oracle 10g rman自动创建数据文件

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标题:oracle 10g rman自动创建数据文件

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

oracle官方建议,如果修改过数据库结构后,需要立即重新备份数据库,我想通过试验验证该知识点。
试验过程是使用rman备份数据库,然后添加表空间,添加数据文件,创建表在新表空间和新数据文件上,然后关闭数据库,删除新添加的数据文件,再使用rman备份来恢复数据库。操作过程如下:

1、当前数据库表空间已经数据文件情况
SQL> select name from v$tablespace;
NAME
——————————
SYSTEM
UNDOTBS1
SYSAUX
USERS
TEMP
SQL> select file#,name from v$datafile;
FILE# NAME
———- ————————————————–
1 /opt/oracle/oradata/test/system01.dbf
2 /opt/oracle/oradata/test/undotbs01.dbf
3 /opt/oracle/oradata/test/sysaux01.dbf
4 /opt/oracle/oradata/test/users01.dbf
5 /opt/oracle/oradata/test/user32g.dbf
2、rman备份数据库
[oracle@ECP-UC-DB1 ~]$ $ORACLE_HOME/bin/rman target /
Recovery Manager: Release 10.2.0.4.0 – Production on Sat Aug 13 21:44:36 2011
Copyright (c) 1982, 2007, Oracle. All rights reserved.
connected to target database: TEST (DBID=2056006906)
RMAN> backup database format ‘/tmp/%U’ plus archivelog delete input;
Starting backup at 2011-08-13 21:46:46
current log archived
using channel ORA_DISK_1
channel ORA_DISK_1: starting archive log backupset
channel ORA_DISK_1: specifying archive log(s) in backup set
input archive log thread=1 sequence=3 recid=1 stamp=757977034
input archive log thread=1 sequence=4 recid=2 stamp=758152833
input archive log thread=1 sequence=5 recid=3 stamp=758320953
input archive log thread=1 sequence=6 recid=4 stamp=758321218
input archive log thread=1 sequence=7 recid=5 stamp=758412073
input archive log thread=1 sequence=8 recid=6 stamp=758574035
input archive log thread=1 sequence=9 recid=7 stamp=758665608
input archive log thread=1 sequence=10 recid=8 stamp=758757646
input archive log thread=1 sequence=11 recid=9 stamp=758844058
input archive log thread=1 sequence=12 recid=10 stamp=758930497
input archive log thread=1 sequence=13 recid=11 stamp=759027608
input archive log thread=1 sequence=14 recid=12 stamp=759102408
channel ORA_DISK_1: starting piece 1 at 2011-08-13 21:46:50
channel ORA_DISK_1: finished piece 1 at 2011-08-13 21:47:35
piece handle=/opt/oracle/flash_recovery_area/TEST/backupset/2011_08_13/o1_mf_annnn_TAG20110813T214648_74f02bg3_.bkp tag=TAG20110813T214648 comment=NONE
channel ORA_DISK_1: backup set complete, elapsed time: 00:00:46
channel ORA_DISK_1: deleting archive log(s)
archive log filename=/opt/oracle/oradata/test/archivelog/1_3_757860476.dbf recid=1 stamp=757977034
archive log filename=/opt/oracle/oradata/test/archivelog/1_4_757860476.dbf recid=2 stamp=758152833
archive log filename=/opt/oracle/oradata/test/archivelog/1_5_757860476.dbf recid=3 stamp=758320953
archive log filename=/opt/oracle/oradata/test/archivelog/1_6_757860476.dbf recid=4 stamp=758321218
archive log filename=/opt/oracle/oradata/test/archivelog/1_7_757860476.dbf recid=5 stamp=758412073
archive log filename=/opt/oracle/oradata/test/archivelog/1_8_757860476.dbf recid=6 stamp=758574035
archive log filename=/opt/oracle/oradata/test/archivelog/1_9_757860476.dbf recid=7 stamp=758665608
archive log filename=/opt/oracle/oradata/test/archivelog/1_10_757860476.dbf recid=8 stamp=758757646
archive log filename=/opt/oracle/oradata/test/archivelog/1_11_757860476.dbf recid=9 stamp=758844058
archive log filename=/opt/oracle/oradata/test/archivelog/1_12_757860476.dbf recid=10 stamp=758930497
archive log filename=/opt/oracle/oradata/test/archivelog/1_13_757860476.dbf recid=11 stamp=759027608
archive log filename=/opt/oracle/oradata/test/archivelog/1_14_757860476.dbf recid=12 stamp=759102408
Finished backup at 2011-08-13 21:47:36
Starting backup at 2011-08-13 21:47:37
using channel ORA_DISK_1
channel ORA_DISK_1: starting full datafile backupset
channel ORA_DISK_1: specifying datafile(s) in backupset
input datafile fno=00001 name=/opt/oracle/oradata/test/system01.dbf
input datafile fno=00003 name=/opt/oracle/oradata/test/sysaux01.dbf
input datafile fno=00002 name=/opt/oracle/oradata/test/undotbs01.dbf
input datafile fno=00005 name=/opt/oracle/oradata/test/user32g.dbf
input datafile fno=00004 name=/opt/oracle/oradata/test/users01.dbf
channel ORA_DISK_1: starting piece 1 at 2011-08-13 21:47:37
channel ORA_DISK_1: finished piece 1 at 2011-08-13 21:48:12
piece handle=/tmp/06mjtuvp_1_1 tag=TAG20110813T214737 comment=NONE
channel ORA_DISK_1: backup set complete, elapsed time: 00:00:35
channel ORA_DISK_1: starting full datafile backupset
channel ORA_DISK_1: specifying datafile(s) in backupset
including current control file in backupset
including current SPFILE in backupset
channel ORA_DISK_1: starting piece 1 at 2011-08-13 21:48:14
channel ORA_DISK_1: finished piece 1 at 2011-08-13 21:48:15
piece handle=/tmp/07mjtv0s_1_1 tag=TAG20110813T214737 comment=NONE
channel ORA_DISK_1: backup set complete, elapsed time: 00:00:03
Finished backup at 2011-08-13 21:48:15
Starting backup at 2011-08-13 21:48:15
current log archived
using channel ORA_DISK_1
channel ORA_DISK_1: starting archive log backupset
channel ORA_DISK_1: specifying archive log(s) in backup set
input archive log thread=1 sequence=15 recid=13 stamp=759102495
channel ORA_DISK_1: starting piece 1 at 2011-08-13 21:48:16
channel ORA_DISK_1: finished piece 1 at 2011-08-13 21:48:17
piece handle=/opt/oracle/flash_recovery_area/TEST/backupset/2011_08_13/o1_mf_annnn_TAG20110813T214815_74f050vl_.bkp tag=TAG20110813T214815 comment=NONE
channel ORA_DISK_1: backup set complete, elapsed time: 00:00:02
channel ORA_DISK_1: deleting archive log(s)
archive log filename=/opt/oracle/oradata/test/archivelog/1_15_757860476.dbf recid=13 stamp=759102495
Finished backup at 2011-08-13 21:48:17
3、添加表空间/数据文件
SQL> create tablespace xff datafile ‘/opt/oracle/oradata/test/xifenfei01.dbf’ size 10m autoextend on next 10m maxsize 5G;
Tablespace created.
SQL> alter tablespace users add datafile ‘/opt/oracle/oradata/test/user02.dbf’ size 10m autoextend on next 10m maxsize 5G;
Tablespace altered.
4、创建测试表
SQL> create table chf.t_1 tablespace xff
2 as
3 select * from all_objects;
Table created.
SQL> create table chf.t_2 tablespace users
2 as
3 select * from all_objects;
Table created.
SQL> select count(*) from chf.t_1;
COUNT(*)
———-
49855
SQL> select count(*) from chf.t_2;
COUNT(*)
———-
49856
SQL> select file#,name from v$datafile;
FILE# NAME
———- ————————————————–
1 /opt/oracle/oradata/test/system01.dbf
2 /opt/oracle/oradata/test/undotbs01.dbf
3 /opt/oracle/oradata/test/sysaux01.dbf
4 /opt/oracle/oradata/test/users01.dbf
5 /opt/oracle/oradata/test/user32g.dbf
6 /opt/oracle/oradata/test/xifenfei01.dbf
7 /opt/oracle/oradata/test/user02.dbf
7 rows selected.
5、关闭数据库
SQL> shutdown abort
ORACLE instance shut down.
6、删除相关数据文件
[oracle@ECP-UC-DB1 ~]$ cd /opt/oracle/oradata/test/
[oracle@ECP-UC-DB1 test]$ ll
total 1066968
drwxr-xr-x 2 oracle oinstall 4096 Aug 13 21:48 archivelog
-rw-r—– 1 oracle oinstall 7061504 Aug 13 21:56 control01.ctl
-rw-r—– 1 oracle oinstall 7061504 Aug 13 21:56 control02.ctl
-rw-r—– 1 oracle oinstall 7061504 Aug 13 21:56 control03.ctl
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:55 redo01.log
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:46 redo02.log
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:48 redo03.log
-rw-r—– 1 oracle oinstall 335552512 Aug 13 21:48 sysaux01.dbf
-rw-r—– 1 oracle oinstall 513810432 Aug 13 21:55 system01.dbf
-rw-r—– 1 oracle oinstall 20979712 Aug 13 06:00 temp01.dbf
-rw-r—– 1 oracle oinstall 26222592 Aug 13 21:55 undotbs01.dbf
-rw-r—– 1 oracle oinstall 10493952 Aug 13 21:55 user02.dbf
-rw-r—– 1 oracle oinstall 10493952 Aug 13 21:55 user32g.dbf
-rw-r—– 1 oracle oinstall 5251072 Aug 13 21:55 users01.dbf
