1、查看數據文件的位置:
SQL> select file#,status,enabled,name from v$datafile; ]
2、查看控制文件:
SQL> select * from v$controlfile;
3、查看聯機日誌:
SQL> select * from v$logfile;
//2005年1月7日9:48:44
4、查看當前數據庫運行的存檔日誌模式、歸檔日誌的位置等信息
SQL>archive log list
數據庫日誌模式 存檔模式
自動存檔 啓用
存檔終點 /ora_arch/arch
最早的概要日誌序列 1
下一個存檔日誌序列 3
當前日誌序列 3
5、起用歸檔模式
SQL> alter database [dbname] archivelog;
TEL
800-810-0136 2032 HuanPeng
數據庫系統啓動方面
1、啓動數據庫監聽和服務 啓動控制檯 監聽配置 :
[oracle@owbsrv oracle]$ cd /
[oracle@owbsrv /]$ cd $ORACLE_HOME/bin
[oracle@owbsrv bin]$ ls
[oracle@owbsrv bin]$ lsnrctl start
[oracle@owbsrv bin]$ agentctl start
[oracle@owbsrv bin]$ oem console
800-810-0136 2032 HuanPeng
數據庫系統啓動方面
1、啓動數據庫監聽和服務 啓動控制檯 監聽配置 :
[oracle@owbsrv oracle]$ cd /
[oracle@owbsrv /]$ cd $ORACLE_HOME/bin
[oracle@owbsrv bin]$ ls
[oracle@owbsrv bin]$ lsnrctl start
[oracle@owbsrv bin]$ agentctl start
[oracle@owbsrv bin]$ oem console
[oracle@owbsrv bin]$ netca
2、啓動數據庫的幾種方式
SQL> conn sys/pwd@wh as sysdba
在進入後就可以進行下面的操作了
關閉數據庫:
SQL>shutdown normal 需要等待所有的用戶斷開連接
SQL>shutdown Immediate 等待用戶完成當前的語句
SQL>shutdown Transactional 等待用戶完成當前的事務
SQL>shutdown Abort 不做任何等待,直接關閉數據庫
數據庫啓動使用startup命令,它有三種情況
第一種:不帶參數,啓動數據庫實例並打開數據庫,以便用戶使用數據庫,在多數情況下,使用這種方式!
第二種:帶nomount參數,只啓動數據庫實例,但不打開數據庫,在你希望創建一個新的數據庫時使用,或
者在你需要這樣的時候使用!第三種:帶mount參數,在進行數據庫更名的時候採用。這個時候數據庫就打
開並可以使用了!
數據庫系統對象方面
1、修改system用戶默認表空間和臨時表空間
svrmgrl
connect internal/oracle
alter user system default tablespace TOOLS;
alter user system temporary tablespace TEMP;
exit
2、
2、啓動數據庫的幾種方式
SQL> conn sys/pwd@wh as sysdba
在進入後就可以進行下面的操作了
關閉數據庫:
SQL>shutdown normal 需要等待所有的用戶斷開連接
SQL>shutdown Immediate 等待用戶完成當前的語句
SQL>shutdown Transactional 等待用戶完成當前的事務
SQL>shutdown Abort 不做任何等待,直接關閉數據庫
數據庫啓動使用startup命令,它有三種情況
第一種:不帶參數,啓動數據庫實例並打開數據庫,以便用戶使用數據庫,在多數情況下,使用這種方式!
第二種:帶nomount參數,只啓動數據庫實例,但不打開數據庫,在你希望創建一個新的數據庫時使用,或
者在你需要這樣的時候使用!第三種:帶mount參數,在進行數據庫更名的時候採用。這個時候數據庫就打
開並可以使用了!
數據庫系統對象方面
1、修改system用戶默認表空間和臨時表空間
svrmgrl
connect internal/oracle
alter user system default tablespace TOOLS;
alter user system temporary tablespace TEMP;
exit
2、
oracle有沒有存放數據庫的所有用戶以及所有表的系統表?
1、oracle有沒有存放數據庫的所有用戶以及所有表 的系統表?
2、要獲取一個數據庫的所有用戶怎麼辦?
3、要獲取一個數據庫的所有表怎麼辦?
4、要獲取一個用戶的所有表怎麼辦?
5、要獲取一個表的所有字段及其數據類型怎麼辦?
1、有
2、dba_users、all_users
3、dba_tables/dba_objects
4、all_tables/all_objects、user_tables/user_objects
5、dba_tab_columns、all_tab_columns、user_tab_columns
1、oracle有沒有存放數據庫的所有用戶以及所有表 的系統表?
2、要獲取一個數據庫的所有用戶怎麼辦?
3、要獲取一個數據庫的所有表怎麼辦?
4、要獲取一個用戶的所有表怎麼辦?
5、要獲取一個表的所有字段及其數據類型怎麼辦?
