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  • 如何用 SQL Tuning Advisor (STA) 优化SQL语句

    如何用 SQL Tuning Advisor (STA) 优化SQL语句

    在Oracle10g之前,优化SQL是个比较费力的技术活,不停的分析执行计划,加hint,分析统计信息等等。在10g中,Oracle推出了自己的SQL优化辅助工具: SQL优化器(SQL Tuning Advisor :STA),它是新的DBMS_SQLTUNE包。使用STA一定要保证优化器是CBO模式下。

     

    执行DBMS_SQLTUNE包进行sql优化需要有advisor的权限:

     

    SQL> create user dave identified by dave;

    用户已创建。

    SQL> grant connect,resource to dave;

    授权成功。

    SQL> grant advisor to dave;

    授权成功。

     

     

    下面简单介绍一下如何优化一条找到的问题语句。

     

     

    create table bigtab as select rownum as "id",a.* from sys.all_objects a;

    create table smalltab as select rownum as "id", a.* FROM sys.all_tables a;

     

    然后多运行几次下面的脚本,增加表里的数据:

    insert into bigtab select rownum as "id",a.* from sys.all_objects a;

    insert into smalltab select rownum as "id", a.* FROM sys.all_tables a;

     

    这里创建一张大表和一张小表,并且都没有索引,下面执行一个查询:

    SQL> set timing on

    SQL> set autot on

    SQL> select count(*) from bigtab a, smalltab b where a.object_name=b.table_name;

    COUNT(*)

    ----------

    2141537

    已用时间: 00: 00: 20.05

    执行计划

    ----------------------------------------------------------

    Plan hash value: 3089226980

    --------------------------------------------------------------------------------

    | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |

    --------------------------------------------------------------------------------

    | 0 | SELECT STATEMENT | | 1 | 45 | 3146 (1)| 00:00:38 |

    | 1 | SORT AGGREGATE | | 1 | 45 | | |

    |* 2 | HASH JOIN | | 447K| 19M| 3146 (1)| 00:00:38 |

    | 3 | TABLE ACCESS FULL| SMALLTAB | 27327 | 533K| 264 (1)| 00:00:04 |

    | 4 | TABLE ACCESS FULL| BIGTAB | 712K| 16M| 2878 (1)| 00:00:35 |

    --------------------------------------------------------------------------------

    Predicate Information (identified by operation id):

    ---------------------------------------------------

    2 - access("A"."OBJECT_NAME"="B"."TABLE_NAME")

     

    统计信息

    ----------------------------------------------------------

    0 recursive calls

    0 db block gets

    31149 consistent gets

    21058 physical reads

    0 redo size

    426 bytes sent via SQL*Net to client

    416 bytes received via SQL*Net from client

    2 SQL*Net roundtrips to/from client

    0 sorts (memory)

    0 sorts (disk)

    1 rows processed

     

     

    第一步:创建优化任务

    通过调用函数CREATE_TUNING_TASK来创建优化任务,调用存储过程EXECUTE_TUNING_TASK执行该任务:

    SQL> set autot off

    SQL> set timing off

    SQL> DECLARE

    2 my_task_name VARCHAR2(30);

    3 my_sqltext CLOB;

    4 BEGIN

    5 my_sqltext := 'select count(*) from bigtab a, smalltab b where a.object_name=b.table_name';

    6 my_task_name := DBMS_SQLTUNE.CREATE_TUNING_TASK(

    7 sql_text => my_sqltext,

    8 user_name => 'DAVE', -- 注意是大写,不然会报错,用户无效

    9 scope => 'COMPREHENSIVE',

    10 time_limit => 60,

    11 task_name => 'tuning_sql_test',

    12 description => 'Task to tune a query on a specified table');

    13

    14 DBMS_SQLTUNE.EXECUTE_TUNING_TASK( task_name => 'tuning_sql_test');

    15 END;

    16 /

     

    PL/SQL procedure successfully completed.

    在函数CREATE_TUNING_TASK,sql_text是需要优化的语句,user_name是该语句通过哪个用户执行,scope是优化范围(limited或comprehensive),time_limit优化过程的时间限制,task_name优化任务名称,description优化任务描述。

     

    第二步: 执行优化任务

    通过调用dbms_sqltune.execute_tuning_task过程来执行前面创建好的优化任务。

    SQL> exec dbms_sqltune.execute_tuning_task('tuning_sql_test');

    PL/SQL 过程已成功完成。

     

    第三步:检查优化任务的状态

     

    通过查看user_advisor_tasks/dba_advisor_tasks视图可以查看优化任务的当前状态。

     

    SQL> SELECT task_name,status FROM USER_ADVISOR_TASKS WHERE task_name ='tuning_sql_test';

     

    TASK_NAME STATUS

    ------------------------------ -----------

    tuning_sql_test COMPLETED

     

    第四步:查看优化结果

    通过dbms_sqltune.report_tning_task函数可以获得优化任务的结果。

    SQL> SET LONG 999999

    SQL> set serveroutput on size 999999

    SQL> SET LINESIZE 100

    SQL> SELECT DBMS_SQLTUNE.REPORT_TUNING_TASK( 'tuning_sql_test') from DUAL;