-rw-r—– 1 oracle oinstall 10493952 Aug 13 21:55 xifenfei01.dbf
[oracle@ECP-UC-DB1 test]$ rm xifenfei01.dbf
[oracle@ECP-UC-DB1 test]$ rm user*.dbf
[oracle@ECP-UC-DB1 test]$ ll
total 1031036
drwxr-xr-x 2 oracle oinstall 4096 Aug 13 21:48 archivelog
-rw-r—– 1 oracle oinstall 7061504 Aug 13 21:56 control01.ctl
-rw-r—– 1 oracle oinstall 7061504 Aug 13 21:56 control02.ctl
-rw-r—– 1 oracle oinstall 7061504 Aug 13 21:56 control03.ctl
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:55 redo01.log
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:46 redo02.log
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:48 redo03.log
-rw-r—– 1 oracle oinstall 335552512 Aug 13 21:48 sysaux01.dbf
-rw-r—– 1 oracle oinstall 513810432 Aug 13 21:55 system01.dbf
-rw-r—– 1 oracle oinstall 20979712 Aug 13 06:00 temp01.dbf
-rw-r—– 1 oracle oinstall 26222592 Aug 13 21:55 undotbs01.dbf
6、开启数据库
SQL> startup
ORACLE instance started.
Total System Global Area 209715200 bytes
Fixed Size 2082784 bytes
Variable Size 125831200 bytes
Database Buffers 75497472 bytes
Redo Buffers 6303744 bytes
Database mounted.
ORA-01157: cannot identify/lock data file 4 – see DBWR trace file
ORA-01110: data file 4: ‘/opt/oracle/oradata/test/users01.dbf’
7、alert.log文件报错
Sat Aug 13 21:58:22 2011
ALTER DATABASE OPEN
Sat Aug 13 21:58:22 2011
Errors in file /opt/oracle/admin/test/bdump/test_dbw0_25268.trc:
ORA-01157: cannot identify/lock data file 4 – see DBWR trace file
ORA-01110: data file 4: ‘/opt/oracle/oradata/test/users01.dbf’
ORA-27037: unable to obtain file status
Linux-x86_64 Error: 2: No such file or directory
Additional information: 3
Sat Aug 13 21:58:22 2011
Errors in file /opt/oracle/admin/test/bdump/test_dbw0_25268.trc:
ORA-01157: cannot identify/lock data file 5 – see DBWR trace file
ORA-01110: data file 5: ‘/opt/oracle/oradata/test/user32g.dbf’
ORA-27037: unable to obtain file status
Linux-x86_64 Error: 2: No such file or directory
Additional information: 3
Sat Aug 13 21:58:22 2011
Errors in file /opt/oracle/admin/test/bdump/test_dbw0_25268.trc:
ORA-01157: cannot identify/lock data file 6 – see DBWR trace file
ORA-01110: data file 6: ‘/opt/oracle/oradata/test/xifenfei01.dbf’
ORA-27037: unable to obtain file status
Linux-x86_64 Error: 2: No such file or directory
Additional information: 3
Sat Aug 13 21:58:22 2011
Errors in file /opt/oracle/admin/test/bdump/test_dbw0_25268.trc:
ORA-01157: cannot identify/lock data file 7 – see DBWR trace file
ORA-01110: data file 7: ‘/opt/oracle/oradata/test/user02.dbf’
ORA-27037: unable to obtain file status
Linux-x86_64 Error: 2: No such file or directory
Additional information: 3
ORA-1157 signalled during: ALTER DATABASE OPEN…
8、登录rman
[oracle@ECP-UC-DB1 test]$ $ORACLE_HOME/bin/rman target /
Recovery Manager: Release 10.2.0.4.0 – Production on Sat Aug 13 22:00:03 2011
Copyright (c) 1982, 2007, Oracle. All rights reserved.
connected to target database: TEST (DBID=2056006906, not open)
9、rman还原预览
RMAN> restore datafile 4,5,6,7 preview;
Starting restore at 2011-08-13 22:01:29
using target database control file instead of recovery catalog
allocated channel: ORA_DISK_1
channel ORA_DISK_1: sid=155 devtype=DISK
data file 6 will be created automatically during restore operation
data file 7 will be created automatically during restore operation
List of Backup Sets
===================
BS Key Type LV Size Device Type Elapsed Time Completion Time
——- —- — ———- ———– ———— ——————-
4 Full 602.67M DISK 00:00:30 2011-08-13 21:47:38
BP Key: 4 Status: AVAILABLE Compressed: NO Tag: TAG20110813T214737
Piece Name: /tmp/06mjtuvp_1_1
List of Datafiles in backup set 4
File LV Type Ckp SCN Ckp Time Name
—- — —- ———- ——————- —-
4 Full 1177858 2011-08-13 21:47:37 /opt/oracle/oradata/test/users01.dbf
5 Full 1177858 2011-08-13 21:47:37 /opt/oracle/oradata/test/user32g.dbf
using channel ORA_DISK_1
List of Backup Sets
===================
BS Key Size Device Type Elapsed Time Completion Time
——- ———- ———– ———— ——————-
6 2.00K DISK 00:00:01 2011-08-13 21:48:16
BP Key: 6 Status: AVAILABLE Compressed: NO Tag: TAG20110813T214815
Piece Name: /opt/oracle/flash_recovery_area/TEST/backupset/2011_08_13/o1_mf_annnn_TAG20110813T214815_74f050vl_.bkp
List of Archived Logs in backup set 6
Thrd Seq Low SCN Low Time Next SCN Next Time
—- ——- ———- ——————- ———- ———
1 15 1177835 2011-08-13 21:46:46 1177874 2011-08-13 21:48:15
Media recovery start SCN is 1177858
Recovery must be done beyond SCN 1178068 to clear data files fuzziness
Finished restore at 2011-08-13 22:01:30
10、还原数据文件
RMAN> restore datafile 4,5,6,7;
Starting restore at 2011-08-13 22:02:04
using channel ORA_DISK_1
creating datafile fno=6 name=/opt/oracle/oradata/test/xifenfei01.dbf
creating datafile fno=7 name=/opt/oracle/oradata/test/user02.dbf
channel ORA_DISK_1: starting datafile backupset restore
channel ORA_DISK_1: specifying datafile(s) to restore from backup set
restoring datafile 00004 to /opt/oracle/oradata/test/users01.dbf
restoring datafile 00005 to /opt/oracle/oradata/test/user32g.dbf
channel ORA_DISK_1: reading from backup piece /tmp/06mjtuvp_1_1
channel ORA_DISK_1: restored backup piece 1
piece handle=/tmp/06mjtuvp_1_1 tag=TAG20110813T214737
channel ORA_DISK_1: restore complete, elapsed time: 00:00:02
Finished restore at 2011-08-13 22:02:08
11、查看恢复后的数据文件情况
[oracle@ECP-UC-DB1 ~]$ cd /opt/oracle/oradata/test
[oracle@ECP-UC-DB1 test]$ ll
total 1066968
drwxr-xr-x 2 oracle oinstall 4096 Aug 13 21:48 archivelog
-rw-r—– 1 oracle oinstall 7061504 Aug 13 22:03 control01.ctl
-rw-r—– 1 oracle oinstall 7061504 Aug 13 22:03 control02.ctl
-rw-r—– 1 oracle oinstall 7061504 Aug 13 22:03 control03.ctl
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:55 redo01.log
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:46 redo02.log
-rw-r—– 1 oracle oinstall 52429312 Aug 13 21:48 redo03.log
-rw-r—– 1 oracle oinstall 335552512 Aug 13 21:58 sysaux01.dbf
-rw-r—– 1 oracle oinstall 513810432 Aug 13 21:58 system01.dbf
-rw-r—– 1 oracle oinstall 20979712 Aug 13 06:00 temp01.dbf
-rw-r—– 1 oracle oinstall 26222592 Aug 13 21:58 undotbs01.dbf
-rw-r—– 1 oracle oinstall 10493952 Aug 13 22:02 user02.dbf
-rw-r—– 1 oracle oinstall 10493952 Aug 13 22:02 user32g.dbf
-rw-r—– 1 oracle oinstall 5251072 Aug 13 22:02 users01.dbf
-rw-r—– 1 oracle oinstall 10493952 Aug 13 22:02 xifenfei01.dbf
12、恢复数据文件
RMAN> recover datafile 4,5,6,7;
Starting recover at 2011-08-13 22:04:21
using channel ORA_DISK_1
starting media recovery
media recovery complete, elapsed time: 00:00:04
Finished recover at 2011-08-13 22:04:25
13、open数据库
RMAN> alter database open;
database opened
RMAN> exit
Recovery Manager complete.
14、验证rman恢复结果
[oracle@ECP-UC-DB1 test]$ sqlplus / as sysdba
SQL*Plus: Release 10.2.0.4.0 – Production on Sat Aug 13 22:05:25 2011
Copyright (c) 1982, 2007, Oracle. All Rights Reserved.
Connected to:
Oracle Database 10g Enterprise Edition Release 10.2.0.4.0 – 64bit Production
With the Partitioning, OLAP, Data Mining and Real Application Testing options
SQL> select file#,name from v$datafile;
FILE# NAME
———- ————————————————–
1 /opt/oracle/oradata/test/system01.dbf
2 /opt/oracle/oradata/test/undotbs01.dbf
3 /opt/oracle/oradata/test/sysaux01.dbf
4 /opt/oracle/oradata/test/users01.dbf
5 /opt/oracle/oradata/test/user32g.dbf
6 /opt/oracle/oradata/test/xifenfei01.dbf
7 /opt/oracle/oradata/test/user02.dbf
7 rows selected.
SQL> select count(*) from chf.t_1;
COUNT(*)
———-
49855
SQL> select count(*) from chf.t_2;
COUNT(*)
———-
49856
注:如果在rman的还原过程中,没有自动创建数据文件,需要用命令创建alter database datafile n或者alter database datafile ‘path’,然后进行恢复

