This section provides information and procedures to install and configure Solstice DiskSuite/Solaris Volume Manager software.
The following table lists the tasks that you perform to install and configure Solstice DiskSuite/Solaris Volume Manager software for Sun Cluster configurations. You can skip certain procedures in the following conditions:
If you used SunPlex Manager to install Solstice DiskSuite software (Solaris 8), the procedures How to Install Solstice DiskSuite Software through How to Create State Database Replicas are already completed. Go to Mirroring the Root Disk or How to Create a Diskset to continue to configure Solstice DiskSuite software.
If you installed Solaris 9 software, Solaris Volume Manager is already installed. You can start at How to Set the Number of Metadevice or Volume Names and Disksets.
Task |
Instructions |
---|---|
1. Plan the layout of your Solstice DiskSuite/Solaris Volume Manager configuration. | |
2. (Solaris 8 only) Install Solstice DiskSuite software. | |
3. Calculate the number of metadevice names and disksets needed for your configuration, and modify the /kernel/drv/md.conf file. |
How to Set the Number of Metadevice or Volume Names and Disksets |
4. Create state database replicas on the local disks. | |
5. (Optional) Mirror file systems on the root disk. | |
6. Create disksets by using the metaset command. | |
7. Add disk drives to the disksets. | |
8. (Optional) Repartition disk drives in a diskset to allocate space to slices 1 through 6. | |
9. List DID pseudo-driver mappings and define metadevices or volumes in the /etc/lvm/md.tab files. | |
10. Initialize the md.tab files. | |
11. (Dual-string configurations only) Configure dual-string mediator hosts, check the status of mediator data, and, if necessary, fix bad mediator data. | |
12. Configure the cluster. |
The following example helps to explain the process for determining the number of disk drives to place in each diskset. In this example, three storage devices are used. Existing applications are run over NFS (two file systems of 5 Gbytes each) and two ORACLE databases (one 5 Gbytes and one 10 Gbytes).
The following table shows the calculations that are used to determine the number of disk drives needed in the sample configuration. In a configuration with three storage devices, you would need 28 disk drives, which would be divided as evenly as possible among each of the three storage devices. Note that the 5-Gbyte file systems were given an additional 1 Gbyte of disk space because the number of disk drives needed was rounded up.
Table 3–2 Determining the Number of Disk Drives Needed for a Configuration
Use |
Data |
Disk Storage Needed |
Disk Drives Needed |
---|---|---|---|
nfs1 |
5 Gbytes |
3x2.1 Gbyte disks * 2 (Mirror) |
6 |
nfs2 |
5 Gbytes |
3x2.1 Gbyte disks * 2 (Mirror) |
6 |
SPARC: oracle1 |
5 Gbytes |
3x2.1 Gbyte disks * 2 (Mirror) |
6 |
SPARC: oracle2 |
10 Gbytes |
5x2.1 Gbyte disks * 2 (Mirror) |
10 |
The following table shows the allocation of disk drives among the two disksets and four data services.
Table 3–3 Division of Disksets
Diskset |
Data Services |
Disk Drives |
Storage Device 1 |
Storage Device 2 |
Storage Device 3 |
---|---|---|---|---|---|
dg-schost-1 |
nfs1, oracle1 |
12 |
4 |
4 |
4 |
dg-schost-2 |
nfs2, oracle2 |
16 |
5 |
6 |
5 |
Initially, four disk drives on each storage device (a total of 12 disks) are assigned to dg-schost-1, and five or six disk drives on each (a total of 16 disks) are assigned to dg-schost-2.
No hot spare disks are assigned to either diskset. A minimum of one hot spare disk per storage device per diskset enables one drive to be hot spared, which restores full two-way mirroring.
If you used SunPlex Manager to install Solstice DiskSuite software, do not perform this procedure. Instead, go to Mirroring the Root Disk.
If you installed Solaris 9 software, do not perform this procedure. Solaris Volume Manager software is installed with Solaris 9 software. Instead, go to How to Set the Number of Metadevice or Volume Names and Disksets.
Perform this task on each node in the cluster.
Have available the following information.
Mappings of your storage disk drives.
The following completed configuration planning worksheets. See Planning Volume Management for planning guidelines.
Become superuser on the cluster node.
If you install from the CD-ROM, insert the Solaris 8 Software 2 of 2 CD-ROM into the CD-ROM drive on the node.
This step assumes that the Volume Management daemon vold(1M) is running and configured to manage CD-ROM devices.
Install the Solstice DiskSuite software packages in the order that is shown in the following example.
# cd /cdrom/sol_8_sparc_2/Solaris_8/EA/products/DiskSuite_4.2.1/sparc/Packages # pkgadd -d . SUNWmdr SUNWmdu [SUNWmdx] optional-pkgs |
If you have Solstice DiskSuite software patches to install, do not reboot after you install the Solstice DiskSuite software.
The SUNWmdr and SUNWmdu packages are required for all Solstice DiskSuite installations. The SUNWmdx package is also required for the 64-bit Solstice DiskSuite installation.
See your Solstice DiskSuite installation documentation for information about optional software packages.
If you installed from a CD-ROM, eject the CD-ROM.
Install any Solstice DiskSuite patches.
See “Patches and Required Firmware Levels” in Sun Cluster 3.1 Release Notes for the location of patches and installation instructions.
Repeat Step 1 through Step 6 on the other nodes of the cluster.
