Raid

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Hard Drives – Raid

SME Server 7 introduces a new feature - Automatic configuration of Software RAID 1, 5 or 6. RAID is a way of storing data on more than one hard drive at once, so that if one drive fails, the system will still function.

Your server will be automatically configured as follows:

  • 1 Drive - Software RAID 1 (ready to accept a second drive).
  • 2 Drives - Software RAID 1
  • 3 Drives - Software RAID 1 + 1 Hot-spare
  • 4-6 Drives - Software RAID 5 + 1 Hot-spare
  • 7+ Drives - Software RAID 6 + 1 Hot-spare

Hard Drive Layout

Mirroring drives in the same IDE channel (eg. hda and hdb) is not desirable. If that channel goes out, you may loose both drives. Also, performance will suffer slightly.

The preferred method is to use the master location on each IDE channel (eg. hda and hdc). This will ensure that if you loose one channel, the other will still operate. It will also give you the best performance.

In a 2 drive setups put each drive on a different IDE channel:

IDE 1 Master - Drive 1
IDE 1 Slave - CDROM
IDE 2 Master - Drive 2

Identifying Hard Drives

It may not always be obvious which physical hard drive maps to which logical device. The simplest method to verify this if you have a drive with S.M.A.R.T. capability is to map the serial number on the physical package with that displayed by smartctl. Assuming the device of interest is sda , (a SCSI drive), then you would issue the following command from root:

smartctl -i /dev/sda

Or if an IDE Drive

smartctl -i /dev/hda

Adding another Hard Drive Later

ENSURE THAT THE NEW DRIVE IS THE SAME SIZE OR LARGER AS THE CURRENT DRIVE(S)

  • Shut down the machine
  • Install drive as master on the second IDE channel (hdc)
  • Boot up
  • Log on as admin to get to the admin console
  • Go to #5 Manage disk redundancy

It should tell you there if the drives are syncing up. Don't turn off the server until the sync is complete or it will start from the beginning again. When it is done syncing it will show a good working raid1.

If the Manage disk redundancy page gives the message "The free disk count must equal one" and "Manual intervention may be required", then you likely will have additional hard drives that need to be disconnected while the RAID is set up. An external USB drive will have this effect, and should be unplugged.

Note: the addition of another (second) drive is restricted to a RAID 1 scenario, i.e. two hard drives only (/dev/hda and /dev/hdc or their SATA equivalent). The addition of a third drive to a RAID 1 is not recognized by the system bugzilla:6907

Reusing Hard Drives

If it was ever installed on a Windows machine (or in some cases an old system) then you will need to clear the MBR first before installing it.

From the linux command prompt, type the following:

#dd if=/dev/zero of=/dev/hdx bs=512 count=1

You MUST reboot so that the empty partition table gets read correctly. For more information, check: http://bugs.contribs.org/show_bug.cgi?id=2154

Upgrading the Hard Drive Size

Note: these instructions are only applicable if you have a RAID system with more than one drive. They are not applicable to a single-drive RAID 1 system, and increasing the useable space on such a system by cloning the existing single drive to a larger drive is not supported. See http://bugs.contribs.org/show_bug.cgi?id=5311

  • CAUTION MAKE A FULL BACKUP!
  • Ensure you have e-smith-base-4.16.0-33 or newer installed. [or Update to at least 7.1.3]
  1. Shut down and install larger drive in system. Unplug any USB-connected drives.
  2. Boot up and manage raid to add new (larger) drive to system.
  3. Wait for raid to fully sync.
  4. Repeat steps 1-3 until all drives in system are upgraded to larger capacity.
  5. Ensure all drives have been replace with larger drives and array is in sync and redundant!
  6. Issue the following commands:
mdadm --grow /dev/md2 --size=max
pvresize /dev/md2
lvresize -l +100%FREE main/root
ext2online -C0 /dev/main/root   

In the last command above, the -C0 is: dash C zero

Notes :

  • All of this can be done while the server is up and running with the exception of #1.
  • These instructions should work for any raid level you have as long as you have >= 2 drives
  • If you have disabled lvm
  1. you don't need the pvresize or lvresize command
  2. the final line becomes ext2online -C0 /dev/md2 (or whatever / is mounted to)

Raid Notes

Many on board hardware raid cards are in fact software RAID. Turn it off as cheap "fakeraid" cards aren't good. You will get better performance and reliability with Linux Software RAID (http://linux-ata.org/faq-sata-raid.html). Linux software RAID is fast and robust.

If your persistent on getting a hardware raid, buy a well supported raid card which has a proper RAID BIOS. This hides the disks and presents a single disk to Linux (http://linuxmafia.com/faq/Hardware/sata.html). Please check that it is supported by the kernel and has some form of management. Also avoid anything which requires a driver. Try googling for the exact model of RAID controller before buying it. Please note that you won't get a real hardware raid controller cheap.

