xref: /freebsd/sbin/nvmecontrol/nvmecontrol.8 (revision cbb3ec25236ba72f91cbdf23f8b78b9d1af0cedf)
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3.\" Copyright (c) 2018-2019 Alexander Motin <mav@FreeBSD.org>
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32.\" nvmecontrol man page.
33.\"
34.\" Author: Jim Harris <jimharris@FreeBSD.org>
35.\"
36.Dd December 14, 2022
37.Dt NVMECONTROL 8
38.Os
39.Sh NAME
40.Nm nvmecontrol
41.Nd NVM Express control utility
42.Sh SYNOPSIS
43.Nm
44.Ic devlist
45.Op Fl h
46.Nm
47.Ic identify
48.Op Fl v
49.Op Fl x
50.Op Fl n Ar nsid
51.Aq Ar device-id | Ar namespace-id
52.Nm
53.Ic perftest
54.Aq Fl n Ar num_threads
55.Aq Fl o Ar read|write
56.Op Fl p
57.Aq Fl s Ar size_in_bytes
58.Aq Fl t Ar time_in_sec
59.Aq Ar namespace-id
60.Nm
61.Ic reset
62.Aq Ar device-id
63.Nm
64.Ic logpage
65.Aq Fl p Ar page_id
66.Op Fl x
67.Op Fl v Ar vendor-string
68.Op Fl b
69.Op Fl f Ar LSP
70.Op Fl i Ar LSI
71.Op Fl r
72.Aq Ar device-id | Ar namespace-id
73.Nm
74.Ic ns active
75.Aq Ar device-id
76.Nm
77.Ic ns allocated
78.Aq Ar device-id
79.Nm
80.Ic ns attach
81.Aq Fl n Ar nsid
82.Aq Fl c Ar cntid
83.Aq Ar device-id
84.Nm
85.Ic ns attached
86.Aq Fl n Ar nsid
87.Aq Ar device-id
88.Nm
89.Ic ns controllers
90.Aq Ar device-id
91.Nm
92.Ic ns create
93.Aq Fl s Ar nsze
94.Op Fl c Ar ncap
95.Op Fl f Ar lbaf
96.Op Fl m Ar mset
97.Op Fl n Ar nmic
98.Op Fl p Ar pi
99.Op Fl l Ar pil
100.Op Fl L Ar flbas
101.Op Fl d Ar dps
102.Aq Ar device-id
103.Nm
104.Ic ns delete
105.Aq Fl n Ar nsid
106.Aq Ar device-id
107.Nm
108.Ic ns detach
109.Aq Fl n Ar nsid
110.Aq Fl c Ar cntid
111.Aq Ar device-id
112.Nm
113.Ic ns identify
114.Op Fl v
115.Op Fl x
116.Aq Fl n Ar nsid
117.Aq Ar device-id
118.Nm
119.Ic nsid
120.Aq Ar device-id | Ar namespace-id
121.Nm
122.Ic resv acquire
123.Aq Fl c Ar crkey
124.Op Fl p Ar prkey
125.Aq Fl t Ar rtype
126.Aq Fl a Ar racqa
127.Aq Ar namespace-id
128.Nm
129.Ic resv register
130.Op Fl i
131.Op Fl c Ar crkey
132.Aq Fl k Ar nrkey
133.Aq Fl r Ar rrega
134.Op Fl p Ar cptpl
135.Aq Ar namespace-id
136.Nm
137.Ic resv release
138.Aq Fl c Ar crkey
139.Aq Fl t Ar rtype
140.Aq Fl a Ar rrela
141.Aq Ar namespace-id
142.Nm
143.Ic resv report
144.Op Fl e
145.Op Fl v
146.Op Fl x
147.Aq Ar namespace-id
148.Nm
149.Ic firmware
150.Op Fl s Ar slot
151.Op Fl f Ar path_to_firmware
152.Op Fl a
153.Aq Ar device-id
154.Nm
155.Ic format
156.Op Fl f Ar fmt
157.Op Fl m Ar mset
158.Op Fl o Ar pi
159.Op Fl l Ar pil
160.Op Fl E
161.Op Fl C
162.Aq Ar device-id | Ar namespace-id
163.Nm
164.Ic sanitize
165.Aq Fl a Ar sanact
166.Op Fl c Ar owpass
167.Op Fl d
168.Op Fl p Ar ovrpat
169.Op Fl r
170.Op Fl I
171.Op Fl U
172.Aq Ar device-id
173.Nm
174.Ic power
175.Op Fl l
176.Op Fl p power_state
177.Op Fl w workload_hint
178.Nm
179.Ic selftest
180.Aq Fl c Ar code
181.Aq Ar device-id | Ar namespace-id
182.Nm
183.Ic wdc cap-diag
184.Op Fl o path_template
185.Aq Ar device-id
186.Nm
187.Ic wdc drive-log
188.Op Fl o path_template
189.Aq Ar device-id
190.Nm
191.Ic wdc get-crash-dump
192.Op Fl o path_template
193.Aq Ar device-id
194.\" .Nm
195.\" .Ic wdc purge
196.\" .Aq device-id
197.\" .Nm
198.\" .Ic wdc purge-monitor
199.\" .Aq device-id
200.Nm
201.Ic admin-passthru
202.Op args
203.Aq Ar device-id
204.Nm
205.Ic io-passthru
206.Op args
207.Aq Ar namespace-id
208.Sh DESCRIPTION
209NVM Express (NVMe) is a storage protocol standard, for SSDs and other
210high-speed storage devices over PCI Express.
