xref: /titanic_52/usr/src/man/man1m/zpool.1m (revision f64ca10231919db05e806441ccd6186ea9c6e734)
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26.Dd February 15, 2016
27.Dt ZPOOL 1M
28.Os
29.Sh NAME
30.Nm zpool
31.Nd configure ZFS storage pools
32.Sh SYNOPSIS
33.Nm
34.Fl \?
35.Nm
36.Cm add
37.Op Fl fn
38.Ar pool vdev Ns ...
39.Nm
40.Cm attach
41.Op Fl f
42.Ar pool device new_device
43.Nm
44.Cm clear
45.Ar pool
46.Op Ar device
47.Nm
48.Cm create
49.Op Fl dfn
50.Op Fl m Ar mountpoint
51.Oo Fl o Ar property Ns = Ns Ar value Oc Ns ...
52.Oo Fl O Ar file-system-property Ns = Ns Ar value Oc Ns ...
53.Op Fl R Ar root
54.Ar pool vdev Ns ...
55.Nm
56.Cm destroy
57.Op Fl f
58.Ar pool
59.Nm
60.Cm detach
61.Ar pool device
62.Nm
63.Cm export
64.Op Fl f
65.Ar pool Ns ...
66.Nm
67.Cm get
68.Op Fl Hp
69.Op Fl o Ar field Ns Oo , Ns Ar field Oc Ns ...
70.Sy all Ns | Ns Ar property Ns Oo , Ns Ar property Oc Ns ...
71.Ar pool Ns ...
72.Nm
73.Cm history
74.Op Fl il
75.Oo Ar pool Oc Ns ...
76.Nm
77.Cm import
78.Op Fl D
79.Op Fl d Ar dir
80.Nm
81.Cm import
82.Fl a
83.Op Fl DfmN
84.Op Fl F Op Fl n
85.Op Fl c Ar cachefile Ns | Ns Fl d Ar dir
86.Op Fl o Ar mntopts
87.Oo Fl o Ar property Ns = Ns Ar value Oc Ns ...
88.Op Fl R Ar root
89.Nm
90.Cm import
91.Op Fl Dfm
92.Op Fl F Op Fl n
93.Op Fl c Ar cachefile Ns | Ns Fl d Ar dir
94.Op Fl o Ar mntopts
95.Oo Fl o Ar property Ns = Ns Ar value Oc Ns ...
96.Op Fl R Ar root
97.Ar pool Ns | Ns Ar id
98.Op Ar newpool
99.Nm
100.Cm iostat
101.Op Fl v
102.Op Fl T Sy u Ns | Ns Sy d
103.Oo Ar pool Oc Ns ...
104.Op Ar interval Op Ar count
105.Nm
106.Cm list
107.Op Fl Hpv
108.Op Fl o Ar property Ns Oo , Ns Ar property Oc Ns ...
109.Op Fl T Sy u Ns | Ns Sy d
110.Oo Ar pool Oc Ns ...
111.Op Ar interval Op Ar count
112.Nm
113.Cm offline
114.Op Fl t
115.Ar pool Ar device Ns ...
116.Nm
117.Cm online
118.Op Fl e
119.Ar pool Ar device Ns ...
120.Nm
121.Cm reguid
122.Ar pool
123.Nm
124.Cm reopen
125.Ar pool
126.Nm
127.Cm remove
128.Ar pool Ar device Ns ...
129.Nm
130.Cm replace
131.Op Fl f
132.Ar pool Ar device Op Ar new_device
133.Nm
134.Cm scrub
135.Op Fl s
136.Ar pool Ns ...
137.Nm
138.Cm set
139.Ar property Ns = Ns Ar value
140.Ar pool
141.Nm
142.Cm split
143.Op Fl n
144.Oo Fl o Ar property Ns = Ns Ar value Oc Ns ...
145.Op Fl R Ar root
146.Ar pool newpool
147.Nm
148.Cm status
149.Op Fl Dvx
150.Op Fl T Sy u Ns | Ns Sy d
151.Oo Ar pool Oc Ns ...
152.Op Ar interval Op Ar count
153.Nm
154.Cm upgrade
155.Nm
156.Cm upgrade
157.Fl v
158.Nm
159.Cm upgrade
160.Op Fl V Ar version
161.Fl a Ns | Ns Ar pool Ns ...
162.Sh DESCRIPTION
163The
164.Nm
165command configures ZFS storage pools. A storage pool is a collection of devices
166that provides physical storage and data replication for ZFS datasets. All
167datasets within a storage pool share the same space. See
168.Xr zfs 1M
169for information on managing datasets.
170.Ss Virtual Devices (vdevs)
171A "virtual device" describes a single device or a collection of devices
172organized according to certain performance and fault characteristics. The
173following virtual devices are supported:
174.Bl -tag -width Ds
175.It Sy disk
176A block device, typically located under
177.Pa /dev/dsk .
178ZFS can use individual slices or partitions, though the recommended mode of
179operation is to use whole disks. A disk can be specified by a full path, or it
180can be a shorthand name
181.Po the relative portion of the path under
182.Pa /dev/dsk
183.Pc .
184A whole disk can be specified by omitting the slice or partition designation.
185For example,
186.Pa c0t0d0
187is equivalent to
188.Pa /dev/dsk/c0t0d0s2 .
189When given a whole disk, ZFS automatically labels the disk, if necessary.
190.It Sy file
191A regular file. The use of files as a backing store is strongly discouraged. It
192is designed primarily for experimental purposes, as the fault tolerance of a
193file is only as good as the file system of which it is a part. A file must be
194specified by a full path.
195.It Sy mirror
196A mirror of two or more devices. Data is replicated in an identical fashion
197across all components of a mirror. A mirror with N disks of size X can hold X
198bytes and can withstand (N-1) devices failing before data integrity is
199compromised.
200.It Sy raidz , raidz1 , raidz2 , raidz3
201A variation on RAID-5 that allows for better distribution of parity and
202eliminates the RAID-5
203.Qq write hole
204.Pq in which data and parity become inconsistent after a power loss .
205Data and parity is striped across all disks within a raidz group.
206.Pp
207A raidz group can have single-, double-, or triple-parity, meaning that the
208raidz group can sustain one, two, or three failures, respectively, without
209losing any data. The
210.Sy raidz1
211vdev type specifies a single-parity raidz group; the
212.Sy raidz2
213vdev type specifies a double-parity raidz group; and the
214.Sy raidz3
215vdev type specifies a triple-parity raidz group. The
216.Sy raidz
217vdev type is an alias for
218.Sy raidz1 .
219.Pp
220A raidz group with N disks of size X with P parity disks can hold approximately
221(N-P)*X bytes and can withstand P device(s) failing before data integrity is
222compromised. The minimum number of devices in a raidz group is one more than
223the number of parity disks. The recommended number is between 3 and 9 to help
224increase performance.
225.It Sy spare
226A special pseudo-vdev which keeps track of available hot spares for a pool. For
227more information, see the
228.Sx Hot Spares
229section.
