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MT(1) |
FreeBSD General Commands Manual |
MT(1) |
mt —
magnetic tape manipulating program
mt |
[-f tapename]
command [count] |
mt |
[-f tapename]
command argument |
The mt utility is used to command a magnetic tape drive
for operations other than reading or writing data.
The -f option's
tapename overrides the TAPE
environment variable described below.
The available commands are listed below. Only as many characters
as are required to uniquely identify a command need be specified.
The following commands optionally take a
count, which defaults to 1.
weof
- Write count end-of-file (EOF) marks at the current
position. This returns when the file mark has been written to the
media.
weofi
- Write count end-of-file (EOF) marks at the current
position. This returns as soon as the command has been validated by the
tape drive.
smk
- Write count setmarks at the current position (DDS
drives only).
fsf
- Forward space count files.
fsr
- Forward space count records.
fss
- Forward space count setmarks (DDS drives only).
bsf
- Backward space count files.
bsr
- Backward space count records.
bss
- Backward space count setmarks (DDS drives
only).
erase
- Erase the tape using a long (often very long) method. With a
count of 0, it will erase the tape using a quick
method. Operation is not guaranteed if the tape is not at its beginning.
The tape will be at its beginning upon completion.
The following commands ignore count.
rdhpos
- Read the hardware block position. The block number reported is specific
for that hardware only. With drive data compression especially, this
position may have more to do with the amount of data sent to the drive
than the amount of data written to tape. Some drives do not support
this.
rdspos
- Read the SCSI logical block position. This typically is greater than the
hardware position by the number of end-of-file marks. Some drives do not
support this.
rewind
- Rewind the tape.
offline ,
rewoffl
- Rewind the tape and place the drive off line. Some drives are never off
line.
load
- Load the tape into the drive.
retension
- Re-tension the tape. This winds the tape from the current position to the
end and then to the beginning. This sometimes improves subsequent reading
and writing, particularly for streaming drives. Some drives do not support
this.
ostatus
- Output status information about the drive. For SCSI magnetic tape devices,
the current operating modes of density, blocksize, and whether compression
is enabled is reported. The current state of the driver (what it thinks
that it is doing with the device) is reported. If the driver knows the
relative position from BOT (in terms of filemarks and records), it outputs
that. Note that this information is not definitive (only BOT, End of
Recorded Media, and hardware or SCSI logical block position (if the drive
supports such) are considered definitive tape positions).
Also note that this is the old status command, and will be
eliminated in favor of the new status command (see below) in a future
release.
errstat
- Output (and clear) error status information about this device. For every
normal operation (e.g., a read or a write) and every control operation
(e.g,, a rewind), the driver stores up the last command executed and it is
associated status and any residual counts (if any). This command retrieves
and outputs this information. If possible, this also clears any latched
error information.
geteotmodel
- Output the current EOT filemark model. The model states how many filemarks
will be written at close if a tape was being written.
eod ,
eom
- Wind the tape to the end of the recorded data, typically after an EOF mark
where another file may be written.
rblim
- Report the block limits of the tape drive, including the minimum and
maximum block size, and the block granularity if any.
The following commands may require an
argument.
sethpos
- Set the hardware block position. The argument is a
hardware block number to which to position the tape. Some drives do not
support this.
setspos
- Set the SCSI logical block position. The argument is
a SCSI logical block number to which to position the tape. Some drives do
not support this.
blocksize
- Set the block size for the drive. The argument is
the number of bytes per block, except 0 commands the drive to use
variable-length blocks.
seteotmodel
- Set the EOT filemark model to argument and output
the old and new models. Typically this will be 2 filemarks, but some
devices (typically QIC cartridge drives) can only write 1 filemark. You
may only choose a value of 1 or
2.
status
- Output status information about the drive. For SCSI magnetic tape devices,
the current operating modes of density, blocksize, and whether compression
is enabled is reported. The current state of the driver (what it thinks
that it is doing with the device) is reported.
If the driver knows the relative position from BOT (in terms
of filemarks and records), it outputs that. If the tape drive supports
the long form report of the SCSI READ POSITION command, the Reported
File Number and Reported Record Number will be numbers other than -1,
and there may be Flags reported as well.
The BOP flag means that the logical position of the drive is
at the beginning of the partition.
The EOP flag means that the logical position of the drive is
between Early Warning and End of Partition.
The BPEW flag means that the logical position of the drive is
in a Programmable Early Warning Zone or on the EOP side of Early
Warning.
