/* * 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 "tsdb.h" #define EXTRA_BYTES 2 #define ASCENDING_TRAVERSE(o) (o == TSDB_ORDER_ASC) #define QH_GET_NUM_OF_COLS(handle) ((size_t)(taosArrayGetSize((handle)->pColumns))) #define GET_FILE_DATA_BLOCK_INFO(_checkInfo, _block) \ ((SDataBlockInfo){.window = {.skey = (_block)->keyFirst, .ekey = (_block)->keyLast}, \ .numOfCols = (_block)->numOfCols, \ .rows = (_block)->numOfRows, \ .uid = (_checkInfo)->tableId}) enum { TSDB_QUERY_TYPE_ALL = 1, TSDB_QUERY_TYPE_LAST = 2, }; enum { TSDB_CACHED_TYPE_NONE = 0, TSDB_CACHED_TYPE_LASTROW = 1, TSDB_CACHED_TYPE_LAST = 2, }; typedef struct SQueryFilePos { int32_t fid; int32_t slot; int32_t pos; int64_t lastKey; int32_t rows; bool mixBlock; bool blockCompleted; STimeWindow win; } SQueryFilePos; typedef struct SDataBlockLoadInfo { SDFileSet* fileGroup; int32_t slot; uint64_t uid; SArray* pLoadedCols; } SDataBlockLoadInfo; typedef struct SLoadCompBlockInfo { int32_t tid; /* table tid */ int32_t fileId; } SLoadCompBlockInfo; enum { CHECKINFO_CHOSEN_MEM = 0, CHECKINFO_CHOSEN_IMEM = 1, CHECKINFO_CHOSEN_BOTH = 2 // for update=2(merge case) }; typedef struct STableCheckInfo { uint64_t tableId; TSKEY lastKey; SBlockInfo* pCompInfo; int32_t compSize; int32_t numOfBlocks : 29; // number of qualified data blocks not the original blocks uint8_t chosen : 2; // indicate which iterator should move forward bool initBuf : 1; // whether to initialize the in-memory skip list iterator or not SSkipListIterator* iter; // mem buffer skip list iterator SSkipListIterator* iiter; // imem buffer skip list iterator } STableCheckInfo; typedef struct STableBlockInfo { SBlock* compBlock; STableCheckInfo* pTableCheckInfo; } STableBlockInfo; typedef struct SBlockOrderSupporter { int32_t numOfTables; STableBlockInfo** pDataBlockInfo; int32_t* blockIndexArray; int32_t* numOfBlocksPerTable; } SBlockOrderSupporter; typedef struct SIOCostSummary { int64_t blockLoadTime; int64_t statisInfoLoadTime; int64_t checkForNextTime; int64_t headFileLoad; int64_t headFileLoadTime; } SIOCostSummary; typedef struct SBlockLoadSuppInfo { SColumnDataAgg* pstatis; SColumnDataAgg** plist; SArray* defaultLoadColumn; // default load column int32_t* slotIds; // colId to slotId } SBlockLoadSuppInfo; typedef struct STsdbReadHandle { STsdb* pTsdb; SQueryFilePos cur; // current position int16_t order; STimeWindow window; // the primary query time window that applies to all queries // SColumnDataAgg* statis; // query level statistics, only one table block statistics info exists at any time // SColumnDataAgg** pstatis;// the ptr array list to return to caller int32_t numOfBlocks; SArray* pColumns; // column list, SColumnInfoData array list bool locateStart; int32_t outputCapacity; int32_t realNumOfRows; SArray* pTableCheckInfo; // SArray int32_t activeIndex; bool checkFiles; // check file stage int8_t cachelastrow; // check if last row cached bool loadExternalRow; // load time window external data rows bool currentLoadExternalRows; // current load external rows int32_t loadType; // block load type char* idStr; // query info handle, for debug purpose int32_t type; // query type: retrieve all data blocks, 2. retrieve only last row, 3. retrieve direct prev|next rows SDFileSet* pFileGroup; SFSIter fileIter; SReadH rhelper; STableBlockInfo* pDataBlockInfo; SDataCols* pDataCols; // in order to hold current file data block int32_t allocSize; // allocated data block size SDataBlockLoadInfo dataBlockLoadInfo; /* record current block load information */ SLoadCompBlockInfo compBlockLoadInfo; /* record current compblock information in SQueryAttr */ SBlockLoadSuppInfo suppInfo; SArray* prev; // previous row which is before than time window SArray* next; // next row which is after the query time window SIOCostSummary cost; STSchema* pSchema; } STsdbReadHandle; typedef struct STableGroupSupporter { int32_t numOfCols; SColIndex* pCols; SSchema* pTagSchema; } STableGroupSupporter; int32_t tsdbQueryTableList(void* pMeta, SArray* pRes, void* filterInfo); static STimeWindow updateLastrowForEachGroup(STableGroupInfo* groupList); static int32_t checkForCachedLastRow(STsdbReadHandle* pTsdbReadHandle, STableGroupInfo* groupList); static int32_t checkForCachedLast(STsdbReadHandle* pTsdbReadHandle); // static int32_t tsdbGetCachedLastRow(STable* pTable, STSRow** pRes, TSKEY* lastKey); static void changeQueryHandleForInterpQuery(tsdbReaderT pHandle); static void doMergeTwoLevelData(STsdbReadHandle* pTsdbReadHandle, STableCheckInfo* pCheckInfo, SBlock* pBlock); static int32_t tsdbReadRowsFromCache(STableCheckInfo* pCheckInfo, TSKEY maxKey, int maxRowsToRead, STimeWindow* win, STsdbReadHandle* pTsdbReadHandle); static int32_t tsdbCheckInfoCompar(const void* key1, const void* key2); // static int32_t doGetExternalRow(STsdbReadHandle* pTsdbReadHandle, int16_t type, void* pMemRef); // static void* doFreeColumnInfoData(SArray* pColumnInfoData); // static void* destroyTableCheckInfo(SArray* pTableCheckInfo); static bool tsdbGetExternalRow(tsdbReaderT pHandle); static STsdb* getTsdbByRetentions(SVnode* pVnode, STsdbReadHandle* pReadHandle, TSKEY winSKey, SRetention* retentions); static void tsdbInitDataBlockLoadInfo(SDataBlockLoadInfo* pBlockLoadInfo) { pBlockLoadInfo->slot = -1; pBlockLoadInfo->uid = 0; pBlockLoadInfo->fileGroup = NULL; } static void tsdbInitCompBlockLoadInfo(SLoadCompBlockInfo* pCompBlockLoadInfo) { pCompBlockLoadInfo->tid = -1; pCompBlockLoadInfo->fileId = -1; } static SArray* getColumnIdList(STsdbReadHandle* pTsdbReadHandle) { size_t numOfCols = QH_GET_NUM_OF_COLS(pTsdbReadHandle); assert(numOfCols <= TSDB_MAX_COLUMNS); SArray* pIdList = taosArrayInit(numOfCols, sizeof(int16_t)); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pCol = taosArrayGet(pTsdbReadHandle->pColumns, i); taosArrayPush(pIdList, &pCol->info.colId); } return pIdList; } static SArray* getDefaultLoadColumns(STsdbReadHandle* pTsdbReadHandle, bool loadTS) { SArray* pLocalIdList = getColumnIdList(pTsdbReadHandle); // check if the primary time stamp column needs to load int16_t colId = *(int16_t*)taosArrayGet(pLocalIdList, 0); // the primary timestamp column does not be included in the the specified load column list, add it if (loadTS && colId != PRIMARYKEY_TIMESTAMP_COL_ID) { int16_t columnId = PRIMARYKEY_TIMESTAMP_COL_ID; taosArrayInsert(pLocalIdList, 0, &columnId); } return pLocalIdList; } int64_t tsdbGetNumOfRowsInMemTable(tsdbReaderT* pHandle) { STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)pHandle; int64_t rows = 0; STsdbMemTable* pMemTable = NULL; // pTsdbReadHandle->pMemTable; if (pMemTable == NULL) { return rows; } // STableData* pMem = NULL; // STableData* pIMem = NULL; // SMemTable* pMemT = pMemRef->snapshot.mem; // SMemTable* pIMemT = pMemRef->snapshot.imem; size_t size = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); for (int32_t i = 0; i < size; ++i) { STableCheckInfo* pCheckInfo = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, i); // if (pMemT && pCheckInfo->tableId < pMemT->maxTables) { // pMem = pMemT->tData[pCheckInfo->tableId]; // rows += (pMem && pMem->uid == pCheckInfo->tableId) ? pMem->numOfRows : 0; // } // if (pIMemT && pCheckInfo->tableId < pIMemT->maxTables) { // pIMem = pIMemT->tData[pCheckInfo->tableId]; // rows += (pIMem && pIMem->uid == pCheckInfo->tableId) ? pIMem->numOfRows : 0; // } } return rows; } static SArray* createCheckInfoFromTableGroup(STsdbReadHandle* pTsdbReadHandle, STableGroupInfo* pGroupList) { size_t numOfGroup = taosArrayGetSize(pGroupList->pGroupList); assert(numOfGroup >= 1); // allocate buffer in order to load data blocks from file SArray* pTableCheckInfo = taosArrayInit(pGroupList->numOfTables, sizeof(STableCheckInfo)); if (pTableCheckInfo == NULL) { return NULL; } // todo apply the lastkey of table check to avoid to load header file for (int32_t i = 0; i < numOfGroup; ++i) { SArray* group = *(SArray**)taosArrayGet(pGroupList->pGroupList, i); size_t gsize = taosArrayGetSize(group); assert(gsize > 0); for (int32_t j = 0; j < gsize; ++j) { STableKeyInfo* pKeyInfo = (STableKeyInfo*)taosArrayGet(group, j); STableCheckInfo info = {.lastKey = pKeyInfo->lastKey, .tableId = pKeyInfo->uid}; if (ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { if (info.lastKey == INT64_MIN || info.lastKey < pTsdbReadHandle->window.skey) { info.lastKey = pTsdbReadHandle->window.skey; } assert(info.lastKey >= pTsdbReadHandle->window.skey && info.lastKey <= pTsdbReadHandle->window.ekey); } else { info.lastKey = pTsdbReadHandle->window.skey; } taosArrayPush(pTableCheckInfo, &info); tsdbDebug("%p check table uid:%" PRId64 " from lastKey:%" PRId64 " %s", pTsdbReadHandle, info.tableId, info.lastKey, pTsdbReadHandle->idStr); } } // TODO group table according to the tag value. taosArraySort(pTableCheckInfo, tsdbCheckInfoCompar); return pTableCheckInfo; } static void resetCheckInfo(STsdbReadHandle* pTsdbReadHandle) { size_t numOfTables = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); assert(numOfTables >= 1); // todo apply the lastkey of table check to avoid to load header file for (int32_t i = 0; i < numOfTables; ++i) { STableCheckInfo* pCheckInfo = (STableCheckInfo*)taosArrayGet(pTsdbReadHandle->pTableCheckInfo, i); pCheckInfo->lastKey = pTsdbReadHandle->window.skey; pCheckInfo->iter = tSkipListDestroyIter(pCheckInfo->iter); pCheckInfo->iiter = tSkipListDestroyIter(pCheckInfo->iiter); pCheckInfo->initBuf = false; if (ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { assert(pCheckInfo->lastKey >= pTsdbReadHandle->window.skey); } else { assert(pCheckInfo->lastKey <= pTsdbReadHandle->window.skey); } } } // only one table, not need to sort again static SArray* createCheckInfoFromCheckInfo(STableCheckInfo* pCheckInfo, TSKEY skey, SArray** psTable) { SArray* pNew = taosArrayInit(1, sizeof(STableCheckInfo)); STableCheckInfo info = {.lastKey = skey}; info.tableId = pCheckInfo->tableId; taosArrayPush(pNew, &info); return pNew; } static bool emptyQueryTimewindow(STsdbReadHandle* pTsdbReadHandle) { assert(pTsdbReadHandle != NULL); STimeWindow* w = &pTsdbReadHandle->window; bool asc = ASCENDING_TRAVERSE(pTsdbReadHandle->order); return ((asc && w->skey > w->ekey) || (!asc && w->ekey > w->skey)); } // Update the query time window according to the data time to live(TTL) information, in order to avoid to return // the expired data to client, even it is queried already. static int64_t getEarliestValidTimestamp(STsdb* pTsdb) { STsdbKeepCfg* pCfg = REPO_KEEP_CFG(pTsdb); int64_t now = taosGetTimestamp(pCfg->precision); return now - (tsTickPerDay[pCfg->precision] * pCfg->keep2) + 1; // needs to add one tick } static void setQueryTimewindow(STsdbReadHandle* pTsdbReadHandle, SQueryTableDataCond* pCond) { pTsdbReadHandle->window = pCond->twindow; bool updateTs = false; int64_t startTs = getEarliestValidTimestamp(pTsdbReadHandle->pTsdb); if (ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { if (startTs > pTsdbReadHandle->window.skey) { pTsdbReadHandle->window.skey = startTs; pCond->twindow.skey = startTs; updateTs = true; } } else { if (startTs > pTsdbReadHandle->window.ekey) { pTsdbReadHandle->window.ekey = startTs; pCond->twindow.ekey = startTs; updateTs = true; } } if (updateTs) { tsdbDebug("%p update the query time window, old:%" PRId64 " - %" PRId64 ", new:%" PRId64 " - %" PRId64 ", %s", pTsdbReadHandle, pCond->twindow.skey, pCond->twindow.ekey, pTsdbReadHandle->window.skey, pTsdbReadHandle->window.ekey, pTsdbReadHandle->idStr); } } #if 1 int nQUERY = 0; #endif static STsdb* getTsdbByRetentions(SVnode* pVnode, STsdbReadHandle* pReadHandle, TSKEY winSKey, SRetention* retentions) { if (vnodeIsRollup(pVnode)) { int level = 0; #if 0 int64_t now = taosGetTimestamp(pVnode->config.tsdbCfg.precision); for (int i = 0; i < TSDB_RETENTION_MAX; ++i) { SRetention* pRetention = retentions + i; if (pRetention->keep <= 0 || (now - pRetention->keep) >= winSKey) { break; } ++level; } #endif #if 1 switch ((nQUERY++) % 3) { case 0: level = 0; break; case 1: level = 1; break; default: level = 2; break; } #endif if (level == TSDB_RETENTION_L0) { tsdbDebug("%p rsma level %d is selected to query\n", pReadHandle, level); return VND_RSMA0(pVnode); } else if (level == TSDB_RETENTION_L1) { tsdbDebug("%p rsma level %d is selected to query\n", pReadHandle, level); return VND_RSMA1(pVnode); } else { tsdbDebug("%p rsma level %d is selected to query\n", pReadHandle, level); return VND_RSMA2(pVnode); } } return pVnode->pTsdb; } static STsdbReadHandle* tsdbQueryTablesImpl(SVnode* pVnode, SQueryTableDataCond* pCond, uint64_t qId, uint64_t taskId) { STsdbReadHandle* pReadHandle = taosMemoryCalloc(1, sizeof(STsdbReadHandle)); if (pReadHandle == NULL) { goto _end; } STsdb* pTsdb = getTsdbByRetentions(pVnode, pReadHandle, pCond->twindow.skey, pVnode->config.tsdbCfg.retentions); pReadHandle->order = pCond->order; pReadHandle->pTsdb = pTsdb; pReadHandle->type = TSDB_QUERY_TYPE_ALL; pReadHandle->cur.fid = INT32_MIN; pReadHandle->cur.win = TSWINDOW_INITIALIZER; pReadHandle->checkFiles = true; pReadHandle->activeIndex = 0; // current active table index pReadHandle->allocSize = 0; pReadHandle->locateStart = false; pReadHandle->loadType = pCond->type; pReadHandle->outputCapacity = 4096; //((STsdb*)tsdb)->config.maxRowsPerFileBlock; pReadHandle->loadExternalRow = pCond->loadExternalRows; pReadHandle->currentLoadExternalRows = pCond->loadExternalRows; char buf[128] = {0}; snprintf(buf, tListLen(buf), "TID:0x%" PRIx64 " QID:0x%" PRIx64, taskId, qId); pReadHandle->idStr = strdup(buf); if (tsdbInitReadH(&pReadHandle->rhelper, pReadHandle->pTsdb) != 0) { goto _end; } assert(pCond != NULL); setQueryTimewindow(pReadHandle, pCond); if (pCond->numOfCols > 0) { // allocate buffer in order to load data blocks from file pReadHandle->suppInfo.pstatis = taosMemoryCalloc(pCond->numOfCols, sizeof(SColumnDataAgg)); if (pReadHandle->suppInfo.pstatis == NULL) { goto _end; } // todo: use list instead of array? pReadHandle->pColumns = taosArrayInit(pCond->numOfCols, sizeof(SColumnInfoData)); if (pReadHandle->pColumns == NULL) { goto _end; } for (int32_t i = 0; i < pCond->numOfCols; ++i) { SColumnInfoData colInfo = {{0}, 0}; colInfo.info = pCond->colList[i]; int32_t code = colInfoDataEnsureCapacity(&colInfo, 0, pReadHandle->outputCapacity); if (code != TSDB_CODE_SUCCESS) { goto _end; } taosArrayPush(pReadHandle->pColumns, &colInfo); } pReadHandle->suppInfo.defaultLoadColumn = getDefaultLoadColumns(pReadHandle, true); pReadHandle->suppInfo.slotIds = taosMemoryMalloc(sizeof(int32_t) * taosArrayGetSize(pReadHandle->suppInfo.defaultLoadColumn)); pReadHandle->suppInfo.plist = taosMemoryCalloc(taosArrayGetSize(pReadHandle->suppInfo.defaultLoadColumn), POINTER_BYTES); } pReadHandle->pDataCols = tdNewDataCols(1000, pVnode->config.tsdbCfg.maxRows); if (pReadHandle->pDataCols == NULL) { tsdbError("%p failed to malloc buf for pDataCols, %s", pReadHandle, pReadHandle->idStr); terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; goto _end; } tsdbInitDataBlockLoadInfo(&pReadHandle->dataBlockLoadInfo); tsdbInitCompBlockLoadInfo(&pReadHandle->compBlockLoadInfo); return (tsdbReaderT)pReadHandle; _end: tsdbCleanupReadHandle(pReadHandle); terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; return NULL; } tsdbReaderT* tsdbQueryTables(SVnode* pVnode, SQueryTableDataCond* pCond, STableGroupInfo* groupList, uint64_t qId, uint64_t taskId) { STsdbReadHandle* pTsdbReadHandle = tsdbQueryTablesImpl(pVnode, pCond, qId, taskId); if (pTsdbReadHandle == NULL) { return NULL; } if (emptyQueryTimewindow(pTsdbReadHandle)) { return (tsdbReaderT*)pTsdbReadHandle; } // todo apply the lastkey of table check to avoid to load header file pTsdbReadHandle->pTableCheckInfo = createCheckInfoFromTableGroup(pTsdbReadHandle, groupList); if (pTsdbReadHandle->pTableCheckInfo == NULL) { // tsdbCleanupReadHandle(pTsdbReadHandle); terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; return NULL; } STableCheckInfo* pCheckInfo = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, 0); pTsdbReadHandle->pSchema = metaGetTbTSchema(pVnode->pMeta, pCheckInfo->tableId, 0); int32_t numOfCols = taosArrayGetSize(pTsdbReadHandle->suppInfo.defaultLoadColumn); int16_t* ids = pTsdbReadHandle->suppInfo.defaultLoadColumn->pData; STSchema* pSchema = pTsdbReadHandle->pSchema; int32_t i = 0, j = 0; while (i < numOfCols && j < pSchema->numOfCols) { if (ids[i] == pSchema->columns[j].colId) { pTsdbReadHandle->suppInfo.slotIds[i] = j; i++; j++; } else if (ids[i] > pSchema->columns[j].colId) { j++; } else { // tsdbCleanupReadHandle(pTsdbReadHandle); terrno = TSDB_CODE_INVALID_PARA; return NULL; } } tsdbDebug("%p total numOfTable:%" PRIzu " in this query, group %" PRIzu " %s", pTsdbReadHandle, taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo), taosArrayGetSize(groupList->pGroupList), pTsdbReadHandle->idStr); return (tsdbReaderT)pTsdbReadHandle; } void tsdbResetReadHandle(tsdbReaderT queryHandle, SQueryTableDataCond* pCond) { STsdbReadHandle* pTsdbReadHandle = queryHandle; if (emptyQueryTimewindow(pTsdbReadHandle)) { if (pCond->order != pTsdbReadHandle->order) { pTsdbReadHandle->order = pCond->order; TSWAP(pTsdbReadHandle->window.skey, pTsdbReadHandle->window.ekey); } return; } pTsdbReadHandle->order = pCond->order; pTsdbReadHandle->window = pCond->twindow; pTsdbReadHandle->type = TSDB_QUERY_TYPE_ALL; pTsdbReadHandle->cur.fid = -1; pTsdbReadHandle->cur.win = TSWINDOW_INITIALIZER; pTsdbReadHandle->checkFiles = true; pTsdbReadHandle->activeIndex = 0; // current active table index pTsdbReadHandle->locateStart = false; pTsdbReadHandle->loadExternalRow = pCond->loadExternalRows; if (ASCENDING_TRAVERSE(pCond->order)) { assert(pTsdbReadHandle->window.skey <= pTsdbReadHandle->window.ekey); } else { assert(pTsdbReadHandle->window.skey >= pTsdbReadHandle->window.ekey); } // allocate buffer in order to load data blocks from file memset(pTsdbReadHandle->suppInfo.pstatis, 0, sizeof(SColumnDataAgg)); memset(pTsdbReadHandle->suppInfo.plist, 0, POINTER_BYTES); tsdbInitDataBlockLoadInfo(&pTsdbReadHandle->dataBlockLoadInfo); tsdbInitCompBlockLoadInfo(&pTsdbReadHandle->compBlockLoadInfo); resetCheckInfo(pTsdbReadHandle); } void tsdbResetQueryHandleForNewTable(tsdbReaderT queryHandle, SQueryTableDataCond* pCond, STableGroupInfo* groupList) { STsdbReadHandle* pTsdbReadHandle = queryHandle; pTsdbReadHandle->order = pCond->order; pTsdbReadHandle->window = pCond->twindow; pTsdbReadHandle->type = TSDB_QUERY_TYPE_ALL; pTsdbReadHandle->cur.fid = -1; pTsdbReadHandle->cur.win = TSWINDOW_INITIALIZER; pTsdbReadHandle->checkFiles = true; pTsdbReadHandle->activeIndex = 0; // current active table index pTsdbReadHandle->locateStart = false; pTsdbReadHandle->loadExternalRow = pCond->loadExternalRows; if (ASCENDING_TRAVERSE(pCond->order)) { assert(pTsdbReadHandle->window.skey <= pTsdbReadHandle->window.ekey); } else { assert(pTsdbReadHandle->window.skey >= pTsdbReadHandle->window.ekey); } // allocate buffer in order to load data blocks from file memset(pTsdbReadHandle->suppInfo.pstatis, 0, sizeof(SColumnDataAgg)); memset(pTsdbReadHandle->suppInfo.plist, 0, POINTER_BYTES); tsdbInitDataBlockLoadInfo(&pTsdbReadHandle->dataBlockLoadInfo); tsdbInitCompBlockLoadInfo(&pTsdbReadHandle->compBlockLoadInfo); SArray* pTable = NULL; // STsdbMeta* pMeta = tsdbGetMeta(pTsdbReadHandle->pTsdb); // pTsdbReadHandle->pTableCheckInfo = destroyTableCheckInfo(pTsdbReadHandle->pTableCheckInfo); pTsdbReadHandle->pTableCheckInfo = NULL; // createCheckInfoFromTableGroup(pTsdbReadHandle, groupList, pMeta, // &pTable); if (pTsdbReadHandle->pTableCheckInfo == NULL) { // tsdbCleanupReadHandle(pTsdbReadHandle); terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; } // pTsdbReadHandle->prev = doFreeColumnInfoData(pTsdbReadHandle->prev); // pTsdbReadHandle->next = doFreeColumnInfoData(pTsdbReadHandle->next); } tsdbReaderT tsdbQueryLastRow(SVnode* pVnode, SQueryTableDataCond* pCond, STableGroupInfo* groupList, uint64_t qId, uint64_t taskId) { pCond->twindow = updateLastrowForEachGroup(groupList); // no qualified table if (groupList->numOfTables == 0) { return NULL; } STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)tsdbQueryTables(pVnode, pCond, groupList, qId, taskId); if (pTsdbReadHandle == NULL) { return NULL; } int32_t code = checkForCachedLastRow(pTsdbReadHandle, groupList); if (code != TSDB_CODE_SUCCESS) { // set the numOfTables to be 0 terrno = code; return NULL; } assert(pCond->order == TSDB_ORDER_ASC && pCond->twindow.skey <= pCond->twindow.ekey); if (pTsdbReadHandle->cachelastrow) { pTsdbReadHandle->type = TSDB_QUERY_TYPE_LAST; } return pTsdbReadHandle; } #if 0 tsdbReaderT tsdbQueryCacheLastT(STsdb *tsdb, SQueryTableDataCond *pCond, STableGroupInfo *groupList, uint64_t qId, STsdbMemTable* pMemRef) { STsdbReadHandle *pTsdbReadHandle = (STsdbReadHandle*) tsdbQueryTablesT(tsdb, pCond, groupList, qId, pMemRef); if (pTsdbReadHandle == NULL) { return NULL; } int32_t code = checkForCachedLast(pTsdbReadHandle); if (code != TSDB_CODE_SUCCESS) { // set the numOfTables to be 0 terrno = code; return NULL; } if (pTsdbReadHandle->cachelastrow) { pTsdbReadHandle->type = TSDB_QUERY_TYPE_LAST; } return pTsdbReadHandle; } #endif SArray* tsdbGetQueriedTableList(tsdbReaderT* pHandle) { assert(pHandle != NULL); STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)pHandle; size_t size = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); SArray* res = taosArrayInit(size, POINTER_BYTES); return res; } // leave only one table for each group static STableGroupInfo* trimTableGroup(STimeWindow* window, STableGroupInfo* pGroupList) { assert(pGroupList); size_t numOfGroup = taosArrayGetSize(pGroupList->pGroupList); STableGroupInfo* pNew = taosMemoryCalloc(1, sizeof(STableGroupInfo)); pNew->pGroupList = taosArrayInit(numOfGroup, POINTER_BYTES); for (int32_t i = 0; i < numOfGroup; ++i) { SArray* oneGroup = taosArrayGetP(pGroupList->pGroupList, i); size_t numOfTables = taosArrayGetSize(oneGroup); SArray* px = taosArrayInit(4, sizeof(STableKeyInfo)); for (int32_t j = 0; j < numOfTables; ++j) { STableKeyInfo* pInfo = (STableKeyInfo*)taosArrayGet(oneGroup, j); // if (window->skey <= pInfo->lastKey && ((STable*)pInfo->pTable)->lastKey != TSKEY_INITIAL_VAL) { // taosArrayPush(px, pInfo); // pNew->numOfTables += 1; // break; // } } // there are no data in this group if (taosArrayGetSize(px) == 0) { taosArrayDestroy(px); } else { taosArrayPush(pNew->pGroupList, &px); } } return pNew; } tsdbReaderT tsdbQueryRowsInExternalWindow(SVnode* pVnode, SQueryTableDataCond* pCond, STableGroupInfo* groupList, uint64_t qId, uint64_t taskId) { STableGroupInfo* pNew = trimTableGroup(&pCond->twindow, groupList); if (pNew->numOfTables == 0) { tsdbDebug("update query time range to invalidate time window"); assert(taosArrayGetSize(pNew->pGroupList) == 0); bool asc = ASCENDING_TRAVERSE(pCond->order); if (asc) { pCond->twindow.ekey = pCond->twindow.skey - 1; } else { pCond->twindow.skey = pCond->twindow.ekey - 1; } } STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)tsdbQueryTables(pVnode, pCond, pNew, qId, taskId); pTsdbReadHandle->loadExternalRow = true; pTsdbReadHandle->currentLoadExternalRows = true; return pTsdbReadHandle; } static bool initTableMemIterator(STsdbReadHandle* pHandle, STableCheckInfo* pCheckInfo) { if (pCheckInfo->initBuf) { return true; } pCheckInfo->initBuf = true; int32_t order = pHandle->order; STbData** pMem = NULL; STbData** pIMem = NULL; TSKEY tLastKey = keyToTkey(pCheckInfo->lastKey); if (pHandle->pTsdb->mem != NULL) { pMem = taosHashGet(pHandle->pTsdb->mem->pHashIdx, &pCheckInfo->tableId, sizeof(pCheckInfo->tableId)); if (pMem != NULL) { pCheckInfo->iter = tSkipListCreateIterFromVal((*pMem)->pData, (const char*)&tLastKey, TSDB_DATA_TYPE_TIMESTAMP, order); } } if (pHandle->pTsdb->imem != NULL) { pIMem = taosHashGet(pHandle->pTsdb->imem->pHashIdx, &pCheckInfo->tableId, sizeof(pCheckInfo->tableId)); if (pIMem != NULL) { pCheckInfo->iiter = tSkipListCreateIterFromVal((*pIMem)->pData, (const char*)&tLastKey, TSDB_DATA_TYPE_TIMESTAMP, order); } } // both iterators are NULL, no data in buffer right now if (pCheckInfo->iter == NULL && pCheckInfo->iiter == NULL) { return false; } bool memEmpty = (pCheckInfo->iter == NULL) || (pCheckInfo->iter != NULL && !tSkipListIterNext(pCheckInfo->iter)); bool imemEmpty = (pCheckInfo->iiter == NULL) || (pCheckInfo->iiter != NULL && !tSkipListIterNext(pCheckInfo->iiter)); if (memEmpty && imemEmpty) { // buffer is empty return false; } if (!memEmpty) { SSkipListNode* node = tSkipListIterGet(pCheckInfo->iter); assert(node != NULL); STSRow* row = (STSRow*)SL_GET_NODE_DATA(node); TSKEY key = TD_ROW_KEY(row); // first timestamp in buffer tsdbDebug("%p uid:%" PRId64 ", check data in mem from skey:%" PRId64 ", order:%d, ts range in buf:%" PRId64 "-%" PRId64 ", lastKey:%" PRId64 ", numOfRows:%" PRId64 ", %s", pHandle, pCheckInfo->tableId, key, order, (*pMem)->keyMin, (*pMem)->keyMax, pCheckInfo->lastKey, (*pMem)->nrows, pHandle->idStr); if (ASCENDING_TRAVERSE(order)) { assert(pCheckInfo->lastKey <= key); } else { assert(pCheckInfo->lastKey >= key); } } else { tsdbDebug("%p uid:%" PRId64 ", no data in mem, %s", pHandle, pCheckInfo->tableId, pHandle->idStr); } if (!imemEmpty) { SSkipListNode* node = tSkipListIterGet(pCheckInfo->iiter); assert(node != NULL); STSRow* row = (STSRow*)SL_GET_NODE_DATA(node); TSKEY key = TD_ROW_KEY(row); // first timestamp in buffer tsdbDebug("%p uid:%" PRId64 ", check data in imem from skey:%" PRId64 ", order:%d, ts range in buf:%" PRId64 "-%" PRId64 ", lastKey:%" PRId64 ", numOfRows:%" PRId64 ", %s", pHandle, pCheckInfo->tableId, key, order, (*pIMem)->keyMin, (*pIMem)->keyMax, pCheckInfo->lastKey, (*pIMem)->nrows, pHandle->idStr); if (ASCENDING_TRAVERSE(order)) { assert(pCheckInfo->lastKey <= key); } else { assert(pCheckInfo->lastKey >= key); } } else { tsdbDebug("%p uid:%" PRId64 ", no data in imem, %s", pHandle, pCheckInfo->tableId, pHandle->idStr); } return true; } static void destroyTableMemIterator(STableCheckInfo* pCheckInfo) { tSkipListDestroyIter(pCheckInfo->iter); tSkipListDestroyIter(pCheckInfo->iiter); } static TSKEY extractFirstTraverseKey(STableCheckInfo* pCheckInfo, int32_t order, int32_t update, TDRowVerT maxVer) { STSRow *rmem = NULL, *rimem = NULL; if (pCheckInfo->iter) { SSkipListNode* node = tSkipListIterGet(pCheckInfo->iter); if (node != NULL) { rmem = (STSRow*)SL_GET_NODE_DATA(node); // TODO: filter max version // if (TD_ROW_VER(rmem) > maxVer) { // rmem = NULL; // } } } if (pCheckInfo->iiter) { SSkipListNode* node = tSkipListIterGet(pCheckInfo->iiter); if (node != NULL) { rimem = (STSRow*)SL_GET_NODE_DATA(node); // TODO: filter max version // if (TD_ROW_VER(rimem) > maxVer) { // rimem = NULL; // } } } if (rmem == NULL && rimem == NULL) { return TSKEY_INITIAL_VAL; } if (rmem != NULL && rimem == NULL) { pCheckInfo->chosen = CHECKINFO_CHOSEN_MEM; return TD_ROW_KEY(rmem); } if (rmem == NULL && rimem != NULL) { pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; return TD_ROW_KEY(rimem); } TSKEY r1 = TD_ROW_KEY(rmem); TSKEY r2 = TD_ROW_KEY(rimem); if (r1 == r2) { #if 0 if (update == TD_ROW_DISCARD_UPDATE) { pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; tSkipListIterNext(pCheckInfo->iter); } else if (update == TD_ROW_OVERWRITE_UPDATE) { pCheckInfo->chosen = CHECKINFO_CHOSEN_MEM; tSkipListIterNext(pCheckInfo->iiter); } else { pCheckInfo->chosen = CHECKINFO_CHOSEN_BOTH; } #endif if (TD_SUPPORT_UPDATE(update)) { pCheckInfo->chosen = CHECKINFO_CHOSEN_BOTH; } else { pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; tSkipListIterNext(pCheckInfo->iter); } return r1; } else if (r1 < r2 && ASCENDING_TRAVERSE(order)) { pCheckInfo->chosen = CHECKINFO_CHOSEN_MEM; return r1; } else { pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; return r2; } } static STSRow* getSRowInTableMem(STableCheckInfo* pCheckInfo, int32_t order, int32_t update, STSRow** extraRow, TDRowVerT maxVer) { STSRow *rmem = NULL, *rimem = NULL; if (pCheckInfo->iter) { SSkipListNode* node = tSkipListIterGet(pCheckInfo->iter); if (node != NULL) { rmem = (STSRow*)SL_GET_NODE_DATA(node); #if 0 // TODO: skiplist refactor if (TD_ROW_VER(rmem) > maxVer) { rmem = NULL; } #endif } } if (pCheckInfo->iiter) { SSkipListNode* node = tSkipListIterGet(pCheckInfo->iiter); if (node != NULL) { rimem = (STSRow*)SL_GET_NODE_DATA(node); #if 0 // TODO: skiplist refactor if (TD_ROW_VER(rimem) > maxVer) { rimem = NULL; } #endif } } if (rmem == NULL && rimem == NULL) { return NULL; } if (rmem != NULL && rimem == NULL) { pCheckInfo->chosen = 0; return rmem; } if (rmem == NULL && rimem != NULL) { pCheckInfo->chosen = 1; return rimem; } TSKEY r1 = TD_ROW_KEY(rmem); TSKEY r2 = TD_ROW_KEY(rimem); if (r1 == r2) { #if 0 if (update == TD_ROW_DISCARD_UPDATE) { tSkipListIterNext(pCheckInfo->iter); pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; return rimem; } else if (update == TD_ROW_OVERWRITE_UPDATE) { tSkipListIterNext(pCheckInfo->iiter); pCheckInfo->chosen = CHECKINFO_CHOSEN_MEM; return rmem; } else { pCheckInfo->chosen = CHECKINFO_CHOSEN_BOTH; *extraRow = rimem; return rmem; } #endif if (TD_SUPPORT_UPDATE(update)) { pCheckInfo->chosen = CHECKINFO_CHOSEN_BOTH; *extraRow = rimem; return rmem; } else { tSkipListIterNext(pCheckInfo->iter); pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; return rimem; } } else { if (ASCENDING_TRAVERSE(order)) { if (r1 < r2) { pCheckInfo->chosen = CHECKINFO_CHOSEN_MEM; return rmem; } else { pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; return rimem; } } else { if (r1 < r2) { pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; return rimem; } else { pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; return rmem; } } } } static bool moveToNextRowInMem(STableCheckInfo* pCheckInfo) { bool hasNext = false; if (pCheckInfo->chosen == CHECKINFO_CHOSEN_MEM) { if (pCheckInfo->iter != NULL) { hasNext = tSkipListIterNext(pCheckInfo->iter); } if (hasNext) { return hasNext; } if (pCheckInfo->iiter != NULL) { return tSkipListIterGet(pCheckInfo->iiter) != NULL; } } else if (pCheckInfo->chosen == CHECKINFO_CHOSEN_IMEM) { if (pCheckInfo->iiter != NULL) { hasNext = tSkipListIterNext(pCheckInfo->iiter); } if (hasNext) { return hasNext; } if (pCheckInfo->iter != NULL) { return tSkipListIterGet(pCheckInfo->iter) != NULL; } } else { if (pCheckInfo->iter != NULL) { hasNext = tSkipListIterNext(pCheckInfo->iter); } if (pCheckInfo->iiter != NULL) { hasNext = tSkipListIterNext(pCheckInfo->iiter) || hasNext; } } return hasNext; } static bool hasMoreDataInCache(STsdbReadHandle* pHandle) { STsdbCfg* pCfg = REPO_CFG(pHandle->pTsdb); size_t size = taosArrayGetSize(pHandle->pTableCheckInfo); assert(pHandle->activeIndex < size && pHandle->activeIndex >= 0 && size >= 1); pHandle->cur.fid = INT32_MIN; STableCheckInfo* pCheckInfo = taosArrayGet(pHandle->pTableCheckInfo, pHandle->activeIndex); if (!pCheckInfo->initBuf) { initTableMemIterator(pHandle, pCheckInfo); } STSRow* row = getSRowInTableMem(pCheckInfo, pHandle->order, pCfg->update, NULL, TD_VER_MAX); if (row == NULL) { return false; } pCheckInfo->lastKey = TD_ROW_KEY(row); // first timestamp in buffer tsdbDebug("%p uid:%" PRId64 ", check data in buffer from skey:%" PRId64 ", order:%d, %s", pHandle, pCheckInfo->tableId, pCheckInfo->lastKey, pHandle->order, pHandle->idStr); // all data in mem are checked already. if ((pCheckInfo->lastKey > pHandle->window.ekey && ASCENDING_TRAVERSE(pHandle->order)) || (pCheckInfo->lastKey < pHandle->window.ekey && !ASCENDING_TRAVERSE(pHandle->order))) { return false; } int32_t step = ASCENDING_TRAVERSE(pHandle->order) ? 