[wimlib] / doc / man1 / wimcapture.1

.TH WIMCAPTURE "1" "July 2017" "wimlib 1.12.0" "User Commands"
.SH NAME
wimcapture, wimappend \- Capture or append a WIM image
.SH SYNOPSIS
\fBwimcapture\fR \fISOURCE\fR \fIWIMFILE\fR [\fIIMAGE_NAME\fR \ [\fIIMAGE_DESC\fR]] [\fIOPTION\fR...]
.br
\fBwimappend\fR \fISOURCE\fR \fIWIMFILE\fR [\fIIMAGE_NAME\fR \ [\fIIMAGE_DESC\fR]] [\fIOPTION\fR...]
.SH DESCRIPTION
The \fBwimcapture\fR (equivalently: \fBwimlib-imagex capture\fR) and
\fBwimappend\fR (equivalently: \fBwimlib-imagex append\fR) commands create
("capture") a new Windows Imaging (WIM) image.  \fBwimcapture\fR creates a new
WIM archive \fIWIMFILE\fR to contain the new image, while \fBwimappend\fR adds
the image to the existing WIM archive \fIWIMFILE\fR.
.PP
\fISOURCE\fR specifies the location of the files from which to create the WIM
image.  If \fISOURCE\fR is a directory or a symbolic link pointing to a
directory, then the image is captured from that directory as per \fBDIRECTORY
CAPTURE (UNIX)\fR or \fBDIRECTORY CAPTURE (WINDOWS)\fR.   Alternatively, if
\fB--source-list\fR is specified, then \fISOURCE\fR is interpreted as a file
containing a list of files and directories to include in the image.  Still
alternatively, if \fISOURCE\fR is a UNIX block device, then an image is captured
from the NTFS volume on it as per \fBNTFS VOLUME CAPTURE (UNIX)\fR.
.PP
\fIIMAGE_NAME\fR and \fIIMAGE_DESC\fR specify the name and description to give
the new image.  If \fIIMAGE_NAME\fR is unspecified, it defaults to the filename
component of \fISOURCE\fR, appending a unique suffix if needed.  Otherwise,
\fIIMAGE_NAME\fR must be either a name not already used by an image in
\fIWIMFILE\fR, or the empty string to create an unnamed image.  If
\fIIMAGE_DESC\fR is unspecified then the new image is given no description.
.PP
If \fIWIMFILE\fR is specified as "-", then the \fB--pipable\fR option is assumed
and a pipable WIM is written to standard output (this is a wimlib extension).
.SH DIRECTORY CAPTURE (UNIX)
On UNIX-like systems, if \fISOURCE\fR specifies a directory or a symbolic link
to a directory, then the WIM image will be captured from that directory.  The
directory can be on any type of filesystem, and mountpoints are followed.  In
this mode, the following types of information are captured:
.IP \[bu] 4
Directories and regular files, and the contents of regular files
.IP \[bu]
Hard links
.IP \[bu]
Symbolic links (translated losslessly to Windows reparse points)
.IP \[bu]
Last modification times (mtime) and last access times (atime) with 100
nanosecond granularity
.IP \[bu]
Files that appear to be sparse will be flagged as such, but their full data will
still be stored, subject to the usual compression.
.IP \[bu]
With \fB--unix-data\fR: standard UNIX file permissions (owner, group, and mode)
.IP \[bu]
With \fB--unix-data\fR: device nodes, named pipes, and sockets
.IP \[bu]
With \fB--unix-data\fR: extended attributes (Linux only)
.PP
There is no support for storing last status change times (ctimes), or hard link
information for symlinks (each symlink will be stored as a separate file).
Also, filenames and symlink targets which are not valid UTF-8 with the addition
of surrogate codepoints are unsupported.  Note that if you have a filesystem
containing filenames in another multibyte encoding, such as ISO-8859-1, and you
wish to archive it with wimlib, you may be able to mount it with an option which
causes its filenames to be presented as UTF-8.
.SH NTFS VOLUME CAPTURE (UNIX)
On UNIX-like systems, \fISOURCE\fR may also be specified as a block device (e.g.
