DBA_HIST_IOSTAT_DETAIL视图记录了不同类型和组件功能所作IO的统计数据。这个视图的数据来自于V$IOSTAT_FILE和V$IOSTAT_FUNCTION 2个动态视图的快照。值得一提的是V$IOSTAT_FILE,它是11g中新引入的动态性能视图:
SQL> select filetype_name, asynch_io, access_method, retries_on_error 2 from v$iostat_file; FILETYPE_NAME ASYNCH_IO ACCESS_METH RETRIES_ON_ERROR ---------------------------- --------- ----------- ---------------- Other ASYNC_OFF OS_LIB 0 Control File ASYNC_OFF 0 Log File ASYNC_OFF 0 Archive Log ASYNC_OFF 0 Data File Backup ASYNC_OFF 0 Data File Incremental Backup ASYNC_OFF 0 Archive Log Backup ASYNC_OFF 0 Data File Copy ASYNC_OFF 0 Flashback Log ASYNC_OFF 0 Data Pump Dump File ASYNC_OFF 0 Data File ASYNC_ON OS_LIB 0 /*ASYNCH_IO列很好地标示了Oracle对于该类型文件是否启用了异步IO,这样我们就无需通过SYSTEM CALL TRACE来确定这一点了; retries_on_error累计了物理读取的失败次数,对我们发现磁盘坏道有一定帮助。目前的11.2.0.1官方Reference没有ACCESS_METHOD列的资料,猜想可能分为OS_LIB和ASM及Exdata等多种情况,有待验证。
我们回过头来继续讨论DBA_HIST_IOSTAT_DETAIL视图!
SQL> desc dba_hist_iostat_detail;
Name Type Nullable Default Comments
--------------------- ------------ -------- ------- --------
SNAP_ID NUMBER
DBID NUMBER
INSTANCE_NUMBER NUMBER
FUNCTION_ID NUMBER
FUNCTION_NAME VARCHAR2(30)
FILETYPE_ID NUMBER
FILETYPE_NAME VARCHAR2(30)
SMALL_READ_MEGABYTES NUMBER
SMALL_WRITE_MEGABYTES NUMBER
LARGE_READ_MEGABYTES NUMBER
LARGE_WRITE_MEGABYTES NUMBER
SMALL_READ_REQS NUMBER
SMALL_WRITE_REQS NUMBER
LARGE_READ_REQS NUMBER
LARGE_WRITE_REQS NUMBER
NUMBER_OF_WAITS NUMBER
WAIT_TIME NUMBER
SQL> col SMALL_READ_MEGABYTES for 999999;
SQL> col SMALL_WRITE_MEGABYTES for 999999;
SQL> col LARGE_READ_MEGABYTES for 999999;
SQL> col LARGE_WRITE_MEGABYTES for 999999;
SQL> col FILETYPE_NAME for a25;
SQL> select snap_id,
2 function_name,
3 filetype_name,
4 SMALL_READ_MEGABYTES,
5 SMALL_WRITE_MEGABYTES,
6 LARGE_READ_MEGABYTES,
7 LARGE_WRITE_MEGABYTES,
8 WAIT_TIME
9 from dba_hist_iostat_detail
10 where rownum < 16;
SNAP_ID FUNCTION_NAME FILETYPE_NAME SMALL_ SMALL_ LARGE_ LARGE_ WAIT_TIME
---------- ------------------------------ ------------------------- ------ ------ ------ ------ ----------
1 DBWR Control File 1 0 0 0 310
1 LGWR Control File 0 0 0 0 94
1 Others Control File 122 37 0 0 71635
2 DBWR Control File 1 0 0 0 310
2 LGWR Control File 0 0 0 0 94
2 Others Control File 251 77 0 0 159025
3 Others Control File 14 7 0 0 10339
4 Others Control File 96 60 0 0 87516
5 Others Control File 151 96 0 0 139796
6 DBWR Control File 0 0 0 0 15
6 Others Control File 210 135 0 0 189114
7 DBWR Control File 0 0 0 0 15
7 Others Control File 269 174 0 0 239640
8 DBWR Control File 0 0 0 0 15
8 Others Control File 328 213 0 0 288425
15 rows selected
其中SMALL_READ/WRITE代表单块读写,LARGE_READ/WRITE代表多块读写,wait_time的单位是千分之一秒(ms)。
