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ZPOOL 1M "Nov 14, 2011"
NAME
zpool - configures ZFS storage pools
SYNOPSIS

zpool [-?]

zpool add [-fn] pool vdev ...

zpool attach [-f] pool device new_device

zpool clear pool [device]

zpool create [-fn] [-o property=value] ... [-O file-system-property=value]
 ... [-m mountpoint] [-R root] pool vdev ...

zpool destroy [-f] pool

zpool detach pool device

zpool export [-f] pool ...

zpool get "all" | property[,...] pool ...

zpool history [-il] [pool] ...

zpool import [-d dir] [-D]

zpool import [-o mntopts] [-o property=value] ... [-d dir | -c cachefile]
 [-D] [-f] [-R root] -a

zpool import [-o mntopts] [-o property=value] ... [-d dir | -c cachefile]
 [-D] [-f] [-R root] pool |id [newpool]

zpool iostat [-T u | d ] [-v] [pool] ... [interval[count]]

zpool list [-Hv] [-o property[,...]] [pool] ...

zpool offline [-t] pool device ...

zpool online pool device ...

zpool reguid pool

zpool remove pool device ...

zpool replace [-f] pool device [new_device]

zpool scrub [-s] pool ...

zpool set property=value pool

zpool status [-xv] [pool] ...

zpool upgrade

zpool upgrade -v

zpool upgrade [-V version] -a | pool ...
DESCRIPTION

The zpool command configures ZFS storage pools. A storage pool is a collection of devices that provides physical storage and data replication for ZFS datasets.

All datasets within a storage pool share the same space. See zfs(1M) for information on managing datasets.

"Virtual Devices (vdevs)"

A "virtual device" describes a single device or a collection of devices organized according to certain performance and fault characteristics. The following virtual devices are supported: disk

A block device, typically located under /dev/dsk. ZFS can use individual slices or partitions, though the recommended mode of operation is to use whole disks. A disk can be specified by a full path, or it can be a shorthand name (the relative portion of the path under "/dev/dsk"). A whole disk can be specified by omitting the slice or partition designation. For example, "c0t0d0" is equivalent to "/dev/dsk/c0t0d0s2". When given a whole disk, ZFS automatically labels the disk, if necessary.

file

A regular file. The use of files as a backing store is strongly discouraged. It is designed primarily for experimental purposes, as the fault tolerance of a file is only as good as the file system of which it is a part. A file must be specified by a full path.

mirror

A mirror of two or more devices. Data is replicated in an identical fashion across all components of a mirror. A mirror with N disks of size X can hold X bytes and can withstand (N-1) devices failing before data integrity is compromised.

raidz

raidz1

raidz2

raidz3

A variation on RAID-5 that allows for better distribution of parity and eliminates the "RAID-5 write hole" (in which data and parity become inconsistent after a power loss). Data and parity is striped across all disks within a raidz group. A raidz group can have single-, double- , or triple parity, meaning that the raidz group can sustain one, two, or three failures, respectively, without losing any data. The raidz1 vdev type specifies a single-parity raidz group; the raidz2 vdev type specifies a double-parity raidz group; and the raidz3 vdev type specifies a triple-parity raidz group. The raidz vdev type is an alias for raidz1. A raidz group with N disks of size X with P parity disks can hold approximately (N-P)*X bytes and can withstand P device(s) failing before data integrity is compromised. The minimum number of devices in a raidz group is one more than the number of parity disks. The recommended number is between 3 and 9 to help increase performance.

spare

A special pseudo-vdev which keeps track of available hot spares for a pool. For more information, see the "Hot Spares" section.

log

A separate-intent log device. If more than one log device is specified, then writes are load-balanced between devices. Log devices can be mirrored. However, raidz vdev types are not supported for the intent log. For more information, see the "Intent Log" section.

cache

A device used to cache storage pool data. A cache device cannot be cannot be configured as a mirror or raidz group. For more information, see the "Cache Devices" section.

Virtual devices cannot be nested, so a mirror or raidz virtual device can only contain files or disks. Mirrors of mirrors (or other combinations) are not allowed.

