本站文章除注明转载外,均为本站原创: 转载自love wife love life —Roger 的Oracle技术博客 本文链接地址: 手工提交Cluster Table的事务 前几天培训班中有学生问到,对于cluster table如果去实现手工提交事务,来屏蔽一些错误.他在自己的 环境中遇到了ora-00
本站文章除注明转载外,均为本站原创: 转载自love wife & love life —Roger 的Oracle技术博客
本文链接地址: 手工提交Cluster Table的事务
前几天培训班中有学生问到,对于cluster table如果去实现手工提交事务,来屏蔽一些错误.他在自己的
环境中遇到了ora-00600 4000错误,涉及的对象即为cluster table,下面我这里简单模拟了一下。供参考!
++++创建测试表
SQL> conn roger/roger Connected. SQL> create cluster t_cluster(id number(2)) ; Cluster created. SQL> create table t_0610 2 (id number(2) primary key, 3 name varchar2(13)) 4 cluster t_cluster(id); Table created. SQL> create index t_cluster_idx on cluster t_cluster; Index created. SQL> SQL> insert into t_0610 values(1,'baidu'); 1 row created. SQL> insert into t_0610 values(2,'google'); 1 row created. SQL> insert into t_0610 values(8,'roger'); 1 row created. SQL> commit; Commit complete. SQL> select * from t_0610; ID NAME ---------- ------------- 1 baidu 2 google 8 roger SQL> select dbms_rowid.rowid_relative_fno(rowid) file#,dbms_rowid.rowid_block_number(rowid) blk# 2 from t_0610; FILE# BLK# ---------- ---------- 6 172 6 173 6 174 SQL> oradebug setmypid ORA-01031: insufficient privileges SQL> conn /as sysdba Connected. SQL> oradebug setmypid Statement processed. SQL> alter system flush buffer_cache; System altered. SQL> alter system dump datafile 6 block 172; System altered. SQL> oradebug close_trace Statement processed. SQL> oradebug tracefile_name /oracle/diag/rdbms/roger/roger/trace/roger_ora_16777.trc
++++blockdump内容
Dump of buffer cache at level 4 for tsn=7 rdba=25165996 BH (0x71bf2f28) file#: 6 rdba: 0x018000ac (6/172) class: 1 ba: 0x71ad8000 set: 3 pool: 3 bsz: 8192 bsi: 0 sflg: 2 pwc: 0,15 dbwrid: 0 obj: 77519 objn: 77520 tsn: 7 afn: 6 hint: f hash: [0x8abfa738,0x8abfa738] lru: [0x74ff33a0,0x7abf47d0] lru-flags: on_auxiliary_list ckptq: [NULL] fileq: [NULL] objq: [NULL] objaq: [NULL] st: FREE md: NULL fpin: 'ktspbwh2: ktspfmdb' tch: 0 lfb: 33 flags: Block dump from disk: buffer tsn: 7 rdba: 0x018000ac (6/172) scn: 0x0000.00b941a6 seq: 0x01 flg: 0x06 tail: 0x41a60601 frmt: 0x02 chkval: 0xcb52 type: 0x06=trans data Hex dump of block: st=0, typ_found=1 Dump of memory from 0x00007FADB771EA00 to 0x00007FADB7720A00 7FADB771EA00 0000A206 018000AC 00B941A6 06010000 [.........A......] 7FADB771EA10 0000CB52 00000001 00012ECF 00B94199 [R............A..] 7FADB771EA20 00000000 00320002 018000A8 00080006 [......2.........] 7FADB771EA30 00000515 00C00562 002E014E 00008000 [....b...N.......] 7FADB771EA40 00B94198 001D0007 000004C9 00C03C08 [.A...........<.. ...a...... repeat times block header dump: object id on y seg csc: itc: flg: e typ: data brn: bdba: ver: opc: inc: exflg: itl xid uba flag lck scn c--- fsc data_block_dump at tsiz: hsiz: pbl: ntab="2"> 大于2,说明这是一个cluster table nrow=2 frre=-1 fsbo=0x1a fseo=0x1f78 avsp=0x1f5e tosp=0x1f5e 0xe:pti[0] nrow=1 offs=0 0x12:pti[1] nrow=1 offs=1 0x16:pri[0] offs=0x1f82 0x18:pri[1] offs=0x1f78 block_row_dump: tab 0, row 0, @0x1f82 tl: 22 fb: K-H-FL-- lb: 0x0 cc: 1 curc: 1 comc: 1 pk: 0x018000ac.0 nk: 0x018000ac.0 col 0: [ 2] c1 02 tab 1, row 0, @0x1f78 tl: 10 fb: -CH-FL-- lb: 0x2 cc: 1 cki: 0 col 0: [ 5] 62 61 69 64 75 end_of_block_dump End dump data blocks tsn: 7 file#: 6 minblk 172 maxblk 172</..>
