Kernel-4.18.0-80.el8_vfat

USING VFAT

To use the vfat filesystem, use the filesystem type ‘vfat’. i.e.
mount -t vfat /dev/fd0 /mnt

No special partition formatter is required. mkdosfs will work fine
if you want to format from within Linux.

VFAT MOUNT OPTIONS

uid=### – Set the owner of all files on this filesystem.
The default is the uid of current process.

gid=### – Set the group of all files on this filesystem.
The default is the gid of current process.

umask=### – The permission mask (for files and directories, see umask(1)).
The default is the umask of current process.

dmask=### – The permission mask for the directory.
The default is the umask of current process.

fmask=### – The permission mask for files.
The default is the umask of current process.

allow_utime=### – This option controls the permission check of mtime/atime.

              20 - If current process is in group of file's group ID,
                   you can change timestamp.
               2 - Other users can change timestamp.

             The default is set from `dmask' option. (If the directory is
             writable, utime(2) is also allowed. I.e. ~dmask & 022)

             Normally utime(2) checks current process is owner of
             the file, or it has CAP_FOWNER capability.  But FAT
             filesystem doesn't have uid/gid on disk, so normal
             check is too unflexible. With this option you can
             relax it.

codepage=### – Sets the codepage number for converting to shortname
characters on FAT filesystem.
By default, FAT_DEFAULT_CODEPAGE setting is used.

iocharset= – Character set to use for converting between the
encoding is used for user visible filename and 16 bit
Unicode characters. Long filenames are stored on disk
in Unicode format, but Unix for the most part doesn’t
know how to deal with Unicode.
By default, FAT_DEFAULT_IOCHARSET setting is used.

     There is also an option of doing UTF-8 translations
     with the utf8 option.

     NOTE: "iocharset=utf8" is not recommended. If unsure,
     you should consider the following option instead.

utf8= – UTF-8 is the filesystem safe version of Unicode that
is used by the console. It can be enabled or disabled
for the filesystem with this option.
If ‘uni_xlate’ gets set, UTF-8 gets disabled.
By default, FAT_DEFAULT_UTF8 setting is used.

uni_xlate= – Translate unhandled Unicode characters to special
escaped sequences. This would let you backup and
restore filenames that are created with any Unicode
characters. Until Linux supports Unicode for real,
this gives you an alternative. Without this option,
a ‘?’ is used when no translation is possible. The
escape character is ‘:’ because it is otherwise
illegal on the vfat filesystem. The escape sequence
that gets used is ‘:’ and the four digits of hexadecimal
unicode.

nonumtail= – When creating 8.3 aliases, normally the alias will
end in ‘1’ or tilde followed by some number. If this
option is set, then if the filename is
“longfilename.txt” and “longfile.txt” does not
currently exist in the directory, ‘longfile.txt’ will
be the short alias instead of ‘longfi
1.txt’.

usefree – Use the “free clusters” value stored on FSINFO. It’ll
be used to determine number of free clusters without
scanning disk. But it’s not used by default, because
recent Windows don’t update it correctly in some
case. If you are sure the “free clusters” on FSINFO is
correct, by this option you can avoid scanning disk.

quiet – Stops printing certain warning messages.

check=s|r|n – Case sensitivity checking setting.
s: strict, case sensitive
r: relaxed, case insensitive
n: normal, default setting, currently case insensitive

nocase – This was deprecated for vfat. Use shortname=win95 instead.

shortname=lower|win95|winnt|mixed
– Shortname display/create setting.
lower: convert to lowercase for display,
emulate the Windows 95 rule for create.
win95: emulate the Windows 95 rule for display/create.
winnt: emulate the Windows NT rule for display/create.
mixed: emulate the Windows NT rule for display,
emulate the Windows 95 rule for create.
Default setting is `mixed’.

tz=UTC – Interpret timestamps as UTC rather than local time.
This option disables the conversion of timestamps
between local time (as used by Windows on FAT) and UTC
(which Linux uses internally). This is particularly
useful when mounting devices (like digital cameras)
that are set to UTC in order to avoid the pitfalls of
local time.
time_offset=minutes
– Set offset for conversion of timestamps from local time
used by FAT to UTC. I.e. minutes will be subtracted
from each timestamp to convert it to UTC used internally by
Linux. This is useful when time zone set in sys_tz is
not the time zone used by the filesystem. Note that this
option still does not provide correct time stamps in all
cases in presence of DST - time stamps in a different DST
setting will be off by one hour.

