zoukankan      html  css  js  c++  java
  • Oracle SQL

    Oracle SQL 硬解析和子游标

     

    Oracle SQL 硬解析和子游标

    What reasons will be happening sql hard parse and generating new child cursors

    在一个繁忙的系统中,发现一个复杂且非常长的查询,产生40多个子游标和大量的硬解析,占用很多的内存、CPU资源;

    SQL> @sql 3168229204
    Show SQL text, child cursors and execution stats for SQL hash value 3168229204 child GGT report
    
    HASH_VALUE   CH#  PLAN_HASH  FIRST_LOAD_TIME      LAST_LOAD_TIME       SQL_PROFIL
    ---------- ----- ----------  -------------------- -------------------- ----------
    3168229204     0 1144031096  2016-09-21/15:52:45  2016-11-03/16:43:40
    3168229204     1 1144031096  2016-09-21/15:52:45  2016-11-03/17:39:50
    3168229204     2 1144031096  2016-09-21/15:52:45  2016-11-03/18:52:26
    3168229204     3 1144031096  2016-09-21/15:52:45  2016-11-04/08:41:15
    3168229204     4 1144031096  2016-09-21/15:52:45  2016-11-05/08:12:52
    3168229204     5 1144031096  2016-09-21/15:52:45  2016-11-07/08:00:49
    3168229204     6 1144031096  2016-09-21/15:52:45  2016-11-07/13:15:24
    3168229204     7 1144031096  2016-09-21/15:52:45  2016-11-08/08:07:12
    3168229204     8 1144031096  2016-09-21/15:52:45  2016-11-09/08:11:57
    3168229204     9 1144031096  2016-09-21/15:52:45  2016-11-09/08:31:15
    3168229204    10 1144031096  2016-09-21/15:52:45  2016-11-09/08:46:13
    3168229204    11  532057913  2016-09-21/15:52:45  2016-11-09/09:01:21
    3168229204    12 1144031096  2016-09-21/15:52:45  2016-10-26/08:10:30
    3168229204    13 1144031096  2016-09-21/15:52:45  2016-10-27/08:06:34
    3168229204    14 1144031096  2016-09-21/15:52:45  2016-10-27/10:30:49
    3168229204    15 1144031096  2016-09-21/15:52:45  2016-10-28/08:06:48
    3168229204    16 1144031096  2016-09-21/15:52:45  2016-10-31/08:00:14
    3168229204    17 1144031096  2016-09-21/15:52:45  2016-10-29/11:15:32
    3168229204    18 1144031096  2016-09-21/15:52:45  2016-11-01/08:02:00
    3168229204    19 1144031096  2016-09-21/15:52:45  2016-11-01/08:16:02
    3168229204    44  532057913  2016-09-21/15:52:45  2016-10-25/08:36:46
    
    21 rows selected.
    
