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|
.\" -*- nroff -*-
.\" Copyright Neil Brown and others.
.\" This program is free software; you can redistribute it and/or modify
.\" it under the terms of the GNU General Public License as published by
.\" the Free Software Foundation; either version 2 of the License, or
.\" (at your option) any later version.
.\" See file COPYING in distribution for details.
.TH MDADM 8 "" v3.1
.SH NAME
mdadm \- manage MD devices
.I aka
Linux Software RAID
.SH SYNOPSIS
.BI mdadm " [mode] <raiddevice> [options] <component-devices>"
.SH DESCRIPTION
RAID devices are virtual devices created from two or more
real block devices. This allows multiple devices (typically disk
drives or partitions thereof) to be combined into a single device to
hold (for example) a single filesystem.
Some RAID levels include redundancy and so can survive some degree of
device failure.
Linux Software RAID devices are implemented through the md (Multiple
Devices) device driver.
Currently, Linux supports
.B LINEAR
md devices,
.B RAID0
(striping),
.B RAID1
(mirroring),
.BR RAID4 ,
.BR RAID5 ,
.BR RAID6 ,
.BR RAID10 ,
.BR MULTIPATH ,
.BR FAULTY ,
and
.BR CONTAINER .
.B MULTIPATH
is not a Software RAID mechanism, but does involve
multiple devices:
each device is a path to one common physical storage device.
New installations should not use md/multipath as it is not well
supported and has no ongoing development. Use the Device Mapper based
multipath-tools instead.
.B FAULTY
is also not true RAID, and it only involves one device. It
provides a layer over a true device that can be used to inject faults.
.B CONTAINER
is different again. A
.B CONTAINER
is a collection of devices that are
managed as a set. This is similar to the set of devices connected to
a hardware RAID controller. The set of devices may contain a number
of different RAID arrays each utilising some (or all) of the blocks from a
number of the devices in the set. For example, two devices in a 5-device set
might form a RAID1 using the whole devices. The remaining three might
have a RAID5 over the first half of each device, and a RAID0 over the
second half.
With a
.BR CONTAINER ,
there is one set of metadata that describes all of
the arrays in the container. So when
.I mdadm
creates a
.B CONTAINER
device, the device just represents the metadata. Other normal arrays (RAID1
etc) can be created inside the container.
.SH MODES
mdadm has several major modes of operation:
.TP
.B Assemble
Assemble the components of a previously created
array into an active array. Components can be explicitly given
or can be searched for.
.I mdadm
checks that the components
do form a bona fide array, and can, on request, fiddle superblock
information so as to assemble a faulty array.
.TP
.B Build
Build an array that doesn't have per-device metadata (superblocks). For these
sorts of arrays,
.I mdadm
cannot differentiate between initial creation and subsequent assembly
of an array. It also cannot perform any checks that appropriate
components have been requested. Because of this, the
.B Build
mode should only be used together with a complete understanding of
what you are doing.
.TP
.B Create
Create a new array with per-device metadata (superblocks).
Appropriate metadata is written to each device, and then the array
comprising those devices is activated. A 'resync' process is started
to make sure that the array is consistent (e.g. both sides of a mirror
contain the same data) but the content of the device is left otherwise
untouched.
The array can be used as soon as it has been created. There is no
need to wait for the initial resync to finish.
.TP
.B "Follow or Monitor"
Monitor one or more md devices and act on any state changes. This is
only meaningful for RAID1, 4, 5, 6, 10 or multipath arrays, as
only these have interesting state. RAID0 or Linear never have
missing, spare, or failed drives, so there is nothing to monitor.
.TP
.B "Grow"
Grow (or shrink) an array, or otherwise reshape it in some way.
Currently supported growth options including changing the active size
of component devices and changing the number of active devices in RAID
levels 1/4/5/6, changing the RAID level between 1, 5, and 6, changing
the chunk size and layout for RAID5 and RAID5, as well as adding or
removing a write-intent bitmap.
.TP
.B "Incremental Assembly"
Add a single device to an appropriate array. If the addition of the
device makes the array runnable, the array will be started.
This provides a convenient interface to a
.I hot-plug
system. As each device is detected,
.I mdadm
has a chance to include it in some array as appropriate.
If a
.B CONTAINER
is passed to
.I mdadm
in this mode, then any arrays within that container will be assembled
and started.
.TP
.B Manage
This is for doing things to specific components of an array such as
adding new spares and removing faulty devices.
.TP
.B Misc
This is an 'everything else' mode that supports operations on active
arrays, operations on component devices such as erasing old superblocks, and
information gathering operations.
.\"This mode allows operations on independent devices such as examine MD
.\"superblocks, erasing old superblocks and stopping active arrays.
.TP
.B Auto-detect
This mode does not act on a specific device or array, but rather it
requests the Linux Kernel to activate any auto-detected arrays.
.SH OPTIONS
.SH Options for selecting a mode are:
.TP
.BR \-A ", " \-\-assemble
Assemble a pre-existing array.
.TP
.BR \-B ", " \-\-build
Build a legacy array without superblocks.
.TP
.BR \-C ", " \-\-create
Create a new array.
.TP
.BR \-F ", " \-\-follow ", " \-\-monitor
Select
.B Monitor
mode.
.TP
.BR \-G ", " \-\-grow
Change the size or shape of an active array.
.TP
.BR \-I ", " \-\-incremental
Add a single device into an appropriate array, and possibly start the array.
.TP
.B \-\-auto-detect
Request that the kernel starts any auto-detected arrays. This can only
work if
.I md
is compiled into the kernel \(em not if it is a module.
Arrays can be auto-detected by the kernel if all the components are in
primary MS-DOS partitions with partition type
.BR FD ,
and all use v0.90 metadata.
In-kernel autodetect is not recommended for new installations. Using
.I mdadm
to detect and assemble arrays \(em possibly in an
.I initrd
\(em is substantially more flexible and should be preferred.
.P
If a device is given before any options, or if the first option is
.BR \-\-add ,
.BR \-\-fail ,
or
.BR \-\-remove ,
then the MANAGE mode is assumed.
Anything other than these will cause the
.B Misc
mode to be assumed.
.SH Options that are not mode-specific are:
.TP
.BR \-h ", " \-\-help
Display general help message or, after one of the above options, a
mode-specific help message.
.TP
.B \-\-help\-options
Display more detailed help about command line parsing and some commonly
used options.
.TP
.BR \-V ", " \-\-version
Print version information for mdadm.
.TP
.BR \-v ", " \-\-verbose
Be more verbose about what is happening. This can be used twice to be
extra-verbose.
The extra verbosity currently only affects
.B \-\-detail \-\-scan
and
.BR "\-\-examine \-\-scan" .
.TP
.BR \-q ", " \-\-quiet
Avoid printing purely informative messages. With this,
.I mdadm
will be silent unless there is something really important to report.
.TP
.BR \-b ", " \-\-brief
Be less verbose. This is used with
.B \-\-detail
and
.BR \-\-examine .
Using
.B \-\-brief
with
.B \-\-verbose
gives an intermediate level of verbosity.
.TP
.BR \-f ", " \-\-force
Be more forceful about certain operations. See the various modes for
the exact meaning of this option in different contexts.
.TP
.BR \-c ", " \-\-config=
Specify the config file. Default is to use
.BR /etc/mdadm.conf ,
or if that is missing then
.BR /etc/mdadm/mdadm.conf .
If the config file given is
.B "partitions"
then nothing will be read, but
.I mdadm
will act as though the config file contained exactly
.B "DEVICE partitions containers"
and will read
.B /proc/partitions
to find a list of devices to scan, and
.B /proc/mdstat
to find a list of containers to examine.
If the word
.B "none"
is given for the config file, then
.I mdadm
will act as though the config file were empty.
.TP
.BR \-s ", " \-\-scan
Scan config file or
.B /proc/mdstat
for missing information.
In general, this option gives
.I mdadm
permission to get any missing information (like component devices,
array devices, array identities, and alert destination) from the
configuration file (see previous option);
one exception is MISC mode when using
.B \-\-detail
or
.B \-\-stop,
in which case
.B \-\-scan
says to get a list of array devices from
.BR /proc/mdstat .
.TP
.BR \-e ", " \-\-metadata=
Declare the style of RAID metadata (superblock) to be used. The
default is 0.90 for
.BR \-\-create ,
and to guess for other operations.
The default can be overridden by setting the
.B metadata
value for the
.B CREATE
keyword in
.BR mdadm.conf .
Options are:
.RS
.IP "0, 0.90, default"
Use the original 0.90 format superblock. This format limits arrays to
28 component devices and limits component devices of levels 1 and
greater to 2 terabytes.
.IP "1, 1.0, 1.1, 1.2"
Use the new version-1 format superblock. This has few restrictions.
