xref: /freebsd/lib/geom/mirror/gmirror.8 (revision cfd6422a5217410fbd66f7a7a8a64d9d85e61229)
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25.\" $FreeBSD$
26.\"
27.Dd November 30, 2017
28.Dt GMIRROR 8
29.Os
30.Sh NAME
31.Nm gmirror
32.Nd "control utility for mirrored devices"
33.Sh SYNOPSIS
34.Nm
35.Cm label
36.Op Fl Fhnv
37.Op Fl b Ar balance
38.Op Fl s Ar slice
39.Ar name
40.Ar prov ...
41.Nm
42.Cm clear
43.Op Fl v
44.Ar prov ...
45.Nm
46.Cm create
47.Op Fl Fnv
48.Op Fl b Ar balance
49.Op Fl s Ar slice
50.Ar name
51.Ar prov ...
52.Nm
53.Cm configure
54.Op Fl adfFhnv
55.Op Fl b Ar balance
56.Op Fl s Ar slice
57.Ar name
58.Nm
59.Cm configure
60.Op Fl v
61.Fl p Ar priority
62.Ar name
63.Ar prov
64.Nm
65.Cm rebuild
66.Op Fl v
67.Ar name
68.Ar prov ...
69.Nm
70.Cm resize
71.Op Fl v
72.Op Fl s Ar size
73.Ar name
74.Nm
75.Cm insert
76.Op Fl hiv
77.Op Fl p Ar priority
78.Ar name
79.Ar prov ...
80.Nm
81.Cm remove
82.Op Fl v
83.Ar name
84.Ar prov ...
85.Nm
86.Cm activate
87.Op Fl v
88.Ar name
89.Ar prov ...
90.Nm
91.Cm deactivate
92.Op Fl v
93.Ar name
94.Ar prov ...
95.Nm
96.Cm destroy
97.Op Fl fv
98.Ar name ...
99.Nm
100.Cm forget
101.Op Fl v
102.Ar name ...
103.Nm
104.Cm stop
105.Op Fl fv
106.Ar name ...
107.Nm
108.Cm dump
109.Ar prov ...
110.Nm
111.Cm list
112.Nm
113.Cm status
114.Nm
115.Cm load
116.Nm
117.Cm unload
118.Sh DESCRIPTION
119The
120.Nm
121utility is used for mirror (RAID1) configurations.
122After a mirror's creation, all components are detected and configured
123automatically.
124All operations like failure detection, stale component detection, rebuild
125of stale components, etc.\& are also done automatically.
126The
127.Nm
128utility uses on-disk metadata (stored in the provider's last sector) to store all needed
129information.
130Since the last sector is used for this purpose, it is possible to place a root
131file system on a mirror.
132.Pp
133The first argument to
134.Nm
135indicates an action to be performed:
136.Bl -tag -width ".Cm deactivate"
137.It Cm label
138Create a mirror.
139The order of components is important, because a component's priority is based on its position
140(starting from 0 to 255).
141The component with the biggest priority is used by the
142.Cm prefer
143balance algorithm
144and is also used as a master component when resynchronization is needed,
145e.g.\& after a power failure when the device was open for writing.
146.Pp
147Additional options include:
148.Bl -tag -width ".Fl b Ar balance"
149.It Fl b Ar balance
150Specifies balance algorithm to use, one of:
151.Bl -tag -width ".Cm round-robin"
152.It Cm load
153Read from the component with the lowest load.
154This is the default balance algorithm.
155.It Cm prefer
156Read from the component with the biggest priority.
157.It Cm round-robin
158Use round-robin algorithm when choosing component to read.
159.It Cm split
160Split read requests, which are bigger than or equal to slice size on N pieces,
161where N is the number of active components.
162.El
163.It Fl F
164Do not synchronize after a power failure or system crash.
165Assumes device is in consistent state.
166.It Fl h
167Hardcode providers' names in metadata.
168.It Fl n
169Turn off autosynchronization of stale components.
170.It Fl s Ar slice
171When using the
172.Cm split
173balance algorithm and an I/O READ request is bigger than or equal to this value,
174the I/O request will be split into N pieces, where N is the number of active
175components.
176Defaults to 4096 bytes.
177.El
178.It Cm clear
179Clear metadata on the given providers.
