mirror of https://gitee.com/openkylin/qemu.git
631 lines
25 KiB
Plaintext
631 lines
25 KiB
Plaintext
@example
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@c man begin SYNOPSIS
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@command{qemu-img} [@var{standard} @var{options}] @var{command} [@var{command} @var{options}]
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@c man end
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@end example
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@c man begin DESCRIPTION
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qemu-img allows you to create, convert and modify images offline. It can handle
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all image formats supported by QEMU.
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@b{Warning:} Never use qemu-img to modify images in use by a running virtual
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machine or any other process; this may destroy the image. Also, be aware that
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querying an image that is being modified by another process may encounter
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inconsistent state.
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@c man end
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@c man begin OPTIONS
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Standard options:
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@table @option
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@item -h, --help
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Display this help and exit
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@item -V, --version
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Display version information and exit
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@item -T, --trace [[enable=]@var{pattern}][,events=@var{file}][,file=@var{file}]
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@findex --trace
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@include qemu-option-trace.texi
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@end table
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The following commands are supported:
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@include qemu-img-cmds.texi
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Command parameters:
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@table @var
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@item filename
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is a disk image filename
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@item --object @var{objectdef}
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is a QEMU user creatable object definition. See the @code{qemu(1)} manual
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page for a description of the object properties. The most common object
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type is a @code{secret}, which is used to supply passwords and/or encryption
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keys.
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@item --image-opts
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Indicates that the @var{filename} parameter is to be interpreted as a
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full option string, not a plain filename. This parameter is mutually
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exclusive with the @var{-f} and @var{-F} parameters.
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@item fmt
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is the disk image format. It is guessed automatically in most cases. See below
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for a description of the supported disk formats.
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@item --backing-chain
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will enumerate information about backing files in a disk image chain. Refer
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below for further description.
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@item size
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is the disk image size in bytes. Optional suffixes @code{k} or @code{K}
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(kilobyte, 1024) @code{M} (megabyte, 1024k) and @code{G} (gigabyte, 1024M)
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and T (terabyte, 1024G) are supported. @code{b} is ignored.
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@item output_filename
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is the destination disk image filename
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@item output_fmt
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is the destination format
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@item options
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is a comma separated list of format specific options in a
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name=value format. Use @code{-o ?} for an overview of the options supported
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by the used format or see the format descriptions below for details.
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@item snapshot_param
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is param used for internal snapshot, format is
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'snapshot.id=[ID],snapshot.name=[NAME]' or '[ID_OR_NAME]'
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@item snapshot_id_or_name
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is deprecated, use snapshot_param instead
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@item -c
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indicates that target image must be compressed (qcow format only)
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@item -h
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with or without a command shows help and lists the supported formats
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@item -p
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display progress bar (compare, convert and rebase commands only).
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If the @var{-p} option is not used for a command that supports it, the
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progress is reported when the process receives a @code{SIGUSR1} signal.
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@item -q
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Quiet mode - do not print any output (except errors). There's no progress bar
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in case both @var{-q} and @var{-p} options are used.
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@item -S @var{size}
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indicates the consecutive number of bytes that must contain only zeros
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for qemu-img to create a sparse image during conversion. This value is rounded
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down to the nearest 512 bytes. You may use the common size suffixes like
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@code{k} for kilobytes.
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@item -t @var{cache}
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specifies the cache mode that should be used with the (destination) file. See
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the documentation of the emulator's @code{-drive cache=...} option for allowed
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values.
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@item -T @var{src_cache}
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specifies the cache mode that should be used with the source file(s). See
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the documentation of the emulator's @code{-drive cache=...} option for allowed
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values.
