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b6b100b588
Try to make clear the option --output feeds data into a partition, but does not create the partition.
398 lines
13 KiB
Groff
398 lines
13 KiB
Groff
.\" Copyright (c) 2003\-2005 Richard Russon.
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.\" Copyright (c) 2003\-2006 Szabolcs Szakacsits.
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.\" Copyright (c) 2004 Per Olofsson.
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.\" Copyright (c) 2010\-2013 Jean-Pierre Andre.
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.\" This file may be copied under the terms of the GNU Public License.
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.\"
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.TH NTFSCLONE 8 "February 2013" "ntfs-3g @VERSION@"
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.SH NAME
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ntfsclone \- Efficiently clone, image, restore or rescue an NTFS
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.SH SYNOPSIS
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.B ntfsclone
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[\fIOPTIONS\fR]
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.I SOURCE
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.br
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.B ntfsclone \-\-save\-image
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[\fIOPTIONS\fR]
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.I SOURCE
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.br
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.B ntfsclone \-\-restore\-image
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[\fIOPTIONS\fR]
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.I SOURCE
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.br
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.B ntfsclone \-\-metadata
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[\fIOPTIONS\fR]
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.I SOURCE
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.SH DESCRIPTION
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.B ntfsclone
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will efficiently clone (copy, save, backup, restore) or rescue an NTFS
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filesystem to a sparse file, image, device (partition) or standard output.
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It works at disk sector level and
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copies only the used data. Unused disk space becomes zero (cloning to
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sparse file), encoded with control codes (saving in special image format),
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left unchanged (cloning to a disk/partition) or
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filled with zeros (cloning to standard output).
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.B ntfsclone
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can be useful to make backups, an exact snapshot of an NTFS filesystem
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and restore it later on, or for developers to test NTFS read/write
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functionality, troubleshoot/investigate users' issues using the clone
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without the risk of destroying the original filesystem.
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The clone, if not using the special image format, is an exact copy of the
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original NTFS filesystem from sector to sector thus it can be also mounted
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just like the original NTFS filesystem.
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For example if you clone to a file and the kernel has loopback device and
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NTFS support then the file can be mounted as
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.RS
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.sp
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.B mount \-t ntfs \-o loop ntfsclone.img /mnt/ntfsclone
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.sp
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.RE
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.SS Windows Cloning
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If you want to copy, move or restore a system or boot partition to another
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computer, or to a different disk or partition (e.g. hda1\->hda2, hda1\->hdb1
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or to a different disk sector offset) then you will need to take extra care.
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Usually, Windows will not be able to boot, unless you copy, move or restore
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NTFS to the same partition which starts at the same sector on the same type
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of disk having the same BIOS legacy cylinder setting as the original
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partition and disk had.
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The ntfsclone utility guarantees to make an exact copy of NTFS but it
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won't deal with booting issues. This is by design: ntfsclone is a
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filesystem, not system utility. Its aim is only NTFS cloning, not Windows
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cloning. Hereby ntfsclone can be used as a very fast and reliable
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build block for Windows cloning but itself it's not enough.
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.SS Sparse Files
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A file is sparse if it has unallocated blocks (holes). The reported size of
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such files are always higher than the disk space consumed by them. The
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.BR du
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command can tell the real disk space used by a sparse file.
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The holes are always read as zeros. All major Linux filesystem like,
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ext2, ext3, reiserfs, Reiser4, JFS and XFS, supports
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sparse files but for example the ISO 9600 CD\-ROM filesystem doesn't.
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.SS Handling Large Sparse Files
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As of today Linux provides inadequate support for managing (tar,
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cp, gzip, gunzip, bzip2, bunzip2, cat, etc) large sparse files.
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The only main Linux filesystem
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having support for efficient sparse file handling is XFS by the
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XFS_IOC_GETBMAPX
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.BR ioctl (2) .
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However none of the common utilities supports it.
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This means when you tar, cp, gzip, bzip2, etc a large sparse file
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they will always read the entire file, even if you use the "sparse support"
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options.
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.BR bzip2 (1)
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compresses large sparse files much better than
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.BR gzip (1)
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but it does so
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also much slower. Moreover neither of them handles large sparse
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files efficiently during uncompression from disk space usage point
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of view.
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At present the most efficient way, both speed and space\-wise, to
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compress and uncompress large sparse files by common tools
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would be using
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.BR tar (1)
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with the options
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.B \-S
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(handle sparse files "efficiently") and
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.B \-j
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(filter the archive through bzip2). Although
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.BR tar
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still reads and analyses the entire file, it doesn't pass on the
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large data blocks having only zeros to filters and it also avoids
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writing large amount of zeros to the disk needlessly. But since
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.BR tar
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can't create an archive from the standard input, you can't do this
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in\-place by just reading
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.BR ntfsclone
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standard output. Even more sadly, using the \-S option results
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serious data loss since the end of 2004 and the GNU
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.BR tar
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maintainers didn't release fixed versions until the present day.
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.SS The Special Image Format
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It's also possible, actually it's recommended, to save an NTFS filesystem
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to a special image format.
