X-Git-Url: https://wimlib.net/git/?p=wimlib;a=blobdiff_plain;f=src%2Fresource.c;h=dee8bd1554d26864f57777360b3466bf9af4a843;hp=4f093622f9e64d356484015f8b45db1cc33635b9;hb=60b8f54df8fed44136bdc8ec615ee62703d87b69;hpb=774e09230145ee2d8ba58868573213da84a348eb diff --git a/src/resource.c b/src/resource.c index 4f093622..dee8bd15 100644 --- a/src/resource.c +++ b/src/resource.c @@ -5,23 +5,21 @@ */ /* - * Copyright (C) 2010 Carl Thijssen * Copyright (C) 2012 Eric Biggers * * This file is part of wimlib, a library for working with WIM files. * * wimlib 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 2.1 of the License, or (at your option) - * any later version. + * terms of the GNU General Public License as published by the Free Software + * Foundation; either version 3 of the License, or (at your option) any later + * version. * * wimlib 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. + * A PARTICULAR PURPOSE. See the GNU General Public License for more details. * - * You should have received a copy of the GNU Lesser General Public License - * along with wimlib; if not, see http://www.gnu.org/licenses/. + * You should have received a copy of the GNU General Public License along with + * wimlib; if not, see http://www.gnu.org/licenses/. */ #include "wimlib_internal.h" @@ -36,6 +34,11 @@ #include #include +#ifdef WITH_NTFS_3G +#include +#include +#include +#endif /* * Reads all or part of a compressed resource into an in-memory buffer. @@ -431,18 +434,9 @@ int read_wim_resource(const struct lookup_table_entry *lte, u8 buf[], wimlib_assert(lte->wim->fp); ctype = wim_resource_compression_type(lte); - /* XXX This check should be moved elsewhere */ - if (ctype == WIM_COMPRESSION_TYPE_NONE && - lte->resource_entry.original_size != - lte->resource_entry.size) { - ERROR("WIM resource at offset %"PRIu64", size %"PRIu64 - "has an original size of %"PRIu64", but is " - "uncompressed", - lte->resource_entry.offset, - lte->resource_entry.size, - lte->resource_entry.original_size); - return WIMLIB_ERR_INVALID_RESOURCE_SIZE; - } + wimlib_assert(ctype != WIM_COMPRESSION_TYPE_NONE || + (lte->resource_entry.original_size == + lte->resource_entry.size)); if (raw || ctype == WIM_COMPRESSION_TYPE_NONE) return read_uncompressed_resource(lte->wim->fp, @@ -456,16 +450,11 @@ int read_wim_resource(const struct lookup_table_entry *lte, u8 buf[], ctype, size, offset, buf); break; case RESOURCE_IN_STAGING_FILE: - /* The WIM FUSE implementation needs to handle multiple open - * file descriptors per lookup table entry so it does not - * currently work with this function. */ - wimlib_assert(lte->staging_file_name); - wimlib_assert(0); - break; case RESOURCE_IN_FILE_ON_DISK: /* The resource is in some file on the external filesystem and * needs to be read uncompressed */ wimlib_assert(lte->file_on_disk); + wimlib_assert(<e->file_on_disk == <e->staging_file_name); /* Use existing file pointer if available; otherwise open one * temporarily */ if (lte->file_on_disk_fp) { @@ -475,6 +464,7 @@ int read_wim_resource(const struct lookup_table_entry *lte, u8 buf[], if (!fp) { ERROR_WITH_ERRNO("Failed to open the file " "`%s'", lte->file_on_disk); + return WIMLIB_ERR_OPEN; } } ret = read_uncompressed_resource(fp, offset, size, buf); @@ -489,6 +479,28 @@ int read_wim_resource(const struct lookup_table_entry *lte, u8 buf[], memcpy(buf, lte->attached_buffer + offset, size); return 0; break; +#ifdef WITH_NTFS_3G + case RESOURCE_IN_NTFS_VOLUME: + wimlib_assert(lte->ntfs_loc); + if (lte->attr) { + u64 adjusted_offset; + if (lte->ntfs_loc->is_reparse_point) + adjusted_offset = offset + 8; + else + adjusted_offset = offset; + if (ntfs_attr_pread(lte->attr, offset, size, buf) == size) { + return 0; + } else { + ERROR_WITH_ERRNO("Error reading NTFS attribute " + "at `%s'", + lte->ntfs_loc->path_utf8); + return WIMLIB_ERR_NTFS_3G; + } + } else { + wimlib_assert(0); + } + break; +#endif default: assert(0); } @@ -591,7 +603,6 @@ static int compress_chunk(const u8 chunk[], unsigned chunk_size, unsigned *compressed_chunk_len_ret, int ctype) { - unsigned compressed_chunk_sz; int (*compress)(const void *, unsigned, void *, unsigned *); switch (ctype) { case WIM_COMPRESSION_TYPE_LZX: @@ -636,7 +647,6 @@ static int write_wim_resource_chunk(const u8 chunk[], unsigned chunk_size, } else { u8 *compressed_chunk = alloca(chunk_size); int ret; - unsigned compressed_chunk_len; ret = compress_chunk(chunk, chunk_size, compressed_chunk, &out_chunk_size, out_ctype); @@ -670,7 +680,7 @@ finish_wim_resource_chunk_tab(struct chunk_table *chunk_tab, { size_t bytes_written; if (fseeko(out_fp, chunk_tab->file_offset, SEEK_SET) != 0) { - ERROR_WITH_ERRNO("Failed to seek to byte "PRIu64" of output " + ERROR_WITH_ERRNO("Failed to seek to byte %"PRIu64" of output " "WIM file", chunk_tab->file_offset); return WIMLIB_ERR_WRITE; } @@ -732,6 +742,11 @@ static int write_wim_resource(struct lookup_table_entry *lte, struct chunk_table *chunk_tab = NULL; bool raw; off_t file_offset; +#ifdef WITH_NTFS_3G + ntfs_inode *ni = NULL; +#endif + + wimlib_assert(lte); /* Original size of the resource */ original_size = wim_resource_size(lte); @@ -761,7 +776,7 @@ static int write_wim_resource(struct lookup_table_entry *lte, return 0; /* Buffer for reading chunks for the resource */ - char buf[min(WIM_CHUNK_SIZE, bytes_remaining)]; + u8 buf[min(WIM_CHUNK_SIZE, bytes_remaining)]; /* If we are writing a compressed resource and not doing a raw copy, we * need to initialize the chunk table */ @@ -787,6 +802,31 @@ static int write_wim_resource(struct lookup_table_entry *lte, goto out; } } +#ifdef WITH_NTFS_3G + else if (lte->resource_location == RESOURCE_IN_NTFS_VOLUME + && !lte->attr) + { + struct ntfs_location *loc = lte->ntfs_loc; + wimlib_assert(loc); + ni = ntfs_pathname_to_inode(*loc->ntfs_vol_p, NULL, loc->path_utf8); + if (!ni) { + ERROR_WITH_ERRNO("Failed to open inode `%s' in NTFS " + "volume", loc->path_utf8); + ret = WIMLIB_ERR_NTFS_3G; + goto out; + } + lte->attr = ntfs_attr_open(ni, + loc->is_reparse_point ? AT_REPARSE_POINT : AT_DATA, + (ntfschar*)loc->stream_name_utf16, + loc->stream_name_utf16_num_chars); + if (!lte->attr) { + ERROR_WITH_ERRNO("Failed to open attribute of `%s' in " + "NTFS volume", loc->path_utf8); + ret = WIMLIB_ERR_NTFS_3G; + goto out_fclose; + } + } +#endif /* If we aren't doing a raw copy, we will compute the SHA1 message * digest of the resource as we read it, and verify it's the same as the @@ -849,11 +889,13 @@ static int write_wim_resource(struct lookup_table_entry *lte, } } - if (new_compressed_size > original_size) { + if (new_compressed_size >= original_size && + out_ctype != WIM_COMPRESSION_TYPE_NONE && !raw) + { /* Oops! We compressed the resource to larger than the original * size. Write the resource uncompressed instead. */ if (fseeko(out_fp, file_offset, SEEK_SET) != 0) { - ERROR_WITH_ERRNO("Failed to seek to byte "PRIu64" " + ERROR_WITH_ERRNO("Failed