-查询最慢的sql
select * from (
select parsing_user_id,executions,sorts
command_type,disk_reads,sql_text from v$sqlarea order by disk_reads desc
)where rownum<10
--查询对应session
select SE.SID,SE.SERIAL#,PR.SPID,
SE.USERNAME,SE.STATUS,SE.TERMINAL,
SE.PROGRAM,SE.MODULE,
SE.SQL_ADDRESS,ST.EVENT,
ST.P1TEXT,SI.PHYSICAL_READS,SI.BLOCK_CHANGES from v$session se,v$session_wait
st,
v$sess_io si,v$process pr
where st.SID=se.SID and st.SID=si.SID
AND SE.PADDR=PR.ADDR
AND SE.SID>6
AND ST.WAIT_TIME=0
AND ST.EVENT NOT LIKE '%SQL%'
ORDER BY PHYSICAL_READS DESC;
SELECT sql_address FROM V$SESSION SS,V$SQLTEXT TT
WHERE SS.SQL_HASH_VALUE=TT.HASH_VALUE AND SID=439;
v$sqltext:存储的是完整的SQL,SQL被分割
v$sqlarea:存储的SQL 和一些相关的信息,比如累计的执行次数,逻辑读,物理读等统计信息(统计)
v$sql:内存共享SQL区域中已经解析的SQL语句。(即时)
根据sid查找完整sql语句:
select sql_text from v$sqltext a where
a.hash_value = (select sql_hash_value from v$session b where b.sid =
'&sid' )
order by piece asc
select a.CPU_TIME,--CPU时间 百万分之一(微秒)
a.OPTIMIZER_MODE,--优化方式
a.EXECUTIONS,--执行次数
a.DISK_READS,--读盘次数
a.SHARABLE_MEM,--占用shared pool的内存多少
a.BUFFER_GETS,--读取缓冲区的次数
a.COMMAND_TYPE,--命令类型(3:select,2:insert;6:update;7delete;47:pl/sql程序单元)
a.SQL_TEXT,--Sql语句
a.SHARABLE_MEM,
a.PERSISTENT_MEM,
a.RUNTIME_MEM,
a.PARSE_CALLS,
a.DISK_READS,
a.DIRECT_WRITES,
a.CONCURRENCY_WAIT_TIME,
a.USER_IO_WAIT_TIME
from SYS.V_$SQLAREA a
WHERE PARSING_SCHEMA_NAME = 'CHEA_FILL'--表空间
order by a.CPU_TIME desc
引用:http://jenniferok.iteye.com/blog/700985
从V$SQLAREA中查询最占用资源的查询
select b.username username,a.disk_reads
reads,
a.executions
exec,a.disk_reads/decode(a.executions,0,1,a.executions) rds_exec_ratio,
a.sql_text Statement
from v$sqlarea a,dba_users b
where a.parsing_user_id=b.user_id
and a.disk_reads > 100000
order by a.disk_reads desc;
用buffer_gets列来替换disk_reads列可以得到占用最多内存的sql语句的相关信息。
v$sql:内存共享SQL区域中已经解析的SQL语句。(即时)
列出使用频率最高的5个查询:
select sql_text,executions
from (select sql_text,executions,
rank() over
(order by executions desc) exec_rank
from v$sql)
where exec_rank <=5;
消耗磁盘读取最多的sql top5:
select
disk_reads,sql_text
from (select sql_text,disk_reads,
dense_rank() over
(order by disk_reads desc) disk_reads_rank
from v$sql)
where disk_reads_rank <=5;
找出需要大量缓冲读取(逻辑读)操作的查询:
select buffer_gets,sql_text
from (select sql_text,buffer_gets,
dense_rank() over
(order by buffer_gets desc) buffer_gets_rank
from v$sql)
where buffer_gets_rank<=5;
v$sqlarea字段定义:http://happyhou.blog.sohu.com/60494432.html
|
SQL_TEXT |
VARCHAR2(1000) |
First thousand characters of the SQL text for the |
|
SQL_ID |
VARCHAR2(13) |
SQL identifier of the parent cursor in the library |
|
SHARABLE_MEM |
NUMBER |
Amount of shared memory used by a cursor. If multiple |
|
PERSISTENT_MEM |
NUMBER |
Fixed amount of memory used for the lifetime of an open |
|
RUNTIME_MEM |
NUMBER |
Fixed amount of memory required during execution of a |
|
SORTS |
NUMBER |
Sum of the number of sorts that were done for all the |
|
VERSION_COUNT |
NUMBER |
Number of child cursors that are present in the cache |
|
LOADED_VERSIONS |
NUMBER |
