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全部博文(12)
2011年(12)
分类: Oracle
2011-08-21 17:58:35
本文原链接,个人站点:
该特性是11gR1引入的,关于query result cache特性,主要有2种:
1. PL/SQL Function Result Cache --针对plsql而言
2. Query Result Cache --顾名思义针对重复执行的sql
我们都知道oracle通常是通过参数来进行控制某个功能的,当然这个也不例外,
首先我们来介绍跟该特性有关的几个参数(包括隐含参数):
SQL> select * from v$version where rownum <2;
BANNER
--------------------------------------------------------------------------------
Oracle Database 11g Enterprise Edition Release 11.2.0.1.0 - Production
SQL> show parameter result
NAME TYPE VALUE
------------------------------------ ----------- ------------------------------
_client_result_cache_bypass boolean FALSE
_result_cache_auto_execution_threshold integer 1
_result_cache_auto_size_threshold integer 100
_result_cache_auto_time_distance integer 300
_result_cache_auto_time_threshold integer 1000
_result_cache_block_size integer 1024
_result_cache_global boolean TRUE
_result_cache_timeout integer 10
_xsolapi_sql_result_set_cache_size integer 32
client_result_cache_lag big integer 3000
client_result_cache_size big integer 0
result_cache_max_result integer 5
result_cache_max_size big integer 960K
result_cache_mode string MANUAL
result_cache_remote_expiration integer 0
几个重要的参数:
result_cache_mode
该参数是最为重要的,其属性有manual和force 两种。
manual是默认属性,也就是说我们要启用该特性,那么必须通过hint来实现,不然oracle的优化器
是无法认知的,那么是什么hint呢? 如下:
SQL> select name,version from v$sql_hint
2 where name like '%RESULT%'
NAME VERSION
---------------------------------------- -------------------------
RESULT_CACHE 11.1.0.6
NO_RESULT_CACHE 11.1.0.6
当设置为force时,oracle 优化就能自动识别了,不需要使用hint,相反,如果当设置为force时,同时
你又不想某个sql或应用使用该特性,那么可以使用NO_RESUIT_CACHE hint来进行避规。
至于说,当启动该特性时,oracle是如何来实现的?这个问题需要进一步研究。
result_cache_max_size
该参数控制着使用该特性的内存大小,当该参数设置为0,那么也就意味着关闭了该特性。
该部分内存是从SGA中分配的,至于分配的比例关系,metalink提供了如下的数据:
0.25% of MEMORY_TARGET or
0.5% of SGA_TARGET or
1% of SHARED_POOL_SIZE
上面的关系应该是一目了然了,如何解释?我暂且不说,给大家留个问题。
result_cache_max_result
该参数是控制单个result所能占据query cache的大小比例,注意是一个百分比。
该参数默认是是5%,取值范围当然是1% ~ 100% 了。
result_cache_remote_expiration
该参数的作用是根据远程数据库对象设置缓存过期的时间,默认值为0.
也就是说,默认情况下,远程数据库对象不会被进行cache的。
_result_cache_global
顾名思义,该参数肯定是针对Rac集群而设计的,这样可以大大的降低经典的gc等待。
下面通过相关的实验操作来进行详细的说明:
SQL> create table ht01 as select owner,object_name,object_id from
2 dba_objects where object_id <1000;
Table created.
SQL> create index idx_ht01_id on ht01(object_id);
Index created.