1、有
2、dba_users、all_users
3、dba_tables/dba_objects
4、all_tables/all_objects、user_tables/user_objects
5、dba_tab_columns、all_tab_columns、user_tab_columns
一般來說,數據字典表中,以dba_開頭的,是整個數據庫所有的信息,以owner來區分。
以all_開頭的,是本用戶可以訪問的所有信息,包括不屬於本用戶創建的對象。
以user_開頭的,是本用戶所建立的所有信息。
以all_開頭的,是本用戶可以訪問的所有信息,包括不屬於本用戶創建的對象。
以user_開頭的,是本用戶所建立的所有信息。
在dba_和all_開頭的數據字典表中,你使用where owner ='你要查詢的用戶名(大寫)'可以得到你想要的用戶下相關信息。
如果你是排除sys和system,那麼用where owner<>'SYS' and owner <> 'SYSTEM'
如果你是排除sys和system,那麼用where owner<>'SYS' and owner <> 'SYSTEM'
一般來說,你自己創建的用戶,應該還是看得出來的。系統會自己創建一些用戶。
或者這樣,select username, to_char(created, 'YYYY/MM/DD HH24:MI:SS') from all_users order by created;
看看創建的時間,基本上也可以知道了。Oracle自己創建的用戶時間肯定都集中在最開始幾分鐘到幾十分鐘內。從SYS和SYSTEM開始。
數據庫性能調整方面
1、碎片整理中,察看自由空間
---- 由於自由空間碎片是由幾部分組成,如範圍數量、最大範圍尺寸等,我們可用FSFI--Free Space Fragmentation Index(自由空間碎片索引)值來直觀體現:
FSFI=100*SQRT(max(extent)/sum(extents))*1/SQRT(SQRT(count(extents)))
---- 可以看出,FSFI的最大可能值爲100(一個理想的單文件表空間)。隨着範圍的增加,FSFI值緩慢下降,而隨着最大範圍尺寸的減少,FSFI值會迅速下降。
---- 下面的腳本可以用來計算FSFI值:
rem FSFI Value Compute
rem fsfi.sql
column FSFI format 999,99
select tablespace_name,sqrt(max(blocks)/sum(blocks))*
(100/sqrt(sqrt(count(blocks)))) FSFI
from dba_free_space
group by tablespace_name order by 1;
spool fsfi.rep;
/
spool off;
---- 統計出了數據庫的FSFI值,就可以把它作爲一個可比參數。在一個有着足夠有效自由空間,且FSFI值超過30的表空間中,很少會遇見有效自由空間的問題。當一個空間將要接近可比參數時,就需要做碎片整理了。
2、自由範圍的碎片整理
---- (1)表空間的pctincrease值爲非0
---- 可以將表空間的缺省存儲參數pctincrease改爲非0。一般將其設爲1,如:
alter tablespace temp
default storage(pctincrease 1);
---- 這樣SMON便會將自由範圍自動合併。也可以手工合併自由範圍:
alter tablespace temp coalesce;
3、段的碎片整理
---- 我們知道,段由範圍組成。在有些情況下,有必要對段的碎片進行整理。要查看段的有關信息,可查看數據字典dba_segments,範圍的信息可查看數據字典dba_extents。如果段的碎片過多, 將其數據壓縮到一個範圍的最簡單方法便是用正確的存儲參數將這個段重建,然後將舊錶中的數據插入到新表,同時刪除舊錶。這個過程可以用Import/Export(輸入/輸出)工具來完成。
---- Export()命令有一個(壓縮)標誌,這個標誌在讀表時會引發Export確定該表所分配的物理空間量,它會向輸出轉儲文件寫入一個新的初始化存儲參數--等於全部所分配空間。若這個表關閉, 則使用Import()工具重新生成。這樣,它的數據會放入一個新的、較大的初始段中。例如:
exp user/password file=exp.dmp compress=Y grants=Y indexes=Y
tables=(table1,table2);
---- 若輸出成功,則從庫中刪除已輸出的表,然後從輸出轉儲文件中輸入表:
imp user/password file=exp.dmp commit=Y buffer=64000 full=Y
---- 這種方法可用於整個數據庫。
數據庫備份恢復方面
1、查看數據文件的位置:
SQL> select file#,status,enabled,name from v$datafile; ]
2、查看控制文件:
SQL> select * from v$controlfile;
3、查看聯機日誌:
SQL> select * from v$logfile;
4、查看當前數據庫運行的存檔日誌模式、歸檔日誌的位置等信息
SQL>archive log list
數據庫日誌模式 存檔模式
自動存檔 啓用
存檔終點 /ora_arch/arch
最早的概要日誌序列 1
下一個存檔日誌序列 3
當前日誌序列 3
5、起用歸檔模式
SQL> alter database [dbname] archivelog;
日誌管理方面 -待修改
數據庫性能調整方面
1、碎片整理中,察看自由空間
---- 由於自由空間碎片是由幾部分組成,如範圍數量、最大範圍尺寸等,我們可用FSFI--Free Space Fragmentation Index(自由空間碎片索引)值來直觀體現:
FSFI=100*SQRT(max(extent)/sum(extents))*1/SQRT(SQRT(count(extents)))
---- 可以看出,FSFI的最大可能值爲100(一個理想的單文件表空間)。隨着範圍的增加,FSFI值緩慢下降,而隨着最大範圍尺寸的減少,FSFI值會迅速下降。
---- 下面的腳本可以用來計算FSFI值:
rem FSFI Value Compute
rem fsfi.sql
column FSFI format 999,99
select tablespace_name,sqrt(max(blocks)/sum(blocks))*
(100/sqrt(sqrt(count(blocks)))) FSFI
from dba_free_space
group by tablespace_name order by 1;
spool fsfi.rep;
/
spool off;
---- 統計出了數據庫的FSFI值,就可以把它作爲一個可比參數。在一個有着足夠有效自由空間,且FSFI值超過30的表空間中,很少會遇見有效自由空間的問題。當一個空間將要接近可比參數時,就需要做碎片整理了。
2、自由範圍的碎片整理
---- (1)表空間的pctincrease值爲非0
---- 可以將表空間的缺省存儲參數pctincrease改爲非0。一般將其設爲1,如:
alter tablespace temp
default storage(pctincrease 1);
---- 這樣SMON便會將自由範圍自動合併。也可以手工合併自由範圍:
alter tablespace temp coalesce;
3、段的碎片整理
