sgp_dd - copies data to and from files and devices. Specialized for devices that understand the SCSI command set.


sgp_dd [bs=BS] [count=COUNT] [ibs=BS] [if=IFILE] [iflag=FLAGS] [obs=BS] [of=OFILE] [oflag=FLAGS] [seek=SEEK] [skip=SKIP] [--help] [--version]

[bpt=BPT] [coe=0|1] [cdbsz=6|10|12|16] [deb=VERB] [dio=0|1] [sync=0|1] [thr=THR] [time=0|1] [verbose=VERB]


Copy data to and from any files. Specialised for "files" that are Linux SCSI generic (sg) and raw devices. Similar syntax and semantics to dd(1) but does not perform any conversions. Uses POSIX threads to increase the amount of parallelism. This improves speed in some cases.

The first group in the synopsis above are "standard" Unix dd(1) operands. The second group are extra options added by this utility. Both groups are defined below.


 each IO transaction will be made using BPT blocks (or less if near the end of the copy). Default is 128 for block sizes less that 2048 bytes, otherwise the default is 32. So for bs=512 the reads and writes will each convey 64 KiB of data by default (less if near the end of the transfer or memory restrictions). When cd/dvd drives are accessed, the block size is typically 2048 bytes and bpt defaults to 32 which again implies 64 KiB transfers.
bs=BS where BS must be the block size of the physical device. Note that this differs from dd(1) which permits ’bs’ to be an integral multiple of the actual device block size. Default is 512 which is usually correct for disks but incorrect for cdroms (which normally have 2048 byte blocks).
cdbsz=6 | 10 | 12 | 16
 size of SCSI READ and/or WRITE commands issued on sg device names. Default is 10 byte SCSI command blocks (unless calculations indicate that a 4 byte block number may be exceeded, in which case it defaults to 16 byte SCSI commands).
coe=0 | 1
 set to 1 for continue on error. Only applies to errors on sg devices. Thus errors on other files will stop sgp_dd. Default is 0 which implies stop on any error. See the ’coe’ flag for more information.
 copy COUNT blocks from IFILE to OFILE. Default is the minimum (of IFILE and OFILE) number of blocks that sg devices report from SCSI READ CAPACITY commands or that block devices (or their partitions) report. Normal files are not probed for their size. If skip=SKIP or skip=SEEK are given and the count is deduced (i.e. not explicitly given) then that count is scaled back so that the copy will not overrun the device. If the file name is a block device partition and COUNT is not given then the size of the partition rather than the size of the whole device is used. If COUNT is not given and cannot be deduced then an error message is issued and no copy takes place.
 outputs debug information. If VERB is 0 (default) then there is minimal debug information and as VERB increases so does the amount of debug (max debug output when VERB is 9).
dio=0 | 1
 default is 0 which selects indirect IO. Value of 1 attempts direct IO which, if not available, falls back to indirect IO and notes this at completion. If direct IO is selected and /proc/scsi/sg/allow_dio has the value of 0 then a warning is issued (and indirect IO is performed) For finer grain control use ’iflag=dio’ or ’oflag=dio’.
ibs=BS if given must be the same as BS given to ’bs=’ option.
 read from IFILE instead of stdin. If IFILE is ’-’ then stdin is read. Starts reading at the beginning of IFILE unless SKIP is given.
 where FLAGS is a comma separated list of one or more flags outlined below. These flags are associated with IFILE and are ignored when IFILE is stdin.
obs=BS if given must be the same as BS given to ’bs=’ option.
 write to OFILE instead of stdout. If OFILE is ’-’ then writes to stdout. If OFILE is /dev/null then no actual writes are performed. If OFILE is ’.’ (period) then it is treated the same way as /dev/null (this is a shorthand notation). If OFILE exists then it is _not_ truncated; it is overwritten from the start of OFILE unless ’oflag=append’ or SEEK is given.
 where FLAGS is a comma separated list of one or more flags outlined below. These flags are associated with OFILE and are ignored when OFILE is /dev/null, ’.’ (period), or stdout.
 start writing SEEK bs-sized blocks from the start of OFILE. Default is block 0 (i.e. start of file).
 start reading SKIP bs-sized blocks from the start of IFILE. Default is block 0 (i.e. start of file).
sync=0 | 1
 when 1, does SYNCHRONIZE CACHE command on OFILE at the end of the transfer. Only active when OFILE is a sg device file name.
 where THR is the number or worker threads (default 4) that attempt to copy in parallel. Minimum is 1 and maximum is 16.
time=0 | 1
 when 1, the transfer is timed and throughput calculation is performed, outputting the results (to stderr) at completion. When 0 (default) no timing is performed.
 increase verbosity. Same as deb=VERB. Added for compatibility with sg_dd and sgm_dd.
--help outputs usage message and exits.
 outputs version number information and exits.


