/* * 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 ASCENDING_TRAVERSE(o) (o == TSDB_ORDER_ASC) #define QH_GET_NUM_OF_COLS(handle) ((size_t)(taosArrayGetSize((handle)->pResBlock->pDataBlock))) #define GET_FILE_DATA_BLOCK_INFO(_checkInfo, _block) \ ((SDataBlockInfo){.window = {.skey = (_block)->minKey.ts, .ekey = (_block)->maxKey.ts}, \ .rows = (_block)->numOfRows, \ .uid = (_checkInfo)->tableId}) typedef struct SQueryFilePos { int32_t fid; int32_t slot; int32_t pos; int64_t lastKey; int32_t rows; bool composedBlock; bool blockCompleted; STimeWindow win; } SQueryFilePos; typedef struct SDataBlockLoadInfo { SDFileSet* fileGroup; int32_t slot; uint64_t uid; SArray* pLoadedCols; } SDataBlockLoadInfo; typedef struct STableBlockScanInfo { uint64_t uid; TSKEY lastKey; SBlockIdx blockIdx; SArray* pBlockList; // block data index list bool iterInit; // whether to initialize the in-memory skip list iterator or not STbDataIter* iter; // mem buffer skip list iterator STbDataIter* iiter; // imem buffer skip list iterator bool memHasVal; bool imemHasVal; } STableBlockScanInfo; typedef struct SBlockOrderWrapper { int64_t uid; SBlock* pBlock; } SBlockOrderWrapper; typedef struct SBlockOrderSupporter { SBlockOrderWrapper** pDataBlockInfo; int32_t* indexPerTable; int32_t* numOfBlocksPerTable; int32_t numOfTables; } 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; int16_t* colIds; // column ids for loading file block data int32_t* slotIds; // colId to slotId char** buildBuf; // build string tmp buffer, todo remove it later after all string format being updated. } SBlockLoadSuppInfo; typedef struct SFileSetIter { int32_t numOfFiles; // number of total files int32_t index; // current accessed index in the list SArray* pFileList; // data file list } SFileSetIter; typedef struct SFileDataBlockInfo { int32_t tbBlockIdx; // index position in STableBlockScanInfo in order to check whether neighbor block overlaps with it int64_t uid; } SFileDataBlockInfo; typedef struct SDataBlockIter { int32_t numOfBlocks; int32_t index; SArray* blockList; // SArray } SDataBlockIter; typedef struct SFileBlockDumpInfo { int32_t totalRows; int32_t rowIndex; int64_t lastKey; } SFileBlockDumpInfo; typedef struct SVersionRange { uint64_t minVer; uint64_t maxVer; } SVersionRange; typedef struct SReaderStatus { SQueryFilePos cur; // current position bool loadFromFile; // check file stage SHashObj* pTableMap; // SHash STableBlockScanInfo* pTableIter; // table iterator used in building in-memory buffer data blocks. SFileBlockDumpInfo fBlockDumpInfo; SDFileSet* pCurrentFileSet; // current opened file set SBlockData fileBlockData; SFileSetIter fileIter; SDataBlockIter blockIter; bool composedDataBlock;// the returned data block is a composed block or not } SReaderStatus; struct STsdbReader { STsdb* pTsdb; uint64_t suid; int16_t order; STimeWindow window; // the primary query time window that applies to all queries SSDataBlock* pResBlock; int32_t capacity; SReaderStatus status; char* idStr; // query info handle, for debug purpose int32_t type; // query type: 1. retrieve all data blocks, 2. retrieve direct prev|next rows 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; SDataFReader* pFileReader; SVersionRange verRange; #if 0 SFileBlockInfo* 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 */ // SDFileSet* pFileGroup; // SFSIter fileIter; // SReadH rhelper; // 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 #endif }; static SFileDataBlockInfo* getCurrentBlockInfo(SDataBlockIter* pBlockIter); static int buildInmemDataBlockImpl(STableBlockScanInfo* pBlockScanInfo, TSDBKEY maxKey, int32_t capacity, STsdbReader* pReader); static TSDBROW* getValidRow(STbDataIter* pIter, bool* hasVal, STsdbReader* pReader); static int32_t doLoadRowsOfIdenticalTsInFileBlock(SFileDataBlockInfo* pFBlock, SBlock* pBlock, SBlockData* pBlockData, STableBlockScanInfo* pScanInfo, STsdbReader* pReader, SRowMerger* pMerger); static int32_t doLoadRowsOfIdenticalTs(STbDataIter *pIter, bool* hasVal, int64_t ts, SRowMerger* pMerger, STsdbReader* pReader); static int32_t doAppendOneRow(SSDataBlock* pBlock, STsdbReader* pReader, STSRow* pTSRow); static void setComposedBlockFlag(STsdbReader* pReader, bool composed); // 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 int32_t setColumnIdSlotList(STsdbReader* pReader, SSDataBlock* pBlock) { SBlockLoadSuppInfo* pSupInfo = &pReader->suppInfo; size_t numOfCols = blockDataGetNumOfCols(pBlock); // pSupInfo->slotIds = taosMemoryCalloc(numOfCols, sizeof(int16_t)); // if (pSupInfo->slotIds == NULL) { // return TSDB_CODE_OUT_OF_MEMORY; // } pSupInfo->colIds = taosMemoryMalloc(numOfCols * sizeof(int16_t)); pSupInfo->buildBuf = taosMemoryCalloc(numOfCols, POINTER_BYTES); if (pSupInfo->buildBuf == NULL || pSupInfo->colIds == NULL) { taosMemoryFree(pSupInfo->colIds); taosMemoryFree(pSupInfo->buildBuf); return TSDB_CODE_OUT_OF_MEMORY; } // STSchema* pSchema = pReader->pSchema; for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pCol = taosArrayGet(pBlock->pDataBlock, i); pSupInfo->colIds[i] = pCol->info.colId; // for (int32_t j = 0; j < pSchema->numOfCols; ++j) { // if (pCol->info.colId == pSchema->columns[j].colId) { // pSupInfo->slotIds[i] = j; // break; // } // } if (IS_VAR_DATA_TYPE(pCol->info.type)) { pSupInfo->buildBuf[i] = taosMemoryMalloc(pCol->info.bytes); } } return TSDB_CODE_SUCCESS; } static SHashObj* createDataBlockScanInfo(STsdbReader* pTsdbReader, const STableKeyInfo* idList, int32_t numOfTables) { ASSERT(numOfTables >= 1); // allocate buffer in order to load data blocks from file // todo use simple hash instead SHashObj* pTableMap = taosHashInit(numOfTables, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), false, HASH_NO_LOCK); if (pTableMap == NULL) { return NULL; } // todo apply the lastkey of table check to avoid to load header file for (int32_t j = 0; j < numOfTables; ++j) { STableBlockScanInfo info = {.lastKey = 0, .uid = idList[j].uid}; if (ASCENDING_TRAVERSE(pTsdbReader->order)) { if (info.lastKey == INT64_MIN || info.lastKey < pTsdbReader->window.skey) { info.lastKey = pTsdbReader->window.skey; } ASSERT(info.lastKey >= pTsdbReader->window.skey && info.lastKey <= pTsdbReader->window.ekey); } else { info.lastKey = pTsdbReader->window.skey; } taosHashPut(pTableMap, &info.uid, sizeof(uint64_t), &info, sizeof(info)); tsdbDebug("%p check table uid:%" PRId64 " from lastKey:%" PRId64 " %s", pTsdbReader, info.uid, info.lastKey, pTsdbReader->idStr); } return pTableMap; } // static void resetCheckInfo(STsdbReader* 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) { // STableBlockScanInfo* pCheckInfo = (STableBlockScanInfo*)taosArrayGet(pTsdbReadHandle->pTableCheckInfo, i); // pCheckInfo->lastKey = pTsdbReadHandle->window.skey; // pCheckInfo->iter = tsdbTbDataIterDestroy(pCheckInfo->iter); // pCheckInfo->iiter = tsdbTbDataIterDestroy(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(STableBlockScanInfo* pCheckInfo, TSKEY skey, SArray** psTable) { // SArray* pNew = taosArrayInit(1, sizeof(STableBlockScanInfo)); // STableBlockScanInfo info = {.lastKey = skey}; // info.tableId = pCheckInfo->tableId; // taosArrayPush(pNew, &info); // return pNew; // } static bool isEmptyQueryTimeWindow(STimeWindow* pWindow, int32_t order) { ASSERT(pWindow != NULL); bool asc = ASCENDING_TRAVERSE(order); return ((asc && pWindow->skey > pWindow->ekey) || (!asc && pWindow->ekey > pWindow->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 = &pTsdb->keepCfg; // int64_t now = taosGetTimestamp(pCfg->precision); // return now - (tsTickPerMin[pCfg->precision] * pCfg->keep2) + 1; // needs to add one tick // } // todo remove this static void setQueryTimewindow(STsdbReader* pReader, SQueryTableDataCond* pCond, int32_t tWinIdx) { // pReader->window = pCond->twindows[tWinIdx]; // bool updateTs = false; // int64_t startTs = getEarliestValidTimestamp(pReader->pTsdb); // if (ASCENDING_TRAVERSE(pReader->order)) { // if (startTs > pReader->window.skey) { // pReader->window.skey = startTs; // pCond->twindows[tWinIdx].skey = startTs; // updateTs = true; // } // } else { // if (startTs > pReader->window.ekey) { // pReader->window.ekey = startTs; // pCond->twindows[tWinIdx].ekey = startTs; // updateTs = true; // } // } // if (updateTs) { // tsdbDebug("%p update the query time window, old:%" PRId64 " - %" PRId64 ", new:%" PRId64 " - %" PRId64 ", %s", // pReader, pCond->twindows[tWinIdx].skey, pCond->twindows[tWinIdx].ekey, pReader->window.skey, // pReader->window.ekey, pReader->idStr); // } } static void limitOutputBufferSize(const SQueryTableDataCond* pCond, int32_t* capacity) { int32_t rowLen = 0; for (int32_t i = 0; i < pCond->numOfCols; ++i) { rowLen += pCond->colList[i].bytes; } // make sure the output SSDataBlock size be less than 2MB. const int32_t TWOMB = 2 * 1024 * 1024; if ((*capacity) * rowLen > TWOMB) { (*capacity) = TWOMB / rowLen; } } // init file iterator static int32_t initFileIterator(SFileSetIter* pIter, const STsdbFSState* pFState, const char* idstr) { pIter->index = -1; pIter->numOfFiles = taosArrayGetSize(pFState->aDFileSet); pIter->pFileList = taosArrayDup(pFState->aDFileSet); tsdbDebug("init fileset iterator, total files:%d %s", pIter->numOfFiles, idstr); return TSDB_CODE_SUCCESS; } static bool filesetIteratorNext(SFileSetIter* pIter, int32_t order, STsdbReader* pReader) { pIter->index += 1; if (pIter->index >= pIter->numOfFiles) { return false; } // check file the time range of coverage STimeWindow win = {0}; pReader->status.pCurrentFileSet = (SDFileSet *)taosArrayGet(pIter->pFileList, pIter->index); int32_t code = tsdbDataFReaderOpen(&pReader->pFileReader, pReader->pTsdb, pReader->status.pCurrentFileSet); if (code != TSDB_CODE_SUCCESS) { goto _err; } // todo file range check // 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(order) && win.skey > pReader->window.ekey) || (!ASCENDING_TRAVERSE(order) && win.ekey < pReader->window.ekey)) { tsdbDebug("%p remain files are not qualified for qrange:%" PRId64 "-%" PRId64 ", ignore, %s", pReader, pReader->window.skey, pReader->window.ekey, pReader->idStr); return false; } return true; _err: return false; } static void resetDataBlockIterator(SDataBlockIter* pIter) { pIter->index = -1; pIter->numOfBlocks = -1; pIter->blockList = taosArrayInit(4, sizeof(SFileDataBlockInfo)); } static void initReaderStatus(SReaderStatus* pStatus) { pStatus->cur.fid = INT32_MIN; pStatus->cur.win = TSWINDOW_INITIALIZER; pStatus->pTableIter = NULL; pStatus->loadFromFile = true; } static int32_t tsdbReaderCreate(SVnode* pVnode, SQueryTableDataCond* pCond, STsdbReader** ppReader, const char* idstr) { int32_t code = 0; STsdbReader* pReader = (STsdbReader*)taosMemoryCalloc(1, sizeof(*pReader)); if (pReader == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto _end; } initReaderStatus(&pReader->status); pReader->pTsdb = pVnode->pTsdb; pReader->suid = pCond->suid; pReader->order = pCond->order; pReader->capacity = 4096; pReader->idStr = strdup(idstr); pReader->verRange.minVer= pCond->startVersion; pReader->verRange.maxVer = 100000;//pCond->endVersion; // todo for test purpose pReader->type = pCond->type; pReader->window = *pCond->twindows; if (pReader->suid != 0) { pReader->pSchema = metaGetTbTSchema(pReader->pTsdb->pVnode->pMeta, pReader->suid, -1); ASSERT(pReader->pSchema); } // todo remove this setQueryTimewindow(pReader, pCond, 0); if (pCond->numOfCols > 0) { limitOutputBufferSize(pCond, &pReader->capacity); // allocate buffer in order to load data blocks from file pReader->suppInfo.pstatis = taosMemoryCalloc(pCond->numOfCols, sizeof(SColumnDataAgg)); if (pReader->suppInfo.pstatis == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto _end; } pReader->pResBlock = createDataBlock(); for (int32_t i = 0; i < pCond->numOfCols; ++i) { SColumnInfoData colInfo = {{0}, 0}; colInfo.info = pCond->colList[i]; blockDataAppendColInfo(pReader->pResBlock, &colInfo); } blockDataEnsureCapacity(pReader->pResBlock, pReader->capacity); setColumnIdSlotList(pReader, pReader->pResBlock); pReader->suppInfo.plist = taosMemoryCalloc(pCond->numOfCols, POINTER_BYTES); } STsdbFSState* pFState = pReader->pTsdb->fs->cState; initFileIterator(&pReader->status.fileIter, pFState, pReader->idStr); resetDataBlockIterator(&pReader->status.blockIter); // no data in files, let's try buffer in memory if (pReader->status.fileIter.numOfFiles == 0) { pReader->status.loadFromFile = false; } *ppReader = pReader; return code; _end: tsdbReaderClose(pReader); *ppReader = NULL; return code; } // void tsdbResetQueryHandleForNewTable(STsdbReader* queryHandle, SQueryTableDataCond* pCond, STableListInfo* tableList, // int32_t tWinIdx) { // STsdbReader* pTsdbReadHandle = queryHandle; // pTsdbReadHandle->order = pCond->order; // pTsdbReadHandle->window = pCond->twindows[tWinIdx]; // 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; // createDataBlockScanInfo(pTsdbReadHandle, groupList, pMeta, // // &pTable); // if (pTsdbReadHandle->pTableCheckInfo == NULL) { // // tsdbReaderClose(pTsdbReadHandle); // terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; // } // // pTsdbReadHandle->prev = doFreeColumnInfoData(pTsdbReadHandle->prev); // // pTsdbReadHandle->next = doFreeColumnInfoData(pTsdbReadHandle->next); // } // SArray* tsdbGetQueriedTableList(STsdbReader** pHandle) { // assert(pHandle != NULL); // STsdbReader* pTsdbReadHandle = (STsdbReader*)pHandle; // size_t size = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); // SArray* res = taosArrayInit(size, POINTER_BYTES); // return res; // } // static TSKEY extractFirstTraverseKey(STableBlockScanInfo* pCheckInfo, int32_t order, int32_t update, TDRowVerT maxVer) { // TSDBROW row = {0}; // STSRow *rmem = NULL, *rimem = NULL; // if (pCheckInfo->iter) { // if (tsdbTbDataIterGet(pCheckInfo->iter, &row)) { // rmem = row.pTSRow; // } // } // if (pCheckInfo->iiter) { // if (tsdbTbDataIterGet(pCheckInfo->iiter, &row)) { // rimem = row.pTSRow; // } // } // 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 (TD_SUPPORT_UPDATE(update)) { // pCheckInfo->chosen = CHECKINFO_CHOSEN_BOTH; // } else { // pCheckInfo->chosen = CHECKINFO_CHOSEN_IMEM; // tsdbTbDataIterNext(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(STableBlockScanInfo* pCheckInfo, int32_t order, int32_t update, STSRow** extraRow, // TDRowVerT maxVer) { // TSDBROW row; // STSRow *rmem = NULL, *rimem = NULL; // if (pCheckInfo->iter) { // if (tsdbTbDataIterGet(pCheckInfo->iter, &row)) { // rmem = row.pTSRow; // } // } // if (pCheckInfo->iiter) { // if (tsdbTbDataIterGet(pCheckInfo->iiter, &row)) { // rimem = row.pTSRow; // } // } // 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 (TD_SUPPORT_UPDATE(update)) { // pCheckInfo->chosen = CHECKINFO_CHOSEN_BOTH; // *extraRow = rimem; // return rmem; // } else { // tsdbTbDataIterNext(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(STableBlockScanInfo* pCheckInfo) { // bool hasNext = false; // if (pCheckInfo->chosen == CHECKINFO_CHOSEN_MEM) { // if (pCheckInfo->iter != NULL) { // hasNext = tsdbTbDataIterNext(pCheckInfo->iter); // } // if (hasNext) { // return hasNext; // } // if (pCheckInfo->iiter != NULL) { // return tsdbTbDataIterGet(pCheckInfo->iiter, NULL); // } // } else if (pCheckInfo->chosen == CHECKINFO_CHOSEN_IMEM) { // if (pCheckInfo->iiter != NULL) { // hasNext = tsdbTbDataIterNext(pCheckInfo->iiter); // } // if (hasNext) { // return hasNext; // } // if (pCheckInfo->iter != NULL) { // return tsdbTbDataIterGet(pCheckInfo->iter, NULL); // } // } else { // if (pCheckInfo->iter != NULL) { // hasNext = tsdbTbDataIterNext(pCheckInfo->iter); // } // if (pCheckInfo->iiter != NULL) { // hasNext = tsdbTbDataIterNext(pCheckInfo->iiter) || hasNext; // } // } // return hasNext; // } // 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 * tsTickPerMin[precision]); // } // int64_t fid = (int64_t)(key / (daysPerFile * tsTickPerMin[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].maxKey.ts) { // if (numOfBlocks == 2) break; // if ((order == TSDB_ORDER_DESC) && (skey < pBlock[midSlot + 1].minKey.ts)) break; // firstSlot = midSlot + 1; // } else if (skey < pBlock[midSlot].minKey.ts) { // if ((order == TSDB_ORDER_ASC) && (skey > pBlock[midSlot - 1].maxKey.ts)) break; // lastSlot = midSlot - 1; // } else { // break; // got the slot // } // } // return midSlot; // } static int32_t doLoadBlockIndex(STsdbReader* pReader, SDataFReader* pFileReader, SArray* pIndexList) { int32_t code = 0; SArray *aBlockIdx = taosArrayInit(0, sizeof(SBlockIdx)); code = tsdbReadBlockIdx(pFileReader, aBlockIdx, NULL); if (code != TSDB_CODE_SUCCESS) { goto _err; } if (taosArrayGetSize(aBlockIdx) == 0) { taosArrayClear(aBlockIdx); return TSDB_CODE_SUCCESS; } SBlockIdx *pBlockIdx; for (int32_t i = 0; i < taosArrayGetSize(aBlockIdx); ++i) { pBlockIdx = (SBlockIdx *)taosArrayGet(aBlockIdx, i); if (pBlockIdx->suid != pReader->suid) { continue; } // this block belongs to a table that is not queried. void* p = taosHashGet(pReader->status.pTableMap, &pBlockIdx->uid, sizeof(uint64_t)); if (p == NULL) { continue; } if ((ASCENDING_TRAVERSE(pReader->order) && (pBlockIdx->minKey > pReader->window.ekey || pBlockIdx->maxKey < pReader->window.skey)) || (!ASCENDING_TRAVERSE(pReader->order) && (pBlockIdx->minKey > pReader->window.skey || pBlockIdx->maxKey < pReader->window.ekey))) { continue; } STableBlockScanInfo* pScanInfo = p; if (pScanInfo->pBlockList == NULL) { pScanInfo->pBlockList = taosArrayInit(16, sizeof(SBlock)); } pScanInfo->blockIdx = *pBlockIdx; taosArrayPush(pIndexList, pBlockIdx); } taosArrayDestroy(aBlockIdx); return TSDB_CODE_SUCCESS; _err: taosArrayDestroy(aBlockIdx); return code; } static int32_t doLoadFileBlock(STsdbReader* pReader, SArray* pIndexList, uint32_t* numOfValidTables, int32_t* numOfBlocks) { size_t numOfTables = taosArrayGetSize(pIndexList); *numOfValidTables = 0; for(int32_t i = 0; i < numOfTables; ++i) { SBlockIdx* pBlockIdx = taosArrayGet(pIndexList, i); SMapData mapData = {0}; tMapDataReset(&mapData); tsdbReadBlock(pReader->pFileReader, pBlockIdx, &mapData, NULL); STableBlockScanInfo* pScanInfo = taosHashGet(pReader->status.pTableMap, &pBlockIdx->uid, sizeof(int64_t)); taosArrayClear(pScanInfo->pBlockList); for (int32_t j = 0; j < mapData.nItem; ++j) { SBlock block = {0}; int32_t code = tMapDataGetItemByIdx(&mapData, j, &block, tGetBlock); if (code != TSDB_CODE_SUCCESS) { return code; } // 1. time range check if ((ASCENDING_TRAVERSE(pReader->order) && (block.minKey.ts > pReader->window.ekey || block.maxKey.ts < pReader->window.skey)) || (!ASCENDING_TRAVERSE(pReader->order) && (block.minKey.ts > pReader->window.skey || block.maxKey.ts < pReader->window.ekey))) { continue; } // 2. version range check if (block.minVersion > pReader->verRange.maxVer || block.maxVersion < pReader->verRange.minVer) { continue; } void* p = taosArrayPush(pScanInfo->pBlockList, &block); if (p == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } (*numOfBlocks) += 1; } if (pScanInfo->pBlockList != NULL && taosArrayGetSize(pScanInfo->pBlockList) > 0) { (*numOfValidTables) += 1; } } return TSDB_CODE_SUCCESS; } static void setBlockDumpCompleted(SFileBlockDumpInfo* pDumpInfo, SBlock* pBlock, int32_t order) { int32_t step = ASCENDING_TRAVERSE(order)? 