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Oracle Database 11g Release 2 (11.2.0.3) RAC On Oracle Linux 6.3 Using VirtualBox

This article describes the installation of Oracle Database 11g release 2 (11.2.0.3 64-bit) RAC on Linux (Oracle Linux 6.3 64-bit) using VirtualBox (4.2.6) with no additional shared disk devices.

Related articles.

Introduction

One of the biggest obstacles preventing people from setting up test RAC environments is the requirement for shared storage. In a production environment, shared storage is often provided by a SAN or high-end NAS device, but both of these options are very expensive when all you want to do is get some experience installing and using RAC. A cheaper alternative is to use a FireWire disk enclosure to allow two machines to access the same disk(s), but that still costs money and requires two servers. A third option is to use virtualization to fake the shared storage.

Using VirtualBox you can run multiple Virtual Machines (VMs) on a single server, allowing you to run both RAC nodes on a single machine. In addition, it allows you to set up shared virtual disks, overcoming the obstacle of expensive shared storage.

Virtual RAC

Before you launch into this installation, here are a few things to consider.

Download Software

Download the following software.

VirtualBox Installation

First, install the VirtualBox software. On RHEL and its clones you do this with the following type of command as the root user.

# rpm -Uvh VirtualBox-4.2-4.2.6_82870_fedora17-1.x86_64.rpm

The package name will vary depending on the host distribution you are using. Once complete, VirtualBox is started from the "Applications > System Tools > Oracle VM VirtualBox" menu option.

Virtual Machine Setup

Now we must define the two virtual RAC nodes. We can save time by defining one VM, then cloning it when it is installed.

Start VirtualBox and click the "New" button on the toolbar. Enter the name "ol6-112-rac1", OS "Linux" and Version "Oracle (64 bit)", then click the "Next" button.

New VM Wizard - Name and Operating System

Enter "4096" as the base memory size, then click the "Next" button.

New VM Wizard - Memory Size

Accept the default option to create a new virtual hard disk by clicking the "Create" button.

New VM Wizard - Hard Drive

Acccept the default hard drive file type by clicking the "Next" button.

Create Virtual Hard Drive - Hard Drive File Type

Acccept the "Dynamically allocated" option by clicking the "Next" button.

Create Virtual Hard Drive - Storage on Physical Hard Drive

Accept the default location and set the size to "30G", then click the "Create" button. If you can spread the virtual disks onto different physical disks, that will improve performance.

Create Virtual Hard Drive - File Location And Size

The "ol6-112-rac1" VM will appear on the left hand pane. Scroll down the "Details" tab on the right and click on the "Network" link.

VirtualBox - Console

Make sure "Adapter 1" is enabled, set to "Bridged Adapter", then click on the "Adapter 2" tab.

VirtualBox - Network Adapter 1

Make sure "Adapter 2" is enabled, set to "Bridged Adapter" or "Internal Network", then click on the "System" section.

VirtualBox - Network Adapter 2

Move "Hard Disk" to the top of the boot order and uncheck the "Floppy" option, then click the "OK" button.

VirtualBox - System Settings

The virtual machine is now configured so we can start the guest operating system installation.

Guest Operating System Installation

With the new VM highlighted, click the "Start" button on the toolbar. On the "Select start-updisk" screen, choose the relevant Oracle Linux ISO image and click the "Start" button.

VirtualBox - Select start-up disk

The resulting console window will contain the Oracle Linux boot screen.

Oracle Linux Boot

Continue through the Oracle Linux 6 installation as you would for a basic server. A general pictorial guide to the installation can be found here. More specifically, it should be a server installation with a minimum of 4G+ swap, firewall disabled, SELinux set to permissive and the following package groups installed:

To be consistent with the rest of the article, the following information should be set during the installation:

You are free to change the IP addresses to suit your network, but remember to stay consistent with those adjustments throughout the rest of the article.

Oracle Installation Prerequisites

Perform either the Automatic Setup or the Manual Setup to complete the basic prerequisites. The Additional Setup is required for all installations.

Automatic Setup

If you plan to use the "oracle-rdbms-server-11gR2-preinstall" package to perform all your prerequisite setup, follow the instructions at http://public-yum.oracle.com to setup the yum repository for OL, then perform the following command.

