Creating RAID 5 (Striping with Distributed Parity) in Linux – Part 4

In RAID 5, data strips across multiple drives with distributed parity. The striping with distributed parity means it will split the parity information and stripe data over the multiple disks, which will have good data redundancy.

Setup Raid 5 in CentOS
Setup Raid 5 in Linux

For RAID Level it should have at least three hard drives or more. RAID 5 is being used in the large-scale production environment where it’s cost-effective and provides performance as well as redundancy.

What is Parity?

Parity is the simplest common method of detecting errors in data storage. Parity stores information in each disk, Let’s say we have 4 disks, in 4 disks one disk space will be split into all disks to store the parity information. If any one of the disks fails still we can get the data by rebuilding from parity information after replacing the failed disk.

Pros and Cons of RAID 5

  1. Gives better performance
  2. Support Redundancy and Fault tolerance.
  3. Support hot spare options.
  4. Will lose a single disk capacity for using parity information.
  5. No data loss if a single disk fails. We can rebuild from parity after replacing the failed disk.
  6. Suits a transaction-oriented environment as the reading will be faster.
  7. Due to parity overhead, writing will be slow.
  8. Rebuild takes a long time.

Requirements

Minimum 3 hard drives are required to create Raid 5, but you can add more disks, only if you have a dedicated hardware raid controller with multi ports. Here, we are using software RAID and the ‘mdadm‘ package to create a raid.

mdadm is a package that allows us to configure and manage RAID devices in Linux. By default there is no configuration file is available for RAID, we must save the configuration file after creating and configuring the RAID setup in a separate file called mdadm.conf.

Before moving further, I suggest you go through the following articles for understanding the basics of RAID in Linux.

  1. Basic Concepts of RAID in Linux – Part 1
  2. Creating RAID 0 (Stripe) in Linux – Part 2
  3. Setting up RAID 1 (Mirroring) in Linux – Part 3
My Server Setup
Operating System :	CentOS 6.5 Final
IP Address	 :	192.168.0.227
Hostname	 :	rd5.tecmintlocal.com
Disk 1 [20GB]	 :	/dev/sdb
Disk 2 [20GB]	 :	/dev/sdc
Disk 3 [20GB]	 :	/dev/sdd

This article is Part 4 of a 9-tutorial RAID series, here we are going to set up a software RAID 5 with distributed parity in Linux systems or servers using three 20GB disks named /dev/sdb, /dev/sdc, and /dev/sdd.

Step 1: Installing mdadm and Verify Drives

1. As we said earlier, that we’re using CentOS 6.5 Final release for this raid setup, but the same steps can be followed for RAID setup in any Linux-based distribution.

# lsb_release -a
# ifconfig | grep inet
Setup Raid 5 in CentOS
CentOS 6.5 Summary

2. If you’re following our raid series, we assume that you’ve already installed the ‘mdadm‘ package, if not, use the following command according to your Linux distribution to install the package.

# yum install mdadm		[on RedHat systems]
# apt-get install mdadm 	[on Debain systems]

3. After the ‘mdadm‘ package installation, let’s list the three 20GB disks which we have added to our system using ‘fdisk‘ command.

# fdisk -l | grep sd
Install mdadm Tool in CentOS
Install mdadm Tool

4. Now it’s time to examine the attached three drives for any existing RAID blocks on these drives using the following command.

# mdadm -E /dev/sd[b-d]
# mdadm --examine /dev/sdb /dev/sdc /dev/sdd
Examine Drives For Raid
Examine Drives For Raid

Note: From the above image illustrated that there is no super-block detected yet. So, there is no RAID defined in all three drives. Let us start to create one now.

Step 2: Partitioning the Disks for RAID

5. First and foremost, we have to partition the disks (/dev/sdb, /dev/sdc, and /dev/sdd) before adding to a RAID, So let us define the partition using the ‘fdisk’ command, before forwarding it to the next steps.

# fdisk /dev/sdb
# fdisk /dev/sdc
# fdisk /dev/sdd
Create /dev/sdb Partition

Please follow the below instructions to create a partition on the /dev/sdb drive.

  1. Press ‘n‘ for creating a new partition.
  2. Then choose ‘P‘ for the Primary partition. Here we are choosing Primary because there are no partitions defined yet.
  3. Then choose ‘1‘ to be the first partition. By default, it will be 1.
  4. Here for cylinder size, we don’t have to choose the specified size because we need the whole partition for RAID so just Press Enter two times to choose the default full size.
  5. Next press ‘p‘ to print the created partition.
  6. Change the Type, If we need to know every available types Press ‘L‘.
  7. Here, we are selecting ‘fd‘ as my type is RAID.
  8. Next press ‘p‘ to print the defined partition.
  9. Then again use ‘p‘ to print the changes that we have made.
  10. Use ‘w‘ to write the changes.
Create sdb Partition
Create sdb Partition

Note: We have to follow the steps mentioned above to create partitions for sdc & sdd drives too.

Create /dev/sdc Partition

Now partition the sdc and sdd drives by following the steps given in the screenshot or you can follow the above steps.

# fdisk /dev/sdc
Create sdc Partition
Create sdc Partition
Create /dev/sdd Partition
# fdisk /dev/sdd
Create sdd Partition
Create sdd Partition

6. After creating partitions, check for changes in all three drives sdb, sdc, & sdd.

# mdadm --examine /dev/sdb /dev/sdc /dev/sdd

or

# mdadm -E /dev/sd[b-d]
Check Partition Changes
Check Partition Changes

Note: In the above pic. depict the type is fd i.e. for RAID.

