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superformat - format floppies
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superformat [-D dos-drive] [-v verbosity-level] [-b begin-track] [-e end-track] [--superverify] [--dosverify] [--noverify] [--verify_later] [--zero-based] [-G format-gap] [-F final-gap] [-i interleave] [-c chunksize] [-g gap] [--absolute-skew absolute-skew] [--head-skew head-skew] [--track-skew track-skew] [--biggest-last] drive [media-description]
superformat is used to format disks with a capacity of up to 1992K HD or 3984K ED. See section Extended formats, for a detailed description of these formats. See section Media description, for a detailed description of the syntax for the media description. If no media description is given, superformat formats a disk in the highest available density for that drive, using standard parameters (i.e. no extra capacity formats).
When the disk is formatted, superformat automatically invokes mformat in order to put an MS-DOS filesystem on it. You may ignore this filesystem, if you don't need it.
Superformat allows one to format 2m formats. Be aware, however, that these 2m formats were specifically designed to hold an MS-DOS filesystem, and that they take advantage of the fact that the MS-DOS filesystem uses redundant sectors on the first track (the FAT, which is represented twice). The second copy of the FAT is not represented on the disk.
High capacity formats are sensitive to the exact rotation speed of the drive and the resulting difference in raw capacity. That's why superformat performs a measurement of the disks raw capacity before proceeding with the formatting. This measurement is rather time consuming, and can be avoided by storing the relative deviation of the drive capacity into the drive definition file file. See section Drive descriptions, for more details on this file. The line to be inserted into the drive definition file is printed by superformat after performing its measurement. However, this line depends on the drive and the controller. Do not copy it to other computers. Remove it before installing another drive or upgrade your floppy controller. Swap the drive numbers if you swap the drives in your computer.
Many options have a long and a short form.
-h .TQ
--help Print the help.
-D drive .TQ
--dosdrive dos-drive Selects DOS drive letter for mformat (for example a: or b:). The colon may be omitted. The default is derived from the minor device number. If the drive letter cannot be guessed, and is not given on the command line, mformat is skipped.
-v verbosity-level .TQ
--verbosity verbosity-level Sets the verbosity level. 1 prints a dot for each formatted track. 2 prints a changing sign for each formatted track (- for formatting the first head, = for formatting the second head, x for verifying the first head, and + for verifying the second head). 3 prints a complete line listing head and track. 6 and 9 print debugging information.
--superverify Verifies the disk by first reading the track, than writing a pattern of
U's, and then reading it again. This is useful as some errors only show up after the disk has once been written. However, this is also slower.
-B .TQ
--dosverify Verifies the disk using the mbadblocks program. mbadblocks marks the bad sectors as bad in the FAT. The advantage of this is that disks which are only partially bad can still be used for MS-DOS filesystems.
-V .TQ
--verify_later Verifies the whole disk at the end of the formatting process instead of at each track. Verifying the disk at each track has the advantage of detecting errors early on.
-f .TQ
--noverify Skips the verification altogether.
--print-drive-deviation Does not format, but prints the drive deviation. If file /etc/driveprm
exists and provides a deviation for the drive, nothing is printed and the disk is not formatted.
Usually, superformat uses sensible default values for these options, which you normally don't need to override. They are intended for expert users. Most of them should only be needed in cases where the hardware or superformat itself has bugs.
-b begin-track .TQ
--begin_track begin-track Describes the track where to begin formatting. This is useful if the previous formatting failed halfway through. The default is 0.
-e end-track .TQ
--end_track end-track Describes where to stop formatting. end_track is the last track to be formatted plus one. This is mainly useful for testing purposes. By default, this is the same as the total number of tracks. When the formatting stops, the final skew is displayed (to be used as absolute skew when you'll continue).
-S sizecode .TQ
--sizecode sizecode Set the sector size to be used. The sector size is 128 * (2 ^ sizecode). Sector sizes below 512 bytes are not supported, thus sizecode must be at least 2. By default 512 is assumed, unless you ask for more sectors than would fit with 512 bytes.
--stretch stretch Set the stretch factor. The stretch factor describes how many physical
tracks to skip to get to the next logical track (2 ^ stretch). On double density 5 1/4 disks, the tracks are further apart from each other.
-G fmt-gap .TQ
--format_gap fmt-gap Set the formatting gap. The formatting gap tells how far the sectors are away from each other. By default, this is chosen so as to evenly distribute the sectors along the track.
