/* * wim.c - High-level code dealing with WIMStructs and images. */ /* * Copyright (C) 2012-2016 Eric Biggers * * This file is free software; you can redistribute it and/or modify it under * the terms of the GNU Lesser General Public License as published by the Free * Software Foundation; either version 3 of the License, or (at your option) any * later version. * * This file is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more * details. * * You should have received a copy of the GNU Lesser General Public License * along with this file; if not, see http://www.gnu.org/licenses/. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #ifndef __WIN32__ # include #endif #include #include #include #include "wimlib.h" #include "wimlib/assert.h" #include "wimlib/blob_table.h" #include "wimlib/dentry.h" #include "wimlib/encoding.h" #include "wimlib/file_io.h" #include "wimlib/integrity.h" #include "wimlib/metadata.h" #include "wimlib/security.h" #include "wimlib/wim.h" #include "wimlib/xml.h" #include "wimlib/win32.h" /* Information about the available compression types for the WIM format. */ static const struct { const tchar *name; u32 min_chunk_size; u32 max_chunk_size; u32 default_nonsolid_chunk_size; u32 default_solid_chunk_size; } wim_ctype_info[] = { [WIMLIB_COMPRESSION_TYPE_NONE] = { .name = T("None"), .min_chunk_size = 0, .max_chunk_size = 0, .default_nonsolid_chunk_size = 0, .default_solid_chunk_size = 0, }, [WIMLIB_COMPRESSION_TYPE_XPRESS] = { .name = T("XPRESS"), .min_chunk_size = 4096, .max_chunk_size = 65536, .default_nonsolid_chunk_size = 32768, .default_solid_chunk_size = 32768, }, [WIMLIB_COMPRESSION_TYPE_LZX] = { .name = T("LZX"), .min_chunk_size = 32768, .max_chunk_size = 2097152, .default_nonsolid_chunk_size = 32768, .default_solid_chunk_size = 32768, }, [WIMLIB_COMPRESSION_TYPE_LZMS] = { .name = T("LZMS"), .min_chunk_size = 32768, .max_chunk_size = 1073741824, .default_nonsolid_chunk_size = 131072, .default_solid_chunk_size = 67108864, }, }; /* Is the specified compression type valid? */ static bool wim_compression_type_valid(enum wimlib_compression_type ctype) { return (unsigned)ctype < ARRAY_LEN(wim_ctype_info) && wim_ctype_info[(unsigned)ctype].name != NULL; } /* Is the specified chunk size valid for the compression type? */ static bool wim_chunk_size_valid(u32 chunk_size, enum wimlib_compression_type ctype) { if (!(chunk_size == 0 || is_power_of_2(chunk_size))) return false; return chunk_size >= wim_ctype_info[(unsigned)ctype].min_chunk_size && chunk_size <= wim_ctype_info[(unsigned)ctype].max_chunk_size; } /* Return the default chunk size to use for the specified compression type in * non-solid resources. */ static u32 wim_default_nonsolid_chunk_size(enum wimlib_compression_type ctype) { return wim_ctype_info[(unsigned)ctype].default_nonsolid_chunk_size; } /* Return the default chunk size to use for the specified compression type in * solid resources. */ static u32 wim_default_solid_chunk_size(enum wimlib_compression_type ctype) { return wim_ctype_info[(unsigned)ctype].default_solid_chunk_size; } /* Return the default compression type to use in solid resources. */ static enum wimlib_compression_type wim_default_solid_compression_type(void) { return WIMLIB_COMPRESSION_TYPE_LZMS; } static