230.It Sy log
231A separate intent log device. If more than one log device is specified, then
232writes are load-balanced between devices. Log devices can be mirrored. However,
233raidz vdev types are not supported for the intent log. For more information,
234see the
235.Sx Intent Log
236section.
237.It Sy cache
238A device used to cache storage pool data. A cache device cannot be cannot be
239configured as a mirror or raidz group. For more information, see the
240.Sx Cache Devices
241section.
242.El
243.Pp
244Virtual devices cannot be nested, so a mirror or raidz virtual device can only
245contain files or disks. Mirrors of mirrors
246.Pq or other combinations
247are not allowed.
248.Pp
249A pool can have any number of virtual devices at the top of the configuration
250.Po known as
251.Qq root vdevs
252.Pc .
253Data is dynamically distributed across all top-level devices to balance data
254among devices. As new virtual devices are added, ZFS automatically places data
255on the newly available devices.
256.Pp
257Virtual devices are specified one at a time on the command line, separated by
258whitespace. The keywords
259.Sy mirror
260and
261.Sy raidz
262are used to distinguish where a group ends and another begins. For example,
263the following creates two root vdevs, each a mirror of two disks:
264.Bd -literal
265# zpool create mypool mirror c0t0d0 c0t1d0 mirror c1t0d0 c1t1d0
266.Ed
267.Ss Device Failure and Recovery
268ZFS supports a rich set of mechanisms for handling device failure and data
269corruption. All metadata and data is checksummed, and ZFS automatically repairs
270bad data from a good copy when corruption is detected.
271.Pp
272In order to take advantage of these features, a pool must make use of some form
273of redundancy, using either mirrored or raidz groups. While ZFS supports
274running in a non-redundant configuration, where each root vdev is simply a disk
275or file, this is strongly discouraged. A single case of bit corruption can
276render some or all of your data unavailable.
277.Pp
278A pool's health status is described by one of three states: online, degraded,
279or faulted. An online pool has all devices operating normally. A degraded pool
280is one in which one or more devices have failed, but the data is still
281available due to a redundant configuration. A faulted pool has corrupted
282metadata, or one or more faulted devices, and insufficient replicas to continue
283functioning.
284.Pp
285The health of the top-level vdev, such as mirror or raidz device, is
286potentially impacted by the state of its associated vdevs, or component
287devices. A top-level vdev or component device is in one of the following
288states:
289.Bl -tag -width "DEGRADED"
290.It Sy DEGRADED
291One or more top-level vdevs is in the degraded state because one or more
292component devices are offline. Sufficient replicas exist to continue
293functioning.
294.Pp
295One or more component devices is in the degraded or faulted state, but
296sufficient replicas exist to continue functioning. The underlying conditions
297are as follows:
298.Bl -bullet
299.It
300The number of checksum errors exceeds acceptable levels and the device is
301degraded as an indication that something may be wrong. ZFS continues to use the
302device as necessary.
303.It
304The number of I/O errors exceeds acceptable levels. The device could not be
305marked as faulted because there are insufficient replicas to continue
306functioning.
307.El
308.It Sy FAULTED
309One or more top-level vdevs is in the faulted state because one or more
310component devices are offline. Insufficient replicas exist to continue
311functioning.
312.Pp
313One or more component devices is in the faulted state, and insufficient
314replicas exist to continue functioning. The underlying conditions are as
315follows:
316.Bl -bullet
317.It
318The device could be opened, but the contents did not match expected values.
319.It
320The number of I/O errors exceeds acceptable levels and the device is faulted to
321prevent further use of the device.
322.El
323.It Sy OFFLINE
324The device was explicitly taken offline by the
325.Nm zpool Cm offline
326command.
327.It Sy ONLINE
328The device is online and functioning.
329.It Sy REMOVED
330The device was physically removed while the system was running. Device removal
331detection is hardware-dependent and may not be supported on all platforms.
332.It Sy UNAVAIL
333The device could not be opened. If a pool is imported when a device was
334unavailable, then the device will be identified by a unique identifier instead
335of its path since the path was never correct in the first place.
336.El
337.Pp
338If a device is removed and later re-attached to the system, ZFS attempts
339to put the device online automatically. Device attach detection is
340hardware-dependent and might not be supported on all platforms.
341.Ss Hot Spares
342ZFS allows devices to be associated with pools as
343.Qq hot spares .
344These devices are not actively used in the pool, but when an active device
345fails, it is automatically replaced by a hot spare. To create a pool with hot
346spares, specify a
347.Sy spare
348vdev with any number of devices. For example,
349.Bd -literal
350# zpool create pool mirror c0d0 c1d0 spare c2d0 c3d0
351.Ed
352.Pp
353Spares can be shared across multiple pools, and can be added with the
354.Nm zpool Cm add
355command and removed with the
356.Nm zpool Cm remove
357command. Once a spare replacement is initiated, a new
358.Sy spare
359vdev is created within the configuration that will remain there until the
360original device is replaced. At this point, the hot spare becomes available
361again if another device fails.
362.Pp
363If a pool has a shared spare that is currently being used, the pool can not be
364exported since other pools may use this shared spare, which may lead to
365potential data corruption.
366.Pp
367An in-progress spare replacement can be cancelled by detaching the hot spare.
368If the original faulted device is detached, then the hot spare assumes its
369place in the configuration, and is removed from the spare list of all active
370pools.
371.Pp
372Spares cannot replace log devices.
373.Ss Intent Log
374The ZFS Intent Log (ZIL) satisfies POSIX requirements for synchronous
375transactions. For instance, databases often require their transactions to be on
376stable storage devices when returning from a system call. NFS and other
377applications can also use
378.Xr fsync 3C
379to ensure data stability. By default, the intent log is allocated from blocks
380within the main pool. However, it might be possible to get better performance
381using separate intent log devices such as NVRAM or a dedicated disk. For
382example:
383.Bd -literal
384# zpool create pool c0d0 c1d0 log c2d0
385.Ed
386.Pp
387Multiple log devices can also be specified, and they can be mirrored. See the
388.Sx EXAMPLES
389section for an example of mirroring multiple log devices.
390.Pp
391Log devices can be added, replaced, attached, detached, and imported and
392exported as part of the larger pool. Mirrored log devices can be removed by
393specifying the top-level mirror for the log.
394.Ss Cache Devices
395Devices can be added to a storage pool as
396.Qq cache devices .
397These devices provide an additional layer of caching between main memory and
398disk. For read-heavy workloads, where the working set size is much larger than
399what can be cached in main memory, using cache devices allow much more of this
400working set to be served from low latency media. Using cache devices provides
401the greatest performance improvement for random read-workloads of mostly static
402content.
403.Pp
404To create a pool with cache devices, specify a
405.Sy cache
406vdev with any number of devices. For example:
407.Bd -literal
408# zpool create pool c0d0 c1d0 cache c2d0 c3d0
409.Ed
410.Pp
411Cache devices cannot be mirrored or part of a raidz configuration. If a read
412error is encountered on a cache device, that read I/O is reissued to the
413original storage pool device, which might be part of a mirrored or raidz
414configuration.