在线重定义原理探讨

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:在线重定义原理探讨

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

1、准备测试表

SQL> create table t_d as select * from all_objects;
Table created
SQL> alter table t_d add primary key(object_id);
Table altered
SQL> create table t_d_t as select * from t_d where 1=0;
Table created
SQL> alter table t_d_t add primary key(object_id);
Table altered
SQL> select count(*) from T_D;
  COUNT(*)
----------
     48945
SQL> select count(*) from T_D_T;
  COUNT(*)
----------
     0

2、执行在线同步

SQL> EXEC DBMS_REDEFINITION.CAN_REDEF_TABLE(user, 'T_D', DBMS_REDEFINITION.CONS_USE_PK);
PL/SQL procedure successfully completed
SQL> EXEC DBMS_REDEFINITION.START_REDEF_TABLE(USER, 'T_D', 'T_D_T');
PL/SQL procedure successfully completed

3、查询相关物化视图

SQL> select owner,mview_name from user_mviews;
OWNER                          MVIEW_NAME
------------------------------ ------------------------------
CHF                            T_D_T
SQL> select log_owner,master,log_table from user_mview_logs;
LOG_OWNER                      MASTER                         LOG_TABLE
------------------------------ ------------------------------ ------------------------------
CHF                            T_D                            MLOG$_T_D
CREATE MATERIALIZED VIEW T_D_T
ON PREBUILT TABLE
REFRESH FAST ON DEMAND
AS
SELECT "T_D"."OWNER" "OWNER","T_D"."OBJECT_NAME" "OBJECT_NAME",
"T_D"."SUBOBJECT_NAME" "SUBOBJECT_NAME","T_D"."OBJECT_ID" "OBJECT_ID",
"T_D"."DATA_OBJECT_ID" "DATA_OBJECT_ID","T_D"."OBJECT_TYPE" "OBJECT_TYPE",
"T_D"."CREATED" "CREATED","T_D"."LAST_DDL_TIME" "LAST_DDL_TIME",
"T_D"."TIMESTAMP" "TIMESTAMP","T_D"."STATUS" "STATUS",
"T_D"."TEMPORARY" "TEMPORARY","T_D"."GENERATED" "GENERATED",
"T_D"."SECONDARY" "SECONDARY" FROM "CHF"."T_D" "T_D";

4、结束物化视图

SQL> EXEC DBMS_REDEFINITION.FINISH_REDEF_TABLE(USER, 'T_D', 'T_D_T');
PL/SQL procedure successfully completed

5、继续查询相关物化视图

SQL>  select log_owner,master,log_table from user_mview_logs;
SQL> select * from user_mviews;
SQL> select owner,mview_name from user_mviews;
OWNER                          MVIEW_NAME
------------------------------ ------------------------------
SQL> select log_owner,master,log_table from user_mview_logs;
LOG_OWNER                      MASTER                         LOG_TABLE
------------------------------ ------------------------------ ------------------------
SQL> select count(*) from T_D_T;
  COUNT(*)
----------
     48945

6、由试验可以得出
6.1)在线重定义本质就是利用物化视图刷新实现数据迁移
6.2)DBMS_REDEFINITION.START_REDEF_TABLE实现功能:
6.2.1)创建含on prebuilt table的物化视图和物化视图日志
6.2.2)实现通过物化视图刷新当前表中数据进入中间表
6.3)dbms_redefinition.sync_interim_table实现物化视图刷新在执行5.2)操作过程中变化数据
6.4)DBMS_REDEFINITION.FINISH_REDEF_TABLE将锁定原表,防止表上的DML,物化视图执行刷新,完成刷新后,将删除物化视图和对应的日志,将中间表rename成目标表

7、如果表无主键时,区别有
7.1)执行在线定义语句,具体见表在线重定义(无主键)
7.2)创建物化视图语句上

create materialized view T_D_T
on prebuilt table
refresh fast on demand
with rowid
as
select OWNER OWNER,
OBJECT_NAME OBJECT_NAME,
 SUBOBJECT_NAME SUBOBJECT_NAME,
 OBJECT_ID OBJECT_ID,
 DATA_OBJECT_ID DATA_OBJECT_ID,
 OBJECT_TYPE OBJECT_TYPE,
 CREATED CREATED,
 LAST_DDL_TIME LAST_DDL_TIME,
 TIMESTAMP TIMESTAMP,
 STATUS STATUS,
 TEMPORARY TEMPORARY,
 GENERATED GENERATED,
 SECONDARY SECONDARY
 from "CHF"."T_D"   "T_D";

