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homework-jianmu/source/dnode/vnode/src/tsdb/tsdbRead.c

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/*
* Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
*
* 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 <http://www.gnu.org/licenses/>.
*/
#include "osDef.h"
#include "tsdb.h"
#define ASCENDING_TRAVERSE(o) (o == TSDB_ORDER_ASC)
typedef enum {
EXTERNAL_ROWS_PREV = 0x1,
EXTERNAL_ROWS_MAIN = 0x2,
EXTERNAL_ROWS_NEXT = 0x3,
} EContentData;
typedef struct {
STbDataIter* iter;
int32_t index;
bool hasVal;
} SIterInfo;
typedef struct {
int32_t numOfBlocks;
int32_t numOfLastFiles;
} SBlockNumber;
typedef struct SBlockIndex {
int32_t ordinalIndex;
int64_t inFileOffset;
STimeWindow window; // todo replace it with overlap flag.
} SBlockIndex;
typedef struct STableBlockScanInfo {
uint64_t uid;
TSKEY lastKey;
TSKEY lastKeyInStt; // last accessed key in stt
SMapData mapData; // block info (compressed)
SArray* pBlockList; // block data index list, SArray<SBlockIndex>
SIterInfo iter; // mem buffer skip list iterator
SIterInfo iiter; // imem buffer skip list iterator
SArray* delSkyline; // delete info for this table
int32_t fileDelIndex; // file block delete index
int32_t lastBlockDelIndex; // delete index for last block
bool iterInit; // whether to initialize the in-memory skip list iterator or not
} STableBlockScanInfo;
typedef struct SBlockOrderWrapper {
int64_t uid;
int64_t offset;
} SBlockOrderWrapper;
typedef struct SBlockOrderSupporter {
SBlockOrderWrapper** pDataBlockInfo;
int32_t* indexPerTable;
int32_t* numOfBlocksPerTable;
int32_t numOfTables;
} SBlockOrderSupporter;
typedef struct SIOCostSummary {
int64_t numOfBlocks;
double blockLoadTime;
double buildmemBlock;
int64_t headFileLoad;
double headFileLoadTime;
int64_t smaDataLoad;
double smaLoadTime;
int64_t lastBlockLoad;
double lastBlockLoadTime;
int64_t composedBlocks;
double buildComposedBlockTime;
double createScanInfoList;
// double getTbFromMemTime;
// double getTbFromIMemTime;
double initDelSkylineIterTime;
} SIOCostSummary;
typedef struct SBlockLoadSuppInfo {
SArray* pColAgg;
SColumnDataAgg tsColAgg;
int16_t* colId;
int16_t* slotId;
int32_t numOfCols;
char** buildBuf; // build string tmp buffer, todo remove it later after all string format being updated.
bool smaValid; // the sma on all queried columns are activated
} SBlockLoadSuppInfo;
typedef struct SLastBlockReader {
STimeWindow window;
SVersionRange verRange;
int32_t order;
uint64_t uid;
SMergeTree mergeTree;
SSttBlockLoadInfo* pInfo;
} SLastBlockReader;
typedef struct SFilesetIter {
int32_t numOfFiles; // number of total files
int32_t index; // current accessed index in the list
SArray* pFileList; // data file list
int32_t order;
SLastBlockReader* pLastBlockReader; // last file block reader
} SFilesetIter;
typedef struct SFileDataBlockInfo {
// index position in STableBlockScanInfo in order to check whether neighbor block overlaps with it
uint64_t uid;
int32_t tbBlockIdx;
} SFileDataBlockInfo;
typedef struct SDataBlockIter {
int32_t numOfBlocks;
int32_t index;
SArray* blockList; // SArray<SFileDataBlockInfo>
int32_t order;
SDataBlk block; // current SDataBlk data
SHashObj* pTableMap;
} SDataBlockIter;
typedef struct SFileBlockDumpInfo {
int32_t totalRows;
int32_t rowIndex;
int64_t lastKey;
bool allDumped;
} SFileBlockDumpInfo;
typedef struct STableUidList {
uint64_t* tableUidList; // access table uid list in uid ascending order list
int32_t currentIndex; // index in table uid list
} STableUidList;
typedef struct SReaderStatus {
bool loadFromFile; // check file stage
bool composedDataBlock; // the returned data block is a composed block or not
SHashObj* pTableMap; // SHash<STableBlockScanInfo>
STableBlockScanInfo** pTableIter; // table iterator used in building in-memory buffer data blocks.
STableUidList uidList; // check tables in uid order, to avoid the repeatly load of blocks in STT.
SFileBlockDumpInfo fBlockDumpInfo;
SDFileSet* pCurrentFileset; // current opened file set
SBlockData fileBlockData;
SFilesetIter fileIter;
SDataBlockIter blockIter;
} SReaderStatus;
typedef struct SBlockInfoBuf {
int32_t currentIndex;
SArray* pData;
int32_t numPerBucket;
int32_t numOfTables;
} SBlockInfoBuf;
struct STsdbReader {
STsdb* pTsdb;
SVersionRange verRange;
TdThreadMutex readerMutex;
bool suspended;
uint64_t suid;
int16_t order;
bool freeBlock;
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;
STsdbReadSnap* pReadSnap;
SIOCostSummary cost;
STSchema* pSchema; // the newest version schema
STSchema* pMemSchema; // the previous schema for in-memory data, to avoid load schema too many times
SDataFReader* pFileReader; // the file reader
SDelFReader* pDelFReader; // the del file reader
SArray* pDelIdx; // del file block index;
SBlockInfoBuf blockInfoBuf;
int32_t step;
STsdbReader* innerReader[2];
};
static SFileDataBlockInfo* getCurrentBlockInfo(SDataBlockIter* pBlockIter);
static int buildDataBlockFromBufImpl(STableBlockScanInfo* pBlockScanInfo, int64_t endKey, int32_t capacity,
STsdbReader* pReader);
static TSDBROW* getValidMemRow(SIterInfo* pIter, const SArray* pDelList, STsdbReader* pReader);
static int32_t doMergeRowsInFileBlocks(SBlockData* pBlockData, STableBlockScanInfo* pScanInfo, STsdbReader* pReader,
SRowMerger* pMerger);
static int32_t doMergeRowsInLastBlock(SLastBlockReader* pLastBlockReader, STableBlockScanInfo* pScanInfo, int64_t ts,
SRowMerger* pMerger, SVersionRange* pVerRange, const char* id);
static int32_t doMergeRowsInBuf(SIterInfo* pIter, uint64_t uid, int64_t ts, SArray* pDelList, SRowMerger* pMerger,
STsdbReader* pReader);
static int32_t doAppendRowFromTSRow(SSDataBlock* pBlock, STsdbReader* pReader, SRow* pTSRow,
STableBlockScanInfo* pInfo);
static int32_t doAppendRowFromFileBlock(SSDataBlock* pResBlock, STsdbReader* pReader, SBlockData* pBlockData,
int32_t rowIndex);
static void setComposedBlockFlag(STsdbReader* pReader, bool composed);
static bool hasBeenDropped(const SArray* pDelList, int32_t* index, TSDBKEY* pKey, int32_t order,
SVersionRange* pVerRange);
static int32_t doMergeMemTableMultiRows(TSDBROW* pRow, uint64_t uid, SIterInfo* pIter, SArray* pDelList,
TSDBROW* pTSRow, STsdbReader* pReader, bool* freeTSRow);
static int32_t doMergeMemIMemRows(TSDBROW* pRow, TSDBROW* piRow, STableBlockScanInfo* pBlockScanInfo,
STsdbReader* pReader, SRow** pTSRow);
static int32_t mergeRowsInFileBlocks(SBlockData* pBlockData, STableBlockScanInfo* pBlockScanInfo, int64_t key,
STsdbReader* pReader);
static int32_t initDelSkylineIterator(STableBlockScanInfo* pBlockScanInfo, STsdbReader* pReader, STbData* pMemTbData,
STbData* piMemTbData);
static STsdb* getTsdbByRetentions(SVnode* pVnode, TSKEY winSKey, SRetention* retentions, const char* idstr,
int8_t* pLevel);
static SVersionRange getQueryVerRange(SVnode* pVnode, SQueryTableDataCond* pCond, int8_t level);
static int64_t getCurrentKeyInLastBlock(SLastBlockReader* pLastBlockReader);
static bool hasDataInLastBlock(SLastBlockReader* pLastBlockReader);
static int32_t doBuildDataBlock(STsdbReader* pReader);
static TSDBKEY getCurrentKeyInBuf(STableBlockScanInfo* pScanInfo, STsdbReader* pReader);
static bool hasDataInFileBlock(const SBlockData* pBlockData, const SFileBlockDumpInfo* pDumpInfo);
static void initBlockDumpInfo(STsdbReader* pReader, SDataBlockIter* pBlockIter);
static int32_t getInitialDelIndex(const SArray* pDelSkyline, int32_t order);
static STableBlockScanInfo* getTableBlockScanInfo(SHashObj* pTableMap, uint64_t uid, const char* id);
static FORCE_INLINE STSchema* getLatestTableSchema(STsdbReader* pReader, uint64_t uid);
static bool outOfTimeWindow(int64_t ts, STimeWindow* pWindow) { return (ts > pWindow->ekey) || (ts < pWindow->skey); }
static int32_t setColumnIdSlotList(SBlockLoadSuppInfo* pSupInfo, SColumnInfo* pCols, const int32_t* pSlotIdList,
int32_t numOfCols) {
pSupInfo->smaValid = true;
pSupInfo->numOfCols = numOfCols;
pSupInfo->colId = taosMemoryMalloc(numOfCols * (sizeof(int16_t) * 2 + POINTER_BYTES));
if (pSupInfo->colId == NULL) {
taosMemoryFree(pSupInfo->colId);
return TSDB_CODE_OUT_OF_MEMORY;
}
pSupInfo->slotId = (int16_t*)((char*)pSupInfo->colId + (sizeof(int16_t) * numOfCols));
pSupInfo->buildBuf = (char**)((char*)pSupInfo->slotId + (sizeof(int16_t) * numOfCols));
for (int32_t i = 0; i < numOfCols; ++i) {
pSupInfo->colId[i] = pCols[i].colId;
pSupInfo->slotId[i] = pSlotIdList[i];
if (IS_VAR_DATA_TYPE(pCols[i].type)) {
pSupInfo->buildBuf[i] = taosMemoryMalloc(pCols[i].bytes);
} else {
pSupInfo->buildBuf[i] = NULL;
}
}
return TSDB_CODE_SUCCESS;
}
static int32_t updateBlockSMAInfo(STSchema* pSchema, SBlockLoadSuppInfo* pSupInfo) {
int32_t i = 0, j = 0;
while (i < pSchema->numOfCols && j < pSupInfo->numOfCols) {
STColumn* pTCol = &pSchema->columns[i];
if (pTCol->colId == pSupInfo->colId[j]) {
if (!IS_BSMA_ON(pTCol)) {
pSupInfo->smaValid = false;
return TSDB_CODE_SUCCESS;
}
i += 1;
j += 1;
} else if (pTCol->colId < pSupInfo->colId[j]) {
// do nothing
i += 1;
} else {
return TSDB_CODE_INVALID_PARA;
}
}
return TSDB_CODE_SUCCESS;
}
static int32_t initBlockScanInfoBuf(SBlockInfoBuf* pBuf, int32_t numOfTables) {
int32_t num = numOfTables / pBuf->numPerBucket;
int32_t remainder = numOfTables % pBuf->numPerBucket;
if (pBuf->pData == NULL) {
pBuf->pData = taosArrayInit(num + 1, POINTER_BYTES);
}
for (int32_t i = 0; i < num; ++i) {
char* p = taosMemoryCalloc(pBuf->numPerBucket, sizeof(STableBlockScanInfo));
if (p == NULL) {
return TSDB_CODE_OUT_OF_MEMORY;
}
taosArrayPush(pBuf->pData, &p);
}
if (remainder > 0) {
char* p = taosMemoryCalloc(remainder, sizeof(STableBlockScanInfo));
if (p == NULL) {
return TSDB_CODE_OUT_OF_MEMORY;
}
taosArrayPush(pBuf->pData, &p);
}
pBuf->numOfTables = numOfTables;
return TSDB_CODE_SUCCESS;
}
static int32_t ensureBlockScanInfoBuf(SBlockInfoBuf* pBuf, int32_t numOfTables) {
if (numOfTables <= pBuf->numOfTables) {
return TSDB_CODE_SUCCESS;
}
if (pBuf->numOfTables > 0) {
STableBlockScanInfo** p = (STableBlockScanInfo**)taosArrayPop(pBuf->pData);
taosMemoryFree(*p);
pBuf->numOfTables /= pBuf->numPerBucket;
}
int32_t num = (numOfTables - pBuf->numOfTables) / pBuf->numPerBucket;
int32_t remainder = (numOfTables - pBuf->numOfTables) % pBuf->numPerBucket;
if (pBuf->pData == NULL) {
pBuf->pData = taosArrayInit(num + 1, POINTER_BYTES);
}
for (int32_t i = 0; i < num; ++i) {
char* p = taosMemoryCalloc(pBuf->numPerBucket, sizeof(STableBlockScanInfo));
if (p == NULL) {
return TSDB_CODE_OUT_OF_MEMORY;
}
taosArrayPush(pBuf->pData, &p);
}
if (remainder > 0) {
char* p = taosMemoryCalloc(remainder, sizeof(STableBlockScanInfo));
if (p == NULL) {
return TSDB_CODE_OUT_OF_MEMORY;
}
taosArrayPush(pBuf->pData, &p);
}
pBuf->numOfTables = numOfTables;
return TSDB_CODE_SUCCESS;
}
static void clearBlockScanInfoBuf(SBlockInfoBuf* pBuf) {
size_t num = taosArrayGetSize(pBuf->pData);
for (int32_t i = 0; i < num; ++i) {
char** p = taosArrayGet(pBuf->pData, i);
taosMemoryFree(*p);
}
taosArrayDestroy(pBuf->pData);
}
static void* getPosInBlockInfoBuf(SBlockInfoBuf* pBuf, int32_t index) {
int32_t bucketIndex = index / pBuf->numPerBucket;
char** pBucket = taosArrayGet(pBuf->pData, bucketIndex);
return (*pBucket) + (index % pBuf->numPerBucket) * sizeof(STableBlockScanInfo);
}
static int32_t uidComparFunc(const void* p1, const void* p2) {
uint64_t pu1 = *(uint64_t*)p1;
uint64_t pu2 = *(uint64_t*)p2;
if (pu1 == pu2) {
return 0;
} else {
return (pu1 < pu2) ? -1 : 1;
}
}
// NOTE: speedup the whole processing by preparing the buffer for STableBlockScanInfo in batch model
static SHashObj* createDataBlockScanInfo(STsdbReader* pTsdbReader, SBlockInfoBuf* pBuf, const STableKeyInfo* idList,
STableUidList* pUidList, int32_t numOfTables) {
// allocate buffer in order to load data blocks from file
// todo use simple hash instead, optimize the memory consumption
SHashObj* pTableMap =
taosHashInit(numOfTables, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), false, HASH_NO_LOCK);
if (pTableMap == NULL) {
return NULL;
}
int64_t st = taosGetTimestampUs();
initBlockScanInfoBuf(pBuf, numOfTables);
pUidList->tableUidList = taosMemoryMalloc(numOfTables * sizeof(uint64_t));
if (pUidList->tableUidList == NULL) {
taosHashCleanup(pTableMap);
return NULL;
}
pUidList->currentIndex = 0;
for (int32_t j = 0; j < numOfTables; ++j) {
STableBlockScanInfo* pScanInfo = getPosInBlockInfoBuf(pBuf, j);
pScanInfo->uid = idList[j].uid;
pUidList->tableUidList[j] = idList[j].uid;
if (ASCENDING_TRAVERSE(pTsdbReader->order)) {
int64_t skey = pTsdbReader->window.skey;
pScanInfo->lastKey = (skey > INT64_MIN) ? (skey - 1) : skey;
pScanInfo->lastKeyInStt = skey;
} else {
int64_t ekey = pTsdbReader->window.ekey;
pScanInfo->lastKey = (ekey < INT64_MAX) ? (ekey + 1) : ekey;
pScanInfo->lastKeyInStt = ekey;
}
taosHashPut(pTableMap, &pScanInfo->uid, sizeof(uint64_t), &pScanInfo, POINTER_BYTES);
tsdbTrace("%p check table uid:%" PRId64 " from lastKey:%" PRId64 " %s", pTsdbReader, pScanInfo->uid,
pScanInfo->lastKey, pTsdbReader->idStr);
}
taosSort(pUidList->tableUidList, numOfTables, sizeof(uint64_t), uidComparFunc);
pTsdbReader->cost.createScanInfoList = (taosGetTimestampUs() - st) / 1000.0;
tsdbDebug("%p create %d tables scan-info, size:%.2f Kb, elapsed time:%.2f ms, %s", pTsdbReader, numOfTables,
(sizeof(STableBlockScanInfo) * numOfTables) / 1024.0, pTsdbReader->cost.createScanInfoList,
pTsdbReader->idStr);
return pTableMap;
}
static void resetAllDataBlockScanInfo(SHashObj* pTableMap, int64_t ts, int32_t step) {
STableBlockScanInfo** p = NULL;
while ((p = taosHashIterate(pTableMap, p)) != NULL) {
STableBlockScanInfo* pInfo = *(STableBlockScanInfo**)p;
pInfo->iterInit = false;
pInfo->iter.hasVal = false;
pInfo->iiter.hasVal = false;
if (pInfo->iter.iter != NULL) {
pInfo->iter.iter = tsdbTbDataIterDestroy(pInfo->iter.iter);
}
if (pInfo->iiter.iter != NULL) {
pInfo->iiter.iter = tsdbTbDataIterDestroy(pInfo->iiter.iter);
}
pInfo->delSkyline = taosArrayDestroy(pInfo->delSkyline);
pInfo->lastKey = ts;
pInfo->lastKeyInStt = ts + step;
}
}
static void clearBlockScanInfo(STableBlockScanInfo* p) {
p->iterInit = false;
p->iter.hasVal = false;
p->iiter.hasVal = false;
if (p->iter.iter != NULL) {
p->iter.iter = tsdbTbDataIterDestroy(p->iter.iter);
}
if (p->iiter.iter != NULL) {
p->iiter.iter = tsdbTbDataIterDestroy(p->iiter.iter);
}
p->delSkyline = taosArrayDestroy(p->delSkyline);
p->pBlockList = taosArrayDestroy(p->pBlockList);
tMapDataClear(&p->mapData);
}
static void destroyAllBlockScanInfo(SHashObj* pTableMap) {
void* p = NULL;
while ((p = taosHashIterate(pTableMap, p)) != NULL) {
clearBlockScanInfo(*(STableBlockScanInfo**)p);
}
taosHashCleanup(pTableMap);
}
static bool isEmptyQueryTimeWindow(STimeWindow* pWindow) { return pWindow->skey > pWindow->ekey; }
// 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 STimeWindow updateQueryTimeWindow(STsdb* pTsdb, STimeWindow* pWindow) {
STsdbKeepCfg* pCfg = &pTsdb->keepCfg;
int64_t now = taosGetTimestamp(pCfg->precision);
int64_t earilyTs = now - (tsTickPerMin[pCfg->precision] * pCfg->keep2) + 1; // needs to add one tick
STimeWindow win = *pWindow;
if (win.skey < earilyTs) {
win.skey = earilyTs;
}
return win;
}
// init file iterator
static int32_t initFilesetIterator(SFilesetIter* pIter, SArray* aDFileSet, STsdbReader* pReader) {
size_t numOfFileset = taosArrayGetSize(aDFileSet);
pIter->index = ASCENDING_TRAVERSE(pReader->order) ? -1 : numOfFileset;
pIter->order = pReader->order;
pIter->pFileList = aDFileSet;
pIter->numOfFiles = numOfFileset;
if (pIter->pLastBlockReader == NULL) {
pIter->pLastBlockReader = taosMemoryCalloc(1, sizeof(struct SLastBlockReader));
if (pIter->pLastBlockReader == NULL) {
int32_t code = TSDB_CODE_OUT_OF_MEMORY;
tsdbError("failed to prepare the last block iterator, since:%s %s", tstrerror(code), pReader->idStr);
return code;
}
}
SLastBlockReader* pLReader = pIter->pLastBlockReader;
pLReader->order = pReader->order;
pLReader->window = pReader->window;
pLReader->verRange = pReader->verRange;
pLReader->uid = 0;
tMergeTreeClose(&pLReader->mergeTree);
if (pLReader->pInfo == NULL) {
// here we ignore the first column, which is always be the primary timestamp column
SBlockLoadSuppInfo* pInfo = &pReader->suppInfo;
int32_t numOfStt = pReader->pTsdb->pVnode->config.sttTrigger;
pLReader->pInfo = tCreateLastBlockLoadInfo(pReader->pSchema, &pInfo->colId[1], pInfo->numOfCols - 1, numOfStt);
if (pLReader->pInfo == NULL) {
tsdbDebug("init fileset iterator failed, code:%s %s", tstrerror(terrno), pReader->idStr);
return terrno;
}
}
tsdbDebug("init fileset iterator, total files:%d %s", pIter->numOfFiles, pReader->idStr);
return TSDB_CODE_SUCCESS;
}
static int32_t filesetIteratorNext(SFilesetIter* pIter, STsdbReader* pReader, bool* hasNext) {
bool asc = ASCENDING_TRAVERSE(pIter->order);
int32_t step = asc ? 1 : -1;
pIter->index += step;
int32_t code = 0;
if ((asc && pIter->index >= pIter->numOfFiles) || ((!asc) && pIter->index < 0)) {
*hasNext = false;
return TSDB_CODE_SUCCESS;
}
SIOCostSummary* pSum = &pReader->cost;
getLastBlockLoadInfo(pIter->pLastBlockReader->pInfo, &pSum->lastBlockLoad, &pReader->cost.lastBlockLoadTime);
pIter->pLastBlockReader->uid = 0;
tMergeTreeClose(&pIter->pLastBlockReader->mergeTree);
resetLastBlockLoadInfo(pIter->pLastBlockReader->pInfo);
// check file the time range of coverage
STimeWindow win = {0};
while (1) {
if (pReader->pFileReader != NULL) {
tsdbDataFReaderClose(&pReader->pFileReader);
}
