3 * @brief External header for wimlib.
5 * This file contains comments for generating documentation with Doxygen. The
6 * built HTML documentation can be viewed at https://wimlib.net/apidoc. Make
7 * sure to see the <a href="modules.html">Modules page</a> to make more sense of
8 * the declarations in this header.
14 * This is the documentation for the library interface of wimlib 1.13.3, a C
15 * library for creating, modifying, extracting, and mounting files in the
16 * Windows Imaging (WIM) format. This documentation is intended for developers
17 * only. If you have installed wimlib and want to know how to use the @b
18 * wimlib-imagex program, please see the manual pages and also the <a
19 * href="https://wimlib.net/git/?p=wimlib;a=blob;f=README">README file</a>.
21 * @section sec_installing Installing
25 * Download the source code from https://wimlib.net. Install the library by
26 * running <c>configure && make && sudo make install</c>. See the README for
27 * information about configuration options. To use wimlib in your program after
28 * installing it, include wimlib.h and link your program with <c>-lwim</c>.
32 * Download the Windows binary distribution with the appropriate architecture
33 * (i686 or x86_64 --- also called "x86" and "amd64" respectively) from
34 * https://wimlib.net. Link your program with libwim-15.dll. If needed by your
35 * programming language or development environment, the import library
36 * libwim.lib and C/C++ header wimlib.h can be found in the directory "devel" in
39 * If you need to access the DLL from non-C/C++ programming languages, note that
40 * the calling convention is "cdecl".
42 * If you want to build wimlib from source on Windows, see README.WINDOWS. This
43 * is only needed if you are making modifications to wimlib.
45 * @section sec_examples Examples
47 * Several examples are located in the "examples" directory of the source
48 * distribution. Also see @ref sec_basic_wim_handling_concepts below.
50 * There is also the <a
51 * href="https://wimlib.net/git/?p=wimlib;a=blob;f=programs/imagex.c">
52 * source code of <b>wimlib-imagex</b></a>, which is complicated but uses most
53 * capabilities of wimlib.
55 * @section backward_compatibility Backward Compatibility
57 * New releases of wimlib are intended to be backward compatible with old
58 * releases, except when the libtool "age" is reset. This most recently
59 * occurred for the v1.7.0 (libwim15) release (June 2014). Since the library is
60 * becoming increasingly stable, the goal is to maintain the current API/ABI for
61 * as long as possible unless there is a strong reason not to.
63 * As with any other library, applications should not rely on internal
64 * implementation details that may be subject to change.
66 * @section sec_basic_wim_handling_concepts Basic WIM handling concepts
68 * wimlib wraps up a WIM file in an opaque ::WIMStruct structure. There are
69 * two ways to create such a structure:
71 * 1. wimlib_open_wim() opens an on-disk WIM file and creates a ::WIMStruct for
73 * 2. wimlib_create_new_wim() creates a new ::WIMStruct that initially contains
74 * no images and does not yet have a backing on-disk file.
76 * A ::WIMStruct contains zero or more independent directory trees called @a
77 * images. Images may be extracted, added, deleted, exported, and updated using
78 * various API functions. (See @ref G_extracting_wims and @ref G_modifying_wims
81 * Changes made to a WIM represented by a ::WIMStruct have no persistent effect
82 * until the WIM is actually written to an on-disk file. This can be done using
83 * wimlib_write(), but if the WIM was originally opened using wimlib_open_wim(),
84 * then wimlib_overwrite() can be used instead. (See @ref
85 * G_writing_and_overwriting_wims for more details.)
87 * wimlib's API is designed to let you combine functions to accomplish tasks in
88 * a flexible way. Here are some example sequences of function calls:
90 * Apply an image from a WIM file, similar to the command-line program
93 * 1. wimlib_open_wim()
94 * 2. wimlib_extract_image()
96 * Capture an image into a new WIM file, similar to <b>wimcapture</b>:
98 * 1. wimlib_create_new_wim()
99 * 2. wimlib_add_image()
102 * Append an image to an existing WIM file, similar to <b>wimappend</b>:
104 * 1. wimlib_open_wim()
105 * 2. wimlib_add_image()
106 * 3. wimlib_overwrite()
108 * Delete an image from an existing WIM file, similar to <b>wimdelete</b>:
110 * 1. wimlib_open_wim()
111 * 2. wimlib_delete_image()
112 * 3. wimlib_overwrite()
114 * Export an image from one WIM file to another, similar to <b>wimexport</b>:
116 * 1. wimlib_open_wim() (on source)
117 * 2. wimlib_open_wim() (on destination)
118 * 3. wimlib_export_image()
119 * 4. wimlib_overwrite() (on destination)
121 * The API also lets you do things the command-line tools don't directly allow.
122 * For example, you could make multiple changes to a WIM before efficiently
123 * committing the changes with just one call to wimlib_overwrite(). Perhaps you
124 * want to both delete an image and add a new one; or perhaps you want to
125 * customize an image with wimlib_update_image() after adding it. All these use
126 * cases are supported by the API.
128 * @section sec_cleaning_up Cleaning up
130 * After you are done with any ::WIMStruct, you can call wimlib_free() to free
131 * all resources associated with it. Also, when you are completely done with
132 * using wimlib in your program, you can call wimlib_global_cleanup() to free
133 * any other resources allocated by the library.
135 * @section sec_error_handling Error Handling
137 * Most functions in wimlib return 0 on success and a positive
138 * ::wimlib_error_code value on failure. Use wimlib_get_error_string() to get a
139 * string that describes an error code. wimlib also can print error messages to
140 * standard error or a custom file when an error occurs, and these may be more
141 * informative than the error code; to enable this, call
142 * wimlib_set_print_errors(). Please note that this is for convenience only,
143 * and some errors can occur without a message being printed. Currently, error
144 * messages and strings (as well as all documentation, for that matter) are only
145 * available in English.
147 * @section sec_encodings Character encoding
149 * To support Windows as well as UNIX-like systems, wimlib's API typically takes
150 * and returns strings of ::wimlib_tchar which have a platform-dependent type
153 * On Windows, each ::wimlib_tchar is a 2-byte <tt>wchar_t</tt>. The encoding
154 * is meant to be UTF-16LE. However, unpaired surrogates are permitted because
155 * neither Windows nor the NTFS filesystem forbids them in filenames.
157 * On UNIX-like systems, each ::wimlib_tchar is a 1 byte <tt>char</tt>. The
158 * encoding is meant to be UTF-8. However, for compatibility with Windows-style
159 * filenames that are not valid UTF-16LE, surrogate codepoints are permitted.
160 * Other multibyte encodings (e.g. ISO-8859-1) or garbage sequences of bytes are
163 * @section sec_advanced Additional information and features
166 * @subsection subsec_mounting_wim_images Mounting WIM images
168 * See @ref G_mounting_wim_images.
170 * @subsection subsec_progress_functions Progress Messages
172 * See @ref G_progress.
174 * @subsection subsec_non_standalone_wims Non-standalone WIMs
176 * See @ref G_nonstandalone_wims.
178 * @subsection subsec_pipable_wims Pipable WIMs
180 * wimlib supports a special "pipable" WIM format which unfortunately is @b not
181 * compatible with Microsoft's software. To create a pipable WIM, call
182 * wimlib_write(), wimlib_write_to_fd(), or wimlib_overwrite() with
183 * ::WIMLIB_WRITE_FLAG_PIPABLE specified. Pipable WIMs are pipable in both
184 * directions, so wimlib_write_to_fd() can be used to write a pipable WIM to a
185 * pipe, and wimlib_extract_image_from_pipe() can be used to apply an image from
186 * a pipable WIM. wimlib can also transparently open and operate on pipable WIM
187 * s using a seekable file descriptor using the regular function calls (e.g.
188 * wimlib_open_wim(), wimlib_extract_image()).
190 * See the documentation for the <b>--pipable</b> flag of <b>wimcapture</b> for
191 * more information about pipable WIMs.
193 * @subsection subsec_thread_safety Thread Safety
195 * A ::WIMStruct is not thread-safe and cannot be accessed by multiple threads
196 * concurrently, even for "read-only" operations such as extraction. However,
197 * users are free to use <i>different</i> ::WIMStruct's from different threads
198 * concurrently. It is even allowed for multiple ::WIMStruct's to be backed by
199 * the same on-disk WIM file, although "overwrites" should never be done in such
202 * In addition, several functions change global state and should only be called
203 * when a single thread is active in the library. These functions are:
205 * - wimlib_global_init()
206 * - wimlib_global_cleanup()
207 * - wimlib_set_memory_allocator()
208 * - wimlib_set_print_errors()
209 * - wimlib_set_error_file()
210 * - wimlib_set_error_file_by_name()
212 * @subsection subsec_limitations Limitations
214 * This section documents some technical limitations of wimlib not already
215 * described in the documentation for @b wimlib-imagex.
217 * - The old WIM format from Vista pre-releases is not supported.
218 * - wimlib does not provide a clone of the @b PEImg tool, or the @b DISM
219 * functionality other than that already present in @b ImageX, that allows you
220 * to make certain Windows-specific modifications to a Windows PE image, such
221 * as adding a driver or Windows component. Such a tool could be implemented
224 * @subsection more_info More information
226 * You are advised to read the README as well as the documentation for
227 * <b>wimlib-imagex</b>, since not all relevant information is repeated here in
228 * the API documentation.
231 /** @defgroup G_general General
233 * @brief Declarations and structures shared across the library.
236 /** @defgroup G_creating_and_opening_wims Creating and Opening WIMs
238 * @brief Open an existing WIM file as a ::WIMStruct, or create a new
239 * ::WIMStruct which can be used to create a new WIM file.
242 /** @defgroup G_wim_information Retrieving WIM information and directory listings
244 * @brief Retrieve information about a WIM or WIM image.
247 /** @defgroup G_modifying_wims Modifying WIMs
249 * @brief Make changes to a ::WIMStruct, in preparation of persisting the
250 * ::WIMStruct to an on-disk file.
252 * @section sec_adding_images Capturing and adding WIM images
254 * As described in @ref sec_basic_wim_handling_concepts, capturing a new WIM or
255 * appending an image to an existing WIM is a multi-step process, but at its
256 * core is wimlib_add_image() or an equivalent function. Normally,
257 * wimlib_add_image() takes an on-disk directory tree and logically adds it to a
258 * ::WIMStruct as a new image. However, when supported by the build of the
259 * library, there is also a special NTFS volume capture mode (entered when
260 * ::WIMLIB_ADD_FLAG_NTFS is specified) that allows adding the image directly
261 * from an unmounted NTFS volume.
263 * Another function, wimlib_add_image_multisource() is also provided. It
264 * generalizes wimlib_add_image() to allow combining multiple files or directory
265 * trees into a single WIM image in a configurable way.
267 * For maximum customization of WIM image creation, it is also possible to add a
268 * completely empty WIM image with wimlib_add_empty_image(), then update it with
269 * wimlib_update_image(). (This is in fact what wimlib_add_image() and
270 * wimlib_add_image_multisource() do internally.)
272 * Note that some details of how image addition/capture works are documented
273 * more fully in the documentation for <b>wimcapture</b>.
275 * @section sec_deleting_images Deleting WIM images
277 * wimlib_delete_image() can delete an image from a ::WIMStruct. But as usual,
278 * wimlib_write() or wimlib_overwrite() must be called to cause the changes to
279 * be made persistent in an on-disk WIM file.
281 * @section sec_exporting_images Exporting WIM images
283 * wimlib_export_image() can copy, or "export", an image from one WIM to
286 * @section sec_other_modifications Other modifications
288 * wimlib_update_image() can add, delete, and rename files in a WIM image.
290 * wimlib_set_image_property() can change other image metadata.
292 * wimlib_set_wim_info() can change information about the WIM file itself, such
296 /** @defgroup G_extracting_wims Extracting WIMs
298 * @brief Extract files, directories, and images from a WIM.
300 * wimlib_extract_image() extracts, or "applies", an image from a WIM,
301 * represented by a ::WIMStruct. This normally extracts the image to a
302 * directory, but when supported by the build of the library there is also a
303 * special NTFS volume extraction mode (entered when ::WIMLIB_EXTRACT_FLAG_NTFS
304 * is specified) that allows extracting a WIM image directly to an unmounted
305 * NTFS volume. Various other flags allow further customization of image
308 * wimlib_extract_paths() and wimlib_extract_pathlist() allow extracting a list
309 * of (possibly wildcard) paths from a WIM image.
311 * wimlib_extract_image_from_pipe() extracts an image from a pipable WIM sent
312 * over a pipe; see @ref subsec_pipable_wims.
314 * Some details of how WIM extraction works are described more fully in the
315 * documentation for <b>wimapply</b> and <b>wimextract</b>.
318 /** @defgroup G_mounting_wim_images Mounting WIM images
320 * @brief Mount and unmount WIM images.
322 * On Linux, wimlib supports mounting images from WIM files either read-only or
323 * read-write. To mount an image, call wimlib_mount_image(). To unmount an
324 * image, call wimlib_unmount_image(). Mounting can be done without root
325 * privileges because it is implemented using FUSE (Filesystem in Userspace).
327 * If wimlib is compiled using the <c>--without-fuse</c> flag, these functions
328 * will be available but will fail with ::WIMLIB_ERR_UNSUPPORTED.
330 * Note: if mounting is unsupported, wimlib still provides another way to modify
331 * a WIM image (wimlib_update_image()).
335 * @defgroup G_progress Progress Messages
337 * @brief Track the progress of long WIM operations.
339 * Library users can provide a progress function which will be called
340 * periodically during operations such as extracting a WIM image or writing a
341 * WIM image. A ::WIMStruct can have a progress function of type
342 * ::wimlib_progress_func_t associated with it by calling
343 * wimlib_register_progress_function() or by opening the ::WIMStruct using
344 * wimlib_open_wim_with_progress(). Once this is done, the progress function
345 * will be called automatically during many operations, such as
346 * wimlib_extract_image() and wimlib_write().
348 * Some functions that do not operate directly on a user-provided ::WIMStruct,
349 * such as wimlib_join(), also take the progress function directly using an
350 * extended version of the function, such as wimlib_join_with_progress().
352 * Since wimlib v1.7.0, progress functions are no longer just unidirectional.
353 * You can now return ::WIMLIB_PROGRESS_STATUS_ABORT to cause the current
354 * operation to be aborted. wimlib v1.7.0 also added the third argument to
355 * ::wimlib_progress_func_t, which is a user-supplied context.
358 /** @defgroup G_writing_and_overwriting_wims Writing and Overwriting WIMs
360 * @brief Create or update an on-disk WIM file.
362 * wimlib_write() creates a new on-disk WIM file, whereas wimlib_overwrite()
363 * updates an existing WIM file. See @ref sec_basic_wim_handling_concepts for
364 * more information about the API design.
367 /** @defgroup G_nonstandalone_wims Creating and handling non-standalone WIMs
369 * @brief Create and handle non-standalone WIMs, such as split and delta WIMs.
371 * A ::WIMStruct backed by an on-disk file normally represents a fully
372 * standalone WIM archive. However, WIM archives can also be arranged in
373 * non-standalone ways, such as a set of on-disk files that together form a
374 * single "split WIM" or "delta WIM". Such arrangements are fully supported by
375 * wimlib. However, as a result, in such cases a ::WIMStruct created from one
376 * of these on-disk files initially only partially represents the full WIM and
377 * needs to, in effect, be logically combined with other ::WIMStruct's before
378 * performing certain operations, such as extracting files with
379 * wimlib_extract_image() or wimlib_extract_paths(). This is done by calling
380 * wimlib_reference_resource_files() or wimlib_reference_resources(). Note: if
381 * you fail to do so, you may see the error code
382 * ::WIMLIB_ERR_RESOURCE_NOT_FOUND; this just indicates that data is not
383 * available because the appropriate WIM files have not yet been referenced.
385 * wimlib_write() can create delta WIMs as well as standalone WIMs, but a
386 * specialized function (wimlib_split()) is needed to create a split WIM.
395 # if defined(_MSC_VER) && _MSC_VER < 1800 /* VS pre-2013? */
396 typedef unsigned char bool;
398 # include <stdbool.h>
404 /** @addtogroup G_general
407 /** Major version of the library (for example, the 1 in 1.2.5). */
408 #define WIMLIB_MAJOR_VERSION 1
410 /** Minor version of the library (for example, the 2 in 1.2.5). */
411 #define WIMLIB_MINOR_VERSION 13
413 /** Patch version of the library (for example, the 5 in 1.2.5). */
414 #define WIMLIB_PATCH_VERSION 3
421 * To represent file timestamps, wimlib's API originally used the POSIX 'struct
422 * timespec'. This was a mistake because when building wimlib for 32-bit
423 * Windows with MinGW we ended up originally using 32-bit time_t which isn't
424 * year 2038-safe, and therefore we had to later add fields like
425 * 'creation_time_high' to hold the high 32 bits of each timestamp. Moreover,
426 * old Visual Studio versions did not define struct timespec, while newer ones
427 * define it but with 64-bit tv_sec. So to at least avoid a missing or
428 * incompatible 'struct timespec' definition, define the correct struct
429 * ourselves when this header is included on Windows.
432 struct wimlib_timespec {
433 /* Seconds since start of UNIX epoch (January 1, 1970) */
439 /* Nanoseconds (0-999999999) */
443 # define wimlib_timespec timespec /* standard definition */
447 * Opaque structure that represents a WIM, possibly backed by an on-disk file.
448 * See @ref sec_basic_wim_handling_concepts for more information.
450 #ifndef WIMLIB_WIMSTRUCT_DECLARED
451 typedef struct WIMStruct WIMStruct;
452 #define WIMLIB_WIMSTRUCT_DECLARED
456 typedef wchar_t wimlib_tchar;
458 /** See @ref sec_encodings */
459 typedef char wimlib_tchar;
463 /** Path separator for WIM paths passed back to progress callbacks.
464 * This is forward slash on UNIX and backslash on Windows. */
465 # define WIMLIB_WIM_PATH_SEPARATOR '\\'
466 # define WIMLIB_WIM_PATH_SEPARATOR_STRING L"\\"
468 /** Path separator for WIM paths passed back to progress callbacks.
469 * This is forward slash on UNIX and backslash on Windows. */
470 # define WIMLIB_WIM_PATH_SEPARATOR '/'
471 # define WIMLIB_WIM_PATH_SEPARATOR_STRING "/"
474 /** A string containing a single path separator; use this to specify the root
475 * directory of a WIM image. */
476 #define WIMLIB_WIM_ROOT_PATH WIMLIB_WIM_PATH_SEPARATOR_STRING
478 /** Use this to test if the specified path refers to the root directory of the
480 #define WIMLIB_IS_WIM_ROOT_PATH(path) \
481 ((path)[0] == WIMLIB_WIM_PATH_SEPARATOR && \
484 /** Length of a Globally Unique Identifier (GUID), in bytes. */
485 #define WIMLIB_GUID_LEN 16
488 * Specifies a compression type.
490 * A WIM file has a default compression type, indicated by its file header.
491 * Normally, each resource in the WIM file is compressed with this compression
492 * type. However, resources may be stored as uncompressed; for example, wimlib
493 * may do so if a resource does not compress to less than its original size. In
494 * addition, a WIM with the new version number of 3584, or "ESD file", might
495 * contain solid resources with different compression types.
497 enum wimlib_compression_type {
501 * This is a valid argument to wimlib_create_new_wim() and
502 * wimlib_set_output_compression_type(), but not to the functions in the
503 * compression API such as wimlib_create_compressor().
505 WIMLIB_COMPRESSION_TYPE_NONE = 0,
508 * The XPRESS compression format. This format combines Lempel-Ziv
509 * factorization with Huffman encoding. Compression and decompression
510 * are both fast. This format supports chunk sizes that are powers of 2
511 * between <c>2^12</c> and <c>2^16</c>, inclusively.
513 * wimlib's XPRESS compressor will, with the default settings, usually
514 * produce a better compression ratio, and work more quickly, than the
515 * implementation in Microsoft's WIMGAPI (as of Windows 8.1).
516 * Non-default compression levels are also supported. For example,
517 * level 80 will enable two-pass optimal parsing, which is significantly
518 * slower but usually improves compression by several percent over the
519 * default level of 50.
521 * If using wimlib_create_compressor() to create an XPRESS compressor
522 * directly, the @p max_block_size parameter may be any positive value
523 * up to and including <c>2^16</c>.
525 WIMLIB_COMPRESSION_TYPE_XPRESS = 1,
528 * The LZX compression format. This format combines Lempel-Ziv
529 * factorization with Huffman encoding, but with more features and
530 * complexity than XPRESS. Compression is slow to somewhat fast,
531 * depending on the settings. Decompression is fast but slower than
532 * XPRESS. This format supports chunk sizes that are powers of 2
533 * between <c>2^15</c> and <c>2^21</c>, inclusively. Note: chunk sizes
534 * other than <c>2^15</c> are not compatible with the Microsoft
537 * wimlib's LZX compressor will, with the default settings, usually
538 * produce a better compression ratio, and work more quickly, than the
539 * implementation in Microsoft's WIMGAPI (as of Windows 8.1).
540 * Non-default compression levels are also supported. For example,
541 * level 20 will provide fast compression, almost as fast as XPRESS.
543 * If using wimlib_create_compressor() to create an LZX compressor
544 * directly, the @p max_block_size parameter may be any positive value
545 * up to and including <c>2^21</c>.
547 WIMLIB_COMPRESSION_TYPE_LZX = 2,
550 * The LZMS compression format. This format combines Lempel-Ziv
551 * factorization with adaptive Huffman encoding and range coding.
552 * Compression and decompression are both fairly slow. This format
553 * supports chunk sizes that are powers of 2 between <c>2^15</c> and
554 * <c>2^30</c>, inclusively. This format is best used for large chunk
555 * sizes. Note: LZMS compression is only compatible with wimlib v1.6.0
556 * and later, WIMGAPI Windows 8 and later, and DISM Windows 8.1 and
557 * later. Also, chunk sizes larger than <c>2^26</c> are not compatible
558 * with the Microsoft implementation.
560 * wimlib's LZMS compressor will, with the default settings, usually
561 * produce a better compression ratio, and work more quickly, than the
562 * implementation in Microsoft's WIMGAPI (as of Windows 8.1). There is
563 * limited support for non-default compression levels, but compression
564 * will be noticeably faster if you choose a level < 35.
566 * If using wimlib_create_compressor() to create an LZMS compressor
567 * directly, the @p max_block_size parameter may be any positive value
568 * up to and including <c>2^30</c>.
570 WIMLIB_COMPRESSION_TYPE_LZMS = 3,
574 /** @addtogroup G_progress
577 /** Possible values of the first parameter to the user-supplied
578 * ::wimlib_progress_func_t progress function */
579 enum wimlib_progress_msg {
581 /** A WIM image is about to be extracted. @p info will point to
582 * ::wimlib_progress_info.extract. This message is received once per
583 * image for calls to wimlib_extract_image() and
584 * wimlib_extract_image_from_pipe(). */
585 WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_BEGIN = 0,
587 /** One or more file or directory trees within a WIM image is about to
588 * be extracted. @p info will point to ::wimlib_progress_info.extract.
589 * This message is received only once per wimlib_extract_paths() and
590 * wimlib_extract_pathlist(), since wimlib combines all paths into a
591 * single extraction operation for optimization purposes. */
592 WIMLIB_PROGRESS_MSG_EXTRACT_TREE_BEGIN = 1,
594 /** This message may be sent periodically (not for every file) while
595 * files and directories are being created, prior to file data
596 * extraction. @p info will point to ::wimlib_progress_info.extract.
597 * In particular, the @p current_file_count and @p end_file_count
598 * members may be used to track the progress of this phase of
600 WIMLIB_PROGRESS_MSG_EXTRACT_FILE_STRUCTURE = 3,
602 /** File data is currently being extracted. @p info will point to
603 * ::wimlib_progress_info.extract. This is the main message to track
604 * the progress of an extraction operation. */
605 WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS = 4,
607 /** Starting to read a new part of a split pipable WIM over the pipe.
608 * @p info will point to ::wimlib_progress_info.extract. */
609 WIMLIB_PROGRESS_MSG_EXTRACT_SPWM_PART_BEGIN = 5,
611 /** This message may be sent periodically (not necessarily for every
612 * file) while file and directory metadata is being extracted, following
613 * file data extraction. @p info will point to
614 * ::wimlib_progress_info.extract. The @p current_file_count and @p
615 * end_file_count members may be used to track the progress of this
616 * phase of extraction. */
617 WIMLIB_PROGRESS_MSG_EXTRACT_METADATA = 6,
619 /** The image has been successfully extracted. @p info will point to
620 * ::wimlib_progress_info.extract. This is paired with
621 * ::WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_BEGIN. */
622 WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_END = 7,
624 /** The files or directory trees have been successfully extracted. @p
625 * info will point to ::wimlib_progress_info.extract. This is paired
626 * with ::WIMLIB_PROGRESS_MSG_EXTRACT_TREE_BEGIN. */
627 WIMLIB_PROGRESS_MSG_EXTRACT_TREE_END = 8,
629 /** The directory or NTFS volume is about to be scanned for metadata.
630 * @p info will point to ::wimlib_progress_info.scan. This message is
631 * received once per call to wimlib_add_image(), or once per capture
632 * source passed to wimlib_add_image_multisource(), or once per add
633 * command passed to wimlib_update_image(). */
634 WIMLIB_PROGRESS_MSG_SCAN_BEGIN = 9,
636 /** A directory or file has been scanned. @p info will point to
637 * ::wimlib_progress_info.scan, and its @p cur_path member will be
638 * valid. This message is only sent if ::WIMLIB_ADD_FLAG_VERBOSE has
640 WIMLIB_PROGRESS_MSG_SCAN_DENTRY = 10,
642 /** The directory or NTFS volume has been successfully scanned. @p info
643 * will point to ::wimlib_progress_info.scan. This is paired with a
644 * previous ::WIMLIB_PROGRESS_MSG_SCAN_BEGIN message, possibly with many
645 * intervening ::WIMLIB_PROGRESS_MSG_SCAN_DENTRY messages. */
646 WIMLIB_PROGRESS_MSG_SCAN_END = 11,
648 /** File data is currently being written to the WIM. @p info will point
649 * to ::wimlib_progress_info.write_streams. This message may be
650 * received many times while the WIM file is being written or appended
651 * to with wimlib_write(), wimlib_overwrite(), or wimlib_write_to_fd().