From one node of the cluster, manually populate the global-device namespace for Solstice DiskSuite.
# scgdevs |
The scgdevs command might return a message similar to the following:
Could not open /dev/rdsk/c0t6d0s2 to verify device id, Device busy |
If the listed device is a CD-ROM device, you can safely ignore the message.
Set the number of metadevice names and disksets that are expected in the cluster.
Go to How to Set the Number of Metadevice or Volume Names and Disksets.
If you used SunPlex Manager to install Solstice DiskSuite software, do not perform this procedure. Instead, go to Mirroring the Root Disk.
This procedure describes how to determine the number of Solstice DiskSuite metadevice or Solaris Volume Manager volume names and disksets that are needed for your configuration. This procedure also describes how to modify the /kernel/drv/md.conf file to specify these numbers.
The default number of metadevice or volume names per diskset is 128, but many configurations need more than the default. Increase this number before you implement a configuration, to save administration time later.
At the same time, keep the value of the nmdfield and the md_nsets field as low as possible. Memory structures exist for all possible devices as determined by nmdand md_nsets, even if you have not created those devices. For optimal performance, keep the value of nmd and md_nsets only slightly higher than the number of metadevices or volumes you plan to use.
Have available the Disk Device Group Configurations Worksheet.
Determine the total number of disksets you expect to need in the cluster, then add one more diskset for private disk management.
The cluster can have a maximum of 32 disksets, 31 disksets for general use plus one diskset for private disk management. The default number of disksets is 4. You supply this value for the md_nsets field in Step 4.
Determine the largest metadevice or volume name you expect to need for any diskset in the cluster.
Each diskset can have a maximum of 8192 metadevice or volume names. You supply this value for the nmd field in Step 4.
Determine the quantity of metadevice or volume names you expect to need for each diskset.
If you use local metadevices or volumes, ensure that each local metadevice or volume name is unique throughout the cluster and does not use the same name as any device-ID name in the cluster.
Choose a range of numbers to use exclusively for device-ID names and a range for each node to use exclusively for its local metadevice or volume names. For example, device-ID names might use the range from d1 to d100. Local metadevices or volumes on node 1 might use names in the range from d100 to d199. And local metadevices or volumes on node 2 might use d200 to d299.
Determine the highest of the metadevice or volume names you expect to use in any diskset.
The quantity of metadevice or volume names to set is based on the metadevice or volume name value rather than on the actual quantity. For example, if your metadevice or volume names range from d950 to d1000, Solstice DiskSuite/Solaris Volume Manager software requires that you set the value at 1000 names, not 50.
On each node, become superuser and edit the /kernel/drv/md.conf file.
All cluster nodes (or cluster pairs in the cluster-pair topology) must have identical /kernel/drv/md.conf files, regardless of the number of disksets served by each node. Failure to follow this guideline can result in serious Solstice DiskSuite/Solaris Volume Manager errors and possible loss of data.
On each node, perform a reconfiguration reboot.
# touch /reconfigure # shutdown -g0 -y -i6 |
Changes to the /kernel/drv/md.conf file become operative after you perform a reconfiguration reboot.
Create local state database replicas.
If you used SunPlex Manager to install Solstice DiskSuite software, do not perform this procedure. Instead, go to Mirroring the Root Disk.
Perform this procedure on each node in the cluster.
Become superuser on the cluster node.
Create state database replicas on one or more local disks for each cluster node by using the metadb command.
Use the physical name (cNtXdYsZ), not the device-ID name (dN), to specify the slices to use.
# metadb -af slice-1 slice-2 slice-3 |
To provide protection of state data, which is necessary to run Solstice DiskSuite/Solaris Volume Manager software, create at least three replicas for each node. Also, you can place replicas on more than one disk to provide protection if one of the disks fails.
See the metadb(1M) man page and your Solstice DiskSuite/Solaris Volume Manager documentation for details.
Verify the replicas.
# metadb |
The metadb command displays the list of replicas.
Do you intend to mirror file systems on the root disk?
If yes, go to Mirroring the Root Disk.
If no, go to How to Create a Diskset to create Solstice DiskSuite/Solaris Volume Manager disksets.
The following example shows three Solstice DiskSuite state database replicas. Each replica is created on a different disk. For Solaris Volume Manager, the replica size would be larger.
# metadb -af c0t0d0s7 c0t1d0s7 c1t0d0s7 # metadb flags first blk block count a u 16 1034 /dev/dsk/c0t0d0s7 a u 16 1034 /dev/dsk/c0t1d0s7 a u 16 1034 /dev/dsk/c1t0d0s7 |
Mirroring the root disk prevents the cluster node itself from shutting down because of a system disk failure. Four types of file systems can reside on the root disk. Each file-system type is mirrored by using a different method.
Use the following procedures to mirror each type of file system.
Some of the steps in these mirroring procedures can cause an error message similar to the following, which is harmless and can be ignored.
metainit: dg-schost-1: d1s0: not a metadevice |
For local disk mirroring, do not use /dev/global as the path when you specify the disk name. If you specify this path for anything other than cluster file systems, the system cannot boot.
Use this procedure to mirror the root (/) file system.
Become superuser on the node.
Use the metainit(1M) command to put the root slice in a single-slice (one-way) concatenation.
Specify the physical disk name of the root-disk slice (cNtXdYsZ).
# metainit -f submirror1 1 1 root-disk-slice |
Create a second concatenation.
