Skip Headers

Oracle® Database Administrator's Guide
10g Release 1 (10.1)

Part Number B10739-01
Go to Documentation Home
Home
Go to Book List
Book List
Go to Table of Contents
Contents
Go to Index
Index
Go to Master Index
Master Index
Go to Feedback page
Feedback

Go to previous page
Previous
Go to next page
Next
View PDF

3 Starting Up and Shutting Down

This chapter describes the procedures for starting up and shutting down an Oracle Database instance and contains the following topics:

Starting Up a Database

When you start up a database, you create an instance of that database and you determine the state of the database. Normally, you start up an instance by mounting and opening the database. Doing so makes the database available for any valid user to connect to and perform typical data access operations. Other options exist, and these are also discussed in this section.

This section contains the following topics relating to starting up an instance of a database:

Options for Starting Up a Database

You can start up and administer an instance of your database if several says, as described in the sections that follow.

Starting Up a Database Using SQL*Plus

You can start a SQL*Plus session, connect to Oracle Database with administrator privileges, and then issue the STARTUP command. Using SQL*Plus in this way is the only method described in detail in this book.

Starting Up a Database Using Recovery Manager

You can also use Recovery Manager (RMAN) to execute STARTUP and SHUTDOWN commands. You may prefer to do this if your are within the RMAN environment and do not want to invoke SQL*Plus.


See Also:

Oracle Database Backup and Recovery Basics for information on starting up the database using RMAN

Starting Up a Database Using Oracle Enterprise Manager

You can use Oracle Enterprise Manager (EM) to administer your database, including starting it up and shutting it down. Enterprise Manager is a separate Oracle product that combines a GUI console, agents, common services, and tools to provide an integrated and comprehensive systems management platform for managing Oracle products. EM enables you to perform the functions discussed in this book using a GUI interface, rather than command line operations.

The remainder of this section describes using SQL*Plus to start up a database instance.

Preparing to Start an Instance

You must perform some preliminary steps before attempting to start an instance of your database using SQL*Plus.

  1. Start SQL*Plus without connecting to the database:

    SQLPLUS /NOLOG
    
    
  2. Connect to Oracle Database as SYSDBA:

    CONNECT username/password AS SYSDBA
    
    

Now you are connected to the database and ready to start up an instance of your database.


See Also:

SQL*Plus User's Guide and Reference for descriptions and syntax for the CONNECT, STARTUP, and SHUTDOWN commands. These commands are SQL*Plus commands.

Using SQL*Plus to Start Up a Database

You use the SQL*Plus STARTUP command to start up an Oracle Database instance. To start an instance, the database must read instance configuration parameters (the initialization parameters) from either a server parameter file or a traditional text initialization parameter file.

When you issue the STARTUP command, by default, the database reads the initialization parameters from a server parameter file (SPFILE) in a platform-specific default location. If you have not created a server parameter file, or if you wish to use a traditional text parameter file instead, you must specify the PFILE clause of the STARTUP command to identify the initialization parameter file.


Note:

For UNIX, the platform-specific default location (directory) for the server parameter file (or text initialization parameter file) is:
$ORACLE_HOME/dbs 

For Windows NT and Windows 2000 the location is:

%ORACLE_HOME%\database

In the platform-specific default location, Oracle Database locates your initialization parameter file by examining filenames in the following order:

  1. spfile$ORACLE_SID.ora

  2. spfile.ora

  3. init$ORACLE_SID.ora


    Note:

    The spfile.ora file is included in this search path because in a Real Application Clusters environment one server parameter file is used to store the initialization parameter settings for all instances. There is no instance-specific location for storing a server parameter file.

    For more information about the server parameter file for a Real Application Clusters environment, see Oracle Real Application Clusters Administrator's Guide.


You can direct the database to read initialization parameters from a traditional text initialization parameter file, by using the PFILE clause of the STARTUP command. For example:

STARTUP PFILE = /u01/oracle/dbs/init.ora

It is not usually necessary to start an instance with a nondefault server parameter file. However, should such a need arise, you can use this PFILE clause to start an instance with a nondefault server parameter file as follows:

  1. Create a one-line text initialization parameter file that contains only the SPFILE parameter. The value of the parameter is the nondefault server parameter file location.

    For example, create a text initialization parameter file /u01/oracle/dbs/spf_init.ora that contains only the following parameter:

    SPFILE = /u01/oracle/dbs/test_spfile.ora
    

    Note:

    You cannot use the IFILE initialization parameter within a text initialization parameter file to point to a server parameter file. In this context, you must use the SPFILE initialization parameter.

