Changes (feature/version) ========================= Major features or significant feature enhancements by kernel version. For more information look below. The version states at which version a feature has been merged into the mainline kernel. It does not tell anything about at which kernel version it is considered mature enough for production use. For an estimation on stability of features see [[Status]] page. 3.x --- 3.0 - scrub Read all data and verify checksums, repair if possible. 3.2 - auto raid repair Automatic repair of broken data from a good copy 3.2 - root backups Save a few previous versions of the most important tree roots at commit time, used by *-o recovery* 3.3 - integrity checker Optional infrastructure to verify integrity of written metadata blocks 3.3 - backref walking Groundwork to allow tracking owner of blocks, used via *inspect-internal* 3.3 - restriper RAID profiles can be changed on-line, balance filters 3.4 - big metadata blocks Support for metadata blocks larger than page size .. note:: Default nodesize is 16k since btrfs-progs 3.12 3.4 - error handling Generic infrastructure for graceful error handling (EIO) 3.5 - device statistics Persistent statistics about device errors 3.5 - fsync speedup Noticeable improvements in fsync() implementation 3.6 - qgroups Subvolume-aware quotas 3.6 - send/receive Ability to transfer one filesystem via a data stream (full or incremental) and apply the changes on a remote filesystem. 3.7 - extrefs Hardlink count limit is lifted to 64k .. note:: Default since btrfs-progs 3.12 3.7 - hole punching Implement the FALLOC_FL_PUNCH_HOLE mode of *fallocate* 3.8 - device replace Efficient replacement of existing device (add/remove in one go) 3.9 - raid 5/6 *(incomplete)* Basic support for RAID5/6 profiles, no crash resiliency, replace and scrub support 3.9 - snapshot-aware defrag Defrag does not break links between shared extents (snapshots, reflinked files) .. note:: Disabled since 3.14 (and backported to some stable kernel versions) due to problems. Will be enabled in the future. 3.9 - lightweight send A mode of *send* that does not add the actual file data to the stream 3.9 - on-line label set/get Label editable on mounted filesystems 3.10 - skinny metadata Reduced metadata size (format change) of extents .. note:: Default since btrfs-progs 3.18 3.10 - qgroup rescan Sync qgroups with existing filesystem data 3.12 - UUID tree A map of subvolume/UUID that vastly speeds up send/receive 3.12 - out-of-bound deduplication Support for deduplicating extents on a given set of files. 3.14 - no-holes No extent representation for file holes (format change), may reduce overall metadata consumption 3.14 - feature bits in sysfs /sys/fs/btrfs exports various bits about filesystem capabilities and feature support 3.16 - O_TMPFILE Mode of open() to safely create a temporary file 3.16 - search ioctl v2 The extended SEARCH_TREE ioctl able to get more than a 4k data 3.18 - auto block group reclaim Automatically remove block groups (aka. chunks) that become completely empty. 3.19 - RAID56: scrub, replace Scrub and device replace works on RAID56 filesystems. 4.x --- 4.0 - store otime Save creation time (otime) for all new files and directories. For future use, current tool cannot read it directly. 4.2 - rootid ioctl accessible The INO_LOOKUP will return root id (id of the containing subvolume), unrestricted and to all users if the *treeid* is 0. 4.2 - dedupe possible on the same inode The EXTENT_SAME ioctl will accept the same inode as source and destination (ranges must not overlap). 4.3 - trim all free space Trim will be performed also on the space that's not allocated by the chunks, not only free space within the allocated chunks. 4.4 - balance filter updates Enhanced syntax and new balance filters: * limit=min..max * usage=min..max * stripes=min..max 4.5 - free space tree Improved implementation of free space cache (aka v2), using b-trees. .. note:: Default since btrfs-progs 5.15, Kernel 4.9 fixes endianity bugs on big-endian machines, x86* is ok 4.5 - balance filter updates Conversion to data/DUP profile possible through balance filters -- on single-device filesystem. .. note:: mkfs.btrfs allows creating DUP on single device in the non-mixed mode since 4.4 4.6 - max_inline default The default value of max_inline changed to 2048. 4.6 - read features from control device The existing ioctl GET_SUPPORTED_FEATURES can be now used on the control device (/dev/btrfs-control) and returns the supported features without any mounted filesystem. 