/* * 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 "astCreateFuncs.h" #define CHECK_OUT_OF_MEM(p) \ do { \ if (NULL == (p)) { \ pCxt->valid = false; \ return NULL; \ } \ } while (0) #define CHECK_RAW_EXPR_NODE(node) \ do { \ if (NULL == (node) || QUERY_NODE_RAW_EXPR != nodeType(node)) { \ pCxt->valid = false; \ return NULL; \ } \ } while (0) SToken nil_token = { .type = TK_NIL, .n = 0, .z = NULL }; typedef SDatabaseOptions* (*FSetDatabaseOption)(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal); static FSetDatabaseOption setDbOptionFuncs[DB_OPTION_MAX]; static SDatabaseOptions* setDbBlocks(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_TOTAL_BLOCKS || val > TSDB_MAX_TOTAL_BLOCKS) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option totalBlocks: %d valid range: [%d, %d]", val, TSDB_MIN_TOTAL_BLOCKS, TSDB_MAX_TOTAL_BLOCKS); pCxt->valid = false; return pOptions; } pOptions->numOfBlocks = val; return pOptions; } static SDatabaseOptions* setDbCache(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_CACHE_BLOCK_SIZE || val > TSDB_MAX_CACHE_BLOCK_SIZE) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option cacheBlockSize: %d valid range: [%d, %d]", val, TSDB_MIN_CACHE_BLOCK_SIZE, TSDB_MAX_CACHE_BLOCK_SIZE); pCxt->valid = false; return pOptions; } pOptions->cacheBlockSize = val; return pOptions; } static SDatabaseOptions* setDbCacheLast(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_DB_CACHE_LAST_ROW || val > TSDB_MAX_DB_CACHE_LAST_ROW) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option cacheLast: %d valid range: [%d, %d]", val, TSDB_MIN_DB_CACHE_LAST_ROW, TSDB_MAX_DB_CACHE_LAST_ROW); pCxt->valid = false; return pOptions; } pOptions->cachelast = val; return pOptions; } static SDatabaseOptions* setDbComp(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_COMP_LEVEL || val > TSDB_MAX_COMP_LEVEL) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option compression: %d valid range: [%d, %d]", val, TSDB_MIN_COMP_LEVEL, TSDB_MAX_COMP_LEVEL); pCxt->valid = false; return pOptions; } pOptions->compressionLevel = val; return pOptions; } static SDatabaseOptions* setDbDays(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_DAYS_PER_FILE || val > TSDB_MAX_DAYS_PER_FILE) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option daysPerFile: %d valid range: [%d, %d]", val, TSDB_MIN_DAYS_PER_FILE, TSDB_MAX_DAYS_PER_FILE); pCxt->valid = false; return pOptions; } pOptions->daysPerFile = val; return pOptions; } static SDatabaseOptions* setDbFsync(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_FSYNC_PERIOD || val > TSDB_MAX_FSYNC_PERIOD) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option fsyncPeriod: %d valid range: [%d, %d]", val, TSDB_MIN_FSYNC_PERIOD, TSDB_MAX_FSYNC_PERIOD); pCxt->valid = false; return pOptions; } pOptions->fsyncPeriod = val; return pOptions; } static SDatabaseOptions* setDbMaxRows(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_MAX_ROW_FBLOCK || val > TSDB_MAX_MAX_ROW_FBLOCK) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option maxRowsPerBlock: %d valid range: [%d, %d]", val, TSDB_MIN_MAX_ROW_FBLOCK, TSDB_MAX_MAX_ROW_FBLOCK); pCxt->valid = false; return pOptions; } pOptions->maxRowsPerBlock = val; return pOptions; } static SDatabaseOptions* setDbMinRows(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_MIN_ROW_FBLOCK || val > TSDB_MAX_MIN_ROW_FBLOCK) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option minRowsPerBlock: %d valid range: [%d, %d]", val, TSDB_MIN_MIN_ROW_FBLOCK, TSDB_MAX_MIN_ROW_FBLOCK); pCxt->valid = false; return pOptions; } pOptions->minRowsPerBlock = val; return pOptions; } static SDatabaseOptions* setDbKeep(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_KEEP || val > TSDB_MAX_KEEP) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option keep: %d valid range: [%d, %d]", val, TSDB_MIN_KEEP, TSDB_MAX_KEEP); pCxt->valid = false; return pOptions; } pOptions->keep = val; return pOptions; } static SDatabaseOptions* setDbPrecision(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { if (0 == strncmp(pVal->z, TSDB_TIME_PRECISION_MILLI_STR, pVal->n) && strlen(TSDB_TIME_PRECISION_MILLI_STR) == pVal->n) { pOptions->precision = TSDB_TIME_PRECISION_MILLI; } else if (0 == strncmp(pVal->z, TSDB_TIME_PRECISION_MICRO_STR, pVal->n) && strlen(TSDB_TIME_PRECISION_MICRO_STR) == pVal->n) { pOptions->precision = TSDB_TIME_PRECISION_MICRO; } else if (0 == strncmp(pVal->z, TSDB_TIME_PRECISION_NANO_STR, pVal->n) && strlen(TSDB_TIME_PRECISION_NANO_STR) == pVal->n) { pOptions->precision = TSDB_TIME_PRECISION_NANO; } else { char tmp[10]; strncpy(tmp, pVal->z, pVal->n); snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option precision: %s", tmp); pCxt->valid = false; } return pOptions; } static SDatabaseOptions* setDbQuorum(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_DB_QUORUM_OPTION || val > TSDB_MAX_DB_QUORUM_OPTION) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option quorum: %d valid range: [%d, %d]", val, TSDB_MIN_DB_QUORUM_OPTION, TSDB_MAX_DB_QUORUM_OPTION); pCxt->valid = false; return pOptions; } pOptions->quorum = val; return pOptions; } static SDatabaseOptions* setDbReplica(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_DB_REPLICA_OPTION || val > TSDB_MAX_DB_REPLICA_OPTION) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option replications: %d valid range: [%d, %d]", val, TSDB_MIN_DB_REPLICA_OPTION, TSDB_MAX_DB_REPLICA_OPTION); pCxt->valid = false; return pOptions; } pOptions->replica = val; return pOptions; } static SDatabaseOptions* setDbTtl(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_DB_TTL_OPTION) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option ttl: %d, should be greater than or equal to %d", val, TSDB_MIN_DB_TTL_OPTION); pCxt->valid = false; return pOptions; } pOptions->ttl = val; return pOptions; } static SDatabaseOptions* setDbWal(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_WAL_LEVEL || val > TSDB_MAX_WAL_LEVEL) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option walLevel: %d, only 1-2 allowed", val); pCxt->valid = false; return pOptions; } pOptions->walLevel = val; return pOptions; } static