Oracle® Database Installation Guide 10g Release 2 (10.2) for Solaris Operating System (SPARC 64-Bit) Part Number B15690-02 |
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This chapter describes the tasks that you must complete before you start Oracle Universal Installer. It includes information about the following tasks:
Choosing a Storage Option for Oracle Database and Recovery Files
Preparing Disk Groups for an Automatic Storage Management Installation
Before you install the Oracle software, you must complete several tasks as the root
user. To log in as the root
user, complete one of the following procedures:
Note:
Unless you intend to complete a silent-mode installation, you must install the software from an X Window System workstation, an X terminal, or a PC or other system with X server software installed.For more information about silent-mode installations, refer to Appendix A.
If you are installing the software from an X Window System workstation or X terminal, then:
Start a local terminal session, for example, an X terminal (xterm
).
If you are not installing the software on the local system, then enter the following command to enable the remote host to display X applications on the local X server:
$ xhost fully_qualified_remote_host_name
For example:
$ xhost somehost.us.acme.com
If you are not installing the software on the local system, then use the ssh
, rlogin
, or telnet
command to connect to the system where you want to install the software:
$ telnet fully_qualified_remote_host_name
If you are not logged in as the root
user, then enter the following command to switch user to root
:
$ su - root password: #
If you are installing the software from a PC or other system with X server software installed, then:
Note:
If necessary, refer to your X server documentation for more information about completing this procedure. Depending on the X server software that you are using, you may need to complete the tasks in a different order.Start the X server software.
Configure the security settings of the X server software to permit remote hosts to display X applications on the local system.
Connect to the remote system where you want to install the software and start a terminal session on that system, for example, an X terminal (xterm
).
If you are not logged in as the root
user on the remote system, then enter the following command to switch user to root
:
$ su - root password: #
The system must meet the following minimum hardware requirements:
At least 1024 MB of physical RAM
The following table describes the relationship between installed RAM and the configured swap space requirement.
RAM | Swap Space |
---|---|
Between 1024 MB and 2048 MB | 1.5 times the size of RAM |
Between 2049 MB and 8192 MB | Equal to the size of RAM |
More than 8192 MB | 0.75 times the size of RAM |
400 MB of disk space in the /tmp
directory
Between 1.5 GB and 3.5 GB of disk space for the Oracle software, depending on the installation type
1.2 GB of disk space for a preconfigured database that uses file system storage (optional)
Note:
The disk space requirement for databases that use Automatic Storage Management or raw device storage is described later in this chapter.Additional disk space, either on a file system or in an Automatic Storage Management disk group, is required for the flash recovery area if you choose to configure automated backups.
To ensure that the system meets these requirements:
To determine the physical RAM size, enter the following command:
# /usr/sbin/prtconf | grep "Memory size"
If the size of the physical RAM is less than the required size, then you must install more memory before continuing.
To determine the size of the configured swap space, enter the following command:
# /usr/sbin/swap -s
If necessary, refer to the operating system documentation for information about how to configure additional swap space.
To determine the amount of disk space available in the /tmp
directory, enter the following command:
# df -k /tmp # df -h /tmp (on Solaris 10)
If there is less than 400 MB of free disk space available in the /tmp
directory, then complete one of the following steps:
Delete unnecessary files from the /tmp
directory to meet the disk space requirement.
Set the TMP
and TMPDIR
environment variables when setting the oracle
user's environment (described later).
Extend the file system that contains the /tmp
directory. If necessary, contact your system administrator for information about extending file systems.
To determine the amount of free disk space on the system, enter the following command:
# df -k # df -h (on Solaris 10)
The following table shows the approximate disk space requirements for software files for each installation type:
Installation Type | Requirement for Software Files (GB) |
---|---|
Enterprise Edition | 2.0 |
Standard Edition | 1.5 |
Custom (maximum) | 2.5 |
To determine whether the system architecture can run the software, enter the following command:
# /bin/isainfo -kv
Note:
The following is the expected output of this command:64-bit sparcv9 kernel modules
If you do not see the expected output, then you cannot install the software on this system.
Depending on the products that you intend to install, verify that the following software is installed on the system. The procedure following the table describes how to verify whether these requirements are addressed.
Note:
Oracle Universal Installer performs checks on your system to verify that it meets the listed requirements. To ensure that these checks pass, verify the requirements before you start Oracle Universal Installer.Item | Requirement |
---|---|
Operating system | One of the following 64-bit operating system versions:
|
Packages |
SUNWarc SUNWbtool SUNWhea SUNWlibm SUNWlibms SUNWsprot SUNWtoo SUNWi1of SUNWi1cs SUNWi15cs SUNWxwfnt SUNWsproxNote: You may also require additional font packages for Java, depending on your locale. Refer to the following Web site for more information: http://java.sun.com/j2se/1.4.2/font-requirements.html |
Oracle Messaging Gateway | Oracle Messaging Gateway supports the integration of Oracle Streams Advanced Queuing (AQ) with the following software:
IBM MQSeries V5.3, client and server Tibco Rendezvous 7.2 |
PL/SQL native compilation | One of the following:
|
Pro*C/C++, Oracle Call Interface, Oracle C++ Call Interface, Oracle XML Developer's Kit (XDK), GNU Compiler Collection (GCC) | Sun ONE Studio 8 (C and C++ 5.5) |
Oracle JDBC/OCI Drivers | You can use the following optional JDK versions with the Oracle JDBC/OCI drivers, however they are not required for the installation:
Note: JDK 1.4.2 is installed with this release. |
To ensure that the system meets these requirements:
To determine which version of Solaris is installed, enter the following command:
# uname -r 5.9
In this example, the version shown is Solaris 9 (5.9). If necessary, refer to your operating system documentation for information about upgrading the operating system.
To determine whether the required packages are installed, enter a command similar to the following:
# pkginfo -i SUNWarc SUNWbtool SUNWhea SUNWlibm SUNWlibms SUNWsprot \ SUNWsprox SUNWtoo SUNWi1of SUNWi1cs SUNWi15cs SUNWxwfnt
If a package is not installed, then install it. Refer to your operating system or software documentation for information about installing packages.
In addition, you need to verify that the following patches are installed on the system. The procedure following the table describes how to check these requirements.
Note:
There may be more recent versions of the patches listed installed on the system. If a listed patch is not installed, then determine whether a more recent version is installed before installing the version listed.Note:
The following patches are not required for silent installations:108652-66, X11 6.4.1: Xsun patch
108773-18, SunOS 5.8: IIIM and X I/O Method patch
108921-16, CDE 1.4: dtwm patch
108940-53, Motif 1.2.7 and 2.1.1: Runtime lib. patch for Solaris 8
For more information about silent installations, refer to Appendix A.
To ensure that the system meets these requirements:
To determine whether an operating system patch is installed, enter a command similar to the following:
# /usr/sbin/patchadd -p | grep patch_number(without version number)
For example, to determine if any version of the 111713 patch is istalled, use the follwing command:
# /usr/sbin/patchadd -p | grep 111713
If an operating system patch is not installed, then download it from the following Web site and install it:
http://sunsolve.sun.com
If you require a CSD or a SupportPac for WebSphere MQ, then refer to the following Web site for download and installation information:
http://www.ibm.com/software/integration/mqfamily/support/summary/sun.html
Typically, the computer on which you want to install Oracle Database is connected to the network, has local storage to contain the Oracle Database installation, has a display monitor, and has a CD-ROM or DVD drive.
This section describes how to install Oracle Database on computers that do not meet the typical scenario. It covers the following cases:
When you run Oracle Universal Installer, an error may occur if name resolution is not set up. To avoid this error, before you begin installation, you must ensure that host names are resolved only through the /etc/hosts
file.
