This manual page describes the configuration files for mtools.
They are called `/etc/mtools.conf' and
`~/.mtoolsrc'. If the environmental variable
MTOOLSRC is set, its contents is used as the
filename for a third configuration file. These configuration files describe
the following items:
- *
Global configuration flags and variables
- *
Per drive flags and variables
Location of the configuration files
`/etc/mtools.conf' is the system-wide
configuration file, and `~/.mtoolsrc' is the user's
private configuration file.
On some systems, the system-wide configuration file is called
`/etc/default/mtools.conf' instead.
General configuration file syntax
The configuration files is made up of sections. Each section
starts with a keyword identifying the section followed by a colon. Then
follow variable assignments and flags. Variable assignments take the
following form:
name=value
Flags are lone keywords without an equal sign and value following
them. A section either ends at the end of the file or where the next section
begins.
Lines starting with a hash (#) are
comments. Newline characters are equivalent to whitespace (except where
ending a comment). The configuration file is case insensitive, except for
item enclosed in quotes (such as filenames).
For most platforms, mtools contains reasonable compiled-in
defaults for physical floppy drives. Thus, you usually don't need to bother
with the configuration file, if all you want to do with mtools is to access
your floppy drives. On the other hand, the configuration file is needed if
you also want to use mtools to access your hard disk partitions and DOSEMU
image files.
Global flags may be set to 1 or to 0.
The following global flags are recognized:
- MTOOLS_SKIP_CHECK
- If this is set to 1, mtools skips most of its sanity checks. This is
needed to read some Atari disks which have been made with the earlier
ROMs, and which would not be recognized otherwise.
- MTOOLS_FAT_COMPATIBILITY
- If this is set to 1, mtools skips the fat size checks. Some disks have a
bigger FAT than they really need to. These are rejected if this option is
not set.
- MTOOLS_LOWER_CASE
- If this is set to 1, mtools displays all-upper-case short filenames as
lowercase. This has been done to allow a behavior which is consistent with
older versions of mtools which didn't know about the case bits.
- MTOOLS_NO_VFAT
- If this is set to 1, mtools won't generate VFAT entries for filenames
which are mixed-case, but otherwise legal dos filenames. This is useful
when working with DOS versions which can't grok VFAT long names, such as
FreeDOS.
- MTOOLS_DOTTED_DIR
- In a wide directory, prints the short name with a dot instead of spaces
separating the basename and the extension.
- MTOOLS_NAME_NUMERIC_TAIL
- If this is set to one (default), generate numeric tails for all long names
(~1). If set to zero, only generate numeric tails if otherwise a clash
would have happened.
- MTOOLS_TWENTY_FOUR_HOUR_CLOCK
- If 1, uses the European notation for times (twenty four hour clock), else
uses the UK/US notation (am/pm)
- MTOOLS_LOCK_TIMEOUT
- How long, in seconds, to wait for a locked device to become free. Defaults
to 30.
Example: Inserting the following line into your configuration file
instructs mtools to skip the sanity checks:
MTOOLS_SKIP_CHECK=1
Global variables may also be set via the environment:
export MTOOLS_SKIP_CHECK=1
Global string variables may be set to any value:
- MTOOLS_DATE_STRING
- The format used for printing dates of files. By default, is
dd-mm-yyyy.
General information
Per drive flags and values may be described in a drive section. A
drive section starts with drive
"driveletter" :
Then follow variable-value pairs and flags.
This is a sample drive description:
drive a:
file="/dev/fd0" use_xdf=1
Location information
For each drive, you need to describe where its data is physically
stored (image file, physical device, partition, offset).
- file
- The name of the file or device holding the disk image. This is mandatory.
The file name should be enclosed in quotes.