# metainit submirror2 1 1 submirror-disk-slice |
Create a one-way mirror with one submirror.
# metainit mirror -m submirror1 |
The metadevice or volume name for the mirror must be unique throughout the cluster.
Run the metaroot(1M) command.
This command edits the /etc/vfstab and /etc/system files so the system can be booted with the root (/) file system on a metadevice or volume.
# metaroot mirror |
Run the lockfs(1M) command.
This command flushes all transactions out of the log and writes the transactions to the master file system on all mounted UFS file systems.
# lockfs -fa |
Move any resource groups or device groups from the node.
# scswitch -S -h from-node |
Moves all resource groups and device groups
Specifies the name of the node from which to move resource or device groups
Reboot the node.
This command remounts the newly mirrored root (/) file system.
# shutdown -g0 -y -i6 |
Use the metattach(1M) command to attach the second submirror to the mirror.
# metattach mirror submirror2 |
Is the disk that is used to mirror the root disk physically connected to more than one node (multiported)?
If no, proceed to Step 11.
If yes, perform the following steps to enable the localonly property of the raw-disk device group for the disk used to mirror the root disk. You must enable the localonly property to prevent unintentional fencing of a node from its boot device if the boot device is connected to multiple nodes.
If necessary, use the scdidadm(1M) -L command to display the full device-ID path name of the raw-disk device group.
In the following example, the raw-disk device-group name dsk/d2 is part of the third column of output, which is the full device-ID path name.
# scdidadm -L … 1 phys-schost-3:/dev/rdsk/c1t1d0 /dev/did/rdsk/d2 |
View the node list of the raw-disk device group.
Output looks similar to the following:
# scconf -pvv | grep dsk/d2 Device group name: dsk/d2 … (dsk/d2) Device group node list: phys-schost-1, phys-schost-3 … |
Does the node list contain more than one node name?
Remove all nodes from the node list for the raw-disk device group except the node whose root disk you mirrored.
Only the node whose root disk you mirrored should remain in the node list.
# scconf -r -D name=dsk/dN,nodelist=node |
Specifies the cluster-unique name of the raw-disk device group
Specifies the name of the node or nodes to remove from the node list
Use the scconf(1M) command to enable the localonly property.
When the localonly property is enabled, the raw-disk device group is used exclusively by the node in its node list. This usage prevents unintentional fencing of the node from its boot device if the boot device is connected to multiple nodes.
# scconf -c -D name=rawdisk-groupname,localonly=true |
Specifies the name of the raw-disk device group
For more information about the localonly property, see the scconf_dg_rawdisk(1M) man page.
Record the alternate boot path for possible future use.
If the primary boot device fails, you can then boot from this alternate boot device. See “Troubleshooting the System” in Solstice DiskSuite 4.2.1 User's Guide or “Mirroring root (/) Special Considerations” in Solaris Volume Manager Administration Guide for more information about alternate boot devices.
# ls -l /dev/rdsk/root-disk-slice |
Repeat Step 1 through Step 11 on each remaining node of the cluster.
Ensure that each metadevice or volume name for a mirror is unique throughout the cluster.
Do you intend to mirror the global namespace, /global/.devices/node@nodeid?
If yes, go to How to Mirror the Global Namespace.
If no, proceed to Step 14.
Do you intend to mirror file systems than cannot be unmounted?
If yes, go to How to Mirror File Systems Other Than Root (/) That Cannot Be Unmounted.
If no, proceed to Step 15.
Do you intend to mirror user-defined file systems?
If yes, go to How to Mirror File Systems That Can Be Unmounted.
If no, go to How to Create a Diskset to create a diskset.
The following example shows the creation of mirror d0 on the node phys-schost-1, which consists of submirror d10 on partition c0t0d0s0 and submirror d20 on partition c2t2d0s0. Disk c2t2d0 is a multiported disk, so the localonly property is enabled.
(Create the mirror) # metainit -f d10 1 1 c0t0d0s0 d11: Concat/Stripe is setup # metainit d20 1 1 c2t2d0s0 d12: Concat/Stripe is setup # metainit d0 -m d10 d10: Mirror is setup # metaroot d0 # lockfs -fa (Move resource groups and device groups from phys-schost-1) # scswitch -S -h phys-schost-1 (Reboot the node) # shutdown -g0 -y -i6 (Attach the second submirror) # metattach d0 d20 d0: Submirror d20 is attached (Display the device-group node list) # scconf -pvv | grep dsk/d2 Device group name: dsk/d2 … (dsk/d2) Device group node list: phys-schost-1, phys-schost-3 … (Remove phys-schost-3 from the node list) # scconf -r -D name=dsk/d2,nodelist=phys-schost-3 (Enable the localonly property) # scconf -c -D name=dsk/d2,localonly=true (Record the alternate boot path) # ls -l /dev/rdsk/c2t2d0s0 lrwxrwxrwx 1 root root 57 Apr 25 20:11 /dev/rdsk/c2t2d0s0 –> ../../devices/node@1/pci@1f,0/pci@1/scsi@3,1/disk@2,0:a,raw |
Use this procedure to mirror the global namespace, /global/.devices/node@nodeid.
Become superuser on a node of the cluster.
Put the global namespace slice in a single-slice (one-way) concatenation.
Use the physical disk name of the disk slice (cNtXdYsZ).
# metainit -f submirror1 1 1 diskslice |
Create a second concatenation.
