应用调优
60压缩索引
压缩索引可以提高索引的查询效率,节约空间
62创建索引表:
当创建的索引和表的容量一样时。就直接创建索引表比以往的方案要好。
索引表没有rowid
Index_stats索引的的信息
创建倒序索引:
Bitmap索引在大表,只读表,重复字段多,较好,维护较难
给索引表建逻辑rowid使用下列语法:
66 query rewrite
68 锁相关视图
69 手动锁表
Statspack
安装schema
1 产看说明文档:
$oracle_home/rdbms/admin/Spdoc.Txt
2 创建表空间
3执行脚本
创建脚本;
删除的脚本:错误可以先删除
通过sprepcon.Sql修改参数
查看oracle缓存的命中率(大于90%)
select 1 - ((physical.value - direct.value - lobs.value) / logical.value)
"Buffer Cache Hit Ratio"
from v$sysstat physical,v$sysstat direct,v$sysstat lobs,v$sysstat logical
where physical.name = 'physical reads'
and direct.name='physical reads direct'
and lobs.name='physical reads direct (lob)'
and logical.name='session logical reads';
查询文件信息:select * from dba_data_files
oracle redo log管理:
1. 组成员要分散,磁盘IO要快
2. 日志文件大小分配要合理
保证每个组的切换时间应该不小于20分钟左右
切换日志:
Alter system switch logfile;
添加日志组:
alter database add logfile group 4 '/u01/oracle/oradata/orcl/redo04.log' size 50m;
下次切换日志会优先使用此文件
其中group 4 可以省略不写,系统会自动分配
添加有多个成员的组:
alter database add logfile ('/u01/oracle/oradata/orcl/redo06.log','/u01/oracle/oradata/orcl/redo6.log') size 50m;
往已经有的组里添加成员:
alter database add logfile member '/u01/oracle/oradata/orcl/redo4.log' to group 4;
大小默认是组内已有成员的大小。
alter database add logfile member '
删除日志组:
日志组状态不能使current和active
alter database drop logfile group 6,group 5
删除某个成员:
alter database drop logfile member '
重做日志的重命名:
在mount和open阶段才能更改,因为是改到控制文件里面了。
日志文件不能是current和active
先把文件拷贝到另一个名称
Ho cp
Alter datebase rename file ‘’ to ‘’
非归档模式可以直接改随便哪个状态都可但不能使current
Current 和active丢失后数据库启动会成问题
改变日志组的大小:(先把原来的组删除,在新建同名的组)
Alter database drop logfile group 3;
Alter database add logfile group 3 (‘/u01/oracle/oradata/orcl/redo03.log’,’ /u01/oracle/oradata/orcl/redo03.log’);
监控日志组自动切换的时间间隔:
Select to_char(first_time,’yyyy-mm-dd hh24:mi:ss’’),group# from v$log;
日志文件需要监视内容:
1. 位置在哪里,是否存在
2. 磁盘空间是否足够
3. 日志切换间隔时间
4. 看日志组下是否具有多个成员
5. 不一致
日志不一致的处理方法:
清空日志:Alter database clear logfile group n; 清空非current 和active的日志
Alter database clear unarchived logfile group n; 清空非current的日志;
日志文件全部丢失:
归档模式下不使用隐藏参数:
Recover database using backup controlfile;
Alter database open resetlogs;
使用隐藏参数方法:
SQL> alter system set "_allow_resetlogs_corruption"=true scope=spfile;
Startup force mount
Alter database open resetlogs
重置隐藏参数(要不容易引起错误)
Alter system reset "_allow_resetlogs_corruption" scope =spfile sid =’*’;
create spfile from pfile='/home/oracle/spfileFLT.ora';
startup pfile='/home/oracle/spfileFLT.ora';
create spfile='/orac/orahome/10.2.0/dbs/spfileFLT1.ora' from pfile='/orac/orahome/admin/FLT/pfile/init.ora.2302013164056';
调优
判断回滚段竞争的SQL语句:(当Ratio大于2时存在回滚段竞争,需要增加更多的回滚段)
