b1d1cb2728
This documents the image locking feature and explains when and how related options can be used. Signed-off-by: Fam Zheng <famz@redhat.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
841 lines
30 KiB
Plaintext
841 lines
30 KiB
Plaintext
@c man begin SYNOPSIS
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QEMU block driver reference manual
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@c man end
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@c man begin DESCRIPTION
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@node disk_images_formats
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@subsection Disk image file formats
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QEMU supports many image file formats that can be used with VMs as well as with
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any of the tools (like @code{qemu-img}). This includes the preferred formats
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raw and qcow2 as well as formats that are supported for compatibility with
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older QEMU versions or other hypervisors.
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Depending on the image format, different options can be passed to
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@code{qemu-img create} and @code{qemu-img convert} using the @code{-o} option.
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This section describes each format and the options that are supported for it.
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@table @option
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@item raw
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Raw disk image format. This format has the advantage of
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being simple and easily exportable to all other emulators. If your
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file system supports @emph{holes} (for example in ext2 or ext3 on
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Linux or NTFS on Windows), then only the written sectors will reserve
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space. Use @code{qemu-img info} to know the real size used by the
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image or @code{ls -ls} on Unix/Linux.
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Supported options:
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@table @code
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@item preallocation
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Preallocation mode (allowed values: @code{off}, @code{falloc}, @code{full}).
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@code{falloc} mode preallocates space for image by calling posix_fallocate().
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@code{full} mode preallocates space for image by writing zeros to underlying
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storage.
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@end table
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@item qcow2
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QEMU image format, the most versatile format. Use it to have smaller
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images (useful if your filesystem does not supports holes, for example
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on Windows), zlib based compression and support of multiple VM
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snapshots.
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Supported options:
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@table @code
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@item compat
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Determines the qcow2 version to use. @code{compat=0.10} uses the
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traditional image format that can be read by any QEMU since 0.10.
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@code{compat=1.1} enables image format extensions that only QEMU 1.1 and
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newer understand (this is the default). Amongst others, this includes
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zero clusters, which allow efficient copy-on-read for sparse images.
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@item backing_file
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File name of a base image (see @option{create} subcommand)
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@item backing_fmt
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Image format of the base image
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@item encryption
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This option is deprecated and equivalent to @code{encrypt.format=aes}
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@item encrypt.format
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If this is set to @code{luks}, it requests that the qcow2 payload (not
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qcow2 header) be encrypted using the LUKS format. The passphrase to
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use to unlock the LUKS key slot is given by the @code{encrypt.key-secret}
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parameter. LUKS encryption parameters can be tuned with the other
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@code{encrypt.*} parameters.
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If this is set to @code{aes}, the image is encrypted with 128-bit AES-CBC.
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The encryption key is given by the @code{encrypt.key-secret} parameter.
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This encryption format is considered to be flawed by modern cryptography
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standards, suffering from a number of design problems:
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@itemize @minus
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@item The AES-CBC cipher is used with predictable initialization vectors based
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on the sector number. This makes it vulnerable to chosen plaintext attacks
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which can reveal the existence of encrypted data.
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@item The user passphrase is directly used as the encryption key. A poorly
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chosen or short passphrase will compromise the security of the encryption.
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@item In the event of the passphrase being compromised there is no way to
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change the passphrase to protect data in any qcow images. The files must
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be cloned, using a different encryption passphrase in the new file. The
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original file must then be securely erased using a program like shred,
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though even this is ineffective with many modern storage technologies.
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@end itemize
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The use of this is no longer supported in system emulators. Support only
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remains in the command line utilities, for the purposes of data liberation
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and interoperability with old versions of QEMU. The @code{luks} format
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should be used instead.
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@item encrypt.key-secret
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Provides the ID of a @code{secret} object that contains the passphrase
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(@code{encrypt.format=luks}) or encryption key (@code{encrypt.format=aes}).
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@item encrypt.cipher-alg
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Name of the cipher algorithm and key length. Currently defaults
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to @code{aes-256}. Only used when @code{encrypt.format=luks}.
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@item encrypt.cipher-mode
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Name of the encryption mode to use. Currently defaults to @code{xts}.
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Only used when @code{encrypt.format=luks}.