211.Ss devlist
212List all NVMe controllers and namespaces along with their device nodes.
213With the
214.Fl h
215argument, use unit suffixes: Byte, Kibibyte, Mebibyte, Gibibyte, Tebibyte
216and Pebibyte (based on powers of 1024) when showing the disk space.
217By default, uses Mebibyte.
218.Ss identify
219The identify commands reports information from the drive's
220.Dv IDENTIFY_CONTROLLER
221if a
222.Ar device-id
223is specified.
224It reports
225.Dv IDENTIFY_NAMESPACE
226data if a
227.Ar namespace-id
228is specified.
229When used with disk names, the
230.Dv IDENTIFY_NAMESPACE
231data is reported, unless the namespace
232.Ar nsid
233is overridden with the
234.Fl n
235flag.
236Then that namespace's data is reported, if it exists.
237The command accepts the following parameters:
238.Bl -tag -width 6n
239.It Fl n
240The namespace
241.Aq nsid
242to use instead of the namespace associated with the device.
243A
244.Ar nsid
245of
246.Dq 0
247is used to retrieve the
248.Dv IDENTIFY_CONTROLLER
249data associated with that drive.
250.El
251.Ss logpage
252The logpage command knows how to print log pages of various types.
253It also knows about vendor specific log pages from hgst/wdc, samsung and intel.
254Note that some vendors use the same log page numbers for different data.
255.Pp
256.Bl -tag -compact -width "Page 0x00"
257.It Dv Page 0x01
258Drive Error Log
259.It Dv Page 0x02
260Health/SMART Data
261.It Dv Page 0x03
262Firmware Information
263.It Dv Page 0x04
264Changed Namespace List
265.It Dv Page 0x05
266Commands Supported and Effects
267.It Dv Page 0x06
268Device Self-test
269.It Dv Page 0x80
270Reservation Notification
271.It Dv Page 0x81
272Sanitize Status
273.It Dv Page 0xc1
274Advanced SMART information (WDC/HGST)
275.It Dv Page 0xc1
276Read latency stats (Intel)
277.It Dv Page 0xc2
278Wite latency stats (Intel)
279.It Dv Page 0xc5
280Temperature stats (Intel)
281.It Dv Page 0xca
282Advanced SMART information (Intel)
283.It Dv Page 0xca
284Extended SMART information (Samsung)
285.El
286.Pp
287Specifying
288.Fl v
289.Ic help
290will list all valid vendors and pages.
291.Fl x
292will print the page as hex.
293.Fl b
294will print the binary data for the page.
295.Fl s
296will set Log Specific Field.
297.Fl i
298will set Log Specific Identifier.
299.Fl r
300will set Retain Asynchronous Event.
301.Ss ns
302Various namespace management commands.
303If namespace management is supported by device, allow list, create and delete
304namespaces, list, attach and detach controllers to namespaces.
305.Ss nsid
306Reports the namespace id and controller device associated with the
307.Aq Ar namespace-id
308or
309.Aq Ar device-id
310argument.
311.Ss resv acquire
312Acquire or preempt namespace reservation, using specified parameters:
313.Bl -tag -width 6n
314.It Fl a
315Acquire action:
316.Bl -tag -compact -width 6n
317.It Dv 0
318Acquire
319.It Dv 1
320Preempt
321.It Dv 2
322Preempt and abort
323.El
324.It Fl c
325Current reservation key.