/dev/sda3) containing an unmounted NTFS volume.  In this mode, \fBwimcapture\fR
uses libntfs-3g to capture a WIM image from root directory of the NTFS volume.
In this mode, as much data and metadata as possible is captured, including
NTFS-specific and Windows-specific metadata:
.IP \[bu] 4
All data streams of all unencrypted files, including the unnamed data stream as
well as all named data streams.
.IP \[bu]
Reparse points.  See \fBREPARSE POINTS AND SYMLINKS\fR for details.
.IP \[bu]
File and directory creation, access, and modification timestamps, using the
native NTFS resolution of 100 nanoseconds.
.IP \[bu]
Windows security descriptors, including all components (owner, group, DACL, and
SACL).
.IP \[bu]
DOS/Windows file attribute flags.
.IP \[bu]
All names of all files, including names in the Win32 namespace, DOS namespace,
Win32+DOS namespace, and POSIX namespace.  This includes hard links.
.IP \[bu]
Object IDs.
.PP
However, the main limitations of this mode are:
.IP \[bu] 4
Encrypted files are excluded.
.IP \[bu]
Extended attributes (EAs) are not stored yet.
.IP \[bu]
Sparse files will be flagged as such, but their full data will still be stored,
subject to the usual compression.
.IP \[bu]
Some types of reparse points are transparently dereferenced by Windows but not
by NTFS-3G.  See \fBREPARSE POINTS AND SYMLINKS\fR.
.PP
Note that this mode uses libntfs-3g directly, without going through the
\fBntfs-3g\fR(8) driver.  Hence, there is no special support for capturing a WIM
image from a directory on which an NTFS filesystem has been mounted using
\fBntfs-3g\fR(8); you have to unmount it first.  There is also no support for
capturing a subdirectory of the NTFS volume; you can only capture the full
volume.
.SH DIRECTORY CAPTURE (WINDOWS)
On Windows, \fBwimcapture\fR and \fBwimappend\fR natively support
Windows-specific and NTFS-specific data.  They therefore act similarly to the
corresponding commands of Microsoft's ImageX or DISM.  For best results, the
directory being captured should be on an NTFS volume and the program should be
run with Administrator privileges; however, non-NTFS filesystems and running
without Administrator privileges are also supported, subject to limitations.
.PP
On Windows, \fBwimcapture\fR and \fBwimappend\fR try to capture as much data and
metadata as possible, including:
.IP \[bu] 4
All data streams of all files.
.IP \[bu]
Reparse points, if supported by the source filesystem.  See \fBREPARSE POINTS
AND SYMLINKS\fR for details.
.IP \[bu]
File and directory creation, access, and modification timestamps.  These are
stored with Windows' native timestamp resolution of 100 nanoseconds.
.IP \[bu]
Security descriptors, if supported by the source filesystem and \fB--no-acls\fR
is not specified.  Note: when not running as an Administrator, security
descriptors may be only partially captured (see \fB--strict-acls\fR).
.IP \[bu]
File attributes, including hidden, sparse, compressed, encrypted, etc.
Encrypted files will be stored in encrypted form rather than in plain text.
Transparently compressed files will be read as uncompressed and stored subject
to the WIM's own compression.  There is no special handling for storing sparse
files, but they are likely to compress to a small size.
.IP \[bu]
DOS names (8.3) names of files; however, the failure to read them is not
considered an error condition.
.IP \[bu]
Hard links, if supported by the source filesystem.
.IP \[bu]
Object IDs, if supported by the source filesystem.
.IP \[bu]
Extended attributes (EAs), if supported by the source filesystem.
.SH REPARSE POINTS AND SYMLINKS
A "symbolic link" (or "symlink") is a special file which "points to" some other
file or directory.  On Windows, a "reparse point" is a generalization of a
symlink which allows access to a file or directory to be redirected in a more
complex way.  Windows uses reparse points to implement symlinks and sometimes
uses them for various other features as well.  Normally, applications can choose
whether they want to "dereference" reparse points and symlinks or not.