415.Pp
416The content of the cache devices is considered volatile, as is the case with
417other system caches.
418.Ss Properties
419Each pool has several properties associated with it. Some properties are
420read-only statistics while others are configurable and change the behavior of
421the pool.
422.Pp
423The following are read-only properties:
424.Bl -tag -width Ds
425.It Sy available
426Amount of storage available within the pool. This property can also be referred
427to by its shortened column name,
428.Sy avail .
429.It Sy capacity
430Percentage of pool space used. This property can also be referred to by its
431shortened column name,
432.Sy cap .
433.It Sy expandsize
434Amount of uninitialized space within the pool or device that can be used to
435increase the total capacity of the pool.  Uninitialized space consists of
436any space on an EFI labeled vdev which has not been brought online
437.Po e.g, using
438.Nm zpool Cm online Fl e
439.Pc .
440This space occurs when a LUN is dynamically expanded.
441.It Sy fragmentation
442The amount of fragmentation in the pool.
443.It Sy free
444The amount of free space available in the pool.
445.It Sy freeing
446After a file system or snapshot is destroyed, the space it was using is
447returned to the pool asynchronously.
448.Sy freeing
449is the amount of space remaining to be reclaimed. Over time
450.Sy freeing
451will decrease while
452.Sy free
453increases.
454.It Sy health
455The current health of the pool. Health can be one of
456.Sy ONLINE , DEGRADED , FAULTED , OFFLINE, REMOVED , UNAVAIL .
457.It Sy guid
458A unique identifier for the pool.
459.It Sy size
460Total size of the storage pool.
461.It Sy unsupported@ Ns Em feature_guid
462Information about unsupported features that are enabled on the pool. See
463.Xr zpool-features 5
464for details.
465.It Sy used
466Amount of storage space used within the pool.
467.El
468.Pp
469The space usage properties report actual physical space available to the
470storage pool. The physical space can be different from the total amount of
471space that any contained datasets can actually use. The amount of space used in
472a raidz configuration depends on the characteristics of the data being
473written. In addition, ZFS reserves some space for internal accounting
474that the
475.Xr zfs 1M
476command takes into account, but the
477.Nm
478command does not. For non-full pools of a reasonable size, these effects should
479be invisible. For small pools, or pools that are close to being completely
480full, these discrepancies may become more noticeable.
481.Pp
482The following property can be set at creation time and import time:
483.Bl -tag -width Ds
484.It Sy altroot
485Alternate root directory. If set, this directory is prepended to any mount
486points within the pool. This can be used when examining an unknown pool where
487the mount points cannot be trusted, or in an alternate boot environment, where
488the typical paths are not valid.
489.Sy altroot
490is not a persistent property. It is valid only while the system is up. Setting
491.Sy altroot
492defaults to using
493.Sy cachefile Ns = Ns Sy none ,
494though this may be overridden using an explicit setting.
495.El
496.Pp
497The following property can be set only at import time:
498.Bl -tag -width Ds
499.It Sy readonly Ns = Ns Sy on Ns | Ns Sy off
500If set to
501.Sy on ,
502the pool will be imported in read-only mode. This property can also be referred
503to by its shortened column name,
504.Sy rdonly .
505.El
506.Pp
507The following properties can be set at creation time and import time, and later
508changed with the
509.Nm zpool Cm set
510command:
511.Bl -tag -width Ds
512.It Sy autoexpand Ns = Ns Sy on Ns | Ns Sy off
513Controls automatic pool expansion when the underlying LUN is grown. If set to
514.Sy on ,
515the pool will be resized according to the size of the expanded device. If the
516device is part of a mirror or raidz then all devices within that mirror/raidz
517group must be expanded before the new space is made available to the pool. The
518default behavior is
519.Sy off .
520This property can also be referred to by its shortened column name,
521.Sy expand .
522.It Sy autoreplace Ns = Ns Sy on Ns | Ns Sy off
523Controls automatic device replacement. If set to
524.Sy off ,
525device replacement must be initiated by the administrator by using the
526.Nm zpool Cm replace
527command. If set to
528.Sy on ,
529any new device, found in the same physical location as a device that previously
530belonged to the pool, is automatically formatted and replaced. The default
531behavior is
532.Sy off .
533This property can also be referred to by its shortened column name,
534.Sy replace .
535.It Sy bootfs Ns = Ns Ar pool Ns / Ns Ar dataset
536Identifies the default bootable dataset for the root pool. This property is
537expected to be set mainly by the installation and upgrade programs.
538.It Sy cachefile Ns = Ns Ar path Ns | Ns Sy none
539Controls the location of where the pool configuration is cached. Discovering
540all pools on system startup requires a cached copy of the configuration data
541that is stored on the root file system. All pools in this cache are
542automatically imported when the system boots. Some environments, such as
543install and clustering, need to cache this information in a different location
544so that pools are not automatically imported. Setting this property caches the
545pool configuration in a different location that can later be imported with
546.Nm zpool Cm import Fl c .
547Setting it to the special value
548.Sy none
549creates a temporary pool that is never cached, and the special value
550.Qq
551.Pq empty string
552uses the default location.
553.Pp
554Multiple pools can share the same cache file. Because the kernel destroys and
555recreates this file when pools are added and removed, care should be taken when
556attempting to access this file. When the last pool using a
557.Sy cachefile
558is exported or destroyed, the file is removed.
559.It Sy comment Ns = Ns Ar text
560A text string consisting of printable ASCII characters that will be stored
561such that it is available even if the pool becomes faulted.  An administrator
562can provide additional information about a pool using this property.
563.It Sy dedupditto Ns = Ns Ar number
564Threshold for the number of block ditto copies. If the reference count for a
565deduplicated block increases above this number, a new ditto copy of this block
566is automatically stored. The default setting is
567.Sy 0
568which causes no ditto copies to be created for deduplicated blocks. The miniumum
569legal nonzero setting is
570.Sy 100 .
571.It Sy delegation Ns = Ns Sy on Ns | Ns Sy off
572Controls whether a non-privileged user is granted access based on the dataset
573permissions defined on the dataset. See
574.Xr zfs 1M
575for more information on ZFS delegated administration.
576.It Sy failmode Ns = Ns Sy wait Ns | Ns Sy continue Ns | Ns Sy panic
577Controls the system behavior in the event of catastrophic pool failure. This
578condition is typically a result of a loss of connectivity to the underlying
579storage device(s) or a failure of all devices within the pool. The behavior of
580such an event is determined as follows:
581.Bl -tag -width "continue"
582.It Sy wait
583Blocks all I/O access until the device connectivity is recovered and the errors
584are cleared. This is the default behavior.
585.It Sy continue
586Returns
587.Er EIO
588to any new write I/O requests but allows reads to any of the remaining healthy
589devices. Any write requests that have yet to be committed to disk would be
590blocked.
591.It Sy panic
592Prints out a message to the console and generates a system crash dump.
