/* * 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 "planInt.h" #include "catalog.h" #include "functionMgt.h" #include "systable.h" #include "tglobal.h" typedef struct SSlotIdInfo { int16_t slotId; bool set; } SSlotIdInfo; typedef struct SSlotIndex { int16_t dataBlockId; SArray* pSlotIdsInfo; // duplicate name slot } SSlotIndex; typedef struct SPhysiPlanContext { SPlanContext* pPlanCxt; int32_t errCode; int16_t nextDataBlockId; SArray* pLocationHelper; bool hasScan; bool hasSysScan; } SPhysiPlanContext; static int32_t getSlotKey(SNode* pNode, const char* pStmtName, char* pKey) { if (QUERY_NODE_COLUMN == nodeType(pNode)) { SColumnNode* pCol = (SColumnNode*)pNode; if (NULL != pStmtName) { if ('\0' != pStmtName[0]) { return sprintf(pKey, "%s.%s", pStmtName, pCol->node.aliasName); } else { return sprintf(pKey, "%s", pCol->node.aliasName); } } if ('\0' == pCol->tableAlias[0]) { return sprintf(pKey, "%s", pCol->colName); } return sprintf(pKey, "%s.%s", pCol->tableAlias, pCol->colName); } if (NULL != pStmtName && '\0' != pStmtName[0]) { return sprintf(pKey, "%s.%s", pStmtName, ((SExprNode*)pNode)->aliasName); } return sprintf(pKey, "%s", ((SExprNode*)pNode)->aliasName); } static SNode* createSlotDesc(SPhysiPlanContext* pCxt, const char* pName, const SNode* pNode, int16_t slotId, bool output, bool reserve) { SSlotDescNode* pSlot = (SSlotDescNode*)nodesMakeNode(QUERY_NODE_SLOT_DESC); if (NULL == pSlot) { return NULL; } snprintf(pSlot->name, sizeof(pSlot->name), "%s", pName); pSlot->slotId = slotId; pSlot->dataType = ((SExprNode*)pNode)->resType; pSlot->reserve = reserve; pSlot->output = output; return (SNode*)pSlot; } static int32_t createTarget(SNode* pNode, int16_t dataBlockId, int16_t slotId, SNode** pOutput) { STargetNode* pTarget = (STargetNode*)nodesMakeNode(QUERY_NODE_TARGET); if (NULL == pTarget) { return TSDB_CODE_OUT_OF_MEMORY; } pTarget->dataBlockId = dataBlockId; pTarget->slotId = slotId; pTarget->pExpr = pNode; *pOutput = (SNode*)pTarget; return TSDB_CODE_SUCCESS; } static int32_t putSlotToHashImpl(int16_t dataBlockId, int16_t slotId, const char* pName, int32_t len, SHashObj* pHash) { SSlotIndex* pIndex = taosHashGet(pHash, pName, len); if (NULL != pIndex) { SSlotIdInfo info = {.slotId = slotId, .set = false}; taosArrayPush(pIndex->pSlotIdsInfo, &info); return TSDB_CODE_SUCCESS; } SSlotIndex index = {.dataBlockId = dataBlockId, .pSlotIdsInfo = taosArrayInit(TARRAY_MIN_SIZE, sizeof(SSlotIdInfo))}; if (NULL == index.pSlotIdsInfo) { return TSDB_CODE_OUT_OF_MEMORY; } SSlotIdInfo info = {.slotId = slotId, .set = false}; taosArrayPush(index.pSlotIdsInfo, &info); return taosHashPut(pHash, pName, len, &index, sizeof(SSlotIndex)); } static int32_t putSlotToHash(const char* pName, int16_t dataBlockId, int16_t slotId, SNode* pNode, SHashObj* pHash) { return putSlotToHashImpl(dataBlockId, slotId, pName, strlen(pName), pHash); } static int32_t createDataBlockDescHash(SPhysiPlanContext* pCxt, int32_t capacity, int16_t dataBlockId, SHashObj** pDescHash) { SHashObj* pHash = taosHashInit(capacity, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), false, HASH_NO_LOCK); if (NULL == pHash) { return TSDB_CODE_OUT_OF_MEMORY; } if (NULL == taosArrayInsert(pCxt->pLocationHelper, dataBlockId, &pHash)) { taosHashCleanup(pHash); return TSDB_CODE_OUT_OF_MEMORY; } *pDescHash = pHash; return TSDB_CODE_SUCCESS; } static int32_t buildDataBlockSlots(SPhysiPlanContext* pCxt, SNodeList* pList, SDataBlockDescNode* pDataBlockDesc, SHashObj* pHash) { pDataBlockDesc->pSlots = nodesMakeList(); if (NULL == pDataBlockDesc->pSlots) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t code = TSDB_CODE_SUCCESS; int16_t slotId = 0; SNode* pNode = NULL; FOREACH(pNode, pList) { char name[TSDB_TABLE_NAME_LEN + TSDB_COL_NAME_LEN]; getSlotKey(pNode, NULL, name); code = nodesListStrictAppend(pDataBlockDesc->pSlots, createSlotDesc(pCxt, name, pNode, slotId, true, false)); if (TSDB_CODE_SUCCESS == code) { code = putSlotToHash(name, pDataBlockDesc->dataBlockId, slotId, pNode, pHash); } if (TSDB_CODE_SUCCESS == code) { pDataBlockDesc->totalRowSize += ((SExprNode*)pNode)->resType.bytes; pDataBlockDesc->outputRowSize += ((SExprNode*)pNode)->resType.bytes; ++slotId; } else { break; } } return code; } static int32_t createDataBlockDesc(SPhysiPlanContext* pCxt, SNodeList* pList, SDataBlockDescNode** pDataBlockDesc) { SDataBlockDescNode* pDesc = (SDataBlockDescNode*)nodesMakeNode(QUERY_NODE_DATABLOCK_DESC); if (NULL == pDesc) { return TSDB_CODE_OUT_OF_MEMORY; } pDesc->dataBlockId = pCxt->nextDataBlockId++; SHashObj* pHash = NULL; int32_t code = createDataBlockDescHash(pCxt, LIST_LENGTH(pList), pDesc->dataBlockId, &pHash); if (TSDB_CODE_SUCCESS == code) { code = buildDataBlockSlots(pCxt, pList, pDesc, pHash); } if (TSDB_CODE_SUCCESS == code) { *pDataBlockDesc = pDesc; } else { nodesDestroyNode((SNode*)pDesc); } return code; } static int16_t getUnsetSlotId(const SArray* pSlotIdsInfo) { int32_t size = taosArrayGetSize(pSlotIdsInfo); for (int32_t i = 0; i < size; ++i) { SSlotIdInfo* pInfo = taosArrayGet(pSlotIdsInfo, i); if (!pInfo->set) { pInfo->set = true; return pInfo->slotId; } } return ((SSlotIdInfo*)taosArrayGet(pSlotIdsInfo, 0))->slotId; } static int32_t addDataBlockSlotsImpl(SPhysiPlanContext* pCxt, SNodeList* pList, SDataBlockDescNode* pDataBlockDesc, const char* pStmtName, bool output, bool reserve) { if (NULL == pList) { return TSDB_CODE_SUCCESS; } int32_t code = TSDB_CODE_SUCCESS; SHashObj* pHash = taosArrayGetP(pCxt->pLocationHelper, pDataBlockDesc->dataBlockId); int16_t nextSlotId = LIST_LENGTH(pDataBlockDesc->pSlots), slotId = 0; SNode* pNode = NULL; FOREACH(pNode, pList) { SNode* pExpr = QUERY_NODE_ORDER_BY_EXPR == nodeType(pNode) ? ((SOrderByExprNode*)pNode)->pExpr : pNode; char name[TSDB_TABLE_NAME_LEN + TSDB_COL_NAME_LEN] = {0}; int32_t len = getSlotKey(pExpr, pStmtName, name); SSlotIndex* pIndex = taosHashGet(pHash, name, len); if (NULL == pIndex) { code = nodesListStrictAppend(pDataBlockDesc->pSlots, createSlotDesc(pCxt, name, pExpr, nextSlotId, output, reserve)); if (TSDB_CODE_SUCCESS == code) { code = putSlotToHashImpl(pDataBlockDesc->dataBlockId, nextSlotId, name, len, pHash); } pDataBlockDesc->totalRowSize += ((SExprNode*)pExpr)->resType.bytes; if (output) { pDataBlockDesc->outputRowSize += ((SExprNode*)pExpr)->resType.bytes; } slotId = nextSlotId; ++nextSlotId; } else { slotId = getUnsetSlotId(pIndex->pSlotIdsInfo); } if (TSDB_CODE_SUCCESS == code) { SNode* pTarget = NULL; code = createTarget(pNode, pDataBlockDesc->dataBlockId, slotId, &pTarget); if (TSDB_CODE_SUCCESS == code) { REPLACE_NODE(pTarget); } } if (TSDB_CODE_SUCCESS != code) { break; } } return code; } static int32_t addDataBlockSlots(SPhysiPlanContext* pCxt, SNodeList* pList, SDataBlockDescNode* pDataBlockDesc) { return addDataBlockSlotsImpl(pCxt, pList, pDataBlockDesc, NULL, false, false); } static int32_t addDataBlockSlot(SPhysiPlanContext* pCxt, SNode** pNode, SDataBlockDescNode* pDataBlockDesc) { if (NULL == pNode || NULL == *pNode) { return TSDB_CODE_SUCCESS; } SNodeList* pList = NULL; int32_t code = nodesListMakeAppend(&pList, *pNode); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pList, pDataBlockDesc); } if (TSDB_CODE_SUCCESS == code) { *pNode = nodesListGetNode(pList, 0); } nodesClearList(pList); return code; } static int32_t addDataBlockSlotsForProject(SPhysiPlanContext* pCxt, const char* pStmtName, SNodeList* pList, SDataBlockDescNode* pDataBlockDesc) { return addDataBlockSlotsImpl(pCxt, pList, pDataBlockDesc, pStmtName, false, false); } static int32_t pushdownDataBlockSlots(SPhysiPlanContext* pCxt, SNodeList* pList, SDataBlockDescNode* pDataBlockDesc) { return addDataBlockSlotsImpl(pCxt, pList, pDataBlockDesc, NULL, true, true); } typedef struct SSetSlotIdCxt { int32_t errCode; SHashObj* pLeftHash; SHashObj* pRightHash; } SSetSlotIdCxt; static void dumpSlots(const char* pName, SHashObj* pHash) { if (NULL == pHash) { return; } planDebug("%s", pName); void* pIt = taosHashIterate(pHash, NULL); while (NULL != pIt) { size_t len = 0; char* pKey = taosHashGetKey(pIt, &len); char name[TSDB_TABLE_NAME_LEN + TSDB_COL_NAME_LEN] = {0}; strncpy(name, pKey, len); planDebug("\tslot name = %s", name); pIt = taosHashIterate(pHash, pIt); } } static EDealRes doSetSlotId(SNode* pNode, void* pContext) { if (QUERY_NODE_COLUMN == nodeType(pNode) && 0 != strcmp(((SColumnNode*)pNode)->colName, "*")) { SSetSlotIdCxt* pCxt = (SSetSlotIdCxt*)pContext; char name[TSDB_TABLE_NAME_LEN + TSDB_COL_NAME_LEN]; int32_t len = getSlotKey(pNode, NULL, name); SSlotIndex* pIndex = taosHashGet(pCxt->pLeftHash, name, len); if (NULL == pIndex) { pIndex = taosHashGet(pCxt->pRightHash, name, len); } // pIndex is definitely not NULL, otherwise it is a bug if (NULL == pIndex) { planError("doSetSlotId failed, invalid slot name %s", name); dumpSlots("left datablock desc", pCxt->pLeftHash); dumpSlots("right datablock desc", pCxt->pRightHash); pCxt->errCode = TSDB_CODE_PLAN_INTERNAL_ERROR; return DEAL_RES_ERROR; } ((SColumnNode*)pNode)->dataBlockId = pIndex->dataBlockId; ((SColumnNode*)pNode)->slotId = ((SSlotIdInfo*)taosArrayGet(pIndex->pSlotIdsInfo, 0))->slotId; return DEAL_RES_IGNORE_CHILD; } return DEAL_RES_CONTINUE; } static int32_t setNodeSlotId(SPhysiPlanContext* pCxt, int16_t leftDataBlockId, int16_t rightDataBlockId, SNode* pNode, SNode** pOutput) { if (NULL == pNode) { return TSDB_CODE_SUCCESS; } SNode* pRes = nodesCloneNode(pNode); if (NULL == pRes) { return TSDB_CODE_OUT_OF_MEMORY; } SSetSlotIdCxt cxt = { .errCode = TSDB_CODE_SUCCESS, .pLeftHash = taosArrayGetP(pCxt->pLocationHelper, leftDataBlockId), .pRightHash = (rightDataBlockId < 0 ? NULL : taosArrayGetP(pCxt->pLocationHelper, rightDataBlockId))}; nodesWalkExpr(pRes, doSetSlotId, &cxt); if (TSDB_CODE_SUCCESS != cxt.errCode) { nodesDestroyNode(pRes); return cxt.errCode; } *pOutput = pRes; return TSDB_CODE_SUCCESS; } static int32_t setListSlotId(SPhysiPlanContext* pCxt, int16_t leftDataBlockId, int16_t rightDataBlockId, const SNodeList* pList, SNodeList** pOutput) { if (NULL == pList) { return TSDB_CODE_SUCCESS; } SNodeList* pRes = nodesCloneList(pList); if (NULL == pRes) { return TSDB_CODE_OUT_OF_MEMORY; } SSetSlotIdCxt cxt = { .errCode = TSDB_CODE_SUCCESS, .pLeftHash = taosArrayGetP(pCxt->pLocationHelper, leftDataBlockId), .pRightHash = (rightDataBlockId < 0 ? NULL : taosArrayGetP(pCxt->pLocationHelper, rightDataBlockId))}; nodesWalkExprs(pRes, doSetSlotId, &cxt); if (TSDB_CODE_SUCCESS != cxt.errCode) { nodesDestroyList(pRes); return cxt.errCode; } *pOutput = pRes; return TSDB_CODE_SUCCESS; } static SPhysiNode* makePhysiNode(SPhysiPlanContext* pCxt, SLogicNode* pLogicNode, ENodeType type) { SPhysiNode* pPhysiNode = (SPhysiNode*)nodesMakeNode(type); if (NULL == pPhysiNode) { return NULL; } TSWAP(pPhysiNode->pLimit, pLogicNode->pLimit); TSWAP(pPhysiNode->pSlimit, pLogicNode->pSlimit); int32_t code = createDataBlockDesc(pCxt, pLogicNode->pTargets, &pPhysiNode->pOutputDataBlockDesc); if (TSDB_CODE_SUCCESS != code) { nodesDestroyNode((SNode*)pPhysiNode); return NULL; } pPhysiNode->pOutputDataBlockDesc->precision = pLogicNode->precision; return pPhysiNode; } static int32_t setConditionsSlotId(SPhysiPlanContext* pCxt, const SLogicNode* pLogicNode, SPhysiNode* pPhysiNode) { if (NULL != pLogicNode->pConditions) { return setNodeSlotId(pCxt, pPhysiNode->pOutputDataBlockDesc->dataBlockId, -1, pLogicNode->pConditions, &pPhysiNode->pConditions); } return TSDB_CODE_SUCCESS; } static int32_t colIdCompare(const void* pLeft, const void* pRight) { SColumnNode* pLeftCol = *(SColumnNode**)pLeft; SColumnNode* pRightCol = *(SColumnNode**)pRight; return pLeftCol->colId > pRightCol->colId ? 1 : -1; } static int32_t sortScanCols(SNodeList* pScanCols) { SArray* pArray = taosArrayInit(LIST_LENGTH(pScanCols), POINTER_BYTES); if (NULL == pArray) { return TSDB_CODE_OUT_OF_MEMORY; } SNode* pCol = NULL; FOREACH(pCol, pScanCols) { taosArrayPush(pArray, &pCol); } taosArraySort(pArray, colIdCompare); int32_t index = 0; FOREACH(pCol, pScanCols) { REPLACE_NODE(taosArrayGetP(pArray, index++)); } taosArrayDestroy(pArray); return TSDB_CODE_SUCCESS; } static int32_t createScanCols(SPhysiPlanContext* pCxt, SScanPhysiNode* pScanPhysiNode, SNodeList* pScanCols) { if (NULL == pScanCols) { return TSDB_CODE_SUCCESS; } pScanPhysiNode->pScanCols = nodesCloneList(pScanCols); if (NULL == pScanPhysiNode->pScanCols) { return TSDB_CODE_OUT_OF_MEMORY; } return sortScanCols(pScanPhysiNode->pScanCols); } static int32_t createScanPhysiNodeFinalize(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SScanPhysiNode* pScanPhysiNode, SPhysiNode** pPhyNode) { int32_t code = createScanCols(pCxt, pScanPhysiNode, pScanLogicNode->pScanCols); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pScanPhysiNode->pScanCols, pScanPhysiNode->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code && NULL != pScanLogicNode->pScanPseudoCols) { pScanPhysiNode->pScanPseudoCols = nodesCloneList(pScanLogicNode->pScanPseudoCols); if (NULL == pScanPhysiNode->pScanPseudoCols) { code = TSDB_CODE_OUT_OF_MEMORY; } } if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pScanPhysiNode->pScanPseudoCols, pScanPhysiNode->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pScanLogicNode, (SPhysiNode*)pScanPhysiNode); } if (TSDB_CODE_SUCCESS == code) { pScanPhysiNode->uid = pScanLogicNode->tableId; pScanPhysiNode->suid = pScanLogicNode->stableId; pScanPhysiNode->tableType = pScanLogicNode->tableType; memcpy(&pScanPhysiNode->tableName, &pScanLogicNode->tableName, sizeof(SName)); if (NULL != pScanLogicNode->pTagCond) { pSubplan->pTagCond = nodesCloneNode(pScanLogicNode->pTagCond); if (NULL == pSubplan->pTagCond) { code = TSDB_CODE_OUT_OF_MEMORY; } } } if (TSDB_CODE_SUCCESS == code) { if (NULL != pScanLogicNode->pTagIndexCond) { pSubplan->pTagIndexCond = nodesCloneNode(pScanLogicNode->pTagIndexCond); if (NULL == pSubplan->pTagIndexCond) { code = TSDB_CODE_OUT_OF_MEMORY; } } } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pScanPhysiNode; } else { nodesDestroyNode((SNode*)pScanPhysiNode); } return code; } static void vgroupInfoToNodeAddr(const SVgroupInfo* vg, SQueryNodeAddr* pNodeAddr) { pNodeAddr->nodeId = vg->vgId; pNodeAddr->epSet = vg->epSet; } static ENodeType getScanOperatorType(EScanType scanType) { switch (scanType) { case SCAN_TYPE_TAG: return QUERY_NODE_PHYSICAL_PLAN_TAG_SCAN; case SCAN_TYPE_TABLE: return QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN; case SCAN_TYPE_STREAM: return QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN; case SCAN_TYPE_TABLE_MERGE: return QUERY_NODE_PHYSICAL_PLAN_TABLE_MERGE_SCAN; case SCAN_TYPE_BLOCK_INFO: return QUERY_NODE_PHYSICAL_PLAN_BLOCK_DIST_SCAN; case SCAN_TYPE_TABLE_COUNT: return QUERY_NODE_PHYSICAL_PLAN_TABLE_COUNT_SCAN; default: break; } return QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN; } static int32_t createSimpleScanPhysiNode(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SPhysiNode** pPhyNode) { SScanPhysiNode* pScan = (SScanPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pScanLogicNode, getScanOperatorType(pScanLogicNode->scanType)); if (NULL == pScan) { return TSDB_CODE_OUT_OF_MEMORY; } vgroupInfoToNodeAddr(pScanLogicNode->pVgroupList->vgroups, &pSubplan->execNode); return createScanPhysiNodeFinalize(pCxt, pSubplan, pScanLogicNode, pScan, pPhyNode); } static int32_t createLastRowScanPhysiNode(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SPhysiNode** pPhyNode) { SLastRowScanPhysiNode* pScan = (SLastRowScanPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pScanLogicNode, QUERY_NODE_PHYSICAL_PLAN_LAST_ROW_SCAN); if (NULL == pScan) { return TSDB_CODE_OUT_OF_MEMORY; } pScan->pGroupTags = nodesCloneList(pScanLogicNode->pGroupTags); if (NULL != pScanLogicNode->pGroupTags && NULL == pScan->pGroupTags) { nodesDestroyNode((SNode*)pScan); return TSDB_CODE_OUT_OF_MEMORY; } pScan->groupSort = pScanLogicNode->groupSort; pScan->ignoreNull = pScanLogicNode->igLastNull; vgroupInfoToNodeAddr(pScanLogicNode->pVgroupList->vgroups, &pSubplan->execNode); return