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@end table
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Parameters to snapshot subcommand:
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@table @option
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@item snapshot
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is the name of the snapshot to create, apply or delete
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@item -a
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applies a snapshot (revert disk to saved state)
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@item -c
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creates a snapshot
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@item -d
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deletes a snapshot
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@item -l
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lists all snapshots in the given image
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@end table
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Parameters to compare subcommand:
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@table @option
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@item -f
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First image format
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@item -F
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Second image format
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@item -s
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Strict mode - fail on different image size or sector allocation
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@end table
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Parameters to convert subcommand:
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@table @option
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@item -n
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Skip the creation of the target volume
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@end table
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Parameters to dd subcommand:
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@table @option
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@item bs=@var{block_size}
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defines the block size
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@item count=@var{blocks}
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sets the number of input blocks to copy
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@item if=@var{input}
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sets the input file
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@item of=@var{output}
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sets the output file
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@item skip=@var{blocks}
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sets the number of input blocks to skip
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@end table
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Command description:
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@table @option
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@item bench [-c @var{count}] [-d @var{depth}] [-f @var{fmt}] [--flush-interval=@var{flush_interval}] [-n] [--no-drain] [-o @var{offset}] [--pattern=@var{pattern}] [-q] [-s @var{buffer_size}] [-S @var{step_size}] [-t @var{cache}] [-w] @var{filename}
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Run a simple sequential I/O benchmark on the specified image. If @code{-w} is
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specified, a write test is performed, otherwise a read test is performed.
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A total number of @var{count} I/O requests is performed, each @var{buffer_size}
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bytes in size, and with @var{depth} requests in parallel. The first request
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starts at the position given by @var{offset}, each following request increases
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the current position by @var{step_size}. If @var{step_size} is not given,
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@var{buffer_size} is used for its value.
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If @var{flush_interval} is specified for a write test, the request queue is
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drained and a flush is issued before new writes are made whenever the number of
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remaining requests is a multiple of @var{flush_interval}. If additionally
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@code{--no-drain} is specified, a flush is issued without draining the request
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queue first.
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If @code{-n} is specified, the native AIO backend is used if possible. On
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Linux, this option only works if @code{-t none} or @code{-t directsync} is
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specified as well.
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For write tests, by default a buffer filled with zeros is written. This can be
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overridden with a pattern byte specified by @var{pattern}.
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@item check [-f @var{fmt}] [--output=@var{ofmt}] [-r [leaks | all]] [-T @var{src_cache}] @var{filename}
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Perform a consistency check on the disk image @var{filename}. The command can
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output in the format @var{ofmt} which is either @code{human} or @code{json}.
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If @code{-r} is specified, qemu-img tries to repair any inconsistencies found
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during the check. @code{-r leaks} repairs only cluster leaks, whereas
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@code{-r all} fixes all kinds of errors, with a higher risk of choosing the
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wrong fix or hiding corruption that has already occurred.
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Only the formats @code{qcow2}, @code{qed} and @code{vdi} support
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consistency checks.
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In case the image does not have any inconsistencies, check exits with @code{0}.
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Other exit codes indicate the kind of inconsistency found or if another error
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occurred. The following table summarizes all exit codes of the check subcommand:
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@table @option
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@item 0
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Check completed, the image is (now) consistent
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@item 1
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Check not completed because of internal errors
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@item 2
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Check completed, image is corrupted
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@item 3
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Check completed, image has leaked clusters, but is not corrupted
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@item 63
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Checks are not supported by the image format
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@end table
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If @code{-r} is specified, exit codes representing the image state refer to the
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state after (the attempt at) repairing it. That is, a successful @code{-r all}
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will yield the exit code 0, independently of the image state before.
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@item create [-f @var{fmt}] [-o @var{options}] @var{filename} [@var{size}]
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Create the new disk image @var{filename} of size @var{size} and format
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@var{fmt}. Depending on the file format, you can add one or more @var{options}
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that enable additional features of this format.
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If the option @var{backing_file} is specified, then the image will record
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only the differences from @var{backing_file}. No size needs to be specified in
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this case. @var{backing_file} will never be modified unless you use the
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@code{commit} monitor command (or qemu-img commit).
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The size can also be specified using the @var{size} option with @code{-o},
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it doesn't need to be specified separately in this case.
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@item commit [-q] [-f @var{fmt}] [-t @var{cache}] [-b @var{base}] [-d] [-p] @var{filename}
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Commit the changes recorded in @var{filename} in its base image or backing file.
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If the backing file is smaller than the snapshot, then the backing file will be
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resized to be the same size as the snapshot. If the snapshot is smaller than
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the backing file, the backing file will not be truncated. If you want the
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backing file to match the size of the smaller snapshot, you can safely truncate
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it yourself once the commit operation successfully completes.