1 : -1; STimeWindow* win = &pHandle->cur.win; pHandle->cur.rows = tsdbReadRowsFromCache(pCheckInfo, pHandle->window.ekey, pHandle->outputCapacity, win, pHandle); // update the last key value pCheckInfo->lastKey = win->ekey + step; pHandle->cur.lastKey = win->ekey + step; pHandle->cur.mixBlock = true; if (!ASCENDING_TRAVERSE(pHandle->order)) { TSWAP(win->skey, win->ekey); } return true; } static int32_t getFileIdFromKey(TSKEY key, int32_t daysPerFile, int32_t precision) { assert(precision >= TSDB_TIME_PRECISION_MICRO || precision <= TSDB_TIME_PRECISION_NANO); if (key == TSKEY_INITIAL_VAL) { return INT32_MIN; } if (key < 0) { key -= (daysPerFile * tsTickPerDay[precision]); } int64_t fid = (int64_t)(key / (daysPerFile * tsTickPerDay[precision])); // set the starting fileId if (fid < 0L && llabs(fid) > INT32_MAX) { // data value overflow for INT32 fid = INT32_MIN; } if (fid > 0L && fid > INT32_MAX) { fid = INT32_MAX; } return (int32_t)fid; } static int32_t binarySearchForBlock(SBlock* pBlock, int32_t numOfBlocks, TSKEY skey, int32_t order) { int32_t firstSlot = 0; int32_t lastSlot = numOfBlocks - 1; int32_t midSlot = firstSlot; while (1) { numOfBlocks = lastSlot - firstSlot + 1; midSlot = (firstSlot + (numOfBlocks >> 1)); if (numOfBlocks == 1) break; if (skey > pBlock[midSlot].keyLast) { if (numOfBlocks == 2) break; if ((order == TSDB_ORDER_DESC) && (skey < pBlock[midSlot + 1].keyFirst)) break; firstSlot = midSlot + 1; } else if (skey < pBlock[midSlot].keyFirst) { if ((order == TSDB_ORDER_ASC) && (skey > pBlock[midSlot - 1].keyLast)) break; lastSlot = midSlot - 1; } else { break; // got the slot } } return midSlot; } static int32_t loadBlockInfo(STsdbReadHandle* pTsdbReadHandle, int32_t index, int32_t* numOfBlocks) { int32_t code = 0; STableCheckInfo* pCheckInfo = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, index); pCheckInfo->numOfBlocks = 0; STable table = {.uid = pCheckInfo->tableId, .tid = pCheckInfo->tableId}; table.pSchema = pTsdbReadHandle->pSchema; if (tsdbSetReadTable(&pTsdbReadHandle->rhelper, &table) != TSDB_CODE_SUCCESS) { code = terrno; return code; } SBlockIdx* compIndex = pTsdbReadHandle->rhelper.pBlkIdx; // no data block in this file, try next file if (compIndex == NULL || compIndex->uid != pCheckInfo->tableId) { return 0; // no data blocks in the file belongs to pCheckInfo->pTable } if (pCheckInfo->compSize < (int32_t)compIndex->len) { assert(compIndex->len > 0); char* t = taosMemoryRealloc(pCheckInfo->pCompInfo, compIndex->len); if (t == NULL) { terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; code = TSDB_CODE_TDB_OUT_OF_MEMORY; return code; } pCheckInfo->pCompInfo = (SBlockInfo*)t; pCheckInfo->compSize = compIndex->len; } if (tsdbLoadBlockInfo(&(pTsdbReadHandle->rhelper), (void*)(pCheckInfo->pCompInfo)) < 0) { return terrno; } SBlockInfo* pCompInfo = pCheckInfo->pCompInfo; TSKEY s = TSKEY_INITIAL_VAL, e = TSKEY_INITIAL_VAL; if (ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { assert(pCheckInfo->lastKey <= pTsdbReadHandle->window.ekey && pTsdbReadHandle->window.skey <= pTsdbReadHandle->window.ekey); } else { assert(pCheckInfo->lastKey >= pTsdbReadHandle->window.ekey && pTsdbReadHandle->window.skey >= pTsdbReadHandle->window.ekey); } s = TMIN(pCheckInfo->lastKey, pTsdbReadHandle->window.ekey); e = TMAX(pCheckInfo->lastKey, pTsdbReadHandle->window.ekey); // discard the unqualified data block based on the query time window int32_t start = binarySearchForBlock(pCompInfo->blocks, compIndex->numOfBlocks, s, TSDB_ORDER_ASC); int32_t end = start; if (s > pCompInfo->blocks[start].keyLast) { return 0; } // todo speedup the procedure of located end block while (end < (int32_t)compIndex->numOfBlocks && (pCompInfo->blocks[end].keyFirst <= e)) { end += 1; } pCheckInfo->numOfBlocks = (end - start); if (start > 0) { memmove(pCompInfo->blocks, &pCompInfo->blocks[start], pCheckInfo->numOfBlocks * sizeof(SBlock)); } (*numOfBlocks) += pCheckInfo->numOfBlocks; return 0; } static int32_t getFileCompInfo(STsdbReadHandle* pTsdbReadHandle, int32_t* numOfBlocks) { // load all the comp offset value for all tables in this file int32_t code = TSDB_CODE_SUCCESS; *numOfBlocks = 0; pTsdbReadHandle->cost.headFileLoad += 1; int64_t s = taosGetTimestampUs(); size_t numOfTables = 0; if (pTsdbReadHandle->loadType == BLOCK_LOAD_TABLE_SEQ_ORDER) { code = loadBlockInfo(pTsdbReadHandle, pTsdbReadHandle->activeIndex, numOfBlocks); } else if (pTsdbReadHandle->loadType == BLOCK_LOAD_OFFSET_SEQ_ORDER) { numOfTables = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); for (int32_t i = 0; i < numOfTables; ++i) { code = loadBlockInfo(pTsdbReadHandle, i, numOfBlocks); if (code != TSDB_CODE_SUCCESS) { int64_t e = taosGetTimestampUs(); pTsdbReadHandle->cost.headFileLoadTime += (e - s); return code; } } } else { assert(0); } int64_t e = taosGetTimestampUs(); pTsdbReadHandle->cost.headFileLoadTime += (e - s); return code; } static int32_t doLoadFileDataBlock(STsdbReadHandle* pTsdbReadHandle, SBlock* pBlock, STableCheckInfo* pCheckInfo, int32_t slotIndex) { int64_t st = taosGetTimestampUs(); int32_t code = tdInitDataCols(pTsdbReadHandle->pDataCols, pTsdbReadHandle->pSchema); if (code != TSDB_CODE_SUCCESS) { tsdbError("%p failed to malloc buf for pDataCols, %s", pTsdbReadHandle, pTsdbReadHandle->idStr); terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; goto _error; } code = tdInitDataCols(pTsdbReadHandle->rhelper.pDCols[0], pTsdbReadHandle->pSchema); if (code != TSDB_CODE_SUCCESS) { tsdbError("%p failed to malloc buf for rhelper.pDataCols[0], %s", pTsdbReadHandle, pTsdbReadHandle->idStr); terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; goto _error; } code = tdInitDataCols(pTsdbReadHandle->rhelper.pDCols[1], pTsdbReadHandle->pSchema); if (code != TSDB_CODE_SUCCESS) { tsdbError("%p failed to malloc buf for rhelper.pDataCols[1], %s", pTsdbReadHandle, pTsdbReadHandle->idStr); terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; goto _error; } int16_t* colIds = pTsdbReadHandle->suppInfo.defaultLoadColumn->pData; int32_t ret = tsdbLoadBlockDataCols(&(pTsdbReadHandle->rhelper), pBlock, pCheckInfo->pCompInfo, colIds, (int)(QH_GET_NUM_OF_COLS(pTsdbReadHandle)), true); if (ret != TSDB_CODE_SUCCESS) { int32_t c = terrno; assert(c != TSDB_CODE_SUCCESS); goto _error; } SDataBlockLoadInfo* pBlockLoadInfo = &pTsdbReadHandle->dataBlockLoadInfo; pBlockLoadInfo->fileGroup = pTsdbReadHandle->pFileGroup; pBlockLoadInfo->slot = pTsdbReadHandle->cur.slot; pBlockLoadInfo->uid = pCheckInfo->tableId; SDataCols* pCols = pTsdbReadHandle->rhelper.pDCols[0]; assert(pCols->numOfRows != 0 && pCols->numOfRows <= pBlock->numOfRows); pBlock->numOfRows = pCols->numOfRows; // Convert from TKEY to TSKEY for primary timestamp column if current block has timestamp before 1970-01-01T00:00:00Z if (pBlock->keyFirst < 0 && colIds[0] == PRIMARYKEY_TIMESTAMP_COL_ID) { int64_t* src = pCols->cols[0].pData; for (int32_t i = 0; i < pBlock->numOfRows; ++i) { src[i] = tdGetKey(src[i]); } } int64_t elapsedTime = (taosGetTimestampUs() - st); pTsdbReadHandle->cost.blockLoadTime += elapsedTime; tsdbDebug("%p load file block into buffer, index:%d, brange:%" PRId64 "-%" PRId64 ", rows:%d, elapsed time:%" PRId64 " us, %s", pTsdbReadHandle, slotIndex, pBlock->keyFirst, pBlock->keyLast, pBlock->numOfRows, elapsedTime, pTsdbReadHandle->idStr); return TSDB_CODE_SUCCESS; _error: pBlock->numOfRows = 0; tsdbError("%p error occurs in loading file block, index:%d, brange:%" PRId64 "-%" PRId64 ", rows:%d, %s", pTsdbReadHandle, slotIndex, pBlock->keyFirst, pBlock->keyLast, pBlock->numOfRows, pTsdbReadHandle->idStr); return terrno; } static int32_t getEndPosInDataBlock(STsdbReadHandle* pTsdbReadHandle, SDataBlockInfo* pBlockInfo); static int32_t doCopyRowsFromFileBlock(STsdbReadHandle* pTsdbReadHandle, int32_t capacity, int32_t numOfRows, int32_t start, int32_t end); static void moveDataToFront(STsdbReadHandle* pTsdbReadHandle, int32_t numOfRows, int32_t numOfCols); static void doCheckGeneratedBlockRange(STsdbReadHandle* pTsdbReadHandle); static void copyAllRemainRowsFromFileBlock(STsdbReadHandle* pTsdbReadHandle, STableCheckInfo* pCheckInfo, SDataBlockInfo* pBlockInfo, int32_t endPos); static int32_t handleDataMergeIfNeeded(STsdbReadHandle* pTsdbReadHandle, SBlock* pBlock, STableCheckInfo* pCheckInfo) { SQueryFilePos* cur = &pTsdbReadHandle->cur; STsdbCfg* pCfg = REPO_CFG(pTsdbReadHandle->pTsdb); SDataBlockInfo binfo = GET_FILE_DATA_BLOCK_INFO(pCheckInfo, pBlock); TSKEY key; int32_t code = TSDB_CODE_SUCCESS; /*bool hasData = */ initTableMemIterator(pTsdbReadHandle, pCheckInfo); assert(cur->pos >= 0 && cur->pos <= binfo.rows); key = extractFirstTraverseKey(pCheckInfo, pTsdbReadHandle->order, pCfg->update, TD_VER_MAX); if (key != TSKEY_INITIAL_VAL) { tsdbDebug("%p key in mem:%" PRId64 ", %s", pTsdbReadHandle, key, pTsdbReadHandle->idStr); } else { tsdbDebug("%p no data in mem, %s", pTsdbReadHandle, pTsdbReadHandle->idStr); } bool ascScan = ASCENDING_TRAVERSE(pTsdbReadHandle->order); if ((ascScan && (key != TSKEY_INITIAL_VAL && key <= binfo.window.ekey)) || (!ascScan && (key != TSKEY_INITIAL_VAL && key >= binfo.window.skey))) { if ((ascScan && (key != TSKEY_INITIAL_VAL && key < binfo.window.skey)) || (!ascScan && (key != TSKEY_INITIAL_VAL && key > binfo.window.ekey))) { // do not load file block into buffer int32_t step = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? 1 : -1; TSKEY maxKey = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? (binfo.window.skey - step) : (binfo.window.ekey - step); cur->rows = tsdbReadRowsFromCache(pCheckInfo, maxKey, pTsdbReadHandle->outputCapacity, &cur->win, pTsdbReadHandle); pTsdbReadHandle->realNumOfRows = cur->rows; // update the last key value pCheckInfo->lastKey = cur->win.ekey + step; if (!ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { TSWAP(cur->win.skey, cur->win.ekey); } cur->mixBlock = true; cur->blockCompleted = false; return code; } // return error, add test cases if ((code = doLoadFileDataBlock(pTsdbReadHandle, pBlock, pCheckInfo, cur->slot)) != TSDB_CODE_SUCCESS) { return code; } doMergeTwoLevelData(pTsdbReadHandle, pCheckInfo, pBlock); } else { /* * no data in cache, only load data from file * during the query processing, data in cache will not be checked anymore. * * Here the buffer is not enough, so only part of file block can be loaded into memory buffer */ assert(pTsdbReadHandle->outputCapacity >= binfo.rows); int32_t endPos = getEndPosInDataBlock(pTsdbReadHandle, &binfo); if ((cur->pos == 0 && endPos == binfo.rows - 1 && ascScan) || (cur->pos == (binfo.rows - 1) && endPos == 0 && (!ascScan))) { pTsdbReadHandle->realNumOfRows = binfo.rows; cur->rows = binfo.rows; cur->win = binfo.window; cur->mixBlock = false; cur->blockCompleted = true; if (ascScan) { cur->lastKey = binfo.window.ekey + 1; cur->pos = binfo.rows; } else { cur->lastKey = binfo.window.skey - 1; cur->pos = -1; } } else { // partially copy to dest buffer copyAllRemainRowsFromFileBlock(pTsdbReadHandle, pCheckInfo, &binfo, endPos); cur->mixBlock = true; } assert(cur->blockCompleted); if (cur->rows == binfo.rows) { tsdbDebug("%p whole file block qualified, brange:%" PRId64 "-%" PRId64 ", rows:%d, lastKey:%" PRId64 ", %s", pTsdbReadHandle, cur->win.skey, cur->win.ekey, cur->rows, cur->lastKey, pTsdbReadHandle->idStr); } else { tsdbDebug("%p create data block from remain file block, brange:%" PRId64 "-%" PRId64 ", rows:%d, total:%d, lastKey:%" PRId64 ", %s", pTsdbReadHandle, cur->win.skey, cur->win.ekey, cur->rows, binfo.rows, cur->lastKey, pTsdbReadHandle->idStr); } } return code; } static int32_t binarySearchForKey(char* pValue, int num, TSKEY key, int order); static int32_t loadFileDataBlock(STsdbReadHandle* pTsdbReadHandle, SBlock* pBlock, STableCheckInfo* pCheckInfo, bool* exists) { SQueryFilePos* cur = &pTsdbReadHandle->cur; int32_t code = TSDB_CODE_SUCCESS; bool asc = ASCENDING_TRAVERSE(pTsdbReadHandle->order); if (asc) { // query ended in/started from current block if (pTsdbReadHandle->window.ekey < pBlock->keyLast || pCheckInfo->lastKey > pBlock->keyFirst) { if ((code = doLoadFileDataBlock(pTsdbReadHandle, pBlock, pCheckInfo, cur->slot)) != TSDB_CODE_SUCCESS) { *exists = false; return code; } SDataCols* pTSCol = pTsdbReadHandle->rhelper.pDCols[0]; assert(pTSCol->cols->type == TSDB_DATA_TYPE_TIMESTAMP && pTSCol->numOfRows == pBlock->numOfRows); if (pCheckInfo->lastKey > pBlock->keyFirst) { cur->pos = binarySearchForKey(pTSCol->cols[0].pData, pBlock->numOfRows, pCheckInfo->lastKey, pTsdbReadHandle->order); } else { cur->pos = 0; } assert(pCheckInfo->lastKey <= pBlock->keyLast); doMergeTwoLevelData(pTsdbReadHandle, pCheckInfo, pBlock); } else { // the whole block is loaded in to buffer cur->pos = asc ? 0 : (pBlock->numOfRows - 1); code = handleDataMergeIfNeeded(pTsdbReadHandle, pBlock, pCheckInfo); } } else { // desc order, query ended in current block if (pTsdbReadHandle->window.ekey > pBlock->keyFirst || pCheckInfo->lastKey < pBlock->keyLast) { if ((code = doLoadFileDataBlock(pTsdbReadHandle, pBlock, pCheckInfo, cur->slot)) != TSDB_CODE_SUCCESS) { *exists = false; return code; } SDataCols* pTsCol = pTsdbReadHandle->rhelper.pDCols[0]; if (pCheckInfo->lastKey < pBlock->keyLast) { cur->pos = binarySearchForKey(pTsCol->cols[0].pData, pBlock->numOfRows, pCheckInfo->lastKey, pTsdbReadHandle->order); } else { cur->pos = pBlock->numOfRows - 1; } assert(pCheckInfo->lastKey >= pBlock->keyFirst); doMergeTwoLevelData(pTsdbReadHandle, pCheckInfo, pBlock); } else { cur->pos = asc ? 0 : (pBlock->numOfRows - 1); code = handleDataMergeIfNeeded(pTsdbReadHandle, pBlock, pCheckInfo); } } *exists = pTsdbReadHandle->realNumOfRows > 0; return code; } static int doBinarySearchKey(char* pValue, int num, TSKEY key, int order) { int firstPos, lastPos, midPos = -1; int numOfRows; TSKEY* keyList; assert(order == TSDB_ORDER_ASC || order == TSDB_ORDER_DESC); if (num <= 0) return -1; keyList = (TSKEY*)pValue; firstPos = 0; lastPos = num - 1; if (order == TSDB_ORDER_DESC) { // find the first position which is smaller than the key while (1) { if (key >= keyList[lastPos]) return lastPos; if (key == keyList[firstPos]) return firstPos; if (key < keyList[firstPos]) return firstPos - 1; numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (key < keyList[midPos]) { lastPos = midPos - 1; } else if (key > keyList[midPos]) { firstPos = midPos + 1; } else { break; } } } else { // find the first position which is bigger than the key while (1) { if (key <= keyList[firstPos]) return firstPos; if (key == keyList[lastPos]) return lastPos; if (key > keyList[lastPos]) { lastPos = lastPos + 1; if (lastPos >= num) return -1; else return lastPos; } numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (key < keyList[midPos]) { lastPos = midPos - 1; } else if (key > keyList[midPos]) { firstPos = midPos + 1; } else { break; } } } return midPos; } static int32_t doCopyRowsFromFileBlock(STsdbReadHandle* pTsdbReadHandle, int32_t capacity, int32_t numOfRows, int32_t start, int32_t end) { SDataCols* pCols = pTsdbReadHandle->rhelper.pDCols[0]; TSKEY* tsArray = pCols->cols[0].pData; int32_t num = end - start + 1; assert(num >= 0); if (num == 0) { return numOfRows; } bool ascScan = ASCENDING_TRAVERSE(pTsdbReadHandle->order); int32_t trueStart = ascScan ? start : end; int32_t trueEnd = ascScan ? end : start; int32_t step = ascScan ? 1 : -1; int32_t requiredNumOfCols = (int32_t)taosArrayGetSize(pTsdbReadHandle->pColumns); // data in buffer has greater timestamp, copy data in file block int32_t i = 0, j = 0; while (i < requiredNumOfCols && j < pCols->numOfCols) { SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i); SDataCol* src = &pCols->cols[j]; if (src->colId < pColInfo->info.colId) { j++; continue; } if (!isAllRowsNull(src) && pColInfo->info.colId == src->colId) { if (!IS_VAR_DATA_TYPE(pColInfo->info.type)) { // todo opt performance // memmove(pData, (char*)src->pData + bytes * start, bytes * num); int32_t rowIndex = numOfRows; for (int32_t k = trueStart; ((ascScan && k <= trueEnd) || (!ascScan && k >= trueEnd)); k += step, ++rowIndex) { SCellVal sVal = {0}; if (tdGetColDataOfRow(&sVal, src, k, pCols->bitmapMode) < 0) { TASSERT(0); } if (sVal.valType == TD_VTYPE_NORM) { colDataAppend(pColInfo, rowIndex, sVal.val, false); } else { colDataAppendNULL(pColInfo, rowIndex); } } } else { // handle the var-string int32_t rowIndex = numOfRows; // todo refactor, only copy one-by-one for (int32_t k = trueStart; ((ascScan && k <= trueEnd) || (!ascScan && k >= trueEnd)); k += step, ++rowIndex) { SCellVal sVal = {0}; if (tdGetColDataOfRow(&sVal, src, k, pCols->bitmapMode) < 0) { TASSERT(0); } if (sVal.valType == TD_VTYPE_NORM) { colDataAppend(pColInfo, rowIndex, sVal.val, false); } else { colDataAppendNULL(pColInfo, rowIndex); } } } j++; i++; } else { // pColInfo->info.colId < src->colId, it is a NULL data colDataAppendNNULL(pColInfo, numOfRows, num); i++; } } while (i < requiredNumOfCols) { // the remain columns are all null data SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i); colDataAppendNNULL(pColInfo, numOfRows, num); i++; } pTsdbReadHandle->cur.win.ekey = tsArray[trueEnd]; pTsdbReadHandle->cur.lastKey = tsArray[trueEnd] + step; return numOfRows + num; } /** * @brief // TODO fix bug for reverse copy data problem * Note: row1 always has high priority * * @param pTsdbReadHandle * @param capacity * @param curRow * @param row1 * @param row2 * @param numOfCols * @param uid * @param pSchema1 * @param pSchema2 * @param update * @param lastRowKey * @return int32_t The quantity of rows appended */ static int32_t mergeTwoRowFromMem(STsdbReadHandle* pTsdbReadHandle, int32_t capacity, int32_t* curRow, STSRow* row1, STSRow* row2, int32_t numOfCols, uint64_t uid, STSchema* pSchema1, STSchema* pSchema2, bool update, TSKEY* lastRowKey) { #if 1 STSchema* pSchema; STSRow* row; int16_t colId; int16_t offset; bool isRow1DataRow = TD_IS_TP_ROW(row1); bool isRow2DataRow; bool isChosenRowDataRow; int32_t chosen_itr; SCellVal sVal = {0}; TSKEY rowKey = TSKEY_INITIAL_VAL; int32_t nResult = 0; int32_t mergeOption = 0; // 0 discard 1 overwrite 2 merge // the schema version info is embeded in STSRow int32_t numOfColsOfRow1 = 0; if (pSchema1 == NULL) { // pSchema1 = metaGetTbTSchema(REPO_META(pTsdbReadHandle->pTsdb), uid, TD_ROW_SVER(row1)); // TODO: use the real schemaVersion pSchema1 = metaGetTbTSchema(REPO_META(pTsdbReadHandle->pTsdb), uid, 0); } #ifdef TD_DEBUG_PRINT_ROW tdSRowPrint(row1, pSchema1, __func__); #endif if (isRow1DataRow) { numOfColsOfRow1 = schemaNCols(pSchema1); } else { numOfColsOfRow1 = tdRowGetNCols(row1); } int32_t numOfColsOfRow2 = 0; if (row2) { isRow2DataRow = TD_IS_TP_ROW(row2); if (pSchema2 == NULL) { // pSchema2 = metaGetTbTSchema(REPO_META(pTsdbReadHandle->pTsdb), uid, TD_ROW_SVER(row2)); // TODO: