xref: /freebsd/lib/geom/virstor/gvirstor.8 (revision 98fc0505155575df4170c863107153df2a751a13)
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25.\" $FreeBSD$
26.\"
27.Dd October 1, 2013
28.Dt GVIRSTOR 8
29.Os
30.Sh NAME
31.Nm gvirstor
32.Nd "control utility for virtual data storage devices"
33.Sh SYNOPSIS
34.Nm
35.Cm label
36.Op Fl hv
37.Op Fl s Ar virsize
38.Op Fl m Ar chunksize
39.Ar name
40.Ar prov ...
41.Nm
42.Cm stop
43.Op Fl fv
44.Ar name ...
45.Nm
46.Cm destroy
47.Op Fl fv
48.Ar name ...
49.Nm
50.Cm add
51.Op Fl vh
52.Ar name prov ...
53.Nm
54.Cm remove
55.Op Fl v
56.Ar name prov ...
57.Nm
58.Cm clear
59.Op Fl v
60.Ar prov ...
61.Nm
62.Cm dump
63.Ar prov ...
64.Nm
65.Cm list
66.Nm
67.Cm status
68.Nm
69.Cm load
70.Nm
71.Cm unload
72.Sh DESCRIPTION
73The
74.Nm
75utility is used for setting up a virtual storage device of arbitrary
76large size
77.Pq for example, several TB ,
78consisting of an arbitrary number of physical storage devices with the
79total size which is equal to or smaller than the virtual size.
80Data for the virtual devices will be allocated from physical devices on
81demand.
82The idea behind
83.Nm
84is similar to the concept of Virtual Memory in operating systems,
85effectively allowing users to overcommit on storage
86.Pq free file system space .
87The concept is also known as "thin provisioning" in virtualization
88environments, only here it is implemented on the level of physical storage
89devices.
90.Pp
91The first argument to
92.Nm
93indicates an action to be performed:
94.Bl -tag -width ".Cm remove"
95.It Cm label
96Set up a virtual device from the given components with the specified
97.Ar name .
98Metadata is stored in the last sector of every component.
99Argument
100.Fl s Ar virsize
101is the size of new virtual device, with default being set to 2 TiB
102.Pq 2097152 MiB .
103Argument
104.Fl m Ar chunksize
105is the chunk size, with default being set to 4 MiB
106.Pq 4096 KiB .
107The default arguments are thus
108.Qq Fl s Ar 2097152 Fl m Ar 4096 .
109.It Cm stop
110Turn off an existing virtual device with the given
111.Ar name .
112This command does not touch on-disk metadata.
113As with other GEOM classes, stopped geoms cannot be started manually.
114.It Cm destroy
115Same as
116.Cm stop.
117.It Cm add
118Adds new components to existing virtual device with the given
119.Ar name .
120The specified virstor device must exist and be active
121.Pq i.e. module loaded, device present in Pa /dev .
122This action can be safely performed while the virstor device is in use
123.Pq Qo hot Qc operation .
124.It Cm remove
125Removes components from existing virtual device with the given
126.Ar name .
127Only unallocated providers can be removed.
128.It Cm clear
129Clear metadata on the given providers.
130.It Cm dump
131Dump metadata stored on the given providers.
132.It Cm list
133See
134.Xr geom 8 .
135.It Cm status
136See
137.Xr geom 8 .
138.It Cm load
139See
140.Xr geom 8 .
141.It Cm unload
142See
143.Xr geom 8 .
144.El
145.Pp
146Additional options:
147.Bl -tag -width ".Fl f"
148.It Fl f
149Force the removal of the specified virtual device.
150.It Fl h
151Hardcode providers' names in metadata.
152.It Fl v
153Be more verbose.
154.El
155.Sh EXAMPLES
156The following example shows how to create a virtual device of default size
157.Pq 2 TiB ,
158of default chunk
159.Pq extent
160size
161.Pq 4 MiB ,
162with two physical devices for backing storage.
163.Bd -literal -offset indent
164.No gvirstor label -v Ar mydata Ar /dev/ada4 Ar /dev/ada6
165.No newfs Ar /dev/virstor/mydata
166.Ed
167.Pp
168From now on, the virtual device will be available via the
169.Pa /dev/virstor/mydata
170device entry.