To ensure that host names are resolved only through the /etc/hosts
file:
Verify that the /etc/hosts file is used for name resolution. You can do this by checking the hosts file entry in the nsswitch.conf
file as follows:
# cat /etc/nsswitch.conf | grep hosts
The output of this command should contain an entry for files.
Verify that the host name has been set by using the hostname command as follows:
# hostname
The output of this command should be similar to the following:
myhost.mycomputer.com
Verify that the domain name has not been set dynamically by using the domainname command as follows:
# domainname
This command should not return any results.
Verify that the hosts file contains the fully qualified host name by using the following command:
# cat /etc/hosts | grep `eval hostname`
The output of this command should contain an entry for the fully qualified host name and for localhost.
For example:
192.168.100.16 myhost.us.mycompany.com myhost 127.0.0.1 localhost localhost.localdomain
If the hosts file does not contain the fully qualified host name, then open the file and make the required changes in it.
Dynamic Host Configuration Protocol (DHCP) assigns dynamic IP addresses on a network. Dynamic addressing enables a computer to have a different IP address each time it connects to the network. In some cases, the IP address can change while the computer is still connected. You can have a mixture of static and dynamic IP addressing in a DHCP system.
In a DHCP setup, the software tracks IP addresses, which simplifies network administration. This lets you add a new computer to the network without having to manually assign that computer a unique IP address.
You can install Oracle Database on a multihomed computer. A multihomed computer is associated with multiple IP addresses. This is typically achieved by having multiple network cards on the computer. Each IP address is associated with a host name. In addition, you can set up aliases for the host name. By default, Oracle Universal Installer uses the ORACLE_HOSTNAME
environment variable setting to find the host name. If ORACLE_HOSTNAME
is not set and you are installing on a computer that has multiple network cards, then Oracle Universal Installer determines the host name by using the first entry in the /etc/hosts
file.
Clients must be able to access the computer either by using this host name or by using aliases for this host name. To verify this, ping the host name from the client computers using the short name (hostname only) and the full name (hostname and domain name). Both tests must be successful.
Setting the ORACLE_HOSTNAME Environment Variable
Use the following procedure to set the ORACLE_HOSTNAME
environment variable.
For example, if the fully qualified host name is somehost.us.acme.com
, then enter one of the following commands:
Bourne, Bash, or Korn shell:
$ ORACLE_HOSTNAME=somehost.us.acme.com $ export ORACLE_HOSTNAME
C shell:
% setenv ORACLE_HOSTNAME somehost.us.acme.com
A computer with multiple aliases is registered with the naming service under a single IP but with multiple aliases. The naming service resolves any of those aliases to the same computer. Before installing Oracle Database on such a computer, set the ORACLE_HOSTNAME
environment variable to the computer whose host name you want to use.
You can install Oracle Database on a non-networked computer. If the computer, such as a laptop, is configured for DHCP and you plan to connect the computer to the network after the Oracle Database installation, then use the ping
command on the computer on which you want to install the database to check if the computer can connect to itself. Perform this step by first using only the host name and then using the fully qualified name, which should be in the /etc/hosts
file.
Note:
When you run theping
command on the computer itself, the ping
command should return the IP address of the computer.If the ping
command fails, then contact your network administrator.
Connecting the Computer to the Network after Installation
If you connect the computer to a network after installation, then the Oracle Database instance on your computer can work with other instances on the network. The computer can use a static IP or DHCP, depending on the network to which you are connected.
Depending on whether this is the first time Oracle software is being installed on this system and on the products that you are installing, you may need to create several operating system groups and users.
The following operating system groups and user are required if you are installing Oracle Database:
You must create this group the first time you install Oracle Database software on the system. It identifies operating system user accounts that have database administrative privileges (the SYSDBA privilege). The default name for this group is dba
.
If you want to specify a group name other than the default dba
group, then you must choose the Custom installation type to install the software or start Oracle Universal Installer as a user that is not a member of this group. In this case, Oracle Universal Installer prompts you to specify the name of this group.
This is an optional group. Create this group if you want a separate group of operating system users to have a limited set of database administrative privileges (the SYSOPER privilege). By default, members of the OSDBA group also have the SYSOPER privilege.
If you want to specify a separate OSOPER group, other than the default dba
group, then you must choose the Custom installation type to install the software or start Oracle Universal Installer as a user that is not a member of the dba
group. In this case, Oracle Universal Installer prompts you to specify the name of this group. The usual name chosen for this group is oper
.
Verify that the unprivileged user nobody exists on the system. The nobody user must own the external jobs (extjob) executable after the installation.
The following operating system group and user are required for all installations:
The Oracle Inventory group (oinstall
)
You must create this group the first time you install Oracle software on the system. The usual name chosen for this group is oinstall
. This group owns the Oracle inventory, which is a catalog of all Oracle software installed on the system.
Note:
If Oracle software is already installed on the system, then the existing Oracle Inventory group must be the primary group of the operating system user that you use to install new Oracle software.The Oracle software owner user (typically, oracle
)
You must create this user the first time you install Oracle software on the system. This user owns all of the software installed during the installation. This user must have the Oracle Inventory group as its primary group. It must also have the OSDBA and OSOPER groups as secondary groups.
Note:
In Oracle documentation, this user is referred to as theoracle
user.A single Oracle Inventory group is required for all installations of Oracle software on the system. After the first installation of Oracle software, you must use the same Oracle Inventory group for all subsequent Oracle software installations on that system. However, you can choose to create different Oracle software owner users, OSDBA groups, and OSOPER groups (other than oracle
, dba
, and oper
) for separate installations. By using different groups for different installations, members of these different groups have DBA privileges only on the associated databases rather than on all databases on the system.
See Also:
Oracle Database Administrator's Reference for UNIX-Based Operating Systems and Oracle Database Administrator's Guide for more information about the OSDBA and OSOPER groups and the SYSDBA and SYSOPER privilegesNote:
The following sections describe how to create local users and groups. As an alternative to creating local users and groups, you could create the appropriate users and groups in a directory service, for example, Network Information Services (NIS). For information about using directory services, contact your system administrator or refer to your operating system documentation.The following sections describe how to create the required operating system users and groups:
You must create the Oracle Inventory group if it does not already exist. The following subsections describe how to determine the Oracle Inventory group name, if it exists, and how to create it if necessary.
Determining Whether the Oracle Inventory Group Exists
When you install Oracle software on the system for the first time, Oracle Universal Installer creates the oraInst.loc
file. This file identifies the name of the Oracle Inventory group and the path of the Oracle Inventory directory.
To determine whether the Oracle Inventory group exists, enter the following command:
# more /var/opt/oracle/oraInst.loc
If the oraInst.loc
file exists, then the output from this command is similar to the following:
inventory_loc=/u01/app/oracle/oraInventory inst_group=oinstall
The inst_group
parameter shows the name of the Oracle Inventory group, oinstall
.
Creating the Oracle Inventory Group
If the oraInst.loc
file does not exist, then create the Oracle Inventory group by entering the following command:
# /usr/sbin/groupadd oinstall
You must create an OSDBA group in the following circumstances:
An OSDBA group does not exist, for example, if this is the first installation of Oracle Database software on the system
An OSDBA group exists, but you want to give a different group of operating system users database administrative privileges in a new Oracle installation
If the OSDBA group does not exist or if you require a new OSDBA group, then create it as follows. In the following command, use the group name dba
unless a group with that name already exists.
# /usr/sbin/groupadd dba
Create an OSOPER group only if you want to identify a group of operating system users with a limited set of database administrative privileges (SYSOPER operator privileges). For most installations, it is sufficient to create only the OSDBA group. If you want to use an OSOPER group, then you must create it in the following circumstances:
If an OSOPER group does not exist, for example, if this is the first installation of Oracle Database software on the system
If an OSOPER group exists, but you want to give a different group of operating system users database operator privileges in a new Oracle installation
If you require a new OSOPER group, then create it as follows. In the following command, use the group name oper
unless a group with that name already exists.
