/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include "filter.h" #include "function.h" #include "functionMgt.h" #include "os.h" #include "querynodes.h" #include "tfill.h" #include "tname.h" #include "tref.h" #include "tdatablock.h" #include "tglobal.h" #include "tmsg.h" #include "tsort.h" #include "ttime.h" #include "executorimpl.h" #include "index.h" #include "query.h" #include "tcompare.h" #include "tcompression.h" #include "thash.h" #include "ttypes.h" #include "vnode.h" #define IS_MAIN_SCAN(runtime) ((runtime)->scanFlag == MAIN_SCAN) #define SET_REVERSE_SCAN_FLAG(runtime) ((runtime)->scanFlag = REVERSE_SCAN) #define GET_FORWARD_DIRECTION_FACTOR(ord) (((ord) == TSDB_ORDER_ASC) ? QUERY_ASC_FORWARD_STEP : QUERY_DESC_FORWARD_STEP) enum { PROJECT_RETRIEVE_CONTINUE = 0x1, PROJECT_RETRIEVE_DONE = 0x2, }; #if 0 static UNUSED_FUNC void *u_malloc (size_t __size) { uint32_t v = taosRand(); if (v % 1000 <= 0) { return NULL; } else { return taosMemoryMalloc(__size); } } static UNUSED_FUNC void* u_calloc(size_t num, size_t __size) { uint32_t v = taosRand(); if (v % 1000 <= 0) { return NULL; } else { return taosMemoryCalloc(num, __size); } } static UNUSED_FUNC void* u_realloc(void* p, size_t __size) { uint32_t v = taosRand(); if (v % 5 <= 1) { return NULL; } else { return taosMemoryRealloc(p, __size); } } #define calloc u_calloc #define malloc u_malloc #define realloc u_realloc #endif #define CLEAR_QUERY_STATUS(q, st) ((q)->status &= (~(st))) #define QUERY_IS_INTERVAL_QUERY(_q) ((_q)->interval.interval > 0) int32_t getMaximumIdleDurationSec() { return tsShellActivityTimer * 2; } static int32_t getExprFunctionId(SExprInfo* pExprInfo) { assert(pExprInfo != NULL && pExprInfo->pExpr != NULL && pExprInfo->pExpr->nodeType == TEXPR_UNARYEXPR_NODE); return 0; } static void doSetTagValueToResultBuf(char* output, const char* val, int16_t type, int16_t bytes); static void setBlockStatisInfo(SqlFunctionCtx* pCtx, SExprInfo* pExpr, SSDataBlock* pSDataBlock); static void releaseQueryBuf(size_t numOfTables); static void destroySFillOperatorInfo(void* param, int32_t numOfOutput); static void destroyProjectOperatorInfo(void* param, int32_t numOfOutput); static void destroyOrderOperatorInfo(void* param, int32_t numOfOutput); static void destroyAggOperatorInfo(void* param, int32_t numOfOutput); static void destroyIntervalOperatorInfo(void* param, int32_t numOfOutput); static void destroyExchangeOperatorInfo(void* param, int32_t numOfOutput); static void destroyOperatorInfo(SOperatorInfo* pOperator); void doSetOperatorCompleted(SOperatorInfo* pOperator) { pOperator->status = OP_EXEC_DONE; pOperator->cost.totalCost = (taosGetTimestampUs() - pOperator->pTaskInfo->cost.start * 1000) / 1000.0; if (pOperator->pTaskInfo != NULL) { setTaskStatus(pOperator->pTaskInfo, TASK_COMPLETED); } } int32_t operatorDummyOpenFn(SOperatorInfo* pOperator) { OPTR_SET_OPENED(pOperator); pOperator->cost.openCost = 0; return TSDB_CODE_SUCCESS; } SOperatorFpSet createOperatorFpSet(__optr_open_fn_t openFn, __optr_fn_t nextFn, __optr_fn_t streamFn, __optr_fn_t cleanup, __optr_close_fn_t closeFn, __optr_encode_fn_t encode, __optr_decode_fn_t decode, __optr_explain_fn_t explain) { SOperatorFpSet fpSet = { ._openFn = openFn, .getNextFn = nextFn, .getStreamResFn = streamFn, .cleanupFn = cleanup, .closeFn = closeFn, .encodeResultRow = encode, .decodeResultRow = decode, .getExplainFn = explain, }; return fpSet; } void operatorDummyCloseFn(void* param, int32_t numOfCols) {} static int32_t doCopyToSDataBlock(SExecTaskInfo* taskInfo, SSDataBlock* pBlock, SExprInfo* pExprInfo, SDiskbasedBuf* pBuf, SGroupResInfo* pGroupResInfo, const int32_t* rowCellOffset, SqlFunctionCtx* pCtx, int32_t numOfExprs); static void initCtxOutputBuffer(SqlFunctionCtx* pCtx, int32_t size); static void doSetTableGroupOutputBuf(SOperatorInfo* pOperator, SAggOperatorInfo* pAggInfo, int32_t numOfOutput, uint64_t groupId); // setup the output buffer for each operator static bool hasNull(SColumn* pColumn, SColumnDataAgg* pStatis) { if (TSDB_COL_IS_TAG(pColumn->flag) || TSDB_COL_IS_UD_COL(pColumn->flag) || pColumn->colId == PRIMARYKEY_TIMESTAMP_COL_ID) { return false; } if (pStatis != NULL && pStatis->numOfNull == 0) { return false; } return true; } #if 0 static bool chkResultRowFromKey(STaskRuntimeEnv* pRuntimeEnv, SResultRowInfo* pResultRowInfo, char* pData, int16_t bytes, bool masterscan, uint64_t uid) { bool existed = false; SET_RES_WINDOW_KEY(pRuntimeEnv->keyBuf, pData, bytes, uid); SResultRow** p1 = (SResultRow**)taosHashGet(pRuntimeEnv->pResultRowHashTable, pRuntimeEnv->keyBuf, GET_RES_WINDOW_KEY_LEN(bytes)); // in case of repeat scan/reverse scan, no new time window added. if (QUERY_IS_INTERVAL_QUERY(pRuntimeEnv->pQueryAttr)) { if (!masterscan) { // the *p1 may be NULL in case of sliding+offset exists. return p1 != NULL; } if (p1 != NULL) { if (pResultRowInfo->size == 0) { existed = false; } else if (pResultRowInfo->size == 1) { // existed = (pResultRowInfo->pResult[0] == (*p1)); } else { // check if current pResultRowInfo contains the existed pResultRow SET_RES_EXT_WINDOW_KEY(pRuntimeEnv->keyBuf, pData, bytes, uid, pResultRowInfo); int64_t* index = taosHashGet(pRuntimeEnv->pResultRowListSet, pRuntimeEnv->keyBuf, GET_RES_EXT_WINDOW_KEY_LEN(bytes)); if (index != NULL) { existed = true; } else { existed = false; } } } return existed; } return p1 != NULL; } #endif SResultRow* getNewResultRow(SDiskbasedBuf* pResultBuf, int64_t tableGroupId, int32_t interBufSize) { SFilePage* pData = NULL; // in the first scan, new space needed for results int32_t pageId = -1; SIDList list = getDataBufPagesIdList(pResultBuf, tableGroupId); if (taosArrayGetSize(list) == 0) { pData = getNewBufPage(pResultBuf, tableGroupId, &pageId); pData->num = sizeof(SFilePage); } else { SPageInfo* pi = getLastPageInfo(list); pData = getBufPage(pResultBuf, getPageId(pi)); pageId = getPageId(pi); if (pData->num + interBufSize > getBufPageSize(pResultBuf)) { // release current page first, and prepare the next one releaseBufPageInfo(pResultBuf, pi); pData = getNewBufPage(pResultBuf, tableGroupId, &pageId); if (pData != NULL) { pData->num = sizeof(SFilePage); } } } if (pData == NULL) { return NULL; } setBufPageDirty(pData, true); // set the number of rows in current disk page SResultRow* pResultRow = (SResultRow*)((char*)pData + pData->num); pResultRow->pageId = pageId; pResultRow->offset = (int32_t)pData->num; pData->num += interBufSize; return pResultRow; } /** * the struct of key in hash table * +----------+---------------+ * | group id | key data | * | 8 bytes | actual length | * +----------+---------------+ */ SResultRow* doSetResultOutBufByKey(SDiskbasedBuf* pResultBuf, SResultRowInfo* pResultRowInfo, char* pData, int16_t bytes, bool masterscan, uint64_t groupId, SExecTaskInfo* pTaskInfo, bool isIntervalQuery, SAggSupporter* pSup) { SET_RES_WINDOW_KEY(pSup->keyBuf, pData, bytes, groupId); SResultRowPosition* p1 = (SResultRowPosition*)taosHashGet(pSup->pResultRowHashTable, pSup->keyBuf, GET_RES_WINDOW_KEY_LEN(bytes)); SResultRow* pResult = NULL; // in case of repeat scan/reverse scan, no new time window added. if (isIntervalQuery) { if (masterscan && p1 != NULL) { // the *p1 may be NULL in case of sliding+offset exists. pResult = getResultRowByPos(pResultBuf, p1); ASSERT(pResult->pageId == p1->pageId && pResult->offset == p1->offset); } } else { // In case of group by column query, the required SResultRow object must be existInCurrentResusltRowInfo in the // pResultRowInfo object. if (p1 != NULL) { // todo pResult = getResultRowByPos(pResultBuf, p1); ASSERT(pResult->pageId == p1->pageId && pResult->offset == p1->offset); } } // 1. close current opened time window if (pResultRowInfo->cur.pageId != -1 && ((pResult == NULL) || (pResult->pageId != pResultRowInfo->cur.pageId))) { #ifdef BUF_PAGE_DEBUG qDebug("page_1"); #endif SResultRowPosition pos = pResultRowInfo->cur; SFilePage* pPage = getBufPage(pResultBuf, pos.pageId); releaseBufPage(pResultBuf, pPage); } // allocate a new buffer page if (pResult == NULL) { #ifdef BUF_PAGE_DEBUG qDebug("page_2"); #endif ASSERT(pSup->resultRowSize > 0); pResult = getNewResultRow(pResultBuf, groupId, pSup->resultRowSize); initResultRow(pResult); // add a new result set for a new group SResultRowPosition pos = {.pageId = pResult->pageId, .offset = pResult->offset}; taosHashPut(pSup->pResultRowHashTable, pSup->keyBuf, GET_RES_WINDOW_KEY_LEN(bytes), &pos, sizeof(SResultRowPosition)); } // 2. set the new time window to be the new active time window pResultRowInfo->cur = (SResultRowPosition){.pageId = pResult->pageId, .offset = pResult->offset}; // too many time window in query if (taosHashGetSize(pSup->pResultRowHashTable) > MAX_INTERVAL_TIME_WINDOW) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_TOO_MANY_TIMEWINDOW); } return pResult; } // a new buffer page for each table. Needs to opt this design static int32_t addNewWindowResultBuf(SResultRow* pWindowRes, SDiskbasedBuf* pResultBuf, int32_t tid, uint32_t size) { if (pWindowRes->pageId != -1) { return 0; } SFilePage* pData = NULL; // in the first scan, new space needed for results int32_t pageId = -1; SIDList list = getDataBufPagesIdList(pResultBuf, tid); if (taosArrayGetSize(list) == 0) { pData = getNewBufPage(pResultBuf, tid, &pageId); pData->num = sizeof(SFilePage); } else { SPageInfo* pi = getLastPageInfo(list); pData = getBufPage(pResultBuf, getPageId(pi)); pageId = getPageId(pi); if (pData->num + size > getBufPageSize(pResultBuf)) { // release current page first, and prepare the next one releaseBufPageInfo(pResultBuf, pi); pData = getNewBufPage(pResultBuf, tid, &pageId); if (pData != NULL) { pData->num = sizeof(SFilePage); } } } if (pData == NULL) { return -1; } // set the number of rows in current disk page if (pWindowRes->pageId == -1) { // not allocated yet, allocate new buffer pWindowRes->pageId = pageId; pWindowRes->offset = (int32_t)pData->num; pData->num += size; assert(pWindowRes->pageId >= 0); } return 0; } // query_range_start, query_range_end, window_duration, window_start, window_end void initExecTimeWindowInfo(SColumnInfoData* pColData, STimeWindow* pQueryWindow) { pColData->info.type = TSDB_DATA_TYPE_TIMESTAMP; pColData->info.bytes = sizeof(int64_t); colInfoDataEnsureCapacity(pColData, 5); colDataAppendInt64(pColData, 0, &pQueryWindow->skey); colDataAppendInt64(pColData, 1, &pQueryWindow->ekey); int64_t interval = 0; colDataAppendInt64(pColData, 2, &interval); // this value may be variable in case of 'n' and 'y'. colDataAppendInt64(pColData, 3, &pQueryWindow->skey); colDataAppendInt64(pColData, 4, &pQueryWindow->ekey); } void cleanupExecTimeWindowInfo(SColumnInfoData* pColData) { colDataDestroy(pColData); } void doApplyFunctions(SExecTaskInfo* taskInfo, SqlFunctionCtx* pCtx, STimeWindow* pWin, SColumnInfoData* pTimeWindowData, int32_t offset, int32_t forwardStep, TSKEY* tsCol, int32_t numOfTotal, int32_t numOfOutput, int32_t order) { for (int32_t k = 0; k < numOfOutput; ++k) { // keep it temporarily // todo no need this?? bool hasAgg = pCtx[k].input.colDataAggIsSet; int32_t numOfRows = pCtx[k].input.numOfRows; int32_t startOffset = pCtx[k].input.startRowIndex; pCtx[k].input.startRowIndex = offset; pCtx[k].input.numOfRows = forwardStep; // not a whole block involved in query processing, statistics data can not be used // NOTE: the original value of isSet have been changed here if (pCtx[k].input.colDataAggIsSet && forwardStep < numOfTotal) { pCtx[k].input.colDataAggIsSet = false; } if (fmIsWindowPseudoColumnFunc(pCtx[k].functionId)) { SResultRowEntryInfo* pEntryInfo = GET_RES_INFO(&pCtx[k]); char* p = GET_ROWCELL_INTERBUF(pEntryInfo); SColumnInfoData idata = {0}; idata.info.type = TSDB_DATA_TYPE_BIGINT; idata.info.bytes = tDataTypes[TSDB_DATA_TYPE_BIGINT].bytes; idata.pData = p; SScalarParam out = {.columnData = &idata}; SScalarParam tw = {.numOfRows = 5, .columnData = pTimeWindowData}; pCtx[k].sfp.process(&tw, 1, &out); pEntryInfo->numOfRes = 1; } else { int32_t code = TSDB_CODE_SUCCESS; if (functionNeedToExecute(&pCtx[k]) && pCtx[k].fpSet.process != NULL) { code = pCtx[k].fpSet.process(&pCtx[k]); if (code != TSDB_CODE_SUCCESS) { qError("%s apply functions error, code: %s", GET_TASKID(taskInfo), tstrerror(code)); taskInfo->code = code; longjmp(taskInfo->env, code); } } // restore it pCtx[k].input.colDataAggIsSet = hasAgg; pCtx[k].input.startRowIndex = startOffset; pCtx[k].input.numOfRows = numOfRows; } } } static int32_t doSetInputDataBlock(SOperatorInfo* pOperator, SqlFunctionCtx* pCtx, SSDataBlock* pBlock, int32_t order, int32_t scanFlag, bool createDummyCol); static void doSetInputDataBlockInfo(SOperatorInfo* pOperator, SqlFunctionCtx* pCtx, SSDataBlock* pBlock, int32_t order) { for (int32_t i = 0; i < pOperator->exprSupp.numOfExprs; ++i) { pCtx[i].order = order; pCtx[i].input.numOfRows = pBlock->info.rows; setBlockStatisInfo(&pCtx[i], &pOperator->exprSupp.pExprInfo[i], pBlock); } } void setInputDataBlock(SOperatorInfo* pOperator, SqlFunctionCtx* pCtx, SSDataBlock* pBlock, int32_t order, int32_t scanFlag, bool createDummyCol) { if (pBlock->pBlockAgg != NULL) { doSetInputDataBlockInfo(pOperator, pCtx, pBlock, order); } else { doSetInputDataBlock(pOperator, pCtx, pBlock, order, scanFlag, createDummyCol); } } static int32_t doCreateConstantValColumnInfo(SInputColumnInfoData* pInput, SFunctParam* pFuncParam, int32_t paramIndex, int32_t numOfRows) { SColumnInfoData* pColInfo = NULL; if (pInput->pData[paramIndex] == NULL) { pColInfo = taosMemoryCalloc(1, sizeof(SColumnInfoData)); if (pColInfo == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } // Set the correct column info (data type and bytes) pColInfo->info.type = pFuncParam->param.nType; pColInfo->info.bytes = pFuncParam->param.nLen; pInput->pData[paramIndex] = pColInfo; } else { pColInfo = pInput->pData[paramIndex]; } colInfoDataEnsureCapacity(pColInfo, numOfRows); int8_t type = pFuncParam->param.nType; if (type == TSDB_DATA_TYPE_BIGINT || type == TSDB_DATA_TYPE_UBIGINT) { int64_t v = pFuncParam->param.i; for (int32_t i = 0; i < numOfRows; ++i) { colDataAppendInt64(pColInfo, i, &v); } } else if (type == TSDB_DATA_TYPE_DOUBLE) { double v = pFuncParam->param.d; for (int32_t i = 0; i < numOfRows; ++i) { colDataAppendDouble(pColInfo, i, &v); } } else if (type == TSDB_DATA_TYPE_VARCHAR) { char* tmp = taosMemoryMalloc(pFuncParam->param.nLen + VARSTR_HEADER_SIZE); STR_WITH_SIZE_TO_VARSTR(tmp, pFuncParam->param.pz, pFuncParam->param.nLen); for (int32_t i = 0; i < numOfRows; ++i) { colDataAppend(pColInfo, i, tmp, false); } } return TSDB_CODE_SUCCESS; } static int32_t doSetInputDataBlock(SOperatorInfo* pOperator, SqlFunctionCtx* pCtx, SSDataBlock* pBlock, int32_t order, int32_t scanFlag, bool createDummyCol) { int32_t code = TSDB_CODE_SUCCESS; for (int32_t i = 0; i < pOperator->exprSupp.numOfExprs; ++i) { pCtx[i].order = order; pCtx[i].input.numOfRows = pBlock->info.rows; pCtx[i].pSrcBlock = pBlock; pCtx[i].scanFlag = scanFlag; SInputColumnInfoData* pInput = &pCtx[i].input; pInput->uid = pBlock->info.uid; pInput->colDataAggIsSet = false; SExprInfo* pOneExpr = &pOperator->exprSupp.pExprInfo[i]; for (int32_t j = 0; j < pOneExpr->base.numOfParams; ++j) { SFunctParam* pFuncParam = &pOneExpr->base.pParam[j]; if (pFuncParam->type == FUNC_PARAM_TYPE_COLUMN) { int32_t slotId = pFuncParam->pCol->slotId; pInput->pData[j] = taosArrayGet(pBlock->pDataBlock, slotId); pInput->totalRows = pBlock->info.rows; pInput->numOfRows = pBlock->info.rows; pInput->startRowIndex = 0; // NOTE: the last parameter is the primary timestamp column // todo: refactor this if (fmIsTimelineFunc(pCtx[i].functionId) && (j == pOneExpr->base.numOfParams - 1)) { pInput->pPTS = pInput->pData[j]; // in case of merge function, this is not always the ts column data. // ASSERT(pInput->pPTS->info.type == TSDB_DATA_TYPE_TIMESTAMP); } ASSERT(pInput->pData[j] != NULL); } else if (pFuncParam->type == FUNC_PARAM_TYPE_VALUE) { // todo avoid case: top(k, 12), 12 is the value parameter. // sum(11), 11 is also the value parameter. if (createDummyCol && pOneExpr->base.numOfParams == 1) { pInput->totalRows = pBlock->info.rows; pInput->numOfRows = pBlock->info.rows; pInput->startRowIndex = 0; code = doCreateConstantValColumnInfo(pInput, pFuncParam, j, pBlock->info.rows); if (code != TSDB_CODE_SUCCESS) { return code; } } } } } return code; } static int32_t doAggregateImpl(SOperatorInfo* pOperator, SqlFunctionCtx* pCtx) { for (int32_t k = 0; k < pOperator->exprSupp.numOfExprs; ++k) { if (functionNeedToExecute(&pCtx[k])) { // todo add a dummy funtion to avoid process check if (pCtx[k].fpSet.process == NULL) { continue; } int32_t code = pCtx[k].fpSet.process(&pCtx[k]); if (code != TSDB_CODE_SUCCESS) { qError("%s aggregate function error happens, code: %s", GET_TASKID(pOperator->pTaskInfo), tstrerror(code)); return code; } } } return TSDB_CODE_SUCCESS; } static void setPseudoOutputColInfo(SSDataBlock* pResult, SqlFunctionCtx* pCtx, SArray* pPseudoList) { size_t num = (pPseudoList != NULL) ? taosArrayGetSize(pPseudoList) : 0; for (int32_t i = 0; i < num; ++i) { pCtx[i].pOutput = taosArrayGet(pResult->pDataBlock, i); } } int32_t projectApplyFunctions(SExprInfo* pExpr, SSDataBlock* pResult, SSDataBlock* pSrcBlock, SqlFunctionCtx* pCtx, int32_t numOfOutput, SArray* pPseudoList) { setPseudoOutputColInfo(pResult, pCtx, pPseudoList); pResult->info.groupId = pSrcBlock->info.groupId; // if the source equals to the destination, it is to create a new column as the result of scalar // function or some operators. bool createNewColModel = (pResult == pSrcBlock); int32_t numOfRows = 0; for (int32_t k = 0; k < numOfOutput; ++k) { int32_t outputSlotId = pExpr[k].base.resSchema.slotId; SqlFunctionCtx* pfCtx = &pCtx[k]; SInputColumnInfoData* pInputData = &pfCtx->input; if (pExpr[k].pExpr->nodeType == QUERY_NODE_COLUMN) { // it is a project query SColumnInfoData* pColInfoData = taosArrayGet(pResult->pDataBlock, outputSlotId); if (pResult->info.rows > 0 && !createNewColModel) { colDataMergeCol(pColInfoData, pResult->info.rows, &pResult->info.capacity, pInputData->pData[0], pInputData->numOfRows); } else { colDataAssign(pColInfoData, pInputData->pData[0], pInputData->numOfRows, &pResult->info); } numOfRows = pInputData->numOfRows; } else if (pExpr[k].pExpr->nodeType == QUERY_NODE_VALUE) { SColumnInfoData* pColInfoData = taosArrayGet(pResult->pDataBlock, outputSlotId); int32_t offset = createNewColModel ? 0 : pResult->info.rows; int32_t type = pExpr[k].base.pParam[0].param.nType; if (TSDB_DATA_TYPE_NULL == type) { colDataAppendNNULL(pColInfoData, offset, pSrcBlock->info.rows); } else { for (int32_t i = 0; i < pSrcBlock->info.rows; ++i) { colDataAppend(pColInfoData, i + offset, taosVariantGet(&pExpr[k].base.pParam[0].param, type), false); } } numOfRows = pSrcBlock->info.rows; } else if (pExpr[k].pExpr->nodeType == QUERY_NODE_OPERATOR) { SArray* pBlockList = taosArrayInit(4, POINTER_BYTES); taosArrayPush(pBlockList, &pSrcBlock); SColumnInfoData* pResColData = taosArrayGet(pResult->pDataBlock, outputSlotId); SColumnInfoData idata = {.info = pResColData->info, .hasNull = true}; SScalarParam dest = {.columnData = &idata}; int32_t code = scalarCalculate(pExpr[k].pExpr->_optrRoot.pRootNode, pBlockList, &dest); if (code != TSDB_CODE_SUCCESS) { taosArrayDestroy(pBlockList); return code; } int32_t startOffset = createNewColModel ? 0 : pResult->info.rows; ASSERT(pResult->info.capacity > 0); colDataMergeCol(pResColData, startOffset, &pResult->info.capacity, &idata, dest.numOfRows); colDataDestroy(&idata); numOfRows = dest.numOfRows; taosArrayDestroy(pBlockList); } else if (pExpr[k].pExpr->nodeType == QUERY_NODE_FUNCTION) { // _rowts/_c0, not tbname column if (fmIsPseudoColumnFunc(pfCtx->functionId) && (!fmIsScanPseudoColumnFunc(pfCtx->functionId))) { // do nothing } else if (fmIsIndefiniteRowsFunc(pfCtx->functionId)) { SResultRowEntryInfo* pResInfo = GET_RES_INFO(pfCtx); pfCtx->fpSet.init(pfCtx, pResInfo); pfCtx->pOutput = taosArrayGet(pResult->pDataBlock, outputSlotId); pfCtx->offset = createNewColModel ? 