593.El
594.It Sy feature@ Ns Ar feature_name Ns = Ns Sy enabled
595The value of this property is the current state of
596.Ar feature_name .
597The only valid value when setting this property is
598.Sy enabled
599which moves
600.Ar feature_name
601to the enabled state. See
602.Xr zpool-features 5
603for details on feature states.
604.It Sy listsnaps Ns = Ns Sy on Ns | Ns Sy off
605Controls whether information about snapshots associated with this pool is
606output when
607.Nm zfs Cm list
608is run without the
609.Fl t
610option. The default value is
611.Sy off .
612.It Sy version Ns = Ns Ar version
613The current on-disk version of the pool. This can be increased, but never
614decreased. The preferred method of updating pools is with the
615.Nm zpool Cm upgrade
616command, though this property can be used when a specific version is needed for
617backwards compatibility. Once feature flags is enabled on a pool this property
618will no longer have a value.
619.El
620.Ss Subcommands
621All subcommands that modify state are logged persistently to the pool in their
622original form.
623.Pp
624The
625.Nm
626command provides subcommands to create and destroy storage pools, add capacity
627to storage pools, and provide information about the storage pools. The
628following subcommands are supported:
629.Bl -tag -width Ds
630.It Xo
631.Nm
632.Fl \?
633.Xc
634Displays a help message.
635.It Xo
636.Nm
637.Cm add
638.Op Fl fn
639.Ar pool vdev Ns ...
640.Xc
641Adds the specified virtual devices to the given pool. The
642.Ar vdev
643specification is described in the
644.Sx Virtual Devices
645section. The behavior of the
646.Fl f
647option, and the device checks performed are described in the
648.Nm zpool Cm create
649subcommand.
650.Bl -tag -width Ds
651.It Fl f
652Forces use of
653.Ar vdev Ns s ,
654even if they appear in use or specify a conflicting replication level. Not all
655devices can be overridden in this manner.
656.It Fl n
657Displays the configuration that would be used without actually adding the
658.Ar vdev Ns s .
659The actual pool creation can still fail due to insufficient privileges or
660device sharing.
661.El
662.It Xo
663.Nm
664.Cm attach
665.Op Fl f
666.Ar pool device new_device
667.Xc
668Attaches
669.Ar new_device
670to the existing
671.Ar device .
672The existing device cannot be part of a raidz configuration. If
673.Ar device
674is not currently part of a mirrored configuration,
675.Ar device
676automatically transforms into a two-way mirror of
677.Ar device
678and
679.Ar new_device .
680If
681.Ar device
682is part of a two-way mirror, attaching
683.Ar new_device
684creates a three-way mirror, and so on. In either case,
685.Ar new_device
686begins to resilver immediately.
687.Bl -tag -width Ds
688.It Fl f
689Forces use of
690.Ar new_device ,
691even if its appears to be in use. Not all devices can be overridden in this
692manner.
693.El
694.It Xo
695.Nm
696.Cm clear
697.Ar pool
698.Op Ar device
699.Xc
700Clears device errors in a pool. If no arguments are specified, all device
701errors within the pool are cleared. If one or more devices is specified, only
702those errors associated with the specified device or devices are cleared.
703.It Xo
704.Nm
705.Cm create
706.Op Fl dfn
707.Op Fl m Ar mountpoint
708.Oo Fl o Ar property Ns = Ns Ar value Oc Ns ...
709.Oo Fl O Ar file-system-property Ns = Ns Ar value Oc Ns ...
710.Op Fl R Ar root
711.Ar pool vdev Ns ...
712.Xc
713Creates a new storage pool containing the virtual devices specified on the
714command line. The pool name must begin with a letter, and can only contain
715alphanumeric characters as well as underscore
716.Pq Qq Sy _ ,
717dash
718.Pq Qq Sy - ,
719and period
720.Pq Qq Sy \&. .
721The pool names
722.Sy mirror ,
723.Sy raidz ,
724.Sy spare
725and
726.Sy log
727are reserved, as are names beginning with the pattern
728.Sy c[0-9] .
729The
730.Ar vdev
731specification is described in the
732.Sx Virtual Devices
733section.
734.Pp
735The command verifies that each device specified is accessible and not currently
736in use by another subsystem. There are some uses, such as being currently
737mounted, or specified as the dedicated dump device, that prevents a device from
738ever being used by ZFS . Other uses, such as having a preexisting UFS file
739system, can be overridden with the
740.Fl f
741option.
742.Pp
743The command also checks that the replication strategy for the pool is
744consistent. An attempt to combine redundant and non-redundant storage in a
745single pool, or to mix disks and files, results in an error unless
746.Fl f
747is specified. The use of differently sized devices within a single raidz or
748mirror group is also flagged as an error unless
749.Fl f
750is specified.
751.Pp
752Unless the
753.Fl R
754option is specified, the default mount point is
755.Pa / Ns Ar pool .
756The mount point must not exist or must be empty, or else the root dataset
757cannot be mounted. This can be overridden with the
758.Fl m
759option.
760.Pp
761By default all supported features are enabled on the new pool unless the
762.Fl d
763option is specified.
764.Bl -tag -width Ds
765.It Fl d
766Do not enable any features on the new pool. Individual features can be enabled
767by setting their corresponding properties to
768.Sy enabled
769with the
770.Fl o
771option. See
772.Xr zpool-features 5
773for details about feature properties.
774.It Fl f
775Forces use of
776.Ar vdev Ns s ,
777even if they appear in use or specify a conflicting replication level. Not all
778devices can be overridden in this manner.
779.It Fl m Ar mountpoint
780Sets the mount point for the root dataset. The default mount point is
781.Pa /pool
782or
783.Pa altroot/pool
784if
785.Ar altroot
786is specified. The mount point must be an absolute path,
787.Sy legacy ,
788or
789.Sy none .
790For more information on dataset mount points, see
791.Xr zfs 1M .
792.It Fl n
793Displays the configuration that would be used without actually creating the
794pool. The actual pool creation can still fail due to insufficient privileges or
795device sharing.
796.It Fl o Ar property Ns = Ns Ar value
797Sets the given pool properties. See the
798.Sx Properties
799section for a list of valid properties that can be set.
800.It Fl O Ar file-system-property Ns = Ns Ar value
801Sets the given file system properties in the root file system of the pool. See
802the
803.Sx Properties
804section of
805.Xr zfs 1M
806for a list of valid properties that can be set.
807.It Fl R Ar root
808Equivalent to
809.Fl o Sy cachefile Ns = Ns Sy none Fl o Sy altroot Ns = Ns Ar root
810.El
811.It Xo
812.Nm
813.Cm destroy
814.Op Fl f
815.Ar pool
816.Xc
817Destroys the given pool, freeing up any devices for other use. This command
818tries to unmount any active datasets before destroying the pool.
819.Bl -tag -width Ds
820.It Fl f
821Forces any active datasets contained within the pool to be unmounted.
822.El
823.It Xo
824.Nm
825.Cm detach
826.Ar pool device
827.Xc
828Detaches
829.Ar device
830from a mirror. The operation is refused if there are no other valid replicas of
831the data.