180.It Cm create
181Similar to
182.Cm label ,
183but creates mirror without storing on-disk metadata in last sector.
184This special "manual" operation mode assumes some external control to manage
185mirror detection after reboot, device hot-plug and other external events.
186.It Cm configure
187Configure the given device.
188.Pp
189Additional options include:
190.Bl -tag -width ".Fl p Ar priority"
191.It Fl a
192Turn on autosynchronization of stale components.
193.It Fl b Ar balance
194Specifies balance algorithm to use.
195.It Fl d
196Do not hardcode providers' names in metadata.
197.It Fl f
198Synchronize device after a power failure or system crash.
199.It Fl F
200Do not synchronize after a power failure or system crash.
201Assumes device is in consistent state.
202.It Fl h
203Hardcode providers' names in metadata.
204.It Fl n
205Turn off autosynchronization of stale components.
206.It Fl p Ar priority
207Specifies priority for the given component
208.Ar prov .
209.It Fl s Ar slice
210Specifies slice size for
211.Cm split
212balance algorithm.
213.El
214.It Cm rebuild
215Rebuild the given mirror components forcibly.
216If autosynchronization was not turned off for the given device, this command
217should be unnecessary.
218.It Cm resize
219Change the size of the given mirror.
220.Pp
221Additional options include:
222.Bl -tag -width ".Fl s Ar size"
223.It Fl s Ar size
224New size of the mirror is expressed in logical block numbers.
225This option can be omitted, then it will be automatically calculated to
226maximum available size.
227.El
228.It Cm insert
229Add the given component(s) to the existing mirror.
230.Pp
231Additional options include:
232.Bl -tag -width ".Fl p Ar priority"
233.It Fl h
234Hardcode providers' names in metadata.
235.It Fl i
236Mark component(s) as inactive immediately after insertion.
237.It Fl p Ar priority
238Specifies priority of the given component(s).
239.El
240.It Cm remove
241Remove the given component(s) from the mirror and clear metadata on it.
242.It Cm activate
243Activate the given component(s), which were marked as inactive before.
244.It Cm deactivate
245Mark the given component(s) as inactive, so it will not be automatically
246connected to the mirror.
247.It Cm destroy
248Stop the given mirror and clear metadata on all its components.
249.Pp
250Additional options include:
251.Bl -tag -width ".Fl f"
252.It Fl f
253Stop the given mirror even if it is opened.
254.El
255.It Cm forget
256Forget about components which are not connected.
257This command is useful when a disk has failed and cannot be reconnected, preventing the
258.Cm remove
259command from being used to remove it.
260.It Cm stop
261Stop the given mirror.
262.Pp
263Additional options include:
264.Bl -tag -width ".Fl f"
265.It Fl f
266Stop the given mirror even if it is opened.
267.El
268.It Cm dump
269Dump metadata stored on the given providers.
270.It Cm list
271See
272.Xr geom 8 .
273.It Cm status
274See
275.Xr geom 8 .
276.It Cm load
277See
278.Xr geom 8 .
279.It Cm unload
280See
281.Xr geom 8 .
282.El
283.Pp
284Additional options include:
285.Bl -tag -width ".Fl v"
286.It Fl v
287Be more verbose.
288.El
289.Sh EXIT STATUS
290Exit status is 0 on success, and 1 if the command fails.
291.Sh EXAMPLES
292Use 3 disks to setup a mirror.
293Choose split balance algorithm, split only
294requests which are bigger than or equal to 2kB.
295Create file system,
296mount it, then unmount it and stop device:
297.Bd -literal -offset indent
298gmirror label -v -b split -s 2048 data da0 da1 da2
299newfs /dev/mirror/data
300mount /dev/mirror/data /mnt
301\&...
302umount /mnt
303gmirror stop data
304gmirror unload
305.Ed
306.Pp
307Create a mirror on disk with valid data (note that the last sector of the disk
308will be overwritten).
309Add another disk to this mirror,
310so it will be synchronized with existing disk:
311.Bd -literal -offset indent
312gmirror label -v -b round-robin data da0
313gmirror insert data da1
314.Ed
315.Pp
316Create a mirror, but do not use automatic synchronization feature.
