/* * 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 "sma.h" #define RSMA_QTASKINFO_PERSIST_MS 7200000 #define RSMA_QTASKINFO_BUFSIZE 32768 #define RSMA_QTASKINFO_HEAD_LEN (sizeof(int32_t) + sizeof(int8_t) + sizeof(int64_t)) // len + type + suid SSmaMgmt smaMgmt = { .smaRef = -1, }; #define TD_QTASKINFO_FNAME_PREFIX "qtaskinfo.ver" typedef struct SRSmaQTaskInfoItem SRSmaQTaskInfoItem; typedef struct SRSmaQTaskInfoIter SRSmaQTaskInfoIter; static int32_t tdUidStorePut(STbUidStore *pStore, tb_uid_t suid, tb_uid_t *uid); static int32_t tdUpdateTbUidListImpl(SSma *pSma, tb_uid_t *suid, SArray *tbUids); static int32_t tdSetRSmaInfoItemParams(SSma *pSma, SRSmaParam *param, SRSmaInfo *pRSmaInfo, SReadHandle *handle, int8_t idx); static int32_t tdExecuteRSmaImpl(SSma *pSma, const void *pMsg, int32_t inputType, SRSmaInfoItem *rsmaItem, tb_uid_t suid, int8_t level); static void tdRSmaFetchTrigger(void *param, void *tmrId); static void tdRSmaPersistTrigger(void *param, void *tmrId); static void *tdRSmaPersistExec(void *param); static void tdRSmaQTaskInfoGetFName(int32_t vid, int64_t version, char *outputName); static int32_t tdRSmaQTaskInfoIterInit(SRSmaQTaskInfoIter *pIter, STFile *pTFile); static int32_t tdRSmaQTaskInfoIterNextBlock(SRSmaQTaskInfoIter *pIter, bool *isFinish); static int32_t tdRSmaQTaskInfoRestore(SSma *pSma, SRSmaQTaskInfoIter *pIter); static int32_t tdRSmaQTaskInfoItemRestore(SSma *pSma, const SRSmaQTaskInfoItem *infoItem); static int32_t tdRSmaRestoreQTaskInfoInit(SSma *pSma); static int32_t tdRSmaRestoreQTaskInfoReload(SSma *pSma); static int32_t tdRSmaRestoreTSDataReload(SSma *pSma); struct SRSmaInfoItem { SRSmaInfo *pRsmaInfo; int64_t refId; void *taskInfo; // qTaskInfo_t tmr_h tmrId; int8_t level; int8_t tmrInitFlag; int8_t triggerStat; int32_t maxDelay; }; struct SRSmaInfo { STSchema *pTSchema; SRSmaStat *pStat; int64_t suid; SRSmaInfoItem items[TSDB_RETENTION_L2]; }; #define RSMA_INFO_SMA(r) ((r)->pStat->pSma) #define RSMA_INFO_STAT(r) ((r)->pStat) struct SRSmaQTaskInfoItem { int32_t len; int8_t type; int64_t suid; void *qTaskInfo; }; struct SRSmaQTaskInfoIter { STFile *pTFile; int64_t offset; int64_t fsize; int32_t nBytes; int32_t nAlloc; char *pBuf; // ------------ char *qBuf; // for iterator int32_t nBufPos; }; static void tdRSmaQTaskInfoGetFName(int32_t vgId, int64_t version, char *outputName) { tdGetVndFileName(vgId, VNODE_RSMA_DIR, TD_QTASKINFO_FNAME_PREFIX, version, outputName); } static FORCE_INLINE int32_t tdRSmaQTaskInfoContLen(int32_t lenWithHead) { return lenWithHead - RSMA_QTASKINFO_HEAD_LEN; } static FORCE_INLINE void tdRSmaQTaskInfoIterDestroy(SRSmaQTaskInfoIter *pIter) { taosMemoryFreeClear(pIter->pBuf); } static FORCE_INLINE void tdFreeTaskHandle(qTaskInfo_t *taskHandle, int32_t vgId, int32_t level) { // Note: free/kill may in RC qTaskInfo_t otaskHandle = atomic_load_ptr(taskHandle); if (otaskHandle && atomic_val_compare_exchange_ptr(taskHandle, otaskHandle, NULL)) { smaDebug("vgId:%d, free qTaskInfo_t %p of level %d", vgId, otaskHandle, level); qDestroyTask(otaskHandle); } else { smaDebug("vgId:%d, not free qTaskInfo_t %p of level %d", vgId, otaskHandle, level); } } void *tdFreeRSmaInfo(SRSmaInfo *pInfo) { if (pInfo) { SSma *pSma = RSMA_INFO_SMA(pInfo); for (int32_t i = 0; i < TSDB_RETENTION_L2; ++i) { SRSmaInfoItem *pItem = &pInfo->items[i]; if (pItem->taskInfo) { smaDebug("vgId:%d, stb %" PRIi64 " stop fetch-timer %p level %d", SMA_VID(pSma), pInfo->suid, pItem->tmrId, i + 1); taosTmrStopA(&pItem->tmrId); tdFreeTaskHandle(&pItem->taskInfo, SMA_VID(pSma), i + 1); } else { smaDebug("vgId:%d, stb %" PRIi64 " no need to destroy rsma info level %d since empty taskInfo", SMA_VID(pSma), pInfo->suid, i + 1); } } taosMemoryFree(pInfo->pTSchema); taosMemoryFree(pInfo); } return NULL; } static FORCE_INLINE int32_t tdUidStoreInit(STbUidStore **pStore) { ASSERT(*pStore == NULL); *pStore = taosMemoryCalloc(1, sizeof(STbUidStore)); if (*pStore == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } return TSDB_CODE_SUCCESS; } static int32_t tdUpdateTbUidListImpl(SSma *pSma, tb_uid_t *suid, SArray *tbUids) { SSmaEnv *pEnv = SMA_RSMA_ENV(pSma); SRSmaStat *pStat = (SRSmaStat *)SMA_ENV_STAT(pEnv); SRSmaInfo *pRSmaInfo = NULL; if (!suid || !tbUids) { terrno = TSDB_CODE_INVALID_PTR; smaError("vgId:%d, failed to get rsma info for uid:%" PRIi64 " since %s", SMA_VID(pSma), *suid, terrstr(terrno)); return TSDB_CODE_FAILED; } pRSmaInfo = taosHashGet(RSMA_INFO_HASH(pStat), suid, sizeof(tb_uid_t)); if (!pRSmaInfo || !