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@item encrypt.ivgen-alg
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Name of the initialization vector generator algorithm. Currently defaults
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to @code{plain64}. Only used when @code{encrypt.format=luks}.
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@item encrypt.ivgen-hash-alg
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Name of the hash algorithm to use with the initialization vector generator
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(if required). Defaults to @code{sha256}. Only used when @code{encrypt.format=luks}.
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@item encrypt.hash-alg
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Name of the hash algorithm to use for PBKDF algorithm
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Defaults to @code{sha256}. Only used when @code{encrypt.format=luks}.
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@item encrypt.iter-time
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Amount of time, in milliseconds, to use for PBKDF algorithm per key slot.
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Defaults to @code{2000}. Only used when @code{encrypt.format=luks}.
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@item cluster_size
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Changes the qcow2 cluster size (must be between 512 and 2M). Smaller cluster
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sizes can improve the image file size whereas larger cluster sizes generally
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provide better performance.
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@item preallocation
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Preallocation mode (allowed values: @code{off}, @code{metadata}, @code{falloc},
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@code{full}). An image with preallocated metadata is initially larger but can
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improve performance when the image needs to grow. @code{falloc} and @code{full}
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preallocations are like the same options of @code{raw} format, but sets up
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metadata also.
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@item lazy_refcounts
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If this option is set to @code{on}, reference count updates are postponed with
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the goal of avoiding metadata I/O and improving performance. This is
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particularly interesting with @option{cache=writethrough} which doesn't batch
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metadata updates. The tradeoff is that after a host crash, the reference count
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tables must be rebuilt, i.e. on the next open an (automatic) @code{qemu-img
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check -r all} is required, which may take some time.
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This option can only be enabled if @code{compat=1.1} is specified.
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@item nocow
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If this option is set to @code{on}, it will turn off COW of the file. It's only
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valid on btrfs, no effect on other file systems.
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Btrfs has low performance when hosting a VM image file, even more when the guest
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on the VM also using btrfs as file system. Turning off COW is a way to mitigate
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this bad performance. Generally there are two ways to turn off COW on btrfs:
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a) Disable it by mounting with nodatacow, then all newly created files will be
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NOCOW. b) For an empty file, add the NOCOW file attribute. That's what this option
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does.
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Note: this option is only valid to new or empty files. If there is an existing
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file which is COW and has data blocks already, it couldn't be changed to NOCOW
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by setting @code{nocow=on}. One can issue @code{lsattr filename} to check if
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the NOCOW flag is set or not (Capital 'C' is NOCOW flag).
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@end table
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@item qed
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Old QEMU image format with support for backing files and compact image files
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(when your filesystem or transport medium does not support holes).
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When converting QED images to qcow2, you might want to consider using the
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@code{lazy_refcounts=on} option to get a more QED-like behaviour.
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Supported options:
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@table @code
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@item backing_file
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File name of a base image (see @option{create} subcommand).
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@item backing_fmt
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Image file format of backing file (optional). Useful if the format cannot be
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autodetected because it has no header, like some vhd/vpc files.
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@item cluster_size
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Changes the cluster size (must be power-of-2 between 4K and 64K). Smaller
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cluster sizes can improve the image file size whereas larger cluster sizes
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generally provide better performance.
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@item table_size
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Changes the number of clusters per L1/L2 table (must be power-of-2 between 1
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and 16). There is normally no need to change this value but this option can be
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used for performance benchmarking.
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@end table
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@item qcow
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Old QEMU image format with support for backing files, compact image files,
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encryption and compression.
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Supported options:
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@table @code
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@item backing_file
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File name of a base image (see @option{create} subcommand)
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@item encryption
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This option is deprecated and equivalent to @code{encrypt.format=aes}
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@item encrypt.format
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If this is set to @code{aes}, the image is encrypted with 128-bit AES-CBC.
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The encryption key is given by the @code{encrypt.key-secret} parameter.
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This encryption format is considered to be flawed by modern cryptography
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standards, suffering from a number of design problems enumerated previously
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against the @code{qcow2} image format.
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The use of this is no longer supported in system emulators. Support only
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remains in the command line utilities, for the purposes of data liberation
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and interoperability with old versions of QEMU.
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Users requiring native encryption should use the @code{qcow2} format
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instead with @code{encrypt.format=luks}.