      CH# PARENT_HANDLE    OBJECT_HANDLE        PARSES   H_PARSES EXECUTIONS    FETCHES ROWS_PROCESSED       LIOS       PIOS      SORTS     CPU_MS     ELA_MS USERS_EXECUTING
    ----- ---------------- ---------------- ---------- ---------- ---------- ---------- -------------- ---------- ---------- ---------- ---------- ---------- ---------------
        0 000000099DC30528 000000099DC62120          1        117          1         11          20619     563097      16037          0    6707.98 1777858.92               0
        1 000000099DC30528 000000099EC8B478          1        114          1         11          20795     539435       1030          0   3436.478  59351.813               0
        2 000000099DC30528 000000099DE9FE00          3        109          3         33          62385    6765790    6028872          0  87585.686  927030.91               0
        3 000000099DC30528 000000099FC011E8          8        105          8         82         155431   22164287   21124804          0 295961.008 6440049.63               0
        4 000000099DC30528 000000099F5D9880         44        103         44        315         572091  134332996  129689322          0 1627595.57   26658408               0
        5 000000099DC30528 000000099EC73B98        104        100        104        565        1007037  318502972  310719053          0 3833473.23 32819296.8               0
        6 000000099DC30528 000000099F426050         21         95         21         30          25387    1980211       9151          0  11131.307  691583.17               0
        7 000000099DC30528 000000099E1C8A58         31         91         31         81         134024   82881335   75710067          0 830793.701   12330642               0
        8 000000099DC30528 000000099FAC91F8         51         86         51        221         399552  156405150  151167773          0 1859173.36 34943618.3               0
        9 000000099DC30528 000000099F6D67B8          1         84          1          5           9331     545117         19          0   1828.722   2107.133               0
       10 000000099DC30528 000000099FCF3EE8          1         78          1          5           9386     547695        188          0   2588.606  10211.348               0
       11 000000099DC30528 000000099F50D9C8         32         76         32        203         372484   98467223   94342488          0 1153776.61 19565473.3               1
       12 000000099DC30528 000000099FA1ED18          1         72          1        862           8610     626229      35266          0   8491.715  736156.11               0
       13 000000099DC30528 000000099F0DA4C0         51         69         51      54046         540160  156744017  150198327          0 1901325.93 31480771.6               0
       14 000000099DC30528 000000099E680C90         10         65         10       6566          65606   25179760   22590318          0 251589.755 3495357.72               0
       15 000000099DC30528 000000099EF0DF50         42         57         42      36991         369806  115460484  102958163          0 1152703.76 15607683.6               0
       16 000000099DC30528 000000099F5ACBC8         63         53         63      60623         606007  167981225  155721272          0  1724758.8 21204621.2               0
       17 000000099DC30528 000000099FA0A6A0          1         53          1        888           8879     193856       1047          0   1283.808     2972.2               0
       18 000000099DC30528 000000099E7B52D8        142         51        142      81062         810103  239175636  226077041          0 2483807.37 18198010.6               0
       19 000000099DC30528 000000099DA92AA0         15         46         15      12766         127575    1847753       5046          0  15149.692 457626.043               0
       44 000000099DC30528 000000099E6EBA18         48          1         48      37672         376331  149384376  144111692          0 1825119.51 31195023.6               0
    

    而且由于某些原因优化器不能够做出正确的评估,导致执行计划不一样,产生了大量的物理读等待事件;所以作为开发人员我们要了解清楚硬解析和产生子游标的原因,做出必要的调整和优化,使优化器能够正确做出评估,巩固和保护执行计划,竭力避免重复硬解析和使用不正确的执行计划。

    硬解析和产生子游标的原因

      Oracle中有很多的原因导致硬解析和产生子游标,比如有两个用户USERA和USERB,它们都有相同的表TAB01,两个用户都执行了如下的查询操作;

    select * from tab01;
    

    这样就会在v$sqlarea,v$sql,v$sql_shared_cursor产生如下的记录;

    SQL> select sql_text,hash_value,sharable_mem,buffer_gets,loads,fetches,executions,optimizer_mode,PARSING_SCHEMA_NAME from v$sqlarea where sql_id='5b42g2fkrrzss';
    
    SQL_TEXT             HASH_VALUE SHARABLE_MEM BUFFER_GETS      LOADS    FETCHES EXECUTIONS OPTIMIZER_MODE       PARSING_SCHEMA_NAME
    -------------------- ---------- ------------ ----------- ---------- ---------- ---------- -------------------- ------------------------------------------------------------
    select * from tab01  2776366872        85836         220          2          2          2 ALL_ROWS             USERB
    
    SQL> select t.CHILD_NUMBER,sql_text,hash_value,sharable_mem,buffer_gets,loads,fetches,executions,optimizer_mode,t.PARSING_SCHEMA_NAME from v$sql t where sql_id='5b42g2fkrrzss';
    
    CHILD_NUMBER SQL_TEXT             HASH_VALUE SHARABLE_MEM BUFFER_GETS      LOADS    FETCHES EXECUTIONS OPTIMIZER_MODE       PARSING_SCHEMA_NAME
    ------------ -------------------- ---------- ------------ ----------- ---------- ---------- ---------- -------------------- ------------------------------------------------------------
               0 select * from tab01  2776366872        44868         110          1          1          1 ALL_ROWS             USERA
               1 select * from tab01  2776366872        44868         110          1          1          1 ALL_ROWS             USERB
    
    SQL> select child_number,t.AUTH_CHECK_MISMATCH,t.TRANSLATION_MISMATCH from v$sql_shared_cursor t where sql_id='5b42g2fkrrzss';
    