---- 我們知道,段由範圍組成。在有些情況下,有必要對段的碎片進行整理。要查看段的有關信息,可查看數據字典dba_segments,範圍的信息可查看數據字典dba_extents。如果段的碎片過多, 將其數據壓縮到一個範圍的最簡單方法便是用正確的存儲參數將這個段重建,然後將舊錶中的數據插入到新表,同時刪除舊錶。這個過程可以用Import/Export(輸入/輸出)工具來完成。
---- Export()命令有一個(壓縮)標誌,這個標誌在讀表時會引發Export確定該表所分配的物理空間量,它會向輸出轉儲文件寫入一個新的初始化存儲參數--等於全部所分配空間。若這個表關閉, 則使用Import()工具重新生成。這樣,它的數據會放入一個新的、較大的初始段中。例如:
exp user/password file=exp.dmp compress=Y grants=Y indexes=Y
tables=(table1,table2);
---- 若輸出成功,則從庫中刪除已輸出的表,然後從輸出轉儲文件中輸入表:
imp user/password file=exp.dmp commit=Y buffer=64000 full=Y
---- 這種方法可用於整個數據庫。
數據庫備份恢復方面
1、查看數據文件的位置:
SQL> select file#,status,enabled,name from v$datafile; ]
2、查看控制文件:
SQL> select * from v$controlfile;
3、查看聯機日誌:
SQL> select * from v$logfile;
4、查看當前數據庫運行的存檔日誌模式、歸檔日誌的位置等信息
SQL>archive log list
數據庫日誌模式 存檔模式
自動存檔 啓用
存檔終點 /ora_arch/arch
最早的概要日誌序列 1
下一個存檔日誌序列 3
當前日誌序列 3
5、起用歸檔模式
SQL> alter database [dbname] archivelog;
日誌管理方面 -待修改
1.forcing log switches
sql> alter system switch logfile;
sql> alter system switch logfile;
2.forcing checkpoints
sql> alter system checkpoint;
sql> alter system checkpoint;
3.adding online redo log groups
sql> alter database add logfile [group 4]
sql> ('/disk3/log4a.rdo','/disk4/log4b.rdo') size 1m;
sql> alter database add logfile [group 4]
sql> ('/disk3/log4a.rdo','/disk4/log4b.rdo') size 1m;
4.adding online redo log members
sql> alter database add logfile member
sql> '/disk3/log1b.rdo' to group 1,
sql> '/disk4/log2b.rdo' to group 2;
sql> alter database add logfile member
sql> '/disk3/log1b.rdo' to group 1,
sql> '/disk4/log2b.rdo' to group 2;
5.changes the name of the online redo logfile
sql> alter database rename file 'c:/oracle/oradata/oradb/redo01.log'
sql> to 'c:/oracle/oradata/redo01.log';
sql> alter database rename file 'c:/oracle/oradata/oradb/redo01.log'
sql> to 'c:/oracle/oradata/redo01.log';
6.drop online redo log groups
sql> alter database drop logfile group 3;
sql> alter database drop logfile group 3;
7.drop online redo log members
sql> alter database drop logfile member 'c:/oracle/oradata/redo01.log';
sql> alter database drop logfile member 'c:/oracle/oradata/redo01.log';
8.clearing online redo log files
sql> alter database clear [unarchived] logfile 'c:/oracle/log2a.rdo';
sql> alter database clear [unarchived] logfile 'c:/oracle/log2a.rdo';
9.using logminer analyzing redo logfiles
a. in the init.ora specify utl_file_dir = ' '
b. sql> execute dbms_logmnr_d.build('oradb.ora','c:/oracle/oradb/log');
c. sql> execute dbms_logmnr_add_logfile('c:/oracle/oradata/oradb/redo01.log',
sql> dbms_logmnr.new);
d. sql> execute dbms_logmnr.add_logfile('c:/oracle/oradata/oradb/redo02.log',
sql> dbms_logmnr.addfile);
e. sql> execute dbms_logmnr.start_logmnr(dictfilename=>'c:/oracle/oradb/log/oradb.ora');
f. sql> select * from v$logmnr_contents(v$logmnr_dictionary,v$logmnr_parameters
sql> v$logmnr_logs);
g. sql> execute dbms_logmnr.end_logmnr;
表空間管理
1.create tablespaces
sql> create tablespace tablespace_name datafile 'c:/oracle/oradata/file1.dbf' size 100m,
sql> 'c:/oracle/oradata/file2.dbf' size 100m minimum extent 550k [logging/nologging]
sql> default storage (initial 500k next 500k maxextents 500 pctinccease 0)
sql> [online/offline] [permanent/temporary] [extent_management_clause]
b. sql> execute dbms_logmnr_d.build('oradb.ora','c:/oracle/oradb/log');
c. sql> execute dbms_logmnr_add_logfile('c:/oracle/oradata/oradb/redo01.log',
sql> dbms_logmnr.new);