Note that the Reported Record Number is the tape block or
object number relative to the beginning of the partition. The Calculated
Record Number is the tape block or object number relative to the
previous file mark.
Note that the Calculated File and Record Numbers are not
definitive. The Reported File and Record Numbers are definitive, if they
are numbers other than -1.
-v
- Print additional status information, such as the maximum supported I/O
size.
-x
- Print all available status data to stdout in XML format.
getdensity
- Report density support information for the tape drive and any media that
is loaded. Most drives will report at least basic density information
similar to that reported by
status command. Newer
tape drives that conform to the T-10 SSC and newer tape specifications may
report more detailed information about the types of tapes they support and
the tape currently in the drive.
-x
- Print all available density data to stdout in XML format. Because
density information is currently included in the general status XML
report used for
mt status command, this will
be the same XML output via “mt status
-x ”
param
- Display or set parameters. One of
-l ,
-s , or -x must be
specified to indicate which operation to perform. See
sa(4) for
more detailed information on the parameters.
-l
- List parameters, values and descriptions. By default all parameters
will be displayed. To display a specific parameter, specify the
parameter with
-p .
-p
name
- Specify the parameter name to list (with
-l )
or set (with -s ).
-q
- Enable quiet mode for parameter listing. This will suppress printing
of parameter descriptions.
-s
value
- Specify the parameter value to set. The general type of this argument
(integer, unsigned integer, string) is determined by the type of the
variable indicated by the
sa(4)
driver. More detailed argument checking is done by the
sa(4)
driver.
-x
- Print out all parameter information in XML format.
protect
- Display or set drive protection parameters. This is used to control
checking and reporting a per-block checksum for tape drives that support
it. Some drives may only support some parameters.
-b
0|1
- Set the Recover Buffered Data Protected bit. If set, this indicates
that checksums are transferred with the logical blocks transferred by
the RECOVERED BUFFERED DATA SCSI command.
-d
- Disable all protection information settings.
-e
- Enable all protection information settings. The default protection
method used is Reed-Solomon CRC (protection method 1), as specified in
ECMA-319. The default protection information length used with
Reed-Solomon CRC is 4 bytes. To enable all settings except one more
setting, specify the
-e argument and then
explicitly disable settings that you do not wish to enable. For
example, specifying -e
-w 0 will enable all
settings except for LBP_W.
-l
- List available protection parmeters and their current settings.
-L
len
- Set the length of the protection information in bytes. For
Reed-Solomon CRC, the protection information length should be 4
bytes.
-m
num
- Specify the numeric value for the protection method. The numeric value
for Reed-Solomon CRC is 1.
-r
0|1
- Set the LBP_R parameter. When set, this indicates that each block read
from the tape drive will have a checksum at the end.
-v
- Enable verbose mode for parameter listing. This will include
descriptions of each parameter.
-w
0|1
- Set the LBP_W parameter. When set, this indicates that each block
written to the tape drive will have a checksum at the end. The drive
will verify the checksum before writing the block to tape.
locate
- Set the tape drive's logical position. One of
-b ,
-e , -f , or
-s must be specified to indicate the type of
position. If the partition number is specified, the drive will first
relocate to the given partition (if it exists) and then to the position
indicated within that partition. If the partition number is not specified,
the drive will relocate to the given position within the current
partition.
-b
block_addr
- Relocate to the given tape block or logical object identifier. Note
that the block number is the Reported Record Number that is relative
to the beginning of the partition (or beginning of tape).
-e
- Relocate to the end of data.
-f
fileno
- Relocate to the given file number.
-p
partition
- Specify the partition to change to.
-s
setmark
- Relocate to the given set mark.
comp
- Set the drive's compression mode. The non-numeric values of
argument are:
- off
- Turn compression off.
- on
- Turn compression on.
- none
- Same as off.
- enable
- Same as on.
- IDRC
- IBM Improved Data Recording Capability compression (0x10).
- DCLZ
- DCLZ compression algorithm (0x20).
In addition to the above recognized compression keywords, the
user can supply a numeric compression algorithm for the drive to use. In
most cases, simply turning the compression ‘on’ will have
the desired effect of enabling the default compression algorithm
supported by the drive. If this is not the case (see the
status display to see which compression
algorithm is currently in use), the user can manually specify one of the
supported compression keywords (above), or supply a numeric compression
value from the drive's specifications.