A pool can have any number of virtual devices at the top of the configuration (known as "root vdevs"). Data is dynamically distributed across all top-level devices to balance data among devices. As new virtual devices are added, ZFS automatically places data on the newly available devices.

Virtual devices are specified one at a time on the command line, separated by whitespace. The keywords "mirror" and "raidz" are used to distinguish where a group ends and another begins. For example, the following creates two root vdevs, each a mirror of two disks:

# zpool create mypool mirror c0t0d0 c0t1d0 mirror c1t0d0 c1t1d0
"Device Failure and Recovery"

ZFS supports a rich set of mechanisms for handling device failure and data corruption. All metadata and data is checksummed, and ZFS automatically repairs bad data from a good copy when corruption is detected.

In order to take advantage of these features, a pool must make use of some form of redundancy, using either mirrored or raidz groups. While ZFS supports running in a non-redundant configuration, where each root vdev is simply a disk or file, this is strongly discouraged. A single case of bit corruption can render some or all of your data unavailable.

A pool's health status is described by one of three states: online, degraded, or faulted. An online pool has all devices operating normally. A degraded pool is one in which one or more devices have failed, but the data is still available due to a redundant configuration. A faulted pool has corrupted metadata, or one or more faulted devices, and insufficient replicas to continue functioning.

The health of the top-level vdev, such as mirror or raidz device, is potentially impacted by the state of its associated vdevs, or component devices. A top-level vdev or component device is in one of the following states: DEGRADED

One or more top-level vdevs is in the degraded state because one or more component devices are offline. Sufficient replicas exist to continue functioning. One or more component devices is in the degraded or faulted state, but sufficient replicas exist to continue functioning. The underlying conditions are as follows:

The number of checksum errors exceeds acceptable levels and the device is degraded as an indication that something may be wrong. ZFS continues to use the device as necessary.

The number of I/O errors exceeds acceptable levels. The device could not be marked as faulted because there are insufficient replicas to continue functioning.

FAULTED

One or more top-level vdevs is in the faulted state because one or more component devices are offline. Insufficient replicas exist to continue functioning. One or more component devices is in the faulted state, and insufficient replicas exist to continue functioning. The underlying conditions are as follows:

The device could be opened, but the contents did not match expected values.

The number of I/O errors exceeds acceptable levels and the device is faulted to prevent further use of the device.

OFFLINE

The device was explicitly taken offline by the "zpool offline" command.

ONLINE

The device is online and functioning.

REMOVED

The device was physically removed while the system was running. Device removal detection is hardware-dependent and may not be supported on all platforms.

UNAVAIL

The device could not be opened. If a pool is imported when a device was unavailable, then the device will be identified by a unique identifier instead of its path since the path was never correct in the first place.

If a device is removed and later re-attached to the system, ZFS attempts to put the device online automatically. Device attach detection is hardware-dependent and might not be supported on all platforms.

"Hot Spares"

ZFS allows devices to be associated with pools as "hot spares". These devices are not actively used in the pool, but when an active device fails, it is automatically replaced by a hot spare. To create a pool with hot spares, specify a "spare" vdev with any number of devices. For example,

# zpool create pool mirror c0d0 c1d0 spare c2d0 c3d0

Spares can be shared across multiple pools, and can be added with the "zpool add" command and removed with the "zpool remove" command. Once a spare replacement is initiated, a new "spare" vdev is created within the configuration that will remain there until the original device is replaced. At this point, the hot spare becomes available again if another device fails.

If a pool has a shared spare that is currently being used, the pool can not be exported since other pools may use this shared spare, which may lead to potential data corruption.

An in-progress spare replacement can be cancelled by detaching the hot spare. If the original faulted device is detached, then the hot spare assumes its place in the configuration, and is removed from the spare list of all active pools.

Spares cannot replace log devices.