326.It Fl p
327Preempt reservation key.
328.It Fl t
329Reservation type:
330.Bl -tag -compact -width 6n
331.It Dv 1
332Write Exclusive
333.It Dv 2
334Exclusive Access
335.It Dv 3
336Write Exclusive - Registrants Only
337.It Dv 4
338Exclusive Access - Registrants Only
339.It Dv 5
340Write Exclusive - All Registrants
341.It Dv 6
342Exclusive Access - All Registrants
343.El
344.El
345.Ss resv register
346Register, unregister or replace reservation key, using specified parameters:
347.Bl -tag -width 6n
348.It Fl c
349Current reservation key.
350.It Fl k
351New reservation key.
352.It Fl r
353Register action:
354.Bl -tag -compact -width 6n
355.It Dv 0
356Register
357.It Dv 1
358Unregister
359.It Dv 2
360Replace
361.El
362.It Fl i
363Ignore Existing Key
364.It Fl p
365Change Persist Through Power Loss State:
366.Bl -tag -compact -width 6n
367.It Dv 0
368No change to PTPL state
369.It Dv 2
370Set PTPL state to ‘0’.
371Reservations are released and registrants are cleared on a power on.
372.It Dv 3
373Set PTPL state to ‘1’.
374Reservations and registrants persist across a power loss.
375.El
376.El
377.Ss resv release
378Release or clear reservation, using specified parameters:
379.Bl -tag -width 6n
380.It Fl c
381Current reservation key.
382.It Fl t
383Reservation type.
384.It Fl a
385Release action:
386.Bl -tag -compact -width 6n
387.It Dv 0
388Release
389.It Dv 1
390Clean
391.El
392.El
393.Ss resv report
394Print reservation status, using specified parameters:
395.Bl -tag -width 6n
396.It Fl x
397Print reservation status in hex.
398.It Fl e
399Use Extended Data Structure.
400.El
401.Ss format
402Format either specified namespace, or all namespaces of specified controller,
403using specified parameters:
404.Ar fmt
405LBA Format,
406.Ar mset
407Metadata Settings,
408.Ar pi
409Protection Information,
410.Ar pil
411Protection Information Location.
412When formatting specific namespace, existing values are used as defaults.
413When formatting all namespaces, all parameters should be specified.
414Some controllers may not support formatting or erasing specific or all
415namespaces.
416Option
417.Fl E
418enables User Data Erase during format.
419Option
420.Fl C
421enables Cryptographic Erase during format.
422.Ss sanitize
423Sanitize NVM subsystem of specified controller,
424using specified parameters:
425.Bl -tag -width 6n
426.It Fl a Ar operation
427Specify the sanitize operation to perform.
428.Bl -tag -width 16n
429.It overwrite
430Perform an overwrite operation by writing a user supplied
431data pattern to the device one or more times.
432The pattern is given by the
433.Fl p
434argument.
435The number of times is given by the
436.Fl c
437argument.
438.It block
439Perform a block erase operation.
440All the device's blocks are set to a vendor defined
441value, typically zero.
442.It crypto
443Perform a cryptographic erase operation.
444The encryption keys are changed to prevent the decryption
445of the data.
446.It exitfailure
447Exits a previously failed sanitize operation.
448A failed sanitize operation can only be exited if it was
449run in the unrestricted completion mode, as provided by the
450.Fl U
451argument.
452.El
453.It Fl c Ar passes
454The number of passes when performing an
455.Sq overwrite
456operation.
457Valid values are between 1 and 16.
458The default is 1.
459.It Fl d
460No Deallocate After Sanitize.
461.It Fl I
462When performing an
463.Sq overwrite
464operation, the pattern is inverted between consecutive passes.
465.It Fl p Ar pattern
46632 bits of pattern to use when performing an
467.Sq overwrite
468operation.
469The pattern is repeated as needed to fill each block.
470.It Fl U
471Perform the sanitize in the unrestricted completion mode.
472If the operation fails, it can later be exited with the
473.Sq exitfailure
474operation.
475.It Fl r
476Run in
477.Dq report only
478mode.
479This will report status on a sanitize that is already running on the drive.
480.El
481.Ss power
482Manage the power modes of the NVMe controller.
483.Bl -tag -width 6n
484.It Fl l
485List all supported power modes.
486.It Fl p Ar mode
487Set the power mode to
488.Ar mode .
489This must be a mode listed with the
490.Dl nvmecontrol power -l
491command.