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@item encrypt.key-secret
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Provides the ID of a @code{secret} object that contains the encryption
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key (@code{encrypt.format=aes}).
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@end table
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@item luks
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LUKS v1 encryption format, compatible with Linux dm-crypt/cryptsetup
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Supported options:
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@table @code
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@item key-secret
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Provides the ID of a @code{secret} object that contains the passphrase.
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@item cipher-alg
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Name of the cipher algorithm and key length. Currently defaults
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to @code{aes-256}.
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@item cipher-mode
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Name of the encryption mode to use. Currently defaults to @code{xts}.
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@item ivgen-alg
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Name of the initialization vector generator algorithm. Currently defaults
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to @code{plain64}.
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@item ivgen-hash-alg
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Name of the hash algorithm to use with the initialization vector generator
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(if required). Defaults to @code{sha256}.
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@item hash-alg
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Name of the hash algorithm to use for PBKDF algorithm
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Defaults to @code{sha256}.
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@item iter-time
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Amount of time, in milliseconds, to use for PBKDF algorithm per key slot.
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Defaults to @code{2000}.
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@end table
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@item vdi
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VirtualBox 1.1 compatible image format.
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Supported options:
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@table @code
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@item static
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If this option is set to @code{on}, the image is created with metadata
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preallocation.
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@end table
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@item vmdk
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VMware 3 and 4 compatible image format.
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Supported options:
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@table @code
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@item backing_file
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File name of a base image (see @option{create} subcommand).
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@item compat6
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Create a VMDK version 6 image (instead of version 4)
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@item hwversion
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Specify vmdk virtual hardware version. Compat6 flag cannot be enabled
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if hwversion is specified.
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@item subformat
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Specifies which VMDK subformat to use. Valid options are
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@code{monolithicSparse} (default),
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@code{monolithicFlat},
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@code{twoGbMaxExtentSparse},
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@code{twoGbMaxExtentFlat} and
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@code{streamOptimized}.
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@end table
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@item vpc
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VirtualPC compatible image format (VHD).
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Supported options:
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@table @code
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@item subformat
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Specifies which VHD subformat to use. Valid options are
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@code{dynamic} (default) and @code{fixed}.
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@end table
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@item VHDX
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Hyper-V compatible image format (VHDX).
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Supported options:
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@table @code
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@item subformat
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Specifies which VHDX subformat to use. Valid options are
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@code{dynamic} (default) and @code{fixed}.
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@item block_state_zero
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Force use of payload blocks of type 'ZERO'. Can be set to @code{on} (default)
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or @code{off}. When set to @code{off}, new blocks will be created as
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@code{PAYLOAD_BLOCK_NOT_PRESENT}, which means parsers are free to return
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arbitrary data for those blocks. Do not set to @code{off} when using
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@code{qemu-img convert} with @code{subformat=dynamic}.
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@item block_size
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Block size; min 1 MB, max 256 MB. 0 means auto-calculate based on image size.
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@item log_size
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Log size; min 1 MB.
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@end table
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@end table
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@subsubsection Read-only formats
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More disk image file formats are supported in a read-only mode.
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@table @option
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@item bochs
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Bochs images of @code{growing} type.
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@item cloop
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Linux Compressed Loop image, useful only to reuse directly compressed
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CD-ROM images present for example in the Knoppix CD-ROMs.
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@item dmg
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Apple disk image.
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@item parallels
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Parallels disk image format.
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@end table
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@node host_drives
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@subsection Using host drives
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In addition to disk image files, QEMU can directly access host
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devices. We describe here the usage for QEMU version >= 0.8.3.
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@subsubsection Linux
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On Linux, you can directly use the host device filename instead of a
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disk image filename provided you have enough privileges to access
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it. For example, use @file{/dev/cdrom} to access to the CDROM.
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@table @code
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@item CD
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You can specify a CDROM device even if no CDROM is loaded. QEMU has
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specific code to detect CDROM insertion or removal. CDROM ejection by
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the guest OS is supported. Currently only data CDs are supported.
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@item Floppy
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You can specify a floppy device even if no floppy is loaded. Floppy
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removal is currently not detected accurately (if you change floppy
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without doing floppy access while the floppy is not loaded, the guest
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OS will think that the same floppy is loaded).
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Use of the host's floppy device is deprecated, and support for it will
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be removed in a future release.