The different sub-versions store the superblock at different locations
on the device, either at the end (for 1.0), at the start (for 1.1) or
4K from the start (for 1.2).
.IP ddf
Use the "Industry Standard" DDF (Disk Data Format) format defined by
SNIA.
When creating a DDF array a
.B CONTAINER
will be created, and normal arrays can be created in that container.
.IP imsm
Use the Intel(R) Matrix Storage Manager metadata format. This creates a
.B CONTAINER
which is managed in a similar manner to DDF, and is supported by an
option-rom on some platforms:
.IP
.B http://www.intel.com/design/chipsets/matrixstorage_sb.htm
.PP
.RE
.TP
.B \-\-homehost=
This will override any
.B HOMEHOST
setting in the config file and provides the identity of the host which
should be considered the home for any arrays.
When creating an array, the
.B homehost
will be recorded in the metadata. For version-1 superblocks, it will
be prefixed to the array name. For version-0.90 superblocks, part of
the SHA1 hash of the hostname will be stored in the later half of the
UUID.
When reporting information about an array, any array which is tagged
for the given homehost will be reported as such.
When using Auto-Assemble, only arrays tagged for the given homehost
will be allowed to use 'local' names (i.e. not ending in '_' followed
by a digit string). See below under
.BR "Auto Assembly" .
.SH For create, build, or grow:
.TP
.BR \-n ", " \-\-raid\-devices=
Specify the number of active devices in the array. This, plus the
number of spare devices (see below) must equal the number of
.I component-devices
(including "\fBmissing\fP" devices)
that are listed on the command line for
.BR \-\-create .
Setting a value of 1 is probably
a mistake and so requires that
.B \-\-force
be specified first. A value of 1 will then be allowed for linear,
multipath, RAID0 and RAID1. It is never allowed for RAID4, RAID5 or RAID6.
.br
This number can only be changed using
.B \-\-grow
for RAID1, RAID4, RAID5 and RAID6 arrays, and only on kernels which provide
the necessary support.
.TP
.BR \-x ", " \-\-spare\-devices=
Specify the number of spare (eXtra) devices in the initial array.
Spares can also be added
and removed later. The number of component devices listed
on the command line must equal the number of RAID devices plus the
number of spare devices.
.TP
.BR \-z ", " \-\-size=
Amount (in Kibibytes) of space to use from each drive in RAID levels 1/4/5/6.
This must be a multiple of the chunk size, and must leave about 128Kb
of space at the end of the drive for the RAID superblock.
If this is not specified
(as it normally is not) the smallest drive (or partition) sets the
size, though if there is a variance among the drives of greater than 1%, a warning is
issued.
This value can be set with
.B \-\-grow
for RAID level 1/4/5/6. If the array was created with a size smaller
than the currently active drives, the extra space can be accessed
using
.BR \-\-grow .
The size can be given as
.B max
which means to choose the largest size that fits on all current drives.
This value can not be used with
.B CONTAINER
metadata such as DDF and IMSM.
.TP
.BR \-Z ", " \-\-array-size=
This is only meaningful with
.B \-\-grow
and its effect is not persistent: when the array is stopped an
restarted the default array size will be restored.
Setting the array-size causes the array to appear smaller to programs
that access the data. This is particularly needed before reshaping an
array so that it will be smaller. As the reshape is not reversible,
but setting the size with
.B \-\-array-size
is, it is required that the array size is reduced as appropriate
before the number of devices in the array is reduced.
.TP
.BR \-c ", " \-\-chunk=
Specify chunk size of kibibytes. The default when creating an
array is 512KB. To ensure compatibility with earlier versions, the
default when Building and array with no persistent metadata is 64KB.
This is only meaningful for RAID0, RAID4, RAID5, RAID6, and RAID10.
.TP
.BR \-\-rounding=
Specify rounding factor for a Linear array. The size of each
component will be rounded down to a multiple of this size.
This is a synonym for
.B \-\-chunk
but highlights the different meaning for Linear as compared to other
RAID levels. The default is 64K if a kernel earlier than 2.6.16 is in
use, and is 0K (i.e. no rounding) in later kernels.
.TP
.BR \-l ", " \-\-level=
Set RAID level. When used with
.BR \-\-create ,
options are: linear, raid0, 0, stripe, raid1, 1, mirror, raid4, 4,
raid5, 5, raid6, 6, raid10, 10, multipath, mp, faulty, container.
Obviously some of these are synonymous.
When a
.B CONTAINER
metadata type is requested, only the
.B container
level is permitted, and it does not need to be explicitly given.
When used with
.BR \-\-build ,
only linear, stripe, raid0, 0, raid1, multipath, mp, and faulty are valid.
Not yet supported with
.BR \-\-grow .
.TP
.BR \-p ", " \-\-layout=
This option configures the fine details of data layout for RAID5, RAID6,
and RAID10 arrays, and controls the failure modes for
.IR faulty .
The layout of the RAID5 parity block can be one of
.BR left\-asymmetric ,
.BR left\-symmetric ,
.BR right\-asymmetric ,
.BR right\-symmetric ,
.BR la ", " ra ", " ls ", " rs .
The default is
.BR left\-symmetric .
It is also possibly to cause RAID5 to use a RAID4-like layout by
choosing
.BR parity\-first ,
or
.BR parity\-last .
Finally for RAID5 there are DDF\-compatible layouts,
.BR ddf\-zero\-restart ,
.BR ddf\-N\-restart ,
and
.BR ddf\-N\-continue .
These same layouts are available for RAID6. There are also 4 layouts
that will provide an intermediate stage for converting between RAID5
and RAID6. These provide a layout which is identical to the
corresponding RAID5 layout on the first N\-1 devices, and has the 'Q'
syndrome (the second 'parity' block used by RAID6) on the last device.
These layouts are:
.BR left\-symmetric\-6 ,
.BR right\-symmetric\-6 ,
.BR left\-asymmetric\-6 ,
.BR right\-asymmetric\-6 ,
and
.BR pairty\-first\-6 .
When setting the failure mode for level
.I faulty,
the options are:
.BR write\-transient ", " wt ,
.BR read\-transient ", " rt ,
.BR write\-persistent ", " wp ,
.BR read\-persistent ", " rp ,
.BR write\-all ,
.BR read\-fixable ", " rf ,
.BR clear ", " flush ", " none .
Each failure mode can be followed by a number, which is used as a period
between fault generation. Without a number, the fault is generated
once on the first relevant request. With a number, the fault will be
generated after that many requests, and will continue to be generated
every time the period elapses.
Multiple failure modes can be current simultaneously by using the
.B \-\-grow
option to set subsequent failure modes.
"clear" or "none" will remove any pending or periodic failure modes,
and "flush" will clear any persistent faults.
Finally, the layout options for RAID10 are one of 'n', 'o' or 'f' followed
by a small number. The default is 'n2'. The supported options are:
.I 'n'
signals 'near' copies. Multiple copies of one data block are at
similar offsets in different devices.
.I 'o'
signals 'offset' copies. Rather than the chunks being duplicated
within a stripe, whole stripes are duplicated but are rotated by one
device so duplicate blocks are on different devices. Thus subsequent
copies of a block are in the next drive, and are one chunk further
down.
.I 'f'
signals 'far' copies
(multiple copies have very different offsets).
See md(4) for more detail about 'near', 'offset', and 'far'.
The number is the number of copies of each datablock. 2 is normal, 3
can be useful. This number can be at most equal to the number of
devices in the array. It does not need to divide evenly into that
number (e.g. it is perfectly legal to have an 'n2' layout for an array
with an odd number of devices).
When an array is converted between RAID5 and RAID6 an intermediate
RAID6 layout is used in which the second parity block (Q) is always on
the last device. To convert a RAID5 to RAID6 and leave it in this new
layout (which does not require re-striping) use
.BR \-\-layout=preserve .
This will try to avoid any restriping.
The converse of this is
.B \-\-layout=normalise
which will change a non-standard RAID6 layout into a more standard
arrangement.
.TP
.BR \-\-parity=
same as
.B \-\-layout
(thus explaining the p of
.BR \-p ).
.TP
.BR \-b ", " \-\-bitmap=
Specify a file to store a write-intent bitmap in. The file should not
exist unless
.B \-\-force
is also given. The same file should be provided
when assembling the array. If the word
.B "internal"
is given, then the bitmap is stored with the metadata on the array,
and so is replicated on all devices. If the word
.B "none"
is given with
.B \-\-grow
mode, then any bitmap that is present is removed.
To help catch typing errors, the filename must contain at least one
slash ('/') if it is a real file (not 'internal' or 'none').
Note: external bitmaps are only known to work on ext2 and ext3.
Storing bitmap files on other filesystems may result in serious problems.