It rarely happens, but sometimes when a device has finished rebuilding, its state doesn't change from "dirty" to "clean" until a reboot occurs. This is cosmetic

nospare

If you use the commandline parameter nospare during installation ("sme nospare"), the system will still count the missing spare towards the number of drives. A system with 6 physically present harddrives thus will be formated Raid6 _not_ Raid5. Resulting capacity of course will be "n-2".

Resynchronising a Failed RAID

You can refer to 'man mdadm' or http://www.linuxmanpages.com/man8/mdadm.8.php

Sometimes a partition will be taken offline automatically. Admin will receive an email DegradedArray event on /dev/md2.

This will happen if, for example, a read or write error is detected in a disk in the RAID set, or a disk does not respond fast enough, causing a timeout. As a precaution, verify the health of your disks as documented in: http://wiki.contribs.org/Monitor_Disk_Health and specifically with the command:

smartctl -a /dev/hda

Where hda is the device to be checked; check all of them.

You may check the health of your array using the Admin Console. Login as root, type console. Select Item 5. "Manage disk reduncancy"

--------Disk Reduncancy status as of Thursday Dec 22 -------
	Current RAID status:

	Personalities : [raid1]
		md2 : active raid1 hda2[0]	<-- NOTICE hdb2[#] is missing. Means hdb2[#] failed.		38973568 blocks [2/1] [U_]

		md1 : active raid1 hda1[0] hdb1[1]
      			104320 blocks [2/2] [UU]

			unused devices: <none>
	Only Some of the RAID devices are unclean.  <-- NOTICE This message and 
	Manual intervention may be required. <-- this message.

Notice the last 2 sentences of the window above. You have some problems.
If your system is healthy however the message you will see at the bottom of Raid Console window is:

All RAID devices are in clean state

If you have no software RAID devices you will see the message at the bottom of the Console window:

Your system only has a single disk drive installed or is using hardware 
mirroring. If you would like to enable software mirroring, please shut
down, install a second disk drive (of the same capacity) and then return
to this screen.

Additionally, the details of the raid can be seen by inspecting the mdstat file from the shell prompt.

[root@sme]# cat /proc/mdstat
Personalities : [raid1]
md1 : active raid1 hda3[0] hdb3[1]
     38837056 blocks [2/2] [UU]

md2 : active raid1 hdb2[1]        <--    Shows current active partition - note there is one missing
     1048704 blocks [2/1] [_U]    <--    '_' = partition missing from array

md0 : active raid1 hda1[0] hdb1[1]
     255936 blocks [2/2] [UU]

Make a note of the raid partition that has failed, shown by [_U]
In this case it is md2, the device being /dev/md2.

The failed drive partition is indicated by the '_' underline character. In the above example _U indicates that the first drive partition on md2, (Multi-Device 2) has failed. The second drive partition on md2, symbolized by the character 'U' is still part of the md2. If the second drive partition had failed, that is hdb2 then the details would be reversed. E.g. [U_] . Placing the _ Underline second in the details.

Determine the missing physical partition, Look carefully at the sample above and fill in the gap for which drive is missing.
In this example, it's hda2, the device being /dev/hda2

md1 : active raid1 hda3[0] hdb3[1]
md2 : active raid1 hda2[0] hdb2[1]   <--- In the above sample hda2[0] is missing
md0 : active raid1 hda1[0] hdb1[1]

If the raid has a failed disk that has not yet been kicked out of the array then mdstat will show something like the following:

md2 : active raid1 hda2[0](F) hdb2[1]   <--    Shows current active partition - with one FAILED (F)
     1048704 blocks [2/1] [_U]          <--    '_' = partition missing from array

In this case before you add the disk back in you will need to remove the disk as per:

[root@sme]# mdadm --remove /dev/md2 /dev/hda2

However if the drive has already been removed by the operating system then removing the drive is unnecessary. To determine this use the command:

mdadm --query --detail /dev/md2

Of course use the proper md# based on your configuration. This command will give you several lines of data, including the size of the array. Near the end of the output you will see the following if the drive has been removed already. There is no need to remove the drive since it has already been removed.

   Number   Major   Minor   RaidDevice State
      0       3        2        0      active sync   /dev/hda2
      1       0        0        -      removed      <-- NOTE THIS 


To add the physical partition back and rebuild the raid partition.

