SQL执行计划生成

继上次openGauss内核分析-统计信息与行数估计后， 继续硬核的云原生数据库openGauss的内核分析-执行计划生成。

SQL语句解析完成后被解析成Query结构，在进行优化时是以Query为单位进行的，Query的优化分为基于规则的逻辑优化（查询重写）和基于代价的物理优化（计划生成），主入口函数为subquery_planner。subquery_planner函数接收Query(查询树)，返回一个Plan(计划树)。

Plan* subquery_planner(PlannerGlobal* glob, Query* parse, PlannerInfo* parent_root, bool hasRecursion,

    double tuple_fraction, PlannerInfo** subroot, int options, ItstDisKey* diskeys, List* subqueryRestrictInfo)

{

    PlannerInfo* root = NULL;

Plan* plan = NULL; //返回结果

…

preprocess_const_params(root, (Node*)parse->jointree); // 常数替换等式

…

    if (parse->hasSubLinks) {

        pull_up_sublinks(root); //提升子链接

        DEBUG_QRW("After sublink pullup");

    }



    /* Reduce orderby clause in subquery for join */

    reduce_orderby(parse, false); //减少orderby

    DEBUG_QRW("After order by reduce");



    if (u_sess->attr.attr_sql.enable_constraint_optimization) {

        removeNotNullTest(root); //删除NotNullTest

        DEBUG_QRW("After soft constraint removal");

    }

…

    if ((LAZY_AGG & u_sess->attr.attr_sql.rewrite_rule) && permit_from_rewrite_hint(root, LAZY_AGG)) {

        lazyagg_main(parse); // lazyagg重写

        DEBUG_QRW("After lazyagg");

}

…

parse->jointree = (FromExpr*)pull_up_subqueries(root, (Node*)parse->jointree); //提升子查询

…

    if (parse->setOperations) {

        flatten_simple_union_all(root); //UNIONALL优化

        DEBUG_QRW("After simple union all flatten");

}

…

expand_inherited_tables(root); //展开继承表

…

parse->targetList = (List*)preprocess_expression(root, (Node*)parse->targetList, EXPRKIND_TARGET); //预处理表达式

…

parse->havingQual = (Node *) newHaving; //处理HAVING子句

…

        reduce_outer_joins(root); //外连接消除

…

                reduce_inequality_fulljoins(root); //全连接重写

    …

plan = grouping_planner(root, tuple_fraction); //主要的计划过程

…

return plan;

}

subquery_planner函数由函数standard_planner调用，standard_planner函数由exec_simple_query->pg_plan_queries->pg_plan_query->planner函数调用。standard_planner将Query(查询树)生成规划好的语句，可用于执行器实际执行。

PlannedStmt* standard_planner(Query* parse, int cursorOptions, ParamListInfo boundParams)

{

    PlannedStmt* result = NULL;  //返回结果

PlannerGlobal* glob = NULL;  

double tuple_fraction;

    PlannerInfo* root = NULL;

Plan* top_plan = NULL;

…

    glob = makeNode(PlannerGlobal);

    /* primary planning entry point (may recurse for subqueries) */

top_plan = subquery_planner(glob, parse, NULL, false, tuple_fraction, &root);  //主规划过程入口

…

    /* build the PlannedStmt result */

result = makeNode(PlannedStmt);  //构造PlannedStmt



result->commandType = parse->commandType;

result->queryId = parse->queryId;

result->uniqueSQLId = parse->uniqueSQLId;

result->hasReturning = (parse->returningList != NIL);

result->hasModifyingCTE = parse->hasModifyingCTE;

result->canSetTag = parse->canSetTag;

result->transientPlan = glob->transientPlan;

result->dependsOnRole = glob->dependsOnRole;

result->planTree = top_plan; //执行计划

result->rtable = glob->finalrtable;

result->resultRelations = glob->resultRelations;

…

    return result;

}

仍然以前文的join列子来说明

SELECT * FROM t1 inner JOIN t2 ON t1.c1 = t2.c1;

在planner函数打断点，用gdb查看standard_planner返回的PlannedStmt

(gdb) bt

#0  planner (parse=0x7fd93a410288, cursorOptions=0, boundParams=0x0) at planner.cpp:389

#1  0x0000000001936fbd in pg_plan_query (querytree=0x7fd93a410288, cursorOptions=0, boundParams=0x0, underExplain=false) at postgres.cpp:1197

#2  0x0000000001937381 in pg_plan_queries (querytrees=0x7fd939b81090, cursorOptions=0, boundParams=0x0) at postgres.cpp:1315

#3  0x000000000193a6b8 in exec_simple_query (query_string=0x7fd966ad2060 "SELECT * FROM t1 inner JOIN t2 ON t1.c1 = t2.c1;", messageType=QUERY_MESSAGE, msg=0x7fd931056210)

    at postgres.cpp:2560

#4  0x0000000001947104 in PostgresMain (argc=1, argv=0x7fd93a2cf1c0, dbname=0x7fd93a2ce1f8 "postgres", username=0x7fd93a2ce1b0 "test") at postgres.cpp:8403

#5  0x0000000001890740 in BackendRun (port=0x7fd931056720) at postmaster.cpp:8053

#6  0x00000000018a00b1 in GaussDbThreadMain<(knl_thread_role)1> (arg=0x7fd97c55c5f0) at postmaster.cpp:12181

#7  0x000000000189c0de in InternalThreadFunc (args=0x7fd97c55c5f0) at postmaster.cpp:12755

#8  0x00000000024bf7d8 in ThreadStarterFunc (arg=0x7fd97c55c5e0) at gs_thread.cpp:382

#9  0x00007fd9a60cfdd5 in start_thread () from /lib64/libpthread.so.0

#10 0x00007fd9a5df8ead in clone () from /lib64/libc.so.6

(gdb) p *result

$14 = {type = T_PlannedStmt, commandType = CMD_SELECT, queryId = 0, hasReturning = false, hasModifyingCTE = false, canSetTag = true, transientPlan = false, dependsOnRole = false,

  planTree = 0x7fd93a409d58, rtable = 0x7fd939b81660, …}



(gdb) p *result->planTree->lefttree

$46 = {type = T_SeqScan, plan_node_id = 2, parent_node_id = 1, exec_type = EXEC_ON_DATANODES, startup_cost = 0, total_cost = 1.03, plan_rows = 3, multiple = 1, plan_width = 8,…}

将Query规划后得到PlannedStmt

 可以看到，Plannedstmt 与explain执行计划是一致的

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