showexec – If set, the execute permission bits of the file will be
allowed only if the extension part of the name is .EXE,
.COM, or .BAT. Not set by default.

debug – Can be set, but unused by the current implementation.

sys_immutable – If set, ATTR_SYS attribute on FAT is handled as
IMMUTABLE flag on Linux. Not set by default.

flush – If set, the filesystem will try to flush to disk more
early than normal. Not set by default.

rodir – FAT has the ATTR_RO (read-only) attribute. On Windows,
the ATTR_RO of the directory will just be ignored,
and is used only by applications as a flag (e.g. it’s set
for the customized folder).

     If you want to use ATTR_RO as read-only flag even for
     the directory, set this option.

errors=panic|continue|remount-ro
– specify FAT behavior on critical errors: panic, continue
without doing anything or remount the partition in
read-only mode (default behavior).

discard – If set, issues discard/TRIM commands to the block
device when blocks are freed. This is useful for SSD devices
and sparse/thinly-provisoned LUNs.

nfs=stale_rw|nostale_ro
Enable this only if you want to export the FAT filesystem
over NFS.

    stale_rw: This option maintains an index (cache) of directory
    inodes by i_logstart which is used by the nfs-related code to
    improve look-ups. Full file operations (read/write) over NFS is
    supported but with cache eviction at NFS server, this could
    result in ESTALE issues.

    nostale_ro: This option bases the inode number and filehandle
    on the on-disk location of a file in the MS-DOS directory entry.
    This ensures that ESTALE will not be returned after a file is
    evicted from the inode cache. However, it means that operations
    such as rename, create and unlink could cause filehandles that
    previously pointed at one file to point at a different file,
    potentially causing data corruption. For this reason, this
    option also mounts the filesystem readonly.

    To maintain backward compatibility, '-o nfs' is also accepted,
    defaulting to stale_rw

dos1xfloppy – If set, use a fallback default BIOS Parameter Block
configuration, determined by backing device size. These static
parameters match defaults assumed by DOS 1.x for 160 kiB,
180 kiB, 320 kiB, and 360 kiB floppies and floppy images.

: 0,1,yes,no,true,false

LIMITATION

  • The fallocated region of file is discarded at umount/evict time
    when using fallocate with FALLOC_FL_KEEP_SIZE.
    So, User should assume that fallocated region can be discarded at
    last close if there is memory pressure resulting in eviction of
    the inode from the memory. As a result, for any dependency on
    the fallocated region, user should make sure to recheck fallocate
    after reopening the file.

TODO

  • Need to get rid of the raw scanning stuff. Instead, always use
    a get next directory entry approach. The only thing left that uses
    raw scanning is the directory renaming code.

POSSIBLE PROBLEMS

  • vfat_valid_longname does not properly checked reserved names.
  • When a volume name is the same as a directory name in the root
    directory of the filesystem, the directory name sometimes shows
    up as an empty file.
  • autoconv option does not work correctly.

BUG REPORTS

If you have trouble with the VFAT filesystem, mail bug reports to
chaffee@bmrc.cs.berkeley.edu. Please specify the filename
and the operation that gave you trouble.

TEST SUITE

If you plan to make any modifications to the vfat filesystem, please
get the test suite that comes with the vfat distribution at

http://web.archive.org/web/*/http://bmrc.berkeley.edu/
people/chaffee/vfat.html

This tests quite a few parts of the vfat filesystem and additional
tests for new features or untested features would be appreciated.

NOTES ON THE STRUCTURE OF THE VFAT FILESYSTEM

(This documentation was provided by Galen C. Hunt gchunt@cs.rochester.edu
and lightly annotated by Gordon Chaffee).

This document presents a very rough, technical overview of my
knowledge of the extended FAT file system used in Windows NT 3.5 and
Windows 95. I don’t guarantee that any of the following is correct,
but it appears to be so.

The extended FAT file system is almost identical to the FAT
file system used in DOS versions up to and including 6.223410239847
:-). The significant change has been the addition of long file names.
These names support up to 255 characters including spaces and lower
case characters as opposed to the traditional 8.3 short names.