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The image @var{filename} is emptied after the operation has succeeded. If you do
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not need @var{filename} afterwards and intend to drop it, you may skip emptying
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@var{filename} by specifying the @code{-d} flag.
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If the backing chain of the given image file @var{filename} has more than one
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layer, the backing file into which the changes will be committed may be
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specified as @var{base} (which has to be part of @var{filename}'s backing
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chain). If @var{base} is not specified, the immediate backing file of the top
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image (which is @var{filename}) will be used. For reasons of consistency,
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explicitly specifying @var{base} will always imply @code{-d} (since emptying an
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image after committing to an indirect backing file would lead to different data
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being read from the image due to content in the intermediate backing chain
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overruling the commit target).
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@item compare [-f @var{fmt}] [-F @var{fmt}] [-T @var{src_cache}] [-p] [-s] [-q] @var{filename1} @var{filename2}
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Check if two images have the same content. You can compare images with
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different format or settings.
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The format is probed unless you specify it by @var{-f} (used for
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@var{filename1}) and/or @var{-F} (used for @var{filename2}) option.
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By default, images with different size are considered identical if the larger
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image contains only unallocated and/or zeroed sectors in the area after the end
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of the other image. In addition, if any sector is not allocated in one image
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and contains only zero bytes in the second one, it is evaluated as equal. You
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can use Strict mode by specifying the @var{-s} option. When compare runs in
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Strict mode, it fails in case image size differs or a sector is allocated in
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one image and is not allocated in the second one.
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By default, compare prints out a result message. This message displays
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information that both images are same or the position of the first different
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byte. In addition, result message can report different image size in case
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Strict mode is used.
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Compare exits with @code{0} in case the images are equal and with @code{1}
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in case the images differ. Other exit codes mean an error occurred during
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execution and standard error output should contain an error message.
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The following table sumarizes all exit codes of the compare subcommand:
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@table @option
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@item 0
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Images are identical
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@item 1
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Images differ
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@item 2
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Error on opening an image
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@item 3
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Error on checking a sector allocation
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@item 4
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Error on reading data
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@end table
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@item convert [-c] [-p] [-n] [-f @var{fmt}] [-t @var{cache}] [-T @var{src_cache}] [-O @var{output_fmt}] [-o @var{options}] [-s @var{snapshot_id_or_name}] [-l @var{snapshot_param}] [-S @var{sparse_size}] @var{filename} [@var{filename2} [...]] @var{output_filename}
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Convert the disk image @var{filename} or a snapshot @var{snapshot_param}(@var{snapshot_id_or_name} is deprecated)
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to disk image @var{output_filename} using format @var{output_fmt}. It can be optionally compressed (@code{-c}
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option) or use any format specific options like encryption (@code{-o} option).
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Only the formats @code{qcow} and @code{qcow2} support compression. The
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compression is read-only. It means that if a compressed sector is
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rewritten, then it is rewritten as uncompressed data.
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Image conversion is also useful to get smaller image when using a
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growable format such as @code{qcow}: the empty sectors are detected and
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suppressed from the destination image.
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@var{sparse_size} indicates the consecutive number of bytes (defaults to 4k)
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that must contain only zeros for qemu-img to create a sparse image during
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conversion. If @var{sparse_size} is 0, the source will not be scanned for
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unallocated or zero sectors, and the destination image will always be
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fully allocated.
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You can use the @var{backing_file} option to force the output image to be
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created as a copy on write image of the specified base image; the
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@var{backing_file} should have the same content as the input's base image,
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however the path, image format, etc may differ.
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If the @code{-n} option is specified, the target volume creation will be
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skipped. This is useful for formats such as @code{rbd} if the target
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volume has already been created with site specific options that cannot
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be supplied through qemu-img.
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@item dd [-f @var{fmt}] [-O @var{output_fmt}] [bs=@var{block_size}] [count=@var{blocks}] [skip=@var{blocks}] if=@var{input} of=@var{output}
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Dd copies from @var{input} file to @var{output} file converting it from
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@var{fmt} format to @var{output_fmt} format.
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The data is by default read and written using blocks of 512 bytes but can be
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modified by specifying @var{block_size}. If count=@var{blocks} is specified
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dd will stop reading input after reading @var{blocks} input blocks.
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The size syntax is similar to dd(1)'s size syntax.