d. sql> execute dbms_logmnr.add_logfile('c:/oracle/oradata/oradb/redo02.log',
sql> dbms_logmnr.addfile);
e. sql> execute dbms_logmnr.start_logmnr(dictfilename=>'c:/oracle/oradb/log/oradb.ora');
f. sql> select * from v$logmnr_contents(v$logmnr_dictionary,v$logmnr_parameters
sql> v$logmnr_logs);
g. sql> execute dbms_logmnr.end_logmnr;
表空間管理
1.create tablespaces
sql> create tablespace tablespace_name datafile 'c:/oracle/oradata/file1.dbf' size 100m,
sql> 'c:/oracle/oradata/file2.dbf' size 100m minimum extent 550k [logging/nologging]
sql> default storage (initial 500k next 500k maxextents 500 pctinccease 0)
sql> [online/offline] [permanent/temporary] [extent_management_clause]
2.locally managed tablespace
sql> create tablespace user_data datafile 'c:/oracle/oradata/user_data01.dbf'
sql> size 500m extent management local uniform size 10m;
sql> create tablespace user_data datafile 'c:/oracle/oradata/user_data01.dbf'
sql> size 500m extent management local uniform size 10m;
3.temporary tablespace
sql> create temporary tablespace temp tempfile 'c:/oracle/oradata/temp01.dbf'
sql> size 500m extent management local uniform size 10m;
sql> create temporary tablespace temp tempfile 'c:/oracle/oradata/temp01.dbf'
sql> size 500m extent management local uniform size 10m;
4.change the storage setting
sql> alter tablespace app_data minimum extent 2m;
sql> alter tablespace app_data default storage(initial 2m next 2m maxextents 999);
sql> alter tablespace app_data minimum extent 2m;
sql> alter tablespace app_data default storage(initial 2m next 2m maxextents 999);
5.taking tablespace offline or online
sql> alter tablespace app_data offline;
sql> alter tablespace app_data online;
sql> alter tablespace app_data offline;
sql> alter tablespace app_data online;
6.read_only tablespace
sql> alter tablespace app_data read only|write;
sql> alter tablespace app_data read only|write;
7.droping tablespace
sql> drop tablespace app_data including contents;
sql> drop tablespace app_data including contents;
8.enableing automatic extension of data files
sql> alter tablespace app_data add datafile 'c:/oracle/oradata/app_data01.dbf' size 200m
sql> autoextend on next 10m maxsize 500m;
sql> alter tablespace app_data add datafile 'c:/oracle/oradata/app_data01.dbf' size 200m
sql> autoextend on next 10m maxsize 500m;
9.change the size fo data files manually
sql> alter database datafile 'c:/oracle/oradata/app_data.dbf' resize 200m;
sql> alter database datafile 'c:/oracle/oradata/app_data.dbf' resize 200m;
10.Moving data files: alter tablespace
sql> alter tablespace app_data rename datafile 'c:/oracle/oradata/app_data.dbf'
sql> to 'c:/oracle/app_data.dbf';
sql> alter tablespace app_data rename datafile 'c:/oracle/oradata/app_data.dbf'
sql> to 'c:/oracle/app_data.dbf';
11.moving data files:alter database
sql> alter database rename file 'c:/oracle/oradata/app_data.dbf'
sql> to 'c:/oracle/app_data.dbf';
表
sql> alter database rename file 'c:/oracle/oradata/app_data.dbf'
sql> to 'c:/oracle/app_data.dbf';
表
1.create a table
sql> create table table_name (column datatype,column datatype]....)
sql> tablespace tablespace_name [pctfree integer] [pctused integer]
sql> [initrans integer] [maxtrans integer]
sql> storage(initial 200k next 200k pctincrease 0 maxextents 50)
sql> [logging|nologging] [cache|nocache]
sql> create table table_name (column datatype,column datatype]....)
