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Content-type: text/html; charset=UTF-8
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
<HTML><HEAD><TITLE>Man page of SG3_UTILS</TITLE>
</HEAD><BODY>
<H1>SG3_UTILS</H1>
Section: SG3_UTILS (8)<BR>Updated: January 2023<BR><A HREF="#index">Index</A>
<A HREF="../index.html">Return to Main Contents</A><HR>
<A NAME="lbAB"> </A>
<H2>NAME</H2>
sg3_utils - a package of utilities for sending SCSI commands
<A NAME="lbAC"> </A>
<H2>SYNOPSIS</H2>
<B>sg_*</B>
[<I>--dry-run</I>] [<I>--enumerate</I>] [<I>--help</I>] [<I>--hex</I>]
[<I>--in=FN</I>] [<I>--inhex=FN</I>] [<I>--json[=JO]</I>]
[<I>--js-file=JFN</I>] [<I>--maxlen=LEN</I>] [<I>--raw</I>]
[<I>--timeout=SECS</I>] [<I>--verbose</I>] [<I>--version</I>]
[<I>OTHER_OPTIONS</I>] [<I>DEVICE</I>]
<A NAME="lbAD"> </A>
<H2>DESCRIPTION</H2>
sg3_utils is a package of utilities that send SCSI commands to the given
<I>DEVICE</I> via a SCSI pass through interface provided by the host
operating system.
<P>
The names of all utilities start with "sg" and most start with "sg_" often
followed by the name, or a shortening of the name, of the SCSI command that
they send. For example the "sg_verify" utility sends the SCSI VERIFY
command. A mapping between SCSI commands and the sg3_utils utilities that
issue them is shown in the COVERAGE file. The sg_raw utility can be used to
send an arbitrary SCSI command (supplied on the command line) to the
given <I>DEVICE</I>.
<P>
sg_decode_sense can be used to decode SCSI sense data given on the command
line or in a file. sg_raw -vvv will output the T10 name of a given SCSI
CDB which is most often 16 bytes or less in length.
<P>
SCSI draft standards can be found at <A HREF="https://www.t10.org">https://www.t10.org</A> . The standards
themselves can be purchased from ANSI and other standards organizations.
A good overview of various SCSI standards can be seen in
<A HREF="https://www.t10.org/scsi-3.htm">https://www.t10.org/scsi-3.htm</A> with the SCSI command sets in the upper part
of the diagram. The highest level (i.e. most abstract) document is the SCSI
Architecture Model (SAM) with SAM-5 being the most recent standard (ANSI
INCITS 515-2016) with the most recent draft being SAM-6 revision 4 . SCSI
commands in common with all device types can be found in SCSI Primary
Commands (SPC) of which SPC-5 is the most recent standard (ANSI INCITS
502-2020). The most recent SPC draft is SPC-6 revision 6. Block device
specific commands (e.g. as used by disks) are in SBC, those for tape drives
in SSC, those for SCSI enclosures in SES and those for CD/DVD/BD drives in
MMC.
<P>
It is becoming more common to control ATA disks with the SCSI command set.
This involves the translation of SCSI commands to their corresponding ATA
equivalents (and that is an imperfect mapping in some cases). The relevant
standard is called SCSI to ATA Translation (SAT, SAT-2 and SAT-3) are
now standards at INCITS(ANSI) and ISO while SAT-4 is at the draft stage.
The logic to perform the command translation is often called a SAT Layer or
SATL and may be within an operating system, in host bus adapter firmware or
in an external device (e.g. associated with a SAS expander). See
<A HREF="https://www.t10.org">https://www.t10.org</A> for more information.
<P>
There is some support for SCSI tape devices but not for their basic
operation. The reader is referred to the "mt" utility.
<P>
There are two generations of command line option usage. The newer
utilities (written since July 2004) use the getopt_long() function to parse
command line options. With that function, each option has two representations:
a short form (e.g. '-v') and a longer form (e.g. '--verbose'). If an
argument is required then it follows a space (optionally) in the short form
and a "=" in the longer form (e.g. in the sg_verify utility '-l 2a6h'
and '--lba=2a6h' are equivalent). Note that with getopt_long(), short form
options can be elided, for example: '-all' is equivalent to '-a -l -l'.
The <I>DEVICE</I> argument may appear after, between or prior to any options.
<P>
The older utilities, including as sg_inq, sg_logs, sg_modes, sg_opcode,
sg_rbuff, sg_readcap, sg_senddiag, sg_start and sg_turs had individual
command line processing code typically based on a single "-" followed by one
or more characters. If an argument is needed then it follows a "=" (
e.g. '-p=1f' in sg_modes with its older interface). Various options can be
elided as long as it is not ambiguous (e.g. '-vv' to increase the verbosity).
<P>
Over time the command line interface of these older utilities became messy
and overloaded with options. So in sg3_utils version 1.23 the command line
interface of these older utilities was altered to have both a cleaner
getopt_long() interface and their older interface for backward compatibility.
By default these older utilities use their getopt_long() based interface.
The getopt_long() is a GNU extension (i.e. not yet POSIX certified) but
more recent command line utilities tend to use it. That can be overridden
by defining the SG3_UTILS_OLD_OPTS environment variable or using '-O'
or '--old' as the first command line option. The man pages of the older
utilities documents the details.