SQL> set autot traceonly
SQL> set timing on
SQL> select owner,object_name from ht01 where object_id=888;
Elapsed: 00:00:00.20
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 2 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
2 - access("OBJECT_ID"=888)
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
406 recursive calls
4 db block gets
64 consistent gets
0 physical reads
0 redo size
501 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
6 sorts (memory)
0 sorts (disk)
1 rows processed
SQL> select /*+ RESULT_CACHE */ owner,object_name
2 from ht01 where object_id=888;
Elapsed: 00:00:00.17
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-----------------------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-----------------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | RESULT CACHE | 0mn43k8b004mrgacy3snrb9ff7 | | | | |
| 2 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 3 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-----------------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
3 - access("OBJECT_ID"=888)
Result Cache Information (identified by operation id):
------------------------------------------------------
1 - column-count=2; dependencies=(ROGER.HT01); attributes=(ordered); name="select /*+ RESULT_CACHE */ owner,object_name
from ht01 where object_id=888"
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
7 recursive calls
0 db block gets
14 consistent gets
0 physical reads
0 redo size
493 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL>
发现第一使用hint解析时,消耗较高,下面我们再次执行,看看结果。
大家注意前面的执行计划,红色部分,这里的意思可以理解为oracle首先在执行
该sql执行之前,会到query cache里面去寻找是否有这个sql语句的信息。
如果没有,那么将进行解析,跟以前的理解完全一样。
SQL> select owner,object_name from ht01 where object_id=888;
Elapsed: 00:00:00.02
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 2 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
2 - access("OBJECT_ID"=888)
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
0 recursive calls
0 db block gets
4 consistent gets
0 physical reads
0 redo size
501 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL> select /*+ RESULT_CACHE */ owner,object_name
2 from ht01 where object_id=888;
Elapsed: 00:00:00.02
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-----------------------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-----------------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | RESULT CACHE | 0mn43k8b004mrgacy3snrb9ff7 | | | | |
| 2 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 3 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-----------------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
3 - access("OBJECT_ID"=888)
Result Cache Information (identified by operation id):
------------------------------------------------------
1 - column-count=2; dependencies=(ROGER.HT01); attributes=(ordered); name="select /*+ RESULT_CACHE */ owner,object_name
from ht01 where object_id=888"
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
0 recursive calls
0 db block gets
0 consistent gets
0 physical reads
0 redo size
493 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL>
第2次执行,我们发现消耗非常小。这里大家可以跟前面执行的语句,
select owner,object_name from ht01 where object_id=888; 进行对比,即使执行过相同
的sql语句,再次执行,那么也仍然有4个逻辑读,为什么呢?答案就是软解析。
我们可以发现使用了query cache result特性后,逻辑读为0. 效率明显高很多。
这里为什么query cache result这么强大,其他他这里就是发现cache里面已经存在了,
那么连软解析就不用了,直接从cache里面返回结果给客户端。
下面我们将该参数设置为force,来看看情况如何。
SQL> show user
USER is "ROGER"
SQL> alter session set result_cache_mode = force;
Session altered.
Elapsed: 00:00:00.07
SQL> select owner,object_name from ht01 where object_id=666;
Elapsed: 00:00:00.04
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-----------------------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-----------------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | RESULT CACHE | 6u1h1qaku8rv6bp04nj91w3vvh | | | | |
| 2 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 3 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-----------------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
3 - access("OBJECT_ID"=666)
Result Cache Information (identified by operation id):
------------------------------------------------------
1 - column-count=2; dependencies=(ROGER.HT01); attributes=(ordered); name="select owner,object_name from ht01 where object_id=666"
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
9 recursive calls
0 db block gets
14 consistent gets
0 physical reads
0 redo size
493 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL> select owner,object_name from ht01 where object_id=999;
Elapsed: 00:00:00.02
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-----------------------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-----------------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | RESULT CACHE | 4gj5xks5wnjmk752h1fz18jprp | | | | |
| 2 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 3 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-----------------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
3 - access("OBJECT_ID"=999)
Result Cache Information (identified by operation id):