select rn.name, rs.GETS, rs.WAITS, (rs.WAITS / rs.GETS) * 100 ratio
from v$rollstat rs, v$rollname rn
where rs.USN = rn.usn
判断恢复日志竞争的SQL语句:(immediate_contention或wait_contention的值大于1时存在竞争)
select name,
(t.IMMEDIATE_MISSES /
decode((t.IMMEDIATE_GETS + t.IMMEDIATE_MISSES),
0,
-1,
(t.IMMEDIATE_GETS + t.IMMEDIATE_MISSES))) * 100 immediate_contention,
(t.MISSES / decode((t.GETS + t.MISSES), 0, -1, (t.GETS + t.MISSES))) * 100 wait_contention
from v$latch t
where name in ('redo copy', 'redo allocation')
判断表空间碎片:(如果最大空闲空间占总空间很大比例则可能不存在碎片,如果比例较小,且有许多空闲空间,则可能碎片很多)
select t.tablespace_name,
sum(t.bytes),
max(t.bytes),
count(*),
max(t.bytes) / sum(t.bytes) radio
from dba_free_space t
group by t.tablespace_name
order by t.tablespace_name
确定命中排序域的次数:
select t.NAME, t.VALUE from v$sysstat t where t.NAME like 'sort%'
查看当前SGA值:
select * from v$sga
确定高速缓冲区命中率:(如果命中率低于70%,则应该加大init.ora参数中的DB_BLOCK_BUFFER的值)
select 1 - sum(decode(name, 'physical reads', value, 0)) /
(sum(decode(name, 'db block gets', value, 0)) +
sum(decode(name, 'consistent gets', value, 0))) hit_ratio
from v$sysstat t
where name in ('physical reads', 'db block gets', 'consistent gets')
确定共享池中的命中率:(如果ratio1大于1时,需要加大共享池,如果ratio2大于10%时,需要加大共享池SHARED_POOL_SIZE)
select sum(pins) pins,
sum(reloads) reloads,
(sum(reloads) / sum(pins)) * 100 ratio1
from v$librarycache
select sum(gets) gets,
sum(getmisses) getmisses,
(sum(getmisses) / sum(gets)) * 100 ratio2
from v$rowcache
查询INIT.ORA参数:
select * from v$parameter
/////
Oracle性能参数查看(转)
0、数据库参数属性
col PROPERTY_NAME format a25
col PROPERTY_VALUE format a30
col DESCRIPTION format a100
select * from database_properties;
select * from v$version;
1、求当前会话的SID,SERIAL#
SELECT Sid, Serial# FROM V$session
WHERE Audsid = Sys_Context('USERENV', 'SESSIONID');
2、查询session的OS进程ID
SELECT p.Spid "OS Thread", b.NAME "Name-User", s.Program, s.Sid, s.Serial#,s.Osuser, s.Machine
FROM V$process p, V$session s, V$bgprocess b
WHERE p.Addr = s.Paddr
AND p.Addr = b.Paddr And (s.sid=&1 or p.spid=&1)
UNION ALL
SELECT p.Spid "OS Thread", s.Username "Name-User", s.Program, s.Sid,s.Serial#, s.Osuser, s.Machine
FROM V$process p, V$session s
WHERE p.Addr = s.Paddr
And (s.sid=&1 or p.spid=&1)
AND s.Username IS NOT NULL;
3、根据sid查看对应连接正在运行的sql
SELECT /*+ PUSH_SUBQ */ Command_Type, Sql_Text, Sharable_Mem, Persistent_Mem, Runtime_Mem, Sorts,
Version_Count, Loaded_Versions, Open_Versions, Users_Opening, Executions,
Users_Executing, Loads, First_Load_Time, Invalidations, Parse_Calls,
Disk_Reads, Buffer_Gets, Rows_Processed, SYSDATE Start_Time,
SYSDATE Finish_Time, '>' || Address Sql_Address, 'N' Status