    CHILD_NUMBER AU TR
    ------------ -- --
               0 N  N
               1 Y  Y
    
    • v$sqlarea中记录父游标,统计所有包括子游标的数据(buffer_gets,loads,fetches,executions),PARSING_SCHEMA_NAME记录最后一次解析的用户;
    • v$sql中记录所有子游标,游标号码从0开始递增,每个游标记录自身的统计信息,这里需要注意,对于非长事务而言,oracle在运行完成后更新统计信息;但对于长事务,oracle每5秒钟更新一次统计信息;
    • v$sql_shared_cursor 中记录为什么子游标没有使用共享池里存在的游标而重新解析原因;上面的例子导致硬解析和产生子游标的原因是授权检查(AUTH_CHECK_MISMATCH)和对象检查(TRANSLATION_MISMATCH)失败;

    其它还有非常多的原因导致硬解析和产生子游标,接下来会讨论一些日常开发中容易导致的原因;

    create table tparse(
    x number primary key,
    y varchar2(30)
    );
    
    begin
        dbms_stats.set_table_stats
            (
                user,'tparse',
                numrows=>10000000,
                numblks=>100000     
            );
    end;
    /
    
    begin
        dbms_stats.set_index_stats
            (
                user,'SYS_C0013113',
                numrows=>10000000   
            );
    end;
    /
    

    这里创建了tparse表,然后虚拟设置了表和索引的统计信息;接着在pl/sql里用不同的优化器环境和不同的条件下执行SQL;

    declare
        l_num_x number;
        l_var_x varchar2(30);
        l_var_x1 varchar2(300);
    begin
        execute immediate 'alter session set optimizer_mode=all_rows';
        for i in (select * from tparse where x>l_num_x)loop null; end loop;
        for i in (select * from tparse where x>l_var_x)loop null; end loop;
    
        execute immediate 'alter session set optimizer_mode=first_rows_10';
        for i in (select * from tparse where x>l_num_x)loop null; end loop;
        for i in (select * from tparse where x>l_var_x)loop null; end loop;
    
        for i in (select * from tparse where x>l_var_x1)loop null; end loop;
    end;
    /
    

    成功执行pl/sql后,检查v$sql表;

    col SQL_TEXT for a50
    select 
        sql_id,CHILD_NUMBER,hash_value,SQL_TEXT ,
        buffer_gets LIOS,
        disk_reads PIOS,
        sorts, 
        cpu_time/1000 cpu_ms,
        elapsed_time/1000 ela_ms
    from v$sql where sql_text like 'SELECT %TPARSE WHERE X%' order by CHILD_NUMBER ;
    
    SQL_ID                     CHILD_NUMBER HASH_VALUE SQL_TEXT                                                 LIOS       PIOS      SORTS     CPU_MS     ELA_MS
    -------------------------- ------------ ---------- -------------------------------------------------- ---------- ---------- ---------- ---------- ----------
    1dmmz4yh0hrzx                         0 2684903421 SELECT * FROM TPARSE WHERE X>:B1                           26          3          0          2      1.733
    1dmmz4yh0hrzx                         1 2684903421 SELECT * FROM TPARSE WHERE X>:B1                            4          0          0      1.998      1.331
    1dmmz4yh0hrzx                         2 2684903421 SELECT * FROM TPARSE WHERE X>:B1                            4          0          0          2      1.673
    1dmmz4yh0hrzx                         3 2684903421 SELECT * FROM TPARSE WHERE X>:B1                            2          0          0      2.999      3.286
    1dmmz4yh0hrzx                         4 2684903421 SELECT * FROM TPARSE WHERE X>:B1                            2          0          0          1       .783
    

    这里产生了5条记录,sql_id,hash_value都相同,但是它们有不同之处;