"Intent Log"

The ZFS Intent Log (ZIL) satisfies POSIX requirements for synchronous transactions. For instance, databases often require their transactions to be on stable storage devices when returning from a system call. NFS and other applications can also use fsync() to ensure data stability. By default, the intent log is allocated from blocks within the main pool. However, it might be possible to get better performance using separate intent log devices such as NVRAM or a dedicated disk. For example:

# zpool create pool c0d0 c1d0 log c2d0

Multiple log devices can also be specified, and they can be mirrored. See the EXAMPLES section for an example of mirroring multiple log devices.

Log devices can be added, replaced, attached, detached, and imported and exported as part of the larger pool. Mirrored log devices can be removed by specifying the top-level mirror for the log.

"Cache Devices"

Devices can be added to a storage pool as "cache devices." These devices provide an additional layer of caching between main memory and disk. For read-heavy workloads, where the working set size is much larger than what can be cached in main memory, using cache devices allow much more of this working set to be served from low latency media. Using cache devices provides the greatest performance improvement for random read-workloads of mostly static content.

To create a pool with cache devices, specify a "cache" vdev with any number of devices. For example:

# zpool create pool c0d0 c1d0 cache c2d0 c3d0

Cache devices cannot be mirrored or part of a raidz configuration. If a read error is encountered on a cache device, that read I/O is reissued to the original storage pool device, which might be part of a mirrored or raidz configuration.

The content of the cache devices is considered volatile, as is the case with other system caches.

"Properties"

Each pool has several properties associated with it. Some properties are read-only statistics while others are configurable and change the behavior of the pool. The following are read-only properties: available

Amount of storage available within the pool. This property can also be referred to by its shortened column name, "avail".

capacity

Percentage of pool space used. This property can also be referred to by its shortened column name, "cap".

comment

A text string consisting of printable ASCII characters that will be stored such that it is available even if the pool becomes faulted. An administrator can provide additional information about a pool using this property.

expandsize

Amount of uninitialized space within the pool or device that can be used to increase the total capacity of the pool. Uninitialized space consists of any space on an EFI labeled vdev which has not been brought online (i.e. zpool online -e). This space occurs when a LUN is dynamically expanded.

health

The current health of the pool. Health can be "ONLINE", "DEGRADED", "FAULTED", " OFFLINE", "REMOVED", or "UNAVAIL".

guid

A unique identifier for the pool.

size

Total size of the storage pool.

used

Amount of storage space used within the pool.

These space usage properties report actual physical space available to the storage pool. The physical space can be different from the total amount of space that any contained datasets can actually use. The amount of space used in a raidz configuration depends on the characteristics of the data being written. In addition, ZFS reserves some space for internal accounting that the zfs(1M) command takes into account, but the zpool command does not. For non-full pools of a reasonable size, these effects should be invisible. For small pools, or pools that are close to being completely full, these discrepancies may become more noticeable.

The following property can be set at creation time and import time: altroot

Alternate root directory. If set, this directory is prepended to any mount points within the pool. This can be used when examining an unknown pool where the mount points cannot be trusted, or in an alternate boot environment, where the typical paths are not valid. altroot is not a persistent property. It is valid only while the system is up. Setting altroot defaults to using cachefile=none, though this may be overridden using an explicit setting.

The following properties can be set at creation time and import time, and later changed with the zpool set command: autoexpand=on | off

Controls automatic pool expansion when the underlying LUN is grown. If set to on, the pool will be resized according to the size of the expanded device. If the device is part of a mirror or raidz then all devices within that mirror/raidz group must be expanded before the new space is made available to the pool. The default behavior is off. This property can also be referred to by its shortened column name, expand.

autoreplace=on | off

Controls automatic device replacement. If set to "off", device replacement must be initiated by the administrator by using the "zpool replace" command. If set to "on", any new device, found in the same physical location as a device that previously belonged to the pool, is automatically formatted and replaced. The default behavior is "off". This property can also be referred to by its shortened column name, "replace".

bootfs=pool/dataset

Identifies the default bootable dataset for the root pool. This property is expected to be set mainly by the installation and upgrade programs.