652 * Since wimlib v1.13.4 it will also be received when a split WIM part
653 * is being written by wimlib_split(). */
654 WIMLIB_PROGRESS_MSG_WRITE_STREAMS = 12,
656 /** Per-image metadata is about to be written to the WIM file. @p info
657 * will not be valid. */
658 WIMLIB_PROGRESS_MSG_WRITE_METADATA_BEGIN = 13,
660 /** The per-image metadata has been written to the WIM file. @p info
661 * will not be valid. This message is paired with a preceding
662 * ::WIMLIB_PROGRESS_MSG_WRITE_METADATA_BEGIN message. */
663 WIMLIB_PROGRESS_MSG_WRITE_METADATA_END = 14,
665 /** wimlib_overwrite() has successfully renamed the temporary file to
666 * the original WIM file, thereby committing the changes to the WIM
667 * file. @p info will point to ::wimlib_progress_info.rename. Note:
668 * this message is not received if wimlib_overwrite() chose to append to
669 * the WIM file in-place. */
670 WIMLIB_PROGRESS_MSG_RENAME = 15,
672 /** The contents of the WIM file are being checked against the integrity
673 * table. @p info will point to ::wimlib_progress_info.integrity. This
674 * message is only received (and may be received many times) when
675 * wimlib_open_wim_with_progress() is called with the
676 * ::WIMLIB_OPEN_FLAG_CHECK_INTEGRITY flag. */
677 WIMLIB_PROGRESS_MSG_VERIFY_INTEGRITY = 16,
679 /** An integrity table is being calculated for the WIM being written.
680 * @p info will point to ::wimlib_progress_info.integrity. This message
681 * is only received (and may be received many times) when a WIM file is
682 * being written with the flag ::WIMLIB_WRITE_FLAG_CHECK_INTEGRITY. */
683 WIMLIB_PROGRESS_MSG_CALC_INTEGRITY = 17,
685 /** A wimlib_split() operation is in progress, and a new split part is
686 * about to be started. @p info will point to
687 * ::wimlib_progress_info.split. */
688 WIMLIB_PROGRESS_MSG_SPLIT_BEGIN_PART = 19,
690 /** A wimlib_split() operation is in progress, and a split part has been
691 * finished. @p info will point to ::wimlib_progress_info.split. */
692 WIMLIB_PROGRESS_MSG_SPLIT_END_PART = 20,
694 /** A WIM update command is about to be executed. @p info will point to
695 * ::wimlib_progress_info.update. This message is received once per
696 * update command when wimlib_update_image() is called with the flag
697 * ::WIMLIB_UPDATE_FLAG_SEND_PROGRESS. */
698 WIMLIB_PROGRESS_MSG_UPDATE_BEGIN_COMMAND = 21,
700 /** A WIM update command has been executed. @p info will point to
701 * ::wimlib_progress_info.update. This message is received once per
702 * update command when wimlib_update_image() is called with the flag
703 * ::WIMLIB_UPDATE_FLAG_SEND_PROGRESS. */
704 WIMLIB_PROGRESS_MSG_UPDATE_END_COMMAND = 22,
706 /** A file in the image is being replaced as a result of a
707 * ::wimlib_add_command without ::WIMLIB_ADD_FLAG_NO_REPLACE specified.
708 * @p info will point to ::wimlib_progress_info.replace. This is only
709 * received when ::WIMLIB_ADD_FLAG_VERBOSE is also specified in the add
711 WIMLIB_PROGRESS_MSG_REPLACE_FILE_IN_WIM = 23,
713 /** An image is being extracted with ::WIMLIB_EXTRACT_FLAG_WIMBOOT, and
714 * a file is being extracted normally (not as a "WIMBoot pointer file")
715 * due to it matching a pattern in the <c>[PrepopulateList]</c> section
716 * of the configuration file
717 * <c>/Windows/System32/WimBootCompress.ini</c> in the WIM image. @p
718 * info will point to ::wimlib_progress_info.wimboot_exclude. */
719 WIMLIB_PROGRESS_MSG_WIMBOOT_EXCLUDE = 24,
721 /** Starting to unmount an image. @p info will point to
722 * ::wimlib_progress_info.unmount. */
723 WIMLIB_PROGRESS_MSG_UNMOUNT_BEGIN = 25,
725 /** wimlib has used a file's data for the last time (including all data
726 * streams, if it has multiple). @p info will point to
727 * ::wimlib_progress_info.done_with_file. This message is only received
728 * if ::WIMLIB_WRITE_FLAG_SEND_DONE_WITH_FILE_MESSAGES was provided. */
729 WIMLIB_PROGRESS_MSG_DONE_WITH_FILE = 26,
731 /** wimlib_verify_wim() is starting to verify the metadata for an image.
732 * @p info will point to ::wimlib_progress_info.verify_image. */
733 WIMLIB_PROGRESS_MSG_BEGIN_VERIFY_IMAGE = 27,
735 /** wimlib_verify_wim() has finished verifying the metadata for an
736 * image. @p info will point to ::wimlib_progress_info.verify_image.
738 WIMLIB_PROGRESS_MSG_END_VERIFY_IMAGE = 28,
740 /** wimlib_verify_wim() is verifying file data integrity. @p info will
741 * point to ::wimlib_progress_info.verify_streams. */
742 WIMLIB_PROGRESS_MSG_VERIFY_STREAMS = 29,
745 * The progress function is being asked whether a file should be
746 * excluded from capture or not. @p info will point to
747 * ::wimlib_progress_info.test_file_exclusion. This is a bidirectional
748 * message that allows the progress function to set a flag if the file
749 * should be excluded.
751 * This message is only received if the flag
752 * ::WIMLIB_ADD_FLAG_TEST_FILE_EXCLUSION is used. This method for file
753 * exclusions is independent of the "capture configuration file"
756 WIMLIB_PROGRESS_MSG_TEST_FILE_EXCLUSION = 30,
759 * An error has occurred and the progress function is being asked
760 * whether to ignore the error or not. @p info will point to
761 * ::wimlib_progress_info.handle_error. This is a bidirectional
764 * This message provides a limited capability for applications to
765 * recover from "unexpected" errors (i.e. those with no in-library
766 * handling policy) arising from the underlying operating system.
767 * Normally, any such error will cause the library to abort the current
768 * operation. By implementing a handler for this message, the
769 * application can instead choose to ignore a given error.
771 * Currently, only the following types of errors will result in this
772 * progress message being sent:
774 * - Directory tree scan errors, e.g. from wimlib_add_image()
775 * - Most extraction errors; currently restricted to the Windows
776 * build of the library only.
778 WIMLIB_PROGRESS_MSG_HANDLE_ERROR = 31,
781 /** Valid return values from user-provided progress functions
782 * (::wimlib_progress_func_t).
784 * (Note: if an invalid value is returned, ::WIMLIB_ERR_UNKNOWN_PROGRESS_STATUS
787 enum wimlib_progress_status {
789 /** The operation should be continued. This is the normal return value.
791 WIMLIB_PROGRESS_STATUS_CONTINUE = 0,
793 /** The operation should be aborted. This will cause the current
794 * operation to fail with ::WIMLIB_ERR_ABORTED_BY_PROGRESS. */
795 WIMLIB_PROGRESS_STATUS_ABORT = 1,
799 * A pointer to this union is passed to the user-supplied
800 * ::wimlib_progress_func_t progress function. One (or none) of the structures
801 * contained in this union will be applicable for the operation
802 * (::wimlib_progress_msg) indicated in the first argument to the progress
804 union wimlib_progress_info {
806 /** Valid on the message ::WIMLIB_PROGRESS_MSG_WRITE_STREAMS. This is
807 * the primary message for tracking the progress of writing a WIM file.
809 struct wimlib_progress_info_write_streams {
811 /** An upper bound on the number of bytes of file data that will
812 * be written. This number is the uncompressed size; the actual
813 * size may be lower due to compression. In addition, this
814 * number may decrease over time as duplicated file data is
816 uint64_t total_bytes;
818 /** An upper bound on the number of distinct file data "blobs"
819 * that will be written. This will often be similar to the
820 * "number of files", but for several reasons (hard links, named
821 * data streams, empty files, etc.) it can be different. In
822 * addition, this number may decrease over time as duplicated
823 * file data is discovered. */
824 uint64_t total_streams;
826 /** The number of bytes of file data that have been written so
827 * far. This starts at 0 and ends at @p total_bytes. This
828 * number is the uncompressed size; the actual size may be lower
829 * due to compression. See @p completed_compressed_bytes for
830 * the compressed size. */
831 uint64_t completed_bytes;
833 /** The number of distinct file data "blobs" that have been
834 * written so far. This starts at 0 and ends at @p
836 uint64_t completed_streams;
838 /** The number of threads being used for data compression; or,
839 * if no compression is being performed, this will be 1. */
840 uint32_t num_threads;
842 /** The compression type being used, as one of the
843 * ::wimlib_compression_type constants. */
844 int32_t compression_type;
846 /** The number of on-disk WIM files from which file data is
847 * being exported into the output WIM file. This can be 0, 1,
848 * or more than 1, depending on the situation. */
849 uint32_t total_parts;
851 /** This is currently broken and will always be 0. */
852 uint32_t completed_parts;
854 /** Since wimlib v1.13.4: Like @p completed_bytes, but counts
855 * the compressed size. */
856 uint64_t completed_compressed_bytes;
859 /** Valid on messages ::WIMLIB_PROGRESS_MSG_SCAN_BEGIN,
860 * ::WIMLIB_PROGRESS_MSG_SCAN_DENTRY, and
861 * ::WIMLIB_PROGRESS_MSG_SCAN_END. */
862 struct wimlib_progress_info_scan {
864 /** Top-level directory being scanned; or, when capturing an NTFS
865 * volume with ::WIMLIB_ADD_FLAG_NTFS, this is instead the path
866 * to the file or block device that contains the NTFS volume
868 const wimlib_tchar *source;
870 /** Path to the file (or directory) that has been scanned, valid
871 * on ::WIMLIB_PROGRESS_MSG_SCAN_DENTRY. When capturing an NTFS
872 * volume with ::WIMLIB_ADD_FLAG_NTFS, this path will be
873 * relative to the root of the NTFS volume. */
874 const wimlib_tchar *cur_path;
876 /** Dentry scan status, valid on
877 * ::WIMLIB_PROGRESS_MSG_SCAN_DENTRY. */
879 /** File looks okay and will be captured. */
880 WIMLIB_SCAN_DENTRY_OK = 0,
882 /** File is being excluded from capture due to the
883 * capture configuration. */
884 WIMLIB_SCAN_DENTRY_EXCLUDED = 1,
886 /** File is being excluded from capture due to being of
887 * an unsupported type. */
888 WIMLIB_SCAN_DENTRY_UNSUPPORTED = 2,
890 /** The file is an absolute symbolic link or junction
891 * that points into the capture directory, and
892 * reparse-point fixups are enabled, so its target is
893 * being adjusted. (Reparse point fixups can be
894 * disabled with the flag ::WIMLIB_ADD_FLAG_NORPFIX.)
896 WIMLIB_SCAN_DENTRY_FIXED_SYMLINK = 3,
898 /** Reparse-point fixups are enabled, but the file is an
899 * absolute symbolic link or junction that does
900 * <b>not</b> point into the capture directory, so its
901 * target is <b>not</b> being adjusted. */
902 WIMLIB_SCAN_DENTRY_NOT_FIXED_SYMLINK = 4,
906 /** Target path in the image. Only valid on messages
907 * ::WIMLIB_PROGRESS_MSG_SCAN_BEGIN and
908 * ::WIMLIB_PROGRESS_MSG_SCAN_END. */
909 const wimlib_tchar *wim_target_path;
911 /** For ::WIMLIB_PROGRESS_MSG_SCAN_DENTRY and a status
912 * of @p WIMLIB_SCAN_DENTRY_FIXED_SYMLINK or @p
913 * WIMLIB_SCAN_DENTRY_NOT_FIXED_SYMLINK, this is the
914 * target of the absolute symbolic link or junction. */
915 const wimlib_tchar *symlink_target;
918 /** The number of directories scanned so far, not counting
919 * excluded/unsupported files. */
920 uint64_t num_dirs_scanned;
922 /** The number of non-directories scanned so far, not counting
923 * excluded/unsupported files. */
924 uint64_t num_nondirs_scanned;
926 /** The number of bytes of file data detected so far, not
927 * counting excluded/unsupported files. */
928 uint64_t num_bytes_scanned;
931 /** Valid on messages
932 * ::WIMLIB_PROGRESS_MSG_EXTRACT_SPWM_PART_BEGIN,
933 * ::WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_BEGIN,
934 * ::WIMLIB_PROGRESS_MSG_EXTRACT_TREE_BEGIN,
935 * ::WIMLIB_PROGRESS_MSG_EXTRACT_FILE_STRUCTURE,
936 * ::WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS,
937 * ::WIMLIB_PROGRESS_MSG_EXTRACT_METADATA,
938 * ::WIMLIB_PROGRESS_MSG_EXTRACT_TREE_END, and
939 * ::WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_END.
941 * Note: most of the time of an extraction operation will be spent
942 * extracting file data, and the application will receive
943 * ::WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS during this time. Using @p
944 * completed_bytes and @p total_bytes, the application can calculate a
945 * percentage complete. However, there is no way for applications to
946 * know which file is currently being extracted. This is by design
947 * because the best way to complete the extraction operation is not
948 * necessarily file-by-file.
950 struct wimlib_progress_info_extract {
952 /** The 1-based index of the image from which files are being
956 /** Extraction flags being used. */
957 uint32_t extract_flags;
959 /** If the ::WIMStruct from which the extraction being performed
960 * has a backing file, then this is an absolute path to that
961 * backing file. Otherwise, this is @c NULL. */
962 const wimlib_tchar *wimfile_name;
964 /** Name of the image from which files are being extracted, or
965 * the empty string if the image is unnamed. */
966 const wimlib_tchar *image_name;
968 /** Path to the directory or NTFS volume to which the files are
969 * being extracted. */
970 const wimlib_tchar *target;
973 const wimlib_tchar *reserved;
975 /** The number of bytes of file data that will be extracted. */
976 uint64_t total_bytes;
978 /** The number of bytes of file data that have been extracted so
979 * far. This starts at 0 and ends at @p total_bytes. */
980 uint64_t completed_bytes;
982 /** The number of file streams that will be extracted. This
983 * will often be similar to the "number of files", but for
984 * several reasons (hard links, named data streams, empty files,
985 * etc.) it can be different. */
986 uint64_t total_streams;
988 /** The number of file streams that have been extracted so far.
989 * This starts at 0 and ends at @p total_streams. */
990 uint64_t completed_streams;
992 /** Currently only used for
993 * ::WIMLIB_PROGRESS_MSG_EXTRACT_SPWM_PART_BEGIN. */
994 uint32_t part_number;
996 /** Currently only used for
997 * ::WIMLIB_PROGRESS_MSG_EXTRACT_SPWM_PART_BEGIN. */
998 uint32_t total_parts;
1000 /** Currently only used for
1001 * ::WIMLIB_PROGRESS_MSG_EXTRACT_SPWM_PART_BEGIN. */
1002 uint8_t guid[WIMLIB_GUID_LEN];
1004 /** For ::WIMLIB_PROGRESS_MSG_EXTRACT_FILE_STRUCTURE and
1005 * ::WIMLIB_PROGRESS_MSG_EXTRACT_METADATA messages, this is the
1006 * number of files that have been processed so far. Once the
1007 * corresponding phase of extraction is complete, this value
1008 * will be equal to @c end_file_count. */
1009 uint64_t current_file_count;
1011 /** For ::WIMLIB_PROGRESS_MSG_EXTRACT_FILE_STRUCTURE and
1012 * ::WIMLIB_PROGRESS_MSG_EXTRACT_METADATA messages, this is
1013 * total number of files that will be processed.
1015 * This number is provided for informational purposes only, e.g.
1016 * for a progress bar. This number will not necessarily be
1017 * equal to the number of files actually being extracted. This
1018 * is because extraction backends are free to implement an
1019 * extraction algorithm that might be more efficient than
1020 * processing every file in the "extract file structure" and
1021 * "extract file metadata" phases. For example, the current
1022 * implementation of the UNIX extraction backend will create
1023 * files on-demand during the "extract file data" phase.
1024 * Therefore, when using that particular extraction backend, @p
1025 * end_file_count will only include directories and empty files.
1027 uint64_t end_file_count;
1030 /** Valid on messages ::WIMLIB_PROGRESS_MSG_RENAME. */
1031 struct wimlib_progress_info_rename {
1032 /** Name of the temporary file that the WIM was written to. */
1033 const wimlib_tchar *from;
1035 /** Name of the original WIM file to which the temporary file is
1037 const wimlib_tchar *to;
1040 /** Valid on messages ::WIMLIB_PROGRESS_MSG_UPDATE_BEGIN_COMMAND and
1041 * ::WIMLIB_PROGRESS_MSG_UPDATE_END_COMMAND. */
1042 struct wimlib_progress_info_update {
1043 /** Pointer to the update command that will be executed or has
1044 * just been executed. */
1045 const struct wimlib_update_command *command;
1047 /** Number of update commands that have been completed so far.
1049 size_t completed_commands;
1051 /** Number of update commands that are being executed as part of
1052 * this call to wimlib_update_image(). */
1053 size_t total_commands;
1056 /** Valid on messages ::WIMLIB_PROGRESS_MSG_VERIFY_INTEGRITY and
1057 * ::WIMLIB_PROGRESS_MSG_CALC_INTEGRITY. */
1058 struct wimlib_progress_info_integrity {
1060 /** The number of bytes in the WIM file that are covered by
1061 * integrity checks. */
1062 uint64_t total_bytes;
1064 /** The number of bytes that have been checksummed so far. This
1065 * starts at 0 and ends at @p total_bytes. */
1066 uint64_t completed_bytes;
1068 /** The number of individually checksummed "chunks" the
1069 * integrity-checked region is divided into. */
1070 uint32_t total_chunks;
1072 /** The number of chunks that have been checksummed so far.
1073 * This starts at 0 and ends at @p total_chunks. */
1074 uint32_t completed_chunks;
1076 /** The size of each individually checksummed "chunk" in the
1077 * integrity-checked region. */
1078 uint32_t chunk_size;
1080 /** For ::WIMLIB_PROGRESS_MSG_VERIFY_INTEGRITY messages, this is
1081 * the path to the WIM file being checked. */
1082 const wimlib_tchar *filename;
1085 /** Valid on messages ::WIMLIB_PROGRESS_MSG_SPLIT_BEGIN_PART and
1086 * ::WIMLIB_PROGRESS_MSG_SPLIT_END_PART. */
1087 struct wimlib_progress_info_split {
1088 /** Total size of the original WIM's file and metadata resources
1090 uint64_t total_bytes;
1092 /** Number of bytes of file and metadata resources that have
1093 * been copied out of the original WIM so far. Will be 0
1094 * initially, and equal to @p total_bytes at the end. */
1095 uint64_t completed_bytes;
1097 /** Number of the split WIM part that is about to be started
1098 * (::WIMLIB_PROGRESS_MSG_SPLIT_BEGIN_PART) or has just been
1099 * finished (::WIMLIB_PROGRESS_MSG_SPLIT_END_PART). */
1100 unsigned cur_part_number;
1102 /** Total number of split WIM parts that are being written. */
1103 unsigned total_parts;
1105 /** Name of the split WIM part that is about to be started
1106 * (::WIMLIB_PROGRESS_MSG_SPLIT_BEGIN_PART) or has just been
1107 * finished (::WIMLIB_PROGRESS_MSG_SPLIT_END_PART). Since
1108 * wimlib v1.7.0, the library user may change this when
1109 * receiving ::WIMLIB_PROGRESS_MSG_SPLIT_BEGIN_PART in order to
1110 * cause the next split WIM part to be written to a different
1112 wimlib_tchar *part_name;
1115 /** Valid on messages ::WIMLIB_PROGRESS_MSG_REPLACE_FILE_IN_WIM */
1116 struct wimlib_progress_info_replace {
1117 /** Path to the file in the image that is being replaced */
1118 const wimlib_tchar *path_in_wim;
1121 /** Valid on messages ::WIMLIB_PROGRESS_MSG_WIMBOOT_EXCLUDE */
1122 struct wimlib_progress_info_wimboot_exclude {
1123 /** Path to the file in the image */
1124 const wimlib_tchar *path_in_wim;
1126 /** Path to which the file is being extracted */
1127 const wimlib_tchar *extraction_path;
1130 /** Valid on messages ::WIMLIB_PROGRESS_MSG_UNMOUNT_BEGIN. */
1131 struct wimlib_progress_info_unmount {
1132 /** Path to directory being unmounted */
1133 const wimlib_tchar *mountpoint;
1135 /** Path to WIM file being unmounted */
1136 const wimlib_tchar *mounted_wim;
1138 /** 1-based index of image being unmounted. */
1139 uint32_t mounted_image;
1141 /** Flags that were passed to wimlib_mount_image() when the
1142 * mountpoint was set up. */
1143 uint32_t mount_flags;
1145 /** Flags passed to wimlib_unmount_image(). */
1146 uint32_t unmount_flags;
1149 /** Valid on messages ::WIMLIB_PROGRESS_MSG_DONE_WITH_FILE. */
1150 struct wimlib_progress_info_done_with_file {
1152 * Path to the file whose data has been written to the WIM file,
1153 * or is currently being asynchronously compressed in memory,
1154 * and therefore is no longer needed by wimlib.
1156 * WARNING: The file data will not actually be accessible in the
1157 * WIM file until the WIM file has been completely written.
1158 * Ordinarily you should <b>not</b> treat this message as a
1159 * green light to go ahead and delete the specified file, since
1160 * that would result in data loss if the WIM file cannot be
1161 * successfully created for any reason.
1163 * If a file has multiple names (hard links),
1164 * ::WIMLIB_PROGRESS_MSG_DONE_WITH_FILE will only be received
1165 * for one name. Also, this message will not be received for
1166 * empty files or reparse points (or symbolic links), unless
1167 * they have nonempty named data streams.
1169 const wimlib_tchar *path_to_file;
1172 /** Valid on messages ::WIMLIB_PROGRESS_MSG_BEGIN_VERIFY_IMAGE and
1173 * ::WIMLIB_PROGRESS_MSG_END_VERIFY_IMAGE. */
1174 struct wimlib_progress_info_verify_image {
1175 const wimlib_tchar *wimfile;
1176 uint32_t total_images;
1177 uint32_t current_image;
1180 /** Valid on messages ::WIMLIB_PROGRESS_MSG_VERIFY_STREAMS. */
1181 struct wimlib_progress_info_verify_streams {
1182 const wimlib_tchar *wimfile;
1183 uint64_t total_streams;
1184 uint64_t total_bytes;
1185 uint64_t completed_streams;
1186 uint64_t completed_bytes;
1189 /** Valid on messages ::WIMLIB_PROGRESS_MSG_TEST_FILE_EXCLUSION. */
1190 struct wimlib_progress_info_test_file_exclusion {
1193 * Path to the file for which exclusion is being tested.
1195 * UNIX capture mode: The path will be a standard relative or
1196 * absolute UNIX filesystem path.
1198 * NTFS-3G capture mode: The path will be given relative to the
1199 * root of the NTFS volume, with a leading slash.
1201 * Windows capture mode: The path will be a Win32 namespace
1204 const wimlib_tchar *path;
1207 * Indicates whether the file or directory will be excluded from
1208 * capture or not. This will be <c>false</c> by default. The
1209 * progress function can set this to <c>true</c> if it decides
1210 * that the file needs to be excluded.
1213 } test_file_exclusion;
1215 /** Valid on messages ::WIMLIB_PROGRESS_MSG_HANDLE_ERROR. */
1216 struct wimlib_progress_info_handle_error {
1218 /** Path to the file for which the error occurred, or NULL if
1220 const wimlib_tchar *path;
1222 /** The wimlib error code associated with the error. */
1226 * Indicates whether the error will be ignored or not. This
1227 * will be <c>false</c> by default; the progress function may
1228 * set it to <c>true</c>.
1235 * A user-supplied function that will be called periodically during certain WIM
1238 * The first argument will be the type of operation that is being performed or
1239 * is about to be started or has been completed.
1241 * The second argument will be a pointer to one of a number of structures
1242 * depending on the first argument. It may be @c NULL for some message types.
1243 * Note that although this argument is not @c const, users should not modify it
1244 * except in explicitly documented cases.
1246 * The third argument will be a user-supplied value that was provided when
1247 * registering or specifying the progress function.
1249 * This function must return one of the ::wimlib_progress_status values. By
1250 * default, you should return ::WIMLIB_PROGRESS_STATUS_CONTINUE (0).
1252 typedef enum wimlib_progress_status
1253 (*wimlib_progress_func_t)(enum wimlib_progress_msg msg_type,
1254 union wimlib_progress_info *info,
1258 /** @addtogroup G_modifying_wims
1261 /** An array of these structures is passed to wimlib_add_image_multisource() to
1262 * specify the sources from which to create a WIM image. */
1263 struct wimlib_capture_source {
1264 /** Absolute or relative path to a file or directory on the external
1265 * filesystem to be included in the image. */
1266 wimlib_tchar *fs_source_path;
1268 /** Destination path in the image. To specify the root directory of the
1269 * image, use ::WIMLIB_WIM_ROOT_PATH. */
1270 wimlib_tchar *wim_target_path;
1272 /** Reserved; set to 0. */
1276 /** Set or unset the "readonly" WIM header flag (<c>WIM_HDR_FLAG_READONLY</c> in
1277 * Microsoft's documentation), based on the ::wimlib_wim_info.is_marked_readonly
1278 * member of the @p info parameter. This is distinct from basic file
1279 * permissions; this flag can be set on a WIM file that is physically writable.
1281 * wimlib disallows modifying on-disk WIM files with the readonly flag set.
1282 * However, wimlib_overwrite() with ::WIMLIB_WRITE_FLAG_IGNORE_READONLY_FLAG
1283 * will override this --- and in fact, this is necessary to set the readonly
1284 * flag persistently on an existing WIM file.