int is_blob_in_solid_resource(struct blob_descriptor *blob, void *_ignore) { return blob->blob_location == BLOB_IN_WIM && (blob->rdesc->flags & WIM_RESHDR_FLAG_SOLID); } bool wim_has_solid_resources(const WIMStruct *wim) { return for_blob_in_table(wim->blob_table, is_blob_in_solid_resource, NULL); } static WIMStruct * new_wim_struct(void) { WIMStruct *wim = CALLOC(1, sizeof(WIMStruct)); if (!wim) return NULL; wim->refcnt = 1; filedes_invalidate(&wim->in_fd); filedes_invalidate(&wim->out_fd); wim->out_solid_compression_type = wim_default_solid_compression_type(); wim->out_solid_chunk_size = wim_default_solid_chunk_size( wim->out_solid_compression_type); return wim; } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_create_new_wim(enum wimlib_compression_type ctype, WIMStruct **wim_ret) { int ret; WIMStruct *wim; ret = wimlib_global_init(0); if (ret) return ret; if (!wim_ret) return WIMLIB_ERR_INVALID_PARAM; if (!wim_compression_type_valid(ctype)) return WIMLIB_ERR_INVALID_COMPRESSION_TYPE; wim = new_wim_struct(); if (!wim) return WIMLIB_ERR_NOMEM; wim->xml_info = xml_new_info_struct(); wim->blob_table = new_blob_table(64); if (!wim->xml_info || !wim->blob_table) { wimlib_free(wim); return WIMLIB_ERR_NOMEM; } /* Fill in wim->hdr with default values */ wim->hdr.magic = WIM_MAGIC; wim->hdr.wim_version = WIM_VERSION_DEFAULT; wim->hdr.flags = 0; wim->hdr.chunk_size = 0; generate_guid(wim->hdr.guid); wim->hdr.part_number = 1; wim->hdr.total_parts = 1; wim->hdr.image_count = 0; wim->hdr.boot_idx = 0; wim->compression_type = WIMLIB_COMPRESSION_TYPE_NONE; wim->chunk_size = wim->hdr.chunk_size; /* Set the output compression type */ wim->out_compression_type = ctype; wim->out_chunk_size = wim_default_nonsolid_chunk_size(ctype); *wim_ret = wim; return 0; } static void unload_image_metadata(struct wim_image_metadata *imd) { free_dentry_tree(imd->root_dentry, NULL); imd->root_dentry = NULL; free_wim_security_data(imd->security_data); imd->security_data = NULL; INIT_HLIST_HEAD(&imd->inode_list); } /* Release a reference to the specified image metadata. This assumes that no * WIMStruct has the image selected. */ void put_image_metadata(struct wim_image_metadata *imd) { struct blob_descriptor *blob, *tmp; if (!imd) return; wimlib_assert(imd->refcnt > 0); if (--imd->refcnt != 0) return; wimlib_assert(imd->selected_refcnt == 0); unload_image_metadata(imd); list_for_each_entry_safe(blob, tmp, &imd->unhashed_blobs, unhashed_list) free_blob_descriptor(blob); free_blob_descriptor(imd->metadata_blob); FREE(imd); } /* Appends the specified image metadata structure to the array of image metadata * for a WIM, and increments the image count. */ int append_image_metadata(WIMStruct *wim, struct wim_image_metadata *imd) { struct wim_image_metadata **imd_array; if (!wim_has_metadata(wim)) return WIMLIB_ERR_METADATA_NOT_FOUND; if (wim->hdr.image_count >= MAX_IMAGES) return WIMLIB_ERR_IMAGE_COUNT; imd_array = REALLOC(wim->image_metadata, sizeof(wim->image_metadata[0]) * (wim->hdr.image_count + 1)); if (!imd_array) return WIMLIB_ERR_NOMEM; wim->image_metadata = imd_array; imd_array[wim->hdr.image_count++] = imd; return 0; } static struct wim_image_metadata * new_image_metadata(struct blob_descriptor *metadata_blob, struct wim_security_data *security_data) { struct wim_image_metadata *imd; imd = CALLOC(1, sizeof(*imd)); if (!imd) return NULL; metadata_blob->is_metadata = 1; imd->refcnt = 1; imd->selected_refcnt = 0; imd->root_dentry = NULL; imd->security_data = security_data; imd->metadata_blob = metadata_blob; INIT_HLIST_HEAD(&imd->inode_list); INIT_LIST_HEAD(&imd->unhashed_blobs); imd->stats_outdated = false; return imd; } /* Create an image metadata structure for a new empty image. */ struct wim_image_metadata * new_empty_image_metadata(void) { struct blob_descriptor *metadata_blob; struct wim_security_data *security_data; struct wim_image_metadata *imd; metadata_blob = new_blob_descriptor(); security_data = new_wim_security_data(); if (metadata_blob && security_data) { metadata_blob->refcnt = 1; imd = new_image_metadata(metadata_blob, security_data); if (imd) return imd; } free_blob_descriptor(metadata_blob); FREE(security_data); return NULL; } /* Create an image metadata structure that refers to the specified metadata * resource and is initially not loaded. */ struct wim_image_metadata * new_unloaded_image_metadata(struct blob_descriptor *metadata_blob) { wimlib_assert(metadata_blob->blob_location == BLOB_IN_WIM); return new_image_metadata(metadata_blob, NULL); } /* * Load the metadata for the specified WIM image into memory and set it * as the WIMStruct's currently selected image. * * @wim * The WIMStruct for the WIM. * @image * The 1-based index of the image in the WIM to select. * * On success, 0 will be returned, wim->current_image will be set to * @image, and wim_get_current_image_metadata() can be used to retrieve * metadata information for the image. * * On failure, WIMLIB_ERR_INVALID_IMAGE, WIMLIB_ERR_METADATA_NOT_FOUND, * or another error code will be returned. */ int select_wim_image(WIMStruct *wim, int image) { struct wim_image_metadata *imd; int ret; if (image == WIMLIB_NO_IMAGE) return WIMLIB_ERR_INVALID_IMAGE; if (image == wim->current_image) return 0; if (image < 1 || image > wim->hdr.image_count) return WIMLIB_ERR_INVALID_IMAGE; if (!wim_has_metadata(wim)) return WIMLIB_ERR_METADATA_NOT_FOUND; deselect_current_wim_image(wim); imd = wim->image_metadata[image - 1]; if (!is_image_loaded(imd)) { ret = read_metadata_resource(imd); if (ret) return ret; } wim->current_image = image; imd->selected_refcnt++; return 0; } /* * Deselect the WIMStruct's currently selected image, if any. To reduce memory * usage, possibly unload the newly deselected image's metadata from memory. */ void deselect_current_wim_image(WIMStruct *wim) { struct wim_image_metadata *imd; if (wim->current_image == WIMLIB_NO_IMAGE) return; imd = wim_get_current_image_metadata(wim); wimlib_assert(imd->selected_refcnt > 0); imd->selected_refcnt--; wim->current_image = WIMLIB_NO_IMAGE; if (can_unload_image(imd)) { wimlib_assert(list_empty(&imd->unhashed_blobs)); unload_image_metadata(imd); } } /* * Calls a function on images in the WIM. If @image is WIMLIB_ALL_IMAGES, * @visitor is called on the WIM once for each image, with each image selected * as the current image in turn. If @image is a certain image, @visitor is * called on the WIM only once, with that image selected. */ int for_image(WIMStruct *wim, int image, int (*visitor)(WIMStruct *)) { int ret; int start; int end; int i; if (image == WIMLIB_ALL_IMAGES) { start = 1; end = wim->hdr.image_count; } else if (image >= 1 && image <= wim->hdr.image_count) { start = image; end = image; } else { return WIMLIB_ERR_INVALID_IMAGE; } for (i = start; i <= end; i++) { ret = select_wim_image(wim, i); if (ret != 0) return ret; ret = visitor(wim); if (ret != 0) return ret; } return 0; } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_resolve_image(WIMStruct *wim, const tchar *image_name_or_num) { tchar *p; long image; int i; if (!image_name_or_num || !*image_name_or_num) return WIMLIB_NO_IMAGE; if (!tstrcasecmp(image_name_or_num, T("all")) || !tstrcasecmp(image_name_or_num, T("*"))) return WIMLIB_ALL_IMAGES; image = tstrtol(image_name_or_num, &p, 10); if (p != image_name_or_num && *p == T('\0') && image > 0) { if (image > wim->hdr.image_count) return WIMLIB_NO_IMAGE; return image; } else { for (i = 1; i <= wim->hdr.image_count; i++) { if (!tstrcmp(image_name_or_num, wimlib_get_image_name(wim, i))) return i; } return WIMLIB_NO_IMAGE; } } /* API function documented in wimlib.h */ WIMLIBAPI void wimlib_print_available_images(const WIMStruct *wim, int image) { int first; int last; int i; int n; if (image == WIMLIB_ALL_IMAGES) { n = tprintf(T("Available Images:\n")); first = 1; last = wim->hdr.image_count; } else if (image >= 1 && image <= wim->hdr.image_count) { n = tprintf(T("Information for Image %d\n"), image); first = image; last = image; } else { tprintf(T("wimlib_print_available_images(): Invalid image %d"), image); return; } for (i = 0; i < n - 1; i++) tputchar(T('-')); tputchar(T('\n')); for (i = first; i <= last; i++) xml_print_image_info(wim->xml_info, i); } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_get_wim_info(WIMStruct *wim, struct wimlib_wim_info *info) { memset(info, 0, sizeof(struct wimlib_wim_info)); copy_guid(info->guid, wim->hdr.guid); info->image_count = wim->hdr.image_count; info->boot_index = wim->hdr.boot_idx; info->wim_version = wim->hdr.wim_version; info->chunk_size = wim->chunk_size; info->part_number = wim->hdr.part_number; info->total_parts = wim->hdr.total_parts; info->compression_type = wim->compression_type; info->total_bytes = xml_get_total_bytes(wim->xml_info); info->has_integrity_table = wim_has_integrity_table(wim); info->opened_from_file = (wim->filename != NULL); info->is_readonly = (wim->hdr.flags & WIM_HDR_FLAG_READONLY) || (wim->hdr.total_parts != 1) || (wim->filename && taccess(wim->filename, W_OK)); info->has_rpfix = (wim->hdr.flags & WIM_HDR_FLAG_RP_FIX) != 0; info->is_marked_readonly = (wim->hdr.flags & WIM_HDR_FLAG_READONLY) != 0; info->write_in_progress = (wim->hdr.flags & WIM_HDR_FLAG_WRITE_IN_PROGRESS) != 0; info->metadata_only = (wim->hdr.flags & WIM_HDR_FLAG_METADATA_ONLY) != 0; info->resource_only = (wim->hdr.flags & WIM_HDR_FLAG_RESOURCE_ONLY) != 0; info->spanned = (wim->hdr.flags & WIM_HDR_FLAG_SPANNED) != 0; info->pipable = wim_is_pipable(wim); return 0; } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_set_wim_info(WIMStruct *wim, const struct wimlib_wim_info *info, int which) { if (which & ~(WIMLIB_CHANGE_READONLY_FLAG | WIMLIB_CHANGE_GUID | WIMLIB_CHANGE_BOOT_INDEX | WIMLIB_CHANGE_RPFIX_FLAG)) return