Oracle误删除表数据后的恢复具体解释
測试环境:
SYSTEM:IBM AIX 5L Oracle Version:10gR2
1. undo_retention參数的查询与改动
使用show parameter undo命令查看当前的数据库參数undo_retention设置。
显演示样例如以下:
SQL> show parameter undo
NAME TYPE VALUE
------------------------------------ ----------- ------------------------------
undo_management string AUTO
undo_retention integer 900
undo_tablespace string UNDOTBS2
undo_retention(保持力),900单位是秒,即15分钟。
改动默认的undo_retention參数设置:
SQL> ALTER SYSTEM SET undo_retention=10800 SCOPE=BOTH;
System altered.
SQL> show parameter undo
NAME TYPE VALUE
------------------------------------ ----------- ------------------------------
undo_management string AUTO
undo_retention integer 10800
undo_tablespace string UNDOTBS2
undo_retention 10800,单位秒,即3小时。
2. oracle误删除表数据后的的高速恢复功能方法
2.1 方法一
通过oracle提供的回闪功能
exec dbms_flashback.enable_at_time(to_date('2011-04-15 08:21:00','yyyy-mm-dd hh24:mi:ss'));
set serveroutput on
DECLARE r_temp hr.job_history%ROWTYPE;
CURSOR c_temp IS SELECT * FROM hr.job_history;
BEGIN
OPEN c_temp;
dbms_flashback.disable;
LOOP
FETCH c_temp INTO r_temp;
EXIT WHEN c_temp%NOTFOUND;
insert into hr.job_history(EMPLOYEE_ID,JOB_ID,START_DATE,END_DATE) values (r_temp.EMPLOYEE_ID,r_temp.JOB_ID,r_temp.START_DATE,r_temp.END_DATE);
commit;
END LOOP;
CLOSE c_temp;
END;
这样的办法能够将删除的数据恢复到相应的表中,首先要保证该用户有运行dbms_flashback包的权限。
2.2 方法二
insert into hr.job_history
select * from hr.job_history as of timestamp to_timestamp('2011-04-15 08:20:00', 'yyyy-mm-dd hh24:mi:ss');
这样的方法简单,easy掌握,功能和上面的一样,此处的时间为你误操作之前的时间,最好是离误操作比較近的,由于oracle保存在回滚保持段里的数据时间有一定的时间限制,这个限制由undo_retention 这个參数值决定。
查看FIRST_CHANGE#,NEXT_CHANGE#,FIRST_TIME
SQL> set pagesize 9999
SQL> col fscn for 999999999
SQL> col nscn for 999999999
SQL> select name,FIRST_CHANGE# fscn,NEXT_CHANGE# nscn,FIRST_TIME from v$archived_log;
当前的SCN为:
SQL> select dbms_flashback.get_system_change_number fscn from dual;
FSCN
----------
3435958
使用应用用户尝试闪回
SQL> connect username/password
Connected.
现有数据:
SQL> select count(*) from hs_passport;
COUNT(*)
----------
851998
创建恢复表:
SQL> create table hs_passport_recov as select * from hs_passport where 1=0;
Table created.
选择SCN向前恢复:
SQL> select count(*) from hs_passport as of scn 12929970422;
COUNT(*)
----------
861686
尝试多个SCN,获取最佳值(假设能得知详细时间,那么能够获得准确的数据闪回)
SQL> select count(*) from hs_passport as of scn &scn;
Enter value for scn: 12929941968
old 1: select count(*) from hs_passport as of scn &scn
new 1: select count(*) from hs_passport as of scn 12929941968
COUNT(*)
----------
861684
SQL> /
Enter value for scn: 12927633776
old 1: select count(*) from hs_passport as of scn &scn
new 1: select count(*) from hs_passport as of scn 12927633776
select count(*) from hs_passport as of scn 12927633776
*
ERROR at line 1:
ORA-01466: unable to read data - table definition has changed
SQL> /
Enter value for scn: 12929928784
old 1: select count(*) from hs_passport as of scn &scn
new 1: select count(*) from hs_passport as of scn 12929928784
COUNT(*)
----------
825110
SQL> /
Enter value for scn: 12928000000
old 1: select count(*) from hs_passport as of scn &scn
new 1: select count(*) from hs_passport as of scn 12928000000
select count(*) from hs_passport as of scn 12928000000
*
ERROR at line 1:
ORA-01466: unable to read data - table definition has changed
最后选择恢复到SCN为12929941968的时间点
SQL> insert into hs_passport_recov select * from hs_passport as of scn 12929941968;
861684 rows created.