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Instead of representing unallocated blocks as holes, they are
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encoded using control codes. Thus, the image saves space without
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requiring sparse file support. The image format is ideal for streaming
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filesystem images over the network and similar, and can be used as a
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replacement for Ghost or Partition Image if it is combined with other
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tools. The downside is that you can't mount the image directly, you
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need to restore it first.
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To save an image using the special image format, use the
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.B \-s
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or the
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.B \-\-save\-image
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option. To restore an image, use the
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.B \-r
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or the
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.B \-\-restore\-image
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option. Note that you can restore images from standard input by
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using '\-' as the
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.I SOURCE
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file.
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.SS Metadata\-only Cloning
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One of the features of
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.BR ntfsclone
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is that, it can also save only the NTFS metadata using the option
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.B \-m
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or
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.B \-\-metadata
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and the clone still will be
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mountable. In this case all non\-metadata file content will be lost and
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reading them back will result always zeros.
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The metadata\-only image can be compressed very
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well, usually to not more than 1\-8 MB thus it's easy to transfer
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for investigation, troubleshooting.
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In this mode of ntfsclone,
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.B NONE
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of the user's data is saved, including the resident user's data
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embedded into metadata. All is filled with zeros.
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Moreover all the file timestamps, deleted and unused spaces inside
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the metadata are filled with zeros. Thus this mode is inappropriate
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for example for forensic analyses.
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This mode may be combined with \fB\-\-save\-image\fP to create a
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special image format file instead of a sparse file.
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Please note, filenames are not wiped out. They might contain
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sensitive information, so think twice before sending such an
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image to anybody.
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.SH OPTIONS
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Below is a summary of all the options that
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.B ntfsclone
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accepts. Nearly all options have two equivalent names. The short name is
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preceded by
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.B \-
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and the long name is preceded by
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.B \-\- .
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Any single letter options, that don't take an argument, can be combined into a
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single command, e.g.
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.B \-fv
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is equivalent to
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.B "\-f \-v" .
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Long named options can be abbreviated to any unique prefix of their name.
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.TP
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\fB\-o\fR, \fB\-\-output\fR FILE
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Clone NTFS to the non\-existent
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.IR FILE .
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If
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.I FILE
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is '\-' then clone to the
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standard output. This option cannot be used for creating a partition,
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use \fB\-\-overwrite\fR for an existing partition.
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.TP
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\fB\-O\fR, \fB\-\-overwrite\fR FILE
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Clone NTFS to
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.IR FILE ,
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which can be an existing partition or a regular file which will be
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overwritten if it exists.
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.TP
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\fB\-s\fR, \fB\-\-save\-image\fR
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Save to the special image format. This is the most efficient way space and
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speed\-wise if imaging is done to the standard output, e.g. for image
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compression, encryption or streaming through a network.
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.TP
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\fB\-r\fR, \fB\-\-restore\-image\fR
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Restore from the special image format specified by
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.I SOURCE
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argument. If the
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.I SOURCE
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is '\-' then the image is read from the standard input.
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.TP
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\fB\-n\fR, \fB\-\-no\-action\fR
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Test the consistency of a saved image by simulating its restoring without
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writing anything. The NTFS data contained in the image is not tested.
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The option \fB\-\-restore\-image\fR must also be present, and the options
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\fB\-\-output\fR and \fB\-\-overwrite\fR must be omitted.
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.TP
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\fB\-\-rescue\fR
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Ignore disk read errors so disks having bad sectors, e.g. dying disks, can be
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rescued the most efficiently way, with minimal stress on them. Ntfsclone works
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at the lowest, sector level in this mode too thus more data can be rescued.
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The contents of the unreadable sectors are filled by character '?' and the
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beginning of such sectors are marked by "BadSectoR\\0".
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.TP
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\fB\-m\fR, \fB\-\-metadata\fR
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Clone
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.B ONLY METADATA
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(for NTFS experts). Only cloning to a (sparse) file is allowed, unless used
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the option \fB\-\-save\-image\fP is also used.
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You can't metadata\-only clone to a device.
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.TP
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\fB\-\-ignore\-fs\-check\fR
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Ignore the result of the filesystem consistency check. This option is allowed
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to be used only with the
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.B \-\-metadata
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option, for the safety of user's data. The clusters which cause the
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inconsistency are saved too.
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.TP
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\fB\-t\fR, \fB\-\-preserve\-timestamps\fR
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Do not wipe the timestamps, to be used only with the
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.B \-\-metadata
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option.
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.TP
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\fB\-\-full\-logfile\fR
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Include the Windows log file in the copy. This is only useful for
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extracting metadata, saving or cloning a file system which was not
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properly unmounted from Windows.
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.TP
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\fB\-\-new\-serial\fR, or
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.TP
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\fB\-\-new\-half\-serial\fR
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Set a new random serial number to the clone. The serial number is a 64
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bit number used to identify the device during the mounting process, so
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it has to be changed to enable the original file system
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and the clone to be mounted at the same time on the same computer.
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The option \fB\-\-new\-half\-serial\fP only changes the upper part of the
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serial number, keeping the lower part which is used by Windows unchanged.
