How to installing Oracle 10g RAC On Linux Using VMware Server
This tutorial describes the installation of Oracle 10g release 2 (10.2.0.1) RAC on Linux (CentOS 4) using VMware Server with no additional shared disk devices.
- Introduction
- Download Software
- VMware Server Installation
- Virtual Machine Setup
- Guest Operating System Installation
- Oracle Installation Prerequisites
- Install VMware Client Tools
- Create Shared Disks
- Clone the Virtual Machine
- Install the Clusterware Software
- Install the Database Software and Create an ASM Instance
- Create a Database using the DBCA
- TNS Configuration
- Check the Status of the RAC
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 VMware Server to fake the shared storage.
Using VMware Server 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.
Before you launch into this installation, here are a few things to consider.
- The finished system includes the host operating system, two guest operating systems, two sets of Oracle Clusterware, two ASM instances and two Database instances all on a single server. As you can imagine, this requires a significant amount of disk space, CPU and memory. I tried this installation on a 3.4G Pentium 4 with 2G of memory and it failed abysmally. When I used a dual 3.0G Xeon server with 4G of memory it worked fine, but it wasn't exactly fast.
- This procedure provides a bare bones installation to get the RAC working. There is no redundancy in the Clusterware installation or the ASM installation. To add this, simply create double the amount of shared disks and select the "Normal" redundancy option when it is offered. Of course, this will take more disk space.
- During the virtual disk creation, I always choose not to preallocate the disk space. This makes virtual disk access slower during the installation, but saves on wasted disk space.
- This is not, and should not be considered, a production-ready system. It's simply to allow you to get used to installing and using RAC.
Download Software
Download the following software.
VMware Server Installation
For this article, I used CentOS 4.3 as both the host and guest operating systems. Regardless of the host OS, the setup of the virtual machines should be similar.
First, install the VMware Server software. On Linux you do this with the following command as the root user.
# rpm -Uvh VMware-server-*.rpm Preparing... ########################################### [100%] 1:VMware-server ########################################### [100%] #
Then finish the configuration by running the vmware-config.pl script as the root user. Most of the questions can be answered with the default response by pressing the return key. The output below shows my responses to the questions.
# vmware-config.pl Making sure services for VMware Server are stopped. Stopping VMware services: Virtual machine monitor [ OK ] You must read and accept the End User License Agreement to continue. Press enter to display it. VMWARE, INC. SOFTWARE BETA TEST AGREEMENT *** Editied out license agreement *** Do you accept? (yes/no) yes Thank you. Configuring fallback GTK+ 2.4 libraries. In which directory do you want to install the mime type icons? [/usr/share/icons] What directory contains your desktop menu entry files? These files have a .desktop file extension. [/usr/share/applications] In which directory do you want to install the application's icon? [/usr/share/pixmaps] Trying to find a suitable vmmon module for your running kernel. The module bld-2.6.9-5.EL-i686smp-RHEL4 loads perfectly in the running kernel. Do you want networking for your virtual machines? (yes/no/help) [yes] Configuring a bridged network for vmnet0. The following bridged networks have been defined: . vmnet0 is bridged to eth0 All your ethernet interfaces are already bridged. Do you want to be able to use NAT networking in your virtual machines? (yes/no) [yes] Configuring a NAT network for vmnet8. Do you want this program to probe for an unused private subnet? (yes/no/help) [yes] Probing for an unused private subnet (this can take some time)... The subnet 172.16.210.0/255.255.255.0 appears to be unused. The following NAT networks have been defined: . vmnet8 is a NAT network on private subnet 172.16.210.0. Do you wish to configure another NAT network? (yes/no) [no] Do you want to be able to use host-only networking in your virtual machines? [yes] no Trying to find a suitable vmnet module for your running kernel. The module bld-2.6.9-5.EL-i686smp-RHEL4 loads perfectly in the running kernel. Please specify a port for remote console connections to use [902] Stopping xinetd: [ OK ] Starting xinetd: [ OK ] Configuring the VMware VmPerl Scripting API. Building the VMware VmPerl Scripting API. Using compiler "/usr/bin/gcc". Use environment variable CC to override. The installation of the VMware VmPerl Scripting API succeeded. Do you want this program to set up permissions for your registered virtual machines? This will be done by setting new permissions on all files found in the "/etc/vmware/vm-list" file. [no] yes Generating SSL Server Certificate In which directory do you want to keep your virtual machine files? [/var/lib/vmware/Virtual Machines] /u01/VM Do you want to enter a serial number now? (yes/no/help) [no] yes Please enter your 20-character serial number. Type XXXXX-XXXXX-XXXXX-XXXXX or 'Enter' to cancel: ENTER-YOUR-SERIAL-NUMBER Starting VMware services: Virtual machine monitor [ OK ] Virtual ethernet [ OK ] Bridged networking on /dev/vmnet0 [ OK ] Host-only networking on /dev/vmnet8 (background) [ OK ] NAT service on /dev/vmnet8 [ OK ] Starting VMware virtual machines... [ OK ] The configuration of VMware Server e.x.p build-22874 for Linux for this running kernel completed successfully. #
The VMware Server Console is started by issuing the command "vmware" at the command prompt, or by selecting it from the "System Tools" menu.
On the "Connect to Host" dialog, accept the "Local host" option by clicking the "Connect" button.
You are then presented with the main VMware Server Console screen.
The VMware Server is now installed and ready to use.
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.
Click the "Create a new virtual machine" button to start the "New Virtual Machine Wizard". Click the "Next" button onthe welcome page.