0 : pResult->info.rows; // set the start offset // set the timestamp(_rowts) output buffer if (taosArrayGetSize(pPseudoList) > 0) { int32_t* outputColIndex = taosArrayGet(pPseudoList, 0); pfCtx->pTsOutput = (SColumnInfoData*)pCtx[*outputColIndex].pOutput; } numOfRows = pfCtx->fpSet.process(pfCtx); } else if (fmIsAggFunc(pfCtx->functionId)) { // _group_key function for "partition by tbname" + csum(col_name) query SColumnInfoData* pOutput = taosArrayGet(pResult->pDataBlock, outputSlotId); int32_t slotId = pfCtx->param[0].pCol->slotId; // todo handle the json tag SColumnInfoData* pInput = taosArrayGet(pSrcBlock->pDataBlock, slotId); for (int32_t f = 0; f < pSrcBlock->info.rows; ++f) { bool isNull = colDataIsNull_s(pInput, f); if (isNull) { colDataAppendNULL(pOutput, pResult->info.rows + f); } else { char* data = colDataGetData(pInput, f); colDataAppend(pOutput, pResult->info.rows + f, data, isNull); } } } else { SArray* pBlockList = taosArrayInit(4, POINTER_BYTES); taosArrayPush(pBlockList, &pSrcBlock); SColumnInfoData* pResColData = taosArrayGet(pResult->pDataBlock, outputSlotId); SColumnInfoData idata = {.info = pResColData->info, .hasNull = true}; SScalarParam dest = {.columnData = &idata}; int32_t code = scalarCalculate((SNode*)pExpr[k].pExpr->_function.pFunctNode, pBlockList, &dest); if (code != TSDB_CODE_SUCCESS) { taosArrayDestroy(pBlockList); return code; } int32_t startOffset = createNewColModel ? 0 : pResult->info.rows; ASSERT(pResult->info.capacity > 0); colDataMergeCol(pResColData, startOffset, &pResult->info.capacity, &idata, dest.numOfRows); colDataDestroy(&idata); numOfRows = dest.numOfRows; taosArrayDestroy(pBlockList); } } else { ASSERT(0); } } if (!createNewColModel) { pResult->info.rows += numOfRows; } return TSDB_CODE_SUCCESS; } bool functionNeedToExecute(SqlFunctionCtx* pCtx) { struct SResultRowEntryInfo* pResInfo = GET_RES_INFO(pCtx); // in case of timestamp column, always generated results. int32_t functionId = pCtx->functionId; if (functionId == -1) { return false; } if (pCtx->scanFlag == REPEAT_SCAN) { return fmIsRepeatScanFunc(pCtx->functionId); } if (isRowEntryCompleted(pResInfo)) { return false; } return true; } static int32_t doCreateConstantValColumnAggInfo(SInputColumnInfoData* pInput, SFunctParam* pFuncParam, int32_t type, int32_t paramIndex, int32_t numOfRows) { if (pInput->pData[paramIndex] == NULL) { pInput->pData[paramIndex] = taosMemoryCalloc(1, sizeof(SColumnInfoData)); if (pInput->pData[paramIndex] == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } // Set the correct column info (data type and bytes) pInput->pData[paramIndex]->info.type = type; pInput->pData[paramIndex]->info.bytes = tDataTypes[type].bytes; } SColumnDataAgg* da = NULL; if (pInput->pColumnDataAgg[paramIndex] == NULL) { da = taosMemoryCalloc(1, sizeof(SColumnDataAgg)); pInput->pColumnDataAgg[paramIndex] = da; if (da == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } } else { da = pInput->pColumnDataAgg[paramIndex]; } ASSERT(!IS_VAR_DATA_TYPE(type)); if (type == TSDB_DATA_TYPE_BIGINT) { int64_t v = pFuncParam->param.i; *da = (SColumnDataAgg){.numOfNull = 0, .min = v, .max = v, .sum = v * numOfRows}; } else if (type == TSDB_DATA_TYPE_DOUBLE) { double v = pFuncParam->param.d; *da = (SColumnDataAgg){.numOfNull = 0}; *(double*)&da->min = v; *(double*)&da->max = v; *(double*)&da->sum = v * numOfRows; } else if (type == TSDB_DATA_TYPE_BOOL) { // todo validate this data type bool v = pFuncParam->param.i; *da = (SColumnDataAgg){.numOfNull = 0}; *(bool*)&da->min = 0; *(bool*)&da->max = v; *(bool*)&da->sum = v * numOfRows; } else if (type == TSDB_DATA_TYPE_TIMESTAMP) { // do nothing } else { ASSERT(0); } return TSDB_CODE_SUCCESS; } void setBlockStatisInfo(SqlFunctionCtx* pCtx, SExprInfo* pExprInfo, SSDataBlock* pBlock) { int32_t numOfRows = pBlock->info.rows; SInputColumnInfoData* pInput = &pCtx->input; pInput->numOfRows = numOfRows; pInput->totalRows = numOfRows; if (pBlock->pBlockAgg != NULL) { pInput->colDataAggIsSet = true; for (int32_t j = 0; j < pExprInfo->base.numOfParams; ++j) { SFunctParam* pFuncParam = &pExprInfo->base.pParam[j]; if (pFuncParam->type == FUNC_PARAM_TYPE_COLUMN) { int32_t slotId = pFuncParam->pCol->slotId; pInput->pColumnDataAgg[j] = pBlock->pBlockAgg[slotId]; if (pInput->pColumnDataAgg[j] == NULL) { pInput->colDataAggIsSet = false; } // Here we set the column info data since the data type for each column data is required, but // the data in the corresponding SColumnInfoData will not be used. pInput->pData[j] = taosArrayGet(pBlock->pDataBlock, slotId); } else if (pFuncParam->type == FUNC_PARAM_TYPE_VALUE) { doCreateConstantValColumnAggInfo(pInput, pFuncParam, pFuncParam->param.nType, j, pBlock->info.rows); } } } else { pInput->colDataAggIsSet = false; } // set the statistics data for primary time stamp column // if (pCtx->functionId == FUNCTION_SPREAD && pColumn->colId == PRIMARYKEY_TIMESTAMP_COL_ID) { // pCtx->isAggSet = true; // pCtx->agg.min = pBlock->info.window.skey; // pCtx->agg.max = pBlock->info.window.ekey; // } } bool isTaskKilled(SExecTaskInfo* pTaskInfo) { // query has been executed more than tsShellActivityTimer, and the retrieve has not arrived // abort current query execution. if (pTaskInfo->owner != 0 && ((taosGetTimestampSec() - pTaskInfo->cost.start / 1000) > 10 * getMaximumIdleDurationSec()) /*(!needBuildResAfterQueryComplete(pTaskInfo))*/) { assert(pTaskInfo->cost.start != 0); // qDebug("QInfo:%" PRIu64 " retrieve not arrive beyond %d ms, abort current query execution, start:%" PRId64 // ", current:%d", pQInfo->qId, 1, pQInfo->startExecTs, taosGetTimestampSec()); // return true; } return false; } void setTaskKilled(SExecTaskInfo* pTaskInfo) { pTaskInfo->code = TSDB_CODE_TSC_QUERY_CANCELLED; } ///////////////////////////////////////////////////////////////////////////////////////////// STimeWindow getAlignQueryTimeWindow(SInterval* pInterval, int32_t precision, int64_t key) { STimeWindow win = {0}; win.skey = taosTimeTruncate(key, pInterval, precision); /* * if the realSkey > INT64_MAX - pInterval->interval, the query duration between * realSkey and realEkey must be less than one interval.Therefore, no need to adjust the query ranges. */ win.ekey = taosTimeAdd(win.skey, pInterval->interval, pInterval->intervalUnit, precision) - 1; if (win.ekey < win.skey) { win.ekey = INT64_MAX; } return win; } #if 0 static int32_t updateBlockLoadStatus(STaskAttr* pQuery, int32_t status) { bool hasFirstLastFunc = false; bool hasOtherFunc = false; if (status == BLK_DATA_DATA_LOAD || status == BLK_DATA_FILTEROUT) { return status; } for (int32_t i = 0; i < pQuery->numOfOutput; ++i) { int32_t functionId = getExprFunctionId(&pQuery->pExpr1[i]); if (functionId == FUNCTION_TS || functionId == FUNCTION_TS_DUMMY || functionId == FUNCTION_TAG || functionId == FUNCTION_TAG_DUMMY) { continue; } if (functionId == FUNCTION_FIRST_DST || functionId == FUNCTION_LAST_DST) { hasFirstLastFunc = true; } else { hasOtherFunc = true; } } if (hasFirstLastFunc && status == BLK_DATA_NOT_LOAD) { if (!hasOtherFunc) { return BLK_DATA_FILTEROUT; } else { return BLK_DATA_DATA_LOAD; } } return status; } #endif // static void updateDataCheckOrder(SQInfo *pQInfo, SQueryTableReq* pQueryMsg, bool stableQuery) { // STaskAttr* pQueryAttr = pQInfo->runtimeEnv.pQueryAttr; // // // in case of point-interpolation query, use asc order scan // char msg[] = "QInfo:0x%"PRIx64" scan order changed for %s query, old:%d, new:%d, qrange exchanged, old qrange:%" // PRId64 // "-%" PRId64 ", new qrange:%" PRId64 "-%" PRId64; // // // todo handle the case the the order irrelevant query type mixed up with order critical query type // // descending order query for last_row query // if (isFirstLastRowQuery(pQueryAttr)) { // //qDebug("QInfo:0x%"PRIx64" scan order changed for last_row query, old:%d, new:%d", pQInfo->qId, // pQueryAttr->order.order, TSDB_ORDER_ASC); // // pQueryAttr->order.order = TSDB_ORDER_ASC; // if (pQueryAttr->window.skey > pQueryAttr->window.ekey) { // TSWAP(pQueryAttr->window.skey, pQueryAttr->window.ekey); // } // // pQueryAttr->needReverseScan = false; // return; // } // // if (pQueryAttr->groupbyColumn && pQueryAttr->order.order == TSDB_ORDER_DESC) { // pQueryAttr->order.order = TSDB_ORDER_ASC; // if (pQueryAttr->window.skey > pQueryAttr->window.ekey) { // TSWAP(pQueryAttr->window.skey, pQueryAttr->window.ekey); // } // // pQueryAttr->needReverseScan = false; // doUpdateLastKey(pQueryAttr); // return; // } // // if (pQueryAttr->pointInterpQuery && pQueryAttr->interval.interval == 0) { // if (!QUERY_IS_ASC_QUERY(pQueryAttr)) { // //qDebug(msg, pQInfo->qId, "interp", pQueryAttr->order.order, TSDB_ORDER_ASC, pQueryAttr->window.skey, // pQueryAttr->window.ekey, pQueryAttr->window.ekey, pQueryAttr->window.skey); TSWAP(pQueryAttr->window.skey, // pQueryAttr->window.ekey, TSKEY); // } // // pQueryAttr->order.order = TSDB_ORDER_ASC; // return; // } // // if (pQueryAttr->interval.interval == 0) { // if (onlyFirstQuery(pQueryAttr)) { // if (!QUERY_IS_ASC_QUERY(pQueryAttr)) { // //qDebug(msg, pQInfo->qId, "only-first", pQueryAttr->order.order, TSDB_ORDER_ASC, pQueryAttr->window.skey, //// pQueryAttr->window.ekey, pQueryAttr->window.ekey, pQueryAttr->window.skey); // // TSWAP(pQueryAttr->window.skey, pQueryAttr->window.ekey); // doUpdateLastKey(pQueryAttr); // } // // pQueryAttr->order.order = TSDB_ORDER_ASC; // pQueryAttr->needReverseScan = false; // } else if (onlyLastQuery(pQueryAttr) && notContainSessionOrStateWindow(pQueryAttr)) { // if (QUERY_IS_ASC_QUERY(pQueryAttr)) { // //qDebug(msg, pQInfo->qId, "only-last", pQueryAttr->order.order, TSDB_ORDER_DESC, pQueryAttr->window.skey, //// pQueryAttr->window.ekey, pQueryAttr->window.ekey, pQueryAttr->window.skey); // // TSWAP(pQueryAttr->window.skey, pQueryAttr->window.ekey); // doUpdateLastKey(pQueryAttr); // } // // pQueryAttr->order.order = TSDB_ORDER_DESC; // pQueryAttr->needReverseScan = false; // } // // } else { // interval query // if (stableQuery) { // if (onlyFirstQuery(pQueryAttr)) { // if (!QUERY_IS_ASC_QUERY(pQueryAttr)) { // //qDebug(msg, pQInfo->qId, "only-first stable", pQueryAttr->order.order, TSDB_ORDER_ASC, //// pQueryAttr->window.skey, pQueryAttr->window.ekey, pQueryAttr->window.ekey, /// pQueryAttr->window.skey); // // TSWAP(pQueryAttr->window.skey, pQueryAttr->window.ekey); // doUpdateLastKey(pQueryAttr); // } // // pQueryAttr->order.order = TSDB_ORDER_ASC; // pQueryAttr->needReverseScan = false; // } else if (onlyLastQuery(pQueryAttr)) { // if (QUERY_IS_ASC_QUERY(pQueryAttr)) { // //qDebug(msg, pQInfo->qId, "only-last stable", pQueryAttr->order.order, TSDB_ORDER_DESC, //// pQueryAttr->window.skey, pQueryAttr->window.ekey, pQueryAttr->window.ekey, /// pQueryAttr->window.skey); // // TSWAP(pQueryAttr->window.skey, pQueryAttr->window.ekey); // doUpdateLastKey(pQueryAttr); // } // // pQueryAttr->order.order = TSDB_ORDER_DESC; // pQueryAttr->needReverseScan = false; // } // } // } //} // static FORCE_INLINE bool doFilterByBlockStatistics(STaskRuntimeEnv* pRuntimeEnv, SDataStatis *pDataStatis, // SqlFunctionCtx *pCtx, int32_t numOfRows) { // STaskAttr* pQueryAttr = pRuntimeEnv->pQueryAttr; // // if (pDataStatis == NULL || pQueryAttr->pFilters == NULL) { // return true; // } // // return filterRangeExecute(pQueryAttr->pFilters, pDataStatis, pQueryAttr->numOfCols, numOfRows); // } #if 0 static bool overlapWithTimeWindow(STaskAttr* pQueryAttr, SDataBlockInfo* pBlockInfo) { STimeWindow w = {0}; TSKEY sk = TMIN(pQueryAttr->window.skey, pQueryAttr->window.ekey); TSKEY ek = TMAX(pQueryAttr->window.skey, pQueryAttr->window.ekey); if (true) { // getAlignQueryTimeWindow(pQueryAttr, pBlockInfo->window.skey, sk, ek, &w); assert(w.ekey >= pBlockInfo->window.skey); if (w.ekey < pBlockInfo->window.ekey) { return true; } while (1) { // getNextTimeWindow(pQueryAttr, &w); if (w.skey > pBlockInfo->window.ekey) { break; } assert(w.ekey > pBlockInfo->window.ekey); if (w.skey <= pBlockInfo->window.ekey && w.skey > pBlockInfo->window.skey) { return true; } } } else { // getAlignQueryTimeWindow(pQueryAttr, pBlockInfo->window.ekey, sk, ek, &w); assert(w.skey <= pBlockInfo->window.ekey); if (w.skey > pBlockInfo->window.skey) { return true; } while (1) { // getNextTimeWindow(pQueryAttr, &w); if (w.ekey < pBlockInfo->window.skey) { break; } assert(w.skey < pBlockInfo->window.skey); if (w.ekey < pBlockInfo->window.ekey && w.ekey >= pBlockInfo->window.skey) { return true; } } } return false; } #endif static uint32_t doFilterByBlockTimeWindow(STableScanInfo* pTableScanInfo, SSDataBlock* pBlock) { #if 0 SqlFunctionCtx* pCtx = pTableScanInfo->pCtx; uint32_t status = BLK_DATA_NOT_LOAD; int32_t numOfOutput = 0; // pTableScanInfo->numOfOutput; for (int32_t i = 0; i < numOfOutput; ++i) { int32_t functionId = pCtx[i].functionId; int32_t colId = pTableScanInfo->pExpr[i].base.pParam[0].pCol->colId; // group by + first/last should not apply the first/last block filter if (functionId < 0) { status |= BLK_DATA_DATA_LOAD; return status; } else { // status |= aAggs[functionId].dataReqFunc(&pTableScanInfo->pCtx[i], &pBlock->info.window, colId); // if ((status & BLK_DATA_DATA_LOAD) == BLK_DATA_DATA_LOAD) { // return status; // } } } return status; #endif return 0; } int32_t loadDataBlockOnDemand(SExecTaskInfo* pTaskInfo, STableScanInfo* pTableScanInfo, SSDataBlock* pBlock, uint32_t* status) { *status = BLK_DATA_NOT_LOAD; pBlock->pDataBlock = NULL; pBlock->pBlockAgg = NULL; // int64_t groupId = pRuntimeEnv->current->groupIndex; // bool ascQuery = QUERY_IS_ASC_QUERY(pQueryAttr); STaskCostInfo* pCost = &pTaskInfo->cost; // pCost->totalBlocks += 1; // pCost->totalRows += pBlock->info.rows; #if 0 // Calculate all time windows that are overlapping or contain current data block. // If current data block is contained by all possible time window, do not load current data block. if (/*pQueryAttr->pFilters || */pQueryAttr->groupbyColumn || pQueryAttr->sw.gap > 0 || (QUERY_IS_INTERVAL_QUERY(pQueryAttr) && overlapWithTimeWindow(pTaskInfo, &pBlock->info))) { (*status) = BLK_DATA_DATA_LOAD; } // check if this data block is required to load if ((*status) != BLK_DATA_DATA_LOAD) { bool needFilter = true; // the pCtx[i] result is belonged to previous time window since the outputBuf has not been set yet, // the filter result may be incorrect. So in case of interval query, we need to set the correct time output buffer if (QUERY_IS_INTERVAL_QUERY(pQueryAttr)) { SResultRow* pResult = NULL; bool masterScan = IS_MAIN_SCAN(pRuntimeEnv); TSKEY k = ascQuery? pBlock->info.window.skey : pBlock->info.window.ekey; STimeWindow win = getActiveTimeWindow(pTableScanInfo->pResultRowInfo, k, pQueryAttr); if (pQueryAttr->pointInterpQuery) { needFilter = chkWindowOutputBufByKey(pRuntimeEnv, pTableScanInfo->pResultRowInfo, &win, masterScan, &pResult, groupId, pTableScanInfo->pCtx, pTableScanInfo->numOfOutput, pTableScanInfo->rowEntryInfoOffset); } else { if (setResultOutputBufByKey(pRuntimeEnv, pTableScanInfo->pResultRowInfo, pBlock->info.uid, &win, masterScan, &pResult, groupId, pTableScanInfo->pCtx, pTableScanInfo->numOfOutput, pTableScanInfo->rowEntryInfoOffset) != TSDB_CODE_SUCCESS) { longjmp(pRuntimeEnv->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } } } else if (pQueryAttr->stableQuery && (!pQueryAttr->tsCompQuery) && (!pQueryAttr->diffQuery)) { // stable aggregate, not interval aggregate or normal column aggregate doSetTableGroupOutputBuf(pRuntimeEnv, pTableScanInfo->pResultRowInfo, pTableScanInfo->pCtx, pTableScanInfo->rowEntryInfoOffset, pTableScanInfo->numOfOutput, pRuntimeEnv->current->groupIndex); } if (needFilter) { (*status) = doFilterByBlockTimeWindow(pTableScanInfo, pBlock); } else { (*status) = BLK_DATA_DATA_LOAD; } } SDataBlockInfo* pBlockInfo = &pBlock->info; // *status = updateBlockLoadStatus(pRuntimeEnv->pQueryAttr, *status); if ((*status) == BLK_DATA_NOT_LOAD || (*status) == BLK_DATA_FILTEROUT) { //qDebug("QInfo:0x%"PRIx64" data block discard, brange:%" PRId64 "-%" PRId64 ", rows:%d", pQInfo->qId, pBlockInfo->window.skey, // pBlockInfo->window.ekey, pBlockInfo->rows); pCost->skipBlocks += 1; } else if ((*status) == BLK_DATA_SMA_LOAD) { // this function never returns error? pCost->loadBlockStatis += 1; // tsdbRetrieveDatablockSMA(pTableScanInfo->pTsdbReadHandle, &pBlock->pBlockAgg); if (pBlock->pBlockAgg == NULL) { // data block statistics does not exist, load data block // pBlock->pDataBlock = tsdbRetrieveDataBlock(pTableScanInfo->pTsdbReadHandle, NULL); pCost->totalCheckedRows += pBlock->info.rows; } } else { assert((*status) == BLK_DATA_DATA_LOAD); // load the data block statistics to perform further filter pCost->loadBlockStatis += 1; // tsdbRetrieveDatablockSMA(pTableScanInfo->pTsdbReadHandle, &pBlock->pBlockAgg); if (pQueryAttr->topBotQuery && pBlock->pBlockAgg != NULL) { { // set previous window if (QUERY_IS_INTERVAL_QUERY(pQueryAttr)) { SResultRow* pResult = NULL; bool masterScan = IS_MAIN_SCAN(pRuntimeEnv); TSKEY k = ascQuery? pBlock->info.window.skey : pBlock->info.window.ekey; STimeWindow win = getActiveTimeWindow(pTableScanInfo->pResultRowInfo, k, pQueryAttr); if (setResultOutputBufByKey(pRuntimeEnv, pTableScanInfo->pResultRowInfo, pBlock->info.uid, &win, masterScan, &pResult, groupId, pTableScanInfo->pCtx, pTableScanInfo->numOfOutput, pTableScanInfo->rowEntryInfoOffset) != TSDB_CODE_SUCCESS) { longjmp(pRuntimeEnv->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } } } bool load = false; for (int32_t i = 0; i < pQueryAttr->numOfOutput; ++i) { int32_t functionId = pTableScanInfo->pCtx[i].functionId; if (functionId == FUNCTION_TOP || functionId == FUNCTION_BOTTOM) { // load = topbot_datablock_filter(&pTableScanInfo->pCtx[i], (char*)&(pBlock->pBlockAgg[i].min), // (char*)&(pBlock->pBlockAgg[i].max)); if (!load) { // current block has been discard due to filter applied pCost->skipBlocks += 1; //qDebug("QInfo:0x%"PRIx64" data block discard, brange:%" PRId64 "-%" PRId64 ", rows:%d", pQInfo->qId, // pBlockInfo->window.skey, pBlockInfo->window.ekey, pBlockInfo->rows); (*status) = BLK_DATA_FILTEROUT; return TSDB_CODE_SUCCESS; } } } } // current block has been discard due to filter applied // if (!doFilterByBlockStatistics(pRuntimeEnv, pBlock->pBlockAgg, pTableScanInfo->pCtx, pBlockInfo->rows)) { // pCost->skipBlocks += 1; // qDebug("QInfo:0x%"PRIx64" data block discard, brange:%" PRId64 "-%" PRId64 ", rows:%d", pQInfo->qId, pBlockInfo->window.skey, // pBlockInfo->window.ekey, pBlockInfo->rows); // (*status) = BLK_DATA_FILTEROUT; // return TSDB_CODE_SUCCESS; // } pCost->totalCheckedRows += pBlockInfo->rows; pCost->loadBlocks += 1; // pBlock->pDataBlock = tsdbRetrieveDataBlock(pTableScanInfo->pTsdbReadHandle, NULL); // if (pBlock->pDataBlock == NULL) { // return terrno; // } // if (pQueryAttr->pFilters != NULL) { // filterSetColFieldData(pQueryAttr->pFilters, taosArrayGetSize(pBlock->pDataBlock), pBlock->pDataBlock); // } // if (pQueryAttr->pFilters != NULL || pRuntimeEnv->pTsBuf != NULL) { // filterColRowsInDataBlock(pRuntimeEnv, pBlock, ascQuery); // } } #endif return TSDB_CODE_SUCCESS; } static void updateTableQueryInfoForReverseScan(STableQueryInfo* pTableQueryInfo) { if (pTableQueryInfo == NULL) { return; } // TSWAP(pTableQueryInfo->win.skey, pTableQueryInfo->win.ekey); // pTableQueryInfo->lastKey = pTableQueryInfo->win.skey; // SWITCH_ORDER(pTableQueryInfo->cur.order); // pTableQueryInfo->cur.vgroupIndex = -1; // set the index to be the end slot of result rows array // SResultRowInfo* pResultRowInfo = &pTableQueryInfo->resInfo; // if (pResultRowInfo->size > 0) { // pResultRowInfo->curPos = pResultRowInfo->size - 1; // } else { // pResultRowInfo->curPos = -1; // } } void initResultRow(SResultRow* pResultRow) { // pResultRow->pEntryInfo = (struct SResultRowEntryInfo*)((char*)pResultRow + sizeof(SResultRow)); } /* * The start of each column SResultRowEntryInfo is denote by RowCellInfoOffset. * Note that in case of top/bottom query, the whole multiple rows of result is treated as only one row of results. * +------------+-----------------result column 1------------+------------------result column 2-----------+ * | SResultRow | SResultRowEntryInfo | intermediate buffer1 | SResultRowEntryInfo | intermediate buffer 2| * +------------+--------------------------------------------+--------------------------------------------+ * offset[0] offset[1] offset[2] */ // TODO refactor: some function move away void setFunctionResultOutput(SOperatorInfo* pOperator, SOptrBasicInfo* pInfo, SAggSupporter* pSup, int32_t stage, int32_t numOfExprs) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SqlFunctionCtx* pCtx = pOperator->exprSupp.pCtx; int32_t* rowEntryInfoOffset = pOperator->exprSupp.rowEntryInfoOffset; SResultRowInfo* pResultRowInfo = &pInfo->resultRowInfo; initResultRowInfo(pResultRowInfo); int64_t tid = 0; int64_t groupId = 0; SResultRow* pRow = doSetResultOutBufByKey(pSup->pResultBuf, pResultRowInfo, (char*)&tid, sizeof(tid), true, groupId, pTaskInfo, false, pSup); for (int32_t i = 0; i < numOfExprs; ++i) { struct SResultRowEntryInfo* pEntry = getResultEntryInfo(pRow, i, rowEntryInfoOffset); cleanupResultRowEntry(pEntry); pCtx[i].resultInfo = pEntry; pCtx[i].scanFlag = stage; } initCtxOutputBuffer(pCtx, numOfExprs); } void initCtxOutputBuffer(SqlFunctionCtx* pCtx, int32_t size) { for (int32_t j = 0; j < size; ++j) { struct SResultRowEntryInfo* pResInfo = GET_RES_INFO(&pCtx[j]); if (isRowEntryInitialized(pResInfo) || fmIsPseudoColumnFunc(pCtx[j].functionId) || pCtx[j].functionId == -1 || fmIsScalarFunc(pCtx[j].functionId)) { continue; } pCtx[j].fpSet.init(&pCtx[j], pCtx[j].resultInfo); } } void setTaskStatus(SExecTaskInfo* pTaskInfo, int8_t status) { if (status == TASK_NOT_COMPLETED) { pTaskInfo->status = status; } else { // QUERY_NOT_COMPLETED is not compatible with any other status, so clear its position first CLEAR_QUERY_STATUS(pTaskInfo, TASK_NOT_COMPLETED); pTaskInfo->status |= status; } } void destroyTableQueryInfoImpl(STableQueryInfo* pTableQueryInfo) { if (pTableQueryInfo == NULL) { return; } // taosVariantDestroy(&pTableQueryInfo->tag); // cleanupResultRowInfo(&pTableQueryInfo->resInfo); } void setResultRowInitCtx(SResultRow* pResult, SqlFunctionCtx* pCtx, int32_t numOfOutput, int32_t* rowEntryInfoOffset) { for (int32_t i = 0; i < numOfOutput; ++i) { pCtx[i].resultInfo = getResultEntryInfo(pResult, i, rowEntryInfoOffset); struct SResultRowEntryInfo* pResInfo = pCtx[i].resultInfo; if (isRowEntryCompleted(pResInfo) && isRowEntryInitialized(pResInfo)) { continue; } if (fmIsWindowPseudoColumnFunc(pCtx[i].functionId)) { continue; } if (!pResInfo->initialized) { if (pCtx[i].functionId != -1) { pCtx[i].fpSet.init(&pCtx[i], pResInfo); } else { pResInfo->initialized = true; } } } } static void extractQualifiedTupleByFilterResult(SSDataBlock* pBlock, const int8_t* rowRes, bool keep); void doFilter(const SNode* pFilterNode, SSDataBlock* pBlock) { if (pFilterNode == NULL) { return; } if (pBlock->info.rows == 0) { return; } SFilterInfo* filter = NULL; // todo move to the initialization function int32_t code = filterInitFromNode((SNode*)pFilterNode, &filter, 0); size_t numOfCols = taosArrayGetSize(pBlock->pDataBlock); SFilterColumnParam param1 = {.numOfCols = numOfCols, .pDataBlock = pBlock->pDataBlock}; code = filterSetDataFromSlotId(filter, ¶m1); int8_t* rowRes = NULL; // todo the keep seems never to be True?? bool keep = filterExecute(filter, pBlock, &rowRes, NULL, param1.numOfCols); filterFreeInfo(filter); extractQualifiedTupleByFilterResult(pBlock, rowRes, keep); blockDataUpdateTsWindow(pBlock, 0); taosMemoryFree(rowRes); } void extractQualifiedTupleByFilterResult(SSDataBlock* pBlock, const int8_t* rowRes, bool keep) { if (keep) { return; } if (rowRes != NULL) { int32_t totalRows = pBlock->info.rows; SSDataBlock* px = createOneDataBlock(pBlock, true); size_t numOfCols = taosArrayGetSize(pBlock->pDataBlock); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pSrc = taosArrayGet(px->pDataBlock, i); SColumnInfoData* pDst = taosArrayGet(pBlock->pDataBlock, i); // it is a reserved column for scalar function, and no data in this column yet. if (pDst->pData == NULL || pSrc->pData == NULL) { continue; } colInfoDataCleanup(pDst, pBlock->info.rows); int32_t numOfRows = 0; for (int32_t j = 0; j < totalRows; ++j) { if (rowRes[j] == 0) { continue; } if (colDataIsNull_s(pSrc, j)) { colDataAppendNULL(pDst, numOfRows); } else { colDataAppend(pDst, numOfRows, colDataGetData(pSrc, j), false); } numOfRows += 1; } if (pBlock->info.rows == totalRows) { pBlock->info.rows = numOfRows; } else { ASSERT(pBlock->info.rows == numOfRows); } } blockDataDestroy(px); // fix memory leak } else { // do nothing pBlock->info.rows = 0; } } void doSetTableGroupOutputBuf(SOperatorInfo* pOperator, SAggOperatorInfo* pAggInfo, int32_t numOfOutput, uint64_t groupId) { // for simple group by query without interval, all the tables belong to one group result. SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SResultRowInfo* pResultRowInfo = &pAggInfo->binfo.resultRowInfo; SqlFunctionCtx* pCtx = pOperator->exprSupp.pCtx; int32_t* rowEntryInfoOffset = pOperator->exprSupp.rowEntryInfoOffset; SResultRow* pResultRow = doSetResultOutBufByKey(pAggInfo->aggSup.pResultBuf, pResultRowInfo, (char*)&groupId, sizeof(groupId), true, groupId, pTaskInfo, false, &pAggInfo->aggSup); assert(pResultRow != NULL); /* * not assign result buffer yet, add new result buffer * all group belong to one result set, and each group result has different group id so set the id to be one */ if (pResultRow->pageId == -1) { int32_t ret = addNewWindowResultBuf(pResultRow, pAggInfo->aggSup.pResultBuf, groupId, pAggInfo->binfo.pRes->info.rowSize); if (ret != TSDB_CODE_SUCCESS) { return; } } setResultRowInitCtx(pResultRow, pCtx, numOfOutput, rowEntryInfoOffset); } void setExecutionContext(SOperatorInfo* pOperator, int32_t numOfOutput, uint64_t groupId, SAggOperatorInfo* pAggInfo) { if (pAggInfo->groupId != INT32_MIN && pAggInfo->groupId == groupId) { return; } #ifdef BUF_PAGE_DEBUG qDebug("page_setbuf, groupId:%" PRIu64, groupId); #endif doSetTableGroupOutputBuf(pOperator, pAggInfo, numOfOutput, groupId); // record the current active group id pAggInfo->groupId = groupId; } static void doUpdateNumOfRows(SResultRow* pRow, int32_t numOfExprs, const int32_t* rowCellOffset) { for (int32_t j = 0; j < numOfExprs; ++j) { struct SResultRowEntryInfo* pResInfo = getResultEntryInfo(pRow, j, rowCellOffset); if (!isRowEntryInitialized(pResInfo)) { continue; } if (pRow->numOfRows < pResInfo->numOfRes) { pRow->numOfRows = pResInfo->numOfRes; } } } int32_t finalizeResultRowIntoResultDataBlock(SDiskbasedBuf* pBuf, SResultRowPosition* resultRowPosition, SqlFunctionCtx* pCtx, SExprInfo* pExprInfo, int32_t numOfExprs, const int32_t* rowCellOffset, SSDataBlock* pBlock, SExecTaskInfo* pTaskInfo) { SFilePage* page = getBufPage(pBuf, resultRowPosition->pageId); SResultRow* pRow = (SResultRow*)((char*)page + resultRowPosition->offset); doUpdateNumOfRows(pRow, numOfExprs, rowCellOffset); if (pRow->numOfRows == 0) { releaseBufPage(pBuf, page); return 0; } while (pBlock->info.rows + pRow->numOfRows > pBlock->info.capacity) { int32_t code = blockDataEnsureCapacity(pBlock, pBlock->info.capacity * 1.25); if (TAOS_FAILED(code)) { releaseBufPage(pBuf, page); qError("%s ensure result data capacity failed, code %s", GET_TASKID(pTaskInfo), tstrerror(code)); longjmp(pTaskInfo->env, code); } } for (int32_t j = 0; j < numOfExprs; ++j) { int32_t slotId = pExprInfo[j].base.resSchema.slotId; pCtx[j].resultInfo = getResultEntryInfo(pRow, j, rowCellOffset); if (pCtx[j].fpSet.finalize) { int32_t code = pCtx[j].fpSet.finalize(&pCtx[j], pBlock); if (TAOS_FAILED(code)) { qError("%s build result data block error, code %s", GET_TASKID(pTaskInfo), tstrerror(code)); longjmp(pTaskInfo->env, code); } } else if (strcmp(pCtx[j].pExpr->pExpr->_function.functionName, "_select_value") == 0) { // do nothing, todo refactor } else { // expand the result into multiple rows. E.g., _wstart, top(k, 20) // the _wstart needs to copy to 20 following rows, since the results of top-k expands to 20 different rows. SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, slotId); char* in = GET_ROWCELL_INTERBUF(pCtx[j].resultInfo); for (int32_t k = 0; k < pRow->numOfRows; ++k) { colDataAppend(pColInfoData, pBlock->info.rows + k, in, pCtx[j].resultInfo->isNullRes); } } } releaseBufPage(pBuf, page); pBlock->info.rows += pRow->numOfRows; return 0; } int32_t doCopyToSDataBlock(SExecTaskInfo* pTaskInfo, SSDataBlock* pBlock, SExprInfo* pExprInfo, SDiskbasedBuf* pBuf, SGroupResInfo* pGroupResInfo, const int32_t* rowCellOffset, SqlFunctionCtx* pCtx, int32_t numOfExprs) { int32_t numOfRows = getNumOfTotalRes(pGroupResInfo); int32_t start = pGroupResInfo->index; for (int32_t i = start; i < numOfRows; i += 1) { SResKeyPos* pPos = taosArrayGetP(pGroupResInfo->pRows, i); SFilePage* page = getBufPage(pBuf, pPos->pos.pageId); SResultRow* pRow = (SResultRow*)((char*)page + pPos->pos.offset); doUpdateNumOfRows(pRow, numOfExprs, rowCellOffset); if (pRow->numOfRows == 0) { pGroupResInfo->index += 1; releaseBufPage(pBuf, page); continue; } if (pBlock->info.groupId == 0) { pBlock->info.groupId = pPos->groupId; } else { // current value belongs to different group, it can't be packed into one datablock if (pBlock->info.groupId != pPos->groupId) { releaseBufPage(pBuf, page); break; } } if (pBlock->info.rows + pRow->numOfRows > pBlock->info.capacity) { releaseBufPage(pBuf, page); break; } pGroupResInfo->index += 1; for (int32_t j = 0; j < numOfExprs; ++j) { int32_t slotId = pExprInfo[j].base.resSchema.slotId; pCtx[j].resultInfo = getResultEntryInfo(pRow, j, rowCellOffset); if (pCtx[j].fpSet.finalize) { #ifdef BUF_PAGE_DEBUG qDebug("\npage_finalize %d", numOfExprs); #endif int32_t code = pCtx[j].fpSet.finalize(&pCtx[j], pBlock); if (TAOS_FAILED(code)) { qError("%s build result data block error, code %s", GET_TASKID(pTaskInfo), tstrerror(code)); longjmp(pTaskInfo->env, code); } } else if (strcmp(pCtx[j].pExpr->pExpr->_function.functionName, "_select_value") == 0) { // do nothing, todo refactor } else { // expand the result into multiple rows. E.g., _wstart, top(k, 20) // the _wstart needs to copy to 20 following rows, since the results of top-k expands to 20 different rows. SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, slotId); char* in = GET_ROWCELL_INTERBUF(pCtx[j].resultInfo); if (pCtx[j].increase) { int64_t ts = *(int64_t*)in; for (int32_t k = 0; k < pRow->numOfRows; ++k) { colDataAppend(pColInfoData, pBlock->info.rows + k, (const char*)&ts, pCtx[j].resultInfo->isNullRes); ts++; } } else { for (int32_t k = 0; k < pRow->numOfRows; ++k) { colDataAppend(pColInfoData, pBlock->info.rows + k, in, pCtx[j].resultInfo->isNullRes); } } } } releaseBufPage(pBuf, page); pBlock->info.rows += pRow->numOfRows; // if (pBlock->info.rows >= pBlock->info.capacity) { // output buffer is full // break; // } } qDebug("%s result generated, rows:%d, groupId:%" PRIu64, GET_TASKID(pTaskInfo), pBlock->info.rows, pBlock->info.groupId); blockDataUpdateTsWindow(pBlock, 0); return 0; } void doBuildResultDatablock(SOperatorInfo* pOperator, SOptrBasicInfo* pbInfo, SGroupResInfo* pGroupResInfo, SDiskbasedBuf* pBuf) { SExprInfo* pExprInfo = pOperator->exprSupp.pExprInfo; int32_t numOfExprs = pOperator->exprSupp.numOfExprs; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; int32_t* rowCellOffset = pOperator->exprSupp.rowEntryInfoOffset; SSDataBlock* pBlock = pbInfo->pRes; SqlFunctionCtx* pCtx = pOperator->exprSupp.pCtx; blockDataCleanup(pBlock); if (!hasDataInGroupInfo(pGroupResInfo)) { return; } // clear the existed group id pBlock->info.groupId = 0; doCopyToSDataBlock(pTaskInfo, pBlock, pExprInfo, pBuf, pGroupResInfo, rowCellOffset, pCtx, numOfExprs); } static void updateNumOfRowsInResultRows(SqlFunctionCtx* pCtx, int32_t numOfOutput, SResultRowInfo* pResultRowInfo, int32_t* rowEntryInfoOffset) { // update the number of result for each, only update the number of rows for the corresponding window result. // if (QUERY_IS_INTERVAL_QUERY(pQueryAttr)) { // return; // } #if 0 for (int32_t i = 0; i < pResultRowInfo->size; ++i) { SResultRow* pResult = pResultRowInfo->pResult[i]; for (int32_t j = 0; j < numOfOutput; ++j) { int32_t functionId = pCtx[j].functionId; if (functionId == FUNCTION_TS || functionId == FUNCTION_TAG || functionId == FUNCTION_TAGPRJ) { continue; } SResultRowEntryInfo* pCell = getResultEntryInfo(pResult, j, rowEntryInfoOffset); pResult->numOfRows = (uint16_t)(TMAX(pResult->numOfRows, pCell->numOfRes)); } } #endif } static int32_t compressQueryColData(SColumnInfoData* pColRes, int32_t numOfRows, char* data, int8_t compressed) { int32_t colSize = pColRes->info.bytes * numOfRows; return (*(tDataTypes[pColRes->info.type].compFunc))(pColRes->pData, colSize, numOfRows, data, colSize + COMP_OVERFLOW_BYTES, compressed, NULL, 0); } int32_t doFillTimeIntervalGapsInResults(struct SFillInfo* pFillInfo, SSDataBlock* pBlock, int32_t capacity) { int32_t numOfRows = (int32_t)taosFillResultDataBlock(pFillInfo, pBlock, capacity - pBlock->info.rows); return pBlock->info.rows; } void queryCostStatis(SExecTaskInfo* pTaskInfo) { STaskCostInfo* pSummary = &pTaskInfo->cost; // uint64_t hashSize = taosHashGetMemSize(pQInfo->runtimeEnv.pResultRowHashTable); // hashSize += taosHashGetMemSize(pRuntimeEnv->tableqinfoGroupInfo.map); // pSummary->hashSize = hashSize; // add the merge time pSummary->elapsedTime += pSummary->firstStageMergeTime; // SResultRowPool* p = pTaskInfo->pool; // if (p != NULL) { // pSummary->winInfoSize = getResultRowPoolMemSize(p); // pSummary->numOfTimeWindows = getNumOfAllocatedResultRows(p); // } else { // pSummary->winInfoSize = 0; // pSummary->numOfTimeWindows = 0; // } // // calculateOperatorProfResults(pQInfo); SFileBlockLoadRecorder* pRecorder = pSummary->pRecoder; if (pSummary->pRecoder != NULL) { qDebug("%s :cost summary: elapsed time:%" PRId64 " us, first merge:%" PRId64 " us, total blocks:%d, " "load block statis:%d, load data block:%d, total rows:%" PRId64 ", check rows:%" PRId64, GET_TASKID(pTaskInfo), pSummary->elapsedTime, pSummary->firstStageMergeTime, pRecorder->totalBlocks, pRecorder->loadBlockStatis, pRecorder->loadBlocks, pRecorder->totalRows, pRecorder->totalCheckedRows); } // qDebug("QInfo:0x%"PRIx64" :cost summary: winResPool size:%.2f Kb, numOfWin:%"PRId64", tableInfoSize:%.2f Kb, // hashTable:%.2f Kb", pQInfo->qId, pSummary->winInfoSize/1024.0, // pSummary->numOfTimeWindows, pSummary->tableInfoSize/1024.0, pSummary->hashSize/1024.0); } // static void updateOffsetVal(STaskRuntimeEnv *pRuntimeEnv, SDataBlockInfo *pBlockInfo) { // STaskAttr *pQueryAttr = pRuntimeEnv->pQueryAttr; // STableQueryInfo* pTableQueryInfo = pRuntimeEnv->current; // // int32_t step = GET_FORWARD_DIRECTION_FACTOR(pQueryAttr->order.order); // // if (pQueryAttr->limit.offset == pBlockInfo->rows) { // current block will ignore completed // pTableQueryInfo->lastKey = QUERY_IS_ASC_QUERY(pQueryAttr) ? pBlockInfo->window.ekey + step : // pBlockInfo->window.skey + step; pQueryAttr->limit.offset = 0; return; // } // // if (QUERY_IS_ASC_QUERY(pQueryAttr)) { // pQueryAttr->pos = (int32_t)pQueryAttr->limit.offset; // } else { // pQueryAttr->pos = pBlockInfo->rows - (int32_t)pQueryAttr->limit.offset - 1; // } // // assert(pQueryAttr->pos >= 0 && pQueryAttr->pos <= pBlockInfo->rows - 1); // // SArray * pDataBlock = tsdbRetrieveDataBlock(pRuntimeEnv->pTsdbReadHandle, NULL); // SColumnInfoData *pColInfoData = taosArrayGet(pDataBlock, 0); // // // update the pQueryAttr->limit.offset value, and pQueryAttr->pos value // TSKEY *keys = (TSKEY *) pColInfoData->pData; // // // update the offset value // pTableQueryInfo->lastKey = keys[pQueryAttr->pos]; // pQueryAttr->limit.offset = 0; // // int32_t numOfRes = tableApplyFunctionsOnBlock(pRuntimeEnv, pBlockInfo, NULL, binarySearchForKey, pDataBlock); // // //qDebug("QInfo:0x%"PRIx64" check data block, brange:%" PRId64 "-%" PRId64 ", numBlocksOfStep:%d, numOfRes:%d, // lastKey:%"PRId64, GET_TASKID(pRuntimeEnv), // pBlockInfo->window.skey, pBlockInfo->window.ekey, pBlockInfo->rows, numOfRes, pQuery->current->lastKey); // } // void skipBlocks(STaskRuntimeEnv *pRuntimeEnv) { // STaskAttr *pQueryAttr = pRuntimeEnv->pQueryAttr; // // if (pQueryAttr->limit.offset <= 0 || pQueryAttr->numOfFilterCols > 0) { // return; // } // // pQueryAttr->pos = 0; // int32_t step = GET_FORWARD_DIRECTION_FACTOR(pQueryAttr->order.order); // // STableQueryInfo* pTableQueryInfo = pRuntimeEnv->current; // TsdbQueryHandleT pTsdbReadHandle = pRuntimeEnv->pTsdbReadHandle; // // SDataBlockInfo blockInfo = SDATA_BLOCK_INITIALIZER; // while (tsdbNextDataBlock(pTsdbReadHandle)) { // if (isTaskKilled(pRuntimeEnv->qinfo)) { // longjmp(pRuntimeEnv->env, TSDB_CODE_TSC_QUERY_CANCELLED); // } // // tsdbRetrieveDataBlockInfo(pTsdbReadHandle, &blockInfo); // // if (pQueryAttr->limit.offset > blockInfo.rows) { // pQueryAttr->limit.offset -= blockInfo.rows; // pTableQueryInfo->lastKey = (QUERY_IS_ASC_QUERY(pQueryAttr)) ? blockInfo.window.ekey : blockInfo.window.skey; // pTableQueryInfo->lastKey += step; // // //qDebug("QInfo:0x%"PRIx64" skip rows:%d, offset:%" PRId64, GET_TASKID(pRuntimeEnv), blockInfo.rows, // pQuery->limit.offset); // } else { // find the appropriated start position in current block // updateOffsetVal(pRuntimeEnv, &blockInfo); // break; // } // } // // if (terrno != TSDB_CODE_SUCCESS) { // longjmp(pRuntimeEnv->env, terrno); // } // } // static TSKEY doSkipIntervalProcess(STaskRuntimeEnv* pRuntimeEnv, STimeWindow* win, SDataBlockInfo* pBlockInfo, // STableQueryInfo* pTableQueryInfo) { // STaskAttr *pQueryAttr = pRuntimeEnv->pQueryAttr; // SResultRowInfo *pWindowResInfo = &pRuntimeEnv->resultRowInfo; // // assert(pQueryAttr->limit.offset == 0); // STimeWindow tw = *win; // getNextTimeWindow(pQueryAttr, &tw); // // if ((tw.skey <= pBlockInfo->window.ekey && QUERY_IS_ASC_QUERY(pQueryAttr)) || // (tw.ekey >= pBlockInfo->window.skey && !QUERY_IS_ASC_QUERY(pQueryAttr))) { // // // load the data block and check data remaining in current data block // // TODO optimize performance // SArray * pDataBlock = tsdbRetrieveDataBlock(pRuntimeEnv->pTsdbReadHandle, NULL); // SColumnInfoData *pColInfoData = taosArrayGet(pDataBlock, 0); // // tw = *win; // int32_t startPos = // getNextQualifiedWindow(pQueryAttr, &tw, pBlockInfo, pColInfoData->pData, binarySearchForKey, -1); // assert(startPos >= 0); // // // set the abort info // pQueryAttr->pos = startPos; // // // reset the query start timestamp // pTableQueryInfo->win.skey = ((TSKEY *)pColInfoData->pData)[startPos]; // pQueryAttr->window.skey = pTableQueryInfo->win.skey; // TSKEY key = pTableQueryInfo->win.skey; // // pWindowResInfo->prevSKey = tw.skey; // int32_t index = pRuntimeEnv->resultRowInfo.curIndex; // // int32_t numOfRes = tableApplyFunctionsOnBlock(pRuntimeEnv, pBlockInfo, NULL, binarySearchForKey, pDataBlock); // pRuntimeEnv->resultRowInfo.curIndex = index; // restore the window index // // //qDebug("QInfo:0x%"PRIx64" check data block, brange:%" PRId64 "-%" PRId64 ", numOfRows:%d, numOfRes:%d, // lastKey:%" PRId64, // GET_TASKID(pRuntimeEnv), pBlockInfo->window.skey, pBlockInfo->window.ekey, pBlockInfo->rows, numOfRes, // pQueryAttr->current->lastKey); // // return key; // } else { // do nothing // pQueryAttr->window.skey = tw.skey; // pWindowResInfo->prevSKey = tw.skey; // pTableQueryInfo->lastKey = tw.skey; // // return tw.skey; // } // // return true; // } // static bool skipTimeInterval(STaskRuntimeEnv *pRuntimeEnv, TSKEY* start) { // STaskAttr *pQueryAttr = pRuntimeEnv->pQueryAttr; // if (QUERY_IS_ASC_QUERY(pQueryAttr)) { // assert(*start <= pRuntimeEnv->current->lastKey); // } else { // assert(*start >= pRuntimeEnv->current->lastKey); // } // // // if queried with value filter, do NOT forward query start position // if (pQueryAttr->limit.offset <= 0 || pQueryAttr->numOfFilterCols > 0 || pRuntimeEnv->pTsBuf != NULL || // pRuntimeEnv->pFillInfo != NULL) { // return true; // } // // /* // * 1. for interval without interpolation query we forward pQueryAttr->interval.interval at a time for // * pQueryAttr->limit.offset times. Since hole exists, pQueryAttr->interval.interval*pQueryAttr->limit.offset // value is // * not valid. otherwise, we only forward pQueryAttr->limit.offset number of points // */ // assert(pRuntimeEnv->resultRowInfo.prevSKey == TSKEY_INITIAL_VAL); // // STimeWindow w = TSWINDOW_INITIALIZER; // bool ascQuery = QUERY_IS_ASC_QUERY(pQueryAttr); // // SResultRowInfo *pWindowResInfo = &pRuntimeEnv->resultRowInfo; // STableQueryInfo *pTableQueryInfo = pRuntimeEnv->current; // // SDataBlockInfo blockInfo = SDATA_BLOCK_INITIALIZER; // while (tsdbNextDataBlock(pRuntimeEnv->pTsdbReadHandle)) { // tsdbRetrieveDataBlockInfo(pRuntimeEnv->pTsdbReadHandle, &blockInfo); // // if (QUERY_IS_ASC_QUERY(pQueryAttr)) { // if (pWindowResInfo->prevSKey == TSKEY_INITIAL_VAL) { // getAlignQueryTimeWindow(pQueryAttr, blockInfo.window.skey, blockInfo.window.skey, pQueryAttr->window.ekey, // &w); pWindowResInfo->prevSKey = w.skey; // } // } else { // getAlignQueryTimeWindow(pQueryAttr, blockInfo.window.ekey, pQueryAttr->window.ekey, blockInfo.window.ekey, &w); // pWindowResInfo->prevSKey = w.skey; // } // // // the first time window // STimeWindow win = getActiveTimeWindow(pWindowResInfo, pWindowResInfo->prevSKey, pQueryAttr); // // while (pQueryAttr->limit.offset > 0) { // STimeWindow tw = win; // // if ((win.ekey <= blockInfo.window.ekey && ascQuery) || (win.ekey >= blockInfo.window.skey && !ascQuery)) { // pQueryAttr->limit.offset -= 1; // pWindowResInfo->prevSKey = win.skey; // // // current time window is aligned with blockInfo.window.ekey // // restart it from next data block by set prevSKey to be TSKEY_INITIAL_VAL; // if ((win.ekey == blockInfo.window.ekey && ascQuery) || (win.ekey == blockInfo.window.skey && !ascQuery)) { // pWindowResInfo->prevSKey = TSKEY_INITIAL_VAL; // } // } // // if (pQueryAttr->limit.offset == 0) { // *start = doSkipIntervalProcess(pRuntimeEnv, &win, &blockInfo, pTableQueryInfo); // return true; // } // // // current window does not ended in current data block, try next data block // getNextTimeWindow(pQueryAttr, &tw); // // /* // * If the next time window still starts from current data block, // * load the primary timestamp column first, and then find the start position for the next queried time window. // * Note that only the primary timestamp column is required. // * TODO: Optimize for this cases. All data blocks are not needed to be loaded, only if the first actually // required // * time window resides in current data block. // */ // if ((tw.skey <= blockInfo.window.ekey && ascQuery) || (tw.ekey >= blockInfo.window.skey && !ascQuery)) { // // SArray *pDataBlock = tsdbRetrieveDataBlock(pRuntimeEnv->pTsdbReadHandle, NULL); // SColumnInfoData *pColInfoData = taosArrayGet(pDataBlock, 0); // // if ((win.ekey > blockInfo.window.ekey && ascQuery) || (win.ekey < blockInfo.window.skey && !ascQuery)) { // pQueryAttr->limit.offset -= 1; // } // // if (pQueryAttr->limit.offset == 0) { // *start = doSkipIntervalProcess(pRuntimeEnv, &win, &blockInfo, pTableQueryInfo); // return true; // } else { // tw = win; // int32_t startPos = // getNextQualifiedWindow(pQueryAttr, &tw, &blockInfo, pColInfoData->pData, binarySearchForKey, -1); // assert(startPos >= 0); // // // set the abort info // pQueryAttr->pos = startPos; // pTableQueryInfo->lastKey = ((TSKEY *)pColInfoData->pData)[startPos]; // pWindowResInfo->prevSKey = tw.skey; // win = tw; // } // } else { // break; // offset is not 0, and next time window begins or ends in the next block. // } // } // } // // // check for error // if (terrno != TSDB_CODE_SUCCESS) { // longjmp(pRuntimeEnv->env, terrno); // } // // return true; // } int32_t appendDownstream(SOperatorInfo* p, SOperatorInfo** pDownstream, int32_t num) { if (p->pDownstream == NULL) { assert(p->numOfDownstream == 0); } p->pDownstream = taosMemoryCalloc(1, num * POINTER_BYTES); if (p->pDownstream == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } memcpy(p->pDownstream, pDownstream, num * POINTER_BYTES); p->numOfDownstream = num; return TSDB_CODE_SUCCESS; } static void doDestroyTableList(STableListInfo* pTableqinfoList); static void doTableQueryInfoTimeWindowCheck(SExecTaskInfo* pTaskInfo, STableQueryInfo* pTableQueryInfo, int32_t order) { #if 0 if (order == TSDB_ORDER_ASC) { assert( (pTableQueryInfo->win.skey <= pTableQueryInfo->win.ekey) && (pTableQueryInfo->lastKey >= pTaskInfo->window.skey) && (pTableQueryInfo->win.skey >= pTaskInfo->window.skey && pTableQueryInfo->win.ekey <= pTaskInfo->window.ekey)); } else { assert( (pTableQueryInfo->win.skey >= pTableQueryInfo->win.ekey) && (pTableQueryInfo->lastKey <= pTaskInfo->window.skey) && (pTableQueryInfo->win.skey <= pTaskInfo->window.skey && pTableQueryInfo->win.ekey >= pTaskInfo->window.ekey)); } #endif } typedef struct SFetchRspHandleWrapper { uint32_t exchangeId; int32_t sourceIndex; } SFetchRspHandleWrapper; int32_t loadRemoteDataCallback(void* param, SDataBuf* pMsg, int32_t code) { SFetchRspHandleWrapper* pWrapper = (SFetchRspHandleWrapper*)param; SExchangeInfo* pExchangeInfo = taosAcquireRef(exchangeObjRefPool, pWrapper->exchangeId); if (pExchangeInfo == NULL) { qWarn("failed to acquire exchange operator, since it may have been released"); return TSDB_CODE_SUCCESS; } int32_t index = pWrapper->sourceIndex; SSourceDataInfo* pSourceDataInfo = taosArrayGet(pExchangeInfo->pSourceDataInfo, index); if (code == TSDB_CODE_SUCCESS) { pSourceDataInfo->pRsp = pMsg->pData; SRetrieveTableRsp* pRsp = pSourceDataInfo->pRsp; pRsp->numOfRows = htonl(pRsp->numOfRows); pRsp->compLen = htonl(pRsp->compLen); pRsp->numOfCols = htonl(pRsp->numOfCols); pRsp->useconds = htobe64(pRsp->useconds); ASSERT(pRsp != NULL); qDebug("%s fetch rsp received, index:%d, rows:%d", pSourceDataInfo->taskId, index, pRsp->numOfRows); } else { pSourceDataInfo->code = code; qDebug("%s fetch rsp received, index:%d, error:%d", pSourceDataInfo->taskId, index, tstrerror(code)); } pSourceDataInfo->status = EX_SOURCE_DATA_READY; tsem_post(&pExchangeInfo->ready); taosReleaseRef(exchangeObjRefPool, pWrapper->exchangeId); return TSDB_CODE_SUCCESS; } void qProcessRspMsg(void* parent, SRpcMsg* pMsg, SEpSet* pEpSet) { SMsgSendInfo* pSendInfo = (SMsgSendInfo*)pMsg->info.ahandle; assert(pMsg->info.ahandle != NULL); SDataBuf buf = {.len = pMsg->contLen, .pData = NULL}; if (pMsg->contLen > 0) { buf.pData = taosMemoryCalloc(1, pMsg->contLen); if (buf.pData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; pMsg->code = TSDB_CODE_OUT_OF_MEMORY; } else { memcpy(buf.pData, pMsg->pCont, pMsg->contLen); } } pSendInfo->fp(pSendInfo->param, &buf, pMsg->code); rpcFreeCont(pMsg->pCont); destroySendMsgInfo(pSendInfo); } static int32_t doSendFetchDataRequest(SExchangeInfo* pExchangeInfo, SExecTaskInfo* pTaskInfo, int32_t sourceIndex) { size_t totalSources = taosArrayGetSize(pExchangeInfo->pSources); SResFetchReq* pMsg = taosMemoryCalloc(1, sizeof(SResFetchReq)); if (NULL == pMsg) { pTaskInfo->code = TSDB_CODE_QRY_OUT_OF_MEMORY; return pTaskInfo->code; } SDownstreamSourceNode* pSource = taosArrayGet(pExchangeInfo->pSources, sourceIndex); SSourceDataInfo* pDataInfo = taosArrayGet(pExchangeInfo->pSourceDataInfo, sourceIndex); ASSERT(pDataInfo->status == EX_SOURCE_DATA_NOT_READY); qDebug("%s build fetch msg and send to vgId:%d, ep:%s, taskId:0x%" PRIx64 ", execId:%d, %d/%" PRIzu, GET_TASKID(pTaskInfo), pSource->addr.nodeId, pSource->addr.epSet.eps[0].fqdn, pSource->taskId, pSource->execId, sourceIndex, totalSources); pMsg->header.vgId = htonl(pSource->addr.nodeId); pMsg->sId = htobe64(pSource->schedId); pMsg->taskId = htobe64(pSource->taskId); pMsg->queryId = htobe64(pTaskInfo->id.queryId); pMsg->execId = htonl(pSource->execId); // send the fetch remote task result reques SMsgSendInfo* pMsgSendInfo = taosMemoryCalloc(1, sizeof(SMsgSendInfo)); if (NULL == pMsgSendInfo) { taosMemoryFreeClear(pMsg); qError("%s prepare message %d failed", GET_TASKID(pTaskInfo), (int32_t)sizeof(SMsgSendInfo)); pTaskInfo->code = TSDB_CODE_QRY_OUT_OF_MEMORY; return pTaskInfo->code; } SFetchRspHandleWrapper* pWrapper = taosMemoryCalloc(1, sizeof(SFetchRspHandleWrapper)); pWrapper->exchangeId = pExchangeInfo->self; pWrapper->sourceIndex = sourceIndex; pMsgSendInfo->param = pWrapper; pMsgSendInfo->paramFreeFp = taosMemoryFree; pMsgSendInfo->msgInfo.pData = pMsg; pMsgSendInfo->msgInfo.len = sizeof(SResFetchReq); pMsgSendInfo->msgType = pSource->fetchMsgType; pMsgSendInfo->fp = loadRemoteDataCallback; int64_t transporterId = 0; int32_t code = asyncSendMsgToServer(pExchangeInfo->pTransporter, &pSource->addr.epSet, &transporterId, pMsgSendInfo); return TSDB_CODE_SUCCESS; } int32_t extractDataBlockFromFetchRsp(SSDataBlock* pRes, SLoadRemoteDataInfo* pLoadInfo, int32_t numOfRows, char* pData, int32_t compLen, int32_t numOfOutput, int64_t startTs, uint64_t* total, SArray* pColList) { if (pColList == NULL) { // data from other sources blockDataCleanup(pRes); // blockDataEnsureCapacity(pRes, numOfRows); blockDecode(pRes, numOfOutput, numOfRows, pData); } else { // extract data according to pColList ASSERT(numOfOutput == taosArrayGetSize(pColList)); char* pStart = pData; int32_t numOfCols = htonl(*(int32_t*)pStart); pStart += sizeof(int32_t); // todo refactor:extract method SSysTableSchema* pSchema = (SSysTableSchema*)pStart; for (int32_t i = 0; i < numOfCols; ++i) { SSysTableSchema* p = (SSysTableSchema*)pStart; p->colId = htons(p->colId); p->bytes = htonl(p->bytes); pStart += sizeof(SSysTableSchema); } SSDataBlock* pBlock = createDataBlock(); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData idata = createColumnInfoData(pSchema[i].type, pSchema[i].bytes, pSchema[i].colId); blockDataAppendColInfo(pBlock, &idata); } blockDecode(pBlock, numOfCols, numOfRows, pStart); blockDataEnsureCapacity(pRes, numOfRows); // data from mnode pRes->info.rows = numOfRows; relocateColumnData(pRes, pColList, pBlock->pDataBlock, false); blockDataDestroy(pBlock); } // todo move this to time window aggregator, since the primary timestamp may not be known by exchange operator. blockDataUpdateTsWindow(pRes, 0); int64_t el = taosGetTimestampUs() - startTs; pLoadInfo->totalRows += numOfRows; pLoadInfo->totalSize += compLen; if (total != NULL) { *total += numOfRows; } pLoadInfo->totalElapsed += el; return TSDB_CODE_SUCCESS; } static void* setAllSourcesCompleted(SOperatorInfo* pOperator, int64_t startTs) { SExchangeInfo* pExchangeInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; int64_t el = taosGetTimestampUs() - startTs; SLoadRemoteDataInfo* pLoadInfo = &pExchangeInfo->loadInfo; pLoadInfo->totalElapsed += el; size_t totalSources = taosArrayGetSize(pExchangeInfo->pSources); qDebug("%s all %" PRIzu " sources are exhausted, total rows: %" PRIu64 " bytes:%" PRIu64 ", elapsed:%.2f ms", GET_TASKID(pTaskInfo), totalSources, pLoadInfo->totalRows, pLoadInfo->totalSize, pLoadInfo->totalElapsed / 1000.0); doSetOperatorCompleted(pOperator); return NULL; } static SSDataBlock* concurrentlyLoadRemoteDataImpl(SOperatorInfo* pOperator, SExchangeInfo* pExchangeInfo, SExecTaskInfo* pTaskInfo) { int32_t code = 0; int64_t startTs = taosGetTimestampUs(); size_t totalSources = taosArrayGetSize(pExchangeInfo->pSources); while (1) { int32_t completed = 0; for (int32_t i = 0; i < totalSources; ++i) { SSourceDataInfo* pDataInfo = taosArrayGet(pExchangeInfo->pSourceDataInfo, i); if (pDataInfo->status == EX_SOURCE_DATA_EXHAUSTED) { completed += 1; continue; } if (pDataInfo->status != EX_SOURCE_DATA_READY) { continue; } if (pDataInfo->code != TSDB_CODE_SUCCESS) { code = pDataInfo->code; goto _error; } SRetrieveTableRsp* pRsp = pDataInfo->pRsp; SDownstreamSourceNode* pSource = taosArrayGet(pExchangeInfo->pSources, i); SSDataBlock* pRes = pExchangeInfo->pResult; SLoadRemoteDataInfo* pLoadInfo = &pExchangeInfo->loadInfo; if (pRsp->numOfRows == 0) { qDebug("%s vgId:%d, taskId:0x%" PRIx64 " execId:%d index:%d completed, rowsOfSource:%" PRIu64 ", totalRows:%" PRIu64 ", completed:%d try next %d/%" PRIzu, GET_TASKID(pTaskInfo), pSource->addr.nodeId, pSource->taskId, pSource->execId, i, pDataInfo->totalRows, pExchangeInfo->loadInfo.totalRows, completed + 1, i + 1, totalSources); pDataInfo->status = EX_SOURCE_DATA_EXHAUSTED; completed += 1; taosMemoryFreeClear(pDataInfo->pRsp); continue; } SRetrieveTableRsp* pTableRsp = pDataInfo->pRsp; code = extractDataBlockFromFetchRsp(pExchangeInfo->pResult, pLoadInfo, pTableRsp->numOfRows, pTableRsp->data, pTableRsp->compLen, pTableRsp->numOfCols, startTs, &pDataInfo->totalRows, NULL); if (code != 0) { taosMemoryFreeClear(pDataInfo->pRsp); goto _error; } if (pRsp->completed == 1) { qDebug("%s fetch msg rsp from vgId:%d, taskId:0x%" PRIx64 " execId:%d" " index:%d completed, numOfRows:%d, rowsOfSource:%" PRIu64 ", totalRows:%" PRIu64 ", totalBytes:%" PRIu64 ", completed:%d try next %d/%" PRIzu, GET_TASKID(pTaskInfo), pSource->addr.nodeId, pSource->taskId, pSource->execId, i, pRes->info.rows, pDataInfo->totalRows, pLoadInfo->totalRows, pLoadInfo->totalSize, completed + 1, i + 1, totalSources); completed += 1; pDataInfo->status = EX_SOURCE_DATA_EXHAUSTED; } else { qDebug("%s fetch msg rsp from vgId:%d, taskId:0x%" PRIx64 " execId:%d numOfRows:%d, totalRows:%" PRIu64 ", totalBytes:%" PRIu64, GET_TASKID(pTaskInfo), pSource->addr.nodeId, pSource->taskId, pSource->execId, pRes->info.rows, pLoadInfo->totalRows, pLoadInfo->totalSize); } taosMemoryFreeClear(pDataInfo->pRsp); if (pDataInfo->status != EX_SOURCE_DATA_EXHAUSTED) { pDataInfo->status = EX_SOURCE_DATA_NOT_READY; code = doSendFetchDataRequest(pExchangeInfo, pTaskInfo, i); if (code != TSDB_CODE_SUCCESS) { taosMemoryFreeClear(pDataInfo->pRsp); goto _error; } } return pExchangeInfo->pResult; } if (completed == totalSources) { return setAllSourcesCompleted(pOperator, startTs); } sched_yield(); } _error: pTaskInfo->code = code; return NULL; } static int32_t prepareConcurrentlyLoad(SOperatorInfo* pOperator) { SExchangeInfo* pExchangeInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; size_t totalSources = taosArrayGetSize(pExchangeInfo->pSources); int64_t startTs = taosGetTimestampUs(); // Asynchronously send all fetch requests to all sources. for (int32_t i = 0; i < totalSources; ++i) { int32_t code = doSendFetchDataRequest(pExchangeInfo, pTaskInfo, i); if (code != TSDB_CODE_SUCCESS) { pTaskInfo->code = code; return code; } } int64_t endTs = taosGetTimestampUs(); qDebug("%s send all fetch requests to %" PRIzu " sources completed, elapsed:%.2fms", GET_TASKID(pTaskInfo), totalSources, (endTs - startTs) / 1000.0); pOperator->status = OP_RES_TO_RETURN; pOperator->cost.openCost = taosGetTimestampUs() - startTs; tsem_wait(&pExchangeInfo->ready); return TSDB_CODE_SUCCESS; } static SSDataBlock* seqLoadRemoteData(SOperatorInfo* pOperator) { SExchangeInfo* pExchangeInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; size_t totalSources = taosArrayGetSize(pExchangeInfo->pSources); int64_t startTs = taosGetTimestampUs(); while (1) { if (pExchangeInfo->current >= totalSources) { return setAllSourcesCompleted(pOperator, startTs); } doSendFetchDataRequest(pExchangeInfo, pTaskInfo, pExchangeInfo->current); tsem_wait(&pExchangeInfo->ready); SSourceDataInfo* pDataInfo = taosArrayGet(pExchangeInfo->pSourceDataInfo, pExchangeInfo->current); SDownstreamSourceNode* pSource = taosArrayGet(pExchangeInfo->pSources, pExchangeInfo->current); if (pDataInfo->code != TSDB_CODE_SUCCESS) { qError("%s vgId:%d, taskID:0x%" PRIx64 " execId:%d error happens, code:%s", GET_TASKID(pTaskInfo), pSource->addr.nodeId, pSource->taskId, pSource->execId, tstrerror(pDataInfo->code)); pOperator->pTaskInfo->code = pDataInfo->code; return NULL; } SRetrieveTableRsp* pRsp = pDataInfo->pRsp; SLoadRemoteDataInfo* pLoadInfo = &pExchangeInfo->loadInfo; if (pRsp->numOfRows == 0) { qDebug("%s vgId:%d, taskID:0x%" PRIx64 " execId:%d %d of total completed, rowsOfSource:%" PRIu64 ", totalRows:%" PRIu64 " try next", GET_TASKID(pTaskInfo), pSource->addr.nodeId, pSource->taskId, pSource->execId, pExchangeInfo->current + 1, pDataInfo->totalRows, pLoadInfo->totalRows); pDataInfo->status = EX_SOURCE_DATA_EXHAUSTED; pExchangeInfo->current += 1; taosMemoryFreeClear(pDataInfo->pRsp); continue; } SSDataBlock* pRes = pExchangeInfo->pResult; SRetrieveTableRsp* pTableRsp = pDataInfo->pRsp; int32_t code = extractDataBlockFromFetchRsp(pExchangeInfo->pResult, pLoadInfo, pTableRsp->numOfRows, pTableRsp->data, pTableRsp->compLen, pTableRsp->numOfCols, startTs, &pDataInfo->totalRows, NULL); if (pRsp->completed == 1) { qDebug("%s fetch msg rsp from vgId:%d, taskId:0x%" PRIx64 " execId:%d numOfRows:%d, rowsOfSource:%" PRIu64 ", totalRows:%" PRIu64 ", totalBytes:%" PRIu64 " try next %d/%" PRIzu, GET_TASKID(pTaskInfo), pSource->addr.nodeId, pSource->taskId, pSource->execId, pRes->info.rows, pDataInfo->totalRows, pLoadInfo->totalRows, pLoadInfo->totalSize, pExchangeInfo->current + 1, totalSources); pDataInfo->status = EX_SOURCE_DATA_EXHAUSTED; pExchangeInfo->current += 1; } else { qDebug("%s fetch msg rsp from vgId:%d, taskId:0x%" PRIx64 " execId:%d numOfRows:%d, totalRows:%" PRIu64 ", totalBytes:%" PRIu64, GET_TASKID(pTaskInfo), pSource->addr.nodeId, pSource->taskId, pSource->execId, pRes->info.rows, pLoadInfo->totalRows, pLoadInfo->totalSize); } pOperator->resultInfo.totalRows += pRes->info.rows; taosMemoryFreeClear(pDataInfo->pRsp); return pExchangeInfo->pResult; } } static int32_t prepareLoadRemoteData(SOperatorInfo* pOperator) { if (OPTR_IS_OPENED(pOperator)) { return TSDB_CODE_SUCCESS; } int64_t st = taosGetTimestampUs(); SExchangeInfo* pExchangeInfo = pOperator->info; if (!pExchangeInfo->seqLoadData) { int32_t code = prepareConcurrentlyLoad(pOperator); if (code != TSDB_CODE_SUCCESS) { return code; } } OPTR_SET_OPENED(pOperator); pOperator->cost.openCost = (taosGetTimestampUs() - st) / 1000.0; return TSDB_CODE_SUCCESS; } static SSDataBlock* doLoadRemoteDataImpl(SOperatorInfo* pOperator) { SExchangeInfo* pExchangeInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; pTaskInfo->code = pOperator->fpSet._openFn(pOperator); if (pTaskInfo->code != TSDB_CODE_SUCCESS) { return NULL; } size_t totalSources = taosArrayGetSize(pExchangeInfo->pSources); SLoadRemoteDataInfo* pLoadInfo = &pExchangeInfo->loadInfo; if (pOperator->status == OP_EXEC_DONE) { qDebug("%s all %" PRIzu " source(s) are exhausted, total rows:%" PRIu64 " bytes:%" PRIu64 ", elapsed:%.2f ms", GET_TASKID(pTaskInfo), totalSources, pLoadInfo->totalRows, pLoadInfo->totalSize, pLoadInfo->totalElapsed / 1000.0); return NULL; } if (pExchangeInfo->seqLoadData) { return seqLoadRemoteData(pOperator); } else { return concurrentlyLoadRemoteDataImpl(pOperator, pExchangeInfo, pTaskInfo); } } static SSDataBlock* doLoadRemoteData(SOperatorInfo* pOperator) { SExchangeInfo* pExchangeInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; if (pOperator->status == OP_EXEC_DONE) { return NULL; } while(1) { SSDataBlock* pBlock = doLoadRemoteDataImpl(pOperator); if (pBlock == NULL) { return NULL; } ASSERT(pBlock == pExchangeInfo->pResult); SLimitInfo* pLimitInfo = &pExchangeInfo->limitInfo; if (hasLimitOffsetInfo(pLimitInfo)) { int32_t status = handleLimitOffset(pOperator, pLimitInfo, pExchangeInfo->pResult, false); if (status == PROJECT_RETRIEVE_CONTINUE) { continue; } else if (status == PROJECT_RETRIEVE_DONE) { size_t rows = pExchangeInfo->pResult->info.rows; pExchangeInfo->limitInfo.numOfOutputRows += rows; if (rows == 0) { doSetOperatorCompleted(pOperator); return NULL; } else { return pExchangeInfo->pResult; } } } else { return pExchangeInfo->pResult; } } } static int32_t initDataSource(int32_t numOfSources, SExchangeInfo* pInfo, const char* id) { pInfo->pSourceDataInfo = taosArrayInit(numOfSources, sizeof(SSourceDataInfo)); if (pInfo->pSourceDataInfo == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } for (int32_t i = 0; i < numOfSources; ++i) { SSourceDataInfo dataInfo = {0}; dataInfo.status = EX_SOURCE_DATA_NOT_READY; dataInfo.taskId = id; dataInfo.index = i; SSourceDataInfo* pDs = taosArrayPush(pInfo->pSourceDataInfo, &dataInfo); if (pDs == NULL) { taosArrayDestroy(pInfo->pSourceDataInfo); return TSDB_CODE_OUT_OF_MEMORY; } } return TSDB_CODE_SUCCESS; } static int32_t initExchangeOperator(SExchangePhysiNode* pExNode, SExchangeInfo* pInfo, const char* id) { size_t numOfSources = LIST_LENGTH(pExNode->pSrcEndPoints); if (numOfSources == 0) { qError("%s invalid number: %d of sources in exchange operator", id, (int32_t)numOfSources); return TSDB_CODE_INVALID_PARA; } pInfo->pSources = taosArrayInit(numOfSources, sizeof(SDownstreamSourceNode)); if (pInfo->pSources == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } for (int32_t i = 0; i < numOfSources; ++i) { SDownstreamSourceNode* pNode = (SDownstreamSourceNode*)nodesListGetNode((SNodeList*)pExNode->pSrcEndPoints, i); taosArrayPush(pInfo->pSources, pNode); } initLimitInfo(pExNode->node.pLimit, pExNode->node.pSlimit, &pInfo->limitInfo); pInfo->self = taosAddRef(exchangeObjRefPool, pInfo); return initDataSource(numOfSources, pInfo, id); } SOperatorInfo* createExchangeOperatorInfo(void* pTransporter, SExchangePhysiNode* pExNode, SExecTaskInfo* pTaskInfo) { SExchangeInfo* pInfo = taosMemoryCalloc(1, sizeof(SExchangeInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } int32_t code = initExchangeOperator(pExNode, pInfo, GET_TASKID(pTaskInfo)); if (code != TSDB_CODE_SUCCESS) { goto _error; } tsem_init(&pInfo->ready, 0, 0); pInfo->seqLoadData = false; pInfo->pTransporter = pTransporter; pInfo->pResult = createResDataBlock(pExNode->node.pOutputDataBlockDesc); pOperator->name = "ExchangeOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_EXCHANGE; pOperator->blocking = false; pOperator->status = OP_NOT_OPENED; pOperator->info = pInfo; pOperator->exprSupp.numOfExprs = taosArrayGetSize(pInfo->pResult->pDataBlock); pOperator->pTaskInfo = pTaskInfo; pOperator->fpSet = createOperatorFpSet(prepareLoadRemoteData, doLoadRemoteData, NULL, NULL, destroyExchangeOperatorInfo, NULL, NULL, NULL); return pOperator; _error: if (pInfo != NULL) { doDestroyExchangeOperatorInfo(pInfo); } taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } static int32_t doInitAggInfoSup(SAggSupporter* pAggSup, SqlFunctionCtx* pCtx, int32_t numOfOutput, size_t keyBufSize, const char* pKey); static void destroySortedMergeOperatorInfo(void* param, int32_t numOfOutput) { SSortedMergeOperatorInfo* pInfo = (SSortedMergeOperatorInfo*)param; taosArrayDestroy(pInfo->pSortInfo); taosArrayDestroy(pInfo->groupInfo); if (pInfo->pSortHandle != NULL) { tsortDestroySortHandle(pInfo->pSortHandle); } blockDataDestroy(pInfo->binfo.pRes); cleanupAggSup(&pInfo->aggSup); taosMemoryFreeClear(param); } static bool needToMerge(SSDataBlock* pBlock, SArray* groupInfo, char** buf, int32_t rowIndex) { size_t size = taosArrayGetSize(groupInfo); if (size == 0) { return true; } for (int32_t i = 0; i < size; ++i) { int32_t* index = taosArrayGet(groupInfo, i); SColumnInfoData* pColInfo = taosArrayGet(pBlock->pDataBlock, *index); bool isNull = colDataIsNull(pColInfo, rowIndex, pBlock->info.rows, NULL); if ((isNull && buf[i] != NULL) || (!isNull && buf[i] == NULL)) { return false; } char* pCell = colDataGetData(pColInfo, rowIndex); if (IS_VAR_DATA_TYPE(pColInfo->info.type)) { if (varDataLen(pCell) != varDataLen(buf[i])) { return false; } else { if (memcmp(varDataVal(pCell), varDataVal(buf[i]), varDataLen(pCell)) != 0) { return false; } } } else { if (memcmp(pCell, buf[i], pColInfo->info.bytes) != 0) { return false; } } } return 0; } static void doMergeResultImpl(SSortedMergeOperatorInfo* pInfo, SqlFunctionCtx* pCtx, int32_t numOfExpr, int32_t rowIndex) { for (int32_t j = 0; j < numOfExpr; ++j) { // TODO set row index // pCtx[j].startRow = rowIndex; } for (int32_t j = 0; j < numOfExpr; ++j) { int32_t functionId = pCtx[j].functionId; // pCtx[j].fpSet->addInput(&pCtx[j]); // if (functionId < 0) { // SUdfInfo* pUdfInfo = taosArrayGet(pInfo->udfInfo, -1 * functionId - 1); // doInvokeUdf(pUdfInfo, &pCtx[j], 0, TSDB_UDF_FUNC_MERGE); // } else { // assert(!TSDB_FUNC_IS_SCALAR(functionId)); // aAggs[functionId].mergeFunc(&pCtx[j]); // } } } static void doFinalizeResultImpl(SqlFunctionCtx* pCtx, int32_t numOfExpr) { for (int32_t j = 0; j < numOfExpr; ++j) { int32_t functionId = pCtx[j].functionId; // if (functionId == FUNC_TAG_DUMMY || functionId == FUNC_TS_DUMMY) { // continue; // } // if (functionId < 0) { // SUdfInfo* pUdfInfo = taosArrayGet(pInfo->udfInfo, -1 * functionId - 1); // doInvokeUdf(pUdfInfo, &pCtx[j], 0, TSDB_UDF_FUNC_FINALIZE); // } else { // pCtx[j].fpSet.finalize(&pCtx[j]); } } static bool saveCurrentTuple(char** rowColData, SArray* pColumnList, SSDataBlock* pBlock, int32_t rowIndex) { int32_t size = (int32_t)taosArrayGetSize(pColumnList); for (int32_t i = 0; i < size; ++i) { int32_t* index = taosArrayGet(pColumnList, i); SColumnInfoData* pColInfo = taosArrayGet(pBlock->pDataBlock, *index); char* data = colDataGetData(pColInfo, rowIndex); memcpy(rowColData[i], data, colDataGetLength(pColInfo, rowIndex)); } return true; } static void doMergeImpl(SOperatorInfo* pOperator, int32_t numOfExpr, SSDataBlock* pBlock) { SSortedMergeOperatorInfo* pInfo = pOperator->info; SqlFunctionCtx* pCtx = pOperator->exprSupp.pCtx; for (int32_t i = 0; i < pBlock->info.rows; ++i) { if (!pInfo->hasGroupVal) { ASSERT(i == 0); doMergeResultImpl(pInfo, pCtx, numOfExpr, i); pInfo->hasGroupVal = saveCurrentTuple(pInfo->groupVal, pInfo->groupInfo, pBlock, i); } else { if (needToMerge(pBlock, pInfo->groupInfo, pInfo->groupVal, i)) { doMergeResultImpl(pInfo, pCtx, numOfExpr, i); } else { doFinalizeResultImpl(pCtx, numOfExpr); int32_t numOfRows = getNumOfResult(pOperator->exprSupp.pCtx, pOperator->exprSupp.numOfExprs, NULL); // setTagValueForMultipleRows(pCtx, pOperator->exprSupp.numOfExprs, numOfRows); // TODO check for available buffer; // next group info data pInfo->binfo.pRes->info.rows += numOfRows; for (int32_t j = 0; j < numOfExpr; ++j) { if (pCtx[j].functionId < 0) { continue; } pCtx[j].fpSet.process(&pCtx[j]); } doMergeResultImpl(pInfo, pCtx, numOfExpr, i); pInfo->hasGroupVal = saveCurrentTuple(pInfo->groupVal, pInfo->groupInfo, pBlock, i); } } } } static SSDataBlock* doMerge(SOperatorInfo* pOperator) { SSortedMergeOperatorInfo* pInfo = pOperator->info; SSortHandle* pHandle = pInfo->pSortHandle; SSDataBlock* pDataBlock = createOneDataBlock(pInfo->binfo.pRes, false); blockDataEnsureCapacity(pDataBlock, pOperator->resultInfo.capacity); while (1) { blockDataCleanup(pDataBlock); while (1) { STupleHandle* pTupleHandle = tsortNextTuple(pHandle); if (pTupleHandle == NULL) { break; } // build datablock for merge for one group appendOneRowToDataBlock(pDataBlock, pTupleHandle); if (pDataBlock->info.rows >= pOperator->resultInfo.capacity) { break; } } if (pDataBlock->info.rows == 0) { break; } setInputDataBlock(pOperator, pOperator->exprSupp.pCtx, pDataBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); // updateOutputBuf(&pInfo->binfo, &pAggInfo->bufCapacity, pBlock->info.rows * pAggInfo->resultRowFactor, // pOperator->pRuntimeEnv, true); doMergeImpl(pOperator, pOperator->exprSupp.numOfExprs, pDataBlock); // flush to tuple store, and after all data have been handled, return to upstream node or sink node } doFinalizeResultImpl(pOperator->exprSupp.pCtx, pOperator->exprSupp.numOfExprs); int32_t numOfRows = getNumOfResult(pOperator->exprSupp.pCtx, pOperator->exprSupp.numOfExprs, NULL); // setTagValueForMultipleRows(pCtx, pOperator->exprSupp.numOfExprs, numOfRows); // TODO check for available buffer; // next group info data pInfo->binfo.pRes->info.rows += numOfRows; return (pInfo->binfo.pRes->info.rows > 0) ? pInfo->binfo.pRes : NULL; } SSDataBlock* getSortedMergeBlockData(SSortHandle* pHandle, SSDataBlock* pDataBlock, int32_t capacity, SArray* pColMatchInfo, SSortedMergeOperatorInfo* pInfo) { blockDataCleanup(pDataBlock); SSDataBlock* p = tsortGetSortedDataBlock(pHandle); if (p == NULL) { return NULL; } blockDataEnsureCapacity(p, capacity); while (1) { STupleHandle* pTupleHandle = tsortNextTuple(pHandle); if (pTupleHandle == NULL) { break; } appendOneRowToDataBlock(p, pTupleHandle); if (p->info.rows >= capacity) { break; } } if (p->info.rows > 0) { int32_t numOfCols = taosArrayGetSize(pColMatchInfo); for (int32_t i = 0; i < numOfCols; ++i) { SColMatchInfo* pmInfo = taosArrayGet(pColMatchInfo, i); ASSERT(pmInfo->matchType == COL_MATCH_FROM_SLOT_ID); SColumnInfoData* pSrc = taosArrayGet(p->pDataBlock, pmInfo->srcSlotId); SColumnInfoData* pDst = taosArrayGet(pDataBlock->pDataBlock, pmInfo->targetSlotId); colDataAssign(pDst, pSrc, p->info.rows, &pDataBlock->info); } pDataBlock->info.rows = p->info.rows; pDataBlock->info.capacity = p->info.rows; } blockDataDestroy(p); return (pDataBlock->info.rows > 0) ? pDataBlock : NULL; } static SSDataBlock* doSortedMerge(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SSortedMergeOperatorInfo* pInfo = pOperator->info; if (pOperator->status == OP_RES_TO_RETURN) { return getSortedMergeBlockData(pInfo->pSortHandle, pInfo->binfo.pRes, pOperator->resultInfo.capacity, NULL, pInfo); } int32_t numOfBufPage = pInfo->sortBufSize / pInfo->bufPageSize; pInfo->pSortHandle = tsortCreateSortHandle(pInfo->pSortInfo, SORT_MULTISOURCE_MERGE, pInfo->bufPageSize, numOfBufPage, pInfo->binfo.pRes, "GET_TASKID(pTaskInfo)"); tsortSetFetchRawDataFp(pInfo->pSortHandle, loadNextDataBlock, NULL, NULL); for (int32_t i = 0; i < pOperator->numOfDownstream; ++i) { SSortSource* ps = taosMemoryCalloc(1, sizeof(SSortSource)); ps->param = pOperator->pDownstream[i]; tsortAddSource(pInfo->pSortHandle, ps); } int32_t code = tsortOpen(pInfo->pSortHandle); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, terrno); } pOperator->status = OP_RES_TO_RETURN; return doMerge(pOperator); } static int32_t initGroupCol(SExprInfo* pExprInfo, int32_t numOfCols, SArray* pGroupInfo, SSortedMergeOperatorInfo* pInfo) { if (pGroupInfo == NULL || taosArrayGetSize(pGroupInfo) == 0) { return 0; } int32_t len = 0; SArray* plist = taosArrayInit(3, sizeof(SColumn)); pInfo->groupInfo = taosArrayInit(3, sizeof(int32_t)); if (plist == NULL || pInfo->groupInfo == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } size_t numOfGroupCol = taosArrayGetSize(pInfo->groupInfo); for (int32_t i = 0; i < numOfGroupCol; ++i) { SColumn* pCol = taosArrayGet(pGroupInfo, i); for (int32_t j = 0; j < numOfCols; ++j) { SExprInfo* pe = &pExprInfo[j]; if (pe->base.resSchema.slotId == pCol->colId) { taosArrayPush(plist, pCol); taosArrayPush(pInfo->groupInfo, &j); len += pCol->bytes; break; } } } ASSERT(taosArrayGetSize(pGroupInfo) == taosArrayGetSize(plist)); pInfo->groupVal = taosMemoryCalloc(1, (POINTER_BYTES * numOfGroupCol + len)); if (pInfo->groupVal == NULL) { taosArrayDestroy(plist); return TSDB_CODE_OUT_OF_MEMORY; } int32_t offset = 0; char* start = (char*)(pInfo->groupVal + (POINTER_BYTES * numOfGroupCol)); for (int32_t i = 0; i < numOfGroupCol; ++i) { pInfo->groupVal[i] = start + offset; SColumn* pCol = taosArrayGet(plist, i); offset += pCol->bytes; } taosArrayDestroy(plist); return TSDB_CODE_SUCCESS; } SOperatorInfo* createSortedMergeOperatorInfo(SOperatorInfo** downstream, int32_t numOfDownstream, SExprInfo* pExprInfo, int32_t num, SArray* pSortInfo, SArray* pGroupInfo, SExecTaskInfo* pTaskInfo) { SSortedMergeOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SSortedMergeOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } int32_t code = initExprSupp(&pOperator->exprSupp, pExprInfo, num); if (code != TSDB_CODE_SUCCESS) { goto _error; } initResultRowInfo(&pInfo->binfo.resultRowInfo); if (pOperator->exprSupp.pCtx == NULL || pInfo->binfo.pRes == NULL) { goto _error; } size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; code = doInitAggInfoSup(&pInfo->aggSup, pOperator->exprSupp.pCtx, num, keyBufSize, pTaskInfo->id.str); if (code != TSDB_CODE_SUCCESS) { goto _error; } setFunctionResultOutput(pOperator, &pInfo->binfo, &pInfo->aggSup, MAIN_SCAN, num); code = initGroupCol(pExprInfo, num, pGroupInfo, pInfo); if (code != TSDB_CODE_SUCCESS) { goto _error; } // pInfo->resultRowFactor = (int32_t)(getRowNumForMultioutput(pRuntimeEnv->pQueryAttr, // pRuntimeEnv->pQueryAttr->topBotQuery, false)); pInfo->sortBufSize = 1024 * 16; // 1MB pInfo->bufPageSize = 1024; pInfo->pSortInfo = pSortInfo; pOperator->resultInfo.capacity = blockDataGetCapacityInRow(pInfo->binfo.pRes, pInfo->bufPageSize); pOperator->name = "SortedMerge"; // pOperator->operatorType = OP_SortedMerge; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->info = pInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doSortedMerge, NULL, NULL, destroySortedMergeOperatorInfo, NULL, NULL, NULL); code = appendDownstream(pOperator, downstream, numOfDownstream); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: if (pInfo != NULL) { destroySortedMergeOperatorInfo(pInfo, num); } taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); terrno = TSDB_CODE_QRY_OUT_OF_MEMORY; return NULL; } int32_t getTableScanInfo(SOperatorInfo* pOperator, int32_t* order, int32_t* scanFlag) { // todo add more information about exchange operation int32_t type = pOperator->operatorType; if (type == QUERY_NODE_PHYSICAL_PLAN_EXCHANGE || type == QUERY_NODE_PHYSICAL_PLAN_SYSTABLE_SCAN || type == QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN || type == QUERY_NODE_PHYSICAL_PLAN_TAG_SCAN || type == QUERY_NODE_PHYSICAL_PLAN_BLOCK_DIST_SCAN || type == QUERY_NODE_PHYSICAL_PLAN_LAST_ROW_SCAN) { *order = TSDB_ORDER_ASC; *scanFlag = MAIN_SCAN; return TSDB_CODE_SUCCESS; } else if (type == QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN) { STableScanInfo* pTableScanInfo = pOperator->info; *order = pTableScanInfo->cond.order; *scanFlag = pTableScanInfo->scanFlag; return TSDB_CODE_SUCCESS; } else { if (pOperator->pDownstream == NULL || pOperator->pDownstream[0] == NULL) { return TSDB_CODE_INVALID_PARA; } else { return getTableScanInfo(pOperator->pDownstream[0], order, scanFlag); } } } #if 0 int32_t doPrepareScan(SOperatorInfo* pOperator, uint64_t uid, int64_t ts) { uint8_t type = pOperator->operatorType; pOperator->status = OP_OPENED; if (type == QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN) { SStreamScanInfo* pScanInfo = pOperator->info; pScanInfo->blockType = STREAM_INPUT__TABLE_SCAN; pScanInfo->pTableScanOp->status = OP_OPENED; STableScanInfo* pInfo = pScanInfo->pTableScanOp->info; ASSERT(pInfo->scanMode == TABLE_SCAN__TABLE_ORDER); if (uid == 0) { pInfo->noTable = 1; return TSDB_CODE_SUCCESS; } /*if (pSnapShotScanInfo->dataReader == NULL) {*/ /*pSnapShotScanInfo->dataReader = tsdbReaderOpen(pHandle->vnode, &pSTInfo->cond, tableList, 0, 0);*/ /*pSnapShotScanInfo->scanMode = TABLE_SCAN__TABLE_ORDER;*/ /*}*/ pInfo->noTable = 0; if (pInfo->lastStatus.uid != uid || pInfo->lastStatus.ts != ts) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; int32_t tableSz = taosArrayGetSize(pTaskInfo->tableqinfoList.pTableList); bool found = false; for (int32_t i = 0; i < tableSz; i++) { STableKeyInfo* pTableInfo = taosArrayGet(pTaskInfo->tableqinfoList.pTableList, i); if (pTableInfo->uid == uid) { found = true; pInfo->currentTable = i; } } // TODO after processing drop, found can be false ASSERT(found); tsdbSetTableId(pInfo->dataReader, uid); int64_t oldSkey = pInfo->cond.twindows.skey; pInfo->cond.twindows.skey = ts + 1; tsdbReaderReset(pInfo->dataReader, &pInfo->cond); pInfo->cond.twindows.skey = oldSkey; pInfo->scanTimes = 0; qDebug("tsdb reader offset seek to uid %" PRId64 " ts %" PRId64 ", table cur set to %d , all table num %d", uid, ts, pInfo->currentTable, tableSz); } return TSDB_CODE_SUCCESS; } else { if (pOperator->numOfDownstream == 1) { return doPrepareScan(pOperator->pDownstream[0], uid, ts); } else if (pOperator->numOfDownstream == 0) { qError("failed to find stream scan operator to set the input data block"); return TSDB_CODE_QRY_APP_ERROR; } else { qError("join not supported for stream block scan"); return TSDB_CODE_QRY_APP_ERROR; } } } int32_t doGetScanStatus(SOperatorInfo* pOperator, uint64_t* uid, int64_t* ts) { int32_t type = pOperator->operatorType; if (type == QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN) { SStreamScanInfo* pScanInfo = pOperator->info; STableScanInfo* pSnapShotScanInfo = pScanInfo->pTableScanOp->info; *uid = pSnapShotScanInfo->lastStatus.uid; *ts = pSnapShotScanInfo->lastStatus.ts; } else { if (pOperator->pDownstream[0] == NULL) { return TSDB_CODE_INVALID_PARA; } else { doGetScanStatus(pOperator->pDownstream[0], uid, ts); } } return TSDB_CODE_SUCCESS; } #endif // this is a blocking operator static int32_t doOpenAggregateOptr(SOperatorInfo* pOperator) { if (OPTR_IS_OPENED(pOperator)) { return TSDB_CODE_SUCCESS; } SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SAggOperatorInfo* pAggInfo = pOperator->info; SExprSupp* pSup = &pOperator->exprSupp; SOperatorInfo* downstream = pOperator->pDownstream[0]; int64_t st = taosGetTimestampUs(); int32_t order = TSDB_ORDER_ASC; int32_t scanFlag = MAIN_SCAN; while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { break; } int32_t code = getTableScanInfo(pOperator, &order, &scanFlag); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, code); } // there is an scalar expression that needs to be calculated before apply the group aggregation. if (pAggInfo->scalarExprSup.pExprInfo != NULL) { SExprSupp* pSup1 = &pAggInfo->scalarExprSup; code = projectApplyFunctions(pSup1->pExprInfo, pBlock, pBlock, pSup1->pCtx, pSup1->numOfExprs, NULL); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, code); } } // the pDataBlock are always the same one, no need to call this again setExecutionContext(pOperator, pOperator->exprSupp.numOfExprs, pBlock->info.groupId, pAggInfo); setInputDataBlock(pOperator, pSup->pCtx, pBlock, order, scanFlag, true); code = doAggregateImpl(pOperator, pSup->pCtx); if (code != 0) { longjmp(pTaskInfo->env, code); } } closeAllResultRows(&pAggInfo->binfo.resultRowInfo); initGroupedResultInfo(&pAggInfo->groupResInfo, pAggInfo->aggSup.pResultRowHashTable, 0); OPTR_SET_OPENED(pOperator); pOperator->cost.openCost = (taosGetTimestampUs() - st) / 1000.0; return TSDB_CODE_SUCCESS; } static SSDataBlock* getAggregateResult(SOperatorInfo* pOperator) { SAggOperatorInfo* pAggInfo = pOperator->info; SOptrBasicInfo* pInfo = &pAggInfo->binfo; if (pOperator->status == OP_EXEC_DONE) { return NULL; } SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; pTaskInfo->code = pOperator->fpSet._openFn(pOperator); if (pTaskInfo->code != TSDB_CODE_SUCCESS) { doSetOperatorCompleted(pOperator); return NULL; } blockDataEnsureCapacity(pInfo->pRes, pOperator->resultInfo.capacity); while (1) { doBuildResultDatablock(pOperator, pInfo, &pAggInfo->groupResInfo, pAggInfo->aggSup.pResultBuf); doFilter(pAggInfo->pCondition, pInfo->pRes); if (!hasDataInGroupInfo(&pAggInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); break; } if (pInfo->pRes->info.rows > 0) { break; } } size_t rows = blockDataGetNumOfRows(pInfo->pRes); pOperator->resultInfo.totalRows += rows; return (rows == 0) ? NULL : pInfo->pRes; } int32_t aggEncodeResultRow(SOperatorInfo* pOperator, char** result, int32_t* length) { if (result == NULL || length == NULL) { return TSDB_CODE_TSC_INVALID_INPUT; } SOptrBasicInfo* pInfo = (SOptrBasicInfo*)(pOperator->info); SAggSupporter* pSup = (SAggSupporter*)POINTER_SHIFT(pOperator->info, sizeof(SOptrBasicInfo)); int32_t size = taosHashGetSize(pSup->pResultRowHashTable); size_t keyLen = sizeof(uint64_t) * 2; // estimate the key length int32_t totalSize = sizeof(int32_t) + sizeof(int32_t) + size * (sizeof(int32_t) + keyLen + sizeof(int32_t) + pSup->resultRowSize); // no result if (getTotalBufSize(pSup->pResultBuf) == 0) { *result = NULL; *length = 0; return TSDB_CODE_SUCCESS; } *result = (char*)taosMemoryCalloc(1, totalSize); if (*result == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t offset = sizeof(int32_t); *(int32_t*)(*result + offset) = size; offset += sizeof(int32_t); // prepare memory SResultRowPosition* pos = &pInfo->resultRowInfo.cur; void* pPage = getBufPage(pSup->pResultBuf, pos->pageId); SResultRow* pRow = (SResultRow*)((char*)pPage + pos->offset); setBufPageDirty(pPage, true); releaseBufPage(pSup->pResultBuf, pPage); void* pIter = taosHashIterate(pSup->pResultRowHashTable, NULL); while (pIter) { void* key = taosHashGetKey(pIter, &keyLen); SResultRowPosition* p1 = (SResultRowPosition*)pIter; pPage = (SFilePage*)getBufPage(pSup->pResultBuf, p1->pageId); pRow = (SResultRow*)((char*)pPage + p1->offset); setBufPageDirty(pPage, true); releaseBufPage(pSup->pResultBuf, pPage); // recalculate the result size int32_t realTotalSize = offset + sizeof(int32_t) + keyLen + sizeof(int32_t) + pSup->resultRowSize; if (realTotalSize > totalSize) { char* tmp = (char*)taosMemoryRealloc(*result, realTotalSize); if (tmp == NULL) { taosMemoryFree(*result); *result = NULL; return TSDB_CODE_OUT_OF_MEMORY; } else { *result = tmp; } } // save key *(int32_t*)(*result + offset) = keyLen; offset += sizeof(int32_t); memcpy(*result + offset, key, keyLen); offset += keyLen; // save value *(int32_t*)(*result + offset) = pSup->resultRowSize; offset += sizeof(int32_t); memcpy(*result + offset, pRow, pSup->resultRowSize); offset += pSup->resultRowSize; pIter = taosHashIterate(pSup->pResultRowHashTable, pIter); } *(int32_t*)(*result) = offset; *length = offset; return TDB_CODE_SUCCESS; } int32_t aggDecodeResultRow(SOperatorInfo* pOperator, char* result) { if (result == NULL) { return TSDB_CODE_TSC_INVALID_INPUT; } SOptrBasicInfo* pInfo = (SOptrBasicInfo*)(pOperator->info); SAggSupporter* pSup = (SAggSupporter*)POINTER_SHIFT(pOperator->info, sizeof(SOptrBasicInfo)); // int32_t size = taosHashGetSize(pSup->pResultRowHashTable); int32_t length = *(int32_t*)(result); int32_t offset = sizeof(int32_t); int32_t count = *(int32_t*)(result + offset); offset += sizeof(int32_t); while (count-- > 0 && length > offset) { int32_t keyLen = *(int32_t*)(result + offset); offset += sizeof(int32_t); uint64_t tableGroupId = *(uint64_t*)(result + offset); SResultRow* resultRow = getNewResultRow(pSup->pResultBuf, tableGroupId, pSup->resultRowSize); if (!resultRow) { return TSDB_CODE_TSC_INVALID_INPUT; } // add a new result set for a new group SResultRowPosition pos = {.pageId = resultRow->pageId, .offset = resultRow->offset}; taosHashPut(pSup->pResultRowHashTable, result + offset, keyLen, &pos, sizeof(SResultRowPosition)); offset += keyLen; int32_t valueLen = *(int32_t*)(result + offset); if (valueLen != pSup->resultRowSize) { return TSDB_CODE_TSC_INVALID_INPUT; } offset += sizeof(int32_t); int32_t pageId = resultRow->pageId; int32_t pOffset = resultRow->offset; memcpy(resultRow, result + offset, valueLen); resultRow->pageId = pageId; resultRow->offset = pOffset; offset += valueLen; initResultRow(resultRow); pInfo->resultRowInfo.cur = (SResultRowPosition){.pageId = resultRow->pageId, .offset = resultRow->offset}; } if (offset != length) { return TSDB_CODE_TSC_INVALID_INPUT; } return TDB_CODE_SUCCESS; } int32_t handleLimitOffset(SOperatorInfo* pOperator, SLimitInfo* pLimitInfo, SSDataBlock* pBlock, bool holdDataInBuf) { if (pLimitInfo->remainGroupOffset > 0) { if (pLimitInfo->currentGroupId == 0) { // it is the first group pLimitInfo->currentGroupId = pBlock->info.groupId; blockDataCleanup(pBlock); return PROJECT_RETRIEVE_CONTINUE; } else if (pLimitInfo->currentGroupId != pBlock->info.groupId) { // now it is the data from a new group pLimitInfo->remainGroupOffset -= 1; // ignore data block in current group if (pLimitInfo->remainGroupOffset > 0) { blockDataCleanup(pBlock); return PROJECT_RETRIEVE_CONTINUE; } } // set current group id of the project operator pLimitInfo->currentGroupId = pBlock->info.groupId; } if (pLimitInfo->currentGroupId != 0 && pLimitInfo->currentGroupId != pBlock->info.groupId) { pLimitInfo->numOfOutputGroups += 1; if ((pLimitInfo->slimit.limit > 0) && (pLimitInfo->slimit.limit <= pLimitInfo->numOfOutputGroups)) { pOperator->status = OP_EXEC_DONE; blockDataCleanup(pBlock); return PROJECT_RETRIEVE_DONE; } // reset the value for a new group data pLimitInfo->numOfOutputRows = 0; pLimitInfo->remainOffset = pLimitInfo->limit.offset; } // here we reach the start position, according to the limit/offset requirements. // set current group id pLimitInfo->currentGroupId = pBlock->info.groupId; if (pLimitInfo->remainOffset >= pBlock->info.rows) { pLimitInfo->remainOffset -= pBlock->info.rows; blockDataCleanup(pBlock); return PROJECT_RETRIEVE_CONTINUE; } else if (pLimitInfo->remainOffset < pBlock->info.rows && pLimitInfo->remainOffset > 0) { blockDataTrimFirstNRows(pBlock, pLimitInfo->remainOffset); pLimitInfo->remainOffset = 0; } // check for the limitation in each group if (pLimitInfo->limit.limit >= 0 && pLimitInfo->numOfOutputRows + pBlock->info.rows >= pLimitInfo->limit.limit) { int32_t keepRows = (int32_t)(pLimitInfo->limit.limit - pLimitInfo->numOfOutputRows); blockDataKeepFirstNRows(pBlock, keepRows); if (pLimitInfo->slimit.limit > 0 && pLimitInfo->slimit.limit <= pLimitInfo->numOfOutputGroups) { pOperator->status = OP_EXEC_DONE; } return PROJECT_RETRIEVE_DONE; } // todo optimize performance // If there are slimit/soffset value exists, multi-round result can not be packed into one group, since the // they may not belong to the same group the limit/offset value is not valid in this case. if ((!holdDataInBuf) || (pBlock->info.rows >= pOperator->resultInfo.threshold) || pLimitInfo->slimit.offset != -1 || pLimitInfo->slimit.limit != -1) { return PROJECT_RETRIEVE_DONE; } else { // not full enough, continue to accumulate the output data in the buffer. return PROJECT_RETRIEVE_CONTINUE; } } static SSDataBlock* doProjectOperation(SOperatorInfo* pOperator) { SProjectOperatorInfo* pProjectInfo = pOperator->info; SOptrBasicInfo* pInfo = &pProjectInfo->binfo; SExprSupp* pSup = &pOperator->exprSupp; SSDataBlock* pRes = pInfo->pRes; blockDataCleanup(pRes); SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; if (pOperator->status == OP_EXEC_DONE) { if (pTaskInfo->execModel == OPTR_EXEC_MODEL_QUEUE) { pOperator->status = OP_OPENED; return NULL; } return NULL; } #if 0 if (pProjectInfo->existDataBlock) { // TODO refactor SSDataBlock* pBlock = pProjectInfo->existDataBlock; pProjectInfo->existDataBlock = NULL; // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pOperator, pInfo->pCtx, pBlock, TSDB_ORDER_ASC); blockDataEnsureCapacity(pInfo->pRes, pBlock->info.rows); projectApplyFunctions(pOperator->exprSupp.pExprInfo, pInfo->pRes, pBlock, pInfo->pCtx, pOperator->exprSupp.numOfExprs); if (pRes->info.rows >= pProjectInfo->binfo.capacity * 0.8) { copyTsColoum(pRes, pInfo->pCtx, pOperator->exprSupp.numOfExprs); resetResultRowEntryResult(pInfo->pCtx, pOperator->exprSupp.numOfExprs); return pRes; } } #endif int64_t st = 0; int32_t order = 0; int32_t scanFlag = 0; if (pOperator->cost.openCost == 0) { st = taosGetTimestampUs(); } SOperatorInfo* downstream = pOperator->pDownstream[0]; while (1) { // The downstream exec may change the value of the newgroup, so use a local variable instead. qDebug("projection call next"); SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { qDebug("projection get null"); /*if (pTaskInfo->execModel == OPTR_EXEC_MODEL_BATCH) {*/ doSetOperatorCompleted(pOperator); /*} else if (pTaskInfo->execModel == OPTR_EXEC_MODEL_QUEUE) {*/ /*pOperator->status = OP_RES_TO_RETURN;*/ /*}*/ break; } if (pBlock->info.type == STREAM_RETRIEVE) { // for stream interval return pBlock; } // the pDataBlock are always the same one, no need to call this again int32_t code = getTableScanInfo(pOperator->pDownstream[0], &order, &scanFlag); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, code); } setInputDataBlock(pOperator, pSup->pCtx, pBlock, order, scanFlag, false); blockDataEnsureCapacity(pInfo->pRes, pInfo->pRes->info.rows + pBlock->info.rows); code = projectApplyFunctions(pSup->pExprInfo, pInfo->pRes, pBlock, pSup->pCtx, pSup->numOfExprs, pProjectInfo->pPseudoColInfo); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, code); } int32_t status = handleLimitOffset(pOperator, &pProjectInfo->limitInfo, pInfo->pRes, true); // filter shall be applied after apply functions and limit/offset on the result doFilter(pProjectInfo->pFilterNode, pInfo->pRes); if (pTaskInfo->execModel == OPTR_EXEC_MODEL_STREAM) { break; } if (status == PROJECT_RETRIEVE_CONTINUE || pInfo->pRes->info.rows == 0) { continue; } else if (status == PROJECT_RETRIEVE_DONE) { break; } } size_t rows = pInfo->pRes->info.rows; pProjectInfo->limitInfo.numOfOutputRows += rows; pOperator->resultInfo.totalRows += rows; if (pOperator->cost.openCost == 0) { pOperator->cost.openCost = (taosGetTimestampUs() - st) / 1000.0; } return (rows > 0) ? pInfo->pRes : NULL; } static void doHandleRemainBlockForNewGroupImpl(SFillOperatorInfo* pInfo, SResultInfo* pResultInfo, SExecTaskInfo* pTaskInfo) { pInfo->totalInputRows = pInfo->existNewGroupBlock->info.rows; int64_t ekey = Q_STATUS_EQUAL(pTaskInfo->status, TASK_COMPLETED) ? pInfo->win.ekey : pInfo->existNewGroupBlock->info.window.ekey; taosResetFillInfo(pInfo->pFillInfo, getFillInfoStart(pInfo->pFillInfo)); taosFillSetStartInfo(pInfo->pFillInfo, pInfo->existNewGroupBlock->info.rows, ekey); taosFillSetInputDataBlock(pInfo->pFillInfo, pInfo->existNewGroupBlock); int32_t numOfResultRows = pResultInfo->capacity - pInfo->pRes->info.rows; taosFillResultDataBlock(pInfo->pFillInfo, pInfo->pRes, numOfResultRows); pInfo->curGroupId = pInfo->existNewGroupBlock->info.groupId; pInfo->existNewGroupBlock = NULL; } static void doHandleRemainBlockFromNewGroup(SFillOperatorInfo* pInfo, SResultInfo* pResultInfo, SExecTaskInfo* pTaskInfo) { if (taosFillHasMoreResults(pInfo->pFillInfo)) { int32_t numOfResultRows = pResultInfo->capacity - pInfo->pRes->info.rows; taosFillResultDataBlock(pInfo->pFillInfo, pInfo->pRes, numOfResultRows); if (pInfo->pRes->info.rows > pResultInfo->threshold) { return; } } // handle the cached new group data block if (pInfo->existNewGroupBlock) { doHandleRemainBlockForNewGroupImpl(pInfo, pResultInfo, pTaskInfo); } } static SSDataBlock* doFillImpl(SOperatorInfo* pOperator) { SFillOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SResultInfo* pResultInfo = &pOperator->resultInfo; SSDataBlock* pResBlock = pInfo->pRes; blockDataCleanup(pResBlock); doHandleRemainBlockFromNewGroup(pInfo, pResultInfo, pTaskInfo); if (pResBlock->info.rows > pResultInfo->threshold || pResBlock->info.rows > 0) { return pResBlock; } SOperatorInfo* pDownstream = pOperator->pDownstream[0]; while (1) { SSDataBlock* pBlock = pDownstream->fpSet.getNextFn(pDownstream); if (pBlock == NULL) { if (pInfo->totalInputRows == 0) { pOperator->status = OP_EXEC_DONE; return NULL; } taosFillSetStartInfo(pInfo->pFillInfo, 0, pInfo->win.ekey); } else { blockDataUpdateTsWindow(pBlock, pInfo->primaryTsCol); if (pInfo->curGroupId == 0 || pInfo->curGroupId == pBlock->info.groupId) { pInfo->curGroupId = pBlock->info.groupId; // the first data block pInfo->totalInputRows += pBlock->info.rows; taosFillSetStartInfo(pInfo->pFillInfo, pBlock->info.rows, pBlock->info.window.ekey); taosFillSetInputDataBlock(pInfo->pFillInfo, pBlock); } else if (pInfo->curGroupId != pBlock->info.groupId) { // the new group data block pInfo->existNewGroupBlock = pBlock; // Fill the previous group data block, before handle the data block of new group. // Close the fill operation for previous group data block taosFillSetStartInfo(pInfo->pFillInfo, 0, pInfo->win.ekey); } } blockDataEnsureCapacity(pResBlock, pOperator->resultInfo.capacity); int32_t numOfResultRows = pOperator->resultInfo.capacity - pResBlock->info.rows; taosFillResultDataBlock(pInfo->pFillInfo, pResBlock, numOfResultRows); // current group has no more result to return if (pResBlock->info.rows > 0) { // 1. The result in current group not reach the threshold of output result, continue // 2. If multiple group results existing in one SSDataBlock is not allowed, return immediately if (pResBlock->info.rows > pResultInfo->threshold || pBlock == NULL || pInfo->existNewGroupBlock != NULL) { return pResBlock; } doHandleRemainBlockFromNewGroup(pInfo, pResultInfo, pTaskInfo); if (pResBlock->info.rows >= pOperator->resultInfo.threshold || pBlock == NULL) { return pResBlock; } } else if (pInfo->existNewGroupBlock) { // try next group assert(pBlock != NULL); doHandleRemainBlockForNewGroupImpl(pInfo, pResultInfo, pTaskInfo); if (pResBlock->info.rows > pResultInfo->threshold) { return pResBlock; } } else { return NULL; } } } static SSDataBlock* doFill(SOperatorInfo* pOperator) { SFillOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; if (pOperator->status == OP_EXEC_DONE) { return NULL; } SSDataBlock* fillResult = NULL; while (true) { fillResult = doFillImpl(pOperator); if (fillResult != NULL) { doFilter(pInfo->pCondition, fillResult); } if (fillResult == NULL) { doSetOperatorCompleted(pOperator); break; } if (fillResult->info.rows > 0) { break; } } if (fillResult != NULL) { size_t rows = fillResult->info.rows; pOperator->resultInfo.totalRows += rows; } return fillResult; } static void destroyExprInfo(SExprInfo* pExpr, int32_t numOfExprs) { for (int32_t i = 0; i < numOfExprs; ++i) { SExprInfo* pExprInfo = &pExpr[i]; for(int32_t j = 0; j < pExprInfo->base.numOfParams; ++j) { if (pExprInfo->base.pParam[j].type == FUNC_PARAM_TYPE_COLUMN) { taosMemoryFreeClear(pExprInfo->base.pParam[j].pCol); } } taosMemoryFree(pExprInfo->base.pParam); taosMemoryFree(pExprInfo->pExpr); } } static void destroyOperatorInfo(SOperatorInfo* pOperator) { if (pOperator == NULL) { return; } if (pOperator->fpSet.closeFn != NULL) { pOperator->fpSet.closeFn(pOperator->info, pOperator->exprSupp.numOfExprs); } if (pOperator->pDownstream != NULL) { for (int32_t i = 0; i < pOperator->numOfDownstream; ++i) { destroyOperatorInfo(pOperator->pDownstream[i]); } taosMemoryFreeClear(pOperator->pDownstream); pOperator->numOfDownstream = 0; } cleanupExprSupp(&pOperator->exprSupp); taosMemoryFreeClear(pOperator); } int32_t getBufferPgSize(int32_t rowSize, uint32_t* defaultPgsz, uint32_t* defaultBufsz) { *defaultPgsz = 4096; while (*defaultPgsz < rowSize * 4) { *defaultPgsz <<= 1u; } // at least four pages need to be in buffer *defaultBufsz = 4096 * 256; if ((*defaultBufsz) <= (*defaultPgsz)) { (*defaultBufsz) = (*defaultPgsz) * 4; } return 0; } int32_t doInitAggInfoSup(SAggSupporter* pAggSup, SqlFunctionCtx* pCtx, int32_t numOfOutput, size_t keyBufSize, const char* pKey) { _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pAggSup->resultRowSize = getResultRowSize(pCtx, numOfOutput); pAggSup->keyBuf = taosMemoryCalloc(1, keyBufSize + POINTER_BYTES + sizeof(int64_t)); pAggSup->pResultRowHashTable = taosHashInit(10, hashFn, true, HASH_NO_LOCK); if (pAggSup->keyBuf == NULL || pAggSup->pResultRowHashTable == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } uint32_t defaultPgsz = 0; uint32_t defaultBufsz = 0; getBufferPgSize(pAggSup->resultRowSize, &defaultPgsz, &defaultBufsz); int32_t code = createDiskbasedBuf(&pAggSup->pResultBuf, defaultPgsz, defaultBufsz, pKey, TD_TMP_DIR_PATH); if (code != TSDB_CODE_SUCCESS) { return code; } return TSDB_CODE_SUCCESS; } void cleanupAggSup(SAggSupporter* pAggSup) { taosMemoryFreeClear(pAggSup->keyBuf); taosHashCleanup(pAggSup->pResultRowHashTable); destroyDiskbasedBuf(pAggSup->pResultBuf); } int32_t initAggInfo(SExprSupp* pSup, SAggSupporter* pAggSup, SExprInfo* pExprInfo, int32_t numOfCols, size_t keyBufSize, const char* pkey) { int32_t code = initExprSupp(pSup, pExprInfo, numOfCols); if (code != TSDB_CODE_SUCCESS) { return code; } doInitAggInfoSup(pAggSup, pSup->pCtx, numOfCols, keyBufSize, pkey); for (int32_t i = 0; i < numOfCols; ++i) { pSup->pCtx[i].pBuf = pAggSup->pResultBuf; } return TSDB_CODE_SUCCESS; } void initResultSizeInfo(SResultInfo * pResultInfo, int32_t numOfRows) { ASSERT(numOfRows != 0); pResultInfo->capacity = numOfRows; pResultInfo->threshold = numOfRows * 0.75; if (pResultInfo->threshold == 0) { pResultInfo->threshold = numOfRows; } } void initBasicInfo(SOptrBasicInfo* pInfo, SSDataBlock* pBlock) { pInfo->pRes = pBlock; initResultRowInfo(&pInfo->resultRowInfo); } static void* destroySqlFunctionCtx(SqlFunctionCtx* pCtx, int32_t numOfOutput) { if (pCtx == NULL) { return NULL; } for (int32_t i = 0; i < numOfOutput; ++i) { for (int32_t j = 0; j < pCtx[i].numOfParams; ++j) { taosVariantDestroy(&pCtx[i].param[j].param); } taosMemoryFreeClear(pCtx[i].subsidiaries.pCtx); taosMemoryFree(pCtx[i].input.pData); taosMemoryFree(pCtx[i].input.pColumnDataAgg); } taosMemoryFreeClear(pCtx); return NULL; } int32_t initExprSupp(SExprSupp* pSup, SExprInfo* pExprInfo, int32_t numOfExpr) { pSup->pExprInfo = pExprInfo; pSup->numOfExprs = numOfExpr; if (pSup->pExprInfo != NULL) { pSup->pCtx = createSqlFunctionCtx(pExprInfo, numOfExpr, &pSup->rowEntryInfoOffset); if (pSup->pCtx == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } } return TSDB_CODE_SUCCESS; } void cleanupExprSupp(SExprSupp* pSupp) { destroySqlFunctionCtx(pSupp->pCtx, pSupp->numOfExprs); if (pSupp->pExprInfo != NULL) { destroyExprInfo(pSupp->pExprInfo, pSupp->numOfExprs); } taosMemoryFreeClear(pSupp->pExprInfo); taosMemoryFree(pSupp->rowEntryInfoOffset); } SOperatorInfo* createAggregateOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResultBlock, SNode* pCondition, SExprInfo* pScalarExprInfo, int32_t numOfScalarExpr, SExecTaskInfo* pTaskInfo) { SAggOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } int32_t numOfRows = 1024; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(&pOperator->resultInfo, numOfRows); int32_t code = initAggInfo(&pOperator->exprSupp, &pInfo->aggSup, pExprInfo, numOfCols, keyBufSize, pTaskInfo->id.str); if (code != TSDB_CODE_SUCCESS) { goto _error; } initBasicInfo(&pInfo->binfo, pResultBlock); code = initExprSupp(&pInfo->scalarExprSup, pScalarExprInfo, numOfScalarExpr); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->groupId = INT32_MIN; pInfo->pCondition = pCondition; pOperator->name = "TableAggregate"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_HASH_AGG; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->info = pInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->fpSet = createOperatorFpSet(doOpenAggregateOptr, getAggregateResult, NULL, NULL, destroyAggOperatorInfo, aggEncodeResultRow, aggDecodeResultRow, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyAggOperatorInfo(pInfo, numOfCols); taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = TSDB_CODE_OUT_OF_MEMORY; return NULL; } void cleanupBasicInfo(SOptrBasicInfo* pInfo) { assert(pInfo != NULL); cleanupResultRowInfo(&pInfo->resultRowInfo); pInfo->pRes = blockDataDestroy(pInfo->pRes); } void destroyBasicOperatorInfo(void* param, int32_t numOfOutput) { SOptrBasicInfo* pInfo = (SOptrBasicInfo*)param; cleanupBasicInfo(pInfo); taosMemoryFreeClear(param); } static void freeItem(void* pItem) { void** p = pItem; if (*p != NULL) { taosMemoryFreeClear(*p); } } void destroyAggOperatorInfo(void* param, int32_t numOfOutput) { SAggOperatorInfo* pInfo = (SAggOperatorInfo*)param; cleanupBasicInfo(&pInfo->binfo); cleanupAggSup(&pInfo->aggSup); cleanupGroupResInfo(&pInfo->groupResInfo); taosMemoryFreeClear(param); } void destroySFillOperatorInfo(void* param, int32_t numOfOutput) { SFillOperatorInfo* pInfo = (SFillOperatorInfo*)param; pInfo->pFillInfo = taosDestroyFillInfo(pInfo->pFillInfo); pInfo->pRes = blockDataDestroy(pInfo->pRes); taosMemoryFreeClear(pInfo->p); taosMemoryFreeClear(param); } static void destroyProjectOperatorInfo(void* param, int32_t numOfOutput) { if (NULL == param) { return; } SProjectOperatorInfo* pInfo = (SProjectOperatorInfo*)param; cleanupBasicInfo(&pInfo->binfo); cleanupAggSup(&pInfo->aggSup); taosArrayDestroy(pInfo->pPseudoColInfo); taosMemoryFreeClear(param); } static void destroyIndefinitOperatorInfo(void* param, int32_t numOfOutput) { SIndefOperatorInfo* pInfo = (SIndefOperatorInfo*)param; cleanupBasicInfo(&pInfo->binfo); taosArrayDestroy(pInfo->pPseudoColInfo); cleanupAggSup(&pInfo->aggSup); cleanupExprSupp(&pInfo->scalarSup); taosMemoryFreeClear(param); } void destroyExchangeOperatorInfo(void* param, int32_t numOfOutput) { SExchangeInfo* pExInfo = (SExchangeInfo*)param; taosRemoveRef(exchangeObjRefPool, pExInfo->self); } void doDestroyExchangeOperatorInfo(void* param) { SExchangeInfo* pExInfo = (SExchangeInfo*)param; taosArrayDestroy(pExInfo->pSources); taosArrayDestroy(pExInfo->pSourceDataInfo); if (pExInfo->pResult != NULL) { pExInfo->pResult = blockDataDestroy(pExInfo->pResult); } tsem_destroy(&pExInfo->ready); taosMemoryFreeClear(param); } static SArray* setRowTsColumnOutputInfo(SqlFunctionCtx* pCtx, int32_t numOfCols) { SArray* pList = taosArrayInit(4, sizeof(int32_t)); for (int32_t i = 0; i < numOfCols; ++i) { if (fmIsPseudoColumnFunc(pCtx[i].functionId)) { taosArrayPush(pList, &i); } } return pList; } SOperatorInfo* createProjectOperatorInfo(SOperatorInfo* downstream, SProjectPhysiNode* pProjPhyNode, SExecTaskInfo* pTaskInfo) { SProjectOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SProjectOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } int32_t numOfCols = 0; SExprInfo* pExprInfo = createExprInfo(pProjPhyNode->pProjections, NULL, &numOfCols); SSDataBlock* pResBlock = createResDataBlock(pProjPhyNode->node.pOutputDataBlockDesc); initLimitInfo(pProjPhyNode->node.pLimit, pProjPhyNode->node.pSlimit, &pInfo->limitInfo); pInfo->binfo.pRes = pResBlock; pInfo->pFilterNode = pProjPhyNode->node.pConditions; int32_t numOfRows = 4096; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; // Make sure the size of SSDataBlock will never exceed the size of 2MB. int32_t TWOMB = 2 * 1024 * 1024; if (numOfRows * pResBlock->info.rowSize > TWOMB) { numOfRows = TWOMB / pResBlock->info.rowSize; } initResultSizeInfo(&pOperator->resultInfo, numOfRows); initAggInfo(&pOperator->exprSupp, &pInfo->aggSup, pExprInfo, numOfCols, keyBufSize, pTaskInfo->id.str); initBasicInfo(&pInfo->binfo, pResBlock); setFunctionResultOutput(pOperator, &pInfo->binfo, &pInfo->aggSup, MAIN_SCAN, numOfCols); pInfo->pPseudoColInfo = setRowTsColumnOutputInfo(pOperator->exprSupp.pCtx, numOfCols); pOperator->name = "ProjectOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_PROJECT; pOperator->blocking = false; pOperator->status = OP_NOT_OPENED; pOperator->info = pInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doProjectOperation, NULL, NULL, destroyProjectOperatorInfo, NULL, NULL, NULL); int32_t code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: pTaskInfo->code = TSDB_CODE_OUT_OF_MEMORY; return NULL; } static void doHandleDataBlock(SOperatorInfo* pOperator, SSDataBlock* pBlock, SOperatorInfo* downstream, SExecTaskInfo* pTaskInfo) { int32_t order = 0; int32_t scanFlag = 0; SIndefOperatorInfo* pIndefInfo = pOperator->info; SOptrBasicInfo* pInfo = &pIndefInfo->binfo; SExprSupp* pSup = &pOperator->exprSupp; // the pDataBlock are always the same one, no need to call this again int32_t code = getTableScanInfo(downstream, &order, &scanFlag); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, code); } // there is an scalar expression that needs to be calculated before apply the group aggregation. SExprSupp* pScalarSup = &pIndefInfo->scalarSup; if (pScalarSup->pExprInfo != NULL) { code = projectApplyFunctions(pScalarSup->pExprInfo, pBlock, pBlock, pScalarSup->pCtx, pScalarSup->numOfExprs, pIndefInfo->pPseudoColInfo); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, code); } } setInputDataBlock(pOperator, pSup->pCtx, pBlock, order, scanFlag, false); blockDataEnsureCapacity(pInfo->pRes, pInfo->pRes->info.rows + pBlock->info.rows); code = projectApplyFunctions(pSup->pExprInfo, pInfo->pRes, pBlock, pSup->pCtx, pSup->numOfExprs, pIndefInfo->pPseudoColInfo); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, code); } } static SSDataBlock* doApplyIndefinitFunction(SOperatorInfo* pOperator) { SIndefOperatorInfo* pIndefInfo = pOperator->info; SOptrBasicInfo* pInfo = &pIndefInfo->binfo; SExprSupp* pSup = &pOperator->exprSupp; SSDataBlock* pRes = pInfo->pRes; blockDataCleanup(pRes); SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; if (pOperator->status == OP_EXEC_DONE) { return NULL; } int64_t st = 0; if (pOperator->cost.openCost == 0) { st = taosGetTimestampUs(); } SOperatorInfo* downstream = pOperator->pDownstream[0]; while (1) { // here we need to handle the existsed group results if (pIndefInfo->pNextGroupRes != NULL) { // todo extract method for (int32_t k = 0; k < pSup->numOfExprs; ++k) { SqlFunctionCtx* pCtx = &pSup->pCtx[k]; SResultRowEntryInfo* pResInfo = GET_RES_INFO(pCtx); pResInfo->initialized = false; pCtx->pOutput = NULL; } doHandleDataBlock(pOperator, pIndefInfo->pNextGroupRes, downstream, pTaskInfo); pIndefInfo->pNextGroupRes = NULL; } if (pInfo->pRes->info.rows < pOperator->resultInfo.threshold) { while (1) { // The downstream exec may change the value of the newgroup, so use a local variable instead. SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { doSetOperatorCompleted(pOperator); break; } if (pIndefInfo->groupId == 0 && pBlock->info.groupId != 0) { pIndefInfo->groupId = pBlock->info.groupId; // this is the initial group result } else { if (pIndefInfo->groupId != pBlock->info.groupId) { // reset output buffer and computing status pIndefInfo->groupId = pBlock->info.groupId; pIndefInfo->pNextGroupRes = pBlock; break; } } doHandleDataBlock(pOperator, pBlock, downstream, pTaskInfo); if (pInfo->pRes->info.rows >= pOperator->resultInfo.threshold) { break; } } } doFilter(pIndefInfo->pCondition, pInfo->pRes); size_t rows = pInfo->pRes->info.rows; if (rows > 0 || pOperator->status == OP_EXEC_DONE) { break; } else { blockDataCleanup(pInfo->pRes); } } size_t rows = pInfo->pRes->info.rows; pOperator->resultInfo.totalRows += rows; if (pOperator->cost.openCost == 0) { pOperator->cost.openCost = (taosGetTimestampUs() - st) / 1000.0; } return (rows > 0) ? pInfo->pRes : NULL; } SOperatorInfo* createIndefinitOutputOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pNode, SExecTaskInfo* pTaskInfo) { SIndefOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SIndefOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } SExprSupp* pSup = &pOperator->exprSupp; SIndefRowsFuncPhysiNode* pPhyNode = (SIndefRowsFuncPhysiNode*)pNode; int32_t numOfExpr = 0; SExprInfo* pExprInfo = createExprInfo(pPhyNode->pFuncs, NULL, &numOfExpr); if (pPhyNode->pExprs != NULL) { int32_t num = 0; SExprInfo* pSExpr = createExprInfo(pPhyNode->pExprs, NULL, &num); int32_t code = initExprSupp(&pInfo->scalarSup, pSExpr, num); if (code != TSDB_CODE_SUCCESS) { goto _error; } } SSDataBlock* pResBlock = createResDataBlock(pPhyNode->node.pOutputDataBlockDesc); int32_t numOfRows = 4096; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; // Make sure the size of SSDataBlock will never exceed the size of 2MB. int32_t TWOMB = 2 * 1024 * 1024; if (numOfRows * pResBlock->info.rowSize > TWOMB) { numOfRows = TWOMB / pResBlock->info.rowSize; } initResultSizeInfo(&pOperator->resultInfo, numOfRows); initAggInfo(pSup, &pInfo->aggSup, pExprInfo, numOfExpr, keyBufSize, pTaskInfo->id.str); initBasicInfo(&pInfo->binfo, pResBlock); setFunctionResultOutput(pOperator, &pInfo->binfo, &pInfo->aggSup, MAIN_SCAN, numOfExpr); pInfo->binfo.pRes = pResBlock; pInfo->pCondition = pPhyNode->node.pConditions; pInfo->pPseudoColInfo = setRowTsColumnOutputInfo(pSup->pCtx, numOfExpr); pOperator->name = "IndefinitOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_INDEF_ROWS_FUNC; pOperator->blocking = false; pOperator->status = OP_NOT_OPENED; pOperator->info = pInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doApplyIndefinitFunction, NULL, NULL, destroyIndefinitOperatorInfo, NULL, NULL, NULL); int32_t code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: taosMemoryFree(pInfo); taosMemoryFree(pOperator); pTaskInfo->code = TSDB_CODE_OUT_OF_MEMORY; return NULL; } static int32_t initFillInfo(SFillOperatorInfo* pInfo, SExprInfo* pExpr, int32_t numOfCols, SNodeListNode* pValNode, STimeWindow win, int32_t capacity, const char* id, SInterval* pInterval, int32_t fillType) { SFillColInfo* pColInfo = createFillColInfo(pExpr, numOfCols, pValNode); STimeWindow w = getAlignQueryTimeWindow(pInterval, pInterval->precision, win.skey); w = getFirstQualifiedTimeWindow(win.skey, &w, pInterval, TSDB_ORDER_ASC); int32_t order = TSDB_ORDER_ASC; pInfo->pFillInfo = taosCreateFillInfo(order, w.skey, 0, capacity, numOfCols, pInterval, fillType, pColInfo, pInfo->primaryTsCol, id); pInfo->win = win; pInfo->p = taosMemoryCalloc(numOfCols, POINTER_BYTES); if (pInfo->pFillInfo == NULL || pInfo->p == NULL) { taosMemoryFree(pInfo->pFillInfo); taosMemoryFree(pInfo->p); return TSDB_CODE_OUT_OF_MEMORY; } else { return TSDB_CODE_SUCCESS; } } SOperatorInfo* createFillOperatorInfo(SOperatorInfo* downstream, SFillPhysiNode* pPhyFillNode, SExecTaskInfo* pTaskInfo) { SFillOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SFillOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } int32_t num = 0; SSDataBlock* pResBlock = createResDataBlock(pPhyFillNode->node.pOutputDataBlockDesc); SExprInfo* pExprInfo = createExprInfo(pPhyFillNode->pTargets, NULL, &num); SInterval* pInterval = QUERY_NODE_PHYSICAL_PLAN_MERGE_ALIGNED_INTERVAL == downstream->operatorType ? &((SMergeAlignedIntervalAggOperatorInfo*)downstream->info)->intervalAggOperatorInfo->interval : &((SIntervalAggOperatorInfo*)downstream->info)->interval; int32_t type = convertFillType(pPhyFillNode->mode); SResultInfo* pResultInfo = &pOperator->resultInfo; initResultSizeInfo(&pOperator->resultInfo, 4096); pInfo->primaryTsCol = ((SColumnNode*)pPhyFillNode->pWStartTs)->slotId; int32_t numOfOutputCols = 0; SArray* pColMatchColInfo = extractColMatchInfo(pPhyFillNode->pTargets, pPhyFillNode->node.pOutputDataBlockDesc, &numOfOutputCols, COL_MATCH_FROM_SLOT_ID); int32_t code = initFillInfo(pInfo, pExprInfo, num, (SNodeListNode*)pPhyFillNode->pValues, pPhyFillNode->timeRange, pResultInfo->capacity, pTaskInfo->id.str, pInterval, type); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->pRes = pResBlock; pInfo->pCondition = pPhyFillNode->node.pConditions; pInfo->pColMatchColInfo = pColMatchColInfo; pOperator->name = "FillOperator"; pOperator->blocking = false; pOperator->status = OP_NOT_OPENED; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_FILL; pOperator->exprSupp.pExprInfo = pExprInfo; pOperator->exprSupp.numOfExprs = num; pOperator->info = pInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doFill, NULL, NULL, destroySFillOperatorInfo, NULL, NULL, NULL); code = appendDownstream(pOperator, &downstream, 1); return pOperator; _error: taosMemoryFreeClear(pOperator); taosMemoryFreeClear(pInfo); return NULL; } static SExecTaskInfo* createExecTaskInfo(uint64_t queryId, uint64_t taskId, EOPTR_EXEC_MODEL model, char* dbFName) { SExecTaskInfo* pTaskInfo = taosMemoryCalloc(1, sizeof(SExecTaskInfo)); setTaskStatus(pTaskInfo, TASK_NOT_COMPLETED); pTaskInfo->schemaInfo.dbname = strdup(dbFName); pTaskInfo->cost.created = taosGetTimestampMs(); pTaskInfo->id.queryId = queryId; pTaskInfo->execModel = model; char* p = taosMemoryCalloc(1, 128); snprintf(p, 128, "TID:0x%" PRIx64 " QID:0x%" PRIx64, taskId, queryId); pTaskInfo->id.str = p; return pTaskInfo; } static STsdbReader* doCreateDataReader(STableScanPhysiNode* pTableScanNode, SReadHandle* pHandle, STableListInfo* pTableListInfo, const char* idstr); static SArray* extractColumnInfo(SNodeList* pNodeList); int32_t extractTableSchemaInfo(SReadHandle* pHandle, uint64_t uid, SExecTaskInfo* pTaskInfo) { SMetaReader mr = {0}; metaReaderInit(&mr, pHandle->meta, 0); int32_t code = metaGetTableEntryByUid(&mr, uid); if (code != TSDB_CODE_SUCCESS) { metaReaderClear(&mr); return terrno; } pTaskInfo->schemaInfo.tablename = strdup(mr.me.name); if (mr.me.type == TSDB_SUPER_TABLE) { pTaskInfo->schemaInfo.sw = tCloneSSchemaWrapper(&mr.me.stbEntry.schemaRow); pTaskInfo->schemaInfo.tversion = mr.me.stbEntry.schemaTag.version; } else if (mr.me.type == TSDB_CHILD_TABLE) { tDecoderClear(&mr.coder); tb_uid_t suid = mr.me.ctbEntry.suid; metaGetTableEntryByUid(&mr, suid); pTaskInfo->schemaInfo.sw = tCloneSSchemaWrapper(&mr.me.stbEntry.schemaRow); pTaskInfo->schemaInfo.tversion = mr.me.stbEntry.schemaTag.version; } else { pTaskInfo->schemaInfo.sw = tCloneSSchemaWrapper(&mr.me.ntbEntry.schemaRow); } metaReaderClear(&mr); return TSDB_CODE_SUCCESS; } static void cleanupTableSchemaInfo(SSchemaInfo* pSchemaInfo) { taosMemoryFreeClear(pSchemaInfo->dbname); if (pSchemaInfo->sw == NULL) { return; } taosMemoryFree(pSchemaInfo->tablename); taosMemoryFree(pSchemaInfo->sw->pSchema); taosMemoryFree(pSchemaInfo->sw); } static int32_t sortTableGroup(STableListInfo* pTableListInfo, int32_t groupNum) { taosArrayClear(pTableListInfo->pGroupList); SArray* sortSupport = taosArrayInit(groupNum, sizeof(uint64_t)); if (sortSupport == NULL) return TSDB_CODE_OUT_OF_MEMORY; for (int32_t i = 0; i < taosArrayGetSize(pTableListInfo->pTableList); i++) { STableKeyInfo* info = taosArrayGet(pTableListInfo->pTableList, i); uint64_t* groupId = taosHashGet(pTableListInfo->map, &info->uid, sizeof(uint64_t)); int32_t index = taosArraySearchIdx(sortSupport, groupId, compareUint64Val, TD_EQ); if (index == -1) { void* p = taosArraySearch(sortSupport, groupId, compareUint64Val, TD_GT); SArray* tGroup = taosArrayInit(8, sizeof(STableKeyInfo)); if (tGroup == NULL) { taosArrayDestroy(sortSupport); return TSDB_CODE_OUT_OF_MEMORY; } if (taosArrayPush(tGroup, info) == NULL) { qError("taos push info array error"); taosArrayDestroy(sortSupport); return TSDB_CODE_QRY_APP_ERROR; } if (p == NULL) { if (taosArrayPush(sortSupport, groupId) == NULL) { qError("taos push support array error"); taosArrayDestroy(sortSupport); return TSDB_CODE_QRY_APP_ERROR; } if (taosArrayPush(pTableListInfo->pGroupList, &tGroup) == NULL) { qError("taos push group array error"); taosArrayDestroy(sortSupport); return TSDB_CODE_QRY_APP_ERROR; } } else { int32_t pos = TARRAY_ELEM_IDX(sortSupport, p); if (taosArrayInsert(sortSupport, pos, groupId) == NULL) { qError("taos insert support array error"); taosArrayDestroy(sortSupport); return TSDB_CODE_QRY_APP_ERROR; } if (taosArrayInsert(pTableListInfo->pGroupList, pos, &tGroup) == NULL) { qError("taos insert group array error"); taosArrayDestroy(sortSupport); return TSDB_CODE_QRY_APP_ERROR; } } } else { SArray* tGroup = (SArray*)taosArrayGetP(pTableListInfo->pGroupList, index); if (taosArrayPush(tGroup, info) == NULL) { qError("taos push uid array error"); taosArrayDestroy(sortSupport); return TSDB_CODE_QRY_APP_ERROR; } } } taosArrayDestroy(sortSupport); return TDB_CODE_SUCCESS; } int32_t generateGroupIdMap(STableListInfo* pTableListInfo, SReadHandle* pHandle, SNodeList* group) { if (group == NULL) { return TDB_CODE_SUCCESS; } pTableListInfo->map = taosHashInit(32, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), false, HASH_NO_LOCK); if (pTableListInfo->map == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t keyLen = 0; void* keyBuf = NULL; SNode* node; FOREACH(node, group) { SExprNode* pExpr = (SExprNode*)node; keyLen += pExpr->resType.bytes; } int32_t nullFlagSize = sizeof(int8_t) * LIST_LENGTH(group); keyLen += nullFlagSize; keyBuf = taosMemoryCalloc(1, keyLen); if (keyBuf == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t groupNum = 0; for (int32_t i = 0; i < taosArrayGetSize(pTableListInfo->pTableList); i++) { STableKeyInfo* info = taosArrayGet(pTableListInfo->pTableList, i); SMetaReader mr = {0}; metaReaderInit(&mr, pHandle->meta, 0); metaGetTableEntryByUid(&mr, info->uid); SNodeList* groupNew = nodesCloneList(group); nodesRewriteExprsPostOrder(groupNew, doTranslateTagExpr, &mr); char* isNull = (char*)keyBuf; char* pStart = (char*)keyBuf + nullFlagSize; SNode* pNode; int32_t index = 0; FOREACH(pNode, groupNew) { SNode* pNew = NULL; int32_t code = scalarCalculateConstants(pNode, &pNew); if (TSDB_CODE_SUCCESS == code) { REPLACE_NODE(pNew); } else { taosMemoryFree(keyBuf); nodesDestroyList(groupNew); metaReaderClear(&mr); return code; } ASSERT(nodeType(pNew) == QUERY_NODE_VALUE); SValueNode* pValue = (SValueNode*)pNew; if (pValue->node.resType.type == TSDB_DATA_TYPE_NULL || pValue->isNull) { isNull[index++] = 1; continue; } else { isNull[index++] = 0; char* data = nodesGetValueFromNode(pValue); if (pValue->node.resType.type == TSDB_DATA_TYPE_JSON) { if (tTagIsJson(data)) { terrno = TSDB_CODE_QRY_JSON_IN_GROUP_ERROR; taosMemoryFree(keyBuf); nodesDestroyList(groupNew); metaReaderClear(&mr); return terrno; } int32_t len = getJsonValueLen(data); memcpy(pStart, data, len); pStart += len; } else if (IS_VAR_DATA_TYPE(pValue->node.resType.type)) { memcpy(pStart, data, varDataTLen(data)); pStart += varDataTLen(data); } else { memcpy(pStart, data, pValue->node.resType.bytes); pStart += pValue->node.resType.bytes; } } } int32_t len = (int32_t)(pStart - (char*)keyBuf); uint64_t groupId = calcGroupId(keyBuf, len); taosHashPut(pTableListInfo->map, &(info->uid), sizeof(uint64_t), &groupId, sizeof(uint64_t)); info->groupId = groupId; groupNum++; nodesDestroyList(groupNew); metaReaderClear(&mr); } taosMemoryFree(keyBuf); if (pTableListInfo->needSortTableByGroupId) { return sortTableGroup(pTableListInfo, groupNum); } return TDB_CODE_SUCCESS; } static int32_t initTableblockDistQueryCond(uint64_t uid, SQueryTableDataCond* pCond) { memset(pCond, 0, sizeof(SQueryTableDataCond)); pCond->order = TSDB_ORDER_ASC; pCond->numOfCols = 1; pCond->colList = taosMemoryCalloc(1, sizeof(SColumnInfo)); if (pCond->colList == NULL) { terrno = TSDB_CODE_QRY_OUT_OF_MEMORY; return terrno; } pCond->colList->colId = 1; pCond->colList->type = TSDB_DATA_TYPE_TIMESTAMP; pCond->colList->bytes = sizeof(TSKEY); pCond->twindows = (STimeWindow){.skey = INT64_MIN, .ekey = INT64_MAX}; pCond->suid = uid; pCond->type = BLOCK_LOAD_OFFSET_ORDER; pCond->startVersion = -1; pCond->endVersion = -1; return TSDB_CODE_SUCCESS; } SOperatorInfo* createOperatorTree(SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo, SReadHandle* pHandle, STableListInfo* pTableListInfo, SNode* pTagCond, SNode* pTagIndexCond, const char* pUser) { int32_t type = nodeType(pPhyNode); if (pPhyNode->pChildren == NULL || LIST_LENGTH(pPhyNode->pChildren) == 0) { if (QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN == type) { STableScanPhysiNode* pTableScanNode = (STableScanPhysiNode*)pPhyNode; int32_t code = createScanTableListInfo(&pTableScanNode->scan, pTableScanNode->pGroupTags, pTableScanNode->groupSort, pHandle, pTableListInfo, pTagCond, pTagIndexCond, GET_TASKID(pTaskInfo)); if (code) { pTaskInfo->code = code; return NULL; } code = extractTableSchemaInfo(pHandle, pTableScanNode->scan.uid, pTaskInfo); if (code) { pTaskInfo->code = terrno; return NULL; } SOperatorInfo* pOperator = createTableScanOperatorInfo(pTableScanNode, pHandle, pTaskInfo); STableScanInfo* pScanInfo = pOperator->info; pTaskInfo->cost.pRecoder = &pScanInfo->readRecorder; return pOperator; } else if (QUERY_NODE_PHYSICAL_PLAN_TABLE_MERGE_SCAN == type) { STableMergeScanPhysiNode* pTableScanNode = (STableMergeScanPhysiNode*)pPhyNode; int32_t code = createScanTableListInfo(&pTableScanNode->scan, pTableScanNode->pGroupTags, pTableScanNode->groupSort, pHandle, pTableListInfo, pTagCond, pTagIndexCond, GET_TASKID(pTaskInfo)); if (code) { pTaskInfo->code = code; return NULL; } code = extractTableSchemaInfo(pHandle, pTableScanNode->scan.uid, pTaskInfo); if (code) { pTaskInfo->code = terrno; return NULL; } SOperatorInfo* pOperator = createTableMergeScanOperatorInfo(pTableScanNode, pTableListInfo, pHandle, pTaskInfo); STableScanInfo* pScanInfo = pOperator->info; pTaskInfo->cost.pRecoder = &pScanInfo->readRecorder; return pOperator; } else if (QUERY_NODE_PHYSICAL_PLAN_EXCHANGE == type) { return createExchangeOperatorInfo(pHandle->pMsgCb->clientRpc, (SExchangePhysiNode*)pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN == type) { STableScanPhysiNode* pTableScanNode = (STableScanPhysiNode*)pPhyNode; STimeWindowAggSupp twSup = { .waterMark = pTableScanNode->watermark, .calTrigger = pTableScanNode->triggerType, .maxTs = INT64_MIN, }; if (pHandle->vnode) { int32_t code = createScanTableListInfo(&pTableScanNode->scan, pTableScanNode->pGroupTags, pTableScanNode->groupSort, pHandle, pTableListInfo, pTagCond, pTagIndexCond, GET_TASKID(pTaskInfo)); if (code) { pTaskInfo->code = code; return NULL; } } SOperatorInfo* pOperator = createStreamScanOperatorInfo(pHandle, pTableScanNode, pTagCond, pTaskInfo, &twSup); return pOperator; } else if (QUERY_NODE_PHYSICAL_PLAN_SYSTABLE_SCAN == type) { SSystemTableScanPhysiNode* pSysScanPhyNode = (SSystemTableScanPhysiNode*)pPhyNode; return createSysTableScanOperatorInfo(pHandle, pSysScanPhyNode, pUser, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_TAG_SCAN == type) { STagScanPhysiNode* pScanPhyNode = (STagScanPhysiNode*)pPhyNode; int32_t code = getTableList(pHandle->meta, pHandle->vnode, pScanPhyNode, pTagCond, pTagIndexCond, pTableListInfo); if (code != TSDB_CODE_SUCCESS) { pTaskInfo->code = terrno; return NULL; } return createTagScanOperatorInfo(pHandle, pScanPhyNode, pTableListInfo, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_BLOCK_DIST_SCAN == type) { SBlockDistScanPhysiNode* pBlockNode = (SBlockDistScanPhysiNode*)pPhyNode; pTableListInfo->pTableList = taosArrayInit(4, sizeof(STableKeyInfo)); if (pBlockNode->tableType == TSDB_SUPER_TABLE) { int32_t code = vnodeGetAllTableList(pHandle->vnode, pBlockNode->uid, pTableListInfo->pTableList); if (code != TSDB_CODE_SUCCESS) { pTaskInfo->code = terrno; return NULL; } } else { // Create one table group. STableKeyInfo info = {.uid = pBlockNode->uid, .groupId = 0}; taosArrayPush(pTableListInfo->pTableList, &info); } SQueryTableDataCond cond = {0}; int32_t code = initTableblockDistQueryCond(pBlockNode->suid, &cond); if (code != TSDB_CODE_SUCCESS) { return NULL; } STsdbReader* pReader = NULL; tsdbReaderOpen(pHandle->vnode, &cond, pTableListInfo->pTableList, &pReader, ""); cleanupQueryTableDataCond(&cond); return createDataBlockInfoScanOperator(pReader, pHandle, cond.suid, pBlockNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_LAST_ROW_SCAN == type) { SLastRowScanPhysiNode* pScanNode = (SLastRowScanPhysiNode*)pPhyNode; int32_t code = createScanTableListInfo(&pScanNode->scan, pScanNode->pGroupTags, true, pHandle, pTableListInfo, pTagCond, pTagIndexCond, GET_TASKID(pTaskInfo)); if (code != TSDB_CODE_SUCCESS) { pTaskInfo->code = code; return NULL; } code = extractTableSchemaInfo(pHandle, pScanNode->scan.uid, pTaskInfo); if (code != TSDB_CODE_SUCCESS) { pTaskInfo->code = code; return NULL; } return createLastrowScanOperator(pScanNode, pHandle, pTaskInfo); } else { ASSERT(0); } } int32_t num = 