# /usr/sbin/groupadd oper
You must create an Oracle software owner user in the following circumstances:
If an Oracle software owner user does not exist, for example, if this is the first installation of Oracle software on the system
If an Oracle software owner user exists, but you want to use a different operating system user, with different group membership, to give database administrative privileges to those groups in a new Oracle Database installation
To determine whether an Oracle software owner user named oracle
exists, enter the following command:
# id -a oracle
If the oracle
user exists, then the output from this command is similar to the following:
uid=440(oracle) gid=200(oinstall) groups=201(dba),202(oper)
If the user exists, then determine whether you want to use the existing user or create another oracle
user. If you want to use the existing user, then ensure that the user's primary group is the Oracle Inventory group and that it is a member of the appropriate OSDBA and OSOPER groups. Refer to one of the following sections for more information:
Note:
If necessary, contact your system administrator before using or modifying an existing user.If you want to use an existing Oracle software owner user, and the user's primary group is the Oracle Inventory group, then refer to the "Determining Whether an Oracle Software Owner User Exists" section.
To modify an existing user, refer to the "Modifying an Oracle Software Owner User" section.
To create a user, refer to the following section.
If the Oracle software owner user does not exist or if you require a new Oracle software owner user, then create it as follows. In the following procedure, use the user name oracle
unless a user with that name already exists.
To create the oracle
user, enter a command similar to the following:
# /usr/sbin/useradd -g oinstall -G dba[,oper] oracle
In this command:
The -g
option specifies the primary group, which must be the Oracle Inventory group, for example oinstall
The -G
option specifies the secondary groups, which must include the OSDBA group and if required, the OSOPER group. For example, dba
or dba,oper
Set the password of the oracle
user:
# passwd -r files oracle
Refer to the "Verifying that the User nobody Exists" section to continue.
If the oracle
user exists, but its primary group is not oinstall
or it is not a member of the appropriate OSDBA or OSOPER groups, then enter a command similar to the following to modify it. Specify the primary group using the -g
option and any required secondary group using the -G
option:
# /usr/sbin/usermod -g oinstall -G dba[,oper] oracle
Note:
The kernel parameter and shell limit values shown in the following section are recommended values only. For production database systems, Oracle recommends that you tune these values to optimize the performance of the system. Refer to your operating system documentation for more information about tuning kernel parameters.Verify that the kernel parameters shown in the following table are set to values greater than or equal to the recommended value shown on Solaris 8 and Solaris 9 operating systems. The procedure following the table describes how to verify and set the values.
Note:
The following parameters are obsolete in Solaris 9:shmsys:shminfo_shmmin
shmsys:shminfo_shmseg
On Solaris 10, verify that the kernel parameters shown in the following table are set to values greater than or equal to the recommended value shown. The table aslo contains the resource controls that replace the /etc/system
file for a specific kernel parameter.
Note:
In Solaris 10, you are not required to make changes to the/etc/system
file to implement the System V TPC. Solaris 10 uses the resource control facility for its implementation.On Solaris 8 and Solaris 9 operating systems, use the following procedure to view the current value specified for these kernel parameters, and to change them if necessary:
To view the current values of these parameters, enter the following commands:
# grep noexec_user_stack /etc/system # /usr/sbin/sysdef | grep SEM # /usr/sbin/sysdef | grep SHM
If you must change any of the current values, then:
Create a backup copy of the /etc/system
file, for example:
# cp /etc/system /etc/system.orig
Open the /etc/system
file in any text editor and, if necessary, add lines similar to the following (edit the lines if the file already contains them):
set noexec_user_stack=1 set semsys:seminfo_semmni=100 set semsys:seminfo_semmns=1024 set semsys:seminfo_semmsl=256 set semsys:seminfo_semvmx=32767 set shmsys:shminfo_shmmax=4294967295 set shmsys:shminfo_shmmin=1 set shmsys:shminfo_shmmni=100 set shmsys:shminfo_shmseg=10
Enter the following command to restart the system:
# /usr/sbin/reboot
When the system restarts, log in and switch user to root
.
On Solaris 10, use the following procedure to view the current value specified for resource controls, and to change them if necessary:
To view the current values of the resource control, enter the following commands:
# id -p // to verify the project id uid=0(root) gid=0(root) projid=1 (user.root) # prctl -n project.max-shm-memory -i project user.root # prctl -n project.max-sem-ids -i project user.root
If you must change any of the current values, then:
To modify the value of max-shm-memory to 6 GB:
# prctl -n project.max-shm-memory -v 6gb -r -i project user.root
To modify the value of max-sem-ids to 256:
# prctl -n project.max-sem-ids -v 256 -r -i project user.root
You must identify or create the following directories for the Oracle software:
The Oracle base directory is a top-level directory for Oracle software installations. It is analogous to the C:\Oracle
directory used for Oracle software installations on Microsoft Windows systems. On Solaris systems, the Optimal Flexible Architecture (OFA) guidelines recommend that you use a path similar to the following for the Oracle base directory:
/mount_point/app/oracle_sw_owner
mount_point
is the mount point directory for the file system that will contain the Oracle software.
The examples in this guide use /u01
for the mount point directory. However, you could choose another mount point directory, such as /oracle
or /opt/oracle
.
oracle_sw_owner
is the operating system user name of the Oracle software owner, for example oracle
.
You can use the same Oracle base directory for more than one installation or you can create separate Oracle base directories for different installations. If different operating system users install Oracle software on the same system, then each user must create a separate Oracle base directory. The following example Oracle base directories could all exist on the same system:
/u01/app/oracle /u01/app/orauser /opt/oracle/app/oracle
The following sections describe how to identify existing Oracle base directories that may be suitable for your installation and how to create an Oracle base directory if necessary.
Regardless of whether you create an Oracle base directory or decide to use an existing one, you must set the ORACLE_BASE environment variable to specify the full path to this directory.
The Oracle Inventory directory (oraInventory
) stores an inventory of all software installed on the system. It is required by, and shared by, all Oracle software installations on a single system. The first time you install Oracle software on a system, Oracle Universal Installer prompts you to specify the path to this directory. then Oracle recommends that you choose the following path:
oracle_base/oraInventory
Oracle Universal Installer creates the directory that you specify and sets the correct owner, group, and permissions for it. You do not need to create it.
Note:
All Oracle software installations rely on this directory. Ensure that you back it up regularly.Do not delete this directory unless you have completely removed all Oracle software from the system.
The Oracle home directory is the directory where you choose to install the software for a particular Oracle product. You must install different Oracle products, or different releases of the same Oracle product, in separate Oracle home directories. When you run Oracle Universal Installer, it prompts you to specify the path to this directory, as well as a name that identifies it. The directory that you specify must be a subdirectory of the Oracle base directory. Oracle recommends that you specify a path similar to the following for the Oracle home directory:
oracle_base/product/10.2.0/db_1
Oracle Universal Installer creates the directory path that you specify under the Oracle base directory. It also sets the correct owner, group, and permissions on it. You do not need to create this directory.
