ORACLE 12C redo异常恢复测试—部分pdb未正常open

Posted on 2014 年 03 月 21 日 by 惜分飞

为了验证当前redo丢失的情况下ORACLE 12C CDB数据库恢复的情况,做了一个小实验，三个会话，分别操作为在root pdb中执行一个delete 不提交；另外一个会话在user pdb中delete记录不提交；最后一个会话中直接abort数据库，然后进行数据库恢复，验证数据库是否可以都正常open(所有pdb)
会话1(root pdb中操作)

CDB_CDB$ROOT@SYS> show pdbs;

    CON_ID CON_NAME                       OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
         2 PDB$SEED                       READ ONLY  NO
         3 PDB                            READ WRITE NO

CDB_CDB$ROOT@SYS> show con_name

CON_NAME
------------------------------
CDB$ROOT

CDB_CDB$ROOT@SYS> create table t_xifenfei as select * from dba_objects;

表已创建。

CDB_CDB$ROOT@SYS> delete from t_xifenfei;

已删除 91032 行。

CDB_CDB$ROOT@SYS>

会话2(user pdb中操作)

CDB_CDB$ROOT@SYS> show con_name

CON_NAME
------------------------------
PDB

CDB_CDB$ROOT@SYS> drop table t_xifenfei purge;

表已删除。

CDB_CDB$ROOT@SYS> create table t_xifenfei as select * from dba_objects;

表已创建。

CDB_CDB$ROOT@SYS> delete from t_xifenfei;

已删除 91144 行。

会话3(直接abort数据库)

CDB_CDB$ROOT@SYS> shutdown abort;
ORACLE 例程已经关闭。

删除数据库联机日志

E:\app\XIFENFEI\oradata\cdb>dir redo*.log
 驱动器 E 中的卷是 本地磁盘
 卷的序列号是 000C-3B41

 E:\app\XIFENFEI\oradata\cdb 的目录

2013-08-07  01:41        52,429,312 REDO01.LOG
2013-08-07  01:40        52,429,312 REDO02.LOG
2013-08-07  01:40        52,429,312 REDO03.LOG
2014-03-20  22:47        52,432,896 REDO04.LOG
2014-03-20  22:47        52,432,896 REDO05.LOG
2014-03-20  22:47        52,432,896 REDO06.LOG
               6 个文件    314,586,624 字节
               0 个目录 21,359,374,336 可用字节

E:\app\XIFENFEI\oradata\cdb>del redo*.log

E:\app\XIFENFEI\oradata\cdb>dir redo*.log
 驱动器 E 中的卷是 本地磁盘
 卷的序列号是 000C-3B41

 E:\app\XIFENFEI\oradata\cdb 的目录

找不到文件

启动数据库报ORA-00313错误

idle> startup
ORACLE 例程已经启动。

Total System Global Area  521936896 bytes
Fixed Size                  2404552 bytes
Variable Size             205524792 bytes
Database Buffers          306184192 bytes
Redo Buffers                7823360 bytes
数据库装载完毕。
ORA-00313: 无法打开日志组 6 (用于线程 1) 的成员
ORA-00312: 联机日志 6 线程 1: 'E:\APP\XIFENFEI\ORADATA\CDB\REDO06.LOG'
ORA-27041: 无法打开文件
OSD-04002: 无法打开文件
O/S-Error: (OS 2) 系统找不到指定的文件。

使用_allow_resetlogs_corruption参数尝试open数据库

idle> shutdown abort
ORACLE 例程已经关闭。
idle> startup pfile='d:/pfile.txt' mount
ORACLE 例程已经启动。

Total System Global Area  521936896 bytes
Fixed Size                  2404552 bytes
Variable Size             205524792 bytes
Database Buffers          306184192 bytes
Redo Buffers                7823360 bytes
数据库装载完毕。
idle> show parameter resetlogs;