.PP
The default behavior of \fBwimcapture\fR is that reparse points and symlinks are
\fInot\fR dereferenced, meaning that the reparse points or symlinks themselves
are stored in the archive rather than the files or data they point to.  There is
a \fB--dereference\fR option, but it is currently only supported by the UNIX
version of \fBwimcapture\fR on UNIX filesystems (it's not yet implemented for
Windows filesystems).
.PP
Windows also treats certain types of reparse points specially.  For example,
Windows applications reading from deduplicated, WIM-backed, or system-compressed
files always see the dereferenced data, even if they ask not to.  Therefore,
\fBwimcapture\fR on Windows will store these files dereferenced, not as reparse
points.  But \fBwimcapture\fR on UNIX in NTFS-3G mode cannot dereference these
files and will store them as reparse points instead.  This difference can be
significant in certain situations, e.g. when capturing deduplicated files which,
to be readable after extraction, require that the chunk store also be present.
.SH OPTIONS
.TP 6
\fB--boot\fR
Mark the new image as the "bootable" image of the WIM.  The "bootable" image is
the image which the Windows bootloader will use when loading Windows PE from the
WIM.
.TP
\fB--check\fR
Include extra integrity information in the resulting WIM.  With \fBwimappend\fR,
also check the integrity of the WIM before appending to it.
.TP
\fB--compress\fR=\fITYPE\fR[:\fILEVEL\fR]
With \fBwimcapture\fR, use the specified compression format in the new WIM file.
\fITYPE\fR may be "none", "XPRESS" (alias: "fast"), "LZX" (alias: "maximum"), or
"LZMS" (alias: "recovery").  \fITYPE\fR is matched case-insensitively.  The
default is "LZX".
.IP ""
You can optionally also specify an integer compression \fILEVEL\fR.  The
compression level specifies how hard the compression algorithm for the specified
compression \fITYPE\fR will work to compress the data.  The values are scaled so
that 20 is quick compression, 50 is medium compression, and 100 is high
compression.  However, you can choose any value and not just these particular
values.  The default is 50.
.IP ""
This option only affects the compression type used in non-solid WIM resources.
If you are creating a solid WIM (using the \fB--solid\fR option), then you
probably want \fB--solid-compress\fR instead.
.IP ""
Be careful if you choose LZMS compression.  It is not compatible with wimlib
before v1.6.0, WIMGAPI before Windows 8, DISM before Windows 8.1, and 7-Zip
before v15.12.  Also note that choosing LZMS compression does not automatically
imply solid-mode compression, as it does with DISM.  Use \fB--solid\fR if you
want to create a solid WIM, or "ESD file".
.TP
\fB--chunk-size\fR=\fISIZE\fR
With \fBwimcapture\fR, use a compression chunk size of \fISIZE\fR bytes.  A
larger compression chunk size results in a better compression ratio.  wimlib
supports different chunk sizes depending on the compression type:
.RS
.IP \[bu] 2
XPRESS: 4K, 8K, 16K, 32K, 64K
.IP \[bu]
LZX: 32K, 64K, 128K, 256K, 512K, 1M, 2M
.IP \[bu]
LZMS: 32K, 64K, 128K, 256K, 512K, 1M, 2M, 4M, 8M, 16M, 32M, 64M, 128M, 256M, 512M, 1G
.RE
.IP ""
You can provide the full number (e.g. 32768), or you can use one of the K, M, or
G suffixes.  KiB, MiB, and GiB are also accepted.
.IP ""
This option only affects the chunk size used in non-solid WIM resources.  If you
are creating a solid WIM (using the \fB--solid\fR option), then you probably
want \fB--solid-chunk-size\fR instead.
.IP ""
Use this option with caution if compatibility with Microsoft's WIM software is
desired, since their software has limited support for non-default chunk sizes.
.TP
\fB--solid\fR
With \fBwimcapture\fR, create a "solid" WIM file that compresses files together
rather than independently.  This results in a significantly better compression
ratio, but it comes at the cost of slow compression with very high memory usage,
reduced compatibility, and slow random access to the resulting WIM file.
.IP ""
By default this enables solid LZMS compression, thereby creating a file
equivalent to one created with DISM's \fB/compress\fR:\fIrecovery\fR option.