Caution:
During installation, you must not specify an existing directory that has predefined permissions applied to it as the Oracle home directory. If you do, then you may experience installation failure due to file and group ownership permission errors.Before starting the installation, you must either identify an existing Oracle base directory or if required, create one. This section contains information about the following:
Note:
You can choose to create an Oracle base directory, even if other Oracle base directories exist on the system.Existing Oracle base directories may not have paths that comply with OFA guidelines. However, if you identify an existing Oracle Inventory directory or existing Oracle home directories, then you can usually identify the Oracle base directories, as follows:
Identifying an existing Oracle Inventory directory
Enter the following command to view the contents of the oraInst.loc
file:
var/opt/oracle # more /var/opt/oracle/oraInst.loc
If the oraInst.loc
file exists, then the output from this command is similar to the following:
inventory_loc=/u01/app/oracle/oraInventory inst_group=oinstall
The inventory_loc
parameter identifies the Oracle Inventory directory (oraInventory
). The parent directory of the oraInventory
directory is typically an Oracle base directory. In the previous example, /u01/app/oracle
is an Oracle base directory.
Identifying existing Oracle home directories
Enter the following command to view the contents of the oratab
file:
# more /var/opt/oracle/oratab
If the oratab
file exists, then it contains lines similar to the following:
*:/u03/app/oracle/product/10.2.0/db_1:N *:/opt/orauser/infra_904:N *:/oracle/9.2.0:N
The directory paths specified on each line identify Oracle home directories. Directory paths that end with the user name of the Oracle software owner that you want to use are valid choices for an Oracle base directory. If you intend to use the oracle
user to install the software, then you could choose one of the following directories from the previous example:
/u03/app/oracle /oracle
Note:
If possible, choose a directory path similar to the first (/u03/app/oracle
). This path complies with the OFA guidelines.Before deciding to use an existing Oracle base directory for this installation, ensure that it satisfies the following conditions:
It should not be on the same file system as the operating system.
It must have sufficient free disk space, as follows:
To determine the free disk space on the file system where the Oracle base directory is located, enter the following command:
# df -k oracle_base_path
To continue:
If an Oracle base directory exists and you want to use it, then refer to the "Choosing a Storage Option for Oracle Database and Recovery Files" section.
When you configure the oracle
user's environment later in this chapter, set the ORACLE_BASE environment variable to specify the directory you chose.
If an Oracle base directory does not exist on the system or if you want to create an Oracle base directory, then refer to the following section.
Before you create an Oracle base directory, you must identify an appropriate file system with sufficient free disk space, as follows:
To identify an appropriate file system:
Use the df -
k
command to determine the free disk space on each mounted file system.
From the display, identify a file system that has appropriate free space.
The file system that you identify can be a local file system, a cluster file system, or an NFS file system on a certified NAS device.
Note the name of the mount point directory for the file system that you identified.
To create the Oracle base directory and specify the correct owner, group, and permissions for it:
Enter commands similar to the following to create the recommended subdirectories in the mount point directory that you identified and set the appropriate owner, group, and permissions on them:
# mkdir -p /mount_point/app/oracle_sw_owner # chown -R oracle:oinstall /mount_point/app/oracle_sw_owner # chmod -R 775 /mount_point/app/oracle_sw_owner
For example, if the mount point you identify is /u01
and oracle
is the user name of the Oracle software owner, then the recommended Oracle base directory path is as follows:
/u01/app/oracle
When you configure the oracle
user's environment later in this chapter, set the ORACLE_BASE environment variable to specify the Oracle base directory that you have created.
The following table shows the storage options supported for storing Oracle Database files and Oracle Database recovery files. Oracle Database files include data files, control files, redo log files, the server parameter file, and the password file.
For all installations, you must choose the storage option that you want to use for Oracle Database files. If you want to enable automated backups during the installation, then you must also choose the storage option that you want to use for recovery files (the flash recovery area). You do not have to use the same storage option for each file type.
Important:
Database files are supported on file systems, Automatic Storage Management, and raw devices. Recovery files are supported only on file systems and Automatic Storage Management.Storage Option | File Types Supported | |
---|---|---|
Database | Recovery | |
File system | Yes | Yes |
Automatic Storage Management | Yes | Yes |
Raw devices | Yes | No |
Use the following guidelines when choosing the storage options that you want to use for each file type:
You can choose any combination of the supported storage options for each file type.
Oracle recommends that you choose Automatic Storage Management as the storage option for database and recovery files.
For more information about these storage options, refer to the "Database Storage Options" section.
For information about how to configure disk storage before you start the installation, refer to one of the following sections depending on your choice:
To use a file system for database or recovery file storage, refer to the "Creating Directories for Oracle Database or Recovery Files" section.
To use raw devices for database file storage, refer to the following section:
"Configuring Raw Partitions for Oracle Database File Storage"
This section contains the following topics:
Guidelines for Placing Oracle Database Files on a File System
Guidelines for Placing Oracle Recovery Files on a File System
If you choose to place the Oracle Database files on a file system, then use the following guidelines when deciding where to place them:
The default path suggested by Oracle Universal Installer for the database file directory is a subdirectory of the Oracle base directory.
You can choose either a single file system or more than one file system to store the database files:
If you want to use a single file system, then choose a file system on a physical device that is dedicated to the database.
For best performance and reliability, choose a RAID device or a logical volume on more than one physical device and implement the stripe-and-mirror-everything (SAME) methodology.
If you want to use more than one file system, then choose file systems on separate physical devices that are dedicated to the database.
This method enables you to distribute physical I/O and create separate control files on different devices for increased reliability. It also enables you to fully implement the OFA guidelines described in Appendix D, "Optimal Flexible Architecture". You must choose either the Advanced database creation option or the Custom installation type during the installation to implement this method.
If you intend to create a preconfigured database during the installation, then the file system (or file systems) that you choose must have at least 1.2 GB of free disk space.
For production databases, you must estimate the disk space requirement depending on the use that you want to make of the database.
For optimum performance, the file systems that you choose should be on physical devices that are used only by the database.
The oracle
user must have write permissions to create the files in the path that you specify.
Note:
You must choose a location for recovery files only if you intend to enable automated backups during the installation.If you choose to place the Oracle recovery files on a file system, then use the following guidelines when deciding where to place them:
To prevent disk failure from making both the database files and the recovery files unavailable, place the recovery files in a file system on a different physical disk from the database files.
Note:
Alternatively, use an Automatic Storage Management disk group for both data and recovery files.The file system that you choose should have at least 2 GB of free disk space.
The disk space requirement is the default disk quota configured for the flash recovery area (specified by the DB_RECOVERY_FILE_DEST_SIZE initialization parameter).
If you choose the Custom installation type or the Advanced database configuration option, then you can specify a different disk quota value. After you create the database, you can also use Oracle Enterprise Manager Grid Control or Database Control to specify a different value.
See Also:
Oracle Database Backup and Recovery Basics for more information about sizing the flash recovery areaThe default path suggested by Oracle Universal Installer for the flash recovery area is a subdirectory of the Oracle base directory.
This default location is not recommended for production databases.
The oracle user must have write permissions to create the files in the path that you specify.
Note:
You must perform this procedure only if you want to place the Oracle Database or recovery files on a separate file system to the Oracle base directory.To create directories for the Oracle database, or recovery files on separate file systems to the Oracle base directory:
Use the df -
k
command to determine the free disk space on each mounted file system.
From the display, identify the file systems that you want to use:
File Type | File System Requirements |
---|---|
Database files | Choose either:
|
Recovery files | Choose a file system with at least 2.4 GB of free disk space. |
If you are using the same file system for more than one type of file, then add the disk space requirements for each type to determine the total disk space requirement.
Note the names of the mount point directories for the file systems that you identified.
Enter commands similar to the following to create the recommended subdirectories in each of the mount point directories and set the appropriate owner, group, and permissions on them:
Database file directory:
# mkdir /mount_point/oradata # chown oracle:oinstall /mount_point/oradata # chmod 775 /mount_point/oradata
Recovery file directory (flash recovery area):
# mkdir /mount_point/flash_recovery_area # chown oracle:oinstall /mount_point/flash_recovery_area # chmod 775 /mount_point/flash_recovery_area
If you also want to use Automatic Storage Management or raw devices for storage, then refer to one of the Preparing Disk Groups for an Automatic Storage Management Installation section.
