Oracle® Database Concepts 10g Release 2 (10.2) Part Number B14220-02 |
|
|
PDF · Mobi · ePub |
This chapter explains the procedures involved in starting and stopping an Oracle instance and database.
This chapter contains the following topics:
Every running Oracle database is associated with an Oracle instance. When a database is started on a database server (regardless of the type of computer), Oracle allocates a memory area called the System Global Area (SGA) and starts one or more Oracle processes. This combination of the SGA and the Oracle processes is called an Oracle instance. The memory and processes of an instance manage the associated database's data efficiently and serve the one or multiple users of the database.
Figure 12-1 shows an Oracle instance.
After starting an instance, Oracle associates the instance with the specified database. This is a mounted database. The database is then ready to be opened, which makes it accessible to authorized users.
Multiple instances can run concurrently on the same computer, each accessing its own physical database. In large-scale cluster systems, Real Application Clusters enables multiple instances to mount a single database.
Only the database administrator can start up an instance and open the database. If a database is open, then the database administrator can shut down the database so that it is closed. When a database is closed, users cannot access the information that it contains.
Security for database startup and shutdown is controlled through connections to Oracle with administrator privileges. Normal users do not have control over the current status of an Oracle database.
Database startup and shutdown are powerful administrative options and are restricted to users who connect to Oracle with administrator privileges. Depending on the operating system, one of the following conditions establishes administrator privileges for a user:
The user's operating system privileges allow him or her to connect using administrator privileges.
The user is granted the SYSDBA
or SYSOPER
privileges and the database uses password files to authenticate database administrators.
When you connect with SYSDBA
privileges, you are in the schema owned by SYS
. When you connect as SYSOPER
, you are in the public schema. SYSOPER
privileges are a subset of SYSDBA
privileges.
See Also:
Your operating system-specific Oracle documentation for more information about how administrator privileges work on your operating system
Chapter 20, "Database Security" for more information about password files and authentication schemes for database administrators
To start an instance, Oracle must read either an initialization parameter file or a server parameter file. These files contain a list of configuration parameters for that instance and database. Oracle traditionally stored initialization parameters in a text initialization parameter file. You can also choose to maintain initialization parameters in a binary server parameter file (SPFILE).
Initialization parameters stored in a server parameter file are persistent, in that any changes made to the parameters while an instance is running can persist across instance shutdown and startup.
Initialization parameters are divided into two groups: basic and advanced. In the majority of cases, it is necessary to set and tune only the basic parameters to get reasonable performance. In rare situations, modification to the advanced parameters may be needed for optimal performance.
Most initialization parameters belong to one of the following groups:
Parameters that name things, such as files
Parameters that set limits, such as maximums
Parameters that affect capacity, such as the size of the SGA, which are called variable parameters
Among other things, the initialization parameters tell Oracle:
The name of the database for which to start up an instance
How much memory to use for memory structures in the SGA
What to do with filled redo log files
The names of undo tablespaces in the database
See Also:
Oracle Database Administrator's GuideThe database administrator can adjust variable parameters to improve the performance of a database system. Exactly which parameters most affect a system depends on numerous database characteristics and variables.
Some parameters can be changed dynamically with the ALTER
SESSION
or ALTER
SYSTEM
statement while the instance is running. Unless you are using a server parameter file (SPFILE
), changes made using the ALTER
SYSTEM
statement are only in effect for the current instance. You must manually update the text initialization parameter file for the changes to be known the next time you start up an instance. When you use a SPFILE, you can update the parameters on disk, so that changes persist across database shutdown and startup.
Oracle provides values in the starter initialization parameter file provided with your database software, or as created for you by the Database Configuration Assistant. You can edit these Oracle-supplied initialization parameters and add others, depending upon your configuration and options and how you plan to tune the database. For any relevant initialization parameters not specifically included in the initialization parameter file, Oracle supplies defaults. If you are creating an Oracle database for the first time, it is suggested that you minimize the number of parameter values that you alter.
See Also:
Oracle Database Administrator's Guide for a discussion of initialization parameters and the use of a server parameter file
Oracle Database Reference for descriptions of all initialization parameters
"The SGA_MAX_SIZE Initialization Parameter" for information about parameters that affect the SGA
The three steps to starting an Oracle database and making it available for systemwide use are:
Start an instance.
Mount the database.
Open the database.
A database administrator can perform these steps using the SQL*Plus STARTUP
statement or Enterprise Manager.
See Also:
Oracle Database 2 Day DBAWhen Oracle starts an instance, it reads the server parameter file (SPFILE) or initialization parameter file to determine the values of initialization parameters. Then, it allocates an SGA, which is a shared area of memory used for database information, and creates background processes. At this point, no database is associated with these memory structures and processes.
See Also:
Chapter 8, "Memory Architecture" for information about the SGA
Chapter 9, "Process Architecture" for information about background processes
You can start an instance in restricted mode (or later alter an existing instance to be in restricted mode). This restricts connections to only those users who have been granted the RESTRICTED
SESSION
system privilege.
In unusual circumstances, a previous instance might not have been shut down cleanly. For example, one of the instance's processes might not have terminated properly. In such situations, the database can return an error during normal instance startup. To resolve this problem, you must terminate all remnant Oracle processes of the previous instance before starting the new instance.
The instance mounts a database to associate the database with that instance. To mount the database, the instance finds the database control files and opens them. Control files are specified in the CONTROL_FILES
initialization parameter in the parameter file used to start the instance. Oracle then reads the control files to get the names of the database's datafiles and redo log files.
At this point, the database is still closed and is accessible only to the database administrator. The database administrator can keep the database closed while completing specific maintenance operations. However, the database is not yet available for normal operations.