大家可以看到,这跟普通的data block的dump内容是有所差别的,因为这里涉及到cluster table。
下面来模拟下手工提交cluster table的事务。
+++++模拟事务不提交
SQL> alter system checkpoint; System altered. SQL> alter system flush buffer_cache; System altered. SQL> show user USER is "SYS" SQL> conn roger/roger Connected. SQL> delete from t_0610 where id=8; ++++++不提交 1 row deleted. SQL> alter system flush buffer_cache; System altered. SQL> select xidusn,xidslot,xidsqn,ubablk,ubafil,ubarec from v$transaction; XIDUSN XIDSLOT XIDSQN UBABLK UBAFIL UBAREC ---------- ---------- ---------- ---------- ---------- ---------- 3 17 1212 1066 3 20 SQL>
这里我们可以看到对于这个未提交的事务XID为:3.17.1212? 前面我们已经知道
测试表中的数据分布在3个block中,这里我模拟的情况是删除第3条数据,且不提交,通过bbed来实现手工
提交这个未提交事务,注意:第3条数据是在第3个block中,即174 block。
+++++首先修改表的itl等信息
BBED> set file 6 block 174 FILE# 6 BLOCK# 174 BBED> map File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Dba:0x018000ae ------------------------------------------------------------ KTB Data Block (Table/Cluster) struct kcbh, 20 bytes @0 struct ktbbh, 72 bytes @20 struct kdbh, 14 bytes @100 struct kdbt[2], 8 bytes @114 sb2 kdbr[2] @122 ub1 freespace[8030] @126 ub1 rowdata[32] @8156 ub4 tailchk @8188 BBED> p kdbr sb2 kdbr[0] @122 8066 sb2 kdbr[1] @124 8056 BBED> p ktbbh struct ktbbh, 72 bytes @20 ub1 ktbbhtyp @20 0x01 (KDDBTDATA) union ktbbhsid, 4 bytes @24 ub4 ktbbhsg1 @24 0x00012ecf ub4 ktbbhod1 @24 0x00012ecf struct ktbbhcsc, 8 bytes @28 ub4 kscnbas @28 0x00b94309 ub2 kscnwrp @32 0x0000 sb2 ktbbhict @36 2 ub1 ktbbhflg @38 0x32 (NONE) ub1 ktbbhfsl @39 0x00 ub4 ktbbhfnx @40 0x018000a8 struct ktbbhitl[0], 24 bytes @44 struct ktbitxid, 8 bytes @44 ub2 kxidusn @44 0x0009 ub2 kxidslt @46 0x0002 ub4 kxidsqn @48 0x0000044c struct ktbituba, 8 bytes @52 ub4 kubadba @52 0x00c000f9 ub2 kubaseq @56 0x014a ub1 kubarec @58 0x1d ub2 ktbitflg @60 0x8000 (KTBFCOM) union _ktbitun, 2 bytes @62 sb2 _ktbitfsc @62 0 ub2 _ktbitwrp @62 0x0000 ub4 ktbitbas @64 0x00b941a4 struct ktbbhitl[1], 24 bytes @68 struct ktbitxid, 8 bytes @68 ub2 kxidusn @68 0x0003 ub2 kxidslt @70 0x0011 ub4 kxidsqn @72 0x000004bc struct ktbituba, 8 bytes @76 ub4 kubadba @76 0x00c0042a ub2 kubaseq @80 0x0185 ub1 kubarec @82 0x13 ub2 ktbitflg @84 0x0001 (NONE) union _ktbitun, 2 bytes @86 sb2 _ktbitfsc @86 6 ub2 _ktbitwrp @86 0x0006 ub4 ktbitbas @88 0x00000000 BBED> modify /x 0180 Warning: contents of previous BIFILE will be lost. Proceed? (Y/N) y File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 84 to 87 Dba:0x018000ae ------------------------------------------------------------------------ 01800600 BBED> modify /x 00 offset 86 File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 86 to 87 Dba:0x018000ae ------------------------------------------------------------------------ 0000 BBED> sum apply Check value for File 6, Block 174: current = 0x055c, required = 0x055c BBED> verify DBVERIFY - Verification starting FILE = /oracle/oradata/roger/roger01.dbf BLOCK = 174 Block Checking: DBA = 25165998, Block Type = KTB-managed data block data header at 0x7f88d49c1264 kdbchk: row locked by non-existent transaction table=1 slot=0 lockid=2 ktbbhitc=2 Block 174 failed with check code 6101 BBED> p *kdbr[1] rowdata[0] ---------- ub1 rowdata[0] @8156 