This section describes how to configure disks for use with Automatic Storage Management. Before you configure the disks, you must determine the number of disks and the amount of free disk space that you require. The following sections describe how to identify the requirements and configure the disks on each platform:
Step 1: Identifying Storage Requirements for Automatic Storage Management
Step 2: Using an Existing Automatic Storage Management Disk Group
Step 3: Creating DAS or SAN Disk Partitions for Automatic Storage Management
Note:
Although this section refers to disks, you can also use zero-padded files on a certified NAS storage device in an Automatic Storage Management disk group. Refer to Appendix C for information about creating and configuring NAS-based files for use in an Automatic Storage Management disk group.The following are the general steps to configure Automatic Storage Management:
Identify the storage requirements of the site.
Optionally, use an existing Automatic Storage Management disk group.
If you are creating a new Automatic Storage Management disk group, create partitions for DAS or SAN disks.
Use one of the following methods to complete the Automatic Storage Management configuration:
If you plan to install Oracle Database using interactive mode, Oracle Universal Installer prompts you for the Automatic Storage Management disk configuration information during the installation.
If you plan to install Oracle Database using noninteractive mode, you will need to manually configure the disks before performing the installation.
To identify the storage requirements for using Automatic Storage Management, you must determine the number of devices and the amount of free disk space that you require. To complete this task:
Determine whether you want to use Automatic Storage Management for Oracle Database files, recovery files, or both.
Note:
You do not have to use the same storage mechanism for data files and recovery files. You can use the file system for one file type and Automatic Storage Management for the other. If you plan to use Automatic Storage Management for both data files and recovery files, then you should create separate Automatic Storage Management disk groups for the data files and the recovery files.If you plan to enable automated backups during the installation, then you can choose Automatic Storage Management as the storage mechanism for recovery files by specifying an Automatic Storage Management disk group for the flash recovery area. Depending on how you choose to create a database during the installation, you have the following options:
If you select an installation method that runs Oracle Database Configuration Assistant in interactive mode, by choosing the Advanced database configuration option for example, then you can decide whether you want to use the same Automatic Storage Management disk group for database files and recovery files, or you can choose to use different disk groups for each file type. Ideally, you should create separate Automatic Storage Management disk groups for data files and for recovery files.
The same choice is available to you if you use Oracle Database Configuration Assistant after the installation to create a database.
If you select an installation type that runs Oracle Database Configuration Assistant in noninteractive mode, then you must use the same Automatic Storage Management disk group for data files and recovery files.
Choose the Automatic Storage Management redundancy level that you want to use for each Automatic Storage Management disk group that you create.
The redundancy level that you choose for the Automatic Storage Management disk group determines how Automatic Storage Management mirrors files in the disk group and determines the number of disks and amount of disk space that you require, as follows:
External redundancy
An external redundancy disk group requires a minimum of one disk device. The effective disk space in an external redundancy disk group is the sum of the disk space in all of its devices.
If you select this option, Automatic Storage Management does not mirror the contents of the disk group. Choose this redundancy level under any one of the following conditions:
Normal redundancy
In a normal redundancy disk group, by default Automatic Storage Management uses two-way mirroring for datafiles and three-way mirroring for control files, to increase performance and reliability. Alternatively, you can use two-way mirroring or no mirroring. A normal redundancy disk group requires a minimum of two failure groups (or two disk devices) if you are using two-way mirroring. The effective disk space in a normal redundancy disk group is half the sum of the disk space in all of its devices.
For most installations, Oracle recommends that you use normal redundancy disk groups.
High redundancy
The contents of the disk group are three-way mirrored by default. To create a disk group with high redundancy, you must specify at least 3 failure groups (a minimum of 3 devices).
Although high-redundancy disk groups provide a high level of data protection, you must consider the higher cost of additional storage devices before deciding to use this redundancy level.
Determine the total amount of disk space that you require for the database files and recovery files.
Use the following table to determine the minimum number of disks and the minimum disk space requirements for the installation:
Redundancy Level | Minimum Number of Disks | Data Files | Recovery Files | Both File Types |
---|---|---|---|---|
External | 1 | 1.15 GB | 2.3 GB | 3.45 GB |
Normal | 2 | 2.3 GB | 4.6 GB | 6.9 GB |
High | 3 | 3.45 GB | 6.9 GB | 10.35 GB |
If an ASM instance is already running on the system, then you can use an existing disk group to meet these storage requirements. If necessary, you can add disks to an existing disk group during the installation.
The following step describes how to identify existing disk groups and determine the free disk space that they contain.
Optionally, identify failure groups for the Automatic Storage Management disk group devices.
Note:
You need to perform this step only if you intend to use an installation method that runs Oracle Database Configuration Assistant in interactive mode. For example, if you intend to choose the Custom installation type or the Advanced database configuration option. Other installation types do not enable you to specify failure groups.If you intend to use a normal or high redundancy disk group, then you can further protect the database against hardware failure by associating a set of disk devices in a custom failure group. By default, each device comprises its failure group. However, if two disk devices in a normal redundancy disk group are attached to the same SCSI controller, then the disk group becomes unavailable if the controller fails. The controller in this example is a single point of failure.
To avoid failures of this type, you can use two SCSI controllers, each with two disks, and define a failure group for the disks attached to each controller. This configuration would enable the disk group to tolerate the failure of one SCSI controller.
Note:
If you define custom failure groups, then you must specify a minimum of two failure groups for normal redundancy disk groups and three failure groups for high redundancy disk groups.If you are sure that a suitable disk group does not exist on the system, then install or identify appropriate disk devices to add to a new disk group. Apply the following guidelines when identifying appropriate disk devices:
All the devices in an Automatic Storage Management disk group should be the same size and have the same performance characteristics.
Do not specify more than one partition on a single physical disk as a disk group device. Automatic Storage Management expects each disk group device to be on a separate physical disk.
Although you can specify a logical volume as a device in an Automatic Storage Management disk group, Oracle does not recommend its use. Logical volume managers can hide the physical disk architecture. This would prevent Automatic Storage Management from optimizing I/O across the physical devices.
See Also:
"Step 4: Configuring Disks for Automatic Storage Management" for information about completing this taskNote:
This is an optional step.If you want to store either database or recovery files in an existing Automatic Storage Management disk group, then you have the following choices, depending on the installation method that you select:
If you select an installation method that runs Oracle Database Configuration Assistant in interactive mode (for example, choosing the Advanced database configuration option), then you can decide whether you want to create a disk group or use an existing one.
The same choice is available to you if you use Oracle Database Configuration Assistant after the installation to create a database.
If you select an installation method that runs Oracle Database Configuration Assistant in noninteractive mode, then you must choose an existing disk group for the new database; you cannot create a disk group. However, you can add disk devices to an existing disk group if it has insufficient free space for your requirements.
Note:
The ASM instance that manages the existing disk group can be running in a different Oracle home directory.To determine whether an existing Automatic Storage Management disk group exists, or to determine whether there is sufficient disk space in a disk group, you can use Oracle Enterprise Manager Grid Control or Database Control. Alternatively, you can use the following procedure:
View the contents of the oratab
file to determine whether an ASM instance is configured on the system:
# more /var/opt/oracle/oratab # more /etc/oratab
If an ASM instance is configured on the system, then the oratab
file should contain a line similar to the following:
+ASM:oracle_home_path:N
In this example, +ASM
is the system identifier (SID) of the ASM instance and oracle_home_path
is the Oracle home directory where it is installed. By convention, the SID for an ASM instance begins with a plus sign.