pReader->status.pCurrentFileset = (SDFileSet*)taosArrayGet(pIter->pFileList, pIter->index);
code = tsdbDataFReaderOpen(&pReader->pFileReader, pReader->pTsdb, pReader->status.pCurrentFileset);
if (code != TSDB_CODE_SUCCESS) {
goto _err;
}
pReader->cost.headFileLoad += 1;
int32_t fid = pReader->status.pCurrentFileset->fid;
tsdbFidKeyRange(fid, pReader->pTsdb->keepCfg.days, pReader->pTsdb->keepCfg.precision, &win.skey, &win.ekey);
// current file are no longer overlapped with query time window, ignore remain files
if ((asc && win.skey > pReader->window.ekey) || (!asc && win.ekey < pReader->window.skey)) {
tsdbDebug("%p remain files are not qualified for qrange:%" PRId64 "-%" PRId64 ", ignore, %s", pReader,
pReader->window.skey, pReader->window.ekey, pReader->idStr);
*hasNext = false;
return TSDB_CODE_SUCCESS;
}
if ((asc && (win.ekey < pReader->window.skey)) || ((!asc) && (win.skey > pReader->window.ekey))) {
pIter->index += step;
if ((asc && pIter->index >= pIter->numOfFiles) || ((!asc) && pIter->index < 0)) {
*hasNext = false;
return TSDB_CODE_SUCCESS;
}
continue;
}
tsdbDebug("%p file found fid:%d for qrange:%" PRId64 "-%" PRId64 ", %s", pReader, fid, pReader->window.skey,
pReader->window.ekey, pReader->idStr);
*hasNext = true;
return TSDB_CODE_SUCCESS;
}
_err:
*hasNext = false;
return code;
}
static void resetDataBlockIterator(SDataBlockIter* pIter, int32_t order) {
pIter->order = order;
pIter->index = -1;
pIter->numOfBlocks = 0;
if (pIter->blockList == NULL) {
pIter->blockList = taosArrayInit(4, sizeof(SFileDataBlockInfo));
} else {
taosArrayClear(pIter->blockList);
}
}
static void cleanupDataBlockIterator(SDataBlockIter* pIter) { taosArrayDestroy(pIter->blockList); }
static void initReaderStatus(SReaderStatus* pStatus) {
pStatus->pTableIter = NULL;
pStatus->loadFromFile = true;
}
static SSDataBlock* createResBlock(SQueryTableDataCond* pCond, int32_t capacity) {
SSDataBlock* pResBlock = createDataBlock();
if (pResBlock == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return NULL;
}
for (int32_t i = 0; i < pCond->numOfCols; ++i) {
SColumnInfoData colInfo = {0};
colInfo.info = pCond->colList[i];
blockDataAppendColInfo(pResBlock, &colInfo);
}
int32_t code = blockDataEnsureCapacity(pResBlock, capacity);
if (code != TSDB_CODE_SUCCESS) {
terrno = code;
taosMemoryFree(pResBlock);
return NULL;
}
return pResBlock;
}
static int32_t tsdbInitReaderLock(STsdbReader* pReader) {
int32_t code = -1;
qTrace("tsdb/read: %p, pre-init read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
code = taosThreadMutexInit(&pReader->readerMutex, NULL);
qTrace("tsdb/read: %p, post-init read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
return code;
}
static int32_t tsdbUninitReaderLock(STsdbReader* pReader) {
int32_t code = -1;
qTrace("tsdb/read: %p, pre-uninit read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
code = taosThreadMutexDestroy(&pReader->readerMutex);
qTrace("tsdb/read: %p, post-uninit read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
return code;
}
static int32_t tsdbAcquireReader(STsdbReader* pReader) {
int32_t code = -1;
qTrace("tsdb/read: %p, pre-take read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
code = taosThreadMutexLock(&pReader->readerMutex);
qTrace("tsdb/read: %p, post-take read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
return code;
}
static int32_t tsdbTryAcquireReader(STsdbReader* pReader) {
int32_t code = -1;
qTrace("tsdb/read: %p, pre-trytake read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
code = taosThreadMutexTryLock(&pReader->readerMutex);
qTrace("tsdb/read: %p, post-trytake read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
return code;
}
static int32_t tsdbReleaseReader(STsdbReader* pReader) {
int32_t code = -1;
qTrace("tsdb/read: %p, pre-untake read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
code = taosThreadMutexUnlock(&pReader->readerMutex);
qTrace("tsdb/read: %p, post-untake read mutex: %p, code: %d", pReader, &pReader->readerMutex, code);
return code;
}
void tsdbReleaseDataBlock(STsdbReader* pReader) {
SReaderStatus* pStatus = &pReader->status;
if (!pStatus->composedDataBlock) {
tsdbReleaseReader(pReader);
}
}
static int32_t tsdbReaderCreate(SVnode* pVnode, SQueryTableDataCond* pCond, STsdbReader** ppReader, int32_t capacity,
SSDataBlock* pResBlock, const char* idstr) {
int32_t code = 0;
int8_t level = 0;
STsdbReader* pReader = (STsdbReader*)taosMemoryCalloc(1, sizeof(*pReader));
if (pReader == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
goto _end;
}
if (VND_IS_TSMA(pVnode)) {
tsdbDebug("vgId:%d, tsma is selected to query, %s", TD_VID(pVnode), idstr);
}
initReaderStatus(&pReader->status);
pReader->pTsdb = getTsdbByRetentions(pVnode, pCond->twindows.skey, pVnode->config.tsdbCfg.retentions, idstr, &level);
pReader->suid = pCond->suid;
pReader->order = pCond->order;
pReader->capacity = capacity;
pReader->pResBlock = pResBlock;
pReader->idStr = (idstr != NULL) ? taosStrdup(idstr) : NULL;
pReader->verRange = getQueryVerRange(pVnode, pCond, level);
pReader->type = pCond->type;
pReader->window = updateQueryTimeWindow(pReader->pTsdb, &pCond->twindows);
pReader->blockInfoBuf.numPerBucket = 1000; // 1000 tables per bucket
if (pReader->pResBlock == NULL) {
pReader->freeBlock = true;
pReader->pResBlock = createResBlock(pCond, pReader->capacity);
if (pReader->pResBlock == NULL) {
code = terrno;
goto _end;
}
}
if (pCond->numOfCols <= 0) {
tsdbError("vgId:%d, invalid column number %d in query cond, %s", TD_VID(pVnode), pCond->numOfCols, idstr);
code = TSDB_CODE_INVALID_PARA;
goto _end;
}
// allocate buffer in order to load data blocks from file
SBlockLoadSuppInfo* pSup = &pReader->suppInfo;
pSup->pColAgg = taosArrayInit(pCond->numOfCols, sizeof(SColumnDataAgg));
if (pSup->pColAgg == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
goto _end;
}
pSup->tsColAgg.colId = PRIMARYKEY_TIMESTAMP_COL_ID;
code = tBlockDataCreate(&pReader->status.fileBlockData);
if (code != TSDB_CODE_SUCCESS) {
terrno = code;
goto _end;
}
setColumnIdSlotList(pSup, pCond->colList, pCond->pSlotList, pCond->numOfCols);
tsdbInitReaderLock(pReader);
*ppReader = pReader;
return code;
_end:
tsdbReaderClose(pReader);
*ppReader = NULL;
return code;
}
static int32_t doLoadBlockIndex(STsdbReader* pReader, SDataFReader* pFileReader, SArray* pIndexList) {
int64_t st = taosGetTimestampUs();
LRUHandle* handle = NULL;
int32_t code = tsdbCacheGetBlockIdx(pFileReader->pTsdb->biCache, pFileReader, &handle);
if (code != TSDB_CODE_SUCCESS || handle == NULL) {
goto _end;
}
int32_t numOfTables = taosHashGetSize(pReader->status.pTableMap);
SArray* aBlockIdx = (SArray*)taosLRUCacheValue(pFileReader->pTsdb->biCache, handle);
size_t num = taosArrayGetSize(aBlockIdx);
if (num == 0) {
tsdbBICacheRelease(pFileReader->pTsdb->biCache, handle);
return TSDB_CODE_SUCCESS;
}
// todo binary search to the start position
int64_t et1 = taosGetTimestampUs();
SBlockIdx* pBlockIdx = NULL;
STableUidList* pList = &pReader->status.uidList;
int32_t i = 0, j = 0;
while (i < num && j < numOfTables) {
pBlockIdx = (SBlockIdx*)taosArrayGet(aBlockIdx, i);
if (pBlockIdx->suid != pReader->suid) {
i += 1;
continue;
}
if (pBlockIdx->uid < pList->tableUidList[j]) {
i += 1;
continue;
}
if (pBlockIdx->uid > pList->tableUidList[j]) {
j += 1;
continue;
}
if (pBlockIdx->uid == pList->tableUidList[j]) {
// this block belongs to a table that is not queried.
STableBlockScanInfo* pScanInfo = getTableBlockScanInfo(pReader->status.pTableMap, pBlockIdx->uid, pReader->idStr);
if (pScanInfo == NULL) {
return terrno;
}
if (pScanInfo->pBlockList == NULL) {
pScanInfo->pBlockList = taosArrayInit(4, sizeof(SBlockIndex));
}
taosArrayPush(pIndexList, pBlockIdx);
i += 1;
j += 1;
}
}
int64_t et2 = taosGetTimestampUs();
tsdbDebug("load block index for %d/%d tables completed, elapsed time:%.2f ms, set blockIdx:%.2f ms, size:%.2f Kb %s",
numOfTables, (int32_t)num, (et1 - st) / 1000.0, (et2 - et1) / 1000.0, num * sizeof(SBlockIdx) / 1024.0,
pReader->idStr);
pReader->cost.headFileLoadTime += (et1 - st) / 1000.0;
_end:
tsdbBICacheRelease(pFileReader->pTsdb->biCache, handle);
return code;
}
static void cleanupTableScanInfo(SHashObj* pTableMap) {
STableBlockScanInfo** px = NULL;
while (1) {
px = taosHashIterate(pTableMap, px);
if (px == NULL) {
break;
}
// reset the index in last block when handing a new file
tMapDataClear(&(*px)->mapData);
taosArrayClear((*px)->pBlockList);
}
}
static int32_t doLoadFileBlock(STsdbReader* pReader, SArray* pIndexList, SBlockNumber* pBlockNum) {
int32_t numOfQTable = 0;
size_t sizeInDisk = 0;
size_t numOfTables = taosArrayGetSize(pIndexList);
int64_t st = taosGetTimestampUs();
cleanupTableScanInfo(pReader->status.pTableMap);
for (int32_t i = 0; i < numOfTables; ++i) {
SBlockIdx* pBlockIdx = taosArrayGet(pIndexList, i);
STableBlockScanInfo* pScanInfo = getTableBlockScanInfo(pReader->status.pTableMap, pBlockIdx->uid, pReader->idStr);
if (pScanInfo == NULL) {
return terrno;
}
tMapDataReset(&pScanInfo->mapData);
tsdbReadDataBlk(pReader->pFileReader, pBlockIdx, &pScanInfo->mapData);
taosArrayEnsureCap(pScanInfo->pBlockList, pScanInfo->mapData.nItem);
sizeInDisk += pScanInfo->mapData.nData;
int32_t step = ASCENDING_TRAVERSE(pReader->order) ? 1 : -1;
STimeWindow w = pReader->window;
if (ASCENDING_TRAVERSE(pReader->order)) {
w.skey = pScanInfo->lastKey + step;
} else {
w.ekey = pScanInfo->lastKey + step;
}
if (isEmptyQueryTimeWindow(&w)) {
continue;
}
SDataBlk block = {0};
for (int32_t j = 0; j < pScanInfo->mapData.nItem; ++j) {
tGetDataBlk(pScanInfo->mapData.pData + pScanInfo->mapData.aOffset[j], &block);
// 1. time range check
// if (block.minKey.ts > pReader->window.ekey || block.maxKey.ts < pReader->window.skey) {
if (block.minKey.ts > w.ekey || block.maxKey.ts < w.skey) {
continue;
}
// 2. version range check
if (block.minVer > pReader->verRange.maxVer || block.maxVer < pReader->verRange.minVer) {
continue;
}
SBlockIndex bIndex = {.ordinalIndex = j, .inFileOffset = block.aSubBlock->offset};
bIndex.window = (STimeWindow){.skey = block.minKey.ts, .ekey = block.maxKey.ts};
void* p1 = taosArrayPush(pScanInfo->pBlockList, &bIndex);
if (p1 == NULL) {
tMapDataClear(&pScanInfo->mapData);
return TSDB_CODE_OUT_OF_MEMORY;
}
pBlockNum->numOfBlocks += 1;
}
if (taosArrayGetSize(pScanInfo->pBlockList) > 0) {
numOfQTable += 1;
}
}
pBlockNum->numOfLastFiles = pReader->pFileReader->pSet->nSttF;
int32_t total = pBlockNum->numOfLastFiles + pBlockNum->numOfBlocks;
double el = (taosGetTimestampUs() - st) / 1000.0;
tsdbDebug(
"load block of %ld tables completed, blocks:%d in %d tables, last-files:%d, block-info-size:%.2f Kb, elapsed "
"time:%.2f ms %s",
numOfTables, pBlockNum->numOfBlocks, numOfQTable, pBlockNum->numOfLastFiles, sizeInDisk / 1000.0, el,
pReader->idStr);
pReader->cost.numOfBlocks += total;
pReader->cost.headFileLoadTime += el;
return TSDB_CODE_SUCCESS;
}
static void setBlockAllDumped(SFileBlockDumpInfo* pDumpInfo, int64_t maxKey, int32_t order) {
int32_t step = ASCENDING_TRAVERSE(order) ? 1 : -1;
pDumpInfo->allDumped = true;
pDumpInfo->lastKey = maxKey + step;
}
static void doCopyColVal(SColumnInfoData* pColInfoData, int32_t rowIndex, int32_t colIndex, SColVal* pColVal,
SBlockLoadSuppInfo* pSup) {
if (IS_VAR_DATA_TYPE(pColVal->type)) {
if (!COL_VAL_IS_VALUE(pColVal)) {
colDataSetNULL(pColInfoData, rowIndex);
} else {
varDataSetLen(pSup->buildBuf[colIndex], pColVal->value.nData);
ASSERT(pColVal->value.nData <= pColInfoData->info.bytes);
if (pColVal->value.nData > 0) { // pData may be null, if nData is 0
memcpy(varDataVal(pSup->buildBuf[colIndex]), pColVal->value.pData, pColVal->value.nData);
}
colDataSetVal(pColInfoData, rowIndex, pSup->buildBuf[colIndex], false);
}
} else {
colDataSetVal(pColInfoData, rowIndex, (const char*)&pColVal->value, !COL_VAL_IS_VALUE(pColVal));
}
}
static SFileDataBlockInfo* getCurrentBlockInfo(SDataBlockIter* pBlockIter) {
size_t num = taosArrayGetSize(pBlockIter->blockList);
if (num == 0) {
ASSERT(pBlockIter->numOfBlocks == num);
return NULL;
}
SFileDataBlockInfo* pBlockInfo = taosArrayGet(pBlockIter->blockList, pBlockIter->index);
return pBlockInfo;
}
static SDataBlk* getCurrentBlock(SDataBlockIter* pBlockIter) { return &pBlockIter->block; }
static int doBinarySearchKey(TSKEY* keyList, int num, int pos, TSKEY key, int order) {
// start end position
int s, e;
s = pos;
// check
ASSERT(pos >= 0 && pos < num && num > 0);
if (order == TSDB_ORDER_ASC) {
// find the first position which is smaller than the key
e = num - 1;
if (key < keyList[pos]) return -1;
while (1) {
// check can return
if (key >= keyList[e]) return e;
if (key <= keyList[s]) return s;
if (e - s <= 1) return s;
// change start or end position
int mid = s + (e - s + 1) / 2;
if (keyList[mid] > key)
e = mid;
else if (keyList[mid] < key)
s = mid;
else
return mid;
}
} else { // DESC
// find the first position which is bigger than the key
e = 0;
if (key > keyList[pos]) return -1;
while (1) {
// check can return
if (key <= keyList[e]) return e;
if (key >= keyList[s]) return s;
if (s - e <= 1) return s;
// change start or end position
int mid = s - (s - e + 1) / 2;
if (keyList[mid] < key)
e = mid;
else if (keyList[mid] > key)
s = mid;
else
return mid;
}
}
}
static int32_t getEndPosInDataBlock(STsdbReader* pReader, SBlockData* pBlockData, SDataBlk* pBlock, int32_t pos) {
// NOTE: reverse the order to find the end position in data block
int32_t endPos = -1;
bool asc = ASCENDING_TRAVERSE(pReader->order);
if (asc && pReader->window.ekey >= pBlock->maxKey.ts) {
endPos = pBlock->nRow - 1;
} else if (!asc && pReader->window.skey <= pBlock->minKey.ts) {
endPos = 0;
} else {
int64_t key = asc ? pReader->window.ekey : pReader->window.skey;
endPos = doBinarySearchKey(pBlockData->aTSKEY, pBlock->nRow, pos, key, pReader->order);
}
return endPos;
}
static void copyPrimaryTsCol(const SBlockData* pBlockData, SFileBlockDumpInfo* pDumpInfo, SColumnInfoData* pColData,
int32_t dumpedRows, bool asc) {
if (asc) {
memcpy(pColData->pData, &pBlockData->aTSKEY[pDumpInfo->rowIndex], dumpedRows * sizeof(int64_t));
} else {
int32_t startIndex = pDumpInfo->rowIndex - dumpedRows + 1;
memcpy(pColData->pData, &pBlockData->aTSKEY[startIndex], dumpedRows * sizeof(int64_t));
// todo: opt perf by extract the loop
// reverse the array list
int32_t mid = dumpedRows >> 1u;
int64_t* pts = (int64_t*)pColData->pData;
for (int32_t j = 0; j < mid; ++j) {
int64_t t = pts[j];
pts[j] = pts[dumpedRows - j - 1];
pts[dumpedRows - j - 1] = t;
}
}
}
// a faster version of copy procedure.
static void copyNumericCols(const SColData* pData, SFileBlockDumpInfo* pDumpInfo, SColumnInfoData* pColData,
int32_t dumpedRows, bool asc) {
uint8_t* p = NULL;
if (asc) {
p = pData->pData + tDataTypes[pData->type].bytes * pDumpInfo->rowIndex;
} else {
int32_t startIndex = pDumpInfo->rowIndex - dumpedRows + 1;
p = pData->pData + tDataTypes[pData->type].bytes * startIndex;
}
int32_t step = asc ? 1 : -1;
// make sure it is aligned to 8bit, the allocated memory address is aligned to 256bit
// ASSERT((((uint64_t)pColData->pData) & (0x8 - 1)) == 0);
// 1. copy data in a batch model
memcpy(pColData->pData, p, dumpedRows * tDataTypes[pData->type].bytes);
// 2. reverse the array list in case of descending order scan data block
if (!asc) {
switch (pColData->info.type) {
case TSDB_DATA_TYPE_TIMESTAMP:
case TSDB_DATA_TYPE_DOUBLE:
case TSDB_DATA_TYPE_BIGINT:
case TSDB_DATA_TYPE_UBIGINT: {
int32_t mid = dumpedRows >> 1u;
int64_t* pts = (int64_t*)pColData->pData;
for (int32_t j = 0; j < mid; ++j) {
int64_t t = pts[j];
pts[j] = pts[dumpedRows - j - 1];
pts[dumpedRows - j - 1] = t;
}
break;
}
case TSDB_DATA_TYPE_BOOL:
case TSDB_DATA_TYPE_TINYINT:
case TSDB_DATA_TYPE_UTINYINT: {
int32_t mid = dumpedRows >> 1u;
int8_t* pts = (int8_t*)pColData->pData;
for (int32_t j = 0; j < mid; ++j) {
int8_t t = pts[j];
pts[j] = pts[dumpedRows - j - 1];
pts[dumpedRows - j - 1] = t;
}
break;
}
case TSDB_DATA_TYPE_SMALLINT:
case TSDB_DATA_TYPE_USMALLINT: {
int32_t mid = dumpedRows >> 1u;
int16_t* pts = (int16_t*)pColData->pData;
for (int32_t j = 0; j < mid; ++j) {
int64_t t = pts[j];
pts[j] = pts[dumpedRows - j - 1];
pts[dumpedRows - j - 1] = t;
}
break;
}
case TSDB_DATA_TYPE_FLOAT:
case TSDB_DATA_TYPE_INT:
case TSDB_DATA_TYPE_UINT: {
int32_t mid = dumpedRows >> 1u;
int32_t* pts = (int32_t*)pColData->pData;
for (int32_t j = 0; j < mid; ++j) {
int32_t t = pts[j];
pts[j] = pts[dumpedRows - j - 1];
pts[dumpedRows - j - 1] = t;
}
break;
}
}
}
// 3. if the null value exists, check items one-by-one
if (pData->flag != HAS_VALUE) {
int32_t rowIndex = 0;
for (int32_t j = pDumpInfo->rowIndex; rowIndex < dumpedRows; j += step, rowIndex++) {
uint8_t v = tColDataGetBitValue(pData, j);
if (v == 0 || v == 1) {
colDataSetNull_f(pColData->nullbitmap, rowIndex);
pColData->hasNull = true;
}
}
}
}
static int32_t copyBlockDataToSDataBlock(STsdbReader* pReader) {
SReaderStatus* pStatus = &pReader->status;
SDataBlockIter* pBlockIter = &pStatus->blockIter;
SBlockLoadSuppInfo* pSupInfo = &pReader->suppInfo;
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
SBlockData* pBlockData = &pStatus->fileBlockData;
SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(pBlockIter);
SDataBlk* pBlock = getCurrentBlock(pBlockIter);
SSDataBlock* pResBlock = pReader->pResBlock;
int32_t numOfOutputCols = pSupInfo->numOfCols;
SColVal cv = {0};
int64_t st = taosGetTimestampUs();
bool asc = ASCENDING_TRAVERSE(pReader->order);
int32_t step = asc ? 1 : -1;
// no data exists, return directly.