# metainit submirror2 1 1 submirror-diskslice |
Create a one-way mirror with one submirror.
# metainit mirror -m submirror1 |
The metadevice or volume name for the mirror must be unique throughout the cluster.
Attach the second submirror to the mirror.
This attachment starts a synchronization of the submirrors.
# metattach mirror submirror2 |
Edit the /etc/vfstab file entry for the /global/.devices/node@nodeid file system.
Replace the names in the device to mount and device to fsck columns with the mirror name.
# vi /etc/vfstab #device device mount FS fsck mount mount #to mount to fsck point type pass at boot options # /dev/md/dsk/mirror /dev/md/rdsk/mirror /global/.devices/node@nodeid ufs 2 no global |
Repeat Step 1 through Step 6 on each remaining node of the cluster.
Wait for the synchronization of the mirrors, started in Step 5, to complete.
Use the metastat(1M) command to view mirror status and to verify that mirror synchronization if complete.
# metastat mirror |
Is the disk that is used to mirror the global namespace physically connected to more than one node (multiported)?
If no, proceed to Step 10.
If yes, perform the following steps to enable the localonly property of the raw-disk device group for the disk used to mirror the global namespace. You must enable the localonly property to prevent unintentional fencing of a node from its boot device if the boot device is connected to multiple nodes.
If necessary, use the scdidadm(1M) command to display the full device-ID path name of the raw-disk device group.
In the following example, the raw-disk device-group name dsk/d2 is part of the third column of output, which is the full device-ID path name.
# scdidadm -L … 1 phys-schost-3:/dev/rdsk/c1t1d0 /dev/did/rdsk/d2 |
View the node list of the raw-disk device group.
Output looks similar to the following.
# scconf -pvv | grep dsk/d2 Device group name: dsk/d2 … (dsk/d2) Device group node list: phys-schost-1, phys-schost-3 … |
Does the node list contain more than one node name?
Remove all nodes from the node list for the raw-disk device group, except the node whose disk is mirrored.
Only the node whose disk is mirrored should remain in the node list.
# scconf -r -D name=dsk/dN,nodelist=node |
Specifies the cluster-unique name of the raw-disk device group
Specifies the name of the node or nodes to remove from the node list
Use the scconf(1M) command to enable the localonly property.
When the localonly property is enabled, the raw-disk device group is used exclusively by the node in its node list. This usage prevents unintentional fencing of the node from its boot device if the boot device is connected to multiple nodes.
# scconf -c -D name=rawdisk-groupname,localonly=true |
Specifies the name of the raw-disk device group
For more information about the localonly property, see the scconf_dg_rawdisk(1M) man page.
Do you intend to mirror file systems other than root (/) that cannot be unmounted?
If yes, go to How to Mirror File Systems Other Than Root (/) That Cannot Be Unmounted.
If no, proceed to Step 11.
Do you intend to mirror user-defined file systems?
If yes, go to How to Mirror File Systems That Can Be Unmounted.
If no, go to How to Create a Diskset to create a diskset.
The following example shows creation of mirror d101, which consists of submirror d111 on partition c0t0d0s3 and submirror d121 on partition c2t2d0s3. The /etc/vfstab file entry for /global/.devices/node@1 is updated to use the mirror name d101. Disk c2t2d0 is a multiported disk, so the localonly property is enabled.
(Create the mirror) # metainit -f d111 1 1 c0t0d0s3 d111: Concat/Stripe is setup # metainit d121 1 1 c2t2d0s3 d121: Concat/Stripe is setup # metainit d101 -m d111 d101: Mirror is setup # metattach d101 d121 d101: Submirror d121 is attached (Edit the /etc/vfstab file) # vi /etc/vfstab #device device mount FS fsck mount mount #to mount to fsck point type pass at boot options # /dev/md/dsk/d101 /dev/md/rdsk/d101 /global/.devices/node@1 ufs 2 no global (View the sync status) # metastat d101 d101: Mirror Submirror 0: d111 State: Okay Submirror 1: d121 State: Resyncing Resync in progress: 15 % done … (Identify the device-ID name of the mirrored disk's raw-disk device group) # scdidadm -L … 1 phys-schost-3:/dev/rdsk/c2t2d0 /dev/did/rdsk/d2 (Display the device-group node list) # scconf -pvv | grep dsk/d2 Device group name: dsk/d2 … (dsk/d2) Device group node list: phys-schost-1, phys-schost-3 … (Remove phys-schost-3 from the node list) # scconf -r -D name=dsk/d2,nodelist=phys-schost-3 (Enable the localonly property) # scconf -c -D name=dsk/d2,localonly=true |
Use this procedure to mirror file systems other than root (/) that cannot be unmounted during normal system usage, such as /usr, /opt, or swap.
Become superuser on a node of the cluster.
Put the slice on which an unmountable file system resides in a single-slice (one-way) concatenation.
Specify the physical disk name of the disk slice (cNtXdYsZ).
# metainit -f submirror1 1 1 diskslice |
Create a second concatenation.
# metainit submirror2 1 1 submirror-diskslice |
Create a one-way mirror with one submirror.
# metainit mirror -m submirror1 |
The metadevice or volume name for this mirror does not need to be unique throughout the cluster.
Repeat Step 1 through Step 4 for each remaining unmountable file system that you want to mirror.
On each node, edit the /etc/vfstab file entry for each unmountable file system you mirrored.
Replace the names in the device to mount and device to fsck columns with the mirror name.