WIMLIB_ERR_INVALID_PARAM; if ((which & WIMLIB_CHANGE_BOOT_INDEX) && info->boot_index > wim->hdr.image_count) return WIMLIB_ERR_INVALID_IMAGE; if (which & WIMLIB_CHANGE_READONLY_FLAG) { if (info->is_marked_readonly) wim->hdr.flags |= WIM_HDR_FLAG_READONLY; else wim->hdr.flags &= ~WIM_HDR_FLAG_READONLY; } if (which & WIMLIB_CHANGE_GUID) copy_guid(wim->hdr.guid, info->guid); if (which & WIMLIB_CHANGE_BOOT_INDEX) wim->hdr.boot_idx = info->boot_index; if (which & WIMLIB_CHANGE_RPFIX_FLAG) { if (info->has_rpfix) wim->hdr.flags |= WIM_HDR_FLAG_RP_FIX; else wim->hdr.flags &= ~WIM_HDR_FLAG_RP_FIX; } return 0; } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_set_output_compression_type(WIMStruct *wim, enum wimlib_compression_type ctype) { if (!wim_compression_type_valid(ctype)) return WIMLIB_ERR_INVALID_COMPRESSION_TYPE; wim->out_compression_type = ctype; /* Reset the chunk size if it's no longer valid. */ if (!wim_chunk_size_valid(wim->out_chunk_size, ctype)) wim->out_chunk_size = wim_default_nonsolid_chunk_size(ctype); return 0; } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_set_output_pack_compression_type(WIMStruct *wim, enum wimlib_compression_type ctype) { if (!wim_compression_type_valid(ctype)) return WIMLIB_ERR_INVALID_COMPRESSION_TYPE; /* Solid resources can't be uncompressed. */ if (ctype == WIMLIB_COMPRESSION_TYPE_NONE) return WIMLIB_ERR_INVALID_COMPRESSION_TYPE; wim->out_solid_compression_type = ctype; /* Reset the chunk size if it's no longer valid. */ if (!wim_chunk_size_valid(wim->out_solid_chunk_size, ctype)) wim->out_solid_chunk_size = wim_default_solid_chunk_size(ctype); return 0; } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_set_output_chunk_size(WIMStruct *wim, u32 chunk_size) { if (chunk_size == 0) { wim->out_chunk_size = wim_default_nonsolid_chunk_size(wim->out_compression_type); return 0; } if (!wim_chunk_size_valid(chunk_size, wim->out_compression_type)) return WIMLIB_ERR_INVALID_CHUNK_SIZE; wim->out_chunk_size = chunk_size; return 0; } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_set_output_pack_chunk_size(WIMStruct *wim, u32 chunk_size) { if (chunk_size == 0) { wim->out_solid_chunk_size = wim_default_solid_chunk_size(wim->out_solid_compression_type); return 0; } if (!wim_chunk_size_valid(chunk_size, wim->out_solid_compression_type)) return WIMLIB_ERR_INVALID_CHUNK_SIZE; wim->out_solid_chunk_size = chunk_size; return 0; } /* API function documented in wimlib.h */ WIMLIBAPI const tchar * wimlib_get_compression_type_string(enum wimlib_compression_type ctype) { if (!wim_compression_type_valid(ctype)) return T("Invalid"); return wim_ctype_info[(unsigned)ctype].name; } WIMLIBAPI void wimlib_register_progress_function(WIMStruct *wim, wimlib_progress_func_t progfunc, void *progctx) { wim->progfunc = progfunc; wim->progctx = progctx; } static int open_wim_file(const tchar *filename, struct filedes *fd_ret) { int raw_fd; raw_fd = topen(filename, O_RDONLY | O_BINARY); if (raw_fd < 0) { ERROR_WITH_ERRNO("Can't open \"%"TS"\" read-only", filename); return WIMLIB_ERR_OPEN; } filedes_init(fd_ret, raw_fd); return 0; } /* * Begins the reading of a WIM file; opens the file and reads its header and * blob table, and optionally checks the integrity. */ static