Select the "Custom" virtual machine configuration and click the "Next" button.
Select the "Linux" guest operating system option, and set the version to "Red Hat Enterprise Linux 4", then click the "Next" button.
Enter the name "RAC1" and the location should default to "/u01/VM/RAC1", then click the "Next" button.
Select the required number of processors and click the "Next" button.
Uncheck the "Make this virtual machine private" checkbox and click the "Next" button.
Select the amount of memory to associate with the virtual machine. Remember, you are going to need two instances, so don't associate too much, but you are going to need approximately 1 Gig (1024 Meg) to compete the installation successfully.
Accept the "Use bridged networking" option by clicking the "Next" button.
Accept the "LSI Logic" option by clicking the "Next" button.
Select the "Create a new virtual disk" option and click the "Next" button.
Accept the "SCSI" option by clicking the "Next" button. It's a virtual disk, so you can still use this option even if your physical disk is IDE or SATA.
Set the disk size to "10.0" GB and uncheck the "Allocate all disk space now" option. The latter will make disk access slower, but will save you wasting disk space.
Accept "RAC1.vmdk" as the disk file name and complete the VM creation by clicking the "Finish" button.
On the "VMware Server Console" screen, click the "Edit virtual machine settings" button.
On the "Virtual Machine Settings" screen, highlight the "Floppy 1" drive and click the "- Remove" button.
Click the "+ Add" button and select a hardware type of "Ethernet Adapter", then click the "Next" button.
Accept the "Bridged" option by clicking the "Finish" button.
Click on the "Options" tab, highlight the "Startup/Shutdown" setting and select the "Don't power on virtual machine" in the "On host startup" option. Finish by clicking the "OK" button.
The virtual machine is now configured so we can start the guest operating system installation.
Guest Operating System Installation
Place the first CentOS 4 disk in the CD drive and start the virtual machine by clicking the "Power on this virtual machine" button. The right pane of the VMware Server Console should display a boot loader, then the CentOS installation screen.
Continue through the CentOS 4 installation as you would for a normal server. A general pictorial guide to the installation can be found here. More specifically, it should be a server installation with a minimum of 2G swap, secure Linux disabled and the following package groups installed:
- X Window System
- GNOME Desktop Environment
- Editors
- Graphical Internet
- Server Configuration Tools
- FTP Server
- Development Tools
- Legacy Software Development
- Administration Tools
- System Tools
To be consistent with the rest of the article, the following information should be set during the installation.
- hostname: rac1.localdomain
- IP Address eth0: 192.168.2.101 (public address)
- Default Gateway eth0: 192.168.2.1 (public address)
- IP Address eth1: 192.168.0.101 (private address)
- Default Gateway eth1: none
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.
Once the basic installation is complete, install the following packages whilst logged in as the root user.
# From CentOS4 Disk 1 cd /media/cdrecorder/CentOS/RPMS rpm -Uvh setarch-1* rpm -Uvh compat-libstdc++-33-3* rpm -Uvh make-3* rpm -Uvh glibc-2* cd / eject # From CentOS4 Disk 2 cd /media/cdrecorder/CentOS/RPMS rpm -Uvh openmotif-2* rpm -Uvh compat-db-4* rpm -Uvh gcc-3* cd / eject # From CentOS4 Disk 3 cd /media/cdrecorder/CentOS/RPMS rpm -Uvh libaio-0* rpm -Uvh rsh-* rpm -Uvh compat-gcc-32-3* rpm -Uvh compat-gcc-32-c++-3* rpm -Uvh openmotif21* cd / eject
Oracle Installation Prerequisites
Perform the following steps whilst logged into the RAC1 virtual machine as the root user.
The "/etc/hosts" file must contain the following information.
127.0.0.1 localhost.localdomain localhost # Public 192.168.2.101 rac1.localdomain rac1 192.168.2.102 rac2.localdomain rac2 #Private 192.168.0.101 rac1-priv.localdomain rac1-priv 192.168.0.102 rac2-priv.localdomain rac2-priv #Virtual 192.168.2.111 rac1-vip.localdomain rac1-vip 192.168.2.112 rac2-vip.localdomain rac2-vip
Add the following lines to the "/etc/sysctl.conf" file.
kernel.shmall = 2097152 kernel.shmmax = 2147483648 kernel.shmmni = 4096 # semaphores: semmsl, semmns, semopm, semmni kernel.sem = 250 32000 100 128 fs.file-max = 65536 net.ipv4.ip_local_port_range = 1024 65000 net.core.rmem_default=262144 net.core.rmem_max=262144 net.core.wmem_default=262144 net.core.wmem_max=262144
Run the following command to change the current kernel parameters.
/sbin/sysctl -p
Add the following lines to the "/etc/security/limits.conf" file.
* soft nproc 2047 * hard nproc 16384 * soft nofile 1024 * hard nofile 65536
Add the following line to the "/etc/pam.d/login" file, if it does not already exist.
session required pam_limits.so
Disable secure linux by editing the "/etc/selinux/config" file, making sure the SELINUX flag is set as follows.
SELINUX=disabled
Alternatively, this alteration can be done using the GUI tool (Applications > System Settings > Security Level). Click on the SELinux tab and disable the feature.
Set the hangcheck kernel module parameters by adding the following line to the "/etc/modprobe.conf" file.
options hangcheck-timer hangcheck_tick=30 hangcheck_margin=180
To load the module immediately, execute "modprobe -v hangcheck-timer".