Here is a list of flags and their meanings:
append causes the O_APPEND flag to be added to the open of OFILE. For normal files this will lead to data appended to the end of any existing data. Cannot be used together with the seek=SEEK option as they conflict. The default action of this utility is to overwrite any existing data from the beginning of the file or, if SEEK is given, starting at block SEEK. Note that attempting to ’append’ to a device file (e.g. a disk) will usually be ignored or may cause an error to be reported.
coe continue on error. When given with ’iflag=’, an error that is detected in a single SCSI command (typically ’bpt’ blocks) is noted (by an error message sent to stderr), then zeros are substituted into the buffer for the corresponding write operation and the copy continues. Note that the sg_dd utility is more sophisticated in such error situations when ’iflag=coe’. When given with ’oflag=’, any error reported by a SCSI WRITE command is reported to stderr and the copy continues (as if nothing went wrong).
dio request the sg device node associated with this flag does direct IO. If direct IO is not available, falls back to indirect IO and notes this at completion. If direct IO is selected and /proc/scsi/sg/allow_dio has the value of 0 then a warning is issued (and indirect IO is performed).
direct causes the O_DIRECT flag to be added to the open of IFILE and/or OFILE. This flag requires some memory alignment on IO. Hence user memory buffers are aligned to the page size. Has no effect on sg, normal or raw files.
dpo set the DPO bit (disable page out) in SCSI READ and WRITE commands. Not supported for 6 byte cdb variants of READ and WRITE. Indicates that data is unlikely to be required to stay in device (e.g. disk) cache. May speed media copy and/or cause a media copy to have less impact on other device users.
dsync causes the O_SYNC flag to be added to the open of IFILE and/or OFILE. The ’d’ is prepended to lower confusion with the ’sync=0|1’ option which has another action (i.e. a synchronisation to media at the end of the transfer).
excl causes the O_EXCL flag to be added to the open of IFILE and/or OFILE.
fua causes the FUA (force unit access) bit to be set in SCSI READ and/or WRITE commands. This only has effect with sg devices. The 6 byte variants of the SCSI READ and WRITE commands do not support the FUA bit. Only active for sg device file names.
null has no affect, just a placeholder.


Here are some retired options that are still present:
coe=0 | 1
 continue on error is 0 (off) by default. When it is 1, it is equivalent to ’iflag=coe oflag=coe’ described in the FLAGS section above. Similar to ’conv=noerror,sync’ in dd(1) utility. Default is 0 which implies stop on error. More advanced coe=1 processing on reads is performed by the sg_dd utility.
fua=0 | 1 | 2 | 3
 force unit access bit. When 3, fua is set on both IFILE and OFILE; when 2, fua is set on IFILE;, when 1, fua is set on OFILE; when 0 (default), fua is cleared on both. See the ’fua’ flag.


A raw device must be bound to a block device prior to using sgp_dd. See raw(8) for more information about binding raw devices. To be safe, the sg device mapping to SCSI block devices should be checked with ’cat /proc/scsi/scsi’ before use.