0; size_t size = LIST_LENGTH(pPhyNode->pChildren); SOperatorInfo** ops = taosMemoryCalloc(size, POINTER_BYTES); for (int32_t i = 0; i < size; ++i) { SPhysiNode* pChildNode = (SPhysiNode*)nodesListGetNode(pPhyNode->pChildren, i); ops[i] = createOperatorTree(pChildNode, pTaskInfo, pHandle, pTableListInfo, pTagCond, pTagIndexCond, pUser); if (ops[i] == NULL) { return NULL; } } SOperatorInfo* pOptr = NULL; if (QUERY_NODE_PHYSICAL_PLAN_PROJECT == type) { pOptr = createProjectOperatorInfo(ops[0], (SProjectPhysiNode*)pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_HASH_AGG == type) { SAggPhysiNode* pAggNode = (SAggPhysiNode*)pPhyNode; SExprInfo* pExprInfo = createExprInfo(pAggNode->pAggFuncs, pAggNode->pGroupKeys, &num); SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc); int32_t numOfScalarExpr = 0; SExprInfo* pScalarExprInfo = NULL; if (pAggNode->pExprs != NULL) { pScalarExprInfo = createExprInfo(pAggNode->pExprs, NULL, &numOfScalarExpr); } if (pAggNode->pGroupKeys != NULL) { SArray* pColList = extractColumnInfo(pAggNode->pGroupKeys); pOptr = createGroupOperatorInfo(ops[0], pExprInfo, num, pResBlock, pColList, pAggNode->node.pConditions, pScalarExprInfo, numOfScalarExpr, pTaskInfo); } else { pOptr = createAggregateOperatorInfo(ops[0], pExprInfo, num, pResBlock, pAggNode->node.pConditions, pScalarExprInfo, numOfScalarExpr, pTaskInfo); } } else if (QUERY_NODE_PHYSICAL_PLAN_HASH_INTERVAL == type || QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL == type) { SIntervalPhysiNode* pIntervalPhyNode = (SIntervalPhysiNode*)pPhyNode; SExprInfo* pExprInfo = createExprInfo(pIntervalPhyNode->window.pFuncs, NULL, &num); SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc); SInterval interval = {.interval = pIntervalPhyNode->interval, .sliding = pIntervalPhyNode->sliding, .intervalUnit = pIntervalPhyNode->intervalUnit, .slidingUnit = pIntervalPhyNode->slidingUnit, .offset = pIntervalPhyNode->offset, .precision = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->node.resType.precision}; STimeWindowAggSupp as = { .waterMark = pIntervalPhyNode->window.watermark, .calTrigger = pIntervalPhyNode->window.triggerType, .maxTs = INT64_MIN, }; ASSERT(as.calTrigger != STREAM_TRIGGER_MAX_DELAY); int32_t tsSlotId = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->slotId; bool isStream = (QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL == type); pOptr = createIntervalOperatorInfo(ops[0], pExprInfo, num, pResBlock, &interval, tsSlotId, &as, pIntervalPhyNode, pTaskInfo, isStream); } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_ALIGNED_INTERVAL == type) { SMergeAlignedIntervalPhysiNode* pIntervalPhyNode = (SMergeAlignedIntervalPhysiNode*)pPhyNode; SExprInfo* pExprInfo = createExprInfo(pIntervalPhyNode->window.pFuncs, NULL, &num); SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc); SInterval interval = {.interval = pIntervalPhyNode->interval, .sliding = pIntervalPhyNode->sliding, .intervalUnit = pIntervalPhyNode->intervalUnit, .slidingUnit = pIntervalPhyNode->slidingUnit, .offset = pIntervalPhyNode->offset, .precision = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->node.resType.precision}; int32_t tsSlotId = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->slotId; pOptr = createMergeAlignedIntervalOperatorInfo(ops[0], pExprInfo, num, pResBlock, &interval, tsSlotId, pPhyNode->pConditions, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_INTERVAL == type) { SMergeIntervalPhysiNode* pIntervalPhyNode = (SMergeIntervalPhysiNode*)pPhyNode; SExprInfo* pExprInfo = createExprInfo(pIntervalPhyNode->window.pFuncs, NULL, &num); SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc); SInterval interval = {.interval = pIntervalPhyNode->interval, .sliding = pIntervalPhyNode->sliding, .intervalUnit = pIntervalPhyNode->intervalUnit, .slidingUnit = pIntervalPhyNode->slidingUnit, .offset = pIntervalPhyNode->offset, .precision = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->node.resType.precision}; int32_t tsSlotId = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->slotId; pOptr = createMergeIntervalOperatorInfo(ops[0], pExprInfo, num, pResBlock, &interval, tsSlotId, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_SEMI_INTERVAL == type) { int32_t children = 0; pOptr = createStreamFinalIntervalOperatorInfo(ops[0], pPhyNode, pTaskInfo, children); } else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_INTERVAL == type) { int32_t children = pHandle->numOfVgroups; pOptr = createStreamFinalIntervalOperatorInfo(ops[0], pPhyNode, pTaskInfo, children); } else if (QUERY_NODE_PHYSICAL_PLAN_SORT == type) { pOptr = createSortOperatorInfo(ops[0], (SSortPhysiNode*)pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_GROUP_SORT == type) { pOptr = createGroupSortOperatorInfo(ops[0], (SGroupSortPhysiNode*)pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE == type) { SMergePhysiNode* pMergePhyNode = (SMergePhysiNode*)pPhyNode; pOptr = createMultiwayMergeOperatorInfo(ops, size, pMergePhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_SESSION == type) { SSessionWinodwPhysiNode* pSessionNode = (SSessionWinodwPhysiNode*)pPhyNode; STimeWindowAggSupp as = {.waterMark = pSessionNode->window.watermark, .calTrigger = pSessionNode->window.triggerType}; SExprInfo* pExprInfo = createExprInfo(pSessionNode->window.pFuncs, NULL, &num); SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc); int32_t tsSlotId = ((SColumnNode*)pSessionNode->window.pTspk)->slotId; pOptr = createSessionAggOperatorInfo(ops[0], pExprInfo, num, pResBlock, pSessionNode->gap, tsSlotId, &as, pPhyNode->pConditions, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_SESSION == type) { pOptr = createStreamSessionAggOperatorInfo(ops[0], pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_SEMI_SESSION == type) { int32_t children = 0; pOptr = createStreamFinalSessionAggOperatorInfo(ops[0], pPhyNode, pTaskInfo, children); } else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_SESSION == type) { int32_t children = 1; pOptr = createStreamFinalSessionAggOperatorInfo(ops[0], pPhyNode, pTaskInfo, children); } else if (QUERY_NODE_PHYSICAL_PLAN_PARTITION == type) { pOptr = createPartitionOperatorInfo(ops[0], (SPartitionPhysiNode*)pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_STATE == type) { SStateWinodwPhysiNode* pStateNode = (SStateWinodwPhysiNode*)pPhyNode; STimeWindowAggSupp as = {.waterMark = pStateNode->window.watermark, .calTrigger = pStateNode->window.triggerType}; SExprInfo* pExprInfo = createExprInfo(pStateNode->window.pFuncs, NULL, &num); SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc); int32_t tsSlotId = ((SColumnNode*)pStateNode->window.pTspk)->slotId; SColumnNode* pColNode = (SColumnNode*)((STargetNode*)pStateNode->pStateKey)->pExpr; SColumn col = extractColumnFromColumnNode(pColNode); pOptr = createStatewindowOperatorInfo(ops[0], pExprInfo, num, pResBlock, &as, tsSlotId, &col, pPhyNode->pConditions, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_STATE == type) { pOptr = createStreamStateAggOperatorInfo(ops[0], pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_JOIN == type) { pOptr = createMergeJoinOperatorInfo(ops, size, (SJoinPhysiNode*)pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_FILL == type) { pOptr = createFillOperatorInfo(ops[0], (SFillPhysiNode*)pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_INDEF_ROWS_FUNC == type) { pOptr = createIndefinitOutputOperatorInfo(ops[0], pPhyNode, pTaskInfo); } else if (QUERY_NODE_PHYSICAL_PLAN_INTERP_FUNC == type) { pOptr = createTimeSliceOperatorInfo(ops[0], pPhyNode, pTaskInfo); } else { ASSERT(0); } taosMemoryFree(ops); return pOptr; } SArray* extractColumnInfo(SNodeList* pNodeList) { size_t numOfCols = LIST_LENGTH(pNodeList); SArray* pList = taosArrayInit(numOfCols, sizeof(SColumn)); if (pList == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } for (int32_t i = 0; i < numOfCols; ++i) { STargetNode* pNode = (STargetNode*)nodesListGetNode(pNodeList, i); if (nodeType(pNode->pExpr) == QUERY_NODE_COLUMN) { SColumnNode* pColNode = (SColumnNode*)pNode->pExpr; SColumn c = extractColumnFromColumnNode(pColNode); taosArrayPush(pList, &c); } else if (nodeType(pNode->pExpr) == QUERY_NODE_VALUE) { SValueNode* pValNode = (SValueNode*)pNode->pExpr; SColumn c = {0}; c.slotId = pNode->slotId; c.colId = pNode->slotId; c.type = pValNode->node.type; c.bytes = pValNode->node.resType.bytes; c.scale = pValNode->node.resType.scale; c.precision = pValNode->node.resType.precision; taosArrayPush(pList, &c); } } return pList; } #if 0 STsdbReader* doCreateDataReader(STableScanPhysiNode* pTableScanNode, SReadHandle* pHandle, STableListInfo* pTableListInfo, const char* idstr) { int32_t code = getTableList(pHandle->meta, pHandle->vnode, &pTableScanNode->scan, pTableListInfo); if (code != TSDB_CODE_SUCCESS) { goto _error; } if (taosArrayGetSize(pTableListInfo->pTableList) == 0) { code = 0; qDebug("no table qualified for query, %s", idstr); goto _error; } SQueryTableDataCond cond = {0}; code = initQueryTableDataCond(&cond, pTableScanNode); if (code != TSDB_CODE_SUCCESS) { goto _error; } STsdbReader* pReader; code = tsdbReaderOpen(pHandle->vnode, &cond, pTableListInfo->pTableList, &pReader, idstr); if (code != TSDB_CODE_SUCCESS) { goto _error; } cleanupQueryTableDataCond(&cond); return pReader; _error: terrno = code; return NULL; } #endif static int32_t extractTbscanInStreamOpTree(SOperatorInfo* pOperator, STableScanInfo** ppInfo) { if (pOperator->operatorType != QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN) { if (pOperator->numOfDownstream == 0) { qError("failed to find stream scan operator"); return TSDB_CODE_QRY_APP_ERROR; } if (pOperator->numOfDownstream > 1) { qError("join not supported for stream block scan"); return TSDB_CODE_QRY_APP_ERROR; } return extractTbscanInStreamOpTree(pOperator->pDownstream[0], ppInfo); } else { SStreamScanInfo* pInfo = pOperator->info; ASSERT(pInfo->pTableScanOp->operatorType == QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN); *ppInfo = pInfo->pTableScanOp->info; return 0; } } int32_t extractTableScanNode(SPhysiNode* pNode, STableScanPhysiNode** ppNode) { if (pNode->pChildren == NULL || LIST_LENGTH(pNode->pChildren) == 0) { if (QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN == pNode->type) { *ppNode = (STableScanPhysiNode*)pNode; return 0; } else { ASSERT(0); terrno = TSDB_CODE_QRY_APP_ERROR; return -1; } } else { if (LIST_LENGTH(pNode->pChildren) != 1) { ASSERT(0); terrno = TSDB_CODE_QRY_APP_ERROR; return -1; } SPhysiNode* pChildNode = (SPhysiNode*)nodesListGetNode(pNode->pChildren, 0); return extractTableScanNode(pChildNode, ppNode); } return -1; } #if 0 int32_t rebuildReader(SOperatorInfo* pOperator, SSubplan* plan, SReadHandle* pHandle, int64_t uid, int64_t ts) { STableScanInfo* pTableScanInfo = NULL; if (extractTbscanInStreamOpTree(pOperator, &pTableScanInfo) < 0) { return -1; } STableScanPhysiNode* pNode = NULL; if (extractTableScanNode(plan->pNode, &pNode) < 0) { ASSERT(0); } tsdbReaderClose(pTableScanInfo->dataReader); STableListInfo info = {0}; pTableScanInfo->dataReader = doCreateDataReader(pNode, pHandle, &info, NULL); if (pTableScanInfo->dataReader == NULL) { ASSERT(0); qError("failed to create data reader"); return TSDB_CODE_QRY_APP_ERROR; } // TODO: set uid and ts to data reader return 0; } #endif int32_t encodeOperator(SOperatorInfo* ops, char** result, int32_t* length, int32_t* nOptrWithVal) { int32_t code = TDB_CODE_SUCCESS; char* pCurrent = NULL; int32_t currLength = 0; if (ops->fpSet.encodeResultRow) { if (result == NULL || length == NULL || nOptrWithVal == NULL) { return TSDB_CODE_TSC_INVALID_INPUT; } code = ops->fpSet.encodeResultRow(ops, &pCurrent, &currLength); if (code != TDB_CODE_SUCCESS) { if (*result != NULL) { taosMemoryFree(*result); *result = NULL; } return code; } else if (currLength == 0) { ASSERT(!pCurrent); goto _downstream; } ++(*nOptrWithVal); ASSERT(currLength >= 0); if (*result == NULL) { *result = (char*)taosMemoryCalloc(1, currLength + sizeof(int32_t)); if (*result == NULL) { taosMemoryFree(pCurrent); return TSDB_CODE_OUT_OF_MEMORY; } memcpy(*result + sizeof(int32_t), pCurrent, currLength); *(int32_t*)(*result) = currLength + sizeof(int32_t); } else { int32_t sizePre = *(int32_t*)(*result); char* tmp = (char*)taosMemoryRealloc(*result, sizePre + currLength); if (tmp == NULL) { taosMemoryFree(pCurrent); taosMemoryFree(*result); *result = NULL; return TSDB_CODE_OUT_OF_MEMORY; } *result = tmp; memcpy(*result + sizePre, pCurrent, currLength); *(int32_t*)(*result) += currLength; } taosMemoryFree(pCurrent); *length = *(int32_t*)(*result); } _downstream: for (int32_t i = 0; i < ops->numOfDownstream; ++i) { code = encodeOperator(ops->pDownstream[i], result, length, nOptrWithVal); if (code != TDB_CODE_SUCCESS) { return code; } } return TDB_CODE_SUCCESS; } int32_t decodeOperator(SOperatorInfo* ops, const char* result, int32_t length) { int32_t code = TDB_CODE_SUCCESS; if (ops->fpSet.decodeResultRow) { if (result == NULL) { return TSDB_CODE_TSC_INVALID_INPUT; } ASSERT(length == *(int32_t*)result); const char* data = result + sizeof(int32_t); code = ops->fpSet.decodeResultRow(ops, (char*)data); if (code != TDB_CODE_SUCCESS) { return code; } int32_t totalLength = *(int32_t*)result; int32_t dataLength = *(int32_t*)data; if (totalLength == dataLength + sizeof(int32_t)) { // the last data result = NULL; length = 0; } else { result += dataLength; *(int32_t*)(result) = totalLength - dataLength; length = totalLength - dataLength; } } for (int32_t i = 0; i < ops->numOfDownstream; ++i) { code = decodeOperator(ops->pDownstream[i], result, length); if (code != TDB_CODE_SUCCESS) { return code; } } return TDB_CODE_SUCCESS; } int32_t createDataSinkParam(SDataSinkNode* pNode, void** pParam, qTaskInfo_t* pTaskInfo, SReadHandle* readHandle) { SExecTaskInfo* pTask = *(SExecTaskInfo**)pTaskInfo; switch (pNode->type) { case QUERY_NODE_PHYSICAL_PLAN_QUERY_INSERT: { SInserterParam* pInserterParam = taosMemoryCalloc(1, sizeof(SInserterParam)); if (NULL == pInserterParam) { return TSDB_CODE_OUT_OF_MEMORY; } pInserterParam->readHandle = readHandle; *pParam = pInserterParam; break; } case QUERY_NODE_PHYSICAL_PLAN_DELETE: { SDeleterParam* pDeleterParam = taosMemoryCalloc(1, sizeof(SDeleterParam)); if (NULL == pDeleterParam) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t tbNum = taosArrayGetSize(pTask->tableqinfoList.pTableList); pDeleterParam->suid = pTask->tableqinfoList.suid; pDeleterParam->pUidList = taosArrayInit(tbNum, sizeof(uint64_t)); if (NULL == pDeleterParam->pUidList) { taosMemoryFree(pDeleterParam); return TSDB_CODE_OUT_OF_MEMORY; } for (int32_t i = 0; i < tbNum; ++i) { STableKeyInfo* pTable = taosArrayGet(pTask->tableqinfoList.pTableList, i); taosArrayPush(pDeleterParam->pUidList, &pTable->uid); } *pParam = pDeleterParam; break; } default: break; } return TSDB_CODE_SUCCESS; } int32_t createExecTaskInfoImpl(SSubplan* pPlan, SExecTaskInfo** pTaskInfo, SReadHandle* pHandle, uint64_t taskId, const char* sql, EOPTR_EXEC_MODEL model) { uint64_t queryId = pPlan->id.queryId; int32_t code = TSDB_CODE_SUCCESS; *pTaskInfo = createExecTaskInfo(queryId, taskId, model, pPlan->dbFName); if (*pTaskInfo == NULL) { code = TSDB_CODE_QRY_OUT_OF_MEMORY; goto _complete; } (*pTaskInfo)->sql = sql; (*pTaskInfo)->pSubplan = pPlan; (*pTaskInfo)->pRoot = createOperatorTree(pPlan->pNode, *pTaskInfo, pHandle, &(*pTaskInfo)->tableqinfoList, pPlan->pTagCond, pPlan->pTagIndexCond, pPlan->user); if (NULL == (*pTaskInfo)->pRoot) { code = (*pTaskInfo)->code; goto _complete; } return code; _complete: taosMemoryFreeClear(*pTaskInfo); terrno = code; return code; } static void doDestroyTableList(STableListInfo* pTableqinfoList) { taosArrayDestroy(pTableqinfoList->pTableList); taosHashCleanup(pTableqinfoList->map); if (pTableqinfoList->needSortTableByGroupId) { for (int32_t i = 0; i < taosArrayGetSize(pTableqinfoList->pGroupList); i++) { SArray* tmp = taosArrayGetP(pTableqinfoList->pGroupList, i); if (tmp == pTableqinfoList->pTableList) { continue; } taosArrayDestroy(tmp); } } taosArrayDestroy(pTableqinfoList->pGroupList); pTableqinfoList->pTableList = NULL; pTableqinfoList->map = NULL; } void doDestroyTask(SExecTaskInfo* pTaskInfo) { qDebug("%s execTask is freed", GET_TASKID(pTaskInfo)); doDestroyTableList(&pTaskInfo->tableqinfoList); destroyOperatorInfo(pTaskInfo->pRoot); cleanupTableSchemaInfo(&pTaskInfo->schemaInfo); nodesDestroyNode((SNode*)pTaskInfo->pSubplan); taosMemoryFreeClear(pTaskInfo->sql); taosMemoryFreeClear(pTaskInfo->id.str); taosMemoryFreeClear(pTaskInfo); } static void doSetTagValueToResultBuf(char* output, const char* val, int16_t type, int16_t bytes) { if (val == NULL) { setNull(output, type, bytes); return; } if (IS_VAR_DATA_TYPE(type)) { // Binary data overflows for sort of unknown reasons. Let trim the overflow data if (varDataTLen(val) > bytes) { int32_t maxLen = bytes - VARSTR_HEADER_SIZE; int32_t len = (varDataLen(val) > maxLen) ? maxLen : varDataLen(val); memcpy(varDataVal(output), varDataVal(val), len); varDataSetLen(output, len); } else { varDataCopy(output, val); } } else { memcpy(output, val, bytes); } } static int64_t getQuerySupportBufSize(size_t numOfTables) { size_t s1 = sizeof(STableQueryInfo); // size_t s3 = sizeof(STableCheckInfo); buffer consumption in tsdb return (int64_t)(s1 * 1.5 * numOfTables); } int32_t checkForQueryBuf(size_t numOfTables) { int64_t t = getQuerySupportBufSize(numOfTables); if (tsQueryBufferSizeBytes < 0) { return TSDB_CODE_SUCCESS; } else if (tsQueryBufferSizeBytes > 0) { while (1) { int64_t s = tsQueryBufferSizeBytes; int64_t remain = s - t; if (remain >= 0) { if (atomic_val_compare_exchange_64(&tsQueryBufferSizeBytes, s, remain) == s) { return TSDB_CODE_SUCCESS; } } else { return TSDB_CODE_QRY_NOT_ENOUGH_BUFFER; } } } // disable query processing if the value of tsQueryBufferSize is zero. return TSDB_CODE_QRY_NOT_ENOUGH_BUFFER; } void releaseQueryBuf(size_t numOfTables) { if (tsQueryBufferSizeBytes < 0) { return; } int64_t t = getQuerySupportBufSize(numOfTables); // restore value is not enough buffer available atomic_add_fetch_64(&tsQueryBufferSizeBytes, t); } int32_t getOperatorExplainExecInfo(SOperatorInfo* operatorInfo, SExplainExecInfo** pRes, int32_t* capacity, int32_t* resNum) { if (*resNum >= *capacity) { *capacity += 10; *pRes = taosMemoryRealloc(*pRes, (*capacity) * sizeof(SExplainExecInfo)); if (NULL == *pRes) { qError("malloc %d failed", (*capacity) * (int32_t)sizeof(SExplainExecInfo)); return TSDB_CODE_QRY_OUT_OF_MEMORY; } } SExplainExecInfo* pInfo = &(*pRes)[*resNum]; pInfo->numOfRows = operatorInfo->resultInfo.totalRows; pInfo->startupCost = operatorInfo->cost.openCost; pInfo->totalCost = operatorInfo->cost.totalCost; if (operatorInfo->fpSet.getExplainFn) { int32_t code = operatorInfo->fpSet.getExplainFn(operatorInfo, &pInfo->verboseInfo, &pInfo->verboseLen); if (code) { qError("%s operator getExplainFn failed, code:%s", GET_TASKID(operatorInfo->pTaskInfo), tstrerror(code)); return code; } } else { pInfo->verboseLen = 0; pInfo->verboseInfo = NULL; } ++(*resNum); int32_t code = 0; for (int32_t i = 0; i < operatorInfo->numOfDownstream; ++i) { code = getOperatorExplainExecInfo(operatorInfo->pDownstream[i], pRes, capacity, resNum); if (code) { taosMemoryFreeClear(*pRes); return TSDB_CODE_QRY_OUT_OF_MEMORY; } } return TSDB_CODE_SUCCESS; } int32_t initStreamAggSupporter(SStreamAggSupporter* pSup, const char* pKey, SqlFunctionCtx* pCtx, int32_t numOfOutput, int32_t size) { pSup->resultRowSize = getResultRowSize(pCtx, numOfOutput); pSup->keySize = sizeof(int64_t) + sizeof(TSKEY); pSup->pKeyBuf = taosMemoryCalloc(1, pSup->keySize); _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pSup->pResultRows = taosHashInit(1024, hashFn, false, HASH_NO_LOCK); if (pSup->pKeyBuf == NULL || pSup->pResultRows == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } pSup->valueSize = size; pSup->pScanWindow = taosArrayInit(4, sizeof(STimeWindow)); int32_t pageSize = 4096; while (pageSize < pSup->resultRowSize * 4) { pageSize <<= 1u; } // at least four pages need to be in buffer int32_t bufSize = 4096 * 256; if (bufSize <= pageSize) { bufSize = pageSize * 4; } int32_t code = createDiskbasedBuf(&pSup->pResultBuf, pageSize, bufSize, pKey, TD_TMP_DIR_PATH); for (int32_t i = 0; i < numOfOutput; ++i) { pCtx[i].pBuf = pSup->pResultBuf; } return code; }