Create the new groups and users.
groupadd oinstall groupadd dba groupadd oper useradd -g oinstall -G dba oracle passwd oracle
Create the directories in which the Oracle software will be installed.
mkdir -p /u01/crs/oracle/product/10.2.0/crs mkdir -p /u01/app/oracle/product/10.2.0/db_1 mkdir -p /u01/oradata chown -R oracle.oinstall /u01
During the installation, both RSH and RSH-Server were installed. Enable remote shell and rlogin by doing the following.
chkconfig rsh on chkconfig rlogin on service xinetd reload
Create the "/etc/hosts.equiv" file as the root user.
touch /etc/hosts.equiv chmod 600 /etc/hosts.equiv chown root:root /etc/hosts.equiv
Edit the "/etc/hosts.equiv" file to include all the RAC nodes:
+rac1 oracle +rac2 oracle +rac1-priv oracle +rac2-priv oracle
Login as the oracle user and add the following lines at the end of the ".bash_profile" file.
# Oracle Settings TMP=/tmp; export TMP TMPDIR=$TMP; export TMPDIR ORACLE_BASE=/u01/app/oracle; export ORACLE_BASE ORACLE_HOME=$ORACLE_BASE/product/10.2.0/db_1; export ORACLE_HOME ORACLE_SID=RAC1; export ORACLE_SID ORACLE_TERM=xterm; export ORACLE_TERM PATH=/usr/sbin:$PATH; export PATH PATH=$ORACLE_HOME/bin:$PATH; export PATH LD_LIBRARY_PATH=$ORACLE_HOME/lib:/lib:/usr/lib; export LD_LIBRARY_PATH CLASSPATH=$ORACLE_HOME/JRE:$ORACLE_HOME/jlib:$ORACLE_HOME/rdbms/jlib; export CLASSPATH if [ $USER = "oracle" ]; then if [ $SHELL = "/bin/ksh" ]; then ulimit -p 16384 ulimit -n 65536 else ulimit -u 16384 -n 65536 fi fi
Install VMware Client Tools
Login as the root user on the RAC1 virtual machine, then select the "VM > Install VMware Tools..." option from the main VMware Server Console menu.
This should mount a virtual CD containing the VMware Tools software. Double-click on the CD icon labelled "VMware Tools" to open the CD. Right-click on the ".rpm" package and select the "Open with 'Install Packages'" menu option.
Click the "Continue" button on the "Completed System Preparation" screen and wait for the installation to complete.
Once the package is loaded, the CD should unmount automatically. You must then run the "vmware-config-tools.pl" script as the root user. The following listing is an example of the output you should expect.
# vmware-config-tools.pl Stopping VMware Tools services in the virtual machine: Guest operating system daemon: [ OK ] Trying to find a suitable vmhgfs module for your running kernel. The module bld-2.6.9-11.EL-i686up-RHEL4 loads perfectly in the running kernel. pcnet32 30409 0 Unloading pcnet32 module Trying to find a suitable vmxnet module for your running kernel. The module bld-2.6.9-11.EL-i686up-RHEL4 loads perfectly in the running kernel. Detected X.org version 6.8. Please choose one of the following display sizes (1 - 13): [1] "640x480" [2] "800x600" [3] "1024x768" [4] "1152x864" [5] "1280x800" [6] "1152x900" [7] "1280x1024" [8] "1376x1032" [9] "1400x1050" [10] "1680x1050" [11] "1600x1200" [12]< "1920x1200" [13] "2364x1773" Please enter a number between 1 and 13: [12] 3 X Window System Version 6.8.2 Release Date: 9 February 2005 X Protocol Version 11, Revision 0, Release 6.8.2 Build Operating System: Linux 2.6.9-11.EL i686 [ELF] Current Operating System: Linux rac1.localdomain 2.6.9-22.EL #1 Sat Oct 8 17:48:27 CDT 2005 i686 Build Date: 07 October 2005 Build Host: x8664-build.home.local Before reporting problems, check http://wiki.X.Org to make sure that you have the latest version. Module Loader present OS Kernel: Linux version 2.6.9-22.EL (buildcentos@louisa.home.local) (gcc version 3.4.4 20050721 (Red Hat 3.4.4-2)) #1 Sat Oct 8 17:48:27 CDT 2005 P Markers: (--) probed, (**) from config file, (==) default setting, (++) from command line, (!!) notice, (II) informational, (WW) warning, (EE) error, (NI) not implemented, (??) unknown. (++) Log file: "/tmp/vmware-config0/XF86ConfigLog.3674", Time: Thu Apr 13 21:17:37 2006 (++) Using config file: "/tmp/vmware-config0/XF86Config.3674" X is running fine with the new config file. (WW) VMWARE(0): Failed to set up write-combining range (0xf0000000,0x1000000) Starting VMware Tools services in the virtual machine: Switching to guest configuration: [ OK ] Guest filesystem driver: [ OK ] Guest vmxnet fast network device: [ OK ] DMA setup: [ OK ] Guest operating system daemon: [ OK ] The configuration of VMware Tools e.x.p build-22874 for Linux for this running kernel completed successfully. You must restart your X session before any mouse or graphics changes take effect. You can now run VMware Tools by invoking the following command: "/usr/bin/vmware-toolbox" during an XFree86 session. To use the vmxnet driver, restart networking using the following commands: /etc/init.d/network stop rmmod pcnet32 rmmod vmxnet depmod -a modprobe vmxnet /etc/init.d/network start Enjoy, --the VMware team #
The VMware client tools are now installed.