1286 #define WIMLIB_CHANGE_READONLY_FLAG 0x00000001
1288 /** Set the GUID (globally unique identifier) of the WIM file to the value
1289 * specified in ::wimlib_wim_info.guid of the @p info parameter. */
1290 #define WIMLIB_CHANGE_GUID 0x00000002
1292 /** Change the bootable image of the WIM to the value specified in
1293 * ::wimlib_wim_info.boot_index of the @p info parameter. */
1294 #define WIMLIB_CHANGE_BOOT_INDEX 0x00000004
1296 /** Change the <c>WIM_HDR_FLAG_RP_FIX</c> flag of the WIM file to the value
1297 * specified in ::wimlib_wim_info.has_rpfix of the @p info parameter. This flag
1298 * generally indicates whether an image in the WIM has been captured with
1299 * reparse-point fixups enabled. wimlib also treats this flag as specifying
1300 * whether to do reparse-point fixups by default when capturing or applying WIM
1302 #define WIMLIB_CHANGE_RPFIX_FLAG 0x00000008
1306 /** @addtogroup G_wim_information */
1311 * General information about a WIM file.
1313 * This info can also be requested for a ::WIMStruct that does not have a
1314 * backing file. In this case, fields that only make sense given a backing file
1315 * are set to default values.
1317 struct wimlib_wim_info {
1319 /** The globally unique identifier for this WIM. (Note: all parts of a
1320 * split WIM normally have identical GUIDs.) */
1321 uint8_t guid[WIMLIB_GUID_LEN];
1323 /** The number of images in this WIM file. */
1324 uint32_t image_count;
1326 /** The 1-based index of the bootable image in this WIM file, or 0 if no
1327 * image is bootable. */
1328 uint32_t boot_index;
1330 /** The version of the WIM file format used in this WIM file. */
1331 uint32_t wim_version;
1333 /** The default compression chunk size of resources in this WIM file.
1335 uint32_t chunk_size;
1337 /** For split WIMs, the 1-based index of this part within the split WIM;
1339 uint16_t part_number;
1341 /** For split WIMs, the total number of parts in the split WIM;
1343 uint16_t total_parts;
1345 /** The default compression type of resources in this WIM file, as one
1346 * of the ::wimlib_compression_type constants. */
1347 int32_t compression_type;
1349 /** The size of this WIM file in bytes, excluding the XML data and
1350 * integrity table. */
1351 uint64_t total_bytes;
1353 /** 1 iff this WIM file has an integrity table. */
1354 uint32_t has_integrity_table : 1;
1356 /** 1 iff this info struct is for a ::WIMStruct that has a backing file.
1358 uint32_t opened_from_file : 1;
1360 /** 1 iff this WIM file is considered readonly for any reason (e.g. the
1361 * "readonly" header flag is set, or this is part of a split WIM, or
1362 * filesystem permissions deny writing) */
1363 uint32_t is_readonly : 1;
1365 /** 1 iff the "reparse point fix" flag is set in this WIM's header */
1366 uint32_t has_rpfix : 1;
1368 /** 1 iff the "readonly" flag is set in this WIM's header */
1369 uint32_t is_marked_readonly : 1;
1371 /** 1 iff the "spanned" flag is set in this WIM's header */
1372 uint32_t spanned : 1;
1374 /** 1 iff the "write in progress" flag is set in this WIM's header */
1375 uint32_t write_in_progress : 1;
1377 /** 1 iff the "metadata only" flag is set in this WIM's header */
1378 uint32_t metadata_only : 1;
1380 /** 1 iff the "resource only" flag is set in this WIM's header */
1381 uint32_t resource_only : 1;
1383 /** 1 iff this WIM file is pipable (see ::WIMLIB_WRITE_FLAG_PIPABLE). */
1384 uint32_t pipable : 1;
1385 uint32_t reserved_flags : 22;
1386 uint32_t reserved[9];
1390 * Information about a "blob", which is a fixed length sequence of binary data.
1391 * Each nonempty stream of each file in a WIM image is associated with a blob.
1392 * Blobs are deduplicated within a WIM file.
1394 * TODO: this struct needs to be renamed, and perhaps made into a union since
1395 * there are several cases. I'll try to list them below:
1397 * 1. The blob is "missing", meaning that it is referenced by hash but not
1398 * actually present in the WIM file. In this case we only know the
1399 * sha1_hash. This case can only occur with wimlib_iterate_dir_tree(), never
1400 * wimlib_iterate_lookup_table().
1402 * 2. Otherwise we know the sha1_hash, the uncompressed_size, the
1403 * reference_count, and the is_metadata flag. In addition:
1405 * A. If the blob is located in a non-solid WIM resource, then we also know
1406 * the compressed_size and offset.
1408 * B. If the blob is located in a solid WIM resource, then we also know the
1409 * offset, raw_resource_offset_in_wim, raw_resource_compressed_size, and
1410 * raw_resource_uncompressed_size. But the "offset" is actually the
1411 * offset in the uncompressed solid resource rather than the offset from
1412 * the beginning of the WIM file.
1414 * C. If the blob is *not* located in any type of WIM resource, then we don't
1415 * know any additional information.
1417 * Unknown or irrelevant fields are left zeroed.
1419 struct wimlib_resource_entry {
1421 /** If this blob is not missing, then this is the uncompressed size of
1422 * this blob in bytes. */
1423 uint64_t uncompressed_size;
1425 /** If this blob is located in a non-solid WIM resource, then this is
1426 * the compressed size of that resource. */
1427 uint64_t compressed_size;
1429 /** If this blob is located in a non-solid WIM resource, then this is
1430 * the offset of that resource within the WIM file containing it. If
1431 * this blob is located in a solid WIM resource, then this is the offset
1432 * of this blob within that solid resource when uncompressed. */
1435 /** The SHA-1 message digest of the blob's uncompressed contents. */
1436 uint8_t sha1_hash[20];
1438 /** If this blob is located in a WIM resource, then this is the part
1439 * number of the WIM file containing it. */
1440 uint32_t part_number;
1442 /** If this blob is not missing, then this is the number of times this
1443 * blob is referenced over all images in the WIM. This number is not
1444 * guaranteed to be correct. */
1445 uint32_t reference_count;
1447 /** 1 iff this blob is located in a non-solid compressed WIM resource.
1449 uint32_t is_compressed : 1;
1451 /** 1 iff this blob contains the metadata for an image. */
1452 uint32_t is_metadata : 1;
1454 uint32_t is_free : 1;
1455 uint32_t is_spanned : 1;
1457 /** 1 iff a blob with this hash was not found in the blob lookup table
1458 * of the ::WIMStruct. This normally implies a missing call to
1459 * wimlib_reference_resource_files() or wimlib_reference_resources(). */
1460 uint32_t is_missing : 1;
1462 /** 1 iff this blob is located in a solid resource. */
1463 uint32_t packed : 1;
1465 uint32_t reserved_flags : 26;
1467 /** If this blob is located in a solid WIM resource, then this is the
1468 * offset of that solid resource within the WIM file containing it. */
1469 uint64_t raw_resource_offset_in_wim;
1471 /** If this blob is located in a solid WIM resource, then this is the
1472 * compressed size of that solid resource. */
1473 uint64_t raw_resource_compressed_size;
1475 /** If this blob is located in a solid WIM resource, then this is the
1476 * uncompressed size of that solid resource. */
1477 uint64_t raw_resource_uncompressed_size;
1479 uint64_t reserved[1];
1483 * Information about a stream of a particular file in the WIM.
1485 * Normally, only WIM images captured from NTFS filesystems will have multiple
1486 * streams per file. In practice, this is a rarely used feature of the
1489 * TODO: the library now explicitly tracks stream types, which allows it to have
1490 * multiple unnamed streams (e.g. both a reparse point stream and unnamed data
1491 * stream). However, this isn't yet exposed by wimlib_iterate_dir_tree().
1493 struct wimlib_stream_entry {
1495 /** Name of the stream, or NULL if the stream is unnamed. */
1496 const wimlib_tchar *stream_name;
1498 /** Info about this stream's data, such as its hash and size if known.*/
1499 struct wimlib_resource_entry resource;
1501 uint64_t reserved[4];
1505 * Since wimlib v1.9.1: an object ID, which is an extra piece of metadata that
1506 * may be associated with a file on NTFS filesystems. See:
1507 * https://msdn.microsoft.com/en-us/library/windows/desktop/aa363997(v=vs.85).aspx
1509 struct wimlib_object_id {
1510 uint8_t object_id[WIMLIB_GUID_LEN];
1511 uint8_t birth_volume_id[WIMLIB_GUID_LEN];
1512 uint8_t birth_object_id[WIMLIB_GUID_LEN];
1513 uint8_t domain_id[WIMLIB_GUID_LEN];
1516 /** Structure passed to the wimlib_iterate_dir_tree() callback function.
1517 * Roughly, the information about a "file" in the WIM image --- but really a
1518 * directory entry ("dentry") because hard links are allowed. The
1519 * hard_link_group_id field can be used to distinguish actual file inodes. */
1520 struct wimlib_dir_entry {
1521 /** Name of the file, or NULL if this file is unnamed. Only the root
1522 * directory of an image will be unnamed. */
1523 const wimlib_tchar *filename;
1525 /** 8.3 name (or "DOS name", or "short name") of this file; or NULL if
1526 * this file has no such name. */
1527 const wimlib_tchar *dos_name;
1529 /** Full path to this file within the image. Path separators will be
1530 * ::WIMLIB_WIM_PATH_SEPARATOR. */
1531 const wimlib_tchar *full_path;
1533 /** Depth of this directory entry, where 0 is the root, 1 is the root's
1534 * children, ..., etc. */
1537 /** Pointer to the security descriptor for this file, in Windows
1538 * SECURITY_DESCRIPTOR_RELATIVE format, or NULL if this file has no
1539 * security descriptor. */
1540 const char *security_descriptor;
1542 /** Size of the above security descriptor, in bytes. */
1543 size_t security_descriptor_size;
1545 #define WIMLIB_FILE_ATTRIBUTE_READONLY 0x00000001
1546 #define WIMLIB_FILE_ATTRIBUTE_HIDDEN 0x00000002
1547 #define WIMLIB_FILE_ATTRIBUTE_SYSTEM 0x00000004
1548 #define WIMLIB_FILE_ATTRIBUTE_DIRECTORY 0x00000010
1549 #define WIMLIB_FILE_ATTRIBUTE_ARCHIVE 0x00000020
1550 #define WIMLIB_FILE_ATTRIBUTE_DEVICE 0x00000040
1551 #define WIMLIB_FILE_ATTRIBUTE_NORMAL 0x00000080
1552 #define WIMLIB_FILE_ATTRIBUTE_TEMPORARY 0x00000100
1553 #define WIMLIB_FILE_ATTRIBUTE_SPARSE_FILE 0x00000200
1554 #define WIMLIB_FILE_ATTRIBUTE_REPARSE_POINT 0x00000400
1555 #define WIMLIB_FILE_ATTRIBUTE_COMPRESSED 0x00000800
1556 #define WIMLIB_FILE_ATTRIBUTE_OFFLINE 0x00001000
1557 #define WIMLIB_FILE_ATTRIBUTE_NOT_CONTENT_INDEXED 0x00002000
1558 #define WIMLIB_FILE_ATTRIBUTE_ENCRYPTED 0x00004000
1559 #define WIMLIB_FILE_ATTRIBUTE_VIRTUAL 0x00010000
1560 /** File attributes, such as whether the file is a directory or not.
1561 * These are the "standard" Windows FILE_ATTRIBUTE_* values, although in
1562 * wimlib.h they are defined as WIMLIB_FILE_ATTRIBUTE_* for convenience
1563 * on other platforms. */
1564 uint32_t attributes;
1566 #define WIMLIB_REPARSE_TAG_RESERVED_ZERO 0x00000000
1567 #define WIMLIB_REPARSE_TAG_RESERVED_ONE 0x00000001
1568 #define WIMLIB_REPARSE_TAG_MOUNT_POINT 0xA0000003
1569 #define WIMLIB_REPARSE_TAG_HSM 0xC0000004
1570 #define WIMLIB_REPARSE_TAG_HSM2 0x80000006
1571 #define WIMLIB_REPARSE_TAG_DRIVER_EXTENDER 0x80000005
1572 #define WIMLIB_REPARSE_TAG_SIS 0x80000007
1573 #define WIMLIB_REPARSE_TAG_DFS 0x8000000A
1574 #define WIMLIB_REPARSE_TAG_DFSR 0x80000012
1575 #define WIMLIB_REPARSE_TAG_FILTER_MANAGER 0x8000000B
1576 #define WIMLIB_REPARSE_TAG_WOF 0x80000017
1577 #define WIMLIB_REPARSE_TAG_SYMLINK 0xA000000C
1578 /** If the file is a reparse point (FILE_ATTRIBUTE_REPARSE_POINT set in
1579 * the attributes), this will give the reparse tag. This tells you
1580 * whether the reparse point is a symbolic link, junction point, or some
1581 * other, more unusual kind of reparse point. */
1582 uint32_t reparse_tag;
1584 /** Number of links to this file's inode (hard links).
1586 * Currently, this will always be 1 for directories. However, it can be
1587 * greater than 1 for nondirectory files. */
1590 /** Number of named data streams this file has. Normally 0. */
1591 uint32_t num_named_streams;
1593 /** A unique identifier for this file's inode. However, as a special
1594 * case, if the inode only has a single link (@p num_links == 1), this
1597 * Note: if a WIM image is captured from a filesystem, this value is not
1598 * guaranteed to be the same as the original number of the inode on the
1600 uint64_t hard_link_group_id;
1602 /** Time this file was created. */
1603 struct wimlib_timespec creation_time;
1605 /** Time this file was last written to. */
1606 struct wimlib_timespec last_write_time;
1608 /** Time this file was last accessed. */
1609 struct wimlib_timespec last_access_time;
1611 /** The UNIX user ID of this file. This is a wimlib extension.
1613 * This field is only valid if @p unix_mode != 0. */
1616 /** The UNIX group ID of this file. This is a wimlib extension.
1618 * This field is only valid if @p unix_mode != 0. */
1621 /** The UNIX mode of this file. This is a wimlib extension.
1623 * If this field is 0, then @p unix_uid, @p unix_gid, @p unix_mode, and
1624 * @p unix_rdev are all unknown (fields are not present in the WIM
1628 /** The UNIX device ID (major and minor number) of this file. This is a
1631 * This field is only valid if @p unix_mode != 0. */
1634 /* The object ID of this file, if any. Only valid if
1635 * object_id.object_id is not all zeroes. */
1636 struct wimlib_object_id object_id;
1638 /** High 32 bits of the seconds portion of the creation timestamp,
1639 * filled in if @p wimlib_timespec.tv_sec is only 32-bit. */
1640 int32_t creation_time_high;
1642 /** High 32 bits of the seconds portion of the last write timestamp,
1643 * filled in if @p wimlib_timespec.tv_sec is only 32-bit. */
1644 int32_t last_write_time_high;
1646 /** High 32 bits of the seconds portion of the last access timestamp,
1647 * filled in if @p wimlib_timespec.tv_sec is only 32-bit. */
1648 int32_t last_access_time_high;
1652 uint64_t reserved[4];
1655 * Variable-length array of streams that make up this file.
1657 * The first entry will always exist and will correspond to the unnamed
1658 * data stream (default file contents), so it will have <c>stream_name
1659 * == NULL</c>. Alternatively, for reparse point files, the first entry
1660 * will correspond to the reparse data stream. Alternatively, for
1661 * encrypted files, the first entry will correspond to the encrypted
1664 * Then, following the first entry, there be @p num_named_streams
1665 * additional entries that specify the named data streams, if any, each
1666 * of which will have <c>stream_name != NULL</c>.
1668 struct wimlib_stream_entry streams[];
1672 * Type of a callback function to wimlib_iterate_dir_tree(). Must return 0 on
1675 typedef int (*wimlib_iterate_dir_tree_callback_t)(const struct wimlib_dir_entry *dentry,
1679 * Type of a callback function to wimlib_iterate_lookup_table(). Must return 0
1682 typedef int (*wimlib_iterate_lookup_table_callback_t)(const struct wimlib_resource_entry *resource,
1685 /** For wimlib_iterate_dir_tree(): Iterate recursively on children rather than
1686 * just on the specified path. */
1687 #define WIMLIB_ITERATE_DIR_TREE_FLAG_RECURSIVE 0x00000001
1689 /** For wimlib_iterate_dir_tree(): Don't iterate on the file or directory
1690 * itself; only its children (in the case of a non-empty directory) */
1691 #define WIMLIB_ITERATE_DIR_TREE_FLAG_CHILDREN 0x00000002
1693 /** Return ::WIMLIB_ERR_RESOURCE_NOT_FOUND if any file data blobs needed to fill
1694 * in the ::wimlib_resource_entry's for the iteration cannot be found in the
1695 * blob lookup table of the ::WIMStruct. The default behavior without this flag
1696 * is to fill in the @ref wimlib_resource_entry::sha1_hash "sha1_hash" and set
1697 * the @ref wimlib_resource_entry::is_missing "is_missing" flag. */
1698 #define WIMLIB_ITERATE_DIR_TREE_FLAG_RESOURCES_NEEDED 0x00000004
1702 /** @addtogroup G_modifying_wims
1705 /** UNIX-like systems only: Directly capture an NTFS volume rather than a
1706 * generic directory. This requires that wimlib was compiled with support for
1709 * This flag cannot be combined with ::WIMLIB_ADD_FLAG_DEREFERENCE or
1710 * ::WIMLIB_ADD_FLAG_UNIX_DATA.
1712 * Do not use this flag on Windows, where wimlib already supports all
1713 * Windows-native filesystems, including NTFS, through the Windows APIs. */
1714 #define WIMLIB_ADD_FLAG_NTFS 0x00000001
1716 /** Follow symbolic links when scanning the directory tree. Currently only
1717 * supported on UNIX-like systems. */
1718 #define WIMLIB_ADD_FLAG_DEREFERENCE 0x00000002
1720 /** Call the progress function with the message
1721 * ::WIMLIB_PROGRESS_MSG_SCAN_DENTRY when each directory or file has been
1723 #define WIMLIB_ADD_FLAG_VERBOSE 0x00000004
1725 /** Mark the image being added as the bootable image of the WIM. This flag is
1726 * valid only for wimlib_add_image() and wimlib_add_image_multisource().
1728 * Note that you can also change the bootable image of a WIM using
1729 * wimlib_set_wim_info().
1731 * Note: ::WIMLIB_ADD_FLAG_BOOT does something different from, and independent
1732 * from, ::WIMLIB_ADD_FLAG_WIMBOOT. */
1733 #define WIMLIB_ADD_FLAG_BOOT 0x00000008
1735 /** UNIX-like systems only: Store the UNIX owner, group, mode, and device ID
1736 * (major and minor number) of each file. In addition, capture special files
1737 * such as device nodes and FIFOs. Since wimlib v1.11.0, on Linux also capture
1738 * extended attributes. See the documentation for the <b>--unix-data</b> option
1739 * to <b>wimcapture</b> for more information. */
1740 #define WIMLIB_ADD_FLAG_UNIX_DATA 0x00000010
1742 /** Do not capture security descriptors. Only has an effect in NTFS-3G capture
1743 * mode, or in Windows native builds. */
1744 #define WIMLIB_ADD_FLAG_NO_ACLS 0x00000020
1746 /** Fail immediately if the full security descriptor of any file or directory
1747 * cannot be accessed. Only has an effect in Windows native builds. The
1748 * default behavior without this flag is to first try omitting the SACL from the
1749 * security descriptor, then to try omitting the security descriptor entirely.
1751 #define WIMLIB_ADD_FLAG_STRICT_ACLS 0x00000040
1753 /** Call the progress function with the message
1754 * ::WIMLIB_PROGRESS_MSG_SCAN_DENTRY when a directory or file is excluded from
1755 * capture. This is a subset of the messages provided by
1756 * ::WIMLIB_ADD_FLAG_VERBOSE. */
1757 #define WIMLIB_ADD_FLAG_EXCLUDE_VERBOSE 0x00000080
1759 /** Reparse-point fixups: Modify absolute symbolic links (and junctions, in the
1760 * case of Windows) that point inside the directory being captured to instead be
1761 * absolute relative to the directory being captured.
1763 * Without this flag, the default is to do reparse-point fixups if
1764 * <c>WIM_HDR_FLAG_RP_FIX</c> is set in the WIM header or if this is the first
1765 * image being added. */
1766 #define WIMLIB_ADD_FLAG_RPFIX 0x00000100
1768 /** Don't do reparse point fixups. See ::WIMLIB_ADD_FLAG_RPFIX. */
1769 #define WIMLIB_ADD_FLAG_NORPFIX 0x00000200
1771 /** Do not automatically exclude unsupported files or directories from capture,
1772 * such as encrypted files in NTFS-3G capture mode, or device files and FIFOs on
1773 * UNIX-like systems when not also using ::WIMLIB_ADD_FLAG_UNIX_DATA. Instead,
1774 * fail with ::WIMLIB_ERR_UNSUPPORTED_FILE when such a file is encountered. */
1775 #define WIMLIB_ADD_FLAG_NO_UNSUPPORTED_EXCLUDE 0x00000400
1778 * Automatically select a capture configuration appropriate for capturing
1779 * filesystems containing Windows operating systems. For example,
1780 * <c>/pagefile.sys</c> and <c>"/System Volume Information"</c> will be
1783 * When this flag is specified, the corresponding @p config parameter (for
1784 * wimlib_add_image()) or member (for wimlib_update_image()) must be @c NULL.
1785 * Otherwise, ::WIMLIB_ERR_INVALID_PARAM will be returned.
1787 * Note that the default behavior--- that is, when neither
1788 * ::WIMLIB_ADD_FLAG_WINCONFIG nor ::WIMLIB_ADD_FLAG_WIMBOOT is specified and @p
1789 * config is @c NULL--- is to use no capture configuration, meaning that no
1790 * files are excluded from capture.
1792 #define WIMLIB_ADD_FLAG_WINCONFIG 0x00000800
1795 * Capture image as "WIMBoot compatible". In addition, if no capture
1796 * configuration file is explicitly specified use the capture configuration file
1797 * <c>$SOURCE/Windows/System32/WimBootCompress.ini</c> if it exists, where
1798 * <c>$SOURCE</c> is the directory being captured; or, if a capture
1799 * configuration file is explicitly specified, use it and also place it at
1800 * <c>/Windows/System32/WimBootCompress.ini</c> in the WIM image.
1802 * This flag does not, by itself, change the compression type or chunk size.
1803 * Before writing the WIM file, you may wish to set the compression format to
1804 * be the same as that used by WIMGAPI and DISM:
1807 * wimlib_set_output_compression_type(wim, WIMLIB_COMPRESSION_TYPE_XPRESS);
1808 * wimlib_set_output_chunk_size(wim, 4096);
1811 * However, "WIMBoot" also works with other XPRESS chunk sizes as well as LZX
1812 * with 32768 byte chunks.
1814 * Note: ::WIMLIB_ADD_FLAG_WIMBOOT does something different from, and
1815 * independent from, ::WIMLIB_ADD_FLAG_BOOT.
1817 * Since wimlib v1.8.3, ::WIMLIB_ADD_FLAG_WIMBOOT also causes offline WIM-backed
1818 * files to be added as the "real" files rather than as their reparse points,
1819 * provided that their data is already present in the WIM. This feature can be
1820 * useful when updating a backing WIM file in an "offline" state.
1822 #define WIMLIB_ADD_FLAG_WIMBOOT 0x00001000
1825 * If the add command involves adding a non-directory file to a location at
1826 * which there already exists a nondirectory file in the image, issue
1827 * ::WIMLIB_ERR_INVALID_OVERLAY instead of replacing the file. This was the
1828 * default behavior before wimlib v1.7.0.
1830 #define WIMLIB_ADD_FLAG_NO_REPLACE 0x00002000
1833 * Send ::WIMLIB_PROGRESS_MSG_TEST_FILE_EXCLUSION messages to the progress
1836 * Note: This method for file exclusions is independent from the capture
1837 * configuration file mechanism.
1839 #define WIMLIB_ADD_FLAG_TEST_FILE_EXCLUSION 0x00004000
1842 * Since wimlib v1.9.0: create a temporary filesystem snapshot of the source
1843 * directory and add the files from it. Currently, this option is only
1844 * supported on Windows, where it uses the Volume Shadow Copy Service (VSS).
1845 * Using this option, you can create a consistent backup of the system volume of
1846 * a running Windows system without running into problems with locked files.
1847 * For the VSS snapshot to be successfully created, your application must be run
1848 * as an Administrator, and it cannot be run in WoW64 mode (i.e. if Windows is
1849 * 64-bit, then your application must be 64-bit as well).
1851 #define WIMLIB_ADD_FLAG_SNAPSHOT 0x00008000
1854 * Since wimlib v1.9.0: permit the library to discard file paths after the
1855 * initial scan. If the application won't use
1856 * ::WIMLIB_WRITE_FLAG_SEND_DONE_WITH_FILE_MESSAGES while writing the WIM
1857 * archive, this flag can be used to allow the library to enable optimizations
1858 * such as opening files by inode number rather than by path. Currently this
1859 * only makes a difference on Windows.
1861 #define WIMLIB_ADD_FLAG_FILE_PATHS_UNNEEDED 0x00010000
1864 /** @addtogroup G_modifying_wims
1867 /** Do not issue an error if the path to delete does not exist. */
1868 #define WIMLIB_DELETE_FLAG_FORCE 0x00000001
1870 /** Delete the file or directory tree recursively; if not specified, an error is
1871 * issued if the path to delete is a directory. */
1872 #define WIMLIB_DELETE_FLAG_RECURSIVE 0x00000002
1875 /** @addtogroup G_modifying_wims
1879 * If a single image is being exported, mark it bootable in the destination WIM.
1880 * Alternatively, if ::WIMLIB_ALL_IMAGES is specified as the image to export,
1881 * the image in the source WIM (if any) that is marked as bootable is also
1882 * marked as bootable in the destination WIM.