<P>
Several sg3_utils utilities are based on the Unix dd command (e.g. sg_dd)
and permit copying data at the level of SCSI READ and WRITE commands. sg_dd
is tightly bound to Linux and hence is not ported to other OSes. A more
generic utility (than sg_dd) called ddpt in a package of the same name has
been ported to other OSes.
<A NAME="lbAE"> </A>
<H2>ENVIRONMENT VARIABLES</H2>
The SG3_UTILS_OLD_OPTS environment variable is explained in the previous
section. It is only for backward compatibility of the command line options
for older utilities.
<P>
The SG3_UTILS_INVOCATION environment variable has been implemented on some
utilities that decode a lot of data. When SG3_UTILS_INVOCATION is set those
utilities will print out a line of 60 "v" characters. After that the utility
name and version (which includes a date) followed by a line by line
breakdown of the command line arguments that the utility was invoked with.
The command line arguments include the utility name and options in the order
they were given. The output is sent to stdout. The option is designed to
help automatic testing of utilities in the package.
<P>
The SG3_UTILS_DSENSE environment variable may be set to a number. It is
only used by the embedded SNTL within the library used by the utilities in
this library. SNTL is a SCSI to NVMe Translation Layer. This environment
variable defaults to 0 which will lead to any utility that issues a SCSI
command that is translated to a NVMe command (by the embedded SNTL) that
fails at the NVMe device, to return SCSI sense in 'fixed' format. If this
variable is non-zero then then the returned SCSI sense will be in 'descriptor'
format.
<P>
Several utilities have their own environment variable setting (e.g.
sg_persist has SG_PERSIST_IN_RDONLY). See individual utility man pages
for more information.
<P>
There is a Linux specific environment variable called SG3_UTILS_LINUX_NANO
that if defined and the sg driver in the system is 4.0.30 or later, will
show command durations in nanoseconds rather than the default milliseconds.
Command durations are typically only shown if --verbose is used 3 or more
times. Due to an interface problem (a 32 bit integer that should be 64 bits
with the benefit of hindsight) the maximum duration that can be represented
in nanoseconds is about 4.2 seconds. If longer durations may occur then
don't define this environment variable (or undefine it).
<A NAME="lbAF"> </A>
<H2>LINUX DEVICE NAMING</H2>
Most disk block devices have names like /dev/sda, /dev/sdb, /dev/sdc, etc.
SCSI disks in Linux have always had names like that but in recent Linux
kernels it has become more common for many other disks (including SATA
disks and USB storage devices) to be named like that. Partitions within a
disk are specified by a number appended to the device name, starting at
1 (e.g. /dev/sda1 ).
<P>
Tape drives are named /dev/st<num> or /dev/nst<num> where <num> starts
at zero. Additionally one letter from this list: "lma" may be appended to
the name. CD, DVD and BD readers (and writers) are named /dev/sr<num>
where <num> start at zero. There are less used SCSI device type names,
the dmesg and the lsscsi commands may help to find if any are attached to
a running system.
<P>
There is also a SCSI device driver which offers alternate generic access
to SCSI devices. It uses names of the form /dev/sg<num> where <num> starts
at zero. The "lsscsi -g" command may be useful in finding these and which
generic name corresponds to a device type name (e.g. /dev/sg2 may
correspond to /dev/sda). In the lk 2.6 series a block SCSI generic
driver was introduced and its names are of the form
/dev/bsg/<h:c:t:l> where h, c, t and l are numbers. Again see the lsscsi
command to find the correspondence between that SCSI tuple (i.e. <h:c:t:l>)
and alternate device names.
<P>
Prior to the Linux kernel 2.6 series these utilities could only use
generic device names (e.g. /dev/sg1 ). In almost all cases in the Linux
kernel 2.6 series, any device name can be used by these utilities.
<P>
Very little has changed in Linux device naming in the Linux kernel 3
and 4 series.
<A NAME="lbAG"> </A>
<H2>WINDOWS DEVICE NAMING</H2>
Storage and related devices can have several device names in Windows.
Probably the most common in the volume name (e.g. "D:"). There are also
a "class" device names such as "PhysicalDrive<n>", "CDROM<n>"
and "TAPE<n>". <n> is an integer starting at 0 allocated in ascending
order as devices are discovered (and sometimes rediscovered).
<P>
Some storage devices have a SCSI lower level device name which starts
with a SCSI (pseudo) adapter name of the form "SCSI<n>:". To this is added
sub-addressing in the form of a "bus" number, a "target" identifier and
a LUN (Logical Unit Number). The "bus" number is also known as a "PathId".
These are assembled to form a device name of the
form: "SCSI<n>:<bus>,<target>,<lun>". The trailing ",<lun>" may be omitted
in which case a LUN of zero is assumed. This lower level device name cannot
often be used directly since Windows blocks attempts to use it if a class
driver has "claimed" the device. There are SCSI device types (e.g.
Automation/Drive interface type) for which there is no class driver. At
least two transports ("bus types" in Windows jargon): USB and IEEE 1394 do
not have a "scsi" device names of this form.
<P>
In keeping with DOS file system conventions, the various device names
can be given in upper, lower or mixed case. Since "PhysicalDrive<n>" is
tedious to write, a shortened form of "PD<n>" is permitted by all
utilities in this package.
<P>
A single device (e.g. a disk) can have many device names. For
example: "PD0" can also be "C:", "D:" and "SCSI0:0,1,0". The two volume names
reflect that the disk has two partitions on it. Disk partitions that are
not recognized by Windows are not usually given a volume name. However
Vista does show a volume name for a disk which has no partitions recognized
by it and when selected invites the user to format it (which may be rather
unfriendly to other OSes).