Create Shared Disks
Shut down the RAC1 virtual machine using the following command.
# shutdown -h now
Create a directory on the host system to hold the shared virtual disks.
# mkdir -p /u01/VM/shared
On the VMware Server Console, click the "Edit virtual machine settings" button. On the "Virtual Machine Settings" screen, click the "+ Add" button.
Select the hardware type of "Hard Disk" and click the "Next" button.
Accept the "Create a new virtual disk" option by clicking the "Next" button.
Accept the "SCSI" option by clicking the "Next" button.
Set the disk size to "10.0" GB and uncheck the "Allocate all disk space now" option, then click the "Next" button.
Set the disk name to "/u01/VM/shared/ocr.vmdk" and click the "Advanced" button.
Set the virtual device node to "SCSI 1:1" and the mode to "Independent" and "Persistent", then click the "Finish" button.
Repeat the previous hard disk creation steps 4 more times, using the following values.
- File Name: /u01/VM/shared/votingdisk.vmdk
Virtual Device Node: SCSI 1:2
Mode: Independent and Persistent - File Name: /u01/VM/shared/asm1.vmdk
Virtual Device Node: SCSI 1:3
Mode: Independent and Persistent - File Name: /u01/VM/shared/asm2.vmdk
Virtual Device Node: SCSI 1:4
Mode: Independent and Persistent - File Name: /u01/VM/shared/asm3.vmdk
Virtual Device Node: SCSI 1:5
Mode: Independent and Persistent
At the end of this process, the virtual machine should look something like the picture below.
Edit the contents of the "/u01/VM/RAC1/RAC1.vmx" file using a text editor, making sure the following entries are present. Some of the tries will already be present, some will not.
disk.locking = "FALSE" diskLib.dataCacheMaxSize = "0" diskLib.dataCacheMaxReadAheadSize = "0" diskLib.dataCacheMinReadAheadSize = "0" diskLib.dataCachePageSize = "4096" diskLib.maxUnsyncedWrites = "0" scsi1.present = "TRUE" scsi1.virtualDev = "lsilogic" scsi1.sharedBus = "VIRTUAL" scsi1:1.present = "TRUE" scsi1:1.mode = "independent-persistent" scsi1:1.fileName = "/u01/VM/shared/ocr.vmdk" scsi1:1.deviceType = "plainDisk" scsi1:1.redo = "" scsi1:2.present = "TRUE" scsi1:2.mode = "independent-persistent" scsi1:2.fileName = "/u01/VM/shared/votingdisk.vmdk" scsi1:2.deviceType = "plainDisk" scsi1:2.redo = "" scsi1:3.present = "TRUE" scsi1:3.mode = "independent-persistent" scsi1:3.fileName = "/u01/VM/shared/asm1.vmdk" scsi1:3.deviceType = "plainDisk" scsi1:3.redo = "" scsi1:4.present = "TRUE" scsi1:4.mode = "independent-persistent" scsi1:4.fileName = "/u01/VM/shared/asm2.vmdk" scsi1:4.deviceType = "plainDisk" scsi1:4.redo = "" scsi1:5.present = "TRUE" scsi1:5.mode = "independent-persistent" scsi1:5.fileName = "/u01/VM/shared/asm3.vmdk" scsi1:5.deviceType = "plainDisk" scsi1:5.redo = ""
Start the RAC1 virtual machine by clicking the "Power on this virtual machine" button on the VMware Server Console. When the server has started, log in as the root user so you can partition the disks. The current disks can be seen by issueing the following commands.
# cd /dev # ls sd* sda sda1 sda2 sdb sdc sdd sde sdf #
Use the "fdisk" command to partition the disks sdb to sdf. 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. Changes will remain in memory only, until you decide to write them. After that, of course, the previous content won't be recoverable. The number of cylinders for this disk is set to 1305. There is nothing wrong with that, but this is larger than 1024, and could in certain setups cause problems with: 1) software that runs at boot time (e.g., old versions of LILO) 2) booting and partitioning software from other OSs (e.g., DOS FDISK, OS/2 FDISK) Warning: invalid flag 0x0000 of partition table 4 will be corrected by w(rite) Command (m for help): n Command action e extended p primary partition (1-4) p Partition number (1-4): 1 First cylinder (1-1305, default 1): Using default value 1 Last cylinder or +size or +sizeM or +sizeK (1-1305, default 1305): Using default value 1305 Command (m for help): p Disk /dev/sdb: 10.7 GB, 10737418240 bytes 255 heads, 63 sectors/track, 1305 cylinders Units = cylinders of 16065 * 512 = 8225280 bytes Device Boot Start End Blocks Id System /dev/sdb1 1 1305 10482381 83 Linux 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", "p" 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 sdf sdf1 #
Edit the "/etc/sysconfig/rawdevices" file, adding the following lines.
/dev/raw/raw1 /dev/sdb1 /dev/raw/raw2 /dev/sdc1 /dev/raw/raw3 /dev/sdd1 /dev/raw/raw4 /dev/sde1 /dev/raw/raw5 /dev/sdf1
Restart the rawdevices service using the following command.
service rawdevices restart
Create some symbolic links to the raw devices. This is not really necessary, but it acts as a reminder of the true locatons.
ln -s /dev/raw/raw1 /u01/oradata/ocr ln -s /dev/raw/raw2 /u01/oradata/votingdisk ln -s /dev/raw/raw3 /u01/oradata/asm1 ln -s /dev/raw/raw4 /u01/oradata/asm2 ln -s /dev/raw/raw5 /u01/oradata/asm3
Run the following commands and add them the "/etc/rc.local" file.
chown oracle:oinstall /dev/raw/raw1 chown oracle:oinstall /dev/raw/raw2 chown oracle:oinstall /dev/raw/raw3 chown oracle:oinstall /dev/raw/raw4 chown oracle:oinstall /dev/raw/raw5 chmod 600 /dev/raw/raw1 chmod 600 /dev/raw/raw2 chmod 600 /dev/raw/raw3 chmod 600 /dev/raw/raw4 chmod 600 /dev/raw/raw5
The shared disks are now configured.