cachefile=path | none

Controls the location of where the pool configuration is cached. Discovering all pools on system startup requires a cached copy of the configuration data that is stored on the root file system. All pools in this cache are automatically imported when the system boots. Some environments, such as install and clustering, need to cache this information in a different location so that pools are not automatically imported. Setting this property caches the pool configuration in a different location that can later be imported with "zpool import -c". Setting it to the special value "none" creates a temporary pool that is never cached, and the special value '' (empty string) uses the default location. Multiple pools can share the same cache file. Because the kernel destroys and recreates this file when pools are added and removed, care should be taken when attempting to access this file. When the last pool using a cachefile is exported or destroyed, the file is removed.

delegation=on | off

Controls whether a non-privileged user is granted access based on the dataset permissions defined on the dataset. See zfs(1M) for more information on ZFS delegated administration.

failmode=wait | continue | panic

Controls the system behavior in the event of catastrophic pool failure. This condition is typically a result of a loss of connectivity to the underlying storage device(s) or a failure of all devices within the pool. The behavior of such an event is determined as follows: wait

Blocks all I/O access until the device connectivity is recovered and the errors are cleared. This is the default behavior.

continue

Returns EIO to any new write I/O requests but allows reads to any of the remaining healthy devices. Any write requests that have yet to be committed to disk would be blocked.

panic

Prints out a message to the console and generates a system crash dump.

listsnaps=on | off

Controls whether information about snapshots associated with this pool is output when "zfs list" is run without the -t option. The default value is "off".

version=version

The current on-disk version of the pool. This can be increased, but never decreased. The preferred method of updating pools is with the "zpool upgrade" command, though this property can be used when a specific version is needed for backwards compatibility. This property can be any number between 1 and the current version reported by "zpool upgrade -v".

"Subcommands"

All subcommands that modify state are logged persistently to the pool in their original form.

The zpool command provides subcommands to create and destroy storage pools, add capacity to storage pools, and provide information about the storage pools. The following subcommands are supported: zpool -?

Displays a help message.

zpool add [-fn] pool vdev ...

Adds the specified virtual devices to the given pool. The vdev specification is described in the "Virtual Devices" section. The behavior of the -f option, and the device checks performed are described in the "zpool create" subcommand. -f

Forces use of vdevs, even if they appear in use or specify a conflicting replication level. Not all devices can be overridden in this manner.

-n

Displays the configuration that would be used without actually adding the vdevs. The actual pool creation can still fail due to insufficient privileges or device sharing.

Do not add a disk that is currently configured as a quorum device to a zpool. After a disk is in the pool, that disk can then be configured as a quorum device.
zpool attach [-f] pool device new_device

Attaches new_device to an existing zpool device. The existing device cannot be part of a raidz configuration. If device is not currently part of a mirrored configuration, device automatically transforms into a two-way mirror of device and new_device. If device is part of a two-way mirror, attaching new_device creates a three-way mirror, and so on. In either case, new_device begins to resilver immediately. -f

Forces use of new_device, even if its appears to be in use. Not all devices can be overridden in this manner.

zpool clear pool [device] ...

Clears device errors in a pool. If no arguments are specified, all device errors within the pool are cleared. If one or more devices is specified, only those errors associated with the specified device or devices are cleared.

zpool create [-fn] [-o property=value] ... [-O file-system-property=value] ... [-m mountpoint] [-R root] pool vdev ...

Creates a new storage pool containing the virtual devices specified on the command line. The pool name must begin with a letter, and can only contain alphanumeric characters as well as underscore ("_"), dash ("-"), and period ("."). The pool names "mirror", "raidz", "spare" and "log" are reserved, as are names beginning with the pattern "c[0-9]". The vdev specification is described in the "Virtual Devices" section. The command verifies that each device specified is accessible and not currently in use by another subsystem. There are some uses, such as being currently mounted, or specified as the dedicated dump device, that prevents a device from ever being used by ZFS. Other uses, such as having a preexisting UFS file system, can be overridden with the -f option. The command also checks that the replication strategy for the pool is consistent. An attempt to combine redundant and non-redundant storage in a single pool, or to mix disks and files, results in an error unless -f is specified. The use of differently sized devices within a single raidz or mirror group is also flagged as an error unless -f is specified. Unless the -R option is specified, the default mount point is "/pool". The mount point must not exist or must be empty, or else the root dataset cannot be mounted. This can be overridden with the -m option. -f

Forces use of vdevs, even if they appear in use or specify a conflicting replication level. Not all devices can be overridden in this manner.

