FD(4) Linux Programmer's Manual FD(4)
NAME
fd - floppy disk device
CONFIGURATION
Floppy drives are block devices with major number 2. Typically they
are owned by root.floppy (i.e., user root, group floppy) and have
either mode 0660 (access checking via group membership) or mode 0666
(everybody has access). The minor numbers encode the device type,
drive number, and controller number. For each device type (that is,
combination of density and track count) there is a base minor number.
To this base number, add the drive's number on its controller and 128
if the drive is on the secondary controller. In the following device
tables, n represents the drive number.
Warning: if you use formats with more tracks than supported by your
drive, you may cause it mechanical damage. Trying once if more tracks
than the usual 40/80 are supported should not damage it, but no war-
ranty is given for that. If you are not sure, don't create device
entries for those formats, so as to prevent their usage.
Drive-independent device files which automatically detect the media
format and capacity:
Name Base
minor #
---------------
fdn 0
5.25 inch double-density device files:
Name Capacity Cyl. Sect. Heads Base
KiB minor #
-------------------------------------------------------
fdnd360 360 40 9 2 4
5.25 inch high-density device files:
Name Capacity Cyl. Sect. Heads Base
KiB minor #
-------------------------------------------------------
fdnh360 360 40 9 2 20
fdnh410 410 41 10 2 48
fdnh420 420 42 10 2 64
fdnh720 720 80 9 2 24
fdnh880 880 80 11 2 80
fdnh1200 1200 80 15 2 8
fdnh1440 1440 80 18 2 40
fdnh1476 1476 82 18 2 56
fdnh1494 1494 83 18 2 72
fdnh1600 1600 80 20 2 92
3.5 inch double-density device files:
Name Capacity Cyl. Sect. Heads Base
KiB minor #
-------------------------------------------------------
fdnu360 360 80 9 1 12
fdnu720 720 80 9 2 16
fdnu800 800 80 10 2 120
fdnu1040 1040 80 13 2 84
fdnu1120 1120 80 14 2 88
3.5 inch high-density device files:
Name Capacity Cyl. Sect. Heads Base
KiB minor #
-------------------------------------------------------
fdnu360 360 40 9 2 12
fdnu720 720 80 9 2 16
fdnu820 820 82 10 2 52
fdnu830 830 83 10 2 68
fdnu1440 1440 80 18 2 28
fdnu1600 1600 80 20 2 124
fdnu1680 1680 80 21 2 44
fdnu1722 1722 82 21 2 60
fdnu1743 1743 83 21 2 76
fdnu1760 1760 80 22 2 96
fdnu1840 1840 80 23 2 116
fdnu1920 1920 80 24 2 100
3.5 inch extra-density device files:
Name Capacity Cyl. Sect. Heads Base
KiB minor #
-------------------------------------------------------
fdnu2880 2880 80 36 2 32
fdnCompaQ 2880 80 36 2 36
fdnu3200 3200 80 40 2 104
fdnu3520 3520 80 44 2 108
fdnu3840 3840 80 48 2 112
DESCRIPTION
fd special files access the floppy disk drives in raw mode. The fol-
lowing ioctl(2) calls are supported by fd devices:
FDCLRPRM
clears the media information of a drive (geometry of disk in
drive).
FDSETPRM
sets the media information of a drive. The media information
will be lost when the media is changed.
FDDEFPRM
sets the media information of a drive (geometry of disk in
drive). The media information will not be lost when the media
is changed. This will disable autodetection. In order to reen-
able autodetection, you have to issue an FDCLRPRM.
FDGETDRVTYP
returns the type of a drive (name parameter). For formats which
work in several drive types, FDGETDRVTYP returns a name which is
appropriate for the oldest drive type which supports this for-
mat.
FDFLUSH
invalidates the buffer cache for the given drive.
FDSETMAXERRS
sets the error thresholds for reporting errors, aborting the
operation, recalibrating, resetting, and reading sector by sec-
tor.
FDSETMAXERRS
gets the current error thresholds.
FDGETDRVTYP
gets the internal name of the drive.
FDWERRORCLR
clears the write error statistics.
FDWERRORGET
reads the write error statistics. These include the total num-
ber of write errors, the location and disk of the first write
error, and the location and disk of the last write error. Disks
are identified by a generation number which is incremented at
(almost) each disk change.
FDTWADDLE
Switch the drive motor off for a few microseconds. This might
be needed in order to access a disk whose sectors are too close
together.
FDSETDRVPRM
sets various drive parameters.
FDGETDRVPRM
reads these parameters back.
FDGETDRVSTAT
gets the cached drive state (disk changed, write protected et
al.)
FDPOLLDRVSTAT
polls the drive and return its state.
FDGETFDCSTAT
gets the floppy controller state.
FDRESET
resets the floppy controller under certain conditions.
FDRAWCMD
sends a raw command to the floppy controller.
For more precise information, consult also the <linux/fd.h> and
<linux/fdreg.h> include files, as well as the floppycontrol(1) manual
page.
FILES
/dev/fd*
NOTES
The various formats permit reading and writing many types of disks.
However, if a floppy is formatted with an inter-sector gap that is too
small, performance may drop, to the point of needing a few seconds to
access an entire track. To prevent this, use interleaved formats.
It is not possible to read floppies which are formatted using GCR
(group code recording), which is used by Apple II and Macintosh comput-
ers (800k disks).
Reading floppies which are hard sectored (one hole per sector, with the
index hole being a little skewed) is not supported. This used to be
common with older 8-inch floppies.
SEE ALSO
chown(1), floppycontrol(1), getfdprm(1), mknod(1), superformat(1),
mount(8), setfdprm(8)
COLOPHON
This page is part of release 4.15 of the Linux man-pages project. A
description of the project, information about reporting bugs, and the
latest version of this page, can be found at
https://www.kernel.org/doc/man-pages/.
Linux 2014-05-10 FD(4)