------------------------------------------------------
1 - column-count=2; dependencies=(ROGER.HT01); attributes=(ordered); name="select owner,object_name from ht01 where object_id=999"
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
7 recursive calls
0 db block gets
13 consistent gets
0 physical reads
0 redo size
492 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL>
SQL> select /*+ NO_RESULT_CACHE */ owner,object_name
2 from ht01 where object_id=666;
Elapsed: 00:00:00.03
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 2 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
2 - access("OBJECT_ID"=666)
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
7 recursive calls
0 db block gets
14 consistent gets
0 physical reads
0 redo size
501 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL> select owner,object_name from ht01 where object_id=666;
Elapsed: 00:00:00.02
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-----------------------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-----------------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | RESULT CACHE | 6u1h1qaku8rv6bp04nj91w3vvh | | | | |
| 2 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 3 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-----------------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
3 - access("OBJECT_ID"=666)
Result Cache Information (identified by operation id):
------------------------------------------------------
1 - column-count=2; dependencies=(ROGER.HT01); attributes=(ordered); name="select owner,object_name from ht01 where object_id=666"
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
0 recursive calls
0 db block gets
0 consistent gets
0 physical reads
0 redo size
493 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL>
SQL> show parameter cursor
NAME TYPE VALUE
------------------------------------ ----------- ------------------------------
_close_cached_open_cursors boolean FALSE
_cursor_bind_capture_area_size integer 400
_cursor_bind_capture_interval integer 900
_cursor_cache_time integer 1800
_cursor_db_buffers_pinned integer 44
_cursor_features_enabled integer 2
_cursor_plan_enabled boolean TRUE
_cursor_plan_hash_version integer 1
_cursor_plan_unparse_enabled boolean TRUE
_cursor_stats_bucket integer 15
_cursor_stats_heap integer 4
_dump_cursor_heap_sizes boolean FALSE
_fast_cursor_reexecute boolean FALSE
_kks_free_cursor_stat_pct integer 10
_optimizer_adaptive_cursor_sharing boolean TRUE
_optimizer_extended_cursor_sharing string UDO
_optimizer_extended_cursor_sharing_r string SIMPLE
el
_px_slaves_share_cursors integer 0
_row_cache_cursors integer 20
cursor_sharing string EXACT
cursor_space_for_time boolean FALSE
open_cursors integer 300
session_cached_cursors integer 50
SQL>
到这里,或许有人会有点迷惑了,最开始执行的是object_id=888,后面执行是object_id为666,
为啥也能使用该特性且生效呢?因为query cache result特性不仅仅是根据文本来匹配,只要执行计划
或部分执行计划一样,那么就会共享,也就是说就能避免软解析直接返回结果。
这样要简单的提及一下的是,我知道mysql 也有query cache的特性,开始我以为oracle跟mysql这
功能完全一样,现在发现其实不一样,oracle 这里比mysql先进多了,为啥这么说呢? 因为mysql的
query cache 仅仅是对文本进行匹配,如果这里换成是mysql,那么object_id为666和888的2个sql语句,
是无法进行共享的,除非使用绑定变量。
到最后,可能有朋友为问道,如果使用了该特性,那么想过的几个视图记录的信息岂不是会不断变大吗?
确实是这样的,但是oracle提供了一个新的dbms包,可以对query cache result进行操作。
SQL> desc dbms_result_cache
PROCEDURE BYPASS
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
BYPASS_MODE BOOLEAN IN
SESSION BOOLEAN IN DEFAULT
FUNCTION DELETE_DEPENDENCY RETURNS NUMBER
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
OWNER VARCHAR2 IN
NAME VARCHAR2 IN
PROCEDURE DELETE_DEPENDENCY
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
OWNER VARCHAR2 IN
NAME VARCHAR2 IN
FUNCTION DELETE_DEPENDENCY RETURNS NUMBER
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
OBJECT_ID BINARY_INTEGER IN
PROCEDURE DELETE_DEPENDENCY
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
OBJECT_ID BINARY_INTEGER IN
FUNCTION FLUSH RETURNS BOOLEAN
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
RETAINMEM BOOLEAN IN DEFAULT
RETAINSTA BOOLEAN IN DEFAULT
GLOBAL BOOLEAN IN DEFAULT
PROCEDURE FLUSH
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
RETAINMEM BOOLEAN IN DEFAULT
RETAINSTA BOOLEAN IN DEFAULT
GLOBAL BOOLEAN IN DEFAULT
FUNCTION INVALIDATE RETURNS NUMBER
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
OWNER VARCHAR2 IN
NAME VARCHAR2 IN
PROCEDURE INVALIDATE
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
OWNER VARCHAR2 IN
NAME VARCHAR2 IN
FUNCTION INVALIDATE RETURNS NUMBER
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
OBJECT_ID BINARY_INTEGER IN
PROCEDURE INVALIDATE
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
OBJECT_ID BINARY_INTEGER IN
FUNCTION INVALIDATE_OBJECT RETURNS NUMBER
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
ID BINARY_INTEGER IN
PROCEDURE INVALIDATE_OBJECT
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
ID BINARY_INTEGER IN
FUNCTION INVALIDATE_OBJECT RETURNS NUMBER
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
CACHE_ID VARCHAR2 IN
PROCEDURE INVALIDATE_OBJECT
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
CACHE_ID VARCHAR2 IN
PROCEDURE MEMORY_REPORT
Argument Name Type In/Out Default?