  2. Start up the instance pointing to this initialization parameter file.

    STARTUP PFILE = /u01/oracle/dbs/spf_init.ora
    
    

The server parameter file must reside on the machine running the database server. Therefore, the preceding method also provides a means for a client machine to start a database that uses a server parameter file. It also eliminates the need for a client machine to maintain a client-side initialization parameter file. When the client machine reads the initialization parameter file containing the SPFILE parameter, it passes the value to the server where the specified server parameter file is read.

You can start an instance in various modes:

  • Start the instance without mounting a database. This does not allow access to the database and usually would be done only for database creation or the re-creation of control files.

  • Start the instance and mount the database, but leave it closed. This state allows for certain DBA activities, but does not allow general access to the database.

  • Start the instance, and mount and open the database. This can be done in unrestricted mode, allowing access to all users, or in restricted mode, allowing access for database administrators only.


    Note:

    You cannot start a database instance if you are connected to the database through a shared server process.

In addition, you can force the instance to start, or start the instance and have complete media recovery begin immediately. The STARTUP command clauses that you specify to achieve these states are illustrated in the following section.


See Also:

Chapter 2, " Creating an Oracle Database", for more information about initialization parameters, initialization parameter files, and server parameter files

Starting an Instance: Scenarios

The following scenarios describe and illustrate the various states in which you can start up an instance. Some restrictions apply when combining clauses of the STARTUP command.


Note:

It is possible to encounter problems starting up an instance if control files, database files, or redo log files are not available. If one or more of the files specified by the CONTROL_FILES initialization parameter does not exist or cannot be opened when you attempt to mount a database, Oracle Database returns a warning message and does not mount the database. If one or more of the datafiles or redo log files is not available or cannot be opened when attempting to open a database, the database returns a warning message and does not open the database.


See Also:

SQL*Plus User's Guide and Reference for information about the restrictions that apply when combining clauses of the STARTUP command

Starting an Instance, and Mounting and Opening a Database

Normal database operation means that an instance is started and the database is mounted and open. This mode allows any valid user to connect to the database and perform typical data access operations.

Start an instance, read the initialization parameters from the default server parameter file location, and then mount and open the database by using the STARTUP command by itself (you can, of course, optionally specify the PFILE clause):

STARTUP

Starting an Instance Without Mounting a Database

You can start an instance without mounting a database. Typically, you do so only during database creation. Use the STARTUP command with the NOMOUNT clause:

STARTUP NOMOUNT 

Starting an Instance and Mounting a Database

You can start an instance and mount a database without opening it, allowing you to perform specific maintenance operations. For example, the database must be mounted but not open during the following tasks:

Start an instance and mount the database, but leave it closed by using the STARTUP command with the MOUNT clause:

STARTUP MOUNT

Restricting Access to an Instance at Startup

You can start an instance, and optionally mount and open a database, in restricted mode so that the instance is available only to administrative personnel (not general database users). Use this mode of instance startup when you need to accomplish one of the following tasks:

  • Perform an export or import of database data

  • Perform a data load (with SQL*Loader)

  • Temporarily prevent typical users from using data

  • During certain migration and upgrade operations

Typically, all users with the CREATE SESSION system privilege can connect to an open database. Opening a database in restricted mode allows database access only to users with both the CREATE SESSION and RESTRICTED SESSION system privilege. Only database administrators should have the RESTRICTED SESSION system privilege. Further, when the instance is in restricted mode, a database administrator cannot access the instance remotely through an Oracle Net listener, but can only access the instance locally from the machine that the instance is running on.

Start an instance (and, optionally, mount and open the database) in restricted mode by using the STARTUP command with the RESTRICT clause:

STARTUP RESTRICT

Later, use the ALTER SYSTEM statement to disable the RESTRICTED SESSION feature:

ALTER SYSTEM DISABLE RESTRICTED SESSION;

If you open the database in nonrestricted mode and later find you need to restrict access, you can use the ALTER SYSTEM statement to do so, as described in "Restricting Access to an Open Database".


See Also:

Oracle Database SQL Reference for more information on the ALTER SYSTEM statement

Forcing an Instance to Start

In unusual circumstances, you might experience problems when attempting to start a database instance. You should not force a database to start unless you are faced with the following:

  • You cannot shut down the current instance with the SHUTDOWN NORMAL, SHUTDOWN IMMEDIATE, or SHUTDOWN TRANSACTIONAL commands.