SDatabaseOptions* setDbVgroups(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_VNODES_PER_DB || val > TSDB_MAX_VNODES_PER_DB) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option vgroups: %d valid range: [%d, %d]", val, TSDB_MIN_VNODES_PER_DB, TSDB_MAX_VNODES_PER_DB); pCxt->valid = false; return pOptions; } pOptions->numOfVgroups = val; return pOptions; } static SDatabaseOptions* setDbSingleStable(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_DB_SINGLE_STABLE_OPTION || val > TSDB_MAX_DB_SINGLE_STABLE_OPTION) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option singleStable: %d, only 0-1 allowed", val); pCxt->valid = false; return pOptions; } pOptions->singleStable = val; return pOptions; } static SDatabaseOptions* setDbStreamMode(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, const SToken* pVal) { int64_t val = strtol(pVal->z, NULL, 10); if (val < TSDB_MIN_DB_STREAM_MODE_OPTION || val > TSDB_MAX_DB_STREAM_MODE_OPTION) { snprintf(pCxt->pQueryCxt->pMsg, pCxt->pQueryCxt->msgLen, "invalid db option streamMode: %d, only 0-1 allowed", val); pCxt->valid = false; return pOptions; } pOptions->streamMode = val; return pOptions; } static void initSetDatabaseOptionFp() { setDbOptionFuncs[DB_OPTION_BLOCKS] = setDbBlocks; setDbOptionFuncs[DB_OPTION_CACHE] = setDbCache; setDbOptionFuncs[DB_OPTION_CACHELAST] = setDbCacheLast; setDbOptionFuncs[DB_OPTION_COMP] = setDbComp; setDbOptionFuncs[DB_OPTION_DAYS] = setDbDays; setDbOptionFuncs[DB_OPTION_FSYNC] = setDbFsync; setDbOptionFuncs[DB_OPTION_MAXROWS] = setDbMaxRows; setDbOptionFuncs[DB_OPTION_MINROWS] = setDbMinRows; setDbOptionFuncs[DB_OPTION_KEEP] = setDbKeep; setDbOptionFuncs[DB_OPTION_PRECISION] = setDbPrecision; setDbOptionFuncs[DB_OPTION_QUORUM] = setDbQuorum; setDbOptionFuncs[DB_OPTION_REPLICA] = setDbReplica; setDbOptionFuncs[DB_OPTION_TTL] = setDbTtl; setDbOptionFuncs[DB_OPTION_WAL] = setDbWal; setDbOptionFuncs[DB_OPTION_VGROUPS] = setDbVgroups; setDbOptionFuncs[DB_OPTION_SINGLESTABLE] = setDbSingleStable; setDbOptionFuncs[DB_OPTION_STREAMMODE] = setDbStreamMode; } void initAstCreateContext(SParseContext* pParseCxt, SAstCreateContext* pCxt) { pCxt->pQueryCxt = pParseCxt; pCxt->notSupport = false; pCxt->valid = true; pCxt->pRootNode = NULL; initSetDatabaseOptionFp(); } static bool checkDbName(SAstCreateContext* pCxt, const SToken* pDbName) { if (NULL == pDbName) { return true; } pCxt->valid = pDbName->n < TSDB_DB_NAME_LEN ? true : false; return pCxt->valid; } static bool checkTableName(SAstCreateContext* pCxt, const SToken* pTableName) { if (NULL == pTableName) { return true; } pCxt->valid = pTableName->n < TSDB_TABLE_NAME_LEN ? true : false; return pCxt->valid; } static bool checkColumnName(SAstCreateContext* pCxt, const SToken* pColumnName) { if (NULL == pColumnName) { return true; } pCxt->valid = pColumnName->n < TSDB_COL_NAME_LEN ? true : false; return pCxt->valid; } SNode* createRawExprNode(SAstCreateContext* pCxt, const SToken* pToken, SNode* pNode) { SRawExprNode* target = (SRawExprNode*)nodesMakeNode(QUERY_NODE_RAW_EXPR); CHECK_OUT_OF_MEM(target); target->p = pToken->z; target->n = pToken->n; target->pNode = pNode; return (SNode*)target; } SNode* createRawExprNodeExt(SAstCreateContext* pCxt, const SToken* pStart, const SToken* pEnd, SNode* pNode) { SRawExprNode* target = (SRawExprNode*)nodesMakeNode(QUERY_NODE_RAW_EXPR); CHECK_OUT_OF_MEM(target); target->p = pStart->z; target->n = (pEnd->z + pEnd->n) - pStart->z; target->pNode = pNode; return (SNode*)target; } SNode* releaseRawExprNode(SAstCreateContext* pCxt, SNode* pNode) { CHECK_RAW_EXPR_NODE(pNode); SNode* tmp = ((SRawExprNode*)pNode)->pNode; tfree(pNode); return tmp; } SToken getTokenFromRawExprNode(SAstCreateContext* pCxt, SNode* pNode) { if (NULL == pNode || QUERY_NODE_RAW_EXPR != nodeType(pNode)) { pCxt->valid = false; return nil_token; } SRawExprNode* target = (SRawExprNode*)pNode; SToken t = { .type = 0, .z = target->p, .n = target->n}; return t; } SNodeList* createNodeList(SAstCreateContext* pCxt, SNode* pNode) { SNodeList* list = nodesMakeList(); CHECK_OUT_OF_MEM(list); if (TSDB_CODE_SUCCESS != nodesListAppend(list, pNode)) { pCxt->valid = false; } return list; } SNodeList* addNodeToList(SAstCreateContext* pCxt, SNodeList* pList, SNode* pNode) { if (TSDB_CODE_SUCCESS != nodesListAppend(pList, pNode)) { pCxt->valid = false; } return pList; } SNode* createColumnNode(SAstCreateContext* pCxt, const SToken* pTableAlias, const SToken* pColumnName) { if (!checkTableName(pCxt, pTableAlias) || !checkColumnName(pCxt, pColumnName)) { return NULL; } SColumnNode* col = (SColumnNode*)nodesMakeNode(QUERY_NODE_COLUMN); CHECK_OUT_OF_MEM(col); if (NULL != pTableAlias) { strncpy(col->tableAlias, pTableAlias->z, pTableAlias->n); } strncpy(col->colName, pColumnName->z, pColumnName->n); return (SNode*)col; } SNode* createValueNode(SAstCreateContext* pCxt, int32_t dataType, const SToken* pLiteral) { SValueNode* val = (SValueNode*)nodesMakeNode(QUERY_NODE_VALUE); CHECK_OUT_OF_MEM(val); val->literal = strndup(pLiteral->z, pLiteral->n); CHECK_OUT_OF_MEM(val->literal); val->node.resType.type = dataType; val->node.resType.bytes = tDataTypes[dataType].bytes; if (TSDB_DATA_TYPE_TIMESTAMP == dataType) { val->node.resType.precision = TSDB_TIME_PRECISION_MILLI; } return (SNode*)val; } SNode* createDurationValueNode(SAstCreateContext* pCxt, const SToken* pLiteral) { SValueNode* val = (SValueNode*)nodesMakeNode(QUERY_NODE_VALUE); CHECK_OUT_OF_MEM(val); val->literal = strndup(pLiteral->z, pLiteral->n); CHECK_OUT_OF_MEM(val->literal); val->isDuration = true; val->node.resType.type = TSDB_DATA_TYPE_BIGINT; val->node.resType.bytes = tDataTypes[TSDB_DATA_TYPE_BIGINT].bytes; val->node.resType.precision = TSDB_TIME_PRECISION_MILLI; return (SNode*)val; } SNode* createLogicConditionNode(SAstCreateContext* pCxt, ELogicConditionType type, SNode* pParam1, SNode* pParam2) { SLogicConditionNode* cond = (SLogicConditionNode*)nodesMakeNode(QUERY_NODE_LOGIC_CONDITION); CHECK_OUT_OF_MEM(cond); cond->condType = type; cond->pParameterList = nodesMakeList(); nodesListAppend(cond->pParameterList, pParam1); nodesListAppend(cond->pParameterList, pParam2); return (SNode*)cond; } SNode* createOperatorNode(SAstCreateContext* pCxt, EOperatorType