------------------------------ ----------------------- ------ --------
DETAILED BOOLEAN IN DEFAULT
FUNCTION STATUS RETURNS VARCHAR2
SQL>
SQL> select DBMS_RESULT_CACHE.status from dual;
STATUS
------------------------------
ENABLED
SQL>
另外提及一下的是,如果你不想让某个sql不使用query cache result特性,而这时又无法用过
修改sql语句来加hint 时,那么此时你可以用过如下方式来进行操作:
exec DBMS_RESULT_CACHE.INVALIDATE_OBJECT('&CACHE_ID');如下例子
SQL> exec DBMS_RESULT_CACHE.INVALIDATE_OBJECT('&CACHE_ID');
Enter value for cache_id: 6u1h1qaku8rv6bp04nj91w3vvh
PL/SQL procedure successfully completed.
Elapsed: 00:00:00.13
SQL> select name,status,cache_id from v$result_cache_objects;
NAME STATUS CACHE_ID
------------------------------------------------------ --------- -----------------------------------
ROGER.HT01 Published ROGER.HT01
select owner,object_name from ht01 where object_id=666 Published 6u1h1qaku8rv6bp04nj91w3vvh
select owner,object_name from ht01 where object_id=999 Published 4gj5xks5wnjmk752h1fz18jprp
select /*+ RESULT_CACHE */ owner,object_name Published 0mn43k8b004mrgacy3snrb9ff7
from ht01 where object_id=888
select owner,object_name from ht01 where object_id=666 Invalid 6u1h1qaku8rv6bp04nj91w3vvh
SQL>
SQL> select owner,object_name from ht01 where object_id=666;
Elapsed: 00:00:00.02
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-----------------------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-----------------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | RESULT CACHE | 6u1h1qaku8rv6bp04nj91w3vvh | | | | |
| 2 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 3 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-----------------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
3 - access("OBJECT_ID"=666)
Result Cache Information (identified by operation id):
------------------------------------------------------
1 - column-count=2; dependencies=(ROGER.HT01); attributes=(ordered); name="select owner,object_name from ht01 where object_id=666"
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
0 recursive calls
0 db block gets
4 consistent gets
0 physical reads
0 redo size
493 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL> alter session set result_cache_mode = auto;
Session altered.
