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ORACLE分區(qū)表轉(zhuǎn)換在線重定義DBMS_REDEFINITION

發(fā)布日期:2022-07-15 19:40 | 文章來源:站長之家

一、DBMS_REDEFINITION(在線重定義)

參考MOS文檔:_How To Partition Existing Table Using DBMS_REDEFINITION (Doc ID 472449.1)_

支持的數(shù)據(jù)庫版本:Oracle Database - Enterprise Edition -Version 9.2.0.4 and later

在線重定義是通過物化視圖實(shí)現(xiàn)的。

使用在線重定義的一些限制條件:

  • 1、必須有足夠的表空間來容納表的兩倍數(shù)據(jù)量。
  • 2、主鍵列不能被修改。
  • 3、表必須有主鍵。
  • 4、必須在同一個(gè)用戶下進(jìn)行在線重定義。
  • 5、SYS和SYSTEM用戶下的表無法進(jìn)行在線重定義。
  • 6、在線重定義無法采用nologging。
  • 7、如果中間表有新增列,則不能有NOT NULL約束

DBMS_REDEFINITION包:

  • ABSORT_REDEF_TABLE:清理重定義的錯(cuò)誤和中止重定義;
  • CAN_REDEF_TABLE:檢查表是否可以進(jìn)行重定義,存儲過程執(zhí)行成功代表可以進(jìn)行重定義;
  • COPY_TABLE_DEPENDENTS:同步索引和依賴的對象(包括索引、約束、觸發(fā)器、權(quán)限等);
  • FINISH_REDEF_TABLE:完成在線重定義;
  • REGISTER_DEPENDENTS_OBJECTS:注冊依賴的對象,如索引、約束、觸發(fā)器等;
  • START_REDEF_TABLE:開始在線重定義;
  • SYNC_INTERIM_TABLE:增量同步數(shù)據(jù);
  • UNREGISTER_DEPENDENT_OBJECT:不注冊依賴的對象,如索引、約束、觸發(fā)器等;
CREATE OR REPLACE PACKAGE SYS.dbms_redefinition AUTHID CURRENT_USER IS
  ------------
  --  OVERVIEW
  --
  -- This package provides the API to perform an online, out-of-place
  -- redefinition of a table
  --- =========
  --- CONSTANTS
  --- =========
  -- Constants for the options_flag parameter of start_redef_table
  cons_use_pk    CONSTANT PLS_INTEGER := 1;
  cons_use_rowid CONSTANT PLS_INTEGER := 2;
  -- Constants used for the object types in the register_dependent_object
  cons_index      CONSTANT PLS_INTEGER := 2;
  cons_constraint CONSTANT PLS_INTEGER := 3;
  cons_trigger    CONSTANT PLS_INTEGER := 4;
  cons_mvlog      CONSTANT PLS_INTEGER := 10;
  -- constants used to specify the method of copying indexes
  cons_orig_params CONSTANT PLS_INTEGER := 1;
  PRAGMA SUPPLEMENTAL_LOG_DATA(default, AUTO_WITH_COMMIT);
  -- NAME:     can_redef_table - check if given table can be re-defined
  -- INPUTS:   uname        - table owner name
  --           tname        - table name
  --           options_flag - flag indicating user options to use
  --           part_name    - partition name
  PROCEDURE can_redef_table(uname        IN VARCHAR2,
tname        IN VARCHAR2,
options_flag IN PLS_INTEGER := 1,
part_name    IN VARCHAR2 := NULL);
  PRAGMA SUPPLEMENTAL_LOG_DATA(can_redef_table, NONE);
  -- NAME:     start_redef_table - start the online re-organization
  -- INPUTS:   uname        - schema name
  --           orig_table   - name of table to be re-organized
  --           int_table    - name of interim table
  --           col_mapping  - select list col mapping
  --           options_flag - flag indicating user options to use
  --           orderby_cols - comma separated list of order by columns
  --                          followed by the optional ascending/descending
  --                          keyword
  --           part_name    - name of the partition to be redefined
  PROCEDURE start_redef_table(uname        IN VARCHAR2,
  orig_table   IN VARCHAR2,
  int_table    IN VARCHAR2,
  col_mapping  IN VARCHAR2 := NULL,
  options_flag IN BINARY_INTEGER := 1,
  orderby_cols IN VARCHAR2 := NULL,
  part_name    IN VARCHAR2 := NULL);
  -- NAME:     finish_redef_table - complete the online re-organization
  -- INPUTS:   uname        - schema name
  --           orig_table   - name of table to be re-organized
  --           int_table    - name of interim table
  --           part_name    - name of the partition being redefined
  PROCEDURE finish_redef_table(uname          IN VARCHAR2,
   orig_table     IN VARCHAR2,
   int_table      IN VARCHAR2,
   part_name      IN VARCHAR2 := NULL);
  -- NAME:     abort_redef_table - clean up after errors or abort the
  --   online re-organization
  -- INPUTS:   uname        - schema name
  --           orig_table   - name of table to be re-organized
  --           int_table    - name of interim table
  --           part_name    - name of the partition being redefined
  PROCEDURE abort_redef_table(uname        IN VARCHAR2,
  orig_table   IN VARCHAR2,