0x7c BBED> x /rnnnnccccccnnnnnnnnnnn rowdata[0] @8156 ---------- flag@8156: 0x7c (KDRHFL, KDRHFF, KDRHFD, KDRHFH, KDRHFC) lock@8157: 0x02 cols@8158: 0 BBED> modify /x 6c offset 8156 File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 8156 to 8159 Dba:0x018000ae ------------------------------------------------------------------------ 6c020100 BBED> sum apply Check value for File 6, Block 174: current = 0x054c, required = 0x054c BBED> verify DBVERIFY - Verification starting FILE = /oracle/oradata/roger/roger01.dbf BLOCK = 174 Block Checking: DBA = 25165998, Block Type = KTB-managed data block data header at 0x1112864 kdbchk: row locked by non-existent transaction table=1 slot=0 lockid=2 ktbbhitc=2 Block 174 failed with check code 6101 DBVERIFY - Verification complete Total Blocks Examined : 1 Total Blocks Processed (Data) : 1 Total Blocks Failing (Data) : 1 Total Blocks Processed (Index): 0 Total Blocks Failing (Index): 0 Total Blocks Empty : 0 Total Blocks Marked Corrupt : 0 Total Blocks Influx : 0 Message 531 not found; product=RDBMS; facility=BBED BBED> p kdbh struct kdbh, 14 bytes @100 ub1 kdbhflag @100 0x01 (KDBHFFK) sb1 kdbhntab @101 2 sb2 kdbhnrow @102 2 sb2 kdbhfrre @104 -1 sb2 kdbhfsbo @106 26 sb2 kdbhfseo @108 8056 sb2 kdbhavsp @110 8030 sb2 kdbhtosp @112 8040 BBED> d /v offset 102 count 4 File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 102 to 105 Dba:0x018000ae ------------------------------------------------------- 0200ffff l .... BBED> modify /x 01 offset 102 File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 102 to 105 Dba:0x018000ae ------------------------------------------------------------------------ 0100ffff BBED> sum apply Check value for File 6, Block 174: current = 0x054f, required = 0x054f BBED> verify DBVERIFY - Verification starting FILE = /oracle/oradata/roger/roger01.dbf BLOCK = 174 Block Checking: DBA = 25165998, Block Type = KTB-managed data block data header at 0x1112864 kdbchk: fsbo(26) wrong, (hsz 24) Block 174 failed with check code 6129 DBVERIFY - Verification complete Total Blocks Examined : 1 Total Blocks Processed (Data) : 1 Total Blocks Failing (Data) : 1 Total Blocks Processed (Index): 0 Total Blocks Failing (Index): 0 Total Blocks Empty : 0 Total Blocks Marked Corrupt : 0 Total Blocks Influx : 0 Message 531 not found; product=RDBMS; facility=BBED BBED> d /v offset 106 File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 106 to 109 Dba:0x018000ae ------------------------------------------------------- 1a00781f l ..x. BBED> modify /x 18 offset 106 File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 106 to 109 Dba:0x018000ae ------------------------------------------------------------------------ 1800781f BBED> sum apply Check value for File 6, Block 174: current = 0x054d, required = 0x054d BBED> verify DBVERIFY - Verification starting FILE = /oracle/oradata/roger/roger01.dbf BLOCK = 174 Block Checking: DBA = 25165998, Block Type = KTB-managed data block data header at 0x1112864 kdbchk: row count in table index incorrect Block 174 failed with check code 6125 DBVERIFY - Verification complete Total Blocks Examined : 1 Total Blocks Processed (Data) : 1 Total Blocks Failing (Data) : 1 Total