Such files are also called "ESD files" and were first supported by WIMGAPI in
Windows 8, by DISM in Windows 8.1, and by 7-Zip 15.12.
.TP
\fB--solid-compress\fR=\fITYPE\fR[:\fILEVEL\fR]
Like \fB--compress\fR, but set the compression type used in solid resources.
The default is LZMS compression.  This option only has an effect when
\fB--solid\fR is also specified.
.TP
\fB--solid-chunk-size\fR=\fISIZE\fR
Like \fB--chunk-size\fR, but set the chunk size used in solid resources.  The
default, assuming LZMS compression, is 64MiB (67108864); this requires about
640MiB of memory per thread.  This option only has an effect when \fB--solid\fR
is also specified.  Note: Microsoft's WIM software is not compatible with LZMS
chunk sizes larger than 64MiB.
.TP
\fB--threads\fR=\fINUM_THREADS\fR
Number of threads to use for compressing data.  Default: autodetect (number of
available CPUs).
.TP
\fB--rebuild\fR
With \fBwimappend\fR, rebuild the entire WIM rather than appending the new data
to the end of it.  Rebuilding the WIM is slower, but will save some space that
would otherwise be left as a hole in the WIM.  Also see \fBwimoptimize\fR(1).
.TP
\fB--flags\fR=\fIEDITIONID\fR
Specify a string to use in the <FLAGS> element of the XML data for the new
image.
.TP
\fB--image-property\fR \fINAME\fR=\fIVALUE\fR
Assign an arbitrary property to the new image in the XML document of the WIM.
\fIVALUE\fR is the string to set as the property value.  \fINAME\fR is the name
of the image property, for example "NAME", "DESCRIPTION", or "TOTALBYTES".  The
name can contain forward slashes to indicate a nested XML element; for example,
"WINDOWS/VERSION/BUILD" indicates the BUILD element nested within the VERSION
element nested within the WINDOWS element.  A bracketed number can be used to
indicate one of several identically-named elements; for example,
"WINDOWS/LANGUAGES/LANGUAGE[2]" indicates the second "LANGUAGE" element nested
within the "WINDOWS/LANGUAGES" element.  When adding a list of elements in this
way, they must be specified in sequential order.  Note that element names are
case-sensitive.  This option may be specified multiple times.
.TP
\fB--dereference\fR
(UNIX-like systems only) Follow symbolic links and archive the files they point
to, rather than archiving the links themselves.
.TP
\fB--config\fR=\fIFILE\fR
Specifies a configuration file (UTF-8 or UTF-16LE encoded; plain ASCII also
works) for capturing the new image.  The configuration file specifies files that
are to be treated specially during the image capture.
.IP ""
The format of the configuration file is INI-style; that is, it is arranged in
bracketed sections.  Currently, the following sections are recognized:
.RS
.IP \[bu] 4
[ExclusionList] ---  contains a list of path globs to exclude from capture.  If
a directory is matched, both the directory and its contents are excluded.
.IP \[bu]
[ExclusionException] --- contains a list of path globs to include in the
capture, even when the file or directory also matches a glob in [ExclusionList].
.IP \[bu]
[PrepopulateList] --- this does not affect capture, but if the image is applied
later with \fB--wimboot\fR, these are globs of files that shall be extracted
normally, not as WIMBoot "pointer files".  If a directory is matched, all files
and subdirectories are also matched recursively.
.RE
.IP ""
Path globs may contain the '*' and '?' meta-characters.  Relative globs (e.g.
*.mp3) match against a filename in any directory.  Absolute globs (e.g.
/dir/file), are treated as paths starting at the main directory being captured,
or the root of the NTFS volume for NTFS volume capture mode.  Do not use drive
letters in the paths; they will be ignored.  Path separators may be either
forwards slashes or backwards slashes.
.IP ""
Lines beginning with the '#' or ';' characters are treated as comments and
ignored.  Globs with whitespace in them need not be quoted; however, if they
are, both double and single quotes are accepted.
