/* * 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 #include "plannerInt.h" #include "mockCatalogService.h" using namespace std; using namespace testing; void* myCalloc(size_t nmemb, size_t size) { if (void* p = calloc(nmemb, size)) { return p; } throw bad_alloc(); } class PhyPlanTest : public Test { protected: void pushAgg(int32_t aggOp) { unique_ptr agg((SQueryPlanNode*)myCalloc(1, sizeof(SQueryPlanNode))); agg->info.type = aggOp; agg->pExpr = taosArrayInit(TARRAY_MIN_SIZE, POINTER_BYTES); unique_ptr expr((SExprInfo*)myCalloc(1, sizeof(SExprInfo))); expr->base.resSchema.type = TSDB_DATA_TYPE_INT; expr->base.resSchema.bytes = tDataTypes[TSDB_DATA_TYPE_INT].bytes; expr->pExpr = (tExprNode*)myCalloc(1, sizeof(tExprNode)); expr->pExpr->nodeType = TEXPR_FUNCTION_NODE; strcpy(expr->pExpr->_function.functionName, "Count"); SExprInfo* item = expr.release(); taosArrayPush(agg->pExpr, &item); pushNode(agg.release()); } void pushScan(const string& db, const string& table, int32_t scanOp) { shared_ptr meta = mockCatalogService->getTableMeta(db, table); EXPECT_TRUE(meta); unique_ptr scan((SQueryPlanNode*)myCalloc(1, sizeof(SQueryPlanNode))); scan->info.type = scanOp; scan->numOfCols = meta->schema->tableInfo.numOfColumns; scan->pSchema = (SSchema*)myCalloc(1, sizeof(SSchema) * scan->numOfCols); memcpy(scan->pSchema, meta->schema->schema, sizeof(SSchema) * scan->numOfCols); //todo 'pExpr' 'numOfExpr' scan->pExtInfo = createScanExtInfo(meta); pushNode(scan.release()); } int32_t run() { SQueryDag* dag = nullptr; uint64_t requestId = 20; int32_t code = createDag(logicPlan_.get(), nullptr, &dag, requestId); dag_.reset(dag); return code; } int32_t run(const string& db, const string& sql) { SParseContext cxt; buildParseContext(db, sql, &cxt); SQueryNode* query; int32_t code = qParseQuerySql(&cxt, &query); if (TSDB_CODE_SUCCESS != code) { cout << "error no:" << code << ", msg:" << cxt.pMsg << endl; return code; } SQueryDag* dag = nullptr; uint64_t requestId = 20; SSchema *schema = NULL; uint32_t numOfOutput = 0; code = qCreateQueryDag(query, &dag, requestId); dag_.reset(dag); return code; } void explain() { size_t level = taosArrayGetSize(dag_->pSubplans); for (size_t i = 0; i < level; ++i) { std::cout << "level " << i << ":" << std::endl; const SArray* subplans = (const SArray*)taosArrayGetP(dag_->pSubplans, i); size_t num = taosArrayGetSize(subplans); for (size_t j = 0; j < num; ++j) { std::cout << "no " << j << ":" << std::endl; int32_t len = 0; char* str = nullptr; ASSERT_EQ(TSDB_CODE_SUCCESS, qSubPlanToString((const SSubplan*)taosArrayGetP(subplans, j), &str, &len)); std::cout << "len:" << len << std::endl; std::cout << str << std::endl; free(str); } } } SQueryDag* result() { return dag_.get(); } private: void pushNode(SQueryPlanNode* node) { if (logicPlan_) { node->pChildren = taosArrayInit(TARRAY_MIN_SIZE, POINTER_BYTES); SQueryPlanNode* child = logicPlan_.release(); taosArrayPush(node->pChildren, &child); } logicPlan_.reset(node); } void copySchemaMeta(STableMeta** dst, const STableMeta* src) { int32_t size = sizeof(STableMeta) + sizeof(SSchema) * (src->tableInfo.numOfTags + src->tableInfo.numOfColumns); *dst = (STableMeta*)myCalloc(1, size); memcpy(*dst, src, size); } void copyStorageMeta(SVgroupsInfo** dst, const std::vector& src) { *dst = (SVgroupsInfo*)myCalloc(1, sizeof(SVgroupsInfo) + sizeof(SVgroupMsg) * src.size()); (*dst)->numOfVgroups = src.size(); for (int32_t i = 0; i < src.size(); ++i) { (*dst)->vgroups[i].vgId = src[i].vgId; (*dst)->vgroups[i].numOfEps = src[i].numOfEps; memcpy((*dst)->vgroups[i].epAddr, src[i].epAddr, src[i].numOfEps); } } SQueryTableInfo* createScanExtInfo(shared_ptr& meta) { SQueryTableInfo* info = (SQueryTableInfo*)myCalloc(1, sizeof(SQueryTableInfo)); info->pMeta = (STableMetaInfo*)myCalloc(1, sizeof(STableMetaInfo)); copySchemaMeta(&info->pMeta->pTableMeta, meta->schema.get()); copyStorageMeta(&info->pMeta->vgroupList, meta->vgs); return info; } void buildParseContext(const string& db, const string& sql, SParseContext* pCxt) { static string _db; static string _sql; static const int32_t _msgMaxLen = 4096; static char _msg[_msgMaxLen]; _db = db; _sql = sql; memset(_msg, 0, _msgMaxLen); pCxt->acctId = 1; pCxt->db = _db.c_str(); pCxt->requestId = 1; pCxt->pSql = _sql.c_str(); pCxt->sqlLen = _sql.length(); pCxt->pMsg = _msg; pCxt->msgLen = _msgMaxLen; } shared_ptr meta_; unique_ptr logicPlan_; unique_ptr dag_; }; // select * from table TEST_F(PhyPlanTest, tableScanTest) { pushScan("test", "t1", QNODE_TABLESCAN); ASSERT_EQ(run(), TSDB_CODE_SUCCESS); explain(); SQueryDag* dag = result(); // todo check } TEST_F(PhyPlanTest, serializeTest) { pushScan("test", "t1", QNODE_TABLESCAN); ASSERT_EQ(run(), TSDB_CODE_SUCCESS); SQueryDag* dag = result(); cout << qDagToString(dag) << endl; } // select * from supertable TEST_F(PhyPlanTest, superTableScanTest) { pushScan("test", "st1", QNODE_TABLESCAN); ASSERT_EQ(run(), TSDB_CODE_SUCCESS); explain(); SQueryDag* dag = result(); // todo check } // select count(*) from table TEST_F(PhyPlanTest, simpleAggTest) { pushScan("test", "t1", QNODE_TABLESCAN); pushAgg(QNODE_AGGREGATE); ASSERT_EQ(run(), TSDB_CODE_SUCCESS); explain(); SQueryDag* dag = result(); // todo check } // insert into t values(...) TEST_F(PhyPlanTest, insertTest) { ASSERT_EQ(run("test", "insert into t1 values (now, 1, \"beijing\")"), TSDB_CODE_SUCCESS); explain(); SQueryDag* dag = result(); // todo check }