Development and Issue Reporting
For feature status, please refer to the Status page.
The Btrfs code base is stable. However, new features are still under development. Every effort is made to ensure that it remains stable and fast at each and every commit. This rapid pace of development means that the filesystem improves noticeably with every new Linux release so it's highly recommended that users run the most modern kernel possible.
For benchmarks, it's recommended to test the latest stable Linux version, and not any older, as well as the latest Linux development versions. Also, it's recommended to test the various mount options such as different compression options.
If you find any behavior you suspect to be caused by a bug, performance issues, or have any questions about using Btrfs, please email the Btrfs mailing list (no subscription required). Please report bugs on Bugzilla.
Linux has a wealth of filesystems from which to choose, but we are facing a number of challenges with scaling to the large storage subsystems that are becoming common in today's data centers. Filesystems need to scale in their ability to address and manage large storage, and also in their ability to detect, repair and tolerate errors in the data stored on disk.
Major Features Currently Implemented
- Extent based file storage
- 2^64 byte == 16 EiB maximum file size (practical limit is 8 EiB due to Linux VFS)
- Space-efficient packing of small files
- Space-efficient indexed directories
- Dynamic inode allocation
- Writable snapshots, read-only snapshots
- Subvolumes (separate internal filesystem roots)
- Checksums on data and metadata (crc32c, xxhash, sha256, blake2b)
- Compression (ZLIB, LZO, ZSTD), heuristics
- Integrated multiple device support
- File Striping
- File Mirroring
- File Striping+Mirroring
- Single and Dual Parity implementations (experimental, not production-ready)
- SSD (flash storage) awareness
- TRIM/Discard for reporting free blocks for reuse
- Optimizations (e.g. avoiding unnecessary seek optimizations, sending writes in clusters, even if they are from unrelated files. This results in larger write operations and faster write throughput)
- Background scrub process for finding and repairing errors of files with redundant copies
- Online filesystem defragmentation
- Offline filesystem check
- In-place conversion of existing ext2/3/4 and reiserfs file systems
- Seeding devices. Create a (readonly) filesystem that acts as a template to seed other Btrfs filesystems. The original filesystem and devices are included as a readonly starting point for the new filesystem. Using copy on write, all modifications are stored on different devices; the original is unchanged.
- Subvolume-aware quota support
- Send/receive of subvolume changes, efficient incremental filesystem mirroring and backup
- Batch, or out-of-band deduplication (happens after writes, not during)
- Swapfile support
- Tree-checker, post-read and pre-write metadata verification
- Zoned mode support (SMR/ZBC/ZNS friendly allocation)
- fsverity integration
Features by kernel version
Features Currently in Development or Planned for Future Implementation
- DAX/persistent memory support
- The file/directory -level encryption support (fscrypt)
Guides and usage information
- Getting started — first steps, distributions with btrfs support
- FAQ — About the btrfs project and filesystem
- UseCases — Recipes for how to do stuff with btrfs
- SysadminGuide — A more in-depth guide to btrfs's concepts and a bit of its internals, to answer all those "but what is a subvolume?" kind of questions.
- Multiple devices – A guide to the RAID features of Btrfs
- Conversion from Ext3 and Ext4 or reiserfs
- Problem FAQ — Commonly-encountered problems and solutions.
- Gotchas — lists known bugs and issues, but not necessarily solutions.
- Original wiki documentation (obsolete, will be removed)
- Development setup - how to build btrfs from sources and prepare a development environment
- Original COW B-tree: Source code in C that implements the COW B-tree algorithms repository. Written by Ohad Rodeh at IBM Research in 2006, and released under a BSD license. This is a reference implementation, that works in user space.