RAC负载均衡配置

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:RAC负载均衡配置

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

1、客户端均衡(Client-Side LB)
工作原理:当客户端发起连接时,会从地址列表中随机选取一个,再使用随机算法把连接请求分散到各个实例。
存在缺点:
1.1)分配连接时没有考虑每个节点的真实负载,最后分配不过不一定是平衡
1.2)随机算法需要长时间片,如果在短时间内同时发起多个连接,这些连接有可能被分配到一个节点上
1.3)有些情况下,连接可能被分配到故障节点上
配置方法:在tns中添加LOAD_BALANCE = YES条目
2、服务器端均衡(Server-Side LB)
工作原理:
2.1)该均衡实现是依赖于Listener收集的负载信息。在数据库运行过程中,PMON后台进程会收集数系统的负载信息,然后登记到Listener中。
2.2)PMON进程不仅会向本地的Listener注册,也会想其他节点上的Listener注册,但到底向何处注册,是由Remote_Listeners和Local_Listener这两个参数决定。Local_Listener不用设置,而Remote_Listeners需要设置,参数值有一个tnsnames项。
2.3)当收到客户端连接请求时,就会把连接转给负载最小的节点,这个节点可能是自己,也可能是其他节点,也就是Listener会转发客户端的连接请求。
配置方法:

SQL> show parameter listener;
NAME                                 TYPE        VALUE
------------------------------------ ----------- ------------------------------
local_listener                       string
remote_listener                      string      LISTENERS_DEVDB
tnsnames.ora
LISTENERS_DEVDB =
  (ADDRESS_LIST =
    (ADDRESS = (PROTOCOL = TCP)(HOST = rac1-vip)(PORT = 1521))
    (ADDRESS = (PROTOCOL = TCP)(HOST = rac2-vip)(PORT = 1521))
  )
listener.ora(除掉SID_LIST_LISTENER_NAME项)
LISTENER_RAC1 =
  (DESCRIPTION_LIST =
    (DESCRIPTION =
      (ADDRESS = (PROTOCOL = TCP)(HOST = rac1-vip)(PORT = 1521)(IP = FIRST))
      (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.11)(PORT = 1521)(IP = FIRST))
    )
  )

3、两者联合使用
Server-Side LB和Client-Side LB不是互斥的,两者可以一起工作,这个时候客户端的连接请求会先从地址列表中随机选择一个地址,然后向该地址的Listener发送请求;Listener接到请求后,根据各个节点负载情况从中挑选出最合适的节点转发连接请求。

RAC Failover三种方式

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:RAC Failover三种方式

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

1、Client-Side Connect Time Failover
1.1)在用户端tnsname中配置了多个地址,用户发起连接请求时,会先尝试连接地址表中的第一个地址,如果这个连接尝试失败,则继续尝试使用第二个地址,直至连接成功或者遍历了所有的地址。
1.2)这种Failover的特点是:在建立连接那一时刻起作用,一旦连接建立之后,节点出现故障都不会作处理,从而客户端的表现就是会话断开,用户程序必须重新建立连接。
启用该方法:在客户端tnsname.ora中添加FAILOVER=ON条目,因为这个参数默认值就是为NO,所以即使客户端不加该条目,也有这种Failover功能。

XFF_F =
  (DESCRIPTION =
    (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.21)(PORT = 1521))
    (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.22)(PORT = 1521))
    (LOAD_BALANCE = yes)
    (CONNECT_DATA =
      (SERVER = DEDICATED)
      (SERVICE_NAME = devdb)
    )
  )

2、TAF(Transparent Application Failover)
2.1)在连接建立以后、应用系统运行过程中,如果某个实例发生故障,连接到这个实例上的用户会被自动迁移到其他的健康的实例上。对于应用程序而言,这个迁移过程是透明的,不需要用户的介入,当然在迁移过程中,未提交的事物会回滚。
2.2)与Client-Side Connect Time Failover比较起来,就是多了FAILOVER_MODE这一配置项,该配置项包含4个子项目
2.2.1)METHOD:可选值有BASIC和PRECONNECT
BASIC是指在感知到节点故障时才创建到其他实例的连接
PRECONNECT是在最初建立连接时就同时建立到所有实例的连接,当发生故障时,立刻就可以切换到其他链路上。
2.2.2)TYPE:可选值有SESSION和SELECT
两者的区别在于对select语句的处理,select表示如果发生故障迁移,正在执行的select语句将在新的节点上继续返回后续结果集;而session表示重新执行该select查询返回全部的结果。
2.2.3)DELAY表示重试间隔时间
2.2.4)RETRIES表示重试次数

XFF_T =
  (DESCRIPTION =
    (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.21)(PORT = 1521))
    (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.22)(PORT = 1521))
    (LOAD_BALANCE = yes)
    (CONNECT_DATA =
      (SERVER = DEDICATED)
      (SERVICE_NAME = devdb)
      (FAILOVER_MODE =
        (TYPE = SELECT)
        (METHOD = BASIC)
        (RETRIES = 180)
        (DELAY = 5)
      )
    )
  )

3、Server-Side TAF
3.1)Server-Side TAF具有TAF的所有特点
3.2)这种TAF是在服务器上配置,不需要在客户端进行相关配置,如果修改一个参数,不需要在所有的tns上修改,而只要修改服务器中的service即可
用户有两种角色可以选择
PREFERRED:首选实例,会优先选择拥有这个角色的实例提供服务
AVAILABLE:后备实例,当PREFERRED实例不可用时,才会转到AVAILABLE实例上

XFF_RAC =
  (DESCRIPTION =
    (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.21)(PORT = 1521))
    (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.1.22)(PORT = 1521))
    (LOAD_BALANCE = yes)
    (CONNECT_DATA =
      (SERVER = DEDICATED)
      (SERVICE_NAME = XFF)
    )
  )

利用物化视图刷数据

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:利用物化视图刷数据

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

1、创建测试表
SQL> CREATE TABLE t_M
2 AS
3 SELECT * FROM all_objects;
Table created
2、查询测试表中记录
SQL> select count(*) from t_m;
COUNT(*)
———-
48941
3、创建中间表
SQL> create table t_m_n as
2 select * from t_m where 1=0;
Table created
4、查询中间表记录
SQL> select count(*) from t_m_n;
COUNT(*)
———-
5、创建刷新物化视图
SQL> CREATE MATERIALIZED VIEW t_m_n
on prebuilt TABLE WITH REDUCED PRECISION
REFRESH FORCE
ON DEMAND
AS
SELECT * FROM t_m;
Materialized view created
6、执行物化视图刷新
SQL> exec dbms_mview.refresh(‘T_M_N’);
PL/SQL procedure successfully completed
7、查询物化视图中记录数
SQL> select count(*) from t_m_n;
COUNT(*)
———-
48941
8、删除物化视图
SQL> DROP MATERIALIZED VIEW T_M_N;
Materialized view dropped
9、查询中间表中条数
SQL> select count(*) from t_m_n;
COUNT(*)
———-
48941
10、后续可能操作
1)t_m和t_m_n相互重命名,实现在线修移动表的位置、改表结构、降低高水位等操作,同(shrink)
2)和dblink结合,实现数据的跨版本迁移

集群服务启动与关闭(10g)

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:集群服务启动与关闭(10g)

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

一、crs开启和关闭
关闭crs
/etc/init.d/init.crs stop
开启crs
/etc/init.d/init.crs start
二、启动和关闭所有的集群服务
关闭
./crs_stop -all
启动
./crs_start -all
三、分步操作crs服务
1、关闭集群
srvctl stop service -d -s
srvctl stop database -d
srvctl stop asm -n
srvctl stop asm -n
srvctl stop nodeapps -n
srvctl stop nodeapps -n
2、关闭集群
srvctl start nodeapps -n
srvctl start nodeapps -n
srvctl start asm -n
srvctl start asm -n
srvctl start database -d
srvctl start service -d -s
3、测试
3.1)关闭
srvctl stop service -d devdb -s XFF
srvctl stop instance -d devdb -i devdb1,devdb2 -o immediate
(srvctl stop database -d devdb -o immediate)
srvctl stop asm -n rac1
srvctl stop asm -n rac2
srvctl stop nodeapps -n rac1
srvctl stop nodeapps -n rac2
3.2)启动
srvctl start nodeapps -n rac1
srvctl start nodeapps -n rac2
srvctl start asm -n rac1
srvctl start asm -n rac2
srvctl start database -d devdb
(srvctl start instance -n devdb -i devdb1,devdb2)
srvctl start service -d devdb -s XFF