832.It Xo
833.Nm
834.Cm export
835.Op Fl f
836.Ar pool Ns ...
837.Xc
838Exports the given pools from the system. All devices are marked as exported,
839but are still considered in use by other subsystems. The devices can be moved
840between systems
841.Pq even those of different endianness
842and imported as long as a sufficient number of devices are present.
843.Pp
844Before exporting the pool, all datasets within the pool are unmounted. A pool
845can not be exported if it has a shared spare that is currently being used.
846.Pp
847For pools to be portable, you must give the
848.Nm
849command whole disks, not just slices, so that ZFS can label the disks with
850portable EFI labels. Otherwise, disk drivers on platforms of different
851endianness will not recognize the disks.
852.Bl -tag -width Ds
853.It Fl f
854Forcefully unmount all datasets, using the
855.Nm unmount Fl f
856command.
857.Pp
858This command will forcefully export the pool even if it has a shared spare that
859is currently being used. This may lead to potential data corruption.
860.El
861.It Xo
862.Nm
863.Cm get
864.Op Fl Hp
865.Op Fl o Ar field Ns Oo , Ns Ar field Oc Ns ...
866.Sy all Ns | Ns Ar property Ns Oo , Ns Ar property Oc Ns ...
867.Ar pool Ns ...
868.Xc
869Retrieves the given list of properties
870.Po
871or all properties if
872.Sy all
873is used
874.Pc
875for the specified storage pool(s). These properties are displayed with
876the following fields:
877.Bd -literal
878        name          Name of storage pool
879        property      Property name
880        value         Property value
881        source        Property source, either 'default' or 'local'.
882.Ed
883.Pp
884See the
885.Sx Properties
886section for more information on the available pool properties.
887.Bl -tag -width Ds
888.It Fl H
889Scripted mode. Do not display headers, and separate fields by a single tab
890instead of arbitrary space.
891.It Fl o Ar field
892A comma-separated list of columns to display.
893.Sy name Ns , Ns Sy property Ns , Ns Sy value Ns , Ns Sy source
894is the default value.
895.It Fl p
896Display numbers in parsable (exact) values.
897.El
898.It Xo
899.Nm
900.Cm history
901.Op Fl il
902.Oo Ar pool Oc Ns ...
903.Xc
904Displays the command history of the specified pool(s) or all pools if no pool is
905specified.
906.Bl -tag -width Ds
907.It Fl i
908Displays internally logged ZFS events in addition to user initiated events.
909.It Fl l
910Displays log records in long format, which in addition to standard format
911includes, the user name, the hostname, and the zone in which the operation was
912performed.
913.El
914.It Xo
915.Nm
916.Cm import
917.Op Fl D
918.Op Fl d Ar dir
919.Xc
920Lists pools available to import. If the
921.Fl d
922option is not specified, this command searches for devices in
923.Pa /dev/dsk .
924The
925.Fl d
926option can be specified multiple times, and all directories are searched. If the
927device appears to be part of an exported pool, this command displays a summary
928of the pool with the name of the pool, a numeric identifier, as well as the vdev
929layout and current health of the device for each device or file. Destroyed
930pools, pools that were previously destroyed with the
931.Nm zpool Cm destroy
932command, are not listed unless the
933.Fl D
934option is specified.
935.Pp
936The numeric identifier is unique, and can be used instead of the pool name when
937multiple exported pools of the same name are available.
938.Bl -tag -width Ds
939.It Fl c Ar cachefile
940Reads configuration from the given
941.Ar cachefile
942that was created with the
943.Sy cachefile
944pool property. This
945.Ar cachefile
946is used instead of searching for devices.
947.It Fl d Ar dir
948Searches for devices or files in
949.Ar dir .
950The
951.Fl d
952option can be specified multiple times.
953.It Fl D
954Lists destroyed pools only.
955.El
956.It Xo
957.Nm
958.Cm import
959.Fl a
960.Op Fl DfmN
961.Op Fl F Op Fl n
962.Op Fl c Ar cachefile Ns | Ns Fl d Ar dir
963.Op Fl o Ar mntopts
964.Oo Fl o Ar property Ns = Ns Ar value Oc Ns ...
965.Op Fl R Ar root
966.Xc
967Imports all pools found in the search directories. Identical to the previous
968command, except that all pools with a sufficient number of devices available are
969imported. Destroyed pools, pools that were previously destroyed with the
970.Nm zpool Cm destroy
971command, will not be imported unless the
972.Fl D
973option is specified.
974.Bl -tag -width Ds
975.It Fl a
976Searches for and imports all pools found.
977.It Fl c Ar cachefile
978Reads configuration from the given
979.Ar cachefile
980that was created with the
981.Sy cachefile
982pool property. This
983.Ar cachefile
984is used instead of searching for devices.
985.It Fl d Ar dir
986Searches for devices or files in
987.Ar dir .
988The
989.Fl d
990option can be specified multiple times. This option is incompatible with the
991.Fl c
992option.
993.It Fl D
994Imports destroyed pools only. The
995.Fl f
996option is also required.
997.It Fl f
998Forces import, even if the pool appears to be potentially active.
999.It Fl F
1000Recovery mode for a non-importable pool. Attempt to return the pool to an
1001importable state by discarding the last few transactions. Not all damaged pools
1002can be recovered by using this option. If successful, the data from the
1003discarded transactions is irretrievably lost. This option is ignored if the pool
1004is importable or already imported.
1005.It Fl m
1006Allows a pool to import when there is a missing log device. Recent transactions
1007can be lost because the log device will be discarded.
1008.It Fl n
1009Used with the
1010.Fl F
1011recovery option. Determines whether a non-importable pool can be made importable
1012again, but does not actually perform the pool recovery. For more details about
1013pool recovery mode, see the
1014.Fl F
1015option, above.
1016.It Fl N
1017Import the pool without mounting any file systems.
1018.It Fl o Ar mntopts
1019Comma-separated list of mount options to use when mounting datasets within the
1020pool. See
1021.Xr zfs 1M
1022for a description of dataset properties and mount options.
1023.It Fl o Ar property Ns = Ns Ar value
1024Sets the specified property on the imported pool. See the
1025.Sx Properties
1026section for more information on the available pool properties.
1027.It Fl R Ar root
1028Sets the
1029.Sy cachefile
1030property to
1031.Sy none
1032and the
1033.Sy altroot
1034property to
1035.Ar root .
1036.El
1037.It Xo
1038.Nm
1039.Cm import
1040.Op Fl Dfm
1041.Op Fl F Op Fl n
1042.Op Fl c Ar cachefile Ns | Ns Fl d Ar dir
1043.Op Fl o Ar mntopts
1044.Oo Fl o Ar property Ns = Ns Ar value Oc Ns ...
1045.Op Fl R Ar root
1046.Ar pool Ns | Ns Ar id
1047.Op Ar newpool
1048.Xc
1049Imports a specific pool. A pool can be identified by its name or the numeric
1050identifier. If
1051.Ar newpool
1052is specified, the pool is imported using the name
1053.Ar newpool .