SQL> commit;
Commit complete.
数据恢复简单样例
在过去,假设用户误删/更新了数据后,作为用户并没有什么直接的方法来进行恢复,他们必须求助DBA来对数据库进行恢复,到了Oracle9i,这一难堪的局面有所改善。Oracle 9i中提供了一项新的技术手段--闪回查询,用户使用闪回查询能够及时取得误操作前的数据,并能够针对错误进行对应的恢复措施,而这一切都无需DBA干预。
3. 以下我们通过一个样例来详细说明闪回查询的使用方法
演示样例
3.1 使用闪回查询前必须确定以下两个參数:
UNDO_MANAGEMENT = AUTO
undo_retention = 10800;
这个时间能够随便设,它表示在系统中保留提交了的UNDO信息的时间,10800就是保留3小时,即180分钟。
3.2 使用闪回查询
SQL> conn /as sysdba
Connected.
SQL> drop user lsf cascade;
User dropped.
SQL> create user lsf identified by lsf;
User created.
SQL> grant connect,resource to lsf;
Grant succeeded.
SQL> grant execute on dbms_flashback to lsf;
Grant succeeded.
SQL> conn lsf/lsf
Connected.
SQL> create table T(id int, name varchar2(20));
Table created.
SQL> insert into T values(1,'lsf');
1 row created.
SQL> insert into T values(2,'lsf');
1 row created.
SQL> insert into T values(3,'lsf');
1 row created.
SQL> commit;
Commit complete.
SQL> select * from T;
ID NAME
---------- ------------------------------------------------------------
1 lsf
2 lsf
3 lsf
SQL> set time on
10:12:50 SQL> delete from T where id=1;
1 row deleted.
10:13:02 SQL> commit;
Commit complete.
10:13:10 SQL> select * from T;
ID NAME
---------- ------------------------------------------------------------
2 lsf
3 lsf
10:13:18 SQL> execute DBMS_FLASHBACK.ENABLE_AT_TIME(to_date('2011-04-15 10:12:50','YYYY-MM-DD HH24:MI:SS'));
PL/SQL procedure successfully completed.
10:13:50 SQL> select * from T;
ID NAME
---------- ------------------------------------------------------------
1 lsf
2 lsf
3 lsf
10:13:57 SQL> execute DBMS_FLASHBACK.DISABLE;
PL/SQL procedure successfully completed.
10:15:48 SQL> select * from T;
ID NAME
---------- ------------------------------------------------------------
2 lsf
3 lsf
3.3 使用闪回查询恢复数据
10:16:59 SQL> truncate table T;
Table truncated.
10:18:15 SQL> select * from T;
no rows selected
10:18:22 SQL> insert into T values(1,'lsf');
1 row created.
10:19:42 SQL> insert into T values(2,'lsf');
1 row created.
10:19:48 SQL> insert into T values(3,'lsf');
1 row created.
10:19:55 SQL> insert into T values(4,'lsf');
1 row created.
10:20:07 SQL> insert into T values(5,'lsf');
1 row created.
10:20:15 SQL> insert into T values(6,'lsf');
1 row created.
10:20:21 SQL> commit;
Commit complete.
10:20:26 SQL> select * from T;
ID NAME
---------- ------------------------------------------------------------
1 lsf
2 lsf
3 lsf
4 lsf
5 lsf
6 lsf
6 rows selected.
10:20:56 SQL> delete T;
6 rows deleted.
10:21:27 SQL> commit;
Commit complete.
