/* * 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 "functionMgt.h" #include "planInt.h" #define OPTIMIZE_FLAG_MASK(n) (1 << n) #define OPTIMIZE_FLAG_OSD OPTIMIZE_FLAG_MASK(0) #define OPTIMIZE_FLAG_CPD OPTIMIZE_FLAG_MASK(1) #define OPTIMIZE_FLAG_OPK OPTIMIZE_FLAG_MASK(2) #define OPTIMIZE_FLAG_SET_MASK(val, mask) (val) |= (mask) #define OPTIMIZE_FLAG_TEST_MASK(val, mask) (((val) & (mask)) != 0) typedef struct SOptimizeContext { SPlanContext* pPlanCxt; bool optimized; } SOptimizeContext; typedef int32_t (*FMatch)(SOptimizeContext* pCxt, SLogicNode* pLogicNode); typedef int32_t (*FOptimize)(SOptimizeContext* pCxt, SLogicNode* pLogicNode); typedef struct SOptimizeRule { char* pName; FOptimize optimizeFunc; } SOptimizeRule; typedef struct SOsdInfo { SScanLogicNode* pScan; SNodeList* pSdrFuncs; SNodeList* pDsoFuncs; } SOsdInfo; typedef struct SCpdIsMultiTableCondCxt { SNodeList* pLeftCols; SNodeList* pRightCols; bool havaLeftCol; bool haveRightCol; } SCpdIsMultiTableCondCxt; typedef enum ECondAction { COND_ACTION_STAY = 1, COND_ACTION_PUSH_JOIN, COND_ACTION_PUSH_LEFT_CHILD, COND_ACTION_PUSH_RIGHT_CHILD // after supporting outer join, there are other possibilities } ECondAction; typedef bool (*FMayBeOptimized)(SLogicNode* pNode); static SLogicNode* optFindPossibleNode(SLogicNode* pNode, FMayBeOptimized func) { if (func(pNode)) { return pNode; } SNode* pChild; FOREACH(pChild, pNode->pChildren) { SLogicNode* pScanNode = optFindPossibleNode((SLogicNode*)pChild, func); if (NULL != pScanNode) { return pScanNode; } } return NULL; } EDealRes osdHaveNormalColImpl(SNode* pNode, void* pContext) { if (QUERY_NODE_COLUMN == nodeType(pNode)) { *((bool*)pContext) = (COLUMN_TYPE_TAG != ((SColumnNode*)pNode)->colType); return *((bool*)pContext) ? DEAL_RES_END : DEAL_RES_IGNORE_CHILD; } return DEAL_RES_CONTINUE; } static bool osdHaveNormalCol(SNodeList* pList) { bool res = false; nodesWalkExprsPostOrder(pList, osdHaveNormalColImpl, &res); return res; } static bool osdMayBeOptimized(SLogicNode* pNode) { if (OPTIMIZE_FLAG_TEST_MASK(pNode->optimizedFlag, OPTIMIZE_FLAG_OSD)) { return false; } if (QUERY_NODE_LOGIC_PLAN_SCAN != nodeType(pNode)) { return false; } // todo: release after function splitting if (TSDB_SUPER_TABLE == ((SScanLogicNode*)pNode)->pMeta->tableType) { return false; } if (NULL == pNode->pParent || (QUERY_NODE_LOGIC_PLAN_WINDOW != nodeType(pNode->pParent) && QUERY_NODE_LOGIC_PLAN_AGG != nodeType(pNode->pParent))) { return false; } if (QUERY_NODE_LOGIC_PLAN_WINDOW == nodeType(pNode->pParent)) { return (WINDOW_TYPE_INTERVAL == ((SWindowLogicNode*)pNode->pParent)->winType); } return !osdHaveNormalCol(((SAggLogicNode*)pNode->pParent)->pGroupKeys); } static SNodeList* osdGetAllFuncs(SLogicNode* pNode) { switch (nodeType(pNode)) { case QUERY_NODE_LOGIC_PLAN_WINDOW: return ((SWindowLogicNode*)pNode)->pFuncs; case QUERY_NODE_LOGIC_PLAN_AGG: return ((SAggLogicNode*)pNode)->pAggFuncs; default: break; } return NULL; } static bool needOptimizeDataRequire(const SFunctionNode* pFunc) { if (!fmIsSpecialDataRequiredFunc(pFunc->funcId)) { return false; } SNode* pPara = NULL; FOREACH(pPara, pFunc->pParameterList) { if (QUERY_NODE_COLUMN != nodeType(pPara) && QUERY_NODE_VALUE != nodeType(pPara)) { return false; } } return true; } static bool needOptimizeDynamicScan(const