(pRSmaInfo = *(SRSmaInfo **)pRSmaInfo)) { smaError("vgId:%d, failed to get rsma info for uid:%" PRIi64, SMA_VID(pSma), *suid); terrno = TSDB_CODE_RSMA_INVALID_STAT; return TSDB_CODE_FAILED; } if (pRSmaInfo->items[0].taskInfo) { if ((qUpdateQualifiedTableId(pRSmaInfo->items[0].taskInfo, tbUids, true) < 0)) { smaError("vgId:%d, update tbUidList failed for uid:%" PRIi64 " since %s", SMA_VID(pSma), *suid, terrstr(terrno)); return TSDB_CODE_FAILED; } else { smaDebug("vgId:%d, update tbUidList succeed for qTaskInfo:%p with suid:%" PRIi64 ", uid:%" PRIi64, SMA_VID(pSma), pRSmaInfo->items[0].taskInfo, *suid, *(int64_t *)taosArrayGet(tbUids, 0)); } } if (pRSmaInfo->items[1].taskInfo) { if ((qUpdateQualifiedTableId(pRSmaInfo->items[1].taskInfo, tbUids, true) < 0)) { smaError("vgId:%d, update tbUidList failed for uid:%" PRIi64 " since %s", SMA_VID(pSma), *suid, terrstr(terrno)); return TSDB_CODE_FAILED; } else { smaDebug("vgId:%d, update tbUidList succeed for qTaskInfo:%p with suid:%" PRIi64 ", uid:%" PRIi64, SMA_VID(pSma), pRSmaInfo->items[1].taskInfo, *suid, *(int64_t *)taosArrayGet(tbUids, 0)); } } return TSDB_CODE_SUCCESS; } int32_t tdUpdateTbUidList(SSma *pSma, STbUidStore *pStore) { if (!pStore || (taosArrayGetSize(pStore->tbUids) == 0)) { return TSDB_CODE_SUCCESS; } if (tdUpdateTbUidListImpl(pSma, &pStore->suid, pStore->tbUids) != TSDB_CODE_SUCCESS) { return TSDB_CODE_FAILED; } void *pIter = taosHashIterate(pStore->uidHash, NULL); while (pIter) { tb_uid_t *pTbSuid = (tb_uid_t *)taosHashGetKey(pIter, NULL); SArray *pTbUids = *(SArray **)pIter; if (tdUpdateTbUidListImpl(pSma, pTbSuid, pTbUids) != TSDB_CODE_SUCCESS) { taosHashCancelIterate(pStore->uidHash, pIter); return TSDB_CODE_FAILED; } pIter = taosHashIterate(pStore->uidHash, pIter); } return TSDB_CODE_SUCCESS; } /** * @brief fetch suid/uids when create child tables of rollup SMA * * @param pTsdb * @param ppStore * @param suid * @param uid * @return int32_t */ int32_t tdFetchTbUidList(SSma *pSma, STbUidStore **ppStore, tb_uid_t suid, tb_uid_t uid) { SSmaEnv *pEnv = SMA_RSMA_ENV(pSma); // only applicable to rollup SMA ctables if (!pEnv) { return TSDB_CODE_SUCCESS; } SRSmaStat *pStat = (SRSmaStat *)SMA_ENV_STAT(pEnv); SHashObj *infoHash = NULL; if (!pStat || !(infoHash = RSMA_INFO_HASH(pStat))) { terrno = TSDB_CODE_RSMA_INVALID_STAT; return TSDB_CODE_FAILED; } // info cached when create rsma stable and return directly for non-rsma ctables if (!taosHashGet(infoHash, &suid, sizeof(tb_uid_t))) { return TSDB_CODE_SUCCESS; } ASSERT(ppStore != NULL); if (!(*ppStore)) { if (tdUidStoreInit(ppStore) < 0) { return TSDB_CODE_FAILED; } } if (tdUidStorePut(*ppStore, suid, &uid) < 0) { *ppStore = tdUidStoreFree(*ppStore); return TSDB_CODE_FAILED; } return TSDB_CODE_SUCCESS; } static int32_t tdSetRSmaInfoItemParams(SSma *pSma, SRSmaParam *param, SRSmaInfo *pRSmaInfo, SReadHandle *pReadHandle, int8_t idx) { SRetention *pRetention = SMA_RETENTION(pSma); STsdbCfg *pTsdbCfg = SMA_TSDB_CFG(pSma); if (param->qmsg[idx]) { SRSmaInfoItem *pItem = &(pRSmaInfo->items[idx]); pItem->refId = RSMA_REF_ID(pRSmaInfo->pStat); pItem->pRsmaInfo = pRSmaInfo; pItem->taskInfo = qCreateStreamExecTaskInfo(param->qmsg[idx], pReadHandle); if (!pItem->taskInfo) { terrno = TSDB_CODE_RSMA_QTASKINFO_CREATE; goto _err; } pItem->triggerStat = TASK_TRIGGER_STAT_INACTIVE; if (param->maxdelay[idx] < TSDB_MIN_ROLLUP_MAX_DELAY) { int64_t msInterval = convertTimeFromPrecisionToUnit(pRetention[idx + 1].freq, pTsdbCfg->precision, TIME_UNIT_MILLISECOND); pItem->maxDelay = (int32_t)msInterval; } else { pItem->maxDelay = (int32_t)param->maxdelay[idx]; } if (pItem->maxDelay > TSDB_MAX_ROLLUP_MAX_DELAY) { pItem->maxDelay = TSDB_MAX_ROLLUP_MAX_DELAY; } pItem->level = (idx == 0 ? TSDB_RETENTION_L1 : TSDB_RETENTION_L2); } return TSDB_CODE_SUCCESS; _err: return TSDB_CODE_FAILED; } /** * @brief for rsam create or restore * * @param pSma * @param param * @param suid * @param tbName * @return int32_t */ int32_t tdProcessRSmaCreateImpl(SSma *pSma, SRSmaParam *param, int64_t suid, const char *tbName) { SVnode *pVnode = pSma->pVnode; SMeta *pMeta = pVnode->pMeta; SMsgCb *pMsgCb = &pVnode->msgCb; if ((param->qmsgLen[0] == 0) && (param->qmsgLen[1] == 0)) { smaDebug("vgId:%d, no qmsg1/qmsg2 for rollup table %s %" PRIi64, SMA_VID(pSma), tbName, suid); return TSDB_CODE_SUCCESS; } if (tdCheckAndInitSmaEnv(pSma, TSDB_SMA_TYPE_ROLLUP) != TSDB_CODE_SUCCESS) { terrno = TSDB_CODE_TDB_INIT_FAILED; return TSDB_CODE_FAILED; } SSmaEnv *pEnv = SMA_RSMA_ENV(pSma); SRSmaStat *pStat = (SRSmaStat *)SMA_ENV_STAT(pEnv); SRSmaInfo *pRSmaInfo = NULL; pRSmaInfo = taosHashGet(RSMA_INFO_HASH(pStat), &suid, sizeof(tb_uid_t)); if (pRSmaInfo) { ASSERT(0); // TODO: free original pRSmaInfo if exists abnormally smaDebug("vgId:%d, rsma info already exists for table %s, %" PRIi64, SMA_VID(pSma), tbName, suid); return TSDB_CODE_SUCCESS; } // from write queue: single thead pRSmaInfo = (SRSmaInfo *)taosMemoryCalloc(1, sizeof(SRSmaInfo)); if (!pRSmaInfo) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } SStreamReader *pReadHandle = tqInitSubmitMsgScanner(pMeta); if (!pReadHandle) { terrno = TSDB_CODE_OUT_OF_MEMORY; goto _err; } SReadHandle handle = { .reader = pReadHandle, .meta = pMeta, .pMsgCb = pMsgCb, .vnode = pVnode, }; STSchema *pTSchema = metaGetTbTSchema(SMA_META(pSma), suid, -1); if (!pTSchema) { terrno = TSDB_CODE_TDB_IVD_TB_SCHEMA_VERSION; goto _err; } pRSmaInfo->pTSchema = pTSchema; pRSmaInfo->pStat = pStat; pRSmaInfo->suid = suid; if (tdSetRSmaInfoItemParams(pSma, param, pRSmaInfo, &handle, 0) < 0) { goto _err; } if (tdSetRSmaInfoItemParams(pSma, param, pRSmaInfo, &handle, 1) < 0) { goto _err; } if (taosHashPut(RSMA_INFO_HASH(pStat), &suid, sizeof(tb_uid_t), &pRSmaInfo, sizeof(pRSmaInfo)) < 0) { goto _err; } smaDebug("vgId:%d, register rsma info succeed for suid:%" PRIi64, SMA_VID(pSma), suid); // start the persist timer if (TASK_TRIGGER_STAT_INIT == atomic_val_compare_exchange_8(RSMA_TRIGGER_STAT(pStat), TASK_TRIGGER_STAT_INIT, TASK_TRIGGER_STAT_ACTIVE)) { taosTmrStart(tdRSmaPersistTrigger, RSMA_QTASKINFO_PERSIST_MS, pStat, RSMA_TMR_HANDLE(pStat)); } return TSDB_CODE_SUCCESS; _err: tdFreeRSmaInfo(pRSmaInfo); taosMemoryFree(pReadHandle); return TSDB_CODE_FAILED; } /** * @brief Check and init qTaskInfo_t, only applicable to stable with SRSmaParam currently * * @param pVnode * @param pReq * @return int32_t */ int32_t tdProcessRSmaCreate(SVnode *pVnode, SVCreateStbReq *pReq) { SSma *pSma = pVnode->pSma; if (!pReq->rollup) { smaTrace("vgId:%d, return directly since no rollup for stable %s %" PRIi64, SMA_VID(pSma), pReq->name, pReq->suid); return TSDB_CODE_SUCCESS; } return tdProcessRSmaCreateImpl(pSma, &pReq->rsmaParam, pReq->suid, pReq->name); } /** * @brief store suid/[uids], prefer to use array and then hash * * @param pStore * @param suid * @param uid * @return int32_t */ static int32_t tdUidStorePut(STbUidStore *pStore, tb_uid_t suid, tb_uid_t *uid) { // prefer to store suid/uids in array if ((suid == pStore->suid) || (pStore->suid == 0)) { if (pStore->suid == 0) { pStore->suid = suid; } if (uid) { if (!pStore->tbUids) { if (!(pStore->tbUids = taosArrayInit(1, sizeof(tb_uid_t)))) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } } if (!taosArrayPush(pStore->tbUids, uid)) { return TSDB_CODE_FAILED; } } } else { // store other suid/uids in hash when multiple stable/table included in 1 batch of request if (!pStore->uidHash) { pStore->uidHash = taosHashInit(4, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), false, HASH_ENTRY_LOCK); if (!pStore->uidHash) { return TSDB_CODE_FAILED; } } if (uid) { SArray *uidArray = taosHashGet(pStore->uidHash, &suid, sizeof(tb_uid_t)); if (uidArray && ((uidArray = *(SArray **)uidArray))) { taosArrayPush(uidArray, uid); } else { SArray *pUidArray = taosArrayInit(1, sizeof(tb_uid_t)); if (!pUidArray) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } if (!taosArrayPush(pUidArray, uid)) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } if (taosHashPut(pStore->uidHash, &suid, sizeof(suid), &pUidArray, sizeof(pUidArray)) < 0) { return TSDB_CODE_FAILED; } } } else { if (taosHashPut(pStore->uidHash, &suid, sizeof(suid), NULL, 0) < 0) { return TSDB_CODE_FAILED; } } } return TSDB_CODE_SUCCESS; } void tdUidStoreDestory(STbUidStore *pStore) { if (pStore) { if (pStore->uidHash) { if (pStore->tbUids) { // When pStore->tbUids not NULL, the pStore->uidHash has k/v; otherwise pStore->uidHash only has keys. void *pIter = taosHashIterate(pStore->uidHash, NULL); while (pIter) { SArray *arr = *(SArray **)pIter; taosArrayDestroy(arr); pIter = taosHashIterate(pStore->uidHash, pIter); } } taosHashCleanup(pStore->uidHash); } taosArrayDestroy(pStore->tbUids); } } void *tdUidStoreFree(STbUidStore *pStore) { if (pStore) { tdUidStoreDestory(pStore); taosMemoryFree(pStore); } return NULL; } static int32_t tdProcessSubmitReq(STsdb *pTsdb, int64_t version, void *pReq) { if (!pReq) { terrno = TSDB_CODE_INVALID_PTR; return TSDB_CODE_FAILED; } SSubmitReq *pSubmitReq = (SSubmitReq *)pReq; if (tsdbInsertData(pTsdb, version, pSubmitReq, NULL) < 0) { return TSDB_CODE_FAILED; } return TSDB_CODE_SUCCESS; } static int32_t tdFetchSubmitReqSuids(SSubmitReq *pMsg, STbUidStore *pStore) { SSubmitMsgIter msgIter = {0}; SSubmitBlk *pBlock = NULL; SSubmitBlkIter blkIter = {0}; STSRow *row = NULL; terrno = TSDB_CODE_SUCCESS; if (tInitSubmitMsgIter(pMsg, &msgIter) < 0) { return -1; } while (true) { if (tGetSubmitMsgNext(&msgIter, &pBlock) < 0) { return -1; } if (!pBlock) break; tdUidStorePut(pStore, msgIter.suid, NULL); } if (terrno != TSDB_CODE_SUCCESS) { return -1; } return 0; } static void tdDestroySDataBlockArray(SArray *pArray) { // TODO #if 0 for (int32_t i = 0; i < taosArrayGetSize(pArray); ++i) { SSDataBlock *pDataBlock = taosArrayGet(pArray, i); blockDestroyInner(pDataBlock); } #endif taosArrayDestroy(pArray); } static int32_t tdFetchAndSubmitRSmaResult(SRSmaInfoItem *pItem, int8_t blkType) { SArray *pResult = NULL; SRSmaInfo *pRSmaInfo = pItem->pRsmaInfo; SSma *pSma = RSMA_INFO_SMA(pRSmaInfo); while (1) { SSDataBlock *output = NULL; uint64_t ts; if (qExecTask(pItem->taskInfo, &output, &ts) < 0) { ASSERT(false); } if (!output) { break; } if (!pResult) { pResult = taosArrayInit(1, sizeof(SSDataBlock)); if (!pResult) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } } taosArrayPush(pResult, output); } if (taosArrayGetSize(pResult) > 0) { #if 1 char flag[10] = {0}; snprintf(flag, 10, "level %" PRIi8, pItem->level); blockDebugShowDataBlocks(pResult, flag); #endif STsdb *sinkTsdb = (pItem->level == TSDB_RETENTION_L1 ? pSma->pRSmaTsdb1 : pSma->pRSmaTsdb2); SSubmitReq *pReq = NULL; // TODO: the schema update should be handled if (buildSubmitReqFromDataBlock(&pReq, pResult, pRSmaInfo->pTSchema, SMA_VID(pSma), pRSmaInfo->suid) < 0) { goto _err; } if (pReq && tdProcessSubmitReq(sinkTsdb, INT64_MAX, pReq) < 0) { taosMemoryFreeClear(pReq); goto _err; } taosMemoryFreeClear(pReq); } else if (terrno == 0) { smaDebug("vgId:%d, no rsma %" PRIi8 " data fetched yet", SMA_VID(pSma), pItem->level); } else { smaDebug("vgId:%d, no rsma %" PRIi8 " data fetched since %s", SMA_VID(pSma), pItem->level, tstrerror(terrno)); } tdDestroySDataBlockArray(pResult); return TSDB_CODE_SUCCESS; _err: tdDestroySDataBlockArray(pResult); return TSDB_CODE_FAILED; } /** * @brief trigger to get rsma result * * @param param * @param tmrId */ static void tdRSmaFetchTrigger(void *param, void *tmrId) { SRSmaInfoItem *pItem = param; SSma *pSma = NULL; SRSmaStat *pStat = (SRSmaStat *)taosAcquireRef(smaMgmt.smaRef, pItem->refId); if (!pStat) { smaDebug("rsma fetch task not start since already destroyed"); return; } pSma = RSMA_INFO_SMA(pItem->pRsmaInfo); // if rsma trigger stat in paused, cancelled or finished, not start fetch task int8_t rsmaTriggerStat = atomic_load_8(RSMA_TRIGGER_STAT(pStat)); switch (rsmaTriggerStat) { case TASK_TRIGGER_STAT_PAUSED: case TASK_TRIGGER_STAT_CANCELLED: case TASK_TRIGGER_STAT_FINISHED: { taosReleaseRef(smaMgmt.smaRef, pItem->refId); smaDebug("vgId:%d, not fetch rsma level %" PRIi8 " data for table:%" PRIi64 " since stat is cancelled", SMA_VID(pSma), pItem->level, pItem->pRsmaInfo->suid); return; } default: break; } int8_t fetchTriggerStat = atomic_val_compare_exchange_8(&pItem->triggerStat, TASK_TRIGGER_STAT_ACTIVE, TASK_TRIGGER_STAT_INACTIVE); switch (fetchTriggerStat) { case TASK_TRIGGER_STAT_ACTIVE: { smaDebug("vgId:%d, fetch rsma level %" PRIi8 " data for table:%" PRIi64 " since stat is active", SMA_VID(pSma), pItem->level, pItem->pRsmaInfo->suid); tdRefSmaStat(pSma, (SSmaStat *)pStat); SSDataBlock dataBlock = {.info.type = STREAM_GET_ALL}; qSetStreamInput(pItem->taskInfo, &dataBlock, STREAM_INPUT__DATA_BLOCK, false); tdFetchAndSubmitRSmaResult(pItem, STREAM_INPUT__DATA_BLOCK); tdUnRefSmaStat(pSma, (SSmaStat *)pStat); } break; case TASK_TRIGGER_STAT_PAUSED: { smaDebug("vgId:%d, not fetch rsma level %" PRIi8 " data for table:%" PRIi64 " since stat is paused", SMA_VID(pSma), pItem->level, pItem->pRsmaInfo->suid); } break; case TASK_TRIGGER_STAT_INACTIVE: { smaDebug("vgId:%d, not fetch rsma level %" PRIi8 " data for table:%" PRIi64 " since stat is inactive", SMA_VID(pSma), pItem->level, pItem->pRsmaInfo->suid); } break; case TASK_TRIGGER_STAT_INIT: { smaDebug("vgId:%d, not fetch rsma level %" PRIi8 " data for table:%" PRIi64 " since stat is init", SMA_VID(pSma), pItem->level, pItem->pRsmaInfo->suid); } break; default: { smaWarn("vgId:%d, not fetch rsma level %" PRIi8 " data for table:%" PRIi64 " since stat is