FROM V$sqlarea WHERE Address = (SELECT Sql_Address
FROM V$session WHERE Sid = &sid );
4、查找object为哪些进程所用
SELECT p.Spid, s.Sid, s.Serial# Serial_Num, s.Username User_Name,
a.TYPE Object_Type, s.Osuser Os_User_Name, a.Owner,
a.OBJECT Object_Name,
Decode(Sign(48 - Command), 1, To_Char(Command), 'Action Code #' || To_Char(Command)) Action,
p.Program Oracle_Process, s.Terminal Terminal, s.Program Program,
s.Status Session_Status
FROM V$session s, V$access a, V$process p
WHERE s.Paddr = p.Addr
AND s.TYPE = 'USER'
AND a.Sid = s.Sid
AND a.OBJECT = '&obj'
ORDER BY s.Username, s.Osuser
5、查看有哪些用户连接
SELECT s.Osuser Os_User_Name,Decode(Sign(48 - Command),1,To_Char(Command),
'Action Code #' || To_Char(Command)) Action,
p.Program Oracle_Process, Status Session_Status, s.Terminal Terminal,
s.Program Program, s.Username User_Name,
s.Fixed_Table_Sequence Activity_Meter, '' Query, 0 Memory,
0 Max_Memory, 0 Cpu_Usage, s.Sid, s.Serial# Serial_Num
FROM V$session s, V$process p
WHERE s.Paddr = p.Addr
AND s.TYPE = 'USER'
ORDER BY s.Username, s.Osuser
6、根据v.sid查看对应连接的资源占用等情况
SELECT n.NAME, v.VALUE, n.CLASS, n.Statistic# FROM V$statname n, V$sesstat v
WHERE v.Sid = &sid
AND v.Statistic# = n.Statistic#
ORDER BY n.CLASS, n.Statistic#
7、查询耗资源的进程(top session)
SELECT s.Schemaname Schema_Name,Decode(Sign(48 - Command),
1, To_Char(Command), 'Action Code #' || To_Char(Command)) Action,Status Session_Status, s.Osuser Os_User_Name, s.Sid, p.Spid,s.Serial# Serial_Num, Nvl(s.Username, '[Oracle process]') User_Name,
s.Terminal Terminal, s.Program Program, St.VALUE Criteria_Value
FROM V$sesstat St, V$session s, V$process p
WHERE St.Sid = s.Sid
AND St.Statistic# = To_Number('38')
AND ('ALL' = 'ALL' OR s.Status = 'ALL')
AND p.Addr = s.Paddr
ORDER BY St.VALUE DESC, p.Spid ASC, s.Username ASC, s.Osuser ASC
8、查看锁(lock)情况
SELECT /*+ RULE */ Ls.Osuser Os_User_Name, Ls.Username User_Name,Decode(Ls.TYPE,
'RW', 'Row wait enqueue lock', 'TM', 'DML enqueue lock','TX', 'Transaction enqueue lock', 'UL', 'User supplied lock') Lock_Type,o.Object_Name OBJECT,Decode(Ls.Lmode,1, NULL, 2, 'Row Share', 3, 'Row Exclusive',
4, 'Share', 5, 'Share Row Exclusive', 6, 'Exclusive',NULL) Lock_Mode,o.Owner, Ls.Sid, Ls.Serial# Serial_Num, Ls.Id1, Ls.Id2 FROM Sys.Dba_Objects o,
(SELECT s.Osuser, s.Username, l.TYPE, l.Lmode, s.Sid, s.Serial#, l.Id1,l.Id2 FROM V$session s, V$lock l
WHERE s.Sid = l.Sid) Ls
WHERE o.Object_Id = Ls.Id1
AND o.Owner <> 'SYS'
ORDER BY o.Owner, o.Object_Name;
9、查看等待(wait)情况
SELECT Ws.CLASS, Ws.COUNT COUNT, SUM(Ss.VALUE) Sum_Value
FROM V$waitstat Ws, V$sysstat Ss