1884 #define WIMLIB_EXPORT_FLAG_BOOT 0x00000001
1886 /** Give the exported image(s) no names. Avoids problems with image name
1889 #define WIMLIB_EXPORT_FLAG_NO_NAMES 0x00000002
1891 /** Give the exported image(s) no descriptions. */
1892 #define WIMLIB_EXPORT_FLAG_NO_DESCRIPTIONS 0x00000004
1894 /** This advises the library that the program is finished with the source
1895 * WIMStruct and will not attempt to access it after the call to
1896 * wimlib_export_image(), with the exception of the call to wimlib_free(). */
1897 #define WIMLIB_EXPORT_FLAG_GIFT 0x00000008
1900 * Mark each exported image as WIMBoot-compatible.
1902 * Note: by itself, this does change the destination WIM's compression type, nor
1903 * does it add the file @c \\Windows\\System32\\WimBootCompress.ini in the WIM
1904 * image. Before writing the destination WIM, it's recommended to do something
1908 * wimlib_set_output_compression_type(wim, WIMLIB_COMPRESSION_TYPE_XPRESS);
1909 * wimlib_set_output_chunk_size(wim, 4096);
1910 * wimlib_add_tree(wim, image, L"myconfig.ini",
1911 * L"\\Windows\\System32\\WimBootCompress.ini", 0);
1914 #define WIMLIB_EXPORT_FLAG_WIMBOOT 0x00000010
1917 /** @addtogroup G_extracting_wims
1920 /** Extract the image directly to an NTFS volume rather than a generic directory.
1921 * This mode is only available if wimlib was compiled with libntfs-3g support;
1922 * if not, ::WIMLIB_ERR_UNSUPPORTED will be returned. In this mode, the
1923 * extraction target will be interpreted as the path to an NTFS volume image (as
1924 * a regular file or block device) rather than a directory. It will be opened
1925 * using libntfs-3g, and the image will be extracted to the NTFS filesystem's
1926 * root directory. Note: this flag cannot be used when wimlib_extract_image()
1927 * is called with ::WIMLIB_ALL_IMAGES as the @p image, nor can it be used with
1928 * wimlib_extract_paths() when passed multiple paths. */
1929 #define WIMLIB_EXTRACT_FLAG_NTFS 0x00000001
1931 /** Since wimlib v1.13.4: Don't consider corrupted files to be an error. Just
1932 * extract them in whatever form we can. */
1933 #define WIMLIB_EXTRACT_FLAG_RECOVER_DATA 0x00000002
1935 /** UNIX-like systems only: Extract UNIX-specific metadata captured with
1936 * ::WIMLIB_ADD_FLAG_UNIX_DATA. */
1937 #define WIMLIB_EXTRACT_FLAG_UNIX_DATA 0x00000020
1939 /** Do not extract security descriptors. This flag cannot be combined with
1940 * ::WIMLIB_EXTRACT_FLAG_STRICT_ACLS. */
1941 #define WIMLIB_EXTRACT_FLAG_NO_ACLS 0x00000040
1944 * Fail immediately if the full security descriptor of any file or directory
1945 * cannot be set exactly as specified in the WIM image. On Windows, the default
1946 * behavior without this flag when wimlib does not have permission to set the
1947 * correct security descriptor is to fall back to setting the security
1948 * descriptor with the SACL omitted, then with the DACL omitted, then with the
1949 * owner omitted, then not at all. This flag cannot be combined with
1950 * ::WIMLIB_EXTRACT_FLAG_NO_ACLS.
1952 #define WIMLIB_EXTRACT_FLAG_STRICT_ACLS 0x00000080
1955 * This is the extraction equivalent to ::WIMLIB_ADD_FLAG_RPFIX. This forces
1956 * reparse-point fixups on, so absolute symbolic links or junction points will
1957 * be fixed to be absolute relative to the actual extraction root. Reparse-
1958 * point fixups are done by default for wimlib_extract_image() and
1959 * wimlib_extract_image_from_pipe() if <c>WIM_HDR_FLAG_RP_FIX</c> is set in the
1960 * WIM header. This flag cannot be combined with ::WIMLIB_EXTRACT_FLAG_NORPFIX.
1962 #define WIMLIB_EXTRACT_FLAG_RPFIX 0x00000100
1964 /** Force reparse-point fixups on extraction off, regardless of the state of the
1965 * WIM_HDR_FLAG_RP_FIX flag in the WIM header. This flag cannot be combined
1966 * with ::WIMLIB_EXTRACT_FLAG_RPFIX. */
1967 #define WIMLIB_EXTRACT_FLAG_NORPFIX 0x00000200
1969 /** For wimlib_extract_paths() and wimlib_extract_pathlist() only: Extract the
1970 * paths, each of which must name a regular file, to standard output. */
1971 #define WIMLIB_EXTRACT_FLAG_TO_STDOUT 0x00000400
1974 * Instead of ignoring files and directories with names that cannot be
1975 * represented on the current platform (note: Windows has more restrictions on
1976 * filenames than POSIX-compliant systems), try to replace characters or append
1977 * junk to the names so that they can be extracted in some form.
1979 * Note: this flag is unlikely to have any effect when extracting a WIM image
1980 * that was captured on Windows.
1982 #define WIMLIB_EXTRACT_FLAG_REPLACE_INVALID_FILENAMES 0x00000800
1985 * On Windows, when there exist two or more files with the same case insensitive
1986 * name but different case sensitive names, try to extract them all by appending
1987 * junk to the end of them, rather than arbitrarily extracting only one.
1989 * Note: this flag is unlikely to have any effect when extracting a WIM image
1990 * that was captured on Windows.
1992 #define WIMLIB_EXTRACT_FLAG_ALL_CASE_CONFLICTS 0x00001000
1994 /** Do not ignore failure to set timestamps on extracted files. This flag
1995 * currently only has an effect when extracting to a directory on UNIX-like
1997 #define WIMLIB_EXTRACT_FLAG_STRICT_TIMESTAMPS 0x00002000
1999 /** Do not ignore failure to set short names on extracted files. This flag
2000 * currently only has an effect on Windows. */
2001 #define WIMLIB_EXTRACT_FLAG_STRICT_SHORT_NAMES 0x00004000
2003 /** Do not ignore failure to extract symbolic links and junctions due to
2004 * permissions problems. This flag currently only has an effect on Windows. By
2005 * default, such failures are ignored since the default configuration of Windows
2006 * only allows the Administrator to create symbolic links. */
2007 #define WIMLIB_EXTRACT_FLAG_STRICT_SYMLINKS 0x00008000
2010 * For wimlib_extract_paths() and wimlib_extract_pathlist() only: Treat the
2011 * paths to extract as wildcard patterns ("globs") which may contain the
2012 * wildcard characters @c ? and @c *. The @c ? character matches any
2013 * non-path-separator character, whereas the @c * character matches zero or more
2014 * non-path-separator characters. Consequently, each glob may match zero or
2015 * more actual paths in the WIM image.
2017 * By default, if a glob does not match any files, a warning but not an error
2018 * will be issued. This is the case even if the glob did not actually contain
2019 * wildcard characters. Use ::WIMLIB_EXTRACT_FLAG_STRICT_GLOB to get an error
2022 #define WIMLIB_EXTRACT_FLAG_GLOB_PATHS 0x00040000
2024 /** In combination with ::WIMLIB_EXTRACT_FLAG_GLOB_PATHS, causes an error
2025 * (::WIMLIB_ERR_PATH_DOES_NOT_EXIST) rather than a warning to be issued when
2026 * one of the provided globs did not match a file. */
2027 #define WIMLIB_EXTRACT_FLAG_STRICT_GLOB 0x00080000
2030 * Do not extract Windows file attributes such as readonly, hidden, etc.
2032 * This flag has an effect on Windows as well as in the NTFS-3G extraction mode.
2034 #define WIMLIB_EXTRACT_FLAG_NO_ATTRIBUTES 0x00100000
2037 * For wimlib_extract_paths() and wimlib_extract_pathlist() only: Do not
2038 * preserve the directory structure of the archive when extracting --- that is,
2039 * place each extracted file or directory tree directly in the target directory.
2040 * The target directory will still be created if it does not already exist.
2042 #define WIMLIB_EXTRACT_FLAG_NO_PRESERVE_DIR_STRUCTURE 0x00200000
2045 * Windows only: Extract files as "pointers" back to the WIM archive.
2047 * The effects of this option are fairly complex. See the documentation for the
2048 * <b>--wimboot</b> option of <b>wimapply</b> for more information.
2050 #define WIMLIB_EXTRACT_FLAG_WIMBOOT 0x00400000
2053 * Since wimlib v1.8.2 and Windows-only: compress the extracted files using
2054 * System Compression, when possible. This only works on either Windows 10 or
2055 * later, or on an older Windows to which Microsoft's wofadk.sys driver has been
2056 * added. Several different compression formats may be used with System
2057 * Compression; this particular flag selects the XPRESS compression format with
2060 #define WIMLIB_EXTRACT_FLAG_COMPACT_XPRESS4K 0x01000000
2062 /** Like ::WIMLIB_EXTRACT_FLAG_COMPACT_XPRESS4K, but use XPRESS compression with
2063 * 8192 byte chunks. */
2064 #define WIMLIB_EXTRACT_FLAG_COMPACT_XPRESS8K 0x02000000
2066 /** Like ::WIMLIB_EXTRACT_FLAG_COMPACT_XPRESS4K, but use XPRESS compression with
2067 * 16384 byte chunks. */
2068 #define WIMLIB_EXTRACT_FLAG_COMPACT_XPRESS16K 0x04000000
2070 /** Like ::WIMLIB_EXTRACT_FLAG_COMPACT_XPRESS4K, but use LZX compression with
2071 * 32768 byte chunks. */
2072 #define WIMLIB_EXTRACT_FLAG_COMPACT_LZX 0x08000000
2075 /** @addtogroup G_mounting_wim_images
2078 /** Mount the WIM image read-write rather than the default of read-only. */
2079 #define WIMLIB_MOUNT_FLAG_READWRITE 0x00000001
2081 /** Enable FUSE debugging by passing the @c -d option to @c fuse_main(). */
2082 #define WIMLIB_MOUNT_FLAG_DEBUG 0x00000002
2084 /** Do not allow accessing named data streams in the mounted WIM image. */
2085 #define WIMLIB_MOUNT_FLAG_STREAM_INTERFACE_NONE 0x00000004
2087 /** Access named data streams in the mounted WIM image through extended file
2088 * attributes named "user.X", where X is the name of a data stream. This is the
2090 #define WIMLIB_MOUNT_FLAG_STREAM_INTERFACE_XATTR 0x00000008
2092 /** Access named data streams in the mounted WIM image by specifying the file
2093 * name, a colon, then the name of the data stream. */
2094 #define WIMLIB_MOUNT_FLAG_STREAM_INTERFACE_WINDOWS 0x00000010
2096 /** Support UNIX owners, groups, modes, and special files. */
2097 #define WIMLIB_MOUNT_FLAG_UNIX_DATA 0x00000020
2099 /** Allow other users to see the mounted filesystem. This passes the @c
2100 * allow_other option to fuse_main(). */
2101 #define WIMLIB_MOUNT_FLAG_ALLOW_OTHER 0x00000040
2104 /** @addtogroup G_creating_and_opening_wims
2107 /** Verify the WIM contents against the WIM's integrity table, if present. The
2108 * integrity table stores checksums for the raw data of the WIM file, divided
2109 * into fixed size chunks. Verification will compute checksums and compare them
2110 * with the stored values. If there are any mismatches, then
2111 * ::WIMLIB_ERR_INTEGRITY will be issued. If the WIM file does not contain an
2112 * integrity table, then this flag has no effect. */
2113 #define WIMLIB_OPEN_FLAG_CHECK_INTEGRITY 0x00000001
2115 /** Issue an error (::WIMLIB_ERR_IS_SPLIT_WIM) if the WIM is part of a split
2116 * WIM. Software can provide this flag for convenience if it explicitly does
2117 * not want to support split WIMs. */
2118 #define WIMLIB_OPEN_FLAG_ERROR_IF_SPLIT 0x00000002
2120 /** Check if the WIM is writable and issue an error
2121 * (::WIMLIB_ERR_WIM_IS_READONLY) if it is not. A WIM is considered writable
2122 * only if it is writable at the filesystem level, does not have the
2123 * <c>WIM_HDR_FLAG_READONLY</c> flag set in its header, and is not part of a
2124 * spanned set. It is not required to provide this flag before attempting to
2125 * make changes to the WIM, but with this flag you get an error immediately
2126 * rather than potentially much later, when wimlib_overwrite() is finally
2128 #define WIMLIB_OPEN_FLAG_WRITE_ACCESS 0x00000004
2131 /** @addtogroup G_mounting_wim_images
2134 /** Provide ::WIMLIB_WRITE_FLAG_CHECK_INTEGRITY when committing the WIM image.
2135 * Ignored if ::WIMLIB_UNMOUNT_FLAG_COMMIT not also specified. */
2136 #define WIMLIB_UNMOUNT_FLAG_CHECK_INTEGRITY 0x00000001
2138 /** Commit changes to the read-write mounted WIM image.
2139 * If this flag is not specified, changes will be discarded. */
2140 #define WIMLIB_UNMOUNT_FLAG_COMMIT 0x00000002
2142 /** Provide ::WIMLIB_WRITE_FLAG_REBUILD when committing the WIM image.
2143 * Ignored if ::WIMLIB_UNMOUNT_FLAG_COMMIT not also specified. */
2144 #define WIMLIB_UNMOUNT_FLAG_REBUILD 0x00000004
2146 /** Provide ::WIMLIB_WRITE_FLAG_RECOMPRESS when committing the WIM image.
2147 * Ignored if ::WIMLIB_UNMOUNT_FLAG_COMMIT not also specified. */
2148 #define WIMLIB_UNMOUNT_FLAG_RECOMPRESS 0x00000008
2151 * In combination with ::WIMLIB_UNMOUNT_FLAG_COMMIT for a read-write mounted WIM
2152 * image, forces all file descriptors to the open WIM image to be closed before
2155 * Without ::WIMLIB_UNMOUNT_FLAG_COMMIT or with a read-only mounted WIM image,
2156 * this flag has no effect.
2158 #define WIMLIB_UNMOUNT_FLAG_FORCE 0x00000010
2160 /** In combination with ::WIMLIB_UNMOUNT_FLAG_COMMIT for a read-write mounted
2161 * WIM image, causes the modified image to be committed to the WIM file as a
2162 * new, unnamed image appended to the archive. The original image in the WIM
2163 * file will be unmodified. */
2164 #define WIMLIB_UNMOUNT_FLAG_NEW_IMAGE 0x00000020
2167 /** @addtogroup G_modifying_wims
2170 /** Send ::WIMLIB_PROGRESS_MSG_UPDATE_BEGIN_COMMAND and
2171 * ::WIMLIB_PROGRESS_MSG_UPDATE_END_COMMAND messages. */
2172 #define WIMLIB_UPDATE_FLAG_SEND_PROGRESS 0x00000001
2175 /** @addtogroup G_writing_and_overwriting_wims
2179 * Include an integrity table in the resulting WIM file.
2181 * For ::WIMStruct's created with wimlib_open_wim(), the default behavior is to
2182 * include an integrity table if and only if one was present before. For
2183 * ::WIMStruct's created with wimlib_create_new_wim(), the default behavior is
2184 * to not include an integrity table.
2186 #define WIMLIB_WRITE_FLAG_CHECK_INTEGRITY 0x00000001
2189 * Do not include an integrity table in the resulting WIM file. This is the
2190 * default behavior, unless the ::WIMStruct was created by opening a WIM with an
2193 #define WIMLIB_WRITE_FLAG_NO_CHECK_INTEGRITY 0x00000002
2196 * Write the WIM as "pipable". After writing a WIM with this flag specified,
2197 * images from it can be applied directly from a pipe using
2198 * wimlib_extract_image_from_pipe(). See the documentation for the
2199 * <b>--pipable</b> option of <b>wimcapture</b> for more information. Beware:
2200 * WIMs written with this flag will not be compatible with Microsoft's software.
2202 * For ::WIMStruct's created with wimlib_open_wim(), the default behavior is to
2203 * write the WIM as pipable if and only if it was pipable before. For
2204 * ::WIMStruct's created with wimlib_create_new_wim(), the default behavior is
2205 * to write the WIM as non-pipable.
2207 #define WIMLIB_WRITE_FLAG_PIPABLE 0x00000004
2210 * Do not write the WIM as "pipable". This is the default behavior, unless the
2211 * ::WIMStruct was created by opening a pipable WIM.
2213 #define WIMLIB_WRITE_FLAG_NOT_PIPABLE 0x00000008
2216 * When writing data to the WIM file, recompress it, even if the data is already
2217 * available in the desired compressed form (for example, in a WIM file from
2218 * which an image has been exported using wimlib_export_image()).
2220 * ::WIMLIB_WRITE_FLAG_RECOMPRESS can be used to recompress with a higher
2221 * compression ratio for the same compression type and chunk size. Simply using
2222 * the default compression settings may suffice for this, especially if the WIM
2223 * file was created using another program/library that may not use as
2224 * sophisticated compression algorithms. Or,
2225 * wimlib_set_default_compression_level() can be called beforehand to set an
2226 * even higher compression level than the default.
2228 * If the WIM contains solid resources, then ::WIMLIB_WRITE_FLAG_RECOMPRESS can
2229 * be used in combination with ::WIMLIB_WRITE_FLAG_SOLID to prevent any solid
2230 * resources from being re-used. Otherwise, solid resources are re-used
2231 * somewhat more liberally than normal compressed resources.
2233 * ::WIMLIB_WRITE_FLAG_RECOMPRESS does <b>not</b> cause recompression of data
2234 * that would not otherwise be written. For example, a call to
2235 * wimlib_overwrite() with ::WIMLIB_WRITE_FLAG_RECOMPRESS will not, by itself,
2236 * cause already-existing data in the WIM file to be recompressed. To force the
2237 * WIM file to be fully rebuilt and recompressed, combine
2238 * ::WIMLIB_WRITE_FLAG_RECOMPRESS with ::WIMLIB_WRITE_FLAG_REBUILD.
2240 #define WIMLIB_WRITE_FLAG_RECOMPRESS 0x00000010
2243 * Immediately before closing the WIM file, sync its data to disk.
2245 * This flag forces the function to wait until the data is safely on disk before
2246 * returning success. Otherwise, modern operating systems tend to cache data
2247 * for some time (in some cases, 30+ seconds) before actually writing it to
2248 * disk, even after reporting to the application that the writes have succeeded.
2250 * wimlib_overwrite() will set this flag automatically if it decides to
2251 * overwrite the WIM file via a temporary file instead of in-place. This is
2252 * necessary on POSIX systems; it will, for example, avoid problems with delayed
2253 * allocation on ext4.
2255 #define WIMLIB_WRITE_FLAG_FSYNC 0x00000020
2258 * For wimlib_overwrite(): rebuild the entire WIM file, even if it otherwise
2259 * could be updated in-place by appending to it. Any data that existed in the
2260 * original WIM file but is not actually needed by any of the remaining images
2261 * will not be included. This can free up space left over after previous
2262 * in-place modifications to the WIM file.
2264 * This flag can be combined with ::WIMLIB_WRITE_FLAG_RECOMPRESS to force all
2265 * data to be recompressed. Otherwise, compressed data is re-used if possible.
2267 * wimlib_write() ignores this flag.
2269 #define WIMLIB_WRITE_FLAG_REBUILD 0x00000040
2272 * For wimlib_overwrite(): override the default behavior after one or more calls
2273 * to wimlib_delete_image(), which is to rebuild the entire WIM file. With this
2274 * flag, only minimal changes to correctly remove the image from the WIM file
2275 * will be taken. This can be much faster, but it will result in the WIM file
2276 * getting larger rather than smaller.
2278 * wimlib_write() ignores this flag.
2280 #define WIMLIB_WRITE_FLAG_SOFT_DELETE 0x00000080
2283 * For wimlib_overwrite(), allow overwriting the WIM file even if the readonly
2284 * flag (<c>WIM_HDR_FLAG_READONLY</c>) is set in the WIM header. This can be
2285 * used following a call to wimlib_set_wim_info() with the
2286 * ::WIMLIB_CHANGE_READONLY_FLAG flag to actually set the readonly flag on the
2289 * wimlib_write() ignores this flag.
2291 #define WIMLIB_WRITE_FLAG_IGNORE_READONLY_FLAG 0x00000100
2294 * Do not include file data already present in other WIMs. This flag can be
2295 * used to write a "delta" WIM after the WIM files on which the delta is to be
2296 * based were referenced with wimlib_reference_resource_files() or
2297 * wimlib_reference_resources().
2299 #define WIMLIB_WRITE_FLAG_SKIP_EXTERNAL_WIMS 0x00000200
2301 /** Deprecated; this flag should not be used outside of the library itself. */
2302 #define WIMLIB_WRITE_FLAG_STREAMS_OK 0x00000400
2305 * For wimlib_write(), retain the WIM's GUID instead of generating a new one.
2307 * wimlib_overwrite() sets this by default, since the WIM remains, logically,
2310 #define WIMLIB_WRITE_FLAG_RETAIN_GUID 0x00000800
2313 * Concatenate files and compress them together, rather than compress each file
2314 * independently. This is also known as creating a "solid archive". This tends
2315 * to produce a better compression ratio at the cost of much slower random
2318 * WIM files created with this flag are only compatible with wimlib v1.6.0 or
2319 * later, WIMGAPI Windows 8 or later, and DISM Windows 8.1 or later. WIM files
2320 * created with this flag use a different version number in their header (3584
2321 * instead of 68864) and are also called "ESD files".
2323 * Note that providing this flag does not affect the "append by default"
2324 * behavior of wimlib_overwrite(). In other words, wimlib_overwrite() with just
2325 * ::WIMLIB_WRITE_FLAG_SOLID can be used to append solid-compressed data to a
2326 * WIM file that originally did not contain any solid-compressed data. But if
2327 * you instead want to rebuild and recompress an entire WIM file in solid mode,
2328 * then also provide ::WIMLIB_WRITE_FLAG_REBUILD and
2329 * ::WIMLIB_WRITE_FLAG_RECOMPRESS.
2331 * Currently, new solid resources will, by default, be written using LZMS
2332 * compression with 64 MiB (67108864 byte) chunks. Use
2333 * wimlib_set_output_pack_compression_type() and/or
2334 * wimlib_set_output_pack_chunk_size() to change this. This is independent of
2335 * the WIM's main compression type and chunk size; you can have a WIM that
2336 * nominally uses LZX compression and 32768 byte chunks but actually contains
2337 * LZMS-compressed solid resources, for example. However, if including solid
2338 * resources, I suggest that you set the WIM's main compression type to LZMS as
2339 * well, either by creating the WIM with
2340 * ::wimlib_create_new_wim(::WIMLIB_COMPRESSION_TYPE_LZMS, ...) or by calling
2341 * ::wimlib_set_output_compression_type(..., ::WIMLIB_COMPRESSION_TYPE_LZMS).
2343 * This flag will be set by default when writing or overwriting a WIM file that
2344 * either already contains solid resources, or has had solid resources exported
2345 * into it and the WIM's main compression type is LZMS.
2347 #define WIMLIB_WRITE_FLAG_SOLID 0x00001000
2350 * Send ::WIMLIB_PROGRESS_MSG_DONE_WITH_FILE messages while writing the WIM
2351 * file. This is only needed in the unusual case that the library user needs to
2352 * know exactly when wimlib has read each file for the last time.
2354 #define WIMLIB_WRITE_FLAG_SEND_DONE_WITH_FILE_MESSAGES 0x00002000
2357 * Do not consider content similarity when arranging file data for solid
2358 * compression. Providing this flag will typically worsen the compression
2359 * ratio, so only provide this flag if you know what you are doing.
2361 #define WIMLIB_WRITE_FLAG_NO_SOLID_SORT 0x00004000
2364 * Since wimlib v1.8.3 and for wimlib_overwrite() only: <b>unsafely</b> compact
2365 * the WIM file in-place, without appending. Existing resources are shifted
2366 * down to fill holes and new resources are appended as needed. The WIM file is
2367 * truncated to its final size, which may shrink the on-disk file. <b>This
2368 * operation cannot be safely interrupted. If the operation is interrupted,
2369 * then the WIM file will be corrupted, and it may be impossible (or at least
2370 * very difficult) to recover any data from it. Users of this flag are expected
2371 * to know what they are doing and assume responsibility for any data corruption
2372 * that may result.</b>
2374 * If the WIM file cannot be compacted in-place because of its structure, its
2375 * layout, or other requested write parameters, then wimlib_overwrite() fails
2376 * with ::WIMLIB_ERR_COMPACTION_NOT_POSSIBLE, and the caller may wish to retry
2377 * the operation without this flag.
2379 #define WIMLIB_WRITE_FLAG_UNSAFE_COMPACT 0x00008000
2382 /** @addtogroup G_general
2385 /** Deprecated; no longer has any effect. */
2386 #define WIMLIB_INIT_FLAG_ASSUME_UTF8 0x00000001
2388 /** Windows-only: do not attempt to acquire additional privileges (currently
2389 * SeBackupPrivilege, SeRestorePrivilege, SeSecurityPrivilege,
2390 * SeTakeOwnershipPrivilege, and SeManageVolumePrivilege) when initializing the
2391 * library. This flag is intended for the case where the calling program
2392 * manages these privileges itself. Note: by default, no error is issued if
2393 * privileges cannot be acquired, although related errors may be reported later,
2394 * depending on if the operations performed actually require additional
2395 * privileges or not. */
2396 #define WIMLIB_INIT_FLAG_DONT_ACQUIRE_PRIVILEGES 0x00000002
2398 /** Windows only: If ::WIMLIB_INIT_FLAG_DONT_ACQUIRE_PRIVILEGES not specified,
2399 * return ::WIMLIB_ERR_INSUFFICIENT_PRIVILEGES if privileges that may be needed
2400 * to read all possible data and metadata for a capture operation could not be
2401 * acquired. Can be combined with ::WIMLIB_INIT_FLAG_STRICT_APPLY_PRIVILEGES.