10:21:40 SQL> declare
10:22:29 2 cursor flash_recover is
10:22:43 3 select * from T;
10:22:50 4 t_recode T%rowtype;
10:23:11 5 begin
10:23:14 6 DBMS_FLASHBACK.ENABLE_AT_TIME(to_date('2011-04-15 10:20:56','YYYY-MM-DD HH24:MI:SS'));
10:24:22 7 open flash_recover;
10:24:39 8 DBMS_FLASHBACK.DISABLE;
10:24:59 9 loop
10:25:05 10 FETCH flash_recover into t_recode;
10:25:24 11 EXIT WHEN flash_recover%NOTFOUND;
10:25:45 12 insert into T values(t_recode.id,t_recode.name);
10:26:35 13 end loop;
10:26:39 14 CLOSE FLASH_RECOVER;
10:26:50 15 commit;
10:26:56 16 end;
10:26:58 17 /
PL/SQL procedure successfully completed.
10:27:00 SQL> select * from T;
ID NAME
---------- ------------------------------------------------------------
1 lsf
2 lsf
3 lsf
4 lsf
5 lsf
6 lsf
6 rows selected.
我们能够已经恢复了全部的6条纪录,可是因为闪回查询的局限性,有可能不能恢复全部的6条记录,原因就在以下。
4. 局限性
4.1 闪回查询是基于SCN的,尽管我们运行的是:
DBMS_FLASHBACK.ENABLE_AT_TIME(to_date('2011-04-15 10:20:56','YYYY-MM-DD HH24:MI:SS'));
但Oracle并不会精确的这个时间点,而是ROUND DOWN到近期的一次SCN,然后从这个SCN開始进行恢复。而Oracle 9i是每五分钟记录一次SCN的,并将SCN和相应时间的映射做个纪录。
因此假设使用DBMS_FLASHBACK.ENABLE_AT_TIME来进行恢复,为了避免恢复失败,我们能够先等5分钟,然后再进行恢复。
使用DBMS_FLASHBACK.ENABLE_AT_TIME进行恢复另一个缺点,那就是在Oracle 9i中SCN和相应时间的映射信息仅仅会保留5天,因此我们无法通过DBMS_FLASHBACK.ENABLE_AT_TIME来恢复5天前的数据。假设你想使用闪回查询来恢复5天前的数据,你必须自己来确定须要恢复的SCN,然后使用DBMS_FLASHBACK.ENABLE_AT_SYSTEM_CHANGE_NUMBER(SCN_NUMBER); 来定位你的恢复时间点,以下是用法:
10:27:27 SQL> VARIABLE SCN_SAVE NUMBER;
10:32:47 SQL> EXECUTE :SCN_SAVE := DBMS_FLASHBACK.GET_SYSTEM_CHANGE_NUMBER;
PL/SQL procedure successfully completed.
10:33:24 SQL> print SCN_SAVE;
SCN_SAVE
----------
3438420
10:33:41 SQL> execute DBMS_FLASHBACK.ENABLE_AT_SYSTEM_CHANGE_NUMBER(:SCN_SAVE);
PL/SQL procedure successfully completed.
10:34:31 SQL> select * from T;
ID NAME
---------- ------------------------------------------------------------
1 lsf
2 lsf
3 lsf
4 lsf
5 lsf
6 lsf
6 rows selected.
另外,在使用DBMS_FLASHBACK.ENABLE_AT_TIME前,你必须设定你的NLS_DATE_FORMAT的精确程度,Oracle默认的是精确到天,假设你不设定,像上面的样例你不会得到预期结果。
4.2 假设你使用sysdate和DBMS_FLASHBACK.GET_SYSTEM_CHANGE_NUMBER来获取时间点或者SCN值,你必须注意它们取得都是当前的时间点和SCN值。
4.3 你仅仅能在事务開始时进入闪回查询模式,假设之前有DML操作,则必须COMMIT。
4.4 闪回查询无法恢复到表结构改变之前,由于闪回查询使用的当前的数据字典。