use the real schemaVersion pSchema2 = metaGetTbTSchema(REPO_META(pTsdbReadHandle->pTsdb), uid, 0); } if (isRow2DataRow) { numOfColsOfRow2 = schemaNCols(pSchema2); } else { numOfColsOfRow2 = tdRowGetNCols(row2); } } int32_t i = 0, j = 0, k = 0; while (i < numOfCols && (j < numOfColsOfRow1 || k < numOfColsOfRow2)) { SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i); int32_t colIdOfRow1; if (j >= numOfColsOfRow1) { colIdOfRow1 = INT32_MAX; } else if (isRow1DataRow) { colIdOfRow1 = pSchema1->columns[j].colId; } else { colIdOfRow1 = tdKvRowColIdAt(row1, j); } int32_t colIdOfRow2; if (k >= numOfColsOfRow2) { colIdOfRow2 = INT32_MAX; } else if (isRow2DataRow) { colIdOfRow2 = pSchema2->columns[k].colId; } else { colIdOfRow2 = tdKvRowColIdAt(row2, k); } if (colIdOfRow1 < colIdOfRow2) { // the most probability if (colIdOfRow1 < pColInfo->info.colId) { ++j; continue; } row = row1; pSchema = pSchema1; isChosenRowDataRow = isRow1DataRow; chosen_itr = j; } else if (colIdOfRow1 == colIdOfRow2) { if (colIdOfRow1 < pColInfo->info.colId) { ++j; ++k; continue; } row = row1; pSchema = pSchema1; isChosenRowDataRow = isRow1DataRow; chosen_itr = j; } else { if (colIdOfRow2 < pColInfo->info.colId) { ++k; continue; } row = row2; pSchema = pSchema2; chosen_itr = k; isChosenRowDataRow = isRow2DataRow; } if (isChosenRowDataRow) { colId = pSchema->columns[chosen_itr].colId; offset = pSchema->columns[chosen_itr].offset; // TODO: use STSRowIter tdSTpRowGetVal(row, colId, pSchema->columns[chosen_itr].type, pSchema->flen, offset, chosen_itr - 1, &sVal); if (colId == PRIMARYKEY_TIMESTAMP_COL_ID) { rowKey = *(TSKEY*)sVal.val; if (rowKey != *lastRowKey) { mergeOption = 1; if (*lastRowKey != TSKEY_INITIAL_VAL) { ++(*curRow); } ++nResult; } else if (update){ mergeOption = 2; } else { mergeOption = 0; break; } *lastRowKey = rowKey; } } else { // TODO: use STSRowIter if (chosen_itr == 0) { colId = PRIMARYKEY_TIMESTAMP_COL_ID; tdSKvRowGetVal(row, PRIMARYKEY_TIMESTAMP_COL_ID, -1, -1, &sVal); rowKey = *(TSKEY*)sVal.val; if (rowKey != *lastRowKey) { mergeOption = 1; if (*lastRowKey != TSKEY_INITIAL_VAL) { ++(*curRow); } ++nResult; } else if(update) { mergeOption = 2; } else { mergeOption = 0; break; } *lastRowKey = rowKey; } else { SKvRowIdx* pColIdx = tdKvRowColIdxAt(row, chosen_itr - 1); colId = pColIdx->colId; offset = pColIdx->offset; tdSKvRowGetVal(row, colId, offset, chosen_itr - 1, &sVal); } } ASSERT(rowKey != TSKEY_INITIAL_VAL); if (colId == pColInfo->info.colId) { if (tdValTypeIsNorm(sVal.valType)) { colDataAppend(pColInfo, *curRow, sVal.val, false); } else if (tdValTypeIsNull(sVal.valType)) { colDataAppend(pColInfo, *curRow, NULL, true); } else if (tdValTypeIsNone(sVal.valType)) { // TODO: Set null if nothing append for this row if (mergeOption == 1) { colDataAppend(pColInfo, *curRow, NULL, true); } } else { ASSERT(0); } ++i; if (row == row1) { ++j; } else { ++k; } } else { if (mergeOption == 1) { colDataAppend(pColInfo, *curRow, NULL, true); } ++i; } } if (mergeOption == 1) { while (i < numOfCols) { // the remain columns are all null data SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i); colDataAppend(pColInfo, *curRow, NULL, true); ++i; } } return nResult; #endif } static void moveDataToFront(STsdbReadHandle* pTsdbReadHandle, int32_t numOfRows, int32_t numOfCols) { if (numOfRows == 0 || ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { return; } // if the buffer is not full in case of descending order query, move the data in the front of the buffer if (numOfRows < pTsdbReadHandle->outputCapacity) { int32_t emptySize = pTsdbReadHandle->outputCapacity - numOfRows; for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i); memmove((char*)pColInfo->pData, (char*)pColInfo->pData + emptySize * pColInfo->info.bytes, numOfRows * pColInfo->info.bytes); } } } static void getQualifiedRowsPos(STsdbReadHandle* pTsdbReadHandle, int32_t startPos, int32_t endPos, int32_t numOfExisted, int32_t* start, int32_t* end) { *start = -1; if (ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { int32_t remain = endPos - startPos + 1; if (remain + numOfExisted > pTsdbReadHandle->outputCapacity) { *end = (pTsdbReadHandle->outputCapacity - numOfExisted) + startPos - 1; } else { *end = endPos; } *start = startPos; } else { int32_t remain = (startPos - endPos) + 1; if (remain + numOfExisted > pTsdbReadHandle->outputCapacity) { *end = startPos + 1 - (pTsdbReadHandle->outputCapacity - numOfExisted); } else { *end = endPos; } *start = *end; *end = startPos; } } static void updateInfoAfterMerge(STsdbReadHandle* pTsdbReadHandle, STableCheckInfo* pCheckInfo, int32_t numOfRows, int32_t endPos) { SQueryFilePos* cur = &pTsdbReadHandle->cur; pCheckInfo->lastKey = cur->lastKey; pTsdbReadHandle->realNumOfRows = numOfRows; cur->rows = numOfRows; cur->pos = endPos; } static void doCheckGeneratedBlockRange(STsdbReadHandle* pTsdbReadHandle) { SQueryFilePos* cur = &pTsdbReadHandle->cur; if (cur->rows > 0) { if (ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { assert(cur->win.skey >= pTsdbReadHandle->window.skey && cur->win.ekey <= pTsdbReadHandle->window.ekey); } else { assert(cur->win.skey >= pTsdbReadHandle->window.ekey && cur->win.ekey <= pTsdbReadHandle->window.skey); } SColumnInfoData* pColInfoData = taosArrayGet(pTsdbReadHandle->pColumns, 0); assert(cur->win.skey == ((TSKEY*)pColInfoData->pData)[0] && cur->win.ekey == ((TSKEY*)pColInfoData->pData)[cur->rows - 1]); } else { cur->win = pTsdbReadHandle->window; int32_t step = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? 1 : -1; cur->lastKey = pTsdbReadHandle->window.ekey + step; } } static void copyAllRemainRowsFromFileBlock(STsdbReadHandle* pTsdbReadHandle, STableCheckInfo* pCheckInfo, SDataBlockInfo* pBlockInfo, int32_t endPos) { SQueryFilePos* cur = &pTsdbReadHandle->cur; SDataCols* pCols = pTsdbReadHandle->rhelper.pDCols[0]; TSKEY* tsArray = pCols->cols[0].pData; int32_t step = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? 1 : -1; int32_t numOfCols = (int32_t)(QH_GET_NUM_OF_COLS(pTsdbReadHandle)); int32_t pos = cur->pos; int32_t start = cur->pos; int32_t end = endPos; if (!ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { TSWAP(start, end); } assert(pTsdbReadHandle->outputCapacity >= (end - start + 1)); int32_t numOfRows = doCopyRowsFromFileBlock(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, 0, start, end); // the time window should always be ascending order: skey <= ekey cur->win = (STimeWindow){.skey = tsArray[start], .ekey = tsArray[end]}; cur->mixBlock = (numOfRows != pBlockInfo->rows); cur->lastKey = tsArray[endPos] + step; cur->blockCompleted = true; // if the buffer is not full in case of descending order query, move the data in the front of the buffer moveDataToFront(pTsdbReadHandle, numOfRows, numOfCols); // The value of pos may be -1 or pBlockInfo->rows, and it is invalid in both cases. pos = endPos + step; updateInfoAfterMerge(pTsdbReadHandle, pCheckInfo, numOfRows, pos); doCheckGeneratedBlockRange(pTsdbReadHandle); tsdbDebug("%p uid:%" PRIu64 ", data block created, mixblock:%d, brange:%" PRIu64 "-%" PRIu64 " rows:%d, %s", pTsdbReadHandle, pCheckInfo->tableId, cur->mixBlock, cur->win.skey, cur->win.ekey, cur->rows, pTsdbReadHandle->idStr); } int32_t getEndPosInDataBlock(STsdbReadHandle* pTsdbReadHandle, SDataBlockInfo* pBlockInfo) { // NOTE: reverse the order to find the end position in data block int32_t endPos = -1; int32_t order = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? TSDB_ORDER_DESC : TSDB_ORDER_ASC; SQueryFilePos* cur = &pTsdbReadHandle->cur; SDataCols* pCols = pTsdbReadHandle->rhelper.pDCols[0]; if (ASCENDING_TRAVERSE(pTsdbReadHandle->order) && pTsdbReadHandle->window.ekey >= pBlockInfo->window.ekey) { endPos = pBlockInfo->rows - 1; cur->mixBlock = (cur->pos != 0); } else if (!ASCENDING_TRAVERSE(pTsdbReadHandle->order) && pTsdbReadHandle->window.ekey <= pBlockInfo->window.skey) { endPos = 0; cur->mixBlock = (cur->pos != pBlockInfo->rows - 1); } else { assert(pCols->numOfRows > 0); endPos = doBinarySearchKey(pCols->cols[0].pData, pCols->numOfRows, pTsdbReadHandle->window.ekey, order); cur->mixBlock = true; } return endPos; } // only return the qualified data to client in terms of query time window, data rows in the same block but do not // be included in the query time window will be discarded static void doMergeTwoLevelData(STsdbReadHandle* pTsdbReadHandle, STableCheckInfo* pCheckInfo, SBlock* pBlock) { SQueryFilePos* cur = &pTsdbReadHandle->cur; SDataBlockInfo blockInfo = GET_FILE_DATA_BLOCK_INFO(pCheckInfo, pBlock); STsdbCfg* pCfg = REPO_CFG(pTsdbReadHandle->pTsdb); initTableMemIterator(pTsdbReadHandle, pCheckInfo); SDataCols* pCols = pTsdbReadHandle->rhelper.pDCols[0]; assert(pCols->cols[0].type == TSDB_DATA_TYPE_TIMESTAMP && pCols->cols[0].colId == PRIMARYKEY_TIMESTAMP_COL_ID && cur->pos >= 0 && cur->pos < pBlock->numOfRows); TSKEY* tsArray = pCols->cols[0].pData; assert(pCols->numOfRows == pBlock->numOfRows && tsArray[0] == pBlock->keyFirst && tsArray[pBlock->numOfRows - 1] == pBlock->keyLast); // for search the endPos, so the order needs to reverse int32_t order = (pTsdbReadHandle->order == TSDB_ORDER_ASC) ? TSDB_ORDER_DESC : TSDB_ORDER_ASC; int32_t step = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? 1 : -1; int32_t numOfCols = (int32_t)(QH_GET_NUM_OF_COLS(pTsdbReadHandle)); STable* pTable = NULL; int32_t endPos = getEndPosInDataBlock(pTsdbReadHandle, &blockInfo); tsdbDebug("%p uid:%" PRIu64 " start merge data block, file block range:%" PRIu64 "-%" PRIu64 " rows:%d, start:%d, end:%d, %s", pTsdbReadHandle, pCheckInfo->tableId, blockInfo.window.skey, blockInfo.window.ekey, blockInfo.rows, cur->pos, endPos, pTsdbReadHandle->idStr); // compared with the data from in-memory buffer, to generate the correct timestamp array list int32_t numOfRows = 0; int32_t curRow = 0; int16_t rv1 = -1; int16_t rv2 = -1; STSchema* pSchema1 = NULL; STSchema* pSchema2 = NULL; int32_t pos = cur->pos; cur->win = TSWINDOW_INITIALIZER; // no data in buffer, load data from file directly if (pCheckInfo->iiter == NULL && pCheckInfo->iter == NULL) { copyAllRemainRowsFromFileBlock(pTsdbReadHandle, pCheckInfo, &blockInfo, endPos); return; } else if (pCheckInfo->iter != NULL || pCheckInfo->iiter != NULL) { SSkipListNode* node = NULL; TSKEY lastKeyAppend = TSKEY_INITIAL_VAL; do { STSRow* row2 = NULL; STSRow* row1 = getSRowInTableMem(pCheckInfo, pTsdbReadHandle->order, pCfg->update, &row2, TD_VER_MAX); if (row1 == NULL) { break; } TSKEY key = TD_ROW_KEY(row1); if ((key > pTsdbReadHandle->window.ekey && ASCENDING_TRAVERSE(pTsdbReadHandle->order)) || (key < pTsdbReadHandle->window.ekey && !ASCENDING_TRAVERSE(pTsdbReadHandle->order))) { break; } if (((pos > endPos || tsArray[pos] > pTsdbReadHandle->window.ekey) && ASCENDING_TRAVERSE(pTsdbReadHandle->order)) || ((pos < endPos || tsArray[pos] < pTsdbReadHandle->window.ekey) && !ASCENDING_TRAVERSE(pTsdbReadHandle->order))) { break; } if ((key < tsArray[pos] && ASCENDING_TRAVERSE(pTsdbReadHandle->order)) || (key > tsArray[pos] && !ASCENDING_TRAVERSE(pTsdbReadHandle->order))) { if (rv1 != TD_ROW_SVER(row1)) { // pSchema1 = tsdbGetTableSchemaByVersion(pTable, memRowVersion(row1)); rv1 = TD_ROW_SVER(row1); } if (row2 && rv2 != TD_ROW_SVER(row2)) { // pSchema2 = tsdbGetTableSchemaByVersion(pTable, memRowVersion(row2)); rv2 = TD_ROW_SVER(row2); } numOfRows += mergeTwoRowFromMem(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, &curRow, row1, row2, numOfCols, pCheckInfo->tableId, pSchema1, pSchema2, pCfg->update, &lastKeyAppend); // numOfRows += 1; if (cur->win.skey == TSKEY_INITIAL_VAL) { cur->win.skey = key; } cur->win.ekey = key; cur->lastKey = key + step; cur->mixBlock = true; moveToNextRowInMem(pCheckInfo); } else if (key == tsArray[pos]) { // data in buffer has the same timestamp of data in file block, ignore it #if 0 if (pCfg->update) { if (pCfg->update == TD_ROW_PARTIAL_UPDATE) { doCopyRowsFromFileBlock(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, numOfRows, pos, pos); } if (rv1 != TD_ROW_SVER(row1)) { // pSchema1 = tsdbGetTableSchemaByVersion(pTable, memRowVersion(row1)); rv1 = TD_ROW_SVER(row1); } if (row2 && rv2 != TD_ROW_SVER(row2)) { // pSchema2 = tsdbGetTableSchemaByVersion(pTable, memRowVersion(row2)); rv2 = TD_ROW_SVER(row2); } bool forceSetNull = pCfg->update != TD_ROW_PARTIAL_UPDATE; mergeTwoRowFromMem(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, numOfRows, row1, row2, numOfCols, pCheckInfo->tableId, pSchema1, pSchema2, forceSetNull, &lastRowKey); numOfRows += 1; if (cur->win.skey == TSKEY_INITIAL_VAL) { cur->win.skey = key; } cur->win.ekey = key; cur->lastKey = key + step; cur->mixBlock = true; moveToNextRowInMem(pCheckInfo); pos += step; } else { moveToNextRowInMem(pCheckInfo); } #endif if (TD_SUPPORT_UPDATE(pCfg->update)) { doCopyRowsFromFileBlock(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, curRow, pos, pos); if (rv1 != TD_ROW_SVER(row1)) { // pSchema1 = tsdbGetTableSchemaByVersion(pTable, memRowVersion(row1)); rv1 = TD_ROW_SVER(row1); } if (row2 && rv2 != TD_ROW_SVER(row2)) { // pSchema2 = tsdbGetTableSchemaByVersion(pTable, memRowVersion(row2)); rv2 = TD_ROW_SVER(row2); } numOfRows += mergeTwoRowFromMem(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, &curRow, row1, row2, numOfCols, pCheckInfo->tableId, pSchema1, pSchema2, pCfg->update, &lastKeyAppend); // ++numOfRows; if (cur->win.skey == TSKEY_INITIAL_VAL) { cur->win.skey = key; } cur->win.ekey = key; cur->lastKey = key + step; cur->mixBlock = true; moveToNextRowInMem(pCheckInfo); pos += step; } else { moveToNextRowInMem(pCheckInfo); } } else if ((key > tsArray[pos] && ASCENDING_TRAVERSE(pTsdbReadHandle->order)) || (key < tsArray[pos] && !ASCENDING_TRAVERSE(pTsdbReadHandle->order))) { if (cur->win.skey == TSKEY_INITIAL_VAL) { cur->win.skey = tsArray[pos]; } int32_t end = doBinarySearchKey(pCols->cols[0].pData, pCols->numOfRows, key, order); assert(end != -1); if (tsArray[end] == key) { // the value of key in cache equals to the end timestamp value, ignore it #if 0 if (pCfg->update == TD_ROW_DISCARD_UPDATE) { moveToNextRowInMem(pCheckInfo); } else { end -= step; } #endif if (!TD_SUPPORT_UPDATE(pCfg->update)) { moveToNextRowInMem(pCheckInfo); } else { end -= step; } } int32_t qstart = 0, qend = 0; getQualifiedRowsPos(pTsdbReadHandle, pos, end, numOfRows, &qstart, &qend); lastKeyAppend = tsArray[qend]; numOfRows = doCopyRowsFromFileBlock(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, numOfRows, qstart, qend); pos += (qend - qstart + 1) * step; if(numOfRows > 0) { curRow = numOfRows - 1; } cur->win.ekey = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? tsArray[qend] : tsArray[qstart]; cur->lastKey = cur->win.ekey + step; } } while (numOfRows < pTsdbReadHandle->outputCapacity); if (numOfRows < pTsdbReadHandle->outputCapacity) { /** * if cache is empty, load remain file block data. In contrast, if there are remain data in cache, do NOT * copy them all to result buffer, since it may be overlapped with file data block. */ if (node == NULL || ((TD_ROW_KEY((STSRow*)SL_GET_NODE_DATA(node)) > pTsdbReadHandle->window.ekey) && ASCENDING_TRAVERSE(pTsdbReadHandle->order)) || ((TD_ROW_KEY((STSRow*)SL_GET_NODE_DATA(node)) < pTsdbReadHandle->window.ekey) && !ASCENDING_TRAVERSE(pTsdbReadHandle->order))) { // no data in cache or data in cache is greater than the ekey of time window, load data from file block if (cur->win.skey == TSKEY_INITIAL_VAL) { cur->win.skey = tsArray[pos]; } int32_t start = -1, end = -1; getQualifiedRowsPos(pTsdbReadHandle, pos, endPos, numOfRows, &start, &end); numOfRows = doCopyRowsFromFileBlock(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, numOfRows, start, end); pos += (end - start + 1) * step; cur->win.ekey = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? tsArray[end] : tsArray[start]; cur->lastKey = cur->win.ekey + step; cur->mixBlock = true; } } } cur->blockCompleted = (((pos > endPos || cur->lastKey > pTsdbReadHandle->window.ekey) && ASCENDING_TRAVERSE(pTsdbReadHandle->order)) || ((pos < endPos || cur->lastKey < pTsdbReadHandle->window.ekey) && !ASCENDING_TRAVERSE(pTsdbReadHandle->order))); if (!ASCENDING_TRAVERSE(pTsdbReadHandle->order)) { TSWAP(cur->win.skey, cur->win.ekey); } moveDataToFront(pTsdbReadHandle, numOfRows, numOfCols); updateInfoAfterMerge(pTsdbReadHandle, pCheckInfo, numOfRows, pos); doCheckGeneratedBlockRange(pTsdbReadHandle); tsdbDebug("%p uid:%" PRIu64 ", data block created, mixblock:%d, brange:%" PRIu64 "-%" PRIu64 " rows:%d, %s", pTsdbReadHandle, pCheckInfo->tableId, cur->mixBlock, cur->win.skey, cur->win.ekey, cur->rows, pTsdbReadHandle->idStr); } int32_t binarySearchForKey(char* pValue, int num, TSKEY key, int order) { int firstPos, lastPos, midPos = -1; int