chattr

chattr is the command in Linux that allows a user to set certain attributes of a file. lsattr is the command that displays the attributes of a file.

chattr
Original author(s)Remy Card
Operating systemLinux
PlatformCross-platform
TypeCommand
chflags
Operating systemBSD-like systems, including macOS
PlatformCross-platform
TypeCommand

Most BSD-like systems, including macOS, have always had an analogous chflags command to set the attributes, but no command specifically meant to display them; specific options to the ls command are used instead. The chflags command first appeared in 4.4BSD.

Solaris has no commands specifically meant to manipulate them. chmod[1] and ls[2] are used instead.

Other Unix-like operating systems, in general, have no analogous commands. The similar-sounding commands chatr (from HP-UX) and lsattr (from AIX) exist but have unrelated functions.

Among other things, the chattr command is useful to make files immutable so that password files and certain system files cannot be erased during software upgrades.[3]

In Linux systems (chattr and lsattr)

File system support

The command line tools chattr (to manipulate attributes) and lsattr (to list attributes) were originally specific to the Second Extended Filesystem family (ext2, ext3, ext4), and are available as part of the e2fsprogs package.

However, the functionality has since been extended, fully or partially, to many other systems, including XFS, ReiserFS, JFS and OCFS2. The btrfs file system includes the attribute functionality, including the C flag, which turns off the built-in copy-on-write (CoW) feature of btrfs due to slower performance associated with CoW.

chattr description

The form of the chattr command is:

 chattr [-RVf] [-+=AacDdijsTtSu] [-v version] files...
  • -R recursively changes attributes of directories and their contents
  • -V is to be verbose and print the program version
  • -f suppresses most error messages

lsattr description

The form of the lsattr command (gnu 1.41.3):

 lsattr [ -RVadv ] [ files...  ]
  • -R recursively lists attributes of directories and their contents
  • -V displays the program version
  • -a lists all files in directories, including dotfiles
  • -d lists directories like other files, rather than listing their contents

Attributes

Some attributes include:

File attributes on a Linux file system according to the chattr(1) Linux man page
Attribute lsattr flag chattr option Semantics and rationale
No atime updates A +A to set
-A to clear
  • When a file with the A attribute set is accessed, its atime record is not modified.
  • This avoids a certain amount of disk I/O operations.
Append only a +a to set
-a to clear[note 1]
  • A file with the a attribute set can only be open in append mode for writing.
Compressed c +c to set
-c to clear[note 2]
  • A file with the c attribute set is automatically compressed on the disk by the kernel.
  • A read from this file returns uncompressed data.
  • A write to this file compresses data before storing them on the disk.
No Copy-on-Write (CoW) C +C to set
-C to clear[note 3]
  • A file with the C attribute will not be subject to Copy-on-Write updates.
  • Updates to these files may not be subject to atomic snapshots, and may lack some reliability information on some filesystems and kernels.
Synchronous directory updates D +D to set
-D to clear
  • When a directory with the D attribute set is modified, the changes are written synchronously on the disk
  • This is equivalent to the dirsync mount option, applied to a subset of the files.
No dump d +d to set
-d to clear
  • A file with the d attribute set is not candidate for backup when the dump program is run.
Compression error E (unavailable)
  • The E attribute is used by the experimental compression patches to indicate that a compressed file has a compression error.
Extent format e (unavailable)
  • The e attribute indicates that the file is using extents for mapping the blocks on disk.
Huge file h (unavailable)
  • The h attribute indicates the file is storing its blocks in units of the filesystem blocksize instead of in units of sectors.
  • It means that the file is, or at one time was, larger than 2TB.
Indexed directory I (unavailable)
  • The I attribute is used by the htree program code to indicate that a directory is being indexed using hashed trees.
Immutable i +i to set
-i to clear[note 1]
  • A file with the i attribute cannot be modified.
  • It cannot be deleted or renamed, no link can be created to this file and no data can be written to the file.
  • When set, prevents, even the superuser, from erasing or changing the contents of the file.
Data journaling j +j to set
-j to clear[note 4]
  • A file with the j attribute has all of its data written to the ext3 journal before being written to the file itself, if the filesystem is mounted with the "data=ordered" or "data=writeback" options.
  • When the filesystem is mounted with the "data=journal" option all file data is already journaled, so this attribute has no effect.
Secure deletion s +s to set
-s to clear[note 2][note 5]
Synchronous updates S +S to set
-S to clear
  • When a file with the S attribute set is modified, the changes are written synchronously on the disk; this is equivalent to the 'sync' mount option applied to a subset of the files.
  • This is equivalent to the sync mount option, applied to a subset of the files.
Top of directory hierarchy T +T to set
-T to clear
  • A directory with the T attribute will be deemed to be the top of directory hierarchies for the purposes of the Orlov block allocator.
  • This is a hint to the block allocator used by ext3 and ext4 that the subdirectories under this directory are not related, and thus should be spread apart for allocation purposes.
  • For example: it is a very good idea to set the T attribute on the /home directory, so that /home/john and /home/mary are placed into separate block groups.
  • For directories where this attribute is not set, the Orlov block allocator will try to group subdirectories closer together where possible.
No tail-merging t +t to set
-t to clear
  • For those filesystems that support tail-merging, a file with the t attribute will not have a partial block fragment at the end of the file merged with other files.
  • This is necessary for applications such as LILO, which reads the filesystem directly and doesn't understand tail-merged files.
Undeletable u +u to set
-u to clear[note 2]
  • When a file with the u attribute set is deleted, its contents are saved.
  • This allows the user to ask for its undeletion.
Compression raw access X (unavailable)
  • The X attribute is used by the experimental compression patches to indicate that a raw contents of a compressed file can be accessed directly.
Compressed dirty file Z (unavailable)
  • The Z attribute is used by the experimental compression patches to indicate a compressed file is "dirty".
Version / generation number -v -v version
  • File's version/generation number.