<P>
These utilities assume a given device name is in the Win32 device namespace.
To make that explicit "\\.\" can be prepended to the device names mentioned
in this section. Beware that backslash is an escape character in Unix like
shells and the C programming language. In a shell like Msys (from MinGW)
each backslash may need to be typed twice.
<P>
The sg_scan utility within this package lists out Windows device names in
a form that is suitable for other utilities in this package to use.
<A NAME="lbAH"> </A>
<H2>FREEBSD DEVICE NAMING</H2>
SCSI disks have block names of the form /dev/da<num> where <num> is an
integer starting at zero. The "da" is replaced by "sa" for SCSI tape
drives and "cd" for SCSI CD/DVD/BD drives. Each SCSI device has a
corresponding pass-through device name of the form /dev/pass<num>
where <num> is an integer starting at zero. The "camcontrol devlist"
command may be useful for finding out which SCSI device names are
available and the correspondence between class and pass-through names.
<P>
FreeBSD allows device names to be given without the leading "/dev/" (e.g.
da0 instead of /dev/da0). That worked in this package up until version
1.43 when the unadorned device name (e.g. "da0") gave an error. The
original action (i.e. allowing unadorned device names) has been restored
in version 1.46 . Also note that symlinks (to device names) are followed
before prepending "/dev/" if the resultant name doesn't start with a "/".
<P>
FreeBSD's NVMe naming has been evolving. The controller naming is the
same as Linux: "/dev/nvme<n>" but the namespaces have an
extra "s" (e.g. "/dev/nvme0ns1"). The latter is not a block (GEOM)
device (strictly speaking FreeBSD does not have block devices). Initially
FreeBSD had "/dev/nvd<m>" GEOM devices that were not based on the CAM
subsystem. Then in FreeBSD release 12 a new nda driver was added that is
CAM (and GEOM) based for NVMe namespaces; it has names like "/dev/nda0".
The preferred device nodes for this package are "/dev/nvme0" for NVMe
controllers and "/dev/nda0" for NVMe namespaces.
<A NAME="lbAI"> </A>
<H2>SOLARIS DEVICE NAMING</H2>
SCSI device names below the /dev directory have a form like: c5t4d3s2
where the number following "c" is the controller (HBA) number, the number
following "t" is the target number (from the SCSI parallel interface days)
and the number following "d" is the LUN. Following the "s" is the slice
number which is related to a partition and by convention "s2" is the whole
disk.
<P>
OpenSolaris also has a c5t4d3p2 form where the number following the "p" is
the partition number apart from "p0" which is the whole disk. So a whole
disk may be referred to as either c5t4d3, c5t4d3s2 or c5t4d3p0 .
<P>
And these device names are duplicated in the /dev/dsk and /dev/rdsk
directories. The former is the block device name and the latter is
for "raw" (or char device) access which is what sg3_utils needs. So in
OpenSolaris something of the form 'sg_inq /dev/rdsk/c5t4d3p0' should work.
If it doesn't work then add a '-vvv' option for more debug information.
Trying this form 'sg_inq /dev/dsk/c5t4d3p0' (note "rdsk" changed to "dsk")
will result in an "inappropriate ioctl for device" error.
<P>
The device names within the /dev directory are typically symbolic links to
much longer topological names in the /device directory. In Solaris cd/dvd/bd
drives seem to be treated as disks and so are found in the /dev/rdsk
directory. Tape drives appear in the /dev/rmt directory.
<P>
There is also a sgen (SCSI generic) driver which by default does not attach
to any device. See the /kernel/drv/sgen.conf file to control what is
attached. Any attached device will have a device name of the
form /dev/scsi/c5t4d3 .
<P>
Listing available SCSI devices in Solaris seems to be a challenge. "Use
the 'format' command" advice works but seems a very dangerous way to list
devices. [It does prompt again before doing any damage.] 'devfsadm -Cv'
cleans out the clutter in the /dev/rdsk directory, only leaving what
is "live". The "cfgadm -v" command looks promising.
<A NAME="lbAJ"> </A>
<H2>NVME SUPPORT</H2>
NVMe (or NVM Express) is a relatively new storage transport and command
set. The level of abstraction of the NVMe command set is somewhat lower
the SCSI command sets, closer to the level of abstraction of ATA (and SATA)
command sets. NVMe claims to be designed with flash and modern "solid
state" storage in mind, something unheard of when SCSI was originally
developed in the 1980s.
<P>
The SCSI command sets' advantage is the length of time they have been in
place and the existing tools (like these) to support it. Plus SCSI command
sets level of abstraction is both and advantage and disadvantage. Recently
the NVME-MI (Management Interface) designers decide to use the SCSI
Enclosure Services (SES-3) standard "as is" with the addition of two
tunnelling NVME-MI commands: SES Send and SES Receive. This means after the
OS interface differences are taken into account, the sg_ses, sg_ses_microcode
and sg_senddiag utilities can be used on a NVMe device that supports a newer
version of NVME-MI.
<P>
The NVME-MI SES Send and SES Receive commands correspond to the SCSI
SEND DIAGNOSTIC and RECEIVE DIAGNOSTIC RESULTS commands respectively.
There are however a few other commands that need to be translated, the
most important of which is the SCSI INQUIRY command to the NVMe Identify
controller/namespace. Starting in version 1.43 these utilities contain a
small SNTL (SCSI to NVMe Translation Layer) to take care of these details.