- Unmerged features
- In-band (write) time deduplication
btrfs-progs v5.17 (Apr 2022)
- repair wrong num_devices in superblock
- recognize overly long xattr names
- fix wrong total bytes check for seed device
- auto-repair on read on RAID56
- property set: unify handling of empty value to mean default, changed meaning for property 'compression' to allow reset to default and to set NOCOMPRESS, since kernel 5.14
- dump-tree: print fs-verity items
- fix location of system chunk on zoned filesystem
- do not allow setting seeding flag on a filesystem with dirty log
- mkfs and subpage support: use sectorsize as nodesize fallback for mixed profiles
- preparatory work for extent tree v2, global roots
- experimental feature (unstable interface, not built by default, do not use for production): btrfstune: option --csum to switch checksum algorithm
- update documentation build, remove asciidocs leftovers
- update fssum to consider xattrs
util-linux v2.38 (Apr 2022)
blk* utilities and libraries finally recognize btrfs formatted with zoned mode
linux v5.17 (Mar 2022)
- make send work with concurrent block group relocation
- new exclusive operation 'balance paused' to allow adding a device to filesystem with paused balance
- new sysfs file for fsid stored in the per-device directory to help distinguish devices when seeding is enabled
- less metadata needed for directory logging, directory deletion is 20-40% faster
- in zoned mode, cache zone information during mount to speed up repeated queries (about 50% speedup)
- free space tree entries get indexed and searched by size (latency -30%, search run time -30%)
- less contention in tree node locking when inserting a key and no splits are needed (files/sec in fsmark improves by 1-20%)
- defrag rewrite from 5.16 fixed
- get rid of warning when mounted with flushoncommit
- global reserve stealing got simplified and cleaned up in evict
- more preparatory work for extent tree v2
- remove readahead framework
- error handling improvements
Read about past releases in the separate Changelog page
Articles, presentations, podcasts
- Video: Deploying Btrfs at Facebook Scale by Josef Bacik at the Open Source Summit 2020 (2020-06-29)
- Video: btrfs is awesome, except when it isn't by Richard Brown at openSUSE Conferece 2018 (2018-05-25)
- Video: btrfs: The Best Filesystem You've Never Heard Of by poiupoiu at PhreakNIC 21 (2017-11-3)
- Video TUT91782 Getting the most out of the btrfs filesystem by Thorsthen Kukuk and Jeff Mahoney (SUSECON, 2017)
- Video: NYLUG Presents: Chris Mason on Btrfs (May 14th 2015) by Chris Mason at the 192nd meeting of the NYLUG
- Video: Why you should consider using btrfs ... like Google does. by Marc Merlin at linux.conf.au 2015. talk slides
- Article: Bitrot and atomic COWs: Inside “next-gen” filesystems (ars technica, 2014/01)
- Article: Btrfs: Subvolumes and snapshots (LWN.net, 2014/01)
- Article: Btrfs: Working with multiple devices (LWN.net, 2013/12)
- Article: Btrfs: Getting started (LWN.net, 2013/12)
- Article: Btrfs hands on: An extremely cool file system (ZDNet, 2013/11)
- Technical report: Visualizating Block IO Workloads. Section six shows a visual comparison of the IO patterns for BTRFS, XFS, and EXT4. Submitted to ACM Transactions on Storage, November 2013.
- Paper: BTRFS: The Linux B-Tree Filesystem describing the overall concepts and architecture, appeared in ACM Transactions on Storage, August 2013. Includes a detailed comparison with ZFS. There is a free ACM authorized link, from O. Rodeh's  page. Otherwise, try IBM Research link
Links to old or obsolete documentation, articles. Kept for historical reasons. Stuff that's more than 3 years old.
Articles, presentations, podcasts
Wiki accounts, editing
The wiki contributions are welcome! Please create an account and wait for approval (this is a necessary spam protection and we cannot remove it). You can try to catch some of the wiki admins on IRC (or ping user 'kdave' in a query) to expedite the account creation.
The registration requires full name for account but it's not mandatory from our perspective. The wiki User and User talk pages are created automatically but removed after account is approved. If you want to use the pages, create them manually, they won't be deleted.