.IP ""
If this option is not specified the following default configuration file is
used:
.IP ""
.RS
.RS
.nf
[ExclusionList]
\\$ntfs.log
\\hiberfil.sys
\\pagefile.sys
\\swapfile.sys
\\System Volume Information
\\RECYCLER
\\$RECYCLE.BIN
\\$Recycle.Bin
\\Windows\\CSC
.RE
.RE
.fi
.IP ""
However, special behavior applies if \fB--wimboot\fR is also specified.  By
default, with \fB--wimboot\fR specified, the file
Windows/System32/WimBootCompress.ini in the directory being captured will be
used as the configuration file.  However, this can be overridden using
\fB--config\fR; and this also causes the specified configuration file to be
saved in the WIM image as Windows/System32/WimBootCompress.ini, overriding any
that may be present on the filesystem.
.TP
\fB--unix-data\fR
(UNIX-like systems only)  Store UNIX-specific metadata and special files.  This
includes: standard UNIX file permissions (owner, group, and mode); device nodes,
named pipes, and sockets; and extended attributes (Linux only).  This
information can later be restored by \fBwimapply\fR with the \fB--unix-data\fR
option.
.IP
UNIX-specific information is ignored by Microsoft's WIM software and by the
Windows version of wimlib.
.TP
\fB--no-acls\fR
Do not capture files' security descriptors.
.TP
\fB--strict-acls\fR
Fail immediately if the full security descriptor of any file cannot be read.  On
Windows, the default behavior without this option is to first try omitting the
SACL from the security descriptor, then to try omitting the security descriptor
entirely.  The purpose of this is to capture as much data as possible without
always requiring Administrator privileges.  However, if you desire that all
security descriptors be captured exactly, you may wish to provide this option,
although the Administrator should have permission to read everything anyway.
.TP
\fB--rpfix\fR, \fB--norpfix\fR
Set whether to fix targets of absolute symbolic links (reparse points in Windows
terminology) or not.  When enabled (\fB--rpfix\fR), absolute symbolic links that
point inside the directory tree being captured will be adjusted to be absolute
relative to the root of the directory tree being captured.  When disabled
(\fB--norpfix\fR), absolute symbolic links will be captured exactly as is.
.IP ""
The default behavior of \fBwimcapture\fR is equivalent to \fB--rpfix\fR.  The
default behavior of \fBwimappend\fR is equivalent to \fB--rpfix\fR if reparse
point fixups have previously been done on \fIWIMFILE\fR, otherwise
\fB--norpfix\fR.
.IP ""
In the case of a multi-source capture, (\fB--source-list\fR specified), passing
\fB--norpfix\fR is recommended.  Otherwise, reparse point fixups will be
disabled on all capture sources destined for non-root locations in the WIM
image, while capture sources destined for the WIM root will get the default
behavior from the previous paragraph.
.TP
\fB--source-list\fR
\fBwimcapture\fR and \fBwimappend\fR support creating a WIM image from multiple
separate files or directories.  When \fB--source-list\fR is specified, the
\fISOURCE\fR argument specifies the name of a text file, each line of which is
either 1 or 2 whitespace separated file paths.  The first file path, the source,
specifies the path to a file or directory to capture into the WIM image.  It may
be either absolute or relative to the current working directory.  The second
file path, if provided, is the target and specifies the path  in the WIM image
that this file or directory will be saved as.  Leading and trailing slashes in
the target are ignored, except if it consists entirely of slashes (e.g. "/"),
which indicates that the directory is to become the root of the WIM image.  If
omitted, the target string defaults to the same as the source string.
.IP ""
An example source list file is as follows:
.IP ""
.RS
.RS
.nf
# Make the WIM image from the 'winpe' directory
winpe   /

# Send the 'overlay' directory to '/overlay' in the WIM image
overlay /overlay

# Overlay a separate directory directly on the root of the WIM image.
/data/stuff     /
.RE
.RE
.fi
.IP ""
Subdirectories in the WIM are created as needed.  Multiple source directories
may share the same target, which implies an overlay.  In the event that this
results a nondirectory file being added to the WIM image multiple times, the
last version (as listed in the source list file) overrides any earlier version.