1:-1; pDumpInfo->rowIndex = pBlock->nRow; pDumpInfo->totalRows = pBlock->nRow; pDumpInfo->lastKey = pBlock->maxKey.ts + step; } static void doCopyColVal(SColumnInfoData* pColInfoData, int32_t rowIndex, int32_t colIndex, SColVal* pColVal, SBlockLoadSuppInfo* pSup) { if (IS_VAR_DATA_TYPE(pColVal->type)) { if (pColVal->isNull) { colDataAppendNULL(pColInfoData, rowIndex); } else { varDataSetLen(pSup->buildBuf[colIndex], pColVal->value.nData); memcpy(varDataVal(pSup->buildBuf[colIndex]), pColVal->value.pData, pColVal->value.nData); colDataAppend(pColInfoData, rowIndex, pSup->buildBuf[colIndex], false); } } else { colDataAppend(pColInfoData, rowIndex, (const char*)&pColVal->value, pColVal->isNull); } } static int32_t doLoadFileBlockData(STsdbReader* pReader, SDataBlockIter* pBlockIter, STableBlockScanInfo* pBlockScanInfo, SBlockData* pBlockData) { int64_t st = taosGetTimestampUs(); SFileDataBlockInfo* pFBlock = getCurrentBlockInfo(pBlockIter); SBlock* pBlock = taosArrayGet(pBlockScanInfo->pBlockList, pFBlock->tbBlockIdx); SSDataBlock* pResBlock = pReader->pResBlock; int32_t numOfCols = blockDataGetNumOfCols(pResBlock); SBlockLoadSuppInfo* pSupInfo = &pReader->suppInfo; uint8_t *pb = NULL, *pb1 = NULL; int32_t code = tsdbReadColData(pReader->pFileReader, &pBlockScanInfo->blockIdx, pBlock, pSupInfo->colIds, numOfCols, pBlockData, &pb, &pb1); if (code != TSDB_CODE_SUCCESS) { goto _error; } SColVal cv = {0}; int32_t colIndex = 0; for (int32_t i = 0; i < numOfCols && colIndex < taosArrayGetSize(pBlockData->aColDataP); ++i) { SColumnInfoData* pColData = taosArrayGet(pResBlock->pDataBlock, i); if (pColData->info.colId == PRIMARYKEY_TIMESTAMP_COL_ID) { for (int32_t j = 0; j < pBlockData->nRow; ++j) { colDataAppend(pColData, j, (const char*)&pBlockData->aTSKEY[j], false); } } else { SColData* pData = (SColData*)taosArrayGetP(pBlockData->aColDataP, colIndex); if (pData->cid == pColData->info.colId) { for (int32_t j = 0; j < pBlockData->nRow; ++j) { tColDataGetValue(pData, j, &cv); doCopyColVal(pColData, j, i, &cv, pSupInfo); } colIndex += 1; } else { // the specified column does not exist in file block, fill with null data colDataAppendNNULL(pColData, 0, pBlockData->nRow); } } } pResBlock->info.rows = pBlockData->nRow; setBlockDumpCompleted(&pReader->status.fBlockDumpInfo, pBlock, pReader->order); int64_t elapsedTime = (taosGetTimestampUs() - st); pReader->cost.blockLoadTime += elapsedTime; tsdbDebug("%p load file block into buffer, global index:%d, table index:%d, brange:%" PRId64 "-%" PRId64 ", rows:%d, minVer:%" PRId64 ", maxVer:%" PRId64 ", elapsed time:%" PRId64 " us, %s", pReader, pBlockIter->index, pFBlock->tbBlockIdx, pBlock->minKey.ts, pBlock->maxKey.ts, pBlockData->nRow, pBlock->minVersion, pBlock->maxVersion, elapsedTime, pReader->idStr); return TSDB_CODE_SUCCESS; _error: tsdbError("%p error occurs in loading file block, global index:%d, table index:%d, brange:%" PRId64 "-%" PRId64 ", rows:%d, %s", pReader, pBlockIter->index, pFBlock->tbBlockIdx, pBlock->minKey.ts, pBlock->maxKey.ts, pBlock->nRow, pReader->idStr); return code; } // static int32_t handleDataMergeIfNeeded(STsdbReader* pTsdbReadHandle, SBlock* pBlock, STableBlockScanInfo* 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))) { // bool cacheDataInFileBlockHole = (ascScan && (key != TSKEY_INITIAL_VAL && key < binfo.window.skey)) || // (!ascScan && (key != TSKEY_INITIAL_VAL && key > binfo.window.ekey)); // if (cacheDataInFileBlockHole) { // // do not load file block into buffer // int32_t step = ascScan ? 1 : -1; // TSKEY maxKey = ascScan ? (binfo.window.skey - step) : (binfo.window.ekey - step); // cur->rows = // buildInmemDataBlockImpl(pCheckInfo, maxKey, pTsdbReadHandle->outputCapacity, &cur->win, pTsdbReadHandle); // pTsdbReadHandle->realNumOfRows = cur->rows; // // update the last key value // pCheckInfo->lastKey = cur->win.ekey + step; // if (!ascScan) { // TSWAP(cur->win.skey, cur->win.ekey); // } // cur->mixBlock = true; // cur->blockCompleted = false; // return code; // } // // return error, add test cases // if ((code = doLoadFileBlockData(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 // */ // int32_t endPos = getEndPosInDataBlock(pTsdbReadHandle, &binfo); // bool wholeBlockReturned = ((abs(cur->pos - endPos) + 1) == binfo.rows); // if (wholeBlockReturned) { // 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 // // make sure to only load once // bool firstTimeExtract = ((cur->pos == 0 && ascScan) || (cur->pos == binfo.rows - 1 && (!ascScan))); // if (pTsdbReadHandle->outputCapacity < binfo.rows && firstTimeExtract) { // code = doLoadFileBlockData(pTsdbReadHandle, pBlock, pCheckInfo, cur->slot); // if (code != TSDB_CODE_SUCCESS) { // return code; // } // } // copyAllRemainRowsFromFileBlock(pTsdbReadHandle, pCheckInfo, &binfo, endPos); // cur->mixBlock = true; // } // if (pTsdbReadHandle->outputCapacity >= binfo.rows) { // ASSERT(cur->blockCompleted || cur->mixBlock); // } // 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 loadFileDataBlock(STsdbReader* pTsdbReadHandle, SBlock* pBlock, STableBlockScanInfo* 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->maxKey.ts || pCheckInfo->lastKey > pBlock->minKey.ts) { // if ((code = doLoadFileBlockData(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->minKey.ts) { // cur->pos = // binarySearchForKey(pTSCol->cols[0].pData, pBlock->numOfRows, pCheckInfo->lastKey, // pTsdbReadHandle->order); // } else { // cur->pos = 0; // } // assert(pCheckInfo->lastKey <= pBlock->maxKey.ts); // 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->minKey.ts || pCheckInfo->lastKey < pBlock->maxKey.ts) { // if ((code = doLoadFileBlockData(pTsdbReadHandle, pBlock, pCheckInfo, cur->slot)) != TSDB_CODE_SUCCESS) { // *exists = false; // return code; // } // SDataCols* pTsCol = pTsdbReadHandle->rhelper.pDCols[0]; // if (pCheckInfo->lastKey < pBlock->maxKey.ts) { // cur->pos = // binarySearchForKey(pTsCol->cols[0].pData, pBlock->numOfRows, pCheckInfo->lastKey, // pTsdbReadHandle->order); // } else { // cur->pos = pBlock->numOfRows - 1; // } // assert(pCheckInfo->lastKey >= pBlock->minKey.ts); // 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(STsdbReader* 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; // } // static int32_t mergeTwoRowFromMem(STsdbReader* 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)); // } // #ifdef TD_DEBUG_PRINT_ROW // char flags[70] = {0}; // STsdb* pTsdb = pTsdbReadHandle->rhelper.pRepo; // snprintf(flags, 70, "%s:%d vgId:%d dir:%s row1%s=NULL,row2%s=NULL", __func__, __LINE__, TD_VID(pTsdb->pVnode), // pTsdb->dir, row1 ? "!" : "", row2 ? "!" : ""); // tdSRowPrint(row1, pSchema1, flags); // #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)); // } // 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); // } // *lastRowKey = rowKey; // ++nResult; // } else if (update) { // mergeOption = 2; // } else { // mergeOption = 0; // break; // } // } // } 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); // } // *lastRowKey = rowKey; // ++nResult; // } else if (update) { // mergeOption = 2; // } else { // mergeOption = 0; // break; // } // } 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 getQualifiedRowsPos(STsdbReader* 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(STsdbReader* pTsdbReadHandle, STableBlockScanInfo* 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(STsdbReader* 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(STsdbReader* pTsdbReadHandle, STableBlockScanInfo* pCheckInfo, // SDataBlockInfo* pBlockInfo, int32_t endPos) { // SQueryFilePos* cur = &pTsdbReadHandle->cur; // SDataCols* pCols = pTsdbReadHandle->rhelper.pDCols[0]; // TSKEY* tsArray = pCols->cols[0].pData; // bool ascScan = ASCENDING_TRAVERSE(pTsdbReadHandle->order); // int32_t step = ascScan ? 