Elapsed: 00:00:00.02
SQL> select owner,object_name from ht01 where object_id=666;
Elapsed: 00:00:00.03
Execution Plan
----------------------------------------------------------
Plan hash value: 2671155529
-------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 96 | 2 (0)| 00:00:01 |
| 1 | TABLE ACCESS BY INDEX ROWID| HT01 | 1 | 96 | 2 (0)| 00:00:01 |
|* 2 | INDEX RANGE SCAN | IDX_HT01_ID | 1 | | 1 (0)| 00:00:01 |
-------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
2 - access("OBJECT_ID"=666)
Note
-----
- dynamic sampling used for this statement (level=2)
Statistics
----------------------------------------------------------
9 recursive calls
0 db block gets
14 consistent gets
0 physical reads
0 redo size
501 bytes sent via SQL*Net to client
415 bytes received via SQL*Net from client
2 SQL*Net roundtrips to/from client
0 sorts (memory)
0 sorts (disk)
1 rows processed
SQL>
这里需要注意的是,如果result_cache_mode是设置为force的话,那么经过该过程的操作其实
是不起任何作用的,当该参数设置为auto了就ok了。
通过dbms_result_cache.memory_report来查看cache memory的使用情况:
SQL> exec dbms_result_cache.memory_report
R e s u l t C a c h e M e m o r y R e p o r t
[Parameters]
Block Size = 1K bytes
Maximum Cache Size = 960K bytes (960 blocks)
Maximum Result Size = 48K bytes (48 blocks)
[Memory]
Total Memory = 107836 bytes [0.112% of the Shared Pool]
... Fixed Memory = 9440 bytes [0.010% of the Shared Pool]
... Dynamic Memory = 98396 bytes [0.102% of the Shared Pool]
....... Overhead = 65628 bytes
....... Cache Memory = 32K bytes (32 blocks)
........... Unused Memory = 28 blocks
........... Used Memory = 4 blocks
............... Dependencies = 1 blocks (1 count)
............... Results = 3 blocks
................... SQL = 3 blocks (3 count)
PL/SQL procedure successfully completed.
通过dbms_result_cache.fulsh来清除已经cache的信息:
SQL> BEGIN
DBMS_RESULT_CACHE.BYPASS(TRUE);
DBMS_RESULT_CACHE.FLUSH;
2 END;
3 / 4 5
PL/SQL procedure successfully completed.
Elapsed: 00:00:00.02
SQL> set serveroutput on
SQL> exec dbms_result_cache.memory_report;
R e s u l t C a c h e M e m o r y R e p o r t
[Parameters]
Block Size = 1K bytes
Maximum Cache Size = 960K bytes (960 blocks)
Maximum Result Size = 48K bytes (48 blocks)
[Memory]
Total Memory = 9440 bytes [0.010% of the Shared Pool]
... Fixed Memory = 9440 bytes [0.010% of the Shared Pool]
... Dynamic Memory = 0 bytes [0.000% of the Shared Pool]
PL/SQL procedure successfully completed.
Elapsed: 00:00:00.13
SQL>
另外跟该特性相关的几个新引入的视图也跟大家简单的介绍一下,如下:
V$RESULT_CACHE_DEPENDENCY
该视图记录了result cache的一些对象,如下:
SQL> select * from V$RESULT_CACHE_DEPENDENCY;
RESULT_ID DEPEND_ID OBJECT_NO
---------- ---------- ----------
1 0 73434
result_id其实就是执行计划中的id。 后面的object_no即是对象的object_id。
SQL> select owner,object_id,object_name from dba_objects where object_name='HT01';
OWNER OBJECT_ID OBJECT_NAME
---------- ---------- -------------------------
ROGER 73434 HT01
V$RESULT_CACHE_MEMORY
该视图主要是用来查询query cache的使用情况,如下:
SQL> select * from V$RESULT_CACHE_MEMORY;
ID CHUNK OFFSET FRE OBJECT_ID POSITION
---------- ---------- ---------- --- ---------- ----------
0 0 0 NO 0 0
1 0 1 NO 1 0
2 0 2 YES
3 0 3 YES
4 0 4 YES
5 0 5 YES
6 0 6 YES
7 0 7 YES
8 0 8 YES
9 0 9 YES
10 0 10 YES
11 0 11 YES
12 0 12 YES
13 0 13 YES
14 0 14 YES
15 0 15 YES
16 0 16 YES
17 0 17 YES
18 0 18 YES
19 0 19 YES
20 0 20 YES
21 0 21 YES
22 0 22 YES
23 0 23 YES
24 0 24 YES
25 0 25 YES
26 0 26 YES
27 0 27 YES
28 0 28 YES
29 0 29 YES
30 0 30 YES
31 0 31 YES
32 rows selected.