.IP ""
File paths containing whitespace may be quoted with either single quotes or
double quotes.  Quotes may not be escaped.
.IP ""
Lines consisting only of whitespace and lines beginning with '#' preceded by
optional whitespace are ignored.
.IP ""
As a special case, if \fISOURCE\fR is "-", the source list is read from standard
input rather than an external file.
.IP ""
The NTFS volume capture mode on UNIX-like systems cannot be used with
\fB--source-list\fR, as only capturing a full NTFS volume is supported.
.TP
\fB--pipable\fR
With \fBwimcapture\fR, create a wimlib-specific "pipable" WIM which can be
captured and applied fully sequentially.  If \fIWIMFILE\fR is specified as "-",
then the pipable WIM is written directly to standard output; otherwise, it is
written to disk as usual.  The image in the pipable WIM can be later be applied
with \fBwimapply\fR, either from disk or from standard input.  A typical use of
pipable WIMs might involve streaming the WIM image to a remote server when
capturing it and/or streaming the WIM image from a remote server when applying
it.
.IP ""
Generally, all the \fBwimlib-imagex\fR commands work on both pipable and
non-pipable WIMs.  \fBwimoptimize\fR and \fBwimexport\fR may also be used to
convert between pipable WIMs and non-pipable WIMs.  However, there are a few
limitations of pipable WIMs:
.RS
.IP \[bu] 4
Pipable WIMs are a wimlib extension which are \fInot\fR compatible with
Microsoft's WIM software or with other programs such as 7-Zip.
.IP \[bu]
Using \fBwimappend\fR, multiple images may be added to a pipable WIM.  This is
supported, though it is less efficient than doing so with non-pipable WIMs
because a pipable WIM is fully rebuilt each time it is appended to; and when
piping such a WIM to \fBwimapply\fR to extract an image, some unneeded data will
be sent over the pipe.
.IP \[bu]
Although a pipable WIM image may be updated using \fBwimupdate\fR, it requires a
full rebuild of the WIM file, making it less efficient than updating a
non-pipable WIM.
.IP \[bu]
Solid pipable WIMs are not yet supported.
.RE
.TP
\fB--not-pipable\fR
With \fBwimappend\fR, rebuild the WIM file in the non-pipable (regular) format.
This option is only useful if you happen to be adding an image to a pipable WIM
(see \fB--pipable\fR) which you want in non-pipable format instead.  Note that
\fBwimoptimize\fR(1) can also be used to convert between non-pipable and pipable
WIMs.
.TP
\fB--update-of\fR=[\fIWIMFILE\fR:]\fIIMAGE\fR
Hint that the image being captured or appended from \fISOURCE\fR is mostly the
same as the existing image \fIIMAGE\fR in \fIWIMFILE\fR, but captured at a later
point in time, possibly with some modifications in the intervening time.  This
is designed to be used in incremental backups of the same filesystem or
directory tree.  \fIIMAGE\fR can be a 1-based index or name of an existing image
in \fIWIMFILE\fR.  It can also be a negative integer to index backwards into the
images (e.g.  -1 means the last existing image in \fIWIMFILE\fR).
.IP ""
When this option is provided, the capture or append of the new image will be
optimized by not reading files that, based on metadata such as timestamps,
appear not to have been modified since they were archived in the existing
\fIIMAGE\fR.  Barring manipulation of timestamps, this option only affects
performance and does not change the resulting WIM image (but see note below).
.IP ""
As shown, the full syntax for the argument to this option is to specify the WIM
file, a colon, and the image; for example, "--update-of mywim.wim:1".  However,
the WIM file and colon may be omitted if \fB--delta-from\fR is specified exactly
once, in which case the WIM defaults to that specified in \fB--delta-from\fR, or
if the operation is \fBwimappend\fR rather \fBwimcapture\fR, in which case the
WIM defaults to the one being appended to.