-n

Displays the configuration that would be used without actually creating the pool. The actual pool creation can still fail due to insufficient privileges or device sharing.

-o property=value [-o property=value] ...

Sets the given pool properties. See the "Properties" section for a list of valid properties that can be set.

-O file-system-property=value

[-O file-system-property=value] ...

Sets the given file system properties in the root file system of the pool. See the "Properties" section of zfs(1M) for a list of valid properties that can be set.

-R root

Equivalent to "-o cachefile=none,altroot=root"

-m mountpoint

Sets the mount point for the root dataset. The default mount point is "/pool" or "altroot/pool" if altroot is specified. The mount point must be an absolute path, "legacy", or "none". For more information on dataset mount points, see zfs(1M).

zpool destroy [-f] pool

Destroys the given pool, freeing up any devices for other use. This command tries to unmount any active datasets before destroying the pool. -f

Forces any active datasets contained within the pool to be unmounted.

zpool detach pool device

Detaches device from a mirror. The operation is refused if there are no other valid replicas of the data.

zpool export [-f] pool ...

Exports the given pools from the system. All devices are marked as exported, but are still considered in use by other subsystems. The devices can be moved between systems (even those of different endianness) and imported as long as a sufficient number of devices are present. Before exporting the pool, all datasets within the pool are unmounted. A pool can not be exported if it has a shared spare that is currently being used. For pools to be portable, you must give the zpool command whole disks, not just slices, so that ZFS can label the disks with portable EFI labels. Otherwise, disk drivers on platforms of different endianness will not recognize the disks. -f

Forcefully unmount all datasets, using the "unmount -f" command. This command will forcefully export the pool even if it has a shared spare that is currently being used. This may lead to potential data corruption.

zpool get "all" | property[,...] pool ...

Retrieves the given list of properties (or all properties if "all" is used) for the specified storage pool(s). These properties are displayed with the following fields:

 name Name of storage pool
 property Property name
 value Property value
 source Property source, either 'default' or 'local'.
See the "Properties" section for more information on the available pool properties.
zpool history [-il] [pool] ...

Displays the command history of the specified pools or all pools if no pool is specified. -i

Displays internally logged ZFS events in addition to user initiated events.

-l

Displays log records in long format, which in addition to standard format includes, the user name, the hostname, and the zone in which the operation was performed.

zpool import [-d dir | -c cachefile] [-D]

Lists pools available to import. If the -d option is not specified, this command searches for devices in "/dev/dsk". The -d option can be specified multiple times, and all directories are searched. If the device appears to be part of an exported pool, this command displays a summary of the pool with the name of the pool, a numeric identifier, as well as the vdev layout and current health of the device for each device or file. Destroyed pools, pools that were previously destroyed with the "zpool destroy" command, are not listed unless the -D option is specified. The numeric identifier is unique, and can be used instead of the pool name when multiple exported pools of the same name are available. -c cachefile

Reads configuration from the given cachefile that was created with the "cachefile" pool property. This cachefile is used instead of searching for devices.

-d dir

Searches for devices or files in dir. The -d option can be specified multiple times.

-D

Lists destroyed pools only.

zpool import [-o mntopts] [ -o property=value] ... [-d dir | -c cachefile] [-D] [-f] [-R root] -a

Imports all pools found in the search directories. Identical to the previous command, except that all pools with a sufficient number of devices available are imported. Destroyed pools, pools that were previously destroyed with the "zpool destroy" command, will not be imported unless the -D option is specified. -o mntopts

Comma-separated list of mount options to use when mounting datasets within the pool. See zfs(1M) for a description of dataset properties and mount options.

-o property=value

Sets the specified property on the imported pool. See the "Properties" section for more information on the available pool properties.

