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User:Mrl5/Btrfs
Btrfs is a file system based on the copy-on-write (COW) principle, initially designed at Oracle Corporation for use in Linux. The development of btrfs began in 2007, and since August 2014 the file system's on-disk format has been marked as stable.
The Funtoo Linux project recommends btrfs as a next-generation filesystem, particularly for use in production.
Btrfs is intended to address the lack of pooling, snapshots, checksums, and integral multi-device spanning in Linux file systems.
It is easy to set up and use btrfs. In this simple introduction, we're going to set up btrfs under Funtoo Linux using an existing debian-sources
or debian-sources-lts
kernel, like the one that comes pre-built for you with Funtoo Linux, and we will also be using our btrfs storage pool for storing data that isn't part of the Funtoo Linux installation itself. Funtoo Linux will boot from a non-btrfs filesystem, and as part of the initialization process will initialize our btrfs storage and mount it at the location of our choice.
Installation
Enabling btrfs support is as simple as enabling the btrfs mix-in and running a world update:
root # epro mix-in +btrfs root # emerge -uDN @world
Btrfs is now ready for use.
Btrfs Concepts
Btrfs can be used to manage the physical disks that it uses, and physical disks are added to a Btrfs volume. Then, BTRFS can create subvolumes from the volume on which files can be stored.
Unlike traditional Linux filesystems, btrfs filesystems will allocate storage on-demand from the underlying volume.
In the btrfs world, the word volume corresponds to a storage pool (ZFS) or a volume group (LVM).
- devices - one or multiple underlying physical volumes.
- volume - one large storage pool comprised of all space of the devices and can support different redundancy levels
- subvolumes - these are what get mounted and you store files in.
- snapshots - a read-only copy of a subvolume at a given point in time and/or read-write copy of a subvolume in time (aka clone).
Creating a Volume
To create a basic btrfs volume, you will need an extra empty disk. Perform the following steps:
root # mkfs.btrfs /dev/sdxy btrfs-progs v4.17.1 See http://btrfs.wiki.kernel.org for more information. Detected a SSD, turning off metadata duplication. Mkfs with -m dup if you want to force metadata duplication. Performing full device TRIM /dev/sdj (223.57GiB) ... Label: (null) UUID: d6bcba6e-8fd5-41fc-9bb4-79628c5c928c Node size: 16384 Sector size: 4096 Filesystem size: 223.57GiB Block group profiles: Data: single 8.00MiB Metadata: single 8.00MiB System: single 4.00MiB SSD detected: yes Incompat features: extref, skinny-metadata Number of devices: 1 Devices: ID SIZE PATH 1 223.57GiB /dev/sdxy
/dev/sdxy
should be an unused disk. You may need to use the following command if this disk contains any pre-existing data on it:
root # mkfs.btrfs -f /dev/sdxy
Now you can mount the created volume as you would mount any other linux filesystem.
root # mkdir /data root # mount /dev/sdxy /data root # mount ... /dev/sdxy on /data type btrfs (rw,relatime,ssd,space_cache,subvolid=5,subvol=/)
To automatically mount this volume after reboot you need to add a simple fstab entry:
/dev/sdxy /data btrfs defaults 0 0
You should now be at the point where you can begin to use btrfs for a variety of tasks. While there is a lot more to btrfs than what is covered in this short introduction, you should now have a good understanding of the fundamental concepts on which btrfs is based.