1 : -1; // int32_t start = cur->pos; // int32_t end = endPos; // if (!ascScan) { // 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 = (ascScan ? (endPos == pBlockInfo->rows - 1) : (endPos == 0)); // // The value of pos may be -1 or pBlockInfo->rows, and it is invalid in both cases. // int32_t 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(STsdbReader* pTsdbReadHandle, SDataBlockInfo* pBlockInfo) { // // NOTE: reverse the order to find the end position in data block // int32_t endPos = -1; // bool ascScan = ASCENDING_TRAVERSE(pTsdbReadHandle->order); // int32_t order = ascScan ? TSDB_ORDER_DESC : TSDB_ORDER_ASC; // SQueryFilePos* cur = &pTsdbReadHandle->cur; // SDataCols* pCols = pTsdbReadHandle->rhelper.pDCols[0]; // if (pTsdbReadHandle->outputCapacity >= pBlockInfo->rows) { // if (ascScan && pTsdbReadHandle->window.ekey >= pBlockInfo->window.ekey) { // endPos = pBlockInfo->rows - 1; // cur->mixBlock = (cur->pos != 0); // } else if ((!ascScan) && 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; // } // } else { // if (ascScan && pTsdbReadHandle->window.ekey >= pBlockInfo->window.ekey) { // endPos = TMIN(cur->pos + pTsdbReadHandle->outputCapacity - 1, pBlockInfo->rows - 1); // } else if ((!ascScan) && pTsdbReadHandle->window.ekey <= pBlockInfo->window.skey) { // endPos = TMAX(cur->pos - pTsdbReadHandle->outputCapacity + 1, 0); // } else { // ASSERT(pCols->numOfRows > 0); // endPos = doBinarySearchKey(pCols->cols[0].pData, pCols->numOfRows, pTsdbReadHandle->window.ekey, order); // // current data is more than the capacity // int32_t size = abs(cur->pos - endPos) + 1; // if (size > pTsdbReadHandle->outputCapacity) { // int32_t delta = size - pTsdbReadHandle->outputCapacity; // if (ascScan) { // endPos -= delta; // } else { // endPos += delta; // } // } // } // 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(STsdbReader* pTsdbReadHandle, STableBlockScanInfo* 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); // // Even Multi-Version supported, the records with duplicated TSKEY would be merged inside of tsdbLoadData // interface. TSKEY* tsArray = pCols->cols[0].pData; assert(pCols->numOfRows == pBlock->numOfRows && tsArray[0] == // pBlock->minKey.ts && // tsArray[pBlock->numOfRows - 1] == pBlock->maxKey.ts); // bool ascScan = ASCENDING_TRAVERSE(pTsdbReadHandle->order); // int32_t step = ascScan ? 1 : -1; // // for search the endPos, so the order needs to reverse // int32_t order = ascScan ? TSDB_ORDER_DESC : TSDB_ORDER_ASC; // int32_t numOfCols = (int32_t)(QH_GET_NUM_OF_COLS(pTsdbReadHandle)); // int32_t endPos = getEndPosInDataBlock(pTsdbReadHandle, &blockInfo); // STimeWindow* pWin = &blockInfo.window; // tsdbDebug("%p uid:%" PRIu64 " start merge data block, file block range:%" PRIu64 "-%" PRIu64 // " rows:%d, start:%d, end:%d, %s", // pTsdbReadHandle, pCheckInfo->tableId, pWin->skey, pWin->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; // bool adjustPos = false; // // 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 && ascScan) || (key < pTsdbReadHandle->window.ekey && !ascScan)) { // break; // } // if (adjustPos) { // if (key == lastKeyAppend) { // pos -= step; // } // adjustPos = false; // } // if (((pos > endPos || tsArray[pos] > pTsdbReadHandle->window.ekey) && ascScan) || // ((pos < endPos || tsArray[pos] < pTsdbReadHandle->window.ekey) && !ascScan)) { // break; // } // if ((key < tsArray[pos] && ascScan) || (key > tsArray[pos] && !ascScan)) { // 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); // 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 (TD_SUPPORT_UPDATE(pCfg->update)) { // if (lastKeyAppend != key) { // if (lastKeyAppend != TSKEY_INITIAL_VAL) { // ++curRow; // } // lastKeyAppend = key; // } // // load data from file firstly // numOfRows = doCopyRowsFromFileBlock(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, curRow, pos, pos); // if (rv1 != TD_ROW_SVER(row1)) { // rv1 = TD_ROW_SVER(row1); // } // if (row2 && rv2 != TD_ROW_SVER(row2)) { // rv2 = TD_ROW_SVER(row2); // } // // still assign data into current row // numOfRows += // mergeTwoRowFromMem(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, &curRow, row1, row2, numOfCols, // pCheckInfo->tableId, pSchema1, pSchema2, pCfg->update, &lastKeyAppend); // 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; // adjustPos = true; // } else { // // discard the memory record // moveToNextRowInMem(pCheckInfo); // } // } else if ((key > tsArray[pos] && ascScan) || (key < tsArray[pos] && !ascScan)) { // 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); // if ((lastKeyAppend != TSKEY_INITIAL_VAL) && (lastKeyAppend != (ascScan ? tsArray[qstart] : tsArray[qend]))) { // ++curRow; // } // numOfRows = doCopyRowsFromFileBlock(pTsdbReadHandle, pTsdbReadHandle->outputCapacity, curRow, qstart, qend); // pos += (qend - qstart + 1) * step; // if (numOfRows > 0) { // curRow = numOfRows - 1; // } // cur->win.ekey = ascScan ? tsArray[qend] : tsArray[qstart]; // cur->lastKey = cur->win.ekey + step; // lastKeyAppend = cur->win.ekey; // } // } 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) && ascScan) // || // ((TD_ROW_KEY((STSRow*)SL_GET_NODE_DATA(node)) < pTsdbReadHandle->window.ekey) && !ascScan)) { // // 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 = ascScan ? tsArray[end] : tsArray[start]; // cur->lastKey = cur->win.ekey + step; // cur->mixBlock = true; // } // } // } // cur->blockCompleted = (((pos > endPos || cur->lastKey > pTsdbReadHandle->window.ekey) && ascScan) || // ((pos < endPos || cur->lastKey < pTsdbReadHandle->window.ekey) && !ascScan)); // if (!ascScan) { // TSWAP(cur->win.skey, cur->win.ekey); // } // 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 cleanupBlockOrderSupporter(SBlockOrderSupporter* pSup) { taosMemoryFreeClear(pSup->numOfBlocksPerTable); taosMemoryFreeClear(pSup->indexPerTable); for (int32_t i = 0; i < pSup->numOfTables; ++i) { SBlockOrderWrapper* pBlockInfo = pSup->pDataBlockInfo[i]; taosMemoryFreeClear(pBlockInfo); } taosMemoryFreeClear(pSup->pDataBlockInfo); } static int32_t initBlockOrderSupporter(SBlockOrderSupporter* pSup, int32_t numOfTables) { ASSERT(numOfTables >= 1); pSup->numOfBlocksPerTable = taosMemoryCalloc(1, sizeof(int32_t) * numOfTables); pSup->indexPerTable = taosMemoryCalloc(1, sizeof(int32_t) * numOfTables); pSup->pDataBlockInfo = taosMemoryCalloc(1, POINTER_BYTES * numOfTables); if (pSup->numOfBlocksPerTable == NULL || pSup->indexPerTable == NULL || pSup->pDataBlockInfo == NULL) { cleanupBlockOrderSupporter(pSup); return TSDB_CODE_OUT_OF_MEMORY; } return TSDB_CODE_SUCCESS; } static int32_t fileDataBlockOrderCompar(const void* pLeft, const void* pRight, void* param) { int32_t leftIndex = *(int32_t*)pLeft; int32_t rightIndex = *(int32_t*)pRight; SBlockOrderSupporter* pSupporter = (SBlockOrderSupporter*)param; int32_t leftTableBlockIndex = pSupporter->indexPerTable[leftIndex]; int32_t rightTableBlockIndex = pSupporter->indexPerTable[rightIndex]; if (leftTableBlockIndex > pSupporter->numOfBlocksPerTable[leftIndex]) { /* left block is empty */ return 1; } else if (rightTableBlockIndex > pSupporter->numOfBlocksPerTable[rightIndex]) { /* right block is empty */ return -1; } SBlockOrderWrapper* pLeftBlock = &pSupporter->pDataBlockInfo[leftIndex][leftTableBlockIndex]; SBlockOrderWrapper* pRightBlock = &pSupporter->pDataBlockInfo[rightIndex][rightTableBlockIndex]; return pLeftBlock->pBlock->aSubBlock[0].offset > pRightBlock->pBlock->aSubBlock[0].offset ? 1 : -1; } static int32_t initBlockIterator(STsdbReader* pReader, SDataBlockIter* pBlockIter, int32_t numOfBlocks) { pBlockIter->numOfBlocks = numOfBlocks; // access data blocks according to the offset of each block in asc/desc order. int32_t numOfTables = (int32_t)taosHashGetSize(pReader->status.pTableMap); SBlockOrderSupporter sup = {0}; int32_t code = initBlockOrderSupporter(&sup, numOfTables); if (code != TSDB_CODE_SUCCESS) { return code; } int32_t cnt = 0; void* ptr = NULL; while(1) { ptr = taosHashIterate(pReader->status.pTableMap, ptr); if (ptr == NULL) { break; } STableBlockScanInfo* pTableScanInfo = (STableBlockScanInfo*)ptr; if (pTableScanInfo->pBlockList == NULL || taosArrayGetSize(pTableScanInfo->pBlockList) == 0) { continue; } size_t num = taosArrayGetSize(pTableScanInfo->pBlockList); sup.numOfBlocksPerTable[sup.numOfTables] = num; char* buf = taosMemoryMalloc(sizeof(SBlockOrderWrapper) * num); if (buf == NULL) { cleanupBlockOrderSupporter(&sup); return TSDB_CODE_TDB_OUT_OF_MEMORY; } sup.pDataBlockInfo[sup.numOfTables] = (SBlockOrderWrapper*)buf; for (int32_t k = 0; k < num; ++k) { SBlockOrderWrapper wrapper = {0}; wrapper.pBlock = (SBlock*)taosArrayGet(pTableScanInfo->pBlockList, k); wrapper.uid = pTableScanInfo->uid; sup.pDataBlockInfo[sup.numOfTables][k] = wrapper; cnt++; } sup.numOfTables += 1; } ASSERT(numOfBlocks == cnt); // since there is only one table qualified, blocks are not sorted if (sup.numOfTables == 1) { for(int32_t i = 0; i < numOfBlocks; ++i) { SFileDataBlockInfo blockInfo = {.uid = sup.pDataBlockInfo[0][i].uid, .tbBlockIdx = i}; taosArrayPush(pBlockIter->blockList, &blockInfo); } tsdbDebug("%p create blocks info struct completed for one table, %d blocks not sorted %s", pReader, cnt, pReader->idStr); pBlockIter->index = 0; return TSDB_CODE_SUCCESS; } tsdbDebug("%p create data blocks info struct completed, %d blocks in %d tables %s", pReader, cnt, sup.numOfTables, pReader->idStr); assert(cnt <= numOfBlocks && sup.numOfTables <= numOfTables); // the pTableQueryInfo[j]->numOfBlocks may be 0 SMultiwayMergeTreeInfo* pTree = NULL; uint8_t ret = tMergeTreeCreate(&pTree, sup.numOfTables, &sup, fileDataBlockOrderCompar); if (ret != TSDB_CODE_SUCCESS) { cleanupBlockOrderSupporter(&sup); return TSDB_CODE_TDB_OUT_OF_MEMORY; } int32_t numOfTotal = 0; while (numOfTotal < cnt) { int32_t pos = tMergeTreeGetChosenIndex(pTree); int32_t index = sup.indexPerTable[pos]++; SFileDataBlockInfo blockInfo = {.uid = sup.pDataBlockInfo[pos][index].uid, .tbBlockIdx = index}; taosArrayPush(pBlockIter->blockList, &blockInfo); // set data block index overflow, in order to disable the offset comparator if (sup.indexPerTable[pos] >= sup.numOfBlocksPerTable[pos]) { sup.indexPerTable[pos] = sup.numOfBlocksPerTable[pos] + 1; } numOfTotal += 1; tMergeTreeAdjust(pTree, tMergeTreeGetAdjustIndex(pTree)); } tsdbDebug("%p %d data blocks sort