Oracle ORA_ROWSCN 伪列 说明

一. 官网对该伪列的说明

From:11gR2

http://download.oracle.com/docs/cd/E11882_01/server.112/e17118/pseudocolumns007.htm#SQLRF50953

 

       Foreach row, ORA_ROWSCN returns the conservative upper bound system change number(SCN) of the most recent change to the row in the current session. Thispseudocolumn is useful for determining approximately when a row was lastupdated.

       Itis not absolutely precise, because Oracle tracks SCNs by transaction committedfor the block in which the row resides. You can obtain a more fine-grainedapproximation of the SCN by creating your tables with row-level dependencytracking. Refer to CREATE TABLE ... NOROWDEPENDENCIES| ROWDEPENDENCIES for more information on row-level dependency tracking.

 

       ROWDEPENDENCIESSpecify ROWDEPENDENCIES if you want to enable row-level dependency tracking.This setting is useful primarily to allow for parallel propagation inreplication environments. It increases the size of each row by 6 bytes.

       NOROWDEPENDENCIESSpecify NOROWDEPENDENCIES if you do not want table to use the row-leveldependency tracking feature. This is the default.

 

       也就是说,使用表的默认创建参数,即norowdependencies时,此时的ora_rawscn 取自data block header的SCN,那么这时候,对于同一个block里的row而言,他们的ora_rowscn 是一样的。

       而在创建table时指定为rowdependencies时,那么会为每行row 保存一个ora_rowscn. 这样对于同一个block里的row,会有多个ora_rowscn 值。通过dump block,可以发现每个row 会多出一个dscn的信息,该信息就是用来保存ora_rowscn的。  

 

如:

tab 0, row 1, @0×1f88
tl: 12 fb: –H-FL– lb: 0×2 cc: 1
dscn 0×0000.00000000

 

tab 0, row 1, @0×1f88
tl: 12 fb: –H-FL– lb: 0×0 cc: 1
dscn 0×0005.105a6cc1

 

       这是同一个row的dump 信息,第一次dscn 为0. 此时信息是从itl的Scn/Fsc中获得的,当itl发生cleanout时会把Scn/Fsc刷到dscn,就是上面的第二段信息。具体这块后面会实验证明。

 

关于block dump 和 itl 说明,参考:

       Oracle datafile block 格式 说明

       http://blog.csdn.net/xujinyang/article/details/6823021

 

       Orace ITL(InterestedTransaction List) 说明

       http://blog.csdn.net/xujinyang/article/details/6823264

 

       You cannot use this pseudocolumn in a query to a view.However, you can use it to refer to the underlying table when creating a view.You can also use this pseudocolumn in the WHERE clause of an UPDATE or DELETEstatement.

--不能在视图使用ora_rowscn伪列

 

       ORA_ROWSCN is not supported for Flashback Query.Instead, use the version query pseudocolumns, which are provided explicitly forFlashback Query. Refer to the SELECT ... flashback_query_clausefor information on Flashback Query and "VersionQuery Pseudocolumns" for additional information on thosepseudocolumns.

--ora_rowscn 不支持Flashbackquery。

 

       Restriction on ORA_ROWSCN: This pseudocolumn is notsupported for external tables.

--ora_rowscn 不支持外部表

 

Example:

       Thefirst statement below uses the ORA_ROWSCN pseudocolumn to get the system changenumber of the last operation on the employees table.

 

SELECT ORA_ROWSCN, last_name

 FROM employees

 WHERE employee_id = 188;

--使用ORA_ROWSCN获取该row 最后一次更新时的SCN

 

The second statement uses the pseudocolumnwith the SCN_TO_TIMESTAMP function to determine the timestamp of the operation:

 

SELECTSCN_TO_TIMESTAMP(ORA_ROWSCN), last_name

 FROM employees

 WHERE employee_id = 188;

--使用SCN_TO_TIMESTAMP 和 ORA_ROWSCN,获取最后一次修改row的时间

 

二. ORA_ROWSCN 说明

       ORA_ROWSCN伪列是Oracle10g引入的,可以查询表中记录最后变更的SCN。这个新的伪列在某些环境下会非常有用,比如执行乐观锁定,或者增量数据抽取的时候。但是,默认情况下,每行记录的ORA_ROWSCN是基于Block的,除非在建表的时候执行开启行级跟踪(createtable … rowdependencies)。