to seek to byte %"PRIu64" " "of output WIM file", file_offset); ret = WIMLIB_ERR_WRITE; goto out_fclose; @@ -889,6 +931,16 @@ out_fclose: fclose(lte->file_on_disk_fp); lte->file_on_disk_fp = NULL; } +#ifdef WITH_NTFS_3G + else if (lte->resource_location == RESOURCE_IN_NTFS_VOLUME) { + if (lte->attr) { + ntfs_attr_close(lte->attr); + lte->attr = NULL; + } if (ni) { + ntfs_inode_close(ni); + } + } +#endif out: FREE(chunk_tab); return ret; @@ -913,7 +965,7 @@ static int write_wim_resource_from_buffer(const u8 *buf, u64 buf_size, lte.resource_location = RESOURCE_IN_ATTACHED_BUFFER; lte.attached_buffer = (u8*)buf; - zero_hash(lte.hash); + zero_out_hash(lte.hash); ret = write_wim_resource(<e, out_fp, out_ctype, out_res_entry); if (ret != 0) return ret; @@ -931,7 +983,7 @@ int extract_wim_resource_to_fd(const struct lookup_table_entry *lte, int fd, u64 size) { u64 bytes_remaining = size; - char buf[min(WIM_CHUNK_SIZE, bytes_remaining)]; + u8 buf[min(WIM_CHUNK_SIZE, bytes_remaining)]; u64 offset = 0; int ret = 0; u8 hash[SHA1_HASH_SIZE]; @@ -1054,41 +1106,43 @@ int write_dentry_resources(struct dentry *dentry, void *wim_p) * * @return: Zero on success, nonzero on failure. */ -int read_metadata_resource(FILE *fp, int wim_ctype, struct image_metadata *imd) +int read_metadata_resource(WIMStruct *w, struct image_metadata *imd) { u8 *buf; - int ctype; u32 dentry_offset; int ret; struct dentry *dentry; - struct wim_security_data *sd; struct link_group_table *lgt; const struct lookup_table_entry *metadata_lte; - const struct resource_entry *res_entry; + u64 metadata_len; + u64 metadata_offset; metadata_lte = imd->metadata_lte; - res_entry = &metadata_lte->resource_entry; + metadata_len = wim_resource_size(metadata_lte); + metadata_offset = metadata_lte->resource_entry.offset; DEBUG("Reading metadata resource: length = %"PRIu64", " - "offset = %"PRIu64"", - res_entry->original_size, res_entry->offset); - - if (res_entry->original_size < 8) { - ERROR("Expected at least 8 bytes for the metadata resource"); + "offset = %"PRIu64"", metadata_len, metadata_offset); + + /* There is no way the metadata resource could possibly be less than (8 + * + WIM_DENTRY_DISK_SIZE) bytes, where the 8 is for security data (with + * no security descriptors) and WIM_DENTRY_DISK_SIZE is for the root + * dentry. */ + if (metadata_len < 8 + WIM_DENTRY_DISK_SIZE) { + ERROR("Expected at least %u bytes for the metadata resource", + 8 + WIM_DENTRY_DISK_SIZE); return WIMLIB_ERR_INVALID_RESOURCE_SIZE; } /* Allocate memory for the uncompressed metadata resource. */ - buf = MALLOC(res_entry->original_size); + buf = MALLOC(metadata_len); if (!buf) { ERROR("Failed to allocate %"PRIu64" bytes for uncompressed " - "metadata resource", res_entry->original_size); + "metadata resource", metadata_len); return WIMLIB_ERR_NOMEM; } - /* Determine the compression type of the metadata resource. */ - /* Read the metadata resource into memory. (It may be compressed.) */ ret = read_full_wim_resource(metadata_lte, buf); if (ret != 0) @@ -1096,17 +1150,27 @@ int read_metadata_resource(FILE *fp, int wim_ctype, struct image_metadata *imd) DEBUG("Finished reading metadata resource into memory."); - /* The root directory entry starts after security data, on an 8-byte - * aligned address. + /* The root directory entry starts after security data, aligned on an + * 8-byte boundary within the metadata resource. * * The security data starts with a 4-byte integer giving its total - * length. */ + * length, so if we round that up to an 8-byte boundary that gives us + * the offset of the root dentry. + * + * Here we read the security data into a wim_security_data structure, + * and if successful, go ahead and calculate the offset in the metadata + * resource of the root dentry. */ - /* Read the security data into a wim_security_data structure. */ - ret = read_security_data(buf, res_entry->original_size, &sd); + ret = read_security_data(buf, metadata_len, &imd->security_data); if (ret != 0) goto out_free_buf; + get_u32(buf, &dentry_offset); + if (dentry_offset == 0) + dentry_offset = 8; + dentry_offset = (dentry_offset + 7) & ~7; + + /* Allocate memory for the root dentry and read it into memory */ dentry = MALLOC(sizeof(struct dentry)); if (!dentry) { ERROR("Failed to allocate %zu bytes for root dentry", @@ -1114,13 +1178,9 @@ int read_metadata_resource(FILE *fp, int wim_ctype, struct image_metadata *imd) ret = WIMLIB_ERR_NOMEM; goto out_free_security_data; } - - get_u32(buf, &dentry_offset); - if (dentry_offset == 0) - dentry_offset = 8; - dentry_offset = (dentry_offset + 7) & ~7; - ret = read_dentry(buf, res_entry->original_size, dentry_offset, dentry); + ret = read_dentry(buf, metadata_len, dentry_offset, dentry); + /* This is the root dentry, so set its pointers correctly. */ dentry->parent = dentry; dentry->next = dentry; @@ -1128,20 +1188,20 @@ int read_metadata_resource(FILE *fp, int wim_ctype, struct image_metadata *imd) if (ret != 0) goto out_free_dentry_tree; + /* Now read the entire directory entry tree into memory. */ DEBUG("Reading dentry tree"); - /* Now read the entire directory entry tree. */ - ret = read_dentry_tree(buf, res_entry->original_size, dentry); + ret = read_dentry_tree(buf, metadata_len, dentry); if (ret != 0) goto out_free_dentry_tree; - DEBUG("Calculating dentry full paths"); /* Calculate the full paths in the dentry tree. */ + DEBUG("Calculating dentry full paths"); ret = for_dentry_in_tree(dentry, calculate_dentry_full_path, NULL); if (ret != 0) goto out_free_dentry_tree; - DEBUG("Building link group table"); /* Build hash table that maps hard link group IDs to dentry sets */ + DEBUG("Building link group table"); lgt = new_link_group_table(9001); if (!lgt) goto out_free_dentry_tree; @@ -1149,14 +1209,19 @@ int read_metadata_resource(FILE *fp, int wim_ctype, struct image_metadata *imd) if (ret != 0) goto out_free_lgt; - DEBUG("Freeing duplicate ADS entries in link group table"); - ret = link_groups_free_duplicate_data(lgt); + DEBUG("Fixing inconsistencies in the link groups"); + ret = fix_link_groups(lgt); + if (ret != 0) + goto out_free_lgt; + + DEBUG("Running miscellaneous verifications on the dentry tree"); + ret = for_dentry_in_tree(dentry, verify_dentry, w); if (ret != 0) goto out_free_lgt; + DEBUG("Done reading image metadata"); imd->lgt = lgt; - imd->security_data = sd; imd->root_dentry = dentry; goto out_free_buf; out_free_lgt: @@ -1164,7 +1229,8 @@ out_free_lgt: out_free_dentry_tree: free_dentry_tree(dentry, NULL); out_free_security_data: - free_security_data(sd); + free_security_data(imd->security_data); + imd->security_data = NULL; out_free_buf: FREE(buf); return ret; @@ -1180,18 +1246,35 @@ int write_metadata_resource(WIMStruct *w) struct dentry *root; struct lookup_table_entry *lte; u64 metadata_original_size; + const struct wim_security_data *sd; + const unsigned random_tail_len = 20; DEBUG("Writing metadata resource for image %d", w->current_image); root = wim_root_dentry(w); + sd = wim_security_data(w); + + /* We do not allow the security data pointer to be NULL, although it may + * point to an empty security data with no entries. */ + wimlib_assert(sd); + + /* Offset of first child of the root dentry. It's equal to: + * - The total length of the security data, rounded to the next 8-byte + * boundary, + * - plus the total length of the root dentry, + * - plus 8 bytes for an end-of-directory entry following the root + * dentry (shouldn't really be needed, but just in case...) + */ + subdir_offset = ((sd->total_length + 7) & ~7) + + dentry_correct_total_length(root) + 8; - struct wim_security_data *sd = wim_security_data(w); - if (sd) - subdir_offset = sd->total_length + root->length + 8; - else - subdir_offset = 8 + root->length + 8; + /* Calculate the subdirectory offsets for the entire dentry tree. */ calculate_subdir_offsets(root, &subdir_offset); - metadata_original_size = subdir_offset; + + /* Total length of the metadata resource (uncompressed) */ + metadata_original_size = subdir_offset + random_tail_len; + + /* Allocate a buffer to contain the uncompressed metadata resource */ buf = MALLOC(metadata_original_size); if (!buf) { ERROR("Failed to allocate %"PRIu64" bytes for " @@ -1199,24 +1282,59 @@ int write_metadata_resource(WIMStruct *w) return WIMLIB_ERR_NOMEM; } + /* Write the security data into the resource buffer */ p = write_security_data(sd, buf); + /* Write the dentry tree into the resource buffer */ DEBUG("Writing dentry tree."); p = write_dentry_tree(root, p); - wimlib_assert(p - buf == metadata_original_size); + /* + * Append 20 random bytes to the metadata resource so that we don't have + * identical metadata resources if we happen to append exactly the same + * image twice without any changes in timestamps. If this were to + * happen, it would cause confusion about the number and order of images + * in the WIM. + */ + randomize_byte_array(p, random_tail_len); + + /* We MUST have exactly filled the buffer; otherwise we calculated its + * size incorrectly or wrote the data incorrectly. */ + wimlib_assert(p - buf + random_tail_len == metadata_original_size); + + /* Get the lookup table entry for the metadata resource so we can update + * it. */ lte = wim_metadata_lookup_table_entry(w); + /* Write the metadata resource to the output WIM using the proper + * compression type. The lookup table entry for the metadata resource + * is updated. */ ret = write_wim_resource_from_buffer(buf, metadata_original_size, w->out_fp, wimlib_get_compression_type(w), <e->output_resource_entry, lte->hash); + if (ret != 0) + goto out; + /* It's very likely the SHA1 message digest of the metadata resource, so + * re-insert the lookup table entry into the lookup table. */ lookup_table_unlink(w->lookup_table, lte); lookup_table_insert(w->lookup_table, lte); - lte->out_refcnt++; + + /* We do not allow a metadata resource to be referenced multiple times, + * and the 20 random bytes appended to it should make it extremely + * likely for each metadata resource to be unique, even if the exact + * same image is captured. */ + wimlib_assert(lte->out_refcnt == 0); + lte->out_refcnt = 1; + + /* Make sure that the resource entry is written marked with the metadata + * flag. */ lte->output_resource_entry.flags |= WIM_RESHDR_FLAG_METADATA; +out: + /* All the data has been written to the new WIM; no need for the buffer + * anymore */ FREE(buf); return ret; }