7. Now Check for the RAID blocks in newly created partitions. If no super-blocks are detected then we can move forward to create a new RAID 5 setup on these drives.

Check Raid on Partition
Check Raid on Partition

Step 3: Creating md device md0

8. Now create a Raid device ‘md0‘ (i.e. /dev/md0) and include raid level on all newly created partitions (sdb1, sdc1, and sdd1) using the below command.

# mdadm --create /dev/md0 --level=5 --raid-devices=3 /dev/sdb1 /dev/sdc1 /dev/sdd1

or

# mdadm -C /dev/md0 -l=5 -n=3 /dev/sd[b-d]1

9. After creating raid device, check and verify the RAID, devices included, and RAID Level from the mdstat output.

# cat /proc/mdstat
Verify Raid Device
Verify Raid Device

If you want to monitor the current building process, you can use the ‘watch‘ command, just pass through the ‘cat /proc/mdstat‘ with the watch command which will refresh the screen every 1 second.

# watch -n1 cat /proc/mdstat
Monitor Raid Process
Monitor Raid 5 Process
Raid 5 Process Summary
Raid 5 Process Summary

10. After the creation of the raid, Verify the raid devices using the following command.

# mdadm -E /dev/sd[b-d]1
Verify Raid Level
Verify Raid Level

Note: The Output of the above command will be a little long as it prints the information of all three drives.

11. Next, verify the RAID array to assume that the devices which we’ve included in the RAID level are running and started to re-sync.

# mdadm --detail /dev/md0
Verify Raid Array
Verify Raid Array

Step 4: Creating file system for md0

12. Create a file system for the ‘md0‘ device using ext4 before mounting.

# mkfs.ext4 /dev/md0
Create md0 Filesystem
Create md0 Filesystem

13. Now create a directory under ‘/mnt‘ then mount the created filesystem under /mnt/raid5 and check the files under mount point, you will see the lost+found directory.

# mkdir /mnt/raid5
# mount /dev/md0 /mnt/raid5/
# ls -l /mnt/raid5/

14. Create few files under mount point /mnt/raid5 and append some text in any one of the files to verify the content.

# touch /mnt/raid5/raid5_tecmint_{1..5}
# ls -l /mnt/raid5/
# echo "tecmint raid setups" > /mnt/raid5/raid5_tecmint_1
# cat /mnt/raid5/raid5_tecmint_1
# cat /proc/mdstat
Mount Raid 5 Device
Mount Raid Device

15. We need to add an entry in fstab, else will not display our mount point after system reboot. To add an entry, we should edit the fstab file and append the following line as shown below. The mount point will differ according to your environment.

# vim /etc/fstab

/dev/md0                /mnt/raid5              ext4    defaults        0 0
Raid 5 Automount
Raid 5 Automount

16. Next, run the ‘mount -av‘ command to check whether any errors in the fstab entry.

# mount -av
Check Fstab Errors
Check Fstab Errors

Step 5: Save Raid 5 Configuration

17. As mentioned earlier in the requirement section, by default RAID doesn’t have a config file. We have to save it manually. If this step is not followed RAID device will not be in md0, it will be in some other random number.

So, we must have to save the configuration before the system reboot. If the configuration is saved it will be loaded to the kernel during the system reboot and RAID will also get loaded.

# mdadm --detail --scan --verbose >> /etc/mdadm.conf
Save Raid 5 Configuration
Save Raid 5 Configuration

Note: Saving the configuration will keep the RAID level stable in the md0 device.

Step 6: Adding Spare Drives

18. What is the use of adding a spare drive? it is very useful if we have a spare drive, if any one of the disks fails in our array, this spare drive will get active and rebuild the process and sync the data from other disks, so we can see a redundancy here.

For more instructions on how to add spare drive and check Raid 5 fault tolerance, read #Step 6 and #Step 7 in the following article.

  1. Add Spare Drive to Raid 5 Setup

Conclusion

Here, in this article, we have seen how to set up a RAID 5 using three disks. Later in my upcoming articles, we will see how to troubleshoot when a disk fails in RAID 5 and how to replace it for recovery.

Hey TecMint readers,

Exciting news! Every month, our top blog commenters will have the chance to win fantastic rewards, like free Linux eBooks such as RHCE, RHCSA, LFCS, Learn Linux, and Awk, each worth $20!

Learn more about the contest and stand a chance to win by sharing your thoughts below!

Babin Lonston
I'm Working as a System Administrator for last 10 year's with 4 years experience with Linux Distributions, fall in love with text based operating systems.

Each tutorial at TecMint is created by a team of experienced Linux system administrators so that it meets our high-quality standards.

Join the TecMint Weekly Newsletter (More Than 156,129 Linux Enthusiasts Have Subscribed)
Was this article helpful? Please add a comment or buy me a coffee to show your appreciation.

Got Something to Say? Join the Discussion...

Thank you for taking the time to share your thoughts with us. We appreciate your decision to leave a comment and value your contribution to the discussion. It's important to note that we moderate all comments in accordance with our comment policy to ensure a respectful and constructive conversation.

Rest assured that your email address will remain private and will not be published or shared with anyone. We prioritize the privacy and security of our users.