  int_table    IN VARCHAR2,
  part_name    IN VARCHAR2 := NULL);
  -- NAME:     sync_interim_table - synchronize interim table with the original
  --    table
  -- INPUTS:   uname        - schema name
  --           orig_table   - name of table to be re-organized
  --           int_table    - name of interim table
  --           part_name    - name of the partition being redefined
  PROCEDURE sync_interim_table(uname       IN VARCHAR2,
   orig_table  IN VARCHAR2,
   int_table   IN VARCHAR2,
   part_name   IN VARCHAR2 := NULL);
  -- NAME:     register_dependent_object - register dependent object
  --
  -- INPUTS:   uname        - schema name
  --           orig_table   - name of table to be re-organized
  --           int_table    - name of interim table
  --           dep_type     - type of the dependent object
  --           dep_owner    - name of the dependent object owner
  --           dep_orig_name- name of the dependent object defined on table
  --                          being re-organized
  --           dep_int_name - name of the corressponding dependent object on
  --                          the interim table
  PROCEDURE register_dependent_object(uname         IN VARCHAR2,
          orig_table    IN VARCHAR2,
          int_table     IN VARCHAR2,
          dep_type      IN PLS_INTEGER,
          dep_owner     IN VARCHAR2,
          dep_orig_name IN VARCHAR2,
          dep_int_name  IN VARCHAR2);
  -- NAME:     unregister_dependent_object - unregister dependent object
  --
  -- INPUTS:   uname        - schema name
  --           orig_table   - name of table to be re-organized
  --           int_table    - name of interim table
  --           dep_type     - type of the dependent object
  --           dep_owner    - name of the dependent object owner
  --           dep_orig_name- name of the dependent object defined on table
  --                          being re-organized
  --           dep_int_name - name of the corressponding dependent object on
  --                          the interim table
  PROCEDURE unregister_dependent_object(uname         IN VARCHAR2,
            orig_table    IN VARCHAR2,
            int_table     IN VARCHAR2,
            dep_type      IN PLS_INTEGER,
            dep_owner     IN VARCHAR2,
            dep_orig_name IN VARCHAR2,
            dep_int_name  IN VARCHAR2);
  --  NAME:     copy_table_dependents
  --
  --  INPUTS:  uname             - schema name
  --           orig_table        - name of table to be re-organized
  --           int_table         - name of interim table
  --           copy_indexes      - integer value indicating whether to
  --   copy indexes
  --   0 - don't copy
  --   1 - copy using storage params/tablespace
  --       of original index
  --           copy_triggers      - TRUE implies copy triggers, FALSE otherwise
  --           copy_constraints   - TRUE implies copy constraints, FALSE
  --    otherwise
  --           copy_privileges    - TRUE implies copy privileges, FALSE
  --    otherwise
  --           ignore errors      - TRUE implies continue after errors, FALSE
  --    otherwise
  --           num_errors         - number of errors that occurred while
  --    cloning ddl
  --           copy_statistics    - TRUE implies copy table statistics, FALSE
  --    otherwise.
  --    If copy_indexes is 1, copy index
  --    related statistics, 0 otherwise.
  --           copy_mvlog         - TRUE implies copy table's MV log, FALSE
  --    otherwise.
  PROCEDURE copy_table_dependents(uname              IN  VARCHAR2,
      orig_table         IN  VARCHAR2,
      int_table          IN  VARCHAR2,
      copy_indexes       IN  PLS_INTEGER := 1,
      copy_triggers      IN  BOOLEAN := TRUE,
      copy_constraints   IN  BOOLEAN := TRUE,
      copy_privileges    IN  BOOLEAN := TRUE,
      ignore_errors      IN  BOOLEAN := FALSE,
      num_errors         OUT PLS_INTEGER,
      copy_statistics    IN  BOOLEAN := FALSE,
      copy_mvlog         IN  BOOLEAN := FALSE);
END;