<P>
As a side effect of this "juggling" if the sg_inq utility is used (without
the --page= option) on a NVMe <I>DEVICE</I> then the actual NVMe
Identifier (controller and possibly namespace) responses are decoded and
output. However if 'sg_inq --page=sinq <device>' is given for the
same <I>DEVICE</I> then parts of the NVMe Identify controller and namespace
response are translated to a SCSI standard INQUIRY response which is then
decoded and output.
<P>
Apart from the special case with the sg_inq, all other utilities in the
package assume they are talking to a SCSI device and decode any response
accordingly. One easy way for users to see the underlying device is a
NVMe device is the standard INQUIRY response Vendor Identification field
of "NVMe " (an 8 character long string with 4 spaces to the right).
<P>
The following SCSI commands are currently supported by the SNTL library:
INQUIRY, MODE SELECT(10), MODE SENSE(10), READ(10,16), READ CAPACITY(10,16),
RECEIVE DIAGNOSTIC RESULTS, REQUEST SENSE, REPORT LUNS, REPORT SUPPORTED
OPERATION CODES, REPORT SUPPORTED TASK MANAGEMENT FUNCTIONS, SEND
DIAGNOSTICS, START STOP UNIT, SYNCHRONIZE CACHE(10,16), TEST UNIT READY,
VERIFY(10,16), WRITE(10,16) and WRITE SAME(10,16).
<A NAME="lbAK"> </A>
<H2>EXIT STATUS</H2>
To aid scripts that call these utilities, the exit status is set to indicate
success (0) or failure (1 or more). Note that some of the lower values
correspond to the SCSI sense key values.
<P>
The exit status values listed below can be given to the sg_decode_sense
utility (which is found in this package) as follows:
<P>
<BR> sg_decode_sense --err=<exit_status>
<P>
and a short explanatory string will be output to stdout.
<P>
The exit status values are:
<DL COMPACT>
<DT><B>0</B>
<DD>
success. Also used for some utilities that wish to return a boolean value
for the "true" case (and that no error has occurred). The false case is
conveyed by exit status 36.
<DT><B>1</B>
<DD>
syntax error. Either illegal command line options, options with bad
arguments or a combination of options that is not permitted.
<DT><B>2</B>
<DD>
the <I>DEVICE</I> reports that it is not ready for the operation requested.
The <I>DEVICE</I> may be in the process of becoming ready (e.g. spinning up
but not at speed) so the utility may work after a wait. In Linux the
<I>DEVICE</I> may be temporarily blocked while error recovery is taking place.
See exit status values 12 and 13 below which refine this exit value.
<DT><B>3</B>
<DD>
the <I>DEVICE</I> reports a medium or hardware error (or a blank check). For
example an attempt to read a corrupted block on a disk will yield this value.
<DT><B>5</B>
<DD>
the <I>DEVICE</I> reports an "illegal request" with an additional sense code
other than "invalid command operation code". This is often a supported
command with a field set requesting an unsupported capability. For commands
that require a "service action" field this value can indicate that the
command with that service action value is not supported.
<DT><B>6</B>
<DD>
the <I>DEVICE</I> reports a "unit attention" condition. This usually indicates
that something unrelated to the requested command has occurred (e.g. a device
reset) potentially before the current SCSI command was sent. The requested
command has not been executed by the device. Note that unit attention
conditions are usually only reported once by a device.
<DT><B>7</B>
<DD>
the <I>DEVICE</I> reports a "data protect" sense key. This implies some
mechanism has blocked writes (or possibly all access to the media).
<DT><B>9</B>
<DD>
the <I>DEVICE</I> reports an illegal request with an additional sense code
of "invalid command operation code" which means that it doesn't support the
requested command.
<DT><B>10</B>
<DD>
the <I>DEVICE</I> reports a "copy aborted". This implies another command or
device problem has stopped a copy operation. The EXTENDED COPY family of
commands (including WRITE USING TOKEN) may return this sense key.
<DT><B>11</B>
<DD>
the <I>DEVICE</I> reports an aborted command. In some cases aborted
commands can be retried immediately (e.g. if the transport aborted
the command due to congestion).
<DT><B>12</B>
<DD>
the <I>DEVICE</I> reports a sense key of not ready together with an
additional sense code of "target port in standby state".
<DT><B>13</B>
<DD>
the <I>DEVICE</I> reports a sense key of not ready together with an
additional sense code of "target port in unavailable state".
<DT><B>14</B>
<DD>
the <I>DEVICE</I> reports a miscompare sense key. VERIFY and COMPARE AND
WRITE commands may report this.
<DT><B>15</B>
<DD>
the utility is unable to open, close or use the given <I>DEVICE</I> or some
other file. The given file name could be incorrect or there may be
permission problems. Adding the '-v' option may give more information.
<DT><B>17</B>
<DD>
a SCSI "Illegal request" sense code received with a flag indicating the
Info field is valid. This is often a LBA but its meaning is command specific.
<DT><B>18</B>
<DD>
the <I>DEVICE</I> reports a medium or hardware error (or a blank check)
with a flag indicating the Info field is valid. This is often a LBA (of
the first encountered error) but its meaning is command specific.
<DT><B>20</B>
<DD>
the <I>DEVICE</I> reports it has a check condition but "no sense"
and non-zero information in its additional sense codes. Some polling
commands (e.g. REQUEST SENSE) can receive this response. There may
be useful information in the sense data such as a progress indication.