RAC维护命令

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:RAC维护命令

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

一、节点层(olsnodes)
rac1-> olsnodes -help
Usage: olsnodes [-n] [-p] [-i] [<node> | -l] [-g] [-v]
where
-n print node number with the node name
-p print private interconnect name with the node name
-i print virtual IP name with the node name
<node> print information for the specified node
-l print information for the local node
-g turn on logging
-v run in verbose mode
rac1-> olsnodes -p -n -i
rac1    1       rac1-priv       rac1-vip
rac2    2       rac2-priv       rac2-vip
二、网络层(oifcfg)
rac1-> oifcfg -help
Name:
oifcfg – Oracle Interface Configuration Tool.
Usage:  oifcfg iflist [-p [-n]]
oifcfg setif {-node <nodename> | -global} {<if_name>/<subnet>:<if_type>}…
oifcfg getif [-node <nodename> | -global] [ -if <if_name>[/<subnet>] [-type <if_type>] ]
oifcfg delif [-node <nodename> | -global] [<if_name>[/<subnet>]]
oifcfg [-help]
<nodename> – name of the host, as known to a communications network
<if_name>  – name by which the interface is configured in the system
<subnet>   – subnet address of the interface
<if_type>  – type of the interface { cluster_interconnect | public | storage }
rac1-> oifcfg iflist -n -p
eth0  10.10.10.0  PRIVATE  255.255.255.0
eth1  192.168.1.0  PRIVATE  255.255.255.0
rac1-> oifcfg getif
eth0  10.10.10.0  global  cluster_interconnect
eth1  192.168.1.0  global  public
rac1-> oifcfg getif -node rac1
rac1-> oifcfg getif -global rac1
eth0  10.10.10.0  global  cluster_interconnect
eth1  192.168.1.0  global  public
rac1-> oifcfg getif -type public
eth1  192.168.1.0  global  public
rac1-> oifcfg setif -global tnnel_1@none/10.0.0.0:public
rac1-> oifcfg getif -type public
eth1  192.168.1.0  global  public
tnnel_1@none  10.0.0.0  global  public
rac1-> oifcfg delif -global tnnel_1@none/10.0.0.0
rac1-> oifcfg getif -type public
eth1  192.168.1.0  global  public
三、集群层
1、crsctl
rac1-> crsctl
Usage: crsctl check  crs          – checks the viability of the CRS stack
crsctl check  cssd         – checks the viability of CSS
crsctl check  crsd         – checks the viability of CRS
crsctl check  evmd         – checks the viability of EVM
crsctl set    css <parameter> <value> – sets a parameter override
crsctl get    css <parameter> – gets the value of a CSS parameter
crsctl unset  css <parameter> – sets CSS parameter to its default
crsctl query  css votedisk    – lists the voting disks used by CSS
crsctl add    css votedisk <path> – adds a new voting disk
crsctl delete css votedisk <path> – removes a voting disk
crsctl enable  crs    – enables startup for all CRS daemons
crsctl disable crs    – disables startup for all CRS daemons
crsctl start crs  – starts all CRS daemons.
crsctl stop  crs  – stops all CRS daemons. Stops CRS resources in case of cluster.
crsctl start resources  – starts CRS resources.
crsctl stop resources  – stops  CRS resources.
crsctl debug statedump evm  – dumps state info for evm objects
crsctl debug statedump crs  – dumps state info for crs objects
crsctl debug statedump css  – dumps state info for css objects
crsctl debug log css [module:level]{,module:level} …
– Turns on debugging for CSS
crsctl debug trace css – dumps CSS in-memory tracing cache
crsctl debug log crs [module:level]{,module:level} …
– Turns on debugging for CRS
crsctl debug trace crs – dumps CRS in-memory tracing cache
crsctl debug log evm [module:level]{,module:level} …
– Turns on debugging for EVM
crsctl debug trace evm – dumps EVM in-memory tracing cache
crsctl debug log res <resname:level> turns on debugging for resources
crsctl query crs softwareversion [<nodename>] – lists the version of CRS software installed
crsctl query crs activeversion – lists the CRS software operating version
crsctl lsmodules css – lists the CSS modules that can be used for debugging
crsctl lsmodules crs – lists the CRS modules that can be used for debugging
crsctl lsmodules evm – lists the EVM modules that can be used for debugging
If necesary any of these commands can be run with additional tracing by
adding a “trace” argument at the very front.
Example: crsctl trace check css
root@rac1 bin]# ./crsctl stop  crs
Stopping resources.
Successfully stopped CRS resources
Stopping CSSD.
Shutting down CSS daemon.
Shutdown request successfully issued.
[root@rac1 bin]# ./crsctl query css votedisk
0.     0    /ocfs/clusterware/votingdisk
located 1 votedisk(s).
[root@rac1 bin]# ./crsctl add    css votedisk /ocfs/clusterware/votingdisk02 -force
Now formatting voting disk: /ocfs/clusterware/votingdisk01
successful addition of votedisk /ocfs/clusterware/votingdisk02.
[root@rac2 bin]# ./crsctl add    css votedisk /ocfs/clusterware/votingdisk02 -force
Now formatting voting disk: /ocfs/clusterware/votingdisk02
successful addition of votedisk /ocfs/clusterware/votingdisk02.
[root@rac1 bin]# ./crsctl query css votedisk
0.     0    /ocfs/clusterware/votingdisk
1.     0    /ocfs/clusterware/votingdisk01
2.     0    /ocfs/clusterware/votingdisk02
2、ocrdump
rac2-> ocrdump -help
Name:
ocrdump – Dump contents of Oracle Cluster Registry to a file.
Synopsis:
ocrdump [<filename>|-stdout] [-backupfile <backupfilename>] [-keyname <keyname>] [-xml] [-noheader]
Description:
Default filename is OCRDUMPFILE. Examples are:
prompt> ocrdump
writes cluster registry contents to OCRDUMPFILE in the current directory
prompt> ocrdump MYFILE
writes cluster registry contents to MYFILE in the current directory
prompt> ocrdump -stdout -keyname SYSTEM
writes the subtree of SYSTEM in the cluster registry to stdout
prompt> ocrdump -stdout -xml
writes cluster registry contents to stdout in xml format
Notes:
The header information will be retrieved based on best effort basis.
A log file will be created in
$ORACLE_HOME/log/<hostname>/client/ocrdump_<pid>.log. Make sure
you have file creation privileges in the above directory before
running this tool.
rac2-> ocrdump /tmp/ocr.out -keyname SYSTEM.css -xml
rac2-> ocrdump /tmp/ocr_a.out  -xml
rac2-> ocrdump -stdout -keyname SYSTEM.css -xml|more
3、ocrcheck
rac2-> ocrcheck
Status of Oracle Cluster Registry is as follows :
Version                  :          2
Total space (kbytes)     :     262144
Used space (kbytes)      :       4344
Available space (kbytes) :     257800
ID                       :  582586001
Device/File Name         : /ocfs/clusterware/ocr