SFunctionNode* pFunc) { if (!fmIsDynamicScanOptimizedFunc(pFunc->funcId)) { return false; } SNode* pPara = NULL; FOREACH(pPara, pFunc->pParameterList) { if (QUERY_NODE_COLUMN != nodeType(pPara) && QUERY_NODE_VALUE != nodeType(pPara)) { return false; } } return true; } static int32_t osdGetRelatedFuncs(SScanLogicNode* pScan, SNodeList** pSdrFuncs, SNodeList** pDsoFuncs) { SNodeList* pAllFuncs = osdGetAllFuncs(pScan->node.pParent); SNodeList* pTmpSdrFuncs = NULL; SNodeList* pTmpDsoFuncs = NULL; SNode* pFunc = NULL; bool otherFunc = false; FOREACH(pFunc, pAllFuncs) { int32_t code = TSDB_CODE_SUCCESS; if (needOptimizeDataRequire((SFunctionNode*)pFunc)) { code = nodesListMakeStrictAppend(&pTmpSdrFuncs, nodesCloneNode(pFunc)); } else if (needOptimizeDynamicScan((SFunctionNode*)pFunc)) { code = nodesListMakeStrictAppend(&pTmpDsoFuncs, nodesCloneNode(pFunc)); } else { otherFunc = true; } if (TSDB_CODE_SUCCESS != code) { nodesDestroyList(pTmpSdrFuncs); nodesDestroyList(pTmpDsoFuncs); return code; } } if (otherFunc) { nodesDestroyList(pTmpSdrFuncs); nodesDestroyList(pTmpDsoFuncs); } else { *pSdrFuncs = pTmpSdrFuncs; *pDsoFuncs = pTmpDsoFuncs; } return TSDB_CODE_SUCCESS; } static int32_t osdMatch(SOptimizeContext* pCxt, SLogicNode* pLogicNode, SOsdInfo* pInfo) { pInfo->pScan = (SScanLogicNode*)optFindPossibleNode(pLogicNode, osdMayBeOptimized); if (NULL == pInfo->pScan) { return TSDB_CODE_SUCCESS; } return osdGetRelatedFuncs(pInfo->pScan, &pInfo->pSdrFuncs, &pInfo->pDsoFuncs); } static EFuncDataRequired osdPromoteDataRequired(EFuncDataRequired l, EFuncDataRequired r) { switch (l) { case FUNC_DATA_REQUIRED_DATA_LOAD: return l; case FUNC_DATA_REQUIRED_STATIS_LOAD: return FUNC_DATA_REQUIRED_DATA_LOAD == r ? r : l; case FUNC_DATA_REQUIRED_NOT_LOAD: return FUNC_DATA_REQUIRED_FILTEROUT == r ? l : r; default: break; } return r; } static int32_t osdGetDataRequired(SNodeList* pFuncs) { if (NULL == pFuncs) { return FUNC_DATA_REQUIRED_DATA_LOAD; } EFuncDataRequired dataRequired = FUNC_DATA_REQUIRED_FILTEROUT; SNode* pFunc = NULL; FOREACH(pFunc, pFuncs) { dataRequired = osdPromoteDataRequired(dataRequired, fmFuncDataRequired((SFunctionNode*)pFunc, NULL)); } return dataRequired; } static void setScanWindowInfo(SScanLogicNode* pScan) { if (QUERY_NODE_LOGIC_PLAN_WINDOW == nodeType(pScan->node.pParent) && WINDOW_TYPE_INTERVAL == ((SWindowLogicNode*)pScan->node.pParent)->winType) { pScan->interval = ((SWindowLogicNode*)pScan->node.pParent)->interval; pScan->offset = ((SWindowLogicNode*)pScan->node.pParent)->offset; pScan->sliding = ((SWindowLogicNode*)pScan->node.pParent)->sliding; pScan->intervalUnit = ((SWindowLogicNode*)pScan->node.pParent)->intervalUnit; pScan->slidingUnit = ((SWindowLogicNode*)pScan->node.pParent)->slidingUnit; } } static int32_t osdOptimize(SOptimizeContext* pCxt, SLogicNode* pLogicNode) { SOsdInfo info = {0}; int32_t code = osdMatch(pCxt, pLogicNode, &info); if (TSDB_CODE_SUCCESS == code && info.pScan) { setScanWindowInfo((SScanLogicNode*)info.pScan); } if (TSDB_CODE_SUCCESS == code && (NULL != info.pDsoFuncs || NULL != info.pSdrFuncs)) { info.pScan->dataRequired = osdGetDataRequired(info.pSdrFuncs); info.pScan->pDynamicScanFuncs = info.pDsoFuncs; OPTIMIZE_FLAG_SET_MASK(info.pScan->node.optimizedFlag, OPTIMIZE_FLAG_OSD); pCxt->optimized = true; } nodesDestroyList(info.pSdrFuncs); return