2403 #define WIMLIB_INIT_FLAG_STRICT_CAPTURE_PRIVILEGES 0x00000004
2405 /** Windows only: If ::WIMLIB_INIT_FLAG_DONT_ACQUIRE_PRIVILEGES not specified,
2406 * return ::WIMLIB_ERR_INSUFFICIENT_PRIVILEGES if privileges that may be needed
2407 * to restore all possible data and metadata for an apply operation could not be
2408 * acquired. Can be combined with ::WIMLIB_INIT_FLAG_STRICT_CAPTURE_PRIVILEGES.
2410 #define WIMLIB_INIT_FLAG_STRICT_APPLY_PRIVILEGES 0x00000008
2412 /** Default to interpreting WIM paths case sensitively (default on UNIX-like
2414 #define WIMLIB_INIT_FLAG_DEFAULT_CASE_SENSITIVE 0x00000010
2416 /** Default to interpreting WIM paths case insensitively (default on Windows).
2417 * This does not apply to mounted images. */
2418 #define WIMLIB_INIT_FLAG_DEFAULT_CASE_INSENSITIVE 0x00000020
2421 /** @addtogroup G_nonstandalone_wims
2424 /** For wimlib_reference_resource_files(), enable shell-style filename globbing.
2425 * Ignored by wimlib_reference_resources(). */
2426 #define WIMLIB_REF_FLAG_GLOB_ENABLE 0x00000001
2428 /** For wimlib_reference_resource_files(), issue an error
2429 * (::WIMLIB_ERR_GLOB_HAD_NO_MATCHES) if a glob did not match any files. The
2430 * default behavior without this flag is to issue no error at that point, but
2431 * then attempt to open the glob as a literal path, which of course will fail
2432 * anyway if no file exists at that path. No effect if
2433 * ::WIMLIB_REF_FLAG_GLOB_ENABLE is not also specified. Ignored by
2434 * wimlib_reference_resources(). */
2435 #define WIMLIB_REF_FLAG_GLOB_ERR_ON_NOMATCH 0x00000002
2438 /** @addtogroup G_modifying_wims
2441 /** The specific type of update to perform. */
2442 enum wimlib_update_op {
2443 /** Add a new file or directory tree to the image. */
2444 WIMLIB_UPDATE_OP_ADD = 0,
2446 /** Delete a file or directory tree from the image. */
2447 WIMLIB_UPDATE_OP_DELETE = 1,
2449 /** Rename a file or directory tree in the image. */
2450 WIMLIB_UPDATE_OP_RENAME = 2,
2453 /** Data for a ::WIMLIB_UPDATE_OP_ADD operation. */
2454 struct wimlib_add_command {
2455 /** Filesystem path to the file or directory tree to add. */
2456 wimlib_tchar *fs_source_path;
2458 /** Destination path in the image. To specify the root directory of the
2459 * image, use ::WIMLIB_WIM_ROOT_PATH. */
2460 wimlib_tchar *wim_target_path;
2462 /** Path to capture configuration file to use, or @c NULL if not
2464 wimlib_tchar *config_file;
2466 /** Bitwise OR of WIMLIB_ADD_FLAG_* flags. */
2470 /** Data for a ::WIMLIB_UPDATE_OP_DELETE operation. */
2471 struct wimlib_delete_command {
2473 /** The path to the file or directory within the image to delete. */
2474 wimlib_tchar *wim_path;
2476 /** Bitwise OR of WIMLIB_DELETE_FLAG_* flags. */
2480 /** Data for a ::WIMLIB_UPDATE_OP_RENAME operation. */
2481 struct wimlib_rename_command {
2483 /** The path to the source file or directory within the image. */
2484 wimlib_tchar *wim_source_path;
2486 /** The path to the destination file or directory within the image. */
2487 wimlib_tchar *wim_target_path;
2489 /** Reserved; set to 0. */
2493 /** Specification of an update to perform on a WIM image. */
2494 struct wimlib_update_command {
2496 enum wimlib_update_op op;
2499 struct wimlib_add_command add;
2500 struct wimlib_delete_command delete_; /* Underscore is for C++
2502 struct wimlib_rename_command rename;
2507 /** @addtogroup G_general
2511 * Possible values of the error code returned by many functions in wimlib.
2513 * See the documentation for each wimlib function to see specifically what error
2514 * codes can be returned by a given function, and what they mean.
2516 enum wimlib_error_code {
2517 WIMLIB_ERR_SUCCESS = 0,
2518 WIMLIB_ERR_ALREADY_LOCKED = 1,
2519 WIMLIB_ERR_DECOMPRESSION = 2,
2520 WIMLIB_ERR_FUSE = 6,
2521 WIMLIB_ERR_GLOB_HAD_NO_MATCHES = 8,
2522 WIMLIB_ERR_IMAGE_COUNT = 10,
2523 WIMLIB_ERR_IMAGE_NAME_COLLISION = 11,
2524 WIMLIB_ERR_INSUFFICIENT_PRIVILEGES = 12,
2525 WIMLIB_ERR_INTEGRITY = 13,
2526 WIMLIB_ERR_INVALID_CAPTURE_CONFIG = 14,
2527 WIMLIB_ERR_INVALID_CHUNK_SIZE = 15,
2528 WIMLIB_ERR_INVALID_COMPRESSION_TYPE = 16,
2529 WIMLIB_ERR_INVALID_HEADER = 17,
2530 WIMLIB_ERR_INVALID_IMAGE = 18,
2531 WIMLIB_ERR_INVALID_INTEGRITY_TABLE = 19,
2532 WIMLIB_ERR_INVALID_LOOKUP_TABLE_ENTRY = 20,
2533 WIMLIB_ERR_INVALID_METADATA_RESOURCE = 21,
2534 WIMLIB_ERR_INVALID_OVERLAY = 23,
2535 WIMLIB_ERR_INVALID_PARAM = 24,
2536 WIMLIB_ERR_INVALID_PART_NUMBER = 25,
2537 WIMLIB_ERR_INVALID_PIPABLE_WIM = 26,
2538 WIMLIB_ERR_INVALID_REPARSE_DATA = 27,
2539 WIMLIB_ERR_INVALID_RESOURCE_HASH = 28,
2540 WIMLIB_ERR_INVALID_UTF16_STRING = 30,
2541 WIMLIB_ERR_INVALID_UTF8_STRING = 31,
2542 WIMLIB_ERR_IS_DIRECTORY = 32,
2543 WIMLIB_ERR_IS_SPLIT_WIM = 33,
2544 WIMLIB_ERR_LINK = 35,
2545 WIMLIB_ERR_METADATA_NOT_FOUND = 36,
2546 WIMLIB_ERR_MKDIR = 37,
2547 WIMLIB_ERR_MQUEUE = 38,
2548 WIMLIB_ERR_NOMEM = 39,
2549 WIMLIB_ERR_NOTDIR = 40,
2550 WIMLIB_ERR_NOTEMPTY = 41,
2551 WIMLIB_ERR_NOT_A_REGULAR_FILE = 42,
2552 WIMLIB_ERR_NOT_A_WIM_FILE = 43,
2553 WIMLIB_ERR_NOT_PIPABLE = 44,
2554 WIMLIB_ERR_NO_FILENAME = 45,
2555 WIMLIB_ERR_NTFS_3G = 46,
2556 WIMLIB_ERR_OPEN = 47,
2557 WIMLIB_ERR_OPENDIR = 48,
2558 WIMLIB_ERR_PATH_DOES_NOT_EXIST = 49,
2559 WIMLIB_ERR_READ = 50,
2560 WIMLIB_ERR_READLINK = 51,
2561 WIMLIB_ERR_RENAME = 52,
2562 WIMLIB_ERR_REPARSE_POINT_FIXUP_FAILED = 54,
2563 WIMLIB_ERR_RESOURCE_NOT_FOUND = 55,
2564 WIMLIB_ERR_RESOURCE_ORDER = 56,
2565 WIMLIB_ERR_SET_ATTRIBUTES = 57,
2566 WIMLIB_ERR_SET_REPARSE_DATA = 58,
2567 WIMLIB_ERR_SET_SECURITY = 59,
2568 WIMLIB_ERR_SET_SHORT_NAME = 60,
2569 WIMLIB_ERR_SET_TIMESTAMPS = 61,
2570 WIMLIB_ERR_SPLIT_INVALID = 62,
2571 WIMLIB_ERR_STAT = 63,
2572 WIMLIB_ERR_UNEXPECTED_END_OF_FILE = 65,
2573 WIMLIB_ERR_UNICODE_STRING_NOT_REPRESENTABLE = 66,
2574 WIMLIB_ERR_UNKNOWN_VERSION = 67,
2575 WIMLIB_ERR_UNSUPPORTED = 68,
2576 WIMLIB_ERR_UNSUPPORTED_FILE = 69,
2577 WIMLIB_ERR_WIM_IS_READONLY = 71,
2578 WIMLIB_ERR_WRITE = 72,
2579 WIMLIB_ERR_XML = 73,
2580 WIMLIB_ERR_WIM_IS_ENCRYPTED = 74,
2581 WIMLIB_ERR_WIMBOOT = 75,
2582 WIMLIB_ERR_ABORTED_BY_PROGRESS = 76,
2583 WIMLIB_ERR_UNKNOWN_PROGRESS_STATUS = 77,
2584 WIMLIB_ERR_MKNOD = 78,
2585 WIMLIB_ERR_MOUNTED_IMAGE_IS_BUSY = 79,
2586 WIMLIB_ERR_NOT_A_MOUNTPOINT = 80,
2587 WIMLIB_ERR_NOT_PERMITTED_TO_UNMOUNT = 81,
2588 WIMLIB_ERR_FVE_LOCKED_VOLUME = 82,
2589 WIMLIB_ERR_UNABLE_TO_READ_CAPTURE_CONFIG = 83,
2590 WIMLIB_ERR_WIM_IS_INCOMPLETE = 84,
2591 WIMLIB_ERR_COMPACTION_NOT_POSSIBLE = 85,
2592 WIMLIB_ERR_IMAGE_HAS_MULTIPLE_REFERENCES = 86,
2593 WIMLIB_ERR_DUPLICATE_EXPORTED_IMAGE = 87,
2594 WIMLIB_ERR_CONCURRENT_MODIFICATION_DETECTED = 88,
2595 WIMLIB_ERR_SNAPSHOT_FAILURE = 89,
2596 WIMLIB_ERR_INVALID_XATTR = 90,
2597 WIMLIB_ERR_SET_XATTR = 91,
2601 /** Used to indicate no image or an invalid image. */
2602 #define WIMLIB_NO_IMAGE 0
2604 /** Used to specify all images in the WIM. */
2605 #define WIMLIB_ALL_IMAGES (-1)
2610 * @ingroup G_modifying_wims
2612 * Append an empty image to a ::WIMStruct.
2614 * The new image will initially contain no files or directories, although if
2615 * written without further modifications, then a root directory will be created
2616 * automatically for it.
2618 * After calling this function, you can use wimlib_update_image() to add files
2619 * to the new image. This gives you more control over making the new image
2620 * compared to calling wimlib_add_image() or wimlib_add_image_multisource().
2623 * Pointer to the ::WIMStruct to which to add the image.
2625 * Name to give the new image. If @c NULL or empty, the new image is given
2626 * no name. If nonempty, it must specify a name that does not already
2628 * @param new_idx_ret
2629 * If non-<c>NULL</c>, the index of the newly added image is returned in
2632 * @return 0 on success; a ::wimlib_error_code value on failure.
2634 * @retval ::WIMLIB_ERR_IMAGE_NAME_COLLISION
2635 * The WIM already contains an image with the requested name.
2638 wimlib_add_empty_image(WIMStruct *wim,
2639 const wimlib_tchar *name,
2643 * @ingroup G_modifying_wims
2645 * Add an image to a ::WIMStruct from an on-disk directory tree or NTFS volume.
2647 * The directory tree or NTFS volume is scanned immediately to load the dentry
2648 * tree into memory, and file metadata is read. However, actual file data may
2649 * not be read until the ::WIMStruct is persisted to disk using wimlib_write()
2650 * or wimlib_overwrite().
2652 * See the documentation for the @b wimlib-imagex program for more information
2653 * about the "normal" capture mode versus the NTFS capture mode (entered by
2654 * providing the flag ::WIMLIB_ADD_FLAG_NTFS).
2656 * Note that no changes are committed to disk until wimlib_write() or
2657 * wimlib_overwrite() is called.
2660 * Pointer to the ::WIMStruct to which to add the image.
2662 * A path to a directory or unmounted NTFS volume that will be captured as
2665 * Name to give the new image. If @c NULL or empty, the new image is given
2666 * no name. If nonempty, it must specify a name that does not already
2668 * @param config_file
2669 * Path to capture configuration file, or @c NULL. This file may specify,
2670 * among other things, which files to exclude from capture. See the
2671 * documentation for <b>wimcapture</b> (<b>--config</b> option) for details
2672 * of the file format. If @c NULL, the default capture configuration will
2673 * be used. Ordinarily, the default capture configuration will result in
2674 * no files being excluded from capture purely based on name; however, the
2675 * ::WIMLIB_ADD_FLAG_WINCONFIG and ::WIMLIB_ADD_FLAG_WIMBOOT flags modify
2678 * Bitwise OR of flags prefixed with WIMLIB_ADD_FLAG.
2680 * @return 0 on success; a ::wimlib_error_code value on failure.
2682 * This function is implemented by calling wimlib_add_empty_image(), then
2683 * calling wimlib_update_image() with a single "add" command, so any error code
2684 * returned by wimlib_add_empty_image() may be returned, as well as any error
2685 * codes returned by wimlib_update_image() other than ones documented as only
2686 * being returned specifically by an update involving delete or rename commands.
2688 * If a progress function is registered with @p wim, then it will receive the
2689 * messages ::WIMLIB_PROGRESS_MSG_SCAN_BEGIN and ::WIMLIB_PROGRESS_MSG_SCAN_END.
2690 * In addition, if ::WIMLIB_ADD_FLAG_VERBOSE is specified in @p add_flags, it
2691 * will receive ::WIMLIB_PROGRESS_MSG_SCAN_DENTRY.
2694 wimlib_add_image(WIMStruct *wim,
2695 const wimlib_tchar *source,
2696 const wimlib_tchar *name,
2697 const wimlib_tchar *config_file,
2701 * @ingroup G_modifying_wims
2703 * This function is equivalent to wimlib_add_image() except it allows for
2704 * multiple sources to be combined into a single WIM image. This is done by
2705 * specifying the @p sources and @p num_sources parameters instead of the @p
2706 * source parameter of wimlib_add_image(). The rest of the parameters are the
2707 * same as wimlib_add_image(). See the documentation for <b>wimcapture</b> for
2708 * full details on how this mode works.
2711 wimlib_add_image_multisource(WIMStruct *wim,
2712 const struct wimlib_capture_source *sources,
2714 const wimlib_tchar *name,
2715 const wimlib_tchar *config_file,
2719 * @ingroup G_modifying_wims
2721 * Add the file or directory tree at @p fs_source_path on the filesystem to the
2722 * location @p wim_target_path within the specified @p image of the @p wim.
2724 * This just builds an appropriate ::wimlib_add_command and passes it to
2725 * wimlib_update_image().
2728 wimlib_add_tree(WIMStruct *wim, int image,
2729 const wimlib_tchar *fs_source_path,
2730 const wimlib_tchar *wim_target_path, int add_flags);
2733 * @ingroup G_creating_and_opening_wims
2735 * Create a ::WIMStruct which initially contains no images and is not backed by
2739 * The "output compression type" to assign to the ::WIMStruct. This is the
2740 * compression type that will be used if the ::WIMStruct is later persisted
2741 * to an on-disk file using wimlib_write().
2743 * This choice is not necessarily final. If desired, it can still be
2744 * changed at any time before wimlib_write() is called, using
2745 * wimlib_set_output_compression_type(). In addition, if you wish to use a
2746 * non-default compression chunk size, then you will need to call
2747 * wimlib_set_output_chunk_size().
2749 * On success, a pointer to the new ::WIMStruct is written to the memory
2750 * location pointed to by this parameter. This ::WIMStruct must be freed
2751 * using wimlib_free() when finished with it.
2753 * @return 0 on success; a ::wimlib_error_code value on failure.
2755 * @retval ::WIMLIB_ERR_INVALID_COMPRESSION_TYPE
2756 * @p ctype was not a supported compression type.
2757 * @retval ::WIMLIB_ERR_NOMEM
2758 * Insufficient memory to allocate a new ::WIMStruct.
2761 wimlib_create_new_wim(enum wimlib_compression_type ctype, WIMStruct **wim_ret);
2764 * @ingroup G_modifying_wims
2766 * Delete an image, or all images, from a ::WIMStruct.
2768 * Note that no changes are committed to disk until wimlib_write() or
2769 * wimlib_overwrite() is called.
2772 * Pointer to the ::WIMStruct from which to delete the image.
2774 * The 1-based index of the image to delete, or ::WIMLIB_ALL_IMAGES to
2775 * delete all images.
2777 * @return 0 on success; a ::wimlib_error_code value on failure.
2779 * @retval ::WIMLIB_ERR_INVALID_IMAGE
2780 * @p image does not exist in the WIM.
2782 * This function can additionally return ::WIMLIB_ERR_DECOMPRESSION,
2783 * ::WIMLIB_ERR_INVALID_METADATA_RESOURCE, ::WIMLIB_ERR_METADATA_NOT_FOUND,
2784 * ::WIMLIB_ERR_READ, or ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE, all of which
2785 * indicate failure (for different reasons) to read the metadata resource for an
2786 * image that needed to be deleted.
2788 * If this function fails when @p image was ::WIMLIB_ALL_IMAGES, then it's
2789 * possible that some but not all of the images were deleted.
2792 wimlib_delete_image(WIMStruct *wim, int image);
2795 * @ingroup G_modifying_wims
2797 * Delete the @p path from the specified @p image of the @p wim.
2799 * This just builds an appropriate ::wimlib_delete_command and passes it to
2800 * wimlib_update_image().
2803 wimlib_delete_path(WIMStruct *wim, int image,
2804 const wimlib_tchar *path, int delete_flags);
2807 * @ingroup G_modifying_wims
2809 * Export an image, or all images, from a ::WIMStruct into another ::WIMStruct.
2811 * Specifically, if the destination ::WIMStruct contains <tt>n</tt> images, then
2812 * the source image(s) will be appended, in order, starting at destination index
2813 * <tt>n + 1</tt>. By default, all image metadata will be exported verbatim,
2814 * but certain changes can be made by passing appropriate parameters.
2816 * wimlib_export_image() is only an in-memory operation; no changes are
2817 * committed to disk until wimlib_write() or wimlib_overwrite() is called.
2819 * A limitation of the current implementation of wimlib_export_image() is that
2820 * the directory tree of a source or destination image cannot be updated
2821 * following an export until one of the two images has been freed from memory.
2824 * The WIM from which to export the images, specified as a pointer to the
2825 * ::WIMStruct for a standalone WIM file, a delta WIM file, or part 1 of a
2826 * split WIM. In the case of a WIM file that is not standalone, this
2827 * ::WIMStruct must have had any needed external resources previously
2828 * referenced using wimlib_reference_resources() or
2829 * wimlib_reference_resource_files().
2831 * The 1-based index of the image from @p src_wim to export, or
2832 * ::WIMLIB_ALL_IMAGES.
2834 * The ::WIMStruct to which to export the images.
2836 * For single-image exports, the name to give the exported image in @p
2837 * dest_wim. If left @c NULL, the name from @p src_wim is used. For
2838 * ::WIMLIB_ALL_IMAGES exports, this parameter must be left @c NULL; in
2839 * that case, the names are all taken from @p src_wim. This parameter is
2840 * overridden by ::WIMLIB_EXPORT_FLAG_NO_NAMES.
2841 * @param dest_description
2842 * For single-image exports, the description to give the exported image in
2843 * the new WIM file. If left @c NULL, the description from @p src_wim is
2844 * used. For ::WIMLIB_ALL_IMAGES exports, this parameter must be left @c
2845 * NULL; in that case, the description are all taken from @p src_wim. This
2846 * parameter is overridden by ::WIMLIB_EXPORT_FLAG_NO_DESCRIPTIONS.
2847 * @param export_flags
2848 * Bitwise OR of flags prefixed with WIMLIB_EXPORT_FLAG.
2850 * @return 0 on success; a ::wimlib_error_code value on failure.
2852 * @retval ::WIMLIB_ERR_DUPLICATE_EXPORTED_IMAGE
2853 * One or more of the source images had already been exported into the
2855 * @retval ::WIMLIB_ERR_IMAGE_NAME_COLLISION
2856 * One or more of the names being given to an exported image was already in
2857 * use in the destination WIM.
2858 * @retval ::WIMLIB_ERR_INVALID_IMAGE
2859 * @p src_image does not exist in @p src_wim.
2860 * @retval ::WIMLIB_ERR_METADATA_NOT_FOUND
2861 * At least one of @p src_wim and @p dest_wim does not contain image
2862 * metadata; for example, one of them represents a non-first part of a
2864 * @retval ::WIMLIB_ERR_RESOURCE_NOT_FOUND
2865 * A file data blob that needed to be exported could not be found in the
2866 * blob lookup table of @p src_wim. See @ref G_nonstandalone_wims.
2868 * This function can additionally return ::WIMLIB_ERR_DECOMPRESSION,
2869 * ::WIMLIB_ERR_INVALID_METADATA_RESOURCE, ::WIMLIB_ERR_METADATA_NOT_FOUND,
2870 * ::WIMLIB_ERR_READ, or ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE, all of which
2871 * indicate failure (for different reasons) to read the metadata resource for an
2872 * image in @p src_wim that needed to be exported.
2875 wimlib_export_image(WIMStruct *src_wim, int src_image,
2876 WIMStruct *dest_wim,
2877 const wimlib_tchar *dest_name,
2878 const wimlib_tchar *dest_description,
2882 * @ingroup G_extracting_wims
2884 * Extract an image, or all images, from a ::WIMStruct.
2886 * The exact behavior of how wimlib extracts files from a WIM image is
2887 * controllable by the @p extract_flags parameter, but there also are
2888 * differences depending on the platform (UNIX-like vs Windows). See the
2889 * documentation for <b>wimapply</b> for more information, including about the
2890 * NTFS-3G extraction mode.
2893 * The WIM from which to extract the image(s), specified as a pointer to the
2894 * ::WIMStruct for a standalone WIM file, a delta WIM file, or part 1 of a
2895 * split WIM. In the case of a WIM file that is not standalone, this
2896 * ::WIMStruct must have had any needed external resources previously
2897 * referenced using wimlib_reference_resources() or
2898 * wimlib_reference_resource_files().
2900 * The 1-based index of the image to extract, or ::WIMLIB_ALL_IMAGES to
2901 * extract all images. Note: ::WIMLIB_ALL_IMAGES is unsupported in NTFS-3G
2904 * A null-terminated string which names the location to which the image(s)
2905 * will be extracted. By default, this is interpreted as a path to a
2906 * directory. Alternatively, if ::WIMLIB_EXTRACT_FLAG_NTFS is specified in
2907 * @p extract_flags, then this is interpreted as a path to an unmounted
2909 * @param extract_flags
2910 * Bitwise OR of flags prefixed with WIMLIB_EXTRACT_FLAG.
2912 * @return 0 on success; a ::wimlib_error_code value on failure.
2914 * @retval ::WIMLIB_ERR_DECOMPRESSION
2915 * The WIM file contains invalid compressed data.
2916 * @retval ::WIMLIB_ERR_INVALID_IMAGE
2917 * @p image does not exist in @p wim.
2918 * @retval ::WIMLIB_ERR_INVALID_METADATA_RESOURCE
2919 * The metadata for an image to extract was invalid.
2920 * @retval ::WIMLIB_ERR_INVALID_PARAM
2921 * The extraction flags were invalid; more details may be found in the
2922 * documentation for the specific extraction flags that were specified. Or
2923 * @p target was @c NULL or an empty string, or @p wim was @c NULL.
2924 * @retval ::WIMLIB_ERR_INVALID_RESOURCE_HASH
2925 * The data of a file that needed to be extracted was corrupt.
2926 * @retval ::WIMLIB_ERR_LINK
2927 * Failed to create a symbolic link or a hard link.
2928 * @retval ::WIMLIB_ERR_METADATA_NOT_FOUND
2929 * @p wim does not contain image metadata; for example, it represents a
2930 * non-first part of a split WIM.
2931 * @retval ::WIMLIB_ERR_MKDIR
2932 * Failed create a directory.
2933 * @retval ::WIMLIB_ERR_NTFS_3G
2934 * libntfs-3g reported that a problem occurred while writing to the NTFS
2936 * @retval ::WIMLIB_ERR_OPEN
2937 * Could not create a file, or failed to open an already-extracted file.
2938 * @retval ::WIMLIB_ERR_READ
2939 * Failed to read data from the WIM.
2940 * @retval ::WIMLIB_ERR_READLINK
2941 * Failed to determine the target of a symbolic link in the WIM.
2942 * @retval ::WIMLIB_ERR_REPARSE_POINT_FIXUP_FAILED
2943 * Failed to fix the target of an absolute symbolic link (e.g. if the
2944 * target would have exceeded the maximum allowed length). (Only if
2945 * reparse data was supported by the extraction mode and
2946 * ::WIMLIB_EXTRACT_FLAG_STRICT_SYMLINKS was specified in @p
2948 * @retval ::WIMLIB_ERR_RESOURCE_NOT_FOUND
2949 * A file data blob that needed to be extracted could not be found in the
2950 * blob lookup table of @p wim. See @ref G_nonstandalone_wims.
2951 * @retval ::WIMLIB_ERR_SET_ATTRIBUTES
2952 * Failed to set attributes on a file.
2953 * @retval ::WIMLIB_ERR_SET_REPARSE_DATA
2954 * Failed to set reparse data on a file (only if reparse data was supported
2955 * by the extraction mode).
2956 * @retval ::WIMLIB_ERR_SET_SECURITY
2957 * Failed to set security descriptor on a file.
2958 * @retval ::WIMLIB_ERR_SET_SHORT_NAME
2959 * Failed to set the short name of a file.
2960 * @retval ::WIMLIB_ERR_SET_TIMESTAMPS
2961 * Failed to set timestamps on a file.
2962 * @retval ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE
2963 * Unexpected end-of-file occurred when reading data from the WIM.