Here is the description of the traditional FAT entry in the current
Windows 95 filesystem:

    struct directory { // Short 8.3 names 
            unsigned char name[8];          // file name 
            unsigned char ext[3];           // file extension 
            unsigned char attr;             // attribute byte 
    unsigned char lcase;        // Case for base and extension
    unsigned char ctime_ms;        // Creation time, milliseconds
    unsigned char ctime[2];        // Creation time
    unsigned char cdate[2];        // Creation date
    unsigned char adate[2];        // Last access date
    unsigned char reserved[2];    // reserved values (ignored) 
            unsigned char time[2];          // time stamp 
            unsigned char date[2];          // date stamp 
            unsigned char start[2];         // starting cluster number 
            unsigned char size[4];          // size of the file 
    };

The lcase field specifies if the base and/or the extension of an 8.3
name should be capitalized. This field does not seem to be used by
Windows 95 but it is used by Windows NT. The case of filenames is not
completely compatible from Windows NT to Windows 95. It is not completely
compatible in the reverse direction, however. Filenames that fit in
the 8.3 namespace and are written on Windows NT to be lowercase will
show up as uppercase on Windows 95.

Note that the “start” and “size” values are actually little
endian integer values. The descriptions of the fields in this
structure are public knowledge and can be found elsewhere.

With the extended FAT system, Microsoft has inserted extra
directory entries for any files with extended names. (Any name which
legally fits within the old 8.3 encoding scheme does not have extra
entries.) I call these extra entries slots. Basically, a slot is a
specially formatted directory entry which holds up to 13 characters of
a file’s extended name. Think of slots as additional labeling for the
directory entry of the file to which they correspond. Microsoft
prefers to refer to the 8.3 entry for a file as its alias and the
extended slot directory entries as the file name.

The C structure for a slot directory entry follows:

    struct slot { // Up to 13 characters of a long name 
            unsigned char id;               // sequence number for slot 
            unsigned char name0_4[10];      // first 5 characters in name 
            unsigned char attr;             // attribute byte
            unsigned char reserved;         // always 0 
            unsigned char alias_checksum;   // checksum for 8.3 alias 
            unsigned char name5_10[12];     // 6 more characters in name
            unsigned char start[2];         // starting cluster number
            unsigned char name11_12[4];     // last 2 characters in name
    };

If the layout of the slots looks a little odd, it’s only
because of Microsoft’s efforts to maintain compatibility with old
software. The slots must be disguised to prevent old software from
panicking. To this end, a number of measures are taken:

    1) The attribute byte for a slot directory entry is always set
       to 0x0f.  This corresponds to an old directory entry with
       attributes of "hidden", "system", "read-only", and "volume
       label".  Most old software will ignore any directory
       entries with the "volume label" bit set.  Real volume label
       entries don't have the other three bits set.

    2) The starting cluster is always set to 0, an impossible
       value for a DOS file.

Because the extended FAT system is backward compatible, it is
possible for old software to modify directory entries. Measures must
be taken to ensure the validity of slots. An extended FAT system can
verify that a slot does in fact belong to an 8.3 directory entry by
the following:

    1) Positioning.  Slots for a file always immediately proceed
       their corresponding 8.3 directory entry.  In addition, each
       slot has an id which marks its order in the extended file
       name.  Here is a very abbreviated view of an 8.3 directory
       entry and its corresponding long name slots for the file
       "My Big File.Extension which is long":

            <proceeding files...>
            <slot #3, id = 0x43, characters = "h is long">
            <slot #2, id = 0x02, characters = "xtension whic">
            <slot #1, id = 0x01, characters = "My Big File.E">
            <directory entry, name = "MYBIGFIL.EXT">

       Note that the slots are stored from last to first.  Slots
       are numbered from 1 to N.  The Nth slot is or'ed with 0x40
       to mark it as the last one.

    2) Checksum.  Each slot has an "alias_checksum" value.  The
       checksum is calculated from the 8.3 name using the
       following algorithm:

            for (sum = i = 0; i < 11; i++) {
                    sum = (((sum&1)<<7)|((sum&0xfe)>>1)) + name[i]
            }

3) If there is free space in the final slot, a Unicode NULL (0x0000) 
   is stored after the final character.  After that, all unused 
   characters in the final slot are set to Unicode 0xFFFF.

Finally, note that the extended name is stored in Unicode. Each Unicode
character takes either two or four bytes, UTF-16LE encoded.