code; } static int32_t cpdMergeCond(SNode** pDst, SNode** pSrc) { SLogicConditionNode* pLogicCond = nodesMakeNode(QUERY_NODE_LOGIC_CONDITION); if (NULL == pLogicCond) { return TSDB_CODE_OUT_OF_MEMORY; } pLogicCond->node.resType.type = TSDB_DATA_TYPE_BOOL; pLogicCond->node.resType.bytes = tDataTypes[TSDB_DATA_TYPE_BOOL].bytes; pLogicCond->condType = LOGIC_COND_TYPE_AND; int32_t code = nodesListMakeAppend(&pLogicCond->pParameterList, *pSrc); if (TSDB_CODE_SUCCESS == code) { *pSrc = NULL; code = nodesListMakeAppend(&pLogicCond->pParameterList, *pDst); } if (TSDB_CODE_SUCCESS == code) { *pDst = (SNode*)pLogicCond; } else { nodesDestroyNode(pLogicCond); } return code; } static int32_t cpdMergeConds(SNode** pDst, SNodeList** pSrc) { if (NULL == *pSrc) { return TSDB_CODE_SUCCESS; } if (1 == LIST_LENGTH(*pSrc)) { *pDst = nodesListGetNode(*pSrc, 0); nodesClearList(*pSrc); } else { SLogicConditionNode* pLogicCond = nodesMakeNode(QUERY_NODE_LOGIC_CONDITION); if (NULL == pLogicCond) { return TSDB_CODE_OUT_OF_MEMORY; } pLogicCond->node.resType.type = TSDB_DATA_TYPE_BOOL; pLogicCond->node.resType.bytes = tDataTypes[TSDB_DATA_TYPE_BOOL].bytes; pLogicCond->condType = LOGIC_COND_TYPE_AND; pLogicCond->pParameterList = *pSrc; *pDst = (SNode*)pLogicCond; } *pSrc = NULL; return TSDB_CODE_SUCCESS; } static int32_t cpdCondAppend(SNode** pCond, SNode** pAdditionalCond) { if (NULL == *pCond) { TSWAP(*pCond, *pAdditionalCond); return TSDB_CODE_SUCCESS; } int32_t code = TSDB_CODE_SUCCESS; if (QUERY_NODE_LOGIC_CONDITION == nodeType(*pCond)) { code = nodesListAppend(((SLogicConditionNode*)*pCond)->pParameterList, *pAdditionalCond); if (TSDB_CODE_SUCCESS == code) { *pAdditionalCond = NULL; } } else { code = cpdMergeCond(pCond, pAdditionalCond); } return code; } static EDealRes cpdIsPrimaryKeyCondImpl(SNode* pNode, void* pContext) { if (QUERY_NODE_COLUMN == nodeType(pNode)) { *((bool*)pContext) = ((PRIMARYKEY_TIMESTAMP_COL_ID == ((SColumnNode*)pNode)->colId) ? true : false); return *((bool*)pContext) ? DEAL_RES_CONTINUE : DEAL_RES_END; } return DEAL_RES_CONTINUE; } static bool cpdIsPrimaryKeyCond(SNode* pNode) { bool isPrimaryKeyCond = false; nodesWalkExpr(pNode, cpdIsPrimaryKeyCondImpl, &isPrimaryKeyCond); return isPrimaryKeyCond; } static int32_t cpdPartitionScanLogicCond(SScanLogicNode* pScan, SNode** pPrimaryKeyCond, SNode** pOtherCond) { SLogicConditionNode* pLogicCond = (SLogicConditionNode*)pScan->node.pConditions; int32_t code = TSDB_CODE_SUCCESS; SNodeList* pPrimaryKeyConds = NULL; SNodeList* pOtherConds = NULL; SNode* pCond = NULL; FOREACH(pCond, pLogicCond->pParameterList) { if (cpdIsPrimaryKeyCond(pCond)) { code = nodesListMakeAppend(&pPrimaryKeyConds, nodesCloneNode(pCond)); } else { code = nodesListMakeAppend(&pOtherConds, nodesCloneNode(pCond)); } if (TSDB_CODE_SUCCESS != code) { break; } } SNode* pTempPrimaryKeyCond = NULL; SNode* pTempOtherCond = NULL; if (TSDB_CODE_SUCCESS == code) { code = cpdMergeConds(&pTempPrimaryKeyCond, &pPrimaryKeyConds); } if (TSDB_CODE_SUCCESS == code) { code = cpdMergeConds(&pTempOtherCond, &pOtherConds); } if (TSDB_CODE_SUCCESS == code) { *pPrimaryKeyCond = pTempPrimaryKeyCond; *pOtherCond = pTempOtherCond; nodesDestroyNode(pScan->node.pConditions); pScan->node.pConditions = NULL; } else { nodesDestroyList(pPrimaryKeyConds); nodesDestroyList(pOtherConds); nodesDestroyNode(pTempPrimaryKeyCond); nodesDestroyNode(pTempOtherCond); } return code; } static int32_t cpdPartitionScanCond(SScanLogicNode* pScan, SNode** pPrimaryKeyCond, SNode** pOtherCond) { if (QUERY_NODE_LOGIC_CONDITION == nodeType(pScan->node.pConditions) && LOGIC_COND_TYPE_AND == ((SLogicConditionNode*)pScan->node.pConditions)->condType) { return cpdPartitionScanLogicCond(pScan, pPrimaryKeyCond, pOtherCond); } if (cpdIsPrimaryKeyCond(pScan->node.pConditions)) { *pPrimaryKeyCond = pScan->node.pConditions; } else { *pOtherCond = pScan->node.pConditions; } pScan->node.pConditions = NULL; return TSDB_CODE_SUCCESS; } static int32_t cpdCalcTimeRange(SScanLogicNode* pScan, SNode** pPrimaryKeyCond, SNode** pOtherCond) { bool isStrict = false; int32_t code = filterGetTimeRange(*pPrimaryKeyCond, &pScan->scanRange, &isStrict); if (TSDB_CODE_SUCCESS == code) { if (isStrict) { nodesDestroyNode(*pPrimaryKeyCond); } else { code = cpdCondAppend(pOtherCond, pPrimaryKeyCond); } *pPrimaryKeyCond = NULL; } return code; } static int32_t cpdOptimizeScanCondition(SOptimizeContext* pCxt, SScanLogicNode* pScan) { if (NULL == pScan->node.pConditions || OPTIMIZE_FLAG_TEST_MASK(pScan->node.optimizedFlag, OPTIMIZE_FLAG_CPD) || TSDB_SYSTEM_TABLE == pScan->pMeta->tableType) { return TSDB_CODE_SUCCESS; } SNode* pPrimaryKeyCond = NULL; SNode* pOtherCond = NULL; int32_t code = cpdPartitionScanCond(pScan, &pPrimaryKeyCond, &pOtherCond); if (TSDB_CODE_SUCCESS == code && NULL != pPrimaryKeyCond) { code = cpdCalcTimeRange(pScan, &pPrimaryKeyCond, &pOtherCond); } if (TSDB_CODE_SUCCESS == code) { pScan->node.pConditions = pOtherCond; } if (TSDB_CODE_SUCCESS == code) { OPTIMIZE_FLAG_SET_MASK(pScan->node.optimizedFlag, OPTIMIZE_FLAG_CPD); pCxt->optimized = true; } else { nodesDestroyNode(pPrimaryKeyCond); nodesDestroyNode(pOtherCond); } return code; } static bool cpdBelongThisTable(SNode* pCondCol, SNodeList* pTableCols) { SNode* pTableCol = NULL; FOREACH(pTableCol, pTableCols) { if (nodesEqualNode(pCondCol, pTableCol)) { return true; } } return false; } static EDealRes cpdIsMultiTableCondImpl(SNode* pNode, void* pContext) { SCpdIsMultiTableCondCxt* pCxt = pContext; if (QUERY_NODE_COLUMN == nodeType(pNode)) { if (cpdBelongThisTable(pNode, pCxt->pLeftCols)) { pCxt->havaLeftCol = true; } else if (cpdBelongThisTable(pNode, pCxt->pRightCols)) { pCxt->haveRightCol = true; } return pCxt->havaLeftCol && pCxt->haveRightCol ? DEAL_RES_END : DEAL_RES_CONTINUE; } return DEAL_RES_CONTINUE; } static ECondAction cpdCondAction(EJoinType joinType, SNodeList* pLeftCols, SNodeList* pRightCols, SNode* pNode) { SCpdIsMultiTableCondCxt cxt = { .pLeftCols = pLeftCols, .pRightCols = pRightCols, .havaLeftCol = false, .haveRightCol = false}; nodesWalkExpr(pNode, cpdIsMultiTableCondImpl, &cxt); return (JOIN_TYPE_INNER != joinType ? COND_ACTION_STAY : (cxt.havaLeftCol && cxt.haveRightCol ? COND_ACTION_PUSH_JOIN : (cxt.havaLeftCol ? COND_ACTION_PUSH_LEFT_CHILD : COND_ACTION_PUSH_RIGHT_CHILD))); } static int32_t cpdPartitionLogicCond(SJoinLogicNode* pJoin, SNode** pOnCond, SNode** pLeftChildCond, SNode** pRightChildCond) { SLogicConditionNode* pLogicCond = (SLogicConditionNode*)pJoin->node.pConditions; if (LOGIC_COND_TYPE_AND != pLogicCond->condType) { return TSDB_CODE_SUCCESS; } SNodeList* pLeftCols = ((SLogicNode*)nodesListGetNode(pJoin->node.pChildren, 0))->pTargets; SNodeList* pRightCols = ((SLogicNode*)nodesListGetNode(pJoin->node.pChildren, 1))->pTargets; int32_t code = TSDB_CODE_SUCCESS; SNodeList* pOnConds = NULL; SNodeList* pLeftChildConds = NULL; SNodeList* pRightChildConds = NULL; SNodeList* pRemainConds = NULL; SNode* pCond = NULL; FOREACH(pCond, pLogicCond->pParameterList) { ECondAction condAction = cpdCondAction(pJoin->joinType, pLeftCols, pRightCols, pCond); if (COND_ACTION_PUSH_JOIN == condAction) { code = nodesListMakeAppend(&pOnConds, nodesCloneNode(pCond)); } else if (COND_ACTION_PUSH_LEFT_CHILD == condAction) { code = nodesListMakeAppend(&pLeftChildConds, nodesCloneNode(pCond)); } else if (COND_ACTION_PUSH_RIGHT_CHILD == condAction) { code = nodesListMakeAppend(&pRightChildConds, nodesCloneNode(pCond)); } else { code = nodesListMakeAppend(&pRemainConds, nodesCloneNode(pCond)); } if (TSDB_CODE_SUCCESS != code) { break; } } SNode* pTempOnCond = NULL; SNode* pTempLeftChildCond = NULL; SNode* pTempRightChildCond = NULL; SNode* pTempRemainCond = NULL; if (TSDB_CODE_SUCCESS == code) { code = cpdMergeConds(&pTempOnCond, &pOnConds); } if (TSDB_CODE_SUCCESS == code) { code = cpdMergeConds(&pTempLeftChildCond, &pLeftChildConds); } if (TSDB_CODE_SUCCESS == code) { code = cpdMergeConds(&pTempRightChildCond, &pRightChildConds); } if (TSDB_CODE_SUCCESS == code) { code = cpdMergeConds(&pTempRemainCond, &pRemainConds); } if (TSDB_CODE_SUCCESS == code) { *pOnCond = pTempOnCond; *pLeftChildCond = pTempLeftChildCond; *pRightChildCond = pTempRightChildCond; nodesDestroyNode(pJoin->node.pConditions); pJoin->node.pConditions = pTempRemainCond; } else { nodesDestroyList(pOnConds); nodesDestroyList(pLeftChildConds); nodesDestroyList(pRightChildConds); nodesDestroyList(pRemainConds); nodesDestroyNode(pTempOnCond); nodesDestroyNode(pTempLeftChildCond); nodesDestroyNode(pTempRightChildCond); nodesDestroyNode(pTempRemainCond); } return code; } static int32_t cpdPartitionOpCond(SJoinLogicNode* pJoin, SNode** pOnCond, SNode** pLeftChildCond, SNode** pRightChildCond) { SNodeList* pLeftCols = ((SLogicNode*)nodesListGetNode(pJoin->node.pChildren, 0))->pTargets; SNodeList* pRightCols = ((SLogicNode*)nodesListGetNode(pJoin->node.pChildren, 1))->pTargets; ECondAction condAction = cpdCondAction(pJoin->joinType, pLeftCols, pRightCols, pJoin->node.pConditions); if (COND_ACTION_STAY == condAction) { return TSDB_CODE_SUCCESS; } else if (COND_ACTION_PUSH_JOIN == condAction) { *pOnCond = pJoin->node.pConditions; } else if (COND_ACTION_PUSH_LEFT_CHILD == condAction) { *pLeftChildCond = pJoin->node.pConditions; } else if (COND_ACTION_PUSH_RIGHT_CHILD == condAction) { *pRightChildCond = pJoin->node.pConditions; } pJoin->node.pConditions = NULL; return TSDB_CODE_SUCCESS; } static int32_t cpdPartitionCond(SJoinLogicNode* pJoin, SNode** pOnCond, SNode** pLeftChildCond, SNode** pRightChildCond) { if (QUERY_NODE_LOGIC_CONDITION == nodeType(pJoin->node.pConditions)) { return cpdPartitionLogicCond(pJoin, pOnCond, pLeftChildCond, pRightChildCond); } else { return cpdPartitionOpCond(pJoin, pOnCond, pLeftChildCond, pRightChildCond); } } static int32_t cpdPushCondToOnCond(SOptimizeContext* pCxt, SJoinLogicNode* pJoin, SNode** pCond) { return cpdCondAppend(&pJoin->pOnConditions, pCond); } static