Open a shell window and temporarily set the ORACLE_SID
and ORACLE_HOME
environment variables to specify the appropriate values for the ASM instance that you want to use.
For example, if the Automatic Storage Management SID is named OraDB10g+ASM
and is located in the asm
subdirectory of the ORACLE_BASE
directory, then enter the following commands to create the required settings:
Bourne, Bash, or Korn shell:
$ ORACLE_SID=OraDB10g+ASM $ export ORACLE_SID $ ORACLE_HOME=/u01/app/oracle/product/10.1.0/asm $ export ORACLE_HOME
C shell:
% setenv ORACLE_SID OraDB10g+ASM % setenv ORACLE_HOME /u01/app/oracle/product/10.1.0/asm
By using SQL*Plus, connect to the ASM instance as the SYS user with SYSDBA privilege and start the instance if necessary:
# $ORACLE_HOME/bin/sqlplus "SYS/SYS_password as SYSDBA"
SQL> STARTUP
Enter the following command to view the existing disk groups, their redundancy level, and the amount of free disk space in each one:
SQL> SELECT NAME,TYPE,TOTAL_MB,FREE_MB FROM V$ASM_DISKGROUP;
From the output, identify a disk group with the appropriate redundancy level and note the free space that it contains.
If necessary, install or identify the additional disk devices required to meet the storage requirements listed in the previous section.
In order to use a DAS or SAN disk in Automatic Storage Management, the disk must have a partition table. Oracle recommends creating exactly one partition for each disk containing the entire disk.
To configure disks for use with Automatic Storage Management:
If necessary, install the disks that you intend to use for the disk group and restart the system.
Enter the following commands to identify devices that are part of a logical volume manager (LVM) disk group:
Note:
The following command displays information about VERITAS Volume Manager disks. If you use a different LVM, then refer to the appropriate documentation for information about determining which disk devices it is managing.# vxdiskconfig # /usr/sbin/vxdisk list
If this command displays disk group information associated with a disk device, then the disk is already part of an LVM disk group. Do not use disks that are part of an LVM disk group.
To create or identify the disk slices (partitions) that you want to include in the Automatic Storage Management disk group:
To list the disks attached to the system, enter the following command:
# /usr/sbin/format
The output from this command is similar to the following:
AVAILABLE DISK SELECTIONS: 0. c0t0d0 <ST34321A cyl 8892 alt 2 hd 15 sec 63> /pci@1f,0/pci@1,1/ide@3/dad@0,0 1. c1t5d0 <SUN9.0G cyl 4924 alt 2 hd 27 sec 133> /pci@1f,0/pci@1/scsi@1/sd@5,0
This command displays information about each disk attached to the system, including the device name (c
x
t
y
d
z
).
Enter the number corresponding to the disk that you want to use.
Enter the partition
command, followed by the print
command to display the partition table for the disk that you want to use.
If necessary, create a single whole-disk slice, starting at cylinder 1.
Note:
To prevent Automatic Storage Management from overwriting the partition table, you cannot use slices that start at cylinder 0 (for example, slice 2).Make a note of the number of the slice that you want to use.
If you modified a partition table or created a new one, then enter the label
command to write the partition table and label to the disk.
Enter q
to return to the format
menu.
If you have finished creating slices, then enter q
to quit from the format
utility. Otherwise, enter the disk
command to select a new disk and repeat steps b to g to create or identify the slices on that disks.
If you plan to use existing slices, then enter the following command to verify that they are not mounted as file systems:
# df -k
This command displays information about the slices on disk devices that are mounted as file systems. The device name for a slice includes the disk device name followed by the slice number, for example c
x
t
y
d
z
s
n
, where s
n
is the slice number.
Enter commands similar to the following on every node to change the owner, group, and permissions on the character raw device file for each disk slice that you want to add to a disk group:
# chown oracle:dba /dev/rdsk/cxtydzs6 # chmod 660 /dev/rdsk/cxtydzs6
In this example, the device name specifies slice 6.
Note:
If you are using a multi-pathing disk driver with Automatic Storage Management, then ensure that you set the permissions only on the correct logical device name for the disk.If you also want to use raw devices for storage, then refer to the "Configuring Raw Partitions or Raw Logical Volumes" section.
Otherwise, refer to the following section:
The following subsections describe how to configure raw partitions or raw logical volumes.
"Configuring Raw Partitions for Oracle Database File Storage"
Follow the procedures described in this section if you want to use raw partitions for Oracle Database file storage. You can use either raw disk slices or Solaris Volume Manager soft partitions to store the required database files.
"Configuring Raw Logical Volumes for Oracle Database File Storage"
Follow the procedures described in this section only if you are using VERITAS Volume Manager (VxVM) on SPARC systems.
Configuring Raw Partitions for Oracle Database File Storage
This section describes how to configure raw partitions for Oracle database files.
A partition is a slice defined on a disk or on a disk array volume. It can also be a soft partition created using Solaris Volume Manager.
Table 2-1 lists the number and size of the raw partitions that you must configure for database files.
Table 2-1 Raw Partitions Required for Database Files
To configure raw partitions for database files:
Choose a name for the database that you want to create.
The name that you choose must start with a letter and have no more than four characters, for example, orcl
.
If necessary, install or configure the disks that you intend to use and restart the system.
If you want to use Solaris Volume Manager soft partitions, then refer to the Solaris Volume Manager documentation for information about how to create them.
The previous table shows the number and size of the partitions that you require.
If you want to use disk slices, then follow these steps to create or identify the required disk slices:
To list the disks attached to the system, enter the following command:
# /usr/sbin/format
The output from this command is similar to the following:
AVAILABLE DISK SELECTIONS: 0. c0t0d0 <ST34321A cyl 8892 alt 2 hd 15 sec 63> /pci@1f,0/pci@1,1/ide@3/dad@0,0 1. c1t5d0 <SUN9.0G cyl 4924 alt 2 hd 27 sec 133> /pci@1f,0/pci@1/scsi@1/sd@5,0
This command displays information about each disk attached to the system, including the device name (c
x
t
y
d
z
).
Enter the number corresponding to the disk that you want to use.
Note:
Ensure that the disk you choose is not being used for another purpose. For example, ensure that it is not being used as a component for a logical volume manager volume.Use the fdisk
command to create a Solaris partition on the disk if one does not already exist.
Solaris fdisk
partitions must start at cylinder 1, not cylinder 0. If you create an fdisk
partition, then you must label the disk before continuing.
Enter the partition
command, followed by the print
command to display the partition table for the disk that you want to use.
Identify or create slices for each of the partitions that you require.
The previous table shows the number and size of the partitions that you require for database files.
Note:
To prevent the database files from overwriting the partition table, do not use slices that start at cylinder 0 (for example, slice 2).Make a note of the number of the slices that you want to use.
If you modified a partition table or created a new one, then enter the label
command to write the partition table and label to the disk.
Enter q
to return to the format
menu.
After you have finished creating slices, enter q
to quit from the format
utility.
If you plan to use existing partitions, then enter the following command to verify that they are not mounted as file systems:
# df -k
This command displays information about the devices that are mounted as file systems. The device name for a slice includes the disk device name followed by the slice number, for example c
x
t
y
d
z
s
n
, where s
n
is the slice number. The device name for a Solaris Volume Manager partition is similar to /dev/md/dsk/d
nnn
, where d
nnn
is the soft partition name.
