Monthly Archives: 八月 2011

oracle 10g rman自动创建数据文件

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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

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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

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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

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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

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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(*)
———-
0

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