-c cachefile

Reads configuration from the given cachefile that was created with the "cachefile" pool property. This cachefile is used instead of searching for devices.

-d dir

Searches for devices or files in dir. The -d option can be specified multiple times. This option is incompatible with the -c option.

-D

Imports destroyed pools only. The -f option is also required.

-f

Forces import, even if the pool appears to be potentially active.

-a

Searches for and imports all pools found.

-R root

Sets the "cachefile" property to "none" and the "altroot" property to "root".

zpool import [-o mntopts] [ -o property=value] ... [-d dir | -c cachefile] [-D] [-f] [-R root] pool | id [newpool]

Imports a specific pool. A pool can be identified by its name or the numeric identifier. If newpool is specified, the pool is imported using the name newpool. Otherwise, it is imported with the same name as its exported name. If a device is removed from a system without running "zpool export" first, the device appears as potentially active. It cannot be determined if this was a failed export, or whether the device is really in use from another host. To import a pool in this state, the -f option is required. -o mntopts

Comma-separated list of mount options to use when mounting datasets within the pool. See zfs(1M) for a description of dataset properties and mount options.

-o property=value

Sets the specified property on the imported pool. See the "Properties" section for more information on the available pool properties.

-c cachefile

Reads configuration from the given cachefile that was created with the "cachefile" pool property. This cachefile is used instead of searching for devices.

-d dir

Searches for devices or files in dir. The -d option can be specified multiple times. This option is incompatible with the -c option.

-D

Imports destroyed pool. The -f option is also required.

-f

Forces import, even if the pool appears to be potentially active.

-R root

Sets the "cachefile" property to "none" and the "altroot" property to "root".

zpool iostat [-T u | d] [-v] [pool] ... [interval[count]]

Displays I/O statistics for the given pools. When given an interval, the statistics are printed every interval seconds until Ctrl-C is pressed. If no pools are specified, statistics for every pool in the system is shown. If count is specified, the command exits after count reports are printed. -T u | d

Display a time stamp. Specify u for a printed representation of the internal representation of time. See time(2). Specify d for standard date format. See date(1).

-v

Verbose statistics. Reports usage statistics for individual vdevs within the pool, in addition to the pool-wide statistics.

zpool list [-Hv] [-o props[,...]] [pool] ...

Lists the given pools along with a health status and space usage. When given no arguments, all pools in the system are listed. -H

Scripted mode. Do not display headers, and separate fields by a single tab instead of arbitrary space.

-o props

Comma-separated list of properties to display. See the "Properties" section for a list of valid properties. The default list is "name, size, used, available, expandsize, capacity, dedupratio, health, altroot"

-v

Verbose statistics. Reports usage statistics for individual vdevs within the pool, in addition to the pool-wise statistics.

zpool offline [-t] pool device ...

Takes the specified physical device offline. While the device is offline, no attempt is made to read or write to the device. This command is not applicable to spares or cache devices. -t

Temporary. Upon reboot, the specified physical device reverts to its previous state.

zpool online [-e] pool device...

Brings the specified physical device online. This command is not applicable to spares or cache devices. -e

Expand the device to use all available space. If the device is part of a mirror or raidz then all devices must be expanded before the new space will become available to the pool.

zpool reguid pool

Generates a new unique identifier for the pool. You must ensure that all devices in this pool are online and healthy before performing this action.

zpool remove pool device ...

Removes the specified device from the pool. This command currently only supports removing hot spares, cache, and log devices. A mirrored log device can be removed by specifying the top-level mirror for the log. Non-log devices that are part of a mirrored configuration can be removed using the zpool detach command. Non-redundant and raidz devices cannot be removed from a pool.

zpool replace [-f] pool old_device [new_device]

Replaces old_device with new_device. This is equivalent to attaching new_device, waiting for it to resilver, and then detaching old_device. The size of new_device must be greater than or equal to the minimum size of all the devices in a mirror or raidz configuration. new_device is required if the pool is not redundant. If new_device is not specified, it defaults to old_device. This form of replacement is useful after an existing disk has failed and has been physically replaced. In this case, the new disk may have the same /dev/dsk path as the old device, even though it is actually a different disk. ZFS recognizes this. -f

Forces use of new_device, even if its appears to be in use. Not all devices can be overridden in this manner.

zpool scrub [-s] pool ...