    • 第一次解析,optimizer_mode值为all_rows;谓语条件的值类型与主键值类型相同,此时共享池里没有匹配的已经共享的游标,oracle硬解析并共享游标;
    • 第二次解析,optimizer_mode值为all_rows,谓语条件的值为类型为varchar,与主键值类型不相同;优化器隐形转换值类型,然后对比第一次共享的游标时因为值变量类型不同,所以硬解析和产生新游标;
    • 第三次解析,optimizer_mode值为first_rows;谓语条件的值类型与主键值类型相同,优化器在对比第一次共享的游标时发现环境不一致,所以硬解析和产生新游标;
    • 第四次解析,optimizer_mode值为first_rows,谓语条件的值类型为varchar,与主键值类型不相同;优化器在对比第一次共享的游标时发现环境和变量类型均不一致,所以硬解析和产生新游标;
    • 第五次解析,optimizer_mode值为first_rows,谓语条件的值类型为varchar,与主键值类型不相同;并且长度改变为300;优化器在对比第一次共享的游标时发现环境、变量类型和值长度均不一致,所以硬解析和产生新游标;

    这些原因都可以在v$sql_shared_cursor视图中找到原因;

    select t.ADDRESS,t.CHILD_ADDRESS,child_number,t.BIND_MISMATCH,t.OPTIMIZER_MODE_MISMATCH,t.BIND_LENGTH_UPGRADEABLE from v$sql_shared_cursor t where sql_id='1dmmz4yh0hrzx';
    
    ADDRESS          CHILD_ADDRESS    CHILD_NUMBER BI OP BI
    ---------------- ---------------- ------------ -- -- --
    0000000069AC2D28 0000000062F19D70            0 N  N  N
    0000000069AC2D28 00000000696F7E48            1 Y  N  N
    0000000069AC2D28 000000006A3E05A8            2 N  Y  N
    0000000069AC2D28 000000006636C6D8            3 Y  Y  N
    0000000069AC2D28 0000000065AE2338            4 Y  Y  Y
    

    对于第一次解析,由于共享池中不存在已经解析的游标,oracle必须硬解析SQL,然后共享,所以v$sql_shared_cursor视图中的mismatch值为N;
    当第二次解析时, 由于共享池中已经存在解析的游标,但由于变量类型与主键类型不同,对比第一次解析时发生BIND_MISMATCH,oracle再次硬解析;
    第三次解析时,由于绑定值与主键值类型相同,但优化器的设置不同,对比第一次解析时发生OPTIMIZER_MODE_MISMATCH,oracle再次硬解析;
    第四次解析时,由于绑定值与主键值类型不同,并且优化器的设置也不同,对比第一次解析发生BIND_MISMATCH和OPTIMIZER_MODE_MISMATCH,oracle再次硬解析;
    ;
    第五次解析时,由于绑定值与主键值类型不同,优化器的设置不同,并且绑定值长度较之前发生了变化,对比第一次解析时发生BIND_MISMATCH、OPTIMIZER_MODE_MISMATCH和BIND_LENGTH_UPGRADEABLE,oracle再次硬解析;

      到现在我们了解了产生硬解析和子游标的原因,我们看看优化器在生成执行计划时的不同;    首先看第一次的执行计划;

    SQL>  SELECT * FROM table (DBMS_XPLAN.DISPLAY_CURSOR('1dmmz4yh0hrzx',0));
    
    PLAN_TABLE_OUTPUT
    ------------------------------------------------------------------------------------------------------------------------
    SQL_ID  1dmmz4yh0hrzx, child number 0
    -------------------------------------
    SELECT * FROM TPARSE WHERE X>:B1
    
    Plan hash value: 3289637765
    
    --------------------------------------------------------------------------------------------
    | Id  | Operation                   | Name         | Rows  | Bytes | Cost (%CPU)| Time     |
    --------------------------------------------------------------------------------------------
    |   0 | SELECT STATEMENT            |              |       |       |    13 (100)|          |
    |   1 |  TABLE ACCESS BY INDEX ROWID| TPARSE       |   500K|    14M|    13  (24)| 00:00:01 |
    |*  2 |   INDEX RANGE SCAN          | SYS_C0013113 | 90000 |       |     4  (50)| 00:00:01 |
    --------------------------------------------------------------------------------------------
    
    Predicate Information (identified by operation id):
    ---------------------------------------------------
    
       2 - access("X">:B1)
    

    优化器使用了索引,谓语条件没有任何转换;
    第二次

    SQL>  SELECT * FROM table (DBMS_XPLAN.DISPLAY_CURSOR('1dmmz4yh0hrzx',1));
    
    PLAN_TABLE_OUTPUT
    --------------------------------------------------------------------------------------------------------------------
    SQL_ID  1dmmz4yh0hrzx, child number 1
    -------------------------------------
    SELECT * FROM TPARSE WHERE X>:B1
    