completed, %s", pReader, cnt, pReader->idStr); cleanupBlockOrderSupporter(&sup); taosMemoryFree(pTree); pBlockIter->index = 0; return TSDB_CODE_SUCCESS; } static bool blockIteratorNext(SDataBlockIter* pBlockIter) { if (pBlockIter->index >= pBlockIter->numOfBlocks - 1) { return false; } pBlockIter->index += 1; return true; } // static int32_t getFirstFileDataBlock(STsdbReader* pTsdbReadHandle, bool* exists); //static int32_t getDataBlock(STsdbReader* pTsdbReadHandle, SFileBlockInfo* 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(STsdbReader* 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; // SFileBlockInfo* pBlockInfo = &pTsdbReadHandle->pDataBlockInfo[cur->slot]; // return getDataBlock(pTsdbReadHandle, pBlockInfo, exists); // } // static int32_t getBucketIndex(int32_t startRow, int32_t bucketRange, int32_t numOfRows) { // return (numOfRows - startRow) / bucketRange; // } // query ended in/started from current block static int32_t dataBlockPartialRequired(STimeWindow* pWindow, SBlock* pBlock) { return ((pWindow->ekey < pBlock->maxKey.ts && pWindow->ekey >= pBlock->minKey.ts) || (pWindow->skey <= pBlock->maxKey.ts && pWindow->skey > pBlock->minKey.ts)); } static SFileDataBlockInfo* getCurrentBlockInfo(SDataBlockIter* pBlockIter) { SFileDataBlockInfo* pFBlockInfo = taosArrayGet(pBlockIter->blockList, pBlockIter->index); return pFBlockInfo; } static bool overlapWithNeighborBlock(SFileDataBlockInfo *pFBlockInfo, SBlock* pBlock, STableBlockScanInfo* pTableBlockScanInfo) { // it is the last block in current file, no chance to overlap with neighbor blocks. if(pFBlockInfo->tbBlockIdx == taosArrayGetSize(pTableBlockScanInfo->pBlockList) - 1) { // last block in current file, return false; } SBlock* pNext = taosArrayGet(pTableBlockScanInfo->pBlockList, pFBlockInfo->tbBlockIdx + 1); return (pNext->minKey.ts == pBlock->maxKey.ts); } static bool bufferDataInFileBlockGap(int32_t order, TSDBKEY key, SBlock* pBlock) { bool ascScan = ASCENDING_TRAVERSE(order); return (ascScan && (key.ts != TSKEY_INITIAL_VAL && key.ts <= pBlock->minKey.ts)) || (!ascScan && (key.ts != TSKEY_INITIAL_VAL && key.ts >= pBlock->maxKey.ts)); } static bool keyOverlapFileBlock(TSDBKEY key, SBlock* pBlock, SVersionRange* pVerRange) { return (key.ts >= pBlock->minKey.ts && key.ts <= pBlock->maxKey.ts) && (pBlock->maxVersion >= pVerRange->minVer) && (pBlock->minVersion <= pVerRange->maxVer); } static bool fileBlockShouldLoad(STsdbReader* pReader, SFileDataBlockInfo *pFBlock, SBlock* pBlock, STableBlockScanInfo *pScanInfo, TSDBKEY key) { return (dataBlockPartialRequired(&pReader->window, pBlock) || overlapWithNeighborBlock(pFBlock, pBlock, pScanInfo) || keyOverlapFileBlock(key, pBlock, &pReader->verRange)); } static int32_t buildInmemDataBlock(STsdbReader* pReader, STableBlockScanInfo* pBlockScanInfo, TSDBKEY *key) { if (!(pBlockScanInfo->imemHasVal || pBlockScanInfo->memHasVal)) { return TSDB_CODE_SUCCESS; } SSDataBlock* pBlock = pReader->pResBlock; int64_t st = taosGetTimestampUs(); int32_t code = buildInmemDataBlockImpl(pBlockScanInfo, *key, pReader->capacity, pReader); int64_t elapsedTime = taosGetTimestampUs() - st; tsdbDebug("%p build data block from cache completed, elapsed time:%" PRId64 " us, numOfRows:%d, numOfCols:%d, %s", pReader, elapsedTime, pBlock->info.rows, (int32_t)blockDataGetNumOfCols(pBlock), pReader->idStr); pBlock->info.uid = pBlockScanInfo->uid; setComposedBlockFlag(pReader, true); return code; } static int32_t buildComposedDataBlockImpl(STsdbReader* pReader, SFileDataBlockInfo* pFBlock, SBlock* pBlock, STableBlockScanInfo* pBlockScanInfo) { SFileBlockDumpInfo *pDumpInfo = &pReader->status.fBlockDumpInfo; SBlockData* pBlockData = &pReader->status.fileBlockData; SRowMerger merge = {0}; STSRow* pTSRow = NULL; TSKEY mergeTs = TSKEY_INITIAL_VAL; int64_t key = pBlockData->aTSKEY[pDumpInfo->rowIndex]; TSDBROW* pRow = getValidRow(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, pReader); TSDBROW* piRow = getValidRow(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, pReader); if (pBlockScanInfo->memHasVal && pBlockScanInfo->imemHasVal) { TSDBKEY k = TSDBROW_KEY(pRow); TSDBKEY ik = TSDBROW_KEY(piRow); // [1&2] key <= [k.ts|ik.ts] if (key <= k.ts || key <= ik.ts) { TSDBROW fRow = tsdbRowFromBlockData(pBlockData, pDumpInfo->rowIndex); tRowMergerInit(&merge, &fRow, pReader->pSchema); doLoadRowsOfIdenticalTsInFileBlock(pFBlock, pBlock, pBlockData, pBlockScanInfo, pReader, &merge); if (ik.ts == mergeTs) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, ik.ts, &merge, pReader); } if (k.ts == mergeTs) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); } tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); } else { // [3] ik.ts < key <= k.ts if (ik.ts < k.ts) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, ik.ts, &merge, pReader); tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } // [4] k.ts < key <= ik.ts if (k.ts < ik.ts) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } // [5] k.ts == ik.ts < key if (k.ts == ik.ts) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, ik.ts, &merge, pReader); tRowMergerGetRow(&merge, &pTSRow); if (k.ts == mergeTs) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); } tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } // [6] k.ts < ik.ts < key if (k.ts < ik.ts) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } // [6] ik.ts < k.ts < key if (ik.ts < k.ts) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, ik.ts, &merge, pReader); tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } } } else if (pBlockScanInfo->imemHasVal) { TSDBKEY ik = TSDBROW_KEY(piRow); if (key <= ik.ts) { TSDBROW fRow = tsdbRowFromBlockData(pBlockData, pDumpInfo->rowIndex); tRowMergerInit(&merge, &fRow, pReader->pSchema); doLoadRowsOfIdenticalTsInFileBlock(pFBlock, pBlock, pBlockData, pBlockScanInfo, pReader, &merge); if (ik.ts == mergeTs) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, ik.ts, &merge, pReader); } tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } if (ik.ts < key) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, ik.ts, &merge, pReader); tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } } else { // pBlockScanInfo->memHasVal != NULL TSDBKEY k = TSDBROW_KEY(pRow); if (key <= k.ts) { TSDBROW fRow = tsdbRowFromBlockData(pBlockData, pDumpInfo->rowIndex); tRowMergerInit(&merge, &fRow, pReader->pSchema); doLoadRowsOfIdenticalTsInFileBlock(pFBlock, pBlock, pBlockData, pBlockScanInfo, pReader, &merge); if (k.ts == mergeTs) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); } tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } if (k.ts < key) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); tRowMergerGetRow(&merge, &pTSRow); doAppendOneRow(pReader->pResBlock, pReader, pTSRow); return TSDB_CODE_SUCCESS; } } return TSDB_CODE_SUCCESS; } static int32_t buildComposedDataBlock(STsdbReader* pReader, SFileDataBlockInfo* pFBlock, SBlock* pBlock, STableBlockScanInfo* pBlockScanInfo) { SSDataBlock* pResBlock = pReader->pResBlock; while(1) { buildComposedDataBlockImpl(pReader, pFBlock, pBlock, pBlockScanInfo); SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo; SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(&pReader->status.blockIter); if (pBlockInfo->tbBlockIdx == pFBlock->tbBlockIdx) { // still in the same file block now if (pDumpInfo->rowIndex >= pBlock->nRow) { break; } if (pResBlock->info.rows >= pReader->capacity) { break; } } else { // todo traverse to next file due to time window overlap if (pResBlock->info.rows >= pReader->capacity) { ASSERT(0); return TSDB_CODE_SUCCESS; } } } pResBlock->info.uid = pBlockScanInfo->uid; setComposedBlockFlag(pReader, true); return TSDB_CODE_SUCCESS; } void setComposedBlockFlag(STsdbReader* pReader, bool composed) { pReader->status.composedDataBlock = composed; } static int32_t initMemIterator(STableBlockScanInfo* pBlockScanInfo, STsdbReader* pReader) { if (pBlockScanInfo->iterInit) { return TSDB_CODE_SUCCESS; } int32_t code = TSDB_CODE_SUCCESS; TSDBKEY startKey = {.ts = pReader->window.skey, .version = pReader->verRange.minVer}; STbData* d = NULL; if (pReader->pTsdb->mem != NULL) { tsdbGetTbDataFromMemTable(pReader->pTsdb->mem, pReader->suid, pBlockScanInfo->uid, &d); if (d != NULL) { code = tsdbTbDataIterCreate(d, &startKey, 0, &pBlockScanInfo->iter); if (code == TSDB_CODE_SUCCESS) { pBlockScanInfo->memHasVal = (tsdbTbDataIterGet(pBlockScanInfo->iter) != NULL); tsdbDebug("%p uid:%" PRId64 ", check data in mem from skey:%" PRId64 ", order:%d, ts range in buf:%" PRId64 "-%" PRId64 " %s", pReader, pBlockScanInfo->uid, pReader->window.skey, pReader->order, d->minKey, d->maxKey, pReader->idStr); } else { tsdbError("%p uid:%" PRId64 ", failed to create iterator for imem, code:%s, %s", pReader, pBlockScanInfo->uid, tstrerror(code), pReader->idStr); return code; } } } else { tsdbDebug("%p uid:%" PRId64 ", no data in mem, %s", pReader, pBlockScanInfo->uid, pReader->idStr); } STbData* di = NULL; if (pReader->pTsdb->imem != NULL) { tsdbGetTbDataFromMemTable(pReader->pTsdb->imem, pReader->suid, pBlockScanInfo->uid, &di); if (di != NULL) { code = tsdbTbDataIterCreate(di, &startKey, 0, &pBlockScanInfo->iiter); if (code == TSDB_CODE_SUCCESS) { pBlockScanInfo->imemHasVal = (tsdbTbDataIterGet(pBlockScanInfo->iiter) != NULL); tsdbDebug("%p uid:%" PRId64 ", check data in imem from