Blocks Processed (Index): 0 Total Blocks Failing (Index): 0 Total Blocks Empty : 0 Total Blocks Marked Corrupt : 0 Total Blocks Influx : 0 Message 531 not found; product=RDBMS; facility=BBED BBED> p kdbt struct kdbt[0], 4 bytes @114 sb2 kdbtoffs @114 0 sb2 kdbtnrow @116 1 struct kdbt[1], 4 bytes @118 sb2 kdbtoffs @118 1 sb2 kdbtnrow @120 1 BBED> p kdbt[1] struct kdbt[1], 4 bytes @118 sb2 kdbtoffs @118 1 sb2 kdbtnrow @120 1 BBED> d /v offset 118 count 4 File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 118 to 121 Dba:0x018000ae ------------------------------------------------------- 01000100 l .... BBED> modify /x 000000 offset 118 File: /oracle/oradata/roger/roger01.dbf (6) Block: 174 Offsets: 118 to 121 Dba:0x018000ae ------------------------------------------------------------------------ 00000000 BBED> sum apply Check value for File 6, Block 174: current = 0x054d, required = 0x054d BBED> verify DBVERIFY - Verification starting FILE = /oracle/oradata/roger/roger01.dbf BLOCK = 174 Block Checking: DBA = 25165998, Block Type = KTB-managed data block data header at 0x1112864 kdbchk: table index offset incorrect tab 1 Block 174 failed with check code 6124 DBVERIFY - Verification complete Total Blocks Examined : 1 Total Blocks Processed (Data) : 1 Total Blocks Failing (Data) : 1 Total Blocks Processed (Index): 0 Total Blocks Failing (Index): 0 Total Blocks Empty : 0 Total Blocks Marked Corrupt : 0 Total Blocks Influx : 0 Message 531 not found; product=RDBMS; facility=BBED
我们可以看到,无论怎么修改,这个block通过bbed进行检测都报错,这里不是因为修改的不对,而是因为
还需要修改cluster 上的Index信息。通过treedump 我们可以确认index block为file 6 block 187.
+++++ dump Index block
SQL> oradebug setmypid Statement processed. SQL> alter system dump datafile 6 block 187; System altered. SQL> oradebug close_trace Statement processed. SQL> oradebug tracefile_name /oracle/diag/rdbms/roger/roger/trace/roger_ora_17394.trc SQL>
+++++ dump 内容如下
Block header dump: 0x018000bb Object id on Block? Y seg/obj: 0x12ed2 csc: 0x00.b941a3 itc: 2 flg: E typ: 2 - INDEX brn: 0 bdba: 0x18000b8 ver: 0x01 opc: 0 inc: 0 exflg: 0 Itl Xid Uba Flag Lck Scn/Fsc 0x01 0x0000.000.00000000 0x00000000.0000.00 ---- 0 fsc 0x0000.00000000 0x02 0x0009.002.0000044c 0x00c000f9.014a.1e --U- 1 fsc 0x0000.00b941a4 Leaf block dump =============== header address 140553058142820=0x7fd50f1a4a64 kdxcolev 0 KDXCOLEV Flags = - - - kdxcolok 0 kdxcoopc 0x80: opcode=0: iot flags=--- is converted=Y kdxconco 1 kdxcosdc 0 kdxconro 3 kdxcofbo 42=0x2a kdxcofeo 7993=0x1f39 kdxcoavs 7951 kdxlespl 0 kdxlende 0 kdxlenxt 0=0x0 kdxleprv 0=0x0 kdxledsz 8 kdxlebksz 8032 row#0[8019] flag: ------, lock: 0, len=13, data:(8): 01 80 00 ac 00 00 01 00 col 0; len 2; (2): c1 02 row#1[8006] flag: ------, lock: 0, len=13, data:(8): 01 80 00 ad 00 00 01 00 col 0; len 2; (2): c1 03 row#2[7993] flag: ------, lock: 2, len=13, data:(8): 01 80 00 ae 00 00 01 00 col 0; len 2; (2): c1 09 ----- end of leaf block dump -----
可以看到,该index block中还存在3个index entry信息,我们需要将第3条信息给删掉,首先计算一下offset:
SQL> select 7993+76+24 from dual; 7993+76+24 ---------- 8093
+++++利用bbed修改 index block