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@item Hard disks
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Hard disks can be used. Normally you must specify the whole disk
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(@file{/dev/hdb} instead of @file{/dev/hdb1}) so that the guest OS can
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see it as a partitioned disk. WARNING: unless you know what you do, it
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is better to only make READ-ONLY accesses to the hard disk otherwise
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you may corrupt your host data (use the @option{-snapshot} command
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line option or modify the device permissions accordingly).
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@end table
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@subsubsection Windows
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@table @code
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@item CD
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The preferred syntax is the drive letter (e.g. @file{d:}). The
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alternate syntax @file{\\.\d:} is supported. @file{/dev/cdrom} is
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supported as an alias to the first CDROM drive.
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Currently there is no specific code to handle removable media, so it
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is better to use the @code{change} or @code{eject} monitor commands to
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change or eject media.
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@item Hard disks
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Hard disks can be used with the syntax: @file{\\.\PhysicalDrive@var{N}}
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where @var{N} is the drive number (0 is the first hard disk).
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WARNING: unless you know what you do, it is better to only make
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READ-ONLY accesses to the hard disk otherwise you may corrupt your
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host data (use the @option{-snapshot} command line so that the
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modifications are written in a temporary file).
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@end table
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@subsubsection Mac OS X
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@file{/dev/cdrom} is an alias to the first CDROM.
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Currently there is no specific code to handle removable media, so it
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is better to use the @code{change} or @code{eject} monitor commands to
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change or eject media.
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@node disk_images_fat_images
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@subsection Virtual FAT disk images
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QEMU can automatically create a virtual FAT disk image from a
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directory tree. In order to use it, just type:
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@example
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qemu-system-i386 linux.img -hdb fat:/my_directory
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@end example
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Then you access access to all the files in the @file{/my_directory}
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directory without having to copy them in a disk image or to export
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them via SAMBA or NFS. The default access is @emph{read-only}.
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Floppies can be emulated with the @code{:floppy:} option:
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@example
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qemu-system-i386 linux.img -fda fat:floppy:/my_directory
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@end example
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A read/write support is available for testing (beta stage) with the
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@code{:rw:} option:
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@example
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qemu-system-i386 linux.img -fda fat:floppy:rw:/my_directory
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@end example
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What you should @emph{never} do:
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@itemize
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@item use non-ASCII filenames ;
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@item use "-snapshot" together with ":rw:" ;
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@item expect it to work when loadvm'ing ;
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@item write to the FAT directory on the host system while accessing it with the guest system.
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@end itemize
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@node disk_images_nbd
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@subsection NBD access
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QEMU can access directly to block device exported using the Network Block Device
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protocol.
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@example
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qemu-system-i386 linux.img -hdb nbd://my_nbd_server.mydomain.org:1024/
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@end example
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If the NBD server is located on the same host, you can use an unix socket instead
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of an inet socket:
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@example
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qemu-system-i386 linux.img -hdb nbd+unix://?socket=/tmp/my_socket
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@end example
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In this case, the block device must be exported using qemu-nbd:
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@example
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qemu-nbd --socket=/tmp/my_socket my_disk.qcow2
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@end example
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The use of qemu-nbd allows sharing of a disk between several guests:
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@example
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qemu-nbd --socket=/tmp/my_socket --share=2 my_disk.qcow2
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@end example
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@noindent
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and then you can use it with two guests:
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@example
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qemu-system-i386 linux1.img -hdb nbd+unix://?socket=/tmp/my_socket
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qemu-system-i386 linux2.img -hdb nbd+unix://?socket=/tmp/my_socket
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@end example
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If the nbd-server uses named exports (supported since NBD 2.9.18, or with QEMU's
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own embedded NBD server), you must specify an export name in the URI:
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@example
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qemu-system-i386 -cdrom nbd://localhost/debian-500-ppc-netinst
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qemu-system-i386 -cdrom nbd://localhost/openSUSE-11.1-ppc-netinst
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@end example
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The URI syntax for NBD is supported since QEMU 1.3. An alternative syntax is
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also available. Here are some example of the older syntax:
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@example
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qemu-system-i386 linux.img -hdb nbd:my_nbd_server.mydomain.org:1024
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qemu-system-i386 linux2.img -hdb nbd:unix:/tmp/my_socket
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qemu-system-i386 -cdrom nbd:localhost:10809:exportname=debian-500-ppc-netinst
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@end example
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@node disk_images_sheepdog
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@subsection Sheepdog disk images
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Sheepdog is a distributed storage system for QEMU. It provides highly
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available block level storage volumes that can be attached to
|
|
QEMU-based virtual machines.