[root@sme]# mdadm --add /dev/md2 /dev/hda2

Your devices are likely to be different, and you may have more than two disks, including a hot standby, but will always be determined from the mdstat file. Once the raid resync has been started, the progress will be noted in mdstat. You can see this real time by:

[root@sme]# watch -n .1 cat /proc/mdstat

or you can see this in a snapshot by:

[root@sme]# cat /proc/mdstat
Personalities : [raid1]
md1 : active raid1 hda3[0] hdb3[1]
      38837056 blocks [2/2] [UU]

md2 : active raid1 hda2[2] hdb2[1]
      1048704 blocks [2/1] [_U]
      [=>...................]  recovery =  6.4% (67712/1048704) finish=1.2min speed=13542K/sec
md0 : active raid1 hda1[0] hdb1[1]
      255936 blocks [2/2] [UU]

When recovery is complete, the partitions will all be up:

[root@sme]# cat /proc/mdstat
Personalities : [raid1]
md1 : active raid1 hda3[0] hdb3[1]
      38837056 blocks [2/2] [UU]

md2 : active raid1 hda2[0] hdb2[1]
     1048704 blocks [2/2] [UU]

md0 : active raid1 hda1[0] hdb1[1]
      255936 blocks [2/2] [UU]

If this action is required regularly, you should test your disks for SMART errors and physical errors, check your disk cables, and make sure no two hard drives share the same IDE port. See also: http://wiki.contribs.org/Monitor_Disk_Health

Also check your driver cards, since a faulty card can destroy the data on a full RAID set as easily as it can a single disk.

Convert Software RAID1 to RAID5

Important.png Note:
these instructions are only applicable if you have SME8 and a RAID1 system with 2 hd in sync; new drive(s) must be of the same size or larger as the current drive(s)


Warning.png Warning:
Please make a full backup before proceeding


Warning.png Warning:
Newer versions of mdadm use the v1.x superblocks stored at the beginning of the block device, which could overwrite the filesystem metadata. You’ll need to be starting with a v0.9 metadata device for the above instructions to work (which was the default for years).First, check the existing superblock version with:

mdadm –detail /dev/md0

Then, when re-creating the RAID 5 array, make sure you add the –metadata=0.9 tag so the superblock is recreated in the right place. Unfortunately, v1.0 give a new size for the md device (smaller than the original array), v1.1 and v1.2 corrupts the filesystem outright, so best to avoid these cases entirely. Creating a new array with v1.x superblocks when the original was v0.9 is likewise outright destructive.


  1. Login as root
  2. Move to /boot (we must create a new initrd image to load raid5 driver). cd /boot
  3. Make a backup copy mv initrd-`uname -r`.img initrd-`uname -r`.img.old
  4. Create the new image mkinitrd --preload raid5 initrd-`uname -r`.img `uname -r`
  5. Shut down and install new drive(s) in system.
  6. Boot up with SME cd and enter the rescue mode. sme rescue
  7. Skip network setup.
  8. Skip mounting the current SME installation.
  9. Now, create on the new drive(s) the correct partition table. sfdisk -d /dev/sda > tmp.out sfdisk /dev/sdc < tmp.out
  10. Repeat the last step for each new hd (sdd, sde ecc.).
  11. Create the new array mdadm --create /dev/md2 -c 256 --level=5 --raid-devices=2 /dev/sda2 /dev/sdb2 mdadm: /dev/sda2 appears to be part of a raid array: level=raid1 devices=2 ctime=Fri Dec 18 13:17:49 2009 mdadm: /dev/sdb2 appears to be part of a raid array: level=raid1 devices=2 ctime=Fri Dec 18 13:17:49 2009 Continue creating array? y mdadm: array /dev/md2 started.
  12. Wait for resync; monitor the status with cat /proc/mdstat root# cat /proc/mdstat Personalities : [raid0] [raid1] [raid5] md2 : active raid5 sdb1[2] sda1[0] 1048512 blocks level 5, 256k chunk, algorithm 2 [2/1] [U_] [==>..................] recovery = 12.5% (132096/1048512) finish=0.8min speed=18870K/sec
  13. Reboot exit
  14. Login as root
  15. Add the new drives to the array mdadm --add /dev/md2 /dev/sdc2
  16. Repeat the last step for each new hd (sdd2, sde2 ecc.)
  17. Grow the array mdadm --grow /dev/md2 --raid-devices=N
  18. N is the total number of drives: minimum is 3
  19. Wait for array reshaping. This part can take a substantial amount of time; monitor it with cat /proc/mdstat root# cat /proc/mdstat Personalities : [raid0] [raid1] [raid5] md2 : active raid5 sdc1[2] sdb1[1] sda1[0] 1048512 blocks super 0.91 level 5, 256k chunk, algorithm 2 [3/3] [UUU] [==>..................] reshape = 12.5% (131520/1048512) finish=2.5min speed=5978K/sec
  20. Issue the following commands: pvresize /dev/md2 lvresize -l +100%FREE main/root resize2fs /dev/main/root

Notes :

  • If you have disabled lvm
  1. you don't need the pvresize or lvresize command
  2. the final line becomes resize2fs /dev/md2 (or whatever / is mounted to)
  3. More info: http://www.arkf.net/blog/?p=47