Difference between revisions of "Btrfs"

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(GRUB2 and core.img: Renaming this section. Expanding the first part: Up-to-date partition tools align the first partition to 2048 (2 MB) by default for MBR or GPT. Creation a new section for the second part as topic completely different.)
(Setting a default sub-volume: Adding a warning regarding changing the default Btrfs subvolume.)
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==== Setting a default sub-volume ====
==== Setting a default sub-volume ====
{{Warning|1=''Changing the default subvolume with btrfs subvolume default will make the top level of the filesystem inaccessible, except by use of the subvolid=0 mount option.'' From, [https://btrfs.wiki.kernel.org/index.php/SysadminGuide Btrfs Wiki Sysadmin Guide].}}
The default sub-volume is mounted if no {{ic|1=subvol=}} mount option is provided.
The default sub-volume is mounted if no {{ic|1=subvol=}} mount option is provided.

Revision as of 23:49, 3 December 2013


From Wikipedia:Btrfs

Btrfs (B-tree file system, variously pronounced: "Butter F S", "Better F S", "B-tree F S", or simply "Bee Tee Arr Eff Ess") is a GPL-licensed experimental copy-on-write file system for Linux. Development began at Oracle Corporation in 2007.

From Btrfs Wiki

Btrfs is a new copy on write (CoW) filesystem for Linux aimed at implementing advanced features while focusing on fault tolerance, repair and easy administration. Jointly developed at Oracle, Red Hat, Fujitsu, Intel, SUSE, STRATO and many others, Btrfs is licensed under the GPL and open for contribution from anyone.
Warning: Btrfs is still considered experimental. See the Btrfs Wiki's Stability status, Is Btrfs stable, and Getting started for more detailed information.


Btrfs is included in the default kernel and its tools (btrfs-progs) are available in the official repositories. GRUB, mkinitcpio, and Syslinux have support for Btrfs and require no additional configuration.

Additional packages

Tip: See Btrfs Wiki Getting Started for suggestions regarding running Btrfs effectively.

General administration of Btrfs

Creating a new file system

A Btrfs file system can either be newly created or have one converted.

To format a partition do:

# mkfs.btrfs -L mylabel /dev/partition
Note: As this commit (November 2013), Btrfs default blocksize is 16KB.

To use a larger blocksize for data/meta data, specify a value for the leafsize via the -l switch as shown in this example using 16KB blocks:

#  mkfs.btrfs -L mylabel -l 16k /dev/partition

Multiple devices can be entered to create a RAID. Supported RAID levels include RAID 0, RAID 1 and RAID 10. By default the metadata is mirrored and data is striped.

# mkfs.btrfs [options] /dev/part1 /dev/part2

Convert from Ext3/4

Boot from an install CD, then convert by doing:

# btrfs-convert /dev/partition

Mount the partion and test the conversion by checking the files. Be sure to change the /etc/fstab to reflect the change (type to btrfs and fs_passno [the last field] to 0 as Btrfs does not do a file system check on boot). Also note that the UUID of the partition will have changed, so update your fstab accordingly if you use UUIDs. chroot into the system and rebuild the GRUB menu list (see Install from Existing Linux and GRUB articles).

To complete, delete the saved image, delete the sub-volume that image is on, then balance the drive to reclaim the space.

# rm /ext2_saved/*
# btrfs subvolume delete /ext2_saved

Mount options

See Btrfs Wiki Mount options.

In addition to configurations that can be made during or after file system creation, the various mount options for Btrfs can drastically change its performance characteristics.

Warning: Specific mount options can disable safety features and increase the risk of complete file system corruption in the event of a power failure. (See link above.)

As this is a file system that is in active development. Changes and regressions should be expected. See links in the "See also" section for some benchmarks.


Note: For questions regarding the use of autodefrag on SSDs see Btrfs Wiki Gotchas, Btrfs Wiki Mount options, and Phoronix 3.11 Benchmarking.
  • Linux 3.12
    • Btrfs on a SSD for system installation and an emphasis on maximizing performance.
    • rw,noatime,compress=lzo,ssd,discard,space_cache,autodefrag,inode_cache
    • Btrfs on a HDD for archival purposes with an emphasis on maximizing space.
    • rw,relatime,compress-force=zlib,autodefrag

Displaying used/free space

General linux userspace tools such as /usr/bin/df will inaccurately report free space on a Btrfs partition since it does not take into account space allocated for and used by the metadata. It is recommended to use /usr/bin/btrfs to query a btrfs partition. Below is an illustration of this effect, first querying using df, and then using btrfs fi df:

# df -h /
Filesystem      Size  Used Avail Use% Mounted on
/dev/sda3       119G  3.0G  116G   3% /
# btrfs fi df /
Data: total=3.01GB, used=2.73GB
System: total=4.00MB, used=16.00KB
Metadata: total=1.01GB, used=181.83MB

Notice that df -h reports 3.0GB used but btrfs fi df reports 2.73GB for the data. This is due to the way BTRFS allocates space into the pool. The true disk usage is the sum of all three 'used' values which is inferior to 3.0GB as reported by df -h.