.TP
.BR \-\-bitmap\-chunk=
Set the chunksize of the bitmap. Each bit corresponds to that many
Kilobytes of storage.
When using a file based bitmap, the default is to use the smallest
size that is at-least 4 and requires no more than 2^21 chunks.
When using an
.B internal
bitmap, the chunksize is automatically determined to make best use of
available space.
.TP
.BR \-W ", " \-\-write\-mostly
subsequent devices listed in a
.BR \-\-build ,
.BR \-\-create ,
or
.B \-\-add
command will be flagged as 'write-mostly'. This is valid for RAID1
only and means that the 'md' driver will avoid reading from these
devices if at all possible. This can be useful if mirroring over a
slow link.
.TP
.BR \-\-write\-behind=
Specify that write-behind mode should be enabled (valid for RAID1
only). If an argument is specified, it will set the maximum number
of outstanding writes allowed. The default value is 256.
A write-intent bitmap is required in order to use write-behind
mode, and write-behind is only attempted on drives marked as
.IR write-mostly .
.TP
.BR \-\-assume\-clean
Tell
.I mdadm
that the array pre-existed and is known to be clean. It can be useful
when trying to recover from a major failure as you can be sure that no
data will be affected unless you actually write to the array. It can
also be used when creating a RAID1 or RAID10 if you want to avoid the
initial resync, however this practice \(em while normally safe \(em is not
recommended. Use this only if you really know what you are doing.
.TP
.BR \-\-backup\-file=
This is needed when
.B \-\-grow
is used to increase the number of
raid-devices in a RAID5 if there are no spare devices available.
See the GROW MODE section below on RAID\-DEVICES CHANGES. The file
should be stored on a separate device, not on the RAID array being
reshaped.
.TP
.BR \-\-array-size= ", " \-Z
Set the size of the array which is seen by users of the device such as
filesystems. This can be less that the real size, but never greater.
The size set this way does not persist across restarts of the array.
This is most useful when reducing the number of devices in a RAID5 or
RAID6. Such arrays require the array-size to be reduced before a
reshape can be performed that reduces the real size.
A value of
.B max
restores the apparent size of the array to be whatever the real
amount of available space is.
.TP
.BR \-N ", " \-\-name=
Set a
.B name
for the array. This is currently only effective when creating an
array with a version-1 superblock, or an array in a DDF container.
The name is a simple textual string that can be used to identify array
components when assembling. If name is needed but not specified, it
is taken from the basename of the device that is being created.
e.g. when creating
.I /dev/md/home
the
.B name
will default to
.IR home .
.TP
.BR \-R ", " \-\-run
Insist that
.I mdadm
run the array, even if some of the components
appear to be active in another array or filesystem. Normally
.I mdadm
will ask for confirmation before including such components in an
array. This option causes that question to be suppressed.
.TP
.BR \-f ", " \-\-force
Insist that
.I mdadm
accept the geometry and layout specified without question. Normally
.I mdadm
will not allow creation of an array with only one device, and will try
to create a RAID5 array with one missing drive (as this makes the
initial resync work faster). With
.BR \-\-force ,
.I mdadm
will not try to be so clever.
.TP
.BR \-a ", " "\-\-auto{=yes,md,mdp,part,p}{NN}"
Instruct mdadm how to create the device file if needed, possibly allocating
an unused minor number. "md" causes a non-partitionable array
to be used (though since Linux 2.6.28, these array devices are in fact
partitionable). "mdp", "part" or "p" causes a partitionable array (2.6 and
later) to be used. "yes" requires the named md device to have
a 'standard' format, and the type and minor number will be determined
from this. With mdadm 3.0, device creation is normally left up to
.I udev
so this option is unlikely to be needed.
See DEVICE NAMES below.
The argument can also come immediately after
"\-a". e.g. "\-ap".
If
.B \-\-auto
is not given on the command line or in the config file, then
the default will be
.BR \-\-auto=yes .
If
.B \-\-scan
is also given, then any
.I auto=
entries in the config file will override the
.B \-\-auto
instruction given on the command line.
For partitionable arrays,
.I mdadm
will create the device file for the whole array and for the first 4
partitions. A different number of partitions can be specified at the
end of this option (e.g.
.BR \-\-auto=p7 ).
If the device name ends with a digit, the partition names add a 'p',
and a number, e.g.
.IR /dev/md/home1p3 .
If there is no trailing digit, then the partition names just have a
number added, e.g.
.IR /dev/md/scratch3 .
If the md device name is in a 'standard' format as described in DEVICE
NAMES, then it will be created, if necessary, with the appropriate
device number based on that name. If the device name is not in one of these
formats, then a unused device number will be allocated. The device
number will be considered unused if there is no active array for that
number, and there is no entry in /dev for that number and with a
non-standard name. Names that are not in 'standard' format are only
allowed in "/dev/md/".
.ig XX
.\".TP
.\".BR \-\-symlink = no
.\"Normally when
.\".B \-\-auto
.\"causes
.\".I mdadm
.\"to create devices in
.\".B /dev/md/
.\"it will also create symlinks from
.\".B /dev/
.\"with names starting with
.\".B md
.\"or
.\".BR md_ .
.\"Use
.\".B \-\-symlink=no
.\"to suppress this, or
.\".B \-\-symlink=yes
.\"to enforce this even if it is suppressing
.\".IR mdadm.conf .
.\"
.XX
.SH For assemble:
.TP
.BR \-u ", " \-\-uuid=
uuid of array to assemble. Devices which don't have this uuid are
excluded
.TP
.BR \-m ", " \-\-super\-minor=
Minor number of device that array was created for. Devices which
don't have this minor number are excluded. If you create an array as
/dev/md1, then all superblocks will contain the minor number 1, even if
the array is later assembled as /dev/md2.
Giving the literal word "dev" for
.B \-\-super\-minor
will cause
.I mdadm
to use the minor number of the md device that is being assembled.
e.g. when assembling
.BR /dev/md0 ,
.B \-\-super\-minor=dev
will look for super blocks with a minor number of 0.
.B \-\-super\-minor
is only relevant for v0.90 metadata, and should not normally be used.
Using
.B \-\-uuid
is much safer.
.TP
.BR \-N ", " \-\-name=
Specify the name of the array to assemble. This must be the name
that was specified when creating the array. It must either match
the name stored in the superblock exactly, or it must match
with the current
.I homehost
prefixed to the start of the given name.
.TP
.BR \-f ", " \-\-force
Assemble the array even if the metadata on some devices appears to be
out-of-date. If
.I mdadm
cannot find enough working devices to start the array, but can find
some devices that are recorded as having failed, then it will mark
those devices as working so that the array can be started.
An array which requires
.B \-\-force
to be started may contain data corruption. Use it carefully.
.TP
.BR \-R ", " \-\-run
Attempt to start the array even if fewer drives were given than were
present last time the array was active. Normally if not all the
expected drives are found and
.B \-\-scan
is not used, then the array will be assembled but not started.
With
.B \-\-run
an attempt will be made to start it anyway.
.TP
.B \-\-no\-degraded
This is the reverse of
.B \-\-run
in that it inhibits the startup of array unless all expected drives
are present. This is only needed with
.B \-\-scan,
and can be used if the physical connections to devices are
not as reliable as you would like.
.TP
.BR \-a ", " "\-\-auto{=no,yes,md,mdp,part}"
See this option under Create and Build options.
.TP
.BR \-b ", " \-\-bitmap=
Specify the bitmap file that was given when the array was created. If
an array has an
.B internal
bitmap, there is no need to specify this when assembling the array.
.TP
.BR \-\-backup\-file=
If
.B \-\-backup\-file
was used to grow the number of raid-devices in a RAID5, and the system
crashed during the critical section, then the same
.B \-\-backup\-file
must be presented to
.B \-\-assemble
to allow possibly corrupted data to be restored.
.TP
.BR \-U ", " \-\-update=
Update the superblock on each device while assembling the array. The
argument given to this flag can be one of
.BR sparc2.2 ,
.BR summaries ,
.BR uuid ,
.BR name ,
.BR homehost ,
.BR resync ,
.BR byteorder ,
.BR devicesize ,
or
.BR super\-minor .
The
.B sparc2.2
option will adjust the superblock of an array what was created on a Sparc
machine running a patched 2.2 Linux kernel. This kernel got the
alignment of part of the superblock wrong. You can use the
.B "\-\-examine \-\-sparc2.2"
option to
.I mdadm
to see what effect this would have.
The
.B super\-minor
option will update the
.B "preferred minor"
field on each superblock to match the minor number of the array being
assembled.
This can be useful if
.B \-\-examine
reports a different "Preferred Minor" to
.BR \-\-detail .
In some cases this update will be performed automatically
by the kernel driver. In particular the update happens automatically
at the first write to an array with redundancy (RAID level 1 or
greater) on a 2.6 (or later) kernel.