171To add a new physical device / component to an active virstor device:
172.Bd -literal -offset indent
173.No gvirstor add Ar mydata Ar ada8
174.Ed
175.Pp
176This will add physical storage of
177.Ar ada8
178to
179.Pa /dev/virstor/mydata
180device.
181.Pp
182To see the device status information
183.Pq including how much physical storage is still available for the virtual device ,
184use:
185.Bd -literal -offset indent
186gvirstor list
187.Ed
188.Pp
189All standard
190.Xr geom 8
191subcommands
192.Pq e.g. Cm status , Cm help
193are also supported.
194.Sh SYSCTL VARIABLES
195.Nm
196has several
197.Xr sysctl 8
198tunable variables.
199.Bd -literal -offset indent
200.Va int kern.geom.virstor.debug
201.Ed
202.Pp
203This sysctl controls verbosity of the kernel module, in the range
2041 to 15.
205Messages that are marked with higher verbosity levels than this are
206suppressed.
207Default value is 5 and it is not recommended to set this tunable to less
208than 2, because level 1 messages are error events, and level 2 messages
209are system warnings.
210.Bd -literal -offset indent
211.Va int kern.geom.virstor.chunk_watermark
212.Ed
213.Pp
214Value in this sysctl sets warning watermark level for physical chunk
215usage on a single component.
216The warning is issued when a virstor component has less than this many
217free chunks
218.Pq default 100 .
219.Bd -literal -offset indent
220.Va int kern.geom.virstor.component_watermark
221.Ed
222.Pp
223Value in this sysctl sets warning watermark level for component usage.
224The warning is issued when there are less than this many unallocated
225components
226.Pq default is 1 .
227.Pp
228All these sysctls are also available as
229.Xr loader 8
230tunables.
231.Sh DIAGNOSTICS
232.Ex -std
233.Pp
234.Nm
235kernel module issues log messages with prefixes in standardized format,
236which is useful for log message filtering and dispatching.
237Each message line begins with
238.Bd -literal -offset indent
239.Li GEOM_VIRSTOR[%d]:
240.Ed
241.Pp
242The number
243.Pq %d
244is message verbosity / importance level, in the range 1 to 15.
245If a message filtering, dispatching or operator alert system is used, it
246is recommended that messages with levels 1 and 2 be taken seriously
247.Pq for example, to catch out-of-space conditions as set by watermark
248sysctls.
249.Sh SEE ALSO
250.Xr geom 4 ,
251.Xr fstab 5 ,
252.Xr geom 8 ,
253.Xr glabel 8 ,
254.Xr newfs 8
255.Sh HISTORY
256The
257.Nm
258utility first appeared in
259.Fx 7.0 .
260.Sh AUTHORS
261.An Ivan Voras Aq Mt ivoras@FreeBSD.org
262.Pp
263Sponsored by Google Summer of Code 2006.
264.Sh BUGS
265Commands
266.Cm add
267and
268.Cm remove
269contain unavoidable critical sections which may make the virstor
270device unusable if a power failure
271.Pq or other disruptive event
272happens during their execution.
273It is recommended to run them when the system is quiescent.
274.Sh ASSUMPTIONS AND INTERACTION WITH FILE SYSTEMS
275There are several assumptions that
276.Nm
277has in its operation: that the size of the virtual storage device will not
278change once it is set, and that the sizes of individual physical storage
279components will always remain constant during their existence.
280For alternative ways to implement virtual or resizable file systems see
281.Xr zfs 1M ,
282.Xr gconcat 8
283and
284.Xr growfs 8 .
285.Pp
286Note that
287.Nm
288has nontrivial interaction with file systems which initialize a large
289number of on-disk structures during newfs.
290If such file systems attempt to spread their structures across the drive
291media
292.Pq like UFS/UFS2 does ,
293their efforts will be effectively foiled by sequential allocation of
294chunks in
295.Nm
296and all their structures will be physically allocated at the start
297of the first virstor component.
298This could have a significant impact on file system performance
299.Pq which can in some rare cases be even positive .
300