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The options \fB\-\-new\-serial\fP and \fB\-\-new\-half\-serial\fP can
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only be used when cloning a file system of restoring from an image.
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The serial number is not the volume UUID used by Windows
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to locate files which have been moved to another volume.
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.TP
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\fB\-f\fR, \fB\-\-force\fR
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Forces ntfsclone to proceed if the filesystem is marked
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"dirty" for consistency check.
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.TP
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\fB\-q\fR, \fB\-\-quiet\fR
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Do not display any progress-bars during operation.
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.TP
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\fB\-h\fR, \fB\-\-help\fR
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Show a list of options with a brief description of each one.
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.SH EXIT CODES
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The exit code is 0 on success, non\-zero otherwise.
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.SH EXAMPLES
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Clone NTFS on /dev/hda1 to /dev/hdc1:
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.RS
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.sp
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.B ntfsclone \-\-overwrite /dev/hdc1 /dev/hda1
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.sp
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.RE
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Save an NTFS to a file in the special image format:
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.RS
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.sp
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.B ntfsclone \-\-save\-image \-\-output backup.img /dev/hda1
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.sp
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.RE
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Restore an NTFS from a special image file to its original partition:
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.RS
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.sp
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.B ntfsclone \-\-restore\-image \-\-overwrite /dev/hda1 backup.img
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.sp
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.RE
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Save an NTFS into a compressed image file:
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.RS
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.sp
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.B ntfsclone \-\-save\-image \-o \- /dev/hda1 | gzip \-c > backup.img.gz
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.sp
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.RE
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Restore an NTFS volume from a compressed image file:
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.RS
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.sp
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.B gunzip \-c backup.img.gz | \\\\
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.br
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.B ntfsclone \-\-restore\-image \-\-overwrite /dev/hda1 \-
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.sp
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.RE
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Backup an NTFS volume to a remote host, using ssh. Please note, that
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ssh may ask for a password!
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.RS
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.sp
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.B ntfsclone \-\-save\-image \-\-output \- /dev/hda1 | \\\\
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.br
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.B gzip \-c | ssh host 'cat > backup.img.gz'
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.sp
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.RE
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Restore an NTFS volume from a remote host via ssh. Please note, that
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ssh may ask for a password!
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.RS
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.sp
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.B ssh host 'cat backup.img.gz' | gunzip \-c | \\\\
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.br
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.B ntfsclone \-\-restore\-image \-\-overwrite /dev/hda1 \-
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.sp
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.RE
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Stream an image file from a web server and restore it to a partition:
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.RS
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.sp
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.B wget \-qO \- http://server/backup.img | \\\\
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.br
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.B ntfsclone \-\-restore\-image \-\-overwrite /dev/hda1 \-
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.sp
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.RE
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Clone an NTFS volume to a non\-existent file:
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.RS
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.sp
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.B ntfsclone \-\-output ntfs\-clone.img /dev/hda1
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.sp
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.RE
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Pack NTFS metadata for NTFS experts. Please note that bzip2 runs
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very long but results usually at least 10 times smaller archives
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than gzip on a sparse file.
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.RS
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.sp
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.B ntfsclone \-\-metadata \-\-output ntfsmeta.img /dev/hda1
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.br
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.B bzip2 ntfsmeta.img
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.sp
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Or, outputting to a compressed image :
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.br
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.B ntfsclone \-mst \-\-output - /dev/hda1 | bzip2 > ntfsmeta.bz2
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.sp
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.RE
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Unpacking NTFS metadata into a sparse file:
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.RS
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.sp
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.B bunzip2 \-c ntfsmeta.img.bz2 | \\\\
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.br
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.B cp \-\-sparse=always /proc/self/fd/0 ntfsmeta.img
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.sp
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.RE
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.SH KNOWN ISSUES
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There are no known problems with
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.BR ntfsclone .
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If you think you have found a problem then please send an email describing it
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to the development team:
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.nh
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ntfs\-3g\-devel@lists.sf.net
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.hy
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.sp
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Sometimes it might appear ntfsclone froze if the clone is on ReiserFS
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and even CTRL\-C won't stop it. This is not a bug in ntfsclone, however
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it's due to ReiserFS being extremely inefficient creating large
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sparse files and not handling signals during this operation. This
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ReiserFS problem was improved in kernel 2.4.22.
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XFS, JFS and ext3 don't have this problem.
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.hy
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.SH AUTHORS
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.B ntfsclone
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was written by Szabolcs Szakacsits with contributions from Per Olofsson
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(special image format support) and Anton Altaparmakov.
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It was ported to ntfs-3g by Erik Larsson and Jean-Pierre Andre.
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.SH AVAILABILITY
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.B ntfsclone
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is part of the
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.B ntfs-3g
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package and is available at:
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.br
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.nh
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http://www.tuxera.com/community/
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.hy
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.SH SEE ALSO
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.BR ntfsresize (8)
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.BR ntfsprogs (8)
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.BR xfs_copy (8)
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.BR debugreiserfs (8)
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.BR e2image (8)
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