Clone the Virtual Machine
The current version of VMware Server does not include an option to clone a virtual machine, but the following steps illustrate how this can be achieved manually.
Shut down the RAC1 virtual machine using the following command.
# shutdown -h now
Copy the RAC1 virtual machine using the following command.
# cp -R /u01/VM/RAC1 /u01/VM/RAC2
Edit the contents of the "/u01/VM/RAC2/RAC1.vmx" file, making the following change.
displayName = "RAC2"
Ignore discrepancies with the file names in the "/u01/VM/RAC2" directory. This does not affect the action of the virtual machine.
In the VMware Server Console, select the File > Open menu options and browse for the "/u01/VM/RAC2/RAC1.vmx" file. Once opened, the RAC2 virtual machine is visible on the console. Start the RAC2 virtual machine by clicking the "Power on this virtual machine" button and click the "Create" button on the subsequent "Question" screen.
Ignore any errors during the server startup. We are expecting the networking components to fail at this point.
Log in to the RAC2 virtual machine as the root user and start the "Network Configuration" tool (Applications > System Settings > Network).
Highlight the "eth0" interface and click the "Edit" button on the toolbar and alter the IP address to "192.168.2.102" in the resulting screen.
Click on the "Hardware Device" tab and click the "Probe" button. Then accept the changes by clicking the "OK" button.
Repeat the process for the "eth1" interface, this time setting the IP Address to "192.168.0.102".
Click on the "DNS" tab and change the host name to "rac2.localdomain", then click on the "Devices" tab.
Once you are finished, save the changes (File > Save) and activate the network interfaces by highlighting them and clicking the "Activate" button. Once activated, the screen should look like the following image.
Edit the "/home/oracle/.bash_profile" file on the RAC2 node to correct the ORACLE_SID value.
ORACLE_SID=RAC2; export ORACLE_SID
Start the RAC1 virtual machine and restart the RAC2 virtual machine. Whilst starting up, the "Kudzu" detection screen may be displayed.
Press a key and accept the configuration change on the following screen.
When both nodes have started, check they can both ping all the public and private IP addresses using the following commands.
ping -c 3 rac1 ping -c 3 rac1-priv ping -c 3 rac2 ping -c 3 rac2-priv
At this point the virtual IP addresses defined in the /etc/hosts file will not work, so don't bother testing them.
In the original installation I used RSH for inter-node communication. If you wish to use SSH instead, perform the following configurations. If you prefer to use RSH, jump straight to the runcluvfy.sh note.
Configure SSH on each node in the cluster. Log in as the "oracle" user and perform the following tasks on each node.
su - oracle mkdir ~/.ssh chmod 700 ~/.ssh /usr/bin/ssh-keygen -t rsa # Accept the default settings.
The RSA public key is written to the "~/.ssh/id_rsa.pub" file and the private key to the "~/.ssh/id_rsa" file.
Log in as the "oracle" user on RAC1, generate an "authorized_keys" file on RAC1 and copy it to RAC2 using the following commands.
su - oracle cd ~/.ssh cat id_rsa.pub >> authorized_keys scp authorized_keys rac2:/home/oracle/.ssh/
Next, log in as the "oracle" user on RAC2 and perform the following commands.
su - oracle cd ~/.ssh cat id_rsa.pub >> authorized_keys scp authorized_keys rac1:/home/oracle/.ssh/
The "authorized_keys" file on both servers now contains the public keys generated on all RAC nodes.
To enable SSH user equivalency on the cluster member nodes issue the following commands on each node.
ssh rac1 date ssh rac2 date ssh rac1.localdomain date ssh rac2.localdomain date exec /usr/bin/ssh-agent $SHELL /usr/bin/ssh-add
You should now be able to SSH and SCP between servers without entering passwords.
Before installing the clusterware, check the prerequisites have been met using the "runcluvfy.sh" utility in the clusterware root directory.
/mountpoint/clusterware/runcluvfy.sh stage -pre crsinst -n rac1,rac2 -verbose
If you get any failures be sure to correct them before proceeding.
It's a good idea to take a snapshot of the virtual machines, so you can repeat the following stages if you run into any problems. To do this, shutdown both virtual machines and issue the following commands.
# cd /u01/VM # tar -cvf RAC-PreClusterware.tar RAC1 RAC2 shared # gzip RAC-PreClusterware.tar
The virtual machine setup is now complete.
Install the Clusterware Software
Start the RAC1 and RAC2 virtual machines, login to RAC1 as the oracle user and start the Oracle installer.
./runInstaller
On the "Welcome" screen, click the "Next" button.
Accept the default inventory location by clicking the "Next" button.
Enter the appropriate name and path for the Oracle Home and click the "Next" button.
Wait while the prerequisite checks are done. If you have any failures correct them and retry the tests before clicking the "Next" button.
You can choose to ignore the warnings from the prerequisite checks and click the "Next" button. If you do, you will also need to ignore the subsequent warning message by clicking the "Yes" button.