.IP ""
Note: in the Windows version of wimlib, it has been observed that
\fB--update-of\fR mode is not completely reliable at detecting changes in file
contents, sometimes causing the old contents of a few files to be archived
rather than the current contents.  The cause of this problem is that Windows
does not immediately update a file's last modification timestamp after every
write to that file.  Unfortunately, there is no known way for applications like
wimlib to automatically work around this bug.  Manual workarounds are possible;
theoretically, taking any action that causes the problematic files to be closed,
such as restarting applications or the computer itself, should cause the files'
last modification timestamps to be updated.  Also note that wimlib compares file
sizes as well as timestamps in determining whether a file has changed, which
helps make the problem less likely to occur; and the problem does not occur on
other operating systems such as Linux which maintain files' last modification
timestamps correctly.
.TP
\fB--delta-from\fR=\fIWIMFILE\fR
Capture or append the new image as a "delta" from \fIWIMFILE\fR.  Any file data
that would ordinarily need to be archived in the new or updated WIM is omitted
if it is already present in the \fIWIMFILE\fR on which the delta is being based.
The resulting WIM will still contain a full copy of the image metadata, but this
is typically only a small fraction of a WIM's total size.
.IP ""
This option can be specified multiple times, in which case the resulting delta
WIM will only contain file data not present in any of the specified base WIMs.
.IP ""
To operate on the resulting delta WIM using other commands such as
\fBwimapply\fR, you must specify the delta WIM as the WIM file to operate on,
but also reference the base WIM(s) using the \fB--ref\fR option.  Beware: to
retain the proper functioning of the delta WIM, you can only add, not delete,
files and images to the base WIM(s) following the capture of a delta from it.
.IP ""
\fB--delta-from\fR may be combined with \fB--update-of\fR to increase the
speed of capturing a delta WIM.
.IP ""
As an example, consider the following backup and restore sequence:
.IP ""
.RS
.nf
(initial backup)

$ wimcapture /some/directory bkup-base.wim

(some days later, create second backup as delta from first)

$ wimcapture /some/directory bkup-2013-08-20.dwm \\
        --update-of bkup-base.wim:-1 --delta-from bkup-base.wim

(restoring the second backup)

$ wimapply bkup-2013-08-20.dwm --ref=bkup-base.wim 1 \\
        /some/directory
.RE
.fi
.IP ""
However, note that as an alternative to the above sequence that used a delta
WIM, the second backup could have simply been appended to the WIM as new image
using \fBwimappend\fR.  Delta WIMs should be used only if it's desired to base
the backups or images on a separate, large file that is rarely modified.
.IP ""
\fB--delta-from\fR is supported by both \fBwimcapture\fR and \fBwimappend\fR.
.IP ""
Delta WIMs are compatible with Microsoft's WIM software.  For example, you can
use the /ref option of ImageX to reference the base WIM(s), similar to above.
.IP ""
Additional note: wimlib is generalized enough that you can in fact combine
\fB--pipable\fR and \fB--delta-from\fR to create pipable delta WIMs.  In such
cases, the base WIM(s) must be captured as pipable as well as the delta WIM, and
when applying an image, the base WIM(s) must be sent over the pipe after the
delta WIM.
.TP
\fB--wimboot\fR
Mark the image as WIMBoot-compatible.  See Microsoft's documentation for more
information about WIMBoot.  With \fBwimcapture\fR this option will set the
compression type to XPRESS and the chunk size to 4096 bytes; these can, however,
still be overridden through the \fB--compress\fR and \fB--chunk-size\fR
parameters, respectively.  In addition, this option will set the configuration
file to \fISOURCE\fR\\Windows\\System32\\WimBootCompress.ini if present and
accessible; however, this may still be overridden through the \fB--config\fR
parameter.
.TP
\fB--unsafe-compact\fR
With \fBwimappend\fR, compact the WIM archive in-place and append any new data,
eliminating "holes".  This is efficient, but in general this option should
\fInot\fR be used because a failed or interrupted compaction will corrupt the
WIM archive.  For more information, see the documentation for this option to
\fBwimoptimize\fR(1).