- partition
- Tells mtools to treat the drive as a partitioned device, and to use the
given partition. Only primary partitions are accessible using this method,
and they are numbered from 1 to 4. For logical partitions, use the more
general offset variable. The
partition variable is intended for removable media
such as Syquest disks, ZIP drives, and magneto-optical disks. Although
traditional DOS sees Syquest disks and magneto-optical disks as
`giant floppy disks' which are unpartitioned, OS/2
and Windows NT treat them like hard disks, i.e. partitioned devices. The
partition flag is also useful DOSEMU hdimages. It
is not recommended for hard disks for which direct access to partitions is
available through mounting.
- offset
- Describes where in the file the MS-DOS file system starts. This is useful
for logical partitions in DOSEMU hdimages, and for ATARI ram disks. By
default, this is zero, meaning that the file system starts right at the
beginning of the device or file.
Geometry information describes the physical characteristics about
the disk. Its has three purposes:
- formatting
- The geometry information is written into the boot sector of the newly made
disk. However, you may also describe the geometry information on the
command line. See section mformat, for details.
- filtering
- On some Unixes there are device nodes which only support one physical
geometry. For instance, you might need a different node to access a disk
as high density or as low density. The geometry is compared to the actual
geometry stored on the boot sector to make sure that this device node is
able to correctly read the disk. If the geometry doesn't match, this drive
entry fails, and the next drive entry bearing the same drive letter is
tried. See section multiple descriptions, for more details on supplying
several descriptions for one drive letter.
- If no geometry information is supplied in the configuration file, all
disks are accepted. On Linux (and on SPARC) there exist device nodes with
configurable geometry (`/dev/fd0',
`/dev/fd1' etc), and thus filtering is not needed
(and ignored) for disk drives. (Mtools still does do filtering on plain
files (disk images) in Linux: this is mainly intended for test purposes,
as I don't have access to a Unix which would actually need
filtering).
- If you do not need filtering, but want still a default geometry for
mformatting, you may switch off filtering using the
mformat_only flag.
- If you want filtering, you should supply the
filter flag. If you supply a geometry, you must
supply one of both flags.
- initial geometry
- On devices that support it (usually floppy devices), the geometry
information is also used to set the initial geometry. This initial
geometry is applied while reading the boot sector, which contains the real
geometry. If no geometry information is supplied in the configuration
file, or if the mformat_only flag is supplied, no
initial configuration is done.
- On Linux, initial geometry is not really needed, as the configurable
devices are able to auto-detect the disk type accurately enough (for most
common formats) to read the boot sector.
Wrong geometry information may lead to very bizarre errors. That's
why I strongly recommend that you add the
mformat_only flag to your drive description, unless
you really need filtering or initial geometry.
The following geometry related variables are available:
- cylinders
-
- tracks
- The number of cylinders. (cylinders is the
preferred form, tracks is considered
obsolete)
- heads
- The number of heads (sides).
- sectors
- The number of sectors per track.
Example: the following drive section describes a 1.44M drive:
drive a:
file="/dev/fd0H1440"
fat_bits=12
cylinders=80 heads=2 sectors=18
mformat_only
The following shorthand geometry descriptions are available:
- 1.44m
- high density 3 1/2 disk. Equivalent to: fat_bits=12
cylinders=80 heads=2 sectors=18
- 1.2m
- high density 5 1/4 disk. Equivalent to: fat_bits=12
cylinders=80 heads=2 sectors=15
- 720k
- double density 3 1/2 disk. Equivalent to: fat_bits=12
cylinders=80 heads=2 sectors=9
- 360k
- double density 5 1/4 disk. Equivalent to: fat_bits=12
cylinders=40 heads=2 sectors=9
The shorthand format descriptions may be amended. For example,
360k sectors=8 describes a 320k disk and is
equivalent to: fat_bits=12 cylinders=40 heads=2
sectors=8
Moreover, the following flags are available:
- sync
- All i/o operations are done synchronously
- nodelay
- The device or file is opened with the O_NDELAY flag. This is needed on
some non-Linux architectures.
- exclusive
- The device or file is opened with the O_EXCL flag. On Linux, this ensures
exclusive access to the floppy drive. On most other architectures, and for
plain files it has no effect at all.