二、在線重定義表的步驟

1.創(chuàng)建未分區(qū)的表

創(chuàng)建未分區(qū)的表,如果存在,就不需要操作。

--前置準(zhǔn)備:創(chuàng)建用戶,表空間,授權(quán)用戶。
SQL> create tablespace PARTITION;
SQL> create user par identified by par;
SQL> grant dba to par;
--創(chuàng)建表,索引,授權(quán),同義詞
SQL> conn par/par
Connected.
-- Create table
create table student(
s_id number(8) PRIMARY KEY,
s_name varchar2(20) not null,
s_sex varchar2(8),
s_birdate date,
constraint u_1 unique(s_name),
constraint c_1 check (s_sex in ('MALE','FEMALE')))
tablespace PARTITION;
-- Add comments to the table 
comment on table STUDENT is '學(xué)生表';
-- Add comments to the columns 
comment on column STUDENT.s_name is '姓名';
comment on column STUDENT.s_sex is '性別';
comment on column STUDENT.s_birdate is '出生日期';
-- Create/Recreate indexes 
create index S_NAME_IDX on STUDENT (S_NAME, S_SEX) tablespace PARTITION;
-- Create SYNONYM
CREATE SYNONYM stu FOR student;
-- Grant/Revoke object privileges 
grant select, insert, delete on STUDENT to SCOTT;
--查看表結(jié)構(gòu)
SQL> desc stu
 Name					   Null?    Type
 ----------------------------------------- -------- ----------------------------
 S_ID					   NOT NULL NUMBER(8)
 S_NAME 				   NOT NULL VARCHAR2(20)
 S_SEX						    VARCHAR2(8)
 S_BIRDATE					    DATE
--插入數(shù)據(jù)
begin
  for i in 0 .. 24 loop
    insert into student values
      (i,
       'student_' || i,
       decode(mod(i, 2), 0, 'MALE', 'FEMALE'),
       add_months(to_date('2019-1-1', 'yyyy-mm-dd'), i));
  end loop;
  commit;
end;
/

2.確認(rèn)表是否存在主鍵,表空間是否足夠,收集表統(tǒng)計(jì)信息。

--查看表主鍵
SQL> select cu.* from user_cons_columns cu, user_constraints au where cu.constraint_name = au.constraint_name and au.constraint_type = 'P' and au.table_name = 'STUDENT';
--查看表大小和表空間
--查看表空間
SQL> select tablespace_name from dba_segments where segment_type= 'TABLE' and segment_name='STUDENT' and owner='PAR';
--查看表大小
SQL> select sum(bytes/1024/1024) from dba_segments where segment_type= 'TABLE' and segment_name='STUDENT' and owner='PAR';
--查看表空間
select tbs_used_info.tablespace_name,
       tbs_used_info.alloc_mb,
       tbs_used_info.used_mb,
       tbs_used_info.max_mb,
       tbs_used_info.free_of_max_mb,
       tbs_used_info.used_of_max || '%' used_of_max_pct
  from (select a.tablespace_name,
               round(a.bytes_alloc / 1024 / 1024) alloc_mb,
               round((a.bytes_alloc - nvl(b.bytes_free,
              0)) / 1024 / 1024) used_mb,
               round((a.bytes_alloc - nvl(b.bytes_free,
              0)) * 100 / a.maxbytes) used_of_max,
               round((a.maxbytes - a.bytes_alloc + nvl(b.bytes_free,   0)) / 1048576) free_of_max_mb,
               round(a.maxbytes / 1048576) max_mb
          from (select f.tablespace_name,
                       sum(f.bytes) bytes_alloc,
                       sum(decode(f.autoextensible,
      'YES',
      f.maxbytes,
      'NO',
      f.bytes)) maxbytes
                  from dba_data_files f
                 group by tablespace_name) a,
               (select f.tablespace_name,
                       sum(f.bytes) bytes_free
                  from dba_free_space f
                 group by tablespace_name) b
         where a.tablespace_name = b.tablespace_name(+)) tbs_used_info
 order by tbs_used_info.used_of_max desc;
--如果表空間不夠,提前增加表空間大小
alter tablespace PARTITION add datafile;
--收集統(tǒng)計(jì)信息(可忽略)
EXEC DBMS_STATS.gather_table_stats('PAR', 'STUDENT', cascade => TRUE);

3.調(diào)用DBMS_REDEFINITION.CAN_REDEF_TABLE()

調(diào)用DBMS_REDEFINITION.CAN_REDEF_TABLE()過程,確認(rèn)表是否滿足重定義的條件。

SQL> EXEC Dbms_Redefinition.can_redef_table('PAR', 'STUDENT');
PL/SQL procedure successfully completed.