# yum install oracle-rdbms-server-11gR2-preinstall

All necessary prerequisites will be performed automatically.

It is probably worth doing a full update as well, but this is not strictly speaking necessary.

# yum update

Manual Setup

If you have not used the "oracle-rdbms-server-11gR2-preinstall" package to perform all prerequisites, you will need to manually perform the following setup tasks.

In addition to the basic OS installation, the following packages must be installed whilst logged in as the root user. This includes the 64-bit and 32-bit versions of some packages. The commented out packages are those already installed if you have followed the suggested package selection.

# From Oracle Linux 6 DVD
cd /media/cdrom/Server/Packages
#rpm -Uvh binutils-2.*
#rpm -Uvh compat-libstdc++-33*
#rpm -Uvh elfutils-libelf-0.*
#rpm -Uvh libaio-0.*
rpm -Uvh libaio-devel-0.*
#rpm -Uvh sysstat-9.*
#rpm -Uvh glibc-2.*
#rpm -Uvh glibc-common-2.*
#rpm -Uvh glibc-devel-2.* glibc-headers-2.*
rpm -Uvh ksh-2*
#rpm -Uvh make-3.*
#rpm -Uvh libgcc-4.*
#rpm -Uvh libstdc++-4.*
rpm -Uvh libstdc++-4.*.i686*
#rpm -Uvh libstdc++-devel-4.*
#rpm -Uvh gcc-4.*x86_64*
#rpm -Uvh gcc-c++-4.*x86_64*
#rpm -Uvh --allfiles elfutils-libelf-0*x86_64* elfutils-libelf-devel-0*x86_64*
rpm -Uvh elfutils-libelf-0*i686* elfutils-libelf-devel-0*i686*
rpm -Uvh libtool-ltdl*i686*
rpm -Uvh ncurses*i686*
rpm -Uvh readline*i686*
rpm -Uvh unixODBC*
cd /
eject

Add or amend the following lines to the "/etc/sysctl.conf" file.

fs.aio-max-nr = 1048576
fs.file-max = 6815744
#kernel.shmall = 2097152 
#kernel.shmmax = 1054504960
kernel.shmmni = 4096
# semaphores: semmsl, semmns, semopm, semmni
kernel.sem = 250 32000 100 128
net.ipv4.ip_local_port_range = 9000 65500
net.core.rmem_default=262144
net.core.rmem_max=4194304
net.core.wmem_default=262144
net.core.wmem_max=1048586

Run the following command to change the current kernel parameters.

/sbin/sysctl -p

Add the following lines to the "/etc/security/limits.conf" file.

oracle              soft    nproc   2047
oracle              hard    nproc   16384
oracle              soft    nofile  4096
oracle              hard    nofile  65536
oracle              soft    stack   10240

Add the following lines to the "/etc/pam.d/login" file, if it does not already exist.

session    required     pam_limits.so

Create the new groups and users.

groupadd -g 1000 oinstall
groupadd -g 1200 dba
useradd -u 1100 -g oinstall -G dba oracle
passwd oracle

Additional Setup

Perform the following steps whilst logged into the "ol6-112-rac1" virtual machine as the root user.

Set the password for the "oracle" user.

passwd oracle

Install the following package from the Oracle grid media after you've defined groups.

cd /your/path/to/grid/rpm
rpm -Uvh cvuqdisk*

If you are not using DNS, the "/etc/hosts" file must contain the following information.

127.0.0.1       localhost.localdomain   localhost
# Public
192.168.0.111   ol6-112-rac1.localdomain        ol6-112-rac1
192.168.0.112   ol6-112-rac2.localdomain        ol6-112-rac2
# Private
192.168.1.111   ol6-112-rac1-priv.localdomain   ol6-112-rac1-priv
192.168.1.112   ol6-112-rac2-priv.localdomain   ol6-112-rac2-priv
# Virtual
192.168.0.113   ol6-112-rac1-vip.localdomain    ol6-112-rac1-vip
192.168.0.114   ol6-112-rac2-vip.localdomain    ol6-112-rac2-vip
# SCAN
192.168.0.115   ol6-112-scan.localdomain ol6-112-scan
192.168.0.116   ol6-112-scan.localdomain ol6-112-scan
192.168.0.117   ol6-112-scan.localdomain ol6-112-scan

Even with the SCAN address defined in the hosts file, it still needs to be defined on the DNS to round-robin between 3 addresses on the same subnet as the public IPs. The DNS configuration is described here. Having said that, I normally include everything except the SCAN entries when using DNS.