numOfRows; TSKEY* keyList; if (num <= 0) return -1; keyList = (TSKEY*)pValue; firstPos = 0; lastPos = num - 1; if (order == TSDB_ORDER_DESC) { // find the first position which is smaller than the key while (1) { if (key >= keyList[lastPos]) return lastPos; if (key == keyList[firstPos]) return firstPos; if (key < keyList[firstPos]) return firstPos - 1; numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (key < keyList[midPos]) { lastPos = midPos - 1; } else if (key > keyList[midPos]) { firstPos = midPos + 1; } else { break; } } } else { // find the first position which is bigger than the key while (1) { if (key <= keyList[firstPos]) return firstPos; if (key == keyList[lastPos]) return lastPos; if (key > keyList[lastPos]) { lastPos = lastPos + 1; if (lastPos >= num) return -1; else return lastPos; } numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (key < keyList[midPos]) { lastPos = midPos - 1; } else if (key > keyList[midPos]) { firstPos = midPos + 1; } else { break; } } } return midPos; } static void cleanBlockOrderSupporter(SBlockOrderSupporter* pSupporter, int32_t numOfTables) { taosMemoryFreeClear(pSupporter->numOfBlocksPerTable); taosMemoryFreeClear(pSupporter->blockIndexArray); for (int32_t i = 0; i < numOfTables; ++i) { STableBlockInfo* pBlockInfo = pSupporter->pDataBlockInfo[i]; taosMemoryFreeClear(pBlockInfo); } taosMemoryFreeClear(pSupporter->pDataBlockInfo); } static int32_t dataBlockOrderCompar(const void* pLeft, const void* pRight, void* param) { int32_t leftTableIndex = *(int32_t*)pLeft; int32_t rightTableIndex = *(int32_t*)pRight; SBlockOrderSupporter* pSupporter = (SBlockOrderSupporter*)param; int32_t leftTableBlockIndex = pSupporter->blockIndexArray[leftTableIndex]; int32_t rightTableBlockIndex = pSupporter->blockIndexArray[rightTableIndex]; if (leftTableBlockIndex > pSupporter->numOfBlocksPerTable[leftTableIndex]) { /* left block is empty */ return 1; } else if (rightTableBlockIndex > pSupporter->numOfBlocksPerTable[rightTableIndex]) { /* right block is empty */ return -1; } STableBlockInfo* pLeftBlockInfoEx = &pSupporter->pDataBlockInfo[leftTableIndex][leftTableBlockIndex]; STableBlockInfo* pRightBlockInfoEx = &pSupporter->pDataBlockInfo[rightTableIndex][rightTableBlockIndex]; // assert(pLeftBlockInfoEx->compBlock->offset != pRightBlockInfoEx->compBlock->offset); #if 0 // TODO: temporarily comment off requested by Dr. Liao if (pLeftBlockInfoEx->compBlock->offset == pRightBlockInfoEx->compBlock->offset && pLeftBlockInfoEx->compBlock->last == pRightBlockInfoEx->compBlock->last) { tsdbError("error in header file, two block with same offset:%" PRId64, (int64_t)pLeftBlockInfoEx->compBlock->offset); } #endif return pLeftBlockInfoEx->compBlock->offset > pRightBlockInfoEx->compBlock->offset ? 1 : -1; } static int32_t createDataBlocksInfo(STsdbReadHandle* pTsdbReadHandle, int32_t numOfBlocks, int32_t* numOfAllocBlocks) { size_t size = sizeof(STableBlockInfo) * numOfBlocks; if (pTsdbReadHandle->allocSize < size) { pTsdbReadHandle->allocSize = (int32_t)size; char* tmp = taosMemoryRealloc(pTsdbReadHandle->pDataBlockInfo, pTsdbReadHandle->allocSize); if (tmp == NULL) { return TSDB_CODE_TDB_OUT_OF_MEMORY; } pTsdbReadHandle->pDataBlockInfo = (STableBlockInfo*)tmp; } memset(pTsdbReadHandle->pDataBlockInfo, 0, size); *numOfAllocBlocks = numOfBlocks; // access data blocks according to the offset of each block in asc/desc order. int32_t numOfTables = (int32_t)taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); SBlockOrderSupporter sup = {0}; sup.numOfTables = numOfTables; sup.numOfBlocksPerTable = taosMemoryCalloc(1, sizeof(int32_t) * numOfTables); sup.blockIndexArray = taosMemoryCalloc(1, sizeof(int32_t) * numOfTables); sup.pDataBlockInfo = taosMemoryCalloc(1, POINTER_BYTES * numOfTables); if (sup.numOfBlocksPerTable == NULL || sup.blockIndexArray == NULL || sup.pDataBlockInfo == NULL) { cleanBlockOrderSupporter(&sup, 0); return TSDB_CODE_TDB_OUT_OF_MEMORY; } int32_t cnt = 0; int32_t numOfQualTables = 0; for (int32_t j = 0; j < numOfTables; ++j) { STableCheckInfo* pTableCheck = (STableCheckInfo*)taosArrayGet(pTsdbReadHandle->pTableCheckInfo, j); if (pTableCheck->numOfBlocks <= 0) { continue; } SBlock* pBlock = pTableCheck->pCompInfo->blocks; sup.numOfBlocksPerTable[numOfQualTables] = pTableCheck->numOfBlocks; char* buf = taosMemoryMalloc(sizeof(STableBlockInfo) * pTableCheck->numOfBlocks); if (buf == NULL) { cleanBlockOrderSupporter(&sup, numOfQualTables); return TSDB_CODE_TDB_OUT_OF_MEMORY; } sup.pDataBlockInfo[numOfQualTables] = (STableBlockInfo*)buf; for (int32_t k = 0; k < pTableCheck->numOfBlocks; ++k) { STableBlockInfo* pBlockInfo = &sup.pDataBlockInfo[numOfQualTables][k]; pBlockInfo->compBlock = &pBlock[k]; pBlockInfo->pTableCheckInfo = pTableCheck; cnt++; } numOfQualTables++; } assert(numOfBlocks == cnt); // since there is only one table qualified, blocks are not sorted if (numOfQualTables == 1) { memcpy(pTsdbReadHandle->pDataBlockInfo, sup.pDataBlockInfo[0], sizeof(STableBlockInfo) * numOfBlocks); cleanBlockOrderSupporter(&sup, numOfQualTables); tsdbDebug("%p create data blocks info struct completed for 1 table, %d blocks not sorted %s", pTsdbReadHandle, cnt, pTsdbReadHandle->idStr); return TSDB_CODE_SUCCESS; } tsdbDebug("%p create data blocks info struct completed, %d blocks in %d tables %s", pTsdbReadHandle, cnt, numOfQualTables, pTsdbReadHandle->idStr); assert(cnt <= numOfBlocks && numOfQualTables <= numOfTables); // the pTableQueryInfo[j]->numOfBlocks may be 0 sup.numOfTables = numOfQualTables; SMultiwayMergeTreeInfo* pTree = NULL; uint8_t ret = tMergeTreeCreate(&pTree, sup.numOfTables, &sup, dataBlockOrderCompar); if (ret != TSDB_CODE_SUCCESS) { cleanBlockOrderSupporter(&sup, numOfTables); return TSDB_CODE_TDB_OUT_OF_MEMORY; } int32_t numOfTotal = 0; while (numOfTotal < cnt) { int32_t pos = tMergeTreeGetChosenIndex(pTree); int32_t index = sup.blockIndexArray[pos]++; STableBlockInfo* pBlocksInfo = sup.pDataBlockInfo[pos]; pTsdbReadHandle->pDataBlockInfo[numOfTotal++] = pBlocksInfo[index]; // set data block index overflow, in order to disable the offset comparator if (sup.blockIndexArray[pos] >= sup.numOfBlocksPerTable[pos]) { sup.blockIndexArray[pos] = sup.numOfBlocksPerTable[pos] + 1; } tMergeTreeAdjust(pTree, tMergeTreeGetAdjustIndex(pTree)); } /* * available when no import exists * for(int32_t i = 0; i < cnt - 1; ++i) { * assert((*pDataBlockInfo)[i].compBlock->offset < (*pDataBlockInfo)[i+1].compBlock->offset); * } */ tsdbDebug("%p %d data blocks sort completed, %s", pTsdbReadHandle, cnt, pTsdbReadHandle->idStr); cleanBlockOrderSupporter(&sup, numOfTables); taosMemoryFree(pTree); return TSDB_CODE_SUCCESS; } static int32_t getFirstFileDataBlock(STsdbReadHandle* pTsdbReadHandle, bool* exists); static int32_t getDataBlockRv(STsdbReadHandle* pTsdbReadHandle, STableBlockInfo* pNext, bool* exists) { int32_t step = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? 1 : -1; SQueryFilePos* cur = &pTsdbReadHandle->cur; while (1) { int32_t code = loadFileDataBlock(pTsdbReadHandle, pNext->compBlock, pNext->pTableCheckInfo, exists); if (code != TSDB_CODE_SUCCESS || *exists) { return code; } if ((cur->slot == pTsdbReadHandle->numOfBlocks - 1 && ASCENDING_TRAVERSE(pTsdbReadHandle->order)) || (cur->slot == 0 && !ASCENDING_TRAVERSE(pTsdbReadHandle->order))) { // all data blocks in current file has been checked already, try next file if exists return getFirstFileDataBlock(pTsdbReadHandle, exists); } else { // next block of the same file cur->slot += step; cur->mixBlock = false; cur->blockCompleted = false; pNext = &pTsdbReadHandle->pDataBlockInfo[cur->slot]; } } } static int32_t getFirstFileDataBlock(STsdbReadHandle* pTsdbReadHandle, bool* exists) { pTsdbReadHandle->numOfBlocks = 0; SQueryFilePos* cur = &pTsdbReadHandle->cur; int32_t code = TSDB_CODE_SUCCESS; int32_t numOfBlocks = 0; int32_t numOfTables = (int32_t)taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); STsdbKeepCfg* pCfg = REPO_KEEP_CFG(pTsdbReadHandle->pTsdb); STimeWindow win = TSWINDOW_INITIALIZER; while (true) { tsdbRLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); if ((pTsdbReadHandle->pFileGroup = tsdbFSIterNext(&pTsdbReadHandle->fileIter)) == NULL) { tsdbUnLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); break; } tsdbGetFidKeyRange(pCfg->days, pCfg->precision, pTsdbReadHandle->pFileGroup->fid, &win.skey, &win.ekey); // current file are not overlapped with query time window, ignore remain files if ((ASCENDING_TRAVERSE(pTsdbReadHandle->order) && win.skey > pTsdbReadHandle->window.ekey) || (!ASCENDING_TRAVERSE(pTsdbReadHandle->order) && win.ekey < pTsdbReadHandle->window.ekey)) { tsdbUnLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); tsdbDebug("%p remain files are not qualified for qrange:%" PRId64 "-%" PRId64 ", ignore, %s", pTsdbReadHandle, pTsdbReadHandle->window.skey, pTsdbReadHandle->window.ekey, pTsdbReadHandle->idStr); pTsdbReadHandle->pFileGroup = NULL; assert(pTsdbReadHandle->numOfBlocks == 0); break; } if (tsdbSetAndOpenReadFSet(&pTsdbReadHandle->rhelper, pTsdbReadHandle->pFileGroup) < 0) { tsdbUnLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); code = terrno; break; } tsdbUnLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); if (tsdbLoadBlockIdx(&pTsdbReadHandle->rhelper) < 0) { code = terrno; break; } if ((code = getFileCompInfo(pTsdbReadHandle, &numOfBlocks)) != TSDB_CODE_SUCCESS) { break; } tsdbDebug("%p %d blocks found in file for %d table(s), fid:%d, %s", pTsdbReadHandle, numOfBlocks, numOfTables, pTsdbReadHandle->pFileGroup->fid, pTsdbReadHandle->idStr); assert(numOfBlocks >= 0); if (numOfBlocks == 0) { continue; } // todo return error code to query engine if ((code = createDataBlocksInfo(pTsdbReadHandle, numOfBlocks, &pTsdbReadHandle->numOfBlocks)) != TSDB_CODE_SUCCESS) { break; } assert(numOfBlocks >= pTsdbReadHandle->numOfBlocks); if (pTsdbReadHandle->numOfBlocks > 0) { break; } } // no data in file anymore if (pTsdbReadHandle->numOfBlocks <= 0 || code != TSDB_CODE_SUCCESS) { if (code == TSDB_CODE_SUCCESS) { assert(pTsdbReadHandle->pFileGroup == NULL); } cur->fid = INT32_MIN; // denote that there are no data in file anymore *exists = false; return code; } assert(pTsdbReadHandle->pFileGroup != NULL && pTsdbReadHandle->numOfBlocks > 0); cur->slot = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? 0 : pTsdbReadHandle->numOfBlocks - 1; cur->fid = pTsdbReadHandle->pFileGroup->fid; STableBlockInfo* pBlockInfo = &pTsdbReadHandle->pDataBlockInfo[cur->slot]; return getDataBlockRv(pTsdbReadHandle, pBlockInfo, exists); } static bool isEndFileDataBlock(SQueryFilePos* cur, int32_t numOfBlocks, bool ascTrav) { assert(cur != NULL && numOfBlocks > 0); return (cur->slot == numOfBlocks - 1 && ascTrav) || (cur->slot == 0 && !ascTrav); } static void moveToNextDataBlockInCurrentFile(STsdbReadHandle* pTsdbReadHandle) { int32_t step = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? 1 : -1; SQueryFilePos* cur = &pTsdbReadHandle->cur; assert(cur->slot < pTsdbReadHandle->numOfBlocks && cur->slot >= 0); cur->slot += step; cur->mixBlock = false; cur->blockCompleted = false; } int32_t tsdbGetFileBlocksDistInfo(tsdbReaderT* queryHandle, STableBlockDistInfo* pTableBlockInfo) { STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)queryHandle; pTableBlockInfo->totalSize = 0; pTableBlockInfo->totalRows = 0; STsdbFS* pFileHandle = REPO_FS(pTsdbReadHandle->pTsdb); // find the start data block in file pTsdbReadHandle->locateStart = true; STsdbKeepCfg* pCfg = REPO_KEEP_CFG(pTsdbReadHandle->pTsdb); int32_t fid = getFileIdFromKey(pTsdbReadHandle->window.skey, pCfg->days, pCfg->precision); tsdbRLockFS(pFileHandle); tsdbFSIterInit(&pTsdbReadHandle->fileIter, pFileHandle, pTsdbReadHandle->order); tsdbFSIterSeek(&pTsdbReadHandle->fileIter, fid); tsdbUnLockFS(pFileHandle); pTableBlockInfo->numOfFiles += 1; int32_t code = TSDB_CODE_SUCCESS; int32_t numOfBlocks = 0; int32_t numOfTables = (int32_t)taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); int defaultRows = 4096; // TSDB_DEFAULT_BLOCK_ROWS(pCfg->maxRowsPerFileBlock); STimeWindow win = TSWINDOW_INITIALIZER; bool ascTraverse = ASCENDING_TRAVERSE(pTsdbReadHandle->order); while (true) { numOfBlocks = 0; tsdbRLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); if ((pTsdbReadHandle->pFileGroup = tsdbFSIterNext(&pTsdbReadHandle->fileIter)) == NULL) { tsdbUnLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); break; } tsdbGetFidKeyRange(pCfg->days, pCfg->precision, pTsdbReadHandle->pFileGroup->fid, &win.skey, &win.ekey); // current file are not overlapped with query time window, ignore remain files if ((ascTraverse && win.skey > pTsdbReadHandle->window.ekey) || (!ascTraverse && win.ekey < pTsdbReadHandle->window.ekey)) { tsdbUnLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); tsdbDebug("%p remain files are not qualified for qrange:%" PRId64 "-%" PRId64 ", ignore, %s", pTsdbReadHandle, pTsdbReadHandle->window.skey, pTsdbReadHandle->window.ekey, pTsdbReadHandle->idStr); pTsdbReadHandle->pFileGroup = NULL; break; } pTableBlockInfo->numOfFiles += 1; if (tsdbSetAndOpenReadFSet(&pTsdbReadHandle->rhelper, pTsdbReadHandle->pFileGroup) < 0) { tsdbUnLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); code = terrno; break; } tsdbUnLockFS(REPO_FS(pTsdbReadHandle->pTsdb)); if (tsdbLoadBlockIdx(&pTsdbReadHandle->rhelper) < 0) { code = terrno; break; } if ((code = getFileCompInfo(pTsdbReadHandle, &numOfBlocks)) != TSDB_CODE_SUCCESS) { break; } tsdbDebug("%p %d blocks found in file for %d table(s), fid:%d, %s", pTsdbReadHandle, numOfBlocks, numOfTables, pTsdbReadHandle->pFileGroup->fid, pTsdbReadHandle->idStr); if (numOfBlocks == 0) { continue; } for (int32_t i = 0; i < numOfTables; ++i) { STableCheckInfo* pCheckInfo = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, i); SBlock* pBlock = pCheckInfo->pCompInfo->blocks; for (int32_t j = 0; j < pCheckInfo->numOfBlocks; ++j) { pTableBlockInfo->totalSize += pBlock[j].len; int32_t numOfRows = pBlock[j].numOfRows; pTableBlockInfo->totalRows += numOfRows; if (numOfRows > pTableBlockInfo->maxRows) { pTableBlockInfo->maxRows = numOfRows; } if (numOfRows < pTableBlockInfo->minRows) { pTableBlockInfo->minRows = numOfRows; } if (numOfRows < defaultRows) { pTableBlockInfo->numOfSmallBlocks += 1; } // int32_t stepIndex = (numOfRows-1)/TSDB_BLOCK_DIST_STEP_ROWS; // SFileBlockInfo *blockInfo = (SFileBlockInfo*)taosArrayGet(pTableBlockInfo->dataBlockInfos, stepIndex); // blockInfo->numBlocksOfStep++; } } } return code; } static int32_t getDataBlocksInFiles(STsdbReadHandle* pTsdbReadHandle, bool* exists) { STsdbFS* pFileHandle = REPO_FS(pTsdbReadHandle->pTsdb); SQueryFilePos* cur = &pTsdbReadHandle->cur; // find the start data block in file if (!pTsdbReadHandle->locateStart) { pTsdbReadHandle->locateStart = true; STsdbKeepCfg* pCfg = REPO_KEEP_CFG(pTsdbReadHandle->pTsdb); int32_t fid = getFileIdFromKey(pTsdbReadHandle->window.skey, pCfg->days, pCfg->precision); tsdbRLockFS(pFileHandle); tsdbFSIterInit(&pTsdbReadHandle->fileIter, pFileHandle, pTsdbReadHandle->order); tsdbFSIterSeek(&pTsdbReadHandle->fileIter, fid); tsdbUnLockFS(pFileHandle); return getFirstFileDataBlock(pTsdbReadHandle, exists); } else { // check if current file block is all consumed STableBlockInfo* pBlockInfo = &pTsdbReadHandle->pDataBlockInfo[cur->slot]; STableCheckInfo* pCheckInfo = pBlockInfo->pTableCheckInfo; // current block is done, try next if ((!cur->mixBlock) || cur->blockCompleted) { // all data blocks in current file has been checked already, try next file if exists } else { tsdbDebug("%p continue in current data block, index:%d, pos:%d, %s", pTsdbReadHandle, cur->slot, cur->pos, pTsdbReadHandle->idStr); int32_t code = handleDataMergeIfNeeded(pTsdbReadHandle, pBlockInfo->compBlock, pCheckInfo); *exists = (pTsdbReadHandle->realNumOfRows > 0); if (code != TSDB_CODE_SUCCESS || *exists) { return code; } } // current block is empty, try next block in file // all data blocks in current file has been checked already, try next file if exists if (isEndFileDataBlock(cur, pTsdbReadHandle->numOfBlocks, ASCENDING_TRAVERSE(pTsdbReadHandle->order))) { return getFirstFileDataBlock(pTsdbReadHandle, exists); } else { moveToNextDataBlockInCurrentFile(pTsdbReadHandle); STableBlockInfo* pNext = &pTsdbReadHandle->pDataBlockInfo[cur->slot]; return getDataBlockRv(pTsdbReadHandle, pNext, exists); } } } static bool doHasDataInBuffer(STsdbReadHandle* pTsdbReadHandle) { size_t numOfTables = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); while (pTsdbReadHandle->activeIndex < numOfTables) { if (hasMoreDataInCache(pTsdbReadHandle)) { return true; } pTsdbReadHandle->activeIndex += 1; } return false; } // todo not unref yet, since it is not support multi-group interpolation query static UNUSED_FUNC