BBED> set file 6 block 187 FILE# 6 BLOCK# 187 BBED> map File: /oracle/oradata/roger/roger01.dbf (6) Block: 187 Dba:0x018000bb ------------------------------------------------------------ KTB Data Block (Index Leaf) struct kcbh, 20 bytes @0 struct ktbbh, 72 bytes @20 struct kdxle, 32 bytes @100 sb2 kd_off[3] @132 ub1 freespace[7951] @138 ub1 rowdata[39] @8089 ub4 tailchk @8188 BBED> set offset 8093 OFFSET 8093 BBED> x /rn rowdata[4] @8093 ---------- flag@8093: 0x00 (NONE) lock@8094: 0x02 keydata[8]: 0x01 0x80 0x00 0xae 0x00 0x00 0x01 0x00 data key: col 0[2] @8104: 8 BBED> map File: /oracle/oradata/roger/roger01.dbf (6) Block: 187 Dba:0x018000bb ------------------------------------------------------------ KTB Data Block (Index Leaf) struct kcbh, 20 bytes @0 struct ktbbh, 72 bytes @20 struct kdxle, 32 bytes @100 sb2 kd_off[3] @132 ub1 freespace[7951] @138 ub1 rowdata[39] @8089 ub4 tailchk @8188 BBED> p kdxle struct kdxle, 32 bytes @100 struct kdxlexco, 16 bytes @100 ub1 kdxcolev @100 0x00 ub1 kdxcolok @101 0x00 ub1 kdxcoopc @102 0x80 ub1 kdxconco @103 0x01 ub4 kdxcosdc @104 0x00000000 sb2 kdxconro @108 3 sb2 kdxcofbo @110 42 sb2 kdxcofeo @112 7993 sb2 kdxcoavs @114 7951 sb2 kdxlespl @116 0 sb2 kdxlende @118 0 ub4 kdxlenxt @120 0x00000000 ub4 kdxleprv @124 0x00000000 ub1 kdxledsz @128 0x08 ub1 kdxleflg @129 0x00 (NONE) BBED> d /v offset 118 count 2 File: /oracle/oradata/roger/roger01.dbf (6) Block: 187 Offsets: 118 to 119 Dba:0x018000bb ------------------------------------------------------- 0000 l .. BBED> modify /x 01 offset 118 File: /oracle/oradata/roger/roger01.dbf (6) Block: 187 Offsets: 118 to 119 Dba:0x018000bb ------------------------------------------------------------------------ 0100 BBED> sum apply Check value for File 6, Block 187: current = 0x4faa, required = 0x4faa BBED> verify DBVERIFY - Verification starting FILE = /oracle/oradata/roger/roger01.dbf BLOCK = 187 Block Checking: DBA = 25166011, Block Type = KTB-managed data block **** actual rows marked deleted = 0 != kdxlende = 1 ---- end index block validation Block 187 failed with check code 6401 DBVERIFY - Verification complete Total Blocks Examined : 1 Total Blocks Processed (Data) : 0 Total Blocks Failing (Data) : 0 Total Blocks Processed (Index): 1 Total Blocks Failing (Index): 1 Total Blocks Empty : 0 Total Blocks Marked Corrupt : 0 Total Blocks Influx : 0 Message 531 not found; product=RDBMS; facility=BBED BBED> set offset 8093 OFFSET 8093 BBED> x /rn rowdata[4] @8093 ---------- flag@8093: 0x00 (NONE) lock@8094: 0x02 keydata[8]: 0x01 0x80 0x00 0xae 0x00 0x00 0x01 0x00 data key: col 0[2] @8104: 8 BBED> modify /x 01 offset 8093 File: /oracle/oradata/roger/roger01.dbf (6) Block: 187 Offsets: 8093 to 8094 Dba:0x018000bb ------------------------------------------------------------------------ 0102 BBED> sum apply Check value for File 6, Block 187: current = 0x4eaa, required = 0x4eaa BBED> verify DBVERIFY - Verification starting FILE = /oracle/oradata/roger/roger01.dbf BLOCK = 187 Block Checking: DBA = 25166011, Block Type = KTB-managed data block **** actual free space credit for itl 2 = 15 != # in trans. hdr = 0 ---- end index block validation Block 187 failed with check code 6401 DBVERIFY - Verification complete Total Blocks Examined : 1 Total Blocks Processed (Data) : 0 Total Blocks Failing (Data) : 0 Total Blocks Processed (Index): 