Enter commands similar to the following to change the owner, group, and permissions on the character raw device file for each partition:
Note:
If you are using a multi-pathing disk driver, then ensure that you set the permissions only on the correct logical device name for the partition.Solaris Volume Manager soft partitions:
# chown oracle:dba /dev/md/rdsk/d100 # chmod 660 /dev/md/rdsk/d100
Disk slices:
# chown oracle:dba /dev/rdsk/cxtydzsn # chmod 660 /dev/rdsk/cxtydzsn
Follow these steps to create the Oracle Database Configuration Assistant raw device mapping file:
Set the ORACLE_BASE environment variable to specify the Oracle base directory that you identified or created previously:
Bourne, Bash, or Korn shell:
$ ORACLE_BASE=/u01/app/oracle ; export ORACLE_BASE
C shell:
% setenv ORACLE_BASE /u01/app/oracle
Create a database file subdirectory under the Oracle base directory and set the appropriate owner, group, and permissions on it:
# mkdir -p $ORACLE_BASE/oradata/dbname
# chown -R oracle:oinstall $ORACLE_BASE/oradata
# chmod -R 775 $ORACLE_BASE/oradata
In this example, dbname
is the name of the database that you chose previously.
Change directory to the $ORACLE_BASE/oradata/
dbname
directory.
Using any text editor, create a text file similar to the following that identifies the device file name associated with each database file.
Oracle recommends that you use a file name similar to dbname
_raw.conf
for this file.
Note:
The following example shows a sample mapping file that specifies Solaris Volume Manager soft partitions. If you are using disk slices, then specify the appropriate device file name for each slice, for example:/dev/rdsk/cxdytzsn
system=/dev/md/rdsk/d100 sysaux=/dev/md/rdsk/d101 example=/dev/md/rdsk/d102 users=/dev/md/rdsk/d103 temp=/dev/md/rdsk/d104 undotbs1=/dev/md/rdsk/d105 redo1_1=/dev/md/rdsk/d106 redo1_2=/dev/md/rdsk/d107 control1=/dev/md/rdsk/d108 control2=/dev/md/rdsk/d109 spfile=/dev/md/rdsk/d110 pwdfile=/dev/md/rdsk/d111
In this example, dbname
is the name of the database.
Use the following guidelines when creating or editing this file:
Each line in the file must have the following format:
database_object_identifier=device_file_name
Specify one automatic undo tablespace data file (undotbs1
) and two redo log files (redo1_1
, redo1_2
).
Specify at least two control files (control1
, control2
).
To use manual instead of automatic undo management, specify a single RBS tablespace data file (rbs
) instead of the automatic undo management tablespace data files.
Save the file and note the file name that you specified.
When you are configuring the oracle
user's environment later in this chapter, set the DBCA_RAW_CONFIG environment variable to specify the full path to this file.
Configuring Raw Logical Volumes for Oracle Database File Storage
This section describes how to configure raw logical volumes using VERITAS Volume Manager (VxVM) on SPARC systems.
To create a disk group:
If necessary, install the disks that you intend to use for the disk group and restart the system.
To ensure that the disks are available, enter the following command:
# /usr/sbin/format
The output from this command is similar to the following:
AVAILABLE DISK SELECTIONS: 0. c0t0d0 <ST34321A cyl 8892 alt 2 hd 15 sec 63> /pci@1f,0/pci@1,1/ide@3/dad@0,0 1. c1t5d0 <SUN9.0G cyl 4924 alt 2 hd 27 sec 133> /pci@1f,0/pci@1/scsi@1/sd@5,0
This command displays information about each disk attached to the system, including the device name (c
x
t
y
d
z
).
From the list, identify the device names for the disk devices that you want to add to a disk group, then use Ctrl+D to exit from the format
utility.
Enter the following command to verify that the devices you identified are not mounted as file systems:
# df -k
This command displays information about the partitions (slices) on disk devices that are mounted as file systems. The device name for a slice includes the disk device name followed by the slice number, for example c
x
t
y
d
z
s
n
, where s
n
is the slice number. Slice 2 (s2
) represents the entire disk. The disk devices that you choose must not be shown as mounted partitions.
Enter the following commands to verify that the devices you identified are not already part of a disk group:
Note:
The following command displays information about VERITAS Volume Manager (VxVM) disks. If you use a different LVM, then refer to the appropriate documentation for information about determining which disk devices it is managing.# /usr/sbin/vxdiskconfig # /usr/sbin/vxdisk list
The vxdisk list
command identifies the disk devices that are already configured in a disk group. The word online in the STATUS column also identifies disks that have been initialized and placed under VxVM control. The word error in the STATUS column identifies disks that are not initialized.
The disk devices that you choose must not be in an existing disk group.
If the disk devices that you want to use are not initialized, then enter a command similar to the following to initialize each disk:
# /usr/sbin/vxdiskadd cxtydz
To create a disk group, enter a command similar to the following, specifying all of the disks that you want to add to the group:
# /usr/sbin/vxdg init diskgroup diskname=devicename ...
In this example:
diskgroup
is the name of the disk group that you want to create, for example, oradg
diskname
is an administrative name that you assign to a disk, for example orad01
devicename
is the device name, for example, c1t0d0
Creating Raw Logical Volumes in the New Disk Group
To create the required raw logical volumes in the new disk group:
Choose a name for the database that you want to create.
The name that you choose must start with a letter and have no more than four characters, for example, orcl
.
Identify the logical volumes that you must create.
Table 2-2 lists the number and size of the logical volumes that you must create for database files.
Table 2-2 Raw Logical Volumes Required for Database Files on Solaris
To create the required logical volumes, enter commands similar to the following:
# /usr/sbin/vxassist -g diskgroup make volume size user=oracle \ group=dba mode=660
In this example:
diskgroup
is the name of the disk group that you created previously, for example oradg
volume
is the name of the logical volume that you want to create
Oracle recommends that you use the sample names shown in the previous table for the logical volumes. Substitute the dbname
variable in the sample logical volume name with the name you chose for the database in step 1.
size
is the size of the logical volume, for example, 500m
represents 500 MB
user=oracle group=dba mode=660
specifies the owner, group, and permissions on the volume
Specify the Oracle software owner user and the OSDBA group for the user
and group
values (typically oracle
and dba
).
The following example shows a sample command used to create a 500 MB logical volume in the oradg
disk group for the SYSAUX tablespace of a database named test
:
# /usr/sbin/vxassist -g oradb make test_sysaux_500m 500m \ user=oracle group=dba mode=660
Creating the Oracle Database Configuration Assistant Raw Device Mapping File
To enable Oracle Database Configuration Assistant to identify the appropriate raw device for each database file, you must create a raw device mapping file, as follows:
Set the ORACLE_BASE environment variable to specify the Oracle base directory that you identified or created previously:
Bourne, Bash, or Korn shell:
$ ORACLE_BASE=/u01/app/oracle ; export ORACLE_BASE
C shell:
% setenv ORACLE_BASE /u01/app/oracle
Create a database file subdirectory under the Oracle base directory and set the appropriate owner, group, and permissions on it:
# mkdir -p $ORACLE_BASE/oradata/dbname
# chown -R oracle:oinstall $ORACLE_BASE/oradata
# chmod -R 775 $ORACLE_BASE/oradata
In this example, dbname
is the name of the database that you chose previously.
Change directory to the $ORACLE_BASE/oradata/
dbname
directory.