492.It Fl w Ar hint
493Set the workload hint for automatic power mode control.
494.Bl -tag -compact -width 6n
495.It 0
496No workload hint is provided.
497.It 1
498Extended idle period workload.
499The device is often idle for minutes at a time.
500A burst of write commands comes in over a period of seconds.
501Then the device returns to being idle.
502.It 2
503Heavy sequential writes.
504A huge number of sequential writes will be submitted, filling the submission queues.
505.It Other
506All other values are reserved and have no standard meaning.
507.El
508Please see the
509.Dq NVM Subsystem Workloads
510section of the relevant NVM Express Base Standard for details.
511.El
512.Ss selftest
513Start the specified device self-test:
514.Bl -tag -width 6n
515.It Fl c Ar code
516Specify the device self-test command code.
517Common codes are:
518.Bl -tag -compact -width 6n
519.It Dv 0x1
520Start a short device self-test operation
521.It Dv 0x2
522Start an extended device self-test operation
523.It Dv 0xe
524Start a vendor specific device self-test operation
525.It Dv 0xf
526Abort the device self-test operation
527.El
528.El
529.Ss wdc
530The various wdc command retrieve log data from the wdc/hgst drives.
531The
532.Fl o
533flag specifies a path template to use to output the files.
534Each file takes the path template (which defaults to nothing), appends
535the drive's serial number and the type of dump it is followed
536by .bin.
537These logs must be sent to the vendor for analysis.
538This tool only provides a way to extract them.
539.Ss passthru
540The
541.Dq admin-passthru
542and
543.Dq io-passthru
544commands send NVMe commands to
545either the administrative or the data part of the device.
546These commands are expected to be compatible with nvme-cli.
547Please see the NVM Express Base Standard for details.
548.Bl -tag -width 16n
549.It Fl o -opcode Ar opcode
550Opcode to send.
551.It Fl 2 -cdw2 Ar value
55232-bit value for CDW2.
553.It Fl 3 -cdw3 Ar value
55432-bit value for CDW3.
555.It Fl 4 -cdw10 Ar value
55632-bit value for CDW10.
557.It Fl 5 -cdw11 Ar value
55832-bit value for CDW11.
559.It Fl 6 -cdw12 Ar value
56032-bit value for CDW12.
561.It Fl 7 -cdw13 Ar value
56232-bit value for CDW13.
563.It Fl 8 -cdw14 Ar value
56432-bit value for CDW14.
565.It Fl 9 -cdw15 Ar value
56632-bit value for CDW15.
567.It Fl l -data-len
568Length of the data for I/O (bytes).
569.It Fl m -metadata-len
570Length of the metadata segment for command (bytes).
571This is ignored and not implemented in
572.Xr nvme 4 .
573.It Fl f -flags
574Nvme command flags.
575.It Fl n -namespace-id
576Namespace ID for command (Ignored).
577.It Fl p -prefill
578Value to prefill payload with.
579.It Fl b -raw-binary
580Output in binary format (otherwise a hex dump is produced).
581.It Fl d -dry-run
582Do not actually execute the command, but perform sanity checks on it.
583.It Fl r -read
584Command reads data from the device.
585.It Fl s -show-command
586Show all the command values on stdout.
587.It Fl w -write
588Command writes data to the device.
589.El
590.Pp
591Send arbitrary commands to the device.
592Can be used to extract vendor specific logs.
593Transfers to/from the device possible, but limited to
594.Dv MAXPHYS
595bytes.
596Commands either read data or write it, but not both.
597Commands needing metadata are not supported by the
598.Xr nvme 4
599drive.
600.Sh DEVICE NAMES
601Where
602.Aq Ar namespace-id
603is required, you can use either the
604.Pa nvmeXnsY
605device, or the disk device such as
606.Pa ndaZ
607or
608.Pa nvdZ .
609The leading
610.Pa /dev/
611is omitted.
612Where
613.Aq Ar device-id
614is required, you can use either the
615.Pa nvmeX
616device, or the disk device such as
617.Pa ndaZ
618or
619.Pa nvdZ .
620For commands that take an optional
621.Aq nsid
622you can use it to get information on other namespaces, or to query the
623drive itself.
624A
625.Aq nsid
626of
627.Dq 0
628means query the drive itself.
629.Sh EXAMPLES
630.Dl nvmecontrol devlist
631.Pp
632Display a list of NVMe controllers and namespaces along with their device nodes.