The
.B uuid
option will change the uuid of the array. If a UUID is given with the
.B \-\-uuid
option that UUID will be used as a new UUID and will
.B NOT
be used to help identify the devices in the array.
If no
.B \-\-uuid
is given, a random UUID is chosen.
The
.B name
option will change the
.I name
of the array as stored in the superblock. This is only supported for
version-1 superblocks.
The
.B homehost
option will change the
.I homehost
as recorded in the superblock. For version-0 superblocks, this is the
same as updating the UUID.
For version-1 superblocks, this involves updating the name.
The
.B resync
option will cause the array to be marked
.I dirty
meaning that any redundancy in the array (e.g. parity for RAID5,
copies for RAID1) may be incorrect. This will cause the RAID system
to perform a "resync" pass to make sure that all redundant information
is correct.
The
.B byteorder
option allows arrays to be moved between machines with different
byte-order.
When assembling such an array for the first time after a move, giving
.B "\-\-update=byteorder"
will cause
.I mdadm
to expect superblocks to have their byteorder reversed, and will
correct that order before assembling the array. This is only valid
with original (Version 0.90) superblocks.
The
.B summaries
option will correct the summaries in the superblock. That is the
counts of total, working, active, failed, and spare devices.
The
.B devicesize
will rarely be of use. It applies to version 1.1 and 1.2 metadata
only (where the metadata is at the start of the device) and is only
useful when the component device has changed size (typically become
larger). The version 1 metadata records the amount of the device that
can be used to store data, so if a device in a version 1.1 or 1.2
array becomes larger, the metadata will still be visible, but the
extra space will not. In this case it might be useful to assemble the
array with
.BR \-\-update=devicesize .
This will cause
.I mdadm
to determine the maximum usable amount of space on each device and
update the relevant field in the metadata.
.ig XX
.TP
.B \-\-auto\-update\-homehost
This flag is only meaningful with auto-assembly (see discussion below).
In that situation, if no suitable arrays are found for this homehost,
.I mdadm
will rescan for any arrays at all and will assemble them and update the
homehost to match the current host.
.XX
.SH For Manage mode:
.TP
.BR \-a ", " \-\-add
hot-add listed devices. For arrays with redundancy, the listed
devices become available as spares. If the array is degraded, it will
immediately start recovering data on to one of these spares.
.TP
.BR \-\-re\-add
re-add a device that was recently removed from an array. This is only
needed for arrays that have be built (i.e. with
.BR --build ).
For created arrays, devices are always re-added if that is possible.
When re-adding a device, if nothing has changed on the array since the
device was removed, no recovery is performed. Also, if the array has
a write-intent bitmap, then the recovery performed after a re-add will
be limited to those blocks which, according to the bitmap, might have
changed since the device was removed.
.TP
.BR \-r ", " \-\-remove
remove listed devices. They must not be active. i.e. they should
be failed or spare devices. As well as the name of a device file
(e.g.
.BR /dev/sda1 )
the words
.B failed
and
.B detached
can be given to
.BR \-\-remove .
The first causes all failed device to be removed. The second causes
any device which is no longer connected to the system (i.e an 'open'
returns
.BR ENXIO )
to be removed. This will only succeed for devices that are spares or
have already been marked as failed.
.TP
.BR \-f ", " \-\-fail
mark listed devices as faulty.
As well as the name of a device file, the word
.B detached
can be given. This will cause any device that has been detached from
the system to be marked as failed. It can then be removed.
.TP
.BR \-\-set\-faulty
same as
.BR \-\-fail .
.TP
.BR \-\-write\-mostly
Subsequent devices that are added or re-added will have the 'write-mostly'
flag set. This is only valid for RAID1 and means that the 'md' driver
will avoid reading from these devices if possible.
.TP
.BR \-\-readwrite
Subsequent devices that are added or re-added will have the 'write-mostly'
flag cleared.
.P
Each of these options requires that the first device listed is the array
to be acted upon, and the remainder are component devices to be added,
removed, marked as faulty, etc. Several different operations can be
specified for different devices, e.g.
.in +5
mdadm /dev/md0 \-\-add /dev/sda1 \-\-fail /dev/sdb1 \-\-remove /dev/sdb1
.in -5
Each operation applies to all devices listed until the next
operation.
If an array is using a write-intent bitmap, then devices which have
been removed can be re-added in a way that avoids a full
reconstruction but instead just updates the blocks that have changed
since the device was removed. For arrays with persistent metadata
(superblocks) this is done automatically. For arrays created with
.B \-\-build
mdadm needs to be told that this device we removed recently with
.BR \-\-re\-add .
Devices can only be removed from an array if they are not in active
use, i.e. that must be spares or failed devices. To remove an active
device, it must first be marked as
.B faulty.
.SH For Misc mode:
.TP
.BR \-Q ", " \-\-query
Examine a device to see
(1) if it is an md device and (2) if it is a component of an md
array.
Information about what is discovered is presented.
.TP
.BR \-D ", " \-\-detail
Print details of one or more md devices.
.TP
.BR \-\-detail\-platform
Print details of the platform's RAID capabilities (firmware / hardware
topology) for a given metadata format.
.TP
.BR \-Y ", " \-\-export
When used with
.B \-\-detail
or
.BR \-\-examine ,
output will be formatted as
.B key=value
pairs for easy import into the environment.
.TP
.BR \-E ", " \-\-examine
Print contents of the metadata stored on the named device(s).
Note the contrast between
.B \-\-examine
and
.BR \-\-detail .
.B \-\-examine
applies to devices which are components of an array, while
.B \-\-detail
applies to a whole array which is currently active.
.TP
.B \-\-sparc2.2
If an array was created on a SPARC machine with a 2.2 Linux kernel
patched with RAID support, the superblock will have been created
incorrectly, or at least incompatibly with 2.4 and later kernels.
Using the
.B \-\-sparc2.2
flag with
.B \-\-examine
will fix the superblock before displaying it. If this appears to do
the right thing, then the array can be successfully assembled using
.BR "\-\-assemble \-\-update=sparc2.2" .
.TP
.BR \-X ", " \-\-examine\-bitmap
Report information about a bitmap file.
The argument is either an external bitmap file or an array component
in case of an internal bitmap. Note that running this on an array
device (e.g.
.BR /dev/md0 )
does not report the bitmap for that array.
.TP
.BR \-R ", " \-\-run
start a partially assembled array. If
.B \-\-assemble
did not find enough devices to fully start the array, it might leaving
it partially assembled. If you wish, you can then use
.B \-\-run
to start the array in degraded mode.
.TP
.BR \-S ", " \-\-stop
deactivate array, releasing all resources.
.TP
.BR \-o ", " \-\-readonly
mark array as readonly.
.TP
.BR \-w ", " \-\-readwrite
mark array as readwrite.
.TP
.B \-\-zero\-superblock
If the device contains a valid md superblock, the block is
overwritten with zeros. With
.B \-\-force
the block where the superblock would be is overwritten even if it
doesn't appear to be valid.
.TP
.BR \-t ", " \-\-test
When used with
.BR \-\-detail ,
the exit status of
.I mdadm
is set to reflect the status of the device. See below in
.B MISC MODE
for details.
.TP
.BR \-W ", " \-\-wait
For each md device given, wait for any resync, recovery, or reshape
activity to finish before returning.
.I mdadm
will return with success if it actually waited for every device
listed, otherwise it will return failure.
.TP
.BR \-\-wait\-clean
For each md device given, or each device in /proc/mdstat if
.B \-\-scan
is given, arrange for the array to be marked clean as soon as possible.
Also, quiesce resync so that the monitor for external metadata arrays
(mdmon) has an opportunity to checkpoint the resync position.
.I mdadm
will return with success if the array uses external metadata and we
successfully waited. For native arrays this returns immediately as the
kernel handles both dirty-clean transitions and resync checkpointing in
the kernel at shutdown. No action is taken if safe-mode handling is
disabled.
.SH For Incremental Assembly mode:
.TP
.BR \-\-rebuild\-map ", " \-r
Rebuild the map file
.RB ( /var/run/mdadm/map )
that
.I mdadm
uses to help track which arrays are currently being assembled.
.TP
.BR \-\-run ", " \-R
Run any array assembled as soon as a minimal number of devices are
available, rather than waiting until all expected devices are present.
.TP
.B \-\-no\-degraded
This allows the hot-plug system to prevent arrays from running when it knows
that more disks may arrive later in the discovery process.
.TP
.BR \-\-scan ", " \-s
Only meaningful with
.B \-R
this will scan the
.B map
file for arrays that are being incrementally assembled and will try to
start any that are not already started. If any such array is listed
in
.B mdadm.conf
as requiring an external bitmap, that bitmap will be attached first.