317Add another disk and rebuild it:
318.Bd -literal -offset indent
319gmirror label -v -n -b load data da0 da1
320gmirror insert data da2
321gmirror rebuild data da2
322.Ed
323.Pp
324One disk failed.
325Replace it with a brand new one:
326.Bd -literal -offset indent
327gmirror forget data
328gmirror insert data da1
329.Ed
330.Pp
331Create a mirror, deactivate one component, do the backup and connect it again.
332It will not be resynchronized, if there is no need to do so (there were no writes in
333the meantime):
334.Bd -literal -offset indent
335gmirror label data da0 da1
336gmirror deactivate data da1
337dd if=/dev/da1 of=/backup/data.img bs=1m
338gmirror activate data da1
339.Ed
340.Sh SYSCTL VARIABLES
341The following
342.Xr sysctl 8
343variables can be used to configure behavior for all mirrors.
344.Bl -tag -width indent
345.It Va kern.geom.mirror.debug
346Control the verbosity of kernel logging related to mirrors.
347A value larger than 0 will enable debug logging.
348.It Va kern.geom.mirror.timeout
349The amount of time, in seconds, to wait for all copies of a mirror to
350appear before starting the mirror.
351Disks that appear after the mirror has been started are not automatically
352added to the mirror.
353.It Va kern.geom.mirror.idletime
354The amount of time, in seconds, which must elapse after the last write to
355a mirror before that mirror is marked clean.
356Clean mirrors do not need to be synchronized after a power failure or
357system crash.
358A small value may result in frequent overwrites of the disks' metadata
359sectors, and thus may reduce the longevity of the disks.
360.It Va kern.geom.mirror.disconnect_on_failure
361Determine whether a disk is automatically removed from its mirror when an
362I/O request to that disk fails.
363.It Va kern.geom.mirror.sync_requests
364The number of parallel I/O requests used while synchronizing a mirror.
365This parameter may only be configured as a
366.Xr loader.conf 5
367tunable.
368.It Va kern.geom.mirror.sync_update_period
369The period, in seconds, at which a synchronizing mirror's metadata is
370updated.
371Periodic updates are used to record a synchronization's progress so that
372an interrupted synchronization may be resumed starting at the recorded
373offset, rather than at the beginning.
374A smaller value results in more accurate progress tracking, but also
375increases the number of non-sequential writes to the disk being synchronized.
376If the sysctl value is 0, no updates are performed until the synchronization
377is complete.
378.El
379.Sh NOTES
380Doing kernel dumps to
381.Nm
382providers is possible, but some conditions have to be met.
383First of all, a kernel dump will go only to one component and
384.Nm
385always chooses the component with the highest priority.
386Reading a dump from the mirror on boot will only work if the
387.Cm prefer
388balance algorithm is used (that way
389.Nm
390will read only from the component with the highest priority).
391If you use a different balance algorithm, you should add:
392.Bd -literal -offset indent
393gmirror configure -b prefer data
394.Ed
395.Pp
396to the
397.Pa /etc/rc.early
398script and:
399.Bd -literal -offset indent
400gmirror configure -b round-robin data
401.Ed
402.Pp
403to the
404.Pa /etc/rc.local
405script.
406The decision which component to choose for dumping is made when
407.Xr dumpon 8
408is called.
409If on the next boot a component with a higher priority will be available,
410the prefer algorithm will choose to read from it and
411.Xr savecore 8
412will find nothing.
413If on the next boot a component with the highest priority will be synchronized,
414the prefer balance algorithm will read from the next one, thus will find nothing
415there.
416.Sh SEE ALSO
417.Xr geom 4 ,
418.Xr dumpon 8 ,
419.Xr geom 8 ,
420.Xr gvinum 8 ,
421.Xr mount 8 ,
422.Xr newfs 8 ,
423.Xr savecore 8 ,
424.Xr sysctl 8 ,
425.Xr umount 8
426.Sh HISTORY
427The
428.Nm
429utility appeared in
430.Fx 5.3 .
431.Sh AUTHORS
432.An Pawel Jakub Dawidek Aq Mt pjd@FreeBSD.org
433.Sh BUGS
434There should be a way to change a component's priority inside a running mirror.
435.Pp
436There should be a section with an implementation description.
437