Amend the "/etc/security/limits.d/90-nproc.conf" file as described below. See MOS Note [ID 1487773.1]

# Change this
*          soft    nproc    1024

# To this
* - nproc 16384

Change the setting of SELinux to permissive by editing the "/etc/selinux/config" file, making sure the SELINUX flag is set as follows.

SELINUX=permissive

If you have the Linux firewall enabled, you will need to disable or configure it, as shown here or here. The following is an example of disabling the firewall.

# service iptables stop
# chkconfig iptables off

Either configure NTP, or make sure it is not configured so the Oracle Cluster Time Synchronization Service (ctssd) can synchronize the times of the RAC nodes. If you want to deconfigure NTP do the following.

# service ntpd stop
Shutting down ntpd:                                        [  OK  ]
# chkconfig ntpd off
# mv /etc/ntp.conf /etc/ntp.conf.orig
# rm /var/run/ntpd.pid

If you want to use NTP, you must add the "-x" option into the following line in the "/etc/sysconfig/ntpd" file.

OPTIONS="-x -u ntp:ntp -p /var/run/ntpd.pid"

Then restart NTP.

# service ntpd restart

Create the directories in which the Oracle software will be installed.

mkdir -p  /u01/app/11.2.0.3/grid
mkdir -p /u01/app/oracle/product/11.2.0.3/db_1
chown -R oracle:oinstall /u01
chmod -R 775 /u01/

Log in as the "oracle" user and add the following lines at the end of the "/home/oracle/.bash_profile" file.

# Oracle Settings
TMP=/tmp; export TMP
TMPDIR=$TMP; export TMPDIR

ORACLE_HOSTNAME=ol6-112-rac1.localdomain; export ORACLE_HOSTNAME
ORACLE_UNQNAME=RAC; export ORACLE_UNQNAME
ORACLE_BASE=/u01/app/oracle; export ORACLE_BASE
GRID_HOME=/u01/app/11.2.0.3/grid; export GRID_HOME
DB_HOME=$ORACLE_BASE/product/11.2.0.3/db_1; export DB_HOME
ORACLE_HOME=$DB_HOME; export ORACLE_HOME
ORACLE_SID=RAC1; export ORACLE_SID
ORACLE_TERM=xterm; export ORACLE_TERM
BASE_PATH=/usr/sbin:$PATH; export BASE_PATH
PATH=$ORACLE_HOME/bin:$BASE_PATH; export PATH

LD_LIBRARY_PATH=$ORACLE_HOME/lib:/lib:/usr/lib; export LD_LIBRARY_PATH
CLASSPATH=$ORACLE_HOME/JRE:$ORACLE_HOME/jlib:$ORACLE_HOME/rdbms/jlib; export CLASSPATH

alias grid_env='. /home/oracle/grid_env'
alias db_env='. /home/oracle/db_env'

Create a file called "/home/oracle/grid_env" with the following contents.

ORACLE_SID=+ASM1; export ORACLE_SID
ORACLE_HOME=$GRID_HOME; export ORACLE_HOME
PATH=$ORACLE_HOME/bin:$BASE_PATH; export PATH

LD_LIBRARY_PATH=$ORACLE_HOME/lib:/lib:/usr/lib; export LD_LIBRARY_PATH
CLASSPATH=$ORACLE_HOME/JRE:$ORACLE_HOME/jlib:$ORACLE_HOME/rdbms/jlib; export CLASSPATH

Create a file called "/home/oracle/db_env" with the following contents.

ORACLE_SID=RAC1; export ORACLE_SID
ORACLE_HOME=$DB_HOME; export ORACLE_HOME
PATH=$ORACLE_HOME/bin:$BASE_PATH; export PATH

LD_LIBRARY_PATH=$ORACLE_HOME/lib:/lib:/usr/lib; export LD_LIBRARY_PATH
CLASSPATH=$ORACLE_HOME/JRE:$ORACLE_HOME/jlib:$ORACLE_HOME/rdbms/jlib; export CLASSPATH

Once the "/home/oracle/.bash_profile" has been run, you will be able to switch between environments as follows.

