pStb = mndAcquireStb(pMnode, createReq.name); if (pStb != NULL) { terrno = TSDB_CODE_MND_STB_ALREADY_EXIST; goto _OVER; } pDb = mndAcquireDbByStb(pMnode, createReq.name); if (pDb == NULL) { terrno = TSDB_CODE_MND_DB_NOT_SELECTED; goto _OVER; } int32_t numOfStbs = -1; if (mndGetNumOfStbs(pMnode, pDb->name, &numOfStbs) != 0) { goto _OVER; } if (pDb->cfg.numOfStables == 1 && numOfStbs != 0) { terrno = TSDB_CODE_MND_SINGLE_STB_MODE_DB; goto _OVER; } SStbObj stbObj = {0}; if (mndBuildStbFromReq(pMnode, &stbObj, &createReq, pDb) != 0) { goto _OVER; } stbObj.uid = pStream->targetStbUid; if (mndAddStbToTrans(pMnode, pTrans, pDb, &stbObj) < 0) { mndFreeStb(&stbObj); goto _OVER; } tFreeSMCreateStbReq(&createReq); mndFreeStb(&stbObj); mndReleaseStb(pMnode, pStb); mndReleaseDb(pMnode, pDb); mDebug("stream:%s create dst stable:%s, cols:%d", pStream->name, pStream->targetSTbName, pStream->outputSchema.nCols); return 0; _OVER: tFreeSMCreateStbReq(&createReq); mndReleaseStb(pMnode, pStb); mndReleaseDb(pMnode, pDb); mDebug("stream:%s failed to create dst stable:%s, code:%s", pStream->name, pStream->targetSTbName, tstrerror(terrno)); return -1; } // 1. stream number check // 2. target stable can not be target table of other existed streams. static int32_t doStreamCheck(SMnode *pMnode, SStreamObj *pStreamObj) { int32_t numOfStream = 0; SStreamObj *pStream = NULL; void *pIter = NULL; while ((pIter = sdbFetch(pMnode->pSdb, SDB_STREAM, pIter, (void **)&pStream)) != NULL) { if (pStream->sourceDbUid == pStreamObj->sourceDbUid) { ++numOfStream; } sdbRelease(pMnode->pSdb, pStream); if (numOfStream > MND_STREAM_MAX_NUM) { mError("too many streams, no more than %d for each database, failed to create stream:%s", MND_STREAM_MAX_NUM, pStreamObj->name); sdbCancelFetch(pMnode->pSdb, pIter); terrno = TSDB_CODE_MND_TOO_MANY_STREAMS; return terrno; } if (pStream->targetStbUid == pStreamObj->targetStbUid) { mError("Cannot write the same stable as other stream:%s, failed to create stream:%s", pStream->name, pStreamObj->name); sdbCancelFetch(pMnode->pSdb, pIter); terrno = TSDB_CODE_MND_INVALID_TARGET_TABLE; return terrno; } } return TSDB_CODE_SUCCESS; } static int32_t mndProcessCreateStreamReq(SRpcMsg *pReq) { SMnode *pMnode = pReq->info.node; SStreamObj *pStream = NULL; SStreamObj streamObj = {0}; char *sql = NULL; int32_t sqlLen = 0; const char *pMsg = "create stream tasks on dnodes"; int32_t code = 0; terrno = TSDB_CODE_SUCCESS; SCMCreateStreamReq createReq = {0}; if (tDeserializeSCMCreateStreamReq(pReq->pCont, pReq->contLen, &createReq) != 0) { terrno = TSDB_CODE_INVALID_MSG; goto _OVER; } #ifdef WINDOWS terrno = TSDB_CODE_MND_INVALID_PLATFORM; goto _OVER; #endif mInfo("stream:%s, start to create stream, sql:%s", createReq.name, createReq.sql); if (mndCheckCreateStreamReq(&createReq) != 0) { mError("stream:%s, failed to create since %s", createReq.name, terrstr()); goto _OVER; } code = mndAcquireStream(pMnode, createReq.name, &pStream); if (pStream != NULL || code == 0) { if (createReq.igExists) { mInfo("stream:%s, already exist, ignore exist is set", createReq.name); goto _OVER; } else { terrno = TSDB_CODE_MND_STREAM_ALREADY_EXIST; goto _OVER; } } else if (terrno != TSDB_CODE_MND_STREAM_NOT_EXIST) { goto _OVER; } if ((terrno = grantCheck(TSDB_GRANT_STREAMS)) < 0) { goto _OVER; } if (createReq.sql != NULL) { sqlLen = strlen(createReq.sql); sql = taosMemoryMalloc(sqlLen + 1); memset(sql, 0, sqlLen + 1); memcpy(sql, createReq.sql, sqlLen); } // build stream obj from request if (mndBuildStreamObjFromCreateReq(pMnode, &streamObj, &createReq) < 0) { mError("stream:%s, failed to create since %s", createReq.name, terrstr()); goto _OVER; } if (doStreamCheck(pMnode, &streamObj) < 0) { goto _OVER; } STrans *pTrans = NULL; code = doCreateTrans(pMnode, &streamObj, pReq, TRN_CONFLICT_DB, MND_STREAM_CREATE_NAME, pMsg, &pTrans); if (pTrans == NULL || code) { goto _OVER; } // create stb for stream if (createReq.createStb == STREAM_CREATE_STABLE_TRUE) { if (mndCreateStbForStream(pMnode, pTrans, &streamObj, pReq->info.conn.user) < 0) { mError("trans:%d, failed to create stb for stream %s since %s", pTrans->id, createReq.name, terrstr()); mndTransDrop(pTrans); goto _OVER; } } else { mDebug("stream:%s no need create stable", createReq.name); } // schedule stream task for stream obj if (mndScheduleStream(pMnode, &streamObj, createReq.lastTs, createReq.pVgroupVerList) < 0) { mError("stream:%s, failed to schedule since %s", createReq.name, terrstr()); mndTransDrop(pTrans); goto _OVER; } // add stream to trans if (mndPersistStream(pTrans, &streamObj) < 0) { mError("stream:%s, failed to schedule since %s", createReq.name, terrstr()); mndTransDrop(pTrans); goto _OVER; } if (mndCheckDbPrivilegeByName(pMnode, pReq->info.conn.user, MND_OPER_READ_DB, streamObj.sourceDb) != 0) { mndTransDrop(pTrans); goto _OVER; } if (mndCheckDbPrivilegeByName(pMnode, pReq->info.conn.user, MND_OPER_WRITE_DB, streamObj.targetDb) != 0) { mndTransDrop(pTrans); goto _OVER; } // add into buffer firstly // to make sure when the hb from vnode arrived, the newly created tasks have been in the task map already. streamMutexLock(&execInfo.lock); mDebug("stream stream:%s start to register tasks into task nodeList and set initial checkpointId", createReq.name); saveTaskAndNodeInfoIntoBuf(&streamObj, &execInfo); streamMutexUnlock(&execInfo.lock); // execute creation if (mndTransPrepare(pMnode, pTrans) != 0) { mError("trans:%d, failed to prepare since %s", pTrans->id, terrstr()); mndTransDrop(pTrans); goto _OVER; } mndTransDrop(pTrans); SName dbname = {0}; tNameFromString(&dbname, createReq.sourceDB, T_NAME_ACCT | T_NAME_DB | T_NAME_TABLE); SName name = {0}; tNameFromString(&name, createReq.name, T_NAME_ACCT | T_NAME_DB | T_NAME_TABLE); // reuse this function for stream if (sql != NULL && sqlLen > 0) { auditRecord(pReq, pMnode->clusterId, "createStream", dbname.dbname, name.dbname, sql, sqlLen); } else { char detail[1000] = {0}; snprintf(detail, tListLen(detail), "dbname:%s, stream name:%s", dbname.dbname, name.dbname); auditRecord(pReq, pMnode->clusterId, "createStream", dbname.dbname, name.dbname, detail, strlen(detail)); } _OVER: if (terrno != TSDB_CODE_SUCCESS && terrno != TSDB_CODE_ACTION_IN_PROGRESS) { mError("stream:%s, failed to create since %s", createReq.name, terrstr()); } mndReleaseStream(pMnode, pStream); tFreeSCMCreateStreamReq(&createReq); tFreeStreamObj(&streamObj); if (sql != NULL) { taosMemoryFreeClear(sql); } return terrno; } int64_t mndStreamGenChkptId(SMnode *pMnode, bool lock) { SStreamObj *pStream = NULL; void *pIter = NULL; SSdb *pSdb = pMnode->pSdb; int64_t maxChkptId = 0; while (1) { pIter = sdbFetch(pSdb, SDB_STREAM, pIter, (void **)&pStream); if (pIter == NULL) break; maxChkptId = TMAX(maxChkptId, pStream->checkpointId); mDebug("stream:%p, %s id:0x%" PRIx64 " checkpoint %" PRId64 "", pStream, pStream->name, pStream->uid, pStream->checkpointId); sdbRelease(pSdb, pStream); } { // check the max checkpoint id from all vnodes. int64_t maxCheckpointId = -1; if (lock) { streamMutexLock(&execInfo.lock); } for (int32_t i = 0; i < taosArrayGetSize(execInfo.pTaskList); ++i) { STaskId *p = taosArrayGet(execInfo.pTaskList, i); STaskStatusEntry *pEntry = taosHashGet(execInfo.pTaskMap, p, sizeof(*p)); if (pEntry == NULL) { continue; } if (pEntry->checkpointInfo.failed) { continue; } if (maxCheckpointId < pEntry->checkpointInfo.latestId) { maxCheckpointId = pEntry->checkpointInfo.latestId; } } if (lock) { streamMutexUnlock(&execInfo.lock); } if (maxCheckpointId > maxChkptId) { mDebug("max checkpointId in mnode:%" PRId64 ", smaller than max checkpointId in vnode:%" PRId64, maxChkptId, maxCheckpointId); maxChkptId = maxCheckpointId; } } mDebug("generate new checkpointId:%" PRId64, maxChkptId + 1); return maxChkptId + 1; } static int32_t mndBuildStreamCheckpointSourceReq(void **pBuf, int32_t *pLen, int32_t nodeId, int64_t checkpointId, int64_t streamId, int32_t taskId, int32_t transId, int8_t mndTrigger) { SStreamCheckpointSourceReq req = {0}; req.checkpointId = checkpointId; req.nodeId = nodeId; req.expireTime = -1; req.streamId = streamId; // pTask->id.streamId; req.taskId = taskId; // pTask->id.taskId; req.transId = transId; req.mndTrigger = mndTrigger; int32_t code; int32_t blen; tEncodeSize(tEncodeStreamCheckpointSourceReq, &req, blen, code); if (code < 0) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } int32_t tlen = sizeof(SMsgHead) + blen; void *buf = taosMemoryMalloc(tlen); if (buf == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } void *abuf = POINTER_SHIFT(buf, sizeof(SMsgHead)); SEncoder encoder; tEncoderInit(&encoder, abuf, tlen); tEncodeStreamCheckpointSourceReq(&encoder, &req); SMsgHead *pMsgHead = (SMsgHead *)buf; pMsgHead->contLen = htonl(tlen); pMsgHead->vgId = htonl(nodeId); tEncoderClear(&encoder); *pBuf = buf; *pLen = tlen; return 0; } static int32_t doSetCheckpointAction(SMnode *pMnode, STrans *pTrans, SStreamTask *pTask, int64_t checkpointId, int8_t mndTrigger) { void *buf; int32_t tlen; if (mndBuildStreamCheckpointSourceReq(&buf, &tlen, pTask->info.nodeId, checkpointId, pTask->id.streamId, pTask->id.taskId, pTrans->id, mndTrigger) < 0) { taosMemoryFree(buf); return -1; } SEpSet epset = {0}; bool hasEpset = false; int32_t code = extractNodeEpset(pMnode, &epset, &hasEpset, pTask->id.taskId, pTask->info.nodeId); if (code != TSDB_CODE_SUCCESS || !hasEpset) { taosMemoryFree(buf); return -1; } code = setTransAction(pTrans, buf, tlen, TDMT_VND_STREAM_CHECK_POINT_SOURCE, &epset, TSDB_CODE_SYN_PROPOSE_NOT_READY, TSDB_CODE_VND_INVALID_VGROUP_ID); if (code != 0) { taosMemoryFree(buf); } return code; } static int32_t mndProcessStreamCheckpointTrans(SMnode *pMnode, SStreamObj *pStream, int64_t checkpointId, int8_t mndTrigger, bool lock) { int32_t code = -1; int64_t ts = taosGetTimestampMs(); if (mndTrigger == 1 && (ts - pStream->checkpointFreq < tsStreamCheckpointInterval * 1000)) { return TSDB_CODE_SUCCESS; } bool conflict = mndStreamTransConflictCheck(pMnode, pStream->uid, MND_STREAM_CHECKPOINT_NAME, lock); if (conflict) { mWarn("checkpoint conflict with other trans in %s, ignore the checkpoint for stream:%s %" PRIx64, pStream->sourceDb, pStream->name, pStream->uid); return -1; } STrans *pTrans = NULL; code = doCreateTrans(pMnode, pStream, NULL, TRN_CONFLICT_NOTHING, MND_STREAM_CHECKPOINT_NAME, "gen checkpoint for stream", &pTrans); if (pTrans == NULL || code) { code = TSDB_CODE_MND_TRANS_CONFLICT; mError("failed to checkpoint of stream name%s, checkpointId: %" PRId64 ", reason:%s", pStream->name, checkpointId, tstrerror(code)); goto _ERR; } mndStreamRegisterTrans(pTrans, MND_STREAM_CHECKPOINT_NAME, pStream->uid); mDebug("start to trigger checkpoint for stream:%s, checkpoint: %" PRId64 "", pStream->name, checkpointId); taosWLockLatch(&pStream->lock); pStream->currentTick = 1; // 1. redo action: broadcast checkpoint source msg for all source vg int32_t totalLevel = taosArrayGetSize(pStream->tasks); for (int32_t i = 0; i < totalLevel; i++) { SArray *pLevel = taosArrayGetP(pStream->tasks, i); SStreamTask *p = taosArrayGetP(pLevel, 0); if (p->info.taskLevel == TASK_LEVEL__SOURCE) { int32_t sz = taosArrayGetSize(pLevel); for (int32_t j = 0; j < sz; j++) { SStreamTask *pTask = taosArrayGetP(pLevel, j); code = doSetCheckpointAction(pMnode, pTrans, pTask, checkpointId, mndTrigger); if (code != TSDB_CODE_SUCCESS) { taosWUnLockLatch(&pStream->lock); goto _ERR; } } } } // 2. reset tick pStream->checkpointId = checkpointId; pStream->checkpointFreq = taosGetTimestampMs(); pStream->currentTick = 0; // 3. commit log: stream checkpoint info pStream->version = pStream->version + 1; taosWUnLockLatch(&pStream->lock); if ((code = mndPersistTransLog(pStream, pTrans, SDB_STATUS_READY)) != TSDB_CODE_SUCCESS) { goto _ERR; } if ((code = mndTransPrepare(pMnode, pTrans)) != TSDB_CODE_SUCCESS) { mError("failed to prepare checkpoint trans since %s", terrstr()); goto _ERR; } code = 0; _ERR: mndTransDrop(pTrans); return code; } int32_t extractStreamNodeList(SMnode *pMnode) { if (taosArrayGetSize(execInfo.pNodeList) == 0) { extractNodeListFromStream(pMnode, execInfo.pNodeList); } return taosArrayGetSize(execInfo.pNodeList); } static bool taskNodeIsUpdated(SMnode *pMnode) { // check if the node update happens or not streamMutexLock(&execInfo.lock); int32_t numOfNodes = extractStreamNodeList(pMnode); if (numOfNodes == 0) { mDebug("stream task node change checking done, no vgroups exist, do nothing"); execInfo.ts = taosGetTimestampSec(); streamMutexUnlock(&execInfo.lock); return false; } for (int32_t i = 0; i < numOfNodes; ++i) { SNodeEntry *pNodeEntry = taosArrayGet(execInfo.pNodeList, i); if (pNodeEntry->stageUpdated) { mDebug("stream task not ready due to node update detected, checkpoint not issued"); streamMutexUnlock(&execInfo.lock); return true; } } bool allReady = true; SArray *pNodeSnapshot = NULL; int32_t code = mndTakeVgroupSnapshot(pMnode, &allReady, &pNodeSnapshot); if (code) { mError("failed to get the vgroup snapshot, ignore it and continue"); } if (!allReady) { mWarn("not all vnodes ready, quit from vnodes status check"); taosArrayDestroy(pNodeSnapshot); streamMutexUnlock(&execInfo.lock); return true; } SVgroupChangeInfo changeInfo = mndFindChangedNodeInfo(pMnode, execInfo.pNodeList, pNodeSnapshot); bool nodeUpdated = (taosArrayGetSize(changeInfo.pUpdateNodeList) > 0); taosArrayDestroy(changeInfo.pUpdateNodeList); taosHashCleanup(changeInfo.pDBMap); taosArrayDestroy(pNodeSnapshot); if (nodeUpdated) { mDebug("stream tasks not ready due to node update"); } streamMutexUnlock(&execInfo.lock); return nodeUpdated; } static int32_t mndCheckTaskAndNodeStatus(SMnode *pMnode) { bool ready = true; if (taskNodeIsUpdated(pMnode)) { return -1; } streamMutexLock(&execInfo.lock); if (taosArrayGetSize(execInfo.pNodeList) == 0) { mDebug("stream task node change checking done, no vgroups exist, do nothing"); ASSERT(taosArrayGetSize(execInfo.pTaskList) == 0); } SArray *pInvalidList = taosArrayInit(4, sizeof(STaskId)); for (int32_t i = 0; i < taosArrayGetSize(execInfo.pTaskList); ++i) { STaskId *p = taosArrayGet(execInfo.pTaskList, i); STaskStatusEntry *pEntry = taosHashGet(execInfo.pTaskMap, p, sizeof(*p)); if (pEntry == NULL) { continue; } if (pEntry->status == TASK_STATUS__STOP) { for (int32_t j = 0; j < taosArrayGetSize(pInvalidList); ++j) { STaskId *pId = taosArrayGet(pInvalidList, j); if (pEntry->id.streamId == pId->streamId) { taosArrayPush(pInvalidList, &pEntry->id); break; } } } if (pEntry->status != TASK_STATUS__READY) { mDebug("s-task:0x%" PRIx64 "-0x%x (nodeId:%d) status:%s, checkpoint not issued", pEntry->id.streamId, (int32_t)pEntry->id.taskId, pEntry->nodeId, streamTaskGetStatusStr(pEntry->status)); ready = false; break; } if (pEntry->hTaskId != 0) { mDebug("s-task:0x%" PRIx64 "-0x%x (nodeId:%d) status:%s related fill-history task:0x%" PRIx64 " exists, checkpoint not issued", pEntry->id.streamId, (int32_t)pEntry->id.taskId, pEntry->nodeId, streamTaskGetStatusStr(pEntry->status), pEntry->hTaskId); ready = false; break; } } removeTasksInBuf(pInvalidList, &execInfo); taosArrayDestroy(pInvalidList); streamMutexUnlock(&execInfo.lock); return ready ? 0 : -1; } int64_t getStreamTaskLastReadyState(SArray *pTaskList, int64_t streamId) { int64_t ts = -1; int32_t taskId = -1; for (int32_t i = 0; i < taosArrayGetSize(pTaskList); ++i) { STaskId *p = taosArrayGet(pTaskList, i); STaskStatusEntry *pEntry = taosHashGet(execInfo.pTaskMap, p, sizeof(*p)); if (pEntry == NULL || pEntry->id.streamId != streamId) { continue; } if (pEntry->status == TASK_STATUS__READY && ts < pEntry->startTime) { ts = pEntry->startTime; taskId = pEntry->id.taskId; } } mDebug("stream:0x%" PRIx64 " last ready ts:%" PRId64 " s-task:0x%x", streamId, ts, taskId); return ts; } typedef struct { int64_t streamId; int64_t duration; } SCheckpointInterval; static int32_t streamWaitComparFn(const void *p1, const void *p2) { const SCheckpointInterval *pInt1 = p1; const SCheckpointInterval *pInt2 = p2; if (pInt1->duration == pInt2->duration) { return 0; } return pInt1->duration > pInt2->duration ? -1 : 1; } static int32_t mndProcessStreamCheckpoint(SRpcMsg *pReq) { SMnode *pMnode = pReq->info.node; SSdb *pSdb = pMnode->pSdb; void *pIter = NULL; SStreamObj *pStream = NULL; int32_t code = 0; int32_t numOfCheckpointTrans = 0; if ((code = mndCheckTaskAndNodeStatus(pMnode)) != 0) { terrno = TSDB_CODE_STREAM_TASK_IVLD_STATUS; return -1; } SArray *pList = taosArrayInit(4, sizeof(SCheckpointInterval)); int64_t now = taosGetTimestampMs(); while ((pIter = sdbFetch(pSdb, SDB_STREAM, pIter, (void **)&pStream)) != NULL) { int64_t duration = now - pStream->checkpointFreq; if (duration < tsStreamCheckpointInterval * 1000) { sdbRelease(pSdb, pStream); continue; } streamMutexLock(&execInfo.lock); int64_t startTs = getStreamTaskLastReadyState(execInfo.pTaskList, pStream->uid); if (startTs != -1 && (now - startTs) < tsStreamCheckpointInterval * 1000) { streamMutexUnlock(&execInfo.lock); sdbRelease(pSdb, pStream); continue; } streamMutexUnlock(&execInfo.lock); SCheckpointInterval in = {.streamId = pStream->uid, .duration = duration}; taosArrayPush(pList, &in); int32_t currentSize = taosArrayGetSize(pList); mDebug("stream:%s (uid:0x%" PRIx64 ") checkpoint interval beyond threshold: %ds(%" PRId64 "s) beyond threshold:%d", pStream->name, pStream->uid, tsStreamCheckpointInterval, duration / 1000, currentSize); sdbRelease(pSdb, pStream); } int32_t size = taosArrayGetSize(pList); if (size == 0) { taosArrayDestroy(pList); return code; } taosArraySort(pList, streamWaitComparFn); mndStreamClearFinishedTrans(pMnode, &numOfCheckpointTrans); int32_t numOfQual = taosArrayGetSize(pList); if (numOfCheckpointTrans > tsMaxConcurrentCheckpoint) { mDebug( "%d stream(s) checkpoint interval longer than %ds, ongoing checkpoint trans:%d reach maximum allowed:%d, new " "checkpoint trans are not allowed, wait for 30s", numOfQual, tsStreamCheckpointInterval, numOfCheckpointTrans, tsMaxConcurrentCheckpoint); taosArrayDestroy(pList); return code; } int32_t capacity = tsMaxConcurrentCheckpoint - numOfCheckpointTrans; mDebug( "%d stream(s) checkpoint interval longer than %ds, %d ongoing checkpoint trans, %d new checkpoint trans allowed, " "concurrent trans threshold:%d", numOfQual, tsStreamCheckpointInterval, numOfCheckpointTrans, capacity, tsMaxConcurrentCheckpoint); int32_t started = 0; int64_t checkpointId = mndStreamGenChkptId(pMnode, true); for (int32_t i = 0; i < numOfQual; ++i) { SCheckpointInterval *pCheckpointInfo = taosArrayGet(pList, i); SStreamObj *p = NULL; code = mndGetStreamObj(pMnode, pCheckpointInfo->streamId, &p); if (p != NULL && code == 0) { code = mndProcessStreamCheckpointTrans(pMnode, p, checkpointId, 1, true); sdbRelease(pSdb, p); if (code != -1) { started += 1; if (started >= capacity) { mDebug("already start %d new checkpoint trans, current active checkpoint trans:%d", started, (started + numOfCheckpointTrans)); break; } } } } taosArrayDestroy(pList); return code; } static int32_t mndProcessDropStreamReq(SRpcMsg *pReq) { SMnode *pMnode = pReq->info.node; SStreamObj *pStream = NULL; int32_t code = 0; SMDropStreamReq dropReq = {0}; if (tDeserializeSMDropStreamReq(pReq->pCont, pReq->contLen, &dropReq) < 0) { mError("invalid drop stream msg recv, discarded"); terrno = TSDB_CODE_INVALID_MSG; return -1; } mDebug("recv drop stream:%s msg", dropReq.name); code = mndAcquireStream(pMnode, dropReq.name, &pStream); if (pStream == NULL || code != 0) { if (dropReq.igNotExists) { mInfo("stream:%s not exist, ignore not exist is set, drop stream exec done with success", dropReq.name); sdbRelease(pMnode->pSdb, pStream); tFreeMDropStreamReq(&dropReq); return 0; } else { terrno = TSDB_CODE_MND_STREAM_NOT_EXIST; mError("stream:%s not exist failed to drop it", dropReq.name); tFreeMDropStreamReq(&dropReq); return -1; } } if (pStream->smaId != 0) { mDebug("stream:%s, uid:0x%" PRIx64 " try to drop sma related stream", dropReq.name, pStream->uid); void *pIter = NULL; SSmaObj *pSma = NULL; pIter = sdbFetch(pMnode->pSdb, SDB_SMA, pIter, (void **)&pSma); while (pIter) { if (pSma && pSma->uid == pStream->smaId) { sdbRelease(pMnode->pSdb, pSma); sdbRelease(pMnode->pSdb, pStream); sdbCancelFetch(pMnode->pSdb, pIter); tFreeMDropStreamReq(&dropReq); terrno = TSDB_CODE_TSMA_MUST_BE_DROPPED; mError("try to drop sma-related stream:%s, uid:0x%" PRIx64 " code:%s only allowed to be dropped along with sma", dropReq.name, pStream->uid, tstrerror(terrno)); return -1; } if (pSma) { sdbRelease(pMnode->pSdb, pSma); } pIter = sdbFetch(pMnode->pSdb, SDB_SMA, pIter, (void **)&pSma); } } if (mndCheckDbPrivilegeByName(pMnode, pReq->info.conn.user, MND_OPER_WRITE_DB, pStream->targetDb) != 0) { sdbRelease(pMnode->pSdb, pStream); tFreeMDropStreamReq(&dropReq); return -1; } // check if it is conflict with other trans in both sourceDb and targetDb. bool conflict = mndStreamTransConflictCheck(pMnode, pStream->uid, MND_STREAM_DROP_NAME, true); if (conflict) { sdbRelease(pMnode->pSdb, pStream); tFreeMDropStreamReq(&dropReq); return -1; } STrans *pTrans = NULL; code = doCreateTrans(pMnode, pStream, pReq, TRN_CONFLICT_NOTHING, MND_STREAM_DROP_NAME, "drop stream", &pTrans); if (pTrans == NULL || code) { mError("stream:%s uid:0x%" PRIx64 " failed to drop since %s", dropReq.name, pStream->uid, terrstr()); sdbRelease(pMnode->pSdb, pStream); tFreeMDropStreamReq(&dropReq); return -1; } code = mndStreamRegisterTrans(pTrans, MND_STREAM_DROP_NAME, pStream->uid); // drop all tasks if (mndStreamSetDropAction(pMnode, pTrans, pStream) < 0) { mError("stream:%s uid:0x%" PRIx64 " failed to drop task since %s", dropReq.name, pStream->uid, terrstr()); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); tFreeMDropStreamReq(&dropReq); return -1; } // drop stream if (mndPersistTransLog(pStream, pTrans, SDB_STATUS_DROPPED) < 0) { sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); tFreeMDropStreamReq(&dropReq); return -1; } if (mndTransPrepare(pMnode, pTrans) != 0) { mError("trans:%d, failed to prepare drop stream trans since %s", pTrans->id, terrstr()); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); tFreeMDropStreamReq(&dropReq); return -1; } // kill the related checkpoint trans int32_t transId = mndStreamGetRelTrans(pMnode, pStream->uid); if (transId != 0) { mDebug("drop active transId:%d due to stream:%s uid:0x%" PRIx64 " dropped", transId, pStream->name, pStream->uid); mndKillTransImpl(pMnode, transId, pStream->sourceDb); } mDebug("stream:%s uid:0x%" PRIx64 " transId:%d start to drop related task when dropping stream", dropReq.name, pStream->uid, transId); removeStreamTasksInBuf(pStream, &execInfo); SName name = {0}; tNameFromString(&name, dropReq.name, T_NAME_ACCT | T_NAME_DB | T_NAME_TABLE); auditRecord(pReq, pMnode->clusterId, "dropStream", "", name.dbname, dropReq.sql, dropReq.sqlLen); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); tFreeMDropStreamReq(&dropReq); return TSDB_CODE_ACTION_IN_PROGRESS; } int32_t mndDropStreamByDb(SMnode *pMnode, STrans *pTrans, SDbObj *pDb) { SSdb *pSdb = pMnode->pSdb; void *pIter = NULL; while (1) { SStreamObj *pStream = NULL; pIter = sdbFetch(pSdb, SDB_STREAM, pIter, (void **)&pStream); if (pIter == NULL) break; if (pStream->sourceDbUid == pDb->uid || pStream->targetDbUid == pDb->uid) { if (pStream->sourceDbUid != pStream->targetDbUid) { sdbRelease(pSdb, pStream); sdbCancelFetch(pSdb, pIter); mError("db:%s, failed to drop stream:%s since sourceDbUid:%" PRId64 " not match with targetDbUid:%" PRId64, pDb->name, pStream->name, pStream->sourceDbUid, pStream->targetDbUid); terrno = TSDB_CODE_MND_STREAM_MUST_BE_DELETED; return -1; } else { #if 0 if (mndStreamSetDropAction(pMnode, pTrans, pStream) < 0) { mError("stream:%s, failed to drop task since %s", pStream->name, terrstr()); sdbRelease(pMnode->pSdb, pStream); sdbCancelFetch(pSdb, pIter); return -1; } #endif // kill the related checkpoint trans int32_t transId = mndStreamGetRelTrans(pMnode, pStream->uid); if (transId != 0) { mDebug("drop active related transId:%d due to stream:%s dropped", transId, pStream->name); mndKillTransImpl(pMnode, transId, pStream->sourceDb); } // drop the stream obj in execInfo removeStreamTasksInBuf(pStream, &execInfo); if (mndPersistTransLog(pStream, pTrans, SDB_STATUS_DROPPED) < 0) { sdbRelease(pSdb, pStream); sdbCancelFetch(pSdb, pIter); return -1; } } } sdbRelease(pSdb, pStream); } return 0; } int32_t mndGetNumOfStreams(SMnode *pMnode, char *dbName, int32_t *pNumOfStreams) { SSdb *pSdb = pMnode->pSdb; SDbObj *pDb = mndAcquireDb(pMnode, dbName); if (pDb == NULL) { terrno = TSDB_CODE_MND_DB_NOT_SELECTED; return -1; } int32_t numOfStreams = 0; void *pIter = NULL; while (1) { SStreamObj *pStream = NULL; pIter = sdbFetch(pSdb, SDB_STREAM, pIter, (void **)&pStream); if (pIter == NULL) break; if (pStream->sourceDbUid == pDb->uid) { numOfStreams++; } sdbRelease(pSdb, pStream); } *pNumOfStreams = numOfStreams; mndReleaseDb(pMnode, pDb); return 0; } static void int64ToHexStr(int64_t id, char *pBuf, int32_t bufLen) { memset(pBuf, 0, bufLen); pBuf[2] = '0'; pBuf[3] = 'x'; int32_t len = tintToHex(id, &pBuf[4]); varDataSetLen(pBuf, len + 2); } static int32_t mndRetrieveStream(SRpcMsg *pReq, SShowObj *pShow, SSDataBlock *pBlock, int32_t rows) { SMnode *pMnode = pReq->info.node; SSdb *pSdb = pMnode->pSdb; int32_t numOfRows = 0; SStreamObj *pStream = NULL; while (numOfRows < rows) { pShow->pIter = sdbFetch(pSdb, SDB_STREAM, pShow->pIter, (void **)&pStream); if (pShow->pIter == NULL) break; SColumnInfoData *pColInfo; int32_t cols = 0; char streamName[TSDB_TABLE_NAME_LEN + VARSTR_HEADER_SIZE] = {0}; STR_WITH_MAXSIZE_TO_VARSTR(streamName, mndGetDbStr(pStream->name), sizeof(streamName)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)streamName, false); // create time pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&pStream->createTime, false); // stream id char buf[128] = {0}; int64ToHexStr(pStream->uid, buf, tListLen(buf)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, buf, false); // related fill-history stream id pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); if (pStream->hTaskUid != 0) { int64ToHexStr(pStream->hTaskUid, buf, tListLen(buf)); colDataSetVal(pColInfo, numOfRows, buf, false); } else { colDataSetVal(pColInfo, numOfRows, buf, true); } // related fill-history stream id char sql[TSDB_SHOW_SQL_LEN + VARSTR_HEADER_SIZE] = {0}; STR_WITH_MAXSIZE_TO_VARSTR(sql, pStream->sql, sizeof(sql)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)sql, false); char