NAME                                 TYPE        VALUE
------------------------------------ ----------- ------------------------------
_allow_resetlogs_corruption          boolean     TRUE
idle> recover database until cancel;
ORA-00279: 更改 12696935641735 (在 03/20/2014 22:38:52 生成) 对于线程 1
是必需的
ORA-00289: 建议:
E:\APP\XIFENFEI\FAST_RECOVERY_AREA\CDB\ARCHIVELOG\2014_03_20\O1_MF_1_872_9LOZSK9
X_.ARC
ORA-00280: 更改 12696935641735 (用于线程 1) 在序列 #872 中


指定日志: {<RET>=suggested | filename | AUTO | CANCEL}
cancel
ORA-01547: 警告: RECOVER 成功但 OPEN RESETLOGS 将出现如下错误
ORA-01194: 文件 1 需要更多的恢复来保持一致性
ORA-01110: 数据文件 1: 'E:\APP\XIFENFEI\ORADATA\CDB\SYSTEM01.DBF'


ORA-01112: 未启动介质恢复


idle> alter database open resetlogs;
alter database open resetlogs
*
第 1 行出现错误:
ORA-00603: ORACLE server session terminated by fatal error
ORA-00600: internal error code, arguments: [2662], [2956], [1012314778],
[2956], [1012314903], [268435600], [], [], [], [], [], []
ORA-00600: internal error code, arguments: [2662], [2956], [1012314777],
[2956], [1012314903], [268435600], [], [], [], [], [], []
ORA-01092: ORACLE instance terminated. Disconnection forced
ORA-00600: internal error code, arguments: [2662], [2956], [1012314768],
[2956], [1012314903], [268435600], [], [], [], [], [], []
进程 ID: 9268
会话 ID: 92 序列号: 3

ora-600[2662]很熟悉，文件头的scn小于文件中某个block的csn，通过bbed等工具修改文件scn，尝试启动数据库

CDB_CDB$ROOT@SYS> SHUTDOWN ABORT
ORACLE 例程已经关闭。
CDB_CDB$ROOT@SYS> STARTUP
ORACLE 例程已经启动。

Total System Global Area  521936896 bytes
Fixed Size                  2404552 bytes
Variable Size             205524792 bytes
Database Buffers          306184192 bytes
Redo Buffers                7823360 bytes
数据库装载完毕。
数据库已经打开。

尝试open user pdb

CDB_CDB$ROOT@SYS> alter session set container=pdb;

会话已更改。

CDB_CDB$ROOT@SYS> alter database open;
alter database open
*
第 1 行出现错误:
ORA-00600: 内部错误代码, 参数: [kcvfdb_pdb_set_clean_scn: cleanckpt], [3],
[2956], [1012312995], [2956], [1012334778], [2], [], [], [], [], []

查询mos得到结论:
Bug 16784143 ORA-600 [kcvfdb_pdb_set_clean_scn: cleanckpt] with PDBs
在12.2/12.1.0.2/12.1.0.1.1中修复，后续尝试打patch,来进一步恢复.

测试结果证明
1.root pdb的open过程和以前版本数据库无大差异,但是scn推进比较费劲,以前的event和隐含参数方法无效
2.user pdb再是看是因为bug无法open,后续继续验证
3.12.1的base 版本可能确实问题很多，生产使用慎重

ORACLE 12C 控制文件异常恢复

Posted on 2014 年 03 月 20 日 by 惜分飞

在oracle 12c引进了pdb的概念,但重建控制文件的过程还是完全和no-cdb(以前版本ORACLE)相同
数据库启动异常

idle> startup
ORACLE instance started.

Total System Global Area  521936896 bytes
Fixed Size                  2404552 bytes
Variable Size             205524792 bytes
Database Buffers          306184192 bytes
Redo Buffers                7823360 bytes
ORA-00205: error in identifying control file, check alert log for more info


idle> select * from v$version;

BANNER                                                                               CON_ID
-------------------------------------------------------------------------------- ----------
Oracle Database 12c Enterprise Edition Release 12.1.0.1.0 - 64bit Production              0
PL/SQL Release 12.1.0.1.0 - Production                                                    0
CORE    12.1.0.1.0      Production                                                        0
TNS for 64-bit Windows: Version 12.1.0.1.0 - Production                                   0
NLSRTL Version 12.1.0.1.0 - Production                                                    0

alert日志信息

Wed Mar 19 20:30:20 2014
ALTER DATABASE   MOUNT
Wed Mar 19 20:30:20 2014
ORA-00210: ???????????
ORA-00202: ????: ''E:\APP\XIFENFEI\ORADATA\CDB\CONTROL01.CTL''
ORA-27048: skgfifi: ????????
OSD-04001: 逻辑块大小无效
ORA-205 signalled during: ALTER DATABASE   MOUNT...