WHERE Ss.NAME IN ('db block gets', 'consistent gets')
GROUP BY Ws.CLASS, Ws.COUNT;
10、求process/session的状态
SELECT p.Pid, p.Spid, s.Program, s.Sid, s.Serial#
FROM V$process p, V$session s
WHERE s.Paddr = p.Addr;
11、求谁阻塞了某个session(10g)
SELECT Sid, Username, Event, Blocking_Session, Seconds_In_Wait, Wait_Time
FROM V$session
WHERE State IN ('WAITING')
AND Wait_Class != 'Idle';
12、查会话的阻塞
col user_name format a32
SELECT /*+ rule */ Lpad(' ', Decode(l.Xidusn, 0, 3, 0)) || l.Oracle_Username User_Name,
o.Owner, o.Object_Name, s.Sid, s.Serial#
FROM V$locked_Object l, Dba_Objects o, V$session s
WHERE l.Object_Id = o.Object_Id
AND l.Session_Id = s.Sid
ORDER BY o.Object_Id, Xidusn DESC;
col username format a15
col lock_level format a8
col owner format a18
col object_name format a32
SELECT /*+ rule */ s.Username,Decode(l.TYPE, 'tm', 'table lock', 'tx', 'row lock', NULL) Lock_Level,
o.Owner, o.Object_Name, s.Sid, s.Serial#
FROM V$session s, V$lock l, Dba_Objects o
WHERE l.Sid = s.Sid
AND l.Id1 = o.Object_Id(+)
AND s.Username IS NOT NULL;
13、求等待的事件及会话信息/求会话的等待及会话信息
SELECT Se.Sid, s.Username, Se.Event, Se.Total_Waits, Se.Time_Waited,Se.Average_Wait
FROM V$session s, V$session_Event Se
WHERE s.Username IS NOT NULL
AND Se.Sid = s.Sid
AND s.Status = 'ACTIVE'
AND Se.Event NOT LIKE '%SQL*Net%'
ORDER BY s.Username;
SELECT s.Sid, s.Username, Sw.Event, Sw.Wait_Time, Sw.State,Sw.Seconds_In_Wait
FROM V$session s, V$session_Wait Sw
WHERE s.Username IS NOT NULL
AND Sw.Sid = s.Sid
AND Sw.Event NOT LIKE '%SQL*Net%'
ORDER BY s.Username;
14、求会话等待的file_id/block_id
col event format a24
col p1text format a12
col p2text format a12
col p3text format a12
SELECT Sid, Event, P1text, P1, P2text, P2, P3text, P3
FROM V$session_Wait
WHERE Event NOT LIKE '%SQL%'
AND Event NOT LIKE '%rdbms%'
AND Event NOT LIKE '%mon%'
ORDER BY Event;
SELECT NAME, Wait_Time
FROM V$latch l
WHERE EXISTS (SELECT 1
FROM (SELECT Sid, Event, P1text, P1, P2text, P2, P3text, P3
FROM V$session_Wait
WHERE Event NOT LIKE '%SQL%'
AND Event NOT LIKE '%rdbms%'
AND Event NOT LIKE '%mon%') x
WHERE x.P1 = l.Latch#);
15、求会话等待的对象
col owner format a18
col segment_name format a32
col segment_type format a32
SELECT Owner, Segment_Name, Segment_Type
FROM Dba_Extents
WHERE File_Id = &File_Id
AND &Block_Id BETWEEN Block_Id AND Block_Id + Blocks - 1;
16、求出某个进程,并对它进行跟踪
SELECT s.Sid, s.Serial#
FROM V$session s, V$process p
WHERE s.Paddr = p.Addr
AND p.Spid = &1;
Exec Dbms_System.Set_Sql_Trace_In_Session(&1, &2, TRUE);
Exec Dbms_System.Set_Sql_Trace_In_Session(&1, &2, FALSE);
17、求当前session的跟踪文件
SELECT P1.VALUE || '/' || P2.VALUE || '_ora_' || p.Spid || '.ora' Filename