Device/File integrity check succeeded
Device/File not configured
Cluster registry integrity check succeeded
4、ocrconfig
rac2-> ocrconfig
Name:
ocrconfig – Configuration tool for Oracle Cluster Registry.
Synopsis:
ocrconfig [option]
option:
-export <filename> [-s online]
– Export cluster register contents to a file
-import <filename>                  – Import cluster registry contents from a file
-upgrade [<user> [<group>]]
– Upgrade cluster registry from previous version
-downgrade [-version <version string>]
– Downgrade cluster registry to the specified version
-backuploc <dirname>                – Configure periodic backup location
-showbackup                         – Show backup information
-restore <filename>                 – Restore from physical backup
-replace ocr|ocrmirror [<filename>] – Add/replace/remove a OCR device/file
-overwrite                          – Overwrite OCR configuration on disk
-repair ocr|ocrmirror <filename>    – Repair local OCR configuration
-help                               – Print out this help information
Note:
A log file will be created in
$ORACLE_HOME/log/<hostname>/client/ocrconfig_<pid>.log. Please ensure
you have file creation privileges in the above directory before
running this tool.
rac2-> ocrconfig -showbackup
rac1     2011/07/29 20:18:22     /u01/app/oracle/product/10.2.0/crs_1/cdata/crs
rac1     2011/07/29 16:18:33     /u01/app/oracle/product/10.2.0/crs_1/cdata/crs
rac1     2011/07/29 16:18:33     /u01/app/oracle/product/10.2.0/crs_1/cdata/crs
rac1     2011/07/29 16:18:33     /u01/app/oracle/product/10.2.0/crs_1/cdata/crs
[root@rac1 bin]# cd /u01/app/oracle/product/10.2.0/crs_1/cdata/crs
[root@rac1 crs]# ll
总用量 16368
-rw-r–r–  1 root root 4554752  7月 29 20:18 backup00.ocr
-rw-r–r–  1 root root 4055040  7月 29 16:18 backup01.ocr
-rw-r–r–  1 root root 4055040  7月 29 16:18 day.ocr
-rw-r–r–  1 root root 4055040  7月 29 16:18 week.ocr
rac2-> ocrconfig -export /tmp/bak_ocr -s online
PROT-20: Insufficient permission to proceed. Require privileged user
[root@rac1 bin]# ./ocrconfig -export /tmp/bak_ocr -s online
[root@rac1 bin]# ll /tmp/bak_ocr
-rw-r–r–  1 root root 98692  7月 30 00:07 /tmp/bak_ocr
四、应用层
1、crs_stat
rac2-> crs_stat -help
Usage:  crs_stat [resource_name […]] [-v] [-l] [-q] [-c cluster_member]
crs_stat [resource_name […]] -t [-v] [-q] [-c cluster_member]
crs_stat -p [resource_name […]] [-q]
crs_stat [-a] application -g
crs_stat [-a] application -r [-c cluster_member]
crs_stat -f [resource_name […]] [-q] [-c cluster_member]
crs_stat -ls [resource_name […]] [-q]
rac2-> crs_stat -t -v
Name           Type           R/RA   F/FT   Target    State     Host
———————————————————————-
ora…..XFF.cs application    0/0    0/1    ONLINE    ONLINE    rac1
ora….db1.srv application    0/0    0/0    ONLINE    ONLINE    rac1
ora.devdb.db   application    0/1    0/1    ONLINE    ONLINE    rac1
ora….b1.inst application    0/5    0/0    ONLINE    ONLINE    rac1
ora….b2.inst application    0/5    0/0    ONLINE    ONLINE    rac2
ora….SM1.asm application    0/5    0/0    ONLINE    ONLINE    rac1
ora….C1.lsnr application    0/5    0/0    ONLINE    ONLINE    rac1
ora.rac1.gsd   application    0/5    0/0    ONLINE    ONLINE    rac1
ora.rac1.ons   application    0/3    0/0    ONLINE    ONLINE    rac1
ora.rac1.vip   application    0/0    0/0    ONLINE    ONLINE    rac1
ora….SM2.asm application    0/5    0/0    ONLINE    ONLINE    rac2
ora….C2.lsnr application    0/5    0/0    ONLINE    ONLINE    rac2
ora.rac2.gsd   application    0/5    0/0    ONLINE    ONLINE    rac2
ora.rac2.ons   application    0/3    0/0    ONLINE    ONLINE    rac2
ora.rac2.vip   application    0/0    0/0    ONLINE    ONLINE    rac2
rac2-> crs_stat -p ora.devdb.db
NAME=ora.devdb.db
TYPE=application
ACTION_SCRIPT=/u01/app/oracle/product/10.2.0/crs_1/bin/racgwrap
ACTIVE_PLACEMENT=0
AUTO_START=1
CHECK_INTERVAL=600
DESCRIPTION=CRS application for the Database
FAILOVER_DELAY=0
FAILURE_INTERVAL=60
FAILURE_THRESHOLD=1
HOSTING_MEMBERS=
OPTIONAL_RESOURCES=
PLACEMENT=balanced
REQUIRED_RESOURCES=
RESTART_ATTEMPTS=1
SCRIPT_TIMEOUT=600
START_TIMEOUT=0
STOP_TIMEOUT=0
UPTIME_THRESHOLD=7d
USR_ORA_ALERT_NAME=
USR_ORA_CHECK_TIMEOUT=0
USR_ORA_CONNECT_STR=/ as sysdba
USR_ORA_DEBUG=0
USR_ORA_DISCONNECT=false
USR_ORA_FLAGS=
USR_ORA_IF=
USR_ORA_INST_NOT_SHUTDOWN=
USR_ORA_LANG=
USR_ORA_NETMASK=
USR_ORA_OPEN_MODE=
USR_ORA_OPI=false
USR_ORA_PFILE=
USR_ORA_PRECONNECT=none
USR_ORA_SRV=
USR_ORA_START_TIMEOUT=0
USR_ORA_STOP_MODE=immediate
USR_ORA_STOP_TIMEOUT=0
USR_ORA_VIP=
2、srvctl
rac2-> srvctl
用法: srvctl <command> <object> [<options>]
命令: enable|disable|start|stop|relocate|status|add|remove|modify|getenv|setenv|unsetenv|config
对象: database|instance|service|nodeapps|asm|listener
有关各个命令和对象的详细帮助, 请使用:
srvctl <command> <object> -h
rac2-> srvctl config database
devdb
rac2-> srvctl config database -d devdb
rac1 devdb1 /u01/app/oracle/product/10.2.0/db_1
rac2 devdb2 /u01/app/oracle/product/10.2.0/db_1
rac2-> srvctl config database -d devdb -a
rac1 devdb1 /u01/app/oracle/product/10.2.0/db_1
rac2 devdb2 /u01/app/oracle/product/10.2.0/db_1
DB_NAME: devdb
ORACLE_HOME: /u01/app/oracle/product/10.2.0/db_1
SPFILE: +DG1/devdb/spfiledevdb.ora
DOMAIN: null
DB_ROLE: null
START_OPTIONS: null
POLICY:  AUTOMATIC
ENABLE FLAG: DB ENABLED
rac2-> srvctl config nodeapps -n rac1
rac1 devdb1 /u01/app/oracle/product/10.2.0/db_1
rac2-> srvctl config nodeapps -h
用法: srvctl config nodeapps -n <node_name> [-a] [-g] [-o] [-s] [-l]
-n <node>           节点名
-a                  显示 TNS 条目
-g                  显示 GSD 配置
-s                  显示 ONS 守护程序配置
-l                  显示监听程序配置
-h                  打印用法
rac2-> srvctl config nodeapps -n rac2 -l
监听程序已存在。
rac2-> srvctl config nodeapps -n rac1 -a
VIP 已存在。: /rac1-vip/192.168.1.21/255.255.255.0/eth0:eth1
rac2-> srvctl config listener -n rac2
rac2 LISTENER_RAC2
rac2-> srvctl config asm -n rac1
+ASM1 /u01/app/oracle/product/10.2.0/db_1
rac2-> srvctl config service -h
用法: srvctl config service -d <name> [-s <service_name>] [-a] [-S <level>]
-d <name>           数据库的唯一名称
-s <service>        服务名
-a                  附加属性
-S <level>          EM 控制台的附加信息
-h                  打印用法
rac2-> srvctl config service -d devdb -a
XFF PREF: devdb1 AVAIL: devdb2 TAF: basic
–设置XFF service 不开机启动
ac2-> srvctl disable service -h
用法: srvctl disable service -d <name> -s “<service_name_list>” [-i <inst_name>]
-d <name>           数据库的唯一名称