利用strings命令找出来数据文件和联机日志路径

E:\APP\XIFENFEI\ORADATA\CDB\REDO04.LOG
E:\APP\XIFENFEI\ORADATA\CDB\REDO06.LOG
E:\APP\XIFENFEI\ORADATA\CDB\REDO05.LOG
E:\APP\XIFENFEI\ORADATA\CDB\PDB\PDB_USERS01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDB\SYSAUX01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDB\SYSTEM01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\USERS01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\UNDOTBS01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDBSEED\SYSAUX01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\SYSAUX01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDBSEED\SYSTEM01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\SYSTEM01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\TEMP01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDB\TEMP01.DBF

如果有完整的alert日志也可以通过alert日志来分析数据文件路径和redo路径;
通过alert日志分析数据库编码,如果没有alert日志通过分析prop$分析编码;
redo group 可以在alert日志中查看,写入错误,在创建时候会提示正确值;
redo size 可以查看redo file,也可以先写入错误值,创建时候会提示正确block数量

重建控制文件

idle> CREATE CONTROLFILE REUSE DATABASE "CDB" NORESETLOGS FORCE LOGGING ARCHIVELOG
  2      MAXLOGFILES 16
  3      MAXLOGMEMBERS 3
  4      MAXDATAFILES 100
  5      MAXINSTANCES 8
  6      MAXLOGHISTORY 2921
  7  LOGFILE
  8  GROUP 4 'E:\APP\XIFENFEI\ORADATA\CDB\REDO04.LOG' size 50M,
  9  GROUP 6 'E:\APP\XIFENFEI\ORADATA\CDB\REDO06.LOG'  size 50M,
 10  GROUP 5 'E:\APP\XIFENFEI\ORADATA\CDB\REDO05.LOG'  size 50M
 11  DATAFILE
 12  'E:\APP\XIFENFEI\ORADATA\CDB\PDB\PDB_USERS01.DBF',
 13  'E:\APP\XIFENFEI\ORADATA\CDB\PDB\SYSAUX01.DBF',
 14  'E:\APP\XIFENFEI\ORADATA\CDB\PDB\SYSTEM01.DBF',
 15  'E:\APP\XIFENFEI\ORADATA\CDB\UNDOTBS01.DBF',
 16  'E:\APP\XIFENFEI\ORADATA\CDB\PDBSEED\SYSAUX01.DBF',
 17  'E:\APP\XIFENFEI\ORADATA\CDB\SYSAUX01.DBF',
 18  'E:\APP\XIFENFEI\ORADATA\CDB\PDBSEED\SYSTEM01.DBF',
 19  'E:\APP\XIFENFEI\ORADATA\CDB\SYSTEM01.DBF',
 20  'E:\APP\XIFENFEI\ORADATA\CDB\USERS01.DBF'
 21  CHARACTER SET ZHS16GBK
 22  ;

控制文件已创建。

idle> recover database;
完成介质恢复。
idle> alter database open;

数据库已更改。

idle> show pdbs;

    CON_ID CON_NAME                       OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
         2 PDB$SEED                       READ ONLY  NO
         3 PDB                            MOUNTED
idle> select name from v$datafile;

NAME
--------------------------------------------------------------------------------
E:\APP\XIFENFEI\ORADATA\CDB\SYSTEM01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDBSEED\SYSTEM01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\SYSAUX01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDBSEED\SYSAUX01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\USERS01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDB\SYSTEM01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDB\SYSAUX01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\PDB\PDB_USERS01.DBF
E:\APP\XIFENFEI\ORADATA\CDB\UNDOTBS01.DBF

已选择 9 行。

CDB_CDB$ROOT@SYS> alter session set container=pdb;

Session altered.