  • You experience problems when starting an instance.

If one of these situations arises, you can usually solve the problem by starting a new instance (and optionally mounting and opening the database) using the STARTUP command with the FORCE clause:

STARTUP FORCE

If an instance is running, STARTUP FORCE shuts it down with mode ABORT before restarting it.


See Also:

"Shutting Down with the ABORT Clause" to understand the side effects of aborting the current instance

Starting an Instance, Mounting a Database, and Starting Complete Media Recovery

If you know that media recovery is required, you can start an instance, mount a database to the instance, and have the recovery process automatically start by using the STARTUP command with the RECOVER clause:

STARTUP OPEN RECOVER

If you attempt to perform recovery when no recovery is required, Oracle Database issues an error message.

Automatic Database Startup at Operating System Start

Many sites use procedures to enable automatic startup of one or more Oracle Database instances and databases immediately following a system start. The procedures for performing this task are specific to each operating system. For information about automatic startup, see your operating system specific Oracle documentation.

Starting Remote Instances

If your local Oracle Database server is part of a distributed database, you might want to start a remote instance and database. Procedures for starting and stopping remote instances vary widely depending on communication protocol and operating system.

Altering Database Availability

You can alter the availability of a database. You may want to do this in order to restrict access for maintenance reasons or to make the database read only. The following sections explain how to alter the availability of a database:

Mounting a Database to an Instance

When you need to perform specific administrative operations, the database must be started and mounted to an instance, but closed. You can achieve this scenario by starting the instance and mounting the database.

To mount a database to a previously started, but not opened instance, use the SQL statement ALTER DATABASE with the MOUNT clause as follows:

ALTER DATABASE MOUNT;

See Also:

"Starting an Instance and Mounting a Database" for a list of operations that require the database to be mounted and closed (and procedures to start an instance and mount a database in one step)

Opening a Closed Database

You can make a mounted but closed database available for general use by opening the database. To open a mounted database, use the ALTER DATABASE statement with the OPEN clause:

ALTER DATABASE OPEN;

After executing this statement, any valid Oracle Database user with the CREATE SESSION system privilege can connect to the database.

Opening a Database in Read-Only Mode

Opening a database in read-only mode enables you to query an open database while eliminating any potential for online data content changes. While opening a database in read-only mode guarantees that datafile and redo log files are not written to, it does not restrict database recovery or operations that change the state of the database without generating redo. For example, you can take datafiles offline or bring them online since these operations do not affect data content.

If a query against a database in read-only mode uses temporary tablespace, for example to do disk sorts, then the issuer of the query must have a locally managed tablespace assigned as the default temporary tablespace. Otherwise, the query will fail. This is explained in "Creating a Locally Managed Temporary Tablespace".

Ideally, you open a database in read-only mode when you alternate a standby database between read-only and recovery mode. Be aware that these are mutually exclusive modes.

The following statement opens a database in read-only mode:

ALTER DATABASE OPEN READ ONLY;

You can also open a database in read/write mode as follows:

ALTER DATABASE OPEN READ WRITE;

However, read/write is the default mode.


Note:

You cannot use the RESETLOGS clause with a READ ONLY clause.


See Also:

Oracle Database SQL Reference for more information about the ALTER DATABASE statement

Restricting Access to an Open Database

To place an instance in restricted mode, where only users with administrative privileges can access it, use the SQL statement ALTER SYSTEM with the ENABLE RESTRICTED SESSION clause. After placing an instance in restricted mode, you should consider killing all current user sessions before performing any administrative tasks.

To lift an instance from restricted mode, use ALTER SYSTEM with the DISABLE RESTRICTED SESSION clause.


See Also:


Shutting Down a Database

To initiate database shutdown, use the SQL*Plus SHUTDOWN command. Control is not returned to the session that initiates a database shutdown until shutdown is complete. Users who attempt connections while a shutdown is in progress receive a message like the following:

ORA-01090: shutdown in progress - connection is not permitted

Note:

You cannot shut down a database if you are connected to the database through a shared server process.

To shut down a database and instance, you must first connect as SYSOPER or SYSDBA. There are several modes for shutting down a database. These are discussed in the following sections:

Shutting Down with the NORMAL Clause

To shut down a database in normal situations, use the SHUTDOWN command with the NORMAL clause:

SHUTDOWN NORMAL

Normal database shutdown proceeds with the following conditions:

  • No new connections are allowed after the statement is issued.

