Raid:Creating large raid5 array (over 2TB drive)

This is the initial forum post this howto provide one solution to overcoming current Centos 5 problems with raiding hard disk drives with capacities over 2TB in size.

The purpose of this HOWTO is to create a Raid5 array of greater than 7TB (19TB) using SME Server 8.0, this is intended as a clean installation.

Creating Large Raid5 Array using 4TB drives

In the howto below we will be creating an array using 6x 4TB drives to create a new Raid5 array of 19TB in capacity. Below is the basic hardware details of the computer that were used, these are only a guide.

 - Large case capable of fitting 12 drives - Gigabyte 3D Aurora
 - Main board with 6 SATA 3 ports on board - Gigabyte GA-970A-D3
 - SATA Controller 4 SATA 3 ports on board - Rocket R640L
 - 6x 4TB Hard disk drives - 19TB Array
 - 1x 500MB Hard disk drive - SME Server 8.0 operating system

Before starting the howto below you should have installed SME Server 8.0 on the computer and have run and installed all updates as per a normal server installation. Leave the 6x 4TB drives unplugged until you begin the howto below.

Installing required tools

You will need to install some additionally tools

• parted: Parted is a GNU utility, which is used to manipulate the hard disk partitions. Using parted, you can add, delete, and edit partitions and the file systems located on those partitions
• xfsprogs: Utilities for managing the XFS filesystem A set of commands to use the XFS filesystem, including mkfs.xfs. XFS is a high performance journaling filesystem which originated on the SGI IRIX platform. It is completely multi-threaded, can support large files and large filesystems, extended attributes, variable block sizes, is extent based, and makes extensive use of Btrees (directories, extents, free space) to aid both performance and scalability.

Install the required tools using the Yum commands below.

yum Install parted

yum install xfsprogs

It’s usually a good idea to run… but not required 
Signal-event post-upgrade;
Signal-event reboot;

Partitioning the drives

Now we need to create the partition for the drives using the parted partitioning tool.

parted /dev/sdX
mklabel gpt
unit TB
mkpart primary 0.00TB 4.00TB
print

Remember to set the max size (4.00TB above) to whatever size hard disk drives you are using also you will need tochange the device sdX value for each drive in the chain.

Creating the array

Check which md numbers are in use by running the command cat /proc/mdstat select the highest number md number and add one we will us md3.

mdadm --create /dev/md3  --level=raid5 --raid-devices=6 /dev/sda1 /dev/sdb1 /dev/sdc1 /dev/sdd1 /dev/hda1 /dev/hdb1

Change the md3 number to the one you have selected, you will also need to change the number of raid devices and list each of the devices to use in the array.

Save raid array structure

Next we need to save array structure to the mdadm.conf file in order for the SME Server to continue working with the array on reboot of the system.

mdadm --detail --scan | grep md3 >> /etc/mdadm.conf

Once that command is run it would be a good idea to look inside it. You should only see one new line in that file. It is the then advisable to create a copy of the mdadm.conf run the following

cp /etc/mdadm.conf /etc/mdadm.conf.bak

Keep this file permanently as it is possible in the future something may occur on your SME Server to cause the mdadm.conf file to be trashed or reset, in that case you can use this backup file to rewrite your required raid information.

Create your lvm partition

When using the vgcreate command use a good name for your partition, I have just used vg_DATA and lv_DATA.

 pvcreate /dev/md3
 vgcreate vg_DATA /dev/md3
 lvcreate --name lv_DATA -l 100%FREE vg_DATA

Adding partitions

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:

[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.

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

• 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

[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

[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