Number of child cursors that are present in the cache |
|
OPEN_VERSIONS |
NUMBER |
The number of child cursors that are currently open |
|
USERS_OPENING |
NUMBER |
Number of users that have any of the child cursors open |
|
FETCHES |
NUMBER |
Number of fetches associated with the SQL statement |
|
EXECUTIONS |
NUMBER |
Total number of executions, totalled over all the child |
|
END_OF_FETCH_COUNT |
NUMBER |
Number of times this cursor was fully executed since the |
|
USERS_EXECUTING |
NUMBER |
Total number of users executing the statement over all |
|
LOADS |
NUMBER |
Number of times the object was loaded or reloaded |
|
FIRST_LOAD_TIME |
VARCHAR2(19) |
Timestamp of the parent creation time |
|
INVALIDATIONS |
NUMBER |
Total number of invalidations over all the child |
|
PARSE_CALLS |
NUMBER |
Sum of all parse calls to all the child cursors under |
|
DISK_READS |
NUMBER |
Sum of the number of disk reads over all child cursors |
|
DIRECT_WRITES |
NUMBER |
Sum of the number of direct writes over all child |
|
BUFFER_GETS |
NUMBER |
Sum of buffer gets over all child cursors |
|
APPLICATION_WAIT_TIME |
NUMBER |
Application wait time |
|
CONCURRENCY_WAIT_TIME |
NUMBER |
Concurrency wait time |
|
CLUSTER_WAIT_TIME |
NUMBER |
Cluster wait time |
|
USER_IO_WAIT_TIME |
NUMBER |
User I/O Wait Time |
|
PLSQL_EXEC_TIME |
NUMBER |
PL/SQL execution time |
|
JAVA_EXEC_TIME |
NUMBER |
Java execution time |
|
ROWS_PROCESSED |
NUMBER |
Total number of rows processed on behalf of this SQL |
|
COMMAND_TYPE |
NUMBER |
Oracle command type definition |
|
OPTIMIZER_MODE |
VARCHAR2(25) |
Mode under which the SQL statement was executed |
|
PARSING_USER_ID |
NUMBER |
User ID of the user that has parsed the very first |
|
PARSING_SCHEMA_ID |
NUMBER |
Schema ID that was used to parse this child cursor |
|
KEPT_VERSIONS |
NUMBER |
Number of child cursors that have been marked to be |
|
ADDRESS |
RAW(4 | 8) |
Address of the handle to the parent for this cursor |
|
HASH_VALUE |
NUMBER |
Hash value of the parent statement in the library cache |
|
OLD_HASH_VALUE |
NUMBER |
Old SQL hash value |
|
MODULE |
VARCHAR2(64) |
Contains the name of the module that was executing at |
|
MODULE_HASH |
NUMBER |
Hash value of the module that is named in the MODULEcolumn |
|
ACTION |
VARCHAR2(64) |
Contains the name of the action that was executing at |
|
ACTION_HASH |
NUMBER |
Hash value of the action that is named in the ACTIONcolumn |
|
SERIALIZABLE_ABORTS |
NUMBER |
Number of times the transaction fails to serialize, |
|
CPU_TIME |
NUMBER |
CPU time (in microseconds) used by this cursor for |
|
ELAPSED_TIME |
NUMBER |
Elapsed time (in microseconds) used by this cursor for |
|
IS_OBSOLETE |
VARCHAR2(1) |
Indicates whether the cursor has become obsolete (Y ) or not (N ). This can happen if the number |
|
CHILD_LATCH |
NUMBER |
Child latch number that is protecting the cursor |
|
PROGRAM_ID |
NUMBER |
Program identifie |
原文地址:http://blog.csdn.net/sxhong/article/details/18262663