Begins a scrub. The scrub examines all data in the specified pools to verify that it checksums correctly. For replicated (mirror or raidz) devices, ZFS automatically repairs any damage discovered during the scrub. The "zpool status" command reports the progress of the scrub and summarizes the results of the scrub upon completion. Scrubbing and resilvering are very similar operations. The difference is that resilvering only examines data that ZFS knows to be out of date (for example, when attaching a new device to a mirror or replacing an existing device), whereas scrubbing examines all data to discover silent errors due to hardware faults or disk failure. Because scrubbing and resilvering are I/O-intensive operations, ZFS only allows one at a time. If a scrub is already in progress, the "zpool scrub" command terminates it and starts a new scrub. If a resilver is in progress, ZFS does not allow a scrub to be started until the resilver completes. -s

Stop scrubbing.

zpool set property=value pool

Sets the given property on the specified pool. See the "Properties" section for more information on what properties can be set and acceptable values.

zpool status [-xv] [pool] ...

Displays the detailed health status for the given pools. If no pool is specified, then the status of each pool in the system is displayed. For more information on pool and device health, see the "Device Failure and Recovery" section. If a scrub or resilver is in progress, this command reports the percentage done and the estimated time to completion. Both of these are only approximate, because the amount of data in the pool and the other workloads on the system can change. -x

Only display status for pools that are exhibiting errors or are otherwise unavailable.

-v

Displays verbose data error information, printing out a complete list of all data errors since the last complete pool scrub.

zpool upgrade

Displays all pools formatted using a different ZFS on-disk version. Older versions can continue to be used, but some features may not be available. These pools can be upgraded using "zpool upgrade -a". Pools that are formatted with a more recent version are also displayed, although these pools will be inaccessible on the system.

zpool upgrade -v

Displays ZFS versions supported by the current software. The current ZFS versions and all previous supported versions are displayed, along with an explanation of the features provided with each version.

zpool upgrade [-V version] -a | pool ...

Upgrades the given pool to the latest on-disk version. Once this is done, the pool will no longer be accessible on systems running older versions of the software. -a

Upgrades all pools.

-V version

Upgrade to the specified version. If the -V flag is not specified, the pool is upgraded to the most recent version. This option can only be used to increase the version number, and only up to the most recent version supported by this software.

EXAMPLES

Example 1 Creating a RAID-Z Storage Pool

The following command creates a pool with a single raidz root vdev that consists of six disks.

# zpool create tank raidz c0t0d0 c0t1d0 c0t2d0 c0t3d0 c0t4d0 c0t5d0

Example 2 Creating a Mirrored Storage Pool

The following command creates a pool with two mirrors, where each mirror contains two disks.

# zpool create tank mirror c0t0d0 c0t1d0 mirror c0t2d0 c0t3d0

Example 3 Creating a ZFS Storage Pool by Using Slices

The following command creates an unmirrored pool using two disk slices.

# zpool create tank /dev/dsk/c0t0d0s1 c0t1d0s4

Example 4 Creating a ZFS Storage Pool by Using Files

The following command creates an unmirrored pool using files. While not recommended, a pool based on files can be useful for experimental purposes.

# zpool create tank /path/to/file/a /path/to/file/b

Example 5 Adding a Mirror to a ZFS Storage Pool

The following command adds two mirrored disks to the pool "tank", assuming the pool is already made up of two-way mirrors. The additional space is immediately available to any datasets within the pool.

# zpool add tank mirror c1t0d0 c1t1d0

Example 6 Listing Available ZFS Storage Pools

The following command lists all available pools on the system. In this case, the pool zion is faulted due to a missing device.