    Plan hash value: 3289637765
    
    --------------------------------------------------------------------------------------------
    | Id  | Operation                   | Name         | Rows  | Bytes | Cost (%CPU)| Time     |
    --------------------------------------------------------------------------------------------
    |   0 | SELECT STATEMENT            |              |       |       |    13 (100)|          |
    |   1 |  TABLE ACCESS BY INDEX ROWID| TPARSE       |   500K|    14M|    13  (24)| 00:00:01 |
    |*  2 |   INDEX RANGE SCAN          | SYS_C0013113 | 90000 |       |     4  (50)| 00:00:01 |
    --------------------------------------------------------------------------------------------
    
    Predicate Information (identified by operation id):
    ---------------------------------------------------
    
       2 - access("X">TO_NUMBER(:B1))
    
    

    优化器同样使用了索引,谓语条件中值类型发生隐形转换;
    第三次解析

    SQL> SELECT * FROM table (DBMS_XPLAN.DISPLAY_CURSOR('1dmmz4yh0hrzx',2,'outline'));
    
    PLAN_TABLE_OUTPUT
    --------------------------------------------------------------------------------------------------------
    SQL_ID  1dmmz4yh0hrzx, child number 2
    -------------------------------------
    SELECT * FROM TPARSE WHERE X>:B1
    
    Plan hash value: 3289637765
    
    --------------------------------------------------------------------------------------------
    | Id  | Operation                   | Name         | Rows  | Bytes | Cost (%CPU)| Time     |
    --------------------------------------------------------------------------------------------
    |   0 | SELECT STATEMENT            |              |       |       |     3 (100)|          |
    |   1 |  TABLE ACCESS BY INDEX ROWID| TPARSE       |    10 |   300 |     3   (0)| 00:00:01 |
    |*  2 |   INDEX RANGE SCAN          | SYS_C0013113 | 90000 |       |     2   (0)| 00:00:01 |
    --------------------------------------------------------------------------------------------
    
    Outline Data
    -------------
    
      /*+
          BEGIN_OUTLINE_DATA
          IGNORE_OPTIM_EMBEDDED_HINTS
          OPTIMIZER_FEATURES_ENABLE('11.2.0.4')
          DB_VERSION('11.2.0.4')
     
          FIRST_ROWS(10)
    
          OUTLINE_LEAF(@"SEL$1")
          INDEX_RS_ASC(@"SEL$1" "TPARSE"@"SEL$1" ("TPARSE"."X"))
          END_OUTLINE_DATA
      */
    
    Predicate Information (identified by operation id):
    ---------------------------------------------------
    
       2 - access("X">:B1)
    

    优化器设置改变了,评估的基数因优化器设置而变低。

    如何避免

    通过上面的例子可以看出,使用最频繁的情况(变量类型改变,变量长度改变,优化器设置改变等)均会导致重复的解析和新游标产生,但复杂且非常长的SQL在系统中是司空见惯的,如果才能避免或减少重复硬解析和资源的使用,又在一定程度上保护执行计划呢?
    10g以前有outline,但使用受限;10g及以后有sql profile;让我们以第一次解析来创建SQL profile,看会发生什么;

    SQL> @sqlprofile/create_sql_profile.sql '1dmmz4yh0hrzx' 0
    Enter value for sql_id: 1dmmz4yh0hrzx
    Enter value for child_no (0):
    Enter value for profile_name (PROF_sqlid_planhash):
    Enter value for category (DEFAULT):
    Enter value for force_matching (FALSE):
    
    SQL> alter system flush shared_pool;
    

    创建好SQL profile后清空共享池,然后再重新运行上面的PL/SQL;再观察v$sql;

    col SQL_TEXT for a50
    select 
        sql_id,CHILD_NUMBER,hash_value,SQL_TEXT ,
        buffer_gets LIOS,
        disk_reads PIOS,
        sorts, 
        cpu_time/1000 cpu_ms,
        elapsed_time/1000 ela_ms
    from v$sql where sql_text like 'SELECT %TPARSE WHERE X%' order by CHILD_NUMBER ;
    