4.7 - delete device by id Add new ioctl RM_DEV_V2, pass device to be deleted by its ID. 4.7 - more renameat2 modes Add support for RENAME_EXCHANGE and RENAME_WHITEOUT to *renameat2* syscall. This also means that *overlayfs* is now supported on top of btrfs. 4.7 - balance filter updates Conversion to data/DUP profile possible through balance filters -- on multiple-device filesystems. .. note:: mkfs.btrfs allows creating DUP on multiple devices since 4.5.1 4.12 - RAID56: auto repair Scrub will attempt auto-repair (similar to raid1/raid10) 4.13 - statx Support for the enhanced statx syscall; file creation timestamp 4.13 - sysfs qgroups override qgroups: new sysfs control file to allow temporary quota override with CAP_SYS_RESOURCE 4.13 - *deprecated mount option alloc_start* That was a debugging helper, not used and not supposed to be used nowadays. 4.14 - ZSTD compression New compression algorithm ZSTD, supposedly better ratio/speed performance. 4.14 - improved degraded mount Allow degraded mount based on the chunk constraints, not device number constraints. E.g. when one device is missing but the remaining one holds all *single* chunks. 4.14 - *deprecated user transaction ioctl* BTRFS_IOC_TRANS_START and BTRFS_IOC_TRANS_END, no known users, tricky to use; scheduled to be removed in 4.17 4.14 - refine SSD optimizations The mount option *ssd* does not make any assumptions about block layout or management by the device anymore, leaving only the speedups based on low seek cost active. This could avoid some corner cases leading to excessive fragmentation. https://git.kernel.org/linus/583b723151794e2ff1691f1510b4e43710293875 The story so far. 4.15 - overlayfs Overlayfs can now use btrfs as the lower filesystem. 4.15 - *ref-verify* Debugging functionality to verify extent references. New mount option ref-verify, must be built with CONFIG_BTRFS_FS_REF_VERIFY. 4.15 - ZLIB level Allow to set the ZLIB compression level via mount option, e.g. like *compress=zlib:9*. The levels match the default ZLIB compression levels. The default is 3. 4.15 - v2 of LOGICAL_INO ioctl An enhanced version of ioctl that can translate logical extent offset to inode numbers, "who owns this block". For certain use cases the V1 performs bad and this is addressed by V2. [https://git.kernel.org/linus/d24a67b2d997c860a42516076f3315c2ad2d2884 Read more.] 4.15 - compression heuristics Apply a few heuristics to the data before they're compressed to decide if it's likely to gain any space savings. The methods: frequency sampling, repeated pattern detection, Shannon entropy calculation. 4.16 - fallocate: zero range Mode of the [http://man7.org/linux/man-pages/man2/fallocate.2.html *fallocate*] syscall to zero file range. 4.17 - *removed user transaction ioctl* deprecated in 4.14, see above 4.17 - *rmdir* on subvolumes Allow rmdir to delete an empty subvolume. 4.18 - XFLAGS ioctl Add support for ioctl FS_IOC_FSSETXATTR/FS_IOC_FSGETXATTR, successor of FS_IOC_SETFLAGS/FS_IOC_GETFLAGS ioctl. Currently supports: APPEND, IMMUTABLE, NOATIME, NODUMP, SYNC. Note that the naming is very confusing, though it's named *xattr*, it does not mean the extended attributes. It should be referenced as extended inode flags or *xflags*. 4.18 - EXTENT_SAME ioctl / 16MiB chunks The range for out-of-band deduplication implemented by the EXTENT_SAME ioctl will split the range into 16MiB chunks. Up to now this was the overall limit and effectively only the first 16MiB was deduplicated. 4.18 - GET_SUBVOL_INFO ioctl New ioctl to read subvolume information (id, directory name, generation, flags, UUIDs, time). This does not require root permissions, only the regular access to to the subvolume. 4.18 - GET_SUBVOL_ROOTREF ioctl New ioctl to enumerate subvolume references of a given subvolume. This does not require root permissions, only the regular access to to the subvolume. 4.18 - INO_LOOKUP_USER ioctl New ioctl to lookup path by inode number. This does not require root permissions, only the regular access to to the subvolume, unlike the INO_LOOKUP ioctl. 4.19 - defrag ro/rw Allow to run defrag on files that are normally accessible for read-write, but are currently opened in read-only mode. 5.x --- 5.0 - swapfile With some limitations where COW design does not work well with the swap implementation (nodatacow file, no compression, cannot be snapshotted, not possible on multiple devices, ...), as this is the most restricted but working setup, we'll try to improve that in the future 5.0 - metadata uuid An optional incompat feature to assign a new filesystem UUID without overwriting all metadata blocks, stored only in superblock, unlike what ``btrfstune -u`` 5.1 - FORGET_DEV ioctl Unregister devices previously added by the scan ioctl, same effect as if the kernel module is reloaded. 