sql> tablespace tablespace_name [pctfree integer] [pctused integer]
sql> [initrans integer] [maxtrans integer]
sql> storage(initial 200k next 200k pctincrease 0 maxextents 50)
sql> [logging|nologging] [cache|nocache]
2.copy an existing table
sql> create table table_name [logging|nologging] as subquery
sql> create table table_name [logging|nologging] as subquery
3.create temporary table
sql> create global temporary table xay_temp as select * from xay;
on commit preserve rows/on commit delete rows
sql> create global temporary table xay_temp as select * from xay;
on commit preserve rows/on commit delete rows
4.pctfree = (average row size - initial row size) *100 /average row size
pctused = 100-pctfree- (average row size*100/available data space)
pctused = 100-pctfree- (average row size*100/available data space)
5.change storage and block utilization parameter
sql> alter table table_name pctfree=30 pctused=50 storage(next 500k
sql> minextents 2 maxextents 100);
sql> alter table table_name pctfree=30 pctused=50 storage(next 500k
sql> minextents 2 maxextents 100);
6.manually allocating extents
sql> alter table table_name allocate extent(size 500k datafile 'c:/oracle/data.dbf');
sql> alter table table_name allocate extent(size 500k datafile 'c:/oracle/data.dbf');
7.move tablespace
sql> alter table employee move tablespace users;
sql> alter table employee move tablespace users;
8.deallocate of unused space
sql> alter table table_name deallocate unused [keep integer]
sql> alter table table_name deallocate unused [keep integer]
9.truncate a table
sql> truncate table table_name;
sql> truncate table table_name;
10.drop a table
sql> drop table table_name [cascade constraints];
sql> drop table table_name [cascade constraints];
11.drop a column
sql> alter table table_name drop column comments cascade constraints checkpoint 1000;
alter table table_name drop columns continue;
sql> alter table table_name drop column comments cascade constraints checkpoint 1000;
alter table table_name drop columns continue;
12.mark a column as unused
sql> alter table table_name set unused column comments cascade constraints;
alter table table_name drop unused columns checkpoint 1000;
alter table orders drop columns continue checkpoint 1000
data_dictionary : dba_unused_col_tabs
索引
sql> alter table table_name set unused column comments cascade constraints;
alter table table_name drop unused columns checkpoint 1000;
alter table orders drop columns continue checkpoint 1000
data_dictionary : dba_unused_col_tabs
索引
1.creating function-based indexes
sql> create index summit.item_quantity on summit.item(quantity-quantity_shipped);
sql> create index summit.item_quantity on summit.item(quantity-quantity_shipped);
2.create a B-tree index
sql> create [unique] index index_name on table_name(column,.. asc/desc) tablespace
sql> tablespace_name [pctfree integer] [initrans integer] [maxtrans integer]
sql> [logging | nologging] [nosort] storage(initial 200k next 200k pctincrease 0
sql> maxextents 50);
sql> create [unique] index index_name on table_name(column,.. asc/desc) tablespace
sql> tablespace_name [pctfree integer] [initrans integer] [maxtrans integer]
sql> [logging | nologging] [nosort] storage(initial 200k next 200k pctincrease 0
sql> maxextents 50);
3.pctfree(index)=(maximum number of rows-initial number of rows)*100/maximum number of rows
4.creating reverse key indexes
sql> create unique index xay_id on xay(a) reverse pctfree 30 storage(initial 200k
sql> next 200k pctincrease 0 maxextents 50) tablespace indx;
sql> create unique index xay_id on xay(a) reverse pctfree 30 storage(initial 200k
sql> next 200k pctincrease 0 maxextents 50) tablespace indx;
5.create bitmap index
sql> create bitmap index xay_id on xay(a) pctfree 30 storage( initial 200k next 200k
sql> pctincrease 0 maxextents 50) tablespace indx;
sql> create bitmap index xay_id on xay(a) pctfree 30 storage( initial 200k next 200k
sql> pctincrease 0 maxextents 50) tablespace indx;
6.change storage parameter of index
sql> alter index xay_id storage (next 400k maxextents 100);
sql> alter index xay_id storage (next 400k maxextents 100);
7.allocating index space
sql> alter index xay_id allocate extent(size 200k datafile 'c:/oracle/index.dbf');
sql> alter index xay_id allocate extent(size 200k datafile 'c:/oracle/index.dbf');
8.alter index xay_id deallocate unused;
約束
約束
1.define constraints as immediate or deferred
sql> alter session set constraint[s] = immediate/deferred/default;
set constraint[s] constraint_name/all immediate/deferred;
sql> alter session set constraint[s] = immediate/deferred/default;
set constraint[s] constraint_name/all immediate/deferred;
2. sql> drop table table_name cascade constraints
sql> drop tablespace tablespace_name including contents cascade constraints
sql> drop tablespace tablespace_name including contents cascade constraints
3. define constraints while create a table
sql> create table xay(id number(7) constraint xay_id primary key deferrable
sql> using index storage(initial 100k next 100k) tablespace indx);