 

2.1 乐观锁和ORA_ROWSCN


       需要select ... for update做悲观锁定的时候,通过使用ORA_ROWSCN可以改成乐观锁定。一开始select数据的时候将ORA_ROWSCN查出来,修改后如果要写回数据库之前再比对下最新的ORA_ROWSCN就可以知道这期间数据是否有发生变化。

 

2.2 增量数据抽取和ORA_ROWSCN

       每次抽取后记录最大的ORA_ROWSCN,下次抽取再基于上一次的SCN来获得最近修改过的数据即可。在10g之前,很多系统要实现增量数据抽取,要么通过解析日志,要么加触发器,要么就在表上加一个时间截字段。

       ORA_ROWSCN其实就是第三种方式,只是这个字段由Oracle来维护,这样可以避免一些应用绕过时间截去更新其他字段带来的问题。不过,如果系统中使用了逻辑备库或者streams等逻辑复制的方案,而数据抽取又是基于逻辑备库的话,ORA_ROWSCN就可能对抽取后的数据分析有影响了,因为通过这个得到的时间是逻辑备库上记录变更的时间,而不是源库的时间了。

       当然,如果纯粹只是做数据抽取,而不需要使用这个时间来做分析,还是问题不大的,但还是要考虑一旦逻辑备库出现故障需要重做的,则这个增量抽取要怎么来处理的问题。

 

三. 测试

3.1 基本测试

SYS@anqing2(rac2)> create table rowscn1(idnumber,name varchar2(20));

Table created.

SYS@anqing2(rac2)> insert into rowscn1values(1,'dave');

1 row created.

SYS@anqing2(rac2)> insert into rowscn1values(1,'dave');

1 row created.

SYS@anqing2(rac2)> commit;

Commit complete.

SYS@anqing2(rac2)> SELECT

 2 dbms_rowid.rowid_relative_fno(rowid) REL_FNO,

 3 dbms_rowid.rowid_block_number(rowid) BLOCKNO,

dbms_rowid.rowid_row_number(rowid) ROWNO,

id,name from rowscn1;  4   5 

 

  REL_FNO    BLOCKNO      ROWNO         ID NAME

---------- ---------- ---------- ------------------------------

        1     305890          0          1 dave

        1     305890          1          1 dave

 

SYS@anqing2(rac2)> select ora_rowscn,idfrom rowscn1;

 

ORA_ROWSCN         ID

---------- ----------

  7233799          1

  7233799          1

 

       在默认情况下,使用的是block header的SCN,所以这时候,如果我们就该该表的信息,block header 的scn 发生改变,那么对应block上所有的ora_rowscn 也会发生改变。

 

SYS@anqing2(rac2)> insert into rowscn1values(2,'anqing');

1 row created.

SYS@anqing2(rac2)> commit;

Commit complete.

SYS@anqing2(rac2)>  select ora_rowscn,id from rowscn1;

ORA_ROWSCN         ID

---------- ----------

  7233940          1

  7233940          1

  7233940          2

 

这个和我们上面的理论一致。

 

3.2  rowdependencies/norowdependencies 与ora_rowscn测试

 

SYS@anqing2(rac2)> create tablerowscn2(id number,name varchar2(20)) rowdependencies;

Table created.

启动行级别的跟踪。

 

SYS@anqing2(rac2)> insert into rowscn2values(1,'dave');

1 row created.

SYS@anqing2(rac2)> insert into rowscn2values(2,'anqing');

1 row created.

SYS@anqing2(rac2)> commit;

Commit complete.

 

SYS@anqing2(rac2)> SELECT

 2 dbms_rowid.rowid_relative_fno(rowid) REL_FNO,

 3 dbms_rowid.rowid_block_number(rowid) BLOCKNO,

dbms_rowid.rowid_row_number(rowid) ROWNO,

id,name from rowscn2;

 4    5 

  REL_FNO    BLOCKNO      ROWNO         ID NAME

---------- ---------- ---------- ------------------------------

        1     305898          0          1 dave

        1     305898          1          2 anqing

 

SYS@anqing2(rac2)> select ora_rowscn,idfrom rowscn2;

ORA_ROWSCN         ID

---------- ----------

  7234177          1

  7234177          2

 

测试2个ora_rowscn 是一样的。 我们把这个block dump 出来看一下:

 

SYS@anqing2(rac2)> oradebug setmypid

Statement processed.