Another useful command to show a less verbose readout of used space is btrfs fi show:

# btrfs fi show /dev/sda3
failed to open /dev/sr0: No medium found
Label: 'arch64'  uuid: 02ad2ea2-be12-2233-8765-9e0a48e9303a
	Total devices 1 FS bytes used 2.91GB
	devid    1 size 118.95GB used 4.02GB path /dev/sda2

Btrfs v0.20-rc1-358-g194aa4a-dirty


A few limitations should be known before trying.


Btrfs has no built-in encryption support (this may come in future), but you can encrypt the partition before running mkfs.btrfs. See Dm-crypt with LUKS.

If you've already created a Btrfs file system, you can also use something like EncFS or TrueCrypt, though perhaps without some of Btrfs' features.

Swap file

Btrfs does not support swap files. This is due to swap files requiring a function that Btrfs doesn't have for possibility of corruptions.link A swap file can be mounted on a loop device with poorer performance but will not be able to hibernate. A systemd service file is available systemd-loop-swapfileAUR.


Partition offset

Tango-inaccurate.pngThe factual accuracy of this article or section is disputed.Tango-inaccurate.png

Reason: This may no longer be needed. Need to verify with a direct installation of Btrfs without a partition table. (Discuss in Talk:Btrfs#)

GRUB can boot Btrfs partitions however the module may be larger than other File Systems and the core.img file made by grub-install may not fit in the first 63 KB of the drive between the MBR and the first partition. Up-to-date partitions tools such as fdisk and gdisk avoid this issue by offsetting the first partition by 2 MB.

Missing root

If you get the following: error no such device: root when booting from a RAID style setup then edit /usr/share/grub/grub-mkconfig_lib and remove both quotes from the line echo " search --no-floppy --fs-uuid --set=root ${hints} ${fs_uuid}". Regenerate the config for grub and your system should boot without an error.


Various features are available and can be adjusted.

Copy-On-Write (CoW)

The resolution at which data are written to the filesystem is dictated by Btrfs itself and by system-wide settings. Btrfs defaults to a 30 seconds checkpoint interval in which new data are committed to the filesystem. As of Btrfs v0.20-rc1-253-g7854c8b users cannot tweak this without recompiling a patched version of fs/btrfs/disk-io.c. On 01-Aug-2013, David Sterba submitted this patch to make this a formal mount time tuneable.

System-wide settings also affect commit intervals. They include the files under /proc/sys/vm/* and are out-of-scope of this wiki article. The kernel documentation for them resides in Documentation/sysctl/vm.txt.

CoW comes with some advantages, but can negatively affect performance with large files that have small random writes. It is recommended to disable CoW for database files and virtual machine images. You can disable CoW for the entire block device by mounting it with nodatacow option. However, this will disable CoW for the entire file system.

To disable CoW for single files/directories do:

# chattr +C /dir/file

Note, from chattr man page: For btrfs, the 'C' flag should be set on new or empty files. If it is set on a file which already has data blocks, it is undefined when the blocks assigned to the file will be fully stable. If the 'C' flag is set on a directory, it will have no effect on the directory, but new files created in that directory will have the No_COW attribute.

Likewise, to save space by forcing CoW when copying files use:

# cp --reflink source dest 

As dest file is changed, only those blocks that are changed from source will be written to the disk. One might consider aliasing aliasing cp to cp --reflink=auto.

Multi-device filesystem and RAID feature

Multi-device filesystem

When creating a btrfs filesystem, you can pass as many partitions or disk devices as you want to mkfs.btrfs. The filesystem will be created across these devices. You can "pool" this way, multiple partitions or devices to get a big btrfs filesystem.

You can also add or remove device from an existing btrfs filesystem (caution is mandatory).

A multi-device btrfs filesystem (also called a btrfs volume) is not recognized until

# btrfs device scan

has been run. This is the purpose of the btrfs mkinitcpio hook.

RAID features

When creating multi-device filesystem, you can also specify to use RAID0, RAID1 or RAID10 across the devices you have added to the filesystem. RAID levels can be applied independently to data and meta data. By default, meta data is duplicated on single volumes or RAID1 on multi-disk sets.

btrfs works in block-pairs for raid0, raid1, and raid10. This means:

raid0 - block-pair stripped across 2 devices

raid1 - block-pair written to 2 devices

For 2 disk sets, this matches raid levels as defined in md-raid (mdadm). For 3+ disk-sets, the result is entirely different than md-raid.