-F final-gap .TQ
--final_gap final-gap Set the formatting gap to be used after the last sector.
-i interleave .TQ
--interleave interleave Set the sector interleave factor.
-c chunksize .TQ
--chunksize chunksize Set the size of the chunks. The chunks are small auxiliary sectors used during formatting. They are used to handle heterogeneous sector sizes (i.e. not all sectors have the same size) and negative formatting gaps.
--biggest-last For MSS formats, make sure that the biggest sector is last on the track.
This makes the format more reliable on drives which are out of spec.
--zero-based Formats the disk with sector numbers starting at 0, rather than
1. Certain CP/M boxes or Music synthesizers use this format. Those disks can currently not be read/written to by the standard Linux read/write API; you have to use fdrawcmd to access them. As disk verifying is done by this API, verifying is automatically switched off when formatting zero-based.
In order to maximize the user data transfer rate, the sectors are arranged in such a way that sector 1 of the new track/head comes under the head at the very moment when the drive is ready to read from that track, after having read the previous track. Thus the first sector of the second track is not necessarily near the first sector of the first track. The skew value describes for each track how far sector number 1 is away from the index mark. This skew value changes for each head and track. The amount of this change depends on how fast the disk spins, and on how much time is needed to change the head or the track.
--absolute_skew absolute-skew .IP
Set the absolute skew. This skew value is used for the first formatted track. It is expressed in raw bytes.
--head_skew head-skew .IP
Set the head skew. This is the skew added for passing from head 0 to head 1. It is expressed in raw bytes.
--track_skew track-skew .IP
Set the track skew. This is the skew added for seeking to the next track. It is expressed in raw bytes.
Example: (absolute skew=3, head skew=1, track skew=2)
track 0 head 0: 4,5,6,1,2,3 (skew=3) track 0 head 1: 3,4,5,6,1,2 (skew=4) track 1 head 0: 1,2,3,4,5,6 (skew=0) track 1 head 1: 6,1,2,3,4,5 (skew=1) track 2 head 0: 4,5,6,1,2,3 (skew=3) track 2 head 1: 3,4,5,6,1,2 (skew=4)
N.B. For simplicity's sake, this example expresses skews in units of sectors. In reality, superformat expects the skews to be expressed in raw bytes.
Please see the Media description section in the full fdutils documentation:
- Texinfo documentation (info fdutils)
- HTML documentation in /usr/share/doc/fdutils/Fdutils.html - or DVI documentation in /usr/share/doc/fdutils/Fdutils.dvi.gz
In all the examples of this section, we assume that drive 0 is a 3 1/2 and drive 1 a 5 1/4.
The following example shows how to format a 1440K disk in drive 0:
superformat /dev/fd0 hd
The following example shows how to format a 1200K disk in drive 1:
superformat /dev/fd1 hd
The following example shows how to format a 1440K disk in drive 1:
superformat /dev/fd1 hd sect=18
The following example shows how to format a 720K disk in drive 0:
superformat /dev/fd0 dd
The following example shows how to format a 1743K disk in drive 0 (83 cylinders times 21 sectors):
superformat /dev/fd0 sect=21 cyl=83
The following example shows how to format a 1992K disk in drive 0 (83 cylinders times 2 heads times 12 KB per track)
superformat /dev/fd0 tracksize=12KB cyl=83 mss
The following example shows how to format a 1840K disk in drive 0. It will have 5 2048-byte sectors, one 1024-byte sector, and one 512-byte sector per track:
superformat /dev/fd0 tracksize=23b mss 2m ssize=2KB
All these formats can be autodetected by mtools, using the floppy driver's default settings.
FDC busy, sleeping for a second When another program accesses a disk drive on the same controller as the
one being formatted, superformat has to wait until the other access is finished. If this happens, check whether any other program accesses a drive (or whether a drive is mounted), kill that program (or unmount the drive), and the format should proceed normally.
I/O errors during verification Your drive may be too far out of tolerance, and you may thus need to
supply a margin parameter. Run floppymeter (see section floppymeter) to find out an appropriate value for this parameter, and add the suggested margin parameter to the command line
Opening up new window while superformat is running produces overrun errors. These errors are benign, as the failed operation is automatically retried until it succeeds.
Fdutils' texinfo doc