Notes

  1. Only the superuser or a process possessing the CAP_LINUX_IMMUTABLE capability can set or clear these attributes.
  2. These attributes are not honored by the ext2 and ext3 filesystems as implemented in the current mainline Linux kernels.
  3. These attributes only make sense for Copy-on-Write file-systems such as btrfs.
  4. Only the superuser or a process possessing the CAP_SYS_RESOURCE capability can set or clear this attribute.
  5. This attribute is not honored by the ext4 filesystem as implemented in the current mainline Linux kernels as reported in Bug #17872.

In BSD-like systems (chflags)

File system support

The chflags command is not specific to particular file systems. UFS on BSD systems, and APFS, HFS+, SMB, AFP, and FAT on macOS support at least some flags.

chflags description

The form of the chflags command is:

 chflags [-R [-H | -L | -P]] flags file ...
  • -H If the -R option is specified, symbolic links on the command line are followed. (Symbolic links encountered in the tree traversal are not followed.)
  • -L If the -R option is specified, all symbolic links are followed.
  • -P If the -R option is specified, no symbolic links are followed. This is the default.
  • -R Change the file flags for the file hierarchies rooted in the files instead of just the files themselves.

Displaying

BSD-like systems, in general, have no default user-level command specifically meant to display the flags of a file. The ls command will do with either the -lo, or the -lO, depending on the system, flags passed.

Attributes

All traditional attributes can be set or cleared by the super-user; some can also be set or cleared by the owner of the file. Some attributes include:

File attributes
Attribute ls flag chflags flag Owner-settable OS support Semantics and rationale
Archived arch arch, archived No All File is archived
Opaque opaque opaque Yes All Directory is opaque when viewed through a union mount
No dump nodump nodump Yes All File cannot be dumped
System append-only sappnd sappnd, sappend No All Existing data in the file can't be overwritten and the file cannot be truncated
User append-only uappnd uappnd, uappend Yes All Existing data in the file can't be overwritten and the file cannot be truncated
System immutable schg schg, schange, simmutable No All File cannot be changed, renamed, moved, or removed
User immutable uchg uchg, uchange, uimmutable Yes All File cannot be changed, renamed, moved, or removed
System no-unlink sunlnk sunlnk, sunlink No All File cannot be removed, renamed or mounted on; on macOS this flag needs to be set or cleared from single user mode
User no-unlink uunlnk uunlnk, uunlink Yes Some File cannot be removed, renamed or mounted on; not supported by macOS
Hidden hidden hidden No FreeBSD File is hidden by default in the GUI (but not in ls)
User hidden uhidden uhidden Yes FreeBSD File is hidden by default in the GUI (but not in ls)
Hidden hidden hidden Yes macOS File is hidden by default in the GUI (but not in ls)
Tracked tracked tracked Yes macOS File modifications and deletions are tracked
Restricted restricted restricted No macOS File is protected by System Integrity Protection; accompanied by the extended attribute com.apple.rootless; flag needs to be set or cleared from Recovery Mode
Compressed compressed No macOS File is HFS-compressed (read-only flag); not available on APFS-formatted volumes
Data Vault No macOS Hidden privacy flag since macOS Mojave set by the core system to prohibit any access without special entitlements

BSD systems offer additional flags like offline, snapshot, sparse,[4] and uarchive; see References.

See also

  • ATTRIB – analogous command in MS-DOS, OS/2 and Microsoft Windows
  • chown – change file/directory ownership in a Unix system
  • chmod – change file access control attributes in a Unix system
  • cacls – change file access control lists in Microsoft Windows NT

Notes

  1. chmod(1)  illumos and OpenSolaris User Commands Reference Manual from latest Sun based OpenSolaris
  2. ls(1)  illumos and OpenSolaris User Commands Reference Manual from latest Sun based OpenSolaris
  3. chflags(1)  OpenBSD General Commands Manual
  4. Different from the APFS sparse files on macOS, which have no special flags.

References

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