$ grid_env
$ echo $ORACLE_HOME
/u01/app/11.2.0.3/grid
$ db_env
$ echo $ORACLE_HOME
/u01/app/oracle/product/11.2.0.3/db_1
$

We've made a lot of changes, so it's worth doing a reboot of the VM at this point to make sure all the changes have taken effect.

# shutdown -r now

Install Guest Additions

Click on the "Devices > Install Guest Additions" menu option at the top of the VM screen. If you get the option to auto-run take it. If not, then run the following commands.

cd /media/VBOXADDITIONS_4.2.6_82870
sh ./VBoxLinuxAdditions.run

The VM will need to be restarted for the additions to be used properly. The next section requires a shutdown so no additional restart is needed at this time.

Create Shared Disks

Shut down the "ol6-112-rac1" virtual machine using the following command.

# shutdown -h now

On the host server, create 4 sharable virtual disks and associate them as virtual media using the following commands. You can pick a different location, but make sure they are outside the existing VM directory.

$ mkdir -p /u04/VirtualBox/ol6-112-rac
$ cd /u04/VirtualBox/ol6-112-rac
$
$ # Create the disks and associate them with VirtualBox as virtual media.
$ VBoxManage createhd --filename asm1.vdi --size 5120 --format VDI --variant Fixed
$ VBoxManage createhd --filename asm2.vdi --size 5120 --format VDI --variant Fixed
$ VBoxManage createhd --filename asm3.vdi --size 5120 --format VDI --variant Fixed
$ VBoxManage createhd --filename asm4.vdi --size 5120 --format VDI --variant Fixed
$
$ # Connect them to the VM.
$ VBoxManage storageattach ol6-112-rac1 --storagectl "SATA" --port 1 --device 0 --type hdd \
    --medium asm1.vdi --mtype shareable
$ VBoxManage storageattach ol6-112-rac1 --storagectl "SATA" --port 2 --device 0 --type hdd \
    --medium asm2.vdi --mtype shareable
$ VBoxManage storageattach ol6-112-rac1 --storagectl "SATA" --port 3 --device 0 --type hdd \
    --medium asm3.vdi --mtype shareable
$ VBoxManage storageattach ol6-112-rac1 --storagectl "SATA" --port 4 --device 0 --type hdd \
    --medium asm4.vdi --mtype shareable
$
$ # Make shareable.
$ VBoxManage modifyhd asm1.vdi --type shareable
$ VBoxManage modifyhd asm2.vdi --type shareable
$ VBoxManage modifyhd asm3.vdi --type shareable
$ VBoxManage modifyhd asm4.vdi --type shareable

Start the "ol6-112-rac1" virtual machine by clicking the "Start" button on the toolbar. When the server has started, log in as the root user so you can configure the shared disks. The current disks can be seen by issuing the following commands.

# cd /dev
# ls sd*
sda  sda1  sda2  sdb  sdc  sdd  sde
#

Use the "fdisk" command to partition the disks sdb to sde. The following output shows the expected fdisk output for the sdb disk.

# fdisk /dev/sdb
Device contains neither a valid DOS partition table, nor Sun, SGI or OSF disklabel
Building a new DOS disklabel with disk identifier 0x62be91cf.
Changes will remain in memory only, until you decide to write them.
After that, of course, the previous content won't be recoverable.

Warning: invalid flag 0x0000 of partition table 4 will be corrected by w(rite)

WARNING: DOS-compatible mode is deprecated. It's strongly recommended to
         switch off the mode (command 'c') and change display units to
         sectors (command 'u').

Command (m for help): n
Command action
   e   extended
   p   primary partition (1-4)
p
Partition number (1-4): 1
First cylinder (1-652, default 1): 
Using default value 1
Last cylinder, +cylinders or +size{K,M,G} (1-652, default 652): 
Using default value 652

Command (m for help): w
The partition table has been altered!

Calling ioctl() to re-read partition table.
Syncing disks.
#

In each case, the sequence of answers is "n", "p", "1", "Return", "Return" and "w".