createScanPhysiNodeFinalize(pCxt, pSubplan, pScanLogicNode, (SScanPhysiNode*)pScan, pPhyNode); } static int32_t createTableCountScanPhysiNode(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SPhysiNode** pPhyNode) { STableCountScanPhysiNode* pScan = (STableCountScanPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pScanLogicNode, QUERY_NODE_PHYSICAL_PLAN_TABLE_COUNT_SCAN); if (NULL == pScan) { return TSDB_CODE_OUT_OF_MEMORY; } pScan->pGroupTags = nodesCloneList(pScanLogicNode->pGroupTags); if (NULL != pScanLogicNode->pGroupTags && NULL == pScan->pGroupTags) { nodesDestroyNode((SNode*)pScan); return TSDB_CODE_OUT_OF_MEMORY; } pScan->groupSort = pScanLogicNode->groupSort; vgroupInfoToNodeAddr(pScanLogicNode->pVgroupList->vgroups, &pSubplan->execNode); return createScanPhysiNodeFinalize(pCxt, pSubplan, pScanLogicNode, (SScanPhysiNode*)pScan, pPhyNode); } static int32_t createTableScanPhysiNode(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SPhysiNode** pPhyNode) { STableScanPhysiNode* pTableScan = (STableScanPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pScanLogicNode, getScanOperatorType(pScanLogicNode->scanType)); if (NULL == pTableScan) { return TSDB_CODE_OUT_OF_MEMORY; } memcpy(pTableScan->scanSeq, pScanLogicNode->scanSeq, sizeof(pScanLogicNode->scanSeq)); pTableScan->scanRange = pScanLogicNode->scanRange; pTableScan->ratio = pScanLogicNode->ratio; if (pScanLogicNode->pVgroupList) { vgroupInfoToNodeAddr(pScanLogicNode->pVgroupList->vgroups, &pSubplan->execNode); pSubplan->execNodeStat.tableNum = pScanLogicNode->pVgroupList->vgroups[0].numOfTable; } tNameGetFullDbName(&pScanLogicNode->tableName, pSubplan->dbFName); pTableScan->dataRequired = pScanLogicNode->dataRequired; pTableScan->pDynamicScanFuncs = nodesCloneList(pScanLogicNode->pDynamicScanFuncs); pTableScan->pGroupTags = nodesCloneList(pScanLogicNode->pGroupTags); if ((NULL != pScanLogicNode->pDynamicScanFuncs && NULL == pTableScan->pDynamicScanFuncs) || (NULL != pScanLogicNode->pGroupTags && NULL == pTableScan->pGroupTags)) { nodesDestroyNode((SNode*)pTableScan); return TSDB_CODE_OUT_OF_MEMORY; } pTableScan->groupSort = pScanLogicNode->groupSort; pTableScan->interval = pScanLogicNode->interval; pTableScan->offset = pScanLogicNode->offset; pTableScan->sliding = pScanLogicNode->sliding; pTableScan->intervalUnit = pScanLogicNode->intervalUnit; pTableScan->slidingUnit = pScanLogicNode->slidingUnit; pTableScan->triggerType = pScanLogicNode->triggerType; pTableScan->watermark = pScanLogicNode->watermark; pTableScan->igExpired = pScanLogicNode->igExpired; pTableScan->assignBlockUid = pCxt->pPlanCxt->rSmaQuery ? true : false; int32_t code = createScanPhysiNodeFinalize(pCxt, pSubplan, pScanLogicNode, (SScanPhysiNode*)pTableScan, pPhyNode); if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pTableScan->scan.node.pOutputDataBlockDesc->dataBlockId, -1, pScanLogicNode->pTags, &pTableScan->pTags); } if (TSDB_CODE_SUCCESS == code) { code = setNodeSlotId(pCxt, pTableScan->scan.node.pOutputDataBlockDesc->dataBlockId, -1, pScanLogicNode->pSubtable, &pTableScan->pSubtable); } return code; } static int32_t createSystemTableScanPhysiNode(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SPhysiNode** pPhyNode) { SSystemTableScanPhysiNode* pScan = (SSystemTableScanPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pScanLogicNode, QUERY_NODE_PHYSICAL_PLAN_SYSTABLE_SCAN); if (NULL == pScan) { return TSDB_CODE_OUT_OF_MEMORY; } pSubplan->showRewrite = pScanLogicNode->showRewrite; pScan->showRewrite = pScanLogicNode->showRewrite; pScan->accountId = pCxt->pPlanCxt->acctId; pScan->sysInfo = pCxt->pPlanCxt->sysInfo; if (0 == strcmp(pScanLogicNode->tableName.tname, TSDB_INS_TABLE_TABLES) || 0 == strcmp(pScanLogicNode->tableName.tname, TSDB_INS_TABLE_TAGS)) { vgroupInfoToNodeAddr(pScanLogicNode->pVgroupList->vgroups, &pSubplan->execNode); } else { pSubplan->execNode.nodeId = MNODE_HANDLE; pSubplan->execNode.epSet = pCxt->pPlanCxt->mgmtEpSet; } if (0 == strcmp(pScanLogicNode->tableName.tname, TSDB_INS_TABLE_DNODE_VARIABLES)) { pScan->mgmtEpSet = pScanLogicNode->pVgroupList->vgroups->epSet; } else { pScan->mgmtEpSet = pCxt->pPlanCxt->mgmtEpSet; } tNameGetFullDbName(&pScanLogicNode->tableName, pSubplan->dbFName); pCxt->hasSysScan = true; return createScanPhysiNodeFinalize(pCxt, pSubplan, pScanLogicNode, (SScanPhysiNode*)pScan, pPhyNode); } static int32_t createStreamScanPhysiNode(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SPhysiNode** pPhyNode) { return createTableScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); } static int32_t createTableMergeScanPhysiNode(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SPhysiNode** pPhyNode) { return createTableScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); } static int32_t createScanPhysiNode(SPhysiPlanContext* pCxt, SSubplan* pSubplan, SScanLogicNode* pScanLogicNode, SPhysiNode** pPhyNode) { pCxt->hasScan = true; switch (pScanLogicNode->scanType) { case SCAN_TYPE_TAG: case SCAN_TYPE_BLOCK_INFO: return createSimpleScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); case SCAN_TYPE_TABLE_COUNT: return createTableCountScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); case SCAN_TYPE_LAST_ROW: return createLastRowScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); case SCAN_TYPE_TABLE: return createTableScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); case SCAN_TYPE_SYSTEM_TABLE: return createSystemTableScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); case SCAN_TYPE_STREAM: return createStreamScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); case SCAN_TYPE_TABLE_MERGE: return createTableMergeScanPhysiNode(pCxt, pSubplan, pScanLogicNode, pPhyNode); default: break; } return TSDB_CODE_FAILED; } static int32_t createJoinPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SJoinLogicNode* pJoinLogicNode, SPhysiNode** pPhyNode) { SSortMergeJoinPhysiNode* pJoin = (SSortMergeJoinPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pJoinLogicNode, QUERY_NODE_PHYSICAL_PLAN_MERGE_JOIN); if (NULL == pJoin) { return TSDB_CODE_OUT_OF_MEMORY; } SDataBlockDescNode* pLeftDesc = ((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc; SDataBlockDescNode* pRightDesc = ((SPhysiNode*)nodesListGetNode(pChildren, 1))->pOutputDataBlockDesc; int32_t code = TSDB_CODE_SUCCESS; pJoin->joinType = pJoinLogicNode->joinType; pJoin->inputTsOrder = pJoinLogicNode->inputTsOrder; setNodeSlotId(pCxt, pLeftDesc->dataBlockId, pRightDesc->dataBlockId, pJoinLogicNode->pMergeCondition, &pJoin->pMergeCondition); if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pLeftDesc->dataBlockId, pRightDesc->dataBlockId, pJoinLogicNode->node.pTargets, &pJoin->pTargets); } if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pJoin->pTargets, pJoin->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code && NULL != pJoinLogicNode->pOnConditions) { SNodeList* pCondCols = nodesMakeList(); if (NULL == pCondCols) { code = TSDB_CODE_OUT_OF_MEMORY; } else { code = nodesCollectColumnsFromNode(pJoinLogicNode->pOnConditions, NULL, COLLECT_COL_TYPE_ALL, &pCondCols); } if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pCondCols, pJoin->node.pOutputDataBlockDesc); } nodesDestroyList(pCondCols); } if (TSDB_CODE_SUCCESS == code && NULL != pJoinLogicNode->pOnConditions) { code = setNodeSlotId(pCxt, ((SPhysiNode*)pJoin)->pOutputDataBlockDesc->dataBlockId, -1, pJoinLogicNode->pOnConditions, &pJoin->pOnConditions); } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pJoinLogicNode, (SPhysiNode*)pJoin); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pJoin; } else { nodesDestroyNode((SNode*)pJoin); } return code; } typedef struct SRewritePrecalcExprsCxt { int32_t errCode; int32_t planNodeId; int32_t rewriteId; SNodeList* pPrecalcExprs; } SRewritePrecalcExprsCxt; static EDealRes collectAndRewrite(SRewritePrecalcExprsCxt* pCxt, SNode** pNode) { SNode* pExpr = nodesCloneNode(*pNode); if (NULL == pExpr) { pCxt->errCode = TSDB_CODE_OUT_OF_MEMORY; return DEAL_RES_ERROR; } if (nodesListAppend(pCxt->pPrecalcExprs, pExpr)) { pCxt->errCode = TSDB_CODE_OUT_OF_MEMORY; nodesDestroyNode(pExpr); return DEAL_RES_ERROR; } SColumnNode* pCol = (SColumnNode*)nodesMakeNode(QUERY_NODE_COLUMN); if (NULL == pCol) { pCxt->errCode = TSDB_CODE_OUT_OF_MEMORY; nodesDestroyNode(pExpr); return DEAL_RES_ERROR; } SExprNode* pRewrittenExpr = (SExprNode*)pExpr; pCol->node.resType = pRewrittenExpr->resType; if ('\0' != pRewrittenExpr->aliasName[0]) { strcpy(pCol->colName, pRewrittenExpr->aliasName); } else { snprintf(pRewrittenExpr->aliasName, sizeof(pRewrittenExpr->aliasName), "#expr_%d_%d", pCxt->planNodeId, pCxt->rewriteId); strcpy(pCol->colName, pRewrittenExpr->aliasName); } nodesDestroyNode(*pNode); *pNode = (SNode*)pCol; return DEAL_RES_IGNORE_CHILD; } static int32_t rewriteValueToOperator(SRewritePrecalcExprsCxt* pCxt, SNode** pNode) { SOperatorNode* pOper = (SOperatorNode*)nodesMakeNode(QUERY_NODE_OPERATOR); if (NULL == pOper) { return TSDB_CODE_OUT_OF_MEMORY; } pOper->pLeft = nodesMakeNode(QUERY_NODE_LEFT_VALUE); if (NULL == pOper->pLeft) { nodesDestroyNode((SNode*)pOper); return TSDB_CODE_OUT_OF_MEMORY; } SValueNode* pVal = (SValueNode*)*pNode; pOper->node.resType = pVal->node.resType; strcpy(pOper->node.aliasName, pVal->node.aliasName); pOper->opType = OP_TYPE_ASSIGN; pOper->pRight = *pNode; *pNode = (SNode*)pOper; return TSDB_CODE_SUCCESS; } static EDealRes doRewritePrecalcExprs(SNode** pNode, void* pContext) { SRewritePrecalcExprsCxt* pCxt = (SRewritePrecalcExprsCxt*)pContext; switch (nodeType(*pNode)) { case QUERY_NODE_VALUE: { if (((SValueNode*)*pNode)->notReserved) { break; } pCxt->errCode = rewriteValueToOperator(pCxt, pNode); if (TSDB_CODE_SUCCESS != pCxt->errCode) { return DEAL_RES_ERROR; } return collectAndRewrite(pCxt, pNode); } case QUERY_NODE_OPERATOR: case QUERY_NODE_LOGIC_CONDITION: case QUERY_NODE_CASE_WHEN: { return collectAndRewrite(pCxt, pNode); } case QUERY_NODE_FUNCTION: { if (fmIsScalarFunc(((SFunctionNode*)(*pNode))->funcId)) { return collectAndRewrite(pCxt, pNode); } } default: break; } return DEAL_RES_CONTINUE; } static int32_t rewritePrecalcExprs(SPhysiPlanContext* pCxt, SNodeList* pList, SNodeList** pPrecalcExprs, SNodeList** pRewrittenList) { if (NULL == pList) { return TSDB_CODE_SUCCESS; } if (NULL == *pPrecalcExprs) { *pPrecalcExprs = nodesMakeList(); if (NULL == *pPrecalcExprs) { return TSDB_CODE_OUT_OF_MEMORY; } } if (NULL == *pRewrittenList) { *pRewrittenList = nodesMakeList(); if (NULL == *pRewrittenList) { return TSDB_CODE_OUT_OF_MEMORY; } } SNode* pNode = NULL; FOREACH(pNode, pList) { SNode* pNew = NULL; if (QUERY_NODE_GROUPING_SET == nodeType(pNode)) { pNew = nodesCloneNode(nodesListGetNode(((SGroupingSetNode*)pNode)->pParameterList, 0)); } else { pNew = nodesCloneNode(pNode); } if (NULL == pNew) { return TSDB_CODE_OUT_OF_MEMORY; } if (TSDB_CODE_SUCCESS != nodesListAppend(*pRewrittenList, pNew)) { return TSDB_CODE_OUT_OF_MEMORY; } } SRewritePrecalcExprsCxt cxt = {.errCode = TSDB_CODE_SUCCESS, .pPrecalcExprs = *pPrecalcExprs}; nodesRewriteExprs(*pRewrittenList, doRewritePrecalcExprs, &cxt); if (0 == LIST_LENGTH(cxt.pPrecalcExprs) || TSDB_CODE_SUCCESS != cxt.errCode) { NODES_DESTORY_LIST(*pPrecalcExprs); } return cxt.errCode; } static int32_t rewritePrecalcExpr(SPhysiPlanContext* pCxt, SNode* pNode, SNodeList** pPrecalcExprs, SNode** pRewritten) { if (NULL == pNode) { return TSDB_CODE_SUCCESS; } SNodeList* pList = NULL; int32_t code = nodesListMakeAppend(&pList, pNode); SNodeList* pRewrittenList = NULL; if (TSDB_CODE_SUCCESS == code) { code = rewritePrecalcExprs(pCxt, pList, pPrecalcExprs, &pRewrittenList); } if (TSDB_CODE_SUCCESS == code) { *pRewritten = nodesListGetNode(pRewrittenList, 0); } nodesClearList(pList); nodesClearList(pRewrittenList); return code; } static int32_t createAggPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SAggLogicNode* pAggLogicNode, SPhysiNode** pPhyNode) { SAggPhysiNode* pAgg = (SAggPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pAggLogicNode, QUERY_NODE_PHYSICAL_PLAN_HASH_AGG); if (NULL == pAgg) { return TSDB_CODE_OUT_OF_MEMORY; } pAgg->mergeDataBlock = (GROUP_ACTION_KEEP == pAggLogicNode->node.groupAction ? false : true); pAgg->groupKeyOptimized = pAggLogicNode->hasGroupKeyOptimized; SNodeList* pPrecalcExprs = NULL; SNodeList* pGroupKeys = NULL; SNodeList* pAggFuncs = NULL; int32_t code = rewritePrecalcExprs(pCxt, pAggLogicNode->pGroupKeys, &pPrecalcExprs, &pGroupKeys); if (TSDB_CODE_SUCCESS == code) { code = rewritePrecalcExprs(pCxt, pAggLogicNode->pAggFuncs, &pPrecalcExprs, &pAggFuncs); } SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); // push down expression to pOutputDataBlockDesc of child node if (TSDB_CODE_SUCCESS == code && NULL != pPrecalcExprs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPrecalcExprs, &pAgg->pExprs); if (TSDB_CODE_SUCCESS == code) { code = pushdownDataBlockSlots(pCxt, pAgg->pExprs, pChildTupe); } } if (TSDB_CODE_SUCCESS == code && NULL != pGroupKeys) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pGroupKeys, &pAgg->pGroupKeys); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pAgg->pGroupKeys, pAgg->node.pOutputDataBlockDesc); } } if (TSDB_CODE_SUCCESS == code && NULL != pAggFuncs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pAggFuncs, &pAgg->pAggFuncs); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pAgg->pAggFuncs, pAgg->node.pOutputDataBlockDesc); } } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pAggLogicNode, (SPhysiNode*)pAgg); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pAgg; } else { nodesDestroyNode((SNode*)pAgg); } nodesDestroyList(pPrecalcExprs); nodesDestroyList(pGroupKeys); nodesDestroyList(pAggFuncs); return code; } static int32_t createIndefRowsFuncPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SIndefRowsFuncLogicNode* pFuncLogicNode, SPhysiNode** pPhyNode) { SIndefRowsFuncPhysiNode* pIdfRowsFunc = (SIndefRowsFuncPhysiNode*)makePhysiNode( pCxt, (SLogicNode*)pFuncLogicNode, QUERY_NODE_PHYSICAL_PLAN_INDEF_ROWS_FUNC); if (NULL == pIdfRowsFunc) { return TSDB_CODE_OUT_OF_MEMORY; } SNodeList* pPrecalcExprs = NULL; SNodeList* pFuncs = NULL; int32_t code = rewritePrecalcExprs(pCxt, pFuncLogicNode->pFuncs, &pPrecalcExprs, &pFuncs); SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); // push down expression to pOutputDataBlockDesc of child node if (TSDB_CODE_SUCCESS == code && NULL != pPrecalcExprs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPrecalcExprs, &pIdfRowsFunc->pExprs); if (TSDB_CODE_SUCCESS == code) { code = pushdownDataBlockSlots(pCxt, pIdfRowsFunc->pExprs, pChildTupe); } } if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pFuncs, &pIdfRowsFunc->pFuncs); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pIdfRowsFunc->pFuncs, pIdfRowsFunc->node.pOutputDataBlockDesc); } } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pFuncLogicNode, (SPhysiNode*)pIdfRowsFunc); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pIdfRowsFunc; } else { nodesDestroyNode((SNode*)pIdfRowsFunc); } nodesDestroyList(pPrecalcExprs); nodesDestroyList(pFuncs); return code; } static int32_t createInterpFuncPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SInterpFuncLogicNode* pFuncLogicNode, SPhysiNode** pPhyNode) { SInterpFuncPhysiNode* pInterpFunc = (SInterpFuncPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pFuncLogicNode, QUERY_NODE_PHYSICAL_PLAN_INTERP_FUNC); if (NULL == pInterpFunc) { return TSDB_CODE_OUT_OF_MEMORY; } SNodeList* pPrecalcExprs = NULL; SNodeList* pFuncs = NULL; int32_t code = rewritePrecalcExprs(pCxt, pFuncLogicNode->pFuncs, &pPrecalcExprs, &pFuncs); SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); // push down expression to pOutputDataBlockDesc of child node if (TSDB_CODE_SUCCESS == code && NULL != pPrecalcExprs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPrecalcExprs, &pInterpFunc->pExprs); if (TSDB_CODE_SUCCESS == code) { code = pushdownDataBlockSlots(pCxt, pInterpFunc->pExprs, pChildTupe); } } if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pFuncs, &pInterpFunc->pFuncs); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pInterpFunc->pFuncs, pInterpFunc->node.pOutputDataBlockDesc); } } if (TSDB_CODE_SUCCESS == code) { pInterpFunc->timeRange = pFuncLogicNode->timeRange; pInterpFunc->interval = pFuncLogicNode->interval; pInterpFunc->fillMode = pFuncLogicNode->fillMode; pInterpFunc->pFillValues = nodesCloneNode(pFuncLogicNode->pFillValues); if (NULL != pFuncLogicNode->pFillValues && NULL == pInterpFunc->pFillValues) { code = TSDB_CODE_OUT_OF_MEMORY; } } if (TSDB_CODE_SUCCESS == code) { code = setNodeSlotId(pCxt, pChildTupe->dataBlockId, -1, pFuncLogicNode->pTimeSeries, &pInterpFunc->pTimeSeries); } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pFuncLogicNode, (SPhysiNode*)pInterpFunc); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pInterpFunc; } else { nodesDestroyNode((SNode*)pInterpFunc); } nodesDestroyList(pPrecalcExprs); nodesDestroyList(pFuncs); return code; } static bool projectCanMergeDataBlock(SProjectLogicNode* pProject) { if (GROUP_ACTION_KEEP == pProject->node.groupAction) { return false; } if (DATA_ORDER_LEVEL_NONE == pProject->node.resultDataOrder) { return true; } if (1 != LIST_LENGTH(pProject->node.pChildren)) { return true; } SLogicNode* pChild = (SLogicNode*)nodesListGetNode(pProject->node.pChildren, 0); return DATA_ORDER_LEVEL_GLOBAL == pChild->resultDataOrder ? true : false; } static int32_t createProjectPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SProjectLogicNode* pProjectLogicNode, SPhysiNode** pPhyNode) { SProjectPhysiNode* pProject = (SProjectPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pProjectLogicNode, QUERY_NODE_PHYSICAL_PLAN_PROJECT); if (NULL == pProject) { return TSDB_CODE_OUT_OF_MEMORY; } pProject->mergeDataBlock = projectCanMergeDataBlock(pProjectLogicNode); pProject->ignoreGroupId = pProjectLogicNode->ignoreGroupId; int32_t code = TSDB_CODE_SUCCESS; if (0 == LIST_LENGTH(pChildren)) { pProject->pProjections = nodesCloneList(pProjectLogicNode->pProjections); if (NULL == pProject->pProjections) { code = TSDB_CODE_OUT_OF_MEMORY; } } else { code = setListSlotId(pCxt, ((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc->dataBlockId, -1, pProjectLogicNode->pProjections, &pProject->pProjections); } if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlotsForProject(pCxt, pProjectLogicNode->stmtName, pProject->pProjections, pProject->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pProjectLogicNode, (SPhysiNode*)pProject); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pProject; } else { nodesDestroyNode((SNode*)pProject); } return code; } static int32_t doCreateExchangePhysiNode(SPhysiPlanContext* pCxt, SExchangeLogicNode* pExchangeLogicNode, SPhysiNode** pPhyNode) { SExchangePhysiNode* pExchange = (SExchangePhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pExchangeLogicNode, QUERY_NODE_PHYSICAL_PLAN_EXCHANGE); if (NULL == pExchange) { return TSDB_CODE_OUT_OF_MEMORY; } pExchange->srcStartGroupId = pExchangeLogicNode->srcStartGroupId; pExchange->srcEndGroupId = pExchangeLogicNode->srcEndGroupId; pExchange->seqRecvData = pExchangeLogicNode->seqRecvData; *pPhyNode = (SPhysiNode*)pExchange; return TSDB_CODE_SUCCESS; } static int32_t createStreamScanPhysiNodeByExchange(SPhysiPlanContext* pCxt, SExchangeLogicNode* pExchangeLogicNode, SPhysiNode** pPhyNode) { SScanPhysiNode* pScan = (SScanPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pExchangeLogicNode, QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN); if (NULL == pScan) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t code = TSDB_CODE_SUCCESS; pScan->pScanCols = nodesCloneList(pExchangeLogicNode->node.pTargets); if (NULL == pScan->pScanCols) { code = TSDB_CODE_OUT_OF_MEMORY; } if (TSDB_CODE_SUCCESS == code) { code = sortScanCols(pScan->pScanCols); } if (TSDB_CODE_SUCCESS == code) { code = sortScanCols(pScan->pScanCols); } if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pScan->pScanCols, pScan->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pScan; } else { nodesDestroyNode((SNode*)pScan); } return code; } static int32_t createExchangePhysiNode(SPhysiPlanContext* pCxt, SExchangeLogicNode* pExchangeLogicNode, SPhysiNode** pPhyNode) { if (pCxt->pPlanCxt->streamQuery) { return createStreamScanPhysiNodeByExchange(pCxt, pExchangeLogicNode, pPhyNode); } else { return doCreateExchangePhysiNode(pCxt, pExchangeLogicNode, pPhyNode); } } static int32_t createWindowPhysiNodeFinalize(SPhysiPlanContext* pCxt, SNodeList* pChildren, SWinodwPhysiNode* pWindow, SWindowLogicNode* pWindowLogicNode) { pWindow->triggerType = pWindowLogicNode->triggerType; pWindow->watermark = pWindowLogicNode->watermark; pWindow->deleteMark = pWindowLogicNode->deleteMark; pWindow->igExpired = pWindowLogicNode->igExpired; pWindow->inputTsOrder = pWindowLogicNode->inputTsOrder; pWindow->outputTsOrder = pWindowLogicNode->outputTsOrder; pWindow->mergeDataBlock = (GROUP_ACTION_KEEP == pWindowLogicNode->node.groupAction ? false : true); SNodeList* pPrecalcExprs = NULL; SNodeList* pFuncs = NULL; int32_t code = rewritePrecalcExprs(pCxt, pWindowLogicNode->pFuncs, &pPrecalcExprs, &pFuncs); SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); // push down expression to pOutputDataBlockDesc of child node if (TSDB_CODE_SUCCESS == code && NULL != pPrecalcExprs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPrecalcExprs, &pWindow->pExprs); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pWindow->pExprs, pChildTupe); } } if (TSDB_CODE_SUCCESS == code) { code = setNodeSlotId(pCxt, pChildTupe->dataBlockId, -1, pWindowLogicNode->pTspk, &pWindow->pTspk); } if (TSDB_CODE_SUCCESS == code && pWindowLogicNode->pTsEnd) { code = setNodeSlotId(pCxt, pChildTupe->dataBlockId, -1, pWindowLogicNode->pTsEnd, &pWindow->pTsEnd); } if (TSDB_CODE_SUCCESS == code && NULL != pFuncs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pFuncs, &pWindow->pFuncs); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pWindow->pFuncs, pWindow->node.pOutputDataBlockDesc); } } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pWindowLogicNode, (SPhysiNode*)pWindow); } nodesDestroyList(pPrecalcExprs); nodesDestroyList(pFuncs); return code; } static ENodeType getIntervalOperatorType(EWindowAlgorithm windowAlgo) { switch (windowAlgo) { case INTERVAL_ALGO_HASH: return QUERY_NODE_PHYSICAL_PLAN_HASH_INTERVAL; case INTERVAL_ALGO_MERGE: return QUERY_NODE_PHYSICAL_PLAN_MERGE_ALIGNED_INTERVAL; case INTERVAL_ALGO_STREAM_FINAL: return QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_INTERVAL; case INTERVAL_ALGO_STREAM_SEMI: return QUERY_NODE_PHYSICAL_PLAN_STREAM_SEMI_INTERVAL; case INTERVAL_ALGO_STREAM_SINGLE: return QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL; case SESSION_ALGO_STREAM_FINAL: return QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_SESSION; case SESSION_ALGO_STREAM_SEMI: return QUERY_NODE_PHYSICAL_PLAN_STREAM_SEMI_SESSION; case SESSION_ALGO_STREAM_SINGLE: return QUERY_NODE_PHYSICAL_PLAN_STREAM_SESSION; case SESSION_ALGO_MERGE: return QUERY_NODE_PHYSICAL_PLAN_MERGE_SESSION; default: break; } return QUERY_NODE_PHYSICAL_PLAN_HASH_INTERVAL; } static int32_t createIntervalPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SWindowLogicNode* pWindowLogicNode, SPhysiNode** pPhyNode) { SIntervalPhysiNode* pInterval = (SIntervalPhysiNode*)makePhysiNode( pCxt, (SLogicNode*)pWindowLogicNode, getIntervalOperatorType(pWindowLogicNode->windowAlgo)); if (NULL == pInterval) { return TSDB_CODE_OUT_OF_MEMORY; } pInterval->interval = pWindowLogicNode->interval; pInterval->offset = pWindowLogicNode->offset; pInterval->sliding = pWindowLogicNode->sliding; pInterval->intervalUnit = pWindowLogicNode->intervalUnit; pInterval->slidingUnit = pWindowLogicNode->slidingUnit; int32_t code = createWindowPhysiNodeFinalize(pCxt, pChildren, &pInterval->window, pWindowLogicNode); if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pInterval; } else { nodesDestroyNode((SNode*)pInterval); } return code; } static int32_t createSessionWindowPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SWindowLogicNode* pWindowLogicNode, SPhysiNode** pPhyNode) { SSessionWinodwPhysiNode* pSession = (SSessionWinodwPhysiNode*)makePhysiNode( pCxt, (SLogicNode*)pWindowLogicNode, getIntervalOperatorType(pWindowLogicNode->windowAlgo)); if (NULL == pSession) { return TSDB_CODE_OUT_OF_MEMORY; } pSession->gap = pWindowLogicNode->sessionGap; int32_t code = createWindowPhysiNodeFinalize(pCxt, pChildren, &pSession->window, pWindowLogicNode); if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pSession; } else { nodesDestroyNode((SNode*)pSession); } return code; } static int32_t createStateWindowPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SWindowLogicNode* pWindowLogicNode, SPhysiNode** pPhyNode) { SStateWinodwPhysiNode* pState = (SStateWinodwPhysiNode*)makePhysiNode( pCxt, (SLogicNode*)pWindowLogicNode, (pCxt->pPlanCxt->streamQuery ? QUERY_NODE_PHYSICAL_PLAN_STREAM_STATE : QUERY_NODE_PHYSICAL_PLAN_MERGE_STATE)); if (NULL == pState) { return TSDB_CODE_OUT_OF_MEMORY; } SNodeList* pPrecalcExprs = NULL; SNode* pStateKey = NULL; int32_t code = rewritePrecalcExpr(pCxt, pWindowLogicNode->pStateExpr, &pPrecalcExprs, &pStateKey); SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); // push down expression to pOutputDataBlockDesc of child node if (TSDB_CODE_SUCCESS == code && NULL != pPrecalcExprs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPrecalcExprs, &pState->window.pExprs); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pState->window.pExprs, pChildTupe); } } if (TSDB_CODE_SUCCESS == code) { code = setNodeSlotId(pCxt, pChildTupe->dataBlockId, -1, pStateKey, &pState->pStateKey); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlot(pCxt, &pState->pStateKey, pState->window.node.pOutputDataBlockDesc); } } if (TSDB_CODE_SUCCESS == code) { code = createWindowPhysiNodeFinalize(pCxt, pChildren, &pState->window, pWindowLogicNode); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pState; } else { nodesDestroyNode((SNode*)pState); } nodesDestroyList(pPrecalcExprs); nodesDestroyNode(pStateKey); return code; } static int32_t createWindowPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SWindowLogicNode* pWindowLogicNode, SPhysiNode** pPhyNode) { switch (pWindowLogicNode->winType) { case WINDOW_TYPE_INTERVAL: return createIntervalPhysiNode(pCxt, pChildren, pWindowLogicNode, pPhyNode); case WINDOW_TYPE_SESSION: return createSessionWindowPhysiNode(pCxt, pChildren, pWindowLogicNode, pPhyNode); case WINDOW_TYPE_STATE: return createStateWindowPhysiNode(pCxt, pChildren, pWindowLogicNode, pPhyNode); default: break; } return TSDB_CODE_FAILED; } static int32_t createSortPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SSortLogicNode* pSortLogicNode, SPhysiNode** pPhyNode) { SSortPhysiNode* pSort = (SSortPhysiNode*)makePhysiNode( pCxt, (SLogicNode*)pSortLogicNode, pSortLogicNode->groupSort ? QUERY_NODE_PHYSICAL_PLAN_GROUP_SORT : QUERY_NODE_PHYSICAL_PLAN_SORT); if (NULL == pSort) { return TSDB_CODE_OUT_OF_MEMORY; } SNodeList* pPrecalcExprs = NULL; SNodeList* pSortKeys = NULL; int32_t code = rewritePrecalcExprs(pCxt, pSortLogicNode->pSortKeys, &pPrecalcExprs, &pSortKeys); SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); // push down expression to pOutputDataBlockDesc of child node if (TSDB_CODE_SUCCESS == code && NULL != pPrecalcExprs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPrecalcExprs, &pSort->pExprs); if (TSDB_CODE_SUCCESS == code) { code = pushdownDataBlockSlots(pCxt, pSort->pExprs, pChildTupe); } } if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pSortKeys, &pSort->pSortKeys); } if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pSortLogicNode->node.pTargets, &pSort->pTargets); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pSort->pTargets, pSort->node.pOutputDataBlockDesc); } } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pSortLogicNode, (SPhysiNode*)pSort); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pSort; } else { nodesDestroyNode((SNode*)pSort); } nodesDestroyList(pPrecalcExprs); nodesDestroyList(pSortKeys); return code; } static int32_t createPartitionPhysiNodeImpl(SPhysiPlanContext* pCxt, SNodeList* pChildren, SPartitionLogicNode* pPartLogicNode, ENodeType type, SPhysiNode** pPhyNode) { SPartitionPhysiNode* pPart = (SPartitionPhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pPartLogicNode, type); if (NULL == pPart) { return TSDB_CODE_OUT_OF_MEMORY; } SNodeList* pPrecalcExprs = NULL; SNodeList* pPartitionKeys = NULL; int32_t code = rewritePrecalcExprs(pCxt, pPartLogicNode->pPartitionKeys, &pPrecalcExprs, &pPartitionKeys); SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); // push down expression to pOutputDataBlockDesc of child node if (TSDB_CODE_SUCCESS == code && NULL != pPrecalcExprs) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPrecalcExprs, &pPart->pExprs); if (TSDB_CODE_SUCCESS == code) { code = pushdownDataBlockSlots(pCxt, pPart->pExprs, pChildTupe); } } if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPartitionKeys, &pPart->pPartitionKeys); } if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPartLogicNode->node.pTargets, &pPart->pTargets); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pPart->pTargets, pPart->node.pOutputDataBlockDesc); } } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pPartLogicNode, (SPhysiNode*)pPart); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pPart; } else { nodesDestroyNode((SNode*)pPart); } nodesDestroyList(pPrecalcExprs); nodesDestroyList(pPartitionKeys); return code; } static int32_t createStreamPartitionPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SPartitionLogicNode* pPartLogicNode, SPhysiNode** pPhyNode) { SStreamPartitionPhysiNode* pPart = NULL; int32_t code = createPartitionPhysiNodeImpl(pCxt, pChildren, pPartLogicNode, QUERY_NODE_PHYSICAL_PLAN_STREAM_PARTITION, (SPhysiNode**)&pPart); SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pPartLogicNode->pTags, &pPart->pTags); } if (TSDB_CODE_SUCCESS == code) { code = setNodeSlotId(pCxt, pChildTupe->dataBlockId, -1, pPartLogicNode->pSubtable, &pPart->pSubtable); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pPart; } else { nodesDestroyNode((SNode*)pPart); } return code; } static int32_t createPartitionPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SPartitionLogicNode* pPartLogicNode, SPhysiNode** pPhyNode) { if (pCxt->pPlanCxt->streamQuery) { return createStreamPartitionPhysiNode(pCxt, pChildren, pPartLogicNode, pPhyNode); } return createPartitionPhysiNodeImpl(pCxt, pChildren, pPartLogicNode, QUERY_NODE_PHYSICAL_PLAN_PARTITION, pPhyNode); } static int32_t createFillPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren, SFillLogicNode* pFillNode, SPhysiNode** pPhyNode) { SFillPhysiNode* pFill = (SFillPhysiNode*)makePhysiNode( pCxt, (SLogicNode*)pFillNode, pCxt->pPlanCxt->streamQuery ? QUERY_NODE_PHYSICAL_PLAN_STREAM_FILL : QUERY_NODE_PHYSICAL_PLAN_FILL); if (NULL == pFill) { return TSDB_CODE_OUT_OF_MEMORY; } pFill->mode = pFillNode->mode; pFill->timeRange = pFillNode->timeRange; pFill->inputTsOrder = pFillNode->inputTsOrder; SDataBlockDescNode* pChildTupe = (((SPhysiNode*)nodesListGetNode(pChildren, 0))->pOutputDataBlockDesc); int32_t code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pFillNode->pFillExprs, &pFill->pFillExprs); if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pFill->pFillExprs, pFill->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pChildTupe->dataBlockId, -1, pFillNode->pNotFillExprs, &pFill->pNotFillExprs); } if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pFill->pNotFillExprs, pFill->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code) { code = setNodeSlotId(pCxt, pChildTupe->dataBlockId, -1, pFillNode->pWStartTs, &pFill->pWStartTs); } if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlot(pCxt, &pFill->pWStartTs, pFill->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code && NULL != pFillNode->pValues) { pFill->pValues = nodesCloneNode(pFillNode->pValues); if (NULL == pFill->pValues) { code = TSDB_CODE_OUT_OF_MEMORY; } } if (TSDB_CODE_SUCCESS == code) { code = setConditionsSlotId(pCxt, (const SLogicNode*)pFillNode, (SPhysiNode*)pFill); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pFill; } else { nodesDestroyNode((SNode*)pFill); } return code; } static int32_t createExchangePhysiNodeByMerge(SMergePhysiNode* pMerge) { SExchangePhysiNode* pExchange = (SExchangePhysiNode*)nodesMakeNode(QUERY_NODE_PHYSICAL_PLAN_EXCHANGE); if (NULL == pExchange) { return TSDB_CODE_OUT_OF_MEMORY; } pExchange->srcStartGroupId = pMerge->srcGroupId; pExchange->srcEndGroupId = pMerge->srcGroupId; pExchange->singleChannel = true; pExchange->node.pParent = (SPhysiNode*)pMerge; pExchange->node.pOutputDataBlockDesc = (SDataBlockDescNode*)nodesCloneNode((SNode*)pMerge->node.pOutputDataBlockDesc); if (NULL == pExchange->node.pOutputDataBlockDesc) { nodesDestroyNode((SNode*)pExchange); return TSDB_CODE_OUT_OF_MEMORY; } SNode* pSlot = NULL; FOREACH(pSlot, pExchange->node.pOutputDataBlockDesc->pSlots) { ((SSlotDescNode*)pSlot)->output = true; } return nodesListMakeStrictAppend(&pMerge->node.pChildren, (SNode*)pExchange); } static int32_t createMergePhysiNode(SPhysiPlanContext* pCxt, SMergeLogicNode* pMergeLogicNode, SPhysiNode** pPhyNode) { SMergePhysiNode* pMerge = (SMergePhysiNode*)makePhysiNode(pCxt, (SLogicNode*)pMergeLogicNode, QUERY_NODE_PHYSICAL_PLAN_MERGE); if (NULL == pMerge) { return TSDB_CODE_OUT_OF_MEMORY; } pMerge->numOfChannels = pMergeLogicNode->numOfChannels; pMerge->srcGroupId = pMergeLogicNode->srcGroupId; pMerge->groupSort = pMergeLogicNode->groupSort; int32_t code = addDataBlockSlots(pCxt, pMergeLogicNode->pInputs, pMerge->node.pOutputDataBlockDesc); if (TSDB_CODE_SUCCESS == code) { for (int32_t i = 0; i < pMerge->numOfChannels; ++i) { code = createExchangePhysiNodeByMerge(pMerge); if (TSDB_CODE_SUCCESS != code) { break; } } } if (TSDB_CODE_SUCCESS == code && NULL != pMergeLogicNode->pMergeKeys) { code = setListSlotId(pCxt, pMerge->node.pOutputDataBlockDesc->dataBlockId, -1, pMergeLogicNode->pMergeKeys, &pMerge->pMergeKeys); } if (TSDB_CODE_SUCCESS == code) { code = setListSlotId(pCxt, pMerge->node.pOutputDataBlockDesc->dataBlockId, -1, pMergeLogicNode->node.pTargets, &pMerge->pTargets); } if (TSDB_CODE_SUCCESS == code) { code = addDataBlockSlots(pCxt, pMerge->pTargets, pMerge->node.pOutputDataBlockDesc); } if (TSDB_CODE_SUCCESS == code) { *pPhyNode = (SPhysiNode*)pMerge; } else { nodesDestroyNode((SNode*)pMerge); } return code; } static int32_t doCreatePhysiNode(SPhysiPlanContext* pCxt, SLogicNode* pLogicNode, SSubplan* pSubplan, SNodeList* pChildren, SPhysiNode** pPhyNode) { switch (nodeType(pLogicNode)) { case QUERY_NODE_LOGIC_PLAN_SCAN: return createScanPhysiNode(pCxt, pSubplan, (SScanLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_JOIN: return createJoinPhysiNode(pCxt, pChildren, (SJoinLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_AGG: return createAggPhysiNode(pCxt, pChildren, (SAggLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_PROJECT: return createProjectPhysiNode(pCxt, pChildren, (SProjectLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_EXCHANGE: return createExchangePhysiNode(pCxt, (SExchangeLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_WINDOW: return createWindowPhysiNode(pCxt, pChildren, (SWindowLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_SORT: return createSortPhysiNode(pCxt, pChildren, (SSortLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_PARTITION: return createPartitionPhysiNode(pCxt, pChildren, (SPartitionLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_FILL: return createFillPhysiNode(pCxt, pChildren, (SFillLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_INDEF_ROWS_FUNC: return createIndefRowsFuncPhysiNode(pCxt, pChildren, (SIndefRowsFuncLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_INTERP_FUNC: return createInterpFuncPhysiNode(pCxt, pChildren, (SInterpFuncLogicNode*)pLogicNode, pPhyNode); case QUERY_NODE_LOGIC_PLAN_MERGE: return createMergePhysiNode(pCxt, (SMergeLogicNode*)pLogicNode, pPhyNode); default: break; } return TSDB_CODE_FAILED; } static int32_t createPhysiNode(SPhysiPlanContext* pCxt, SLogicNode* pLogicNode, SSubplan* pSubplan, SPhysiNode** pPhyNode) { SNodeList* pChildren = nodesMakeList(); if (NULL == pChildren) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t code = TSDB_CODE_SUCCESS; SNode* pLogicChild; FOREACH(pLogicChild, pLogicNode->pChildren) { SPhysiNode* pChild = NULL; code = createPhysiNode(pCxt, (SLogicNode*)pLogicChild, pSubplan, &pChild); if (TSDB_CODE_SUCCESS == code) { code = nodesListStrictAppend(pChildren, (SNode*)pChild); } } if (TSDB_CODE_SUCCESS == code) { code = doCreatePhysiNode(pCxt, pLogicNode, pSubplan, pChildren, pPhyNode); } if (TSDB_CODE_SUCCESS == code) { if (LIST_LENGTH(pChildren) > 0) { (*pPhyNode)->pChildren = pChildren; SNode* pChild; FOREACH(pChild, (*pPhyNode)->pChildren) { ((SPhysiNode*)pChild)->pParent = (*pPhyNode); } } else { nodesDestroyList(pChildren); } } else { nodesDestroyList(pChildren); } return code; } static int32_t createDataInserter(SPhysiPlanContext* pCxt, SVgDataBlocks* pBlocks, SDataSinkNode** pSink) { SDataInserterNode* pInserter = (SDataInserterNode*)nodesMakeNode(QUERY_NODE_PHYSICAL_PLAN_INSERT); if (NULL == pInserter) { return TSDB_CODE_OUT_OF_MEMORY; } pInserter->numOfTables = pBlocks->numOfTables; pInserter->size = pBlocks->size; TSWAP(pInserter->pData, pBlocks->pData); *pSink = (SDataSinkNode*)pInserter; return TSDB_CODE_SUCCESS; } static int32_t createDataDispatcher(SPhysiPlanContext* pCxt, const SPhysiNode* pRoot, SDataSinkNode** pSink) { SDataDispatcherNode* pDispatcher = (SDataDispatcherNode*)nodesMakeNode(QUERY_NODE_PHYSICAL_PLAN_DISPATCH); if (NULL == pDispatcher) { return TSDB_CODE_OUT_OF_MEMORY; } pDispatcher->sink.pInputDataBlockDesc = (SDataBlockDescNode*)nodesCloneNode((SNode*)pRoot->pOutputDataBlockDesc); if (NULL == pDispatcher->sink.pInputDataBlockDesc) { nodesDestroyNode((SNode*)pDispatcher); return TSDB_CODE_OUT_OF_MEMORY; } *pSink = (SDataSinkNode*)pDispatcher; return TSDB_CODE_SUCCESS; } static SSubplan* makeSubplan(SPhysiPlanContext* pCxt, SLogicSubplan* pLogicSubplan) { SSubplan* pSubplan = (SSubplan*)nodesMakeNode(QUERY_NODE_PHYSICAL_SUBPLAN); if (NULL == pSubplan) { return NULL; } pSubplan->id = pLogicSubplan->id; pSubplan->subplanType = pLogicSubplan->subplanType; pSubplan->level = pLogicSubplan->level; if (NULL != pCxt->pPlanCxt->pUser) { snprintf(pSubplan->user, sizeof(pSubplan->user), "%s", pCxt->pPlanCxt->pUser); } return pSubplan; } static int32_t buildInsertValuesSubplan(SPhysiPlanContext* pCxt, SVnodeModifyLogicNode* pModify, SSubplan* pSubplan) { pSubplan->msgType = pModify->msgType; pSubplan->execNode.nodeId = pModify->pVgDataBlocks->vg.vgId; pSubplan->execNode.epSet = pModify->pVgDataBlocks->vg.epSet; return createDataInserter(pCxt, pModify->pVgDataBlocks, &pSubplan->pDataSink); } static int32_t createQueryInserter(SPhysiPlanContext* pCxt, SVnodeModifyLogicNode* pModify, SSubplan* pSubplan, SDataSinkNode** pSink) { SQueryInserterNode* pInserter = (SQueryInserterNode*)nodesMakeNode(QUERY_NODE_PHYSICAL_PLAN_QUERY_INSERT); if (NULL == pInserter) { return TSDB_CODE_OUT_OF_MEMORY; } pInserter->tableId = pModify->tableId; pInserter->stableId = pModify->stableId; pInserter->tableType = pModify->tableType; strcpy(pInserter->tableName, pModify->tableName); pInserter->vgId = pModify->pVgroupList->vgroups[0].vgId; pInserter->epSet = pModify->pVgroupList->vgroups[0].epSet; vgroupInfoToNodeAddr(pModify->pVgroupList->vgroups, &pSubplan->execNode); int32_t code = setListSlotId(pCxt, pSubplan->pNode->pOutputDataBlockDesc->dataBlockId, -1, pModify->pInsertCols, &pInserter->pCols); if (TSDB_CODE_SUCCESS == code) { pInserter->sink.pInputDataBlockDesc = (SDataBlockDescNode*)nodesCloneNode((SNode*)pSubplan->pNode->pOutputDataBlockDesc); if (NULL == pInserter->sink.pInputDataBlockDesc) { code = TSDB_CODE_OUT_OF_MEMORY; } } if (TSDB_CODE_SUCCESS == code) { *pSink = (SDataSinkNode*)pInserter; } else { nodesDestroyNode((SNode*)pInserter); } return code; } static int32_t