.SH For Monitor mode:
.TP
.BR \-m ", " \-\-mail
Give a mail address to send alerts to.
.TP
.BR \-p ", " \-\-program ", " \-\-alert
Give a program to be run whenever an event is detected.
.TP
.BR \-y ", " \-\-syslog
Cause all events to be reported through 'syslog'. The messages have
facility of 'daemon' and varying priorities.
.TP
.BR \-d ", " \-\-delay
Give a delay in seconds.
.I mdadm
polls the md arrays and then waits this many seconds before polling
again. The default is 60 seconds. Since 2.6.16, there is no need to
reduce this as the kernel alerts
.I mdadm
immediately when there is any change.
.TP
.BR \-r ", " \-\-increment
Give a percentage increment.
.I mdadm
will generate RebuildNN events with the given percentage increment.
.TP
.BR \-f ", " \-\-daemonise
Tell
.I mdadm
to run as a background daemon if it decides to monitor anything. This
causes it to fork and run in the child, and to disconnect from the
terminal. The process id of the child is written to stdout.
This is useful with
.B \-\-scan
which will only continue monitoring if a mail address or alert program
is found in the config file.
.TP
.BR \-i ", " \-\-pid\-file
When
.I mdadm
is running in daemon mode, write the pid of the daemon process to
the specified file, instead of printing it on standard output.
.TP
.BR \-1 ", " \-\-oneshot
Check arrays only once. This will generate
.B NewArray
events and more significantly
.B DegradedArray
and
.B SparesMissing
events. Running
.in +5
.B " mdadm \-\-monitor \-\-scan \-1"
.in -5
from a cron script will ensure regular notification of any degraded arrays.
.TP
.BR \-t ", " \-\-test
Generate a
.B TestMessage
alert for every array found at startup. This alert gets mailed and
passed to the alert program. This can be used for testing that alert
message do get through successfully.
.SH ASSEMBLE MODE
.HP 12
Usage:
.B mdadm \-\-assemble
.I md-device options-and-component-devices...
.HP 12
Usage:
.B mdadm \-\-assemble \-\-scan
.I md-devices-and-options...
.HP 12
Usage:
.B mdadm \-\-assemble \-\-scan
.I options...
.PP
This usage assembles one or more RAID arrays from pre-existing components.
For each array, mdadm needs to know the md device, the identity of the
array, and a number of component-devices. These can be found in a number of ways.
In the first usage example (without the
.BR \-\-scan )
the first device given is the md device.
In the second usage example, all devices listed are treated as md
devices and assembly is attempted.
In the third (where no devices are listed) all md devices that are
listed in the configuration file are assembled. If not arrays are
described by the configuration file, then any arrays that
can be found on unused devices will be assembled.
If precisely one device is listed, but
.B \-\-scan
is not given, then
.I mdadm
acts as though
.B \-\-scan
was given and identity information is extracted from the configuration file.
The identity can be given with the
.B \-\-uuid
option, the
.B \-\-name
option, or the
.B \-\-super\-minor
option, will be taken from the md-device record in the config file, or
will be taken from the super block of the first component-device
listed on the command line.
Devices can be given on the
.B \-\-assemble
command line or in the config file. Only devices which have an md
superblock which contains the right identity will be considered for
any array.
The config file is only used if explicitly named with
.B \-\-config
or requested with (a possibly implicit)
.BR \-\-scan .
In the later case,
.B /etc/mdadm.conf
or
.B /etc/mdadm/mdadm.conf
is used.
If
.B \-\-scan
is not given, then the config file will only be used to find the
identity of md arrays.
Normally the array will be started after it is assembled. However if
.B \-\-scan
is not given and not all expected drives were listed, then the array
is not started (to guard against usage errors). To insist that the
array be started in this case (as may work for RAID1, 4, 5, 6, or 10),
give the
.B \-\-run
flag.
If
.I udev
is active,
.I mdadm
does not create any entries in
.B /dev
but leaves that to
.IR udev .
It does record information in
.B /var/run/mdadm/map
which will allow
.I udev
to choose the correct name.
If
.I mdadm
detects that udev is not configured, it will create the devices in
.B /dev
itself.
In Linux kernels prior to version 2.6.28 there were two distinctly
different types of md devices that could be created: one that could be
partitioned using standard partitioning tools and one that could not.
Since 2.6.28 that distinction is no longer relevant as both type of
devices can be partitioned.
.I mdadm
will normally create the type that originally could not be partitioned
as it has a well defined major number (9).
Prior to 2.6.28, it is important that mdadm chooses the correct type
of array device to use. This can be controlled with the
.B \-\-auto
option. In particular, a value of "mdp" or "part" or "p" tells mdadm
to use a partitionable device rather than the default.
In the no-udev case, the value given to
.B \-\-auto
can be suffixed by a number. This tells
.I mdadm
to create that number of partition devices rather than the default of 4.
The value given to
.B \-\-auto
can also be given in the configuration file as a word starting
.B auto=
on the ARRAY line for the relevant array.
.SS Auto Assembly
When
.B \-\-assemble
is used with
.B \-\-scan
and no devices are listed,
.I mdadm
will first attempt to assemble all the arrays listed in the config
file.
In no array at listed in the config (other than those marked
.BR <ignore> )
it will look through the available devices for possible arrays and
will try to assemble anything that it finds. Arrays which are tagged
as belonging to the given homehost will be assembled and started
normally. Arrays which do not obviously belong to this host are given
names that are expected not to conflict with anything local, and are
started "read-auto" so that nothing is written to any device until the
array is written to. i.e. automatic resync etc is delayed.
If
.I mdadm
finds a consistent set of devices that look like they should comprise
an array, and if the superblock is tagged as belonging to the given
home host, it will automatically choose a device name and try to
assemble the array. If the array uses version-0.90 metadata, then the
.B minor
number as recorded in the superblock is used to create a name in
.B /dev/md/
so for example
.BR /dev/md/3 .
If the array uses version-1 metadata, then the
.B name
from the superblock is used to similarly create a name in
.B /dev/md/
(the name will have any 'host' prefix stripped first).
.ig XX
If
.I mdadm
cannot find any array for the given host at all, and if
.B \-\-auto\-update\-homehost
is given, then
.I mdadm
will search again for any array (not just an array created for this
host) and will assemble each assuming
.BR \-\-update=homehost .
This will change the host tag in the superblock so that on the next run,
these arrays will be found without the second pass. The intention of
this feature is to support transitioning a set of md arrays to using
homehost tagging.
The reason for requiring arrays to be tagged with the homehost for
auto assembly is to guard against problems that can arise when moving
devices from one host to another.
.XX
.SH BUILD MODE
.HP 12
Usage:
.B mdadm \-\-build
.I md-device
.BI \-\-chunk= X
.BI \-\-level= Y
.BI \-\-raid\-devices= Z
.I devices
.PP
This usage is similar to
.BR \-\-create .
The difference is that it creates an array without a superblock. With
these arrays there is no difference between initially creating the array and
subsequently assembling the array, except that hopefully there is useful
data there in the second case.
The level may raid0, linear, raid1, raid10, multipath, or faulty, or
one of their synonyms. All devices must be listed and the array will
be started once complete. It will often be appropriate to use
.B \-\-assume\-clean
with levels raid1 or raid10.
.SH CREATE MODE
.HP 12
Usage:
.B mdadm \-\-create
.I md-device
.BI \-\-chunk= X
.BI \-\-level= Y
.br
.BI \-\-raid\-devices= Z
.I devices
.PP
This usage will initialise a new md array, associate some devices with
it, and activate the array.
The named device will normally not exist when
.I "mdadm \-\-create"
is run, but will be created by
.I udev
once the array becomes active.
As devices are added, they are checked to see if they contain RAID
superblocks or filesystems. They are also checked to see if the variance in
device size exceeds 1%.
If any discrepancy is found, the array will not automatically be run, though
the presence of a
.B \-\-run
can override this caution.
To create a "degraded" array in which some devices are missing, simply
give the word "\fBmissing\fP"
in place of a device name. This will cause
.I mdadm
to leave the corresponding slot in the array empty.
For a RAID4 or RAID5 array at most one slot can be
"\fBmissing\fP"; for a RAID6 array at most two slots.
For a RAID1 array, only one real device needs to be given. All of the
others can be
"\fBmissing\fP".
When creating a RAID5 array,
.I mdadm
will automatically create a degraded array with an extra spare drive.
This is because building the spare into a degraded array is in general
faster than resyncing the parity on a non-degraded, but not clean,
array. This feature can be overridden with the
.B \-\-force
option.
When creating an array with version-1 metadata a name for the array is
required.
If this is not given with the
.B \-\-name
option,
.I mdadm
will choose a name based on the last component of the name of the
device being created. So if
.B /dev/md3
is being created, then the name
.B 3
will be chosen.