# vi /etc/vfstab #device device mount FS fsck mount mount #to mount to fsck point type pass at boot options # /dev/md/dsk/mirror /dev/md/rdsk/mirror /filesystem ufs 2 no global |
Move any resource groups or device groups from the node.
# scswitch -S -h from-node |
Moves all resource groups and device groups
Specifies the name of the node from which to move resource or device groups
Reboot the node.
# shutdown -g0 -y -i6 |
Attach the second submirror to each mirror.
This attachment starts a synchronization of the submirrors.
# metattach mirror submirror2 |
Wait for the synchronization of the mirrors, started in Step 9, to complete.
Use the metastat(1M) command to view mirror status and to verify that mirror synchronization is complete.
# metastat mirror |
Is the disk that is used to mirror the unmountable file system physically connected to more than one node (multiported)?
If no, proceed to Step 12.
If yes, perform the following steps to enable the localonly property of the raw-disk device group for the disk used to mirror the unmountable file system. You must enable the localonly property to prevent unintentional fencing of a node from its boot device if the boot device is connected to multiple nodes.
If necessary, use the scdidadm -L command to display the full device-ID path name of the raw-disk device group.
In the following example, the raw-disk device-group name dsk/d2 is part of the third column of output, which is the full device-ID path name.
# scdidadm -L … 1 phys-schost-3:/dev/rdsk/c1t1d0 /dev/did/rdsk/d2 |
View the node list of the raw-disk device group.
Output looks similar to the following.
# scconf -pvv | grep dsk/d2 Device group name: dsk/d2 … (dsk/d2) Device group node list: phys-schost-1, phys-schost-3 … |
Does the node list contain more than one node name?
Remove all nodes from the node list for the raw-disk device group except the node whose root disk is mirrored.
Only the node whose root disk is mirrored should remain in the node list.
# scconf -r -D name=dsk/dN,nodelist=node |
Specifies the cluster-unique name of the raw-disk device group
Specifies the name of the node or nodes to remove from the node list
Use the scconf(1M) command to enable the localonly property.
When the localonly property is enabled, the raw-disk device group is used exclusively by the node in its node list. This usage prevents unintentional fencing of the node from its boot device if the boot device is connected to multiple nodes.
# scconf -c -D name=rawdisk-groupname,localonly=true |
Specifies the name of the raw-disk device group
For more information about the localonly property, see the scconf_dg_rawdisk(1M) man page.
Do you intend to mirror user-defined file systems?
If yes, go to How to Mirror File Systems That Can Be Unmounted.
If no, go to How to Create a Diskset to create a diskset.
The following example shows the creation of mirror d1 on the node phys-schost-1 to mirror /usr, which resides on c0t0d0s1. Mirror d1 consists of submirror d11 on partition c0t0d0s1 and submirror d21 on partition c2t2d0s1. The /etc/vfstab file entry for /usr is updated to use the mirror name d1. Disk c2t2d0 is a multiported disk, so the localonly property is enabled.
(Create the mirror) # metainit -f d11 1 1 c0t0d0s1 d11: Concat/Stripe is setup # metainit d21 1 1 c2t2d0s1 d21: Concat/Stripe is setup # metainit d1 -m d11 d1: Mirror is setup (Edit the /etc/vfstab file) # vi /etc/vfstab #device device mount FS fsck mount mount #to mount to fsck point type pass at boot options # /dev/md/dsk/d1 /dev/md/rdsk/d1 /usr ufs 2 no global (Move resource groups and device groups from phys-schost-1) # scswitch -S -h phys-schost-1 (Reboot the node) # shutdown -g0 -y -i6 (Attach the second submirror) # metattach d1 d21 d1: Submirror d21 is attached (View the sync status) # metastat d1 d1: Mirror Submirror 0: d11 State: Okay Submirror 1: d21 State: Resyncing Resync in progress: 15 % done … (Identify the device-ID name of the mirrored disk's raw-disk device group) # scdidadm -L … 1 phys-schost-3:/dev/rdsk/c2t2d0 /dev/did/rdsk/d2 (Display the device-group node list) # scconf -pvv | grep dsk/d2 Device group name: dsk/d2 … (dsk/d2) Device group node list: phys-schost-1, phys-schost-3 … (Remove phys-schost-3 from the node list) # scconf -r -D name=dsk/d2,nodelist=phys-schost-3 (Enable the localonly property) # scconf -c -D name=dsk/d2,localonly=true |
Use this procedure to mirror user-defined file systems that can be unmounted. In this procedure, the nodes do not need to be rebooted.
Become superuser on a node of the cluster.
Unmount the file system to mirror.
Ensure that no processes are running on the file system.
# umount /mount-point |
See the umount(1M) man page and “Mounting and Unmounting File Systems” in System Administration Guide: Basic Administration for more information.
Put in a single-slice (one-way) concatenation the slice that contains a user-defined file system that can be unmounted.
Specify the physical disk name of the disk slice (cNtXdYsZ).
# metainit -f submirror1 1 1 diskslice |
Create a second concatenation.
# metainit submirror2 1 1 submirror-diskslice |
Create a one-way mirror with one submirror.
# metainit mirror -m submirror1 |
The metadevice or volume name for this mirror does not need to be unique throughout the cluster.
Repeat Step 1 through Step 5 for each mountable file system to be mirrored.
On each node, edit the /etc/vfstab file entry for each file system you mirrored.