2964 * @retval ::WIMLIB_ERR_UNSUPPORTED
2965 * A requested extraction flag, or the data or metadata that must be
2966 * extracted to support it, is unsupported in the build and configuration
2967 * of wimlib, or on the current platform or extraction mode or target
2968 * volume. Flags affected by this include ::WIMLIB_EXTRACT_FLAG_NTFS,
2969 * ::WIMLIB_EXTRACT_FLAG_UNIX_DATA, ::WIMLIB_EXTRACT_FLAG_STRICT_ACLS,
2970 * ::WIMLIB_EXTRACT_FLAG_STRICT_SHORT_NAMES,
2971 * ::WIMLIB_EXTRACT_FLAG_STRICT_TIMESTAMPS, and
2972 * ::WIMLIB_EXTRACT_FLAG_STRICT_SYMLINKS. For example, if
2973 * ::WIMLIB_EXTRACT_FLAG_STRICT_SHORT_NAMES is specified in @p
2974 * extract_flags, ::WIMLIB_ERR_UNSUPPORTED will be returned if the WIM
2975 * image contains one or more files with short names, but extracting short
2976 * names is not supported --- on Windows, this occurs if the target volume
2977 * does not support short names, while on non-Windows, this occurs if
2978 * ::WIMLIB_EXTRACT_FLAG_NTFS was not specified in @p extract_flags.
2979 * @retval ::WIMLIB_ERR_WIMBOOT
2980 * ::WIMLIB_EXTRACT_FLAG_WIMBOOT was specified in @p extract_flags, but
2981 * there was a problem creating WIMBoot pointer files or registering a
2982 * source WIM file with the Windows Overlay Filesystem (WOF) driver.
2983 * @retval ::WIMLIB_ERR_WRITE
2984 * Failed to write data to a file being extracted.
2986 * If a progress function is registered with @p wim, then as each image is
2987 * extracted it will receive ::WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_BEGIN, then
2988 * zero or more ::WIMLIB_PROGRESS_MSG_EXTRACT_FILE_STRUCTURE messages, then zero
2989 * or more ::WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS messages, then zero or more
2990 * ::WIMLIB_PROGRESS_MSG_EXTRACT_METADATA messages, then
2991 * ::WIMLIB_PROGRESS_MSG_EXTRACT_IMAGE_END.
2994 wimlib_extract_image(WIMStruct *wim, int image,
2995 const wimlib_tchar *target, int extract_flags);
2998 * @ingroup G_extracting_wims
3000 * Extract one image from a pipe on which a pipable WIM is being sent.
3002 * See the documentation for ::WIMLIB_WRITE_FLAG_PIPABLE, and @ref
3003 * subsec_pipable_wims, for more information about pipable WIMs.
3005 * This function operates in a special way to read the WIM fully sequentially.
3006 * As a result, there is no ::WIMStruct is made visible to library users, and
3007 * you cannot call wimlib_open_wim() on the pipe. (You can, however, use
3008 * wimlib_open_wim() to transparently open a pipable WIM if it's available as a
3009 * seekable file, not a pipe.)
3012 * File descriptor, which may be a pipe, opened for reading and positioned
3013 * at the start of the pipable WIM.
3014 * @param image_num_or_name
3015 * String that specifies the 1-based index or name of the image to extract.
3016 * It is translated to an image index using the same rules that
3017 * wimlib_resolve_image() uses. However, unlike wimlib_extract_image(),
3018 * only a single image (not all images) can be specified. Alternatively,
3019 * specify @p NULL here to use the first image in the WIM if it contains
3020 * exactly one image but otherwise return ::WIMLIB_ERR_INVALID_IMAGE.
3022 * Same as the corresponding parameter to wimlib_extract_image().
3023 * @param extract_flags
3024 * Same as the corresponding parameter to wimlib_extract_image().
3026 * @return 0 on success; a ::wimlib_error_code value on failure. The possible
3027 * error codes include those returned by wimlib_extract_image() and
3028 * wimlib_open_wim() as well as the following:
3030 * @retval ::WIMLIB_ERR_INVALID_PIPABLE_WIM
3031 * Data read from the pipable WIM was invalid.
3032 * @retval ::WIMLIB_ERR_NOT_PIPABLE
3033 * The WIM being piped over @p pipe_fd is a normal WIM, not a pipable WIM.
3036 wimlib_extract_image_from_pipe(int pipe_fd,
3037 const wimlib_tchar *image_num_or_name,
3038 const wimlib_tchar *target, int extract_flags);
3041 * @ingroup G_extracting_wims
3043 * Same as wimlib_extract_image_from_pipe(), but allows specifying a progress
3044 * function. The progress function will be used while extracting the image and
3045 * will receive the normal extraction progress messages, such as
3046 * ::WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS, in addition to
3047 * ::WIMLIB_PROGRESS_MSG_EXTRACT_SPWM_PART_BEGIN.
3050 wimlib_extract_image_from_pipe_with_progress(int pipe_fd,
3051 const wimlib_tchar *image_num_or_name,
3052 const wimlib_tchar *target,
3054 wimlib_progress_func_t progfunc,
3058 * @ingroup G_extracting_wims
3060 * Similar to wimlib_extract_paths(), but the paths to extract from the WIM
3061 * image are specified in the ASCII, UTF-8, or UTF-16LE text file named by @p
3062 * path_list_file which itself contains the list of paths to use, one per line.
3063 * Leading and trailing whitespace is ignored. Empty lines and lines beginning
3064 * with the ';' or '#' characters are ignored. No quotes are needed, as paths
3065 * are otherwise delimited by the newline character. However, quotes will be
3066 * stripped if present.
3068 * If @p path_list_file is @c NULL, then the pathlist file is read from standard
3071 * The error codes are the same as those returned by wimlib_extract_paths(),
3072 * except that wimlib_extract_pathlist() returns an appropriate error code if it
3073 * cannot read the path list file (e.g. ::WIMLIB_ERR_OPEN, ::WIMLIB_ERR_STAT,
3074 * ::WIMLIB_ERR_READ).
3077 wimlib_extract_pathlist(WIMStruct *wim, int image,
3078 const wimlib_tchar *target,
3079 const wimlib_tchar *path_list_file,
3083 * @ingroup G_extracting_wims
3085 * Extract zero or more paths (files or directory trees) from the specified WIM
3088 * By default, each path will be extracted to a corresponding subdirectory of
3089 * the target based on its location in the image. For example, if one of the
3090 * paths to extract is <c>/Windows/explorer.exe</c> and the target is
3091 * <c>outdir</c>, the file will be extracted to
3092 * <c>outdir/Windows/explorer.exe</c>. This behavior can be changed by
3093 * providing the flag ::WIMLIB_EXTRACT_FLAG_NO_PRESERVE_DIR_STRUCTURE, which
3094 * will cause each file or directory tree to be placed directly in the target
3095 * directory --- so the same example would extract <c>/Windows/explorer.exe</c>
3096 * to <c>outdir/explorer.exe</c>.
3098 * With globbing turned off (the default), paths are always checked for
3099 * existence strictly; that is, if any path to extract does not exist in the
3100 * image, then nothing is extracted and the function fails with
3101 * ::WIMLIB_ERR_PATH_DOES_NOT_EXIST. But with globbing turned on
3102 * (::WIMLIB_EXTRACT_FLAG_GLOB_PATHS specified), globs are by default permitted
3103 * to match no files, and there is a flag (::WIMLIB_EXTRACT_FLAG_STRICT_GLOB) to
3104 * enable the strict behavior if desired.
3106 * Symbolic links are not dereferenced when paths in the image are interpreted.
3109 * WIM from which to extract the paths, specified as a pointer to the
3110 * ::WIMStruct for a standalone WIM file, a delta WIM file, or part 1 of a
3111 * split WIM. In the case of a WIM file that is not standalone, this
3112 * ::WIMStruct must have had any needed external resources previously
3113 * referenced using wimlib_reference_resources() or
3114 * wimlib_reference_resource_files().
3116 * The 1-based index of the WIM image from which to extract the paths.
3118 * Array of paths to extract. Each element must be the absolute path to a
3119 * file or directory within the image. Path separators may be either
3120 * forwards or backwards slashes, and leading path separators are optional.
3121 * The paths will be interpreted either case-sensitively (UNIX default) or
3122 * case-insensitively (Windows default); however, the case sensitivity can
3123 * be configured explicitly at library initialization time by passing an
3124 * appropriate flag to wimlib_global_init().
3126 * By default, "globbing" is disabled, so the characters @c * and @c ? are
3127 * interpreted literally. This can be changed by specifying
3128 * ::WIMLIB_EXTRACT_FLAG_GLOB_PATHS in @p extract_flags.
3130 * Number of paths specified in @p paths.
3132 * Directory to which to extract the paths.
3133 * @param extract_flags
3134 * Bitwise OR of flags prefixed with WIMLIB_EXTRACT_FLAG.
3136 * @return 0 on success; a ::wimlib_error_code value on failure. Most of the
3137 * error codes are the same as those returned by wimlib_extract_image(). Below,
3138 * some of the error codes returned in situations specific to path-mode
3139 * extraction are documented:
3141 * @retval ::WIMLIB_ERR_NOT_A_REGULAR_FILE
3142 * ::WIMLIB_EXTRACT_FLAG_TO_STDOUT was specified in @p extract_flags, but
3143 * one of the paths to extract did not name a regular file.
3144 * @retval ::WIMLIB_ERR_PATH_DOES_NOT_EXIST
3145 * One of the paths to extract does not exist in the image; see discussion
3146 * above about strict vs. non-strict behavior.
3148 * If a progress function is registered with @p wim, then it will receive
3149 * ::WIMLIB_PROGRESS_MSG_EXTRACT_STREAMS.
3152 wimlib_extract_paths(WIMStruct *wim,
3154 const wimlib_tchar *target,
3155 const wimlib_tchar * const *paths,
3160 * @ingroup G_wim_information
3162 * Similar to wimlib_get_xml_data(), but the XML document will be written to the
3163 * specified standard C <c>FILE*</c> instead of retrieved in an in-memory
3166 * @return 0 on success; a ::wimlib_error_code value on failure. This may
3167 * return any error code which can be returned by wimlib_get_xml_data() as well
3168 * as the following error codes:
3170 * @retval ::WIMLIB_ERR_WRITE
3171 * Failed to write the data to the requested file.
3174 wimlib_extract_xml_data(WIMStruct *wim, FILE *fp);
3177 * @ingroup G_general
3179 * Release a reference to a ::WIMStruct. If the ::WIMStruct is still referenced
3180 * by other ::WIMStruct's (e.g. following calls to wimlib_export_image() or
3181 * wimlib_reference_resources()), then the library will free it later, when the
3182 * last reference is released; otherwise it is freed immediately and any
3183 * associated file descriptors are closed.
3186 * Pointer to the ::WIMStruct to release. If @c NULL, no action is taken.
3189 wimlib_free(WIMStruct *wim);
3192 * @ingroup G_general
3194 * Convert a ::wimlib_compression_type value into a string.
3197 * The compression type value to convert.
3200 * A statically allocated string naming the compression type, such as
3201 * "None", "LZX", or "XPRESS". If the value was unrecognized, then
3202 * the resulting string will be "Invalid".
3204 extern const wimlib_tchar *
3205 wimlib_get_compression_type_string(enum wimlib_compression_type ctype);
3208 * @ingroup G_general
3210 * Convert a wimlib error code into a string describing it.
3213 * An error code returned by one of wimlib's functions.
3216 * Pointer to a statically allocated string describing the error code. If
3217 * the value was unrecognized, then the resulting string will be "Unknown
3220 extern const wimlib_tchar *
3221 wimlib_get_error_string(enum wimlib_error_code code);
3224 * @ingroup G_wim_information
3226 * Get the description of the specified image. Equivalent to
3227 * <tt>wimlib_get_image_property(wim, image, "DESCRIPTION")</tt>.
3229 extern const wimlib_tchar *
3230 wimlib_get_image_description(const WIMStruct *wim, int image);
3233 * @ingroup G_wim_information
3235 * Get the name of the specified image. Equivalent to
3236 * <tt>wimlib_get_image_property(wim, image, "NAME")</tt>, except that
3237 * wimlib_get_image_name() will return an empty string if the image is unnamed
3238 * whereas wimlib_get_image_property() may return @c NULL in that case.
3240 extern const wimlib_tchar *
3241 wimlib_get_image_name(const WIMStruct *wim, int image);
3244 * @ingroup G_wim_information
3246 * Since wimlib v1.8.3: get a per-image property from the WIM's XML document.
3247 * This is an alternative to wimlib_get_image_name() and
3248 * wimlib_get_image_description() which allows getting any simple string
3252 * Pointer to the ::WIMStruct for the WIM.
3254 * The 1-based index of the image for which to get the property.
3255 * @param property_name
3256 * The name of the image property, for example "NAME", "DESCRIPTION", or
3257 * "TOTALBYTES". The name can contain forward slashes to indicate a nested
3258 * XML element; for example, "WINDOWS/VERSION/BUILD" indicates the BUILD
3259 * element nested within the VERSION element nested within the WINDOWS
3260 * element. Since wimlib v1.9.0, a bracketed number can be used to
3261 * indicate one of several identically-named elements; for example,
3262 * "WINDOWS/LANGUAGES/LANGUAGE[2]" indicates the second "LANGUAGE" element
3263 * nested within the "WINDOWS/LANGUAGES" element. Note that element names
3264 * are case sensitive.
3267 * The property's value as a ::wimlib_tchar string, or @c NULL if there is
3268 * no such property. The string may not remain valid after later library
3269 * calls, so the caller should duplicate it if needed.
3271 extern const wimlib_tchar *
3272 wimlib_get_image_property(const WIMStruct *wim, int image,
3273 const wimlib_tchar *property_name);
3276 * @ingroup G_general
3278 * Return the version of wimlib as a 32-bit number whose top 12 bits contain the
3279 * major version, the next 10 bits contain the minor version, and the low 10
3280 * bits contain the patch version.
3282 * In other words, the returned value is equal to <c>((WIMLIB_MAJOR_VERSION <<
3283 * 20) | (WIMLIB_MINOR_VERSION << 10) | WIMLIB_PATCH_VERSION)</c> for the
3284 * corresponding header file.
3287 wimlib_get_version(void);
3290 * @ingroup G_general
3292 * Since wimlib v1.13.0: like wimlib_get_version(), but returns the full
3293 * PACKAGE_VERSION string that was set at build time. (This allows a beta
3294 * release to be distinguished from an official release.)
3296 extern const wimlib_tchar *
3297 wimlib_get_version_string(void);
3300 * @ingroup G_wim_information
3302 * Get basic information about a WIM file.
3305 * Pointer to the ::WIMStruct to query. This need not represent a
3306 * standalone WIM (e.g. it could represent part of a split WIM).
3308 * A ::wimlib_wim_info structure that will be filled in with information
3309 * about the WIM file.
3314 wimlib_get_wim_info(WIMStruct *wim, struct wimlib_wim_info *info);
3317 * @ingroup G_wim_information
3319 * Read a WIM file's XML document into an in-memory buffer.
3321 * The XML document contains metadata about the WIM file and the images stored
3325 * Pointer to the ::WIMStruct to query. This need not represent a
3326 * standalone WIM (e.g. it could represent part of a split WIM).
3328 * On success, a pointer to an allocated buffer containing the raw UTF16-LE
3329 * XML document is written to this location.
3330 * @param bufsize_ret
3331 * The size of the XML document in bytes is written to this location.
3333 * @return 0 on success; a ::wimlib_error_code value on failure.
3335 * @retval ::WIMLIB_ERR_NO_FILENAME
3336 * @p wim is not backed by a file and therefore does not have an XML
3338 * @retval ::WIMLIB_ERR_READ
3339 * Failed to read the XML document from the WIM file.
3340 * @retval ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE
3341 * Failed to read the XML document from the WIM file.
3344 wimlib_get_xml_data(WIMStruct *wim, void **buf_ret, size_t *bufsize_ret);
3347 * @ingroup G_general
3349 * Initialization function for wimlib. Call before using any other wimlib
3350 * function (except possibly wimlib_set_print_errors()). If not done manually,
3351 * this function will be called automatically with a flags argument of 0. This
3352 * function does nothing if called again after it has already successfully run.
3355 * Bitwise OR of flags prefixed with WIMLIB_INIT_FLAG.
3357 * @return 0 on success; a ::wimlib_error_code value on failure.
3359 * @retval ::WIMLIB_ERR_INSUFFICIENT_PRIVILEGES
3360 * ::WIMLIB_INIT_FLAG_STRICT_APPLY_PRIVILEGES and/or
3361 * ::WIMLIB_INIT_FLAG_STRICT_CAPTURE_PRIVILEGES were specified in @p
3362 * init_flags, but the corresponding privileges could not be acquired.
3365 wimlib_global_init(int init_flags);
3368 * @ingroup G_general
3370 * Cleanup function for wimlib. You are not required to call this function, but
3371 * it will release any global resources allocated by the library.
3374 wimlib_global_cleanup(void);
3377 * @ingroup G_wim_information
3379 * Determine if an image name is already used by some image in the WIM.
3382 * Pointer to the ::WIMStruct to query. This need not represent a
3383 * standalone WIM (e.g. it could represent part of a split WIM).
3385 * The name to check.
3388 * @c true if there is already an image in @p wim named @p name; @c false
3389 * if there is no image named @p name in @p wim. If @p name is @c NULL or
3390 * the empty string, then @c false is returned.
3393 wimlib_image_name_in_use(const WIMStruct *wim, const wimlib_tchar *name);
3396 * @ingroup G_wim_information
3398 * Iterate through a file or directory tree in a WIM image. By specifying
3399 * appropriate flags and a callback function, you can get the attributes of a
3400 * file in the image, get a directory listing, or even get a listing of the
3404 * The ::WIMStruct containing the image(s) over which to iterate. This
3405 * ::WIMStruct must contain image metadata, so it cannot be the non-first
3406 * part of a split WIM (for example).
3408 * The 1-based index of the image that contains the files or directories to
3409 * iterate over, or ::WIMLIB_ALL_IMAGES to iterate over all images.
3411 * Path in the image at which to do the iteration.
3413 * Bitwise OR of flags prefixed with WIMLIB_ITERATE_DIR_TREE_FLAG.
3415 * A callback function that will receive each directory entry.
3417 * An extra parameter that will always be passed to the callback function
3420 * @return Normally, returns 0 if all calls to @p cb returned 0; otherwise the
3421 * first nonzero value that was returned from @p cb. However, additional
3422 * ::wimlib_error_code values may be returned, including the following:
3424 * @retval ::WIMLIB_ERR_INVALID_IMAGE
3425 * @p image does not exist in @p wim.
3426 * @retval ::WIMLIB_ERR_PATH_DOES_NOT_EXIST
3427 * @p path does not exist in the image.
3428 * @retval ::WIMLIB_ERR_RESOURCE_NOT_FOUND
3429 * ::WIMLIB_ITERATE_DIR_TREE_FLAG_RESOURCES_NEEDED was specified, but the
3430 * data for some files could not be found in the blob lookup table of @p
3433 * This function can additionally return ::WIMLIB_ERR_DECOMPRESSION,
3434 * ::WIMLIB_ERR_INVALID_METADATA_RESOURCE, ::WIMLIB_ERR_METADATA_NOT_FOUND,
3435 * ::WIMLIB_ERR_READ, or ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE, all of which
3436 * indicate failure (for different reasons) to read the metadata resource for an
3437 * image over which iteration needed to be done.
3440 wimlib_iterate_dir_tree(WIMStruct *wim, int image, const wimlib_tchar *path,
3442 wimlib_iterate_dir_tree_callback_t cb, void *user_ctx);
3445 * @ingroup G_wim_information
3447 * Iterate through the blob lookup table of a ::WIMStruct. This can be used to
3448 * directly get a listing of the unique "blobs" contained in a WIM file, which
3449 * are deduplicated over all images.
3451 * Specifically, each listed blob may be from any of the following sources:
3453 * - Metadata blobs, if the ::WIMStruct contains image metadata
3454 * - File blobs from the on-disk WIM file (if any) backing the ::WIMStruct
3455 * - File blobs from files that have been added to the in-memory ::WIMStruct,
3456 * e.g. by using wimlib_add_image()
3457 * - File blobs from external WIMs referenced by
3458 * wimlib_reference_resource_files() or wimlib_reference_resources()
3461 * Pointer to the ::WIMStruct for which to get the blob listing.
3463 * Reserved; set to 0.
3465 * A callback function that will receive each blob.
3467 * An extra parameter that will always be passed to the callback function
3470 * @return 0 if all calls to @p cb returned 0; otherwise the first nonzero value
3471 * that was returned from @p cb.
3474 wimlib_iterate_lookup_table(WIMStruct *wim, int flags,
3475 wimlib_iterate_lookup_table_callback_t cb,
3479 * @ingroup G_nonstandalone_wims
3481 * Join a split WIM into a stand-alone (one-part) WIM.
3484 * An array of strings that gives the filenames of all parts of the split
3485 * WIM. No specific order is required, but all parts must be included with
3488 * Number of filenames in @p swms.
3489 * @param swm_open_flags
3490 * Open flags for the split WIM parts (e.g.
3491 * ::WIMLIB_OPEN_FLAG_CHECK_INTEGRITY).
3492 * @param wim_write_flags
3493 * Bitwise OR of relevant flags prefixed with WIMLIB_WRITE_FLAG, which will
3494 * be used to write the joined WIM.
3495 * @param output_path
3496 * The path to write the joined WIM file to.
3498 * @return 0 on success; a ::wimlib_error_code value on failure. This function
3499 * may return most error codes that can be returned by wimlib_open_wim() and
3500 * wimlib_write(), as well as the following error codes:
3502 * @retval ::WIMLIB_ERR_SPLIT_INVALID
3503 * The split WIMs do not form a valid WIM because they do not include all
3504 * the parts of the original WIM, there are duplicate parts, or not all the
3505 * parts have the same GUID and compression type.
3507 * Note: wimlib is generalized enough that this function is not actually needed
3508 * to join a split WIM; instead, you could open the first part of the split WIM,
3509 * then reference the other parts with wimlib_reference_resource_files(), then
3510 * write the joined WIM using wimlib_write(). However, wimlib_join() provides
3511 * an easy-to-use wrapper around this that has some advantages (e.g. extra
3515 wimlib_join(const wimlib_tchar * const *swms,
3517 const wimlib_tchar *output_path,
3519 int wim_write_flags);
3522 * @ingroup G_nonstandalone_wims
3524 * Same as wimlib_join(), but allows specifying a progress function. The
3525 * progress function will receive the write progress messages, such as
3526 * ::WIMLIB_PROGRESS_MSG_WRITE_STREAMS, while writing the joined WIM. In
3527 * addition, if ::WIMLIB_OPEN_FLAG_CHECK_INTEGRITY is specified in @p
3528 * swm_open_flags, the progress function will receive a series of
3529 * ::WIMLIB_PROGRESS_MSG_VERIFY_INTEGRITY messages when each of the split WIM
3533 wimlib_join_with_progress(const wimlib_tchar * const *swms,
3535 const wimlib_tchar *output_path,
3537 int wim_write_flags,
3538 wimlib_progress_func_t progfunc,
3543 * @ingroup G_mounting_wim_images
3545 * Mount an image from a WIM file on a directory read-only or read-write.
3548 * Pointer to the ::WIMStruct containing the image to be mounted. This
3549 * ::WIMStruct must have a backing file.
3551 * The 1-based index of the image to mount. This image cannot have been
3552 * previously modified in memory.
3554 * The path to an existing empty directory on which to mount the image.
3555 * @param mount_flags
3556 * Bitwise OR of flags prefixed with WIMLIB_MOUNT_FLAG. Use
3557 * ::WIMLIB_MOUNT_FLAG_READWRITE to request a read-write mount instead of a
3559 * @param staging_dir
3560 * If non-NULL, the name of a directory in which a temporary directory for
3561 * storing modified or added files will be created. Ignored if
3562 * ::WIMLIB_MOUNT_FLAG_READWRITE is not specified in @p mount_flags. If
3563 * left @c NULL, the staging directory is created in the same directory as
3564 * the backing WIM file. The staging directory is automatically deleted
3565 * when the image is unmounted.
3567 * @return 0 on success; a ::wimlib_error_code value on failure.
3569 * @retval ::WIMLIB_ERR_ALREADY_LOCKED
3570 * Another process is currently modifying the WIM file.
3571 * @retval ::WIMLIB_ERR_FUSE
3572 * A non-zero status code was returned by @c fuse_main().
3573 * @retval ::WIMLIB_ERR_IMAGE_HAS_MULTIPLE_REFERENCES
3574 * There are currently multiple references to the image as a result of a
3575 * call to wimlib_export_image(). Free one before attempting the
3577 * @retval ::WIMLIB_ERR_INVALID_IMAGE
3578 * @p image does not exist in @p wim.
3579 * @retval ::WIMLIB_ERR_INVALID_PARAM
3580 * @p wim was @c NULL; or @p dir was NULL or an empty string; or an
3581 * unrecognized flag was specified in @p mount_flags; or the image has
3582 * already been modified in memory (e.g. by wimlib_update_image()).
3583 * @retval ::WIMLIB_ERR_MKDIR
3584 * ::WIMLIB_MOUNT_FLAG_READWRITE was specified in @p mount_flags, but the
3585 * staging directory could not be created.
3586 * @retval ::WIMLIB_ERR_WIM_IS_READONLY
3587 * ::WIMLIB_MOUNT_FLAG_READWRITE was specified in @p mount_flags, but the
3588 * WIM file is considered read-only because of any of the reasons mentioned
3589 * in the documentation for the ::WIMLIB_OPEN_FLAG_WRITE_ACCESS flag.
3590 * @retval ::WIMLIB_ERR_UNSUPPORTED
3591 * Mounting is not supported in this build of the library.
3593 * This function can additionally return ::WIMLIB_ERR_DECOMPRESSION,
3594 * ::WIMLIB_ERR_INVALID_METADATA_RESOURCE, ::WIMLIB_ERR_METADATA_NOT_FOUND,
3595 * ::WIMLIB_ERR_READ, or ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE, all of which
3596 * indicate failure (for different reasons) to read the metadata resource for
3597 * the image to mount.