If
.B /dev/md/home
is being created, then the name
.B home
will be used.
When creating a partition based array, using
.I mdadm
with version-1.x metadata, the partition type should be set to
.B 0xDA
(non fs-data). This type selection allows for greater precision since
using any other [RAID auto-detect (0xFD) or a GNU/Linux partition (0x83)],
might create problems in the event of array recovery through a live cdrom.
A new array will normally get a randomly assigned 128bit UUID which is
very likely to be unique. If you have a specific need, you can choose
a UUID for the array by giving the
.B \-\-uuid=
option. Be warned that creating two arrays with the same UUID is a
recipe for disaster. Also, using
.B \-\-uuid=
when creating a v0.90 array will silently override any
.B \-\-homehost=
setting.
.\"If the
.\".B \-\-size
.\"option is given, it is not necessary to list any component-devices in this command.
.\"They can be added later, before a
.\".B \-\-run.
.\"If no
.\".B \-\-size
.\"is given, the apparent size of the smallest drive given is used.
When creating an array within a
.B CONTAINER
.I mdadm
can be given either the list of devices to use, or simply the name of
the container. The former case gives control over which devices in
the container will be used for the array. The latter case allows
.I mdadm
to automatically choose which devices to use based on how much spare
space is available.
The General Management options that are valid with
.B \-\-create
are:
.TP
.B \-\-run
insist on running the array even if some devices look like they might
be in use.
.TP
.B \-\-readonly
start the array readonly \(em not supported yet.
.SH MANAGE MODE
.HP 12
Usage:
.B mdadm
.I device
.I options... devices...
.PP
This usage will allow individual devices in an array to be failed,
removed or added. It is possible to perform multiple operations with
on command. For example:
.br
.B " mdadm /dev/md0 \-f /dev/hda1 \-r /dev/hda1 \-a /dev/hda1"
.br
will firstly mark
.B /dev/hda1
as faulty in
.B /dev/md0
and will then remove it from the array and finally add it back
in as a spare. However only one md array can be affected by a single
command.
When a device is added to an active array, mdadm checks to see if it
has metadata on it which suggests that it was recently a member of the
array. If it does, it tried to "re-add" the device. If there have
been no changes since the device was removed, or if the array has a
write-intent bitmap which has recorded whatever changes there were,
then the device will immediately become a full member of the array and
those differences recorded in the bitmap will be resolved.
.SH MISC MODE
.HP 12
Usage:
.B mdadm
.I options ...
.I devices ...
.PP
MISC mode includes a number of distinct operations that
operate on distinct devices. The operations are:
.TP
.B \-\-query
The device is examined to see if it is
(1) an active md array, or
(2) a component of an md array.
The information discovered is reported.
.TP
.B \-\-detail
The device should be an active md device.
.B mdadm
will display a detailed description of the array.
.B \-\-brief
or
.B \-\-scan
will cause the output to be less detailed and the format to be
suitable for inclusion in
.BR /etc/mdadm.conf .
The exit status of
.I mdadm
will normally be 0 unless
.I mdadm
failed to get useful information about the device(s); however, if the
.B \-\-test
option is given, then the exit status will be:
.RS
.TP
0
The array is functioning normally.
.TP
1
The array has at least one failed device.
.TP
2
The array has multiple failed devices such that it is unusable.
.TP
4
There was an error while trying to get information about the device.
.RE
.TP
.B \-\-detail\-platform
Print detail of the platform's RAID capabilities (firmware / hardware
topology). If the metadata is specified with
.B \-e
or
.B \-\-metadata=
then the return status will be:
.RS
.TP
0
metadata successfully enumerated its platform components on this system
.TP
1
metadata is platform independent
.TP
2
metadata failed to find its platform components on this system
.RE
.TP
.B \-\-examine
The device should be a component of an md array.
.I mdadm
will read the md superblock of the device and display the contents.
If
.B \-\-brief
or
.B \-\-scan
is given, then multiple devices that are components of the one array
are grouped together and reported in a single entry suitable
for inclusion in
.BR /etc/mdadm.conf .
Having
.B \-\-scan
without listing any devices will cause all devices listed in the
config file to be examined.
.TP
.B \-\-stop
The devices should be active md arrays which will be deactivated, as
long as they are not currently in use.
.TP
.B \-\-run
This will fully activate a partially assembled md array.
.TP
.B \-\-readonly
This will mark an active array as read-only, providing that it is
not currently being used.
.TP
.B \-\-readwrite
This will change a
.B readonly
array back to being read/write.
.TP
.B \-\-scan
For all operations except
.BR \-\-examine ,
.B \-\-scan
will cause the operation to be applied to all arrays listed in
.BR /proc/mdstat .
For
.BR \-\-examine,
.B \-\-scan
causes all devices listed in the config file to be examined.
.SH MONITOR MODE
.HP 12
Usage:
.B mdadm \-\-monitor
.I options... devices...
.PP
This usage causes
.I mdadm
to periodically poll a number of md arrays and to report on any events
noticed.
.I mdadm
will never exit once it decides that there are arrays to be checked,
so it should normally be run in the background.
As well as reporting events,
.I mdadm
may move a spare drive from one array to another if they are in the
same
.B spare-group
and if the destination array has a failed drive but no spares.
If any devices are listed on the command line,
.I mdadm
will only monitor those devices. Otherwise all arrays listed in the
configuration file will be monitored. Further, if
.B \-\-scan
is given, then any other md devices that appear in
.B /proc/mdstat
will also be monitored.
The result of monitoring the arrays is the generation of events.
These events are passed to a separate program (if specified) and may
be mailed to a given E-mail address.
When passing events to a program, the program is run once for each event,
and is given 2 or 3 command-line arguments: the first is the
name of the event (see below), the second is the name of the
md device which is affected, and the third is the name of a related
device if relevant (such as a component device that has failed).
If
.B \-\-scan
is given, then a program or an E-mail address must be specified on the
command line or in the config file. If neither are available, then
.I mdadm
will not monitor anything.
Without
.B \-\-scan,
.I mdadm
will continue monitoring as long as something was found to monitor. If
no program or email is given, then each event is reported to
.BR stdout .
The different events are:
.RS 4
.TP
.B DeviceDisappeared
An md array which previously was configured appears to no longer be
configured. (syslog priority: Critical)
If
.I mdadm
was told to monitor an array which is RAID0 or Linear, then it will
report
.B DeviceDisappeared
with the extra information
.BR Wrong-Level .
This is because RAID0 and Linear do not support the device-failed,
hot-spare and resync operations which are monitored.
.TP
.B RebuildStarted
An md array started reconstruction. (syslog priority: Warning)
.TP
.BI Rebuild NN
Where
.I NN
is a two-digit number (ie. 05, 48). This indicates that rebuild
has passed that many percent of the total. The events are generated
with fixed increment since 0. Increment size may be specified with
a commandline option (default is 20). (syslog priority: Warning)
.TP
.B RebuildFinished
An md array that was rebuilding, isn't any more, either because it
finished normally or was aborted. (syslog priority: Warning)
.TP
.B Fail
An active component device of an array has been marked as
faulty. (syslog priority: Critical)
.TP
.B FailSpare
A spare component device which was being rebuilt to replace a faulty
device has failed. (syslog priority: Critical)
.TP
.B SpareActive
A spare component device which was being rebuilt to replace a faulty
device has been successfully rebuilt and has been made active.
(syslog priority: Info)
.TP
.B NewArray
A new md array has been detected in the
.B /proc/mdstat
file. (syslog priority: Info)
.TP
.B DegradedArray
A newly noticed array appears to be degraded. This message is not
generated when
.I mdadm
notices a drive failure which causes degradation, but only when
.I mdadm
notices that an array is degraded when it first sees the array.
(syslog priority: Critical)
.TP
.B MoveSpare
A spare drive has been moved from one array in a
.B spare-group
to another to allow a failed drive to be replaced.
(syslog priority: Info)
.TP
.B SparesMissing
If
.I mdadm
has been told, via the config file, that an array should have a certain
number of spare devices, and
.I mdadm
detects that it has fewer than this number when it first sees the
array, it will report a
.B SparesMissing
message.
(syslog priority: Warning)
.TP
.B TestMessage
An array was found at startup, and the
.B \-\-test
flag was given.
(syslog priority: Info)
.RE
Only
.B Fail,
.B FailSpare,
.B DegradedArray,
.B SparesMissing
and
.B TestMessage
cause Email to be sent. All events cause the program to be run.
The program is run with two or three arguments: the event
name, the array device and possibly a second device.
Each event has an associated array device (e.g.
.BR /dev/md1 )
and possibly a second device. For
.BR Fail ,
.BR FailSpare ,
and
.B SpareActive
the second device is the relevant component device.