SQL> select snap_id,
2 function_name,
3 filetype_name,
4 SMALL_READ_MEGABYTES,
5 SMALL_WRITE_MEGABYTES,
6 LARGE_READ_MEGABYTES,
7 LARGE_WRITE_MEGABYTES,
8 WAIT_TIME
9 from dba_hist_iostat_detail
10 where filetype_name = 'Control File'
11 and (LARGE_READ_REQS > 0 or LARGE_WRITE_REQS > 0);
未选定行
/*Oracle对控制文件只做单块读写*/
SQL> col FILETYPE_NAME for a15;
SQL> col function_name for a10;
SQL> select function_name,
2 filetype_name,
3 small_read_reqs,
4 small_write_reqs,
5 large_read_reqs,
6 large_write_reqs
7 from dba_hist_iostat_detail
8 where filetype_name = 'Log File'
9 and (SMALL_READ_REQS > 0 or LARGE_READ_REQS > 0);
FUNCTION_N FILETYPE_NAME SMALL_READ_REQS SMALL_WRITE_REQS LARGE_READ_REQS LARGE_WRITE_REQS
---------- --------------- --------------- ---------------- --------------- ----------------
LGWR Log File 4 9140 0 86
LGWR Log File 4 2762 0 218
LGWR Log File 8 3512 0 222
LGWR Log File 8 4304 0 226
LGWR Log File 4 1996 0 210
LGWR Log File 8 5296 0 252
LGWR Log File 8 6016 0 254
LGWR Log File 8 7224 0 274
LGWR Log File 4 11536 0 232
LGWR Log File 8 13320 0 256
SQL> select snap_id,
2 function_name,
3 filetype_name,
4 SMALL_READ_MEGABYTES,
5 SMALL_WRITE_MEGABYTES,
6 LARGE_READ_MEGABYTES,
7 LARGE_WRITE_MEGABYTES,
8 WAIT_TIME
9 from dba_hist_iostat_detail
10 where filetype_name = 'Log File';
SNAP_ID FUNCTION_NAME FILETYPE_NAME SMALL_ SMALL_ LARGE_ LARGE_ WAIT_TIME
---------- ------------------------------ ------------------------- ------ ------ ------ ------ ----------
2 LGWR Log File 0 60 0 27 30
35 LGWR Log File 0 23 0 48 0
6 LGWR Log File 0 12 0 8 0
7 LGWR Log File 0 15 0 10 0
8 LGWR Log File 0 18 0 12 0
13 LGWR Log File 0 5 0 4 0
15 LGWR Log File 0 6 0 2 0
17 LGWR Log File 0 4 0 3 0
19 LGWR Log File 0 11 0 7 0
20 LGWR Log File 0 14 0 8 0
37 LGWR Log File 0 13 0 27 0
38 LGWR Log File 0 15 0 29 0
41 LGWR Log File 0 13 0 152 46
42 LGWR Log File 0 16 0 153 61
43 LGWR Log File 0 19 0 155 61
49 LGWR Log File 0 2 0 0 0
3 LGWR Log File 0 1 0 0 0
4 LGWR Log File 0 7 0 4 0
5 LGWR Log File 0 9 0 6 0
12 LGWR Log File 0 1 0 0 0
/*日志文件在写出时会伴有少量的日志单块读操作,日志文件的写兼有单块写和多块写2种操作*/
另外,你大概和我一样不太喜欢使用OEM界面,不过OEM界面有个很方便的功能就是显示短期内的Avg Active Session Count(AAS)。什么?那你从来没看到过这种东西?下面这张截图大概可以勾起你的回忆:
早在10g时代就有人写了一个显示短期内AAS的脚本,在11g中该脚本得到了简化了:
set echo off;
set verify off;
alter session set nls_date_format='HH24:MI';
select *
from (select nvl(wait_class, 'CPU') activity,
trunc(sample_time, 'MI') time
from v$active_session_history) v pivot(count(*) for activity in('CPU' as
"CPU",
'Concurrency' as
"Concurrency",
'System I/O' as
"System I/O",
'User I/O' as
"User I/O",
'Administrative' as
"Administrative",
'Configuration' as
"Configuration",
