Partitioning in Action, Part 1
The partition /home is one of the most-often-moved partitions. Sometimes, all the space in /home becomes exhausted, and an additional hard drive is required. Other times, /home is set up as part of the root partition, and it may need to be moved to improve performance or facilitate backup. Whatever the case, I'll show you how to move /home safely and efficiently.
The following technique describes how to move a partition(s). Although this technique is designed so that you can "back out" of a failed partition move, it doesn't protect against user error. In other words, any time that you format partitions or copy large numbers of files, there's a possibility that you will type the wrong thing, causing lots of data to be destroyed. For this reason, it's highly recommended that you take appropriate steps to back up all critical files before proceeding.
Now that you're prepared, we're ready to start moving /home. The exact steps you will take depend on whether /home currently resides on its own separate partition, or whether it is located on the root partition. Keep this in mind as we go through the steps (I'll make notes where necessary). Right now, if you are moving /home to a new hard drive, it should be physically installed in your system.
If you are moving /home to an existing partition (it doesn't need to be ext2, as long as the target primary or extended partition exists), skip this step.
Create a new partition, if necessary
If the new partition doesn't exist yet, you'll need to create it using cfdisk (preferred) or fdisk. If the partition doesn't reside on your first drive, remember to specify the name of the device as the first argument to cfdisk or fdisk. After creating the appropriate primary or extended partition, you should reboot so that the partition table can be reread correctly. This is the only time you will need to reboot the system.
Create a filesystem on the new partition
To create a filesystem on the new partition, first make sure you know the exact device name for the new partition (for example, /dev/sda5). If you're not sure of the exact device name, stop now and double-check! Then type the following, as root:
# mkfs.ext2 /dev/???
In the above and following code samples, ??? should be replaced with the target partition name. After executing this command, the target partition will contain an empty ext2 filesystem.
Mount the new filesystem in /mnt
Create a directory called /mnt/newpart, and then mount the new partition there:
# mount /dev/??? /mnt/newpart
Drop to single-user mode
I delayed this step as long as possible to maximize system availability, but we now must drop into single-user mode, and copy files from /home to /mnt/newpart. You shouldn't have any files open in /home, and entering single-user mode eliminates this possibility:
# init 1
Change directories to /home and copy files
Type the following:
# cd /home # cp -ax * /mnt/newpart
The cp -ax command recursively copies the contents of /home to /mnt/newpart, preserving all file attributes, and not crossing any mount points. After this command finishes, /mnt/newpart will contain an exact copy of all the files and directories currently in /home. If the old /home was on its own separate partition (listed on a separate line in /etc/fstab), go to step 6a. Otherwise, proceed to step 6b.
Use the new partition
/home on its own partition
These instructions are for systems where the old /home is already on its own dedicated partition. If this isn't the case, see the next section.
Unmount the old partition by typing:
# cd / # umount /home
Then, unmount and remount the new partition:
# umount /mnt/newpart # mount /dev/??? /home
Now, the new partition is available at /home and is ready to be used. We can perform the last few steps in multiuser mode. Exit single-user mode, so that the system is back up and running, by pressing CTRL-D.
Important: After the system starts up normally, log in as root and edit /etc/fstab so that /dev/??? is now mounted automatically at /home instead of your old partition. For example, change this line:
/dev/hda3 /home ext2 defaults 1 2
to this line:
/dev/??? /home ext2 defaults 1 2
These instructions are for systems where the old /home is on a shared partition.
# cd / # mv /home /home.old # mkdir /home # mount /dev/??? /home
Now, leave single user mode by pressing CTRL-D. When the system is back up and running, edit /etc/fstab and add a line like the following:
/dev/??? /home ext2 defaults 1 2
That way, your new partition will get mounted correctly the next time the system is rebooted.
We deliberately left the old /home directory/partition behind, just in case there were problems copying files. After verifying that the system is running smoothly, you can either use your old /home partition for something else, or remove the /home.old directory.
Congratulations, you've just moved /home! In my next tip, we'll reconfigure a system so that /tmp and /var are on their own shared partition. See you then.
Daniel Robbins is best known as the creator of Gentoo Linux and author of many IBM developerWorks articles about Linux. Daniel currently serves as Benevolent Dictator for Life (BDFL) of Funtoo Linux. Funtoo Linux is a Gentoo-based distribution and continuation of Daniel's original Gentoo vision.
Perl UpdatesGentoo has bumped perl from 5.20 to 5.22. Be sure to run perl-cleaner --all after the upgrade.
ARM RebuildARM systems will use new stage3's that are not compatible with earlier versions.
ABI X86 64 and 32Funtoo Linux has new 32-bit compatibility libraries inherited from Gentoo. Learn about them here.
Browse all our Linux-related articles, below:
- Funtoo Filesystem Guide, Part 1
- Funtoo Filesystem Guide, Part 2
- Funtoo Filesystem Guide, Part 3
- Funtoo Filesystem Guide, Part 4
- Funtoo Filesystem Guide, Part 5
- Learning Linux LVM, Part 1
- Learning Linux LVM, Part 2
- Linux Fundamentals, Part 1
- Linux Fundamentals, Part 1/pt-br
- Linux Fundamentals, Part 2
- Linux Fundamentals, Part 3
- Linux Fundamentals, Part 4
- LVM Fun
- Making the Distribution, Part 1
- Making the Distribution, Part 2
- Making the Distribution, Part 3
- Maximum Swappage
- Partition Planning Tips
- Partitioning in Action, Part 1
- Partitioning in Action, Part 2
- POSIX Threads Explained, Part 1
- POSIX Threads Explained, Part 2
- POSIX Threads Explained, Part 3
- Prompt Magic
- The Gentoo.org Redesign, Part 1
- The Gentoo.org Redesign, Part 2
- The Gentoo.org Redesign, Part 3
- The Gentoo.org Redesign, Part 4
- Traffic Control