For
.B MoveSpare
the second device is the array that the spare was moved from.
For
.I mdadm
to move spares from one array to another, the different arrays need to
be labeled with the same
.B spare-group
in the configuration file. The
.B spare-group
name can be any string; it is only necessary that different spare
groups use different names.
When
.I mdadm
detects that an array in a spare group has fewer active
devices than necessary for the complete array, and has no spare
devices, it will look for another array in the same spare group that
has a full complement of working drive and a spare. It will then
attempt to remove the spare from the second drive and add it to the
first.
If the removal succeeds but the adding fails, then it is added back to
the original array.
.SH GROW MODE
The GROW mode is used for changing the size or shape of an active
array.
For this to work, the kernel must support the necessary change.
Various types of growth are being added during 2.6 development,
including restructuring a RAID5 array to have more active devices.
Currently the only support available is to
.IP \(bu 4
change the "size" attribute
for RAID1, RAID5 and RAID6.
.IP \(bu 4
increase or decrease the "raid\-devices" attribute of RAID1, RAID5,
and RAID6.
.IP \bu 4
change the chunk-size and layout of RAID5 and RAID6.
.IP \bu 4
convert between RAID1 and RAID5, and between RAID5 and RAID6.
.IP \(bu 4
add a write-intent bitmap to any array which supports these bitmaps, or
remove a write-intent bitmap from such an array.
.PP
GROW mode is not currently supported for
.B CONTAINERS
or arrays inside containers.
.SS SIZE CHANGES
Normally when an array is built the "size" it taken from the smallest
of the drives. If all the small drives in an arrays are, one at a
time, removed and replaced with larger drives, then you could have an
array of large drives with only a small amount used. In this
situation, changing the "size" with "GROW" mode will allow the extra
space to start being used. If the size is increased in this way, a
"resync" process will start to make sure the new parts of the array
are synchronised.
Note that when an array changes size, any filesystem that may be
stored in the array will not automatically grow to use the space. The
filesystem will need to be explicitly told to use the extra space.
Also the size of an array cannot be changed while it has an active
bitmap. If an array has a bitmap, it must be removed before the size
can be changed. Once the change it complete a new bitmap can be created.
.SS RAID\-DEVICES CHANGES
A RAID1 array can work with any number of devices from 1 upwards
(though 1 is not very useful). There may be times which you want to
increase or decrease the number of active devices. Note that this is
different to hot-add or hot-remove which changes the number of
inactive devices.
When reducing the number of devices in a RAID1 array, the slots which
are to be removed from the array must already be vacant. That is, the
devices which were in those slots must be failed and removed.
When the number of devices is increased, any hot spares that are
present will be activated immediately.
Changing the number of active devices in a RAID5 or RAID6 is much more
effort. Every block in the array will need to be read and written
back to a new location. From 2.6.17, the Linux Kernel is able to
increase the number of devices in a RAID5 safely, including restarting
an interrupted "reshape". From 2.6.31, the Linux Kernel is able to
increase or decrease the number of devices in a RAID5 or RAID6.
When decreasing the number of devices, the size of the array will also
decrease. If there was data in the array, it could get destroyed and
this is not reversible. To help prevent accidents,
.I mdadm
requires that the size of the array be decreased first with
.BR "mdadm --grow --array-size" .
This is a reversible change which simply makes the end of the array
inaccessible. The integrity of any data can then be checked before
the non-reversible reduction in the number of devices is request.
When relocating the first few stripes on a RAID5, it is not possible
to keep the data on disk completely consistent and crash-proof. To
provide the required safety, mdadm disables writes to the array while
this "critical section" is reshaped, and takes a backup of the data
that is in that section. This backup is normally stored in any spare
devices that the array has, however it can also be stored in a
separate file specified with the
.B \-\-backup\-file
option. If this option is used, and the system does crash during the
critical period, the same file must be passed to
.B \-\-assemble
to restore the backup and reassemble the array.
.SS LEVEL CHANGES
Changing the RAID level of any array happens instantaneously. However
in the RAID to RAID6 case this requires a non-standard layout of the
RAID6 data, and in the RAID6 to RAID5 case that non-standard layout is
required before the change can be accomplish. So while the level
change is instant, the accompanying layout change can take quite a
long time.
.SS CHUNK-SIZE AND LAYOUT CHANGES
Changing the chunk-size of layout without also changing the number of
devices as the same time will involve re-writing all blocks in-place.
To ensure against data loss in the case of a crash, a
.B --backup-file
must be provided for these changes. Small sections of the array will
be copied to the backup file while they are being rearranged.
If the reshape is interrupted for any reason, this backup file must be
make available to
.B "mdadm --assemble"
so the array can be reassembled. Consequently the file cannot be
stored on the device being reshaped.
.SS BITMAP CHANGES
A write-intent bitmap can be added to, or removed from, an active
array. Either internal bitmaps, or bitmaps stored in a separate file,
can be added. Note that if you add a bitmap stored in a file which is
in a filesystem that is on the RAID array being affected, the system
will deadlock. The bitmap must be on a separate filesystem.
.SH INCREMENTAL MODE
.HP 12
Usage:
.B mdadm \-\-incremental
.RB [ \-\-run ]
.RB [ \-\-quiet ]
.I component-device
.HP 12
Usage:
.B mdadm \-\-incremental \-\-rebuild
.HP 12
Usage:
.B mdadm \-\-incremental \-\-run \-\-scan
.PP
This mode is designed to be used in conjunction with a device
discovery system. As devices are found in a system, they can be
passed to
.B "mdadm \-\-incremental"
to be conditionally added to an appropriate array.
If the device passed is a
.B CONTAINER
device created by a previous call to
.IR mdadm ,
then rather than trying to add that device to an array, all the arrays
described by the metadata of the container will be started.
.I mdadm
performs a number of tests to determine if the device is part of an
array, and which array it should be part of. If an appropriate array
is found, or can be created,
.I mdadm
adds the device to the array and conditionally starts the array.
Note that
.I mdadm
will only add devices to an array which were previously working
(active or spare) parts of that array. It does not currently support
automatic inclusion of a new drive as a spare in some array.
The tests that
.I mdadm
makes are as follow:
.IP +
Is the device permitted by
.BR mdadm.conf ?
That is, is it listed in a
.B DEVICES
line in that file. If
.B DEVICES
is absent then the default it to allow any device. Similar if
.B DEVICES
contains the special word
.B partitions
then any device is allowed. Otherwise the device name given to
.I mdadm
must match one of the names or patterns in a
.B DEVICES
line.
.IP +
Does the device have a valid md superblock. If a specific metadata
version is request with
.B \-\-metadata
or
.B \-e
then only that style of metadata is accepted, otherwise
.I mdadm
finds any known version of metadata. If no
.I md
metadata is found, the device is rejected.
.ig XX
.IP +
Does the metadata match an expected array?
The metadata can match in two ways. Either there is an array listed
in
.B mdadm.conf
which identifies the array (either by UUID, by name, by device list,
or by minor-number), or the array was created with a
.B homehost
specified and that
.B homehost
matches the one in
.B mdadm.conf
or on the command line.
If
.I mdadm
is not able to positively identify the array as belonging to the
current host, the device will be rejected.
.XX
.I mdadm
keeps a list of arrays that it has partially assembled in
.B /var/run/mdadm/map
(or
.B /var/run/mdadm.map
if the directory doesn't exist. Or maybe even
.BR /dev/.mdadm.map ).
If no array exists which matches
the metadata on the new device,
.I mdadm
must choose a device name and unit number. It does this based on any
name given in
.B mdadm.conf
or any name information stored in the metadata. If this name
suggests a unit number, that number will be used, otherwise a free
unit number will be chosen. Normally
.I mdadm
will prefer to create a partitionable array, however if the
.B CREATE
line in
.B mdadm.conf
suggests that a non-partitionable array is preferred, that will be
honoured.
If the array is not found in the config file and its metadata does not
identify it as belonging to the "homehost", then
.I mdadm
will choose a name for the array which is certain not to conflict with
any array which does belong to this host. It does this be adding an
underscore and a small number to the name preferred by the metadata.
Once an appropriate array is found or created and the device is added,
.I mdadm
must decide if the array is ready to be started. It will
normally compare the number of available (non-spare) devices to the
number of devices that the metadata suggests need to be active. If
there are at least that many, the array will be started. This means
that if any devices are missing the array will not be restarted.
As an alternative,
.B \-\-run
may be passed to
.I mdadm
in which case the array will be run as soon as there are enough
devices present for the data to be accessible. For a RAID1, that
means one device will start the array. For a clean RAID5, the array
will be started as soon as all but one drive is present.