int begin_read(WIMStruct *wim, const void *wim_filename_or_fd, int open_flags) { int ret; const tchar *wimfile; if (open_flags & WIMLIB_OPEN_FLAG_FROM_PIPE) { wimfile = NULL; filedes_init(&wim->in_fd, *(const int*)wim_filename_or_fd); wim->in_fd.is_pipe = 1; } else { wimfile = wim_filename_or_fd; ret = open_wim_file(wimfile, &wim->in_fd); if (ret) return ret; /* The absolute path to the WIM is requested so that * wimlib_overwrite() still works even if the process changes * its working directory. This actually happens if a WIM is * mounted read-write, since the FUSE thread changes directory * to "/", and it needs to be able to find the WIM file again. * * This will break if the full path to the WIM changes in the * intervening time... * * Warning: in Windows native builds, realpath() calls the * replacement function in win32_replacements.c. */ wim->filename = realpath(wimfile, NULL); if (!wim->filename) { ERROR_WITH_ERRNO("Failed to get full path to file " "\"%"TS"\"", wimfile); if (errno == ENOMEM) return WIMLIB_ERR_NOMEM; else return WIMLIB_ERR_NO_FILENAME; } } ret = read_wim_header(wim, &wim->hdr); if (ret) return ret; if (wim->hdr.flags & WIM_HDR_FLAG_WRITE_IN_PROGRESS) { WARNING("The WIM_HDR_FLAG_WRITE_IN_PROGRESS flag is set in the header of\n" " \"%"TS"\". It may be being changed by another process,\n" " or a process may have crashed while writing the WIM.", wimfile); } if (open_flags & WIMLIB_OPEN_FLAG_WRITE_ACCESS) { ret = can_modify_wim(wim); if (ret) return ret; } if ((open_flags & WIMLIB_OPEN_FLAG_ERROR_IF_SPLIT) && (wim->hdr.total_parts != 1)) return WIMLIB_ERR_IS_SPLIT_WIM; /* If the boot index is invalid, print a warning and set it to 0 */ if (wim->hdr.boot_idx > wim->hdr.image_count) { WARNING("Ignoring invalid boot index."); wim->hdr.boot_idx = 0; } /* Check and cache the compression type */ if (wim->hdr.flags & WIM_HDR_FLAG_COMPRESSION) { if (wim->hdr.flags & WIM_HDR_FLAG_COMPRESS_LZX) { wim->compression_type = WIMLIB_COMPRESSION_TYPE_LZX; } else if (wim->hdr.flags & (WIM_HDR_FLAG_COMPRESS_XPRESS | WIM_HDR_FLAG_COMPRESS_XPRESS_2)) { wim->compression_type = WIMLIB_COMPRESSION_TYPE_XPRESS; } else if (wim->hdr.flags & WIM_HDR_FLAG_COMPRESS_LZMS) { wim->compression_type = WIMLIB_COMPRESSION_TYPE_LZMS; } else { return WIMLIB_ERR_INVALID_COMPRESSION_TYPE; } } else { wim->compression_type = WIMLIB_COMPRESSION_TYPE_NONE; } wim->out_compression_type = wim->compression_type; /* Check and cache the chunk size. */ wim->chunk_size = wim->hdr.chunk_size; wim->out_chunk_size = wim->chunk_size; if (!wim_chunk_size_valid(wim->chunk_size, wim->compression_type)) { ERROR("Invalid chunk size (%"PRIu32" bytes) " "for compression type %"TS"!", wim->chunk_size, wimlib_get_compression_type_string(wim->compression_type)); return WIMLIB_ERR_INVALID_CHUNK_SIZE; } if (open_flags & WIMLIB_OPEN_FLAG_CHECK_INTEGRITY) { ret = check_wim_integrity(wim); if (ret == WIM_INTEGRITY_NONEXISTENT) { WARNING("\"%"TS"\" does not contain integrity " "information. Skipping integrity check.", wimfile); } else if (ret == WIM_INTEGRITY_NOT_OK) { return WIMLIB_ERR_INTEGRITY; } else if (ret != WIM_INTEGRITY_OK) { return ret; } } if (wim->hdr.image_count != 0 && wim->hdr.part_number == 1) { wim->image_metadata = CALLOC(wim->hdr.image_count, sizeof(wim->image_metadata[0])); if (!wim->image_metadata) return WIMLIB_ERR_NOMEM; } if (open_flags & WIMLIB_OPEN_FLAG_FROM_PIPE) { wim->blob_table = new_blob_table(64); if (!wim->blob_table) return WIMLIB_ERR_NOMEM; } else { if (wim->hdr.blob_table_reshdr.uncompressed_size == 0 && wim->hdr.xml_data_reshdr.uncompressed_size == 0) return WIMLIB_ERR_WIM_IS_INCOMPLETE; ret = read_wim_xml_data(wim); if (ret) return ret; if (xml_get_image_count(wim->xml_info) != wim->hdr.image_count) { ERROR("The WIM's header is inconsistent with its XML data.\n" " Please submit a bug report if you believe this " "WIM file should be considered valid."); return WIMLIB_ERR_IMAGE_COUNT; } ret = read_blob_table(wim); if (ret) return ret; } return 0; } int open_wim_as_WIMStruct(const void *wim_filename_or_fd, int open_flags, WIMStruct **wim_ret, wimlib_progress_func_t progfunc, void *progctx) { WIMStruct *wim; int ret; ret = wimlib_global_init(0); if (ret) return ret; wim = new_wim_struct(); if (!wim) return WIMLIB_ERR_NOMEM; wim->progfunc = progfunc; wim->progctx = progctx; ret = begin_read(wim, wim_filename_or_fd, open_flags); if (ret) { wimlib_free(wim); return ret; } *wim_ret = wim; return 0; } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_open_wim_with_progress(const tchar *wimfile, int open_flags, WIMStruct **wim_ret, wimlib_progress_func_t progfunc, void *progctx) { if (open_flags & ~(WIMLIB_OPEN_FLAG_CHECK_INTEGRITY | WIMLIB_OPEN_FLAG_ERROR_IF_SPLIT | WIMLIB_OPEN_FLAG_WRITE_ACCESS)) return WIMLIB_ERR_INVALID_PARAM; if (!wimfile || !*wimfile || !wim_ret) return WIMLIB_ERR_INVALID_PARAM; return open_wim_as_WIMStruct(wimfile, open_flags, wim_ret, progfunc, progctx); } /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_open_wim(const tchar *wimfile, int open_flags, WIMStruct **wim_ret) { return wimlib_open_wim_with_progress(wimfile, open_flags, wim_ret, NULL, NULL); } /* Checksum all blobs that are unhashed (other than the metadata blobs), merging * them into the blob table as needed. This is a no-op unless files have been * added to an image in the same WIMStruct. */ int wim_checksum_unhashed_blobs(WIMStruct *wim) { int ret; if (!wim_has_metadata(wim)) return 0; for (int i = 0; i < wim->hdr.image_count; i++) { struct blob_descriptor *blob, *tmp; struct wim_image_metadata *imd = wim->image_metadata[i]; image_for_each_unhashed_blob_safe(blob, tmp, imd) { struct blob_descriptor *new_blob; ret = hash_unhashed_blob(blob, wim->blob_table, &new_blob); if (ret) return ret; if (new_blob != blob) free_blob_descriptor(blob); } } return 0; } /* * can_modify_wim - Check if a given WIM is writeable. This is only the case if * it meets the following three conditions: * * 1. Write access is allowed to the underlying file (if any) at the filesystem level. * 2. The WIM is not part of a spanned set. * 3. The WIM_HDR_FLAG_READONLY flag is not set in the WIM header. * * Return value is 0 if writable; WIMLIB_ERR_WIM_IS_READONLY otherwise. */ int can_modify_wim(WIMStruct *wim) { if (wim->filename) { if (taccess(wim->filename, W_OK)) { ERROR_WITH_ERRNO("Can't modify \"%"TS"\"", wim->filename); return WIMLIB_ERR_WIM_IS_READONLY; } } if (wim->hdr.total_parts != 1) { ERROR("Cannot modify \"%"TS"\": is part of a split