The "Specify Cluster Configuration" screen shows only the RAC1 node in the cluster. Click the "Add" button to continue.
Enter the details for the RAC2 node and click the "OK" button.
Click the "Next" button to continue.
The "Specific Network Interface Usage" screen defines how each network interface will be used. Highlight the "eth0" interface and click the "Edit" button.
Set the "eht0" interface type to "Public" and click the "OK" button.
Leave the "eth1" interface as private and click the "Next" button.
Click the "External Redundancy" option, enter "/dev/raw/raw1" as the OCR Location and click the "Next" button. To have greater redundancy we would need to define another shared disk for an alternate location.
Click the "External Redundancy" option, enter "/dev/raw/raw2" as the Voting Disk Location and click the "Next" button. To have greater redundancy we would need to define another shared disk for an alternate location.
On the "Summary" screen, click the "Install" button to continue.
Wait while the installation takes place.
Once the install is complete, run the orainstRoot.sh and root.sh scripts on both nodes as directed on the following screen.
The output from the orainstRoot.sh file should look something like that listed below.
# cd /u01/app/oracle/oraInventory # ./orainstRoot.sh Changing permissions of /u01/app/oracle/oraInventory to 770. Changing groupname of /u01/app/oracle/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. The following text is the output from the RAC1 node.
# cd /u01/crs/oracle/product/10.2.0/crs # ./root.sh WARNING: directory '/u01/crs/oracle/product/10.2.0' is not owned by root WARNING: directory '/u01/crs/oracle/product' is not owned by root WARNING: directory '/u01/crs/oracle' is not owned by root WARNING: directory '/u01/crs' is not owned by root WARNING: directory '/u01' is not owned by root Checking to see if Oracle CRS stack is already configured /etc/oracle does not exist. Creating it now. Setting the permissions on OCR backup directory Setting up NS directories Oracle Cluster Registry configuration upgraded successfully WARNING: directory '/u01/crs/oracle/product/10.2.0' is not owned by root WARNING: directory '/u01/crs/oracle/product' is not owned by root WARNING: directory '/u01/crs/oracle' is not owned by root WARNING: directory '/u01/crs' is not owned by root WARNING: directory '/u01' is not owned by root assigning default hostname rac1 for node 1. assigning default hostname rac2 for node 2. Successfully accumulated necessary OCR keys. Using ports: CSS=49895 CRS=49896 EVMC=49898 and EVMR=49897. node <nodenumber>: <nodename> <private interconnect name> <hostname> node 1: rac1 rac1-priv rac1 node 2: rac2 rac2-priv rac2 Creating OCR keys for user 'root', privgrp 'root'.. Operation successful. Now formatting voting device: /dev/raw/raw2 Format of 1 voting devices complete. Startup will be queued to init within 90 seconds. Adding daemons to inittab Expecting the CRS daemons to be up within 600 seconds. CSS is active on these nodes. rac1 CSS is inactive on these nodes. rac2 Local node checking complete. Run root.sh on remaining nodes to start CRS daemons. #
Ignore the directory ownership warnings. We should really use a separate directory structure for the clusterware so it can be owned by the root user, but it has little effect on the finished results.
The output from the RAC2 node is listed below.
# cd /u01/crs/oracle/product/10.2.0/crs # ./root.sh WARNING: directory '/u01/crs/oracle/product/10.2.0' is not owned by root WARNING: directory '/u01/crs/oracle/product' is not owned by root WARNING: directory '/u01/crs/oracle' is not owned by root WARNING: directory '/u01/crs' is not owned by root WARNING: directory '/u01' is not owned by root Checking to see if Oracle CRS stack is already configured /etc/oracle does not exist. Creating it now. Setting the permissions on OCR backup directory Setting up NS directories Oracle Cluster Registry configuration upgraded successfully WARNING: directory '/u01/crs/oracle/product/10.2.0' is not owned by root WARNING: directory '/u01/crs/oracle/product' is not owned by root WARNING: directory '/u01/crs/oracle' is not owned by root WARNING: directory '/u01/crs' is not owned by root WARNING: directory '/u01' is not owned by root clscfg: EXISTING configuration version 3 detected. clscfg: version 3 is 10G Release 2. assigning default hostname rac1 for node 1. assigning default hostname rac2 for node 2. Successfully accumulated necessary OCR keys. Using ports: CSS=49895 CRS=49896 EVMC=49898 and EVMR=49897. node <nodenumber>: <nodename> <private interconnect name> <hostname> node 1: rac1 rac1-priv rac1 node 2: rac2 rac2-priv rac2 clscfg: Arguments check out successfully. NO KEYS WERE WRITTEN. Supply -force parameter to override. -force is destructive and will destroy any previous cluster configuration. Oracle Cluster Registry for cluster has already been initialized Startup will be queued to init within 90 seconds. Adding daemons to inittab Expecting the CRS daemons to be up within 600 seconds. CSS is active on these nodes. rac1 rac2 CSS is active on all nodes. Waiting for the Oracle CRSD and EVMD to start Waiting for the Oracle CRSD and EVMD to start Waiting for the Oracle CRSD and EVMD to start Waiting for the Oracle CRSD and EVMD to start Waiting for the Oracle CRSD and EVMD to start Waiting for the Oracle CRSD and EVMD to start Waiting for the Oracle CRSD and EVMD to start Oracle CRS stack installed and running under init(1M) Running vipca(silent) for configuring nodeapps The given interface(s), "eth0" is not public. Public interfaces should be used to configure virtual IPs. #
Here you can see that some of the configuration steps are omitted as they were done by the first node. In addition, the final part of the script ran the Virtual IP Configuration Assistant (VIPCA) in silent mode, but it failed. This is because my public IP addresses are actually within the "192.168.255.255" range which is a private IP range. If you were using "legal" IP addresses you would not see this and you could ignore the following VIPCA steps.