if (pBlockData->nRow == 0 || pBlockData->aTSKEY == 0) {
tsdbWarn("%p no need to copy since no data in blockData, table uid:%" PRIu64 " has been dropped, %s", pReader,
pBlockInfo->uid, pReader->idStr);
pResBlock->info.rows = 0;
return 0;
}
if ((pDumpInfo->rowIndex == 0 && asc) || (pDumpInfo->rowIndex == pBlock->nRow - 1 && (!asc))) {
if (asc && pReader->window.skey <= pBlock->minKey.ts) {
// pDumpInfo->rowIndex = 0;
} else if (!asc && pReader->window.ekey >= pBlock->maxKey.ts) {
// pDumpInfo->rowIndex = pBlock->nRow - 1;
} else { // find the appropriate the start position in current block, and set it to be the current rowIndex
int32_t pos = asc ? pBlock->nRow - 1 : 0;
int32_t order = asc ? TSDB_ORDER_DESC : TSDB_ORDER_ASC;
int64_t key = asc ? pReader->window.skey : pReader->window.ekey;
pDumpInfo->rowIndex = doBinarySearchKey(pBlockData->aTSKEY, pBlock->nRow, pos, key, order);
if (pDumpInfo->rowIndex < 0) {
tsdbError(
"%p failed to locate the start position in current block, global index:%d, table index:%d, brange:%" PRId64
"-%" PRId64 ", minVer:%" PRId64 ", maxVer:%" PRId64 " %s",
pReader, pBlockIter->index, pBlockInfo->tbBlockIdx, pBlock->minKey.ts, pBlock->maxKey.ts, pBlock->minVer,
pBlock->maxVer, pReader->idStr);
return TSDB_CODE_INVALID_PARA;
}
}
}
// time window check
int32_t endIndex = getEndPosInDataBlock(pReader, pBlockData, pBlock, pDumpInfo->rowIndex);
if (endIndex == -1) {
setBlockAllDumped(pDumpInfo, pReader->window.ekey, pReader->order);
return TSDB_CODE_SUCCESS;
}
endIndex += step;
int32_t dumpedRows = asc ? (endIndex - pDumpInfo->rowIndex) : (pDumpInfo->rowIndex - endIndex);
if (dumpedRows > pReader->capacity) { // output buffer check
dumpedRows = pReader->capacity;
}
int32_t i = 0;
int32_t rowIndex = 0;
SColumnInfoData* pColData = taosArrayGet(pResBlock->pDataBlock, pSupInfo->slotId[i]);
if (pSupInfo->colId[i] == PRIMARYKEY_TIMESTAMP_COL_ID) {
copyPrimaryTsCol(pBlockData, pDumpInfo, pColData, dumpedRows, asc);
i += 1;
}
int32_t colIndex = 0;
int32_t num = pBlockData->nColData;
while (i < numOfOutputCols && colIndex < num) {
rowIndex = 0;
SColData* pData = tBlockDataGetColDataByIdx(pBlockData, colIndex);
if (pData->cid < pSupInfo->colId[i]) {
colIndex += 1;
} else if (pData->cid == pSupInfo->colId[i]) {
pColData = taosArrayGet(pResBlock->pDataBlock, pSupInfo->slotId[i]);
if (pData->flag == HAS_NONE || pData->flag == HAS_NULL || pData->flag == (HAS_NULL | HAS_NONE)) {
colDataSetNNULL(pColData, 0, dumpedRows);
} else {
if (IS_MATHABLE_TYPE(pColData->info.type)) {
copyNumericCols(pData, pDumpInfo, pColData, dumpedRows, asc);
} else { // varchar/nchar type
for (int32_t j = pDumpInfo->rowIndex; rowIndex < dumpedRows; j += step) {
tColDataGetValue(pData, j, &cv);
doCopyColVal(pColData, rowIndex++, i, &cv, pSupInfo);
}
}
}
colIndex += 1;
i += 1;
} else { // the specified column does not exist in file block, fill with null data
pColData = taosArrayGet(pResBlock->pDataBlock, pSupInfo->slotId[i]);
colDataSetNNULL(pColData, 0, dumpedRows);
i += 1;
}
}
// fill the mis-matched columns with null value
while (i < numOfOutputCols) {
pColData = taosArrayGet(pResBlock->pDataBlock, pSupInfo->slotId[i]);
colDataSetNNULL(pColData, 0, dumpedRows);
i += 1;
}
pResBlock->info.dataLoad = 1;
pResBlock->info.rows = dumpedRows;
pDumpInfo->rowIndex += step * dumpedRows;
// check if current block are all handled
if (pDumpInfo->rowIndex >= 0 && pDumpInfo->rowIndex < pBlock->nRow) {
int64_t ts = pBlockData->aTSKEY[pDumpInfo->rowIndex];
if (outOfTimeWindow(ts, &pReader->window)) { // the remain data has out of query time window, ignore current block
setBlockAllDumped(pDumpInfo, ts, pReader->order);
}
} else {
int64_t ts = asc ? pBlock->maxKey.ts : pBlock->minKey.ts;
setBlockAllDumped(pDumpInfo, ts, pReader->order);
}
double elapsedTime = (taosGetTimestampUs() - st) / 1000.0;
pReader->cost.blockLoadTime += elapsedTime;
int32_t unDumpedRows = asc ? pBlock->nRow - pDumpInfo->rowIndex : pDumpInfo->rowIndex + 1;
tsdbDebug("%p copy file block to sdatablock, global index:%d, table index:%d, brange:%" PRId64 "-%" PRId64
", rows:%d, remain:%d, minVer:%" PRId64 ", maxVer:%" PRId64 ", uid:%" PRIu64 " elapsed time:%.2f ms, %s",
pReader, pBlockIter->index, pBlockInfo->tbBlockIdx, pBlock->minKey.ts, pBlock->maxKey.ts, dumpedRows,
unDumpedRows, pBlock->minVer, pBlock->maxVer, pBlockInfo->uid, elapsedTime, pReader->idStr);
return TSDB_CODE_SUCCESS;
}
static int32_t doLoadFileBlockData(STsdbReader* pReader, SDataBlockIter* pBlockIter, SBlockData* pBlockData,
uint64_t uid) {
int32_t code = 0;
int64_t st = taosGetTimestampUs();
tBlockDataReset(pBlockData);
STSchema* pSchema = getLatestTableSchema(pReader, uid);
if (pSchema == NULL) {
tsdbDebug("%p table uid:%" PRIu64 " has been dropped, no data existed, %s", pReader, uid, pReader->idStr);
return code;
}
SBlockLoadSuppInfo* pSup = &pReader->suppInfo;
TABLEID tid = {.suid = pReader->suid, .uid = uid};
code = tBlockDataInit(pBlockData, &tid, pSchema, &pSup->colId[1], pSup->numOfCols - 1);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(pBlockIter);
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
SDataBlk* pBlock = getCurrentBlock(pBlockIter);
code = tsdbReadDataBlock(pReader->pFileReader, pBlock, pBlockData);
if (code != TSDB_CODE_SUCCESS) {
tsdbError("%p error occurs in loading file block, global index:%d, table index:%d, brange:%" PRId64 "-%" PRId64
", rows:%d, code:%s %s",
pReader, pBlockIter->index, pBlockInfo->tbBlockIdx, pBlock->minKey.ts, pBlock->maxKey.ts, pBlock->nRow,
tstrerror(code), pReader->idStr);
return code;
}
double elapsedTime = (taosGetTimestampUs() - st) / 1000.0;
tsdbDebug("%p load file block into buffer, global index:%d, index in table block list:%d, brange:%" PRId64 "-%" PRId64
", rows:%d, minVer:%" PRId64 ", maxVer:%" PRId64 ", elapsed time:%.2f ms, %s",
pReader, pBlockIter->index, pBlockInfo->tbBlockIdx, pBlock->minKey.ts, pBlock->maxKey.ts, pBlock->nRow,
pBlock->minVer, pBlock->maxVer, elapsedTime, pReader->idStr);
pReader->cost.blockLoadTime += elapsedTime;
pDumpInfo->allDumped = false;
return TSDB_CODE_SUCCESS;
}
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) {
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->offset > pRightBlock->offset ? 1 : -1;
}
static int32_t doSetCurrentBlock(SDataBlockIter* pBlockIter, const char* idStr) {
SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(pBlockIter);
if (pBlockInfo != NULL) {
STableBlockScanInfo* pScanInfo = getTableBlockScanInfo(pBlockIter->pTableMap, pBlockInfo->uid, idStr);
if (pScanInfo == NULL) {
return terrno;
}
SBlockIndex* pIndex = taosArrayGet(pScanInfo->pBlockList, pBlockInfo->tbBlockIdx);
tMapDataGetItemByIdx(&pScanInfo->mapData, pIndex->ordinalIndex, &pBlockIter->block, tGetDataBlk);
}
#if 0
qDebug("check file block, table uid:%"PRIu64" index:%d offset:%"PRId64", ", pScanInfo->uid, *mapDataIndex, pBlockIter->block.aSubBlock[0].offset);
#endif
return TSDB_CODE_SUCCESS;
}
static int32_t initBlockIterator(STsdbReader* pReader, SDataBlockIter* pBlockIter, int32_t numOfBlocks) {
bool asc = ASCENDING_TRAVERSE(pReader->order);
SBlockOrderSupporter sup = {0};
pBlockIter->numOfBlocks = numOfBlocks;
taosArrayClear(pBlockIter->blockList);
pBlockIter->pTableMap = pReader->status.pTableMap;
// access data blocks according to the offset of each block in asc/desc order.
int32_t numOfTables = (int32_t)taosHashGetSize(pReader->status.pTableMap);
int64_t st = taosGetTimestampUs();
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_OUT_OF_MEMORY;
}
sup.pDataBlockInfo[sup.numOfTables] = (SBlockOrderWrapper*)buf;
for (int32_t k = 0; k < num; ++k) {
SBlockIndex* pIndex = taosArrayGet(pTableScanInfo->pBlockList, k);
sup.pDataBlockInfo[sup.numOfTables][k] =
(SBlockOrderWrapper){.uid = pTableScanInfo->uid, .offset = pIndex->inFileOffset};
cnt++;
}
sup.numOfTables += 1;
}
if (numOfBlocks != cnt && sup.numOfTables != numOfTables) {
cleanupBlockOrderSupporter(&sup);
return TSDB_CODE_INVALID_PARA;
}
// 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);
}
int64_t et = taosGetTimestampUs();
tsdbDebug("%p create blocks info struct completed for one table, %d blocks not sorted, elapsed time:%.2f ms %s",
pReader, numOfBlocks, (et - st) / 1000.0, pReader->idStr);
pBlockIter->index = asc ? 0 : (numOfBlocks - 1);
cleanupBlockOrderSupporter(&sup);
doSetCurrentBlock(pBlockIter, pReader->idStr);
return TSDB_CODE_SUCCESS;
}
tsdbDebug("%p create data blocks info struct completed, %d blocks in %d tables %s", pReader, cnt, sup.numOfTables,
pReader->idStr);
SMultiwayMergeTreeInfo* pTree = NULL;
uint8_t ret = tMergeTreeCreate(&pTree, sup.numOfTables, &sup, fileDataBlockOrderCompar);
if (ret != TSDB_CODE_SUCCESS) {
cleanupBlockOrderSupporter(&sup);
return TSDB_CODE_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));
}
int64_t et = taosGetTimestampUs();
tsdbDebug("%p %d data blocks access order completed, elapsed time:%.2f ms %s", pReader, numOfBlocks,
(et - st) / 1000.0, pReader->idStr);
cleanupBlockOrderSupporter(&sup);
taosMemoryFree(pTree);
pBlockIter->index = asc ? 0 : (numOfBlocks - 1);
doSetCurrentBlock(pBlockIter, pReader->idStr);
return TSDB_CODE_SUCCESS;
}
static bool blockIteratorNext(SDataBlockIter* pBlockIter, const char* idStr) {
bool asc = ASCENDING_TRAVERSE(pBlockIter->order);
int32_t step = asc ? 1 : -1;
if ((pBlockIter->index >= pBlockIter->numOfBlocks - 1 && asc) || (pBlockIter->index <= 0 && (!asc))) {
return false;
}
pBlockIter->index += step;
doSetCurrentBlock(pBlockIter, idStr);
return true;
}
/**
* This is an two rectangles overlap cases.
*/
static int32_t dataBlockPartiallyRequired(STimeWindow* pWindow, SVersionRange* pVerRange, SDataBlk* pBlock) {
return (pWindow->ekey < pBlock->maxKey.ts && pWindow->ekey >= pBlock->minKey.ts) ||
(pWindow->skey > pBlock->minKey.ts && pWindow->skey <= pBlock->maxKey.ts) ||
(pVerRange->minVer > pBlock->minVer && pVerRange->minVer <= pBlock->maxVer) ||
(pVerRange->maxVer < pBlock->maxVer && pVerRange->maxVer >= pBlock->minVer);
}
static bool getNeighborBlockOfSameTable(SFileDataBlockInfo* pBlockInfo, STableBlockScanInfo* pTableBlockScanInfo,
int32_t* nextIndex, int32_t order, SBlockIndex* pBlockIndex) {
bool asc = ASCENDING_TRAVERSE(order);
if (asc && pBlockInfo->tbBlockIdx >= taosArrayGetSize(pTableBlockScanInfo->pBlockList) - 1) {
return false;
}
if (!asc && pBlockInfo->tbBlockIdx == 0) {
return false;
}
int32_t step = asc ? 1 : -1;
*nextIndex = pBlockInfo->tbBlockIdx + step;
*pBlockIndex = *(SBlockIndex*)taosArrayGet(pTableBlockScanInfo->pBlockList, *nextIndex);
// tMapDataGetItemByIdx(&pTableBlockScanInfo->mapData, pIndex->ordinalIndex, pBlock, tGetDataBlk);
return true;
}
static int32_t findFileBlockInfoIndex(SDataBlockIter* pBlockIter, SFileDataBlockInfo* pFBlockInfo) {
int32_t step = ASCENDING_TRAVERSE(pBlockIter->order) ? 1 : -1;
int32_t index = pBlockIter->index;
while (index < pBlockIter->numOfBlocks && index >= 0) {
SFileDataBlockInfo* pFBlock = taosArrayGet(pBlockIter->blockList, index);
if (pFBlock->uid == pFBlockInfo->uid && pFBlock->tbBlockIdx == pFBlockInfo->tbBlockIdx) {
return index;
}
index += step;
}
return -1;
}
static int32_t setFileBlockActiveInBlockIter(SDataBlockIter* pBlockIter, int32_t index, int32_t step) {
if (index < 0 || index >= pBlockIter->numOfBlocks) {
return -1;
}
SFileDataBlockInfo fblock = *(SFileDataBlockInfo*)taosArrayGet(pBlockIter->blockList, index);
pBlockIter->index += step;
if (index != pBlockIter->index) {
taosArrayRemove(pBlockIter->blockList, index);
taosArrayInsert(pBlockIter->blockList, pBlockIter->index, &fblock);
SFileDataBlockInfo* pBlockInfo = taosArrayGet(pBlockIter->blockList, pBlockIter->index);
ASSERT(pBlockInfo->uid == fblock.uid && pBlockInfo->tbBlockIdx == fblock.tbBlockIdx);
}
doSetCurrentBlock(pBlockIter, "");
return TSDB_CODE_SUCCESS;
}
// todo: this attribute could be acquired during extractin the global ordered block list.
static bool overlapWithNeighborBlock(SDataBlk* pBlock, SBlockIndex* pNeighborBlockIndex, int32_t order) {
// it is the last block in current file, no chance to overlap with neighbor blocks.
if (ASCENDING_TRAVERSE(order)) {
return pBlock->maxKey.ts == pNeighborBlockIndex->window.skey;
} else {
return pBlock->minKey.ts == pNeighborBlockIndex->window.ekey;
}
}
static bool bufferDataInFileBlockGap(int32_t order, TSDBKEY key, SDataBlk* 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, SDataBlk* pBlock, SVersionRange* pVerRange) {
return (key.ts >= pBlock->minKey.ts && key.ts <= pBlock->maxKey.ts) && (pBlock->maxVer >= pVerRange->minVer) &&
(pBlock->minVer <= pVerRange->maxVer);
}
static bool doCheckforDatablockOverlap(STableBlockScanInfo* pBlockScanInfo, const SDataBlk* pBlock,
int32_t startIndex) {
size_t num = taosArrayGetSize(pBlockScanInfo->delSkyline);
for (int32_t i = startIndex; i < num; i += 1) {
TSDBKEY* p = taosArrayGet(pBlockScanInfo->delSkyline, i);
if (p->ts >= pBlock->minKey.ts && p->ts <= pBlock->maxKey.ts) {
if (p->version >= pBlock->minVer) {
return true;
}
} else if (p->ts < pBlock->minKey.ts) { // p->ts < pBlock->minKey.ts
if (p->version >= pBlock->minVer) {
if (i < num - 1) {
TSDBKEY* pnext = taosArrayGet(pBlockScanInfo->delSkyline, i + 1);
if (pnext->ts >= pBlock->minKey.ts) {
return true;
}
} else { // it must be the last point
ASSERT(p->version == 0);
}
}
} else { // (p->ts > pBlock->maxKey.ts) {
return false;
}
}
return false;
}
static bool overlapWithDelSkyline(STableBlockScanInfo* pBlockScanInfo, const SDataBlk* pBlock, int32_t order) {
if (pBlockScanInfo->delSkyline == NULL) {
return false;
}
// ts is not overlap
TSDBKEY* pFirst = taosArrayGet(pBlockScanInfo->delSkyline, 0);
TSDBKEY* pLast = taosArrayGetLast(pBlockScanInfo->delSkyline);
if (pBlock->minKey.ts > pLast->ts || pBlock->maxKey.ts < pFirst->ts) {
return false;
}
// version is not overlap
if (ASCENDING_TRAVERSE(order)) {
return doCheckforDatablockOverlap(pBlockScanInfo, pBlock, pBlockScanInfo->fileDelIndex);
} else {
int32_t index = pBlockScanInfo->fileDelIndex;
while (1) {
TSDBKEY* p = taosArrayGet(pBlockScanInfo->delSkyline, index);
if (p->ts > pBlock->minKey.ts && index > 0) {
index -= 1;
} else { // find the first point that is smaller than the minKey.ts of dataBlock.
break;
}
}
return doCheckforDatablockOverlap(pBlockScanInfo, pBlock, index);
}
}
typedef struct {
bool overlapWithNeighborBlock;
bool hasDupTs;
bool overlapWithDelInfo;
bool overlapWithLastBlock;
bool overlapWithKeyInBuf;
bool partiallyRequired;
bool moreThanCapcity;
} SDataBlockToLoadInfo;
static void getBlockToLoadInfo(SDataBlockToLoadInfo* pInfo, SFileDataBlockInfo* pBlockInfo, SDataBlk* pBlock,
STableBlockScanInfo* pScanInfo, TSDBKEY keyInBuf, SLastBlockReader* pLastBlockReader,
STsdbReader* pReader) {
int32_t neighborIndex = 0;
SBlockIndex bIndex = {0};
bool hasNeighbor = getNeighborBlockOfSameTable(pBlockInfo, pScanInfo, &neighborIndex, pReader->order, &bIndex);
// overlap with neighbor
if (hasNeighbor) {
pInfo->overlapWithNeighborBlock = overlapWithNeighborBlock(pBlock, &bIndex, pReader->order);
}
// has duplicated ts of different version in this block
pInfo->hasDupTs = (pBlock->nSubBlock == 1) ? pBlock->hasDup : true;
pInfo->overlapWithDelInfo = overlapWithDelSkyline(pScanInfo, pBlock, pReader->order);
if (hasDataInLastBlock(pLastBlockReader)) {
int64_t tsLast = getCurrentKeyInLastBlock(pLastBlockReader);
pInfo->overlapWithLastBlock = !(pBlock->maxKey.ts < tsLast || pBlock->minKey.ts > tsLast);
}
pInfo->moreThanCapcity = pBlock->nRow > pReader->capacity;
pInfo->partiallyRequired = dataBlockPartiallyRequired(&pReader->window, &pReader->verRange, pBlock);
pInfo->overlapWithKeyInBuf = keyOverlapFileBlock(keyInBuf, pBlock, &pReader->verRange);
}
// 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
// 4. output buffer should be large enough to hold all rows in current block
// 5. delete info should not overlap with current block data
// 6. current block should not contain the duplicated ts
static bool fileBlockShouldLoad(STsdbReader* pReader, SFileDataBlockInfo* pBlockInfo, SDataBlk* pBlock,
STableBlockScanInfo* pScanInfo, TSDBKEY keyInBuf, SLastBlockReader* pLastBlockReader) {
SDataBlockToLoadInfo info = {0};
getBlockToLoadInfo(&info, pBlockInfo, pBlock, pScanInfo, keyInBuf, pLastBlockReader, pReader);
bool loadDataBlock =
(info.overlapWithNeighborBlock || info.hasDupTs || info.partiallyRequired || info.overlapWithKeyInBuf ||
info.moreThanCapcity || info.overlapWithDelInfo || info.overlapWithLastBlock);
// log the reason why load the datablock for profile
if (loadDataBlock) {
tsdbDebug("%p uid:%" PRIu64
" need to load the datablock, overlapneighbor:%d, hasDup:%d, partiallyRequired:%d, "
"overlapWithKey:%d, greaterThanBuf:%d, overlapWithDel:%d, overlapWithlastBlock:%d, %s",
pReader, pBlockInfo->uid, info.overlapWithNeighborBlock, info.hasDupTs, info.partiallyRequired,
info.overlapWithKeyInBuf, info.moreThanCapcity, info.overlapWithDelInfo, info.overlapWithLastBlock,
pReader->idStr);
}
return loadDataBlock;
}
static bool isCleanFileDataBlock(STsdbReader* pReader, SFileDataBlockInfo* pBlockInfo, SDataBlk* pBlock,
STableBlockScanInfo* pScanInfo, TSDBKEY keyInBuf, SLastBlockReader* pLastBlockReader) {
SDataBlockToLoadInfo info = {0};
getBlockToLoadInfo(&info, pBlockInfo, pBlock, pScanInfo, keyInBuf, pLastBlockReader, pReader);
bool isCleanFileBlock = !(info.overlapWithNeighborBlock || info.hasDupTs || info.overlapWithKeyInBuf ||
info.overlapWithDelInfo || info.overlapWithLastBlock);
return isCleanFileBlock;
}
static int32_t buildDataBlockFromBuf(STsdbReader* pReader, STableBlockScanInfo* pBlockScanInfo, int64_t endKey) {
if (!(pBlockScanInfo->iiter.hasVal || pBlockScanInfo->iter.hasVal)) {
return TSDB_CODE_SUCCESS;
}
SSDataBlock* pBlock = pReader->pResBlock;
int64_t st = taosGetTimestampUs();
int32_t code = buildDataBlockFromBufImpl(pBlockScanInfo, endKey, pReader->capacity, pReader);
blockDataUpdateTsWindow(pBlock, pReader->suppInfo.slotId[0]);
pBlock->info.id.uid = pBlockScanInfo->uid;
setComposedBlockFlag(pReader, true);
double elapsedTime = (taosGetTimestampUs() - st) / 1000.0;
tsdbDebug("%p build data block from cache completed, elapsed time:%.2f ms, numOfRows:%d, brange:%" PRId64
" - %" PRId64 ", uid:%" PRIu64 ", %s",
pReader, elapsedTime, pBlock->info.rows, pBlock->info.window.skey, pBlock->info.window.ekey,
pBlockScanInfo->uid, pReader->idStr);
pReader->cost.buildmemBlock += elapsedTime;
return code;
}
static bool tryCopyDistinctRowFromFileBlock(STsdbReader* pReader, SBlockData* pBlockData, int64_t key,
SFileBlockDumpInfo* pDumpInfo) {
// opt version
// 1. it is not a border point
// 2. the direct next point is not an duplicated timestamp
bool asc = (pReader->order == TSDB_ORDER_ASC);
if ((pDumpInfo->rowIndex < pDumpInfo->totalRows - 1 && asc) || (pDumpInfo->rowIndex > 0 && (!asc))) {
int32_t step = pReader->order == TSDB_ORDER_ASC ? 1 : -1;
int64_t nextKey = pBlockData->aTSKEY[pDumpInfo->rowIndex + step];
if (nextKey != key) { // merge is not needed
doAppendRowFromFileBlock(pReader->pResBlock, pReader, pBlockData, pDumpInfo->rowIndex);
pDumpInfo->rowIndex += step;
return true;
}
}
return false;
}
static bool nextRowFromLastBlocks(SLastBlockReader* pLastBlockReader, STableBlockScanInfo* pScanInfo,
SVersionRange* pVerRange) {
int32_t step = ASCENDING_TRAVERSE(pLastBlockReader->order) ? 1 : -1;
while (1) {
bool hasVal = tMergeTreeNext(&pLastBlockReader->mergeTree);
if (!hasVal) { // the next value will be the accessed key in stt
pScanInfo->lastKeyInStt += step;
return false;
}
TSDBROW row = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
TSDBKEY k = TSDBROW_KEY(&row);
pScanInfo->lastKeyInStt = k.ts;
if (!hasBeenDropped(pScanInfo->delSkyline, &pScanInfo->lastBlockDelIndex, &k, pLastBlockReader->order, pVerRange)) {
// the qualifed ts may equal to k.ts, only a greater version one.