1054Otherwise, it is imported with the same name as its exported name.
1055.Pp
1056If a device is removed from a system without running
1057.Nm zpool Cm export
1058first, the device appears as potentially active. It cannot be determined if
1059this was a failed export, or whether the device is really in use from another
1060host. To import a pool in this state, the
1061.Fl f
1062option is required.
1063.Bl -tag -width Ds
1064.It Fl c Ar cachefile
1065Reads configuration from the given
1066.Ar cachefile
1067that was created with the
1068.Sy cachefile
1069pool property. This
1070.Ar cachefile
1071is used instead of searching for devices.
1072.It Fl d Ar dir
1073Searches for devices or files in
1074.Ar dir .
1075The
1076.Fl d
1077option can be specified multiple times. This option is incompatible with the
1078.Fl c
1079option.
1080.It Fl D
1081Imports destroyed pool. The
1082.Fl f
1083option is also required.
1084.It Fl f
1085Forces import, even if the pool appears to be potentially active.
1086.It Fl F
1087Recovery mode for a non-importable pool. Attempt to return the pool to an
1088importable state by discarding the last few transactions. Not all damaged pools
1089can be recovered by using this option. If successful, the data from the
1090discarded transactions is irretrievably lost. This option is ignored if the pool
1091is importable or already imported.
1092.It Fl m
1093Allows a pool to import when there is a missing log device. Recent transactions
1094can be lost because the log device will be discarded.
1095.It Fl n
1096Used with the
1097.Fl F
1098recovery option. Determines whether a non-importable pool can be made importable
1099again, but does not actually perform the pool recovery. For more details about
1100pool recovery mode, see the
1101.Fl F
1102option, above.
1103.It Fl o Ar mntopts
1104Comma-separated list of mount options to use when mounting datasets within the
1105pool. See
1106.Xr zfs 1M
1107for a description of dataset properties and mount options.
1108.It Fl o Ar property Ns = Ns Ar value
1109Sets the specified property on the imported pool. See the
1110.Sx Properties
1111section for more information on the available pool properties.
1112.It Fl R Ar root
1113Sets the
1114.Sy cachefile
1115property to
1116.Sy none
1117and the
1118.Sy altroot
1119property to
1120.Ar root .
1121.El
1122.It Xo
1123.Nm
1124.Cm iostat
1125.Op Fl v
1126.Op Fl T Sy u Ns | Ns Sy d
1127.Oo Ar pool Oc Ns ...
1128.Op Ar interval Op Ar count
1129.Xc
1130Displays I/O statistics for the given pools. When given an
1131.Ar interval ,
1132the statistics are printed every
1133.Ar interval
1134seconds until ^C is pressed. If no
1135.Ar pool Ns s
1136are specified, statistics for every pool in the system is shown. If
1137.Ar count
1138is specified, the command exits after
1139.Ar count
1140reports are printed.
1141.Bl -tag -width Ds
1142.It Fl T Sy u Ns | Ns Sy d
1143Display a time stamp. Specify
1144.Sy u
1145for a printed representation of the internal representation of time. See
1146.Xr time 2 .
1147Specify
1148.Sy d
1149for standard date format. See
1150.Xr date 1 .
1151.It Fl v
1152Verbose statistics. Reports usage statistics for individual vdevs within the
1153pool, in addition to the pool-wide statistics.
1154.El
1155.It Xo
1156.Nm
1157.Cm list
1158.Op Fl Hpv
1159.Op Fl o Ar property Ns Oo , Ns Ar property Oc Ns ...
1160.Op Fl T Sy u Ns | Ns Sy d
1161.Oo Ar pool Oc Ns ...
1162.Op Ar interval Op Ar count
1163.Xc
1164Lists the given pools along with a health status and space usage. If no
1165.Ar pool Ns s
1166are specified, all pools in the system are listed. When given an
1167.Ar interval ,
1168the information is printed every
1169.Ar interval
1170seconds until ^C is pressed. If
1171.Ar count
1172is specified, the command exits after
1173.Ar count
1174reports are printed.
1175.Bl -tag -width Ds
1176.It Fl H
1177Scripted mode. Do not display headers, and separate fields by a single tab
1178instead of arbitrary space.
1179.It Fl o Ar property
1180Comma-separated list of properties to display. See the
1181.Sx Properties
1182section for a list of valid properties. The default list is
1183.Sy name , size , used , available , fragmentation , expandsize , capacity ,
1184.Sy dedupratio , health , altroot .
1185.It Fl p
1186Display numbers in parsable
1187.Pq exact
1188values.
1189.It Fl T Sy u Ns | Ns Sy d
1190Display a time stamp. Specify
1191.Fl u
1192for a printed representation of the internal representation of time. See
1193.Xr time 2 .
1194Specify
1195.Fl d
1196for standard date format. See
1197.Xr date 1 .
1198.It Fl v
1199Verbose statistics. Reports usage statistics for individual vdevs within the
1200pool, in addition to the pool-wise statistics.
1201.El
1202.It Xo
1203.Nm
1204.Cm offline
1205.Op Fl t
1206.Ar pool Ar device Ns ...
1207.Xc
1208Takes the specified physical device offline. While the
1209.Ar device
1210is offline, no attempt is made to read or write to the device. This command is
1211not applicable to spares.
1212.Bl -tag -width Ds
1213.It Fl t
1214Temporary. Upon reboot, the specified physical device reverts to its previous
1215state.
1216.El
1217.It Xo
1218.Nm
1219.Cm online
1220.Op Fl e
1221.Ar pool Ar device Ns ...
1222.Xc
1223Brings the specified physical device online. This command is not applicable to
1224spares.
1225.Bl -tag -width Ds
1226.It Fl e
1227Expand the device to use all available space. If the device is part of a mirror
1228or raidz then all devices must be expanded before the new space will become
1229available to the pool.
1230.El
1231.It Xo
1232.Nm
1233.Cm reguid
1234.Ar pool
1235.Xc
1236Generates a new unique identifier for the pool. You must ensure that all devices
1237in this pool are online and healthy before performing this action.
1238.It Xo
1239.Nm
1240.Cm reopen
1241.Ar pool
1242.Xc
1243Reopen all the vdevs associated with the pool.
1244.It Xo
1245.Nm
1246.Cm remove
1247.Ar pool Ar device Ns ...
1248.Xc
1249Removes the specified device from the pool. This command currently only supports
1250removing hot spares, cache, and log devices. A mirrored log device can be
1251removed by specifying the top-level mirror for the log. Non-log devices that are
1252part of a mirrored configuration can be removed using the
1253.Nm zpool Cm detach
1254command. Non-redundant and raidz devices cannot be removed from a pool.
1255.It Xo
1256.Nm
1257.Cm replace
1258.Op Fl f
1259.Ar pool Ar device Op Ar new_device
1260.Xc
1261Replaces
1262.Ar old_device
1263with
1264.Ar new_device .
1265This is equivalent to attaching
1266.Ar new_device ,
1267waiting for it to resilver, and then detaching
1268.Ar old_device .