Note that for some older tape drives (for example the Exabyte
8200 and 8500 series drives) it is necessary to switch to a different
density to tell the drive to record data in its compressed format. If
the user attempts to turn compression on while the uncompressed density
is selected, the drive will return an error. This is generally not an
issue for modern tape drives.
density
- Set the density for the drive. For the density codes, see below. The
density value could be given either numerically, or as a string,
corresponding to the “Reference” field. If the string is
abbreviated, it will be resolved in the order shown in the table, and the
first matching entry will be used. If the given string and the resulting
canonical density name do not match exactly, an informational message is
output about what the given string has been taken for.
The initial version of the density table below was taken from the
‘Historical sequential access density codes’ table (A-1) in
Revision 11 of the SCSI-3 Stream Device Commands (SSC) working draft, dated
November 11, 1997. Subsequent additions have come from a number of
sources.
The density codes are:
0x0 default for device
0xE reserved for ECMA
Value Width Tracks Density Code Type Reference Note
mm in bpmm bpi
0x01 12.7 (0.5) 9 32 (800) NRZI R X3.22-1983 2
0x02 12.7 (0.5) 9 63 (1,600) PE R X3.39-1986 2
0x03 12.7 (0.5) 9 246 (6,250) GCR R X3.54-1986 2
0x05 6.3 (0.25) 4/9 315 (8,000) GCR C X3.136-1986 1,3
0x06 12.7 (0.5) 9 126 (3,200) PE R X3.157-1987 2
0x07 6.3 (0.25) 4 252 (6,400) IMFM C X3.116-1986 1
0x08 3.81 (0.15) 4 315 (8,000) GCR CS X3.158-1987 1
0x09 12.7 (0.5) 18 1,491 (37,871) GCR C X3.180 2
0x0A 12.7 (0.5) 22 262 (6,667) MFM C X3B5/86-199 1
0x0B 6.3 (0.25) 4 63 (1,600) PE C X3.56-1986 1
0x0C 12.7 (0.5) 24 500 (12,690) GCR C HI-TC1 1,6
0x0D 12.7 (0.5) 24 999 (25,380) GCR C HI-TC2 1,6
0x0F 6.3 (0.25) 15 394 (10,000) GCR C QIC-120 1,6
0x10 6.3 (0.25) 18 394 (10,000) GCR C QIC-150 1,6
0x11 6.3 (0.25) 26 630 (16,000) GCR C QIC-320 1,6
0x12 6.3 (0.25) 30 2,034 (51,667) RLL C QIC-1350 1,6
0x13 3.81 (0.15) 1 2,400 (61,000) DDS CS X3B5/88-185A 5
0x14 8.0 (0.315) 1 1,703 (43,245) RLL CS X3.202-1991 5,11
0x15 8.0 (0.315) 1 1,789 (45,434) RLL CS ECMA TC17 5,12
0x16 12.7 (0.5) 48 394 (10,000) MFM C X3.193-1990 1
0x17 12.7 (0.5) 48 1,673 (42,500) MFM C X3B5/91-174 1
0x18 12.7 (0.5) 112 1,673 (42,500) MFM C X3B5/92-50 1
0x19 12.7 (0.5) 128 2,460 (62,500) RLL C DLTapeIII 6,7
0x1A 12.7 (0.5) 128 3,214 (81,633) RLL C DLTapeIV(20) 6,7
0x1B 12.7 (0.5) 208 3,383 (85,937) RLL C DLTapeIV(35) 6,7
0x1C 6.3 (0.25) 34 1,654 (42,000) MFM C QIC-385M 1,6
0x1D 6.3 (0.25) 32 1,512 (38,400) GCR C QIC-410M 1,6
0x1E 6.3 (0.25) 30 1,385 (36,000) GCR C QIC-1000C 1,6
0x1F 6.3 (0.25) 30 2,666 (67,733) RLL C QIC-2100C 1,6
0x20 6.3 (0.25) 144 2,666 (67,733) RLL C QIC-6GB(M) 1,6
0x21 6.3 (0.25) 144 2,666 (67,733) RLL C QIC-20GB(C) 1,6
0x22 6.3 (0.25) 42 1,600 (40,640) GCR C QIC-2GB(C) ?
0x23 6.3 (0.25) 38 2,666 (67,733) RLL C QIC-875M ?