|
|
|
|
You can create a Sheepdog disk image with the command:
|
|
@example
|
|
qemu-img create sheepdog:///@var{image} @var{size}
|
|
@end example
|
|
where @var{image} is the Sheepdog image name and @var{size} is its
|
|
size.
|
|
|
|
To import the existing @var{filename} to Sheepdog, you can use a
|
|
convert command.
|
|
@example
|
|
qemu-img convert @var{filename} sheepdog:///@var{image}
|
|
@end example
|
|
|
|
You can boot from the Sheepdog disk image with the command:
|
|
@example
|
|
qemu-system-i386 sheepdog:///@var{image}
|
|
@end example
|
|
|
|
You can also create a snapshot of the Sheepdog image like qcow2.
|
|
@example
|
|
qemu-img snapshot -c @var{tag} sheepdog:///@var{image}
|
|
@end example
|
|
where @var{tag} is a tag name of the newly created snapshot.
|
|
|
|
To boot from the Sheepdog snapshot, specify the tag name of the
|
|
snapshot.
|
|
@example
|
|
qemu-system-i386 sheepdog:///@var{image}#@var{tag}
|
|
@end example
|
|
|
|
You can create a cloned image from the existing snapshot.
|
|
@example
|
|
qemu-img create -b sheepdog:///@var{base}#@var{tag} sheepdog:///@var{image}
|
|
@end example
|
|
where @var{base} is a image name of the source snapshot and @var{tag}
|
|
is its tag name.
|
|
|
|
You can use an unix socket instead of an inet socket:
|
|
|
|
@example
|
|
qemu-system-i386 sheepdog+unix:///@var{image}?socket=@var{path}
|
|
@end example
|
|
|
|
If the Sheepdog daemon doesn't run on the local host, you need to
|
|
specify one of the Sheepdog servers to connect to.
|
|
@example
|
|
qemu-img create sheepdog://@var{hostname}:@var{port}/@var{image} @var{size}
|
|
qemu-system-i386 sheepdog://@var{hostname}:@var{port}/@var{image}
|
|
@end example
|
|
|
|
@node disk_images_iscsi
|
|
@subsection iSCSI LUNs
|
|
|
|
iSCSI is a popular protocol used to access SCSI devices across a computer
|
|
network.
|
|
|
|
There are two different ways iSCSI devices can be used by QEMU.
|
|
|
|
The first method is to mount the iSCSI LUN on the host, and make it appear as
|
|
any other ordinary SCSI device on the host and then to access this device as a
|
|
/dev/sd device from QEMU. How to do this differs between host OSes.
|
|
|
|
The second method involves using the iSCSI initiator that is built into
|
|
QEMU. This provides a mechanism that works the same way regardless of which
|
|
host OS you are running QEMU on. This section will describe this second method
|
|
of using iSCSI together with QEMU.
|
|
|
|
In QEMU, iSCSI devices are described using special iSCSI URLs
|
|
|
|
@example
|
|
URL syntax:
|
|
iscsi://[<username>[%<password>]@@]<host>[:<port>]/<target-iqn-name>/<lun>
|
|
@end example
|
|
|
|
Username and password are optional and only used if your target is set up
|
|
using CHAP authentication for access control.
|
|
Alternatively the username and password can also be set via environment
|
|
variables to have these not show up in the process list
|
|
|
|
@example
|
|
export LIBISCSI_CHAP_USERNAME=<username>
|
|
export LIBISCSI_CHAP_PASSWORD=<password>
|
|
iscsi://<host>/<target-iqn-name>/<lun>
|
|
@end example
|
|
|
|
Various session related parameters can be set via special options, either
|
|
in a configuration file provided via '-readconfig' or directly on the
|
|
command line.