633.Pp
634.Dl nvmecontrol identify nvme0
635.Dl nvmecontrol identify -n 0 nvd0
636.Pp
637Display a human-readable summary of the nvme0
638.Dv IDENTIFY_CONTROLLER
639data.
640In this example, nvd0 is connected to nvme0.
641.Pp
642.Dl nvmecontrol identify -x -v nvme0ns1
643.Dl nvmecontrol identify -x -v -n 1 nvme0
644.Pp
645Display an hexadecimal dump of the nvme0
646.Dv IDENTIFY_NAMESPACE
647data for namespace 1.
648.Pp
649.Dl nvmecontrol perftest -n 32 -o read -s 512 -t 30 nvme0ns1
650.Pp
651Run a performance test on nvme0ns1 using 32 kernel threads for 30 seconds.
652Each thread will issue a single 512 byte read command.
653Results are printed to stdout when 30 seconds expires.
654.Pp
655.Dl nvmecontrol reset nvme0
656.Dl nvmecontrol reset nda4
657.Pp
658Perform a controller-level reset of the nvme0 controller.
659In this example, nda4 is wired to nvme0.
660.Pp
661.Dl nvmecontrol logpage -p 1 nvme0
662.Pp
663Display a human-readable summary of the nvme0 controller's Error Information Log.
664Log pages defined by the NVMe specification include Error Information Log (ID=1),
665SMART/Health Information Log (ID=2), and Firmware Slot Log (ID=3).
666.Pp
667.Dl nvmecontrol logpage -p 0xc1 -v wdc nvme0
668.Pp
669Display a human-readable summary of the nvme0's wdc-specific advanced
670SMART data.
671.Pp
672.Dl nvmecontrol logpage -p 1 -x nvme0
673.Pp
674Display a hexadecimal dump of the nvme0 controller's Error Information Log.
675.Pp
676.Dl nvmecontrol logpage -p 0xcb -b nvme0 > /tmp/page-cb.bin
677.Pp
678Print the contents of vendor specific page 0xcb as binary data on
679standard out.
680Redirect it to a temporary file.
681.Pp
682.Dl nvmecontrol firmware -s 2 -f /tmp/nvme_firmware nvme0
683.Pp
684Download the firmware image contained in "/tmp/nvme_firmware" to slot 2 of the
685nvme0 controller, but do not activate the image.
686.Pp
687.Dl nvmecontrol firmware -s 4 -a nvme0
688.Pp
689Activate the firmware in slot 4 of the nvme0 controller on the next reset.
690.Pp
691.Dl nvmecontrol firmware -s 7 -f /tmp/nvme_firmware -a nvme0
692.Pp
693Download the firmware image contained in "/tmp/nvme_firmware" to slot 7 of the
694nvme0 controller and activate it on the next reset.
695.Pp
696.Dl nvmecontrol power -l nvme0
697.Pp
698List all the current power modes.
699.Pp
700.Dl nvmecontrol power -p 3 nvme0
701.Pp
702Set the current power mode.
703.Pp
704.Dl nvmecontrol power nvme0
705.Pp
706Get the current power mode.
707.Pp
708.Dl nvmecontrol identify -n 0 nda0
709.Pp
710Identify the drive data associated with the
711.Pa nda0
712device.
713The corresponding
714.Pa nvmeX
715devices is used automatically.
716.Pp
717.Dl nvmecontrol identify nda0
718.Pp
719Get the namespace parameters associated with the
720.Pa nda0
721device.
722The corresponding
723.Pa nvmeXnsY
724device is used automatically.
725.Sh DYNAMIC LOADING
726The directories
727.Pa /lib/nvmecontrol
728and
729.Pa /usr/local/lib/nvmecontrol
730are scanned for any .so files.
731These files are loaded.
732The members of the
733.Va top
734linker set are added to the top-level commands.
735The members of the
736.Va logpage
737linker set are added to the logpage parsers.
738.Sh SEE ALSO
739.Rs
740.%T The NVM Express Base Specification
741.%D June 10, 2019
742.%U https://nvmexpress.org/wp-content/uploads/NVM-Express-1_4-2019.06.10-Ratified.pdf
743.Re
744.Sh HISTORY
745The
746.Nm
747utility appeared in
748.Fx 9.2 .
749.Sh AUTHORS
750.An -nosplit
751.Nm
752was developed by Intel and originally written by
753.An Jim Harris Aq Mt jimharris@FreeBSD.org .
754.Pp
755This man page was written by
756.An Jim Harris Aq Mt jimharris@FreeBSD.org .
757