'Application' as
"Application",
'Network' as
"Network",
'Commit' as
"Commit",
'Scheduler' as
"Scheduler",
'Cluster' as
"Cluster",
'Queueing' as
"Queueing",
'Other' as
"Other"))
where time > sysdate - interval '&last_min' minute
order by time;
我们也可以通过ASH查找Oracle中的TOP SESSION和TOP SQL:
/*找出短期内TOP SQL的sql_id和活动历史*/
select ash.SQL_ID,
sum(decode(ash.session_state, 'ON CPU', 1, 0)) "CPU",
sum(decode(ash.session_state, 'WAITING', 1, 0)) -
sum(decode(ash.session_state,
'WAITING',
decode(en.wait_class, 'User I/O', 1, 0),
0)) "WAIT",
sum(decode(ash.session_state,
'WAITING',
decode(en.wait_class, 'User I/O', 1, 0),
0)) "IO",
sum(decode(ash.session_state, 'ON CPU', 1, 1)) "TOTAL"
from v$active_session_history ash, v$event_name en
where SQL_ID is not NULL
and en.event# = ash.event#
group by sql_id
order by sum(decode(session_state, 'ON CPU', 1, 1)) desc;
SQL_ID CPU WAIT IO TOTAL
------------- ---------- ---------- ---------- ----------
a01hp0psv0rrh 0 2 7 9
24g90qj2b7ywk 0 5 1 6
2amsp6skc6tjv 0 0 5 5
46quk68k7akpa 0 3 1 4
2ufrf9vk4kcwj 0 0 3 3
1w8m6dwy66ttn 0 0 3 3
8uxr3scz9bmxd 0 0 3 3
6htq3p9j91y0s 0 0 3 3
cvn54b7yz0s8u 0 0 3 3
92f47aa2q2rmd 0 2 1 3
/*找出变量ivl指定分钟内的TOP CPU SESSION*/
Select session_id, count(*)
from v$active_session_history
where session_state = 'ON CPU'
and SAMPLE_TIME > sysdate -(&ivl/(24 * 60))
group by session_id
order by count(*) desc;
输入 ivl 的值: 10
原值 4: and SAMPLE_TIME > sysdate -(&ivl/(24 * 60))
新值 4: and SAMPLE_TIME > sysdate -(10/(24 * 60))
SESSION_ID COUNT(*)
---------- ----------
136 4
/*找出变量ivl指定分钟内TOP WAITING SESSION*/
Select session_id, count(*)
from v$active_session_history
where session_state = 'WAITING'
and SAMPLE_TIME > SYSDATE - (&ivl / (24 * 60))
group by session_id
order by count(*) desc;
输入 ivl 的值: 10
原值 4: and SAMPLE_TIME > SYSDATE - (&ivl / (24 * 60))
新值 4: and SAMPLE_TIME > SYSDATE - (10 / (24 * 60))
SESSION_ID COUNT(*)
---------- ----------
3 11
/*找出短期内的TOP SESSION及活动历史*/
select ash.session_id,
ash.session_serial#,
ash.user_id,
ash.program,
sum(decode(ash.session_state, 'ON CPU', 1, 0)) "CPU",
sum(decode(ash.session_state, 'WAITING', 1, 0)) -
sum(decode(ash.session_state,
'WAITING',
decode(en.wait_class, 'User I/O', 1, 0),
0)) "WAITING",
sum(decode(ash.session_state,
'WAITING',
decode(en.wait_class, 'User I/O', 1, 0),
0)) "IO",
sum(decode(session_state, 'ON CPU', 1, 1)) "TOTAL"
from v$active_session_history ash, v$event_name en
where en.event# = ash.event#
group by session_id, user_id, session_serial#, program
order by sum(decode(session_state, 'ON CPU', 1, 1));
以上脚本完全可以被ashrpt报表所替代,但在短期内做针对检查仍十分有效。
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