skey:%" PRId64 ", order:%d, ts range in buf:%" PRId64 "-%" PRId64 " %s", pReader, pBlockScanInfo->uid, pReader->window.skey, pReader->order, di->minKey, di->maxKey, pReader->idStr); } else { tsdbError("%p uid:%" PRId64 ", failed to create iterator for mem, code:%s, %s", pReader, pBlockScanInfo->uid, tstrerror(code), pReader->idStr); return code; } } } else { tsdbDebug("%p uid:%" PRId64 ", no data in imem, %s", pReader, pBlockScanInfo->uid, pReader->idStr); } pBlockScanInfo->iterInit = true; return TSDB_CODE_SUCCESS; } static TSDBKEY getCurrentKeyInBuf(SDataBlockIter* pBlockIter, STsdbReader* pReader) { TSDBKEY key = {.ts = TSKEY_INITIAL_VAL}; SFileDataBlockInfo* pFBlock = getCurrentBlockInfo(pBlockIter); STableBlockScanInfo* pScanInfo = taosHashGet(pReader->status.pTableMap, &pFBlock->uid, sizeof(pFBlock->uid)); initMemIterator(pScanInfo, pReader); if (pScanInfo->memHasVal) { TSDBROW* pRow = getValidRow(pScanInfo->iter, &pScanInfo->memHasVal, pReader); key = TSDBROW_KEY(pRow); } if (pScanInfo->imemHasVal) { TSDBROW* pRow = getValidRow(pScanInfo->iiter, &pScanInfo->imemHasVal, pReader); TSDBKEY k = TSDBROW_KEY(pRow); if (key.ts > k.ts) { key = k; } } return key; } static int32_t moveToNextFile(STsdbReader* pReader, int32_t* numOfBlocks) { SReaderStatus* pStatus = &pReader->status; while (1) { bool hasNext = filesetIteratorNext(&pStatus->fileIter, pReader->order, pReader); if (!hasNext) { // no data files on disk break; } SArray* pIndexList = taosArrayInit(4, sizeof(SBlockIdx)); int32_t code = doLoadBlockIndex(pReader, pReader->pFileReader, pIndexList); if (code != TSDB_CODE_SUCCESS) { return code; } if (taosArrayGetSize(pIndexList) > 0) { uint32_t numOfValidTable = 0; code = doLoadFileBlock(pReader, pIndexList, &numOfValidTable, numOfBlocks); if (code != TSDB_CODE_SUCCESS) { return code; } if (numOfValidTable > 0) { break; } } // no blocks in current file, try next files } return TSDB_CODE_SUCCESS; } static int32_t doBuildDataBlock(STsdbReader* pReader) { int32_t code = TSDB_CODE_SUCCESS; SReaderStatus* pStatus = &pReader->status; SDataBlockIter* pBlockIter = &pStatus->blockIter; SFileDataBlockInfo* pFBlock = getCurrentBlockInfo(pBlockIter); STableBlockScanInfo* pScanInfo = taosHashGet(pReader->status.pTableMap, &pFBlock->uid, sizeof(pFBlock->uid)); SBlock* pBlock = taosArrayGet(pScanInfo->pBlockList, pFBlock->tbBlockIdx); TSDBKEY key = getCurrentKeyInBuf(pBlockIter, pReader); if (fileBlockShouldLoad(pReader, pFBlock, pBlock, pScanInfo, key)) { SBlockData data = {0}; tBlockDataInit(&data); code = doLoadFileBlockData(pReader, pBlockIter, pScanInfo, &data); if (code != TSDB_CODE_SUCCESS) { return code; } // build composed data block code = buildComposedDataBlock(pReader, pFBlock, pBlock, pScanInfo); if (code != TSDB_CODE_SUCCESS) { return code; } } else if (bufferDataInFileBlockGap(pReader->order, key, pBlock)) { // data in memory that are earlier than current file block TSDBKEY maxKey = {.ts = pReader->window.ekey, .version = pReader->verRange.maxVer}; code = buildInmemDataBlock(pReader, pScanInfo, &maxKey); // build data block from in-memory buffer data completed. } else { // whole block is required, return it directly // todo // 1. the version of all rows should be less than the endVersion // 2. current block should not overlap with next neighbor block // 3. current timestamp should not be overlap with each other SDataBlockInfo* pInfo = &pReader->pResBlock->info; pInfo->rows = pBlock->nRow; pInfo->uid = pScanInfo->uid; pInfo->window = (STimeWindow) {.skey = pBlock->minKey.ts, .ekey = pBlock->maxKey.ts}; setComposedBlockFlag(pReader, false); setBlockDumpCompleted(&pStatus->fBlockDumpInfo, pBlock, pReader->order); } return code; } static int32_t buildBlockFromBufferSequentially(STsdbReader* pReader) { SReaderStatus* pStatus = &pReader->status; while(1) { if (pStatus->pTableIter == NULL) { pStatus->pTableIter = taosHashIterate(pStatus->pTableMap, NULL); if (pStatus->pTableIter == NULL) { return TSDB_CODE_SUCCESS; } } STableBlockScanInfo* pBlockScanInfo = pStatus->pTableIter; initMemIterator(pBlockScanInfo, pReader); TSDBKEY maxKey = {.ts = pReader->window.ekey, .version = pReader->verRange.maxVer}; int32_t code = buildInmemDataBlock(pReader, pBlockScanInfo, &maxKey); if (code != TSDB_CODE_SUCCESS) { return code; } if (pReader->pResBlock->info.rows > 0) { return TSDB_CODE_SUCCESS; } // current table is exhausted, let's try the next table pStatus->pTableIter = taosHashIterate(pStatus->pTableMap, pStatus->pTableIter); if (pStatus->pTableIter == NULL) { return TSDB_CODE_SUCCESS; } } } static int32_t initForFirstBlockOfFile(STsdbReader* pReader, SDataBlockIter* pBlockIter) { int32_t numOfBlocks = 0; int32_t code = moveToNextFile(pReader, &numOfBlocks); if (code != TSDB_CODE_SUCCESS) { return code; } // all data files are consumed, try data in buffer if (numOfBlocks == 0) { pReader->status.loadFromFile = false; return code; } // initialize the block iterator for a new fileset code = initBlockIterator(pReader, pBlockIter, numOfBlocks); return code; } static int32_t buildBlockFromFiles(STsdbReader* pReader) { int32_t code = TSDB_CODE_SUCCESS; SReaderStatus* pStatus = &pReader->status; SFileSetIter* pFIter = &pStatus->fileIter; SDataBlockIter* pBlockIter = &pReader->status.blockIter; ASSERT (pFIter->index < pFIter->numOfFiles); if (pReader->status.blockIter.index == -1) { code = initForFirstBlockOfFile(pReader, pBlockIter); if ((code != TSDB_CODE_SUCCESS) || (pReader->status.loadFromFile == false)) { return code; } code = doBuildDataBlock(pReader); if (code != TSDB_CODE_SUCCESS) { return code; } } else { SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo; SFileDataBlockInfo* pFBlock = getCurrentBlockInfo(&pReader->status.blockIter); STableBlockScanInfo* pScanInfo = taosHashGet(pReader->status.pTableMap, &pFBlock->uid, sizeof(pFBlock->uid)); SBlock* pBlock = taosArrayGet(pScanInfo->pBlockList, pFBlock->tbBlockIdx); // current block are exhausted, try the next file block if (pDumpInfo->rowIndex >= pBlock->nRow) { // try next data block in current file bool hasNext = blockIteratorNext(&pReader->status.blockIter); if (!hasNext) { // current file is exhausted, let's try the next file code = initForFirstBlockOfFile(pReader, pBlockIter); if ((code != TSDB_CODE_SUCCESS) || (pReader->status.loadFromFile == false)) { return code; } } code = doBuildDataBlock(pReader); if (code != TSDB_CODE_SUCCESS) { return code; } } else { code = buildComposedDataBlock(pReader, pFBlock, pBlock, pScanInfo); return code; } } return code; } // // todo not unref yet, since it is not support multi-group interpolation query // static UNUSED_FUNC void changeQueryHandleForInterpQuery(STsdbReader* pHandle) { // // filter the queried time stamp in the first place // STsdbReader* pTsdbReadHandle = (STsdbReader*)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) { // STableBlockScanInfo* 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; // } // STableBlockScanInfo info = *(STableBlockScanInfo*)taosArrayGet(pTsdbReadHandle->pTableCheckInfo, i); // taosArrayClear(pTsdbReadHandle->pTableCheckInfo); // info.lastKey = pTsdbReadHandle->window.skey; // taosArrayPush(pTsdbReadHandle->pTableCheckInfo, &info); // } TSDBROW* getValidRow(STbDataIter* pIter, bool* hasVal, STsdbReader* pReader) { if (!(*hasVal)) { return NULL; } TSDBROW* pRow = tsdbTbDataIterGet(pIter); TSDBKEY key = TSDBROW_KEY(pRow); if (key.ts > pReader->window.ekey) { *hasVal = false; return NULL; } if (key.version <= pReader->verRange.maxVer) { return pRow; } while(1) { *hasVal = tsdbTbDataIterNext(pIter); if (!(*hasVal)) { return NULL; } pRow = tsdbTbDataIterGet(pIter); key = TSDBROW_KEY(pRow); if (key.ts > pReader->window.ekey) { *hasVal = false; return NULL; } if (key.version <= pReader->verRange.maxVer) { return pRow; } } } int32_t doLoadRowsOfIdenticalTs(STbDataIter *pIter, bool* hasVal, int64_t ts, SRowMerger* pMerger, STsdbReader* pReader) { while (1) { *hasVal = tsdbTbDataIterNext(pIter); if (!