Once all the disks are partitioned, the results can be seen by repeating the previous "ls" command.

# cd /dev
# ls sd*
sda  sda1  sda2  sdb  sdb1  sdc  sdc1  sdd  sdd1  sde  sde1
#

Configure your UDEV rules, as shown here.

Add the following to the "/etc/scsi_id.config" file to configure SCSI devices as trusted. Create the file if it doesn't already exist.

options=-g

The SCSI ID of my disks are displayed below.

# /sbin/scsi_id -g -u -d /dev/sdb
1ATA_VBOX_HARDDISK_VB348c4cfc-e3924169
# /sbin/scsi_id -g -u -d /dev/sdc
1ATA_VBOX_HARDDISK_VB5a922b63-bdda991a
# /sbin/scsi_id -g -u -d /dev/sdd
1ATA_VBOX_HARDDISK_VB4bcd7321-f022a60f
# /sbin/scsi_id -g -u -d /dev/sde
1ATA_VBOX_HARDDISK_VBec4843fc-6004ae11
#

Using these values, edit the "/etc/udev/rules.d/99-oracle-asmdevices.rules" file adding the following 4 entries. All parameters for a single entry must be on the same line.

KERNEL=="sd?1", BUS=="scsi", PROGRAM=="/sbin/scsi_id -g -u -d /dev/$parent", RESULT=="1ATA_VBOX_HARDDISK_VB348c4cfc-e3924169",
  NAME="asm-disk1", OWNER="oracle", GROUP="dba", MODE="0660"
KERNEL=="sd?1", BUS=="scsi", PROGRAM=="/sbin/scsi_id -g -u -d /dev/$parent", RESULT=="1ATA_VBOX_HARDDISK_VB5a922b63-bdda991a",
  NAME="asm-disk2", OWNER="oracle", GROUP="dba", MODE="0660"
KERNEL=="sd?1", BUS=="scsi", PROGRAM=="/sbin/scsi_id -g -u -d /dev/$parent", RESULT=="1ATA_VBOX_HARDDISK_VB4bcd7321-f022a60f",
  NAME="asm-disk3", OWNER="oracle", GROUP="dba", MODE="0660"
KERNEL=="sd?1", BUS=="scsi", PROGRAM=="/sbin/scsi_id -g -u -d /dev/$parent", RESULT=="1ATA_VBOX_HARDDISK_VBec4843fc-6004ae11",
  NAME="asm-disk4", OWNER="oracle", GROUP="dba", MODE="0660"

Load updated block device partition tables.

# /sbin/partprobe /dev/sdb1
# /sbin/partprobe /dev/sdc1
# /sbin/partprobe /dev/sdd1
# /sbin/partprobe /dev/sde1

Test the rules are working as expected.

# /sbin/udevadm test /block/sdb/sdb1

Reload the UDEV rules and start UDEV.

# /sbin/udevadm control --reload-rules
# /sbin/start_udev

The disks should now be visible and have the correct ownership using the following command. If they are not visible, your UDEV configuration is incorrect and must be fixed before you proceed.

# ls -al /dev/asm*
brw-rw---- 1 oracle dba 8, 17 Oct 12 14:39 /dev/asm-disk1
brw-rw---- 1 oracle dba 8, 33 Oct 12 14:38 /dev/asm-disk2
brw-rw---- 1 oracle dba 8, 49 Oct 12 14:39 /dev/asm-disk3
brw-rw---- 1 oracle dba 8, 65 Oct 12 14:39 /dev/asm-disk4
#

The shared disks are now configured for the grid infrastructure.

Clone the Virtual Machine

Later versions of VirtualBox allow you to clone VMs, but these also attempt to clone the shared disks, which is not what we want. Instead we must manually clone the VM.

Shut down the "ol6-112-rac1" virtual machine using the following command.

# shutdown -h now

Manually clone the "ol6-112-rac1.vdi" disk using the following commands on the host server.