// here we need to fallback one step.
return true;
}
}
}
static bool tryCopyDistinctRowFromSttBlock(TSDBROW* fRow, SLastBlockReader* pLastBlockReader,
STableBlockScanInfo* pScanInfo, int64_t ts, STsdbReader* pReader) {
bool hasVal = nextRowFromLastBlocks(pLastBlockReader, pScanInfo, &pReader->verRange);
if (hasVal) {
int64_t next1 = getCurrentKeyInLastBlock(pLastBlockReader);
if (next1 != ts) {
doAppendRowFromFileBlock(pReader->pResBlock, pReader, fRow->pBlockData, fRow->iRow);
return true;
}
} else {
doAppendRowFromFileBlock(pReader->pResBlock, pReader, fRow->pBlockData, fRow->iRow);
return true;
}
return false;
}
static FORCE_INLINE STSchema* getLatestTableSchema(STsdbReader* pReader, uint64_t uid) {
if (pReader->pSchema != NULL) {
return pReader->pSchema;
}
pReader->pSchema = metaGetTbTSchema(pReader->pTsdb->pVnode->pMeta, uid, -1, 1);
if (pReader->pSchema == NULL) {
tsdbError("failed to get table schema, uid:%" PRIu64 ", it may have been dropped, ver:-1, %s", uid, pReader->idStr);
}
return pReader->pSchema;
}
static FORCE_INLINE STSchema* doGetSchemaForTSRow(int32_t sversion, STsdbReader* pReader, uint64_t uid) {
// always set the newest schema version in pReader->pSchema
if (pReader->pSchema == NULL) {
pReader->pSchema = metaGetTbTSchema(pReader->pTsdb->pVnode->pMeta, uid, -1, 1);
}
if (pReader->pSchema && sversion == pReader->pSchema->version) {
return pReader->pSchema;
}
if (pReader->pMemSchema == NULL) {
int32_t code =
metaGetTbTSchemaEx(pReader->pTsdb->pVnode->pMeta, pReader->suid, uid, sversion, &pReader->pMemSchema);
if (code != TSDB_CODE_SUCCESS) {
terrno = code;
return NULL;
} else {
return pReader->pMemSchema;
}
}
if (pReader->pMemSchema->version == sversion) {
return pReader->pMemSchema;
}
taosMemoryFreeClear(pReader->pMemSchema);
int32_t code = metaGetTbTSchemaEx(pReader->pTsdb->pVnode->pMeta, pReader->suid, uid, sversion, &pReader->pMemSchema);
if (code != TSDB_CODE_SUCCESS || pReader->pMemSchema == NULL) {
terrno = code;
return NULL;
} else {
return pReader->pMemSchema;
}
}
static int32_t doMergeBufAndFileRows(STsdbReader* pReader, STableBlockScanInfo* pBlockScanInfo, TSDBROW* pRow,
SIterInfo* pIter, int64_t key, SLastBlockReader* pLastBlockReader) {
SRowMerger merge = {0};
SRow* pTSRow = NULL;
SBlockData* pBlockData = &pReader->status.fileBlockData;
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
int64_t tsLast = INT64_MIN;
if (hasDataInLastBlock(pLastBlockReader)) {
tsLast = getCurrentKeyInLastBlock(pLastBlockReader);
}
TSDBKEY k = TSDBROW_KEY(pRow);
TSDBROW fRow = tsdbRowFromBlockData(pBlockData, pDumpInfo->rowIndex);
int64_t minKey = 0;
if (pReader->order == TSDB_ORDER_ASC) {
minKey = INT64_MAX; // chosen the minimum value
if (minKey > tsLast && hasDataInLastBlock(pLastBlockReader)) {
minKey = tsLast;
}
if (minKey > k.ts) {
minKey = k.ts;
}
if (minKey > key && hasDataInFileBlock(pBlockData, pDumpInfo)) {
minKey = key;
}
} else {
minKey = INT64_MIN;
if (minKey < tsLast && hasDataInLastBlock(pLastBlockReader)) {
minKey = tsLast;
}
if (minKey < k.ts) {
minKey = k.ts;
}
if (minKey < key && hasDataInFileBlock(pBlockData, pDumpInfo)) {
minKey = key;
}
}
bool init = false;
// ASC: file block ---> last block -----> imem -----> mem
// DESC: mem -----> imem -----> last block -----> file block
if (pReader->order == TSDB_ORDER_ASC) {
if (minKey == key) {
init = true;
int32_t code = tsdbRowMergerInit(&merge, &fRow, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doMergeRowsInFileBlocks(pBlockData, pBlockScanInfo, pReader, &merge);
}
if (minKey == tsLast) {
TSDBROW fRow1 = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
if (init) {
tsdbRowMerge(&merge, &fRow1);
} else {
init = true;
int32_t code = tsdbRowMergerInit(&merge, &fRow1, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
doMergeRowsInLastBlock(pLastBlockReader, pBlockScanInfo, tsLast, &merge, &pReader->verRange, pReader->idStr);
}
if (minKey == k.ts) {
STSchema* pSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(pRow), pReader, pBlockScanInfo->uid);
if (pSchema == NULL) {
return terrno;
}
if (init) {
tsdbRowMergerAdd(&merge, pRow, pSchema);
} else {
init = true;
int32_t code = tsdbRowMergerInit(&merge, pRow, pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
int32_t code = doMergeRowsInBuf(pIter, pBlockScanInfo->uid, k.ts, pBlockScanInfo->delSkyline, &merge, pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
} else {
if (minKey == k.ts) {
init = true;
STSchema* pSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(pRow), pReader, pBlockScanInfo->uid);
int32_t code = tsdbRowMergerInit(&merge, pRow, pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
code = doMergeRowsInBuf(pIter, pBlockScanInfo->uid, k.ts, pBlockScanInfo->delSkyline, &merge, pReader);
if (code != TSDB_CODE_SUCCESS || merge.pTSchema == NULL) {
return code;
}
}
if (minKey == tsLast) {
TSDBROW fRow1 = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
if (init) {
tsdbRowMerge(&merge, &fRow1);
} else {
init = true;
int32_t code = tsdbRowMergerInit(&merge, &fRow1, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
doMergeRowsInLastBlock(pLastBlockReader, pBlockScanInfo, tsLast, &merge, &pReader->verRange, pReader->idStr);
}
if (minKey == key) {
if (init) {
tsdbRowMerge(&merge, &fRow);
} else {
init = true;
int32_t code = tsdbRowMergerInit(&merge, &fRow, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
doMergeRowsInFileBlocks(pBlockData, pBlockScanInfo, pReader, &merge);
}
}
int32_t code = tsdbRowMergerGetRow(&merge, &pTSRow);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doAppendRowFromTSRow(pReader->pResBlock, pReader, pTSRow, pBlockScanInfo);
taosMemoryFree(pTSRow);
tsdbRowMergerClear(&merge);
return TSDB_CODE_SUCCESS;
}
static int32_t doMergeFileBlockAndLastBlock(SLastBlockReader* pLastBlockReader, STsdbReader* pReader,
STableBlockScanInfo* pBlockScanInfo, SBlockData* pBlockData,
bool mergeBlockData) {
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
int64_t tsLastBlock = getCurrentKeyInLastBlock(pLastBlockReader);
SRow* pTSRow = NULL;
SRowMerger merge = {0};
TSDBROW fRow = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
tsdbTrace("fRow ptr:%p, %d, uid:%" PRIu64 ", %s", fRow.pBlockData, fRow.iRow, pLastBlockReader->uid, pReader->idStr);
// only last block exists
if ((!mergeBlockData) || (tsLastBlock != pBlockData->aTSKEY[pDumpInfo->rowIndex])) {
if (tryCopyDistinctRowFromSttBlock(&fRow, pLastBlockReader, pBlockScanInfo, tsLastBlock, pReader)) {
pBlockScanInfo->lastKey = tsLastBlock;
return TSDB_CODE_SUCCESS;
} else {
int32_t code = tsdbRowMergerInit(&merge, &fRow, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
TSDBROW fRow1 = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
tsdbRowMerge(&merge, &fRow1);
doMergeRowsInLastBlock(pLastBlockReader, pBlockScanInfo, tsLastBlock, &merge, &pReader->verRange, pReader->idStr);
code = tsdbRowMergerGetRow(&merge, &pTSRow);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doAppendRowFromTSRow(pReader->pResBlock, pReader, pTSRow, pBlockScanInfo);
taosMemoryFree(pTSRow);
tsdbRowMergerClear(&merge);
}
} else { // not merge block data
int32_t code = tsdbRowMergerInit(&merge, &fRow, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doMergeRowsInLastBlock(pLastBlockReader, pBlockScanInfo, tsLastBlock, &merge, &pReader->verRange, pReader->idStr);
// merge with block data if ts == key
if (tsLastBlock == pBlockData->aTSKEY[pDumpInfo->rowIndex]) {
doMergeRowsInFileBlocks(pBlockData, pBlockScanInfo, pReader, &merge);
}
code = tsdbRowMergerGetRow(&merge, &pTSRow);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doAppendRowFromTSRow(pReader->pResBlock, pReader, pTSRow, pBlockScanInfo);
taosMemoryFree(pTSRow);
tsdbRowMergerClear(&merge);
}
return TSDB_CODE_SUCCESS;
}
static int32_t mergeFileBlockAndLastBlock(STsdbReader* pReader, SLastBlockReader* pLastBlockReader, int64_t key,
STableBlockScanInfo* pBlockScanInfo, SBlockData* pBlockData) {
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
if (hasDataInFileBlock(pBlockData, pDumpInfo)) {
// no last block available, only data block exists
if (!hasDataInLastBlock(pLastBlockReader)) {
return mergeRowsInFileBlocks(pBlockData, pBlockScanInfo, key, pReader);
}
// row in last file block
TSDBROW fRow = tsdbRowFromBlockData(pBlockData, pDumpInfo->rowIndex);
int64_t ts = getCurrentKeyInLastBlock(pLastBlockReader);
ASSERT(ts >= key);
if (ASCENDING_TRAVERSE(pReader->order)) {
if (key < ts) { // imem, mem are all empty, file blocks (data blocks and last block) exist
return mergeRowsInFileBlocks(pBlockData, pBlockScanInfo, key, pReader);
} else if (key == ts) {
SRow* pTSRow = NULL;
SRowMerger merge = {0};
int32_t code = tsdbRowMergerInit(&merge, &fRow, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doMergeRowsInFileBlocks(pBlockData, pBlockScanInfo, pReader, &merge);
TSDBROW fRow1 = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
tsdbRowMerge(&merge, &fRow1);
doMergeRowsInLastBlock(pLastBlockReader, pBlockScanInfo, ts, &merge, &pReader->verRange, pReader->idStr);
code = tsdbRowMergerGetRow(&merge, &pTSRow);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doAppendRowFromTSRow(pReader->pResBlock, pReader, pTSRow, pBlockScanInfo);
taosMemoryFree(pTSRow);
tsdbRowMergerClear(&merge);
return code;
} else {
return TSDB_CODE_SUCCESS;
}
} else { // desc order
return doMergeFileBlockAndLastBlock(pLastBlockReader, pReader, pBlockScanInfo, pBlockData, true);
}
} else { // only last block exists
return doMergeFileBlockAndLastBlock(pLastBlockReader, pReader, pBlockScanInfo, NULL, false);
}
}
static int32_t doMergeMultiLevelRows(STsdbReader* pReader, STableBlockScanInfo* pBlockScanInfo, SBlockData* pBlockData,
SLastBlockReader* pLastBlockReader) {
SRowMerger merge = {0};
SRow* pTSRow = NULL;
int32_t code = TSDB_CODE_SUCCESS;
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
SArray* pDelList = pBlockScanInfo->delSkyline;
TSDBROW* pRow = getValidMemRow(&pBlockScanInfo->iter, pDelList, pReader);
TSDBROW* piRow = getValidMemRow(&pBlockScanInfo->iiter, pDelList, pReader);
int64_t tsLast = INT64_MIN;
if (hasDataInLastBlock(pLastBlockReader)) {
tsLast = getCurrentKeyInLastBlock(pLastBlockReader);
}
int64_t key = hasDataInFileBlock(pBlockData, pDumpInfo) ? pBlockData->aTSKEY[pDumpInfo->rowIndex] : INT64_MIN;
TSDBKEY k = TSDBROW_KEY(pRow);
TSDBKEY ik = TSDBROW_KEY(piRow);
int64_t minKey = 0;
if (ASCENDING_TRAVERSE(pReader->order)) {
minKey = INT64_MAX; // let's find the minimum
if (minKey > k.ts) {
minKey = k.ts;
}
if (minKey > ik.ts) {
minKey = ik.ts;
}
if (minKey > key && hasDataInFileBlock(pBlockData, pDumpInfo)) {
minKey = key;
}
if (minKey > tsLast && hasDataInLastBlock(pLastBlockReader)) {
minKey = tsLast;
}
} else {
minKey = INT64_MIN; // let find the maximum ts value
if (minKey < k.ts) {
minKey = k.ts;
}
if (minKey < ik.ts) {
minKey = ik.ts;
}
if (minKey < key && hasDataInFileBlock(pBlockData, pDumpInfo)) {
minKey = key;
}
if (minKey < tsLast && hasDataInLastBlock(pLastBlockReader)) {
minKey = tsLast;
}
}
bool init = false;
// ASC: file block -----> last block -----> imem -----> mem
// DESC: mem -----> imem -----> last block -----> file block
if (ASCENDING_TRAVERSE(pReader->order)) {
if (minKey == key) {
init = true;
TSDBROW fRow = tsdbRowFromBlockData(pBlockData, pDumpInfo->rowIndex);
code = tsdbRowMergerInit(&merge, &fRow, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doMergeRowsInFileBlocks(pBlockData, pBlockScanInfo, pReader, &merge);
}
if (minKey == tsLast) {
TSDBROW fRow1 = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
if (init) {
tsdbRowMerge(&merge, &fRow1);
} else {
init = true;
code = tsdbRowMergerInit(&merge, &fRow1, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
doMergeRowsInLastBlock(pLastBlockReader, pBlockScanInfo, tsLast, &merge, &pReader->verRange, pReader->idStr);
}
if (minKey == ik.ts) {
if (init) {
tsdbRowMerge(&merge, piRow);
} else {
init = true;
STSchema* pSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(piRow), pReader, pBlockScanInfo->uid);
if (pSchema == NULL) {
return code;
}
code = tsdbRowMergerInit(&merge, piRow, pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
code = doMergeRowsInBuf(&pBlockScanInfo->iiter, pBlockScanInfo->uid, ik.ts, pBlockScanInfo->delSkyline, &merge,
pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
if (minKey == k.ts) {
if (init) {
if (merge.pTSchema == NULL) {
return code;
}
tsdbRowMerge(&merge, pRow);
} else {
STSchema* pSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(pRow), pReader, pBlockScanInfo->uid);
code = tsdbRowMergerInit(&merge, pRow, pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
code = doMergeRowsInBuf(&pBlockScanInfo->iter, pBlockScanInfo->uid, k.ts, pBlockScanInfo->delSkyline, &merge,
pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
} else {
if (minKey == k.ts) {
init = true;
STSchema* pSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(pRow), pReader, pBlockScanInfo->uid);
code = tsdbRowMergerInit(&merge, pRow, pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
code = doMergeRowsInBuf(&pBlockScanInfo->iter, pBlockScanInfo->uid, k.ts, pBlockScanInfo->delSkyline, &merge,
pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
if (minKey == ik.ts) {
if (init) {
tsdbRowMerge(&merge, piRow);
} else {
init = true;
STSchema* pSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(piRow), pReader, pBlockScanInfo->uid);
code = tsdbRowMergerInit(&merge, piRow, pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
code = doMergeRowsInBuf(&pBlockScanInfo->iiter, pBlockScanInfo->uid, ik.ts, pBlockScanInfo->delSkyline, &merge,
pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
if (minKey == tsLast) {
TSDBROW fRow1 = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
if (init) {
tsdbRowMerge(&merge, &fRow1);
} else {
init = true;
code = tsdbRowMergerInit(&merge, &fRow1, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
doMergeRowsInLastBlock(pLastBlockReader, pBlockScanInfo, tsLast, &merge, &pReader->verRange, pReader->idStr);
}
if (minKey == key) {
TSDBROW fRow = tsdbRowFromBlockData(pBlockData, pDumpInfo->rowIndex);
if (!init) {
code = tsdbRowMergerInit(&merge, &fRow, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
} else {
if (merge.pTSchema == NULL) {
return code;
}
tsdbRowMerge(&merge, &fRow);
}
doMergeRowsInFileBlocks(pBlockData, pBlockScanInfo, pReader, &merge);
}
}
if (merge.pTSchema == NULL) {
return code;
}
code = tsdbRowMergerGetRow(&merge, &pTSRow);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doAppendRowFromTSRow(pReader->pResBlock, pReader, pTSRow, pBlockScanInfo);
taosMemoryFree(pTSRow);
tsdbRowMergerClear(&merge);
return code;
}
static int32_t initMemDataIterator(STableBlockScanInfo* pBlockScanInfo, STsdbReader* pReader) {
if (pBlockScanInfo->iterInit) {
return TSDB_CODE_SUCCESS;
}
int32_t code = TSDB_CODE_SUCCESS;
TSDBKEY startKey = {0};
if (ASCENDING_TRAVERSE(pReader->order)) {
// startKey = (TSDBKEY){.ts = pReader->window.skey, .version = pReader->verRange.minVer};
startKey = (TSDBKEY){.ts = pBlockScanInfo->lastKey + 1, .version = pReader->verRange.minVer};
} else {
// startKey = (TSDBKEY){.ts = pReader->window.ekey, .version = pReader->verRange.maxVer};
startKey = (TSDBKEY){.ts = pBlockScanInfo->lastKey - 1, .version = pReader->verRange.maxVer};
}
int32_t backward = (!ASCENDING_TRAVERSE(pReader->order));
int64_t st = 0;
STbData* d = NULL;
if (pReader->pReadSnap->pMem != NULL) {
d = tsdbGetTbDataFromMemTable(pReader->pReadSnap->pMem, pReader->suid, pBlockScanInfo->uid);
if (d != NULL) {
code = tsdbTbDataIterCreate(d, &startKey, backward, &pBlockScanInfo->iter.iter);
if (code == TSDB_CODE_SUCCESS) {
pBlockScanInfo->iter.hasVal = (tsdbTbDataIterGet(pBlockScanInfo->iter.iter) != NULL);
tsdbDebug("%p uid:%" PRIu64 ", check data in mem from skey:%" PRId64 ", order:%d, ts range in buf:%" PRId64
"-%" PRId64 " %s",
pReader, pBlockScanInfo->uid, startKey.ts, pReader->order, d->minKey, d->maxKey, pReader->idStr);
} else {
tsdbError("%p uid:%" PRIu64 ", failed to create iterator for imem, code:%s, %s", pReader, pBlockScanInfo->uid,
tstrerror(code), pReader->idStr);
return code;
}
}
} else {
tsdbDebug("%p uid:%" PRIu64 ", no data in mem, %s", pReader, pBlockScanInfo->uid, pReader->idStr);
}
STbData* di = NULL;
if (pReader->pReadSnap->pIMem != NULL) {
di = tsdbGetTbDataFromMemTable(pReader->pReadSnap->pIMem, pReader->suid, pBlockScanInfo->uid);
if (di != NULL) {
code = tsdbTbDataIterCreate(di, &startKey, backward, &pBlockScanInfo->iiter.iter);
if (code == TSDB_CODE_SUCCESS) {
pBlockScanInfo->iiter.hasVal = (tsdbTbDataIterGet(pBlockScanInfo->iiter.iter) != NULL);
tsdbDebug("%p uid:%" PRIu64 ", check data in imem from skey:%" PRId64 ", order:%d, ts range in buf:%" PRId64
"-%" PRId64 " %s",
pReader, pBlockScanInfo->uid, startKey.ts, pReader->order, di->minKey, di->maxKey, pReader->idStr);
} else {
tsdbError("%p uid:%" PRIu64 ", failed to create iterator for mem, code:%s, %s", pReader, pBlockScanInfo->uid,
tstrerror(code), pReader->idStr);
return code;
}
}
} else {
tsdbDebug("%p uid:%" PRIu64 ", no data in imem, %s", pReader, pBlockScanInfo->uid, pReader->idStr);
}
st = taosGetTimestampUs();
initDelSkylineIterator(pBlockScanInfo, pReader, d, di);
pReader->cost.initDelSkylineIterTime += (taosGetTimestampUs() - st) / 1000.0;
pBlockScanInfo->iterInit = true;
return TSDB_CODE_SUCCESS;
}
static bool isValidFileBlockRow(SBlockData* pBlockData, SFileBlockDumpInfo* pDumpInfo,
STableBlockScanInfo* pBlockScanInfo, STsdbReader* pReader) {
// it is an multi-table data block
if (pBlockData->aUid != NULL) {
uint64_t uid = pBlockData->aUid[pDumpInfo->rowIndex];
if (uid != pBlockScanInfo->uid) { // move to next row
return false;
}
}
// check for version and time range
int64_t ver = pBlockData->aVersion[pDumpInfo->rowIndex];
if (ver > pReader->verRange.maxVer || ver < pReader->verRange.minVer) {
return false;
}
int64_t ts = pBlockData->aTSKEY[pDumpInfo->rowIndex];
if (ts > pReader->window.ekey || ts < pReader->window.skey) {
return false;
}
TSDBKEY k = {.ts = ts, .version = ver};
if (hasBeenDropped(pBlockScanInfo->delSkyline, &pBlockScanInfo->fileDelIndex, &k, pReader->order,
&pReader->verRange)) {
return false;
}
return true;
}
static bool initLastBlockReader(SLastBlockReader* pLBlockReader, STableBlockScanInfo* pScanInfo, STsdbReader* pReader) {
// the last block reader has been initialized for this table.
if (pLBlockReader->uid == pScanInfo->uid) {
return hasDataInLastBlock(pLBlockReader);
}
if (pLBlockReader->uid != 0) {
tMergeTreeClose(&pLBlockReader->mergeTree);
}
initMemDataIterator(pScanInfo, pReader);
pLBlockReader->uid = pScanInfo->uid;
STimeWindow w = pLBlockReader->window;
if (ASCENDING_TRAVERSE(pLBlockReader->order)) {
w.skey = pScanInfo->lastKeyInStt;
} else {
w.ekey = pScanInfo->lastKeyInStt;
}
tsdbDebug("init last block reader, window:%" PRId64 "-%" PRId64 ", uid:%" PRIu64 ", %s", w.skey, w.ekey,
pScanInfo->uid, pReader->idStr);
int32_t code = tMergeTreeOpen(&pLBlockReader->mergeTree, (pLBlockReader->order == TSDB_ORDER_DESC),
pReader->pFileReader, pReader->suid, pScanInfo->uid, &w, &pLBlockReader->verRange,
pLBlockReader->pInfo, false, pReader->idStr, false);
if (code != TSDB_CODE_SUCCESS) {
return false;
}
return nextRowFromLastBlocks(pLBlockReader, pScanInfo, &pReader->verRange);
}
static int64_t getCurrentKeyInLastBlock(SLastBlockReader* pLastBlockReader) {
TSDBROW row = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
return TSDBROW_TS(&row);
}
static bool hasDataInLastBlock(SLastBlockReader* pLastBlockReader) { return pLastBlockReader->mergeTree.pIter != NULL; }
bool hasDataInFileBlock(const SBlockData* pBlockData, const SFileBlockDumpInfo* pDumpInfo) {
if ((pBlockData->nRow > 0) && (pBlockData->nRow != pDumpInfo->totalRows)) {
return false; // this is an invalid result.