CDB_CDB$ROOT@SYS> alter database open;

Database altered.

数据库在mount状态重建控制文件请参考:重建控制文件

解决imp导入数据报IMP-00098错误

Posted on 2014 年 03 月 16 日 by 惜分飞

晚上十点多，准备睡觉了，一个朋友在qq上找到我,说他们数据库imp异常,希望我帮忙看看
大概情况
使用exp/imp升级并迁移数据库从win 10.2.0.1 升级到linux 11.2.0.3 由于硬盘空间不够，使用exp把win上面数据导出来，格式化掉win的数据文件所在硬盘格式化并加入到linux系统中(也就是说，故障之时，只有dmp文件，没有了数据文件）,因为原库没有了,dmp又报错,所以担心了起来.
imp报错信息

Connected to: Oracle Database 11g Enterprise Edition Release 11.2.0.3.0 - 64bit Production
With the Partitioning, Real Application Clusters, Automatic Storage Management, OLAP,
Data Mining and Real Application Tes

Export file created by EXPORT:V10.02.01 via conventional path
import done in ZHS16GBK character set and AL16UTF16 NCHAR character set
export client uses US7ASCII character set (possible charset conversion)
. . importing table                "ART_T_ARCTYPE"          0 rows imported
. . importing table                "ART_T_ARTICLE"          0 rows imported
……
. . importing table            "EVT_T_ACCEPT_CODE"          1 rows imported
. . importing table            "EVT_T_ACCEPT_FLOW"
 illegal lob length marker 51166 
 bytesread = 00000000000 
 TABLE =EVT_T_ACCEPT_FLOW   EVT_T_ACCEPT_FLOW
IMP-00098: INTERNAL ERROR: impgst2
IMP-00028: partial import of previous table rolled back: 680071 rows rolled back
IMP-00008: unrecognized statement in the export file: 
  ??????????????????
IMP-00008: unrecognized statement in the export file: 
  .:
IMP-00008: unrecognized statement in the export file: 
  $;
IMP-00008: unrecognized statement in the export file: 
  ||$
…………

这里可以知道数据库exp的客户端是版本是10.2.0.1,使用编码是US7ASCII,但是导入的库编码是ZHS16GBK

exp日志信息

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
Export done in US7ASCII character set and AL16UTF16 NCHAR character set
server uses ZHS16GBK character set (possible charset conversion)

EXP-00091: Exporting questionable statistics.
. . exporting table              EVT_T_ACCEPT_FLOW    3470071 rows exported
. . exporting table             EVT_T_ACCEPT_FLOW1    2707606 rows exported
……
. exporting post-schema procedural objects and actions
. exporting statistics
Export terminated successfully with warnings.

这里我们可以知道数据库编码是ZHS16GBK,exp客户端编码为US7ASCII,因此到导出过程中发生了一次由ZHS16GBK到US7ASCII的编码转换

检查新库发现,其db编码为ZHS16GBK,新库的NLS设置为:nls_lang=AMERICAN_AMERICA.ZHS16GBK
整个导出流程是:db编码为ZHS16GBK的数据库被客户端编码为US7ASCII的exp导出,然后被编码为ZHS16GBK的imp导入到db编码为ZHS16GBK的数据库中

故障可能性定位
1.可能在从ZHS16GBK到US7ASCII的编码转换中发生数据异常,也就是说dmp文件本身异常(我们最不希望出现的结果)
2.由于数据库导出过场会发生编码转换(ZHS16GBK->US7ASCII),而导入过程未发生编码转换(ZHS16GBK->ZHS16GBK),从而出现异常