-s “<serv,…>”     逗号分隔的服务名
-i <inst>           实例名
-h                  打印用法
rac2-> srvctl disable service -d devdb -s XFF -i devdb1
rac2-> srvctl config service -d devdb -a
XFF PREF: devdb1 AVAIL: devdb2 TAF: basic
在实例 devdb1 上禁用服务 XFF。
rac2-> srvctl enable service -h
用法: srvctl enable service -d <name> -s “<service_name_list>” [-i <inst_name>]
-d <name>           数据库的唯一名称
-s “<serv,…>”     逗号分隔的服务名
-i <inst>           实例名
-h                  打印用法
rac2-> srvctl enable service -d devdb -s XFF -i devdb1
rac2-> srvctl config service -d devdb -a
XFF PREF: devdb1 AVAIL: devdb2 TAF: basic
–添加xff2 service
rac2-> srvctl add service -h
用法: srvctl add service -d <name> -s <service_name> -r “<preferred_list>” [-a “<available_list>”] [-P <TAF_policy>]
-d <name>           数据库的唯一名称
-s <service>        服务名
-r “<pref_list>”    首选实例列表
-a “<avail_list>”   可用实例列表
-P <TAF_policy>     TAF 策略 (NONE, BASIC, 或 PRECONNECT)
用法: srvctl add service -d <name> -s <service_name> -u {-r “<new_pref_inst>” | -a “<new_avail_inst>”}
-d <name>           数据库的唯一名称
-s <service>        服务名
-u                  为服务配置添加一个新实例
-r <new_pref_inst>  新首选实例的名称
-a <new_avail_inst> 新可用实例的名称
-h                  打印用法
rac2-> srvctl add service -d devdb -s xff2 -r devdb2 -a devdb1  -P BASIC
rac2-> srvctl config service -d devdb -a
XFF PREF: devdb1 AVAIL: devdb2 TAF: basic
xff2 PREF: devdb2 AVAIL: devdb1 TAF: BASIC
rac2-> crs_stat -t -v
Name           Type           R/RA   F/FT   Target    State     Host
———————————————————————-
ora…..XFF.cs application    0/0    0/1    ONLINE    ONLINE    rac1
ora….db1.srv application    0/0    0/0    ONLINE    ONLINE    rac2
ora.devdb.db   application    0/1    0/1    ONLINE    ONLINE    rac1
ora….b1.inst application    0/5    0/0    ONLINE    ONLINE    rac1
ora….b2.inst application    0/5    0/0    ONLINE    ONLINE    rac2
ora….xff2.cs application    0/0    0/1    OFFLINE   OFFLINE
ora….db2.srv application    0/0    0/0    OFFLINE   OFFLINE
ora….SM1.asm application    0/5    0/0    ONLINE    ONLINE    rac1
ora….C1.lsnr application    0/5    0/0    ONLINE    ONLINE    rac1
ora.rac1.gsd   application    0/5    0/0    ONLINE    ONLINE    rac1
ora.rac1.ons   application    0/3    0/0    ONLINE    ONLINE    rac1
ora.rac1.vip   application    0/0    0/0    ONLINE    ONLINE    rac1
ora….SM2.asm application    0/5    0/0    ONLINE    ONLINE    rac2
ora….C2.lsnr application    0/5    0/0    ONLINE    ONLINE    rac2
ora.rac2.gsd   application    0/5    0/0    ONLINE    ONLINE    rac2
ora.rac2.ons   application    0/3    0/0    ONLINE    ONLINE    rac2
ora.rac2.vip   application    0/0    0/0    ONLINE    ONLINE    rac2
–设置xff2 service 开机自启动
rac2->  srvctl enable service -d devdb -s xff2 -i devdb1
rac2->  srvctl enable service -d devdb -s xff2 -i devdb2
–启动xff2 service
rac2-> srvctl start service -d devdb -s xff2 -i devdb1
rac2-> crs_stat -t
Name           Type           Target    State     Host
————————————————————
ora…..XFF.cs application    ONLINE    ONLINE    rac1
ora….db1.srv application    ONLINE    ONLINE    rac2
ora.devdb.db   application    ONLINE    ONLINE    rac1
ora….b1.inst application    ONLINE    ONLINE    rac1
ora….b2.inst application    ONLINE    ONLINE    rac2
ora….xff2.cs application    ONLINE    ONLINE    rac2
ora….db2.srv application    ONLINE    ONLINE    rac1
ora….SM1.asm application    ONLINE    ONLINE    rac1
ora….C1.lsnr application    ONLINE    ONLINE    rac1
ora.rac1.gsd   application    ONLINE    ONLINE    rac1
ora.rac1.ons   application    ONLINE    ONLINE    rac1
ora.rac1.vip   application    ONLINE    ONLINE    rac1
ora….SM2.asm application    ONLINE    ONLINE    rac2
ora….C2.lsnr application    ONLINE    ONLINE    rac2
ora.rac2.gsd   application    ONLINE    ONLINE    rac2
ora.rac2.ons   application    ONLINE    ONLINE    rac2
ora.rac2.vip   application    ONLINE    ONLINE    rac2
rac2-> srvctl status  service -d devdb -v
服务 XFF 正在实例 devdb2 上运行
服务 xff2 正在实例 devdb1 上运行
–停用xff2 service
rac2-> srvctl stop service -d devdb -s xff2 -i devdb1
rac2-> crs_stat -t
Name           Type           Target    State     Host
————————————————————
ora…..XFF.cs application    ONLINE    ONLINE    rac1
ora….db1.srv application    ONLINE    ONLINE    rac2
ora.devdb.db   application    ONLINE    ONLINE    rac1
ora….b1.inst application    ONLINE    ONLINE    rac1
ora….b2.inst application    ONLINE    ONLINE    rac2
ora….xff2.cs application    ONLINE    ONLINE    rac2
ora….db2.srv application    OFFLINE   OFFLINE
ora….SM1.asm application    ONLINE    ONLINE    rac1
ora….C1.lsnr application    ONLINE    ONLINE    rac1
ora.rac1.gsd   application    ONLINE    ONLINE    rac1
ora.rac1.ons   application    ONLINE    ONLINE    rac1
ora.rac1.vip   application    ONLINE    ONLINE    rac1
ora….SM2.asm application    ONLINE    ONLINE    rac2
ora….C2.lsnr application    ONLINE    ONLINE    rac2
ora.rac2.gsd   application    ONLINE    ONLINE    rac2
ora.rac2.ons   application    ONLINE    ONLINE    rac2
ora.rac2.vip   application    ONLINE    ONLINE    rac2
rac2-> srvctl status  service -d devdb -v
服务 XFF 正在实例 devdb2 上运行
服务 xff2 未运行。
–删除xff2 service
rac2-> srvctl remove service -h
用法: srvctl remove service -d <name> -s <service_name> [-i <inst_name>] [-f]
-d <name>           数据库的唯一名称
-s <service>        服务名
-i <inst>           实例名
-f                  强制删除
-h                  打印用法
rac2-> srvctl remove service -d devdb -s xff2
xff2 PREF: devdb2 AVAIL: devdb1
是否从数据库 devdb 中删除服务 xff2? (y/[n]) y
rac2-> crs_stat -t
Name           Type           Target    State     Host
————————————————————
ora…..XFF.cs application    ONLINE    ONLINE    rac1
ora….db1.srv application    ONLINE    ONLINE    rac2
ora.devdb.db   application    ONLINE    ONLINE    rac1
ora….b1.inst application    ONLINE    ONLINE    rac1
ora….b2.inst application    ONLINE    ONLINE    rac2
ora….SM1.asm application    ONLINE    ONLINE    rac1
ora….C1.lsnr application    ONLINE    ONLINE    rac1
ora.rac1.gsd   application    ONLINE    ONLINE    rac1
ora.rac1.ons   application    ONLINE    ONLINE    rac1
ora.rac1.vip   application    ONLINE    ONLINE    rac1
ora….SM2.asm application    ONLINE    ONLINE    rac2
ora….C2.lsnr application    ONLINE    ONLINE    rac2
ora.rac2.gsd   application    ONLINE    ONLINE    rac2
ora.rac2.ons   application    ONLINE    ONLINE    rac2
ora.rac2.vip   application    ONLINE    ONLINE    rac2
注意使用-h或者help帮助功能