|
|
|
|
If the initiator-name is not specified qemu will use a default name
|
|
of 'iqn.2008-11.org.linux-kvm[:<uuid>'] where <uuid> is the UUID of the
|
|
virtual machine. If the UUID is not specified qemu will use
|
|
'iqn.2008-11.org.linux-kvm[:<name>'] where <name> is the name of the
|
|
virtual machine.
|
|
|
|
@example
|
|
Setting a specific initiator name to use when logging in to the target
|
|
-iscsi initiator-name=iqn.qemu.test:my-initiator
|
|
@end example
|
|
|
|
@example
|
|
Controlling which type of header digest to negotiate with the target
|
|
-iscsi header-digest=CRC32C|CRC32C-NONE|NONE-CRC32C|NONE
|
|
@end example
|
|
|
|
These can also be set via a configuration file
|
|
@example
|
|
[iscsi]
|
|
user = "CHAP username"
|
|
password = "CHAP password"
|
|
initiator-name = "iqn.qemu.test:my-initiator"
|
|
# header digest is one of CRC32C|CRC32C-NONE|NONE-CRC32C|NONE
|
|
header-digest = "CRC32C"
|
|
@end example
|
|
|
|
|
|
Setting the target name allows different options for different targets
|
|
@example
|
|
[iscsi "iqn.target.name"]
|
|
user = "CHAP username"
|
|
password = "CHAP password"
|
|
initiator-name = "iqn.qemu.test:my-initiator"
|
|
# header digest is one of CRC32C|CRC32C-NONE|NONE-CRC32C|NONE
|
|
header-digest = "CRC32C"
|
|
@end example
|
|
|
|
|
|
Howto use a configuration file to set iSCSI configuration options:
|
|
@example
|
|
cat >iscsi.conf <<EOF
|
|
[iscsi]
|
|
user = "me"
|
|
password = "my password"
|
|
initiator-name = "iqn.qemu.test:my-initiator"
|
|
header-digest = "CRC32C"
|
|
EOF
|
|
|
|
qemu-system-i386 -drive file=iscsi://127.0.0.1/iqn.qemu.test/1 \
|
|
-readconfig iscsi.conf
|
|
@end example
|
|
|
|
|
|
Howto set up a simple iSCSI target on loopback and accessing it via QEMU:
|
|
@example
|
|
This example shows how to set up an iSCSI target with one CDROM and one DISK
|
|
using the Linux STGT software target. This target is available on Red Hat based
|
|
systems as the package 'scsi-target-utils'.
|
|
|
|
tgtd --iscsi portal=127.0.0.1:3260
|
|
tgtadm --lld iscsi --op new --mode target --tid 1 -T iqn.qemu.test
|
|
tgtadm --lld iscsi --mode logicalunit --op new --tid 1 --lun 1 \
|
|
-b /IMAGES/disk.img --device-type=disk
|
|
tgtadm --lld iscsi --mode logicalunit --op new --tid 1 --lun 2 \
|
|
-b /IMAGES/cd.iso --device-type=cd
|
|
tgtadm --lld iscsi --op bind --mode target --tid 1 -I ALL
|
|
|
|
qemu-system-i386 -iscsi initiator-name=iqn.qemu.test:my-initiator \
|
|
-boot d -drive file=iscsi://127.0.0.1/iqn.qemu.test/1 \
|
|
-cdrom iscsi://127.0.0.1/iqn.qemu.test/2
|
|
@end example
|
|
|
|
@node disk_images_gluster
|
|
@subsection GlusterFS disk images
|
|
|
|
GlusterFS is a user space distributed file system.
|
|
|
|
You can boot from the GlusterFS disk image with the command:
|
|
@example
|
|
URI:
|
|
qemu-system-x86_64 -drive file=gluster[+@var{type}]://[@var{host}[:@var{port}]]/@var{volume}/@var{path}
|
|
[?socket=...][,file.debug=9][,file.logfile=...]
|
|
|
|
JSON:
|
|
qemu-system-x86_64 'json:@{"driver":"qcow2",
|
|
"file":@{"driver":"gluster",
|
|
"volume":"testvol","path":"a.img","debug":9,"logfile":"...",
|
|
"server":[@{"type":"tcp","host":"...","port":"..."@},
|
|
@{"type":"unix","socket":"..."@}]@}@}'
|
|
@end example
|
|
|
|
@var{gluster} is the protocol.