$ mkdir -p /u03/VirtualBox/ol6-112-rac2
$ VBoxManage clonehd /u01/VirtualBox/ol6-112-rac1/ol6-112-rac1.vdi /u03/VirtualBox/ol6-112-rac2/ol6-112-rac2.vdi

Create the "ol6-112-rac2" virtual machine in VirtualBox in the same way as you did for "ol6-112-rac1", with the exception of using an existing "ol6-112-rac2.vdi" virtual hard drive.

New VM Wizard - Hard Drive

Remember to add the second network adaptor as you did on the "ol6-112-rac1" VM. When the VM is created, attach the shared disks to this VM.

$ cd /u04/VirtualBox/ol6-112-rac
$
$ VBoxManage storageattach ol6-112-rac2 --storagectl "SATA" --port 1 --device 0 --type hdd \
    --medium asm1.vdi --mtype shareable
$ VBoxManage storageattach ol6-112-rac2 --storagectl "SATA" --port 2 --device 0 --type hdd \
    --medium asm2.vdi --mtype shareable
$ VBoxManage storageattach ol6-112-rac2 --storagectl "SATA" --port 3 --device 0 --type hdd \
    --medium asm3.vdi --mtype shareable
$ VBoxManage storageattach ol6-112-rac2 --storagectl "SATA" --port 4 --device 0 --type hdd \
    --medium asm4.vdi --mtype shareable

Start the "ol6-112-rac2" virtual machine by clicking the "Start" button on the toolbar. Ignore any network errors during the startup.

Log in to the "ol6-112rac2" virtual machine as the "root" user so we can reconfigure the network settings to match the following.

Amend the hostname in the "/etc/sysconfig/network" file.

NETWORKING=yes
HOSTNAME=ol6-112-rac2.localdomain

Check the MAC address of each of the available network connections. Don't worry that they are listed as "eth2" and "eth3". These are dynamically created connections because the MAC address of the "eth0" and "eth1" connections is incorrect.

# ifconfig -a | grep eth
eth2      Link encap:Ethernet  HWaddr 08:00:27:95:ED:33
eth3      Link encap:Ethernet  HWaddr 08:00:27:E3:DA:B6
#

Edit the "/etc/sysconfig/network-scripts/ifcfg-eth0", amending only the IPADDR and HWADDR settings as follows and deleting the UUID entry. Note, the HWADDR value comes from the "eth2" interface displayed above.

HWADDR=08:00:27:95:ED:33
IPADDR=192.168.0.112

Edit the "/etc/sysconfig/network-scripts/ifcfg-eth1", amending only the IPADDR and HWADDR settings as follows and deleting the UUID entry. Note, the HWADDR value comes from the "eth3" interface displayed above.

HWADDR=08:00:27:E3:DA:B6
IPADDR=192.168.1.112

If the adapter names do not reset properly, check the HWADDR in the "/etc/udev/rules.d/70-persistent-net.rules" file. If it is incorrect, amend it to match the settings described above.

Edit the "/home/oracle/.bash_profile" file on the "ol6-112-rac2" node to correct the ORACLE_SID and ORACLE_HOSTNAME values.

ORACLE_SID=RAC2; export ORACLE_SID
ORACLE_HOSTNAME=ol6-112-rac2.localdomain; export ORACLE_HOSTNAME

Also, amend the ORACLE_SID setting in the "/home/oracle/db_env" and "/home/oracle/grid_env" files.

Restart the "ol6-112-rac2" virtual machine and start the "ol6-112-rac1" virtual machine. When both nodes have started, check they can both ping all the public and private IP addresses using the following commands.

ping -c 3 ol6-112-rac1
ping -c 3 ol6-112-rac1-priv
ping -c 3 ol6-112-rac2
ping -c 3 ol6-112-rac2-priv

At this point the virtual IP addresses defined in the "/etc/hosts" file will not work, so don't bother testing them.

Check the UDEV rules are working on both machines. In previous versions of OL6 the "/etc/udev/rules.d/99-oracle-asmdevices.rules" file copied between servers during the clone without any issues. For some reason, this doesn't seem to happen on my OL6.3 installations, so you may need to repeat the UDEV configuration on the second node if the output of the following command is not consistent on both nodes.