1269.Pp
1270The size of
1271.Ar new_device
1272must be greater than or equal to the minimum size of all the devices in a mirror
1273or raidz configuration.
1274.Pp
1275.Ar new_device
1276is required if the pool is not redundant. If
1277.Ar new_device
1278is not specified, it defaults to
1279.Ar old_device .
1280This form of replacement is useful after an existing disk has failed and has
1281been physically replaced. In this case, the new disk may have the same
1282.Pa /dev/dsk
1283path as the old device, even though it is actually a different disk. ZFS
1284recognizes this.
1285.Bl -tag -width Ds
1286.It Fl f
1287Forces use of
1288.Ar new_device ,
1289even if its appears to be in use. Not all devices can be overridden in this
1290manner.
1291.El
1292.It Xo
1293.Nm
1294.Cm scrub
1295.Op Fl s
1296.Ar pool Ns ...
1297.Xc
1298Begins a scrub. The scrub examines all data in the specified pools to verify
1299that it checksums correctly. For replicated
1300.Pq mirror or raidz
1301devices, ZFS automatically repairs any damage discovered during the scrub. The
1302.Nm zpool Cm status
1303command reports the progress of the scrub and summarizes the results of the
1304scrub upon completion.
1305.Pp
1306Scrubbing and resilvering are very similar operations. The difference is that
1307resilvering only examines data that ZFS knows to be out of date
1308.Po
1309for example, when attaching a new device to a mirror or replacing an existing
1310device
1311.Pc ,
1312whereas scrubbing examines all data to discover silent errors due to hardware
1313faults or disk failure.
1314.Pp
1315Because scrubbing and resilvering are I/O-intensive operations, ZFS only allows
1316one at a time. If a scrub is already in progress, the
1317.Nm zpool Cm scrub
1318command terminates it and starts a new scrub. If a resilver is in progress, ZFS
1319does not allow a scrub to be started until the resilver completes.
1320.Bl -tag -width Ds
1321.It Fl s
1322Stop scrubbing.
1323.El
1324.It Xo
1325.Nm
1326.Cm set
1327.Ar property Ns = Ns Ar value
1328.Ar pool
1329.Xc
1330Sets the given property on the specified pool. See the
1331.Sx Properties
1332section for more information on what properties can be set and acceptable
1333values.
1334.It Xo
1335.Nm
1336.Cm split
1337.Op Fl n
1338.Oo Fl o Ar property Ns = Ns Ar value Oc Ns ...
1339.Op Fl R Ar root
1340.Ar pool newpool
1341.Xc
1342Splits devices off
1343.Ar pool
1344creating
1345.Ar newpool .
1346All vdevs in
1347.Ar pool
1348must be mirrors. At the time of the split,
1349.Ar newpool
1350will be a replica of
1351.Ar pool .
1352.Bl -tag -width Ds
1353.It Fl n
1354Do dry run, do not actually perform the split. Print out the expected
1355configuration of
1356.Ar newpool .
1357.It Fl o Ar property Ns = Ns Ar value
1358Sets the specified property for
1359.Ar newpool .
1360See the
1361.Sx Properties
1362section for more information on the available pool properties.
1363.It Fl R Ar root
1364Set
1365.Sy altroot
1366for
1367.Ar newpool
1368to
1369.Ar root
1370and automaticaly import it.
1371.El
1372.It Xo
1373.Nm
1374.Cm status
1375.Op Fl Dvx
1376.Op Fl T Sy u Ns | Ns Sy d
1377.Oo Ar pool Oc Ns ...
1378.Op Ar interval Op Ar count
1379.Xc
1380Displays the detailed health status for the given pools. If no
1381.Ar pool
1382is specified, then the status of each pool in the system is displayed. For more
1383information on pool and device health, see the
1384.Sx Device Failure and Recovery
1385section.
1386.Pp
1387If a scrub or resilver is in progress, this command reports the percentage done
1388and the estimated time to completion. Both of these are only approximate,
1389because the amount of data in the pool and the other workloads on the system can
1390change.
1391.Bl -tag -width Ds
1392.It Fl D
1393Display a histogram of deduplication statistics, showing the allocated
1394.Pq physically present on disk
1395and referenced
1396.Pq logically referenced in the pool
1397block counts and sizes by reference count.
1398.It Fl T Sy u Ns | Ns Sy d
1399Display a time stamp. Specify
1400.Fl u
1401for a printed representation of the internal representation of time. See
1402.Xr time 2 .
1403Specify
1404.Fl d
1405for standard date format. See
1406.Xr date 1 .
1407.It Fl v
1408Displays verbose data error information, printing out a complete list of all
1409data errors since the last complete pool scrub.
1410.It Fl x
1411Only display status for pools that are exhibiting errors or are otherwise
1412unavailable. Warnings about pools not using the latest on-disk format will not
1413be included.
1414.El
1415.It Xo
1416.Nm
1417.Cm upgrade
1418.Xc
1419Displays pools which do not have all supported features enabled and pools
1420formatted using a legacy ZFS version number. These pools can continue to be
1421used, but some features may not be available. Use
1422.Nm zpool Cm upgrade Fl a
1423to enable all features on all pools.
1424.It Xo
1425.Nm
1426.Cm upgrade
1427.Fl v
1428.Xc
1429Displays legacy ZFS versions supported by the current software. See
1430.Xr zpool-features 5
1431for a description of feature flags features supported by the current software.
1432.It Xo
1433.Nm
1434.Cm upgrade
1435.Op Fl V Ar version
1436.Fl a Ns | Ns Ar pool Ns ...
1437.Xc
1438Enables all supported features on the given pool. Once this is done, the pool
1439will no longer be accessible on systems that do not support feature flags. See
1440.Xr zpool-features 5
1441for details on compatibility with systems that support feature flags, but do not
1442support all features enabled on the pool.
1443.Bl -tag -width Ds
1444.It Fl a
1445Enables all supported features on all pools.
1446.It Fl V Ar version
1447Upgrade to the specified legacy version. If the
1448.Fl V
1449flag is specified, no features will be enabled on the pool. This option can only
1450be used to increase the version number up to the last supported legacy version
1451number.
1452.El
1453.El
1454.Sh EXIT STATUS
1455The following exit values are returned:
1456.Bl -tag -width Ds
1457.It Sy 0
1458Successful completion.
1459.It Sy 1
1460An error occurred.
1461.It Sy 2
1462Invalid command line options were specified.
1463.El
1464.Sh EXAMPLES
1465.Bl -tag -width Ds
1466.It Sy Example 1 No Creating a RAID-Z Storage Pool
1467The following command creates a pool with a single raidz root vdev that
1468consists of six disks.
1469.Bd -literal
1470# zpool create tank raidz c0t0d0 c0t1d0 c0t2d0 c0t3d0 c0t4d0 c0t5d0
1471.Ed
1472.It Sy Example 2 No Creating a Mirrored Storage Pool
1473The following command creates a pool with two mirrors, where each mirror
1474contains two disks.
