FAT

The File Allocation Table (FAT) - filesystem originally created for use with MS-DOS (and later pre-NT Microsoft Windows). Currently a later revision of FAT (FAT32) is used for USB flash disks.^[1] It has made its way over to Linux systems and has official support in the Linux kernel.

Although FAT32 lacks many of the features inherent in modern file systems, this filesystem can still be found in modern computers, for example, when using EFI System Partition. In 2006 Microsoft has developed a new version of FAT (exFAT) that is not backward compatible with the previous version. See the exFAT article for more info.

Installation

Kernel

File systems  --->
   DOS/FAT/NT Filesystems  --->
      < > MSDOS fs support
      <*> VFAT (Windows-95) fs support
      (437) Default codepage for FAT
      (iso8859-1) Default iocharset for FAT
      [ ]   Enable FAT UTF-8 option by default
   -*- Native language support  --->
      (iso8859-1) Default NLS Option
      <*>   Codepage 437 (United States, Canada)
      <*>   NLS ISO 8859-1  (Latin 1; Western European Languages)
      -*-   NLS UTF-8

Snippet

CONFIG_FAT_FS=y
CONFIG_MSDOS_FS=y
CONFIG_VFAT_FS=y
CONFIG_FAT_DEFAULT_CODEPAGE=437
CONFIG_FAT_DEFAULT_IOCHARSET="iso8859-1"

When planning on mounting FAT partitions, users may need to specify a codepage= option with mount. In the example above the codepage for the United States and Canada is used, however other codepages can be enabled a necessary. Optionally, users can also set a default codepage for FAT in the kernel configuration. Be sure each codepage value which is to be used has been enabled in the kernel.

Avoid setting Default iocharset for fat to UTF-8; it is not recommended. Instead, pass the utf8=true option when mounting FAT partitions (this requires CONFIG_NLS_UTF8 to be enabled in the kernel). For further information see mount(8) man page or see the appropriate kernel documentation at /usr/src/linux/Documentation/filesystems/vfat.rst

Emerge

The sys-fs/dosfstools package is needed for FAT userspace utilities:

Usage

Formatting

To create an FAT file system, use mkfs.fat:

mkfs.fat 4.2 (2021-01-31)
No device specified.
Usage: mkfs.fat [OPTIONS] TARGET [BLOCKS]
Create FAT filesystem in TARGET, which can be a block device or file. Use only
up to BLOCKS 1024 byte blocks if specified. With the -C option, file TARGET will be
created with a size of 1024 bytes times BLOCKS, which must be specified.
 
Options:
  -a              Disable alignment of data structures
  -A              Toggle Atari variant of the filesystem
  -b SECTOR       Select SECTOR as location of the FAT32 backup boot sector
  -c              Check device for bad blocks before creating the filesystem
  -C              Create file TARGET then create filesystem in it
  -D NUMBER       Write BIOS drive number NUMBER to boot sector
  -f COUNT        Create COUNT file allocation tables
  -F SIZE         Select FAT size SIZE (12, 16 or 32)
  -g GEOM         Select disk geometry: heads/sectors_per_track
  -h NUMBER       Write hidden sectors NUMBER to boot sector
  -i VOLID        Set volume ID to VOLID (a 32 bit hexadecimal number)
  -I              Ignore and disable safety checks
  -l FILENAME     Read bad blocks list from FILENAME
  -m FILENAME     Replace default error message in boot block with contents of FILENAME
  -M TYPE         Set media type in boot sector to TYPE
  --mbr[=y|n|a]   Fill (fake) MBR table with one partition which spans whole disk
  -n LABEL        Set volume name to LABEL (up to 11 characters long)
  --codepage=N    use DOS codepage N to encode label (default: 850)
  -r COUNT        Make room for at least COUNT entries in the root directory
  -R COUNT        Set minimal number of reserved sectors to COUNT
  -s COUNT        Set number of sectors per cluster to COUNT
  -S SIZE         Select a sector size of SIZE (a power of two, at least 512)
  -v              Verbose execution
  --variant=TYPE  Select variant TYPE of filesystem (standard or Atari)
  --invariant     Use constants for randomly generated or time based values
  --offset=SECTOR Write the filesystem at a specific sector into the device file.
  --help          Show this help message and exit

To format /dev/sdx9 partition with the FAT32 filesystem with label "ESP" with verbose output.

It should be possible to mount FAT filesystems with the mount command. Resizing could be done using sys-fs/fatresize.

Case sensitivity

In the original FAT file system only short filenames (8.3 or SFN) are possible, and they are being stored in all upper case only. The systems using the original FAT file system were not case-sensitive (like MS-DOS). As extension to FAT, VFAT not only allows long filenames (LFN) but also lower case letters in filenames. VFAT is case-preserving, but for compatibility reasons existing operating systems (such as Microsoft Windows 95 and Windows NT) were still treating filenames case-insensitive. On the other hand, Unix traditionally was strictly case-sensitive.