|
|
|
|
@var{type} specifies the transport type used to connect to gluster
|
|
management daemon (glusterd). Valid transport types are
|
|
tcp and unix. In the URI form, if a transport type isn't specified,
|
|
then tcp type is assumed.
|
|
|
|
@var{host} specifies the server where the volume file specification for
|
|
the given volume resides. This can be either a hostname or an ipv4 address.
|
|
If transport type is unix, then @var{host} field should not be specified.
|
|
Instead @var{socket} field needs to be populated with the path to unix domain
|
|
socket.
|
|
|
|
@var{port} is the port number on which glusterd is listening. This is optional
|
|
and if not specified, it defaults to port 24007. If the transport type is unix,
|
|
then @var{port} should not be specified.
|
|
|
|
@var{volume} is the name of the gluster volume which contains the disk image.
|
|
|
|
@var{path} is the path to the actual disk image that resides on gluster volume.
|
|
|
|
@var{debug} is the logging level of the gluster protocol driver. Debug levels
|
|
are 0-9, with 9 being the most verbose, and 0 representing no debugging output.
|
|
The default level is 4. The current logging levels defined in the gluster source
|
|
are 0 - None, 1 - Emergency, 2 - Alert, 3 - Critical, 4 - Error, 5 - Warning,
|
|
6 - Notice, 7 - Info, 8 - Debug, 9 - Trace
|
|
|
|
@var{logfile} is a commandline option to mention log file path which helps in
|
|
logging to the specified file and also help in persisting the gfapi logs. The
|
|
default is stderr.
|
|
|
|
|
|
|
|
|
|
You can create a GlusterFS disk image with the command:
|
|
@example
|
|
qemu-img create gluster://@var{host}/@var{volume}/@var{path} @var{size}
|
|
@end example
|
|
|
|
Examples
|
|
@example
|
|
qemu-system-x86_64 -drive file=gluster://1.2.3.4/testvol/a.img
|
|
qemu-system-x86_64 -drive file=gluster+tcp://1.2.3.4/testvol/a.img
|
|
qemu-system-x86_64 -drive file=gluster+tcp://1.2.3.4:24007/testvol/dir/a.img
|
|
qemu-system-x86_64 -drive file=gluster+tcp://[1:2:3:4:5:6:7:8]/testvol/dir/a.img
|
|
qemu-system-x86_64 -drive file=gluster+tcp://[1:2:3:4:5:6:7:8]:24007/testvol/dir/a.img
|
|
qemu-system-x86_64 -drive file=gluster+tcp://server.domain.com:24007/testvol/dir/a.img
|
|
qemu-system-x86_64 -drive file=gluster+unix:///testvol/dir/a.img?socket=/tmp/glusterd.socket
|
|
qemu-system-x86_64 -drive file=gluster+rdma://1.2.3.4:24007/testvol/a.img
|
|
qemu-system-x86_64 -drive file=gluster://1.2.3.4/testvol/a.img,file.debug=9,file.logfile=/var/log/qemu-gluster.log
|
|
qemu-system-x86_64 'json:@{"driver":"qcow2",
|
|
"file":@{"driver":"gluster",
|
|
"volume":"testvol","path":"a.img",
|
|
"debug":9,"logfile":"/var/log/qemu-gluster.log",
|
|
"server":[@{"type":"tcp","host":"1.2.3.4","port":24007@},
|
|
@{"type":"unix","socket":"/var/run/glusterd.socket"@}]@}@}'
|
|
qemu-system-x86_64 -drive driver=qcow2,file.driver=gluster,file.volume=testvol,file.path=/path/a.img,
|
|
file.debug=9,file.logfile=/var/log/qemu-gluster.log,
|
|
file.server.0.type=tcp,file.server.0.host=1.2.3.4,file.server.0.port=24007,
|
|
file.server.1.type=unix,file.server.1.socket=/var/run/glusterd.socket
|
|
@end example
|
|
|
|
@node disk_images_ssh
|
|
@subsection Secure Shell (ssh) disk images
|
|
|
|
You can access disk images located on a remote ssh server
|
|
by using the ssh protocol:
|
|
|
|
@example
|
|
qemu-system-x86_64 -drive file=ssh://[@var{user}@@]@var{server}[:@var{port}]/@var{path}[?host_key_check=@var{host_key_check}]
|
|
@end example
|
|
|
|
Alternative syntax using properties:
|
|
|
|
@example
|
|
qemu-system-x86_64 -drive file.driver=ssh[,file.user=@var{user}],file.host=@var{server}[,file.port=@var{port}],file.path=@var{path}[,file.host_key_check=@var{host_key_check}]
|
|
@end example
|
|
|
|
@var{ssh} is the protocol.