Raw device partition information can often be found with fdisk(8) [the "-ul" argument is useful in this respect].

COUNT, SKIP, SEEK, BPT and BS may include one of these multiplicative suffixes: c C *1; w W *2; b B *512; k K KiB *1,024; KB *1,000; m M MiB *1,048,576; MB *1,000,000 . This pattern continues for "G", "T" and "P". The latter two suffixes can only be used for COUNT, SKIP and SEEK. Also a suffix of the form "x<n>" multiplies the leading number by <n>. These multiplicative suffixes are compatible with GNU’s dd command (since 2002) which claims compliance with SI and with IEC 60027-2.

Alternatively numerical values can be given in hexadecimal preceded by either "0x" or "0X". When hex numbers are given, multipliers cannot be used.

The COUNT, SKIP and SEEK arguments can take 64 bit values (i.e. very big numbers). Other values are limited to what can fit in a signed 32 bit number.

Data usually gets to the user space in a 2 stage process: first the SCSI adapter DMAs into kernel buffers and then the sg driver copies this data into user memory (write operations reverse this sequence). This is called "indirect IO" and there is a ’dio’ option to select "direct IO" which will DMA directly into user memory. Due to some issues "direct IO" is disabled in the sg driver and needs a configuration change to activate it.

All informative, warning and error output is sent to stderr so that dd’s output file can be stdout and remain unpolluted. If no options are given, then the usage message is output and nothing else happens.

Why use sgp_dd? Because in some cases it is twice as fast as dd (mainly with sg devices, raw devices give some improvement). Another reason is that big copies fill the block device caches which has a negative impact on other machine activity.


The signal handling has been borrowed from dd: SIGINT, SIGQUIT and SIGPIPE output the number of remaining blocks to be transferred and the records in + out counts; then they have their default action. SIGUSR1 causes the same information to be output yet the copy continues. All output caused by signals is sent to stderr.


Looks quite similar in usage to dd:

sgp_dd if=/dev/sg0 of=t bs=512 count=1MB

This will copy 1 million 512 byte blocks from the device associated with /dev/sg0 (which should have 512 byte blocks) to a file called t. Assuming /dev/sda and /dev/sg0 are the same device then the above is equivalent to:

dd if=/dev/sda of=t bs=512 count=1000000

although dd’s speed may improve if bs was larger and count was correspondingly scaled. Using a raw device to do something similar on a ATA disk:

raw /dev/raw/raw1 /dev/hda sgp_dd if=/dev/raw/raw1 of=t bs=512 count=1MB

To copy a SCSI disk partition to an ATA disk partition:

raw /dev/raw/raw2 /dev/hda3 sgp_dd if=/dev/sg0 skip=10123456 of=/dev/raw/raw2 bs=512

This assumes a valid partition is found on the SCSI disk at the given skip block address (past the 5 GB point of that disk) and that the partition goes to the end of the SCSI disk. An explicit count is probably a safer option.

To do a fast copy from one SCSI disk to another one with similar geometry (stepping over errors on the source disk):

sgp_dd if=/dev/sg0 of=/dev/sg1 bs=512 coe=1


The exit status of sgp_dd is 0 when it is successful. Otherwise see the sg3_utils(8) man page. Since this utility works at a higher level than individual commands, and there are ’coe’ and ’retries’ flags, individual SCSI command failures do not necessary cause the process to exit.


Written by Doug Gilbert and Peter Allworth.


Report bugs to <dgilbert at interlog dot com>.


Copyright © 2000-2007 Douglas Gilbert This software is distributed under the GPL version 2. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.


A simpler, non-threaded version of this utility but with more advanced "continue on error" logic is called sg_dd and is also found in the sg3_utils package. The lmbench package contains lmdd which is also interesting. raw(8), dd(1)

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