For example:

3 1TB disks in an md based raid1 yields a /dev/md0 with 1 TB free space and the ability to safely loose 2 disks without losing data. 3 1TB disks in a Btrfs volume with data=raid1 will allow the storage of approximately 1.5 TB of data before reporting full. Only 1 disk can safely be lost without losing data.

Btrfs uses a round-robin scheme to decide how block-pairs are spread among disks. As of Linux 3.0, a quasi-round-robin scheme is used which prefers larger disks when distributing block pairs. This allows raid0 and raid1 to take advantage of most (and sometimes all) space in a disk set made of multiple disks. For example, a set consisting of a 1TB disk and 2 500GB disks with data=raid1 will place a copy of every block on the 1TB disk and alternate (round-robin) placing blocks on each of the 500GB disks. Full space utilization will be made. A set made from a 1TB disk, a 750GB disk, and a 500GB disk will work the same, but the filesystem will report full with 250GB unusable on the 750GB disk. To always take advantage of the full space (even in the last example), use data=single. (data=single is akin to JBOD defined by some raid controllers) See the BTRFS FAQ for more info.


See the following links for more details:

Creating sub-volumes

To create a sub-volume:

# btrfs subvolume create subvolume-name

Listing sub-volumes

To see a list of current sub-volumes:

# btrfs subvolume list -p .

Setting a default sub-volume

Warning: Changing the default subvolume with btrfs subvolume default will make the top level of the filesystem inaccessible, except by use of the subvolid=0 mount option. From, Btrfs Wiki Sysadmin Guide.

The default sub-volume is mounted if no subvol= mount option is provided.

# btrfs subvolume set-default subvolume-id /.


# btrfs subvolume list .
ID 258 gen 9512 top level 5 path root_subvolume
ID 259 gen 9512 top level 258 path home
ID 260 gen 9512 top level 258 path var
ID 261 gen 9512 top level 258 path usr
# btrfs subvolume set-default 258 .

Tips and tricks

  • For increased flexibility, install your system into a dedicated sub-volume, and, in the kernel boot parameters, use: rootflags=subvol=subvolume-name.
  • If using a subvolume for the root partition, it is advisable to add crc32c (or crc32c-intel for Intel machines) to the modules array in /etc/mkinitcpio.conf
Note: Child sub-volumes are automatically mounted by Btrfs when the parent sub-volume is mounted.


To create a snapshot:

# btrfs subvolume snapshot source [dest/]name

Snapshots are not recursive. Every sub-volume inside sub-volume will be an empty directory inside the snapshot.


Btrfs supports online defragmentation. To defragment the metadata of the root folder do:

# btrfs filesystem defragment /

This will not defragment the entire system. For more information read this page on the btrfs wiki.

To defragment the entire system verbosely do:

# find / -xdev -type f -print -exec btrfs filesystem defrag '{}' \;


Btrfs supports transparent compression, which means every file on the partition is automatically compressed. This does not only reduce the size of those files, but also improves performance, in particular if using the lzo algorithm, in some specific use cases (e.g. single tread with heavy file IO), while obviously harming performance on other cases (e.g. multithreaded and/or cpu intensive tasks with large file IO). Compression is enabled using the compress=gzip or compress=lzo mount options. Only files created or modified after the mount option is added will be compressed, so to fully benefit from compression it should be enabled during installation.

However, it can quite easily be applied to a subvolume using the defragment -czlib (or whichever algorithm you so choose) command (the same command above could be used, by adding the -czlib and such, to recursively apply). Also keep in mind that for future files to be compressed, a simple chattr +c should be applied to some directories, so as to automatically compress new files as they come.

After preparing the storage drive, simply switch to another terminal (Ctrl+Alt+number), and run the following command:

# mount -o remount,compress=lzo /dev/sdXY /mnt/target

After the installation is finished, add compress=lzo to the mount options of the root filesystem in /etc/fstab.

Checkpoint Interval

Starting with Linux 3.12, users are able to change the checkpoint interval from the default 30 s to any value by appending the commit mount flag in /etc/fstab for the btrfs partition.

LABEL=arch64 / btrfs defaults,noatime,ssd,compress=lzo,commit=120 0 0


Btrfs can occupy an entire data storage device and replace the MBR or GPT partitioning schemes. You can use subvolumes to simulate partitions. There are some limitations to this approach if you use only a single disk:

To overwrite the existing partition table with Btrfs, run the following command:

# mkfs.btrfs /dev/sdX

Do not specify /dev/sdaX or it will format an existing partition instead of replacing the entire partitioning scheme.

Install your boot loader the same way you install it for a data storage device with a Master Boot Record. For example:

# grub-install --recheck /dev/sdX

for GRUB.


See Btrfs Wiki Glossary.

# btrfs scrub start /
# btrfs scrub status /


See Btrfs Wiki Glossary.

# btrfs balance /

See also