unknown", SMA_VID(pSma), pItem->level, pItem->pRsmaInfo->suid); } break; } _end: taosReleaseRef(smaMgmt.smaRef, pItem->refId); } static int32_t tdExecuteRSmaImpl(SSma *pSma, const void *pMsg, int32_t inputType, SRSmaInfoItem *pItem, tb_uid_t suid, int8_t level) { if (!pItem || !pItem->taskInfo) { smaDebug("vgId:%d, no qTaskInfo to execute rsma %" PRIi8 " task for suid:%" PRIu64, SMA_VID(pSma), level, suid); return TSDB_CODE_SUCCESS; } smaDebug("vgId:%d, execute rsma %" PRIi8 " task for qTaskInfo:%p suid:%" PRIu64, SMA_VID(pSma), level, pItem->taskInfo, suid); if (qSetStreamInput(pItem->taskInfo, pMsg, inputType, true) < 0) { // INPUT__DATA_SUBMIT smaError("vgId:%d, rsma % " PRIi8 " qSetStreamInput failed since %s", SMA_VID(pSma), level, tstrerror(terrno)); return TSDB_CODE_FAILED; } tdFetchAndSubmitRSmaResult(pItem, STREAM_INPUT__DATA_SUBMIT); atomic_store_8(&pItem->triggerStat, TASK_TRIGGER_STAT_ACTIVE); SSmaEnv *pEnv = SMA_RSMA_ENV(pSma); SRSmaStat *pStat = SMA_RSMA_STAT(pEnv->pStat); if (pStat->tmrHandle) { taosTmrReset(tdRSmaFetchTrigger, pItem->maxDelay, pItem, pStat->tmrHandle, &pItem->tmrId); } else { ASSERT(0); } return TSDB_CODE_SUCCESS; } static int32_t tdExecuteRSma(SSma *pSma, const void *pMsg, int32_t inputType, tb_uid_t suid) { SSmaEnv *pEnv = SMA_RSMA_ENV(pSma); if (!pEnv) { // only applicable when rsma env exists return TSDB_CODE_SUCCESS; } SRSmaStat *pStat = (SRSmaStat *)SMA_ENV_STAT(pEnv); SRSmaInfo *pRSmaInfo = NULL; pRSmaInfo = taosHashGet(RSMA_INFO_HASH(pStat), &suid, sizeof(tb_uid_t)); if (!pRSmaInfo || !(pRSmaInfo = *(SRSmaInfo **)pRSmaInfo)) { smaDebug("vgId:%d, return as no rsma info for suid:%" PRIu64, SMA_VID(pSma), suid); return TSDB_CODE_SUCCESS; } if (!pRSmaInfo->items[0].taskInfo) { smaDebug("vgId:%d, return as no rsma qTaskInfo for suid:%" PRIu64, SMA_VID(pSma), suid); return TSDB_CODE_SUCCESS; } if (inputType == STREAM_INPUT__DATA_SUBMIT) { tdExecuteRSmaImpl(pSma, pMsg, inputType, &pRSmaInfo->items[0], suid, TSDB_RETENTION_L1); tdExecuteRSmaImpl(pSma, pMsg, inputType, &pRSmaInfo->items[1], suid, TSDB_RETENTION_L2); } return TSDB_CODE_SUCCESS; } int32_t tdProcessRSmaSubmit(SSma *pSma, void *pMsg, int32_t inputType) { SSmaEnv *pEnv = SMA_RSMA_ENV(pSma); if (!pEnv) { // only applicable when rsma env exists return TSDB_CODE_SUCCESS; } SRetention *pRetention = SMA_RETENTION(pSma); if (!RETENTION_VALID(pRetention + 1)) { // return directly if retention level 1 is invalid return TSDB_CODE_SUCCESS; } if (inputType == STREAM_INPUT__DATA_SUBMIT) { STbUidStore uidStore = {0}; tdFetchSubmitReqSuids(pMsg, &uidStore); if (uidStore.suid != 0) { tdExecuteRSma(pSma, pMsg, inputType, uidStore.suid); void *pIter = taosHashIterate(uidStore.uidHash, NULL); while (pIter) { tb_uid_t *pTbSuid = (tb_uid_t *)taosHashGetKey(pIter, NULL); tdExecuteRSma(pSma, pMsg, inputType, *pTbSuid); pIter = taosHashIterate(uidStore.uidHash, pIter); } tdUidStoreDestory(&uidStore); } } return TSDB_CODE_SUCCESS; } static int32_t tdRSmaRestoreQTaskInfoInit(SSma *pSma) { SVnode *pVnode = pSma->pVnode; SArray *suidList = taosArrayInit(1, sizeof(tb_uid_t)); if (tsdbGetStbIdList(SMA_META(pSma), 0, suidList) < 0) { taosArrayDestroy(suidList); smaError("vgId:%d, failed to restore rsma env since get stb id list error: %s", TD_VID(pVnode), terrstr()); return TSDB_CODE_FAILED; } int32_t arrSize = taosArrayGetSize(suidList); if (arrSize == 0) { taosArrayDestroy(suidList); smaDebug("vgId:%d, no need to restore rsma env since empty stb id list", TD_VID(pVnode)); return TSDB_CODE_SUCCESS; } SMetaReader mr = {0}; metaReaderInit(&mr, SMA_META(pSma), 0); for (int32_t i = 0; i < arrSize; ++i) { tb_uid_t suid = *(tb_uid_t *)taosArrayGet(suidList, i); smaDebug("vgId:%d, rsma restore, suid[%d] is %" PRIi64, TD_VID(pVnode), i, suid); if (metaGetTableEntryByUid(&mr, suid) < 0) { smaError("vgId:%d, rsma restore, failed to get table meta for %" PRIi64 " since %s", TD_VID(pVnode), suid, terrstr()); goto _err; } ASSERT(mr.me.type == TSDB_SUPER_TABLE); ASSERT(mr.me.uid == suid); if (TABLE_IS_ROLLUP(mr.me.flags)) { SRSmaParam *param = &mr.me.stbEntry.rsmaParam; for (int i = 0; i < TSDB_RETENTION_L2; ++i) { smaDebug("vgId:%d, rsma restore, table:%" PRIi64 " level:%d, maxdelay:%" PRIi64 " watermark:%" PRIi64 " qmsgLen:%" PRIi32, TD_VID(pVnode), suid, i, param->maxdelay[i], param->watermark[i], param->qmsgLen[i]); } if (tdProcessRSmaCreateImpl(pSma, &mr.me.stbEntry.rsmaParam, suid, mr.me.name) < 0) { smaError("vgId:%d, rsma restore env failed for %" PRIi64 " since %s", TD_VID(pVnode), suid, terrstr()); goto _err; } smaDebug("vgId:%d, rsma restore env success for %" PRIi64, TD_VID(pVnode), suid); } } metaReaderClear(&mr); taosArrayDestroy(suidList); return TSDB_CODE_SUCCESS; _err: metaReaderClear(&mr); taosArrayDestroy(suidList); return TSDB_CODE_FAILED; } static int32_t tdRSmaRestoreQTaskInfoReload(SSma *pSma) { SVnode *pVnode = pSma->pVnode; STFile tFile = {0}; char qTaskInfoFName[TSDB_FILENAME_LEN] = {0}; tdRSmaQTaskInfoGetFName(TD_VID(pVnode), pVnode->state.committed, qTaskInfoFName); if (tdInitTFile(&tFile, tfsGetPrimaryPath(pVnode->pTfs), qTaskInfoFName) < 0) { goto _err; } if (!taosCheckExistFile(TD_TFILE_FULL_NAME(&tFile))) { return TSDB_CODE_SUCCESS; } if (tdOpenTFile(&tFile, TD_FILE_READ) < 0) { goto _err; } SRSmaQTaskInfoIter fIter = {0}; if (tdRSmaQTaskInfoIterInit(&fIter, &tFile) < 0) { tdRSmaQTaskInfoIterDestroy(&fIter); tdCloseTFile(&tFile); tdDestroyTFile(&tFile); goto _err; } if (tdRSmaQTaskInfoRestore(pSma, &fIter) < 0) { tdRSmaQTaskInfoIterDestroy(&fIter); tdCloseTFile(&tFile); tdDestroyTFile(&tFile); goto _err; } tdRSmaQTaskInfoIterDestroy(&fIter); tdCloseTFile(&tFile); tdDestroyTFile(&tFile); return TSDB_CODE_SUCCESS; _err: smaError("rsma restore, qtaskinfo reload failed since %s", terrstr()); return TSDB_CODE_FAILED; } /** * @brief reload ts data from checkpoint * * @param pSma * @return int32_t */ static int32_t tdRSmaRestoreTSDataReload(SSma *pSma) { // TODO return TSDB_CODE_SUCCESS; _err: smaError("rsma restore, ts data reload failed since %s", terrstr()); return TSDB_CODE_FAILED; } int32_t tdProcessRSmaRestoreImpl(SSma *pSma) { // step 1: iterate all stables to restore the rsma env if (tdRSmaRestoreQTaskInfoInit(pSma) < 0) { goto _err; } // step 2: retrieve qtaskinfo items from the persistence file(rsma/qtaskinfo) and restore if (tdRSmaRestoreQTaskInfoReload(pSma) < 0) { goto _err; } // step 3: reload ts data from checkpoint if (tdRSmaRestoreTSDataReload(pSma) < 0) { goto _err; } return TSDB_CODE_SUCCESS; _err: smaError("failed to restore rsma task since %s", terrstr()); return TSDB_CODE_FAILED; } static int32_t tdRSmaQTaskInfoItemRestore(SSma *pSma, const SRSmaQTaskInfoItem *pItem) { SRSmaStat *pStat = (SRSmaStat *)SMA_ENV_STAT((SSmaEnv *)pSma->pRSmaEnv); SRSmaInfo *pRSmaInfo = NULL; void *qTaskInfo = NULL; pRSmaInfo = taosHashGet(RSMA_INFO_HASH(pStat), &pItem->suid, sizeof(pItem->suid)); if (!pRSmaInfo || !(pRSmaInfo = *(SRSmaInfo **)pRSmaInfo)) { smaDebug("vgId:%d, no restore as no rsma info for table:%" PRIu64, SMA_VID(pSma), pItem->suid); return TSDB_CODE_SUCCESS; } if (pItem->type == 1) { qTaskInfo = pRSmaInfo->items[0].taskInfo; } else if (pItem->type == 2) { qTaskInfo = pRSmaInfo->items[1].taskInfo; } else { ASSERT(0); } if (!qTaskInfo) { smaDebug("vgId:%d, no restore as NULL rsma qTaskInfo for table:%" PRIu64, SMA_VID(pSma), pItem->suid); return TSDB_CODE_SUCCESS; } if (qDeserializeTaskStatus(qTaskInfo, pItem->qTaskInfo, pItem->len) < 0) { smaError("vgId:%d, restore rsma task failed for table:%" PRIi64 " level %d since %s", SMA_VID(pSma), pItem->suid, pItem->type, terrstr(terrno)); return TSDB_CODE_FAILED; } smaDebug("vgId:%d, restore rsma task success for table:%" PRIi64 " level %d", SMA_VID(pSma), pItem->suid, pItem->type); return TSDB_CODE_SUCCESS; } static int32_t tdRSmaQTaskInfoIterInit(SRSmaQTaskInfoIter *pIter, STFile *pTFile) { memset(pIter, 0, sizeof(*pIter)); pIter->pTFile = pTFile; pIter->offset = TD_FILE_HEAD_SIZE; if (tdGetTFileSize(pTFile, &pIter->fsize) < 0) { return TSDB_CODE_FAILED; } if ((pIter->fsize - TD_FILE_HEAD_SIZE) < RSMA_QTASKINFO_BUFSIZE) { pIter->nAlloc = pIter->fsize - TD_FILE_HEAD_SIZE; } else { pIter->nAlloc = RSMA_QTASKINFO_BUFSIZE; } if (pIter->nAlloc < TD_FILE_HEAD_SIZE) { pIter->nAlloc = TD_FILE_HEAD_SIZE; } pIter->pBuf = taosMemoryMalloc(pIter->nAlloc); if (!pIter->pBuf) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } pIter->qBuf = pIter->pBuf; return TSDB_CODE_SUCCESS; } static int32_t tdRSmaQTaskInfoIterNextBlock(SRSmaQTaskInfoIter *pIter, bool *isFinish) { STFile *pTFile = pIter->pTFile; int64_t nBytes = RSMA_QTASKINFO_BUFSIZE; if (pIter->offset >= pIter->fsize) { *isFinish = true; return TSDB_CODE_SUCCESS; } if ((pIter->fsize - pIter->offset) < RSMA_QTASKINFO_BUFSIZE) { nBytes = pIter->fsize - pIter->offset; } if (tdSeekTFile(pTFile, pIter->offset, SEEK_SET) < 0) { return TSDB_CODE_FAILED; } if (tdReadTFile(pTFile, pIter->qBuf, nBytes) != nBytes) { return TSDB_CODE_FAILED; } int32_t infoLen = 0; taosDecodeFixedI32(pIter->qBuf, &infoLen); if (infoLen > nBytes) { if (infoLen <= RSMA_QTASKINFO_BUFSIZE) { terrno = TSDB_CODE_RSMA_FILE_CORRUPTED; smaError("iterate rsma qtaskinfo file %s failed since %s", TD_TFILE_FULL_NAME(pIter->pTFile), terrstr()); return TSDB_CODE_FAILED; } pIter->nAlloc = infoLen; void *pBuf = taosMemoryRealloc(pIter->pBuf, infoLen); if (!pBuf) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } pIter->pBuf = pBuf; pIter->qBuf = pIter->pBuf; nBytes = infoLen; if (tdSeekTFile(pTFile, pIter->offset, SEEK_SET)) { return TSDB_CODE_FAILED; } if (tdReadTFile(pTFile, pIter->pBuf, nBytes) != nBytes) { return TSDB_CODE_FAILED; } } pIter->offset += nBytes; pIter->nBytes = nBytes; pIter->nBufPos = 0; return TSDB_CODE_SUCCESS; } static int32_t tdRSmaQTaskInfoRestore(SSma *pSma, SRSmaQTaskInfoIter *pIter) { while (1) { // block iter bool isFinish = false; if (tdRSmaQTaskInfoIterNextBlock(pIter, &isFinish) < 0) { return TSDB_CODE_FAILED; } if (isFinish) { return TSDB_CODE_SUCCESS; } // consume the block int32_t qTaskInfoLenWithHead = 0; pIter->qBuf = taosDecodeFixedI32(pIter->qBuf, &qTaskInfoLenWithHead); if (qTaskInfoLenWithHead < RSMA_QTASKINFO_HEAD_LEN) { terrno = TSDB_CODE_TDB_FILE_CORRUPTED; smaError("restore rsma qtaskinfo file %s failed since %s", TD_TFILE_FULL_NAME(pIter->pTFile), terrstr()); return TSDB_CODE_FAILED; } while (1) { if ((pIter->nBufPos + qTaskInfoLenWithHead) <= pIter->nBytes) { SRSmaQTaskInfoItem infoItem = {0}; pIter->qBuf = taosDecodeFixedI8(pIter->qBuf, &infoItem.type); pIter->qBuf = taosDecodeFixedI64(pIter->qBuf, &infoItem.suid); infoItem.qTaskInfo = pIter->qBuf; infoItem.len = tdRSmaQTaskInfoContLen(qTaskInfoLenWithHead); // do the restore job smaDebug("vgId:%d, restore the qtask info %s offset:%" PRIi64 "\n", SMA_VID(pSma), TD_TFILE_FULL_NAME(pIter->pTFile), pIter->offset - pIter->nBytes + pIter->nBufPos); tdRSmaQTaskInfoItemRestore(pSma, &infoItem); pIter->qBuf = POINTER_SHIFT(pIter->qBuf, infoItem.len); pIter->nBufPos += qTaskInfoLenWithHead; if ((pIter->nBufPos + RSMA_QTASKINFO_HEAD_LEN) >= pIter->nBytes) { // prepare and load next block in the file pIter->offset -= (pIter->nBytes - pIter->nBufPos); break; } pIter->qBuf = taosDecodeFixedI32(pIter->qBuf, &qTaskInfoLenWithHead); continue; } // prepare and load next block in the file pIter->offset -= (pIter->nBytes - pIter->nBufPos); break; } } return TSDB_CODE_SUCCESS; } static int32_t tdRSmaPersistExecImpl(SRSmaStat *pRSmaStat) { SSma *pSma = pRSmaStat->pSma; SVnode *pVnode = pSma->pVnode; int32_t vid = SMA_VID(pSma); int64_t toffset = 0; bool isFileCreated = false; void *infoHash = taosHashIterate(RSMA_INFO_HASH(pRSmaStat), NULL); if (!infoHash) { return TSDB_CODE_SUCCESS; } STFile tFile = {0}; while (infoHash) { SRSmaInfo *pRSmaInfo = *(SRSmaInfo **)infoHash; for (int32_t i = 0; i < TSDB_RETENTION_L2; ++i) { qTaskInfo_t taskInfo = pRSmaInfo->items[i].taskInfo; if (!taskInfo) { smaDebug("vgId:%d, rsma, table %" PRIi64 " level %d qTaskInfo is NULL", vid, pRSmaInfo->suid, i + 1); continue; } char *pOutput = NULL; int32_t len = 0; int8_t type = (int8_t)(i + 1); if (qSerializeTaskStatus(taskInfo, &pOutput, &len) < 0) { smaError("vgId:%d, rsma, table %" PRIi64 " level %d serialize qTaskInfo failed since %s", vid, pRSmaInfo->suid, i + 1, terrstr(terrno)); goto _err; } if (!pOutput || len <= 0) { smaDebug("vgId:%d, rsma, table %" PRIi64 " level %d serialize qTaskInfo success but no output(len %d), not persist", vid, pRSmaInfo->suid, i + 1, len); taosMemoryFreeClear(pOutput); continue; } smaDebug("vgId:%d, rsma, table %" PRIi64 " level %d serialize qTaskInfo success with len %d, need persist", vid, pRSmaInfo->suid, i + 1, len); if (!isFileCreated) { char qTaskInfoFName[TSDB_FILENAME_LEN]; tdRSmaQTaskInfoGetFName(vid, pSma->pVnode->state.applied, qTaskInfoFName); if (tdInitTFile(&tFile, tfsGetPrimaryPath(pVnode->pTfs), qTaskInfoFName) < 0) { goto _err; } if (tdCreateTFile(&tFile, true, -1) < 0) { goto _err; } isFileCreated = true; } char tmpBuf[RSMA_QTASKINFO_HEAD_LEN] = {0}; void *pTmpBuf = &tmpBuf; int32_t headLen = 0; headLen += taosEncodeFixedI32(&pTmpBuf, len + RSMA_QTASKINFO_HEAD_LEN); headLen += taosEncodeFixedI8(&pTmpBuf, type); headLen += taosEncodeFixedI64(&pTmpBuf, pRSmaInfo->suid); ASSERT(headLen <= RSMA_QTASKINFO_HEAD_LEN); tdAppendTFile(&tFile, (void *)&tmpBuf, headLen, &toffset); smaDebug("vgId:%d, rsma, table %" PRIi64 " level %d head part(len:%d) appended to offset:%" PRIi64, vid, pRSmaInfo->suid, i + 1, headLen, toffset); tdAppendTFile(&tFile, pOutput, len, &toffset); smaDebug("vgId:%d, rsma, table %" PRIi64 " level %d body part len:%d appended to offset:%" PRIi64, vid, pRSmaInfo->suid, i + 1, len, toffset); taosMemoryFree(pOutput); } infoHash = taosHashIterate(RSMA_INFO_HASH(pRSmaStat), infoHash); } if (isFileCreated) { if (tdUpdateTFileHeader(&tFile) < 0) { smaError("vgId:%d, rsma, failed to update tfile %s header since %s", vid, TD_TFILE_FULL_NAME(&tFile), tstrerror(terrno)); goto _err; } else { smaDebug("vgId:%d, rsma, succeed to update tfile %s header", vid, TD_TFILE_FULL_NAME(&tFile)); } tdCloseTFile(&tFile); tdDestroyTFile(&tFile); } return TSDB_CODE_SUCCESS; _err: if (isFileCreated) { tdRemoveTFile(&tFile); tdDestroyTFile(&tFile); } return TSDB_CODE_FAILED; } static void *tdRSmaPersistExec(void *param) { setThreadName("rsma-task-persist"); SRSmaStat *pRSmaStat = param; SSma *pSma = pRSmaStat->pSma; int8_t triggerStat = atomic_load_8(RSMA_TRIGGER_STAT(pRSmaStat)); if (TASK_TRIGGER_STAT_CANCELLED == triggerStat || TASK_TRIGGER_STAT_PAUSED == triggerStat) { goto _end; } // execution tdRSmaPersistExecImpl(pRSmaStat); _end: if (TASK_TRIGGER_STAT_INACTIVE == atomic_val_compare_exchange_8(RSMA_TRIGGER_STAT(pRSmaStat), TASK_TRIGGER_STAT_INACTIVE, TASK_TRIGGER_STAT_ACTIVE)) { smaDebug("vgId:%d, rsma persist task is active again", SMA_VID(pSma)); } else if (TASK_TRIGGER_STAT_CANCELLED == atomic_val_compare_exchange_8(RSMA_TRIGGER_STAT(pRSmaStat), TASK_TRIGGER_STAT_CANCELLED, TASK_TRIGGER_STAT_FINISHED)) { smaDebug("vgId:%d, rsma persist task is cancelled", SMA_VID(pSma)); } else { smaWarn("vgId:%d, rsma persist task in stat %" PRIi8, SMA_VID(pSma), atomic_load_8(RSMA_TRIGGER_STAT(pRSmaStat))); } atomic_store_8(RSMA_RUNNING_STAT(pRSmaStat), 0); taosReleaseRef(smaMgmt.smaRef, pRSmaStat->refId); taosThreadExit(NULL); return NULL; } static void tdRSmaPersistTask(SRSmaStat *pRSmaStat) { TdThreadAttr thAttr; taosThreadAttrInit(&thAttr); taosThreadAttrSetDetachState(&thAttr, PTHREAD_CREATE_DETACHED); TdThread tid; if (taosThreadCreate(&tid, &thAttr, tdRSmaPersistExec, pRSmaStat) != 0) { if (TASK_TRIGGER_STAT_INACTIVE == atomic_val_compare_exchange_8(RSMA_TRIGGER_STAT(pRSmaStat), TASK_TRIGGER_STAT_INACTIVE, TASK_TRIGGER_STAT_ACTIVE)) { smaDebug("vgId:%d, persist task is active again", SMA_VID(pRSmaStat->pSma)); } else if (TASK_TRIGGER_STAT_CANCELLED == atomic_val_compare_exchange_8(RSMA_TRIGGER_STAT(pRSmaStat), TASK_TRIGGER_STAT_CANCELLED, TASK_TRIGGER_STAT_FINISHED)) { smaDebug("vgId:%d, persist task is cancelled and set finished", SMA_VID(pRSmaStat->pSma)); } else { smaWarn("vgId:%d, persist task in abnormal stat %" PRIi8, SMA_VID(pRSmaStat->pSma), atomic_load_8(RSMA_TRIGGER_STAT(pRSmaStat))); ASSERT(0); } atomic_store_8(RSMA_RUNNING_STAT(pRSmaStat), 0); taosReleaseRef(smaMgmt.smaRef, pRSmaStat->refId); } taosThreadAttrDestroy(&thAttr); } /** * @brief trigger to persist rsma qTaskInfo * * @param param * @param tmrId */ static void tdRSmaPersistTrigger(void *param, void *tmrId) { SRSmaStat *rsmaStat = param; SRSmaStat *pRSmaStat = (SRSmaStat *)taosAcquireRef(smaMgmt.smaRef, rsmaStat->refId); if (!pRSmaStat) { smaDebug("rsma persistence task not start since already destroyed"); return; } int8_t tmrStat = atomic_val_compare_exchange_8(RSMA_TRIGGER_STAT(pRSmaStat), TASK_TRIGGER_STAT_ACTIVE, TASK_TRIGGER_STAT_INACTIVE); switch (tmrStat) { case TASK_TRIGGER_STAT_ACTIVE: { atomic_store_8(RSMA_RUNNING_STAT(pRSmaStat), 1); if (TASK_TRIGGER_STAT_CANCELLED != atomic_val_compare_exchange_8(RSMA_TRIGGER_STAT(pRSmaStat), TASK_TRIGGER_STAT_CANCELLED, TASK_TRIGGER_STAT_FINISHED)) { smaDebug("vgId:%d, rsma persistence start since active", SMA_VID(pRSmaStat->pSma)); // start persist task tdRSmaPersistTask(pRSmaStat); taosTmrReset(tdRSmaPersistTrigger, RSMA_QTASKINFO_PERSIST_MS, pRSmaStat, pRSmaStat->tmrHandle, &pRSmaStat->tmrId); } else { atomic_store_8(RSMA_RUNNING_STAT(pRSmaStat), 0); } return; } break; case TASK_TRIGGER_STAT_CANCELLED: { atomic_store_8(RSMA_TRIGGER_STAT(pRSmaStat), TASK_TRIGGER_STAT_FINISHED); smaDebug("rsma persistence not start since cancelled and finished"); } break; case TASK_TRIGGER_STAT_PAUSED: { smaDebug("rsma persistence not start since paused"); } break; case TASK_TRIGGER_STAT_INACTIVE: { smaDebug("rsma persistence not start since inactive"); } break; case TASK_TRIGGER_STAT_INIT: { smaDebug("rsma persistence not start since init"); } break; default: { smaWarn("rsma persistence not start since unknown stat %" PRIi8, tmrStat); } break; } taosReleaseRef(smaMgmt.smaRef, rsmaStat->refId); }