# ls -al /dev/asm*
brw-rw----. 1 oracle dba 8, 17 Jan 12 20:16 /dev/asm-disk1
brw-rw----. 1 oracle dba 8, 33 Jan 12 20:16 /dev/asm-disk2
brw-rw----. 1 oracle dba 8, 49 Jan 12 20:16 /dev/asm-disk3
brw-rw----. 1 oracle dba 8, 65 Jan 12 20:16 /dev/asm-disk4
#

Prior to 11gR2 we would probably use the "runcluvfy.sh" utility in the clusterware root directory to check the prerequisites have been met. If you are intending to configure SSH connectivity using the installer this check should be omitted as it will always fail. If you want to setup SSH connectivity manually, then once it is done you can run the "runcluvfy.sh" with the following command.

/mountpoint/clusterware/runcluvfy.sh stage -pre crsinst -n ol6-112-rac1,ol6-112-rac2 -verbose

If you get any failures be sure to correct them before proceeding.

The virtual machine setup is now complete.

Before moving forward you should probably shut down your VMs and take snapshots of them. If any failures happen beyond this point it is probably better to switch back to those snapshots, clean up the shared drives and start the grid installation again. An alternative to cleaning up the shared disks is to back them up now using zip and just replace them in the event of a failure.

$ cd /u04/VirtualBox/ol6-112-rac
$ zip PreGrid.zip *.vdi

Install the Grid Infrastructure

Make sure both virtual machines are started, then login to "ol6-112-rac1" as the oracle user and start the Oracle installer.

$ cd /host/software/oracle/11gR2/11.2.0.3.0/linux64_grid
$ ./runInstaller

Select the "Skip software updates" option, then click the "Next" button.

Grid - Download Software Updates

Select the "Install and Configure Oracle Grid Infrastructure for a Cluster" option, then click the "Next" button.

Grid - Select Installation Option

Select the "Typical Installation" option, then click the "Next" button.

Grid - Select Installation Type

On the "Specify Cluster Configuration" screen, enter the correct SCAN Name and click the "Add" button.

Grid - Specify Cluster Configuration

Enter the details of the second node in the cluster, then click the "OK" button.

Grid - Add Cluster Node Information

Click the "SSH Connectivity..." button and enter the password for the "oracle" user. Click the "Setup" button to to configure SSH connectivity, and the "Test" button to test it once it is complete.

Grid - SSH Connectivity

Click the "Identify network interfaces..." button and check the public and private networks are specified correctly. Once you are happy with them, click the "OK" button and the "Next" button on the previous screen.

Grid - Network Interfaces

Enter "/u01/app/11.2.0.3/grid" as the software location and "Automatic Storage Manager" as the cluster registry storage type. Enter the ASM password, select "dba" as the group and click the "Next" button.

Grid - Specify Install Locations

Set the redundancy to "External", click the "Change Discovery Path" button and set the path to "/dev/asm*". Return the main screen and select all 4 disks and click the "Next" button.

Grid - Create ASM Disk Group

Accept the default inventory directory by clicking the "Next" button.

Grid - Create Inventory

Wait while the prerequisite checks complete. If you have any issues, either fix them or check the "Ignore All" checkbox and click the "Next" button.

Grid - Perform Prerequisite Checks

If you are happy with the summary information, click the "Install" button.

Grid - Summary

Wait while the setup takes place.

Grid - Setup

When prompted, run the configuration scripts on each node.

Grid - Execute Configuration Scripts

The output from the "orainstRoot.sh" file should look something like that listed below.

# cd /u01/app/oraInventory
# ./orainstRoot.sh
Changing permissions of /u01/app/oraInventory.
Adding read,write permissions for group.
Removing read,write,execute permissions for world.

Changing groupname of /u01/app/oraInventory to oinstall.
The execution of the script is complete.
#

The output of the root.sh will vary a little depending on the node it is run on. Example output can be seen here (Node1, Node2).

Once the scripts have completed, return to the "Execute Configuration Scripts" screen on "rac1" and click the "OK" button.

Grid - Execute Configuration Scripts

Wait for the configuration assistants to complete.

Grid - Configuration Assistants

We expect the verification phase to fail with an error relating to the SCAN, assuming you are not using DNS.