5.1 - ZSTD level Allow to set the ZSTD compression level via mount option, e.g. like *compress=zstd:9*. The levels match the default ZSTD compression levels. The default is 3, maximum is 15. 5.2 - pre-write checks Verify metadata blocks before submitting them to the devices. This can catch consistency problems or bitflips. 5.5 - more checksums New checksum algorithms: xxhash (64b), SHA256 (256b), BLAKE2b (256b). 5.5 - RAID1C34 RAID1 with 3- and 4- copies (over all devices). 5.6 - async discard Mode of discard (*mount -o discard=async*) that merges freed extents to larger chunks and submits them for discard in a less intrusive way 5.6 - device info in sysfs More information about device state can be found in per-filesystem sysfs directory. 5.7 - reflink/clone works on inline files Inline files can be reflinked to the tail extent of other files 5.7 - faster balance cancel More cancellation points in balance that will shorten the time to stop processing once ``btrfs balance cancel`` is called. 5.7 - *removed flag BTRFS_SUBVOL_CREATE_ASYNC* Remove support of flag BTRFS_SUBVOL_CREATE_ASYNC from subvolume creation ioctl. 5.7 - v2 of snapshot deletion ioctl New ioctl BTRFS_IOC_SNAP_DESTROY_V2, deletion by subvolume id is now possible. 5.9 - mount option *rescue* Unified mount option for actions that may help to access a damaged filesystem. Now supports: nologreplay, usebackuproot 5.9 - qgroups in sysfs The information about qgroup status and relations is exported in */sys/fs/UUID/qgroups* 5.9 - FS_INFO ioctl Export more information: checksum type, checksum size, generation, metadata_uuid 5.10 - exclusive ops in sysfs Export which filesystem exclusive operation is running (balance, resize, device add/delete/replace, ...) 5.11 - remove *inode_cache* Remove inode number caching feature (mount -o inode_cache) 5.11 - more rescue= Additional modes for mount option *rescue=*: ignorebadroots/ibadroots, ignoredatacsums/idatacsums. All are exported in sysfs. 5.12 - zoned mode Support for zoned devices with special allocation/write mode to fixed-size zones. See [[Zoned]]. 5.13 - supported_sectorsizes in sysfs List supported sector sizes in sysfs file /sys/fs/btrfs/features/supported_sectorsizes 5.14 - sysfs scrub bw limit Tunable bandwidth limit (/sys/fs/btrfs/FSID/devinfo/DEVID/scrub_speed_max) for scrub (and device replace) for a given device. 5.14 - sysfs device stats The device stats can be also found in /sys/fs/btrfs/FSID/devinfo/DEVID/error_stats. 5.14 - cancellable resize, device delete The filesystem resize and device delete operations can be cancelled by specifying *cancel* as the device name. 5.14 - property value reset Change how empty value is interpreted. New behaviour will delete the value and reset it to default. This affects *btrfs.compression* where value *no* sets NOCOMPRESS bit while empty value resets all compression settings (either compression or NOCOMPRESS bit). 5.15 - fsverity The fs-verity is a support layer that filesystems can hook into to support transparent integrity and authenticity protection of read-only files. https://www.kernel.org/doc/html/latest/filesystems/fsverity.html 5.15 - idmapped mount Support mount with UID/GID mapped according to another namespace. https://lwn.net/Articles/837566/ 5.16 - ZNS in zoned Zoned namespaces. https://zonedstorage.io/docs/introduction/zns , https://lwn.net/Articles/865988/ 5.17 - send and relocation Send and relocation (balance, device remove, shrink, block group reclaim) can now work in parallel. 5.17 - device add vs balance It is possible to add a device with paused balance. .. note:: Since kernel 5.17.7 and btrfs-progs 5.17.1 5.17 - *no warning with flushoncommit* Mounting with *-o flushoncommit* does not trigger the (harmless) warning at each transaction commit .. note:: Also backported to 5.15.27 and 5.16.13 5.18 - zoned and DUP metadata DUP metadata works with zoned mode 5.18 - encoded data ioctl New ioctls to read and write pre-encoded data (i.e. no transformation and directly written as extents), now works for compressed data 5.18 - *removed balance ioctl v1* The support for ioctl BTRFS_IOC_BALANCE has been removed, superseded by BTRFS_IOC_BALANCE_V2m long time ago 5.18 - *cross-mount reflink works* the VFS limitation to reflink files on separate subvolume mounts of the same filesystem has been removed 5.18 - syslog error messages with filesystem state Messages are printed with a one letter tag ("state: X") that denotes in which state the filesystem was at this point: * A - transaction aborted (permanent) * E - filesystem error (permanent) * M - remount in progress (transient) * R - device replace in progress (transient) * C - checksum checks disabled by mount option (rescue=ignoredatacsums) * L - log tree replay did not complete due to some error 5.18 - tree-checker verifies transaction id pre-write Metadata buffer to be written gets an extra check if the stored transaction number matches the current state of the filesystem. 