Enter the following command to create a text file that you can use to create the raw device mapping file:
# find /dev/vx/rdsk/diskgroup -user oracle -name dbname* \ -print > dbname_raw.conf
Edit the dbname
_raw.conf
file in any text editor to create a file similar to the following:
system=/dev/vx/rdsk/diskgroup/dbname_system_raw_500m sysaux=/dev/vx/rdsk/diskgroup/dbname_sysaux_raw_500m example=/dev/vx/rdsk/diskgroup/dbname_example_raw_160m users=/dev/vx/rdsk/diskgroup/dbname_users_raw_120m temp=/dev/vx/rdsk/diskgroup/dbname_temp_raw_250m undotbs1=/dev/vx/rdsk/diskgroup/dbname_undotbs1_raw_500m redo1_1=/dev/vx/rdsk/diskgroup/dbname_redo1_1_raw_120m redo1_2=/dev/vx/rdsk/diskgroup/dbname_redo1_2_raw_120m control1=/dev/vx/rdsk/diskgroup/dbname_control1_raw_110m control2=/dev/vx/rdsk/diskgroup/dbname_control2_raw_110m spfile=/dev/vx/rdsk/diskgroup/dbname_spfile_raw_5m pwdfile=/dev/vx/rdsk/diskgroup/dbname_pwdfile_raw_5m
In this example:
diskgroup
is the name of the disk group
dbname
is the name of the database
Use the following guidelines when creating or editing this file:
Each line in the file must have the following format:
database_object_identifier=logical_volume
The logical volume names suggested in this manual include the database object identifier that you must use in this mapping file. For example, in the following logical volume name, redo1_1
is the database object identifier:
/dev/vx/rdsk/oradg/rac_redo1_1_raw_120m
For a single-instance database, the file must specify one automatic undo tablespace data file (undotbs1
), and at least two redo log files (redo1_1
, redo1_2
).
Specify at least two control files (control1
, control2
).
To use manual instead of automatic undo management, specify a single RBS tablespace data file (rbs
) instead of the automatic undo management tablespace data file.
Save the file and note the file name that you specified.
When you are configuring the oracle
user's environment later in this chapter, set the DBCA_RAW_CONFIG environment variable to specify the full path to this file.
To continue, refer to the "Stopping Existing Oracle Processes" section.
See Also:
Oracle Real Application Clusters Installation and Configuration Guide for Solaris Operating System (SPARC 64-Bit) for more information about raw devices on RACCaution:
If you are installing additional Oracle Database 10g products in an existing Oracle home, then stop all processes running in the Oracle home. You must complete this task to enable Oracle Universal Installer to relink certain executables and libraries.If you choose to create a database during the installation, then most installation types configure and start a default Oracle Net listener using TCP/IP port 1521 and the IPC key value EXTPROC. However, if an existing Oracle Net listener process is using the same port or key value, Oracle Universal Installer can only configure the new listener; it cannot start it. To ensure that the new listener process starts during the installation, you must shut down any existing listeners before starting Oracle Universal Installer.
To determine whether an existing listener process is running and to shut it down if necessary:
Switch user to oracle
:
# su - oracle
Enter the following command to determine whether a listener process is running and to identify its name and the Oracle home directory in which it is installed:
$ ps -ef | grep tnslsnr
This command displays information about the Oracle Net listeners running on the system:
... oracle_home1/bin/tnslsnr LISTENER -inherit
In this example, oracle_home1
is the Oracle home directory where the listener is installed and LISTENER
is the listener name.
Note:
If no Oracle Net listeners are running, then refer to the "Configuring the oracle User's Environment" section to continue.Set the ORACLE_HOME environment variable to specify the appropriate Oracle home directory for the listener:
Bourne, Bash, or Korn shell:
$ ORACLE_HOME=oracle_home1
$ export ORACLE_HOME
C or tcsh shell:
% setenv ORACLE_HOME oracle_home1
Enter the following command to identify the TCP/IP port number and IPC key value that the listener is using:
$ $ORACLE_HOME/bin/lsnrctl status listenername
Note:
If the listener uses the default name LISTENER, then you do not have to specify the listener name in this command.Enter a command similar to the following to stop the listener process:
$ $ORACLE_HOME/bin/lsnrctl stop listenername
Repeat this procedure to stop all listeners running on this system.
You run Oracle Universal Installer from the oracle
account. However, before you start Oracle Universal Installer you must configure the environment of the oracle
user. To configure the environment, you must:
To set the oracle
user's environment:
Start a new terminal session, for example, an X terminal (xterm
).
Enter the following command to ensure that X Window applications can display on this system:
$ xhost fully_qualified_remote_host_name
For example:
$ xhost somehost.us.acme.com
If you are not already logged in to the system where you want to install the software, then log in to that system as the oracle
user.
If you are not logged in as the oracle
user, then switch user to oracle
:
$ su - oracle
To determine the default shell for the oracle
user, enter the following command:
$ echo $SHELL
Open the oracle
user's shell startup file in any text editor:
C shell (csh
or tcsh
):
% vi .login
Enter or edit the following line, specifying a value of 022 for the default file mode creation mask:
umask 022
If the ORACLE_SID, ORACLE_HOME, or ORACLE_BASE environment variable is set in the file, then remove the appropriate lines from the file.
Save the file, and exit from the editor.
To run the shell startup script, enter one of the following commands:
Bash shell:
$ . ./.bash_profile
Bourne or Korn shell:
$ . ./.profile
C shell:
% source ./.login
If you are not installing the software on the local system, then enter a command similar to the following to direct X applications to display on the local system:
Bourne, Bash, or Korn shell:
$ DISPLAY=local_host:0.0 ; export DISPLAY
C shell:
% setenv DISPLAY local_host:0.0
In this example, local_host
is the host name or IP address of the system that you want to use to display Oracle Universal Installer (your workstation or PC).
If you determined that the /tmp
directory has less than 400 MB of free disk space, then identify a file system with at least 400 MB of free space and set the TMP and TMPDIR environment variables to specify a temporary directory on this file system:
Use the df -k
command to identify a suitable file system with sufficient free space.
If necessary, enter commands similar to the following to create a temporary directory on the file system that you identified, and set the appropriate permissions on the directory:
$ su - root # mkdir /mount_point/tmp # chmod a+wr /mount_point/tmp # exit
Enter commands similar to the following to set the TMP and TMPDIR environment variables:
Bourne, Bash, or Korn shell:
$ TMP=/mount_point/tmp $ TMPDIR=/mount_point/tmp $ export TMP TMPDIR
C shell:
% setenv TMP /mount_point/tmp % setenv TMPDIR /mount_point/tmp
Enter commands similar to the following to set the ORACLE_BASE and ORACLE_SID environment variables:
Bourne, Bash, or Korn shell:
$ ORACLE_BASE=/u01/app/oracle $ ORACLE_SID=sales $ export ORACLE_BASE ORACLE_SID
C shell:
% setenv ORACLE_BASE /u01/app/oracle % setenv ORACLE_SID sales
In these examples, /u01/app/oracle
is the Oracle base directory that you created or identified earlier and sales
is the name that you want to call the database (typically no more than five characters).
If you are using raw devices for database storage, then set the DBCA_RAW_CONFIG environment variable to specify the full path to the raw device mapping file:
Bourne, Bash, or Korn shell:
$ DBCA_RAW_CONFIG=$ORACLE_BASE/oradata/dbname/dbname_raw.conf $ export DBCA_RAW_CONFIG
C shell:
% setenv DBCA_RAW_CONFIG=$ORACLE_BASE/oradata/dbname/dbname_raw.conf
Enter the following commands to ensure that the ORACLE_HOME and TNS_ADMIN environment variables are not set:
Bourne, Bash, or Korn shell:
$ unset ORACLE_HOME $ unset TNS_ADMIN
C shell:
% unsetenv ORACLE_HOME % unsetenv TNS_ADMIN
Note:
If the ORACLE_HOME environment variable is set, then Oracle Universal Installer uses the value that it specifies as the default path for the Oracle home directory. However, if you set the ORACLE_BASE environment variable, then Oracle recommends that you unset the ORACLE_HOME environment variable and choose the default path suggested by Oracle Universal Installer.To verify that the environment has been set correctly, enter the following commands:
$ umask $ env | more
Verify that the umask
command displays a value of 22
, 022
, or 0022
and the environment variables that you set in this section have the correct values.