status[20 + VARSTR_HEADER_SIZE] = {0}; char status2[20] = {0}; mndShowStreamStatus(status2, pStream); STR_WITH_MAXSIZE_TO_VARSTR(status, status2, sizeof(status)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&status, false); char sourceDB[TSDB_DB_NAME_LEN + VARSTR_HEADER_SIZE] = {0}; STR_WITH_MAXSIZE_TO_VARSTR(sourceDB, mndGetDbStr(pStream->sourceDb), sizeof(sourceDB)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&sourceDB, false); char targetDB[TSDB_DB_NAME_LEN + VARSTR_HEADER_SIZE] = {0}; STR_WITH_MAXSIZE_TO_VARSTR(targetDB, mndGetDbStr(pStream->targetDb), sizeof(targetDB)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&targetDB, false); if (pStream->targetSTbName[0] == 0) { pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, NULL, true); } else { char targetSTB[TSDB_TABLE_NAME_LEN + VARSTR_HEADER_SIZE] = {0}; STR_WITH_MAXSIZE_TO_VARSTR(targetSTB, mndGetStbStr(pStream->targetSTbName), sizeof(targetSTB)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&targetSTB, false); } pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&pStream->conf.watermark, false); char trigger[20 + VARSTR_HEADER_SIZE] = {0}; char trigger2[20] = {0}; mndShowStreamTrigger(trigger2, pStream); STR_WITH_MAXSIZE_TO_VARSTR(trigger, trigger2, sizeof(trigger)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&trigger, false); // sink_quota char sinkQuota[20 + VARSTR_HEADER_SIZE] = {0}; sinkQuota[0] = '0'; char dstStr[20] = {0}; STR_TO_VARSTR(dstStr, sinkQuota) pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)dstStr, false); // checkpoint interval char tmp[20 + VARSTR_HEADER_SIZE] = {0}; sprintf(varDataVal(tmp), "%d sec", tsStreamCheckpointInterval); varDataSetLen(tmp, strlen(varDataVal(tmp))); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)tmp, false); // checkpoint backup type char backup[20 + VARSTR_HEADER_SIZE] = {0}; STR_TO_VARSTR(backup, "none") pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)backup, false); // history scan idle char scanHistoryIdle[20 + VARSTR_HEADER_SIZE] = {0}; strcpy(scanHistoryIdle, "100a"); memset(dstStr, 0, tListLen(dstStr)); STR_TO_VARSTR(dstStr, scanHistoryIdle) pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)dstStr, false); numOfRows++; sdbRelease(pSdb, pStream); } pShow->numOfRows += numOfRows; return numOfRows; } static void mndCancelGetNextStream(SMnode *pMnode, void *pIter) { SSdb *pSdb = pMnode->pSdb; sdbCancelFetch(pSdb, pIter); } static int32_t setTaskAttrInResBlock(SStreamObj *pStream, SStreamTask *pTask, SSDataBlock *pBlock, int32_t numOfRows) { SColumnInfoData *pColInfo; int32_t cols = 0; STaskId id = {.streamId = pTask->id.streamId, .taskId = pTask->id.taskId}; STaskStatusEntry *pe = taosHashGet(execInfo.pTaskMap, &id, sizeof(id)); if (pe == NULL) { mError("task:0x%" PRIx64 " not exists in any vnodes, streamName:%s, streamId:0x%" PRIx64 " createTs:%" PRId64 " no valid status/stage info", id.taskId, pStream->name, pStream->uid, pStream->createTime); return -1; } // stream name char streamName[TSDB_TABLE_NAME_LEN + VARSTR_HEADER_SIZE] = {0}; STR_WITH_MAXSIZE_TO_VARSTR(streamName, mndGetDbStr(pStream->name), sizeof(streamName)); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)streamName, false); // task id pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); char idstr[128] = {0}; int64ToHexStr(pTask->id.taskId, idstr, tListLen(idstr)); colDataSetVal(pColInfo, numOfRows, idstr, false); // node type char nodeType[20 + VARSTR_HEADER_SIZE] = {0}; varDataSetLen(nodeType, 5); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); if (pTask->info.nodeId > 0) { memcpy(varDataVal(nodeType), "vnode", 5); } else { memcpy(varDataVal(nodeType), "snode", 5); } colDataSetVal(pColInfo, numOfRows, nodeType, false); // node id pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); int64_t nodeId = TMAX(pTask->info.nodeId, 0); colDataSetVal(pColInfo, numOfRows, (const char *)&nodeId, false); // level char level[20 + VARSTR_HEADER_SIZE] = {0}; if (pTask->info.taskLevel == TASK_LEVEL__SOURCE) { memcpy(varDataVal(level), "source", 6); varDataSetLen(level, 6); } else if (pTask->info.taskLevel == TASK_LEVEL__AGG) { memcpy(varDataVal(level), "agg", 3); varDataSetLen(level, 3); } else if (pTask->info.taskLevel == TASK_LEVEL__SINK) { memcpy(varDataVal(level), "sink", 4); varDataSetLen(level, 4); } pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)level, false); // status char status[20 + VARSTR_HEADER_SIZE] = {0}; const char *pStatus = streamTaskGetStatusStr(pe->status); STR_TO_VARSTR(status, pStatus); // status pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)status, false); // stage pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&pe->stage, false); // input queue char vbuf[40] = {0}; char buf[38] = {0}; const char *queueInfoStr = "%4.2f MiB (%6.2f%)"; snprintf(buf, tListLen(buf), queueInfoStr, pe->inputQUsed, pe->inputRate); STR_TO_VARSTR(vbuf, buf); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)vbuf, false); // input total const char *formatTotalMb = "%7.2f MiB"; const char *formatTotalGb = "%7.2f GiB"; if (pe->procsTotal < 1024) { snprintf(buf, tListLen(buf), formatTotalMb, pe->procsTotal); } else { snprintf(buf, tListLen(buf), formatTotalGb, pe->procsTotal / 1024); } memset(vbuf, 0, tListLen(vbuf)); STR_TO_VARSTR(vbuf, buf); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)vbuf, false); // process throughput const char *formatKb = "%7.2f KiB/s"; const char *formatMb = "%7.2f MiB/s"; if (pe->procsThroughput < 1024) { snprintf(buf, tListLen(buf), formatKb, pe->procsThroughput); } else { snprintf(buf, tListLen(buf), formatMb, pe->procsThroughput / 1024); } memset(vbuf, 0, tListLen(vbuf)); STR_TO_VARSTR(vbuf, buf); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)vbuf, false); // output total pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); if (pTask->info.taskLevel == TASK_LEVEL__SINK) { colDataSetNULL(pColInfo, numOfRows); } else { sprintf(buf, formatTotalMb, pe->outputTotal); memset(vbuf, 0, tListLen(vbuf)); STR_TO_VARSTR(vbuf, buf); colDataSetVal(pColInfo, numOfRows, (const char *)vbuf, false); } // output throughput pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); if (pTask->info.taskLevel == TASK_LEVEL__SINK) { colDataSetNULL(pColInfo, numOfRows); } else { if (pe->outputThroughput < 1024) { snprintf(buf, tListLen(buf), formatKb, pe->outputThroughput); } else { snprintf(buf, tListLen(buf), formatMb, pe->outputThroughput / 1024); } memset(vbuf, 0, tListLen(vbuf)); STR_TO_VARSTR(vbuf, buf); colDataSetVal(pColInfo, numOfRows, (const char *)vbuf, false); } // output queue // sprintf(buf, queueInfoStr, pe->outputQUsed, pe->outputRate); // STR_TO_VARSTR(vbuf, buf); // pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); // colDataSetVal(pColInfo, numOfRows, (const char*)vbuf, false); // info if (pTask->info.taskLevel == TASK_LEVEL__SINK) { const char *sinkStr = "%.2f MiB"; snprintf(buf, tListLen(buf), sinkStr, pe->sinkDataSize); } else if (pTask->info.taskLevel == TASK_LEVEL__SOURCE) { // offset info const char *offsetStr = "%" PRId64 " [%" PRId64 ", %" PRId64 "]"; snprintf(buf, tListLen(buf), offsetStr, pe->processedVer, pe->verRange.minVer, pe->verRange.maxVer); } else { memset(buf, 0, tListLen(buf)); } STR_TO_VARSTR(vbuf, buf); pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)vbuf, false); // start_time pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&pe->startTime, false); // start id pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&pe->startCheckpointId, false); // start ver pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&pe->startCheckpointVer, false); // checkpoint time pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); if (pe->checkpointInfo.latestTime != 0) { colDataSetVal(pColInfo, numOfRows, (const char *)&pe->checkpointInfo.latestTime, false); } else { colDataSetVal(pColInfo, numOfRows, 0, true); } // checkpoint_id pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&pe->checkpointInfo.latestId, false); // checkpoint version pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, (const char *)&pe->checkpointInfo.latestVer, false); // checkpoint size pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetNULL(pColInfo, numOfRows); // checkpoint backup status pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, 0, true); // ds_err_info pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, 0, true); // history_task_id pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); if (pe->hTaskId != 0) { int64ToHexStr(pe->hTaskId, idstr, tListLen(idstr)); colDataSetVal(pColInfo, numOfRows, idstr, false); } else { colDataSetVal(pColInfo, numOfRows, 0, true); } // history_task_status pColInfo = taosArrayGet(pBlock->pDataBlock, cols++); colDataSetVal(pColInfo, numOfRows, 0, true); return