4.建立一個(gè)空的中間表

在用一個(gè)用戶中建立一個(gè)空的中間表,根據(jù)重定義后你期望得到的結(jié)構(gòu)建立中間表。比如:采用分區(qū)表(間隔分區(qū)),增加了COLUMN等。

在中間表上建立觸發(fā)器、索引和約束,并進(jìn)行相應(yīng)的授權(quán)。任何包含中間表的完整性約束應(yīng)將狀態(tài)置為disabled。(此步驟也可以放在同步數(shù)據(jù)后操作)

--創(chuàng)建間隔分區(qū)(增加列s_phone)
create table STUDENT_PAR
(
  s_id      NUMBER(8) not null,
  s_name    VARCHAR2(20) not null,
  s_sex     VARCHAR2(8),
  s_birdate DATE,
  s_phone   number
)
tablespace PARTITION
PARTITION BY RANGE(s_birdate)
INTERVAL (NUMTOYMINTERVAL(1,'MONTH')) STORE IN (partition)
(PARTITION STUDENT_201901 VALUES LESS THAN (TO_DATE('2019-02-01 00:00:00', 'SYYYY-MM-DD Hh34:MI:SS', 'NLS_CALENDAR=GREGORIAN')));
--臨時(shí)中間表上創(chuàng)建如下:
--創(chuàng)建主鍵約束
alter table STUDENT_PAR add primary key (S_ID) using index tablespace PARTITION;
--創(chuàng)建唯一索引約束
alter table STUDENT_PAR add constraint U_1_PAR unique (S_NAME) using index tablespace PARTITION;
--創(chuàng)建check約束
alter table STUDENT_PAR add constraint C_1_PAR check (s_sex in ('MALE','FEMALE'));
--創(chuàng)建索引
CREATE INDEX S_NAME_IDX_PAR ON STUDENT_PAR (S_NAME,S_SEX) tablespace PARTITION;
--創(chuàng)建同義詞
CREATE SYNONYM stu_par FOR STUDENT_PAR;
--添加描述
COMMENT ON TABLE  STUDENT_PAR IS '學(xué)生表';
COMMENT ON COLUMN STUDENT_PAR.s_name IS '姓名';
COMMENT ON COLUMN STUDENT_PAR.s_sex IS '性別';
COMMENT ON COLUMN STUDENT_PAR.s_birdate IS '出生日期';
--授權(quán)
GRANT SELECT,INSERT,DELETE ON STUDENT_PAR TO scott;

5.調(diào)用DBMS_REDEFINITION.START_REDEF_TABLE

調(diào)用DBMS_REDEFINITION.START_REDEF_TABLE()過程,并提供下列參數(shù):被重定義的表的名稱、中間表的名稱、列的映射規(guī)則、重定義方法。

如果映射方法沒有提供,則認(rèn)為所有包括在中間表中的列用于表的重定義。如果給出了映射方法,則只考慮映射方法中給出的列。如果沒有給出重定義方法,則默認(rèn)使用主鍵方式。

SQL> BEGIN
DBMS_REDEFINITION.start_redef_table(
uname => 'PAR', 
orig_table => 'STUDENT',
int_table => 'STUDENT_PAR');
END;
/
PL/SQL procedure successfully completed.

6.(可選)在創(chuàng)建索引之前將新表與臨時(shí)名稱同步

Notes:如果在執(zhí)行DBMS_REDEFINITION.START_REDEF_TABLE()過程和執(zhí)行DBMS_REDEFINITION.FINISH_REDEF_TABLE()過程直接在重定義表上執(zhí)行了大量的DML操作,那么可以選擇執(zhí)行一次或多次的SYNC_INTERIM_TABLE()過程,此操作可以減少最后一步執(zhí)行FINISH_REDEF_TABLE()過程時(shí)的鎖定時(shí)間。