  • Before the database is shut down, the database waits for all currently connected users to disconnect from the database.

The next startup of the database will not require any instance recovery procedures.

Shutting Down with the IMMEDIATE Clause

Use immediate database shutdown only in the following situations:

  • To initiate an automated and unattended backup

  • When a power shutdown is going to occur soon

  • When the database or one of its applications is functioning irregularly and you cannot contact users to ask them to log off or they are unable to log off

To shut down a database immediately, use the SHUTDOWN command with the IMMEDIATE clause:

SHUTDOWN IMMEDIATE

Immediate database shutdown proceeds with the following conditions:

  • No new connections are allowed, nor are new transactions allowed to be started, after the statement is issued.

  • Any uncommitted transactions are rolled back. (If long uncommitted transactions exist, this method of shutdown might not complete quickly, despite its name.)

  • Oracle Database does not wait for users currently connected to the database to disconnect. The database implicitly rolls back active transactions and disconnects all connected users.

The next startup of the database will not require any instance recovery procedures.

Shutting Down with the TRANSACTIONAL Clause

When you want to perform a planned shutdown of an instance while allowing active transactions to complete first, use the SHUTDOWN command with the TRANSACTIONAL clause:

SHUTDOWN TRANSACTIONAL

Transactional database shutdown proceeds with the following conditions:

  • No new connections are allowed, nor are new transactions allowed to be started, after the statement is issued.

  • After all transactions have completed, any client still connected to the instance is disconnected.

  • At this point, the instance shuts down just as it would when a SHUTDOWN IMMEDIATE statement is submitted.

The next startup of the database will not require any instance recovery procedures.

A transactional shutdown prevents clients from losing work, and at the same time, does not require all users to log off.

Shutting Down with the ABORT Clause

You can shut down a database instantaneously by aborting the database instance. If possible, perform this type of shutdown only in the following situations:

The database or one of its applications is functioning irregularly and none of the other types of shutdown works.

  • You need to shut down the database instantaneously (for example, if you know a power shutdown is going to occur in one minute).

  • You experience problems when starting a database instance.

When you must do a database shutdown by aborting transactions and user connections, issue the SHUTDOWN command with the ABORT clause:

SHUTDOWN ABORT

An aborted database shutdown proceeds with the following conditions:

  • No new connections are allowed, nor are new transactions allowed to be started, after the statement is issued.

  • Current client SQL statements being processed by Oracle Database are immediately terminated.

  • Uncommitted transactions are not rolled back.

  • Oracle Database does not wait for users currently connected to the database to disconnect. The database implicitly disconnects all connected users.

The next startup of the database will require instance recovery procedures.

Quiescing a Database

Occasionally you might want to put a database in a state that allows only DBA transactions, queries, fetches, or PL/SQL statements. Such a state is referred to as a quiesced state, in the sense that no ongoing non-DBA transactions, queries, fetches, or PL/SQL statements are running in the system.


Note:

In this discussion of quiesce database, a DBA is defined as user SYS or SYSTEM. Other users, including those with the DBA role, are not allowed to issue the ALTER SYSTEM QUIESCE DATABASE statement or proceed after the database is quiesced.

The quiesced state lets administrators perform actions that cannot safely be done otherwise. These actions include:

Without the ability to quiesce the database, you would need to shut down the database and reopen it in restricted mode. This is a serious restriction, especially for systems requiring 24 x 7 availability. Quiescing a database is much a smaller restriction, because it eliminates the disruption to users and the downtime associated with shutting down and restarting the database.

To be able to quiesce the database, you must have the Database Resource Manager feature activated, and it must have been activated since the current instance (or all instances in an Oracle Real Application Clusters environment) started up. It is through the facilities of the Database Resource Manager that non-DBA sessions are prevented from becoming active. Also, while this statement is in effect, any attempt to change the current resource plan will be queued until after the system is unquiesced. Please refer to Chapter 24, " Using the Database Resource Manager" for more information about the Database Resource Manager.

Placing a Database into a Quiesced State

To place a database into a quiesced state, issue the following statement:

ALTER SYSTEM QUIESCE RESTRICTED;

Non-DBA active sessions will continue until they become inactive. An active session is one that is currently inside of a transaction, a query, a fetch, or a PL/SQL statement; or a session that is currently holding any shared resources (for example, enqueues). No inactive sessions are allowed to become active. For example, If a user issues a SQL query in an attempt to force an inactive session to become active, the query will appear to be hung. When the database is later unquiesced, the session is resumed, and the blocked action is processed.