INFO: Checking Single Client Access Name (SCAN)...
INFO: Checking name resolution setup for "rac-scan.localdomain"...
INFO: ERROR:
INFO: PRVF-4664 : Found inconsistent name resolution entries for SCAN name "rac-scan.localdomain"
INFO: ERROR:
INFO: PRVF-4657 : Name resolution setup check for "rac-scan.localdomain" (IP address: 192.168.2.201) failed
INFO: ERROR:
INFO: PRVF-4664 : Found inconsistent name resolution entries for SCAN name "rac-scan.localdomain"
INFO: Verification of SCAN VIP and Listener setup failed

Provided this is the only error, it is safe to ignore this and continue by clicking the "Next" button.

Click the "Close" button to exit the installer.

Grid - Finish

The grid infrastructure installation is now complete.

Install the Database

Make sure the "ol6-112-rac1" and "ol6-112-rac2" virtual machines are started, then login to "ol6-112-rac1" as the oracle user and start the Oracle installer.

$ cd /host/software/oracle/11gR2/11.2.0.3.0/linux64_database
$ ./runInstaller

Uncheck the security updates checkbox and click the "Next" button and "Yes" on the subsequent warning dialog.

DB - Configure Security Updates

Check the "Skip software updates" checkbox and click the "Next" button.

DB - Download Software Updates

Accept the "Create and configure a database" option by clicking the "Next" button.

DB - Select Installation Option

Accept the "Server Class" option by clicking the "Next" button.

DB - System Class

Make sure both nodes are selected, then click the "Next" button.

DB - Node Selection

Accept the "Typical install" option by clicking the "Next" button.

DB - Select Install Type

Enter "/u01/app/oracle/product/11.2.0.3/db_1" for the software location. The storage type should be set to "Automatic Storage Manager". Enter the appropriate passwords and database name, in this case "RAC.localdomain".

DB - Typical Install Configuration

Wait for the prerequisite check to complete. If there are any problems either fix them, or check the "Ignore All" checkbox and click the "Next" button.

DB - Perform Prerequisite Checks

If you are happy with the summary information, click the "Install" button.

DB - Summary

Wait while the installation takes place.

DB - Install Product

Once the software installation is complete the Database Configuration Assistant (DBCA) will start automatically.

DB - DBCA

Once the Database Configuration Assistant (DBCA) has finished, click the "OK" button.

DB - DBCA Complete

When prompted, run the configuration scripts on each node. When the scripts have been run on each node, click the "OK" button.

DB - Execute Configuration Scripts

Click the "Close" button to exit the installer.

DB - Finish

The RAC database creation is now complete.

Check the Status of the RAC

There are several ways to check the status of the RAC. The srvctl utility shows the current configuration and status of the RAC database.

$ srvctl config database -d RAC
Database unique name: RAC
Database name: RAC
Oracle home: /u01/app/oracle/product/11.2.0.3/db_1
Oracle user: oracle
Spfile: +DATA/RAC/spfileRAC.ora
Domain: localdomain
Start options: open
Stop options: immediate
Database role: PRIMARY
Management policy: AUTOMATIC
Server pools: RAC
Database instances: RAC2,RAC1
Disk Groups: DATA
Mount point paths: 
Services: 
Type: RAC
Database is administrator managed
$

$ srvctl status database -d RAC
Instance RAC1 is running on node ol6-112-rac1
Instance RAC2 is running on node ol6-112-rac2
$

The V$ACTIVE_INSTANCES view can also display the current status of the instances.

$ sqlplus / as sysdba

SQL*Plus: Release 11.2.0.3.0 Production on Tue Sep 27 22:20:14 2011

Copyright (c) 1982, 2011, Oracle.  All rights reserved.


Connected to:
Oracle Database 11g Enterprise Edition Release 11.2.0.3.0 - 64bit Production
With the Partitioning, Real Application Clusters, Automatic Storage Management, OLAP,
Data Mining and Real Application Testing options

SQL> SELECT inst_name FROM v$active_instances;

INST_NAME
--------------------------------------------------------------------------------
ol6-112-rac1.localdomain:RAC1
ol6-112-rac2.localdomain:RAC2

SQL>

If you have configured Enterprise Manager, it can be used to view the configuration and current status of the database using a URL like "https://ol6-112-rac1.localdomain:1158/em".

OEM

For more information see:

Hope this helps. Regards Tim...

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