Note that neither of these approaches is really ideal. If it can
be known that all device discovery has completed, then
.br
.B " mdadm \-IRs"
.br
can be run which will try to start all arrays that are being
incrementally assembled. They are started in "read-auto" mode in
which they are read-only until the first write request. This means
that no metadata updates are made and no attempt at resync or recovery
happens. Further devices that are found before the first write can
still be added safely.
.SH ENVIRONMENT
This section describes environment variables that affect how mdadm
operates.
.TP
.B MDADM_NO_MDMON
Setting this value to 1 will prevent mdadm from automatically launching
mdmon. This variable is intended primarily for debugging mdadm/mdmon.
.TP
.B MDADM_NO_UDEV
Normally,
.I mdadm
does not create any device nodes in /dev, but leaves that task to
.IR udev .
If
.I udev
appears not to be configured, or if this environment variable is set
to '1', the
.I mdadm
will create and devices that are needed.
.SH EXAMPLES
.B " mdadm \-\-query /dev/name-of-device"
.br
This will find out if a given device is a RAID array, or is part of
one, and will provide brief information about the device.
.B " mdadm \-\-assemble \-\-scan"
.br
This will assemble and start all arrays listed in the standard config
file. This command will typically go in a system startup file.
.B " mdadm \-\-stop \-\-scan"
.br
This will shut down all arrays that can be shut down (i.e. are not
currently in use). This will typically go in a system shutdown script.
.B " mdadm \-\-follow \-\-scan \-\-delay=120"
.br
If (and only if) there is an Email address or program given in the
standard config file, then
monitor the status of all arrays listed in that file by
polling them ever 2 minutes.
.B " mdadm \-\-create /dev/md0 \-\-level=1 \-\-raid\-devices=2 /dev/hd[ac]1"
.br
Create /dev/md0 as a RAID1 array consisting of /dev/hda1 and /dev/hdc1.
.br
.B " echo 'DEVICE /dev/hd*[0\-9] /dev/sd*[0\-9]' > mdadm.conf"
.br
.B " mdadm \-\-detail \-\-scan >> mdadm.conf"
.br
This will create a prototype config file that describes currently
active arrays that are known to be made from partitions of IDE or SCSI drives.
This file should be reviewed before being used as it may
contain unwanted detail.
.B " echo 'DEVICE /dev/hd[a\-z] /dev/sd*[a\-z]' > mdadm.conf"
.br
.B " mdadm \-\-examine \-\-scan \-\-config=mdadm.conf >> mdadm.conf"
.br
This will find arrays which could be assembled from existing IDE and
SCSI whole drives (not partitions), and store the information in the
format of a config file.
This file is very likely to contain unwanted detail, particularly
the
.B devices=
entries. It should be reviewed and edited before being used as an
actual config file.
.B " mdadm \-\-examine \-\-brief \-\-scan \-\-config=partitions"
.br
.B " mdadm \-Ebsc partitions"
.br
Create a list of devices by reading
.BR /proc/partitions ,
scan these for RAID superblocks, and printout a brief listing of all
that were found.
.B " mdadm \-Ac partitions \-m 0 /dev/md0"
.br
Scan all partitions and devices listed in
.BR /proc/partitions
and assemble
.B /dev/md0
out of all such devices with a RAID superblock with a minor number of 0.
.B " mdadm \-\-monitor \-\-scan \-\-daemonise > /var/run/mdadm"
.br
If config file contains a mail address or alert program, run mdadm in
the background in monitor mode monitoring all md devices. Also write
pid of mdadm daemon to
.BR /var/run/mdadm .
.B " mdadm \-Iq /dev/somedevice"
.br
Try to incorporate newly discovered device into some array as
appropriate.
.B " mdadm \-\-incremental \-\-rebuild \-\-run \-\-scan"
.br
Rebuild the array map from any current arrays, and then start any that
can be started.
.B " mdadm /dev/md4 --fail detached --remove detached"
.br
Any devices which are components of /dev/md4 will be marked as faulty
and then remove from the array.
.B " mdadm --grow /dev/md4 --level=6 --backup-file=/root/backup-md4
.br
The array
.B /dev/md4
which is currently a RAID5 array will be converted to RAID6. There
should normally already be a spare drive attached to the array as a
RAID6 needs one more drive than a matching RAID5.
.B " mdadm --create /dev/md/ddf --metadata=ddf --raid-disks 6 /dev/sd[a-f]"
.br
Create a DDF array over 6 devices.
.B " mdadm --create /dev/md/home -n3 -l5 -z 30000000 /dev/md/ddf"
.br
Create a RAID5 array over any 3 devices in the given DDF set. Use
only 30 gigabytes of each device.
.B " mdadm -A /dev/md/ddf1 /dev/sd[a-f]"
.br
Assemble a pre-exist ddf array.
.B " mdadm -I /dev/md/ddf1"
.br
Assemble all arrays contained in the ddf array, assigning names as
appropriate.
.B " mdadm \-\-create \-\-help"
.br
Provide help about the Create mode.
.B " mdadm \-\-config \-\-help"
.br
Provide help about the format of the config file.
.B " mdadm \-\-help"
.br
Provide general help.
.SH FILES
.SS /proc/mdstat
If you're using the
.B /proc
filesystem,
.B /proc/mdstat
lists all active md devices with information about them.
.I mdadm
uses this to find arrays when
.B \-\-scan
is given in Misc mode, and to monitor array reconstruction
on Monitor mode.
.SS /etc/mdadm.conf
The config file lists which devices may be scanned to see if
they contain MD super block, and gives identifying information
(e.g. UUID) about known MD arrays. See
.BR mdadm.conf (5)
for more details.
.SS /var/run/mdadm/map
When
.B \-\-incremental
mode is used, this file gets a list of arrays currently being created.
If
.B /var/run/mdadm
does not exist as a directory, then
.B /var/run/mdadm.map
is used instead. If
.B /var/run
is not available (as may be the case during early boot),
.B /dev/.mdadm.map
is used on the basis that
.B /dev
is usually available very early in boot.
.SH DEVICE NAMES
.I mdadm
understand two sorts of names for array devices.
The first is the so-called 'standard' format name, which matches the
names used by the kernel and which appear in
.IR /proc/mdstat .
The second sort can be freely chosen, but must reside in
.IR /dev/md/ .
When giving a device name to
.I mdadm
to create or assemble an array, either full path name such as
.I /dev/md0
or
.I /dev/md/home
can be given, or just the suffix of the second sort of name, such as
.I home
can be given.
When
.I mdadm
chooses device names during auto-assembly or incremental assembly, it
will sometimes add a small sequence number to the end of the name to
avoid conflicted between multiple arrays that have the same name. If
.I mdadm
can reasonably determine that the array really is meant for this host,
either by a hostname in the metadata, or by the presence of the array
in /etc/mdadm.conf, then it will leave off the suffix if possible.
Also if the homehost is specified as
.B <ignore>
.I mdadm
will only use a suffix if a different array of the same name already
exists or is listed in the config file.
The standard names for non-partitioned arrays (the only sort of md
array available in 2.4 and earlier) are of the form
.IP
/dev/mdNN
.PP
where NN is a number.
The standard names for partitionable arrays (as available from 2.6
onwards) are of the form
.IP
/dev/md_dNN
.PP
Partition numbers should be indicated by added "pMM" to these, thus "/dev/md/d1p2".
.PP
From kernel version, 2.6.28 the "non-partitioned array" can actually
be partitioned. So the "md_dNN" names are no longer needed, and
partitions such as "/dev/mdNNpXX" are possible.
.SH NOTE
.I mdadm
was previously known as
.IR mdctl .
.P
.I mdadm
is completely separate from the
.I raidtools
package, and does not use the
.I /etc/raidtab
configuration file at all.
.SH SEE ALSO
For further information on mdadm usage, MD and the various levels of
RAID, see:
.IP
.B http://linux\-raid.osdl.org/
.PP
(based upon Jakob \(/Ostergaard's Software\-RAID.HOWTO)
.\".PP
.\"for new releases of the RAID driver check out:
.\"
.\".IP
.\".UR ftp://ftp.kernel.org/pub/linux/kernel/people/mingo/raid-patches
.\"ftp://ftp.kernel.org/pub/linux/kernel/people/mingo/raid-patches
.\".UE
.\".PP
.\"or
.\".IP
.\".UR http://www.cse.unsw.edu.au/~neilb/patches/linux-stable/
.\"http://www.cse.unsw.edu.au/~neilb/patches/linux-stable/
.\".UE
.PP
The latest version of
.I mdadm
should always be available from
.IP
.B http://www.kernel.org/pub/linux/utils/raid/mdadm/
.PP
Related man pages:
.PP
.IR mdmon (8),
.IR mdadm.conf (5),
.IR md (4).
.PP
.IR raidtab (5),
.IR raid0run (8),
.IR raidstop (8),
.IR mkraid (8).
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