1 Total Blocks Failing (Index): 1 Total Blocks Empty : 0 Total Blocks Marked Corrupt : 0 Total Blocks Influx : 0 Message 531 not found; product=RDBMS; facility=BBED BBED> map File: /oracle/oradata/roger/roger01.dbf (6) Block: 187 Dba:0x018000bb ------------------------------------------------------------ KTB Data Block (Index Leaf) struct kcbh, 20 bytes @0 struct ktbbh, 72 bytes @20 struct kdxle, 32 bytes @100 sb2 kd_off[3] @132 ub1 freespace[7951] @138 ub1 rowdata[39] @8089 ub4 tailchk @8188 BBED> p ktbbh struct ktbbh, 72 bytes @20 ub1 ktbbhtyp @20 0x02 (KDDBTINDEX) union ktbbhsid, 4 bytes @24 ub4 ktbbhsg1 @24 0x00012ed2 ub4 ktbbhod1 @24 0x00012ed2 struct ktbbhcsc, 8 bytes @28 ub4 kscnbas @28 0x00b941a3 ub2 kscnwrp @32 0x0000 sb2 ktbbhict @36 2 ub1 ktbbhflg @38 0x32 (NONE) ub1 ktbbhfsl @39 0x00 ub4 ktbbhfnx @40 0x018000b8 struct ktbbhitl[0], 24 bytes @44 struct ktbitxid, 8 bytes @44 ub2 kxidusn @44 0x0000 ub2 kxidslt @46 0x0000 ub4 kxidsqn @48 0x00000000 struct ktbituba, 8 bytes @52 ub4 kubadba @52 0x00000000 ub2 kubaseq @56 0x0000 ub1 kubarec @58 0x00 ub2 ktbitflg @60 0x0000 (NONE) union _ktbitun, 2 bytes @62 sb2 _ktbitfsc @62 0 ub2 _ktbitwrp @62 0x0000 ub4 ktbitbas @64 0x00000000 struct ktbbhitl[1], 24 bytes @68 struct ktbitxid, 8 bytes @68 ub2 kxidusn @68 0x0009 ub2 kxidslt @70 0x0002 ub4 kxidsqn @72 0x0000044c struct ktbituba, 8 bytes @76 ub4 kubadba @76 0x00c000f9 ub2 kubaseq @80 0x014a ub1 kubarec @82 0x1e ub2 ktbitflg @84 0x2001 (KTBFUPB) union _ktbitun, 2 bytes @86 sb2 _ktbitfsc @86 0 ub2 _ktbitwrp @86 0x0000 ub4 ktbitbas @88 0x00b941a4 BBED> d /v offset 86 count 2 File: /oracle/oradata/roger/roger01.dbf (6) Block: 187 Offsets: 86 to 87 Dba:0x018000bb ------------------------------------------------------- 0000 l .. BBED> modify /x 0f offset 86 File: /oracle/oradata/roger/roger01.dbf (6) Block: 187 Offsets: 86 to 87 Dba:0x018000bb ------------------------------------------------------------------------ 0f00 BBED> sum apply Check value for File 6, Block 187: current = 0x4ea5, required = 0x4ea5 BBED> verify DBVERIFY - Verification starting FILE = /oracle/oradata/roger/roger01.dbf BLOCK = 187 DBVERIFY - Verification complete Total Blocks Examined : 1 Total Blocks Processed (Data) : 0 Total Blocks Failing (Data) : 0 Total Blocks Processed (Index): 1 Total Blocks Failing (Index): 0 Total Blocks Empty : 0 Total Blocks Marked Corrupt : 0 Total Blocks Influx : 0 Message 531 not found; product=RDBMS; facility=BBED
到这里,我们完成了Index Block的修改,最后我们再来校验一下前面的data block,你会发现已经ok了,如下:
BBED> set file 2 block 174
FILE#?????????? 2
BLOCK#????????? 174
BBED> verify
DBVERIFY – Verification starting
FILE = /oracle/oradata/roger/sysaux01.dbf
BLOCK = 174
DBVERIFY – Verification complete
Total Blocks Examined???????? : 1
Total Blocks Processed (Data) : 0
Total Blocks Failing?? (Data) : 0
Total Blocks Processed (Index): 0
Total Blocks Failing?? (Index): 0
Total Blocks Empty??????????? : 1
Total Blocks Marked Corrupt?? : 0
Total Blocks Influx?????????? : 0
Message 531 not found;? product=RDBMS; facility=BBED
BBED>
+++++ 最后来验证下数据
SQL> alter system flush buffer_cache; System altered. SQL> select * from roger.t_0610; ID NAME ---------- ------------- 1 baidu 2 google
至此,整个模拟测试结束,供参考!