If Oracle allows multiple instances to mount the same database concurrently, then the database administrator can use the CLUSTER_DATABASE
initialization parameter to make the database available to multiple instances. The default value of the CLUSTER_DATABASE
parameter is false
. Versions of Oracle that do not support Real Application Clusters only allow CLUSTER_DATABASE
to be false
.
If CLUSTER_DATABASE
is false
for the first instance that mounts a database, then only that instance can mount the database. If CLUSTER_DATABASE
is set to true
on the first instance, then other instances can mount the database if their CLUSTER_DATABASE
parameters are set to true
. The number of instances that can mount the database is subject to a predetermined maximum, which you can specify when creating the database.
See Also:
for more information about the use of multiple instances with a single database
A standby database maintains a duplicate copy of your primary database and provides continued availability in the event of a disaster.
The standby database is constantly in recovery mode. To maintain your standby database, you must mount it in standby mode using the ALTER
DATABASE
statement and apply the archived redo logs that your primary database generates.
You can open a standby database in read-only mode to use it as a temporary reporting database. You cannot open a standby database in read/write mode.
See Also:
"Open a Database in Read-Only Mode" for information about opening a standby database in read-only mode
A clone database is a specialized copy of a database that can be used for tablespace point-in-time recovery. When you perform tablespace point-in-time recovery, you mount the clone database and recover the tablespaces to the desired time, then export metadata from the clone to the primary database and copy the datafiles from the recovered tablespaces.
See Also:
Oracle Database Backup and Recovery Advanced User's Guide for information about clone databases and tablespace point-in-time recoveryOpening a mounted database makes it available for normal database operations. Any valid user can connect to an open database and access its information. Usually, a database administrator opens the database to make it available for general use.
When you open the database, Oracle opens the online datafiles and redo log files. If a tablespace was offline when the database was previously shut down, the tablespace and its corresponding datafiles will still be offline when you reopen the database.
If any of the datafiles or redo log files are not present when you attempt to open the database, then Oracle returns an error. You must perform recovery on a backup of any damaged or missing files before you can open the database.
See Also:
"Online and Offline Tablespaces" for information about opening an offline tablespaceIf the database was last closed abnormally, either because the database administrator terminated its instance or because of a power failure, then Oracle automatically performs recovery when the database is reopened.
When you open the database, the instance attempts to acquire one or more undo tablespaces. You determine whether to operate in automatic undo management mode or manual undo management mode at instance startup using the UNDO_MANAGEMENT
initialization parameter. The supported values are AUTO
or MANUAL
. If AUTO
, then the instance is started in automatic undo management mode. The default value is MANUAL
.
If you use the undo tablespace method, then you are using automatic undo management mode. This is recommended.
If you use the rollback segment method of managing undo space, then you are using manual undo management mode.
See Also:
"Introduction to Automatic Undo Management" for more information about managing undo space.Occasionally a database closes abnormally with one or more distributed transactions in doubt (neither committed nor rolled back). When you reopen the database and recovery is complete, the RECO background process automatically, immediately, and consistently resolves any in-doubt distributed transactions.
See Also:
Oracle Database Administrator's Guide for information about recovery from distributed transaction failuresYou can open any database in read-only mode to prevent its data from being modified by user transactions. Read-only mode restricts database access to read-only transactions, which cannot write to the datafiles or to the redo log files.
Disk writes to other files, such as control files, operating system audit trails, trace files, and alert logs, can continue in read-only mode. Temporary tablespaces for sort operations are not affected by the database being open in read-only mode. However, you cannot take permanent tablespaces offline while a database is open in read-only mode. Also, job queues are not available in read-only mode.
Read-only mode does not restrict database recovery or operations that change the database's state without generating redo data. For example, in read-only mode:
Datafiles can be taken offline and online
Offline datafiles and tablespaces can be recovered
The control file remains available for updates about the state of the database
One useful application of read-only mode is that standby databases can function as temporary reporting databases.
See Also:
Oracle Database Administrator's Guide for information about how to open a database in read-only modeThe three steps to shutting down a database and its associated instance are:
Close the database.
Unmount the database.
Shut down the instance.
A database administrator can perform these steps using Enterprise Manager. Oracle automatically performs all three steps whenever an instance is shut down.
See Also:
Oracle Database 2 Day DBAWhen you close a database, Oracle writes all database data and recovery data in the SGA to the datafiles and redo log files, respectively. Next, Oracle closes all online datafiles and redo log files. (Any offline datafiles of any offline tablespaces have been closed already. If you subsequently reopen the database, any tablespace that was offline and its datafiles remain offline and closed, respectively.) At this point, the database is closed and inaccessible for normal operations. The control files remain open after a database is closed but still mounted.
In rare emergency situations, you can terminate the instance of an open database to close and completely shut down the database instantaneously. This process is fast, because the operation of writing all data in the buffers of the SGA to the datafiles and redo log files is skipped. The subsequent reopening of the database requires recovery, which Oracle performs automatically.
After the database is closed, Oracle unmounts the database to disassociate it from the instance. At this point, the instance remains in the memory of your computer.
After a database is unmounted, Oracle closes the control files of the database.
The final step in database shutdown is shutting down the instance. When you shut down an instance, the SGA is removed from memory and the background processes are terminated.
In unusual circumstances, shutdown of an instance might not occur cleanly; all memory structures might not be removed from memory or one of the background processes might not be terminated. When remnants of a previous instance exist, a subsequent instance startup most likely will fail. In such situations, the database administrator can force the new instance to start up by first removing the remnants of the previous instance and then starting a new instance, or by issuing a SHUTDOWN
ABORT
statement in SQL*Plus or using Enterprise Manager.
See Also:
Oracle Database Administrator's Guide for more detailed information about instance and database startup and shutdown