    DBMS_SQLTUNE.REPORT_TUNING_TASK('TUNING_SQL_TEST')

    ----------------------------------------------------------------------------------------------------

    GENERAL INFORMATION SECTION

    -------------------------------------------------------------------------------

    Tuning Task Name : tuning_sql_test

    Tuning Task Owner : DEMO

    Scope : COMPREHENSIVE

    Time Limit(seconds) : 60

    Completion Status : COMPLETED

    Started at : 5/28/2010 13:16:43

    Completed at : 5/28/2010 13:16:44

    Number of Index Findings : 1

     

    Schema Name: DEMO

    SQL ID : 6p64dnnsqf9pm

    SQL Text : select count(*) from bigtab a, smalltab b where

    a.object_name=b.table_name

     

    -------------------------------------------------------------------------------

    FINDINGS SECTION (1 finding)

    -------------------------------------------------------------------------------

     

    1- Index Finding (see explain plans section below)

     

    The execution plan of this statement can be improved by creating one or more

    indices.

     

    Recommendation (estimated benefit: 100%)

    ----------------------------------------

    - Consider running the Access Advisor to improve the physical schema design

    or creating the recommended index.

    create index DEMO.IDX$$_06C50001 on SYS.SMALLTAB('TABLE_NAME');

     

    - Consider running the Access Advisor to improve the physical schema design

    or creating the recommended index.

    create index DEMO.IDX$$_06C50002 on SYS.BIGTAB('OBJECT_NAME');

     

    Rationale

    ---------

    Creating the recommended indices significantly improves the execution plan

    of this statement. However, it might be preferable to run "Access Advisor"

    using a representative SQL workload as opposed to a single statement. This

    will allow to get comprehensive index recommendations which takes into

    account index maintenance overhead and additional space consumption.

     

     

    EXPLAIN PLANS SECTION

    -------------------------------------------------------------------------------

    1- Original

    -----------

    Plan hash value: 3089226980

    --------------------------------------------------------------------------------

    | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |

     

    --------------------------------------------------------------------------------

    | 0 | SELECT STATEMENT | | 1 | 36 | 3550 (2)| 00:00:43 |

    | 1 | SORT AGGREGATE | | 1 | 36 | | |

    |* 2 | HASH JOIN | | 155K| 5462K| 3550 (2)| 00:00:43 |

    | 3 | TABLE ACCESS FULL| SMALLTAB | 1223 | 22014 | 11 (0)| 00:00:01 |

    | 4 | TABLE ACCESS FULL| BIGTAB | 1205K| 20M| 3526 (1)| 00:00:43 |

    --------------------------------------------------------------------------------

    Predicate Information (identified by operation id):

    ---------------------------------------------------

    2 - access("A"."OBJECT_NAME"="B"."TABLE_NAME")

    2- Using New Indices

    --------------------

    Plan hash value: 494801882

    -----------------------------------------------------------------------------------------

    | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |

    -----------------------------------------------------------------------------------------

    | 0 | SELECT STATEMENT | | 1 | 36 | 1108 (3)| 00:00:14 |

    | 1 | SORT AGGREGATE | | 1 | 36 | | |

    |* 2 | HASH JOIN | | 155K| 5462K| 1108 (3)| 00:00:14 |

    | 3 | INDEX FAST FULL SCAN| IDX$$_06C50001 | 1223 | 22014 | 3 (0)| 00:00:01 |

    | 4 | INDEX FAST FULL SCAN| IDX$$_06C50002 | 1205K| 20M| 1093 (2)| 00:00:14 |

    -----------------------------------------------------------------------------------------

    Predicate Information (identified by operation id):

    ---------------------------------------------------

    2 - access("A"."OBJECT_NAME"="B"."TABLE_NAME")

    ------------------------------------------------------------------------------

     

    看一下这个优化建议报告:

    第一部分是关于这次优化任务的基本信息:如任务名称、执行时间、范围、涉及到的语句等等。

     

    第二部分是关于这次优化任务的所找到的问题以及给出的优化建议。前面先给出了问题描述:可以通过建立更多的所引来提高性能;然后是建议的具体内容:在表smalltab的字段table_name上创建索引,在表bigtab的字段object_name上创建索引;最后是相关注意事项:此次优化虽然给出了创建索引的建议,但是最好通过SQL访问建议器(SQL Access Advisor SAA)结合整个数据库的工作量来深入分析,那样就能给出考虑了索引维护和空间消耗等因素的更加合理的建议。

    最后,报告还给出了原有的查询计划,以及采用优化建议以后的查询计划的对比。可以看出COST值大大下降。

     

     

    五、删除优化任务

    通过调用dbms_sqltuen.drop_tuning_task可以删除已经存在的优化任务

    SQL>exec dbms_sqltune.drop_tuning_task('tuning_sql_test');
    PL/SQL procedure successfully completed.

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  • 原文地址:https://www.cnblogs.com/weixun/p/3157518.html
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