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@item info [-f @var{fmt}] [--output=@var{ofmt}] [--backing-chain] @var{filename}
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Give information about the disk image @var{filename}. Use it in
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particular to know the size reserved on disk which can be different
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from the displayed size. If VM snapshots are stored in the disk image,
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they are displayed too. The command can output in the format @var{ofmt}
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which is either @code{human} or @code{json}.
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If a disk image has a backing file chain, information about each disk image in
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the chain can be recursively enumerated by using the option @code{--backing-chain}.
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For instance, if you have an image chain like:
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@example
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base.qcow2 <- snap1.qcow2 <- snap2.qcow2
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@end example
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To enumerate information about each disk image in the above chain, starting from top to base, do:
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@example
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qemu-img info --backing-chain snap2.qcow2
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@end example
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@item map [-f @var{fmt}] [--output=@var{ofmt}] @var{filename}
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Dump the metadata of image @var{filename} and its backing file chain.
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In particular, this commands dumps the allocation state of every sector
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of @var{filename}, together with the topmost file that allocates it in
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the backing file chain.
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Two option formats are possible. The default format (@code{human})
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only dumps known-nonzero areas of the file. Known-zero parts of the
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file are omitted altogether, and likewise for parts that are not allocated
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throughout the chain. @command{qemu-img} output will identify a file
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from where the data can be read, and the offset in the file. Each line
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will include four fields, the first three of which are hexadecimal
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numbers. For example the first line of:
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@example
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Offset Length Mapped to File
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0 0x20000 0x50000 /tmp/overlay.qcow2
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0x100000 0x10000 0x95380000 /tmp/backing.qcow2
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@end example
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@noindent
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means that 0x20000 (131072) bytes starting at offset 0 in the image are
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available in /tmp/overlay.qcow2 (opened in @code{raw} format) starting
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at offset 0x50000 (327680). Data that is compressed, encrypted, or
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otherwise not available in raw format will cause an error if @code{human}
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format is in use. Note that file names can include newlines, thus it is
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not safe to parse this output format in scripts.
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The alternative format @code{json} will return an array of dictionaries
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in JSON format. It will include similar information in
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the @code{start}, @code{length}, @code{offset} fields;
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it will also include other more specific information:
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@itemize @minus
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@item
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whether the sectors contain actual data or not (boolean field @code{data};
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if false, the sectors are either unallocated or stored as optimized
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all-zero clusters);
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@item
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whether the data is known to read as zero (boolean field @code{zero});
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@item
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in order to make the output shorter, the target file is expressed as
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a @code{depth}; for example, a depth of 2 refers to the backing file
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of the backing file of @var{filename}.
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@end itemize
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In JSON format, the @code{offset} field is optional; it is absent in
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cases where @code{human} format would omit the entry or exit with an error.
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If @code{data} is false and the @code{offset} field is present, the
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corresponding sectors in the file are not yet in use, but they are
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preallocated.
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For more information, consult @file{include/block/block.h} in QEMU's
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source code.
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@item snapshot [-l | -a @var{snapshot} | -c @var{snapshot} | -d @var{snapshot} ] @var{filename}
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List, apply, create or delete snapshots in image @var{filename}.
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@item rebase [-f @var{fmt}] [-t @var{cache}] [-T @var{src_cache}] [-p] [-u] -b @var{backing_file} [-F @var{backing_fmt}] @var{filename}
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Changes the backing file of an image. Only the formats @code{qcow2} and
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@code{qed} support changing the backing file.
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The backing file is changed to @var{backing_file} and (if the image format of
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@var{filename} supports this) the backing file format is changed to
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@var{backing_fmt}. If @var{backing_file} is specified as ``'' (the empty
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string), then the image is rebased onto no backing file (i.e. it will exist
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independently of any backing file).
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@var{cache} specifies the cache mode to be used for @var{filename}, whereas
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@var{src_cache} specifies the cache mode for reading backing files.
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There are two different modes in which @code{rebase} can operate:
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@table @option
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@item Safe mode
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This is the default mode and performs a real rebase operation. The new backing
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file may differ from the old one and qemu-img rebase will take care of keeping
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the guest-visible content of @var{filename} unchanged.
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In order to achieve this, any clusters that differ between @var{backing_file}
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and the old backing file of @var{filename} are merged into @var{filename}
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before actually changing the backing file.