buildInsertSelectSubplan(SPhysiPlanContext* pCxt, SVnodeModifyLogicNode* pModify, SSubplan* pSubplan) { int32_t code = createPhysiNode(pCxt, (SLogicNode*)nodesListGetNode(pModify->node.pChildren, 0), pSubplan, &pSubplan->pNode); if (TSDB_CODE_SUCCESS == code) { code = createQueryInserter(pCxt, pModify, pSubplan, &pSubplan->pDataSink); } pSubplan->msgType = TDMT_SCH_MERGE_QUERY; return code; } static int32_t buildInsertSubplan(SPhysiPlanContext* pCxt, SVnodeModifyLogicNode* pModify, SSubplan* pSubplan) { if (NULL == pModify->node.pChildren) { return buildInsertValuesSubplan(pCxt, pModify, pSubplan); } return buildInsertSelectSubplan(pCxt, pModify, pSubplan); } static int32_t createDataDeleter(SPhysiPlanContext* pCxt, SVnodeModifyLogicNode* pModify, const SPhysiNode* pRoot, SDataSinkNode** pSink) { SDataDeleterNode* pDeleter = (SDataDeleterNode*)nodesMakeNode(QUERY_NODE_PHYSICAL_PLAN_DELETE); if (NULL == pDeleter) { return TSDB_CODE_OUT_OF_MEMORY; } pDeleter->tableId = pModify->tableId; pDeleter->tableType = pModify->tableType; strcpy(pDeleter->tableFName, pModify->tableName); strcpy(pDeleter->tsColName, pModify->tsColName); pDeleter->deleteTimeRange = pModify->deleteTimeRange; int32_t code = setNodeSlotId(pCxt, pRoot->pOutputDataBlockDesc->dataBlockId, -1, pModify->pAffectedRows, &pDeleter->pAffectedRows); if (TSDB_CODE_SUCCESS == code) { code = setNodeSlotId(pCxt, pRoot->pOutputDataBlockDesc->dataBlockId, -1, pModify->pStartTs, &pDeleter->pStartTs); } if (TSDB_CODE_SUCCESS == code) { code = setNodeSlotId(pCxt, pRoot->pOutputDataBlockDesc->dataBlockId, -1, pModify->pEndTs, &pDeleter->pEndTs); } if (TSDB_CODE_SUCCESS == code) { pDeleter->sink.pInputDataBlockDesc = (SDataBlockDescNode*)nodesCloneNode((SNode*)pRoot->pOutputDataBlockDesc); if (NULL == pDeleter->sink.pInputDataBlockDesc) { code = TSDB_CODE_OUT_OF_MEMORY; } } if (TSDB_CODE_SUCCESS == code) { *pSink = (SDataSinkNode*)pDeleter; } else { nodesDestroyNode((SNode*)pDeleter); } return TSDB_CODE_SUCCESS; } static int32_t buildDeleteSubplan(SPhysiPlanContext* pCxt, SVnodeModifyLogicNode* pModify, SSubplan* pSubplan) { int32_t code = createPhysiNode(pCxt, (SLogicNode*)nodesListGetNode(pModify->node.pChildren, 0), pSubplan, &pSubplan->pNode); if (TSDB_CODE_SUCCESS == code) { code = createDataDeleter(pCxt, pModify, pSubplan->pNode, &pSubplan->pDataSink); } pSubplan->msgType = TDMT_VND_DELETE; return code; } static int32_t buildVnodeModifySubplan(SPhysiPlanContext* pCxt, SLogicSubplan* pLogicSubplan, SSubplan* pSubplan) { int32_t code = TSDB_CODE_SUCCESS; SVnodeModifyLogicNode* pModify = (SVnodeModifyLogicNode*)pLogicSubplan->pNode; switch (pModify->modifyType) { case MODIFY_TABLE_TYPE_INSERT: code = buildInsertSubplan(pCxt, pModify, pSubplan); break; case MODIFY_TABLE_TYPE_DELETE: code = buildDeleteSubplan(pCxt, pModify, pSubplan); break; default: code = TSDB_CODE_FAILED; break; } return code; } static int32_t createPhysiSubplan(SPhysiPlanContext* pCxt, SLogicSubplan* pLogicSubplan, SSubplan** pPhysiSubplan) { SSubplan* pSubplan = makeSubplan(pCxt, pLogicSubplan); if (NULL == pSubplan) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t code = TSDB_CODE_SUCCESS; if (SUBPLAN_TYPE_MODIFY == pLogicSubplan->subplanType) { code = buildVnodeModifySubplan(pCxt, pLogicSubplan, pSubplan); } else { if (SUBPLAN_TYPE_SCAN == pSubplan->subplanType) { pSubplan->msgType = TDMT_SCH_QUERY; } else { pSubplan->msgType = TDMT_SCH_MERGE_QUERY; } code = createPhysiNode(pCxt, pLogicSubplan->pNode, pSubplan, &pSubplan->pNode); if (TSDB_CODE_SUCCESS == code && !pCxt->pPlanCxt->streamQuery && !pCxt->pPlanCxt->topicQuery) { code = createDataDispatcher(pCxt, pSubplan->pNode, &pSubplan->pDataSink); } } if (TSDB_CODE_SUCCESS == code) { *pPhysiSubplan = pSubplan; } else { nodesDestroyNode((SNode*)pSubplan); } return code; } static SQueryPlan* makeQueryPhysiPlan(SPhysiPlanContext* pCxt) { SQueryPlan* pPlan = (SQueryPlan*)nodesMakeNode(QUERY_NODE_PHYSICAL_PLAN); if (NULL == pPlan) { return NULL; } pPlan->pSubplans = nodesMakeList(); if (NULL == pPlan->pSubplans) { nodesDestroyNode((SNode*)pPlan); return NULL; } pPlan->queryId = pCxt->pPlanCxt->queryId; return pPlan; } static int32_t pushSubplan(SPhysiPlanContext* pCxt, SNode* pSubplan, int32_t level, SNodeList* pSubplans) { SNodeListNode* pGroup = NULL; if (level >= LIST_LENGTH(pSubplans)) { pGroup = (SNodeListNode*)nodesMakeNode(QUERY_NODE_NODE_LIST); if (NULL == pGroup) { return TSDB_CODE_OUT_OF_MEMORY; } if (TSDB_CODE_SUCCESS != nodesListStrictAppend(pSubplans, (SNode*)pGroup)) { return TSDB_CODE_OUT_OF_MEMORY; } } else { pGroup = (SNodeListNode*)nodesListGetNode(pSubplans, level); } if (NULL == pGroup->pNodeList) { pGroup->pNodeList = nodesMakeList(); if (NULL == pGroup->pNodeList) { return TSDB_CODE_OUT_OF_MEMORY; } } return nodesListAppend(pGroup->pNodeList, (SNode*)pSubplan); } static int32_t buildPhysiPlan(SPhysiPlanContext* pCxt, SLogicSubplan* pLogicSubplan, SSubplan* pParent, SQueryPlan* pQueryPlan) { SSubplan* pSubplan = NULL; int32_t code = createPhysiSubplan(pCxt, pLogicSubplan, &pSubplan); if (TSDB_CODE_SUCCESS == code) { code = pushSubplan(pCxt, (SNode*)pSubplan, pLogicSubplan->level, pQueryPlan->pSubplans); ++(pQueryPlan->numOfSubplans); } if (TSDB_CODE_SUCCESS != code) { nodesDestroyNode((SNode*)pSubplan); return code; } if (TSDB_CODE_SUCCESS == code && NULL != pParent) { code = nodesListMakeAppend(&pParent->pChildren, (SNode*)pSubplan); if (TSDB_CODE_SUCCESS == code) { code = nodesListMakeAppend(&pSubplan->pParents, (SNode*)pParent); } } if (TSDB_CODE_SUCCESS == code) { SNode* pChild = NULL; FOREACH(pChild, pLogicSubplan->pChildren) { code = buildPhysiPlan(pCxt, (SLogicSubplan*)pChild, pSubplan, pQueryPlan); if (TSDB_CODE_SUCCESS != code) { break; } } } return code; } static int32_t doCreatePhysiPlan(SPhysiPlanContext* pCxt, SQueryLogicPlan* pLogicPlan, SQueryPlan** pPhysiPlan) { SQueryPlan* pPlan = (SQueryPlan*)makeQueryPhysiPlan(pCxt); if (NULL == pPlan) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t code = TSDB_CODE_SUCCESS; SNode* pSubplan = NULL; FOREACH(pSubplan, pLogicPlan->pTopSubplans) { code = buildPhysiPlan(pCxt, (SLogicSubplan*)pSubplan, NULL, pPlan); if (TSDB_CODE_SUCCESS != code) { break; } } if (TSDB_CODE_SUCCESS == code) { *pPhysiPlan = pPlan; } else { nodesDestroyNode((SNode*)pPlan); } return code; } static void destoryLocationHash(void* p) { SHashObj* pHash = *(SHashObj**)p; SSlotIndex* pIndex = taosHashIterate(pHash, NULL); while (NULL != pIndex) { taosArrayDestroy(pIndex->pSlotIdsInfo); pIndex = taosHashIterate(pHash, pIndex); } taosHashCleanup(pHash); } static void destoryPhysiPlanContext(SPhysiPlanContext* pCxt) { taosArrayDestroyEx(pCxt->pLocationHelper, destoryLocationHash); } static void setExplainInfo(SPlanContext* pCxt, SQueryPlan* pPlan) { if (QUERY_NODE_EXPLAIN_STMT == nodeType(pCxt->pAstRoot)) { SExplainStmt* pStmt = (SExplainStmt*)pCxt->pAstRoot; pPlan->explainInfo.mode = pStmt->analyze ? EXPLAIN_MODE_ANALYZE : EXPLAIN_MODE_STATIC; pPlan->explainInfo.verbose = pStmt->pOptions->verbose; pPlan->explainInfo.ratio = pStmt->pOptions->ratio; } else { pPlan->explainInfo.mode = EXPLAIN_MODE_DISABLE; } } static void setExecNodeList(SPhysiPlanContext* pCxt, SArray* pExecNodeList) { if (NULL == pExecNodeList) { return; } if (pCxt->hasSysScan || !pCxt->hasScan) { SQueryNodeLoad node = {.addr = {.nodeId = MNODE_HANDLE, .epSet = pCxt->pPlanCxt->mgmtEpSet}, .load = 0}; taosArrayPush(pExecNodeList, &node); } } int32_t createPhysiPlan(SPlanContext* pCxt, SQueryLogicPlan* pLogicPlan, SQueryPlan** pPlan, SArray* pExecNodeList) { SPhysiPlanContext cxt = {.pPlanCxt = pCxt, .errCode = TSDB_CODE_SUCCESS, .nextDataBlockId = 0, .pLocationHelper = taosArrayInit(32, POINTER_BYTES), .hasScan = false, .hasSysScan = false}; if (NULL == cxt.pLocationHelper) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t code = doCreatePhysiPlan(&cxt, pLogicPlan, pPlan); if (TSDB_CODE_SUCCESS == code) { setExplainInfo(pCxt, *pPlan); setExecNodeList(&cxt, pExecNodeList); } destoryPhysiPlanContext(&cxt); return code; }