Once all non-DBA sessions become inactive, the ALTER SYSTEM QUIESCE RESTRICTED statement completes, and the database is in a quiesced state. In an Oracle Real Application Clusters environment, this statement affects all instances, not just the one that issues the statement.

The ALTER SYSTEM QUIESCE RESTRICTED statement may wait a long time for active sessions to become inactive. If you interrupt the request, or if your session terminates abnormally before all active sessions are quiesced, then Oracle Database will automatically reverses any partial effects of the statement.

For queries that are carried out by successive multiple Oracle Call Interface (OCI) fetches, the ALTER SYSTEM QUIESCE RESTRICTED statement does not wait for all fetches to finish. It only waits for the current fetch to finish.

For both dedicated and shared server connections, all non-DBA logins after this statement is issued are queued by the Database Resource Manager, and are not allowed to proceed. To the user, it appears as if the login is hung. The login will resume when the database is unquiesced.

The database remains in the quiesced state even if the session that issued the statement exits. A DBA must log in to the database to issue the statement that specifically unquiesces the database.


Note:

You cannot perform a cold backup when the database is in the quiesced state, because Oracle Database background processes may still perform updates for internal purposes even while the database is quiesced. In addition, the file headers of online datafiles continue to appear to be accessible. They do not look the same as if a clean shutdown had been performed. However, you can still take online backups while the database is in a quiesced state.

Restoring the System to Normal Operation

The following statement restores the database to normal operation:

ALTER SYSTEM UNQUIESCE;

All non-DBA activity is allowed to proceed. In an Oracle Real Application Clusters environment, this statement is not required to be issued from the same session, or even the same instance, as that which quiesced the database. If the session issuing the ALTER SYSTEM UNQUIESCE statement terminates abnormally, then the Oracle Database server ensures that the unquiesce operation completes.

Viewing the Quiesce State of an Instance

You can query the ACTIVE_STATE column of the V$INSTANCE view to see the current state of an instance. The column values has one of these values:

  • NORMAL: Normal unquiesed state.

  • QUIESCING: Being quiesced, but some non-DBA sessions are still active.

  • QUIESCED: Quiesced; no non-DBA sessions are active or allowed.

Suspending and Resuming a Database

The ALTER SYSTEM SUSPEND statement halts all input and output (I/O) to datafiles (file header and file data) and control files. The suspended state lets you back up a database without I/O interference. When the database is suspended all preexisting I/O operations are allowed to complete and any new database accesses are placed in a queued state.

The suspend command is not specific to an instance. In an Oracle Real Application Clusters environment, when you issue the suspend command on one system, internal locking mechanisms propagate the halt request across instances, thereby quiescing all active instances in a given cluster. However, if someone starts a new instance another instance is being suspended, the new instance will not be suspended.

Use the ALTER SYSTEM RESUME statement to resume normal database operations. The SUSPEND and RESUME commands can be issued from different instances. For example, if instances 1, 2, and 3 are running, and you issue an ALTER SYSTEM SUSPEND statement from instance 1, then you can issue a RESUME statement from instance 1, 2, or 3 with the same effect.

The suspend/resume feature is useful in systems that allow you to mirror a disk or file and then split the mirror, providing an alternative backup and restore solution. If you use a system that is unable to split a mirrored disk from an existing database while writes are occurring, then you can use the suspend/resume feature to facilitate the split.

The suspend/resume feature is not a suitable substitute for normal shutdown operations, because copies of a suspended database can contain uncommitted updates.


Caution:

Do not use the ALTER SYSTEM SUSPEND statement as a substitute for placing a tablespace in hot backup mode. Precede any database suspend operation by an ALTER TABLESPACE BEGIN BACKUP statement.

The following statements illustrate ALTER SYSTEM SUSPEND/RESUME usage. The V$INSTANCE view is queried to confirm database status.

SQL> ALTER SYSTEM SUSPEND;
System altered
SQL> SELECT DATABASE_STATUS FROM V$INSTANCE;
DATABASE_STATUS
---------
SUSPENDED

SQL> ALTER SYSTEM RESUME;
System altered
SQL> SELECT DATABASE_STATUS FROM V$INSTANCE;
DATABASE_STATUS
---------
ACTIVE

See Also:

Oracle Database Backup and Recovery Advanced User's Guide for details about backing up a database using the database suspend/resume feature