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Note that the safe mode is an expensive operation, comparable to converting
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an image. It only works if the old backing file still exists.
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@item Unsafe mode
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qemu-img uses the unsafe mode if @code{-u} is specified. In this mode, only the
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backing file name and format of @var{filename} is changed without any checks
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on the file contents. The user must take care of specifying the correct new
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backing file, or the guest-visible content of the image will be corrupted.
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|
|
This mode is useful for renaming or moving the backing file to somewhere else.
|
|
It can be used without an accessible old backing file, i.e. you can use it to
|
|
fix an image whose backing file has already been moved/renamed.
|
|
@end table
|
|
|
|
You can use @code{rebase} to perform a ``diff'' operation on two
|
|
disk images. This can be useful when you have copied or cloned
|
|
a guest, and you want to get back to a thin image on top of a
|
|
template or base image.
|
|
|
|
Say that @code{base.img} has been cloned as @code{modified.img} by
|
|
copying it, and that the @code{modified.img} guest has run so there
|
|
are now some changes compared to @code{base.img}. To construct a thin
|
|
image called @code{diff.qcow2} that contains just the differences, do:
|
|
|
|
@example
|
|
qemu-img create -f qcow2 -b modified.img diff.qcow2
|
|
qemu-img rebase -b base.img diff.qcow2
|
|
@end example
|
|
|
|
At this point, @code{modified.img} can be discarded, since
|
|
@code{base.img + diff.qcow2} contains the same information.
|
|
|
|
@item resize @var{filename} [+ | -]@var{size}
|
|
|
|
Change the disk image as if it had been created with @var{size}.
|
|
|
|
Before using this command to shrink a disk image, you MUST use file system and
|
|
partitioning tools inside the VM to reduce allocated file systems and partition
|
|
sizes accordingly. Failure to do so will result in data loss!
|
|
|
|
After using this command to grow a disk image, you must use file system and
|
|
partitioning tools inside the VM to actually begin using the new space on the
|
|
device.
|
|
|
|
@item amend [-p] [-f @var{fmt}] [-t @var{cache}] -o @var{options} @var{filename}
|
|
|
|
Amends the image format specific @var{options} for the image file
|
|
@var{filename}. Not all file formats support this operation.
|
|
@end table
|
|
@c man end
|
|
|
|
@ignore
|
|
@c man begin NOTES
|
|
Supported image file formats:
|
|
|
|
@table @option
|
|
@item raw
|
|
|
|
Raw disk image format (default). This format has the advantage of
|
|
being simple and easily exportable to all other emulators. If your
|
|
file system supports @emph{holes} (for example in ext2 or ext3 on
|
|
Linux or NTFS on Windows), then only the written sectors will reserve
|
|
space. Use @code{qemu-img info} to know the real size used by the
|
|
image or @code{ls -ls} on Unix/Linux.
|
|
|
|
Supported options:
|
|
@table @code
|
|
@item preallocation
|
|
Preallocation mode (allowed values: @code{off}, @code{falloc}, @code{full}).
|
|
@code{falloc} mode preallocates space for image by calling posix_fallocate().
|
|
@code{full} mode preallocates space for image by writing zeros to underlying
|
|
storage.
|
|
@end table
|
|
|
|
@item qcow2
|
|
QEMU image format, the most versatile format. Use it to have smaller
|
|
images (useful if your filesystem does not supports holes, for example
|
|
on Windows), optional AES encryption, zlib based compression and
|
|
support of multiple VM snapshots.
|
|
|
|
Supported options:
|
|
@table @code
|
|
@item compat
|
|
Determines the qcow2 version to use. @code{compat=0.10} uses the
|
|
traditional image format that can be read by any QEMU since 0.10.
|
|
@code{compat=1.1} enables image format extensions that only QEMU 1.1 and
|
|
newer understand (this is the default). Amongst others, this includes zero
|
|
clusters, which allow efficient copy-on-read for sparse images.
|
|
|
|
@item backing_file
|
|
File name of a base image (see @option{create} subcommand)
|
|
@item backing_fmt
|
|
Image format of the base image
|
|
@item encryption
|
|
If this option is set to @code{on}, the image is encrypted with 128-bit AES-CBC.