Replace the names in the device to mount and device to fsck columns with the mirror name.
# vi /etc/vfstab #device device mount FS fsck mount mount #to mount to fsck point type pass at boot options # /dev/md/dsk/mirror /dev/md/rdsk/mirror /filesystem ufs 2 no global |
Attach the second submirror to the mirror.
This attachment starts a synchronization of the submirrors.
# metattach mirror submirror2 |
Wait for the synchronization of the mirrors, started in Step 8, to be completed.
Use the metastat(1M) command to view mirror status.
# metastat mirror |
Is the disk that is used to mirror the user-defined file system physically connected to more than one node (multiported)?
If no, proceed to Step 12.
If yes, perform the following steps to enable the localonly property of the raw-disk device group for the disk used to mirror the user-defined file system. You must enable the localonly property to prevent unintentional fencing of a node from its boot device if the boot device is connected to multiple nodes.
If necessary, use the scdidadm -L command to display the full device-ID path name of the raw-disk device group.
In the following example, the raw-disk device-group name dsk/d4 is part of the third column of output, which is the full device-ID path name.
# scdidadm -L … 1 phys-schost-3:/dev/rdsk/c1t1d0 /dev/did/rdsk/d2 |
View the node list of the raw-disk device group.
Output looks similar to the following.
# scconf -pvv | grep dsk/d2 Device group name: dsk/d2 … (dsk/d2) Device group node list: phys-schost-1, phys-schost-3 … |
Does the node list contain more than one node name?
Remove all nodes from the node list for the raw-disk device group except the node whose root disk you mirrored.
Only the node whose root disk you mirrored should remain in the node list.
# scconf -r -D name=dsk/dN,nodelist=node |
Specifies the cluster-unique name of the raw-disk device group
Specifies the name of the node or nodes to remove from the node list
Use the scconf(1M) command to enable the localonly property.
When the localonly property is enabled, the raw-disk device group is used exclusively by the node in its node list. This usage prevents unintentional fencing of the node from its boot device if the boot device is connected to multiple nodes.
# scconf -c -D name=rawdisk-groupname,localonly=true |
Specifies the name of the raw-disk device group
For more information about the localonly property, see the scconf_dg_rawdisk(1M) man page.
Mount the mirrored file system.
# mount /mount-point |
See the mount(1M) man page and “Mounting and Unmounting File Systems” in System Administration Guide: Basic Administration for more information.
Create a diskset.
Go to How to Create a Diskset.
The following example shows creation of mirror d4 to mirror /export, which resides on c0t0d0s4. Mirror d4 consists of submirror d14 on partition c0t0d0s4 and submirror d24 on partition c2t2d0s4. The /etc/vfstab file entry for /export is updated to use the mirror name d4. Disk c2t2d0 is a multiported disk, so the localonly property is enabled.
(Unmount the file system) # umount /export (Create the mirror) # metainit -f d14 1 1 c0t0d0s4 d14: Concat/Stripe is setup # metainit d24 1 1 c2t2d0s4 d24: Concat/Stripe is setup # metainit d4 -m d14 d4: Mirror is setup (Edit the /etc/vfstab file) # vi /etc/vfstab #device device mount FS fsck mount mount #to mount to fsck point type pass at boot options # /dev/md/dsk/d4 /dev/md/rdsk/d4 /export ufs 2 no global (Attach the second submirror) # metattach d4 d24 d4: Submirror d24 is attached (View the sync status) # metastat d4 d4: Mirror Submirror 0: d14 State: Okay Submirror 1: d24 State: Resyncing Resync in progress: 15 % done … (Identify the device-ID name of the mirrored disk's raw-disk device group) # scdidadm -L … 1 phys-schost-3:/dev/rdsk/c2t2d0 /dev/did/rdsk/d2 (Display the device-group node list) # scconf -pvv | grep dsk/d2 Device group name: dsk/d2 … (dsk/d2) Device group node list: phys-schost-1, phys-schost-3 … (Remove phys-schost-3 from the node list) # scconf -r -D name=dsk/d2,nodelist=phys-schost-3 (Enable the localonly property) # scconf -c -D name=dsk/d2,localonly=true (Mount the file system) # mount /export |
Perform this procedure for each diskset you create.
If you used SunPlex Manager to install Solstice DiskSuite, one to three disksets might already exist. See Using SunPlex Manager to Install Sun Cluster Software for information about the metasets that were created by SunPlex Manager.
Do you intend to create more than three disksets in the cluster?
Ensure that the value of the md_nsets variable is set high enough to accommodate the total number of disksets you intend to create in the cluster.
On any node of the cluster, check the value of the md_nsets variable in the /kernel/drv/md.conf file.
If the total number of disksets in the cluster will be greater than the existing value of md_nsets minus one, on each node increase the value of md_nsets to the desired value.
The maximum permissible number of disksets is one less than the configured value of md_nsets. The maximum possible value of md_nsets is 32.
Ensure that the /kernel/drv/md.conf file is identical on each node of the cluster.
Failure to follow this guideline can result in serious Solstice DiskSuite/Solaris Volume Manager errors and possible loss of data.
From one node, shut down the cluster.
# scshutdown -g0 -y |
Reboot each node of the cluster.
ok> boot |
On each node in the cluster, run the devfsadm(1M) command.
You can run this command on all nodes in the cluster at the same time.
From one node of the cluster, run the scgdevs(1M) command to update the global-devices namespace.