void changeQueryHandleForInterpQuery(tsdbReaderT pHandle) { // filter the queried time stamp in the first place STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)pHandle; // starts from the buffer in case of descending timestamp order check data blocks size_t numOfTables = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); int32_t i = 0; while (i < numOfTables) { STableCheckInfo* pCheckInfo = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, i); // the first qualified table for interpolation query // if ((pTsdbReadHandle->window.skey <= pCheckInfo->pTableObj->lastKey) && // (pCheckInfo->pTableObj->lastKey != TSKEY_INITIAL_VAL)) { // break; // } i++; } // there are no data in all the tables if (i == numOfTables) { return; } STableCheckInfo info = *(STableCheckInfo*)taosArrayGet(pTsdbReadHandle->pTableCheckInfo, i); taosArrayClear(pTsdbReadHandle->pTableCheckInfo); info.lastKey = pTsdbReadHandle->window.skey; taosArrayPush(pTsdbReadHandle->pTableCheckInfo, &info); } static int tsdbReadRowsFromCache(STableCheckInfo* pCheckInfo, TSKEY maxKey, int maxRowsToRead, STimeWindow* win, STsdbReadHandle* pTsdbReadHandle) { int numOfRows = 0; int curRows = 0; int32_t numOfCols = (int32_t)taosArrayGetSize(pTsdbReadHandle->pColumns); STsdbCfg* pCfg = REPO_CFG(pTsdbReadHandle->pTsdb); win->skey = TSKEY_INITIAL_VAL; int64_t st = taosGetTimestampUs(); int16_t rv = -1; STSchema* pSchema = NULL; TSKEY lastRowKey = TSKEY_INITIAL_VAL; do { STSRow* row = getSRowInTableMem(pCheckInfo, pTsdbReadHandle->order, pCfg->update, NULL, TD_VER_MAX); if (row == NULL) { break; } TSKEY key = TD_ROW_KEY(row); if ((key > maxKey && ASCENDING_TRAVERSE(pTsdbReadHandle->order)) || (key < maxKey && !ASCENDING_TRAVERSE(pTsdbReadHandle->order))) { tsdbDebug("%p key:%" PRIu64 " beyond qrange:%" PRId64 " - %" PRId64 ", no more data in buffer", pTsdbReadHandle, key, pTsdbReadHandle->window.skey, pTsdbReadHandle->window.ekey); break; } if (win->skey == INT64_MIN) { win->skey = key; } win->ekey = key; if (rv != TD_ROW_SVER(row)) { pSchema = metaGetTbTSchema(REPO_META(pTsdbReadHandle->pTsdb), pCheckInfo->tableId, 0); rv = TD_ROW_SVER(row); } numOfRows += mergeTwoRowFromMem(pTsdbReadHandle, maxRowsToRead, &curRows, row, NULL, numOfCols, pCheckInfo->tableId, pSchema, NULL, pCfg->update, &lastRowKey); if (numOfRows >= maxRowsToRead) { moveToNextRowInMem(pCheckInfo); break; } } while (moveToNextRowInMem(pCheckInfo)); taosMemoryFreeClear(pSchema); // free the STSChema assert(numOfRows <= maxRowsToRead); // if the buffer is not full in case of descending order query, move the data in the front of the buffer if (!ASCENDING_TRAVERSE(pTsdbReadHandle->order) && numOfRows < maxRowsToRead) { int32_t emptySize = maxRowsToRead - numOfRows; for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i); memmove((char*)pColInfo->pData, (char*)pColInfo->pData + emptySize * pColInfo->info.bytes, numOfRows * pColInfo->info.bytes); } } int64_t elapsedTime = taosGetTimestampUs() - st; tsdbDebug("%p build data block from cache completed, elapsed time:%" PRId64 " us, numOfRows:%d, numOfCols:%d, %s", pTsdbReadHandle, elapsedTime, numOfRows, numOfCols, pTsdbReadHandle->idStr); return numOfRows; } static int32_t getAllTableList(SMeta* pMeta, uint64_t uid, SArray* list) { SMCtbCursor* pCur = metaOpenCtbCursor(pMeta, uid); while (1) { tb_uid_t id = metaCtbCursorNext(pCur); if (id == 0) { break; } STableKeyInfo info = {.lastKey = TSKEY_INITIAL_VAL, uid = id}; taosArrayPush(list, &info); } metaCloseCtbCurosr(pCur); return TSDB_CODE_SUCCESS; } static void destroyHelper(void* param) { if (param == NULL) { return; } // tQueryInfo* pInfo = (tQueryInfo*)param; // if (pInfo->optr != TSDB_RELATION_IN) { // taosMemoryFreeClear(pInfo->q); // } else { // taosHashCleanup((SHashObj *)(pInfo->q)); // } taosMemoryFree(param); } #define TSDB_PREV_ROW 0x1 #define TSDB_NEXT_ROW 0x2 static bool loadBlockOfActiveTable(STsdbReadHandle* pTsdbReadHandle) { if (pTsdbReadHandle->checkFiles) { // check if the query range overlaps with the file data block bool exists = true; int32_t code = getDataBlocksInFiles(pTsdbReadHandle, &exists); if (code != TSDB_CODE_SUCCESS) { pTsdbReadHandle->checkFiles = false; return false; } if (exists) { tsdbRetrieveDataBlock((tsdbReaderT*)pTsdbReadHandle, NULL); if (pTsdbReadHandle->currentLoadExternalRows && pTsdbReadHandle->window.skey == pTsdbReadHandle->window.ekey) { SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, 0); assert(*(int64_t*)pColInfo->pData == pTsdbReadHandle->window.skey); } pTsdbReadHandle->currentLoadExternalRows = false; // clear the flag, since the exact matched row is found. return exists; } pTsdbReadHandle->checkFiles = false; } if (hasMoreDataInCache(pTsdbReadHandle)) { pTsdbReadHandle->currentLoadExternalRows = false; return true; } // current result is empty if (pTsdbReadHandle->currentLoadExternalRows && pTsdbReadHandle->window.skey == pTsdbReadHandle->window.ekey && pTsdbReadHandle->cur.rows == 0) { // STsdbMemTable* pMemRef = pTsdbReadHandle->pMemTable; // doGetExternalRow(pTsdbReadHandle, TSDB_PREV_ROW, pMemRef); // doGetExternalRow(pTsdbReadHandle, TSDB_NEXT_ROW, pMemRef); bool result = tsdbGetExternalRow(pTsdbReadHandle); // pTsdbReadHandle->prev = doFreeColumnInfoData(pTsdbReadHandle->prev); // pTsdbReadHandle->next = doFreeColumnInfoData(pTsdbReadHandle->next); pTsdbReadHandle->currentLoadExternalRows = false; return result; } return false; } static bool loadCachedLastRow(STsdbReadHandle* pTsdbReadHandle) { // the last row is cached in buffer, return it directly. // here note that the pTsdbReadHandle->window must be the TS_INITIALIZER int32_t numOfCols = (int32_t)(QH_GET_NUM_OF_COLS(pTsdbReadHandle)); size_t numOfTables = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); assert(numOfTables > 0 && numOfCols > 0); SQueryFilePos* cur = &pTsdbReadHandle->cur; STSRow* pRow = NULL; TSKEY key = TSKEY_INITIAL_VAL; int32_t step = ASCENDING_TRAVERSE(pTsdbReadHandle->order) ? 1 : -1; TSKEY lastRowKey = TSKEY_INITIAL_VAL; int32_t curRow = 0; if (++pTsdbReadHandle->activeIndex < numOfTables) { STableCheckInfo* pCheckInfo = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, pTsdbReadHandle->activeIndex); // int32_t ret = tsdbGetCachedLastRow(pCheckInfo->pTableObj, &pRow, &key); // if (ret != TSDB_CODE_SUCCESS) { // return false; // } mergeTwoRowFromMem(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, &curRow, pRow, NULL, numOfCols, pCheckInfo->tableId, NULL, NULL, true, &lastRowKey); taosMemoryFreeClear(pRow); // update the last key value pCheckInfo->lastKey = key + step; cur->rows = 1; // only one row cur->lastKey = key + step; cur->mixBlock = true; cur->win.skey = key; cur->win.ekey = key; return true; } return false; } // static bool loadCachedLast(STsdbReadHandle* pTsdbReadHandle) { // // the last row is cached in buffer, return it directly. // // here note that the pTsdbReadHandle->window must be the TS_INITIALIZER // int32_t tgNumOfCols = (int32_t)QH_GET_NUM_OF_COLS(pTsdbReadHandle); // size_t numOfTables = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); // int32_t numOfRows = 0; // assert(numOfTables > 0 && tgNumOfCols > 0); // SQueryFilePos* cur = &pTsdbReadHandle->cur; // TSKEY priKey = TSKEY_INITIAL_VAL; // int32_t priIdx = -1; // SColumnInfoData* pColInfo = NULL; // // while (++pTsdbReadHandle->activeIndex < numOfTables) { // STableCheckInfo* pCheckInfo = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, pTsdbReadHandle->activeIndex); // STable* pTable = pCheckInfo->pTableObj; // char* pData = NULL; // // int32_t numOfCols = pTable->maxColNum; // // if (pTable->lastCols == NULL || pTable->maxColNum <= 0) { // tsdbWarn("no last cached for table %s, uid:%" PRIu64 ",tid:%d", pTable->name->data, pTable->uid, // pTable->tableId); continue; // } // // int32_t i = 0, j = 0; // while(i < tgNumOfCols && j < numOfCols) { // pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i); // if (pTable->lastCols[j].colId < pColInfo->info.colId) { // j++; // continue; // } else if (pTable->lastCols[j].colId > pColInfo->info.colId) { // i++; // continue; // } // // pData = (char*)pColInfo->pData + numOfRows * pColInfo->info.bytes; // // if (pTable->lastCols[j].bytes > 0) { // void* value = pTable->lastCols[j].pData; // switch (pColInfo->info.type) { // case TSDB_DATA_TYPE_BINARY: // case TSDB_DATA_TYPE_NCHAR: // memcpy(pData, value, varDataTLen(value)); // break; // case TSDB_DATA_TYPE_NULL: // case TSDB_DATA_TYPE_BOOL: // case TSDB_DATA_TYPE_TINYINT: // case TSDB_DATA_TYPE_UTINYINT: // *(uint8_t *)pData = *(uint8_t *)value; // break; // case TSDB_DATA_TYPE_SMALLINT: // case TSDB_DATA_TYPE_USMALLINT: // *(uint16_t *)pData = *(uint16_t *)value; // break; // case TSDB_DATA_TYPE_INT: // case TSDB_DATA_TYPE_UINT: // *(uint32_t *)pData = *(uint32_t *)value; // break; // case TSDB_DATA_TYPE_BIGINT: // case TSDB_DATA_TYPE_UBIGINT: // *(uint64_t *)pData = *(uint64_t *)value; // break; // case TSDB_DATA_TYPE_FLOAT: // SET_FLOAT_PTR(pData, value); // break; // case TSDB_DATA_TYPE_DOUBLE: // SET_DOUBLE_PTR(pData, value); // break; // case TSDB_DATA_TYPE_TIMESTAMP: // if (pColInfo->info.colId == PRIMARYKEY_TIMESTAMP_COL_ID) { // priKey = tdGetKey(*(TKEY *)value); // priIdx = i; // // i++; // j++; // continue; // } else { // *(TSKEY *)pData = *(TSKEY *)value; // } // break; // default: // memcpy(pData, value, pColInfo->info.bytes); // } // // for (int32_t n = 0; n < tgNumOfCols; ++n) { // if (n == i) { // continue; // } // // pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, n); // pData = (char*)pColInfo->pData + numOfRows * pColInfo->info.bytes;; // // if (pColInfo->info.colId == PRIMARYKEY_TIMESTAMP_COL_ID) { //// *(TSKEY *)pData = pTable->lastCols[j].ts; // continue; // } // // if (pColInfo->info.type == TSDB_DATA_TYPE_BINARY || pColInfo->info.type == TSDB_DATA_TYPE_NCHAR) { // setVardataNull(pData, pColInfo->info.type); // } else { // setNull(pData, pColInfo->info.type, pColInfo->info.bytes); // } // } // // numOfRows++; // assert(numOfRows < pTsdbReadHandle->outputCapacity); // } // // i++; // j++; // } // // // leave the real ts column as the last row, because last function only (not stable) use the last row as res // if (priKey != TSKEY_INITIAL_VAL) { // pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, priIdx); // pData = (char*)pColInfo->pData + numOfRows * pColInfo->info.bytes; // // *(TSKEY *)pData = priKey; // // for (int32_t n = 0; n < tgNumOfCols; ++n) { // if (n == priIdx) { // continue; // } // // pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, n); // pData = (char*)pColInfo->pData + numOfRows * pColInfo->info.bytes;; // // assert (pColInfo->info.colId != PRIMARYKEY_TIMESTAMP_COL_ID); // // if (pColInfo->info.type == TSDB_DATA_TYPE_BINARY || pColInfo->info.type == TSDB_DATA_TYPE_NCHAR) { // setVardataNull(pData, pColInfo->info.type); // } else { // setNull(pData, pColInfo->info.type, pColInfo->info.bytes); // } // } // // numOfRows++; // } // // if (numOfRows > 0) { // cur->rows = numOfRows; // cur->mixBlock = true; // // return true; // } // } // // return false; //} static bool loadDataBlockFromTableSeq(STsdbReadHandle* pTsdbReadHandle) { size_t numOfTables = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); assert(numOfTables > 0); int64_t stime = taosGetTimestampUs(); while (pTsdbReadHandle->activeIndex < numOfTables) { if (loadBlockOfActiveTable(pTsdbReadHandle)) { return true; } STableCheckInfo* pCheckInfo = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, pTsdbReadHandle->activeIndex); pCheckInfo->numOfBlocks = 0; pTsdbReadHandle->activeIndex += 1; pTsdbReadHandle->locateStart = false; pTsdbReadHandle->checkFiles = true; pTsdbReadHandle->cur.rows = 0; pTsdbReadHandle->currentLoadExternalRows = pTsdbReadHandle->loadExternalRow; terrno = TSDB_CODE_SUCCESS; int64_t elapsedTime = taosGetTimestampUs() - stime; pTsdbReadHandle->cost.checkForNextTime += elapsedTime; } return false; } // handle data in cache situation bool tsdbNextDataBlock(tsdbReaderT pHandle) { STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)pHandle; for (int32_t i = 0; i < taosArrayGetSize(pTsdbReadHandle->pColumns); ++i) { SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i); colInfoDataCleanup(pColInfo, pTsdbReadHandle->outputCapacity); } if (emptyQueryTimewindow(pTsdbReadHandle)) { tsdbDebug("%p query window not overlaps with the data set, no result returned, %s", pTsdbReadHandle, pTsdbReadHandle->idStr); return false; } int64_t stime = taosGetTimestampUs(); int64_t elapsedTime = stime; // TODO refactor: remove "type" if (pTsdbReadHandle->type == TSDB_QUERY_TYPE_LAST) { if (pTsdbReadHandle->cachelastrow == TSDB_CACHED_TYPE_LASTROW) { // return loadCachedLastRow(pTsdbReadHandle); } else if (pTsdbReadHandle->cachelastrow == TSDB_CACHED_TYPE_LAST) { // return loadCachedLast(pTsdbReadHandle); } } if (pTsdbReadHandle->loadType == BLOCK_LOAD_TABLE_SEQ_ORDER) { return loadDataBlockFromTableSeq(pTsdbReadHandle); } else { // loadType == RR and Offset Order if (pTsdbReadHandle->checkFiles) { // check if the query range overlaps with the file data block bool exists = true; int32_t code = getDataBlocksInFiles(pTsdbReadHandle, &exists); if (code != TSDB_CODE_SUCCESS) { pTsdbReadHandle->activeIndex = 0; pTsdbReadHandle->checkFiles = false; return false; } if (exists) { pTsdbReadHandle->cost.checkForNextTime += (taosGetTimestampUs() - stime); return exists; } pTsdbReadHandle->activeIndex = 0; pTsdbReadHandle->checkFiles = false; } // TODO: opt by consider the scan order bool ret = doHasDataInBuffer(pTsdbReadHandle); terrno = TSDB_CODE_SUCCESS; elapsedTime = taosGetTimestampUs() - stime; pTsdbReadHandle->cost.checkForNextTime += elapsedTime; return ret; } } // static int32_t doGetExternalRow(STsdbReadHandle* pTsdbReadHandle, int16_t type, STsdbMemTable* pMemRef) { // STsdbReadHandle* pSecQueryHandle = NULL; // // if (type == TSDB_PREV_ROW && pTsdbReadHandle->prev) { // return TSDB_CODE_SUCCESS; // } // // if (type == TSDB_NEXT_ROW && pTsdbReadHandle->next) { // return TSDB_CODE_SUCCESS; // } // // // prepare the structure // int32_t numOfCols = (int32_t) QH_GET_NUM_OF_COLS(pTsdbReadHandle); // // if (type == TSDB_PREV_ROW) { // pTsdbReadHandle->prev = taosArrayInit(numOfCols, sizeof(SColumnInfoData)); // if (pTsdbReadHandle->prev == NULL) { // terrno = TSDB_CODE_QRY_OUT_OF_MEMORY; // goto out_of_memory; // } // } else { // pTsdbReadHandle->next = taosArrayInit(numOfCols, sizeof(SColumnInfoData)); // if (pTsdbReadHandle->next == NULL) { // terrno = TSDB_CODE_QRY_OUT_OF_MEMORY; // goto out_of_memory; // } // } // // SArray* row = (type == TSDB_PREV_ROW)? pTsdbReadHandle->prev : pTsdbReadHandle->next; // // for (int32_t i = 0; i < numOfCols; ++i) { // SColumnInfoData* pCol = taosArrayGet(pTsdbReadHandle->pColumns, i); // // SColumnInfoData colInfo = {{0}, 0}; // colInfo.info = pCol->info; // colInfo.pData = taosMemoryCalloc(1, pCol->info.bytes); // if (colInfo.pData == NULL) { // terrno = TSDB_CODE_QRY_OUT_OF_MEMORY; // goto out_of_memory; // } // // taosArrayPush(row, &colInfo); // } // // // load the previous row // SQueryTableDataCond cond = {.numOfCols = numOfCols, .loadExternalRows = false, .type = BLOCK_LOAD_OFFSET_SEQ_ORDER}; // if (type == TSDB_PREV_ROW) { // cond.order = TSDB_ORDER_DESC; // cond.twindow = (STimeWindow){pTsdbReadHandle->window.skey, INT64_MIN}; // } else { // cond.order = TSDB_ORDER_ASC; // cond.twindow = (STimeWindow){pTsdbReadHandle->window.skey, INT64_MAX}; // } // // cond.colList = taosMemoryCalloc(cond.numOfCols, sizeof(SColumnInfo)); // if (cond.colList == NULL) { // terrno = TSDB_CODE_QRY_OUT_OF_MEMORY; // goto out_of_memory; // } // // for (int32_t i = 0; i < cond.numOfCols; ++i) { // SColumnInfoData* pColInfoData = taosArrayGet(pTsdbReadHandle->pColumns, i); // memcpy(&cond.colList[i], &pColInfoData->info, sizeof(SColumnInfo)); // } // // pSecQueryHandle = tsdbQueryTablesImpl(pTsdbReadHandle->pTsdb, &cond, pTsdbReadHandle->idStr, pMemRef); // taosMemoryFreeClear(cond.colList); // // // current table, only one table // STableCheckInfo* pCurrent = taosArrayGet(pTsdbReadHandle->pTableCheckInfo, pTsdbReadHandle->activeIndex); // // SArray* psTable = NULL; // pSecQueryHandle->pTableCheckInfo = createCheckInfoFromCheckInfo(pCurrent, pSecQueryHandle->window.skey, &psTable); // if (pSecQueryHandle->pTableCheckInfo == NULL) { // taosArrayDestroy(psTable); // terrno = TSDB_CODE_QRY_OUT_OF_MEMORY; // goto out_of_memory; // } // // // tsdbMayTakeMemSnapshot(pSecQueryHandle, psTable); // if (!tsdbNextDataBlock((void*)pSecQueryHandle)) { // // no result in current query, free the corresponding result rows structure // if (type == TSDB_PREV_ROW) { // pTsdbReadHandle->prev = doFreeColumnInfoData(pTsdbReadHandle->prev); // } else { // pTsdbReadHandle->next = doFreeColumnInfoData(pTsdbReadHandle->next); // } // // goto out_of_memory; // } // // SDataBlockInfo blockInfo = {{0}, 0}; // tsdbRetrieveDataBlockInfo((void*)pSecQueryHandle, &blockInfo); // tsdbRetrieveDataBlock((void*)pSecQueryHandle, pSecQueryHandle->defaultLoadColumn); // // row = (type == TSDB_PREV_ROW)? pTsdbReadHandle->prev:pTsdbReadHandle->next; // int32_t pos = (type == TSDB_PREV_ROW)?pSecQueryHandle->cur.rows - 1:0; // // for (int32_t i = 0; i < numOfCols; ++i) { // SColumnInfoData* pCol = taosArrayGet(row, i); // SColumnInfoData* s = taosArrayGet(pSecQueryHandle->pColumns, i); // memcpy((char*)pCol->pData, (char*)s->pData + s->info.bytes * pos, pCol->info.bytes); // } // // out_of_memory: // tsdbCleanupReadHandle(pSecQueryHandle); // return terrno; //} bool tsdbGetExternalRow(tsdbReaderT pHandle) { STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)pHandle; SQueryFilePos* cur = &pTsdbReadHandle->cur; cur->fid = INT32_MIN; cur->mixBlock = true; if (pTsdbReadHandle->prev == NULL || pTsdbReadHandle->next == NULL) { cur->rows = 0; return false; } int32_t numOfCols = (int32_t)QH_GET_NUM_OF_COLS(pTsdbReadHandle); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfoData = taosArrayGet(pTsdbReadHandle->pColumns, i); SColumnInfoData* first = taosArrayGet(pTsdbReadHandle->prev, i); memcpy(pColInfoData->pData, first->pData, pColInfoData->info.bytes); SColumnInfoData* sec = taosArrayGet(pTsdbReadHandle->next, i); memcpy(((char*)pColInfoData->pData) + pColInfoData->info.bytes, sec->pData, pColInfoData->info.bytes); if (i == 0 && pColInfoData->info.type == TSDB_DATA_TYPE_TIMESTAMP) { cur->win.skey = *(TSKEY*)pColInfoData->pData; cur->win.ekey = *(TSKEY*)(((char*)pColInfoData->pData) + TSDB_KEYSIZE); } } cur->rows = 2; return true; } /* * if lastRow == NULL, return TSDB_CODE_TDB_NO_CACHE_LAST_ROW * else set pRes and return TSDB_CODE_SUCCESS and save lastKey */ // int32_t tsdbGetCachedLastRow(STable* pTable, STSRow** pRes, TSKEY* lastKey) { // int32_t code = TSDB_CODE_SUCCESS; // // TSDB_RLOCK_TABLE(pTable); // // if (!pTable->lastRow) { // code = TSDB_CODE_TDB_NO_CACHE_LAST_ROW; // goto out; // } // // if (pRes) { // *pRes = tdMemRowDup(pTable->lastRow); // if (*pRes == NULL) { // code = TSDB_CODE_TDB_OUT_OF_MEMORY; // } // } // // out: // TSDB_RUNLOCK_TABLE(pTable); // return code; //} bool isTsdbCacheLastRow(tsdbReaderT* pReader) { return ((STsdbReadHandle*)pReader)->cachelastrow > TSDB_CACHED_TYPE_NONE; } int32_t checkForCachedLastRow(STsdbReadHandle* pTsdbReadHandle, STableGroupInfo* groupList) { assert(pTsdbReadHandle != NULL && groupList != NULL); // TSKEY key = TSKEY_INITIAL_VAL; // // SArray* group = taosArrayGetP(groupList->pGroupList, 0); // assert(group != NULL); // // STableKeyInfo* pInfo = (STableKeyInfo*)taosArrayGet(group, 0); // // int32_t code = 0; // // if (((STable*)pInfo->pTable)->lastRow) { // code = tsdbGetCachedLastRow(pInfo->pTable, NULL, &key); // if (code != TSDB_CODE_SUCCESS) { // pTsdbReadHandle->cachelastrow = TSDB_CACHED_TYPE_NONE; // } else { // pTsdbReadHandle->cachelastrow = TSDB_CACHED_TYPE_LASTROW; // } // } // // // update the tsdb query time range // if (pTsdbReadHandle->cachelastrow != TSDB_CACHED_TYPE_NONE) { // pTsdbReadHandle->window = TSWINDOW_INITIALIZER; // pTsdbReadHandle->checkFiles = false; // pTsdbReadHandle->activeIndex = -1; // start from -1 // } return TSDB_CODE_SUCCESS; } int32_t checkForCachedLast(STsdbReadHandle* pTsdbReadHandle) { assert(pTsdbReadHandle != NULL); int32_t code = 0; // if (pTsdbReadHandle->pTsdb && atomic_load_8(&pTsdbReadHandle->pTsdb->hasCachedLastColumn)){ // pTsdbReadHandle->cachelastrow = TSDB_CACHED_TYPE_LAST; // } // update the tsdb query time range if (pTsdbReadHandle->cachelastrow) { pTsdbReadHandle->checkFiles = false; pTsdbReadHandle->activeIndex = -1; // start from -1 } return code; } STimeWindow updateLastrowForEachGroup(STableGroupInfo* groupList) { STimeWindow window = {INT64_MAX, INT64_MIN}; int32_t totalNumOfTable = 0; SArray* emptyGroup = taosArrayInit(16, sizeof(int32_t)); // NOTE: starts from the buffer in case of descending timestamp order check data blocks size_t numOfGroups = taosArrayGetSize(groupList->pGroupList); for (int32_t j = 0; j < numOfGroups; ++j) { SArray* pGroup = taosArrayGetP(groupList->pGroupList, j); TSKEY key = TSKEY_INITIAL_VAL; STableKeyInfo keyInfo = {0}; size_t numOfTables = taosArrayGetSize(pGroup); for (int32_t i = 0; i < numOfTables; ++i) { STableKeyInfo* pInfo = (STableKeyInfo*)taosArrayGet(pGroup, i); // if the lastKey equals to INT64_MIN, there is no data in this table TSKEY lastKey = 0; //((STable*)(pInfo->pTable))->lastKey; if (key < lastKey) { key = lastKey; // keyInfo.pTable = pInfo->pTable; keyInfo.lastKey = key; pInfo->lastKey = key; if (key < window.skey) { window.skey = key; } if (key > window.ekey) { window.ekey = key; } } } // more than one table in each group, only one table left for each group // if (keyInfo.pTable != NULL) { // totalNumOfTable++; // if (taosArrayGetSize(pGroup) == 1) { // // do nothing // } else { // taosArrayClear(pGroup); // taosArrayPush(pGroup, &keyInfo); // } // } else { // mark all the empty groups, and remove it later // taosArrayDestroy(pGroup); // taosArrayPush(emptyGroup, &j); // } } // window does not being updated, so set the original if (window.skey == INT64_MAX && window.ekey == INT64_MIN) { window = TSWINDOW_INITIALIZER; assert(totalNumOfTable == 0 && taosArrayGetSize(groupList->pGroupList) == numOfGroups); } taosArrayRemoveBatch(groupList->pGroupList, TARRAY_GET_START(emptyGroup), (int32_t)taosArrayGetSize(emptyGroup)); taosArrayDestroy(emptyGroup); groupList->numOfTables = totalNumOfTable; return window; } void tsdbRetrieveDataBlockInfo(tsdbReaderT* pTsdbReadHandle, SDataBlockInfo* pDataBlockInfo) { STsdbReadHandle* pHandle = (STsdbReadHandle*)pTsdbReadHandle; SQueryFilePos* cur = &pHandle->cur; uint64_t uid = 0; // there are data in file if (pHandle->cur.fid != INT32_MIN) { STableBlockInfo* pBlockInfo = &pHandle->pDataBlockInfo[cur->slot]; uid = pBlockInfo->pTableCheckInfo->tableId; } else { STableCheckInfo* pCheckInfo = taosArrayGet(pHandle->pTableCheckInfo, pHandle->activeIndex); uid = pCheckInfo->tableId; } tsdbDebug("data block generated, uid:%" PRIu64 " numOfRows:%d, tsrange:%" PRId64 " - %" PRId64 " %s", uid, cur->rows, cur->win.skey, cur->win.ekey, pHandle->idStr); pDataBlockInfo->uid = uid; #if 0 // for multi-group data query processing test purpose pDataBlockInfo->groupId = uid; #endif pDataBlockInfo->rows = cur->rows; pDataBlockInfo->window = cur->win; // ASSERT(pDataBlockInfo->numOfCols >= (int32_t)(QH_GET_NUM_OF_COLS(pHandle)); } /* * return null for mixed data block, if not a complete file data block, the statistics value will always return NULL */ int32_t tsdbRetrieveDataBlockStatisInfo(tsdbReaderT* pTsdbReadHandle, SColumnDataAgg*** pBlockStatis, bool* allHave) { STsdbReadHandle* pHandle = (STsdbReadHandle*)pTsdbReadHandle; *allHave = false; SQueryFilePos* c = &pHandle->cur; if (c->mixBlock) { *pBlockStatis = NULL; return TSDB_CODE_SUCCESS; } STableBlockInfo* pBlockInfo = &pHandle->pDataBlockInfo[c->slot]; assert((c->slot >= 0 && c->slot < pHandle->numOfBlocks) || ((c->slot == pHandle->numOfBlocks) && (c->slot == 0))); // file block with sub-blocks has no statistics data if (pBlockInfo->compBlock->numOfSubBlocks > 1) { *pBlockStatis = NULL; return TSDB_CODE_SUCCESS; } int64_t stime = taosGetTimestampUs(); int statisStatus = tsdbLoadBlockStatis(&pHandle->rhelper, pBlockInfo->compBlock); if (statisStatus < TSDB_STATIS_OK) { return terrno; } else if (statisStatus > TSDB_STATIS_OK) { *pBlockStatis = NULL; return TSDB_CODE_SUCCESS; } tsdbDebug("vgId:%d succeed to load block statis part for uid %" PRIu64, REPO_ID(pHandle->pTsdb), TSDB_READ_TABLE_UID(&pHandle->rhelper)); int16_t* colIds = pHandle->suppInfo.defaultLoadColumn->pData; size_t numOfCols = QH_GET_NUM_OF_COLS(pHandle); memset(pHandle->suppInfo.plist, 0, numOfCols * POINTER_BYTES); memset(pHandle->suppInfo.pstatis, 0, numOfCols * sizeof(SColumnDataAgg)); for (int32_t i = 0; i < numOfCols; ++i) { pHandle->suppInfo.pstatis[i].colId = colIds[i]; } *allHave = true; tsdbGetBlockStatis(&pHandle->rhelper, pHandle->suppInfo.pstatis, (int)numOfCols, pBlockInfo->compBlock); // always load the first primary timestamp column data SColumnDataAgg* pPrimaryColStatis = &pHandle->suppInfo.pstatis[0]; assert(pPrimaryColStatis->colId == PRIMARYKEY_TIMESTAMP_COL_ID); pPrimaryColStatis->numOfNull = 0; pPrimaryColStatis->min = pBlockInfo->compBlock->keyFirst; pPrimaryColStatis->max = pBlockInfo->compBlock->keyLast; pHandle->suppInfo.plist[0] = &pHandle->suppInfo.pstatis[0]; // update the number of NULL data rows int32_t* slotIds = pHandle->suppInfo.slotIds; for (int32_t i = 1; i < numOfCols; ++i) { ASSERT(colIds[i] == pHandle->pSchema->columns[slotIds[i]].colId); if (IS_BSMA_ON(&(pHandle->pSchema->columns[slotIds[i]]))) { if (pHandle->suppInfo.pstatis[i].numOfNull == -1) { // set the column data are all NULL pHandle->suppInfo.pstatis[i].numOfNull = pBlockInfo->compBlock->numOfRows; } else { pHandle->suppInfo.plist[i] = &pHandle->suppInfo.pstatis[i]; } } else { *allHave = false; } } int64_t elapsed = taosGetTimestampUs() - stime; pHandle->cost.statisInfoLoadTime += elapsed; *pBlockStatis = pHandle->suppInfo.plist; return TSDB_CODE_SUCCESS; } SArray* tsdbRetrieveDataBlock(tsdbReaderT* pTsdbReadHandle, SArray* pIdList) { /** * In the following two cases, the data has been loaded to SColumnInfoData. * 1. data is from cache, 2. data block is not completed qualified to query time range */ STsdbReadHandle* pHandle = (STsdbReadHandle*)pTsdbReadHandle; if (pHandle->cur.fid == INT32_MIN) { return pHandle->pColumns; } else { STableBlockInfo* pBlockInfo = &pHandle->pDataBlockInfo[pHandle->cur.slot]; STableCheckInfo* pCheckInfo = pBlockInfo->pTableCheckInfo; if (pHandle->cur.mixBlock) { return pHandle->pColumns; } else { SDataBlockInfo binfo = GET_FILE_DATA_BLOCK_INFO(pCheckInfo, pBlockInfo->compBlock); assert(pHandle->realNumOfRows <= binfo.rows); // data block has been loaded, todo extract method SDataBlockLoadInfo* pBlockLoadInfo = &pHandle->dataBlockLoadInfo; if (pBlockLoadInfo->slot == pHandle->cur.slot && pBlockLoadInfo->fileGroup->fid == pHandle->cur.fid && pBlockLoadInfo->uid == pCheckInfo->tableId) { return pHandle->pColumns; } else { // only load the file block SBlock* pBlock = pBlockInfo->compBlock; if (doLoadFileDataBlock(pHandle, pBlock, pCheckInfo, pHandle->cur.slot) != TSDB_CODE_SUCCESS) { return NULL; } int32_t numOfRows = doCopyRowsFromFileBlock(pHandle, pHandle->outputCapacity, 0, 0, pBlock->numOfRows - 1); return pHandle->pColumns; } } } } #if 0 void filterPrepare(void* expr, void* param) { tExprNode* pExpr = (tExprNode*)expr; if (pExpr->_node.info != NULL) { return; } pExpr->_node.info = taosMemoryCalloc(1, sizeof(tQueryInfo)); STSchema* pTSSchema = (STSchema*) param; tQueryInfo* pInfo = pExpr->_node.info; tVariant* pCond = pExpr->_node.pRight->pVal; SSchema* pSchema = pExpr->_node.pLeft->pSchema; pInfo->sch = *pSchema; pInfo->optr = pExpr->_node.optr; pInfo->compare = getComparFunc(pInfo->sch.type, pInfo->optr); pInfo->indexed = pTSSchema->columns->colId == pInfo->sch.colId; if (pInfo->optr == TSDB_RELATION_IN) { int dummy = -1; SHashObj *pObj = NULL; if (pInfo->sch.colId == TSDB_TBNAME_COLUMN_INDEX) { pObj = taosHashInit(256, taosGetDefaultHashFunction(pInfo->sch.type), true, false); SArray *arr = (SArray *)(pCond->arr); for (size_t i = 0; i < taosArrayGetSize(arr); i++) { char* p = taosArrayGetP(arr, i); strntolower_s(varDataVal(p), varDataVal(p), varDataLen(p)); taosHashPut(pObj, varDataVal(p), varDataLen(p), &dummy, sizeof(dummy)); } } else { buildFilterSetFromBinary((void **)&pObj, pCond->pz, pCond->nLen); } pInfo->q = (char *)pObj; } else if (pCond != NULL) { uint32_t size = pCond->nLen * TSDB_NCHAR_SIZE; if (size < (uint32_t)pSchema->bytes) { size = pSchema->bytes; } // to make sure tonchar does not cause invalid write, since the '\0' needs at least sizeof(TdUcs4) space. pInfo->q = taosMemoryCalloc(1, size + TSDB_NCHAR_SIZE + VARSTR_HEADER_SIZE); tVariantDump(pCond, pInfo->q, pSchema->type, true); } } #endif static int32_t tableGroupComparFn(const void* p1, const void* p2, const void* param) { #if 0 STableGroupSupporter* pTableGroupSupp = (STableGroupSupporter*) param; STable* pTable1 = ((STableKeyInfo*) p1)->uid; STable* pTable2 = ((STableKeyInfo*) p2)->uid; for (int32_t i = 0; i < pTableGroupSupp->numOfCols; ++i) { SColIndex* pColIndex = &pTableGroupSupp->pCols[i]; int32_t colIndex = pColIndex->colIndex; assert(colIndex >= TSDB_TBNAME_COLUMN_INDEX); char * f1 = NULL; char * f2 = NULL; int32_t type = 0; int32_t bytes = 0; if (colIndex == TSDB_TBNAME_COLUMN_INDEX) { f1 = (char*) TABLE_NAME(pTable1); f2 = (char*) TABLE_NAME(pTable2); type = TSDB_DATA_TYPE_BINARY; bytes = tGetTbnameColumnSchema()->bytes; } else { if (pTableGroupSupp->pTagSchema && colIndex < pTableGroupSupp->pTagSchema->numOfCols) { STColumn* pCol = schemaColAt(pTableGroupSupp->pTagSchema, colIndex); bytes = pCol->bytes; type = pCol->type; f1 = tdGetKVRowValOfCol(pTable1->tagVal, pCol->colId); f2 = tdGetKVRowValOfCol(pTable2->tagVal, pCol->colId); } } // this tags value may be NULL if (f1 == NULL && f2 == NULL) { continue; } if (f1 == NULL) { return -1; } if (f2 == NULL) { return 1; } int32_t ret = doCompare(f1, f2, type, bytes); if (ret == 0) { continue; } else { return ret; } } #endif return 0; } static int tsdbCheckInfoCompar(const void* key1, const void* key2) { if (((STableCheckInfo*)key1)->tableId < ((STableCheckInfo*)key2)->tableId) { return -1; } else if (((STableCheckInfo*)key1)->tableId > ((STableCheckInfo*)key2)->tableId) { return 1; } else { ASSERT(false); return 0; } } void createTableGroupImpl(SArray* pGroups, SArray* pTableList, size_t numOfTables, TSKEY skey, STableGroupSupporter* pSupp, __ext_compar_fn_t compareFn) { STable* pTable = taosArrayGetP(pTableList, 0); SArray* g = taosArrayInit(16, sizeof(STableKeyInfo)); STableKeyInfo info = {.lastKey = skey}; taosArrayPush(g, &info); for (int32_t i = 1; i < numOfTables; ++i) { STable** prev = taosArrayGet(pTableList, i - 1); STable** p = taosArrayGet(pTableList, i); int32_t ret = compareFn(prev, p, pSupp); assert(ret == 0 || ret == -1); if (ret == 0) { STableKeyInfo info1 = {.lastKey = skey}; taosArrayPush(g, &info1); } else { taosArrayPush(pGroups, &g); // current group is ended, start a new group g = taosArrayInit(16, sizeof(STableKeyInfo)); STableKeyInfo info1 = {.lastKey = skey}; taosArrayPush(g, &info1); } } taosArrayPush(pGroups, &g); } SArray* createTableGroup(SArray* pTableList, SSchemaWrapper* pTagSchema, SColIndex* pCols, int32_t numOfOrderCols, TSKEY skey) { assert(pTableList != NULL); SArray* pTableGroup = taosArrayInit(1, POINTER_BYTES); size_t size = taosArrayGetSize(pTableList); if (size == 0) { tsdbDebug("no qualified tables"); return pTableGroup; } if (numOfOrderCols == 0 || size == 1) { // no group by tags clause or only one table SArray* sa = taosArrayDup(pTableList); if (sa == NULL) { taosArrayDestroy(pTableGroup); return NULL; } taosArrayPush(pTableGroup, &sa); tsdbDebug("all %" PRIzu " tables belong to one group", size); } else { STableGroupSupporter sup = {0}; sup.numOfCols = numOfOrderCols; sup.pTagSchema = pTagSchema->pSchema; sup.pCols = pCols; taosqsort(pTableList->pData, size, sizeof(STableKeyInfo), &sup, tableGroupComparFn); createTableGroupImpl(pTableGroup, pTableList, size, skey, &sup, tableGroupComparFn); } return pTableGroup; } // static bool tableFilterFp(const void* pNode, void* param) { // tQueryInfo* pInfo = (tQueryInfo*) param; // // STable* pTable = (STable*)(SL_GET_NODE_DATA((SSkipListNode*)pNode)); // // char* val = NULL; // if (pInfo->sch.colId == TSDB_TBNAME_COLUMN_INDEX) { // val = (char*) TABLE_NAME(pTable); // } else { // val = tdGetKVRowValOfCol(pTable->tagVal, pInfo->sch.colId); // } // // if (pInfo->optr == TSDB_RELATION_ISNULL || pInfo->optr == TSDB_RELATION_NOTNULL) { // if (pInfo->optr == TSDB_RELATION_ISNULL) { // return (val == NULL) || isNull(val, pInfo->sch.type); // } else if (pInfo->optr == TSDB_RELATION_NOTNULL) { // return (val != NULL) && (!isNull(val, pInfo->sch.type)); // } // } else if (pInfo->optr == TSDB_RELATION_IN) { // int type = pInfo->sch.type; // if (type == TSDB_DATA_TYPE_BOOL || IS_SIGNED_NUMERIC_TYPE(type) || type == TSDB_DATA_TYPE_TIMESTAMP) { // int64_t v; // GET_TYPED_DATA(v, int64_t, pInfo->sch.type, val); // return NULL != taosHashGet((SHashObj *)pInfo->q, (char *)&v, sizeof(v)); // } else if (IS_UNSIGNED_NUMERIC_TYPE(type)) { // uint64_t v; // GET_TYPED_DATA(v, uint64_t, pInfo->sch.type, val); // return NULL != taosHashGet((SHashObj *)pInfo->q, (char *)&v, sizeof(v)); // } // else if (type == TSDB_DATA_TYPE_DOUBLE || type == TSDB_DATA_TYPE_FLOAT) { // double v; // GET_TYPED_DATA(v, double, pInfo->sch.type, val); // return NULL != taosHashGet((SHashObj *)pInfo->q, (char *)&v, sizeof(v)); // } else if (type == TSDB_DATA_TYPE_BINARY || type == TSDB_DATA_TYPE_NCHAR){ // return NULL != taosHashGet((SHashObj *)pInfo->q, varDataVal(val), varDataLen(val)); // } // // } // // int32_t ret = 0; // if (val == NULL) { //the val is possible to be null, so check it out carefully // ret = -1; // val is missing in table tags value pairs // } else { // ret = pInfo->compare(val, pInfo->q); // } // // switch (pInfo->optr) { // case TSDB_RELATION_EQUAL: { // return ret == 0; // } // case TSDB_RELATION_NOT_EQUAL: { // return ret != 0; // } // case TSDB_RELATION_GREATER_EQUAL: { // return ret >= 0; // } // case TSDB_RELATION_GREATER: { // return ret > 0; // } // case TSDB_RELATION_LESS_EQUAL: { // return ret <= 0; // } // case TSDB_RELATION_LESS: { // return ret < 0; // } // case TSDB_RELATION_LIKE: { // return ret == 0; // } // case TSDB_RELATION_MATCH: { // return ret == 0; // } // case TSDB_RELATION_NMATCH: { // return ret == 0; // } // case TSDB_RELATION_IN: { // return ret == 1; // } // // default: // assert(false); // } // // return true; //} // static void getTableListfromSkipList(tExprNode *pExpr, SSkipList *pSkipList, SArray *result, SExprTraverseSupp // *param); // static int32_t doQueryTableList(STable* pSTable, SArray* pRes, tExprNode* pExpr) { // // // query according to the expression tree // SExprTraverseSupp supp = { // .nodeFilterFn = (__result_filter_fn_t)tableFilterFp, // .setupInfoFn = filterPrepare, // .pExtInfo = pSTable->tagSchema, // }; // // getTableListfromSkipList(pExpr, pSTable->pIndex, pRes, &supp); // tExprTreeDestroy(pExpr, destroyHelper); // return TSDB_CODE_SUCCESS; //} int32_t tsdbQuerySTableByTagCond(void* pMeta, uint64_t uid, TSKEY skey, const char* pTagCond, size_t len, int16_t tagNameRelType, const char* tbnameCond, STableGroupInfo* pGroupInfo, SColIndex* pColIndex, int32_t numOfCols, uint64_t reqId, uint64_t taskId) { SMetaReader mr = {0}; metaReaderInit(&mr, (SMeta*)pMeta, 0); if (metaGetTableEntryByUid(&mr, uid) < 0) { tsdbError("%p failed to get stable, uid:%" PRIu64 ", TID:0x%" PRIx64 " QID:0x%" PRIx64, pMeta, uid, taskId, reqId); terrno = TSDB_CODE_TDB_INVALID_TABLE_ID; goto _error; } else { tsdbDebug("%p succeed to get stable, uid:%" PRIu64 ", TID:0x%" PRIx64 " QID:0x%" PRIx64, pMeta, uid, taskId, reqId); } if (mr.me.type != TSDB_SUPER_TABLE) { tsdbError("%p query normal tag not allowed, uid:%" PRIu64 ", TID:0x%" PRIx64 " QID:0x%" PRIx64, pMeta, uid, taskId, reqId); terrno = TSDB_CODE_OPS_NOT_SUPPORT; // basically, this error is caused by invalid sql issued by client goto _error; } metaReaderClear(&mr); // NOTE: not add ref count for super table SArray* res = taosArrayInit(8, sizeof(STableKeyInfo)); SSchemaWrapper* pTagSchema = metaGetTableSchema(pMeta, uid, 0, true); // no tags and tbname condition, all child tables of this stable are involved if (tbnameCond == NULL && (pTagCond == NULL || len == 0)) { int32_t ret = getAllTableList(pMeta, uid, res); if (ret != TSDB_CODE_SUCCESS) { goto _error; } pGroupInfo->numOfTables = (uint32_t)taosArrayGetSize(res); pGroupInfo->pGroupList = createTableGroup(res, pTagSchema, pColIndex, numOfCols, skey); tsdbDebug("%p no table name/tag condition, all tables qualified, numOfTables:%u, group:%zu, TID:0x%" PRIx64 " QID:0x%" PRIx64, pMeta, pGroupInfo->numOfTables, taosArrayGetSize(pGroupInfo->pGroupList), taskId, reqId); taosArrayDestroy(res); return ret; } int32_t ret = TSDB_CODE_SUCCESS; SFilterInfo* filterInfo = NULL; ret = filterInitFromNode((SNode*)pTagCond, &filterInfo, 0); if (ret != TSDB_CODE_SUCCESS) { terrno = ret; return ret; } ret = tsdbQueryTableList(pMeta, res, filterInfo); pGroupInfo->numOfTables = (uint32_t)taosArrayGetSize(res); pGroupInfo->pGroupList = createTableGroup(res, pTagSchema, pColIndex, numOfCols, skey); // tsdbDebug("%p stable tid:%d, uid:%" PRIu64 " query, numOfTables:%u, belong to %" PRIzu " groups", tsdb, // pTable->tableId, pTable->uid, pGroupInfo->numOfTables, taosArrayGetSize(pGroupInfo->pGroupList)); taosArrayDestroy(res); return ret; _error: return terrno; } int32_t tsdbQueryTableList(void* pMeta, SArray* pRes, void* filterInfo) { // impl later return TSDB_CODE_SUCCESS; } int32_t tsdbGetOneTableGroup(void* pMeta, uint64_t uid, TSKEY startKey, STableGroupInfo* pGroupInfo) { SMetaReader mr = {0}; metaReaderInit(&mr, (SMeta*)pMeta, 0); if (metaGetTableEntryByUid(&mr, uid) < 0) { terrno = TSDB_CODE_TDB_INVALID_TABLE_ID; goto _error; } metaReaderClear(&mr); pGroupInfo->numOfTables = 1; pGroupInfo->pGroupList = taosArrayInit(1, POINTER_BYTES); SArray* group = taosArrayInit(1, sizeof(STableKeyInfo)); STableKeyInfo info = {.lastKey = startKey, .uid = uid}; taosArrayPush(group, &info); taosArrayPush(pGroupInfo->pGroupList, &group); return TSDB_CODE_SUCCESS; _error: metaReaderClear(&mr); return terrno; } #if 0 int32_t tsdbGetTableGroupFromIdListT(STsdb* tsdb, SArray* pTableIdList, STableGroupInfo* pGroupInfo) { if (tsdbRLockRepoMeta(tsdb) < 0) { return terrno; } assert(pTableIdList != NULL); size_t size = taosArrayGetSize(pTableIdList); pGroupInfo->pGroupList = taosArrayInit(1, POINTER_BYTES); SArray* group = taosArrayInit(1, sizeof(STableKeyInfo)); for(int32_t i = 0; i < size; ++i) { STableIdInfo *id = taosArrayGet(pTableIdList, i); STable* pTable = tsdbGetTableByUid(tsdbGetMeta(tsdb), id->uid); if (pTable == NULL) { tsdbWarn("table uid:%"PRIu64", tid:%d has been drop already", id->uid, id->tid); continue; } if (pTable->type == TSDB_SUPER_TABLE) { tsdbError("direct query on super tale is not allowed, table uid:%"PRIu64", tid:%d", id->uid, id->tid); terrno = TSDB_CODE_QRY_INVALID_MSG; tsdbUnlockRepoMeta(tsdb); taosArrayDestroy(group); return terrno; } STableKeyInfo info = {.pTable = pTable, .lastKey = id->key}; taosArrayPush(group, &info); } if (tsdbUnlockRepoMeta(tsdb) < 0) { taosArrayDestroy(group); return terrno; } pGroupInfo->numOfTables = (uint32_t) taosArrayGetSize(group); if (pGroupInfo->numOfTables > 0) { taosArrayPush(pGroupInfo->pGroupList, &group); } else { taosArrayDestroy(group); } return TSDB_CODE_SUCCESS; } #endif static void* doFreeColumnInfoData(SArray* pColumnInfoData) { if (pColumnInfoData == NULL) { return NULL; } size_t cols = taosArrayGetSize(pColumnInfoData); for (int32_t i = 0; i < cols; ++i) { SColumnInfoData* pColInfo = taosArrayGet(pColumnInfoData, i); taosMemoryFreeClear(pColInfo->pData); } taosArrayDestroy(pColumnInfoData); return NULL; } static void* destroyTableCheckInfo(SArray* pTableCheckInfo) { size_t size = taosArrayGetSize(pTableCheckInfo); for (int32_t i = 0; i < size; ++i) { STableCheckInfo* p = taosArrayGet(pTableCheckInfo, i); destroyTableMemIterator(p); taosMemoryFreeClear(p->pCompInfo); } taosArrayDestroy(pTableCheckInfo); return NULL; } void tsdbCleanupReadHandle(tsdbReaderT queryHandle) { STsdbReadHandle* pTsdbReadHandle = (STsdbReadHandle*)queryHandle; if (pTsdbReadHandle == NULL) { return; } pTsdbReadHandle->pColumns = doFreeColumnInfoData(pTsdbReadHandle->pColumns); taosArrayDestroy(pTsdbReadHandle->suppInfo.defaultLoadColumn); taosMemoryFreeClear(pTsdbReadHandle->pDataBlockInfo); taosMemoryFreeClear(pTsdbReadHandle->suppInfo.pstatis); taosMemoryFreeClear(pTsdbReadHandle->suppInfo.plist); if (!emptyQueryTimewindow(pTsdbReadHandle)) { // tsdbMayUnTakeMemSnapshot(pTsdbReadHandle); } else { assert(pTsdbReadHandle->pTableCheckInfo == NULL); } if (pTsdbReadHandle->pTableCheckInfo != NULL) { pTsdbReadHandle->pTableCheckInfo = destroyTableCheckInfo(pTsdbReadHandle->pTableCheckInfo); } tsdbDestroyReadH(&pTsdbReadHandle->rhelper); tdFreeDataCols(pTsdbReadHandle->pDataCols); pTsdbReadHandle->pDataCols = NULL; pTsdbReadHandle->prev = doFreeColumnInfoData(pTsdbReadHandle->prev); pTsdbReadHandle->next = doFreeColumnInfoData(pTsdbReadHandle->next); SIOCostSummary* pCost = &pTsdbReadHandle->cost; tsdbDebug("%p :io-cost summary: head-file read cnt:%" PRIu64 ", head-file time:%" PRIu64 " us, statis-info:%" PRId64 " us, datablock:%" PRId64 " us, check data:%" PRId64 " us, %s", pTsdbReadHandle, pCost->headFileLoad, pCost->headFileLoadTime, pCost->statisInfoLoadTime, pCost->blockLoadTime, pCost->checkForNextTime, pTsdbReadHandle->idStr); taosMemoryFreeClear(pTsdbReadHandle); } #if 0 void tsdbDestroyTableGroup(STableGroupInfo *pGroupList) { assert(pGroupList != NULL); size_t numOfGroup = taosArrayGetSize(pGroupList->pGroupList); for(int32_t i = 0; i < numOfGroup; ++i) { SArray* p = taosArrayGetP(pGroupList->pGroupList, i); size_t numOfTables = taosArrayGetSize(p); for(int32_t j = 0; j < numOfTables; ++j) { STable* pTable = taosArrayGetP(p, j); if (pTable != NULL) { // in case of handling retrieve data from tsdb tsdbUnRefTable(pTable); } //assert(pTable != NULL); } taosArrayDestroy(p); } taosHashCleanup(pGroupList->map); taosArrayDestroy(pGroupList->pGroupList); pGroupList->numOfTables = 0; } static void applyFilterToSkipListNode(SSkipList *pSkipList, tExprNode *pExpr, SArray *pResult, SExprTraverseSupp *param) { SSkipListIterator* iter = tSkipListCreateIter(pSkipList); // Scan each node in the skiplist by using iterator while (tSkipListIterNext(iter)) { SSkipListNode *pNode = tSkipListIterGet(iter); if (exprTreeApplyFilter(pExpr, pNode, param)) { taosArrayPush(pResult, &(SL_GET_NODE_DATA(pNode))); } } tSkipListDestroyIter(iter); } typedef struct { char* v; int32_t optr; } SEndPoint; typedef struct { SEndPoint* start; SEndPoint* end; } SQueryCond; // todo check for malloc failure static int32_t setQueryCond(tQueryInfo *queryColInfo, SQueryCond* pCond) { int32_t optr = queryColInfo->optr; if (optr == TSDB_RELATION_GREATER || optr == TSDB_RELATION_GREATER_EQUAL || optr == TSDB_RELATION_EQUAL || optr == TSDB_RELATION_NOT_EQUAL) { pCond->start = taosMemoryCalloc(1, sizeof(SEndPoint)); pCond->start->optr = queryColInfo->optr; pCond->start->v = queryColInfo->q; } else if (optr == TSDB_RELATION_LESS || optr == TSDB_RELATION_LESS_EQUAL) { pCond->end = taosMemoryCalloc(1, sizeof(SEndPoint)); pCond->end->optr = queryColInfo->optr; pCond->end->v = queryColInfo->q; } else if (optr == TSDB_RELATION_IN) { pCond->start = taosMemoryCalloc(1, sizeof(SEndPoint)); pCond->start->optr = queryColInfo->optr; pCond->start->v = queryColInfo->q; } else if (optr == TSDB_RELATION_LIKE) { assert(0); } else if (optr == TSDB_RELATION_MATCH) { assert(0); } else if (optr == TSDB_RELATION_NMATCH) { assert(0); } return TSDB_CODE_SUCCESS; } static void queryIndexedColumn(SSkipList* pSkipList, tQueryInfo* pQueryInfo, SArray* result) { SSkipListIterator* iter = NULL; SQueryCond cond = {0}; if (setQueryCond(pQueryInfo, &cond) != TSDB_CODE_SUCCESS) { //todo handle error } if (cond.start != NULL) { iter = tSkipListCreateIterFromVal(pSkipList, (char*) cond.start->v, pSkipList->type, TSDB_ORDER_ASC); } else { iter = tSkipListCreateIterFromVal(pSkipList, (char*)(cond.end ? cond.end->v: NULL), pSkipList->type, TSDB_ORDER_DESC); } if (cond.start != NULL) { int32_t optr = cond.start->optr; if (optr == TSDB_RELATION_EQUAL) { // equals while(tSkipListIterNext(iter)) { SSkipListNode* pNode = tSkipListIterGet(iter); int32_t ret = pQueryInfo->compare(SL_GET_NODE_KEY(pSkipList, pNode), cond.start->v); if (ret != 0) { break; } STableKeyInfo info = {.pTable = (void*)SL_GET_NODE_DATA(pNode), .lastKey = TSKEY_INITIAL_VAL}; taosArrayPush(result, &info); } } else if (optr == TSDB_RELATION_GREATER || optr == TSDB_RELATION_GREATER_EQUAL) { // greater equal bool comp = true; int32_t ret = 0; while(tSkipListIterNext(iter)) { SSkipListNode* pNode = tSkipListIterGet(iter); if (comp) { ret = pQueryInfo->compare(SL_GET_NODE_KEY(pSkipList, pNode), cond.start->v); assert(ret >= 0); } if (ret == 0 && optr == TSDB_RELATION_GREATER) { continue; } else { STableKeyInfo info = {.pTable = (void*)SL_GET_NODE_DATA(pNode), .lastKey = TSKEY_INITIAL_VAL}; taosArrayPush(result, &info); comp = false; } } } else if (optr == TSDB_RELATION_NOT_EQUAL) { // not equal bool comp = true; while(tSkipListIterNext(iter)) { SSkipListNode* pNode = tSkipListIterGet(iter); comp = comp && (pQueryInfo->compare(SL_GET_NODE_KEY(pSkipList, pNode), cond.start->v) == 0); if (comp) { continue; } STableKeyInfo info = {.pTable = (void*)SL_GET_NODE_DATA(pNode), .lastKey = TSKEY_INITIAL_VAL}; taosArrayPush(result, &info); } tSkipListDestroyIter(iter); comp = true; iter = tSkipListCreateIterFromVal(pSkipList, (char*) cond.start->v, pSkipList->type, TSDB_ORDER_DESC); while(tSkipListIterNext(iter)) { SSkipListNode* pNode = tSkipListIterGet(iter); comp = comp && (pQueryInfo->compare(SL_GET_NODE_KEY(pSkipList, pNode), cond.start->v) == 0); if (comp) { continue; } STableKeyInfo info = {.pTable = (void*)SL_GET_NODE_DATA(pNode), .lastKey = TSKEY_INITIAL_VAL}; taosArrayPush(result, &info); } } else if (optr == TSDB_RELATION_IN) { while(tSkipListIterNext(iter)) { SSkipListNode* pNode = tSkipListIterGet(iter); int32_t ret = pQueryInfo->compare(SL_GET_NODE_KEY(pSkipList, pNode), cond.start->v); if (ret != 0) { break; } STableKeyInfo info = {.pTable = (void*)SL_GET_NODE_DATA(pNode), .lastKey = TSKEY_INITIAL_VAL}; taosArrayPush(result, &info); } } else { assert(0); } } else { int32_t optr = cond.end ? cond.end->optr : TSDB_RELATION_INVALID; if (optr == TSDB_RELATION_LESS || optr == TSDB_RELATION_LESS_EQUAL) { bool comp = true; int32_t ret = 0; while (tSkipListIterNext(iter)) { SSkipListNode *pNode = tSkipListIterGet(iter); if (comp) { ret = pQueryInfo->compare(SL_GET_NODE_KEY(pSkipList, pNode), cond.end->v); assert(ret <= 0); } if (ret == 0 && optr == TSDB_RELATION_LESS) { continue; } else { STableKeyInfo info = {.pTable = (void *)SL_GET_NODE_DATA(pNode), .lastKey = TSKEY_INITIAL_VAL}; taosArrayPush(result, &info); comp = false; // no need to compare anymore } } } else { assert(pQueryInfo->optr == TSDB_RELATION_ISNULL || pQueryInfo->optr == TSDB_RELATION_NOTNULL); while (tSkipListIterNext(iter)) { SSkipListNode *pNode = tSkipListIterGet(iter); bool isnull = isNull(SL_GET_NODE_KEY(pSkipList, pNode), pQueryInfo->sch.type); if ((pQueryInfo->optr == TSDB_RELATION_ISNULL && isnull) || (pQueryInfo->optr == TSDB_RELATION_NOTNULL && (!isnull))) { STableKeyInfo info = {.pTable = (void *)SL_GET_NODE_DATA(pNode), .lastKey = TSKEY_INITIAL_VAL}; taosArrayPush(result, &info); } } } } taosMemoryFree(cond.start); taosMemoryFree(cond.end); tSkipListDestroyIter(iter); } static void queryIndexlessColumn(SSkipList* pSkipList, tQueryInfo* pQueryInfo, SArray* res, __result_filter_fn_t filterFp) { SSkipListIterator* iter = tSkipListCreateIter(pSkipList); while (tSkipListIterNext(iter)) { bool addToResult = false; SSkipListNode *pNode = tSkipListIterGet(iter); char *pData = SL_GET_NODE_DATA(pNode); tstr *name = (tstr*) tsdbGetTableName((void*) pData); // todo speed up by using hash if (pQueryInfo->sch.colId == TSDB_TBNAME_COLUMN_INDEX) { if (pQueryInfo->optr == TSDB_RELATION_IN) { addToResult = pQueryInfo->compare(name, pQueryInfo->q); } else if (pQueryInfo->optr == TSDB_RELATION_LIKE || pQueryInfo->optr == TSDB_RELATION_MATCH || pQueryInfo->optr == TSDB_RELATION_NMATCH) { addToResult = !pQueryInfo->compare(name, pQueryInfo->q); } } else { addToResult = filterFp(pNode, pQueryInfo); } if (addToResult) { STableKeyInfo info = {.pTable = (void*)pData, .lastKey = TSKEY_INITIAL_VAL}; taosArrayPush(res, &info); } } tSkipListDestroyIter(iter); } // Apply the filter expression to each node in the skiplist to acquire the qualified nodes in skip list //void getTableListfromSkipList(tExprNode *pExpr, SSkipList *pSkipList, SArray *result, SExprTraverseSupp *param) { // if (pExpr == NULL) { // return; // } // // tExprNode *pLeft = pExpr->_node.pLeft; // tExprNode *pRight = pExpr->_node.pRight; // // // column project // if (pLeft->nodeType != TSQL_NODE_EXPR && pRight->nodeType != TSQL_NODE_EXPR) { // assert(pLeft->nodeType == TSQL_NODE_COL && (pRight->nodeType == TSQL_NODE_VALUE || pRight->nodeType == TSQL_NODE_DUMMY)); // // param->setupInfoFn(pExpr, param->pExtInfo); // // tQueryInfo *pQueryInfo = pExpr->_node.info; // if (pQueryInfo->indexed && (pQueryInfo->optr != TSDB_RELATION_LIKE // && pQueryInfo->optr != TSDB_RELATION_MATCH && pQueryInfo->optr != TSDB_RELATION_NMATCH // && pQueryInfo->optr != TSDB_RELATION_IN)) { // queryIndexedColumn(pSkipList, pQueryInfo, result); // } else { // queryIndexlessColumn(pSkipList, pQueryInfo, result, param->nodeFilterFn); // } // // return; // } // // // The value of hasPK is always 0. // uint8_t weight = pLeft->_node.hasPK + pRight->_node.hasPK; // assert(weight == 0 && pSkipList != NULL && taosArrayGetSize(result) == 0); // // //apply the hierarchical filter expression to every node in skiplist to find the qualified nodes // applyFilterToSkipListNode(pSkipList, pExpr, result, param); //} #endif