primary key/unique/references table(column)/check
sql> create table xay(id number(7) constraint xay_id primary key deferrable
sql> using index storage(initial 100k next 100k) tablespace indx);
primary key/unique/references table(column)/check
4.enable constraints
sql> alter table xay enable novalidate constraint xay_id;
sql> alter table xay enable novalidate constraint xay_id;
5.enable constraints
sql> alter table xay enable validate constraint xay_id;
LOAD數據
sql> alter table xay enable validate constraint xay_id;
LOAD數據
1.loading data using direct_load insert
sql> insert /*+append */ into emp nologging
sql> select * from emp_old;
sql> insert /*+append */ into emp nologging
sql> select * from emp_old;
2.parallel direct-load insert
sql> alter session enable parallel dml;
sql> insert /*+parallel(emp,2) */ into emp nologging
sql> select * from emp_old;
sql> alter session enable parallel dml;
sql> insert /*+parallel(emp,2) */ into emp nologging
sql> select * from emp_old;
3.using sql*loader
sql> sqlldr scott/tiger /
sql> control = ulcase6.ctl /
sql> log = ulcase6.log direct=true
reorganizing data
sql> sqlldr scott/tiger /
sql> control = ulcase6.ctl /
sql> log = ulcase6.log direct=true
reorganizing data
1.using expoty
$exp scott/tiger tables(dept,emp) file=c:/emp.dmp log=exp.log compress=n direct=y
$exp scott/tiger tables(dept,emp) file=c:/emp.dmp log=exp.log compress=n direct=y
2.using import
$imp scott/tiger tables(dept,emp) file=emp.dmp log=imp.log ignore=y
$imp scott/tiger tables(dept,emp) file=emp.dmp log=imp.log ignore=y
3.transporting a tablespace
sql>alter tablespace sales_ts read only;
$exp sys/.. file=xay.dmp transport_tablespace=y tablespace=sales_ts
triggers=n constraints=n
$copy datafile
$imp sys/.. file=xay.dmp transport_tablespace=y datafiles=(/disk1/sles01.dbf,/disk2
/sles02.dbf)
sql> alter tablespace sales_ts read write;
sql>alter tablespace sales_ts read only;
$exp sys/.. file=xay.dmp transport_tablespace=y tablespace=sales_ts
triggers=n constraints=n
$copy datafile
$imp sys/.. file=xay.dmp transport_tablespace=y datafiles=(/disk1/sles01.dbf,/disk2
/sles02.dbf)
sql> alter tablespace sales_ts read write;
4.checking transport set
sql> DBMS_tts.transport_set_check(ts_list =>'sales_ts' ..,incl_constraints=>true);
在表transport_set_violations 中查看
sql> dbms_tts.isselfcontained 爲true 是, 表示自包含
managing password security and resources
sql> DBMS_tts.transport_set_check(ts_list =>'sales_ts' ..,incl_constraints=>true);
在表transport_set_violations 中查看
sql> dbms_tts.isselfcontained 爲true 是, 表示自包含
managing password security and resources
1.controlling account lock and password
sql> alter user juncky identified by oracle account unlock;
sql> alter user juncky identified by oracle account unlock;
2.user_provided password function
sql> function_name(userid in varchar2(30),password in varchar2(30),
old_password in varchar2(30)) return boolean
sql> function_name(userid in varchar2(30),password in varchar2(30),
old_password in varchar2(30)) return boolean
3.create a profile : password setting
sql> create profile grace_5 limit failed_login_attempts 3
sql> password_lock_time unlimited password_life_time 30
sql>password_reuse_time 30 password_verify_function verify_function
sql> password_grace_time 5;
sql> create profile grace_5 limit failed_login_attempts 3
sql> password_lock_time unlimited password_life_time 30
sql>password_reuse_time 30 password_verify_function verify_function
sql> password_grace_time 5;
4.altering a profile
sql> alter profile default failed_login_attempts 3
sql> password_life_time 60 password_grace_time 10;
sql> alter profile default failed_login_attempts 3
sql> password_life_time 60 password_grace_time 10;
5.drop a profile
sql> drop profile grace_5 [cascade];
sql> drop profile grace_5 [cascade];
6.create a profile : resource limit
sql> create profile developer_prof limit sessions_per_user 2
sql> cpu_per_session 10000 idle_time 60 connect_time 480;
sql> create profile developer_prof limit sessions_per_user 2
sql> cpu_per_session 10000 idle_time 60 connect_time 480;
7. view => resource_cost : alter resource cost
dba_Users,dba_profiles
dba_Users,dba_profiles
8. enable resource limits
sql> alter system set resource_limit=true;
Managing users
sql> alter system set resource_limit=true;
Managing users
1.create a user: database authentication
sql> create user juncky identified by oracle default tablespace users
sql> temporary tablespace temp quota 10m on data password expire
sql> [account lock|unlock] [profile profilename|default];
sql> create user juncky identified by oracle default tablespace users
sql> temporary tablespace temp quota 10m on data password expire
sql> [account lock|unlock] [profile profilename|default];
2.change user quota on tablespace
sql> alter user juncky quota 0 on users;
sql> alter user juncky quota 0 on users;
3.drop a user
sql> drop user juncky [cascade];
sql> drop user juncky [cascade];
4. monitor user
view: dba_users , dba_ts_quotas
managing privileges