int32_t cpdPushCondToScan(SOptimizeContext* pCxt, SScanLogicNode* pScan, SNode** pCond) { return cpdCondAppend(&pScan->node.pConditions, pCond); } static int32_t cpdPushCondToChild(SOptimizeContext* pCxt, SLogicNode* pChild, SNode** pCond) { switch (nodeType(pChild)) { case QUERY_NODE_LOGIC_PLAN_SCAN: return cpdPushCondToScan(pCxt, (SScanLogicNode*)pChild, pCond); default: break; } planError("cpdPushCondToChild failed, invalid logic plan node %s", nodesNodeName(nodeType(pChild))); return TSDB_CODE_PLAN_INTERNAL_ERROR; } static bool cpdIsPrimaryKey(SNode* pNode, SNodeList* pTableCols) { if (QUERY_NODE_COLUMN != nodeType(pNode)) { return false; } SColumnNode* pCol = (SColumnNode*)pNode; if (PRIMARYKEY_TIMESTAMP_COL_ID != pCol->colId) { return false; } return cpdBelongThisTable(pNode, pTableCols); } static bool cpdIsPrimaryKeyEqualCond(SJoinLogicNode* pJoin, SNode* pCond) { if (QUERY_NODE_OPERATOR != nodeType(pCond)) { return false; } SOperatorNode* pOper = (SOperatorNode*)pCond; if (OP_TYPE_EQUAL != pOper->opType) { return false; } SNodeList* pLeftCols = ((SLogicNode*)nodesListGetNode(pJoin->node.pChildren, 0))->pTargets; SNodeList* pRightCols = ((SLogicNode*)nodesListGetNode(pJoin->node.pChildren, 1))->pTargets; if (cpdIsPrimaryKey(pOper->pLeft, pLeftCols)) { return cpdIsPrimaryKey(pOper->pRight, pRightCols); } else if (cpdIsPrimaryKey(pOper->pLeft, pRightCols)) { return cpdIsPrimaryKey(pOper->pRight, pLeftCols); } return false; } static bool cpdContainPrimaryKeyEqualCond(SJoinLogicNode* pJoin, SNode* pCond) { if (QUERY_NODE_LOGIC_CONDITION == nodeType(pCond)) { SLogicConditionNode* pLogicCond = (SLogicConditionNode*)pCond; if (LOGIC_COND_TYPE_AND != pLogicCond->condType) { return false; } bool hasPrimaryKeyEqualCond = false; SNode* pCond = NULL; FOREACH(pCond, pLogicCond->pParameterList) { if (cpdContainPrimaryKeyEqualCond(pJoin, pCond)) { hasPrimaryKeyEqualCond = true; break; } } return hasPrimaryKeyEqualCond; } else { return cpdIsPrimaryKeyEqualCond(pJoin, pCond); } } // static int32_t cpdCheckOpCond(SOptimizeContext* pCxt, SJoinLogicNode* pJoin, SNode* pOnCond) { // if (!cpdIsPrimaryKeyEqualCond(pJoin, pOnCond)) { // return generateUsageErrMsg(pCxt->pPlanCxt->pMsg, pCxt->pPlanCxt->msgLen, TSDB_CODE_PLAN_EXPECTED_TS_EQUAL); // } // return TSDB_CODE_SUCCESS; // } // static int32_t cpdCheckLogicCond(SOptimizeContext* pCxt, SJoinLogicNode* pJoin, SLogicConditionNode* pOnCond) { // if (LOGIC_COND_TYPE_AND != pOnCond->condType) { // return generateUsageErrMsg(pCxt->pPlanCxt->pMsg, pCxt->pPlanCxt->msgLen, TSDB_CODE_PLAN_EXPECTED_TS_EQUAL); // } // bool hasPrimaryKeyEqualCond = false; // SNode* pCond = NULL; // FOREACH(pCond, pOnCond->pParameterList) { // if (cpdIsPrimaryKeyEqualCond(pJoin, pCond)) { // hasPrimaryKeyEqualCond = true; // } // } // if (!hasPrimaryKeyEqualCond) { // return generateUsageErrMsg(pCxt->pPlanCxt->pMsg, pCxt->pPlanCxt->msgLen, TSDB_CODE_PLAN_EXPECTED_TS_EQUAL); // } // return TSDB_CODE_SUCCESS; // } static int32_t cpdCheckJoinOnCond(SOptimizeContext* pCxt, SJoinLogicNode* pJoin) { if (NULL == pJoin->pOnConditions) { return generateUsageErrMsg(pCxt->pPlanCxt->pMsg, pCxt->pPlanCxt->msgLen, TSDB_CODE_PLAN_NOT_SUPPORT_CROSS_JOIN); } if (!cpdContainPrimaryKeyEqualCond(pJoin, pJoin->pOnConditions)) { return