0x24 3.81 (0.15) 1 2,400 (61,000) CS DDS-2 5
0x25 3.81 (0.15) 1 3,816 (97,000) CS DDS-3 5
0x26 3.81 (0.15) 1 3,816 (97,000) CS DDS-4 5
0x27 8.0 (0.315) 1 3,056 (77,611) RLL CS Mammoth 5
0x28 12.7 (0.5) 36 1,491 (37,871) GCR C X3.224 1
0x29 12.7 (0.5)
0x2A
0x2B 12.7 (0.5) 3 ? ? ? C X3.267 5
0x40 12.7 (0.5) 384 4,800 (123,952) C LTO-1
0x41 12.7 (0.5) 208 3,868 (98,250) RLL C DLTapeIV(40) 6,7
0x42 12.7 (0.5) 512 7,398 (187,909) C LTO-2
0x44 12.7 (0.5) 704 9,638 (244,805) C LTO-3
0x46 12.7 (0.5) 896 12,725 (323,215) C LTO-4
0x47 3.81 (0.25) ? 6,417 (163,000) CS DAT-72
0x48 12.7 (0.5) 448 5,236 (133,000) PRML C SDLTapeI(110) 6,8,13
0x49 12.7 (0.5) 448 7,598 (193,000) PRML C SDLTapeI(160) 6,8
0x4A 12.7 (0.5) 768 ? PRML C T10000A 10
0x4B 12.7 (0.5) 1152 ? PRML C T10000B 10
0x4C 12.7 (0.5) 3584 ? PRML C T10000C 10
0x4D 12.7 (0.5) 4608 ? PRML C T10000D 10
0x51 12.7 (0.5) 512 11,800 (299,720) C 3592A1 (unencrypted)
0x52 12.7 (0.5) 896 11,800 (299,720) C 3592A2 (unencrypted)
0x53 12.7 (0.5) 1152 13,452 (341,681) C 3592A3 (unencrypted)
0x54 12.7 (0.5) 2560 19,686 (500,024) C 3592A4 (unencrypted)
0x55 12.7 (0.5) 5120 20,670 (525,018) C 3592A5 (unencrypted)
0x56 12.7 (0.5) 7680 20,670 (525,018) C 3592B5 (unencrypted)
0x57 12.7 (0.5) 8704 21,850 (554,990) C 3592A6 (unencrypted)
0x58 12.7 (0.5) 1280 15,142 (384,607) C LTO-5
0x5A 12.7 (0.5) 2176 15,142 (384,607) C LTO-6
0x5C 12.7 (0.5) 3584 19,107 (485,318) C LTO-7
0x5D 12.7 (0.5) 5376 19,107 (485,318) C LTO-M8 14
0x5E 12.7 (0.5) 6656 20,669 (524,993) C LTO-8
0x60 12.7 (0.5) 8960 23,031 (584,987) C LTO-9
0x71 12.7 (0.5) 512 11,800 (299,720) C 3592A1 (encrypted)
0x72 12.7 (0.5) 896 11,800 (299,720) C 3592A2 (encrypted)
0x73 12.7 (0.5) 1152 13,452 (341,681) C 3592A3 (encrypted)
0x74 12.7 (0.5) 2560 19,686 (500,024) C 3592A4 (encrypted)
0x75 12.7 (0.5) 5120 20,670 (525,018) C 3592A5 (encrypted)
0x76 12.7 (0.5) 7680 20,670 (525,018) C 3592B5 (encrypted)
0x77 12.7 (0.5) 8704 21,850 (554,990) C 3592A6 (encrypted)
0x8c 8.0 (0.315) 1 1,789 (45,434) RLL CS EXB-8500c 5,9
0x90 8.0 (0.315) 1 1,703 (43,245) RLL CS EXB-8200c 5,9
Code Description Type Description
---- -------------------------------------- ---- -----------
NRZI Non return to zero, change on ones R Reel-to-reel
GCR Group code recording C Cartridge
PE Phase encoded CS Cassette
IMFM Inverted modified frequency modulation
MFM Modified frequency modulation
DDS DAT data storage
RLL Run length limited
PRML Partial Response Maximum Likelihood
NOTES
1. Serial recorded.
2. Parallel recorded.
3. Old format known as QIC-11.
5. Helical scan.
6. This is not an American National Standard. The reference is based
on an industry standard definition of the media format.
7. DLT recording: serially recorded track pairs (DLTapeIII and
DLTapeIV(20)), or track quads (DLTapeIV(35) and DLTapeIV(40)).
8. Super DLT (SDLT) recording: 56 serially recorded logical tracks
with 8 physical tracks each.
9. Vendor-specific Exabyte density code for compressed format.
10. bpi/bpmm values for the Oracle/StorageTek T10000 tape drives are
not listed in the manual. Someone with access to a drive can
supply the necessary values by running 'mt getdensity'.