V$RESULT_CACHE_OBJECTS
该视图主要是记录了关于cache 对象的一些信息,大家可以参考官方文档的说明,
该视图在11gR1和11gR2 中无任何差异,如下查询例子:
SQL> select id,type,name,OBJECT_NO,CACHE_ID,CACHE_KEY,HASH
2 from V$RESULT_CACHE_OBJECTS
ID TYPE NAME OBJECT_NO CACHE_ID CACHE_KEY HASH
---- ---------- -------------------- ---------- ---------------------------- --------------------------- ----------
0 Dependency ROGER.HT01 73434 ROGER.HT01 ROGER.HT01 1419051366
1 Result select /*+ RESULT_CA 0 0mn43k8b004mrgacy3snrb9ff7 gq7925h12u7315u1m3t300pb6a 3399706625
CHE */ owner,object_
name
from ht01 where obje
ct_id=888
V$RESULT_CACHE_STATISTICS
该视图主要是记录result cache对象的一些统计信息,是记录的累计值。
SQL> select * from V$RESULT_CACHE_STATISTICS;
ID NAME VALUE
---------- ------------------------------ -------
1 Block Size (Bytes) 1024
2 Block Count Maximum 960
3 Block Count Current 32
4 Result Size Maximum (Blocks) 48
5 Create Count Success 1
6 Create Count Failure 0
7 Find Count 1
8 Invalidation Count 0
9 Delete Count Invalid 0
10 Delete Count Valid 0
11 Hash Chain Length 1
11 rows selected.
SQL>
到最后,我们再来看看query cache result特性有哪些局限,通俗的将就是在哪些情况下,
该特性将无法使用或将不会生效。
Result cache is disabled for queries containing:
Temporary or Dictionary tables
Nondeterministic PL/SQL functions
Sequence CURRVAL and NEXTVALSQL functions CURRENT_DATE,SYSDATE,SYS_GUID, and so on
DDL/DML on remote database does not expire cached results
Flashback queries can be cached
Result Cache does not automatically release memory
It grows until maximum size is reached
DBMS_RESULT_CACHE.FLUSH purges memory
Bind variables
Cached result is parameterized with variable values
Cached results can only be found for the same variable values
Cached result will not be build if:
Query is build on a noncurrent version of data(read consistency enforcement)
Current session has outstanding transaction on tables in query
Result cache is flushed when we flush the shared pool
关于该特性,大家可以参考如下metalink文档或查阅官方文档:
Complete Reference To 11g New Feature : SQL Query Result Cache [Video] [ID 1108133.1]
当你读完这篇文章以后,你或许会跟我一样,大脑中会有了一个很大的疑问:
query cache result特性所占据的这部分内存是如何管理的,虽然说该部分内存是从sga中分配,
那么该部分内存到底存在哪儿呢?cache buffer?还是shared pool中吗?如果是,
那么当执行如下是命令后还有用吗?
alter system flush cache_buffer;
alter system flush shared_pool;
其实从上面红色部分我们可以看出,该部分内存存在shared pool中。至于是如何进行管理的,
其结构如何?将是下一篇文章所要阐述的。
备注:
1. 由于plsql query cache result其实基本上差不多,只是11.1 和11.2有小小的差异,
所以我这里没有演示plsql query cache result。另外就是既然是新特性,那么就避免不了
有不少的bug,所以在使用该特性时需要做一定的权衡(经查metalink,相关的几个bug影响其实
不大)。
2. query cache result除了server端之外还有client query cache result,也有一些
相关的参数配置,如下:
client_result_cache_size
client_result_cache_lag
如下参数需要加到客户端sqlnet.ora中。
OCI_RESULT_CACHE_MAX_SIZE
OCI_RESULT_CACHE_MAX_RSET_SIZE
OCI_RESULT_CACHE_MAX_RSET_ROWS
更为详细的说明或用法以及注意事项,大家请参考官方文档,这里不做说明。