Run the VIPCA manually as the root user on the RAC2 node using the following command.
# cd /u01/crs/oracle/product/10.2.0/crs/bin # ./vipca
Click the "Next" button on the VIPCA welcome screen.
Highlight the "eth0" interface and click the "Next" button.
Enter the vitual IP alias and address for each node. Once you enter the first alias, the remaining values should default automatically. Click the "Next" button to continue.
Accept the summary information by clicking the "Finish" button.
Wait until the configuration is complete, then click the "OK" button.
Accept the VIPCA results by clicking the "Exit" button.
You should now return to the "Execute Configuration Scripts" screen on RAC1 and click the "OK" button.
Wait for the configuration assistants to complete.
When the installation is complete, click the "Exit" button to leave the installer.
It's a good idea to take a snapshot of the virtual machines, so you can repeat the following stages if you run into any problems. To do this, shutdown both virtual machines and issue the following commands.
# cd /u01/VM # tar -cvf RAC-PostClusterware.tar RAC1 RAC2 shared # gzip RAC-PostClusterware.tar
The clusterware installation is now complete.
Install the Database Software and Create an ASM Instance
Start the RAC1 and RAC2 virtual machines, login to RAC1 as the oracle user and start the Oracle installer.
./runInstaller
On the "Welcome" screen, click the "Next" button.
Select the "Enterprise Edition" option and click the "Next" button.
Enter the name and path for the Oracle Home and click the "Next" button.
Select the "Cluster Install" option and make sure both RAC nodes are selected, the click the "Next" button.
Wait while the prerequisite checks are done. If you have any failures correct them and retry the tests before clicking the "Next" button.
You can choose to ignore the warnings from the prerequisite checks and click the "Next" button. If you do, you will also need to ignore the subsequent warning message by clicking the "Yes" button.
Select the "Configure Automatic Storage Management (ASM)" option, enter the SYS password for the ASM instance, then click the "Next" button.
Select the "External" redundancy option (no mirroring), select all three raw disks (raw3, raw4 and raw5), then click the "Next" button.
On the "Summary" screen, click the "Install" button to continue.
Wait while the database software installs.
Once the installation is complete, wait while the configuration assistants run.
Execute the "root.sh" scripts on both nodes, as instructed on the "Execute Configuration scripts" screen, then click the "OK" button.
When the installation is complete, click the "Exit" button to leave the installer.
It's a good idea to take a snapshot of the virtual machines, so you can repeat the following stages if you run into any problems. To do this, shutdown both virtual machines and issue the following commands.
# cd /u01/VM # tar -cvf RAC-PostASM.tar RAC1 RAC2 shared # gzip RAC-PostASM.tar
The database software installation and ASM creation step is now complete.
Create a Database using the DBCA
Start the RAC1 and RAC2 virtual machines, login to RAC1 as the oracle user and start the Database Configuration Assistant.
dbca
On the "Welcome" screen, select the "Oracle Real Application Clusters database" option and click the "Next" button.
Select the "Create a Database" option and click the "Next" button.
Highlight both RAC nodes and click the "Next" button.
Select the "Custom Database" option and click the "Next" button.
Enter the values "RAC.WORLD" and "RAC" for the Global Database Name and SID Prefix respectively, then click the "Next" button.
Accept the management options by clicking the "Next" button. If you are attempting the installation on a server with limited memory, you may prefer not to configure Enterprise Manager at this time.
Enter database passwords then click the "Next" button.
Select the "Automatic Storage Management (ASM)" option, then click the "Next" button.
Select the "DATA" disk group, then click the "Next" button.
Accept the "Use Oracle-Managed Files" database location by the "Next" button.
Check both the "Specify Flash Recovery Area" and "Enable Archiving" options. Enter "+DATA" as the Flash Recovery Area, then click the "Next" button.
Uncheck all but the "Enterprise Manager Repository" option, then click the "Standard Database Components..." button.
Uncheck all but the "Oracle JVM" option, then click the "OK" button, followed by the "Next" button on the previous screen. If you are attempting the installation on a server with limited memory, you may prefer not to install the JVM at this time.
Accept the current database services configuration by clicking the "Next" button.
Select the "Custom" memory management option and accept the default settings by clicking the "Next" button.
Accept the database storage settings by clicking the "Next" button.
Accept the database creation options by clicking the "Finish" button.
Accept the summary information by clicking the "OK" button.
Wait while the database is created.
Once the database creation is complete you are presented with the following screen. Make a note of the information on the screen and click the "Exit" button.
The RAC database creation is now complete.
TNS Configuration
Once the installation is complete, the "$ORACLE_HOME/network/admin/listener.ora" file on each RAC node will contain entries similar to the following.