分析并解决
1. 使用dul扫描dmp文件发现汉字都能够识别,而且exp成功的记录条数在dul扫描中都完全正常恢复出来,证明dmp文件是正常的
2. 基于dmp文件正常,编码转换的过程,得出结论在该库的imp过程中设置nls_lang=AMERICAN_AMERICA.US7ASCII问题应该就可以正常解决.果不其然,设置了NLS_LANG之后imp导入数据OK

得出结论
1. 做升级,迁移尽快保留多一份数据,这次吓得不轻
2. exp/imp最好前后客户端编码一致,否则可能被转换晕

含is null sql语句优化

Posted on 2014 年 03 月 14 日 by 惜分飞

原sql语句与执行计划

SQL> set autot trace
SQL> WITH AL AS (SELECT * FROM XIFENFEI_LOG WHERE CLEAR_TIME IS NULL) 
   2 SELECT SWP.ID SWP_ID, AL.* FROM AL FULL OUTER JOIN XIFENFEI_LOG_SWAP SWP ON SWP.ID = AL.ID;

54 rows selected.


Execution Plan
----------------------------------------------------------
Plan hash value: 888046630

----------------------------------------------------------------------------------------------------------
| Id  | Operation                  | Name                        | Rows  | Bytes | Cost (%CPU)| Time     |
----------------------------------------------------------------------------------------------------------
|   0 | SELECT STATEMENT           |                             |    24 | 11064 | 24658   (2)| 00:04:56 |
|   1 |  TEMP TABLE TRANSFORMATION |                             |       |       |            |     |
|   2 |   LOAD AS SELECT           |                             |       |       |            |     |
|*  3 |    TABLE ACCESS FULL       | XIFENFEI_LOG                |    23 |  2576 | 24652   (2)| 00:04:56 |
|   4 |   VIEW                     |                             |    24 | 11064 |     6  (17)| 00:00:01 |
|   5 |    UNION-ALL               |                             |       |       |            |     |
|   6 |     NESTED LOOPS OUTER     |                             |    23 | 10465 |     2   (0)| 00:00:01 |
|   7 |      VIEW                  |                             |    23 | 10304 |     2   (0)| 00:00:01 |
|   8 |       TABLE ACCESS FULL    | SYS_TEMP_0FD9D6605_51B4E691 |    23 |  2576 |     2   (0)| 00:00:01 |
|*  9 |      INDEX UNIQUE SCAN     | XIFENFEI_LOG_SWP_PK         |     1 |     7 |     0   (0)| 00:00:01 |
|* 10 |     HASH JOIN ANTI         |                             |     1 |    20 |     4  (25)| 00:00:01 |
|  11 |      INDEX FULL SCAN       | XIFENFEI_LOG_SWP_PK         |    20 |   140 |     1   (0)| 00:00:01 |
|  12 |      VIEW                  |                             |    23 |   299 |     2   (0)| 00:00:01 |
|  13 |       TABLE ACCESS FULL    | SYS_TEMP_0FD9D6605_51B4E691 |    23 |  2576 |     2   (0)| 00:00:01 |
----------------------------------------------------------------------------------------------------------


Predicate Information (identified by operation id):
---------------------------------------------------

   3 - filter("CLEAR_TIME" IS NULL)
   9 - access("SWP"."ID"(+)="AL"."ID")
  10 - access("SWP"."ID"="AL"."ID")


Statistics
----------------------------------------------------------
          2  recursive calls
          8  db block gets
     111504  consistent gets
          1  physical reads
        692  redo size
       8075  bytes sent via SQL*Net to client
        502  bytes received via SQL*Net from client
          5  SQL*Net roundtrips to/from client
          0  sorts (memory)
          0  sorts (disk)
         54  rows processed

这里很明显占用资源多，执行时间长的都在XIFENFEI_LOG表的全表扫描上,而该表的where 条件是CLEAR_TIME is null.