}
return pBlockData->nRow > 0 && (!pDumpInfo->allDumped);
}
int32_t mergeRowsInFileBlocks(SBlockData* pBlockData, STableBlockScanInfo* pBlockScanInfo, int64_t key,
STsdbReader* pReader) {
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
if (tryCopyDistinctRowFromFileBlock(pReader, pBlockData, key, pDumpInfo)) {
pBlockScanInfo->lastKey = key;
return TSDB_CODE_SUCCESS;
} else {
TSDBROW fRow = tsdbRowFromBlockData(pBlockData, pDumpInfo->rowIndex);
SRow* pTSRow = NULL;
SRowMerger merge = {0};
int32_t code = tsdbRowMergerInit(&merge, &fRow, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doMergeRowsInFileBlocks(pBlockData, pBlockScanInfo, pReader, &merge);
code = tsdbRowMergerGetRow(&merge, &pTSRow);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
doAppendRowFromTSRow(pReader->pResBlock, pReader, pTSRow, pBlockScanInfo);
taosMemoryFree(pTSRow);
tsdbRowMergerClear(&merge);
return TSDB_CODE_SUCCESS;
}
}
static int32_t buildComposedDataBlockImpl(STsdbReader* pReader, STableBlockScanInfo* pBlockScanInfo,
SBlockData* pBlockData, SLastBlockReader* pLastBlockReader) {
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
TSDBROW *pRow = NULL, *piRow = NULL;
int64_t key = (pBlockData->nRow > 0 && (!pDumpInfo->allDumped)) ? pBlockData->aTSKEY[pDumpInfo->rowIndex] : INT64_MIN;
if (pBlockScanInfo->iter.hasVal) {
pRow = getValidMemRow(&pBlockScanInfo->iter, pBlockScanInfo->delSkyline, pReader);
}
if (pBlockScanInfo->iiter.hasVal) {
piRow = getValidMemRow(&pBlockScanInfo->iiter, pBlockScanInfo->delSkyline, pReader);
}
// two levels of mem-table does contain the valid rows
if (pRow != NULL && piRow != NULL) {
return doMergeMultiLevelRows(pReader, pBlockScanInfo, pBlockData, pLastBlockReader);
}
// imem + file + last block
if (pBlockScanInfo->iiter.hasVal) {
return doMergeBufAndFileRows(pReader, pBlockScanInfo, piRow, &pBlockScanInfo->iiter, key, pLastBlockReader);
}
// mem + file + last block
if (pBlockScanInfo->iter.hasVal) {
return doMergeBufAndFileRows(pReader, pBlockScanInfo, pRow, &pBlockScanInfo->iter, key, pLastBlockReader);
}
// files data blocks + last block
return mergeFileBlockAndLastBlock(pReader, pLastBlockReader, key, pBlockScanInfo, pBlockData);
}
static int32_t loadNeighborIfOverlap(SFileDataBlockInfo* pBlockInfo, STableBlockScanInfo* pBlockScanInfo,
STsdbReader* pReader, bool* loadNeighbor) {
int32_t code = TSDB_CODE_SUCCESS;
int32_t step = ASCENDING_TRAVERSE(pReader->order) ? 1 : -1;
int32_t nextIndex = -1;
SBlockIndex nxtBIndex = {0};
*loadNeighbor = false;
SDataBlk* pBlock = getCurrentBlock(&pReader->status.blockIter);
bool hasNeighbor = getNeighborBlockOfSameTable(pBlockInfo, pBlockScanInfo, &nextIndex, pReader->order, &nxtBIndex);
if (!hasNeighbor) { // do nothing
return code;
}
if (overlapWithNeighborBlock(pBlock, &nxtBIndex, pReader->order)) { // load next block
SReaderStatus* pStatus = &pReader->status;
SDataBlockIter* pBlockIter = &pStatus->blockIter;
// 1. find the next neighbor block in the scan block list
SFileDataBlockInfo fb = {.uid = pBlockInfo->uid, .tbBlockIdx = nextIndex};
int32_t neighborIndex = findFileBlockInfoIndex(pBlockIter, &fb);
// 2. remove it from the scan block list
setFileBlockActiveInBlockIter(pBlockIter, neighborIndex, step);
// 3. load the neighbor block, and set it to be the currently accessed file data block
code = doLoadFileBlockData(pReader, pBlockIter, &pStatus->fileBlockData, pBlockInfo->uid);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
// 4. check the data values
initBlockDumpInfo(pReader, pBlockIter);
*loadNeighbor = true;
}
return code;
}
static void updateComposedBlockInfo(STsdbReader* pReader, double el, STableBlockScanInfo* pBlockScanInfo) {
SSDataBlock* pResBlock = pReader->pResBlock;
pResBlock->info.id.uid = (pBlockScanInfo != NULL) ? pBlockScanInfo->uid : 0;
pResBlock->info.dataLoad = 1;
blockDataUpdateTsWindow(pResBlock, pReader->suppInfo.slotId[0]);
setComposedBlockFlag(pReader, true);
pReader->cost.composedBlocks += 1;
pReader->cost.buildComposedBlockTime += el;
}
static int32_t buildComposedDataBlock(STsdbReader* pReader) {
int32_t code = TSDB_CODE_SUCCESS;
SSDataBlock* pResBlock = pReader->pResBlock;
SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(&pReader->status.blockIter);
SLastBlockReader* pLastBlockReader = pReader->status.fileIter.pLastBlockReader;
bool asc = ASCENDING_TRAVERSE(pReader->order);
int64_t st = taosGetTimestampUs();
int32_t step = asc ? 1 : -1;
double el = 0;
STableBlockScanInfo* pBlockScanInfo = NULL;
if (pBlockInfo != NULL) {
pBlockScanInfo = getTableBlockScanInfo(pReader->status.pTableMap, pBlockInfo->uid, pReader->idStr);
if (pBlockScanInfo == NULL) {
goto _end;
}
SDataBlk* pBlock = getCurrentBlock(&pReader->status.blockIter);
TSDBKEY keyInBuf = getCurrentKeyInBuf(pBlockScanInfo, pReader);
// it is a clean block, load it directly
if (isCleanFileDataBlock(pReader, pBlockInfo, pBlock, pBlockScanInfo, keyInBuf, pLastBlockReader) &&
pBlock->nRow <= pReader->capacity) {
if (asc || ((!asc) && (!hasDataInLastBlock(pLastBlockReader)))) {
copyBlockDataToSDataBlock(pReader);
// record the last key value
pBlockScanInfo->lastKey = asc ? pBlock->maxKey.ts : pBlock->minKey.ts;
goto _end;
}
}
} else { // file blocks not exist
pBlockScanInfo = *pReader->status.pTableIter;
}
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
SBlockData* pBlockData = &pReader->status.fileBlockData;
while (1) {
bool hasBlockData = false;
{
while (pBlockData->nRow > 0 &&
pBlockData->uid == pBlockScanInfo->uid) { // find the first qualified row in data block
if (isValidFileBlockRow(pBlockData, pDumpInfo, pBlockScanInfo, pReader)) {
hasBlockData = true;
break;
}
pDumpInfo->rowIndex += step;
SDataBlk* pBlock = getCurrentBlock(&pReader->status.blockIter);
if (pDumpInfo->rowIndex >= pBlock->nRow || pDumpInfo->rowIndex < 0) {
pBlockInfo = getCurrentBlockInfo(&pReader->status.blockIter); // NOTE: get the new block info
// continue check for the next file block if the last ts in the current block
// is overlapped with the next neighbor block
bool loadNeighbor = false;
code = loadNeighborIfOverlap(pBlockInfo, pBlockScanInfo, pReader, &loadNeighbor);
if ((!loadNeighbor) || (code != 0)) {
setBlockAllDumped(pDumpInfo, pBlock->maxKey.ts, pReader->order);
break;
}
}
}
}
// no data in last block and block, no need to proceed.
if (hasBlockData == false) {
break;
}
buildComposedDataBlockImpl(pReader, pBlockScanInfo, pBlockData, pLastBlockReader);
// currently loaded file data block is consumed
if ((pBlockData->nRow > 0) && (pDumpInfo->rowIndex >= pBlockData->nRow || pDumpInfo->rowIndex < 0)) {
SDataBlk* pBlock = getCurrentBlock(&pReader->status.blockIter);
setBlockAllDumped(pDumpInfo, pBlock->maxKey.ts, pReader->order);
break;
}
if (pResBlock->info.rows >= pReader->capacity) {
break;
}
}
_end:
el = (taosGetTimestampUs() - st) / 1000.0;
updateComposedBlockInfo(pReader, el, pBlockScanInfo);
if (pResBlock->info.rows > 0) {
tsdbDebug("%p uid:%" PRIu64 ", composed data block created, brange:%" PRIu64 "-%" PRIu64
" rows:%d, elapsed time:%.2f ms %s",
pReader, pResBlock->info.id.uid, pResBlock->info.window.skey, pResBlock->info.window.ekey,
pResBlock->info.rows, el, pReader->idStr);
}
return code;
}
void setComposedBlockFlag(STsdbReader* pReader, bool composed) { pReader->status.composedDataBlock = composed; }
int32_t getInitialDelIndex(const SArray* pDelSkyline, int32_t order) {
if (pDelSkyline == NULL) {
return 0;
}
return ASCENDING_TRAVERSE(order) ? 0 : taosArrayGetSize(pDelSkyline) - 1;
}
int32_t initDelSkylineIterator(STableBlockScanInfo* pBlockScanInfo, STsdbReader* pReader, STbData* pMemTbData,
STbData* piMemTbData) {
if (pBlockScanInfo->delSkyline != NULL) {
return TSDB_CODE_SUCCESS;
}
int32_t code = 0;
SArray* pDelData = taosArrayInit(4, sizeof(SDelData));
SDelFile* pDelFile = pReader->pReadSnap->fs.pDelFile;
if (pDelFile && taosArrayGetSize(pReader->pDelIdx) > 0) {
SDelIdx idx = {.suid = pReader->suid, .uid = pBlockScanInfo->uid};
SDelIdx* pIdx = taosArraySearch(pReader->pDelIdx, &idx, tCmprDelIdx, TD_EQ);
if (pIdx != NULL) {
code = tsdbReadDelData(pReader->pDelFReader, pIdx, pDelData);
}
if (code != TSDB_CODE_SUCCESS) {
goto _err;
}
}
SDelData* p = NULL;
if (pMemTbData != NULL) {
p = pMemTbData->pHead;
while (p) {
taosArrayPush(pDelData, p);
p = p->pNext;
}
}
if (piMemTbData != NULL) {
p = piMemTbData->pHead;
while (p) {
taosArrayPush(pDelData, p);
p = p->pNext;
}
}
if (taosArrayGetSize(pDelData) > 0) {
pBlockScanInfo->delSkyline = taosArrayInit(4, sizeof(TSDBKEY));
code = tsdbBuildDeleteSkyline(pDelData, 0, (int32_t)(taosArrayGetSize(pDelData) - 1), pBlockScanInfo->delSkyline);
}
taosArrayDestroy(pDelData);
int32_t index = getInitialDelIndex(pBlockScanInfo->delSkyline, pReader->order);
pBlockScanInfo->iter.index = index;
pBlockScanInfo->iiter.index = index;
pBlockScanInfo->fileDelIndex = index;
pBlockScanInfo->lastBlockDelIndex = index;
return code;
_err:
taosArrayDestroy(pDelData);
return code;
}
TSDBKEY getCurrentKeyInBuf(STableBlockScanInfo* pScanInfo, STsdbReader* pReader) {
bool asc = ASCENDING_TRAVERSE(pReader->order);
// TSKEY initialVal = asc? TSKEY_MIN:TSKEY_MAX;
TSDBKEY key = {.ts = TSKEY_INITIAL_VAL}, ikey = {.ts = TSKEY_INITIAL_VAL};
bool hasKey = false, hasIKey = false;
TSDBROW* pRow = getValidMemRow(&pScanInfo->iter, pScanInfo->delSkyline, pReader);
if (pRow != NULL) {
hasKey = true;
key = TSDBROW_KEY(pRow);
}
TSDBROW* pIRow = getValidMemRow(&pScanInfo->iiter, pScanInfo->delSkyline, pReader);
if (pIRow != NULL) {
hasIKey = true;
ikey = TSDBROW_KEY(pIRow);
}
if (hasKey) {
if (hasIKey) { // has data in mem & imem
if (asc) {
return key.ts <= ikey.ts ? key : ikey;
} else {
return key.ts <= ikey.ts ? ikey : key;
}
} else { // no data in imem
return key;
}
} else {
// no data in mem & imem, return the initial value
// only imem has data, return ikey
return ikey;
}
}
static int32_t moveToNextFile(STsdbReader* pReader, SBlockNumber* pBlockNum) {
SReaderStatus* pStatus = &pReader->status;
pBlockNum->numOfBlocks = 0;
pBlockNum->numOfLastFiles = 0;
size_t numOfTables = taosHashGetSize(pReader->status.pTableMap);
SArray* pIndexList = taosArrayInit(numOfTables, sizeof(SBlockIdx));
while (1) {
bool hasNext = false;
int32_t code = filesetIteratorNext(&pStatus->fileIter, pReader, &hasNext);
if (code) {
taosArrayDestroy(pIndexList);
return code;
}
if (!hasNext) { // no data files on disk
break;
}
taosArrayClear(pIndexList);
code = doLoadBlockIndex(pReader, pReader->pFileReader, pIndexList);
if (code != TSDB_CODE_SUCCESS) {
taosArrayDestroy(pIndexList);
return code;
}
if (taosArrayGetSize(pIndexList) > 0 || pReader->pFileReader->pSet->nSttF > 0) {
code = doLoadFileBlock(pReader, pIndexList, pBlockNum);
if (code != TSDB_CODE_SUCCESS) {
taosArrayDestroy(pIndexList);
return code;
}
if (pBlockNum->numOfBlocks + pBlockNum->numOfLastFiles > 0) {
break;
}
}
// no blocks in current file, try next files
}
taosArrayDestroy(pIndexList);
if (pReader->pReadSnap != NULL) {
SDelFile* pDelFile = pReader->pReadSnap->fs.pDelFile;
if (pReader->pDelFReader == NULL && pDelFile != NULL) {
int32_t code = tsdbDelFReaderOpen(&pReader->pDelFReader, pDelFile, pReader->pTsdb);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
pReader->pDelIdx = taosArrayInit(4, sizeof(SDelIdx));
if (pReader->pDelIdx == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
return code;
}
code = tsdbReadDelIdx(pReader->pDelFReader, pReader->pDelIdx);
if (code != TSDB_CODE_SUCCESS) {
taosArrayDestroy(pReader->pDelIdx);
return code;
}
}
}
return TSDB_CODE_SUCCESS;
}
static void resetTableListIndex(SReaderStatus* pStatus) {
STableUidList* pList = &pStatus->uidList;
pList->currentIndex = 0;
uint64_t uid = pList->tableUidList[0];
pStatus->pTableIter = taosHashGet(pStatus->pTableMap, &uid, sizeof(uid));
}
static bool moveToNextTable(STableUidList* pOrderedCheckInfo, SReaderStatus* pStatus) {
pOrderedCheckInfo->currentIndex += 1;
if (pOrderedCheckInfo->currentIndex >= taosHashGetSize(pStatus->pTableMap)) {
pStatus->pTableIter = NULL;
return false;
}
uint64_t uid = pOrderedCheckInfo->tableUidList[pOrderedCheckInfo->currentIndex];
pStatus->pTableIter = taosHashGet(pStatus->pTableMap, &uid, sizeof(uid));
return (pStatus->pTableIter != NULL);
}
static int32_t doLoadLastBlockSequentially(STsdbReader* pReader) {
SReaderStatus* pStatus = &pReader->status;
SLastBlockReader* pLastBlockReader = pStatus->fileIter.pLastBlockReader;
STableUidList* pUidList = &pStatus->uidList;
if (taosHashGetSize(pStatus->pTableMap) == 0) {
return TSDB_CODE_SUCCESS;
}
SSDataBlock* pResBlock = pReader->pResBlock;
while (1) {
// load the last data block of current table
STableBlockScanInfo* pScanInfo = *(STableBlockScanInfo**)pStatus->pTableIter;
bool hasVal = initLastBlockReader(pLastBlockReader, pScanInfo, pReader);
if (!hasVal) {
bool hasNexTable = moveToNextTable(pUidList, pStatus);
if (!hasNexTable) {
return TSDB_CODE_SUCCESS;
}
continue;
}
int64_t st = taosGetTimestampUs();
while (1) {
bool hasBlockLData = hasDataInLastBlock(pLastBlockReader);
// no data in last block and block, no need to proceed.
if (hasBlockLData == false) {
break;
}
buildComposedDataBlockImpl(pReader, pScanInfo, &pReader->status.fileBlockData, pLastBlockReader);
if (pResBlock->info.rows >= pReader->capacity) {
break;
}
}
double el = (taosGetTimestampUs() - st) / 1000.0;
updateComposedBlockInfo(pReader, el, pScanInfo);
if (pResBlock->info.rows > 0) {
tsdbDebug("%p uid:%" PRIu64 ", composed data block created, brange:%" PRIu64 "-%" PRIu64
" rows:%d, elapsed time:%.2f ms %s",
pReader, pResBlock->info.id.uid, pResBlock->info.window.skey, pResBlock->info.window.ekey,
pResBlock->info.rows, el, pReader->idStr);
return TSDB_CODE_SUCCESS;
}
// current table is exhausted, let's try next table
bool hasNexTable = moveToNextTable(pUidList, pStatus);
if (!hasNexTable) {
return TSDB_CODE_SUCCESS;
}
}
}
static int32_t doBuildDataBlock(STsdbReader* pReader) {
int32_t code = TSDB_CODE_SUCCESS;
SDataBlk* pBlock = NULL;
SReaderStatus* pStatus = &pReader->status;
SDataBlockIter* pBlockIter = &pStatus->blockIter;
STableBlockScanInfo* pScanInfo = NULL;
SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(pBlockIter);
SLastBlockReader* pLastBlockReader = pReader->status.fileIter.pLastBlockReader;
pScanInfo = getTableBlockScanInfo(pReader->status.pTableMap, pBlockInfo->uid, pReader->idStr);
if (pScanInfo == NULL) {
return terrno;
}
pBlock = getCurrentBlock(pBlockIter);
initLastBlockReader(pLastBlockReader, pScanInfo, pReader);
TSDBKEY keyInBuf = getCurrentKeyInBuf(pScanInfo, pReader);
if (fileBlockShouldLoad(pReader, pBlockInfo, pBlock, pScanInfo, keyInBuf, pLastBlockReader)) {
code = doLoadFileBlockData(pReader, pBlockIter, &pStatus->fileBlockData, pScanInfo->uid);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
// build composed data block
code = buildComposedDataBlock(pReader);
} else if (bufferDataInFileBlockGap(pReader->order, keyInBuf, pBlock)) {
// data in memory that are earlier than current file block
// rows in buffer should be less than the file block in asc, greater than file block in desc
int64_t endKey = (ASCENDING_TRAVERSE(pReader->order)) ? pBlock->minKey.ts : pBlock->maxKey.ts;
code = buildDataBlockFromBuf(pReader, pScanInfo, endKey);
} else {
if (hasDataInLastBlock(pLastBlockReader) && !ASCENDING_TRAVERSE(pReader->order)) {
// only return the rows in last block
int64_t tsLast = getCurrentKeyInLastBlock(pLastBlockReader);
ASSERT(tsLast >= pBlock->maxKey.ts);
SBlockData* pBData = &pReader->status.fileBlockData;
tBlockDataReset(pBData);
SSDataBlock* pResBlock = pReader->pResBlock;
tsdbDebug("load data in last block firstly, due to desc scan data, %s", pReader->idStr);
int64_t st = taosGetTimestampUs();
while (1) {
bool hasBlockLData = hasDataInLastBlock(pLastBlockReader);
// no data in last block and block, no need to proceed.