<DT><B>21</B>
<DD>
the <I>DEVICE</I> reports a "recovered error". The requested command
was successful. Most likely a utility will report a recovered error
to stderr and continue, probably leaving the utility with an exit
status of 0 .
<DT><B>22</B>
<DD>
the <I>DEVICE</I> reports that the current command or its parameters imply
a logical block address (LBA) that is out of range. This happens surprisingly
often when trying to access the last block on a storage device; either a
classic "off by one" logic error or a misreading of the response from READ
CAPACITY(10 or 16) in which the address of the last block rather than the
number of blocks on the <I>DEVICE</I> is returned. Since LBAs are origin zero
they range from 0 to n-1 where n is the number of blocks on the <I>DEVICE</I>,
so the LBA of the last block is one less than the total number of blocks.
<DT><B>24</B>
<DD>
the <I>DEVICE</I> reports a SCSI status of "reservation conflict". This
means access to the <I>DEVICE</I> with the current command has been blocked
because another machine (HBA or SCSI "initiator") holds a reservation on
this <I>DEVICE</I>. On modern SCSI systems this is related to the use of
the PERSISTENT RESERVATION family of commands.
<DT><B>25</B>
<DD>
the <I>DEVICE</I> reports a SCSI status of "condition met". Currently only
the PRE-FETCH command (see SBC-4) yields this status.
<DT><B>26</B>
<DD>
the <I>DEVICE</I> reports a SCSI status of "busy". SAM-6 defines this status
as the logical unit is temporarily unable to process a command. It is
recommended to re-issue the command.
<DT><B>27</B>
<DD>
the <I>DEVICE</I> reports a SCSI status of "task set full".
<DT><B>28</B>
<DD>
the <I>DEVICE</I> reports a SCSI status of "ACA active". ACA is "auto
contingent allegiance" and is seldom used.
<DT><B>29</B>
<DD>
the <I>DEVICE</I> reports a SCSI status of "task aborted". SAM-5 says:
"This status shall be returned if a command is aborted by a command or task
management function on another I_T nexus and the Control mode page TAS bit
is set to one".
<DT><B>31</B>
<DD>
error involving two or more command line options. They may be contradicting,
select an unsupported mode, or a required option (given the context) is
missing.
<DT><B>32</B>
<DD>
there is a logic error in the utility. It corresponds to code comments
like "shouldn't/can't get here". Perhaps the author should be informed.
<DT><B>33</B>
<DD>
the command sent to <I>DEVICE</I> has timed out.
<DT><B>34</B>
<DD>
this is a Windows only exit status and indicates that the Windows error
number (32 bits) cannot meaningfully be mapped to an equivalent Unix error
number returned as the exit status (7 bits).
<DT><B>35</B>
<DD>
a transport error has occurred. This will either be in the driver (e.g. HBA
driver) or in the interconnect between the host (initiator) and the
device (target). For example in SAS an expander can run out of paths and
thus be unable to return the user data from a READ command.
<DT><B>36</B>
<DD>
no error has occurred plus the utility wants to convey a boolean value
of false. The corresponding true value is conveyed by a 0 exit status.
<DT><B>40</B>
<DD>
the command sent to <I>DEVICE</I> has received an "aborted command" sense
key with an additional sense code of 0x10. This value is related to
problems with protection information (PI or DIF). For example this error
may occur when reading a block on a drive that has never been written (or
is unmapped) if that drive was formatted with type 1, 2 or 3 protection.
<DT><B>41</B>
<DD>
the command sent to <I>DEVICE</I> has received an "aborted command" sense
key with an additional sense code of 0x10 (as with error code) plus a flag
indicating the Info field is valid.
<DT><B>48</B>
<DD>
this is an internal message indicating a NVMe status field (SF) is other
than zero after a command has been executed (i.e. something went wrong).
Work in this area is currently experimental.
<DT><B>49</B>
<DD>
low level driver reports a response's residual count (i.e. number of bytes
actually received by HBA is 'requested_bytes - residual_count') that is
nonsensical.
<DT><B>50</B>
<DD>
OS system calls that fail often return a small integer number to help. In
Unix these are called "errno" values where 0 implies no error. These error
codes set aside 51 to 96 for mapping these errno values but that may not be
sufficient. Higher errno values that cannot be mapped are all mapped to
this value (i.e. 50).
<BR>
Note that an errno value of 0 is mapped to error code 0.
<DT><B>50 + <os_error_number></B>
<DD>
OS system calls that fail often return a small integer number to help
indicate what the error is. For example in Unix the inability of a system
call to allocate memory returns (in 'errno') ENOMEM which often is
associated with the integer 12. So 62 (i.e. '50 + 12') may be returned
by a utility in this case. It is also possible that a utility in this
package reports 50+ENOMEM when it can't allocate memory, not necessarily
from an OS system call. In recent versions of Linux the file showing the
mapping between symbolic constants (e.g. ENOMEM) and the corresponding
integer is in the kernel source code file:
include/uapi/asm-generic/errno-base.h
<BR>
Note that errno values that are greater than or equal to 47 cannot fit in
range provided. Instead they are all mapped to 50 as discussed in the
previous entry.
<DT><B>97</B>
<DD>
a SCSI command response failed sanity checks.
<DT><B>98</B>
<DD>
the <I>DEVICE</I> reports it has a check condition but the error
doesn't fit into any of the above categories.