The results from this command are similar to the following:

# zpool list
 NAME SIZE ALLOC FREE EXPANDSZ CAP DEDUP HEALTH ALTROOT
 rpool 19.9G 8.43G 11.4G - 42% 1.00x ONLINE -
 tank 61.5G 20.0G 41.5G - 32% 1.00x ONLINE -
 zion - - - - - - FAULTED -

Example 7 Destroying a ZFS Storage Pool

The following command destroys the pool "tank" and any datasets contained within.

# zpool destroy -f tank

Example 8 Exporting a ZFS Storage Pool

The following command exports the devices in pool tank so that they can be relocated or later imported.

# zpool export tank

Example 9 Importing a ZFS Storage Pool

The following command displays available pools, and then imports the pool "tank" for use on the system.

The results from this command are similar to the following:

# zpool import
 pool: tank
 id: 15451357997522795478
 state: ONLINE
action: The pool can be imported using its name or numeric identifier.
config:

 tank ONLINE
 mirror ONLINE
 c1t2d0 ONLINE
 c1t3d0 ONLINE

# zpool import tank

Example 10 Upgrading All ZFS Storage Pools to the Current Version

The following command upgrades all ZFS Storage pools to the current version of the software.

# zpool upgrade -a
This system is currently running ZFS version 2.

Example 11 Managing Hot Spares

The following command creates a new pool with an available hot spare:

# zpool create tank mirror c0t0d0 c0t1d0 spare c0t2d0

If one of the disks were to fail, the pool would be reduced to the degraded state. The failed device can be replaced using the following command:

# zpool replace tank c0t0d0 c0t3d0

Once the data has been resilvered, the spare is automatically removed and is made available should another device fails. The hot spare can be permanently removed from the pool using the following command:

# zpool remove tank c0t2d0

Example 12 Creating a ZFS Pool with Mirrored Separate Intent Logs

The following command creates a ZFS storage pool consisting of two, two-way mirrors and mirrored log devices:

# zpool create pool mirror c0d0 c1d0 mirror c2d0 c3d0 log mirror \e
 c4d0 c5d0

Example 13 Adding Cache Devices to a ZFS Pool

The following command adds two disks for use as cache devices to a ZFS storage pool:

# zpool add pool cache c2d0 c3d0

Once added, the cache devices gradually fill with content from main memory. Depending on the size of your cache devices, it could take over an hour for them to fill. Capacity and reads can be monitored using the iostat option as follows:

# zpool iostat -v pool 5

Example 14 Removing a Mirrored Log Device

The following command removes the mirrored log device mirror-2.

Given this configuration:

 pool: tank
 state: ONLINE
 scrub: none requested
config:

 NAME STATE READ WRITE CKSUM
 tank ONLINE 0 0 0
 mirror-0 ONLINE 0 0 0
 c6t0d0 ONLINE 0 0 0
 c6t1d0 ONLINE 0 0 0
 mirror-1 ONLINE 0 0 0
 c6t2d0 ONLINE 0 0 0
 c6t3d0 ONLINE 0 0 0
 logs
 mirror-2 ONLINE 0 0 0
 c4t0d0 ONLINE 0 0 0
 c4t1d0 ONLINE 0 0 0

The command to remove the mirrored log mirror-2 is:

# zpool remove tank mirror-2

Example 15 Displaying expanded space on a device

The following command dipslays the detailed information for the data pool. This pool is comprised of a single raidz vdev where one of its devices increased its capacity by 1GB. In this example, the pool will not be able to utilized this extra capacity until all the devices under the raidz vdev have been expanded.

# zpool list -v data
 NAME SIZE ALLOC FREE EXPANDSZ CAP DEDUP HEALTH ALTROOT
 data 17.9G 174K 17.9G - 0% 1.00x ONLINE -
 raidz1 17.9G 174K 17.9G -
 c4t2d0 - - - 1G
 c4t3d0 - - - -
 c4t4d0 - - - - 
EXIT STATUS

The following exit values are returned: 0

Successful completion.

1

An error occurred.

2

Invalid command line options were specified.

ATTRIBUTES

See attributes(5) for descriptions of the following attributes:

ATTRIBUTE TYPE ATTRIBUTE VALUE
Interface Stability Evolving
SEE ALSO

zfs(1M), attributes(5)