|
|
|
|
@var{user} is the remote user. If not specified, then the local
|
|
username is tried.
|
|
|
|
@var{server} specifies the remote ssh server. Any ssh server can be
|
|
used, but it must implement the sftp-server protocol. Most Unix/Linux
|
|
systems should work without requiring any extra configuration.
|
|
|
|
@var{port} is the port number on which sshd is listening. By default
|
|
the standard ssh port (22) is used.
|
|
|
|
@var{path} is the path to the disk image.
|
|
|
|
The optional @var{host_key_check} parameter controls how the remote
|
|
host's key is checked. The default is @code{yes} which means to use
|
|
the local @file{.ssh/known_hosts} file. Setting this to @code{no}
|
|
turns off known-hosts checking. Or you can check that the host key
|
|
matches a specific fingerprint:
|
|
@code{host_key_check=md5:78:45:8e:14:57:4f:d5:45:83:0a:0e:f3:49:82:c9:c8}
|
|
(@code{sha1:} can also be used as a prefix, but note that OpenSSH
|
|
tools only use MD5 to print fingerprints).
|
|
|
|
Currently authentication must be done using ssh-agent. Other
|
|
authentication methods may be supported in future.
|
|
|
|
Note: Many ssh servers do not support an @code{fsync}-style operation.
|
|
The ssh driver cannot guarantee that disk flush requests are
|
|
obeyed, and this causes a risk of disk corruption if the remote
|
|
server or network goes down during writes. The driver will
|
|
print a warning when @code{fsync} is not supported:
|
|
|
|
warning: ssh server @code{ssh.example.com:22} does not support fsync
|
|
|
|
With sufficiently new versions of libssh2 and OpenSSH, @code{fsync} is
|
|
supported.
|
|
|
|
@node disk_image_locking
|
|
@subsection Disk image file locking
|
|
|
|
By default, QEMU tries to protect image files from unexpected concurrent
|
|
access, as long as it's supported by the block protocol driver and host
|
|
operating system. If multiple QEMU processes (including QEMU emulators and
|
|
utilities) try to open the same image with conflicting accessing modes, all but
|
|
the first one will get an error.
|
|
|
|
This feature is currently supported by the file protocol on Linux with the Open
|
|
File Descriptor (OFD) locking API, and can be configured to fall back to POSIX
|
|
locking if the POSIX host doesn't support Linux OFD locking.
|
|
|
|
To explicitly enable image locking, specify "locking=on" in the file protocol
|
|
driver options. If OFD locking is not possible, a warning will be printed and
|
|
the POSIX locking API will be used. In this case there is a risk that the lock
|
|
will get silently lost when doing hot plugging and block jobs, due to the
|
|
shortcomings of the POSIX locking API.
|
|
|
|
QEMU transparently handles lock handover during shared storage migration. For
|
|
shared virtual disk images between multiple VMs, the "share-rw" device option
|
|
should be used.
|
|
|
|
Alternatively, locking can be fully disabled by "locking=off" block device
|
|
option. In the command line, the option is usually in the form of
|
|
"file.locking=off" as the protocol driver is normally placed as a "file" child
|
|
under a format driver. For example:
|
|
|
|
@code{-blockdev driver=qcow2,file.filename=/path/to/image,file.locking=off,file.driver=file}
|
|
|
|
To check if image locking is active, check the output of the "lslocks" command
|
|
on host and see if there are locks held by the QEMU process on the image file.
|
|
More than one byte could be locked by the QEMU instance, each byte of which
|
|
reflects a particular permission that is acquired or protected by the running
|
|
block driver.
|
|
|
|
@c man end
|
|
|
|
@ignore
|
|
|
|
@setfilename qemu-block-drivers
|
|
@settitle QEMU block drivers reference
|
|
|
|
@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 and the QEMU Project developers
|
|
@c man end
|
|
|
|
@end ignore
|