<DT><B>99</B>
<DD>
any errors that can't be categorized into values 1 to 98 may yield
this value. This includes transport and operating system errors
after the command has been sent to the device.
<DT><B>100-125</B>
<DD>
these error codes are used by the ddpt utility which uses the sg3_utils
library. They are mainly specialized error codes associated with offloaded
copies.
<DT><B>126</B>
<DD>
the utility was found but could not be executed. That might occur if the
executable does not have execute permissions.
<DT><B>127</B>
<DD>
This is the exit status for utility not found. That might occur when a
script calls a utility in this package but the PATH environment variable
has not been properly set up, so the script cannot find the executable.
<DT><B>128 + <signum></B>
<DD>
If a signal kills a utility then the exit status is 128 plus the signal
number. For example if a segmentation fault occurs then a utility is
typically killed by SIGSEGV which according to 'man 7 signal' has an
associated signal number of 11; so the exit status will be 139 .
<DT><B>255</B>
<DD>
the utility tried to yield an exit status of 255 or larger. That should
not happen; given here for completeness.
</DL>
<P>
Most of the error conditions reported above will be repeatable (an example
of one that is not is "unit attention") so the utility can be run again with
the '-v' option (or several) to obtain more information.
<A NAME="lbAL"> </A>
<H2>COMMON OPTIONS</H2>
Arguments to long options are mandatory for short options as well. In the
short form an argument to an option uses zero or more spaces as a
separator (i.e. the short form does not use "=" as a separator).
<P>
If an option takes a numeric argument then that argument is assumed to
be decimal unless otherwise indicated (e.g. with a leading "0x", a
trailing "h" or as noted in the usage message).
<P>
Some options are used uniformly in most of the utilities in this
package. Those options are listed below. Note that there are some
exceptions.
<DL COMPACT>
<DT><B>-d</B>, <B>--dry-run</B><DD>
utilities that can cause lots of user data to be lost or overwritten
sometimes have a <I>--dry-run</I> option. Device modifying actions are
typically bypassed (or skipped) to implement a policy of "do no harm".
This allows complex command line invocations to be tested before the
action required (e.g. format a disk) is performed. The <I>--dry-run</I>
option has become a common feature of many command line utilities (e.g.
the Unix 'patch' command), not just those from this package.
<BR>
Note that most hyphenated option names in this package also can be given
with an underscore rather than a hyphen (e.g. <I>--dry_run</I>).
<DT><B>-e</B>, <B>--enumerate</B><DD>
some utilities (e.g. sg_ses and sg_vpd) store a lot of information in
internal tables. This option will output that information in some readable
form (e.g. sorted by an acronym or by page number) then exit. Note that
with this option <I>DEVICE</I> is ignored (as are most other options) and no
SCSI IO takes place, so the invoker does not need any elevated permissions.
<DT><B>-h</B>, <B>-?</B>, <B>--help</B><DD>
output the usage message then exit. In a few older utilities the '-h'
option requests hexadecimal output. In these cases the '-?' option will
output the usage message then exit.
<DT><B>-H</B>, <B>--hex</B><DD>
for SCSI commands that yield a non-trivial response, print out that response
in ASCII hexadecimal. When used once, 16 bytes are printed on each line,
prefixed by an relative address, starting at 0 (hex). When used twice, an
ASCII rendering of the 16 bytes is appended to each line, with non printable
characters replaced by a '.' . When used three times only the 16 hex bytes
are printed on each line (hence no address prefix nor ASCII appended). To
produce hexadecimal that can be parsed by other utilities use this option
three or four times.
<DT><B>-i</B>, <B>--in</B>=<I>FN</I><DD>
many SCSI commands fetch a significant amount of data (returned in the
data-in buffer) which several of these utilities decode (e.g. sg_vpd and
sg_logs). To separate the two steps of fetching the data from a SCSI device
and then decoding it, this option has been added. The first step (fetching
the data) can be done using the <I>--hex</I> or <I>--raw</I> option and
redirecting the command line output to a file (often done with ">" in Unix
based operating systems). The difference between <I>--hex</I> and
<I>--raw</I> is that the former produces output in ASCII hexadecimal
while <I>--raw</I> produces its output in "raw" binary.
<BR>
The second step (i.e. decoding the SCSI response data now held in a file)
can be done using this <I>--in=FN</I> option where the file name is
<I>FN</I>. If "-" is used for <I>FN</I> then stdin is assumed, again this
allows for command line redirection (or piping). That file (or stdin)
is assumed to contain ASCII hexadecimal unless the <I>--raw</I> option is
also given in which case it is assumed to be binary. Notice that the meaning
of the <I>--raw</I> option is "flipped" when used with <I>--in=FN</I> to
act on the input, typically it acts on the output data.
<BR>
Since the structure of the data returned by SCSI commands varies
considerably then the usage information or the manpage of the utility being
used should be checked. In some cases <I>--hex</I> may need to be used
multiple times (and is more conveniently given as '-HH' or '-HHH).
<DT><B>-i</B>, <B>--inhex</B>=<I>FN</I><DD>
This option has the same or similar functionality as <I>--in=FN</I>. And
perhaps 'inhex' is more descriptive since by default, ASCII hexadecimal is
expected in the contents of file: <I>FN</I>. Alternatively the short form
option may be <I>-I</I> or <I>-X</I>. See the "FORMAT OF FILES CONTAINING
ASCII HEX" section below for more information.