11. This is Exabyte 8200 uncompressed format. The compressed format
density code is 0x90.
12. This is Exabyte 8500 uncompressed format. The compressed format
density code is 0x8c.
13. This density code (0x48) was also used for DAT-160.
14. Officially known as LTO-8 Type M, abbreviated M8. This is a pristine
LTO-7 cartridge initialized with a higher density format by an LTO-8
drive. It cannot be read by an LTO-7 drive. Uncompressed capacity
is 9TB, compared to 6TB for LTO-7 and 12TB for LTO-8.
NOTE ON QIC STREAMERS
The following is a table of Data Cartridge types as used in the 1/4 inch
tape drives such as the Archive Viper 150, Wangtek 5525ES, and Tandberg
TDC4220 tape drives:
Value Reference Format Cartridge Type Capacity Tracks Length
----- --------- ------ -------------- -------- ------ ------
0x05 QIC-11 DC300 15MB 4 300ft
0x05 QIC-11 DC300XL/P 20MB 4 450ft
0x05 QIC-11 DC600 27MB 4 600ft
0x05 X3.136-1986 QIC-24 DC615A 15MB 9 150ft
0x05 X3.136-1986 QIC-24 DC300XL/P 45MB 9 450ft
0x05 X3.136-1986 QIC-24 DC600A 60MB 9 600ft
0x0F QIC-120 QIC-120 DC600A/DC6150 120MB 15 620ft
0x10 QIC-150 QIC-150 DC600XTD/DC6150 150MB 18 620ft
0x10 QIC-150 QIC-150 DC6250 250MB 18 1,020ft
0x11 QIC-320 QIC-525 DC6320 320MB 26 620ft
0x11 QIC-320 QIC-525 DC6525 525MB 26 1,020ft
0x1E QIC-1000C QIC-1000 DC9100/DL9135 1.0GB 30 760ft
0x1E QIC-1000C QIC-1000 DC9150 1.2GB 30 950ft
0x22 QIC-2GB(C) QIC-2GB DC9200 2.0GB 42 950ft
0x22 QIC-2GB(C) QIC-2GB DC9250 2.5GB 42 1,200ft
Notes:
QIC-24, QIC-120, QIC-150 use fixed blocksize of 512 bytes,
QIC-525, QIC-1000 and QIC-2GB can use blocksize of 1,024 bytes. DDS (DAT)
drives generally use variable blocks.
QIC-02 and QIC-36 are interface standards for tape drives. The
QIC-02 and QIC-36 streamers such as the Wangtek 5250EQ are otherwise
identical to their SCSI versions (i.e.: Wangtek 5250ES).
It seems that the 150MB and larger streamers cannot write QIC-24 9
track formats, only read them.
DC600A cartridges marked "10,000ftpi" can only be used
as QIC-11, QIC-24, and QIC-120 format. DC600A cartridges marked 12,500ftpi
can be used as both QIC-120 and QIC-150 format.
Some manufacturers do not use "DC" on their cartridges.
Verbatim uses DL, Maxell uses MC, Sony uses QD, Quill uses DQ.
3M/Imation & Fuji use DC. Thus a DL6250, MC-6250, QD6250,
DQ6250 are all identical media to a DC6250.
QIC tape media is not "connected" to the take up reels
and will de-spool if the tape drive has dust covering the light sensor that
looks for the end of tape holes in the media.
TAPE
- This is the pathname of the tape drive. The default (if the variable is
unset, but not if it is null) is /dev/nsa0. It may
be overridden with the
-f option.
- /dev/*sa[0-9]*
- SCSI magnetic tape interface
The exit status will be 0 when the drive operations were successful, 2 when the
drive operations were unsuccessful, and 1 for other problems like an
unrecognized command or a missing drive device.
Some undocumented commands support old software.
The mt command appeared in
4.3BSD.
Extensions regarding the
st(4)
driver appeared in 386BSD-0.1 as a separate
st command, and have been merged into the
mt command in FreeBSD
2.1.
The former eof command that used to be a
synonym for weof has been abandoned in
FreeBSD 2.1 since it was often confused with
eom , which is fairly dangerous.
The utility cannot be interrupted or killed during a long erase (which can be
longer than an hour), and it is easy to forget that the default erase is long.
Hardware block numbers do not always correspond to blocks on the
tape when the drive uses internal compression.
Erasure is not guaranteed if the tape is not at its beginning.
Tape-related documentation is poor, here and elsewhere.
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