type, SNode* pLeft, SNode* pRight) { SOperatorNode* op = (SOperatorNode*)nodesMakeNode(QUERY_NODE_OPERATOR); CHECK_OUT_OF_MEM(op); op->opType = type; op->pLeft = pLeft; op->pRight = pRight; return (SNode*)op; } SNode* createBetweenAnd(SAstCreateContext* pCxt, SNode* pExpr, SNode* pLeft, SNode* pRight) { return createLogicConditionNode(pCxt, LOGIC_COND_TYPE_AND, createOperatorNode(pCxt, OP_TYPE_GREATER_EQUAL, pExpr, pLeft), createOperatorNode(pCxt, OP_TYPE_LOWER_EQUAL, pExpr, pRight)); } SNode* createNotBetweenAnd(SAstCreateContext* pCxt, SNode* pExpr, SNode* pLeft, SNode* pRight) { return createLogicConditionNode(pCxt, LOGIC_COND_TYPE_OR, createOperatorNode(pCxt, OP_TYPE_LOWER_THAN, pExpr, pLeft), createOperatorNode(pCxt, OP_TYPE_GREATER_THAN, pExpr, pRight)); } SNode* createFunctionNode(SAstCreateContext* pCxt, const SToken* pFuncName, SNodeList* pParameterList) { SFunctionNode* func = (SFunctionNode*)nodesMakeNode(QUERY_NODE_FUNCTION); CHECK_OUT_OF_MEM(func); strncpy(func->functionName, pFuncName->z, pFuncName->n); func->pParameterList = pParameterList; return (SNode*)func; } SNode* createNodeListNode(SAstCreateContext* pCxt, SNodeList* pList) { SNodeListNode* list = (SNodeListNode*)nodesMakeNode(QUERY_NODE_NODE_LIST); CHECK_OUT_OF_MEM(list); list->pNodeList = pList; return (SNode*)list; } SNode* createRealTableNode(SAstCreateContext* pCxt, const SToken* pDbName, const SToken* pTableName, const SToken* pTableAlias) { if (!checkDbName(pCxt, pDbName) || !checkTableName(pCxt, pTableName)) { return NULL; } SRealTableNode* realTable = (SRealTableNode*)nodesMakeNode(QUERY_NODE_REAL_TABLE); CHECK_OUT_OF_MEM(realTable); if (NULL != pDbName) { strncpy(realTable->table.dbName, pDbName->z, pDbName->n); } else { strcpy(realTable->table.dbName, pCxt->pQueryCxt->db); } if (NULL != pTableAlias && TK_NIL != pTableAlias->type) { strncpy(realTable->table.tableAlias, pTableAlias->z, pTableAlias->n); } else { strncpy(realTable->table.tableAlias, pTableName->z, pTableName->n); } strncpy(realTable->table.tableName, pTableName->z, pTableName->n); return (SNode*)realTable; } SNode* createTempTableNode(SAstCreateContext* pCxt, SNode* pSubquery, const SToken* pTableAlias) { STempTableNode* tempTable = (STempTableNode*)nodesMakeNode(QUERY_NODE_TEMP_TABLE); CHECK_OUT_OF_MEM(tempTable); tempTable->pSubquery = pSubquery; if (NULL != pTableAlias && TK_NIL != pTableAlias->type) { strncpy(tempTable->table.tableAlias, pTableAlias->z, pTableAlias->n); } return (SNode*)tempTable; } SNode* createJoinTableNode(SAstCreateContext* pCxt, EJoinType type, SNode* pLeft, SNode* pRight, SNode* pJoinCond) { SJoinTableNode* joinTable = (SJoinTableNode*)nodesMakeNode(QUERY_NODE_JOIN_TABLE); CHECK_OUT_OF_MEM(joinTable); joinTable->joinType = type; joinTable->pLeft = pLeft; joinTable->pRight = pRight; joinTable->pOnCond = pJoinCond; return (SNode*)joinTable; } SNode* createLimitNode(SAstCreateContext* pCxt, const SToken* pLimit, const SToken* pOffset) { SLimitNode* limitNode = (SLimitNode*)nodesMakeNode(QUERY_NODE_LIMIT); CHECK_OUT_OF_MEM(limitNode); // limitNode->limit = limit; // limitNode->offset = offset; return (SNode*)limitNode; } SNode* createOrderByExprNode(SAstCreateContext* pCxt, SNode* pExpr, EOrder order, ENullOrder nullOrder) { SOrderByExprNode* orderByExpr = (SOrderByExprNode*)nodesMakeNode(QUERY_NODE_ORDER_BY_EXPR); CHECK_OUT_OF_MEM(orderByExpr); orderByExpr->pExpr = pExpr; orderByExpr->order = order; if (NULL_ORDER_DEFAULT == nullOrder) { nullOrder = (ORDER_ASC == order ? NULL_ORDER_FIRST : NULL_ORDER_LAST); } orderByExpr->nullOrder = nullOrder; return (SNode*)orderByExpr; } SNode* createSessionWindowNode(SAstCreateContext* pCxt, SNode* pCol, const SToken* pVal) { SSessionWindowNode* session = (SSessionWindowNode*)nodesMakeNode(QUERY_NODE_SESSION_WINDOW); CHECK_OUT_OF_MEM(session); session->pCol = pCol; // session->gap = getInteger(pVal); return (SNode*)session; } SNode* createStateWindowNode(SAstCreateContext* pCxt, SNode* pCol) { SStateWindowNode* state = (SStateWindowNode*)nodesMakeNode(QUERY_NODE_STATE_WINDOW); CHECK_OUT_OF_MEM(state); state->pCol = pCol; return (SNode*)state; } SNode* createIntervalWindowNode(SAstCreateContext* pCxt, SNode* pInterval, SNode* pOffset, SNode* pSliding, SNode* pFill) { SIntervalWindowNode* interval = (SIntervalWindowNode*)nodesMakeNode(QUERY_NODE_INTERVAL_WINDOW); CHECK_OUT_OF_MEM(interval); interval->pInterval = pInterval; interval->pOffset = pOffset; interval->pSliding = pSliding; interval->pFill = pFill; return (SNode*)interval; } SNode* createFillNode(SAstCreateContext* pCxt, EFillMode mode, SNode* pValues) { SFillNode* fill = (SFillNode*)nodesMakeNode(QUERY_NODE_FILL); CHECK_OUT_OF_MEM(fill); fill->mode = mode; fill->pValues = pValues; return (SNode*)fill; } SNode* createGroupingSetNode(SAstCreateContext* pCxt, SNode* pNode) { SGroupingSetNode* groupingSet = (SGroupingSetNode*)nodesMakeNode(QUERY_NODE_GROUPING_SET); CHECK_OUT_OF_MEM(groupingSet); groupingSet->groupingSetType = GP_TYPE_NORMAL; groupingSet->pParameterList = nodesMakeList(); nodesListAppend(groupingSet->pParameterList, pNode); return (SNode*)groupingSet; } SNode* setProjectionAlias(SAstCreateContext* pCxt, SNode* pNode, const SToken* pAlias) { if (NULL == pNode || !pCxt->valid) { return pNode; } uint32_t maxLen = sizeof(((SExprNode*)pNode)->aliasName); strncpy(((SExprNode*)pNode)->aliasName, pAlias->z, pAlias->n > maxLen ? maxLen : pAlias->n); return pNode; } SNode* addWhereClause(SAstCreateContext* pCxt, SNode* pStmt, SNode* pWhere) { if (QUERY_NODE_SELECT_STMT == nodeType(pStmt)) { ((SSelectStmt*)pStmt)->pWhere = pWhere; } return pStmt; } SNode* addPartitionByClause(SAstCreateContext* pCxt, SNode* pStmt, SNodeList* pPartitionByList) { if (QUERY_NODE_SELECT_STMT == nodeType(pStmt)) { ((SSelectStmt*)pStmt)->pPartitionByList = pPartitionByList; } return pStmt; } SNode* addWindowClauseClause(SAstCreateContext* pCxt, SNode* pStmt, SNode* pWindow) { if (QUERY_NODE_SELECT_STMT == nodeType(pStmt)) { ((SSelectStmt*)pStmt)->pWindow = pWindow; } return pStmt; } SNode* addGroupByClause(SAstCreateContext* pCxt, SNode* pStmt, SNodeList* pGroupByList) { if (QUERY_NODE_SELECT_STMT == nodeType(pStmt)) { ((SSelectStmt*)pStmt)->pGroupByList = pGroupByList; } return