if (hasBlockLData == false) {
break;
}
buildComposedDataBlockImpl(pReader, pScanInfo, &pReader->status.fileBlockData, pLastBlockReader);
if (pResBlock->info.rows >= pReader->capacity) {
break;
}
}
double el = (taosGetTimestampUs() - st) / 1000.0;
updateComposedBlockInfo(pReader, el, pScanInfo);
if (pResBlock->info.rows > 0) {
tsdbDebug("%p uid:%" PRIu64 ", composed data block created, brange:%" PRIu64 "-%" PRIu64
" rows:%d, elapsed time:%.2f ms %s",
pReader, pResBlock->info.id.uid, pResBlock->info.window.skey, pResBlock->info.window.ekey,
pResBlock->info.rows, el, pReader->idStr);
}
} else { // whole block is required, return it directly
SDataBlockInfo* pInfo = &pReader->pResBlock->info;
pInfo->rows = pBlock->nRow;
pInfo->id.uid = pScanInfo->uid;
pInfo->dataLoad = 0;
pInfo->window = (STimeWindow){.skey = pBlock->minKey.ts, .ekey = pBlock->maxKey.ts};
setComposedBlockFlag(pReader, false);
setBlockAllDumped(&pStatus->fBlockDumpInfo, pBlock->maxKey.ts, pReader->order);
// update the last key for the corresponding table
pScanInfo->lastKey = ASCENDING_TRAVERSE(pReader->order) ? pInfo->window.ekey : pInfo->window.skey;
tsdbDebug("%p uid:%" PRIu64
" clean file block retrieved from file, global index:%d, "
"table index:%d, rows:%d, brange:%" PRId64 "-%" PRId64 ", %s",
pReader, pScanInfo->uid, pBlockIter->index, pBlockInfo->tbBlockIdx, pBlock->nRow, pBlock->minKey.ts,
pBlock->maxKey.ts, pReader->idStr);
}
}
return code;
}
static int32_t buildBlockFromBufferSequentially(STsdbReader* pReader) {
SReaderStatus* pStatus = &pReader->status;
STableUidList* pUidList = &pStatus->uidList;
while (1) {
// if (pStatus->pTableIter == NULL) {
// pStatus->pTableIter = taosHashIterate(pStatus->pTableMap, NULL);
// if (pStatus->pTableIter == NULL) {
// return TSDB_CODE_SUCCESS;
// }
// }
STableBlockScanInfo** pBlockScanInfo = pStatus->pTableIter;
initMemDataIterator(*pBlockScanInfo, pReader);
int64_t endKey = (ASCENDING_TRAVERSE(pReader->order)) ? INT64_MAX : INT64_MIN;
int32_t code = buildDataBlockFromBuf(pReader, *pBlockScanInfo, endKey);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
if (pReader->pResBlock->info.rows > 0) {
return TSDB_CODE_SUCCESS;
}
// current table is exhausted, let's try next table
bool hasNexTable = moveToNextTable(pUidList, pStatus);
if (!hasNexTable) {
return TSDB_CODE_SUCCESS;
}
}
}
// set the correct start position in case of the first/last file block, according to the query time window
static void initBlockDumpInfo(STsdbReader* pReader, SDataBlockIter* pBlockIter) {
int64_t lastKey = ASCENDING_TRAVERSE(pReader->order) ? INT64_MIN : INT64_MAX;
SDataBlk* pBlock = getCurrentBlock(pBlockIter);
SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(pBlockIter);
if (pBlockInfo) {
STableBlockScanInfo* pScanInfo = taosHashGet(pBlockIter->pTableMap, &pBlockInfo->uid, sizeof(pBlockInfo->uid));
if (pScanInfo) {
lastKey = pScanInfo->lastKey;
}
}
SReaderStatus* pStatus = &pReader->status;
SFileBlockDumpInfo* pDumpInfo = &pStatus->fBlockDumpInfo;
pDumpInfo->totalRows = pBlock->nRow;
pDumpInfo->allDumped = false;
pDumpInfo->rowIndex = ASCENDING_TRAVERSE(pReader->order) ? 0 : pBlock->nRow - 1;
pDumpInfo->lastKey = lastKey;
}
static int32_t initForFirstBlockInFile(STsdbReader* pReader, SDataBlockIter* pBlockIter) {
SBlockNumber num = {0};
int32_t code = moveToNextFile(pReader, &num);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
// all data files are consumed, try data in buffer
if (num.numOfBlocks + num.numOfLastFiles == 0) {
pReader->status.loadFromFile = false;
return code;
}
// initialize the block iterator for a new fileset
if (num.numOfBlocks > 0) {
code = initBlockIterator(pReader, pBlockIter, num.numOfBlocks);
} else { // no block data, only last block exists
tBlockDataReset(&pReader->status.fileBlockData);
resetDataBlockIterator(pBlockIter, pReader->order);
resetTableListIndex(&pReader->status);
}
// set the correct start position according to the query time window
initBlockDumpInfo(pReader, pBlockIter);
return code;
}
static bool fileBlockPartiallyRead(SFileBlockDumpInfo* pDumpInfo, bool asc) {
return (!pDumpInfo->allDumped) &&
((pDumpInfo->rowIndex > 0 && asc) || (pDumpInfo->rowIndex < (pDumpInfo->totalRows - 1) && (!asc)));
}
static int32_t buildBlockFromFiles(STsdbReader* pReader) {
int32_t code = TSDB_CODE_SUCCESS;
bool asc = ASCENDING_TRAVERSE(pReader->order);
SDataBlockIter* pBlockIter = &pReader->status.blockIter;
if (pBlockIter->numOfBlocks == 0) {
_begin:
code = doLoadLastBlockSequentially(pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
if (pReader->pResBlock->info.rows > 0) {
return TSDB_CODE_SUCCESS;
}
// all data blocks are checked in this last block file, now let's try the next file
if (pReader->status.pTableIter == NULL) {
code = initForFirstBlockInFile(pReader, pBlockIter);
// error happens or all the data files are completely checked
if ((code != TSDB_CODE_SUCCESS) || (pReader->status.loadFromFile == false)) {
return code;
}
// this file does not have data files, let's start check the last block file if exists
if (pBlockIter->numOfBlocks == 0) {
resetTableListIndex(&pReader->status);
goto _begin;
}
}
code = doBuildDataBlock(pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
if (pReader->pResBlock->info.rows > 0) {
return TSDB_CODE_SUCCESS;
}
}
while (1) {
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
if (fileBlockPartiallyRead(pDumpInfo, asc)) { // file data block is partially loaded
code = buildComposedDataBlock(pReader);
} else {
// current block are exhausted, try the next file block
if (pDumpInfo->allDumped) {
// try next data block in current file
bool hasNext = blockIteratorNext(&pReader->status.blockIter, pReader->idStr);
if (hasNext) { // check for the next block in the block accessed order list
initBlockDumpInfo(pReader, pBlockIter);
} else {
if (pReader->status.pCurrentFileset->nSttF > 0) {
// data blocks in current file are exhausted, let's try the next file now
SBlockData* pBlockData = &pReader->status.fileBlockData;
if (pBlockData->uid != 0) {
tBlockDataClear(pBlockData);
}
tBlockDataReset(pBlockData);
resetDataBlockIterator(pBlockIter, pReader->order);
resetTableListIndex(&pReader->status);
goto _begin;
} else {
code = initForFirstBlockInFile(pReader, pBlockIter);
// error happens or all the data files are completely checked
if ((code != TSDB_CODE_SUCCESS) || (pReader->status.loadFromFile == false)) {
return code;
}
// this file does not have blocks, let's start check the last block file
if (pBlockIter->numOfBlocks == 0) {
resetTableListIndex(&pReader->status);
goto _begin;
}
}
}
}
code = doBuildDataBlock(pReader);
}
if (code != TSDB_CODE_SUCCESS) {
return code;
}
if (pReader->pResBlock->info.rows > 0) {
return TSDB_CODE_SUCCESS;
}
}
}
static STsdb* getTsdbByRetentions(SVnode* pVnode, TSKEY winSKey, SRetention* retentions, const char* idStr,
int8_t* pLevel) {
if (VND_IS_RSMA(pVnode)) {
int8_t level = 0;
int8_t precision = pVnode->config.tsdbCfg.precision;
int64_t now = taosGetTimestamp(precision);
int64_t offset = tsQueryRsmaTolerance * ((precision == TSDB_TIME_PRECISION_MILLI) ? 1L
: (precision == TSDB_TIME_PRECISION_MICRO) ? 1000L
: 1000000L);
for (int8_t i = 0; i < TSDB_RETENTION_MAX; ++i) {
SRetention* pRetention = retentions + level;
if (pRetention->keep <= 0) {
if (level > 0) {
--level;
}
break;
}
if ((now - pRetention->keep) <= (winSKey + offset)) {
break;
}
++level;
}
const char* str = (idStr != NULL) ? idStr : "";
if (level == TSDB_RETENTION_L0) {
*pLevel = TSDB_RETENTION_L0;
tsdbDebug("vgId:%d, rsma level %d is selected to query %s", TD_VID(pVnode), TSDB_RETENTION_L0, str);
return VND_RSMA0(pVnode);
} else if (level == TSDB_RETENTION_L1) {
*pLevel = TSDB_RETENTION_L1;
tsdbDebug("vgId:%d, rsma level %d is selected to query %s", TD_VID(pVnode), TSDB_RETENTION_L1, str);
return VND_RSMA1(pVnode);
} else {
*pLevel = TSDB_RETENTION_L2;
tsdbDebug("vgId:%d, rsma level %d is selected to query %s", TD_VID(pVnode), TSDB_RETENTION_L2, str);
return VND_RSMA2(pVnode);
}
}
return VND_TSDB(pVnode);
}
SVersionRange getQueryVerRange(SVnode* pVnode, SQueryTableDataCond* pCond, int8_t level) {
int64_t startVer = (pCond->startVersion == -1) ? 0 : pCond->startVersion;
int64_t endVer = 0;
if (pCond->endVersion ==
-1) { // user not specified end version, set current maximum version of vnode as the endVersion
endVer = pVnode->state.applied;
} else {
endVer = (pCond->endVersion > pVnode->state.applied) ? pVnode->state.applied : pCond->endVersion;
}
return (SVersionRange){.minVer = startVer, .maxVer = endVer};
}
bool hasBeenDropped(const SArray* pDelList, int32_t* index, TSDBKEY* pKey, int32_t order, SVersionRange* pVerRange) {
if (pDelList == NULL) {
return false;
}
size_t num = taosArrayGetSize(pDelList);
bool asc = ASCENDING_TRAVERSE(order);
int32_t step = asc ? 1 : -1;
if (asc) {
if (*index >= num - 1) {
TSDBKEY* last = taosArrayGetLast(pDelList);
ASSERT(pKey->ts >= last->ts);
if (pKey->ts > last->ts) {
return false;
} else if (pKey->ts == last->ts) {
TSDBKEY* prev = taosArrayGet(pDelList, num - 2);
return (prev->version >= pKey->version && prev->version <= pVerRange->maxVer &&
prev->version >= pVerRange->minVer);
}
} else {
TSDBKEY* pCurrent = taosArrayGet(pDelList, *index);
TSDBKEY* pNext = taosArrayGet(pDelList, (*index) + 1);
if (pKey->ts < pCurrent->ts) {
return false;
}
if (pCurrent->ts <= pKey->ts && pNext->ts >= pKey->ts && pCurrent->version >= pKey->version &&
pVerRange->maxVer >= pCurrent->version) {
return true;
}
while (pNext->ts <= pKey->ts && (*index) < num - 1) {
(*index) += 1;
if ((*index) < num - 1) {
pCurrent = taosArrayGet(pDelList, *index);
pNext = taosArrayGet(pDelList, (*index) + 1);
// it is not a consecutive deletion range, ignore it
if (pCurrent->version == 0 && pNext->version > 0) {
continue;
}
if (pCurrent->ts <= pKey->ts && pNext->ts >= pKey->ts && pCurrent->version >= pKey->version &&
pVerRange->maxVer >= pCurrent->version) {
return true;
}
}
}
return false;
}
} else {
if (*index <= 0) {
TSDBKEY* pFirst = taosArrayGet(pDelList, 0);
if (pKey->ts < pFirst->ts) {
return false;
} else if (pKey->ts == pFirst->ts) {
return pFirst->version >= pKey->version;
} else {
ASSERT(0);
}
} else {
TSDBKEY* pCurrent = taosArrayGet(pDelList, *index);
TSDBKEY* pPrev = taosArrayGet(pDelList, (*index) - 1);
if (pKey->ts > pCurrent->ts) {
return false;
}
if (pPrev->ts <= pKey->ts && pCurrent->ts >= pKey->ts && pPrev->version >= pKey->version) {
return true;
}
while (pPrev->ts >= pKey->ts && (*index) > 1) {
(*index) += step;
if ((*index) >= 1) {
pCurrent = taosArrayGet(pDelList, *index);
pPrev = taosArrayGet(pDelList, (*index) - 1);
// it is not a consecutive deletion range, ignore it
if (pCurrent->version > 0 && pPrev->version == 0) {
continue;
}
if (pPrev->ts <= pKey->ts && pCurrent->ts >= pKey->ts && pPrev->version >= pKey->version) {
return true;
}
}
}
return false;
}
}
return false;
}
TSDBROW* getValidMemRow(SIterInfo* pIter, const SArray* pDelList, STsdbReader* pReader) {
if (!pIter->hasVal) {
return NULL;
}
TSDBROW* pRow = tsdbTbDataIterGet(pIter->iter);
TSDBKEY key = TSDBROW_KEY(pRow);
if (outOfTimeWindow(key.ts, &pReader->window)) {
pIter->hasVal = false;
return NULL;
}
// it is a valid data version
if ((key.version <= pReader->verRange.maxVer && key.version >= pReader->verRange.minVer) &&
(!hasBeenDropped(pDelList, &pIter->index, &key, pReader->order, &pReader->verRange))) {
return pRow;
}
while (1) {
pIter->hasVal = tsdbTbDataIterNext(pIter->iter);
if (!pIter->hasVal) {
return NULL;
}
pRow = tsdbTbDataIterGet(pIter->iter);
key = TSDBROW_KEY(pRow);
if (outOfTimeWindow(key.ts, &pReader->window)) {
pIter->hasVal = false;
return NULL;
}
if (key.version <= pReader->verRange.maxVer && key.version >= pReader->verRange.minVer &&
(!hasBeenDropped(pDelList, &pIter->index, &key, pReader->order, &pReader->verRange))) {
return pRow;
}
}
}
int32_t doMergeRowsInBuf(SIterInfo* pIter, uint64_t uid, int64_t ts, SArray* pDelList, SRowMerger* pMerger,
STsdbReader* pReader) {
while (1) {
pIter->hasVal = tsdbTbDataIterNext(pIter->iter);
if (!pIter->hasVal) {
break;
}
// data exists but not valid
TSDBROW* pRow = getValidMemRow(pIter, pDelList, pReader);
if (pRow == NULL) {
break;
}
// ts is not identical, quit
TSDBKEY k = TSDBROW_KEY(pRow);
if (k.ts != ts) {
break;
}
if (pRow->type == TSDBROW_ROW_FMT) {
STSchema* pTSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(pRow), pReader, uid);
if (pTSchema == NULL) {
return terrno;
}
tsdbRowMergerAdd(pMerger, pRow, pTSchema);
} else { // column format
tsdbRowMerge(pMerger, pRow);
}
}
return TSDB_CODE_SUCCESS;
}
static int32_t doMergeRowsInFileBlockImpl(SBlockData* pBlockData, int32_t rowIndex, int64_t key, SRowMerger* pMerger,
SVersionRange* pVerRange, int32_t step) {
while (rowIndex < pBlockData->nRow && rowIndex >= 0 && pBlockData->aTSKEY[rowIndex] == key) {
if (pBlockData->aVersion[rowIndex] > pVerRange->maxVer || pBlockData->aVersion[rowIndex] < pVerRange->minVer) {
rowIndex += step;
continue;
}
TSDBROW fRow = tsdbRowFromBlockData(pBlockData, rowIndex);
tsdbRowMerge(pMerger, &fRow);
rowIndex += step;
}
return rowIndex;
}
typedef enum {
CHECK_FILEBLOCK_CONT = 0x1,
CHECK_FILEBLOCK_QUIT = 0x2,
} CHECK_FILEBLOCK_STATE;
static int32_t checkForNeighborFileBlock(STsdbReader* pReader, STableBlockScanInfo* pScanInfo, SDataBlk* pBlock,
SFileDataBlockInfo* pFBlock, SRowMerger* pMerger, int64_t key,
CHECK_FILEBLOCK_STATE* state) {
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
SBlockData* pBlockData = &pReader->status.fileBlockData;
bool asc = ASCENDING_TRAVERSE(pReader->order);
*state = CHECK_FILEBLOCK_QUIT;
int32_t step = ASCENDING_TRAVERSE(pReader->order) ? 1 : -1;
bool loadNeighbor = true;
int32_t code = loadNeighborIfOverlap(pFBlock, pScanInfo, pReader, &loadNeighbor);
if (loadNeighbor && (code == TSDB_CODE_SUCCESS)) {
pDumpInfo->rowIndex =
doMergeRowsInFileBlockImpl(pBlockData, pDumpInfo->rowIndex, key, pMerger, &pReader->verRange, step);
if ((pDumpInfo->rowIndex >= pDumpInfo->totalRows && asc) || (pDumpInfo->rowIndex < 0 && !asc)) {
*state = CHECK_FILEBLOCK_CONT;
}
}
return code;
}
int32_t doMergeRowsInFileBlocks(SBlockData* pBlockData, STableBlockScanInfo* pScanInfo, STsdbReader* pReader,
SRowMerger* pMerger) {
SFileBlockDumpInfo* pDumpInfo = &pReader->status.fBlockDumpInfo;
bool asc = ASCENDING_TRAVERSE(pReader->order);
int64_t key = pBlockData->aTSKEY[pDumpInfo->rowIndex];
int32_t step = asc ? 1 : -1;
pDumpInfo->rowIndex += step;
if ((pDumpInfo->rowIndex <= pBlockData->nRow - 1 && asc) || (pDumpInfo->rowIndex >= 0 && !asc)) {
pDumpInfo->rowIndex =
doMergeRowsInFileBlockImpl(pBlockData, pDumpInfo->rowIndex, key, pMerger, &pReader->verRange, step);
}
// all rows are consumed, let's try next file block
if ((pDumpInfo->rowIndex >= pBlockData->nRow && asc) || (pDumpInfo->rowIndex < 0 && !asc)) {
while (1) {
CHECK_FILEBLOCK_STATE st;
SFileDataBlockInfo* pFileBlockInfo = getCurrentBlockInfo(&pReader->status.blockIter);
SDataBlk* pCurrentBlock = getCurrentBlock(&pReader->status.blockIter);
if (pFileBlockInfo == NULL) {
st = CHECK_FILEBLOCK_QUIT;
break;
}
checkForNeighborFileBlock(pReader, pScanInfo, pCurrentBlock, pFileBlockInfo, pMerger, key, &st);
if (st == CHECK_FILEBLOCK_QUIT) {
break;
}
}
}
return TSDB_CODE_SUCCESS;
}
int32_t doMergeRowsInLastBlock(SLastBlockReader* pLastBlockReader, STableBlockScanInfo* pScanInfo, int64_t ts,
SRowMerger* pMerger, SVersionRange* pVerRange, const char* idStr) {
while (nextRowFromLastBlocks(pLastBlockReader, pScanInfo, pVerRange)) {
int64_t next1 = getCurrentKeyInLastBlock(pLastBlockReader);
if (next1 == ts) {
TSDBROW fRow1 = tMergeTreeGetRow(&pLastBlockReader->mergeTree);
tsdbRowMerge(pMerger, &fRow1);
} else {
tsdbTrace("uid:%" PRIu64 " last del index:%d, del range:%d, lastKeyInStt:%" PRId64 ", %s", pScanInfo->uid,
pScanInfo->lastBlockDelIndex, (int32_t)taosArrayGetSize(pScanInfo->delSkyline), pScanInfo->lastKeyInStt,
idStr);
break;
}
}
return TSDB_CODE_SUCCESS;
}
int32_t doMergeMemTableMultiRows(TSDBROW* pRow, uint64_t uid, SIterInfo* pIter, SArray* pDelList, TSDBROW* pResRow,
STsdbReader* pReader, bool* freeTSRow) {
TSDBROW* pNextRow = NULL;
TSDBROW current = *pRow;
{ // if the timestamp of the next valid row has a different ts, return current row directly
pIter->hasVal = tsdbTbDataIterNext(pIter->iter);
if (!pIter->hasVal) {
*pResRow = *pRow;
*freeTSRow = false;
return TSDB_CODE_SUCCESS;
} else { // has next point in mem/imem
pNextRow = getValidMemRow(pIter, pDelList, pReader);
if (pNextRow == NULL) {
*pResRow = current;
*freeTSRow = false;
return TSDB_CODE_SUCCESS;
}
if (TSDBROW_TS(&current) != TSDBROW_TS(pNextRow)) {
*pResRow = current;
*freeTSRow = false;
return TSDB_CODE_SUCCESS;
}
}
}
SRowMerger merge = {0};
terrno = 0;
int32_t code = 0;
// start to merge duplicated rows
if (current.type == TSDBROW_ROW_FMT) {
// get the correct schema for data in memory
STSchema* pTSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(&current), pReader, uid);
if (pTSchema == NULL) {
return terrno;
}
if (pReader->pSchema == NULL) {
pReader->pSchema = pTSchema;
}
code = tsdbRowMergerInit2(&merge, pReader->pSchema, &current, pTSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
STSchema* pTSchema1 = doGetSchemaForTSRow(TSDBROW_SVERSION(pNextRow), pReader, uid);
if (pTSchema1 == NULL) {
return terrno;
}
tsdbRowMergerAdd(&merge, pNextRow, pTSchema1);
} else { // let's merge rows in file block
code = tsdbRowMergerInit(&merge, &current, pReader->pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
tsdbRowMerge(&merge, pNextRow);
}
code = doMergeRowsInBuf(pIter, uid, TSDBROW_TS(&current), pDelList, &merge, pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
code = tsdbRowMergerGetRow(&merge, &pResRow->pTSRow);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
pResRow->type = TSDBROW_ROW_FMT;
tsdbRowMergerClear(&merge);
*freeTSRow = true;
return TSDB_CODE_SUCCESS;
}
int32_t doMergeMemIMemRows(TSDBROW* pRow, TSDBROW* piRow, STableBlockScanInfo* pBlockScanInfo, STsdbReader* pReader,
SRow** pTSRow) {
SRowMerger merge = {0};
TSDBKEY k = TSDBROW_KEY(pRow);
TSDBKEY ik = TSDBROW_KEY(piRow);
if (ASCENDING_TRAVERSE(pReader->order)) { // ascending order imem --> mem
STSchema* pSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(pRow), pReader, pBlockScanInfo->uid);
int32_t code = tsdbRowMergerInit(&merge, piRow, pSchema);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
code = doMergeRowsInBuf(&pBlockScanInfo->iiter, pBlockScanInfo->uid, ik.ts, pBlockScanInfo->delSkyline, &merge,
pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
tsdbRowMerge(&merge, pRow);