    SQL_ID                     CHILD_NUMBER HASH_VALUE SQL_TEXT                                                 LIOS       PIOS      SORTS     CPU_MS     ELA_MS
    -------------------------- ------------ ---------- -------------------------------------------------- ---------- ---------- ---------- ---------- ----------
    1dmmz4yh0hrzx                         0 2684903421 SELECT * FROM TPARSE WHERE X>:B1                         1010         22          0     20.996      24.27
    1dmmz4yh0hrzx                         1 2684903421 SELECT * FROM TPARSE WHERE X>:B1                            2          0          0          3      2.783
    1dmmz4yh0hrzx                         2 2684903421 SELECT * FROM TPARSE WHERE X>:B1                            4          0          0          2      2.473
    
    select t.ADDRESS,t.CHILD_ADDRESS,child_number,t.BIND_MISMATCH,t.OPTIMIZER_MODE_MISMATCH,t.BIND_LENGTH_UPGRADEABLE from v$sql_shared_cursor t where sql_id='1dmmz4yh0hrzx';
    
    ADDRESS          CHILD_ADDRESS    CHILD_NUMBER BI OP BI
    ---------------- ---------------- ------------ -- -- --
    0000000069AC2D28 0000000062F19D70            0 N  N  N
    0000000069AC2D28 00000000696F7E48            1 Y  N  N
    0000000069AC2D28 000000006A3E05A8            2 Y  N  Y
    

    仅产生2个子游标,一次因为变量类型改变了,一次为变量类型和变量值长度改变了;优化器环境改变并没有影响到优化器;再继续查询优化器的行为;

    SQL> @sql 2684903421
    Show SQL text, child cursors and execution stats for SQL hash value 2684903421 child 0
    
    HASH_VALUE   CH#  PLAN_HASH SQL_TEXT                                                                                                       FIRST_LOAD_TIME      LAST_LOAD_TIME       SQL_PROFILE
    ---------- ----- ---------- -------------------------------------------------------------------------------------------------------------- -------------------- -------------------- ------------------------------
    2684903421     0 3289637765 SELECT * FROM TPARSE WHERE X>:B1                                                                               2016-11-15/20:09:37  2016-11-15/21:57:33  PROF_1dmmz4yh0hrzx_3289637765
    2684903421     1 3289637765 SELECT * FROM TPARSE WHERE X>:B1                                                                               2016-11-15/20:09:37  2016-11-15/21:57:33  PROF_1dmmz4yh0hrzx_3289637765
    2684903421     2 3289637765 SELECT * FROM TPARSE WHERE X>:B1                                                                               2016-11-15/20:09:37  2016-11-15/21:57:33  PROF_1dmmz4yh0hrzx_3289637765
    
    3 rows selected.
    
      CH# PARENT_HANDLE    OBJECT_HANDLE        PARSES   H_PARSES EXECUTIONS    FETCHES ROWS_PROCESSED       LIOS       PIOS      SORTS     CPU_MS     ELA_MS USERS_EXECUTING
    ----- ---------------- ---------------- ---------- ---------- ---------- ---------- -------------- ---------- ---------- ---------- ---------- ---------- ---------------
        0 0000000069AC2D28 0000000062F19D70          3          7          2          2              0       1010         22          0     20.996      24.27               0
        1 0000000069AC2D28 00000000696F7E48          2          7          2          2              0          2          0          0          3      2.783               0
        2 0000000069AC2D28 000000006A3E05A8          0          7          2          2              0          4          0          0          2      2.473               0
    

    三个游标均使用了同样的SQL Profile,执行计划因SQL Profile而受到保护。

    Hope is personal,hope is something that no one can give to you,you have to choose to believe in hope,you have to make it yourself..
     
    分类: Oracle
  • 相关阅读:
    各大型邮箱smtp服务器及端口收集
    阿里云邮箱POP3、SMTP设置教程
    thinkphp使用PHPMailer发送邮件
    SMTP错误码建议解决方法
    又来杭州了
    外企
    陈志武竞然是date的独立董事
    今天在当当上买了几本书,内有51反利的优惠券,也是一个suprise,
    工作 心态
    中国互联网创业,最好的城市是哪里?
  • 原文地址:https://www.cnblogs.com/Leo_wl/p/6078281.html
Copyright © 2011-2022 走看看