pStmt; } SNode* addHavingClause(SAstCreateContext* pCxt, SNode* pStmt, SNode* pHaving) { if (QUERY_NODE_SELECT_STMT == nodeType(pStmt)) { ((SSelectStmt*)pStmt)->pHaving = pHaving; } return pStmt; } SNode* addOrderByClause(SAstCreateContext* pCxt, SNode* pStmt, SNodeList* pOrderByList) { if (QUERY_NODE_SELECT_STMT == nodeType(pStmt)) { ((SSelectStmt*)pStmt)->pOrderByList = pOrderByList; } return pStmt; } SNode* addSlimitClause(SAstCreateContext* pCxt, SNode* pStmt, SNode* pSlimit) { if (QUERY_NODE_SELECT_STMT == nodeType(pStmt)) { ((SSelectStmt*)pStmt)->pSlimit = pSlimit; } return pStmt; } SNode* addLimitClause(SAstCreateContext* pCxt, SNode* pStmt, SNode* pLimit) { if (QUERY_NODE_SELECT_STMT == nodeType(pStmt)) { ((SSelectStmt*)pStmt)->pLimit = pLimit; } return pStmt; } SNode* createSelectStmt(SAstCreateContext* pCxt, bool isDistinct, SNodeList* pProjectionList, SNode* pTable) { SSelectStmt* select = (SSelectStmt*)nodesMakeNode(QUERY_NODE_SELECT_STMT); CHECK_OUT_OF_MEM(select); select->isDistinct = isDistinct; select->pProjectionList = pProjectionList; select->pFromTable = pTable; return (SNode*)select; } SNode* createSetOperator(SAstCreateContext* pCxt, ESetOperatorType type, SNode* pLeft, SNode* pRight) { SSetOperator* setOp = (SSetOperator*)nodesMakeNode(QUERY_NODE_SET_OPERATOR); CHECK_OUT_OF_MEM(setOp); setOp->opType = type; setOp->pLeft = pLeft; setOp->pRight = pRight; return (SNode*)setOp; } SDatabaseOptions* createDefaultDatabaseOptions(SAstCreateContext* pCxt) { SDatabaseOptions* pOptions = calloc(1, sizeof(SDatabaseOptions)); CHECK_OUT_OF_MEM(pOptions); pOptions->numOfBlocks = TSDB_DEFAULT_TOTAL_BLOCKS; pOptions->cacheBlockSize = TSDB_DEFAULT_CACHE_BLOCK_SIZE; pOptions->cachelast = TSDB_DEFAULT_CACHE_LAST_ROW; pOptions->compressionLevel = TSDB_DEFAULT_COMP_LEVEL; pOptions->daysPerFile = TSDB_DEFAULT_DAYS_PER_FILE; pOptions->fsyncPeriod = TSDB_DEFAULT_FSYNC_PERIOD; pOptions->maxRowsPerBlock = TSDB_DEFAULT_MAX_ROW_FBLOCK; pOptions->minRowsPerBlock = TSDB_DEFAULT_MIN_ROW_FBLOCK; pOptions->keep = TSDB_DEFAULT_KEEP; pOptions->precision = TSDB_TIME_PRECISION_MILLI; pOptions->quorum = TSDB_DEFAULT_DB_QUORUM_OPTION; pOptions->replica = TSDB_DEFAULT_DB_REPLICA_OPTION; pOptions->ttl = TSDB_DEFAULT_DB_TTL_OPTION; pOptions->walLevel = TSDB_DEFAULT_WAL_LEVEL; pOptions->numOfVgroups = TSDB_DEFAULT_VN_PER_DB; pOptions->singleStable = TSDB_DEFAULT_DB_SINGLE_STABLE_OPTION; pOptions->streamMode = TSDB_DEFAULT_DB_STREAM_MODE_OPTION; return pOptions; } SDatabaseOptions* setDatabaseOption(SAstCreateContext* pCxt, SDatabaseOptions* pOptions, EDatabaseOptionType type, const SToken* pVal) { return setDbOptionFuncs[type](pCxt, pOptions, pVal); } SNode* createCreateDatabaseStmt(SAstCreateContext* pCxt, bool ignoreExists, const SToken* pDbName, SDatabaseOptions* pOptions) { if (!checkDbName(pCxt, pDbName)) { return NULL; } SCreateDatabaseStmt* pStmt = (SCreateDatabaseStmt*)nodesMakeNode(QUERY_NODE_CREATE_DATABASE_STMT); CHECK_OUT_OF_MEM(pStmt); strncpy(pStmt->dbName, pDbName->z, pDbName->n); pStmt->ignoreExists = ignoreExists; pStmt->options = *pOptions; return (SNode*)pStmt; }