<DT><B>--json</B>[=<I>JO</I>]<DD>
The default output of most utilities that decode information returned from
SCSI devices is designed for human readability. Sometimes a more parseable
form of output is required and JSON is a popular way to do this. Only
utilities that decode a significant amount of SCSI data support this option.
<BR>
The corresponding short option is usually <I>-j[JO]</I> but maybe
<I>-J[JO]</I> if <I>-j</I> is already in use. Note that in all cases <I>JO</I>
argument is itself optional. See the sg3_utils_json manpage for more
information.
<DT><B>-J</B>, <B>--js-file</B>=<I>JFN</I><DD>
output is in JSON format and it is sent to a file named <I>JFN</I>. If that
file exists then it is truncated. By default, the JSON output is sent to
stdout.
<BR>
When this option is given, the <I>--json[=JO]</I> option is implied and
need not be given. The <I>--json[=JO]</I> option may still be needed to
set the <I>JO</I> parameter to non-default values.
<DT><B>-m</B>, <B>--maxlen</B>=<I>LEN</I><DD>
several important SCSI commands (e.g. INQUIRY and MODE SENSE) have response
lengths that vary depending on many factors, only some of which these
utilities take into account. The maximum response length is typically
specified in the 'allocation length' field of the cdb. In the absence of
this option, several utilities use a default allocation length (sometimes
recommended in the SCSI draft standards) or a "double fetch" strategy.
See <A HREF="../man8/sg_logs.8.html">sg_logs</A>(8) for its description of a "double fetch" strategy. These
techniques are imperfect and in the presence of faulty SCSI targets can
cause problems (e.g. some USB mass storage devices freeze if they receive
an INQUIRY allocation length other than 36). Also use of this option
disables any "double fetch" strategy that may have otherwise been used.
<BR>
To head off a class of degenerate bugs, if <I>LEN</I> is less than 16 then
it is ignored (usually with a warning message) and the default value is
used instead. Some utilities use 4 (bytes), rather than 16, as the cutoff
value.
<DT><B>-r</B>, <B>--raw</B><DD>
for SCSI commands that yield a non-trivial response, output that response
in binary to stdout. If any error messages or warning are produced they are
usually sent to stderr so as to not interfere with the output from this
option.
<BR>
Some utilities that consume data to send to the <I>DEVICE</I> along with the
SCSI command, use this option. Alternatively the <I>--in=FN</I> option causes
<I>DEVICE</I> to be ignored and the response data (to be decoded) fetched
from a file named <I>FN</I>. In these cases this option may indicate that
binary data can be read from stdin or from a nominated file (e.g. <I>FN</I>).
<DT><B>-t</B>, <B>--timeout</B>=<I>SECS</I><DD>
utilities that issue potentially long-running SCSI commands often have a
<I>--timeout=SECS</I> option. This typically instructs the operating system
to abort the SCSI command in question once the timeout expires. Aborting
SCSI commands is typically a messy business and in the case of format like
commands may leave the device in a "format corrupt" state requiring another
long-running re-initialization command to be sent. The argument, <I>SECS</I>,
is usually in seconds and the short form of the option may be something
other than <I>-t</I> since the timeout option was typically added later as
storage devices grew in size and initialization commands took longer. Since
many utilities had relatively long internal command timeouts before this
option was introduced, the actual command timeout given to the operating
systems is the higher of the internal timeout and <I>SECS</I>.
<BR>
Many long running SCSI commands have an IMMED bit which causes the command
to finish relatively quickly but the initialization process to continue. In
such cases the REQUEST SENSE command can be used to monitor progress with
its progress indication field (see the sg_requests and sg_turs utilities).
Utilities that send such SCSI command either have an <I>--immed</I> option
or a <I>--wait</I> option which is the logical inverse of the "immediate"
action.
<DT><B>-v</B>, <B>--verbose</B><DD>
increase the level of verbosity, (i.e. debug output). Can be used multiple
times to further increase verbosity. The additional output caused by this
option is almost always sent to stderr.
<DT><B>-V</B>, <B>--version</B><DD>
print the version string and then exit. Each utility has its own version
number and date of last code change.
</DL>
<A NAME="lbAM"> </A>
<H2>NUMERIC ARGUMENTS</H2>
Many utilities have command line options that take numeric arguments. These
numeric arguments can be large values (e.g. a logical block address (LBA) on
a disk) and can be inconvenient to enter in the default decimal
representation. So various other representations are permitted.
<P>
Multiplicative suffixes are accepted. They are one, two or three letter
strings appended directly after the number to which they apply:
<P>
<BR> c C *1
<BR> w W *2
<BR> b B *512
<BR> k K KiB *1024
<BR> KB kB *1000
<BR> m M MiB *1048576
<BR> MB mB *1000000
<BR> g G GiB *(2^30)
<BR> GB gB *(10^9)
<BR> t T TiB *(2^40)
<BR> TB *(10^12)
<BR> p P PiB *(2^50)
<BR> PB *(10^15)
<P>
An example is "2k" for 2048. The large tera and peta suffixes are only
available for numeric arguments that might require 64 bits to represent
internally.
<P>
These multiplicative suffixes are compatible with GNU's dd command (since
2002) which claims compliance with SI and with IEC 60027-2.
<P>
A suffix of the form "x<n>" multiplies the preceding number by <n>. An
example is "2x33" for "66". The left argument cannot be '0' as '0x' will
be interpreted as hexadecimal number prefix (see below). The left
argument to the multiplication must end in a hexadecimal digit (i.e.