.TP
\fB--snapshot\fR
Create a temporary filesystem snapshot of the source directory and capture the
files from it.  Currently, this option is only supported on Windows, where it
uses the Volume Shadow Copy Service (VSS).  Using this option, you can create a
consistent backup of the system volume of a running Windows system without
running into problems with locked files.  For the VSS snapshot to be
successfully created, \fBwimlib-imagex\fR must be run as an Administrator, and
it cannot be run in WoW64 mode (i.e. if Windows is 64-bit, then
\fBwimlib-imagex\fR must be 64-bit as well).
.SH NOTES
\fBwimappend\fR does not support appending an image to a split WIM.
.PP
Except when using \fB--unsafe-compact\fR, it is safe to abort a \fBwimappend\fR
command partway through; however, after doing this, it is recommended to run
\fBwimoptimize\fR to remove any data that was appended to the physical WIM file
but not yet incorporated into the structure of the WIM, unless the WIM was being
fully rebuilt (e.g. with \fB--rebuild\fR), in which case you should delete the
temporary file left over.
.PP
\fBwimlib-imagex\fR creates WIMs compatible with Microsoft's software (WIMGAPI,
ImageX, DISM), with some caveats:
.IP \[bu] 4
With \fBwimlib-imagex\fR on UNIX-like systems, it is possible to create a WIM
image containing files with names differing only in case, or files with names
containing the characters ':', '*', '?', '"', '<', '>', '|', or '\\', which are
valid on POSIX-compliant filesystems but not Windows.  Be warned that such files
will not be extracted by default by the Windows version of \fBwimlib-imagex\fR,
and (even worse) Microsoft's ImageX can be confused by such names and quit
extracting the image partway through.
.IP \[bu]
Pipable WIMs are incompatible with Microsoft's software.  Pipable WIMs are
created only if \fIWIMFILE\fR was specified as "-" (standard output) or if
the \fB--pipable\fR flag was specified.
.IP \[bu]
WIMs captured with a non-default chunk size (with the \fB--chunk-size\fR option)
or as solid archives (with the \fB--solid\fR option) or with LZMS compression
(with \fB--compress\fR=LZMS or \fB--compress\fR=recovery) have varying levels of
compatibility with Microsoft's software.  Generally, more recent versions of
Microsoft's software are more compatible.
.SH EXAMPLES
First example:  Create a new WIM 'mywim.wim' with LZX ("maximum") compression
that will contain a captured image of the directory tree 'somedir'.  Note that
the image name need not be specified and will default to 'somedir':
.RS
.PP
wimcapture somedir mywim.wim
.RE
.PP
Next, append the image of a different directory tree to the WIM created above:
.RS
.PP
wimappend anotherdir mywim.wim
.RE
.PP
Easy enough, and the above examples of imaging directory trees work on both
UNIX-like systems and Windows.  Next, capture a WIM with several non-default
options, including XPRESS ("fast") compression, extra integrity information, no
messing with absolute symbolic links, and an image name and description:
.RS
.PP
wimcapture somedir mywim.wim --compress=fast \\
.RS
--check --norpfix "Some Name" "Some Description"
.RE
.RE
.PP
On a UNIX-like system, capture a full NTFS volume into a new WIM using the
\fBNTFS VOLUME CAPTURE (UNIX)\fR mode, and name the image "Windows 7":
.RS
.PP
wimcapture /dev/sda2 windows7.wim "Windows 7"
.RE
.PP
or, on Windows, to capture a full NTFS volume you instead need to specify the
root directory of the mounted volume, for example:
.RS
.PP
wimcapture E:\\ windows7.wim "Windows 7"
.RE
.PP
Same as UNIX example above, but capture the WIM in the wimlib-specific "pipable"
format that can be piped to \fBwimapply\fR:
.RS
.PP
wimcapture /dev/sda2 windows7.wim "Windows 7" --pipable
.RE
.PP
Same as above, but instead of writing the pipable WIM to the file
"windows7.wim", write it directly to standard output through a pipe into some
other program "someprog", which could, for example, be a program or script that
streams the data to a server:
.RS
.PP
wimcapture /dev/sda2 - "Windows 7" | someprog
.RE
.SH SEE ALSO
.BR wimlib-imagex (1),
.BR wimapply (1)
.BR wimoptimize (1)