--模擬業(yè)務(wù)不停,DML表數(shù)據(jù)寫入
insert into STUDENT values(25,'student_25','MALE',to_date('2020-8-1', 'yyyy-mm-dd'));
update student set s_sex='FEMALE' where s_id = 20;
commit;
--比對student和student_par數(shù)據(jù)
select s_id,s_name,s_sex,s_birdate from student
minus
select s_id,s_name,s_sex,s_birdate from student_par;
      S_ID S_NAME		S_SEX	 S_BIRDATE
---------- -------------------- -------- ------------------
	20 student_20		FEMALE	 01-SEP-20
	25 student_25		MALE	 01-AUG-20
--同步數(shù)據(jù)到臨時(shí)表
BEGIN
dbms_redefinition.sync_interim_table(
uname => 'PAR', 
orig_table => 'STUDENT',
int_table => 'STUDENT_PAR');
END;
/
--數(shù)據(jù)已全部同步到臨時(shí)表
select s_id,s_name,s_sex,s_birdate from student
minus
select s_id,s_name,s_sex,s_birdate from student_par;
no rows selected

7.執(zhí)行DBMS_REDEFINITION.FINISH_REDEF_TABLE

執(zhí)行DBMS_REDEFINITION.FINISH_REDEF_TABLE()過程完成表的重定義。這個(gè)過程中,原始表會被獨(dú)占模式鎖定一小段時(shí)間,具體時(shí)間和表的數(shù)據(jù)量有關(guān)。

執(zhí)行完FINISH_REDEF_TABLE()過程后,原始表重定義后具有了中間表的屬性、索引、約束、授權(quán)和觸發(fā)器。中間表上disabled的約束在原始表上處于enabled狀態(tài)。

--收集par table的統(tǒng)計(jì)信息
EXEC DBMS_STATS.gather_table_stats('PAR', 'STUDENT_PAR', cascade => TRUE);
--結(jié)束在線重定義過程
BEGIN
dbms_redefinition.finish_redef_table(
uname => 'PAR', 
orig_table => 'STUDENT',
int_table => 'STUDENT_PAR');
END;
/
SQL> select table_name,PARTITION_NAME from user_tab_partitions where table_name in ('STUDENT','STUDENT_PAR');
SQL> select table_name,index_name from user_indexes where table_name in ('STUDENT','STUDENT_PAR');

此時(shí),臨時(shí)表(及其索引)已成為“真實(shí)”表,并且它們的名稱已在名稱詞典中切換。

8.重命名所有約束和索引以匹配原始名稱

--drop中間表或者rename原來的約束
a.drop table STUDENT_PAR;
b.
ALTER TABLE STUDENT_PAR RENAME CONSTRAINT U_1 TO U_1_20210411;
ALTER TABLE STUDENT_PAR RENAME CONSTRAINT C_1 TO C_1_20210411;
ALTER INDEX S_NAME_IDX RENAME TO S_NAME_IDX_20210411;
ALTER INDEX U_1 RENAME TO U_1_20210411;
--rename 新分區(qū)表的約束和索引
ALTER TABLE STUDENT RENAME CONSTRAINT U_1_PAR TO U_1;
ALTER TABLE STUDENT RENAME CONSTRAINT C_1_PAR TO C_1;
ALTER INDEX S_NAME_IDX_PAR RENAME TO S_NAME_IDX;
ALTER INDEX U_1_PAR RENAME TO U_1;
--查看索引,約束名稱是否正確
select table_name,index_name from user_indexes where table_name in ('STUDENT','STUDENT_PAR') order by table_name;
TABLE_NAME		       INDEX_NAME
------------------------------ ------------------------------
STUDENT 		       S_NAME_IDX
STUDENT 		       SYS_C0011401
STUDENT 		       U_1
STUDENT_PAR		       S_NAME_IDX_20210411
STUDENT_PAR		       U_1_20210411
STUDENT_PAR		       SYS_C0011395
SQL> desc stu
 Name					   Null?    Type
 ----------------------------------------- -------- ----------------------------
 S_ID					   NOT NULL NUMBER(8)
 S_NAME 				   NOT NULL VARCHAR2(20)
 S_SEX						    VARCHAR2(8)
 S_BIRDATE					    DATE
 S_PHONE					    NUMBER

以上就是ORACLE分區(qū)表轉(zhuǎn)換在線重定義DBMS_REDEFINITION的詳細(xì)內(nèi)容,更多關(guān)于ORACLE分區(qū)表轉(zhuǎn)換在線重定義的資料請關(guān)注本站其它相關(guān)文章!

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