General Purpose Drive Variables
The following general purpose drive variables are available.
Depending to their type, these variables can be set to a string (precmd) or
an integer (all others)
- fat_bits
- The number of FAT bits. This may be 12 or 16. This is very rarely needed,
as it can almost always be deduced from information in the boot sector. On
the contrary, describing the number of fat bits may actually be harmful if
you get it wrong. You should only use it if mtools gets the auto-detected
number of fat bits wrong, or if you want to mformat a disk with a weird
number of fat bits.
- codepage
- Describes the DOS code page used for short filenames. This is a number
between 1 and 999. By default, code page 850 is used. The reason for this
is because this code page contains most of the characters that are also
available in ISO-Latin-1. You may also specify a global code page for all
drives by using the global default_codepage
parameter (outside of any drive description). This parameters exists
starting at version 4.0.0
- data_map
- Remaps data from image file. This is useful for image files which might
need additional zero-filled sectors to be inserted. Such is the case for
instance for IBM 3174 floppy images. These images represent floppy disks
with fewer sectors on their first cylinder. These missing sectors are not
stored in the image, but are still counted in the filesystem layout. The
data_map allows to fake these missing sectors for the upper layers of
mtools. A data_map is a comma-separated sequence of source type and size.
Source type may be zero for zero-filled sectors
created by map, skip for data in raw image to be
ignored (skipped), and nothing for data to be used as is (copied) from the
raw image. Datamap is automatically complemented by an implicit last
element of data to be used as is from current offset to end of file. Each
size is a number followed by a unit: s for a 512
byte sector, K for Kbytes,
M for megabytes, G for
gigabytes, and nothing for single bytes.
- Example:
- data_map=1s,zero31s,28s,skip1s would be a map for
use with IBM 3174 floppy images. First sector (1s,
boot sector) is used as is. Then follow 31 fake zero-filled sectors
(zero31s), then the next 28 sectors from image
(28s) are used as is (they contain FAT and root
directory), then one sector from image is skipped
(skip1s), and finally the rest of image is used as
is (implicit)
- precmd
- On some variants of Solaris, it is necessary to call 'volcheck -v' before
opening a floppy device, in order for the system to notice that there is
indeed a disk in the drive. precmd="volcheck
-v" in the drive clause establishes the desired behavior.
- blocksize
- This parameter represents a default block size to be always used on this
device. All I/O is done with multiples of this block size, independently
of the sector size registered in the file system's boot sector. This is
useful for character devices whose sector size is not 512, such as for
example CD-ROM drives on Solaris.
Only the file variable is mandatory. The
other parameters may be left out. In that case a default value or an
auto-detected value is used.
General Purpose Drive Flags
A flag can either be set to 1 (enabled) or 0 (disabled). If the
value is omitted, it is enabled. For example, scsi
is equivalent to scsi=1
- nolock
- Instruct mtools to not use locking on this drive. This is needed on
systems with buggy locking semantics. However, enabling this makes
operation less safe in cases where several users may access the same drive
at the same time.
- scsi
- When set to 1, this option tells mtools to use raw SCSI I/O instead of the
standard read/write calls to access the device. Currently, this is
supported on HP-UX, Solaris and SunOS. This is needed because on some
architectures, such as SunOS or Solaris, PC media can't be accessed using
the read and write system
calls, because the OS expects them to contain a Sun specific "disk
label".
- As raw SCSI access always uses the whole device, you need to specify the
"partition" flag in addition
- On some architectures, such as Solaris, mtools needs root privileges to be
able to use the scsi option. Thus mtools should be
installed setuid root on Solaris if you want to access Zip/Jaz drives.
Thus, if the scsi flag is given,
privileged is automatically implied, unless
explicitly disabled by privileged=0
- Mtools uses its root privileges to open the device, and to issue the
actual SCSI I/O calls. Moreover, root privileges are only used for drives
described in a system-wide configuration file such as
`/etc/mtools.conf', and not for those described in
`~/.mtoolsrc' or
`$MTOOLSRC'.
