Raid:Growing

From SME Server
Revision as of 11:36, 5 June 2023 by ReetP (talk | contribs)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search
PythonIcon.png Skill level: Advanced
The instructions on this page may require deviations from standard procedures. A good understanding of linux and Koozali SME Server is recommended.


Source of this page is the raid wiki. This is the initial forum post which gives the need to write the the howto

The purpose of this HOWTO is to add a new drive to an existing Raid5 with LVM, LVM is the standard installation of SME Server. Please backup your data before starting this HOWTO, or you may loose the lot.

Growing an existing Array

  Note:
due to a bug in kernel 2.6.18 which is the default kernel of Centos 5 and SME Server 8.0, you can not grow a RAID6


When new disks are added, existing raid partitions can be grown to use the new disks. After the new disk has been partitioned, the RAID array 1/4/5 may be grown. Assuming that before growing, it contains four drives in Raid5 and therefore an array of 3 drives (3*10G) and 1 spare drive(10G). See this HowTo for understanding the automatic raid construction of SME Server

This is how your array should look before changing.

[root@smeraid5 ~]# cat /proc/mdstat
Personalities : [raid6] [raid5] [raid4] [raid1] 
md1 : active raid1 sda1[0] sdb1[1] sdc1[2] sdd1[3]
     104320 blocks [4/4] [UUUU]
     
md2 : active raid5 sdd2[8](S) sdc2[2] sdb2[1] sda2[0]
     72644096 blocks level 5, 256k chunk, algorithm 2 [8/8] [UUU]

Partition the new drive

for example using this command to partition the new drive

sfdisk -d /dev/sda > sfdisk_sda.output
sfdisk -f /dev/sde < sfdisk_sda.output

If you have errors using the sfdisk command, you can clean the drive with the dd command.

  Warning:
Be aware that dd is called data-destroyer, be certaing of the partition you want zeroed.


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

Adding partitions

  Note:
The process can take many hours or even days. There is a critical section at start, which cannot be backed up. To allow recovery after unexpected power failure, an additional option --backup-file= can be specified. Make sure this file is on a different disk or it defeats the purpose.
mdadm --grow --raid-devices=5 --backup-file=/root/grow_md1.bak /dev/md1
mdadm --grow --raid-devices=4 --backup-file=/root/grow_md2.bak /dev/md2


Now we need to add the first partition /dev/sde1 to /dev/md1

[root@smeraid5 ~]# mdadm --add /dev/md1 /dev/sde1
mdadm: added /dev/sde1
[root@smeraid5 ~]# mdadm --grow --raid-devices=5 /dev/md1

Here we use the option --raid-devices=5 because raid1 uses all drives. You can see how the array looks by:

  Warning:
During the raid growing step you DO not shutdown your computer, or experienced an electrical failure, these issues can let your computer in a badly status and you can loose your data


[root@smeraid5 ~]# mdadm --detail /dev/md1
/dev/md1:
       Version : 0.90
 Creation Time : Tue Oct 29 21:04:15 2013
    Raid Level : raid1
    Array Size : 104320 (101.89 MiB 106.82 MB)
 Used Dev Size : 104320 (101.89 MiB 106.82 MB)
  Raid Devices : 5
 Total Devices : 5
Preferred Minor : 1
   Persistence : Superblock is persistent

   Update Time : Tue Oct 29 21:39:00 2013
         State : clean
Active Devices : 5
Working Devices : 5
Failed Devices : 0
 Spare Devices : 0

          UUID : 15eb70b1:3d0293bb:f3c49d70:6fc5aa4d
        Events : 0.4

   Number   Major   Minor   RaidDevice State
      0       8        1        0      active sync   /dev/sda1
      1       8       17        1      active sync   /dev/sdb1
      2       8       33        2      active sync   /dev/sdc1
      3       8       49        3      active sync   /dev/sdd1
      4       8       65        4      active sync   /dev/sde1

After that we have to do the same thing with the md2 which is a raid5 array.