0 to f) and the whole expression cannot have any embedded whitespace (e.g.
spaces). An ugly example: "0xfx0x2" for 30.
<P>
A suffix of the form "+<n>" adds the preceding number to <n>. An example
is "3+1k" for "1027". The left argument to the addition must end in a
hexadecimal digit (i.e. 0 to f) and the whole expression cannot have any
embedded whitespace (e.g. spaces). Another example: "0xf+0x2" for 17.
<P>
Alternatively numerical arguments can be given in hexadecimal. There are
two syntaxes. The number can be preceded by either "0x" or "0X" as found
in the C programming language. The second hexadecimal representation is a
trailing "h" or "H" as found in (storage) standards. When hex numbers are
given, multipliers cannot be used. For example the decimal value "256" can
be given as "0x100" or "100h".
<A NAME="lbAN"> </A>
<H2>FORMAT OF FILES CONTAINING ASCII HEX</H2>
Such a file is assumed to contain a sequence of one or two digit ASCII
hexadecimal values separated by whitespace. "Whitespace consists of either
spaces, tabs, blank lines, or any combination thereof". Hyphens (e.g. '-')
are also allowed as separators. Each one or two digit ASCII hex pair is
decoded into a byte (i.e. 8 bits). The following will be decoded to
valid (ascending valued) bytes: '0', '01', '3', 'c', 'F', '4a', 'cC'
and 'ff'. Lines containing only whitespace are ignored. The contents of any
line containing a hash mark ('#') are ignored from that point until the end
of that line. Users are encouraged to use hash marks to introduce comments
in hex files. The author uses the extension '.hex' on such files. Examples
can be found in the 'inhex' directory. Note that this format does _not_
have an index (counter) value at the beginning of each line (like, for
example, the hexdump utility outputs).
<P>
The hexadecimal format described in the previous paragraph can be converted
to binary using the sg_decode_sense utility with these
options: "<I>--inhex=HFN --nodecode --write=WFN</I>". The input (in
hex) is in the <I>HFN</I> file while the output is placed in the <I>WFN</I>
file.
<P>
To convert a binary file into a hexadecimal form that can be given as input
to various sg3_utils utilities, the sg_decode_sense utility can also be
used with these options: "<I>--binary=BFN --nodecode -HHH</I>" and the
hex output will be sent to the console (stdout).
<A NAME="lbAO"> </A>
<H2>MICROCODE AND FIRMWARE</H2>
There are two standardized methods for downloading microcode (i.e. device
firmware) to a SCSI device. The more general way is with the SCSI WRITE
BUFFER command, see the sg_write_buffer utility. SCSI enclosures have
their own method based on the Download microcode control/status diagnostic
page, see the sg_ses_microcode utility.
<A NAME="lbAP"> </A>
<H2>SCRIPTS, EXAMPLES and UTILS</H2>
There are several bash shell scripts in the 'scripts' subdirectory that
invoke compiled utilities (e.g. sg_readcap). Several of the scripts start
with 'scsi_' rather than 'sg_'. One purpose of these scripts is to call the
same utility (e.g. sg_readcap) on multiple devices. Most of the basic
compiled utilities only allow one device as an argument. Some distributions
install these scripts in a more visible directory (e.g. /usr/bin). Some of
these scripts have man page entries. See the README file in the 'scripts'
subdirectory.
<P>
There is some example C code plus examples of complex invocations in
the 'examples' subdirectory. There is also a README file. The example C
may be a simpler example of how to use a SCSI pass-through in Linux
than the main utilities (found in the 'src' subdirectory). This is due
to the fewer abstraction layers (e.g. they don't worry the MinGW in
Windows may open a file in text rather than binary mode).
<P>
Some utilities that the author has found useful have been placed in
the 'utils' subdirectory.
<A NAME="lbAQ"> </A>
<H2>DEBUGGING</H2>
Each utility and most scripts have a <I>--verbose</I> option (short
form: <I>-v</I>) that can be used multiple times to increase the verbosity
of the output to aid debugging. Normal output (if any) is sent to stdout
while verbose output (and error output) is sent to stderr. This may be
important when the (normal output) of a utility is being piped to another
command (e.g. the grep command to find a particular field in the output).
<P>
The Linux SCSI subsystem has a pseudo file for getting and changing the SCSI
logging level: /proc/sys/dev/scsi/logging_level . The scsi_logging_level
script in this package can be used to manipulate the logging level in a
command line friendly way. See its manpage.
<P>
The logging level runs from 0 (no logging and the default) to 7 (lots of
logging) and applies to all storage devices that use the SCSI subsystem.
The logging output goes to "the log" which is often the /var/log/syslog
file.
<P>
The Linux SCSI generic (sg) driver is often used under the utilities in
this package. It uses a seldom (otherwise) used logging type of
SCSI_LOG_TIMEOUT. An example of its use to turn on full debugging is:
<P>
<BR> scsi_logging_level -s -T 7
<P>
To reduce the amount of output to only error paths, the following is
suggested:
<P>
<BR> scsi_logging_level -s -T 3
<P>
And to turn off logging in the sg driver:
<P>
<BR> scsi_logging_level -s -T 0
<P>
For analyzing machine crashes associated with a SCSI command, nothing beats
a real serial port. By "real" means that it is _not_ a USB serial port.
The reason is that like SCSI, USB needs a functioning software stack within
the OS kernel, the very thing that may be crippled during a machine crash.
<P>