|
|
|
|
The use of encryption in qcow and qcow2 images is considered to be flawed by
|
|
modern cryptography standards, suffering from a number of design problems:
|
|
|
|
@itemize @minus
|
|
@item The AES-CBC cipher is used with predictable initialization vectors based
|
|
on the sector number. This makes it vulnerable to chosen plaintext attacks
|
|
which can reveal the existence of encrypted data.
|
|
@item The user passphrase is directly used as the encryption key. A poorly
|
|
chosen or short passphrase will compromise the security of the encryption.
|
|
@item In the event of the passphrase being compromised there is no way to
|
|
change the passphrase to protect data in any qcow images. The files must
|
|
be cloned, using a different encryption passphrase in the new file. The
|
|
original file must then be securely erased using a program like shred,
|
|
though even this is ineffective with many modern storage technologies.
|
|
@end itemize
|
|
|
|
Use of qcow / qcow2 encryption is thus strongly discouraged. Users are
|
|
recommended to use an alternative encryption technology such as the
|
|
Linux dm-crypt / LUKS system.
|
|
|
|
@item cluster_size
|
|
Changes the qcow2 cluster size (must be between 512 and 2M). Smaller cluster
|
|
sizes can improve the image file size whereas larger cluster sizes generally
|
|
provide better performance.
|
|
|
|
@item preallocation
|
|
Preallocation mode (allowed values: @code{off}, @code{metadata}, @code{falloc},
|
|
@code{full}). An image with preallocated metadata is initially larger but can
|
|
improve performance when the image needs to grow. @code{falloc} and @code{full}
|
|
preallocations are like the same options of @code{raw} format, but sets up
|
|
metadata also.
|
|
|
|
@item lazy_refcounts
|
|
If this option is set to @code{on}, reference count updates are postponed with
|
|
the goal of avoiding metadata I/O and improving performance. This is
|
|
particularly interesting with @option{cache=writethrough} which doesn't batch
|
|
metadata updates. The tradeoff is that after a host crash, the reference count
|
|
tables must be rebuilt, i.e. on the next open an (automatic) @code{qemu-img
|
|
check -r all} is required, which may take some time.
|
|
|
|
This option can only be enabled if @code{compat=1.1} is specified.
|
|
|
|
@item nocow
|
|
If this option is set to @code{on}, it will turn off COW of the file. It's only
|
|
valid on btrfs, no effect on other file systems.
|
|
|
|
Btrfs has low performance when hosting a VM image file, even more when the guest
|
|
on the VM also using btrfs as file system. Turning off COW is a way to mitigate
|
|
this bad performance. Generally there are two ways to turn off COW on btrfs:
|
|
a) Disable it by mounting with nodatacow, then all newly created files will be
|
|
NOCOW. b) For an empty file, add the NOCOW file attribute. That's what this option
|
|
does.
|
|
|
|
Note: this option is only valid to new or empty files. If there is an existing
|
|
file which is COW and has data blocks already, it couldn't be changed to NOCOW
|
|
by setting @code{nocow=on}. One can issue @code{lsattr filename} to check if
|
|
the NOCOW flag is set or not (Capital 'C' is NOCOW flag).
|
|
|
|
@end table
|
|
|
|
@item Other
|
|
QEMU also supports various other image file formats for compatibility with
|
|
older QEMU versions or other hypervisors, including VMDK, VDI, VHD (vpc), VHDX,
|
|
qcow1 and QED. For a full list of supported formats see @code{qemu-img --help}.
|
|
For a more detailed description of these formats, see the QEMU Emulation User
|
|
Documentation.
|
|
|
|
The main purpose of the block drivers for these formats is image conversion.
|
|
For running VMs, it is recommended to convert the disk images to either raw or
|
|
qcow2 in order to achieve good performance.
|
|
@end table
|
|
|
|
|
|
@c man end
|
|
|
|
@setfilename qemu-img
|
|
@settitle QEMU disk image utility
|
|
|
|
@c man begin SEEALSO
|
|
The HTML documentation of QEMU for more precise information and Linux
|
|
user mode emulator invocation.
|
|
@c man end
|
|
|
|
@c man begin AUTHOR
|
|
Fabrice Bellard
|
|
@c man end
|
|
|
|
@end ignore
|