LISTENER_RAC1 = (DESCRIPTION_LIST = (DESCRIPTION = (ADDRESS = (PROTOCOL = IPC)(KEY = EXTPROC1)) (ADDRESS = (PROTOCOL = TCP)(HOST = rac1-vip.localdomain)(PORT = 1521)(IP = FIRST)) (ADDRESS = (PROTOCOL = TCP)(HOST = 192.168.2.101)(PORT = 1521)(IP = FIRST)) ) ) SID_LIST_LISTENER_RAC1 = (SID_LIST = (SID_DESC = (SID_NAME = PLSExtProc) (ORACLE_HOME = /u01/app/oracle/product/10.2.0/db_1) (PROGRAM = extproc) ) )
The "$ORACLE_HOME/network/admin/tnsnames.ora" file on each RAC node will contain entries similar to the following.
RAC = (DESCRIPTION = (ADDRESS = (PROTOCOL = TCP)(HOST = rac1-vip.localdomain)(PORT = 1521)) (ADDRESS = (PROTOCOL = TCP)(HOST = rac2-vip.localdomain)(PORT = 1521)) (LOAD_BALANCE = yes) (CONNECT_DATA = (SERVER = DEDICATED) (SERVICE_NAME = RAC.WORLD) ) ) LISTENERS_RAC = (ADDRESS_LIST = (ADDRESS = (PROTOCOL = TCP)(HOST = rac1-vip.localdomain)(PORT = 1521)) (ADDRESS = (PROTOCOL = TCP)(HOST = rac2-vip.localdomain)(PORT = 1521)) ) RAC2 = (DESCRIPTION = (ADDRESS = (PROTOCOL = TCP)(HOST = rac2-vip.localdomain)(PORT = 1521)) (CONNECT_DATA = (SERVER = DEDICATED) (SERVICE_NAME = RAC.WORLD) (INSTANCE_NAME = RAC2) ) ) RAC1 = (DESCRIPTION = (ADDRESS = (PROTOCOL = TCP)(HOST = rac1-vip.localdomain)(PORT = 1521)) (CONNECT_DATA = (SERVER = DEDICATED) (SERVICE_NAME = RAC.WORLD) (INSTANCE_NAME = RAC1) ) )
This configuration allows direct connections to specific instance, or using a load balanced connection to the main service.
$ sqlplus / as sysdba SQL*Plus: Release 10.2.0.1.0 - Production on Tue Apr 18 12:27:11 2006 Copyright (c) 1982, 2005, Oracle. All rights reserved. Connected to: Oracle Database 10g Enterprise Edition Release 10.2.0.1.0 - Production With the Partitioning, Real Application Clusters, OLAP and Data Mining options SQL> CONN sys/password@rac1 AS SYSDBA Connected. SQL> SELECT instance_name, host_name FROM v$instance; INSTANCE_NAME HOST_NAME ---------------- ---------------------------------------------------------------- RAC1 rac1.localdomain SQL> CONN sys/password@rac2 AS SYSDBA Connected. SQL> SELECT instance_name, host_name FROM v$instance; INSTANCE_NAME HOST_NAME ---------------- ---------------------------------------------------------------- RAC2 rac2.localdomain SQL> CONN sys/password@rac AS SYSDBA Connected. SQL> SELECT instance_name, host_name FROM v$instance; INSTANCE_NAME HOST_NAME ---------------- ---------------------------------------------------------------- RAC1 rac1.localdomain SQL>
Check the Status of the RAC
There are several ways to check the status of the RAC. The
srvctl
utility shows the current configuration and status of the RAC database.$ srvctl config database -d RAC rac1 RAC1 /u01/app/oracle/product/10.2.0/db_1 rac2 RAC2 /u01/app/oracle/product/10.2.0/db_1 $ $ srvctl status database -d RAC Instance RAC1 is running on node rac1 Instance RAC2 is running on node rac2 $
The
V$ACTIVE_INSTANCES
view can also display the current status of the instances.$ sqlplus / as sysdba SQL*Plus: Release 10.2.0.1.0 - Production on Tue Apr 18 12:15:15 2006 Copyright (c) 1982, 2005, Oracle. All rights reserved. Connected to: Oracle Database 10g Enterprise Edition Release 10.2.0.1.0 - Production With the Partitioning, Real Application Clusters, OLAP and Data Mining options SQL> SELECT * FROM v$active_instances; INST_NUMBER INST_NAME ----------- ------------------------------------------------------------ 1 rac1.localdomain:RAC1 2 rac2.localdomain:RAC2 SQL>
Finally, the
GV$
allow you to display global information for the whole RAC.SQL> SELECT inst_id, username, sid, serial# FROM gv$session WHERE username IS NOT NULL; INST_ID USERNAME SID SERIAL# ---------- ------------------------------ ---------- ---------- 1 SYS 127 2 1 SYS 128 28 1 SYS 130 10 1 SYS 131 4 1 SYS 133 9 1 DBSNMP 134 27 1 DBSNMP 135 1 1 SYS 153 122 2 SYSMAN 120 243 2 DBSNMP 122 37 2 DBSNMP 124 93 INST_ID USERNAME SID SERIAL# ---------- ------------------------------ ---------- ---------- 2 SYSMAN 125 2 2 SYSMAN 127 6 2 SYS 128 26 2 SYS 129 30 2 SYS 130 3 2 SYS 133 149 2 SYSMAN 134 58 2 SYS 136 32 19 rows selected. SQL>
If you have configured Enterprise Manager, it can be used to view the configuration and current status of the database.
Direct and Asynchronous I/O
Remember to use direct I/O and asynchronous I/O to improve performance. Direct I/O has been supported over NFS for some time, but support for asynchronous I/O over NFS was only introduced in RHEL 4 Update 3 (and its clones), so you need to use an up to date version of your Linux distribution to take advantage of this feature.
You can get details about this Direct and Asynchronous I/O by following the link.
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