FROM V$process p, V$session s, V$parameter P1, V$parameter P2
WHERE P1.NAME = 'user_dump_dest'
AND P2.NAME = 'instance_name'
AND p.Addr = s.Paddr
AND s.Audsid = Userenv('SESSIONID')
AND p.Background IS NULL
AND Instr(p.Program, 'CJQ') = 0;
18、求出锁定的对象
SELECT Do.Object_Name, Session_Id, Process, Locked_Mode
FROM V$locked_Object Lo, Dba_Objects Do
WHERE Lo.Object_Id = Do.Object_Id;
19、DB_Cache建议
SELECT size_for_estimate, buffers_for_estimate, estd_physical_read_factor, estd_physical_reads
FROM V$DB_CACHE_ADVICE
WHERE name = 'DEFAULT'
AND block_size = (SELECT value FROM V$PARAMETER WHERE name = 'db_block_size')
AND advice_status = 'ON';
20、查看各项SGA相关参数:SGA,SGASTAT
select substr(name,1,10) name,substr(value,1,10) value
from v$parameter where name = 'log_buffer';
select * from v$sgastat ;
select * from v$sga;
show parameters area_size #查看 各项区域内存参数, 其中sort_area为排序参数用;
各项视图建议参数值:V$DB_CACHE_ADVICE、V$SHARED_POOL_ADVICE),关于PGA
也有相关视图V$PGA_TARGET_ADVICE 等。
21、内存使用锁定在物理内存:
AIX 5L(AIX 4.3.3 以上)
logon aix as root
cd /usr/samples/kernel
./vmtune (信息如下) v_pingshm已经是1
./vmtune -S 1
然后oracle用户修改initSID.ora 中 lock_sga = true
重新启动数据库
HP UNIX
Root身份登陆
Create the file "/etc/privgroup": vi /etc/privgroup
Add line "dba MLOCK" to file
As root, run the command "/etc/setprivgrp -f /etc/privgroup":
$/etc/setprivgrp -f /etc/privgroup
oracle用户修改initSID.ora中lock_sga=true
重新启动数据库
SOLARIS (solaris2.6以上)
8i版本以上数据库默认使用隐藏参数 use_ism = true ,自动锁定SGA于内存中,不用设置
lock_sga, 如果设置 lock_sga =true 使用非 root 用户启动数据库将返回错误。
WINDOWS (作用不大)
不能设置lock_sga=true,可以通过设置pre_page_sga=true,使得数据库启动的时候就把所有内
存页装载,这样可能起到一定的作用。
22、内存参数调整
数据缓冲区命中率
select value from v$sysstat where name ='physical reads';
select value from v$sysstat where name ='physical reads direct';
select value from v$sysstat where name ='physical reads direct (lob)';
select value from v$sysstat where name ='consistent gets';
select value from v$sysstat where name = 'db block gets';
这里命中率的计算应该是
令 x = physical reads direct + physical reads direct (lob)
命中率 =100 - ( physical reads - x) / (consistent gets + db block gets - x)*100
通常如果发现命中率低于90%,则应该调整应用可可以考虑是否增大数据缓冲区;
共享池的命中率
select sum(pinhits)/sum(pins)*100 "hit radio" from v$librarycache;
假如共享池的命中率低于95%,就要考虑调整应用(通常是没使用bind var )或者增加内存;
关于排序部分
select name,value from v$sysstat where name like '%sort%';
假如我们发现sorts (disk)/ (sorts (memory)+ sorts (disk))的比例过高,则通常意味着
sort_area_size 部分内存较小,可考虑调整相应的参数。
关于log_buffer
select name,value from v$sysstat
where name in('redo entries','redo buffer allocation retries');
假如 redo buffer allocation retries/ redo entries 的比例超过1%我们就可以考虑增大log_buffer