表在线重定义(无主键)

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:表在线重定义(无主键)

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

1、T2表结构

SQL> desc t2
Name           Type          Nullable Default Comments
-------------- ------------- -------- ------- --------
OWNER          VARCHAR2(30)  Y
OBJECT_NAME    VARCHAR2(128) Y
SUBOBJECT_NAME VARCHAR2(30)  Y
OBJECT_ID      NUMBER        Y
DATA_OBJECT_ID NUMBER        Y
OBJECT_TYPE    VARCHAR2(19)  Y
CREATED        DATE          Y
LAST_DDL_TIME  DATE          Y
TIMESTAMP      VARCHAR2(19)  Y
STATUS         VARCHAR2(7)   Y
TEMPORARY      VARCHAR2(1)   Y
GENERATED      VARCHAR2(1)   Y
SECONDARY      VARCHAR2(1)   Y

2、创建中间表

CREATE TABLE T2_1
AS
SELECT * FROM t2 WHERE 1=0;

3、验证T2是否用于重定义(因没有主键,采用rowid实现)

EXEC DBMS_REDEFINITION.CAN_REDEF_TABLE(user, 'T2', DBMS_REDEFINITION.cons_use_rowid);

4、执行表的在线重定义

EXEC DBMS_REDEFINITION.START_REDEF_TABLE(USER, 'T2', 'T2_1','OWNER OWNER, OBJECT_NAME OBJECT_NAME, SUBOBJECT_NAME  SUBOBJECT_NAME, OBJECT_ID OBJECT_ID, DATA_OBJECT_ID DATA_OBJECT_ID, OBJECT_TYPE OBJECT_TYPE, CREATED CREATED, LAST_DDL_TIME LAST_DDL_TIME, TIMESTAMP TIMESTAMP, STATUS STATUS, TEMPORARY TEMPORARY, GENERATED GENERATED, SECONDARY SECONDARY',DBMS_REDEFINITION.cons_use_rowid);

说明:
1)采用单引号列出T2与T2_1表列的对应关系
2)列与列之间采用单引号分割,单引号后面要有空格
5、同步数据(可选)

exec dbms_redefinition.sync_interim_table(user, 'T2', 'T2_1');

6、执行结束在线定义过程

EXEC DBMS_REDEFINITION.FINISH_REDEF_TABLE(user, 'T2', 'T2_1');

7、删除中间表

drop table t2_1 purge;

8、处理T2表(删除隐藏列)

SQL> select col#,name,type# from SYS.COL$ WHERE OBJ#=(select object_id from dba_objects where object_name='T2');
      COL# NAME                                TYPE#
---------- ------------------------------ ----------
         1 OWNER                                   1
         2 OBJECT_NAME                             1
         3 SUBOBJECT_NAME                          1
         4 OBJECT_ID                               2
         5 DATA_OBJECT_ID                          2
         6 OBJECT_TYPE                             1
         7 CREATED                                12
         8 LAST_DDL_TIME                          12
         9 TIMESTAMP                               1
        10 STATUS                                  1
        11 TEMPORARY                               1
        12 GENERATED                               1
        13 SECONDARY                               1
         0 SYS_C00014_11081015:39:40$              1
--发现一个多余隐藏列SYS_C00014_11081015:39:40$,我们需要删除
SQL>  alter table t2 set unused ("SYS_C00014_11081015:39:40$");
Table altered
SQL>  alter table t2 drop unused columns;
Table altered

表在线重定义(有主键)

Oracle 10g RAC相关进程

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:Oracle 10g RAC相关进程

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

Oracle Clusterware进程
OCSSD
该进程是Clusterware最关键进程,如果出现异常,会导致系统重启,该进程提供的服务为CSS(Cluster Synchronization Service)服务。CSS服务是通过多种心跳机制来实现实时监控集群的健康状态,提供脑裂保护等基础集群服务功能。CSS服务有两种心跳机制:一种是通过私有网络的Network Heartbeat,另一种是通过Voting Disk的Disk Heartbeat
CRSD
CRSD是实现“高可用(HA)”的主要进程,它所提供的服务叫做CRS(Cluster Ready Service)服务。该进程对Oracle Clusterware中的资源进行监控,并在这些资源运行异常时进行干预,包括关闭、重启进程或者转移服务。
EVMD
该进程负责发布CRS产生的各种事件(Event)
RACGIMON
该进程负责检查数据库的健康状态,负责Service的启动、停止、故障转移(Failover)。这个进程会建立到数据库的持久连接,定期检查SGA中的特定信息,该信息由PMON进程定时更新
OPROCD
该进程也叫做Process Monitor Daemon。如果在非Linux平台上,并且没有使用第三方的集群软件,会看到这个进程。实现“IO隔离”功能,在Liunx平台上,是利用hangcheck-timer模块来实现“IO隔离”功能
Oracle Instance进程
LMSn
负责数据块在实例间的传递,对应的服务叫作GCS(Global Cache Service),这个进程的数量是通过参数GCS_SERVER_PROCESSES控制,缺省值是2个,取值范围为0至9
LMD
负责在多个实例间协调数据库的访问顺序,保证数据的一致性访问,对应的服务是GES(Global Enqueue Service)
LCK
负责Non-Cache Fusion资源的同步访问,每个实例只有一个LCK进程
LMON
各个实例的LMON进程进行定期通信,以检查集群中各节点的健康状态,当某个节点出现故障时,负责集群重构、GRD恢复等操作,它提供的服务叫作 Cluster Group Services(CGS)
DIAG
监控实例的健康状态,并在实例运行出现错误时收集诊断数据记录到Alert.log日志中
GSD
负责从客户端工具接收命令,为用户提供管理接口

路走对了,就不怕远

联系:手机/微信(+86 17813235971) QQ(107644445)

标题:路走对了,就不怕远

作者:惜分飞©版权所有[未经本人同意,不得以任何形式转载,否则有进一步追究法律责任的权利.]

1、一天很短,开心了就笑,不开心了就过会儿再笑。
2、真正的朋友从不追究你的过错,也从不嫉妒你的成功。
3、爱情就像是冰激凌,吃掉美味的奶油,就露出了它最真实的面目。
4、我宁愿爱上一个我不能拥有的人,也不想拥有一个我无法爱上的人。
5、品格不由你占有的东西决定,而是由你匮乏的东西塑造的。
6、痛过,才知道如何保护自己; 哭过,才知道心痛是什么感觉, 傻过,才知道适时的坚持与放弃, 爱过,才知道自己其实很脆弱。 其实,生活并不需要这么些无谓的执著,没有什么就真的不能割舍。
7、命,乃失败者的借口;运,乃成功者的谦辞。
8、一个人头脑聪明本领大,当然是好事,脑瓜子笨一点能力差一点也没有关系,只要有必胜的信念,只要有决不放弃的原则,照样能成为一个优秀的人物。
9、派大星:“嗨,海绵宝宝,我们去抓水母吧。”海绵宝宝:“对不起,今天不行,我要上学。”派大星:“如果你去上学的话,我今天该干点什么?”海绵宝宝:“我不知道,一般我不在家的时候,你都干些什么啊?”派大星:“等你回来。”
10、想把别人推进地狱的人,多半自己也住在地狱里。
11、也许我们很难知道,离成功究竟还有多远,但是我们十分清楚,自己到底还能撑多久。我们不一定能等到成功到来的那一刻,但可以肯定的是,我们可以坚持到自己的最后一刻。
12、你拨动了我的心弦,却不曾为我驻足,当我以为你还在的时候,你已没有踪影,当你回头找寻我的时候,我已开始寻找自己的天空。亲爱的,我把最美好的年华留给了你,我,于你无愧。亲爱的,我的青春有限,承担不起一生一世的等待。亲爱的,让我骄傲一次,这次,是我不要你了。
13、安妮宝贝《彼岸花》:任何一件事情,只要心甘情愿,总是能够变得简单。
14、《刺猬的优雅》:某些事情必须结束,某些事情必须开始。我只是渴望一件事情:那就是希望别人能让我平静地度过此生,不要对我太苛刻,此外,我能每天花点时间,能够尽情满足自己的饥渴,足矣。
15、《飘》:我从来不是那样的人,不能耐心地拾起一片碎片,把它们凑合在一起,然后对自己说这个修补好了的东西跟新的完全一样。一样东西破碎了就是破碎了,我宁愿记住它最好时的模样,而不想把它修补好,然后终生看着那些碎了的地方。
16、魏剑美:做人做事最好的状态就是:不刻意。不刻意自我表现,也不刻意淡泊名利;不刻意迎合,也不刻意狂狷;不刻意追逐流行,也不刻意卓尔不群。如是,则不心累,不纠结,不失望。
17、路金波:莫要晒甜蜜,莫要秀幸福。因为物理学常识告诉我们,晒容易流失水分,而冷藏是保鲜的最佳方式。
18、韩寒:鹅卵石为什么被人捏在手里玩?就是因为它没有棱角。 
19、宋丹丹:原本只想要一个拥抱,不小心多了一个吻,然后你发现需要一张床,一套房,一个证……离婚的时候才想起:你原本只想要一个拥抱。
20、路走对了,就不怕远!