In Linux vfat defaults to treating names case-insensitive (mount option check=r for relaxed). VFAT can, however, also be mounted with strict case-checking, mount option check=s, but this can cause problems.

Manual mount options

For short names of directories and files (8.3, i.e. "short filenames" or SFN) the behavior of how the name is stored in the filesystem and how it is displayed can be changed using mount option shortname, which defaults to mixed since Linux kernel 2.6.32 (December 2009).^[2]

A special case is an all lower case short filename, e.g. filename.ext. If it is created with shortname=winnt, no LFN VFAT entry will be created.

If the file is created with shortname=lower|win95|mixed however, there will be a VFAT entry (LFN) and a short filename as well, e.g. FILENA~2.EXT. Whenever there is an LFN, VFAT will display the LFN, not the SFN. This is particularly tricky since the LFN entry might look like an 8.3 SFN, as in the example filename.ext.

Problem cases

With the default settings existing file systems will just work.^[3] Firstly, VFAT currently defaults to relaxed case-checking (mount option check=r). This means that names for directories and files below the mount point will always work as long as they otherwise match in any possible combination of upper and lower case spelling, e.g. filename.ext will be found even when e.g. FILENAME.EXT or FileName.Ext is actually present, because the difference is only in case.

And secondly, short names (8.3, SFN) that are not all upper case will get an additional long filename entry to store the case correctly i.e. making VFAT case-preserving (mount option shortname=mixed).

If only Linux is installed and all file references remain exactly the same, everything should also work with strict case-checking (mount option check=s). However, since the VFAT file system stores two filenames in some but not all cases, one short (8.3, SFN) and one long name (LFN), conventions regarding the management of those names can cause additional problems. The obvious example is the use of shortname=winnt, which will convert a short filename in all lower case to a standard FAT filename in all upper case, and skip creating an LFN counterpart. For example, the filename bootx64.efi would be stored as traditional 8.3 short filename (SFN) BOOTX64.EFI only. Additionally, shortname=winnt will display short filenames as is, so the originally written bootx64.efi doesn't exist, and together with strict case-checking this will cause big problems under Linux.

Troubleshooting

Slow file transfer speeds

If file transfer speeds are slow (can be viewed using iotop), ensure the filesystem is mounted with the async filesystem option. Edit /etc/fstab (or /etc/autofs/auto.misc when using autofs) system files as needed, likely removing the sync mount option. By default, filesystems are mounted using the async mount option.

If file transfer speeds are still slow, try remounting the filesystem with the flush mount option:

Alternative operating system compatible filesystems

Try UDF filesystem using UDFTools, requiring sys-fs/udftools and Linux kernel UDF filesystem driver. Recently code was added to mkudffs for a fix for creating a mock partition increasing compatibility with Microsoft related operating systems. If using an older Linux kernel, ensure block size is set to 512 for increased compatibility. Most options are now default for compatibility, except for the required --bootarea=mbr creating the mock partition.

Try Samsung's F2FS filesystem.

UTF-8/UTF-16 character hardware bugs

Sometimes hardware firmware bugs will occur on embedded devices (eg. car radios) when reading their required formatted FAT/FAT32 filesystems containing UTF-8 characters. A workaround is to ensure initially mounting the FAT filesystem using (current default) mount options codepage=437,iocharset=iso8859-1,shortname=mixed,errors=remount-ro.

For short filenames, codepage=437 is IBM-PC characters or basically ASCII. For long filenames, iocharset=iso8859-1 specifies ASCII. The option shortname=mixed is default, and can also try shortname=win95 option. Of which, are all current defaults. Additionally to further remedy UTF-8/UTF-16 incompatible characters, use a loop with sed to replace all incompatible UTF-8/UTF-16 characters with an underscore or other ASCII character. (See this replace_chars.sh script.)

For reference, this bug was encountered with a Sony car radio. The MEX-GS610BT radio model would hard reset upon attempting to read a USB flash media/drive containing UTF-8/UTF-16 characters.

As mentioned previously, see /usr/src/linux/Documentation/filesystems/vfat.txt, the Linux Kernel vfat source code documentation, for further explanation on whether to use codepage, iocharset, or utf8 mount options.

Unsorted files and folders

When writing files to the FAT/FAT32 filesystem, devices used for reading the filesystem may show the files and folders as unsorted. Commonly, viewer prefer seeing files and folders sorted alphabetically. Install sys-fs/fatsort, and issue the following command:

See also

• ExFAT — a Microsoft file system optimized for flash memory storage
• ext4 — an open source disk filesystem and most recent version of the extended series of filesystems.
• btrfs — a copy-on-write (CoW) filesystem for Linux aimed at implementing advanced features while focusing on fault tolerance, self-healing properties, and easy administration.
• removable media — any media that is easily removed from a system.
• /etc/fstab — a configuration file that defines how and where the main filesystems are to be mounted, especially at boot time.

External resources

• /usr/src/linux/Documentation/filesystems/vfat.txt - Documentation on the VFAT filesystem included with the Linux kernel sources.
• FAT filesystem and Linux - from Wikipedia

References