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本站文章除注明转载外,均为本站原创: 转载自love wife & love life —Roger 的Oracle技术博客 本文链接地址: 手工提交Cluster Table的事务 前几天培训班中有学生问到,对于cluster table如果去实现手工提交事务,来屏蔽一些错误.他在自己的 环境中遇到了ora-00600 4000错误,涉及的对象即为cluster table,下面我这里简单模拟了一下。供参考! ++++创建测试表 SQL> conn roger/roger Connected. SQL> create cluster t_cluster(id number(2)) ; Cluster created. SQL> create table t_0610 2 (id number(2) primary key, 3 name varchar2(13)) 4 cluster t_cluster(id); Table created. SQL> create index t_cluster_idx on cluster t_cluster; Index created. [...]
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MySQL : 문자열 데이터 유형을 피하는 방법 일반적인 실수?May 13, 2025 am 12:09 AMtoavoidcommonmistakeswithstringdatatypesinmysql, stroundStringTypenuances, chooseTherightType, andManageEncodingAndCollationSettingSefectively.1) usecharforfixed-lengthstrings, varcharvariable-length, andtext/blobforlargerdata.2) setcarcatter
MySQL : 문자열 데이터 유형 및 열거?May 13, 2025 am 12:05 AMmysqloffersechar, varchar, text, anddenumforstringdata.usecharforfixed-lengthstrings, varcharerforvariable 길이, 텍스트 forlarger 텍스트, andenumforenforcingdataantegritystofvalues.
MySQL Blob : Blobs 요청을 최적화하는 방법May 13, 2025 am 12:03 AMmysqlblob 요청 최적화는 다음 전략을 통해 수행 할 수 있습니다. 1. Blob 쿼리의 빈도를 줄이거나 독립적 인 요청을 사용하거나 지연로드를 사용하십시오. 2. 적절한 Blob 유형 (예 : TinyBlob)을 선택하십시오. 3. Blob 데이터를 별도의 테이블로 분리하십시오. 4. 응용 프로그램 계층에서 블로브 데이터를 압축합니다. 5. Blob Metadata를 색인하십시오. 이러한 방법은 실제 애플리케이션에서 모니터링, 캐싱 및 데이터 샤딩을 결합하여 성능을 효과적으로 향상시킬 수 있습니다.
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MySQL 문자열 데이터 유형 마스터 링 : Varchar vs. Text vs. CharMay 12, 2025 am 12:12 AMChooseCharfixed-lengthdata, varcharforvariable-lengthdata, andtextforlargetextfields.1) charisefficientsconsentent-lengthdatalikecodes.2) varcharsuitsvariable-lengthdatalikeNames, 밸런싱 플렉스 및 성능
MySQL : 문자열 데이터 유형 및 인덱싱 : 모범 사례May 12, 2025 am 12:11 AMMySQL에서 문자열 데이터 유형 및 인덱스를 처리하기위한 모범 사례는 다음과 같습니다. 1) 고정 길이의 Char, 가변 길이의 Varchar 및 큰 텍스트의 텍스트와 같은 적절한 문자열 유형 선택; 2) 인덱싱에 신중하고, 과도한 인덱싱을 피하고, 공통 쿼리에 대한 인덱스를 만듭니다. 3) 접두사 인덱스 및 전체 텍스트 인덱스를 사용하여 긴 문자열 검색을 최적화합니다. 4) 인덱스를 작고 효율적으로 유지하기 위해 인덱스를 정기적으로 모니터링하고 최적화합니다. 이러한 방법을 통해 읽기 및 쓰기 성능의 균형을 맞추고 데이터베이스 효율성을 향상시킬 수 있습니다.
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