view: dba_users , dba_ts_quotas
managing privileges
1.system privileges: view => system_privilege_map ,dba_sys_privs,session_privs
2.grant system privilege
sql> grant create session,create table to managers;
sql> grant create session to scott with admin option;
with admin option can grant or revoke privilege from any user or role;
sql> grant create session,create table to managers;
sql> grant create session to scott with admin option;
with admin option can grant or revoke privilege from any user or role;
3.sysdba and sysoper privileges:
sysoper: startup,shutdown,alter database open|mount,alter database backup controlfile,
alter tablespace begin/end backup,recover database
alter database archivelog,restricted session
sysdba: sysoper privileges with admin option,create database,recover database until
sysoper: startup,shutdown,alter database open|mount,alter database backup controlfile,
alter tablespace begin/end backup,recover database
alter database archivelog,restricted session
sysdba: sysoper privileges with admin option,create database,recover database until
4.password file members: view:=> v$pwfile_users
5.O7_dictionary_accessibility =true restriction access to view or tables in other schema
6.revoke system privilege
sql> revoke create table from karen;
sql> revoke create session from scott;
sql> revoke create table from karen;
sql> revoke create session from scott;
7.grant object privilege
sql> grant execute on dbms_pipe to public;
sql> grant update(first_name,salary) on employee to karen with grant option;
sql> grant execute on dbms_pipe to public;
sql> grant update(first_name,salary) on employee to karen with grant option;
8.display object privilege : view => dba_tab_privs, dba_col_privs
9.revoke object privilege
sql> revoke execute on dbms_pipe from scott [cascade constraints];
sql> revoke execute on dbms_pipe from scott [cascade constraints];
10.audit record view :=> sys.aud$
11. protecting the audit trail
sql> audit delete on sys.aud$ by access;
sql> audit delete on sys.aud$ by access;
12.statement auditing
sql> audit user;
sql> audit user;
13.privilege auditing
sql> audit select any table by summit by access;
sql> audit select any table by summit by access;
14.schema object auditing
sql> audit lock on summit.employee by access whenever successful;
sql> audit lock on summit.employee by access whenever successful;
15.view audit option : view=> all_def_audit_opts,dba_stmt_audit_opts,dba_priv_audit_opts,dba_obj_audit_opts
16.view audit result: view=> dba_audit_trail,dba_audit_exists,dba_audit_object,dba_audit_session,dba_audit_statement
manager role
manager role
1.create roles
sql> create role sales_clerk;
sql> create role hr_clerk identified by bonus;
sql> create role hr_manager identified externally;
sql> create role sales_clerk;
sql> create role hr_clerk identified by bonus;
sql> create role hr_manager identified externally;
2.modify role
sql> alter role sales_clerk identified by commission;
sql> alter role hr_clerk identified externally;
sql> alter role hr_manager not identified;
sql> alter role sales_clerk identified by commission;
sql> alter role hr_clerk identified externally;
sql> alter role hr_manager not identified;
3.assigning roles
sql> grant sales_clerk to scott;
sql> grant hr_clerk to hr_manager;
sql> grant hr_manager to scott with admin option;
sql> grant sales_clerk to scott;
sql> grant hr_clerk to hr_manager;
sql> grant hr_manager to scott with admin option;
4.establish default role
sql> alter user scott default role hr_clerk,sales_clerk;
sql> alter user scott default role all;
sql> alter user scott default role all except hr_clerk;
sql> alter user scott default role none;
sql> alter user scott default role hr_clerk,sales_clerk;
sql> alter user scott default role all;
sql> alter user scott default role all except hr_clerk;
sql> alter user scott default role none;
5.enable and disable roles
sql> set role hr_clerk;
sql> set role sales_clerk identified by commission;
sql> set role all except sales_clerk;
sql> set role none;
sql> set role hr_clerk;
sql> set role sales_clerk identified by commission;
sql> set role all except sales_clerk;
sql> set role none;
6.remove role from user
sql> revoke sales_clerk from scott;
sql> revoke hr_manager from public;
sql> revoke sales_clerk from scott;
sql> revoke hr_manager from public;
7.remove role
sql> drop role hr_manager;
sql> drop role hr_manager;
8.display role information
view: =>dba_roles,dba_role_privs,role_role_privs,dba_sys_privs,role_sys_privs,role_tab_privs,session_roles
BACKUP and RECOVERY
view: =>dba_roles,dba_role_privs,role_role_privs,dba_sys_privs,role_sys_privs,role_tab_privs,session_roles
BACKUP and RECOVERY
1. v$sga,v$instance,v$process,v$bgprocess,v$database,v$datafile,v$sgastat
2. Rman need set dbwr_IO_slaves or backup_tape_IO_slaves and large_pool_size
3. Monitoring Parallel Rollback
> v$fast_start_servers , v$fast_start_transactions
> v$fast_start_servers , v$fast_start_transactions
4.perform a closed database backup (noarchivelog)
> shutdown immediate