On each node, verify that the scgdevs command has completed processing before you attempt to create any disksets.
The scgdevs command calls itself remotely on all nodes, even when the command is run from just one node. To determine whether the scgdevs command has completed processing, run the following command on each node of the cluster.
% ps -ef | grep scgdevs |
Ensure that the diskset you intend to create meets one of the following requirements.
If the diskset is configured with exactly two disk strings, the diskset must connect to exactly two nodes and use exactly two mediator hosts, which must be the same two hosts used for the diskset. See Configuring Dual-String Mediators for details on how to configure dual-string mediators.
If the diskset is configured with more than two disk strings, ensure that for any two disk strings S1 and S2, the sum of the number of disk drives on those strings exceeds the number of disk drives on the third string S3. Stated as a formula, the requirement is that count(S1) + count(S2) > count(S3).
Ensure that the local state database replicas exist.
For instructions, see How to Create State Database Replicas.
Become superuser on the cluster node that will master the diskset.
Create the diskset.
The following command creates the diskset and registers the diskset as a Sun Cluster disk device group.
# metaset -s setname -a -h node1 node2 |
Specifies the diskset name
Adds (creates) the diskset
Specifies the name of the primary node to master the diskset
Specifies the name of the secondary node to master the diskset
When you run the metaset command to configure a Solstice DiskSuite/Solaris Volume Manager device group on a cluster, the command designates one secondary node by default. You can change the desired number of secondary nodes in the device group by using the scsetup(1M) utility after the device group is created. Refer to “Administering Disk Device Groups” in Sun Cluster System Administration Guide for Solaris OS for more information about how to change the numsecondaries property.
Verify the status of the new diskset.
# metaset -s setname |
Add disk drives to the diskset.
The following command creates two disksets, dg-schost-1 and dg-schost-2, with the nodes phys-schost-1 and phys-schost-2 specified as the potential primaries.
# metaset -s dg-schost-1 -a -h phys-schost-1 phys-schost-2 # metaset -s dg-schost-2 -a -h phys-schost-1 phys-schost-2 |
When you add a disk drive to a diskset, Solstice DiskSuite/Solaris Volume Manager repartitions the disk drive as follows so that the state database for the diskset can be placed on the disk drive.
A small portion of each disk drive is reserved in slice 7 for use by Solstice DiskSuite/Solaris Volume Manager software. The remainder of the space on each disk drive is placed into slice 0.
Disk drives are repartitioned when they are added to the diskset only if slice 7 is not configured correctly.
Any existing data on the disk drives is lost by the repartitioning.
If slice 7 starts at cylinder 0, and the disk drive partition is large enough to contain a state database replica, the disk drive is not repartitioned.
Become superuser on the node.
Ensure that the diskset has been created.
For instructions, see How to Create a Diskset.
List the DID mappings.
# scdidadm -L |
Choose disk drives that are shared by the cluster nodes that will master or potentially master the diskset.
Use the full device-ID path names when you add disk drives to a diskset.
The first column of output is the DID instance number, the second column is the full physical path name, and the third column is the full device-ID path name (pseudo path). A shared disk drive has more than one entry for the same DID instance number.
In the following example, the entries for DID instance number 2 indicate a disk drive that is shared by phys-schost-1 and phys-schost-2, and the full device-ID path name is /dev/did/rdsk/d2.
1 phys-schost-1:/dev/rdsk/c0t0d0 /dev/did/rdsk/d1 2 phys-schost-1:/dev/rdsk/c1t1d0 /dev/did/rdsk/d2 2 phys-schost-2:/dev/rdsk/c1t1d0 /dev/did/rdsk/d2 3 phys-schost-1:/dev/rdsk/c1t2d0 /dev/did/rdsk/d3 3 phys-schost-2:/dev/rdsk/c1t2d0 /dev/did/rdsk/d3 … |
Take ownership of the diskset.
# metaset -s setname -t |
Specifies the diskset name
Takes ownership of the diskset
Add the disk drives to the diskset.
Use the full device-ID path name.
# metaset -s setname -a drivename |
Adds the disk drive to the diskset
Full device-ID path name of the shared disk drive
Do not use the lower-level device name (cNtXdY) when you add a disk drive to a diskset. Because the lower-level device name is a local name and not unique throughout the cluster, using this name might prevent the metaset from being able to switch over.
Verify the status of the diskset and disk drives.
# metaset -s setname |
Do you intend to repartition disk drives for use in metadevices or volumes?
If yes, go to How to Repartition Disk Drives in a Diskset.
If no, go to How to Create an md.tab File to define metadevices or volumes by using an md.tab file.
The metaset command adds the disk drives /dev/did/rdsk/d1 and /dev/did/rdsk/d2 to the diskset dg-schost-1.
# metaset -s dg-schost-1 -a /dev/did/rdsk/d1 /dev/did/rdsk/d2 |
The metaset(1M) command repartitions disk drives in a diskset so that a small portion of each disk drive is reserved in slice 7 for use by Solstice DiskSuite/Solaris Volume Manager software. The remainder of the space on each disk drive is placed into slice 0. To make more effective use of the disk drive, use this procedure to modify the disk layout. If you allocate space to slices 1 through 6, you can use these slices when you set up Solstice DiskSuite metadevices or Solaris Volume Manager volumes.
Become superuser on the cluster node.
Use the format command to change the disk partitioning for each disk drive in the diskset.