code =
doMergeRowsInBuf(&pBlockScanInfo->iter, pBlockScanInfo->uid, k.ts, pBlockScanInfo->delSkyline, &merge, pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
} else {
STSchema* pSchema = doGetSchemaForTSRow(TSDBROW_SVERSION(pRow), pReader, pBlockScanInfo->uid);
int32_t code = tsdbRowMergerInit(&merge, pRow, pSchema);
if (code != TSDB_CODE_SUCCESS || merge.pTSchema == NULL) {
return code;
}
code =
doMergeRowsInBuf(&pBlockScanInfo->iter, pBlockScanInfo->uid, k.ts, pBlockScanInfo->delSkyline, &merge, pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
tsdbRowMerge(&merge, piRow);
code = doMergeRowsInBuf(&pBlockScanInfo->iiter, pBlockScanInfo->uid, ik.ts, pBlockScanInfo->delSkyline, &merge,
pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
int32_t code = tsdbRowMergerGetRow(&merge, pTSRow);
tsdbRowMergerClear(&merge);
return code;
}
int32_t tsdbGetNextRowInMem(STableBlockScanInfo* pBlockScanInfo, STsdbReader* pReader, TSDBROW* pResRow, int64_t endKey,
bool* freeTSRow) {
TSDBROW* pRow = getValidMemRow(&pBlockScanInfo->iter, pBlockScanInfo->delSkyline, pReader);
TSDBROW* piRow = getValidMemRow(&pBlockScanInfo->iiter, pBlockScanInfo->delSkyline, pReader);
SArray* pDelList = pBlockScanInfo->delSkyline;
uint64_t uid = pBlockScanInfo->uid;
// todo refactor
bool asc = ASCENDING_TRAVERSE(pReader->order);
if (pBlockScanInfo->iter.hasVal) {
TSDBKEY k = TSDBROW_KEY(pRow);
if ((k.ts >= endKey && asc) || (k.ts <= endKey && !asc)) {
pRow = NULL;
}
}
if (pBlockScanInfo->iiter.hasVal) {
TSDBKEY k = TSDBROW_KEY(piRow);
if ((k.ts >= endKey && asc) || (k.ts <= endKey && !asc)) {
piRow = NULL;
}
}
if (pBlockScanInfo->iter.hasVal && pBlockScanInfo->iiter.hasVal && pRow != NULL && piRow != NULL) {
TSDBKEY k = TSDBROW_KEY(pRow);
TSDBKEY ik = TSDBROW_KEY(piRow);
int32_t code = TSDB_CODE_SUCCESS;
if (ik.ts != k.ts) {
if (((ik.ts < k.ts) && asc) || ((ik.ts > k.ts) && (!asc))) { // ik.ts < k.ts
code = doMergeMemTableMultiRows(piRow, uid, &pBlockScanInfo->iiter, pDelList, pResRow, pReader, freeTSRow);
} else if (((k.ts < ik.ts) && asc) || ((k.ts > ik.ts) && (!asc))) {
code = doMergeMemTableMultiRows(pRow, uid, &pBlockScanInfo->iter, pDelList, pResRow, pReader, freeTSRow);
}
} else { // ik.ts == k.ts
*freeTSRow = true;
pResRow->type = TSDBROW_ROW_FMT;
code = doMergeMemIMemRows(pRow, piRow, pBlockScanInfo, pReader, &pResRow->pTSRow);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
return code;
}
if (pBlockScanInfo->iter.hasVal && pRow != NULL) {
return doMergeMemTableMultiRows(pRow, pBlockScanInfo->uid, &pBlockScanInfo->iter, pDelList, pResRow, pReader,
freeTSRow);
}
if (pBlockScanInfo->iiter.hasVal && piRow != NULL) {
return doMergeMemTableMultiRows(piRow, uid, &pBlockScanInfo->iiter, pDelList, pResRow, pReader, freeTSRow);
}
return TSDB_CODE_SUCCESS;
}
int32_t doAppendRowFromTSRow(SSDataBlock* pBlock, STsdbReader* pReader, SRow* pTSRow, STableBlockScanInfo* pScanInfo) {
int32_t outputRowIndex = pBlock->info.rows;
int64_t uid = pScanInfo->uid;
int32_t numOfCols = (int32_t)taosArrayGetSize(pBlock->pDataBlock);
SBlockLoadSuppInfo* pSupInfo = &pReader->suppInfo;
STSchema* pSchema = doGetSchemaForTSRow(pTSRow->sver, pReader, uid);
SColVal colVal = {0};
int32_t i = 0, j = 0;
if (pSupInfo->colId[i] == PRIMARYKEY_TIMESTAMP_COL_ID) {
SColumnInfoData* pColData = taosArrayGet(pBlock->pDataBlock, pSupInfo->slotId[i]);
((int64_t*)pColData->pData)[outputRowIndex] = pTSRow->ts;
i += 1;
}
while (i < pSupInfo->numOfCols && j < pSchema->numOfCols) {
col_id_t colId = pSupInfo->colId[i];
if (colId == pSchema->columns[j].colId) {
SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, pSupInfo->slotId[i]);
tRowGet(pTSRow, pSchema, j, &colVal);
doCopyColVal(pColInfoData, outputRowIndex, i, &colVal, pSupInfo);
i += 1;
j += 1;
} else if (colId < pSchema->columns[j].colId) {
SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, pSupInfo->slotId[i]);
colDataSetNULL(pColInfoData, outputRowIndex);
i += 1;
} else if (colId > pSchema->columns[j].colId) {
j += 1;
}
}
// set null value since current column does not exist in the "pSchema"
while (i < pSupInfo->numOfCols) {
SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, pSupInfo->slotId[i]);
colDataSetNULL(pColInfoData, outputRowIndex);
i += 1;
}
pBlock->info.dataLoad = 1;
pBlock->info.rows += 1;
pScanInfo->lastKey = pTSRow->ts;
return TSDB_CODE_SUCCESS;
}
int32_t doAppendRowFromFileBlock(SSDataBlock* pResBlock, STsdbReader* pReader, SBlockData* pBlockData,
int32_t rowIndex) {
int32_t i = 0, j = 0;
int32_t outputRowIndex = pResBlock->info.rows;
SBlockLoadSuppInfo* pSupInfo = &pReader->suppInfo;
if (pReader->suppInfo.colId[i] == PRIMARYKEY_TIMESTAMP_COL_ID) {
SColumnInfoData* pColData = taosArrayGet(pResBlock->pDataBlock, pSupInfo->slotId[i]);
((int64_t*)pColData->pData)[outputRowIndex] = pBlockData->aTSKEY[rowIndex];
i += 1;
}
SColVal cv = {0};
int32_t numOfInputCols = pBlockData->nColData;
int32_t numOfOutputCols = pSupInfo->numOfCols;
while (i < numOfOutputCols && j < numOfInputCols) {
SColData* pData = tBlockDataGetColDataByIdx(pBlockData, j);
if (pData->cid < pSupInfo->colId[i]) {
j += 1;
continue;
}
SColumnInfoData* pCol = TARRAY_GET_ELEM(pResBlock->pDataBlock, pSupInfo->slotId[i]);
if (pData->cid == pSupInfo->colId[i]) {
tColDataGetValue(pData, rowIndex, &cv);
doCopyColVal(pCol, outputRowIndex, i, &cv, pSupInfo);
j += 1;
} else if (pData->cid > pCol->info.colId) {
// the specified column does not exist in file block, fill with null data
colDataSetNULL(pCol, outputRowIndex);
}
i += 1;
}
while (i < numOfOutputCols) {
SColumnInfoData* pCol = taosArrayGet(pResBlock->pDataBlock, pSupInfo->slotId[i]);
colDataSetNULL(pCol, outputRowIndex);
i += 1;
}
pResBlock->info.dataLoad = 1;
pResBlock->info.rows += 1;
return TSDB_CODE_SUCCESS;
}
int32_t buildDataBlockFromBufImpl(STableBlockScanInfo* pBlockScanInfo, int64_t endKey, int32_t capacity,
STsdbReader* pReader) {
SSDataBlock* pBlock = pReader->pResBlock;
do {
// SRow* pTSRow = NULL;
TSDBROW row = {.type = -1};
bool freeTSRow = false;
tsdbGetNextRowInMem(pBlockScanInfo, pReader, &row, endKey, &freeTSRow);
if (row.type == -1) {
break;
}
if (row.type == TSDBROW_ROW_FMT) {
doAppendRowFromTSRow(pBlock, pReader, row.pTSRow, pBlockScanInfo);
if (freeTSRow) {
taosMemoryFree(row.pTSRow);
}
} else {
doAppendRowFromFileBlock(pBlock, pReader, row.pBlockData, row.iRow);
}
// no data in buffer, return immediately
if (!(pBlockScanInfo->iter.hasVal || pBlockScanInfo->iiter.hasVal)) {
break;
}
if (pBlock->info.rows >= capacity) {
break;
}
} while (1);
return TSDB_CODE_SUCCESS;
}
// TODO refactor: with createDataBlockScanInfo
int32_t tsdbSetTableList(STsdbReader* pReader, const void* pTableList, int32_t num) {
int32_t size = taosHashGetSize(pReader->status.pTableMap);
STableBlockScanInfo** p = NULL;
while ((p = taosHashIterate(pReader->status.pTableMap, p)) != NULL) {
clearBlockScanInfo(*p);
}
if (size < num) {
int32_t code = ensureBlockScanInfoBuf(&pReader->blockInfoBuf, num);
if (code) {
return code;
}
pReader->status.uidList.tableUidList =
(uint64_t*)taosMemoryRealloc(pReader->status.uidList.tableUidList, sizeof(uint64_t) * num);
}
taosHashClear(pReader->status.pTableMap);
STableUidList* pUidList = &pReader->status.uidList;
pUidList->currentIndex = 0;
STableKeyInfo* pList = (STableKeyInfo*)pTableList;
for (int32_t i = 0; i < num; ++i) {
STableBlockScanInfo* pInfo = getPosInBlockInfoBuf(&pReader->blockInfoBuf, i);
pInfo->uid = pList[i].uid;
pUidList->tableUidList[i] = pList[i].uid;
// todo extract method
if (ASCENDING_TRAVERSE(pReader->order)) {
int64_t skey = pReader->window.skey;
pInfo->lastKey = (skey > INT64_MIN) ? (skey - 1) : skey;
pInfo->lastKeyInStt = skey;
} else {
int64_t ekey = pReader->window.ekey;
pInfo->lastKey = (ekey < INT64_MAX) ? (ekey + 1) : ekey;
pInfo->lastKeyInStt = ekey;
}
taosHashPut(pReader->status.pTableMap, &pInfo->uid, sizeof(uint64_t), &pInfo, POINTER_BYTES);
}
return TDB_CODE_SUCCESS;
}
void* tsdbGetIdx(SMeta* pMeta) {
if (pMeta == NULL) {
return NULL;
}
return metaGetIdx(pMeta);
}
void* tsdbGetIvtIdx(SMeta* pMeta) {
if (pMeta == NULL) {
return NULL;
}
return metaGetIvtIdx(pMeta);
}
uint64_t getReaderMaxVersion(STsdbReader* pReader) { return pReader->verRange.maxVer; }
static int32_t doOpenReaderImpl(STsdbReader* pReader) {
SReaderStatus* pStatus = &pReader->status;
SDataBlockIter* pBlockIter = &pStatus->blockIter;
initFilesetIterator(&pStatus->fileIter, pReader->pReadSnap->fs.aDFileSet, pReader);
resetDataBlockIterator(&pStatus->blockIter, pReader->order);
int32_t code = TSDB_CODE_SUCCESS;
if (pStatus->fileIter.numOfFiles == 0) {
pStatus->loadFromFile = false;
} else {
code = initForFirstBlockInFile(pReader, pBlockIter);
}
if (!pStatus->loadFromFile) {
resetTableListIndex(pStatus);
}
return code;
}
// ====================================== EXPOSED APIs ======================================
int32_t tsdbReaderOpen(SVnode* pVnode, SQueryTableDataCond* pCond, void* pTableList, int32_t numOfTables,
SSDataBlock* pResBlock, STsdbReader** ppReader, const char* idstr) {
STimeWindow window = pCond->twindows;
if (pCond->type == TIMEWINDOW_RANGE_EXTERNAL) {
pCond->twindows.skey += 1;
pCond->twindows.ekey -= 1;
}
int32_t capacity = pVnode->config.tsdbCfg.maxRows;
if (pResBlock != NULL) {
blockDataEnsureCapacity(pResBlock, capacity);
}
int32_t code = tsdbReaderCreate(pVnode, pCond, ppReader, capacity, pResBlock, idstr);
if (code != TSDB_CODE_SUCCESS) {
goto _err;
}
// check for query time window
STsdbReader* pReader = *ppReader;
if (isEmptyQueryTimeWindow(&pReader->window) && pCond->type == TIMEWINDOW_RANGE_CONTAINED) {
tsdbDebug("%p query window not overlaps with the data set, no result returned, %s", pReader, pReader->idStr);
return TSDB_CODE_SUCCESS;
}
if (pCond->type == TIMEWINDOW_RANGE_EXTERNAL) {
// update the SQueryTableDataCond to create inner reader
int32_t order = pCond->order;
if (order == TSDB_ORDER_ASC) {
pCond->twindows.ekey = window.skey;
pCond->twindows.skey = INT64_MIN;
pCond->order = TSDB_ORDER_DESC;
} else {
pCond->twindows.skey = window.ekey;
pCond->twindows.ekey = INT64_MAX;
pCond->order = TSDB_ORDER_ASC;
}
// here we only need one more row, so the capacity is set to be ONE.
code = tsdbReaderCreate(pVnode, pCond, &pReader->innerReader[0], 1, pResBlock, idstr);
if (code != TSDB_CODE_SUCCESS) {
goto _err;
}
if (order == TSDB_ORDER_ASC) {
pCond->twindows.skey = window.ekey;
pCond->twindows.ekey = INT64_MAX;
} else {
pCond->twindows.skey = INT64_MIN;
pCond->twindows.ekey = window.ekey;
}
pCond->order = order;
code = tsdbReaderCreate(pVnode, pCond, &pReader->innerReader[1], 1, pResBlock, idstr);
if (code != TSDB_CODE_SUCCESS) {
goto _err;
}
}
// NOTE: the endVersion in pCond is the data version not schema version, so pCond->endVersion is not correct here.
// no valid error code set in metaGetTbTSchema, so let's set the error code here.
// we should proceed in case of tmq processing.
if (pCond->suid != 0) {
pReader->pSchema = metaGetTbTSchema(pReader->pTsdb->pVnode->pMeta, pReader->suid, -1, 1);
if (pReader->pSchema == NULL) {
tsdbError("failed to get table schema, suid:%" PRIu64 ", ver:-1, %s", pReader->suid, pReader->idStr);
}
} else if (numOfTables > 0) {
STableKeyInfo* pKey = pTableList;
pReader->pSchema = metaGetTbTSchema(pReader->pTsdb->pVnode->pMeta, pKey->uid, -1, 1);
if (pReader->pSchema == NULL) {
tsdbError("failed to get table schema, uid:%" PRIu64 ", ver:-1, %s", pKey->uid, pReader->idStr);
}
}
if (pReader->pSchema != NULL) {
code = updateBlockSMAInfo(pReader->pSchema, &pReader->suppInfo);
if (code != TSDB_CODE_SUCCESS) {
goto _err;
}
}
STsdbReader* p = (pReader->innerReader[0] != NULL) ? pReader->innerReader[0] : pReader;
pReader->status.pTableMap =
createDataBlockScanInfo(p, &pReader->blockInfoBuf, pTableList, &pReader->status.uidList, numOfTables);
if (pReader->status.pTableMap == NULL) {
*ppReader = NULL;
code = TSDB_CODE_OUT_OF_MEMORY;
goto _err;
}
pReader->suspended = true;
tsdbDebug("%p total numOfTable:%d in this query %s", pReader, numOfTables, pReader->idStr);
return code;
_err:
tsdbError("failed to create data reader, code:%s %s", tstrerror(code), idstr);
tsdbReaderClose(pReader);
*ppReader = NULL; // reset the pointer value.
return code;
}
void tsdbReaderClose(STsdbReader* pReader) {
if (pReader == NULL) {
return;
}
tsdbAcquireReader(pReader);
{
if (pReader->innerReader[0] != NULL || pReader->innerReader[1] != NULL) {
STsdbReader* p = pReader->innerReader[0];
p->status.pTableMap = NULL;
p->status.uidList.tableUidList = NULL;
p->pReadSnap = NULL;
p->pSchema = NULL;
p->pMemSchema = NULL;
p = pReader->innerReader[1];
p->status.pTableMap = NULL;
p->status.uidList.tableUidList = NULL;
p->pReadSnap = NULL;
p->pSchema = NULL;
p->pMemSchema = NULL;
tsdbReaderClose(pReader->innerReader[0]);
tsdbReaderClose(pReader->innerReader[1]);
}
}
SBlockLoadSuppInfo* pSupInfo = &pReader->suppInfo;
taosArrayDestroy(pSupInfo->pColAgg);
for (int32_t i = 0; i < pSupInfo->numOfCols; ++i) {
if (pSupInfo->buildBuf[i] != NULL) {
taosMemoryFreeClear(pSupInfo->buildBuf[i]);
}
}
if (pReader->freeBlock) {
pReader->pResBlock = blockDataDestroy(pReader->pResBlock);
}
taosMemoryFree(pSupInfo->colId);
tBlockDataDestroy(&pReader->status.fileBlockData);
cleanupDataBlockIterator(&pReader->status.blockIter);
size_t numOfTables = taosHashGetSize(pReader->status.pTableMap);
if (pReader->status.pTableMap != NULL) {
destroyAllBlockScanInfo(pReader->status.pTableMap);
clearBlockScanInfoBuf(&pReader->blockInfoBuf);
}
if (pReader->pFileReader != NULL) {
tsdbDataFReaderClose(&pReader->pFileReader);
}
if (pReader->pDelFReader != NULL) {
tsdbDelFReaderClose(&pReader->pDelFReader);
}
if (pReader->pDelIdx != NULL) {
taosArrayDestroy(pReader->pDelIdx);
pReader->pDelIdx = NULL;
}
qTrace("tsdb/reader-close: %p, untake snapshot", pReader);
tsdbUntakeReadSnap(pReader, pReader->pReadSnap, true);
pReader->pReadSnap = NULL;
tsdbReleaseReader(pReader);
tsdbUninitReaderLock(pReader);
taosMemoryFree(pReader->status.uidList.tableUidList);
SIOCostSummary* pCost = &pReader->cost;
SFilesetIter* pFilesetIter = &pReader->status.fileIter;
if (pFilesetIter->pLastBlockReader != NULL) {
SLastBlockReader* pLReader = pFilesetIter->pLastBlockReader;
tMergeTreeClose(&pLReader->mergeTree);
getLastBlockLoadInfo(pLReader->pInfo, &pCost->lastBlockLoad, &pCost->lastBlockLoadTime);
pLReader->pInfo = destroyLastBlockLoadInfo(pLReader->pInfo);
taosMemoryFree(pLReader);
}
tsdbDebug(
"%p :io-cost summary: head-file:%" PRIu64 ", head-file time:%.2f ms, SMA:%" PRId64
" SMA-time:%.2f ms, fileBlocks:%" PRId64
", fileBlocks-load-time:%.2f ms, "
"build in-memory-block-time:%.2f ms, lastBlocks:%" PRId64 ", lastBlocks-time:%.2f ms, composed-blocks:%" PRId64
", composed-blocks-time:%.2fms, STableBlockScanInfo size:%.2f Kb, createTime:%.2f ms,initDelSkylineIterTime:%.2f "
"ms, %s",
pReader, pCost->headFileLoad, pCost->headFileLoadTime, pCost->smaDataLoad, pCost->smaLoadTime, pCost->numOfBlocks,
pCost->blockLoadTime, pCost->buildmemBlock, pCost->lastBlockLoad, pCost->lastBlockLoadTime, pCost->composedBlocks,
pCost->buildComposedBlockTime, numOfTables * sizeof(STableBlockScanInfo) / 1000.0, pCost->createScanInfoList,
pCost->initDelSkylineIterTime, pReader->idStr);
taosMemoryFree(pReader->idStr);
taosMemoryFree(pReader->pSchema);
if (pReader->pMemSchema != pReader->pSchema) {
taosMemoryFree(pReader->pMemSchema);
}
taosMemoryFreeClear(pReader);
}
int32_t tsdbReaderSuspend(STsdbReader* pReader) {
int32_t code = 0;
// save reader's base state & reset top state to be reconstructed from base state
SReaderStatus* pStatus = &pReader->status;
STableBlockScanInfo* pBlockScanInfo = NULL;
if (pStatus->loadFromFile) {
SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(&pReader->status.blockIter);
if (pBlockInfo != NULL) {
pBlockScanInfo = getTableBlockScanInfo(pStatus->pTableMap, pBlockInfo->uid, pReader->idStr);
if (pBlockScanInfo == NULL) {
goto _err;
}
} else {
pBlockScanInfo = *pStatus->pTableIter;
}
tsdbDataFReaderClose(&pReader->pFileReader);
// resetDataBlockScanInfo excluding lastKey
STableBlockScanInfo** p = NULL;
while ((p = taosHashIterate(pStatus->pTableMap, p)) != NULL) {
STableBlockScanInfo* pInfo = *(STableBlockScanInfo**)p;
pInfo->iterInit = false;
pInfo->iter.hasVal = false;
pInfo->iiter.hasVal = false;
if (pInfo->iter.iter != NULL) {
pInfo->iter.iter = tsdbTbDataIterDestroy(pInfo->iter.iter);
}
if (pInfo->iiter.iter != NULL) {
pInfo->iiter.iter = tsdbTbDataIterDestroy(pInfo->iiter.iter);
}
pInfo->delSkyline = taosArrayDestroy(pInfo->delSkyline);
// pInfo->lastKey = ts;
}
} else {
// resetDataBlockScanInfo excluding lastKey
STableBlockScanInfo** p = NULL;
while ((p = taosHashIterate(pStatus->pTableMap, p)) != NULL) {
STableBlockScanInfo* pInfo = *(STableBlockScanInfo**)p;
pInfo->iterInit = false;
pInfo->iter.hasVal = false;
pInfo->iiter.hasVal = false;
if (pInfo->iter.iter != NULL) {
pInfo->iter.iter = tsdbTbDataIterDestroy(pInfo->iter.iter);
}
if (pInfo->iiter.iter != NULL) {
pInfo->iiter.iter = tsdbTbDataIterDestroy(pInfo->iiter.iter);
}
pInfo->delSkyline = taosArrayDestroy(pInfo->delSkyline);
// pInfo->lastKey = ts;
}
pBlockScanInfo = pStatus->pTableIter == NULL ? NULL : *pStatus->pTableIter;
if (pBlockScanInfo) {
// save lastKey to restore memory iterator
STimeWindow w = pReader->pResBlock->info.window;
pBlockScanInfo->lastKey = ASCENDING_TRAVERSE(pReader->order) ? w.ekey : w.skey;
// reset current current table's data block scan info,
pBlockScanInfo->iterInit = false;
pBlockScanInfo->iter.hasVal = false;
pBlockScanInfo->iiter.hasVal = false;
if (pBlockScanInfo->iter.iter != NULL) {
pBlockScanInfo->iter.iter = tsdbTbDataIterDestroy(pBlockScanInfo->iter.iter);
}
if (pBlockScanInfo->iiter.iter != NULL) {
pBlockScanInfo->iiter.iter = tsdbTbDataIterDestroy(pBlockScanInfo->iiter.iter);
}
pBlockScanInfo->pBlockList = taosArrayDestroy(pBlockScanInfo->pBlockList);
tMapDataClear(&pBlockScanInfo->mapData);
// TODO: keep skyline for reuse
pBlockScanInfo->delSkyline = taosArrayDestroy(pBlockScanInfo->delSkyline);
}
}
tsdbUntakeReadSnap(pReader, pReader->pReadSnap, false);
pReader->pReadSnap = NULL;
pReader->suspended = true;
tsdbDebug("reader: %p suspended uid %" PRIu64 " in this query %s", pReader, pBlockScanInfo ? pBlockScanInfo->uid : 0,
pReader->idStr);
return code;
_err:
tsdbError("failed to suspend data reader, code:%s %s", tstrerror(code), pReader->idStr);
return code;
}
static int32_t tsdbSetQueryReseek(void* pQHandle) {
int32_t code = 0;
STsdbReader* pReader = pQHandle;
code = tsdbTryAcquireReader(pReader);
if (code == 0) {
if (pReader->suspended) {