SYS@anqing2(rac2)> alter system dump datafile 1 block 305898;

System altered.

SYS@anqing2(rac2)> oradebugtracefile_name

/u01/app/oracle/admin/anqing/udump/anqing2_ora_22260.trc

 

[oracle@rac2 ~]$ cat/u01/app/oracle/admin/anqing/udump/anqing2_ora_22260.trc

/u01/app/oracle/admin/anqing/udump/anqing2_ora_22260.trc

Oracle Database 10g Enterprise EditionRelease 10.2.0.4.0 - Production

With the Partitioning, Real ApplicationClusters, OLAP, Data Mining

and Real Application Testing options

ORACLE_HOME =/u01/app/oracle/product/10.2.0/db_1

System name:    Linux

Node name:      rac2

Release:        2.6.18-194.el5

Version:        #1 SMP Tue Mar 16 21:52:43 EDT 2010

Machine:        i686

Instance name: anqing2

Redo thread mounted by this instance: 2

Oracle process number: 20

Unix process pid: 22260, image: oracle@rac2(TNS V1-V3)

 

*** 2011-08-04 00:35:21.673

*** ACTION NAME:() 2011-08-04 00:35:21.673

*** MODULE NAME:(sqlplus@rac2 (TNS V1-V3))2011-08-04 00:35:21.673

*** SERVICE NAME:(SYS$USERS) 2011-08-0400:35:21.673

*** SESSION ID:(148.61626) 2011-08-0400:35:21.673

Start dump data blocks tsn: 0 file#: 1minblk 305898 maxblk 305898

buffer tsn: 0 rdba: 0x0044aaea (1/305898)

scn: 0x0000.006e6281 seq: 0x01 flg: 0x02tail: 0x62810601

frmt: 0x02 chkval: 0x0000 type: 0x06=transdata

Hex dump of block: st=0, typ_found=1

Dump of memory from 0x0EAF6400 to0x0EAF8400

.....

Block header dump:  0x0044aaea

 Object id on Block? Y

 seg/obj: 0xdbdd  csc: 0x00.6e627d  itc: 2 flg: O  typ: 1 - DATA

    fsl: 0  fnx: 0x0 ver: 0x01

 

 Itl          Xid                  Uba         Flag Lck        Scn/Fsc

0x01  0x000e.004.000003cf 0x0140003b.00ce.10  --U-    2  fsc 0x0000.006e6281

0x02  0x0000.000.00000000 0x00000000.0000.00  ----    0  fsc 0x0000.00000000

 

data_block_dump,data header at 0xeaf645c

===============

tsiz: 0x1fa0

hsiz: 0x16

pbl: 0x0eaf645c

bdba: 0x0044aaea

    76543210

flag=--R-----

ntab=1

nrow=2

frre=-1

fsbo=0x16

fseo=0x1f7c

avsp=0x1f66

tosp=0x1f66

0xe:pti[0]      nrow=2 offs=0

0x12:pri[0]     offs=0x1f8f

0x14:pri[1]     offs=0x1f7c

block_row_dump:

tab 0, row 0, @0x1f8f

tl: 17 fb: --H-FL-- lb: 0x1  cc: 2

dscn 0x0000.00000000

col 0: [ 2]  c1 02

col 1: [ 4]  64 61 76 65

tab 0, row 1, @0x1f7c

tl: 19 fb: --H-FL-- lb: 0x1  cc: 2

dscn 0x0000.00000000

col 0: [ 2]  c1 03

col 1: [ 6]  61 6e 71 69 6e 67

end_of_block_dump

End dump data blocks tsn: 0 file#: 1 minblk305898 maxblk 305898

 

       此时测dscn 为0. 在前面讲过, ora_rwscn 是在itl 发生cleanout 时刷到dscn的。 我们在进行一些事务操作查看一下。

 

SYS@anqing2(rac2)> select * fromrowscn2;

       ID NAME

---------- --------------------

        1 dave

        2 anqing

 

SYS@anqing2(rac2)> update rowscn2 setid=3 where id=1;

1 row updated.