When you repartition a disk drive, you must meet the following conditions to prevent the metaset(1M) command from repartitioning the disk drive.
Create slice 7 starting at cylinder 0, large enough to hold a state database replica (approximately 2 Mbytes).
Set the Flag field in slice 7 to wu (read-write, unmountable). Do not set it to read-only.
Do not allow slice 7 to overlap any other slice on the disk drive.
See the format(1M) man page for details.
Define metadevices or volumes by using an md.tab file.
Go to How to Create an md.tab File.
Create an /etc/lvm/md.tab file on each node in the cluster. Use the md.tab file to define Solstice DiskSuite metadevices or Solaris Volume Manager volumes for the disksets that you created.
If you are using local metadevices or volumes, ensure that local metadevices or volumes names are distinct from the device-ID names used to form disksets. For example, if the device-ID name /dev/did/dsk/d3 is used in a diskset, do not use the name /dev/md/dsk/d3 for a local metadevice or volume. This requirement does not apply to shared metadevices or volumes, which use the naming convention /dev/md/setname/{r}dsk/d#.
To avoid possible confusion between local metadevices or volumes in a cluster environment, use a naming scheme that makes each local metadevice or volume name unique throughout the cluster. For example, for node 1 choose names from d100-d199. And for node 2 use d200-d299.
Become superuser on the cluster node.
List the DID mappings for reference when you create your md.tab file.
Use the full device-ID path names in the md.tab file in place of the lower-level device names (cNtXdY).
# scdidadm -L |
In the following example, the first column of output is the DID instance number, the second column is the full physical path name, and the third column is the full device-ID path name (pseudo path).
1 phys-schost-1:/dev/rdsk/c0t0d0 /dev/did/rdsk/d1 2 phys-schost-1:/dev/rdsk/c1t1d0 /dev/did/rdsk/d2 2 phys-schost-2:/dev/rdsk/c1t1d0 /dev/did/rdsk/d2 3 phys-schost-1:/dev/rdsk/c1t2d0 /dev/did/rdsk/d3 3 phys-schost-2:/dev/rdsk/c1t2d0 /dev/did/rdsk/d3 … |
Create an /etc/lvm/md.tab file and edit it by hand with your preferred text editor.
See your Solstice DiskSuite/Solaris Volume Manager documentation and the md.tab(4) man page for details on how to create an md.tab file.
If you have existing data on the disk drives that will be used for the submirrors, you must back up the data before metadevice or volume setup. Then restore the data onto the mirror.
Activate the metadevices or volumes that are defined in the md.tab files.
The following sample md.tab file defines the diskset that is named dg-schost-1. The ordering of lines in the md.tab file is not important.
dg-schost-1/d0 -m dg-schost-1/d10 dg-schost-1/d20 dg-schost-1/d10 1 1 /dev/did/rdsk/d1s0 dg-schost-1/d20 1 1 /dev/did/rdsk/d2s0 |
The following example uses Solstice DiskSuite terminology. For Solaris Volume Manager, a trans metadevice is instead called a transactional volume and a metadevice is instead called a volume. Otherwise, the following process is valid for both volume managers.
The sample md.tab file is constructed as follows.
The first line defines the device d0 as a mirror of metadevices d10 and d20. The -m signifies that this device is a mirror device.
dg-schost-1/d0 -m dg-schost-1/d0 dg-schost-1/d20 |
The second line defines metadevice d10, the first submirror of d0, as a one-way stripe.
dg-schost-1/d10 1 1 /dev/did/rdsk/d1s0 |
The third line defines metadevice d20, the second submirror of d0, as a one-way stripe.
dg-schost-1/d20 1 1 /dev/did/rdsk/d2s0 |
Perform this procedure to activate Solstice DiskSuite metadevices or Solaris Volume Manager volumes that are defined in md.tab files.
Become superuser on the cluster node.
Ensure that md.tab files are located in the /etc/lvm directory.
Ensure that you have ownership of the diskset on the node where the command will be executed.
Take ownership of the diskset.
# metaset -s setname -t |
Specifies the diskset name
Takes ownership of the diskset
Activate the diskset's metadevices or volumes, which are defined in the md.tab file.
# metainit -s setname -a |
Activates all metadevices in the md.tab file
For each master and log device, attach the second submirror (submirror2).
When the metadevices or volumes in the md.tab file are activated, only the first submirror (submirror1) of the master and log devices is attached, so submirror2 must be attached by hand.
# metattach mirror submirror2 |
Repeat Step 3 through Step 6 for each diskset in the cluster.
If necessary, run the metainit(1M) command from another node that has connectivity to the disk drives. This step is required for cluster-pair topologies, where the disk drives are not accessible by all nodes.
Check the status of the metadevices or volumes.
# metastat -s setname |
See the metastat(1M) man page for more information.
Does your cluster contain disksets that are configured with exactly two disk enclosures and two nodes?
If yes, those disksets require dual-string mediators. Go to Configuring Dual-String Mediators to add mediator hosts.
If no, go to How to Add Cluster File Systems to create a cluster file system.
In the following example, all metadevices that are defined in the md.tab file for diskset dg-schost-1 are activated. Then the second submirrors of master device dg-schost-1/d1 and log device dg-schost-1/d4 are activated.
# metainit -s dg-schost-1 -a # metattach dg-schost-1/d1 dg-schost-1/d3 # metattach dg-schost-1/d4 dg-schost-1/d6 |