(*hasVal)) { break; } TSDBROW* pRow = getValidRow(pIter, hasVal, pReader); TSDBKEY k = TSDBROW_KEY(pRow); if (k.ts > ts) { break; } tRowMerge(pMerger, pRow); } return TSDB_CODE_SUCCESS; } int32_t doLoadRowsOfIdenticalTsInFileBlock(SFileDataBlockInfo* pFBlock, SBlock* pBlock, SBlockData* pBlockData, STableBlockScanInfo* pScanInfo, STsdbReader* pReader, SRowMerger* pMerger) { SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo; int64_t key = pBlockData->aTSKEY[pDumpInfo->rowIndex]; if (pDumpInfo->rowIndex < pBlockData->nRow - 1) { if (pBlockData->aTSKEY[pDumpInfo->rowIndex + 1] == key) { int32_t rowIndex = pDumpInfo->rowIndex + 1; while (pBlockData->aTSKEY[rowIndex] == key) { if (pBlockData->aVersion[rowIndex] > pReader->verRange.maxVer) { continue; } TSDBROW fRow = tsdbRowFromBlockData(pBlockData, rowIndex); tRowMerge(pMerger, &fRow); rowIndex += 1; } pDumpInfo->rowIndex = rowIndex; } } else { // last row of current block, check if current block is overlapped with neighbor block pDumpInfo->rowIndex += 1; bool overlap = overlapWithNeighborBlock(pFBlock, pBlock, pScanInfo); if (overlap) { // load next block } } return TSDB_CODE_SUCCESS; } static void checkUpdateSchema(TSDBROW* pRow, uint64_t uid, STsdbReader* pReader) { int32_t sversion = TSDBROW_SVERSION(pRow); if (pReader->pSchema == NULL) { pReader->pSchema = metaGetTbTSchema(pReader->pTsdb->pVnode->pMeta, uid, sversion); } else if (pReader->pSchema->version != sversion) { taosMemoryFreeClear(pReader->pSchema); pReader->pSchema = metaGetTbTSchema(pReader->pTsdb->pVnode->pMeta, uid, sversion); } } int32_t tsdbGetNextRowInMem(STableBlockScanInfo* pBlockScanInfo, STsdbReader* pReader, STSRow** pTSRow) { TSKEY mergeTs = TSKEY_INITIAL_VAL; SRowMerger merge = {0}; TSDBROW* pRow = getValidRow(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, pReader); TSDBROW* piRow = getValidRow(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, pReader); TSDBKEY k = {.ts = TSKEY_INITIAL_VAL}; TSDBKEY ik = {.ts = TSKEY_INITIAL_VAL}; if (pBlockScanInfo->memHasVal && pBlockScanInfo->imemHasVal) { k = TSDBROW_KEY(pRow); ik = TSDBROW_KEY(piRow); if (ik.ts <= k.ts) { checkUpdateSchema(piRow, pBlockScanInfo->uid, pReader); tRowMergerInit(&merge, piRow, pReader->pSchema); doLoadRowsOfIdenticalTs(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, ik.ts, &merge, pReader); if (k.ts == mergeTs) { doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); } tRowMergerGetRow(&merge, pTSRow); return TSDB_CODE_SUCCESS; } else { // k.ts < ik.ts checkUpdateSchema(pRow, pBlockScanInfo->uid, pReader); tRowMergerInit(&merge, pRow, pReader->pSchema); doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); tRowMergerGetRow(&merge, pTSRow); return TSDB_CODE_SUCCESS; } } if (pBlockScanInfo->memHasVal) { k = TSDBROW_KEY(pRow); checkUpdateSchema(pRow, pBlockScanInfo->uid, pReader); tRowMergerInit(&merge, pRow, pReader->pSchema); doLoadRowsOfIdenticalTs(pBlockScanInfo->iter, &pBlockScanInfo->memHasVal, k.ts, &merge, pReader); tRowMergerGetRow(&merge, pTSRow); return TSDB_CODE_SUCCESS; } if (pBlockScanInfo->imemHasVal) { ik = TSDBROW_KEY(piRow); checkUpdateSchema(piRow, pBlockScanInfo->uid, pReader); tRowMergerInit(&merge, piRow, pReader->pSchema); doLoadRowsOfIdenticalTs(pBlockScanInfo->iiter, &pBlockScanInfo->imemHasVal, ik.ts, &merge, pReader); tRowMergerGetRow(&merge, pTSRow); return TSDB_CODE_SUCCESS; } return TSDB_CODE_SUCCESS; } int32_t doAppendOneRow(SSDataBlock* pBlock, STsdbReader* pReader, STSRow* pTSRow) { int32_t numOfRows = pBlock->info.rows; int32_t numOfCols = (int32_t)taosArrayGetSize(pBlock->pDataBlock); SBlockLoadSuppInfo* pSupInfo = &pReader->suppInfo; STSchema *pSchema = pReader->pSchema; SColVal colVal = {0}; int32_t i = 0, j = 0; SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, i); if (pColInfoData->info.colId == PRIMARYKEY_TIMESTAMP_COL_ID) { colDataAppend(pColInfoData, numOfRows, (const char*)&pTSRow->ts, false); i += 1; } while (i < numOfCols && j < pSchema->numOfCols) { pColInfoData = taosArrayGet(pBlock->pDataBlock, i); col_id_t colId = pColInfoData->info.colId; if (colId == pSchema->columns[j].colId) { tTSRowGetVal(pTSRow, pReader->pSchema, j, &colVal); doCopyColVal(pColInfoData, numOfRows, i, &colVal, pSupInfo); i += 1; j += 1; } else if (colId < pSchema->columns[j].colId) { colDataAppendNULL(pColInfoData, numOfRows); i += 1; } else if (colId > pSchema->columns[j].colId) { j += 1; } } pBlock->info.rows += 1; return TSDB_CODE_SUCCESS; } int32_t buildInmemDataBlockImpl(STableBlockScanInfo* pBlockScanInfo, TSDBKEY maxKey, int32_t capacity, STsdbReader* pReader) { SSDataBlock* pBlock = pReader->pResBlock; do { STSRow* pTSRow = NULL; tsdbGetNextRowInMem(pBlockScanInfo, pReader, &pTSRow); doAppendOneRow(pBlock, pReader, pTSRow); if (pBlockScanInfo->memHasVal) { TSDBROW* pRow = tsdbTbDataIterGet(pBlockScanInfo->iter); TSDBKEY k = TSDBROW_KEY(pRow); if (k.ts >= maxKey.ts) { break; } } if (pBlockScanInfo->imemHasVal) { TSDBROW* pRow = tsdbTbDataIterGet(pBlockScanInfo->iiter); TSDBKEY k = TSDBROW_KEY(pRow); if (k.ts >= maxKey.ts) { break; } } // no data in buffer, return immediately if (!(pBlockScanInfo->memHasVal || pBlockScanInfo->imemHasVal)) { break; } if (pBlock->info.rows >= capacity) { break; } } while (1); ASSERT(pBlock->info.rows <= capacity); return TSDB_CODE_SUCCESS; } /** * @brief Get all suids since suid * * @param pMeta * @param suid return all suids in one vnode if suid is 0 * @param list * @return int32_t */ int32_t tsdbGetStbIdList(SMeta* pMeta, int64_t suid, SArray* list) { SMStbCursor* pCur = metaOpenStbCursor(pMeta, suid); if(!pCur) { return TSDB_CODE_FAILED; } while (1) { tb_uid_t id = metaStbCursorNext(pCur); if (id == 0) { break; } taosArrayPush(list, &id); } metaCloseStbCursor(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(STsdbReader* pTsdbReadHandle) { // if (pTsdbReadHandle->checkFiles) { // // check if the query range overlaps with the file data block // bool exists = true; // int32_t code = buildBlockFromFiles(pTsdbReadHandle, &exists); // if (code != TSDB_CODE_SUCCESS) { // pTsdbReadHandle->checkFiles = false; // return false; // } // if (exists) { // tsdbRetrieveDataBlock((STsdbReader**)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) { // // SMemTable* 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 loadDataBlockFromTableSeq(STsdbReader* pTsdbReadHandle) { // size_t numOfTables = taosArrayGetSize(pTsdbReadHandle->pTableCheckInfo); // assert(numOfTables > 0); // int64_t stime = taosGetTimestampUs(); // while (pTsdbReadHandle->activeIndex < numOfTables) { // if (loadBlockOfActiveTable(pTsdbReadHandle)) { // return true; // } // STableBlockScanInfo* 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; // } // bool tsdbGetExternalRow(STsdbReader* pHandle) { // STsdbReader* pTsdbReadHandle = (STsdbReader*)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; // } // 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); // colDataDestroy(pColInfo); // } // taosArrayDestroy(pColumnInfoData); // return NULL; // } // static void* destroyTableCheckInfo(SArray* pTableCheckInfo) { // size_t size = taosArrayGetSize(pTableCheckInfo); // for (int32_t i = 0; i < size; ++i) { // STableBlockScanInfo* p = taosArrayGet(pTableCheckInfo, i); // destroyTableMemIterator(p); // taosMemoryFreeClear(p->pCompInfo); // } // taosArrayDestroy(pTableCheckInfo); // return NULL; // } // ====================================== EXPOSED APIs ====================================== int32_t tsdbReaderOpen(SVnode* pVnode, SQueryTableDataCond* pCond, SArray* pTableList, STsdbReader** ppReader, const char* idstr) { int32_t code = tsdbReaderCreate(pVnode, pCond, ppReader, idstr); if (code) { goto _err; } STsdbReader* pReader = *ppReader; if (isEmptyQueryTimeWindow(&pReader->window, pReader->order)) { tsdbDebug("%p query window not overlaps with the data set, no result returned, %s", pReader, pReader->idStr); return TSDB_CODE_SUCCESS; } int32_t numOfTables = taosArrayGetSize(pTableList); pReader->status.pTableMap = createDataBlockScanInfo(pReader, pTableList->pData, numOfTables); if (pReader->status.pTableMap == NULL) { tsdbReaderClose(pReader); *ppReader = NULL; code = TSDB_CODE_TDB_OUT_OF_MEMORY; goto _err; } #if 0 // int32_t code = setCurrentSchema(pVnode, pReader); // if (code != TSDB_CODE_SUCCESS) { // terrno = code; // return NULL; // } // int32_t numOfCols = taosArrayGetSize(pReader->suppInfo.defaultLoadColumn); // int16_t* ids = pReader->suppInfo.defaultLoadColumn->pData; // STSchema* pSchema = pReader->pSchema; // int32_t i = 0, j = 0; // while (i < numOfCols && j < pSchema->numOfCols) { // if (ids[i] == pSchema->columns[j].colId) { // pReader->suppInfo.slotIds[i] = j; // i++; // j++; // } else if (ids[i] > pSchema->columns[j].colId) { // j++; // } else { // // tsdbReaderClose(pTsdbReadHandle); // terrno = TSDB_CODE_INVALID_PARA; // return NULL; // } // } #endif tsdbDebug("%p total numOfTable:%d in this query %s", pReader, numOfTables, pReader->idStr); return code; _err: tsdbError("failed to create tsdb reader, code: %s %s", tstrerror(code), pReader->idStr); return code; } void tsdbReaderClose(STsdbReader* pReader) { if (pReader == NULL) { return; } blockDataDestroy(pReader->pResBlock); taosMemoryFreeClear(pReader->suppInfo.pstatis); taosMemoryFreeClear(pReader->suppInfo.plist); taosMemoryFree(pReader->suppInfo.slotIds); if (!isEmptyQueryTimeWindow(&pReader->window, pReader->order)) { // tsdbMayUnTakeMemSnapshot(pTsdbReadHandle); } else { ASSERT(pReader->status.pTableMap == NULL); } #if 0 // if (pReader->status.pTableScanInfo != NULL) { // pReader->status.pTableScanInfo = destroyTableCheckInfo(pReader->status.pTableScanInfo); // } // tsdbDestroyReadH(&pReader->rhelper); // tdFreeDataCols(pReader->pDataCols); // pReader->pDataCols = NULL; // // pReader->prev = doFreeColumnInfoData(pReader->prev); // pReader->next = doFreeColumnInfoData(pReader->next); #endif SIOCostSummary* pCost = &pReader->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", pReader, pCost->headFileLoad, pCost->headFileLoadTime, pCost->statisInfoLoadTime, pCost->blockLoadTime, pCost->checkForNextTime, pReader->idStr); taosMemoryFree(pReader->idStr); taosMemoryFree(pReader->pSchema); taosMemoryFreeClear(pReader); } bool tsdbNextDataBlock(STsdbReader* pReader) { if (isEmptyQueryTimeWindow(&pReader->window, pReader->order)) { return false; } // cleanup the data that belongs to the previous data block SSDataBlock* pBlock = pReader->pResBlock; blockDataCleanup(pBlock); int64_t stime = taosGetTimestampUs(); int64_t elapsedTime = stime; SReaderStatus* pStatus = &pReader->status; if (pReader->type == BLOCK_LOAD_OFFSET_ORDER) { if (pStatus->loadFromFile) { int32_t code = buildBlockFromFiles(pReader); if (code != TSDB_CODE_SUCCESS) { return false; } if (pBlock->info.rows > 0) { return true; } else { buildBlockFromBufferSequentially(pReader); return pBlock->info.rows > 0; } } else { // no data in files, let's try the buffer buildBlockFromBufferSequentially(pReader); return pBlock->info.rows > 0; } } else if (pReader->type == BLOCK_LOAD_TABLESEQ_ORDER) { } else if (pReader->type == BLOCK_LOAD_EXTERN_ORDER) { } else { ASSERT(0); } // if (pReader->loadType == BLOCK_LOAD_TABLE_SEQ_ORDER) { // return loadDataBlockFromTableSeq(pReader); // } else { // loadType == RR and Offset Order // if (pReader->checkFiles) { // // check if the query range overlaps with the file data block // bool exists = true; // int32_t code = buildBlockFromFiles(pReader, &exists); // if (code != TSDB_CODE_SUCCESS) { // pReader->activeIndex = 0; // pReader->checkFiles = false; // return false; // } // if (exists) { // pReader->cost.checkForNextTime += (taosGetTimestampUs() - stime); // return exists; // } // pReader->activeIndex = 0; // pReader->checkFiles = false; // } // // TODO: opt by consider the scan order // bool ret = doHasDataInBuffer(pReader); // terrno = TSDB_CODE_SUCCESS; // elapsedTime = taosGetTimestampUs() - stime; // pReader->cost.checkForNextTime += elapsedTime; // return ret; // } return false; } void tsdbRetrieveDataBlockInfo(STsdbReader* pReader, SDataBlockInfo* pDataBlockInfo) { ASSERT(pDataBlockInfo != NULL && pReader != NULL); pDataBlockInfo->rows = pReader->pResBlock->info.rows; pDataBlockInfo->uid = pReader->pResBlock->info.uid; pDataBlockInfo->window = pReader->pResBlock->info.window; } int32_t tsdbRetrieveDataBlockStatisInfo(STsdbReader* pReader, SColumnDataAgg*** pBlockStatis, bool* allHave) { int32_t code = 0; *allHave = false; if (pReader->status.composedDataBlock) { *pBlockStatis = NULL; return TSDB_CODE_SUCCESS; } // SFileBlockInfo* pBlockInfo = &pReader->pDataBlockInfo[c->slot]; // assert((c->slot >= 0 && c->slot < pReader->numOfBlocks) || ((c->slot == pReader->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(&pReader->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(pReader->pTsdb), // TSDB_READ_TABLE_UID(&pReader->rhelper)); // int16_t* colIds = pReader->suppInfo.defaultLoadColumn->pData; // size_t numOfCols = QH_GET_NUM_OF_COLS(pReader); // memset(pReader->suppInfo.plist, 0, numOfCols * POINTER_BYTES); // memset(pReader->suppInfo.pstatis, 0, numOfCols * sizeof(SColumnDataAgg)); // for (int32_t i = 0; i < numOfCols; ++i) { // pReader->suppInfo.pstatis[i].colId = colIds[i]; // } // *allHave = true; // tsdbGetBlockStatis(&pReader->rhelper, pReader->suppInfo.pstatis, (int)numOfCols, pBlockInfo->compBlock); // // always load the first primary timestamp column data // SColumnDataAgg* pPrimaryColStatis = &pReader->suppInfo.pstatis[0]; // assert(pPrimaryColStatis->colId == PRIMARYKEY_TIMESTAMP_COL_ID); // pPrimaryColStatis->numOfNull = 0; // pPrimaryColStatis->min = pBlockInfo->compBlock->minKey.ts; // pPrimaryColStatis->max = pBlockInfo->compBlock->maxKey.ts; // pReader->suppInfo.plist[0] = &pReader->suppInfo.pstatis[0]; // // update the number of NULL data rows // int32_t* slotIds = pReader->suppInfo.slotIds; // for (int32_t i = 1; i < numOfCols; ++i) { // ASSERT(colIds[i] == pReader->pSchema->columns[slotIds[i]].colId); // if (IS_BSMA_ON(&(pReader->pSchema->columns[slotIds[i]]))) { // if (pReader->suppInfo.pstatis[i].numOfNull == -1) { // set the column data are all NULL // pReader->suppInfo.pstatis[i].numOfNull = pBlockInfo->compBlock->numOfRows; // } // pReader->suppInfo.plist[i] = &pReader->suppInfo.pstatis[i]; // } else { // *allHave = false; // } // } // int64_t elapsed = taosGetTimestampUs() - stime; // pReader->cost.statisInfoLoadTime += elapsed; // *pBlockStatis = pReader->suppInfo.plist; return code; } SArray* tsdbRetrieveDataBlock(STsdbReader* pReader, SArray* pIdList) { SReaderStatus* pStatus = &pReader->status; if (pStatus->composedDataBlock) { return pReader->pResBlock->pDataBlock; } else { SFileDataBlockInfo* pFBlock = getCurrentBlockInfo(&pStatus->blockIter); STableBlockScanInfo* pBlockScanInfo = taosHashGet(pStatus->pTableMap, &pFBlock->uid, sizeof(pFBlock->uid)); int32_t code = tBlockDataInit(&pStatus->fileBlockData); if (code != TSDB_CODE_SUCCESS) { terrno = code; return NULL; } code = doLoadFileBlockData(pReader, &pStatus->blockIter, pBlockScanInfo, &pStatus->fileBlockData); if (code != TSDB_CODE_SUCCESS) { terrno = code; return NULL; } return pReader->pResBlock->pDataBlock; } } void tsdbResetReadHandle(STsdbReader* pReader, SQueryTableDataCond* pCond, int32_t tWinIdx) { // if (isEmptyQueryTimeWindow(pReader)) { // if (pCond->order != pReader->order) { // pReader->order = pCond->order; // TSWAP(pReader->window.skey, pReader->window.ekey); // } // return; // } // pReader->order = pCond->order; // setQueryTimewindow(pReader, pCond, tWinIdx); // pReader->type = TSDB_QUERY_TYPE_ALL; // pReader->cur.fid = -1; // pReader->cur.win = TSWINDOW_INITIALIZER; // pReader->checkFiles = true; // pReader->activeIndex = 0; // current active table index // pReader->locateStart = false; // pReader->loadExternalRow = pCond->loadExternalRows; // if (ASCENDING_TRAVERSE(pCond->order)) { // assert(pReader->window.skey <= pReader->window.ekey); // } else { // assert(pReader->window.skey >= pReader->window.ekey); // } // // allocate buffer in order to load data blocks from file // memset(pReader->suppInfo.pstatis, 0, sizeof(SColumnDataAgg)); // memset(pReader->suppInfo.plist, 0, POINTER_BYTES); // tsdbInitDataBlockLoadInfo(&pReader->dataBlockLoadInfo); // tsdbInitCompBlockLoadInfo(&pReader->compBlockLoadInfo); // resetCheckInfo(pReader); } int32_t tsdbGetFileBlocksDistInfo(STsdbReader* pReader, STableBlockDistInfo* pTableBlockInfo) { int32_t code = 0; // pTableBlockInfo->totalSize = 0; // pTableBlockInfo->totalRows = 0; // STsdbFS* pFileHandle = REPO_FS(pReader->pTsdb); // // find the start data block in file // pReader->locateStart = true; // STsdbKeepCfg* pCfg = REPO_KEEP_CFG(pReader->pTsdb); // int32_t fid = getFileIdFromKey(pReader->window.skey, pCfg->days, pCfg->precision); // tsdbRLockFS(pFileHandle); // tsdbFSIterInit(&pReader->fileIter, pFileHandle, pReader->order); // tsdbFSIterSeek(&pReader->fileIter, fid); // tsdbUnLockFS(pFileHandle); // STsdbCfg* pc = REPO_CFG(pReader->pTsdb); // pTableBlockInfo->defMinRows = pc->minRows; // pTableBlockInfo->defMaxRows = pc->maxRows; // int32_t bucketRange = ceil((pc->maxRows - pc->minRows) / 20.0); // pTableBlockInfo->numOfFiles += 1; // int32_t code = TSDB_CODE_SUCCESS; // int32_t numOfBlocks = 0; // int32_t numOfTables = (int32_t)taosArrayGetSize(pReader->pTableCheckInfo); // int defaultRows = 4096; // STimeWindow win = TSWINDOW_INITIALIZER; // while (true) { // numOfBlocks = 0; // tsdbRLockFS(REPO_FS(pReader->pTsdb)); // if ((pReader->pFileGroup = tsdbFSIterNext(&pReader->fileIter)) == NULL) { // tsdbUnLockFS(REPO_FS(pReader->pTsdb)); // break; // } // tsdbGetFidKeyRange(pCfg->days, pCfg->precision, pReader->pFileGroup->fid, &win.skey, &win.ekey); // // current file are not overlapped with query time window, ignore remain files // if ((win.skey > pReader->window.ekey) /* || (!ascTraverse && win.ekey < pTsdbReadHandle->window.ekey)*/) { // tsdbUnLockFS(REPO_FS(pReader->pTsdb)); // tsdbDebug("%p remain files are not qualified for qrange:%" PRId64 "-%" PRId64 ", ignore, %s", pReader, // pReader->window.skey, pReader->window.ekey, pReader->idStr); // pReader->pFileGroup = NULL; // break; // } // pTableBlockInfo->numOfFiles += 1; // if (tsdbSetAndOpenReadFSet(&pReader->rhelper, pReader->pFileGroup) < 0) { // tsdbUnLockFS(REPO_FS(pReader->pTsdb)); // code = terrno; // break; // } // tsdbUnLockFS(REPO_FS(pReader->pTsdb)); // if (tsdbLoadBlockIdx(&pReader->rhelper) < 0) { // code = terrno; // break; // } // if ((code = getFileCompInfo(pReader, &numOfBlocks)) != TSDB_CODE_SUCCESS) { // break; // } // tsdbDebug("%p %d blocks found in file for %d table(s), fid:%d, %s", pReader, numOfBlocks, numOfTables, // pReader->pFileGroup->fid, pReader->idStr); // if (numOfBlocks == 0) { // continue; // } // pTableBlockInfo->numOfBlocks += numOfBlocks; // for (int32_t i = 0; i < numOfTables; ++i) { // STableBlockScanInfo* pCheckInfo = taosArrayGet(pReader->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 bucketIndex = getBucketIndex(pTableBlockInfo->defMinRows, bucketRange, numOfRows); // pTableBlockInfo->blockRowsHisto[bucketIndex]++; // } // } // } // pTableBlockInfo->numOfTables = numOfTables; return code; } int64_t tsdbGetNumOfRowsInMemTable(STsdbReader* pReader) { int64_t rows = 0; SReaderStatus* pStatus = &pReader->status; pStatus->pTableIter = taosHashIterate(pStatus->pTableMap, NULL); while (pStatus->pTableIter != NULL) { STableBlockScanInfo* pBlockScanInfo = pStatus->pTableIter; STbData* d = NULL; if (pReader->pTsdb->mem != NULL) { tsdbGetTbDataFromMemTable(pReader->pTsdb->mem, pReader->suid, pBlockScanInfo->uid, &d); if (d != NULL) { rows += tsdbGetNRowsInTbData(d); } } STbData* di = NULL; if (pReader->pTsdb->imem != NULL) { tsdbGetTbDataFromMemTable(pReader->pTsdb->imem, pReader->suid, pBlockScanInfo->uid, &di); if (di != NULL) { rows += tsdbGetNRowsInTbData(di); } } // current table is exhausted, let's try the next table pStatus->pTableIter = taosHashIterate(pStatus->pTableMap, pStatus->pTableIter); } return rows; }