WIM", wim->filename); return WIMLIB_ERR_WIM_IS_READONLY; } if (wim->hdr.flags & WIM_HDR_FLAG_READONLY) { ERROR("Cannot modify \"%"TS"\": is marked read-only", wim->filename); return WIMLIB_ERR_WIM_IS_READONLY; } return 0; } /* Release a reference to a WIMStruct. If the reference count reaches 0, the * WIMStruct is freed. */ void wim_decrement_refcnt(WIMStruct *wim) { wimlib_assert(wim->refcnt > 0); if (--wim->refcnt != 0) return; if (filedes_valid(&wim->in_fd)) filedes_close(&wim->in_fd); if (filedes_valid(&wim->out_fd)) filedes_close(&wim->out_fd); wimlib_free_decompressor(wim->decompressor); xml_free_info_struct(wim->xml_info); FREE(wim->filename); FREE(wim); } /* API function documented in wimlib.h */ WIMLIBAPI void wimlib_free(WIMStruct *wim) { if (!wim) return; /* The blob table and image metadata are freed immediately, but other * members of the WIMStruct such as the input file descriptor are * retained until no more exported resources reference the WIMStruct. */ free_blob_table(wim->blob_table); wim->blob_table = NULL; if (wim->image_metadata != NULL) { deselect_current_wim_image(wim); for (int i = 0; i < wim->hdr.image_count; i++) put_image_metadata(wim->image_metadata[i]); FREE(wim->image_metadata); wim->image_metadata = NULL; } wim_decrement_refcnt(wim); } /* API function documented in wimlib.h */ WIMLIBAPI u32 wimlib_get_version(void) { return (WIMLIB_MAJOR_VERSION << 20) | (WIMLIB_MINOR_VERSION << 10) | WIMLIB_PATCH_VERSION; } static bool lib_initialized = false; static pthread_mutex_t lib_initialization_mutex = PTHREAD_MUTEX_INITIALIZER; /* API function documented in wimlib.h */ WIMLIBAPI int wimlib_global_init(int init_flags) { int ret = 0; if (lib_initialized) goto out; pthread_mutex_lock(&lib_initialization_mutex); if (lib_initialized) goto out_unlock; #ifdef ENABLE_ERROR_MESSAGES if (!wimlib_error_file) wimlib_error_file = stderr; #endif ret = WIMLIB_ERR_INVALID_PARAM; if (init_flags & ~(WIMLIB_INIT_FLAG_ASSUME_UTF8 | WIMLIB_INIT_FLAG_DONT_ACQUIRE_PRIVILEGES | WIMLIB_INIT_FLAG_STRICT_CAPTURE_PRIVILEGES | WIMLIB_INIT_FLAG_STRICT_APPLY_PRIVILEGES | WIMLIB_INIT_FLAG_DEFAULT_CASE_SENSITIVE | WIMLIB_INIT_FLAG_DEFAULT_CASE_INSENSITIVE)) goto out_unlock; ret = WIMLIB_ERR_INVALID_PARAM; if ((init_flags & (WIMLIB_INIT_FLAG_DEFAULT_CASE_SENSITIVE | WIMLIB_INIT_FLAG_DEFAULT_CASE_INSENSITIVE)) == (WIMLIB_INIT_FLAG_DEFAULT_CASE_SENSITIVE | WIMLIB_INIT_FLAG_DEFAULT_CASE_INSENSITIVE)) goto out_unlock; xml_global_init(); #ifdef __WIN32__ ret = win32_global_init(init_flags); if (ret) goto out_unlock; #endif init_upcase(); if (init_flags & WIMLIB_INIT_FLAG_DEFAULT_CASE_SENSITIVE) default_ignore_case = false; else if (init_flags & WIMLIB_INIT_FLAG_DEFAULT_CASE_INSENSITIVE) default_ignore_case = true; lib_initialized = true; ret = 0; out_unlock: pthread_mutex_unlock(&lib_initialization_mutex); out: return ret; } /* API function documented in wimlib.h */ WIMLIBAPI void wimlib_global_cleanup(void) { if (!lib_initialized) return; pthread_mutex_lock(&lib_initialization_mutex); if (!lib_initialized) goto out_unlock; xml_global_cleanup(); #ifdef __WIN32__ win32_global_cleanup(); #endif wimlib_set_error_file(NULL); lib_initialized = false; out_unlock: pthread_mutex_unlock(&lib_initialization_mutex); }