[root@smeraid5 ~]# mdadm --add /dev/md2 /dev/sde2
mdadm: added /dev/sde2
[root@smeraid5 ~]# mdadm --grow --raid-devices=4 /dev/md2
mdadm: Need to backup 14336K of critical section..
mdadm: ... critical section passed.


  Tip:
You need to keep --raid-devices=4 if you want to have an array of 4 drives+1spare, However if you do not want a spare drive, you should set --raid-devices=5. This command can be used to grow an array of raid on the spare drive, just say to mdadm that you want to use all disks connected to the computer.



  Warning:
During the raid growing step you DO not shutdown your computer, or experienced an electrical failure, these issues can let your computer in a badly status and you can loose your data


we can take a look to the md2 array

[root@smeraid5 ~]# mdadm --detail /dev/md2
/dev/md2:
       Version : 0.90
 Creation Time : Tue Oct 29 21:04:28 2013
    Raid Level : raid5
    Array Size : 32644096 (30.28 GiB 31.39 GB)
 Used Dev Size : 7377728 (7.90 GiB 9.63 GB)
  Raid Devices : 4
 Total Devices : 5
Preferred Minor : 2
   Persistence : Superblock is persistent

   Update Time : Tue Oct 29 21:39:29 2013
         State : clean
Active Devices : 4
Working Devices : 5
Failed Devices : 0
 Spare Devices : 1

        Layout : left-symmetric
    Chunk Size : 256K

          UUID : d2c26bed:b5251648:509041c5:fab64ab4
        Events : 0.462

   Number   Major   Minor   RaidDevice State
      0       8        2        0      active sync   /dev/sda2
      1       8       18        1      active sync   /dev/sdb2
      3       8       34        2      active sync   /dev/sdc2
      4       8       50        3      active sync   /dev/sde2

      2       8      114        -      spare   /dev/sdd2

LVM: Growing the PV

  Note:
Once the construction is complete, we have to set the LVM to use the whole space


  • In a root terminal, issue the following command lines
[root@smeraid5 ~]# pvresize /dev/md2
 Physical volume "/dev/md2" changed
 1 physical volume(s) resized / 0 physical volume(s) not resized
  • after that we can resize the LVM
[root@smeraid5 ~]# lvresize -l +100%FREE  /dev/main/root
 Extending logical volume root to 30,25 GB
 Logical volume root successfully resized


  Tip:
/dev/main/root is the default name, but if you have changed this you can find it by typing the command : lvdisplay


[root@smeraid5 ~]# resize2fs  /dev/main/root
resize2fs 1.39 (29-May-2006)
Filesystem at /dev/main/root is mounted on /; on-line resizing required
Performing an on-line resize of /dev/main/root to 19726336 (4k) blocks.
  • You should verify that your LVM use the whole drive space with the command

On Koozali SME v10 you should use xfs_growfs instead of resize2fs

[root@smev10~]# xfs_growfs /dev/main/root
meta-data=/dev/mapper/main-root  isize=512    agcount=4, agsize=1854976 blks
        =                       sectsz=512   attr=2, projid32bit=1
        =                       crc=1        finobt=0 spinodes=0
data     =                       bsize=4096   blocks=7419904, imaxpct=25
        =                       sunit=0      swidth=0 blks
naming   =version 2              bsize=4096   ascii-ci=0 ftype=1
log      =internal               bsize=4096   blocks=3623, version=2
        =                       sectsz=512   sunit=0 blks, lazy-count=1
realtime =none                   extsz=4096   blocks=0, rtextents=0
data blocks changed from 7419904 to 11615232


[root@smeraid5 ~]# pvdisplay
 --- Physical volume ---
 PV Name               /dev/md2
 VG Name               main
 PV Size               30.25 GB / not usable 8,81 MB
 Allocatable           yes (but full)
 PE Size (KByte)       32768
 Total PE              1533
 Free PE               0
 Allocated PE          1533
 PV UUID               a31UBW-2SN6-CXFk-qLOZ-qrsQ-BIYo-nZexXo

if you can see that you have no more FREE PE you are the king of raid. But you can see also with the command

[root@smeraid5 ~]# lvdisplay