3599 * The ability to mount WIM images is implemented using FUSE (Filesystem in
3600 * UserSpacE). Depending on how FUSE is set up on your system, this function
3601 * may work as normal users in addition to the root user.
3603 * Mounting WIM images is not supported if wimlib was configured
3604 * <c>--without-fuse</c>. This includes Windows builds of wimlib;
3605 * ::WIMLIB_ERR_UNSUPPORTED will be returned in such cases.
3607 * Calling this function daemonizes the process, unless
3608 * ::WIMLIB_MOUNT_FLAG_DEBUG was specified or an early error occurs.
3610 * It is safe to mount multiple images from the same WIM file read-only at the
3611 * same time, but only if different ::WIMStruct's are used. It is @b not safe
3612 * to mount multiple images from the same WIM file read-write at the same time.
3614 * To unmount the image, call wimlib_unmount_image(). This may be done in a
3615 * different process.
3618 wimlib_mount_image(WIMStruct *wim,
3620 const wimlib_tchar *dir,
3622 const wimlib_tchar *staging_dir);
3625 * @ingroup G_creating_and_opening_wims
3627 * Open a WIM file and create a ::WIMStruct for it.
3630 * The path to the WIM file to open.
3632 * Bitwise OR of flags prefixed with WIMLIB_OPEN_FLAG.
3634 * On success, a pointer to a new ::WIMStruct backed by the specified
3635 * on-disk WIM file is written to the memory location pointed to by this
3636 * parameter. This ::WIMStruct must be freed using wimlib_free() when
3639 * @return 0 on success; a ::wimlib_error_code value on failure.
3641 * @retval ::WIMLIB_ERR_IMAGE_COUNT
3642 * The number of metadata resources found in the WIM did not match the
3643 * image count specified in the WIM header, or the number of <IMAGE>
3644 * elements in the XML data of the WIM did not match the image count
3645 * specified in the WIM header.
3646 * @retval ::WIMLIB_ERR_INTEGRITY
3647 * ::WIMLIB_OPEN_FLAG_CHECK_INTEGRITY was specified in @p open_flags, and
3648 * the WIM file failed the integrity check.
3649 * @retval ::WIMLIB_ERR_INVALID_CHUNK_SIZE
3650 * The library did not recognize the compression chunk size of the WIM as
3651 * valid for its compression type.
3652 * @retval ::WIMLIB_ERR_INVALID_COMPRESSION_TYPE
3653 * The library did not recognize the compression type of the WIM.
3654 * @retval ::WIMLIB_ERR_INVALID_HEADER
3655 * The header of the WIM was otherwise invalid.
3656 * @retval ::WIMLIB_ERR_INVALID_INTEGRITY_TABLE
3657 * ::WIMLIB_OPEN_FLAG_CHECK_INTEGRITY was specified in @p open_flags and
3658 * the WIM contained an integrity table, but the integrity table was
3660 * @retval ::WIMLIB_ERR_INVALID_LOOKUP_TABLE_ENTRY
3661 * The lookup table of the WIM was invalid.
3662 * @retval ::WIMLIB_ERR_INVALID_PARAM
3663 * @p wim_ret was @c NULL; or, @p wim_file was not a nonempty string.
3664 * @retval ::WIMLIB_ERR_IS_SPLIT_WIM
3665 * The WIM was a split WIM and ::WIMLIB_OPEN_FLAG_ERROR_IF_SPLIT was
3666 * specified in @p open_flags.
3667 * @retval ::WIMLIB_ERR_NOT_A_WIM_FILE
3668 * The file did not begin with the magic characters that identify a WIM
3670 * @retval ::WIMLIB_ERR_OPEN
3671 * Failed to open the WIM file for reading. Some possible reasons: the WIM
3672 * file does not exist, or the calling process does not have permission to
3674 * @retval ::WIMLIB_ERR_READ
3675 * Failed to read data from the WIM file.
3676 * @retval ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE
3677 * Unexpected end-of-file while reading data from the WIM file.
3678 * @retval ::WIMLIB_ERR_UNKNOWN_VERSION
3679 * The WIM version number was not recognized. (May be a pre-Vista WIM.)
3680 * @retval ::WIMLIB_ERR_WIM_IS_ENCRYPTED
3681 * The WIM cannot be opened because it contains encrypted segments. (It
3682 * may be a Windows 8 "ESD" file.)
3683 * @retval ::WIMLIB_ERR_WIM_IS_INCOMPLETE
3684 * The WIM file is not complete (e.g. the program which wrote it was
3685 * terminated before it finished)
3686 * @retval ::WIMLIB_ERR_WIM_IS_READONLY
3687 * ::WIMLIB_OPEN_FLAG_WRITE_ACCESS was specified but the WIM file was
3688 * considered read-only because of any of the reasons mentioned in the
3689 * documentation for the ::WIMLIB_OPEN_FLAG_WRITE_ACCESS flag.
3690 * @retval ::WIMLIB_ERR_XML
3691 * The XML data of the WIM was invalid.
3694 wimlib_open_wim(const wimlib_tchar *wim_file,
3696 WIMStruct **wim_ret);
3699 * @ingroup G_creating_and_opening_wims
3701 * Same as wimlib_open_wim(), but allows specifying a progress function and
3702 * progress context. If successful, the progress function will be registered in
3703 * the newly open ::WIMStruct, as if by an automatic call to
3704 * wimlib_register_progress_function(). In addition, if
3705 * ::WIMLIB_OPEN_FLAG_CHECK_INTEGRITY is specified in @p open_flags, then the
3706 * progress function will receive ::WIMLIB_PROGRESS_MSG_VERIFY_INTEGRITY
3707 * messages while checking the WIM file's integrity.
3710 wimlib_open_wim_with_progress(const wimlib_tchar *wim_file,
3712 WIMStruct **wim_ret,
3713 wimlib_progress_func_t progfunc,
3717 * @ingroup G_writing_and_overwriting_wims
3719 * Commit a ::WIMStruct to disk, updating its backing file.
3721 * There are several alternative ways in which changes may be committed:
3723 * 1. Full rebuild: write the updated WIM to a temporary file, then rename the
3724 * temporary file to the original.
3725 * 2. Appending: append updates to the new original WIM file, then overwrite
3726 * its header such that those changes become visible to new readers.
3727 * 3. Compaction: normally should not be used; see
3728 * ::WIMLIB_WRITE_FLAG_UNSAFE_COMPACT for details.
3730 * Append mode is often much faster than a full rebuild, but it wastes some
3731 * amount of space due to leaving "holes" in the WIM file. Because of the
3732 * greater efficiency, wimlib_overwrite() normally defaults to append mode.
3733 * However, ::WIMLIB_WRITE_FLAG_REBUILD can be used to explicitly request a full
3734 * rebuild. In addition, if wimlib_delete_image() has been used on the
3735 * ::WIMStruct, then the default mode switches to rebuild mode, and
3736 * ::WIMLIB_WRITE_FLAG_SOFT_DELETE can be used to explicitly request append
3739 * If this function completes successfully, then no more functions can be called
3740 * on the ::WIMStruct other than wimlib_free(). If you need to continue using
3741 * the WIM file, you must use wimlib_open_wim() to open a new ::WIMStruct for
3745 * Pointer to a ::WIMStruct to commit to its backing file.
3746 * @param write_flags
3747 * Bitwise OR of relevant flags prefixed with WIMLIB_WRITE_FLAG.
3748 * @param num_threads
3749 * The number of threads to use for compressing data, or 0 to have the
3750 * library automatically choose an appropriate number.
3752 * @return 0 on success; a ::wimlib_error_code value on failure. This function
3753 * may return most error codes returned by wimlib_write() as well as the
3754 * following error codes:
3756 * @retval ::WIMLIB_ERR_ALREADY_LOCKED
3757 * Another process is currently modifying the WIM file.
3758 * @retval ::WIMLIB_ERR_NO_FILENAME
3759 * @p wim is not backed by an on-disk file. In other words, it is a
3760 * ::WIMStruct created by wimlib_create_new_wim() rather than
3761 * wimlib_open_wim().
3762 * @retval ::WIMLIB_ERR_RENAME
3763 * The temporary file to which the WIM was written could not be renamed to
3764 * the original file.
3765 * @retval ::WIMLIB_ERR_WIM_IS_READONLY
3766 * The WIM file is considered read-only because of any of the reasons
3767 * mentioned in the documentation for the ::WIMLIB_OPEN_FLAG_WRITE_ACCESS
3770 * If a progress function is registered with @p wim, then it will receive the
3771 * messages ::WIMLIB_PROGRESS_MSG_WRITE_STREAMS,
3772 * ::WIMLIB_PROGRESS_MSG_WRITE_METADATA_BEGIN, and
3773 * ::WIMLIB_PROGRESS_MSG_WRITE_METADATA_END.
3776 wimlib_overwrite(WIMStruct *wim, int write_flags, unsigned num_threads);
3779 * @ingroup G_wim_information
3781 * (Deprecated) Print information about one image, or all images, contained in a
3785 * Pointer to the ::WIMStruct to query. This need not represent a
3786 * standalone WIM (e.g. it could represent part of a split WIM).
3788 * The 1-based index of the image for which to print information, or
3789 * ::WIMLIB_ALL_IMAGES to print information about all images.
3791 * @return This function has no return value. No error checking is done when
3792 * printing the information. If @p image is invalid, an error message is
3795 * This function is deprecated; use wimlib_get_xml_data() or
3796 * wimlib_get_image_property() to query image information instead.
3799 wimlib_print_available_images(const WIMStruct *wim, int image);
3802 * @ingroup G_wim_information
3804 * Print the header of the WIM file (intended for debugging only).
3807 wimlib_print_header(const WIMStruct *wim);
3810 * @ingroup G_nonstandalone_wims
3812 * Reference file data from other WIM files or split WIM parts. This function
3813 * can be used on WIMs that are not standalone, such as split or "delta" WIMs,
3814 * to load additional file data before calling a function such as
3815 * wimlib_extract_image() that requires the file data to be present.
3818 * The ::WIMStruct for a WIM that contains metadata resources, but is not
3819 * necessarily "standalone". In the case of split WIMs, this should be the
3820 * first part, since only the first part contains the metadata resources.
3821 * In the case of delta WIMs, this should be the delta WIM rather than the
3822 * WIM on which it is based.
3823 * @param resource_wimfiles_or_globs
3824 * Array of paths to WIM files and/or split WIM parts to reference.
3825 * Alternatively, when ::WIMLIB_REF_FLAG_GLOB_ENABLE is specified in @p
3826 * ref_flags, these are treated as globs rather than literal paths. That
3827 * is, using this function you can specify zero or more globs, each of
3828 * which expands to one or more literal paths.
3830 * Number of entries in @p resource_wimfiles_or_globs.
3832 * Bitwise OR of ::WIMLIB_REF_FLAG_GLOB_ENABLE and/or
3833 * ::WIMLIB_REF_FLAG_GLOB_ERR_ON_NOMATCH.
3835 * Additional open flags, such as ::WIMLIB_OPEN_FLAG_CHECK_INTEGRITY, to
3836 * pass to internal calls to wimlib_open_wim() on the reference files.
3838 * @return 0 on success; a ::wimlib_error_code value on failure.
3840 * @retval ::WIMLIB_ERR_GLOB_HAD_NO_MATCHES
3841 * One of the specified globs did not match any paths (only with both
3842 * ::WIMLIB_REF_FLAG_GLOB_ENABLE and ::WIMLIB_REF_FLAG_GLOB_ERR_ON_NOMATCH
3843 * specified in @p ref_flags).
3844 * @retval ::WIMLIB_ERR_READ
3845 * I/O or permissions error while processing a file glob.
3847 * This function can additionally return most values that can be returned by
3848 * wimlib_open_wim().
3851 wimlib_reference_resource_files(WIMStruct *wim,
3852 const wimlib_tchar * const *resource_wimfiles_or_globs,
3858 * @ingroup G_nonstandalone_wims
3860 * Similar to wimlib_reference_resource_files(), but operates at a lower level
3861 * where the caller must open the ::WIMStruct for each referenced file itself.
3864 * The ::WIMStruct for a WIM that contains metadata resources, but is not
3865 * necessarily "standalone". In the case of split WIMs, this should be the
3866 * first part, since only the first part contains the metadata resources.
3867 * @param resource_wims
3868 * Array of pointers to the ::WIMStruct's for additional resource WIMs or
3869 * split WIM parts to reference.
3870 * @param num_resource_wims
3871 * Number of entries in @p resource_wims.
3873 * Reserved; must be 0.
3875 * @return 0 on success; a ::wimlib_error_code value on failure.
3878 wimlib_reference_resources(WIMStruct *wim, WIMStruct **resource_wims,
3879 unsigned num_resource_wims, int ref_flags);
3882 * @ingroup G_modifying_wims
3884 * Declare that a newly added image is mostly the same as a prior image, but
3885 * captured at a later point in time, possibly with some modifications in the
3886 * intervening time. This is designed to be used in incremental backups of the
3887 * same filesystem or directory tree.
3889 * This function compares the metadata of the directory tree of the newly added
3890 * image against that of the old image. Any files that are present in both the
3891 * newly added image and the old image and have timestamps that indicate they
3892 * haven't been modified are deemed not to have been modified and have their
3893 * checksums copied from the old image. Because of this and because WIM uses
3894 * single-instance streams, such files need not be read from the filesystem when
3895 * the WIM is being written or overwritten. Note that these unchanged files
3896 * will still be "archived" and will be logically present in the new image; the
3897 * optimization is that they don't need to actually be read from the filesystem
3898 * because the WIM already contains them.
3900 * This function is provided to optimize incremental backups. The resulting WIM
3901 * file will still be the same regardless of whether this function is called.
3902 * (This is, however, assuming that timestamps have not been manipulated or
3903 * unmaintained as to trick this function into thinking a file has not been
3904 * modified when really it has. To partly guard against such cases, other
3905 * metadata such as file sizes will be checked as well.)
3907 * This function must be called after adding the new image (e.g. with
3908 * wimlib_add_image()), but before writing the updated WIM file (e.g. with
3909 * wimlib_overwrite()).
3912 * Pointer to the ::WIMStruct containing the newly added image.
3914 * The 1-based index in @p wim of the newly added image.
3915 * @param template_wim
3916 * Pointer to the ::WIMStruct containing the template image. This can be,
3917 * but does not have to be, the same ::WIMStruct as @p wim.
3918 * @param template_image
3919 * The 1-based index in @p template_wim of the template image.
3921 * Reserved; must be 0.
3923 * @return 0 on success; a ::wimlib_error_code value on failure.
3925 * @retval ::WIMLIB_ERR_INVALID_IMAGE
3926 * @p new_image does not exist in @p wim or @p template_image does not
3927 * exist in @p template_wim.
3928 * @retval ::WIMLIB_ERR_METADATA_NOT_FOUND
3929 * At least one of @p wim and @p template_wim does not contain image
3930 * metadata; for example, one of them represents a non-first part of a
3932 * @retval ::WIMLIB_ERR_INVALID_PARAM
3933 * Identical values were provided for the template and new image; or @p
3934 * new_image specified an image that had not been modified since opening
3937 * This function can additionally return ::WIMLIB_ERR_DECOMPRESSION,
3938 * ::WIMLIB_ERR_INVALID_METADATA_RESOURCE, ::WIMLIB_ERR_METADATA_NOT_FOUND,
3939 * ::WIMLIB_ERR_READ, or ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE, all of which
3940 * indicate failure (for different reasons) to read the metadata resource for
3941 * the template image.
3944 wimlib_reference_template_image(WIMStruct *wim, int new_image,
3945 WIMStruct *template_wim, int template_image,
3949 * @ingroup G_general
3951 * Register a progress function with a ::WIMStruct.
3954 * The ::WIMStruct for which to register the progress function.
3956 * Pointer to the progress function to register. If the WIM already has a
3957 * progress function registered, it will be replaced with this one. If @p
3958 * NULL, the current progress function (if any) will be unregistered.
3960 * The value which will be passed as the third argument to calls to @p
3964 wimlib_register_progress_function(WIMStruct *wim,
3965 wimlib_progress_func_t progfunc,
3969 * @ingroup G_modifying_wims
3971 * Rename the @p source_path to the @p dest_path in the specified @p image of
3974 * This just builds an appropriate ::wimlib_rename_command and passes it to
3975 * wimlib_update_image().
3978 wimlib_rename_path(WIMStruct *wim, int image,
3979 const wimlib_tchar *source_path, const wimlib_tchar *dest_path);
3982 * @ingroup G_wim_information
3984 * Translate a string specifying the name or number of an image in the WIM into
3985 * the number of the image. The images are numbered starting at 1.
3988 * Pointer to the ::WIMStruct for a WIM.
3989 * @param image_name_or_num
3990 * A string specifying the name or number of an image in the WIM. If it
3991 * parses to a positive integer, this integer is taken to specify the
3992 * number of the image, indexed starting at 1. Otherwise, it is taken to
3993 * be the name of an image, as given in the XML data for the WIM file. It
3994 * also may be the keyword "all" or the string "*", both of which will
3995 * resolve to ::WIMLIB_ALL_IMAGES.
3997 * There is no way to search for an image actually named "all", "*", or an
3998 * integer number, or an image that has no name. However, you can use
3999 * wimlib_get_image_name() to get the name of any image.
4002 * If the string resolved to a single existing image, the number of that
4003 * image, indexed starting at 1, is returned. If the keyword "all" or "*"
4004 * was specified, ::WIMLIB_ALL_IMAGES is returned. Otherwise,
4005 * ::WIMLIB_NO_IMAGE is returned. If @p image_name_or_num was @c NULL or
4006 * the empty string, ::WIMLIB_NO_IMAGE is returned, even if one or more
4007 * images in @p wim has no name. (Since a WIM may have multiple unnamed
4008 * images, an unnamed image must be specified by index to eliminate the
4012 wimlib_resolve_image(WIMStruct *wim,
4013 const wimlib_tchar *image_name_or_num);
4016 * @ingroup G_general
4018 * Set the file to which the library will print error and warning messages.
4020 * This version of the function takes a C library <c>FILE*</c> opened for
4021 * writing (or appending). Use wimlib_set_error_file_by_name() to specify the
4022 * file by name instead.
4024 * This also enables error messages, as if by a call to
4025 * wimlib_set_print_errors(true).
4027 * @return 0 on success; a ::wimlib_error_code value on failure.
4029 * @retval ::WIMLIB_ERR_UNSUPPORTED
4030 * wimlib was compiled using the <c>--without-error-messages</c> option.
4033 wimlib_set_error_file(FILE *fp);
4036 * @ingroup G_general
4038 * Set the path to the file to which the library will print error and warning
4039 * messages. The library will open this file for appending.
4041 * This also enables error messages, as if by a call to
4042 * wimlib_set_print_errors(true).
4044 * @return 0 on success; a ::wimlib_error_code value on failure.
4046 * @retval ::WIMLIB_ERR_OPEN
4047 * The file named by @p path could not be opened for appending.
4048 * @retval ::WIMLIB_ERR_UNSUPPORTED
4049 * wimlib was compiled using the <c>--without-error-messages</c> option.
4052 wimlib_set_error_file_by_name(const wimlib_tchar *path);
4055 * @ingroup G_modifying_wims
4057 * Change the description of a WIM image. Equivalent to
4058 * <tt>wimlib_set_image_property(wim, image, "DESCRIPTION", description)</tt>.
4060 * Note that "description" is misspelled in the name of this function.
4063 wimlib_set_image_descripton(WIMStruct *wim, int image,
4064 const wimlib_tchar *description);
4067 * @ingroup G_modifying_wims
4069 * Change what is stored in the \<FLAGS\> element in the WIM XML document
4070 * (usually something like "Core" or "Ultimate"). Equivalent to
4071 * <tt>wimlib_set_image_property(wim, image, "FLAGS", flags)</tt>.
4074 wimlib_set_image_flags(WIMStruct *wim, int image, const wimlib_tchar *flags);
4077 * @ingroup G_modifying_wims
4079 * Change the name of a WIM image. Equivalent to
4080 * <tt>wimlib_set_image_property(wim, image, "NAME", name)</tt>.
4083 wimlib_set_image_name(WIMStruct *wim, int image, const wimlib_tchar *name);
4086 * @ingroup G_modifying_wims
4088 * Since wimlib v1.8.3: add, modify, or remove a per-image property from the
4089 * WIM's XML document. This is an alternative to wimlib_set_image_name(),
4090 * wimlib_set_image_descripton(), and wimlib_set_image_flags() which allows
4091 * manipulating any simple string property.
4094 * Pointer to the ::WIMStruct for the WIM.
4096 * The 1-based index of the image for which to set the property.
4097 * @param property_name
4098 * The name of the image property in the same format documented for
4099 * wimlib_get_image_property().
4101 * Note: if creating a new element using a bracketed index such as
4102 * "WINDOWS/LANGUAGES/LANGUAGE[2]", the highest index that can be specified
4103 * is one greater than the number of existing elements with that same name,
4104 * excluding the index. That means that if you are adding a list of new
4105 * elements, they must be added sequentially from the first index (1) to
4106 * the last index (n).
4107 * @param property_value
4108 * If not NULL and not empty, the property is set to this value.
4109 * Otherwise, the property is removed from the XML document.
4111 * @return 0 on success; a ::wimlib_error_code value on failure.
4113 * @retval ::WIMLIB_ERR_IMAGE_NAME_COLLISION
4114 * The user requested to set the image name (the <tt>NAME</tt> property),
4115 * but another image in the WIM already had the requested name.
4116 * @retval ::WIMLIB_ERR_INVALID_IMAGE
4117 * @p image does not exist in @p wim.
4118 * @retval ::WIMLIB_ERR_INVALID_PARAM
4119 * @p property_name has an unsupported format, or @p property_name included
4120 * a bracketed index that was too high.
4123 wimlib_set_image_property(WIMStruct *wim, int image,
4124 const wimlib_tchar *property_name,
4125 const wimlib_tchar *property_value);
4128 * @ingroup G_general
4130 * Set the functions that wimlib uses to allocate and free memory.
4132 * These settings are global and not per-WIM.
4134 * The default is to use the default @c malloc(), @c free(), and @c realloc()
4135 * from the standard C library.
4137 * Note: some external functions, such as those in @c libntfs-3g, may use the
4138 * standard memory allocation functions regardless of this setting.
4140 * @param malloc_func
4141 * A function equivalent to @c malloc() that wimlib will use to allocate
4142 * memory. If @c NULL, the allocator function is set back to the default
4143 * @c malloc() from the C library.
4145 * A function equivalent to @c free() that wimlib will use to free memory.
4146 * If @c NULL, the free function is set back to the default @c free() from
4148 * @param realloc_func
4149 * A function equivalent to @c realloc() that wimlib will use to reallocate
4150 * memory. If @c NULL, the free function is set back to the default @c
4151 * realloc() from the C library.
4156 wimlib_set_memory_allocator(void *(*malloc_func)(size_t),
4157 void (*free_func)(void *),
4158 void *(*realloc_func)(void *, size_t));
4161 * @ingroup G_writing_and_overwriting_wims
4163 * Set a ::WIMStruct's output compression chunk size. This is the compression
4164 * chunk size that will be used for writing non-solid resources in subsequent
4165 * calls to wimlib_write() or wimlib_overwrite(). A larger compression chunk
4166 * size often results in a better compression ratio, but compression may be
4167 * slower and the speed of random access to data may be reduced. In addition,
4168 * some chunk sizes are not compatible with Microsoft software.
4171 * The ::WIMStruct for which to set the output chunk size.
4173 * The chunk size (in bytes) to set. The valid chunk sizes are dependent
4174 * on the compression type. See the documentation for each
4175 * ::wimlib_compression_type constant for more information. As a special
4176 * case, if @p chunk_size is specified as 0, then the chunk size will be
4177 * reset to the default for the currently selected output compression type.
4179 * @return 0 on success; a ::wimlib_error_code value on failure.
4181 * @retval ::WIMLIB_ERR_INVALID_CHUNK_SIZE
4182 * @p chunk_size was not 0 or a supported chunk size for the currently
4183 * selected output compression type.
4186 wimlib_set_output_chunk_size(WIMStruct *wim, uint32_t chunk_size);
4189 * @ingroup G_writing_and_overwriting_wims
4191 * Similar to wimlib_set_output_chunk_size(), but set the chunk size for writing
4195 wimlib_set_output_pack_chunk_size(WIMStruct *wim, uint32_t chunk_size);
4198 * @ingroup G_writing_and_overwriting_wims
4200 * Set a ::WIMStruct's output compression type. This is the compression type
4201 * that will be used for writing non-solid resources in subsequent calls to
4202 * wimlib_write() or wimlib_overwrite().
4205 * The ::WIMStruct for which to set the output compression type.
4207 * The compression type to set. If this compression type is incompatible
4208 * with the current output chunk size, then the output chunk size will be
4209 * reset to the default for the new compression type.
4211 * @return 0 on success; a ::wimlib_error_code value on failure.
4213 * @retval ::WIMLIB_ERR_INVALID_COMPRESSION_TYPE
4214 * @p ctype did not specify a valid compression type.
4217 wimlib_set_output_compression_type(WIMStruct *wim,
4218 enum wimlib_compression_type ctype);
4221 * @ingroup G_writing_and_overwriting_wims
4223 * Similar to wimlib_set_output_compression_type(), but set the compression type
4224 * for writing solid resources. This cannot be ::WIMLIB_COMPRESSION_TYPE_NONE.
4227 wimlib_set_output_pack_compression_type(WIMStruct *wim,
4228 enum wimlib_compression_type ctype);
4231 * @ingroup G_general
4233 * Set whether wimlib can print error and warning messages to the error file,
4234 * which defaults to standard error. Error and warning messages may provide
4235 * information that cannot be determined only from returned error codes.
4237 * By default, error messages are not printed.
4239 * This setting applies globally (it is not per-WIM).
4241 * This can be called before wimlib_global_init().
4243 * @param show_messages
4244 * @c true if messages are to be printed; @c false if messages are not to
4247 * @return 0 on success; a ::wimlib_error_code value on failure.
4249 * @retval ::WIMLIB_ERR_UNSUPPORTED
4250 * wimlib was compiled using the <c>--without-error-messages</c> option.
4253 wimlib_set_print_errors(bool show_messages);
4256 * @ingroup G_modifying_wims
4258 * Set basic information about a WIM.