5.19 - subpage support pages > 4KiB Metadata node size is supported regardless of the CPU page size (minimum size is 4KiB), data sector size is supported <= page size. Additionally subpage also supports RAID56. 5.19 - per-type background threshold for reclaim Add sysfs tunable for background reclaim threshold for all block group types (data, metadata, system). 5.19 - automatically repair device number mismatch Device information is stored in two places, the number in the super block and items in the device tree. When this is goes out of sync, e.g. by device removal short before unmount, the next mount could fail. The b-tree is an authoritative information an can be used to override the stale value in the superblock. 5.19 - defrag can convert inline files to regular ones The logic has been changed so that inline files are considered for defragmentation even if the mount option max_inline would prevent that. No defragmentation might happen but the inlined files are not skipped. 5.19 - explicit minimum zone size is 4MiB Set the minimum limit of zone on zoned devices to 4MiB. Real devices zones are much larger, this is for emulated devices. 5.19 - sysfs tunable for automatic block group reclaim Add possibility to set a threshold to automatically reclaim block groups also in non-zoned mode. By default completely empty block groups are reclaimed automatically but the threshold can be tuned in /sys/fs/btrfs/FSID/allocation/PROFILE/bg_reclaim_threshold . 5.19 - tree-checker verifies metadata block ownership Additional check done by tree-checker to verify relationship between a tree block and it's tree root owner. 6.x --- 6.0 - send protocol v2 Send protocol update that adds new commands and extends existing functionality to write large data chunks. Compressed (and encrypted) extents can be optionally emitted and transferred as-is without the need to recompress (or reencrypt) on the receiving side. 6.0 - sysfs exports commit stats The file /sys/fs/btrfs/FSID/commit_stats shows number of commits and various time related statistics. 6.0 - sysfs exports chunk sizes Chunk size value can be read from /sys/fs/btrfs/FSID/allocation/PROFILE/chunk_size . 6.0 - sysfs shows zoned mode among features The zoned mode has been supported since 5.10 and adding functionality. Now it's advertised among features. 6.0 - checksum implementation is logged at mount time When a filesystem is mounted the implementation backing the checksums is logged. The information is also accessible in /sys/fs/btrfs/FSID/checksum . 6.1 - sysfs support to temporarily skip exact qgroup accounting Allow user override of qgroup accounting and make it temporarily out of date e.g. in case when there are several subvolumes deleted and the qgroup numbers need to be updated at some cost, an update after that can amortize the costs. 6.1 - scrub also repairs superblock An improvement to scrub in case the superblock is detected to be corrupted, the repair happens immediately. Previously it was delayed until the next transaction commit for performance reasons that would store an updated and correct copy eventually. 6.1 - block group tree An incompatible change that has to be enabled at mkfs time. Add a new b-tree item that stores information about block groups in a compact way that significantly improves mount time that's usually long due to fragmentation and scattered b-tree items tracking the individual block groups. Requires and also enables the free-space-tree and no-holes features. 6.1 - discard stats available in sysfs The directory '/sys/fs/btrfs/FSID/discard' exports statistics and tunables related to discard. 6.1 - additional qgroup stats in sysfs The overall status of qgroups are exported in /sys/sys/fs/btrfs/FSID/qgroups/ . 6.1 - check that subperblock is unchanged at thaw time Do full check of super block once a filesystem is thawed. This namely happens when system resumes from suspend or hibernation. Accidental change by other operating systems will be detected. 6.2 - discard=async on by default Devices that support trim/discard will enable the asynchronous discard for the whole filesystem.