分析CLEAR_TIME 列null值的分布

SQL> SELECT count(*) FROM XIFENFEI_LOG WHERE CLEAR_TIME IS NULL;

  COUNT(*)
----------
        48

SQL> SELECT count(*) FROM XIFENFEI_LOG WHERE CLEAR_TIME IS not NULL;

  COUNT(*)
----------
   6899211

通过这里分析可以知道,CLEAR_TIME is null的值非常少,如果能够创建一个index,取到CLEAR_TIME 列null的值,那效率将非常搞.但是有oracle index知识的人都知道,B树index是不包含null列,因此一般性index无法满足该需求.这里思考创建含常数的复合index,而且把CLEAR_TIME放在前面,因为后面的常数一定存在,因此CLEAR_TIME中含有null的记录也就包含在该复合index中.

创建含常数复合index

SQL> create index ind_XIFENFEI_LOG_null on XIFENFEI_LOG (CLEAR_TIME,0) online;

Index created.

再次查看执行计划

SQL> WITH AL AS (SELECT * FROM XIFENFEI_LOG WHERE CLEAR_TIME IS NULL) 
  2  SELECT SWP.ID SWP_ID, AL.* FROM AL FULL OUTER JOIN XIFENFEI_LOG_SWAP SWP ON SWP.ID = AL.ID;

50 rows selected.


Execution Plan
----------------------------------------------------------
Plan hash value: 2359331571

-------------------------------------------------------------------------------------------------------------
| Id  | Operation                     | Name                        | Rows  | Bytes | Cost (%CPU)| Time     |
-------------------------------------------------------------------------------------------------------------
|   0 | SELECT STATEMENT              |                             |    24 | 11064 |    25   (4)| 00:00:01 |
|   1 |  TEMP TABLE TRANSFORMATION    |                             |       |       |            |          |
|   2 |   LOAD AS SELECT              |                             |       |       |            |          |
|   3 |    TABLE ACCESS BY INDEX ROWID| XIFENFEI_LOG                |    23 |  2576 |    19   (0)| 00:00:01 |
|*  4 |     INDEX RANGE SCAN          | IND_XIFENFEI_LOG_NULL       |    23 |       |     3   (0)| 00:00:01 |
|   5 |   VIEW                        |                             |    24 | 11064 |     6  (17)| 00:00:01 |
|   6 |    UNION-ALL                  |                             |       |       |            |          |
|   7 |     NESTED LOOPS OUTER        |                             |    23 | 10465 |     2   (0)| 00:00:01 |
|   8 |      VIEW                     |                             |    23 | 10304 |     2   (0)| 00:00:01 |
|   9 |       TABLE ACCESS FULL       | SYS_TEMP_0FD9D660D_51B4E691 |    23 |  2576 |     2   (0)| 00:00:01 |
|* 10 |      INDEX UNIQUE SCAN        | XIFENFEI_LOG_SWP_PK         |     1 |     7 |     0   (0)| 00:00:01 |
|* 11 |     HASH JOIN ANTI            |                             |     1 |    20 |     4  (25)| 00:00:01 |
|  12 |      INDEX FULL SCAN          | XIFENFEI_LOG_SWP_PK         |    20 |   140 |     1   (0)| 00:00:01 |
|  13 |      VIEW                     |                             |    23 |   299 |     2   (0)| 00:00:01 |
|  14 |       TABLE ACCESS FULL       | SYS_TEMP_0FD9D660D_51B4E691 |    23 |  2576 |     2   (0)| 00:00:01 |
-------------------------------------------------------------------------------------------------------------

Predicate Information (identified by operation id):
---------------------------------------------------

   4 - access("CLEAR_TIME" IS NULL)
  10 - access("SWP"."ID"(+)="AL"."ID")
  11 - access("SWP"."ID"="AL"."ID")


Statistics
----------------------------------------------------------
          2  recursive calls
          8  db block gets
         33  consistent gets
          1  physical reads
        648  redo size
       7688  bytes sent via SQL*Net to client
        502  bytes received via SQL*Net from client
          5  SQL*Net roundtrips to/from client
          0  sorts (memory)
          0  sorts (disk)
         50  rows processed

这里可以发现,该sql使用了创建的含常数的复合index,sql执行时间从4分56秒,提高到现在的1秒钟,逻辑读从当初的111504减小到现在的33,巧用含常数的复合索引使得sql执行效率极大提高.