1475.Bd -literal
1476# zpool create tank mirror c0t0d0 c0t1d0 mirror c0t2d0 c0t3d0
1477.Ed
1478.It Sy Example 3 No Creating a ZFS Storage Pool by Using Slices
1479The following command creates an unmirrored pool using two disk slices.
1480.Bd -literal
1481# zpool create tank /dev/dsk/c0t0d0s1 c0t1d0s4
1482.Ed
1483.It Sy Example 4 No Creating a ZFS Storage Pool by Using Files
1484The following command creates an unmirrored pool using files. While not
1485recommended, a pool based on files can be useful for experimental purposes.
1486.Bd -literal
1487# zpool create tank /path/to/file/a /path/to/file/b
1488.Ed
1489.It Sy Example 5 No Adding a Mirror to a ZFS Storage Pool
1490The following command adds two mirrored disks to the pool
1491.Em tank ,
1492assuming the pool is already made up of two-way mirrors. The additional space
1493is immediately available to any datasets within the pool.
1494.Bd -literal
1495# zpool add tank mirror c1t0d0 c1t1d0
1496.Ed
1497.It Sy Example 6 No Listing Available ZFS Storage Pools
1498The following command lists all available pools on the system. In this case,
1499the pool
1500.Em zion
1501is faulted due to a missing device. The results from this command are similar
1502to the following:
1503.Bd -literal
1504# zpool list
1505NAME    SIZE  ALLOC   FREE   FRAG  EXPANDSZ    CAP  DEDUP  HEALTH  ALTROOT
1506rpool  19.9G  8.43G  11.4G    33%         -    42%  1.00x  ONLINE  -
1507tank   61.5G  20.0G  41.5G    48%         -    32%  1.00x  ONLINE  -
1508zion       -      -      -      -         -      -      -  FAULTED -
1509.Ed
1510.It Sy Example 7 No Destroying a ZFS Storage Pool
1511The following command destroys the pool
1512.Em tank
1513and any datasets contained within.
1514.Bd -literal
1515# zpool destroy -f tank
1516.Ed
1517.It Sy Example 8 No Exporting a ZFS Storage Pool
1518The following command exports the devices in pool
1519.Em tank
1520so that they can be relocated or later imported.
1521.Bd -literal
1522# zpool export tank
1523.Ed
1524.It Sy Example 9 No Importing a ZFS Storage Pool
1525The following command displays available pools, and then imports the pool
1526.Em tank
1527for use on the system. The results from this command are similar to the
1528following:
1529.Bd -literal
1530# zpool import
1531  pool: tank
1532    id: 15451357997522795478
1533 state: ONLINE
1534action: The pool can be imported using its name or numeric identifier.
1535config:
1536
1537        tank        ONLINE
1538          mirror    ONLINE
1539            c1t2d0  ONLINE
1540            c1t3d0  ONLINE
1541
1542# zpool import tank
1543.Ed
1544.It Sy Example 10 No Upgrading All ZFS Storage Pools to the Current Version
1545The following command upgrades all ZFS Storage pools to the current version of
1546the software.
1547.Bd -literal
1548# zpool upgrade -a
1549This system is currently running ZFS version 2.
1550.Ed
1551.It Sy Example 11 No Managing Hot Spares
1552The following command creates a new pool with an available hot spare:
1553.Bd -literal
1554# zpool create tank mirror c0t0d0 c0t1d0 spare c0t2d0
1555.Ed
1556.Pp
1557If one of the disks were to fail, the pool would be reduced to the degraded
1558state. The failed device can be replaced using the following command:
1559.Bd -literal
1560# zpool replace tank c0t0d0 c0t3d0
1561.Ed
1562.Pp
1563Once the data has been resilvered, the spare is automatically removed and is
1564made available should another device fails. The hot spare can be permanently
1565removed from the pool using the following command:
1566.Bd -literal
1567# zpool remove tank c0t2d0
1568.Ed
1569.It Sy Example 12 No Creating a ZFS Pool with Mirrored Separate Intent Logs
1570The following command creates a ZFS storage pool consisting of two, two-way
1571mirrors and mirrored log devices:
1572.Bd -literal
1573# zpool create pool mirror c0d0 c1d0 mirror c2d0 c3d0 log mirror \e
1574  c4d0 c5d0
1575.Ed
1576.It Sy Example 13 No Adding Cache Devices to a ZFS Pool
1577The following command adds two disks for use as cache devices to a ZFS storage
1578pool:
1579.Bd -literal
1580# zpool add pool cache c2d0 c3d0
1581.Ed
1582.Pp
1583Once added, the cache devices gradually fill with content from main memory.
1584Depending on the size of your cache devices, it could take over an hour for
1585them to fill. Capacity and reads can be monitored using the
1586.Cm iostat
1587option as follows:
1588.Bd -literal
1589# zpool iostat -v pool 5
1590.Ed
1591.It Sy Example 14 No Removing a Mirrored Log Device
1592The following command removes the mirrored log device
1593.Sy mirror-2 .
1594Given this configuration:
1595.Bd -literal
1596  pool: tank
1597 state: ONLINE
1598 scrub: none requested
1599config:
1600
1601         NAME        STATE     READ WRITE CKSUM
1602         tank        ONLINE       0     0     0
1603           mirror-0  ONLINE       0     0     0
1604             c6t0d0  ONLINE       0     0     0
1605             c6t1d0  ONLINE       0     0     0
1606           mirror-1  ONLINE       0     0     0
1607             c6t2d0  ONLINE       0     0     0
1608             c6t3d0  ONLINE       0     0     0
1609         logs
1610           mirror-2  ONLINE       0     0     0
1611             c4t0d0  ONLINE       0     0     0
1612             c4t1d0  ONLINE       0     0     0
1613.Ed
1614.Pp
1615The command to remove the mirrored log
1616.Sy mirror-2
1617is:
1618.Bd -literal
1619# zpool remove tank mirror-2
1620.Ed
1621.It Sy Example 15 No Displaying expanded space on a device
1622The following command dipslays the detailed information for the pool
1623.Em data .
1624This pool is comprised of a single raidz vdev where one of its devices
1625increased its capacity by 10GB. In this example, the pool will not be able to
1626utilize this extra capacity until all the devices under the raidz vdev have
1627been expanded.
1628.Bd -literal
1629# zpool list -v data
1630NAME         SIZE  ALLOC   FREE   FRAG  EXPANDSZ    CAP  DEDUP  HEALTH  ALTROOT
1631data        23.9G  14.6G  9.30G    48%         -    61%  1.00x  ONLINE  -
1632  raidz1    23.9G  14.6G  9.30G    48%         -
1633    c1t1d0      -      -      -      -         -
1634    c1t2d0      -      -      -      -       10G
1635    c1t3d0      -      -      -      -         -
1636.Ed
1637.El
1638.Sh INTERFACE STABILITY
1639.Sy Evolving
1640.Sh SEE ALSO
1641.Xr zfs 1M ,
1642.Xr attributes 5 ,
1643.Xr zpool-features 5
1644