4261 * Pointer to the ::WIMStruct for a WIM.
4263 * Pointer to a ::wimlib_wim_info structure that contains the information
4264 * to set. Only the information explicitly specified in the @p which flags
4267 * Flags that specify which information to set. This is a bitwise OR of
4268 * ::WIMLIB_CHANGE_READONLY_FLAG, ::WIMLIB_CHANGE_GUID,
4269 * ::WIMLIB_CHANGE_BOOT_INDEX, and/or ::WIMLIB_CHANGE_RPFIX_FLAG.
4271 * @return 0 on success; a ::wimlib_error_code value on failure.
4273 * @retval ::WIMLIB_ERR_IMAGE_COUNT
4274 * ::WIMLIB_CHANGE_BOOT_INDEX was specified, but
4275 * ::wimlib_wim_info.boot_index did not specify 0 or a valid 1-based image
4279 wimlib_set_wim_info(WIMStruct *wim, const struct wimlib_wim_info *info,
4283 * @ingroup G_nonstandalone_wims
4285 * Split a WIM into multiple parts.
4288 * The ::WIMStruct for the WIM to split.
4290 * Name of the split WIM (SWM) file to create. This will be the name of
4291 * the first part. The other parts will, by default, have the same name
4292 * with 2, 3, 4, ..., etc. appended before the suffix. However, the exact
4293 * names can be customized using the progress function.
4295 * The maximum size per part, in bytes. Unfortunately, it is not
4296 * guaranteed that this will really be the maximum size per part, because
4297 * some file resources in the WIM may be larger than this size, and the WIM
4298 * file format provides no way to split up file resources among multiple
4300 * @param write_flags
4301 * Bitwise OR of relevant flags prefixed with @c WIMLIB_WRITE_FLAG. These
4302 * flags will be used to write each split WIM part. Specify 0 here to get
4303 * the default behavior.
4305 * @return 0 on success; a ::wimlib_error_code value on failure. This function
4306 * may return most error codes that can be returned by wimlib_write() as well as
4307 * the following error codes:
4309 * @retval ::WIMLIB_ERR_INVALID_PARAM
4310 * @p swm_name was not a nonempty string, or @p part_size was 0.
4311 * @retval ::WIMLIB_ERR_UNSUPPORTED
4312 * The WIM contains solid resources. Splitting a WIM containing solid
4313 * resources is not supported.
4315 * If a progress function is registered with @p wim, then for each split WIM
4316 * part that is written it will receive the messages
4317 * ::WIMLIB_PROGRESS_MSG_SPLIT_BEGIN_PART and
4318 * ::WIMLIB_PROGRESS_MSG_SPLIT_END_PART. Since wimlib v1.13.4 it will also
4319 * receive ::WIMLIB_PROGRESS_MSG_WRITE_STREAMS messages while writing each part;
4320 * these messages will report the progress of the current part only.
4323 wimlib_split(WIMStruct *wim,
4324 const wimlib_tchar *swm_name,
4329 * @ingroup G_general
4331 * Perform verification checks on a WIM file.
4333 * This function is intended for safety checking and/or debugging. If used on a
4334 * well-formed WIM file, it should always succeed.
4337 * The ::WIMStruct for the WIM file to verify. Note: for an extra layer of
4338 * verification, it is a good idea to have used
4339 * ::WIMLIB_OPEN_FLAG_CHECK_INTEGRITY when you opened the file.
4341 * If verifying a split WIM, specify the first part of the split WIM here,
4342 * and reference the other parts using wimlib_reference_resource_files()
4343 * before calling this function.
4344 * @param verify_flags
4345 * Reserved; must be 0.
4347 * @return 0 if the WIM file was successfully verified; a ::wimlib_error_code
4348 * value if it failed verification or another error occurred.
4350 * @retval ::WIMLIB_ERR_DECOMPRESSION
4351 * The WIM file contains invalid compressed data.
4352 * @retval ::WIMLIB_ERR_INVALID_METADATA_RESOURCE
4353 * The metadata resource for an image is invalid.
4354 * @retval ::WIMLIB_ERR_INVALID_RESOURCE_HASH
4355 * File data stored in the WIM file is corrupt.
4356 * @retval ::WIMLIB_ERR_RESOURCE_NOT_FOUND
4357 * The data for a file in an image could not be found. See @ref
4358 * G_nonstandalone_wims.
4360 * If a progress function is registered with @p wim, then it will receive the
4361 * following progress messages: ::WIMLIB_PROGRESS_MSG_BEGIN_VERIFY_IMAGE,
4362 * ::WIMLIB_PROGRESS_MSG_END_VERIFY_IMAGE, and
4363 * ::WIMLIB_PROGRESS_MSG_VERIFY_STREAMS.
4366 wimlib_verify_wim(WIMStruct *wim, int verify_flags);
4369 * @ingroup G_mounting_wim_images
4371 * Unmount a WIM image that was mounted using wimlib_mount_image().
4373 * When unmounting a read-write mounted image, the default behavior is to
4374 * discard changes to the image. Use ::WIMLIB_UNMOUNT_FLAG_COMMIT to cause the
4375 * image to be committed.
4378 * The directory on which the WIM image is mounted.
4379 * @param unmount_flags
4380 * Bitwise OR of flags prefixed with @p WIMLIB_UNMOUNT_FLAG.
4382 * @return 0 on success; a ::wimlib_error_code value on failure.
4384 * @retval ::WIMLIB_ERR_NOT_A_MOUNTPOINT
4385 * There is no WIM image mounted on the specified directory.
4386 * @retval ::WIMLIB_ERR_MOUNTED_IMAGE_IS_BUSY
4387 * The read-write mounted image cannot be committed because there are file
4388 * descriptors open to it, and ::WIMLIB_UNMOUNT_FLAG_FORCE was not
4390 * @retval ::WIMLIB_ERR_MQUEUE
4391 * Could not create a POSIX message queue.
4392 * @retval ::WIMLIB_ERR_NOT_PERMITTED_TO_UNMOUNT
4393 * The image was mounted by a different user.
4394 * @retval ::WIMLIB_ERR_UNSUPPORTED
4395 * Mounting is not supported in this build of the library.
4397 * Note: you can also unmount the image by using the @c umount() system call, or
4398 * by using the @c umount or @c fusermount programs. However, you need to call
4399 * this function if you want changes to be committed.
4402 wimlib_unmount_image(const wimlib_tchar *dir, int unmount_flags);
4405 * @ingroup G_mounting_wim_images
4407 * Same as wimlib_unmount_image(), but allows specifying a progress function.
4408 * The progress function will receive a ::WIMLIB_PROGRESS_MSG_UNMOUNT_BEGIN
4409 * message. In addition, if changes are committed from a read-write mount, the
4410 * progress function will receive ::WIMLIB_PROGRESS_MSG_WRITE_STREAMS messages.
4413 wimlib_unmount_image_with_progress(const wimlib_tchar *dir,
4415 wimlib_progress_func_t progfunc,
4419 * @ingroup G_modifying_wims
4421 * Update a WIM image by adding, deleting, and/or renaming files or directories.
4424 * Pointer to the ::WIMStruct containing the image to update.
4426 * The 1-based index of the image to update.
4428 * An array of ::wimlib_update_command's that specify the update operations
4431 * Number of commands in @p cmds.
4432 * @param update_flags
4433 * ::WIMLIB_UPDATE_FLAG_SEND_PROGRESS or 0.
4435 * @return 0 on success; a ::wimlib_error_code value on failure. On failure,
4436 * all update commands will be rolled back, and no visible changes will have
4437 * been made to @p wim.
4439 * @retval ::WIMLIB_ERR_FVE_LOCKED_VOLUME
4440 * Windows-only: One of the "add" commands attempted to add files from an
4441 * encrypted BitLocker volume that hasn't yet been unlocked.
4442 * @retval ::WIMLIB_ERR_IMAGE_HAS_MULTIPLE_REFERENCES
4443 * There are currently multiple references to the image as a result of a
4444 * call to wimlib_export_image(). Free one before attempting the update.
4445 * @retval ::WIMLIB_ERR_INVALID_CAPTURE_CONFIG
4446 * The contents of a capture configuration file were invalid.
4447 * @retval ::WIMLIB_ERR_INVALID_IMAGE
4448 * @p image did not exist in @p wim.
4449 * @retval ::WIMLIB_ERR_INVALID_OVERLAY
4450 * An add command with ::WIMLIB_ADD_FLAG_NO_REPLACE specified attempted to
4451 * replace an existing nondirectory file.
4452 * @retval ::WIMLIB_ERR_INVALID_PARAM
4453 * An unknown operation type was provided in the update commands; or
4454 * unknown or incompatible flags were provided in a flags parameter; or
4455 * there was another problem with the provided parameters.
4456 * @retval ::WIMLIB_ERR_INVALID_REPARSE_DATA
4457 * While executing an add command, a reparse point had invalid data.
4458 * @retval ::WIMLIB_ERR_IS_DIRECTORY
4459 * An add command attempted to replace a directory with a non-directory; or
4460 * a delete command without ::WIMLIB_DELETE_FLAG_RECURSIVE attempted to
4461 * delete a directory; or a rename command attempted to rename a directory
4462 * to a non-directory.
4463 * @retval ::WIMLIB_ERR_NOTDIR
4464 * An add command attempted to replace a non-directory with a directory; or
4465 * an add command attempted to set the root of the image to a
4466 * non-directory; or a rename command attempted to rename a directory to a
4467 * non-directory; or a component of an image path that was used as a
4468 * directory was not, in fact, a directory.
4469 * @retval ::WIMLIB_ERR_NOTEMPTY
4470 * A rename command attempted to rename a directory to a non-empty
4471 * directory; or a rename command would have created a loop.
4472 * @retval ::WIMLIB_ERR_NTFS_3G
4473 * While executing an add command with ::WIMLIB_ADD_FLAG_NTFS specified, an
4474 * error occurred while reading data from the NTFS volume using libntfs-3g.
4475 * @retval ::WIMLIB_ERR_OPEN
4476 * Failed to open a file to be captured while executing an add command.
4477 * @retval ::WIMLIB_ERR_OPENDIR
4478 * Failed to open a directory to be captured while executing an add
4480 * @retval ::WIMLIB_ERR_PATH_DOES_NOT_EXIST
4481 * A delete command without ::WIMLIB_DELETE_FLAG_FORCE specified was for a
4482 * WIM path that did not exist; or a rename command attempted to rename a
4483 * file that does not exist.
4484 * @retval ::WIMLIB_ERR_READ
4485 * While executing an add command, failed to read data from a file or
4486 * directory to be captured.
4487 * @retval ::WIMLIB_ERR_READLINK
4488 * While executing an add command, failed to read the target of a symbolic
4489 * link, junction, or other reparse point.
4490 * @retval ::WIMLIB_ERR_STAT
4491 * While executing an add command, failed to read metadata for a file or
4493 * @retval ::WIMLIB_ERR_UNABLE_TO_READ_CAPTURE_CONFIG
4494 * A capture configuration file could not be read.
4495 * @retval ::WIMLIB_ERR_UNSUPPORTED
4496 * A command had flags provided that are not supported on this platform or
4497 * in this build of the library.
4498 * @retval ::WIMLIB_ERR_UNSUPPORTED_FILE
4499 * An add command with ::WIMLIB_ADD_FLAG_NO_UNSUPPORTED_EXCLUDE specified
4500 * discovered a file that was not of a supported type.
4502 * This function can additionally return ::WIMLIB_ERR_DECOMPRESSION,
4503 * ::WIMLIB_ERR_INVALID_METADATA_RESOURCE, ::WIMLIB_ERR_METADATA_NOT_FOUND,
4504 * ::WIMLIB_ERR_READ, or ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE, all of which
4505 * indicate failure (for different reasons) to read the metadata resource for an
4506 * image that needed to be updated.
4509 wimlib_update_image(WIMStruct *wim,
4511 const struct wimlib_update_command *cmds,
4516 * @ingroup G_writing_and_overwriting_wims
4518 * Persist a ::WIMStruct to a new on-disk WIM file.
4520 * This brings in file data from any external locations, such as directory trees
4521 * or NTFS volumes scanned with wimlib_add_image(), or other WIM files via
4522 * wimlib_export_image(), and incorporates it into a new on-disk WIM file.
4524 * By default, the new WIM file is written as stand-alone. Using the
4525 * ::WIMLIB_WRITE_FLAG_SKIP_EXTERNAL_WIMS flag, a "delta" WIM can be written
4526 * instead. However, this function cannot directly write a "split" WIM; use
4527 * wimlib_split() for that.
4530 * Pointer to the ::WIMStruct being persisted.
4532 * The path to the on-disk file to write.
4534 * Normally, specify ::WIMLIB_ALL_IMAGES here. This indicates that all
4535 * images are to be included in the new on-disk WIM file. If for some
4536 * reason you only want to include a single image, specify the 1-based
4537 * index of that image instead.
4538 * @param write_flags
4539 * Bitwise OR of flags prefixed with @c WIMLIB_WRITE_FLAG.
4540 * @param num_threads
4541 * The number of threads to use for compressing data, or 0 to have the
4542 * library automatically choose an appropriate number.
4544 * @return 0 on success; a ::wimlib_error_code value on failure.
4546 * @retval ::WIMLIB_ERR_CONCURRENT_MODIFICATION_DETECTED
4547 * A file that had previously been scanned for inclusion in the WIM was
4548 * concurrently modified.
4549 * @retval ::WIMLIB_ERR_INVALID_IMAGE
4550 * @p image did not exist in @p wim.
4551 * @retval ::WIMLIB_ERR_INVALID_RESOURCE_HASH
4552 * A file, stored in another WIM, which needed to be written was corrupt.
4553 * @retval ::WIMLIB_ERR_INVALID_PARAM
4554 * @p path was not a nonempty string, or invalid flags were passed.
4555 * @retval ::WIMLIB_ERR_OPEN
4556 * Failed to open the output WIM file for writing, or failed to open a file
4557 * whose data needed to be included in the WIM.
4558 * @retval ::WIMLIB_ERR_READ
4559 * Failed to read data that needed to be included in the WIM.
4560 * @retval ::WIMLIB_ERR_RESOURCE_NOT_FOUND
4561 * A file data blob that needed to be written could not be found in the
4562 * blob lookup table of @p wim. See @ref G_nonstandalone_wims.
4563 * @retval ::WIMLIB_ERR_WRITE
4564 * An error occurred when trying to write data to the new WIM file.
4566 * This function can additionally return ::WIMLIB_ERR_DECOMPRESSION,
4567 * ::WIMLIB_ERR_INVALID_METADATA_RESOURCE, ::WIMLIB_ERR_METADATA_NOT_FOUND,
4568 * ::WIMLIB_ERR_READ, or ::WIMLIB_ERR_UNEXPECTED_END_OF_FILE, all of which
4569 * indicate failure (for different reasons) to read the data from a WIM file.
4571 * If a progress function is registered with @p wim, then it will receive the
4572 * messages ::WIMLIB_PROGRESS_MSG_WRITE_STREAMS,
4573 * ::WIMLIB_PROGRESS_MSG_WRITE_METADATA_BEGIN, and
4574 * ::WIMLIB_PROGRESS_MSG_WRITE_METADATA_END.
4577 wimlib_write(WIMStruct *wim,
4578 const wimlib_tchar *path,
4581 unsigned num_threads);
4584 * @ingroup G_writing_and_overwriting_wims
4586 * Same as wimlib_write(), but write the WIM directly to a file descriptor,
4587 * which need not be seekable if the write is done in a special pipable WIM
4588 * format by providing ::WIMLIB_WRITE_FLAG_PIPABLE in @p write_flags. This can,
4589 * for example, allow capturing a WIM image and streaming it over the network.
4590 * See @ref subsec_pipable_wims for more information about pipable WIMs.
4592 * The file descriptor @p fd will @b not be closed when the write is complete;
4593 * the calling code is responsible for this.
4595 * @return 0 on success; a ::wimlib_error_code value on failure. The possible
4596 * error codes include those that can be returned by wimlib_write() as well as
4599 * @retval ::WIMLIB_ERR_INVALID_PARAM
4600 * @p fd was not seekable, but ::WIMLIB_WRITE_FLAG_PIPABLE was not
4601 * specified in @p write_flags.
4604 wimlib_write_to_fd(WIMStruct *wim,
4608 unsigned num_threads);
4611 * @defgroup G_compression Compression and decompression functions
4613 * @brief Functions for XPRESS, LZX, and LZMS compression and decompression.
4615 * These functions are already used by wimlib internally when appropriate for
4616 * reading and writing WIM archives. But they are exported and documented so
4617 * that they can be used in other applications or libraries for general-purpose
4618 * lossless data compression. They are implemented in highly optimized C code,
4619 * using state-of-the-art compression techniques. The main limitation is the
4620 * lack of sliding window support; this has, however, allowed the algorithms to
4621 * be optimized for block-based compression.
4626 /** Opaque compressor handle. */
4627 struct wimlib_compressor;
4629 /** Opaque decompressor handle. */
4630 struct wimlib_decompressor;
4633 * Set the default compression level for the specified compression type. This
4634 * is the compression level that wimlib_create_compressor() assumes if it is
4635 * called with @p compression_level specified as 0.
4637 * wimlib's WIM writing code (e.g. wimlib_write()) will pass 0 to
4638 * wimlib_create_compressor() internally. Therefore, calling this function will
4639 * affect the compression level of any data later written to WIM files using the
4640 * specified compression type.
4642 * The initial state, before this function is called, is that all compression
4643 * types have a default compression level of 50.
4646 * Compression type for which to set the default compression level, as one
4647 * of the ::wimlib_compression_type constants. Or, if this is the special
4648 * value -1, the default compression levels for all compression types will
4650 * @param compression_level
4651 * The default compression level to set. If 0, the "default default" level
4652 * of 50 is restored. Otherwise, a higher value indicates higher
4653 * compression, whereas a lower value indicates lower compression. See
4654 * wimlib_create_compressor() for more information.
4656 * @return 0 on success; a ::wimlib_error_code value on failure.
4658 * @retval ::WIMLIB_ERR_INVALID_COMPRESSION_TYPE
4659 * @p ctype was neither a supported compression type nor -1.
4662 wimlib_set_default_compression_level(int ctype, unsigned int compression_level);
4665 * Return the approximate number of bytes needed to allocate a compressor with
4666 * wimlib_create_compressor() for the specified compression type, maximum block
4667 * size, and compression level. @p compression_level may be 0, in which case
4668 * the current default compression level for @p ctype is used. Returns 0 if the
4669 * compression type is invalid, or the @p max_block_size for that compression
4673 wimlib_get_compressor_needed_memory(enum wimlib_compression_type ctype,
4674 size_t max_block_size,
4675 unsigned int compression_level);
4677 #define WIMLIB_COMPRESSOR_FLAG_DESTRUCTIVE 0x80000000
4680 * Allocate a compressor for the specified compression type using the specified
4681 * parameters. This function is part of wimlib's compression API; it is not
4682 * necessary to call this to process a WIM file.
4685 * Compression type for which to create the compressor, as one of the
4686 * ::wimlib_compression_type constants.
4687 * @param max_block_size
4688 * The maximum compression block size to support. This specifies the
4689 * maximum allowed value for the @p uncompressed_size parameter of
4690 * wimlib_compress() when called using this compressor.
4692 * Usually, the amount of memory used by the compressor will scale in
4693 * proportion to the @p max_block_size parameter.
4694 * wimlib_get_compressor_needed_memory() can be used to query the specific
4695 * amount of memory that will be required.
4697 * This parameter must be at least 1 and must be less than or equal to a
4698 * compression-type-specific limit.
4700 * In general, the same value of @p max_block_size must be passed to
4701 * wimlib_create_decompressor() when the data is later decompressed.
4702 * However, some compression types have looser requirements regarding this.
4703 * @param compression_level
4704 * The compression level to use. If 0, the default compression level (50,
4705 * or another value as set through wimlib_set_default_compression_level())
4706 * is used. Otherwise, a higher value indicates higher compression. The
4707 * values are scaled so that 10 is low compression, 50 is medium
4708 * compression, and 100 is high compression. This is not a percentage;
4709 * values above 100 are also valid.
4711 * Using a higher-than-default compression level can result in a better
4712 * compression ratio, but can significantly reduce performance. Similarly,
4713 * using a lower-than-default compression level can result in better
4714 * performance, but can significantly worsen the compression ratio. The
4715 * exact results will depend heavily on the compression type and what
4716 * algorithms are implemented for it. If you are considering using a
4717 * non-default compression level, you should run benchmarks to see if it is
4718 * worthwhile for your application.
4720 * The compression level does not affect the format of the compressed data.
4721 * Therefore, it is a compressor-only parameter and does not need to be
4722 * passed to the decompressor.
4724 * Since wimlib v1.8.0, this parameter can be OR-ed with the flag
4725 * ::WIMLIB_COMPRESSOR_FLAG_DESTRUCTIVE. This creates the compressor in a
4726 * mode where it is allowed to modify the input buffer. Specifically, in
4727 * this mode, if compression succeeds, the input buffer may have been
4728 * modified, whereas if compression does not succeed the input buffer still
4729 * may have been written to but will have been restored exactly to its
4730 * original state. This mode is designed to save some memory when using
4731 * large buffer sizes.
4732 * @param compressor_ret
4733 * A location into which to return the pointer to the allocated compressor.
4734 * The allocated compressor can be used for any number of calls to
4735 * wimlib_compress() before being freed with wimlib_free_compressor().
4737 * @return 0 on success; a ::wimlib_error_code value on failure.
4739 * @retval ::WIMLIB_ERR_INVALID_COMPRESSION_TYPE
4740 * @p ctype was not a supported compression type.
4741 * @retval ::WIMLIB_ERR_INVALID_PARAM
4742 * @p max_block_size was invalid for the compression type, or @p
4743 * compressor_ret was @c NULL.
4744 * @retval ::WIMLIB_ERR_NOMEM
4745 * Insufficient memory to allocate the compressor.
4748 wimlib_create_compressor(enum wimlib_compression_type ctype,
4749 size_t max_block_size,
4750 unsigned int compression_level,
4751 struct wimlib_compressor **compressor_ret);
4754 * Compress a buffer of data.
4756 * @param uncompressed_data
4757 * Buffer containing the data to compress.
4758 * @param uncompressed_size
4759 * Size, in bytes, of the data to compress. This cannot be greater than
4760 * the @p max_block_size with which wimlib_create_compressor() was called.
4761 * (If it is, the data will not be compressed and 0 will be returned.)
4762 * @param compressed_data
4763 * Buffer into which to write the compressed data.
4764 * @param compressed_size_avail
4765 * Number of bytes available in @p compressed_data.
4767 * A compressor previously allocated with wimlib_create_compressor().
4770 * The size of the compressed data, in bytes, or 0 if the data could not be
4771 * compressed to @p compressed_size_avail or fewer bytes.
4774 wimlib_compress(const void *uncompressed_data, size_t uncompressed_size,
4775 void *compressed_data, size_t compressed_size_avail,
4776 struct wimlib_compressor *compressor);
4779 * Free a compressor previously allocated with wimlib_create_compressor().
4782 * The compressor to free. If @c NULL, no action is taken.
4785 wimlib_free_compressor(struct wimlib_compressor *compressor);
4788 * Allocate a decompressor for the specified compression type. This function is
4789 * part of wimlib's compression API; it is not necessary to call this to process
4793 * Compression type for which to create the decompressor, as one of the
4794 * ::wimlib_compression_type constants.
4795 * @param max_block_size
4796 * The maximum compression block size to support. This specifies the
4797 * maximum allowed value for the @p uncompressed_size parameter of
4798 * wimlib_decompress().
4800 * In general, this parameter must be the same as the @p max_block_size
4801 * that was passed to wimlib_create_compressor() when the data was
4802 * compressed. However, some compression types have looser requirements
4804 * @param decompressor_ret
4805 * A location into which to return the pointer to the allocated
4806 * decompressor. The allocated decompressor can be used for any number of
4807 * calls to wimlib_decompress() before being freed with
4808 * wimlib_free_decompressor().
4810 * @return 0 on success; a ::wimlib_error_code value on failure.
4812 * @retval ::WIMLIB_ERR_INVALID_COMPRESSION_TYPE
4813 * @p ctype was not a supported compression type.
4814 * @retval ::WIMLIB_ERR_INVALID_PARAM
4815 * @p max_block_size was invalid for the compression type, or @p
4816 * decompressor_ret was @c NULL.
4817 * @retval ::WIMLIB_ERR_NOMEM
4818 * Insufficient memory to allocate the decompressor.
4821 wimlib_create_decompressor(enum wimlib_compression_type ctype,
4822 size_t max_block_size,
4823 struct wimlib_decompressor **decompressor_ret);
4826 * Decompress a buffer of data.
4828 * @param compressed_data
4829 * Buffer containing the data to decompress.
4830 * @param compressed_size
4831 * Size, in bytes, of the data to decompress.
4832 * @param uncompressed_data
4833 * Buffer into which to write the uncompressed data.
4834 * @param uncompressed_size
4835 * Size, in bytes, of the data when uncompressed. This cannot exceed the
4836 * @p max_block_size with which wimlib_create_decompressor() was called.
4837 * (If it does, the data will not be decompressed and a nonzero value will
4839 * @param decompressor
4840 * A decompressor previously allocated with wimlib_create_decompressor().
4842 * @return 0 on success; nonzero on failure.
4844 * No specific error codes are defined; any nonzero value indicates that the
4845 * decompression failed. This can only occur if the data is truly invalid;
4846 * there will never be transient errors like "out of memory", for example.
4848 * This function requires that the exact uncompressed size of the data be passed
4849 * as the @p uncompressed_size parameter. If this is not done correctly,
4850 * decompression may fail or the data may be decompressed incorrectly.
4853 wimlib_decompress(const void *compressed_data, size_t compressed_size,
4854 void *uncompressed_data, size_t uncompressed_size,
4855 struct wimlib_decompressor *decompressor);
4858 * Free a decompressor previously allocated with wimlib_create_decompressor().
4860 * @param decompressor
4861 * The decompressor to free. If @c NULL, no action is taken.
4864 wimlib_free_decompressor(struct wimlib_decompressor *decompressor);
4876 #endif /* _WIMLIB_H */