TSDB_CODE_SUCCESS; } static int32_t mndRetrieveStreamTask(SRpcMsg *pReq, SShowObj *pShow, SSDataBlock *pBlock, int32_t rowsCapacity) { SMnode *pMnode = pReq->info.node; SSdb *pSdb = pMnode->pSdb; int32_t numOfRows = 0; SStreamObj *pStream = NULL; streamMutexLock(&execInfo.lock); mndInitStreamExecInfo(pMnode, &execInfo); streamMutexUnlock(&execInfo.lock); while (numOfRows < rowsCapacity) { pShow->pIter = sdbFetch(pSdb, SDB_STREAM, pShow->pIter, (void **)&pStream); if (pShow->pIter == NULL) { break; } // lock taosRLockLatch(&pStream->lock); int32_t count = mndGetNumOfStreamTasks(pStream); if (numOfRows + count > rowsCapacity) { blockDataEnsureCapacity(pBlock, numOfRows + count); } // add row for each task SStreamTaskIter *pIter = NULL; int32_t code = createStreamTaskIter(pStream, &pIter); if (code) { taosRUnLockLatch(&pStream->lock); sdbRelease(pSdb, pStream); mError("failed to create task iter for stream:%s", pStream->name); continue; } while (streamTaskIterNextTask(pIter)) { SStreamTask *pTask = NULL; code = streamTaskIterGetCurrent(pIter, &pTask); if (code) { destroyStreamTaskIter(pIter); break; } code = setTaskAttrInResBlock(pStream, pTask, pBlock, numOfRows); if (code == TSDB_CODE_SUCCESS) { numOfRows++; } } pBlock->info.rows = numOfRows; destroyStreamTaskIter(pIter); taosRUnLockLatch(&pStream->lock); sdbRelease(pSdb, pStream); } pShow->numOfRows += numOfRows; return numOfRows; } static void mndCancelGetNextStreamTask(SMnode *pMnode, void *pIter) { SSdb *pSdb = pMnode->pSdb; sdbCancelFetch(pSdb, pIter); } static int32_t mndProcessPauseStreamReq(SRpcMsg *pReq) { SMnode *pMnode = pReq->info.node; SStreamObj *pStream = NULL; int32_t code = 0; SMPauseStreamReq pauseReq = {0}; if (tDeserializeSMPauseStreamReq(pReq->pCont, pReq->contLen, &pauseReq) < 0) { terrno = TSDB_CODE_INVALID_MSG; return -1; } code = mndAcquireStream(pMnode, pauseReq.name, &pStream); if (pStream == NULL || code != 0) { if (pauseReq.igNotExists) { mInfo("stream:%s, not exist, not pause stream", pauseReq.name); return 0; } else { mError("stream:%s not exist, failed to pause stream", pauseReq.name); terrno = TSDB_CODE_MND_STREAM_NOT_EXIST; return -1; } } mInfo("stream:%s,%" PRId64 " start to pause stream", pauseReq.name, pStream->uid); if (pStream->status == STREAM_STATUS__PAUSE) { sdbRelease(pMnode->pSdb, pStream); return 0; } if (mndCheckDbPrivilegeByName(pMnode, pReq->info.conn.user, MND_OPER_WRITE_DB, pStream->targetDb) != 0) { sdbRelease(pMnode->pSdb, pStream); return -1; } // check if it is conflict with other trans in both sourceDb and targetDb. bool conflict = mndStreamTransConflictCheck(pMnode, pStream->uid, MND_STREAM_PAUSE_NAME, true); if (conflict) { sdbRelease(pMnode->pSdb, pStream); return -1; } bool updated = taskNodeIsUpdated(pMnode); if (updated) { mError("tasks are not ready for pause, node update detected"); sdbRelease(pMnode->pSdb, pStream); return -1; } { // check for tasks, if tasks are not ready, not allowed to pause bool found = false; bool readyToPause = true; streamMutexLock(&execInfo.lock); for (int32_t i = 0; i < taosArrayGetSize(execInfo.pTaskList); ++i) { STaskId *p = taosArrayGet(execInfo.pTaskList, i); STaskStatusEntry *pEntry = taosHashGet(execInfo.pTaskMap, p, sizeof(*p)); if (pEntry == NULL) { continue; } if (pEntry->id.streamId != pStream->uid) { continue; } if (pEntry->status == TASK_STATUS__UNINIT || pEntry->status == TASK_STATUS__CK) { mError("stream:%s uid:0x%" PRIx64 " vgId:%d task:0x%" PRIx64 " status:%s, not ready for pause", pStream->name, pStream->uid, pEntry->nodeId, pEntry->id.taskId, streamTaskGetStatusStr(pEntry->status)); readyToPause = false; } found = true; } streamMutexUnlock(&execInfo.lock); if (!found) { mError("stream:%s task not report status yet, not ready for pause", pauseReq.name); sdbRelease(pMnode->pSdb, pStream); return -1; } if (!readyToPause) { mError("stream:%s task not ready for pause yet", pauseReq.name); sdbRelease(pMnode->pSdb, pStream); return -1; } } STrans *pTrans = NULL; code = doCreateTrans(pMnode, pStream, pReq, TRN_CONFLICT_NOTHING, MND_STREAM_PAUSE_NAME, "pause the stream", &pTrans); if (pTrans == NULL || code) { mError("stream:%s failed to pause stream since %s", pauseReq.name, terrstr()); sdbRelease(pMnode->pSdb, pStream); return code; } code = mndStreamRegisterTrans(pTrans, MND_STREAM_PAUSE_NAME, pStream->uid); if (code) { sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } // if nodeUpdate happened, not send pause trans code = mndStreamSetPauseAction(pMnode, pTrans, pStream); if (code) { mError("stream:%s, failed to pause task since %s", pauseReq.name, terrstr()); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } // pause stream taosWLockLatch(&pStream->lock); pStream->status = STREAM_STATUS__PAUSE; code = mndPersistTransLog(pStream, pTrans, SDB_STATUS_READY); if (code) { taosWUnLockLatch(&pStream->lock); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } taosWUnLockLatch(&pStream->lock); code = mndTransPrepare(pMnode, pTrans); if (code) { mError("trans:%d, failed to prepare pause stream trans since %s", pTrans->id, terrstr()); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return TSDB_CODE_ACTION_IN_PROGRESS; } static int32_t mndProcessResumeStreamReq(SRpcMsg *pReq) { SMnode *pMnode = pReq->info.node; SStreamObj *pStream = NULL; int32_t code = 0; if ((terrno = grantCheckExpire(TSDB_GRANT_STREAMS)) < 0) { return -1; } SMResumeStreamReq resumeReq = {0}; if (tDeserializeSMResumeStreamReq(pReq->pCont, pReq->contLen, &resumeReq) < 0) { terrno = TSDB_CODE_INVALID_MSG; return -1; } code = mndAcquireStream(pMnode, resumeReq.name, &pStream); if (pStream == NULL || code != 0) { if (resumeReq.igNotExists) { mInfo("stream:%s not exist, not resume stream", resumeReq.name); sdbRelease(pMnode->pSdb, pStream); return 0; } else { mError("stream:%s not exist, failed to resume stream", resumeReq.name); terrno = TSDB_CODE_MND_STREAM_NOT_EXIST; return -1; } } if (pStream->status != STREAM_STATUS__PAUSE) { sdbRelease(pMnode->pSdb, pStream); return 0; } if (mndCheckDbPrivilegeByName(pMnode, pReq->info.conn.user, MND_OPER_WRITE_DB, pStream->targetDb) != 0) { sdbRelease(pMnode->pSdb, pStream); return -1; } // check if it is conflict with other trans in both sourceDb and targetDb. bool conflict = mndStreamTransConflictCheck(pMnode, pStream->uid, MND_STREAM_RESUME_NAME, true); if (conflict) { sdbRelease(pMnode->pSdb, pStream); return -1; } STrans *pTrans = NULL; code = doCreateTrans(pMnode, pStream, pReq, TRN_CONFLICT_NOTHING, MND_STREAM_RESUME_NAME, "resume the stream", &pTrans); if (pTrans == NULL || code) { mError("stream:%s, failed to resume stream since %s", resumeReq.name, terrstr()); sdbRelease(pMnode->pSdb, pStream); return code; } code = mndStreamRegisterTrans(pTrans, MND_STREAM_RESUME_NAME, pStream->uid); if (code) { sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } // set the resume action if (mndStreamSetResumeAction(pTrans, pMnode, pStream, resumeReq.igUntreated) < 0) { mError("stream:%s, failed to drop task since %s", resumeReq.name, terrstr()); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } // resume stream taosWLockLatch(&pStream->lock); pStream->status = STREAM_STATUS__NORMAL; if (mndPersistTransLog(pStream, pTrans, SDB_STATUS_READY) < 0) { taosWUnLockLatch(&pStream->lock); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } taosWUnLockLatch(&pStream->lock); if (mndTransPrepare(pMnode, pTrans) != 0) { mError("trans:%d, failed to prepare pause stream trans since %s", pTrans->id, terrstr()); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return TSDB_CODE_ACTION_IN_PROGRESS; } static bool isNodeEpsetChanged(const SEpSet *pPrevEpset, const SEpSet *pCurrent) { const SEp *pEp = GET_ACTIVE_EP(pPrevEpset); const SEp *p = GET_ACTIVE_EP(pCurrent); if (pEp->port == p->port && strncmp(pEp->fqdn, p->fqdn, TSDB_FQDN_LEN) == 0) { return false; } return true; } // 1. increase the replica does not affect the stream process. // 2. decreasing the replica may affect the stream task execution in the way that there is one or more running stream // tasks on the will be removed replica. // 3. vgroup redistribution is an combination operation of first increase replica and then decrease replica. So we // will handle it as mentioned in 1 & 2 items. static SVgroupChangeInfo mndFindChangedNodeInfo(SMnode *pMnode, const SArray *pPrevNodeList, const SArray *pNodeList) { SVgroupChangeInfo info = { .pUpdateNodeList = taosArrayInit(4, sizeof(SNodeUpdateInfo)), .pDBMap = taosHashInit(32, taosGetDefaultHashFunction(TSDB_DATA_TYPE_VARCHAR), true, HASH_NO_LOCK), }; int32_t numOfNodes = taosArrayGetSize(pPrevNodeList); for (int32_t i = 0; i < numOfNodes; ++i) { SNodeEntry *pPrevEntry = taosArrayGet(pPrevNodeList, i); int32_t num = taosArrayGetSize(pNodeList); for (int32_t j = 0; j < num; ++j) { SNodeEntry *pCurrent = taosArrayGet(pNodeList, j); if (pCurrent->nodeId == pPrevEntry->nodeId) { if (pPrevEntry->stageUpdated || isNodeEpsetChanged(&pPrevEntry->epset, &pCurrent->epset)) { const SEp *pPrevEp = GET_ACTIVE_EP(&pPrevEntry->epset); char buf[256] = {0}; epsetToStr(&pCurrent->epset, buf, tListLen(buf)); mDebug("nodeId:%d restart/epset changed detected, old:%s:%d -> new:%s, stageUpdate:%d", pCurrent->nodeId, pPrevEp->fqdn, pPrevEp->port, buf, pPrevEntry->stageUpdated); SNodeUpdateInfo updateInfo = {.nodeId = pPrevEntry->nodeId}; epsetAssign(&updateInfo.prevEp, &pPrevEntry->epset); epsetAssign(&updateInfo.newEp, &pCurrent->epset); taosArrayPush(info.pUpdateNodeList, &updateInfo); } // todo handle the snode info if (pCurrent->nodeId != SNODE_HANDLE) { SVgObj *pVgroup = mndAcquireVgroup(pMnode, pCurrent->nodeId); taosHashPut(info.pDBMap, pVgroup->dbName, strlen(pVgroup->dbName), NULL, 0); mndReleaseVgroup(pMnode, pVgroup); } break; } } } return info; } static int32_t mndProcessVgroupChange(SMnode *pMnode, SVgroupChangeInfo *pChangeInfo) { SSdb *pSdb = pMnode->pSdb; SStreamObj *pStream = NULL; void *pIter = NULL; STrans *pTrans = NULL; int32_t code = 0; // conflict check for nodeUpdate trans, here we randomly chose one stream to add into the trans pool while (1) { pIter = sdbFetch(pSdb, SDB_STREAM, pIter, (void **)&pStream); if (pIter == NULL) { break; } bool conflict = mndStreamTransConflictCheck(pMnode, pStream->uid, MND_STREAM_TASK_UPDATE_NAME, false); sdbRelease(pSdb, pStream); if (conflict) { mError("nodeUpdate conflict with other trans, current nodeUpdate ignored"); sdbCancelFetch(pSdb, pIter); return -1; } } while (1) { pIter = sdbFetch(pSdb, SDB_STREAM, pIter, (void **)&pStream); if (pIter == NULL) { break; } // here create only one trans if (pTrans == NULL) { code = doCreateTrans(pMnode, pStream, NULL, TRN_CONFLICT_NOTHING, MND_STREAM_TASK_UPDATE_NAME, "update task epsets", &pTrans); if (pTrans == NULL || code) { sdbRelease(pSdb, pStream); sdbCancelFetch(pSdb, pIter); return terrno = code; } mndStreamRegisterTrans(pTrans, MND_STREAM_TASK_UPDATE_NAME, pStream->uid); } void *p = taosHashGet(pChangeInfo->pDBMap, pStream->targetDb, strlen(pStream->targetDb)); void *p1 = taosHashGet(pChangeInfo->pDBMap, pStream->sourceDb, strlen(pStream->sourceDb)); if (p == NULL && p1 == NULL) { mDebug("stream:0x%" PRIx64 " %s not involved nodeUpdate, ignore", pStream->uid, pStream->name); sdbRelease(pSdb, pStream); continue; } mDebug("stream:0x%" PRIx64 " %s involved node changed, create update trans, transId:%d", pStream->uid, pStream->name, pTrans->id); code = mndStreamSetUpdateEpsetAction(pMnode, pStream, pChangeInfo, pTrans); // todo: not continue, drop all and retry again if (code != TSDB_CODE_SUCCESS) { mError("stream:0x%" PRIx64 " build nodeUpdate trans failed, ignore and continue, code:%s", pStream->uid, tstrerror(code)); sdbRelease(pSdb, pStream); continue; } code = mndPersistTransLog(pStream, pTrans, SDB_STATUS_READY); sdbRelease(pSdb, pStream); if (code != TSDB_CODE_SUCCESS) { sdbCancelFetch(pSdb, pIter); return code; } } // no need to build the trans to handle the vgroup update if (pTrans == NULL) { return 0; } code = mndTransPrepare(pMnode, pTrans); if (code) { mError("trans:%d, failed to prepare update stream trans since %s", pTrans->id, terrstr()); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } static int32_t extractNodeListFromStream(SMnode *pMnode, SArray *pNodeList) { SSdb *pSdb = pMnode->pSdb; SStreamObj *pStream = NULL; void *pIter = NULL; SHashObj *pHash = taosHashInit(64, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), false, HASH_NO_LOCK); while (1) { pIter = sdbFetch(pSdb, SDB_STREAM, pIter, (void **)&pStream); if (pIter == NULL) { break; } taosWLockLatch(&pStream->lock); SStreamTaskIter *pTaskIter = NULL; int32_t code = createStreamTaskIter(pStream, &pTaskIter); if (code) { taosWUnLockLatch(&pStream->lock); sdbRelease(pSdb, pStream); mError("failed to create task iter for stream:%s", pStream->name); continue; } while (streamTaskIterNextTask(pTaskIter)) { SStreamTask *pTask = NULL; code = streamTaskIterGetCurrent(pTaskIter, &pTask); if (code) { break; } SNodeEntry entry = {.hbTimestamp = -1, .nodeId = pTask->info.nodeId}; epsetAssign(&entry.epset, &pTask->info.epSet); taosHashPut(pHash, &entry.nodeId, sizeof(entry.nodeId), &entry, sizeof(entry)); } destroyStreamTaskIter(pTaskIter); taosWUnLockLatch(&pStream->lock); sdbRelease(pSdb, pStream); } taosArrayClear(pNodeList); // convert to list pIter = NULL; while ((pIter = taosHashIterate(pHash, pIter)) != NULL) { SNodeEntry *pEntry = (SNodeEntry *)pIter; taosArrayPush(pNodeList, pEntry); char buf[256] = {0}; epsetToStr(&pEntry->epset, buf, tListLen(buf)); mDebug("extract nodeInfo from stream obj, nodeId:%d, %s", pEntry->nodeId, buf); } taosHashCleanup(pHash); mDebug("numOfNodes:%d for stream after extract nodeInfo from stream", (int32_t)taosArrayGetSize(pNodeList)); return TSDB_CODE_SUCCESS; } // this function runs by only one thread, so it is not multi-thread safe static int32_t mndProcessNodeCheckReq(SRpcMsg *pMsg) { int32_t code = 0; int32_t old = atomic_val_compare_exchange_32(&mndNodeCheckSentinel, 0, 1); if (old != 0) { mDebug("still in checking node change"); return 0; } mDebug("start to do node change checking"); int64_t ts = taosGetTimestampSec(); SMnode *pMnode = pMsg->info.node; streamMutexLock(&execInfo.lock); int32_t numOfNodes = extractStreamNodeList(pMnode); streamMutexUnlock(&execInfo.lock); if (numOfNodes == 0) { mDebug("end to do stream task(s) node change checking, no stream tasks exist, do nothing"); execInfo.ts = ts; atomic_store_32(&mndNodeCheckSentinel, 0); return 0; } bool allReady = true; SArray *pNodeSnapshot = NULL; code = mndTakeVgroupSnapshot(pMnode, &allReady, &pNodeSnapshot); if (code) { mError("failed to take the vgroup snapshot, ignore it and continue"); } if (!allReady) { taosArrayDestroy(pNodeSnapshot); atomic_store_32(&mndNodeCheckSentinel, 0); mWarn("not all vnodes are ready, ignore the exec nodeUpdate check"); return 0; } streamMutexLock(&execInfo.lock); removeExpiredNodeEntryAndTaskInBuf(pNodeSnapshot); SVgroupChangeInfo changeInfo = mndFindChangedNodeInfo(pMnode, execInfo.pNodeList, pNodeSnapshot); if (taosArrayGetSize(changeInfo.pUpdateNodeList) > 0) { // kill current active checkpoint transaction, since the transaction is vnode wide. killAllCheckpointTrans(pMnode, &changeInfo); code = mndProcessVgroupChange(pMnode, &changeInfo); // keep the new vnode snapshot if success if (code == TSDB_CODE_SUCCESS || code == TSDB_CODE_ACTION_IN_PROGRESS) { extractNodeListFromStream(pMnode, execInfo.pNodeList); execInfo.ts = ts; mDebug("create trans successfully, update cached node list, numOfNodes:%d", (int)taosArrayGetSize(execInfo.pNodeList)); } else { mError("unexpected code during create nodeUpdate trans, code:%s", tstrerror(code)); } } else { mDebug("no update found in nodeList"); } taosArrayDestroy(pNodeSnapshot); streamMutexUnlock(&execInfo.lock); taosArrayDestroy(changeInfo.pUpdateNodeList); taosHashCleanup(changeInfo.pDBMap); mDebug("end to do stream task node change checking"); atomic_store_32(&mndNodeCheckSentinel, 0); return 0; } static int32_t mndProcessNodeCheck(SRpcMsg *pReq) { SMnode *pMnode = pReq->info.node; SSdb *pSdb = pMnode->pSdb; if (sdbGetSize(pSdb, SDB_STREAM) <= 0) { return 0; } int32_t size = sizeof(SMStreamNodeCheckMsg); SMStreamNodeCheckMsg *pMsg = rpcMallocCont(size); SRpcMsg rpcMsg = {.msgType = TDMT_MND_STREAM_NODECHANGE_CHECK, .pCont = pMsg, .contLen = size}; tmsgPutToQueue(&pMnode->msgCb, WRITE_QUEUE, &rpcMsg); return 0; } void saveTaskAndNodeInfoIntoBuf(SStreamObj *pStream, SStreamExecInfo *pExecNode) { SStreamTaskIter *pIter = NULL; int32_t code = createStreamTaskIter(pStream, &pIter); if (code) { mError("failed to create task iter for stream:%s", pStream->name); return; } while (streamTaskIterNextTask(pIter)) { SStreamTask *pTask = NULL; code = streamTaskIterGetCurrent(pIter, &pTask); if (code) { break; } STaskId id = {.streamId = pTask->id.streamId, .taskId = pTask->id.taskId}; void *p = taosHashGet(pExecNode->pTaskMap, &id, sizeof(id)); if (p == NULL) { STaskStatusEntry entry = {0}; streamTaskStatusInit(&entry, pTask); taosHashPut(pExecNode->pTaskMap, &id, sizeof(id), &entry, sizeof(entry)); taosArrayPush(pExecNode->pTaskList, &id); int32_t num = (int32_t)taosArrayGetSize(pExecNode->pTaskList); mInfo("s-task:0x%x add into task buffer, total:%d", (int32_t)entry.id.taskId, num); // add the new vgroups if not added yet bool exist = false; for (int32_t j = 0; j < taosArrayGetSize(pExecNode->pNodeList); ++j) { SNodeEntry *pEntry = taosArrayGet(pExecNode->pNodeList, j); if (pEntry->nodeId == pTask->info.nodeId) { exist = true; break; } } if (!exist) { SNodeEntry nodeEntry = {.hbTimestamp = -1, .nodeId = pTask->info.nodeId}; epsetAssign(&nodeEntry.epset, &pTask->info.epSet); taosArrayPush(pExecNode->pNodeList, &nodeEntry); mInfo("vgId:%d added into nodeList, total:%d", nodeEntry.nodeId, (int)taosArrayGetSize(pExecNode->pNodeList)); } } } destroyStreamTaskIter(pIter); } static void doAddTaskId(SArray *pList, int32_t taskId, int64_t uid, int32_t numOfTotal) { int32_t num = taosArrayGetSize(pList); for (int32_t i = 0; i < num; ++i) { int32_t *pId = taosArrayGet(pList, i); if (taskId == *pId) { return; } } taosArrayPush(pList, &taskId); int32_t numOfTasks = taosArrayGetSize(pList); mDebug("stream:0x%" PRIx64 " receive %d reqs for checkpoint, remain:%d", uid, numOfTasks, numOfTotal - numOfTasks); } int32_t mndProcessStreamReqCheckpoint(SRpcMsg *pReq) { SMnode *pMnode = pReq->info.node; SStreamTaskCheckpointReq req = {0}; SDecoder decoder = {0}; tDecoderInit(&decoder, pReq->pCont, pReq->contLen); if (tDecodeStreamTaskCheckpointReq(&decoder, &req)) { tDecoderClear(&decoder); terrno = TSDB_CODE_INVALID_MSG; mError("invalid task checkpoint req msg received"); return -1; } tDecoderClear(&decoder); mDebug("receive stream task checkpoint req msg, vgId:%d, s-task:0x%x", req.nodeId, req.taskId); // register to the stream task done map, if all tasks has sent this kinds of message, start the checkpoint trans. streamMutexLock(&execInfo.lock); SStreamObj *pStream = NULL; int32_t code = mndGetStreamObj(pMnode, req.streamId, &pStream); if (pStream == NULL || code != 0) { mWarn("failed to find the stream:0x%" PRIx64 ", not handle the checkpoint req, try to acquire in buf", req.streamId); // not in meta-store yet, try to acquire the task in exec buffer // the checkpoint req arrives too soon before the completion of the create stream trans. STaskId id = {.streamId = req.streamId, .taskId = req.taskId}; void *p = taosHashGet(execInfo.pTaskMap, &id, sizeof(id)); if (p == NULL) { mError("failed to find the stream:0x%" PRIx64 " in buf, not handle the checkpoint req", req.streamId); terrno = TSDB_CODE_MND_STREAM_NOT_EXIST; streamMutexUnlock(&execInfo.lock); return -1; } else { mDebug("s-task:0x%" PRIx64 "-0x%x in buf not in mnode/meta, create stream trans may not complete yet", req.streamId, req.taskId); } } int32_t numOfTasks = (pStream == NULL) ? 0 : mndGetNumOfStreamTasks(pStream); SArray **pReqTaskList = (SArray **)taosHashGet(execInfo.pTransferStateStreams, &req.streamId, sizeof(req.streamId)); if (pReqTaskList == NULL) { SArray *pList = taosArrayInit(4, sizeof(int32_t)); doAddTaskId(pList, req.taskId, req.streamId, numOfTasks); taosHashPut(execInfo.pTransferStateStreams, &req.streamId, sizeof(int64_t), &pList, sizeof(void *)); pReqTaskList = (SArray **)taosHashGet(execInfo.pTransferStateStreams, &req.streamId, sizeof(req.streamId)); } else { doAddTaskId(*pReqTaskList, req.taskId, req.streamId, numOfTasks); } int32_t total = taosArrayGetSize(*pReqTaskList); if (total == numOfTasks) { // all tasks has send the reqs int64_t checkpointId = mndStreamGenChkptId(pMnode, false); mInfo("stream:0x%" PRIx64 " all tasks req checkpoint, start checkpointId:%" PRId64, req.streamId, checkpointId); if (pStream != NULL) { // TODO:handle error int32_t code = mndProcessStreamCheckpointTrans(pMnode, pStream, checkpointId, 0, false); } else { // todo: wait for the create stream trans completed, and launch the checkpoint trans // SStreamObj *pStream = mndGetStreamObj(pMnode, req.streamId); // sleep(500ms) } // remove this entry taosHashRemove(execInfo.pTransferStateStreams, &req.streamId, sizeof(int64_t)); int32_t numOfStreams = taosHashGetSize(execInfo.pTransferStateStreams); mDebug("stream:0x%" PRIx64 " removed, remain streams:%d fill-history not completed", req.streamId, numOfStreams); } if (pStream != NULL) { mndReleaseStream(pMnode, pStream); } streamMutexUnlock(&execInfo.lock); { SRpcMsg rsp = {.code = 0, .info = pReq->info, .contLen = sizeof(SMStreamReqCheckpointRsp)}; rsp.pCont = rpcMallocCont(rsp.contLen); SMsgHead *pHead = rsp.pCont; pHead->vgId = htonl(req.nodeId); tmsgSendRsp(&rsp); pReq->info.handle = NULL; // disable auto rsp } return 0; } static void doAddReportStreamTask(SArray* pList, const SCheckpointReport* pReport) { bool existed = false; for (int32_t i = 0; i < taosArrayGetSize(pList); ++i) { STaskChkptInfo *p = taosArrayGet(pList, i); if (p->taskId == pReport->taskId) { existed = true; break; } } if (!existed) { STaskChkptInfo info = { .streamId = pReport->streamId, .taskId = pReport->taskId, .transId = pReport->transId, .dropHTask = pReport->dropHTask, .version = pReport->checkpointVer, .ts = pReport->checkpointTs, .checkpointId = pReport->checkpointId, .nodeId = pReport->nodeId, }; taosArrayPush(pList, &info); } } int32_t mndProcessCheckpointReport(SRpcMsg *pReq) { SMnode *pMnode = pReq->info.node; SCheckpointReport req = {0}; SDecoder decoder = {0}; tDecoderInit(&decoder, pReq->pCont, pReq->contLen); if (tDecodeStreamTaskChkptReport(&decoder, &req)) { tDecoderClear(&decoder); terrno = TSDB_CODE_INVALID_MSG; mError("invalid task checkpoint-report msg received"); return -1; } tDecoderClear(&decoder); mDebug("receive stream task checkpoint-report msg, vgId:%d, s-task:0x%x, checkpointId:%" PRId64 " checkpointVer:%" PRId64 " transId:%d", req.nodeId, req.taskId, req.checkpointId, req.checkpointVer, req.transId); // register to the stream task done map, if all tasks has sent this kinds of message, start the checkpoint trans. streamMutexLock(&execInfo.lock); SStreamObj *pStream = NULL; int32_t code = mndGetStreamObj(pMnode, req.streamId, &pStream); if (pStream == NULL || code != 0) { mWarn("failed to find the stream:0x%" PRIx64 ", not handle checkpoint-report, try to acquire in buf", req.streamId); // not in meta-store yet, try to acquire the task in exec buffer // the checkpoint req arrives too soon before the completion of the create stream trans. STaskId id = {.streamId = req.streamId, .taskId = req.taskId}; void *p = taosHashGet(execInfo.pTaskMap, &id, sizeof(id)); if (p == NULL) { mError("failed to find the stream:0x%" PRIx64 " in buf, not handle the checkpoint-report", req.streamId); terrno = TSDB_CODE_MND_STREAM_NOT_EXIST; streamMutexUnlock(&execInfo.lock); return -1; } else { mDebug("s-task:0x%" PRIx64 "-0x%x in buf not in mnode/meta, create stream trans may not complete yet", req.streamId, req.taskId); } } int32_t numOfTasks = (pStream == NULL) ? 0 : mndGetNumOfStreamTasks(pStream); SArray **pReqTaskList = (SArray **)taosHashGet(execInfo.pChkptStreams, &req.streamId, sizeof(req.streamId)); if (pReqTaskList == NULL) { SArray *pList = taosArrayInit(4, sizeof(STaskChkptInfo)); doAddReportStreamTask(pList, &req); taosHashPut(execInfo.pChkptStreams, &req.streamId, sizeof(req.streamId), &pList, POINTER_BYTES); pReqTaskList = (SArray **)taosHashGet(execInfo.pChkptStreams, &req.streamId, sizeof(req.streamId)); } else { doAddReportStreamTask(*pReqTaskList, &req); } int32_t total = taosArrayGetSize(*pReqTaskList); if (total == numOfTasks) { // all tasks has send the reqs mInfo("stream:0x%" PRIx64 " %s all %d tasks send checkpoint-report, checkpoint meta-info for checkpointId:%" PRId64 " will be issued soon", req.streamId, pStream->name, total, req.checkpointId); } if (pStream != NULL) { mndReleaseStream(pMnode, pStream); } streamMutexUnlock(&execInfo.lock); doSendQuickRsp(&pReq->info, sizeof(SMStreamUpdateChkptRsp), req.nodeId, TSDB_CODE_SUCCESS); return 0; } static int64_t getConsensusId(int64_t streamId, int32_t numOfTasks, int32_t* pExistedTasks, bool *pAllSame) { int32_t num = 0; int64_t chkId = INT64_MAX; *pExistedTasks = 0; *pAllSame = true; for(int32_t i = 0; i < taosArrayGetSize(execInfo.pTaskList); ++i) { STaskId* p = taosArrayGet(execInfo.pTaskList, i); if (p->streamId != streamId) { continue; } num += 1; STaskStatusEntry* pe = taosHashGet(execInfo.pTaskMap, p, sizeof(*p)); if (chkId > pe->checkpointInfo.latestId) { if (chkId != INT64_MAX) { *pAllSame = false; } chkId = pe->checkpointInfo.latestId; } } *pExistedTasks = num; if (num < numOfTasks) { // not all task send info to mnode through hbMsg, no valid checkpoint Id return -1; } return chkId; } static void doSendQuickRsp(SRpcHandleInfo *pInfo, int32_t msgSize, int32_t vgId, int32_t code) { SRpcMsg rsp = {.code = code, .info = *pInfo, .contLen = msgSize}; rsp.pCont = rpcMallocCont(rsp.contLen); SMsgHead *pHead = rsp.pCont; pHead->vgId = htonl(vgId); tmsgSendRsp(&rsp); pInfo->handle = NULL; // disable auto rsp } //static int32_t mndProcessConsensusCheckpointId(SRpcMsg *pMsg) { // SMnode *pMnode = pMsg->info.node; // SDecoder decoder = {0}; // // SRestoreCheckpointInfo req = {0}; // tDecoderInit(&decoder, pMsg->pCont, pMsg->contLen); // // if (tDecodeRestoreCheckpointInfo(&decoder, &req)) { // tDecoderClear(&decoder); // terrno = TSDB_CODE_INVALID_MSG; // mError("invalid task consensus-checkpoint msg received"); // return -1; // } // tDecoderClear(&decoder); // // mDebug("receive stream task consensus-checkpoint msg, vgId:%d, s-task:0x%" PRIx64 "-0x%x, checkpointId:%" PRId64, // req.nodeId, req.streamId, req.taskId, req.checkpointId); // // // register to the stream task done map, if all tasks has sent this kinds of message, start the checkpoint trans. // streamMutexLock(&execInfo.lock); // // // mnode handle the create stream transaction too slow may cause this problem // SStreamObj *pStream = mndGetStreamObj(pMnode, req.streamId); // if (pStream == NULL) { // mWarn("failed to find the stream:0x%" PRIx64 ", not handle consensus-checkpointId", req.streamId); // // // not in meta-store yet, try to acquire the task in exec buffer // // the checkpoint req arrives too soon before the completion of the create stream trans. // STaskId id = {.streamId = req.streamId, .taskId = req.taskId}; // void *p = taosHashGet(execInfo.pTaskMap, &id, sizeof(id)); // if (p == NULL) { // mError("failed to find the stream:0x%" PRIx64 " in buf, not handle consensus-checkpointId", req.streamId); // terrno = TSDB_CODE_MND_STREAM_NOT_EXIST; // streamMutexUnlock(&execInfo.lock); // // doSendQuickRsp(&pMsg->info, sizeof(SMStreamReqConsensChkptRsp), req.nodeId, terrno); // return -1; // } else { // mDebug("s-task:0x%" PRIx64 "-0x%x in buf not in mnode/meta, create stream trans may not complete yet", // req.streamId, req.taskId); // // todo wait for stream is created // } // } // // mInfo("vgId:%d stream:0x%" PRIx64 " %s meta-stored checkpointId:%" PRId64, req.nodeId, req.streamId, pStream->name, // pStream->checkpointId); // // int32_t numOfTasks = (pStream == NULL) ? 0 : mndGetNumOfStreamTasks(pStream); // if ((pStream != NULL) && (pStream->checkpointId == 0)) { // not generated checkpoint yet, return 0 directly // streamMutexUnlock(&execInfo.lock); // mndCreateSetConsensusChkptIdTrans(pMnode, pStream, req.taskId, 0, req.startTs); // // doSendQuickRsp(&pMsg->info, sizeof(SMStreamReqConsensChkptRsp), req.nodeId, terrno); // return TSDB_CODE_SUCCESS; // } // // int32_t num = 0; // int64_t chkId = getConsensusId(req.streamId, numOfTasks, &num); // // // some tasks not send hbMsg to mnode yet, wait for 5s. // if (chkId == -1) { // mDebug("not all(%d/%d) task(s) send hbMsg yet, wait for a while and check again, s-task:0x%x", req.taskId, num, // numOfTasks); // SCheckpointConsensusInfo *pInfo = mndGetConsensusInfo(execInfo.pStreamConsensus, req.streamId, numOfTasks); // mndAddConsensusTasks(pInfo, &req); // // streamMutexUnlock(&execInfo.lock); // doSendQuickRsp(&pMsg->info, sizeof(SMStreamReqConsensChkptRsp), req.nodeId, terrno); // return 0; // } // // if (chkId == req.checkpointId) { // mDebug("vgId:%d stream:0x%" PRIx64 " %s consensus-checkpointId is:%" PRId64 ", meta-stored checkpointId:%" PRId64, // req.nodeId, req.streamId, pStream->name, chkId, pStream->checkpointId); // mndCreateSetConsensusChkptIdTrans(pMnode, pStream, req.taskId, chkId, req.startTs); // // streamMutexUnlock(&execInfo.lock); // doSendQuickRsp(&pMsg->info, sizeof(SMStreamReqConsensChkptRsp), req.nodeId, terrno); // return 0; // } // // // wait for 5s and check again // SCheckpointConsensusInfo *pInfo = mndGetConsensusInfo(execInfo.pStreamConsensus, req.streamId, numOfTasks); // mndAddConsensusTasks(pInfo, &req); // // if (pStream != NULL) { // mndReleaseStream(pMnode, pStream); // } // // streamMutexUnlock(&execInfo.lock); // doSendQuickRsp(&pMsg->info, sizeof(SMStreamReqConsensChkptRsp), req.nodeId, terrno); // return 0; //} int32_t mndProcessConsensusInTmr(SRpcMsg *pMsg) { SMnode *pMnode = pMsg->info.node; int64_t now = taosGetTimestampMs(); SArray *pStreamList = taosArrayInit(4, sizeof(int64_t)); mDebug("start to process consensus-checkpointId in tmr"); bool allReady = true; SArray *pNodeSnapshot = NULL; int32_t code = mndTakeVgroupSnapshot(pMnode, &allReady, &pNodeSnapshot); taosArrayDestroy(pNodeSnapshot); if (code) { mError("failed to get the vgroup snapshot, ignore it and continue"); } if (!allReady) { mWarn("not all vnodes are ready, end to process the consensus-checkpointId in tmr process"); taosArrayDestroy(pStreamList); return 0; } streamMutexLock(&execInfo.lock); void *pIter = NULL; while ((pIter = taosHashIterate(execInfo.pStreamConsensus, pIter)) != NULL) { SCheckpointConsensusInfo *pInfo = (SCheckpointConsensusInfo *)pIter; int64_t streamId = -1; int32_t num = taosArrayGetSize(pInfo->pTaskList); SArray *pList = taosArrayInit(4, sizeof(int32_t)); SStreamObj *pStream = NULL; code = mndGetStreamObj(pMnode, pInfo->streamId, &pStream); if (pStream == NULL || code != 0) { // stream has been dropped already mDebug("stream:0x%" PRIx64 " dropped already, continue", pInfo->streamId); taosArrayDestroy(pList); continue; } for (int32_t j = 0; j < num; ++j) { SCheckpointConsensusEntry *pe = taosArrayGet(pInfo->pTaskList, j); streamId = pe->req.streamId; int32_t existed = 0; bool allSame = true; int64_t chkId = getConsensusId(pe->req.streamId, pInfo->numOfTasks, &existed, &allSame); if (chkId == -1) { mDebug("not all(%d/%d) task(s) send hbMsg yet, wait for a while and check again, s-task:0x%x", existed, pInfo->numOfTasks, pe->req.taskId); break; } if (((now - pe->ts) >= 10 * 1000) || allSame) { mDebug("s-task:0x%x sendTs:%" PRId64 " wait %.2fs and all tasks have same checkpointId", pe->req.taskId, pe->req.startTs, (now - pe->ts) / 1000.0); ASSERT(chkId <= pe->req.checkpointId); mndCreateSetConsensusChkptIdTrans(pMnode, pStream, pe->req.taskId, chkId, pe->req.startTs); taosArrayPush(pList, &pe->req.taskId); streamId = pe->req.streamId; } else { mDebug("s-task:0x%x sendTs:%" PRId64 " wait %.2fs already, wait for next round to check", pe->req.taskId, pe->req.startTs, (now - pe->ts) / 1000.0); } } mndReleaseStream(pMnode, pStream); if (taosArrayGetSize(pList) > 0) { for (int32_t i = 0; i < taosArrayGetSize(pList); ++i) { int32_t *taskId = taosArrayGet(pList, i); for (int32_t k = 0; k < taosArrayGetSize(pInfo->pTaskList); ++k) { SCheckpointConsensusEntry *pe = taosArrayGet(pInfo->pTaskList, k); if (pe->req.taskId == *taskId) { taosArrayRemove(pInfo->pTaskList, k); break; } } } } taosArrayDestroy(pList); if (taosArrayGetSize(pInfo->pTaskList) == 0) { mndClearConsensusRspEntry(pInfo); ASSERT(streamId != -1); taosArrayPush(pStreamList, &streamId); } } for (int32_t i = 0; i < taosArrayGetSize(pStreamList); ++i) { int64_t *pStreamId = (int64_t *)taosArrayGet(pStreamList, i); code = mndClearConsensusCheckpointId(execInfo.pStreamConsensus, *pStreamId); } streamMutexUnlock(&execInfo.lock); taosArrayDestroy(pStreamList); mDebug("end to process consensus-checkpointId in tmr"); return code; } static int32_t mndProcessCreateStreamReqFromMNode(SRpcMsg *pReq) { int32_t code = mndProcessCreateStreamReq(pReq); if (code != 0 && code != TSDB_CODE_ACTION_IN_PROGRESS) { pReq->info.rsp = rpcMallocCont(1); pReq->info.rspLen = 1; pReq->info.noResp = false; pReq->code = code; } return code; } static int32_t mndProcessDropStreamReqFromMNode(SRpcMsg *pReq) { int32_t code = mndProcessDropStreamReq(pReq); if (code != 0 && code != TSDB_CODE_ACTION_IN_PROGRESS) { pReq->info.rsp = rpcMallocCont(1); pReq->info.rspLen = 1; pReq->info.noResp = false; pReq->code = code; } return code; } void mndInitStreamExecInfo(SMnode *pMnode, SStreamExecInfo *pExecInfo) { if (pExecInfo->initTaskList || pMnode == NULL) { return; } addAllStreamTasksIntoBuf(pMnode, pExecInfo); pExecInfo->initTaskList = true; } void addAllStreamTasksIntoBuf(SMnode *pMnode, SStreamExecInfo *pExecInfo) { SSdb *pSdb = pMnode->pSdb; SStreamObj *pStream = NULL; void *pIter = NULL; while (1) { pIter = sdbFetch(pSdb, SDB_STREAM, pIter, (void **)&pStream); if (pIter == NULL) { break; } saveTaskAndNodeInfoIntoBuf(pStream, pExecInfo); sdbRelease(pSdb, pStream); } } int32_t mndCreateStreamChkptInfoUpdateTrans(SMnode *pMnode, SStreamObj *pStream, SArray *pChkptInfoList) { STrans *pTrans = NULL; int32_t code = doCreateTrans(pMnode, pStream, NULL, TRN_CONFLICT_NOTHING, MND_STREAM_CHKPT_UPDATE_NAME, "update checkpoint-info", &pTrans); if (pTrans == NULL || code) { sdbRelease(pMnode->pSdb, pStream); return code; } code = mndStreamRegisterTrans(pTrans, MND_STREAM_CHKPT_UPDATE_NAME, pStream->uid); if (code){ sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } code = mndStreamSetUpdateChkptAction(pMnode, pTrans, pStream); if (code) { sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } code = mndPersistTransLog(pStream, pTrans, SDB_STATUS_READY); if (code) { sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } code = mndTransPrepare(pMnode, pTrans); if (code) { mError("trans:%d, failed to prepare update checkpoint-info meta trans since %s", pTrans->id, terrstr()); sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return code; } sdbRelease(pMnode->pSdb, pStream); mndTransDrop(pTrans); return TSDB_CODE_ACTION_IN_PROGRESS; }