> cp files /backup/
> startup
> shutdown immediate
> cp files /backup/
> startup
5.restore to a different location
> connect system/manager as sysdba
> startup mount
> alter database rename file '/disk1/../user.dbf' to '/disk2/../user.dbf';
> alter database open;
> connect system/manager as sysdba
> startup mount
> alter database rename file '/disk1/../user.dbf' to '/disk2/../user.dbf';
> alter database open;
6.recover syntax
--recover a mounted database
>recover database;
>recover datafile '/disk1/data/df2.dbf';
>alter database recover database;
--recover an opened database
>recover tablespace user_data;
>recover datafile 2;
>alter database recover datafile 2;
--recover a mounted database
>recover database;
>recover datafile '/disk1/data/df2.dbf';
>alter database recover database;
--recover an opened database
>recover tablespace user_data;
>recover datafile 2;
>alter database recover datafile 2;
7.how to apply redo log files automatically
>set autorecovery on
>recover automatic datafile 4;
>set autorecovery on
>recover automatic datafile 4;
8.complete recovery:
--method 1(mounted databae)
>copy c:/backup/user.dbf c:/oradata/user.dbf
>startup mount
>recover datafile 'c:/oradata/user.dbf;
>alter database open;
--method 2(opened database,initially opened,not system or rollback datafile)
>copy c:/backup/user.dbf c:/oradata/user.dbf (alter tablespace offline)
>recover datafile 'c:/oradata/user.dbf' or
>recover tablespace user_data;
>alter database datafile 'c:/oradata/user.dbf' online or
>alter tablespace user_data online;
--method 3(opened database,initially closed not system or rollback datafile)
>startup mount
>alter database datafile 'c:/oradata/user.dbf' offline;
>alter database open
>copy c:/backup/user.dbf d:/oradata/user.dbf
>alter database rename file 'c:/oradata/user.dbf' to 'd:/oradata/user.dbf'
>recover datafile 'e:/oradata/user.dbf' or recover tablespace user_data;
>alter tablespace user_data online;
--method 4(loss of data file with no backup and have all archive log)
>alter tablespace user_data offline immediate;
>alter database create datafile 'd:/oradata/user.dbf' as 'c:/oradata/user.dbf''
>recover tablespace user_data;
>alter tablespace user_data online
5.perform an open database backup
> alter tablespace user_data begin backup;
> copy files /backup/
> alter database datafile '/c:/../data.dbf' end backup;
> alter system switch logfile;
6.backup a control file
> alter database backup controlfile to 'control1.bkp';
> alter database backup controlfile to trace;
7.recovery (noarchivelog mode)
> shutdown abort
> cp files
> startup
8.recovery of file in backup mode
>alter database datafile 2 end backup;
--method 1(mounted databae)
>copy c:/backup/user.dbf c:/oradata/user.dbf
>startup mount
>recover datafile 'c:/oradata/user.dbf;
>alter database open;
--method 2(opened database,initially opened,not system or rollback datafile)
>copy c:/backup/user.dbf c:/oradata/user.dbf (alter tablespace offline)
>recover datafile 'c:/oradata/user.dbf' or
>recover tablespace user_data;
>alter database datafile 'c:/oradata/user.dbf' online or
>alter tablespace user_data online;
--method 3(opened database,initially closed not system or rollback datafile)
>startup mount
>alter database datafile 'c:/oradata/user.dbf' offline;
>alter database open
>copy c:/backup/user.dbf d:/oradata/user.dbf
>alter database rename file 'c:/oradata/user.dbf' to 'd:/oradata/user.dbf'
>recover datafile 'e:/oradata/user.dbf' or recover tablespace user_data;
>alter tablespace user_data online;
--method 4(loss of data file with no backup and have all archive log)
>alter tablespace user_data offline immediate;
>alter database create datafile 'd:/oradata/user.dbf' as 'c:/oradata/user.dbf''
>recover tablespace user_data;
>alter tablespace user_data online
5.perform an open database backup
> alter tablespace user_data begin backup;
> copy files /backup/
> alter database datafile '/c:/../data.dbf' end backup;
> alter system switch logfile;
6.backup a control file
> alter database backup controlfile to 'control1.bkp';
> alter database backup controlfile to trace;
7.recovery (noarchivelog mode)
> shutdown abort
> cp files
> startup
8.recovery of file in backup mode
>alter database datafile 2 end backup;
9.clearing redo log file
>alter database clear unarchived logfile group 1;
>alter database clear unarchived logfile group 1 unrecoverable datafile;
>alter database clear unarchived logfile group 1;
>alter database clear unarchived logfile group 1 unrecoverable datafile;
10.redo log recovery
>alter database add logfile group 3 'c:/oradata/redo03.log' size 1000k;
>alter database drop logfile group 1;
>alter database open;
or >cp c:/oradata/redo02.log' c:/oradata/redo01.log
>alter database clear logfile 'c:/oradata/log01.log';(CCW)
>alter database add logfile group 3 'c:/oradata/redo03.log' size 1000k;
>alter database drop logfile group 1;
>alter database open;
or >cp c:/oradata/redo02.log' c:/oradata/redo01.log
>alter database clear logfile 'c:/oradata/log01.log';(CCW)