SYS@anqing2(rac2)> commit;

Commit complete.

SYS@anqing2(rac2)> update rowscn2 setid=4 where id=2;

1 row updated.

SYS@anqing2(rac2)> commit;

Commit complete.

SYS@anqing2(rac2)> select ora_rowscn,idfrom rowscn2;

ORA_ROWSCN         ID

---------- ----------

  7234500          3

  7234509          4

--测试的ora_rowscn已经发生改变

 

我们dump 看一下:

Itl           Xid                  Uba         Flag Lck        Scn/Fsc

0x01  0x000c.005.0000042a 0x01400101.016d.34  --U-    1 fsc 0x0000.006e63cd

0x02  0x000e.006.000003cb 0x0140003b.00ce.11  --U-    1  fsc0x0000.006e63c4

 

block_row_dump:

tab 0, row 0, @0x1f8f

tl: 17 fb: --H-FL-- lb: 0x2  cc: 2

dscn 0x0000.006e6281

col 0: [ 2]  c1 04

col 1: [ 4]  64 61 76 65

tab 0, row 1, @0x1f7c

tl: 19 fb: --H-FL-- lb: 0x1  cc: 2

dscn 0x0000.006e6281

col 0: [ 2]  c1 05

col 1: [ 6]  61 6e 71 69 6e 67

 

注意这里的dscn 还是一样的,这就是说,我们刚才通过select 查询的结果一个是从dscn出来的,还有一个是从itl里出来的。 我们在进行一些事务操作。

 

SYS@anqing2(rac2)> insert into rowscn2values(1,'huaining');

1 row created.

SYS@anqing2(rac2)> commit;

Commit complete.

SYS@anqing2(rac2)> insert into rowscn2values(2,'dmm');

1 row created.

SYS@anqing2(rac2)> commit;

Commit complete.

SYS@anqing2(rac2)> select ora_rowscn,idfrom rowscn2;

ORA_ROWSCN         ID

---------- ----------

  7234500          3

  7234509          4

  7234673          1

  7234683          2

 

再次dump block:

 

Itl           Xid                  Uba         Flag Lck        Scn/Fsc

0x01  0x000b.02d.000003d4 0x01400042.00c0.16  --U-    1 fsc 0x0000.006e647b

0x02  0x0013.003.000003b4 0x0140008f.00c2.12  --U-    1 fsc 0x0000.006e6471

 

block_row_dump:

tab 0, row 0, @0x1f8f

tl: 17 fb: --H-FL-- lb: 0x0  cc: 2

dscn 0x0000.006e63c4

col 0: [ 2]  c1 04

col 1: [ 4]  64 61 76 65

tab 0, row 1, @0x1f7c

tl: 19 fb: --H-FL-- lb: 0x0  cc: 2

dscn 0x0000.006e63cd

col 0: [ 2]  c1 05

col 1: [ 6]  61 6e 71 69 6e 67

tab 0, row 2, @0x1f67

tl: 21 fb: --H-FL-- lb: 0x2  cc: 2

dscn 0x0000.00000000

col 0: [ 2]  c1 02

col 1: [ 8]  68 75 61 69 6e 69 6e 67

tab 0, row 3, @0x1f57

tl: 16 fb: --H-FL-- lb: 0x1  cc: 2

dscn 0x0000.00000000

col 0: [ 2]  c1 03

col 1: [ 3]  64 6d 6d

end_of_block_dump

 

--测试我们的前两条记录的dscn 值不一样了。

 

 

最后执行一下官网有关时间的一个测试:

 

SYS@anqing2(rac2)> col SCN_TO_TIMESTAMP(ORA_ROWSCN)for a35

SYS@anqing2(rac2)> selectscn_to_timestamp(ora_rowscn),id,name from rowscn2;

 

SCN_TO_TIMESTAMP(ORA_ROWSCN)                ID NAME

--------------------------------------------- --------------------

04-AUG-11 12.39.42.000000000 AM              3 dave

04-AUG-11 12.39.54.000000000 AM              4 anqing

04-AUG-11 12.44.27.000000000 AM              1 huaining

04-AUG-11 12.44.39.000000000 AM              2 dmm

 

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