tsdbReleaseReader(pReader);
return code;
}
tsdbReaderSuspend(pReader);
tsdbReleaseReader(pReader);
return code;
} else if (code == EBUSY) {
return TSDB_CODE_VND_QUERY_BUSY;
} else {
terrno = TAOS_SYSTEM_ERROR(code);
return TSDB_CODE_FAILED;
}
}
int32_t tsdbReaderResume(STsdbReader* pReader) {
int32_t code = 0;
STableBlockScanInfo** pBlockScanInfo = pReader->status.pTableIter;
// restore reader's state
// task snapshot
int32_t numOfTables = taosHashGetSize(pReader->status.pTableMap);
if (numOfTables > 0) {
qTrace("tsdb/reader: %p, take snapshot", pReader);
code = tsdbTakeReadSnap(pReader, tsdbSetQueryReseek, &pReader->pReadSnap);
if (code != TSDB_CODE_SUCCESS) {
goto _err;
}
if (pReader->type == TIMEWINDOW_RANGE_CONTAINED) {
code = doOpenReaderImpl(pReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
} else {
STsdbReader* pPrevReader = pReader->innerReader[0];
STsdbReader* pNextReader = pReader->innerReader[1];
// we need only one row
pPrevReader->capacity = 1;
pPrevReader->status.pTableMap = pReader->status.pTableMap;
pPrevReader->status.uidList = pReader->status.uidList;
pPrevReader->pSchema = pReader->pSchema;
pPrevReader->pMemSchema = pReader->pMemSchema;
pPrevReader->pReadSnap = pReader->pReadSnap;
pNextReader->capacity = 1;
pNextReader->status.pTableMap = pReader->status.pTableMap;
pNextReader->status.uidList = pReader->status.uidList;
pNextReader->pSchema = pReader->pSchema;
pNextReader->pMemSchema = pReader->pMemSchema;
pNextReader->pReadSnap = pReader->pReadSnap;
code = doOpenReaderImpl(pPrevReader);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
}
}
pReader->suspended = false;
tsdbDebug("reader: %p resumed uid %" PRIu64 ", numOfTable:%" PRId32 ", in this query %s", pReader,
pBlockScanInfo ? (*pBlockScanInfo)->uid : 0, numOfTables, pReader->idStr);
return code;
_err:
tsdbError("failed to resume data reader, code:%s %s", tstrerror(code), pReader->idStr);
return code;
}
static bool doTsdbNextDataBlock(STsdbReader* pReader) {
// cleanup the data that belongs to the previous data block
SSDataBlock* pBlock = pReader->pResBlock;
blockDataCleanup(pBlock);
SReaderStatus* pStatus = &pReader->status;
if (taosHashGetSize(pStatus->pTableMap) == 0) {
return false;
}
if (pStatus->loadFromFile) {
int32_t code = buildBlockFromFiles(pReader);
if (code != TSDB_CODE_SUCCESS) {
return false;
}
if (pBlock->info.rows > 0) {
return true;
} else {
resetTableListIndex(&pReader->status);
buildBlockFromBufferSequentially(pReader);
return pBlock->info.rows > 0;
}
} else { // no data in files, let's try the buffer
buildBlockFromBufferSequentially(pReader);
return pBlock->info.rows > 0;
}
}
bool tsdbNextDataBlock(STsdbReader* pReader) {
if (isEmptyQueryTimeWindow(&pReader->window) || pReader->step == EXTERNAL_ROWS_NEXT) {
return false;
}
SReaderStatus* pStatus = &pReader->status;
int32_t code = tsdbAcquireReader(pReader);
qTrace("tsdb/read: %p, take read mutex, code: %d", pReader, code);
if (pReader->suspended) {
tsdbReaderResume(pReader);
}
if (pReader->innerReader[0] != NULL && pReader->step == 0) {
bool ret = doTsdbNextDataBlock(pReader->innerReader[0]);
pReader->step = EXTERNAL_ROWS_PREV;
if (ret) {
pStatus = &pReader->innerReader[0]->status;
if (pStatus->composedDataBlock) {
qTrace("tsdb/read: %p, unlock read mutex", pReader);
tsdbReleaseReader(pReader);
}
return ret;
}
}
if (pReader->step == EXTERNAL_ROWS_PREV) {
// prepare for the main scan
code = doOpenReaderImpl(pReader);
int32_t step = 1;
resetAllDataBlockScanInfo(pReader->status.pTableMap, pReader->innerReader[0]->window.ekey, step);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
pReader->step = EXTERNAL_ROWS_MAIN;
}
bool ret = doTsdbNextDataBlock(pReader);
if (ret) {
if (pStatus->composedDataBlock) {
qTrace("tsdb/read: %p, unlock read mutex", pReader);
tsdbReleaseReader(pReader);
}
return ret;
}
if (pReader->step == EXTERNAL_ROWS_MAIN && pReader->innerReader[1] != NULL) {
// prepare for the next row scan
int32_t step = -1;
code = doOpenReaderImpl(pReader->innerReader[1]);
resetAllDataBlockScanInfo(pReader->innerReader[1]->status.pTableMap, pReader->window.ekey, step);
if (code != TSDB_CODE_SUCCESS) {
return code;
}
ret = doTsdbNextDataBlock(pReader->innerReader[1]);
pReader->step = EXTERNAL_ROWS_NEXT;
if (ret) {
pStatus = &pReader->innerReader[1]->status;
if (pStatus->composedDataBlock) {
qTrace("tsdb/read: %p, unlock read mutex", pReader);
tsdbReleaseReader(pReader);
}
return ret;
}
}
qTrace("tsdb/read: %p, unlock read mutex", pReader);
tsdbReleaseReader(pReader);
return false;
}
static void doFillNullColSMA(SBlockLoadSuppInfo* pSup, int32_t numOfRows, int32_t numOfCols, SColumnDataAgg* pTsAgg) {
// do fill all null column value SMA info
int32_t i = 0, j = 0;
int32_t size = (int32_t)taosArrayGetSize(pSup->pColAgg);
taosArrayInsert(pSup->pColAgg, 0, pTsAgg);
while (j < numOfCols && i < size) {
SColumnDataAgg* pAgg = taosArrayGet(pSup->pColAgg, i);
if (pAgg->colId == pSup->colId[j]) {
i += 1;
j += 1;
} else if (pAgg->colId < pSup->colId[j]) {
i += 1;
} else if (pSup->colId[j] < pAgg->colId) {
if (pSup->colId[j] != PRIMARYKEY_TIMESTAMP_COL_ID) {
SColumnDataAgg nullColAgg = {.colId = pSup->colId[j], .numOfNull = numOfRows};
taosArrayInsert(pSup->pColAgg, i, &nullColAgg);
}
j += 1;
}
}
}
int32_t tsdbRetrieveDatablockSMA(STsdbReader* pReader, SSDataBlock* pDataBlock, bool* allHave) {
SColumnDataAgg*** pBlockSMA = &pDataBlock->pBlockAgg;
int32_t code = 0;
*allHave = false;
*pBlockSMA = NULL;
if (pReader->type == TIMEWINDOW_RANGE_EXTERNAL) {
return TSDB_CODE_SUCCESS;
}
// there is no statistics data for composed block
if (pReader->status.composedDataBlock || (!pReader->suppInfo.smaValid)) {
return TSDB_CODE_SUCCESS;
}
SFileDataBlockInfo* pFBlock = getCurrentBlockInfo(&pReader->status.blockIter);
SBlockLoadSuppInfo* pSup = &pReader->suppInfo;
if (pReader->pResBlock->info.id.uid != pFBlock->uid) {
return TSDB_CODE_SUCCESS;
}
int64_t st = taosGetTimestampUs();
SDataBlk* pBlock = getCurrentBlock(&pReader->status.blockIter);
if (tDataBlkHasSma(pBlock)) {
code = tsdbReadBlockSma(pReader->pFileReader, pBlock, pSup->pColAgg);
if (code != TSDB_CODE_SUCCESS) {
tsdbDebug("vgId:%d, failed to load block SMA for uid %" PRIu64 ", code:%s, %s", 0, pFBlock->uid, tstrerror(code),
pReader->idStr);
return code;
}
} else {
*pBlockSMA = NULL;
return TSDB_CODE_SUCCESS;
}
*allHave = true;
// always load the first primary timestamp column data
SColumnDataAgg* pTsAgg = &pSup->tsColAgg;
pTsAgg->numOfNull = 0;
pTsAgg->colId = PRIMARYKEY_TIMESTAMP_COL_ID;
pTsAgg->min = pReader->pResBlock->info.window.skey;
pTsAgg->max = pReader->pResBlock->info.window.ekey;
// update the number of NULL data rows
size_t numOfCols = pSup->numOfCols;
// ensure capacity
if (pDataBlock->pDataBlock) {
size_t colsNum = taosArrayGetSize(pDataBlock->pDataBlock);
taosArrayEnsureCap(pSup->pColAgg, colsNum);
}
SSDataBlock* pResBlock = pReader->pResBlock;
if (pResBlock->pBlockAgg == NULL) {
size_t num = taosArrayGetSize(pResBlock->pDataBlock);
pResBlock->pBlockAgg = taosMemoryCalloc(num, POINTER_BYTES);
}
// do fill all null column value SMA info
doFillNullColSMA(pSup, pBlock->nRow, numOfCols, pTsAgg);
size_t size = taosArrayGetSize(pSup->pColAgg);
int32_t i = 0, j = 0;
while (j < numOfCols && i < size) {
SColumnDataAgg* pAgg = taosArrayGet(pSup->pColAgg, i);
if (pAgg->colId == pSup->colId[j]) {
pResBlock->pBlockAgg[pSup->slotId[j]] = pAgg;
i += 1;
j += 1;
} else if (pAgg->colId < pSup->colId[j]) {
i += 1;
} else if (pSup->colId[j] < pAgg->colId) {
// ASSERT(pSup->colId[j] == PRIMARYKEY_TIMESTAMP_COL_ID);
pResBlock->pBlockAgg[pSup->slotId[j]] = &pSup->tsColAgg;
j += 1;
}
}
*pBlockSMA = pResBlock->pBlockAgg;
pReader->cost.smaDataLoad += 1;
double elapsedTime = (taosGetTimestampUs() - st) / 1000.0;
pReader->cost.smaLoadTime += elapsedTime;
tsdbDebug("vgId:%d, succeed to load block SMA for uid %" PRIu64 ", %s", 0, pFBlock->uid, pReader->idStr);
return code;
}
STableBlockScanInfo* getTableBlockScanInfo(SHashObj* pTableMap, uint64_t uid, const char* id) {
STableBlockScanInfo** p = taosHashGet(pTableMap, &uid, sizeof(uid));
if (p == NULL || *p == NULL) {
terrno = TSDB_CODE_INVALID_PARA;
int32_t size = taosHashGetSize(pTableMap);
tsdbError("failed to locate the uid:%" PRIu64 " in query table uid list, total tables:%d, %s", uid, size, id);
return NULL;
}
return *p;
}
static SSDataBlock* doRetrieveDataBlock(STsdbReader* pReader) {
SReaderStatus* pStatus = &pReader->status;
SFileDataBlockInfo* pBlockInfo = getCurrentBlockInfo(&pStatus->blockIter);
STableBlockScanInfo* pBlockScanInfo = getTableBlockScanInfo(pStatus->pTableMap, pBlockInfo->uid, pReader->idStr);
if (pBlockScanInfo == NULL) {
return NULL;
}
int32_t code = doLoadFileBlockData(pReader, &pStatus->blockIter, &pStatus->fileBlockData, pBlockScanInfo->uid);
if (code != TSDB_CODE_SUCCESS) {
tBlockDataDestroy(&pStatus->fileBlockData);
terrno = code;
return NULL;
}
copyBlockDataToSDataBlock(pReader);
return pReader->pResBlock;
}
SSDataBlock* tsdbRetrieveDataBlock(STsdbReader* pReader, SArray* pIdList) {
STsdbReader* pTReader = pReader;
if (pReader->type == TIMEWINDOW_RANGE_EXTERNAL) {
if (pReader->step == EXTERNAL_ROWS_PREV) {
pTReader = pReader->innerReader[0];
} else if (pReader->step == EXTERNAL_ROWS_NEXT) {
pTReader = pReader->innerReader[1];
}
}
SReaderStatus* pStatus = &pTReader->status;
if (pStatus->composedDataBlock) {
return pTReader->pResBlock;
}
SSDataBlock* ret = doRetrieveDataBlock(pTReader);
qTrace("tsdb/read-retrieve: %p, unlock read mutex", pReader);
tsdbReleaseReader(pReader);
return ret;
}
int32_t tsdbReaderReset(STsdbReader* pReader, SQueryTableDataCond* pCond) {
qTrace("tsdb/reader-reset: %p, take read mutex", pReader);
tsdbAcquireReader(pReader);
if (pReader->suspended) {
tsdbReaderResume(pReader);
}
if (isEmptyQueryTimeWindow(&pReader->window) || pReader->pReadSnap == NULL) {
tsdbDebug("tsdb reader reset return %p, %s", pReader->pReadSnap, pReader->idStr);
tsdbReleaseReader(pReader);
return TSDB_CODE_SUCCESS;
}
SReaderStatus* pStatus = &pReader->status;
SDataBlockIter* pBlockIter = &pStatus->blockIter;
pReader->order = pCond->order;
pReader->type = TIMEWINDOW_RANGE_CONTAINED;
pStatus->loadFromFile = true;
pStatus->pTableIter = NULL;
pReader->window = updateQueryTimeWindow(pReader->pTsdb, &pCond->twindows);
// allocate buffer in order to load data blocks from file
memset(&pReader->suppInfo.tsColAgg, 0, sizeof(SColumnDataAgg));
pReader->suppInfo.tsColAgg.colId = PRIMARYKEY_TIMESTAMP_COL_ID;
tsdbDataFReaderClose(&pReader->pFileReader);
int32_t numOfTables = taosHashGetSize(pStatus->pTableMap);
initFilesetIterator(&pStatus->fileIter, pReader->pReadSnap->fs.aDFileSet, pReader);
resetDataBlockIterator(pBlockIter, pReader->order);
resetTableListIndex(&pReader->status);
bool asc = ASCENDING_TRAVERSE(pReader->order);
int32_t step = asc? 1:-1;
int64_t ts = asc? pReader->window.skey - 1 : pReader->window.ekey + 1;
resetAllDataBlockScanInfo(pStatus->pTableMap, ts, step);
int32_t code = 0;
// no data in files, let's try buffer in memory
if (pStatus->fileIter.numOfFiles == 0) {
pStatus->loadFromFile = false;
resetTableListIndex(pStatus);
} else {
code = initForFirstBlockInFile(pReader, pBlockIter);
if (code != TSDB_CODE_SUCCESS) {
tsdbError("%p reset reader failed, numOfTables:%d, query range:%" PRId64 " - %" PRId64 " in query %s", pReader,
numOfTables, pReader->window.skey, pReader->window.ekey, pReader->idStr);
tsdbReleaseReader(pReader);
return code;
}
}
tsdbDebug("%p reset reader, suid:%" PRIu64 ", numOfTables:%d, skey:%" PRId64 ", query range:%" PRId64 " - %" PRId64
" in query %s",
pReader, pReader->suid, numOfTables, pCond->twindows.skey, pReader->window.skey, pReader->window.ekey,
pReader->idStr);
tsdbReleaseReader(pReader);
return code;
}
static int32_t getBucketIndex(int32_t startRow, int32_t bucketRange, int32_t numOfRows, int32_t numOfBucket) {
int32_t bucketIndex = ((numOfRows - startRow) / bucketRange);
if (bucketIndex == numOfBucket) {
bucketIndex -= 1;
}
return bucketIndex;
}
int32_t tsdbGetFileBlocksDistInfo(STsdbReader* pReader, STableBlockDistInfo* pTableBlockInfo) {
int32_t code = TSDB_CODE_SUCCESS;
pTableBlockInfo->totalSize = 0;
pTableBlockInfo->totalRows = 0;
pTableBlockInfo->numOfVgroups = 1;
const int32_t numOfBuckets = 20.0;
// find the start data block in file
// find the start data block in file
tsdbAcquireReader(pReader);
if (pReader->suspended) {
tsdbReaderResume(pReader);
}
SReaderStatus* pStatus = &pReader->status;
STsdbCfg* pc = &pReader->pTsdb->pVnode->config.tsdbCfg;
pTableBlockInfo->defMinRows = pc->minRows;
pTableBlockInfo->defMaxRows = pc->maxRows;
int32_t bucketRange = ceil(((double)(pc->maxRows - pc->minRows)) / numOfBucket);
pTableBlockInfo->numOfFiles += 1;
int32_t numOfTables = (int32_t)taosHashGetSize(pStatus->pTableMap);
int defaultRows = 4096;
SDataBlockIter* pBlockIter = &pStatus->blockIter;
pTableBlockInfo->numOfFiles += pStatus->fileIter.numOfFiles;
if (pBlockIter->numOfBlocks > 0) {
pTableBlockInfo->numOfBlocks += pBlockIter->numOfBlocks;
}
pTableBlockInfo->numOfTables = numOfTables;
bool hasNext = (pBlockIter->numOfBlocks > 0);
while (true) {
if (hasNext) {
SDataBlk* pBlock = getCurrentBlock(pBlockIter);
int32_t numOfRows = pBlock->nRow;
pTableBlockInfo->totalRows += numOfRows;
if (numOfRows > pTableBlockInfo->maxRows) {
pTableBlockInfo->maxRows = numOfRows;
}
if (numOfRows < pTableBlockInfo->minRows) {
pTableBlockInfo->minRows = numOfRows;
}
if (numOfRows < defaultRows) {
pTableBlockInfo->numOfSmallBlocks += 1;
}
pTableBlockInfo->totalSize += pBlock->aSubBlock[0].szBlock;
int32_t bucketIndex = getBucketIndex(pTableBlockInfo->defMinRows, bucketRange, numOfRows, numOfBuckets);
pTableBlockInfo->blockRowsHisto[bucketIndex]++;
hasNext = blockIteratorNext(&pStatus->blockIter, pReader->idStr);
} else {
code = initForFirstBlockInFile(pReader, pBlockIter);
if ((code != TSDB_CODE_SUCCESS) || (pStatus->loadFromFile == false)) {
break;
}
pTableBlockInfo->numOfBlocks += pBlockIter->numOfBlocks;
hasNext = (pBlockIter->numOfBlocks > 0);
}
// tsdbDebug("%p %d blocks found in file for %d table(s), fid:%d, %s", pReader, numOfBlocks, numOfTables,
// pReader->pFileGroup->fid, pReader->idStr);
}
tsdbReleaseReader(pReader);
return code;
}
int64_t tsdbGetNumOfRowsInMemTable(STsdbReader* pReader) {
int64_t rows = 0;
SReaderStatus* pStatus = &pReader->status;
tsdbAcquireReader(pReader);
if (pReader->suspended) {
tsdbReaderResume(pReader);
}
pStatus->pTableIter = taosHashIterate(pStatus->pTableMap, NULL);
while (pStatus->pTableIter != NULL) {
STableBlockScanInfo* pBlockScanInfo = *(STableBlockScanInfo**)pStatus->pTableIter;
STbData* d = NULL;
if (pReader->pReadSnap->pMem != NULL) {
d = tsdbGetTbDataFromMemTable(pReader->pReadSnap->pMem, pReader->suid, pBlockScanInfo->uid);
if (d != NULL) {
rows += tsdbGetNRowsInTbData(d);
}
}
STbData* di = NULL;
if (pReader->pReadSnap->pIMem != NULL) {
di = tsdbGetTbDataFromMemTable(pReader->pReadSnap->pIMem, pReader->suid, pBlockScanInfo->uid);
if (di != NULL) {
rows += tsdbGetNRowsInTbData(di);
}
}
// current table is exhausted, let's try the next table
pStatus->pTableIter = taosHashIterate(pStatus->pTableMap, pStatus->pTableIter);
}
tsdbReleaseReader(pReader);
return rows;
}
int32_t tsdbGetTableSchema(SVnode* pVnode, int64_t uid, STSchema** pSchema, int64_t* suid) {
int32_t sversion = 1;
SMetaReader mr = {0};
metaReaderInit(&mr, pVnode->pMeta, 0);
int32_t code = metaGetTableEntryByUidCache(&mr, uid);
if (code != TSDB_CODE_SUCCESS) {
terrno = TSDB_CODE_TDB_INVALID_TABLE_ID;
metaReaderClear(&mr);
return terrno;
}
*suid = 0;
if (mr.me.type == TSDB_CHILD_TABLE) {
tDecoderClear(&mr.coder);
*suid = mr.me.ctbEntry.suid;
code = metaGetTableEntryByUidCache(&mr, *suid);
if (code != TSDB_CODE_SUCCESS) {
terrno = TSDB_CODE_TDB_INVALID_TABLE_ID;
metaReaderClear(&mr);
return terrno;
}
sversion = mr.me.stbEntry.schemaRow.version;
} else if (mr.me.type == TSDB_NORMAL_TABLE) {
sversion = mr.me.ntbEntry.schemaRow.version;
} else {
terrno = TSDB_CODE_INVALID_PARA;
metaReaderClear(&mr);
return terrno;
}
metaReaderClear(&mr);
*pSchema = metaGetTbTSchema(pVnode->pMeta, uid, sversion, 1);
return TSDB_CODE_SUCCESS;
}
int32_t tsdbTakeReadSnap(STsdbReader* pReader, _query_reseek_func_t reseek, STsdbReadSnap** ppSnap) {
int32_t code = 0;
STsdb* pTsdb = pReader->pTsdb;
SVersionRange* pRange = &pReader->verRange;
// alloc
STsdbReadSnap* pSnap = (STsdbReadSnap*)taosMemoryCalloc(1, sizeof(*pSnap));
if (pSnap == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
goto _exit;
}
// lock
taosThreadRwlockRdlock(&pTsdb->rwLock);
// take snapshot
if (pTsdb->mem && (pRange->minVer <= pTsdb->mem->maxVer && pRange->maxVer >= pTsdb->mem->minVer)) {
pSnap->pMem = pTsdb->mem;
pSnap->pNode = taosMemoryMalloc(sizeof(*pSnap->pNode));
if (pSnap->pNode == NULL) {
taosThreadRwlockUnlock(&pTsdb->rwLock);
code = TSDB_CODE_OUT_OF_MEMORY;
goto _exit;
}
pSnap->pNode->pQHandle = pReader;
pSnap->pNode->reseek = reseek;
tsdbRefMemTable(pTsdb->mem, pSnap->pNode);
}
if (pTsdb->imem && (pRange->minVer <= pTsdb->imem->maxVer && pRange->maxVer >= pTsdb->imem->minVer)) {
pSnap->pIMem = pTsdb->imem;
pSnap->pINode = taosMemoryMalloc(sizeof(*pSnap->pINode));
if (pSnap->pINode == NULL) {
taosThreadRwlockUnlock(&pTsdb->rwLock);
code = TSDB_CODE_OUT_OF_MEMORY;
goto _exit;
}
pSnap->pINode->pQHandle = pReader;
pSnap->pINode->reseek = reseek;
tsdbRefMemTable(pTsdb->imem, pSnap->pINode);
}
// fs
code = tsdbFSRef(pTsdb, &pSnap->fs);
if (code) {
taosThreadRwlockUnlock(&pTsdb->rwLock);
goto _exit;
}
// unlock
taosThreadRwlockUnlock(&pTsdb->rwLock);
tsdbTrace("vgId:%d, take read snapshot", TD_VID(pTsdb->pVnode));
_exit:
if (code) {
*ppSnap = NULL;
if (pSnap) {
if (pSnap->pNode) taosMemoryFree(pSnap->pNode);
if (pSnap->pINode) taosMemoryFree(pSnap->pINode);
taosMemoryFree(pSnap);
}
} else {
*ppSnap = pSnap;
}
return code;
}
void tsdbUntakeReadSnap(STsdbReader* pReader, STsdbReadSnap* pSnap, bool proactive) {
STsdb* pTsdb = pReader->pTsdb;
if (pSnap) {
if (pSnap->pMem) {
tsdbUnrefMemTable(pSnap->pMem, pSnap->pNode, proactive);
}
if (pSnap->pIMem) {
tsdbUnrefMemTable(pSnap->pIMem, pSnap->pINode, proactive);
}
tsdbFSUnref(pTsdb, &pSnap->fs);
if (pSnap->pNode) taosMemoryFree(pSnap->pNode);
if (pSnap->pINode) taosMemoryFree(pSnap->pINode);
taosMemoryFree(pSnap);
}
tsdbTrace("vgId:%d, untake read snapshot", TD_VID(pTsdb->pVnode));
}
// if failed, do nothing
void tsdbReaderSetId(STsdbReader* pReader, const char* idstr) {
taosMemoryFreeClear(pReader->idStr);
pReader->idStr = taosStrdup(idstr);
}
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