- privileged
- When set to 1, this instructs mtools to use its setuid and setgid
privileges for opening the given drive. This option is only valid for
drives described in the system-wide configuration files (such as
`/etc/mtools.conf', not
`~/.mtoolsrc' or
`$MTOOLSRC'). Obviously, this option is also a no
op if mtools is not installed setuid or setgid. This option is implied by
'scsi=1', but again only for drives defined in system-wide configuration
files. Privileged may also be set explicitly to 0, in order to tell mtools
not to use its privileges for a given drive even if
scsi=1 is set.
- Mtools only needs to be installed setuid if you use the
privileged or scsi drive
variables. If you do not use these options, mtools works perfectly well
even when not installed setuid root.
- vold
- Instructs mtools to interpret the device name as a vold identifier rather
than as a filename. The vold identifier is translated into a real filename
using the media_findname() and
media_oldaliases() functions of the
volmgt library. This flag is only available if you
configured mtools with the --enable-new-vold
option before compilation.
- swap
- Consider the media as a word-swapped Atari disk.
- use_xdf
- If this is set to a non-zero value, mtools also tries to access this disk
as an XDF disk. XDF is a high capacity format used by OS/2. This is off by
default. See section XDF, for more details.
- mformat_only
- Tells mtools to use the geometry for this drive only for mformatting and
not for filtering.
- filter
- Tells mtools to use the geometry for this drive both for mformatting and
filtering.
- remote
- Tells mtools to connect to floppyd (see section floppyd).
It is possible to supply multiple descriptions for a drive. In
that case, the descriptions are tried in order until one is found that fits.
Descriptions may fail for several reasons:
- 1.
- because the geometry is not appropriate,
- 2.
- because there is no disk in the drive,
- 3.
- or because of other problems.
Multiple definitions are useful when using physical devices which
are only able to support one single disk geometry. Example:
drive a: file="/dev/fd0H1440" 1.44m
drive a: file="/dev/fd0H720" 720k
This instructs mtools to use /dev/fd0H1440 for 1.44m (high
density) disks and /dev/fd0H720 for 720k (double density) disks. On Linux,
this feature is not really needed, as the /dev/fd0 device is able to handle
any geometry.
You may also use multiple drive descriptions to access both of
your physical drives through one drive letter:
drive z: file="/dev/fd0"
drive z: file="/dev/fd1"
With this description, mdir z: accesses
your first physical drive if it contains a disk. If the first drive doesn't
contain a disk, mtools checks the second drive.
When using multiple configuration files, drive descriptions in the
files parsed last override descriptions for the same drive in earlier files.
In order to avoid this, use the drive+ or
+drive keywords instead of
drive. The first adds a description to the end of
the list (i.e. it will be tried last), and the first adds it to the start of
the list.
Location of configuration files and parsing order
The configuration files are parsed in the following order:
- 1.
- compiled-in defaults
- 2.
- `/etc/mtools.conf'
- 3.
- `~/.mtoolsrc'.
- 4.
- `$MTOOLSRC' (file pointed by the
MTOOLSRC environmental variable)
Options described in the later files override those described in
the earlier files. Drives defined in earlier files persist if they are not
overridden in the later files. For instance, drives A and B may be defined
in `/etc/mtools.conf' and drives C and D may be
defined in `~/.mtoolsrc' However, if
`~/.mtoolsrc' also defines drive A, this new
description would override the description of drive A in
`/etc/mtools.conf' instead of adding to it. If you
want to add a new description to a drive already described in an earlier
file, you need to use either the +drive or
drive+ keyword.
The syntax described herein is new for version
mtools-3.0. The old line-oriented syntax is still
supported. Each line beginning with a single letter is considered to be a
drive description using the old syntax. Old style and new style drive
sections may be mixed within the same configuration file, in order to make
upgrading easier. Support for the old syntax will be phased out eventually,
and in order to discourage its use, I purposefully omit its description
here.