generateUsageErrMsg(pCxt->pPlanCxt->pMsg, pCxt->pPlanCxt->msgLen, TSDB_CODE_PLAN_EXPECTED_TS_EQUAL); } return TSDB_CODE_SUCCESS; // if (QUERY_NODE_LOGIC_CONDITION == nodeType(pJoin->pOnConditions)) { // return cpdCheckLogicCond(pCxt, pJoin, (SLogicConditionNode*)pJoin->pOnConditions); // } else { // return cpdCheckOpCond(pCxt, pJoin, pJoin->pOnConditions); // } } static int32_t cpdPushJoinCondition(SOptimizeContext* pCxt, SJoinLogicNode* pJoin) { if (OPTIMIZE_FLAG_TEST_MASK(pJoin->node.optimizedFlag, OPTIMIZE_FLAG_CPD)) { return TSDB_CODE_SUCCESS; } if (NULL == pJoin->node.pConditions) { return cpdCheckJoinOnCond(pCxt, pJoin); } SNode* pOnCond = NULL; SNode* pLeftChildCond = NULL; SNode* pRightChildCond = NULL; int32_t code = cpdPartitionCond(pJoin, &pOnCond, &pLeftChildCond, &pRightChildCond); if (TSDB_CODE_SUCCESS == code && NULL != pOnCond) { code = cpdPushCondToOnCond(pCxt, pJoin, &pOnCond); } if (TSDB_CODE_SUCCESS == code && NULL != pLeftChildCond) { code = cpdPushCondToChild(pCxt, (SLogicNode*)nodesListGetNode(pJoin->node.pChildren, 0), &pLeftChildCond); } if (TSDB_CODE_SUCCESS == code && NULL != pRightChildCond) { code = cpdPushCondToChild(pCxt, (SLogicNode*)nodesListGetNode(pJoin->node.pChildren, 1), &pRightChildCond); } if (TSDB_CODE_SUCCESS == code) { OPTIMIZE_FLAG_SET_MASK(pJoin->node.optimizedFlag, OPTIMIZE_FLAG_CPD); pCxt->optimized = true; code = cpdCheckJoinOnCond(pCxt, pJoin); } else { nodesDestroyNode(pOnCond); nodesDestroyNode(pLeftChildCond); nodesDestroyNode(pRightChildCond); } return code; } static int32_t cpdPushAggCondition(SOptimizeContext* pCxt, SAggLogicNode* pAgg) { // todo return TSDB_CODE_SUCCESS; } static int32_t cpdPushCondition(SOptimizeContext* pCxt, SLogicNode* pLogicNode) { int32_t code = TSDB_CODE_SUCCESS; switch (nodeType(pLogicNode)) { case QUERY_NODE_LOGIC_PLAN_SCAN: code = cpdOptimizeScanCondition(pCxt, (SScanLogicNode*)pLogicNode); break; case QUERY_NODE_LOGIC_PLAN_JOIN: code = cpdPushJoinCondition(pCxt, (SJoinLogicNode*)pLogicNode); break; case QUERY_NODE_LOGIC_PLAN_AGG: code = cpdPushAggCondition(pCxt, (SAggLogicNode*)pLogicNode); break; default: break; } if (TSDB_CODE_SUCCESS == code) { SNode* pChild = NULL; FOREACH(pChild, pLogicNode->pChildren) { code = cpdPushCondition(pCxt, (SLogicNode*)pChild); if (TSDB_CODE_SUCCESS != code) { break; } } } return code; } static int32_t cpdOptimize(SOptimizeContext* pCxt, SLogicNode* pLogicNode) { return cpdPushCondition(pCxt, pLogicNode); } static bool opkIsPrimaryKeyOrderBy(SNodeList* pSortKeys) { if (1 != LIST_LENGTH(pSortKeys)) { return false; } SNode* pNode = ((SOrderByExprNode*)nodesListGetNode(pSortKeys, 0))->pExpr; return (QUERY_NODE_COLUMN == nodeType(pNode) ? (PRIMARYKEY_TIMESTAMP_COL_ID == ((SColumnNode*)pNode)->colId) : false); } static bool opkSortMayBeOptimized(SLogicNode* pNode) { if (QUERY_NODE_LOGIC_PLAN_SORT != nodeType(pNode)) { return false; } if (OPTIMIZE_FLAG_TEST_MASK(pNode->optimizedFlag, OPTIMIZE_FLAG_OPK)) { return false; } return true; } static int32_t opkGetScanNodesImpl(SLogicNode* pNode, bool* pNotOptimize, SNodeList** pScanNodes) { int32_t code = TSDB_CODE_SUCCESS; switch (nodeType(pNode)) { case QUERY_NODE_LOGIC_PLAN_SCAN: if (TSDB_SUPER_TABLE != ((SScanLogicNode*)pNode)->pMeta->tableType) { return nodesListMakeAppend(pScanNodes, pNode); } break; case QUERY_NODE_LOGIC_PLAN_JOIN: code = opkGetScanNodesImpl(nodesListGetNode(pNode->pChildren, 0), pNotOptimize, pScanNodes); if (TSDB_CODE_SUCCESS == code) { code = opkGetScanNodesImpl(nodesListGetNode(pNode->pChildren, 1), pNotOptimize, pScanNodes); } return code; case QUERY_NODE_LOGIC_PLAN_AGG: *pNotOptimize = true; return code; default: break; } if (1 != LIST_LENGTH(pNode->pChildren)) { *pNotOptimize = true; return TSDB_CODE_SUCCESS; } return opkGetScanNodesImpl(nodesListGetNode(pNode->pChildren, 0), pNotOptimize, pScanNodes); } static int32_t opkGetScanNodes(SLogicNode* pNode, SNodeList** pScanNodes) { bool notOptimize = false; int32_t code = opkGetScanNodesImpl(pNode, ¬Optimize, pScanNodes); if (TSDB_CODE_SUCCESS != code || notOptimize) { nodesClearList(*pScanNodes); } return code; } static EOrder opkGetPrimaryKeyOrder(SSortLogicNode* pSort) { return ((SOrderByExprNode*)nodesListGetNode(pSort->pSortKeys, 0))->order; } static SNode* opkRewriteDownNode(SSortLogicNode* pSort) { SNode* pDownNode = nodesListGetNode(pSort->node.pChildren, 0); // todo pSort->node.pChildren = NULL; return pDownNode; } static int32_t opkDoOptimized(SOptimizeContext* pCxt, SSortLogicNode* pSort, SNodeList* pScanNodes) { EOrder order = opkGetPrimaryKeyOrder(pSort); if (ORDER_DESC == order) { SNode* pScan = NULL; FOREACH(pScan, pScanNodes) { TSWAP(((SScanLogicNode*)pScan)->scanSeq[0], ((SScanLogicNode*)pScan)->scanSeq[1]); } } if (NULL == pSort->node.pParent) { // todo return TSDB_CODE_SUCCESS; } SNode* pDownNode = opkRewriteDownNode(pSort); SNode* pNode; FOREACH(pNode, pSort->node.pParent->pChildren) { if (nodesEqualNode(pNode, pSort)) { REPLACE_NODE(pDownNode); break; } } nodesDestroyNode(pSort); return TSDB_CODE_SUCCESS; } static int32_t opkOptimizeImpl(SOptimizeContext* pCxt, SSortLogicNode* pSort) { OPTIMIZE_FLAG_SET_MASK(pSort->node.optimizedFlag, OPTIMIZE_FLAG_OPK); if (!opkIsPrimaryKeyOrderBy(pSort->pSortKeys) || 1 != LIST_LENGTH(pSort->node.pChildren)) { return TSDB_CODE_SUCCESS; } SNodeList* pScanNodes = NULL; int32_t code = opkGetScanNodes(nodesListGetNode(pSort->node.pChildren, 0), &pScanNodes); if (TSDB_CODE_SUCCESS == code && NULL != pScanNodes) { code = opkDoOptimized(pCxt, pSort, pScanNodes); } nodesClearList(pScanNodes); return code; } static int32_t opkOptimize(SOptimizeContext* pCxt, SLogicNode* pLogicNode) { SSortLogicNode* pSort = (SSortLogicNode*)optFindPossibleNode(pLogicNode, opkSortMayBeOptimized); if (NULL == pSort) { return TSDB_CODE_SUCCESS; } return opkOptimizeImpl(pCxt, pSort); } static const SOptimizeRule optimizeRuleSet[] = {{.pName = "OptimizeScanData", .optimizeFunc = osdOptimize}, {.pName = "ConditionPushDown", .optimizeFunc = cpdOptimize}, {.pName = "OrderByPrimaryKey", .optimizeFunc = opkOptimize}}; static const int32_t optimizeRuleNum = (sizeof(optimizeRuleSet) / sizeof(SOptimizeRule)); static int32_t applyOptimizeRule(SPlanContext* pCxt, SLogicNode* pLogicNode) { SOptimizeContext cxt = {.pPlanCxt = pCxt, .optimized = false}; do { cxt.optimized = false; for (int32_t i = 0; i < optimizeRuleNum; ++i) { int32_t code = optimizeRuleSet[i].optimizeFunc(&cxt, pLogicNode); if (TSDB_CODE_SUCCESS != code) { return code; } } } while (cxt.optimized); return TSDB_CODE_SUCCESS; } int32_t optimizeLogicPlan(SPlanContext* pCxt, SLogicNode* pLogicNode) { return applyOptimizeRule(pCxt, pLogicNode); }