/* * header.c * * Read, write, or create a WIM header. */ /* * Copyright (C) 2012, 2013 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 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 General Public License for more * details. * * You should have received a copy of the GNU General Public License * along with wimlib; if not, see http://www.gnu.org/licenses/. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "wimlib.h" #include "wimlib/assert.h" #include "wimlib/endianness.h" #include "wimlib/error.h" #include "wimlib/file_io.h" #include "wimlib/header.h" #include "wimlib/util.h" #include "wimlib/wim.h" #include #include /* WIM magic characters, translated to a single 64-bit little endian number. */ #define WIM_MAGIC \ cpu_to_le64(((u64)'M' << 0) | \ ((u64)'S' << 8) | \ ((u64)'W' << 16) | \ ((u64)'I' << 24) | \ ((u64)'M' << 32) | \ ((u64)'\0' << 40) | \ ((u64)'\0' << 48) | \ ((u64)'\0' << 54)) /* On-disk format of the WIM header. */ struct wim_header_disk { /* Magic characters "MSWIM\0\0\0" */ le64 magic; /* Size of the WIM header, in bytes; WIM_HEADER_DISK_SIZE expected * (currently the only supported value). */ u32 hdr_size; /* Version of the WIM file; WIM_VERSION expected (currently the only * supported value). */ u32 wim_version; /* Flags for the WIM file (WIM_HDR_FLAG_*) */ u32 wim_flags; /* Uncompressed chunk size of resources in the WIM. 0 if the WIM is * uncompressed. If compressed, WIM_CHUNK_SIZE is expected (currently * the only supported value). */ u32 chunk_size; /* Globally unique identifier for the WIM file. Basically a bunch of * random bytes. */ u8 guid[WIM_GID_LEN]; /* Number of this WIM part in the split WIM file, indexed from 1, or 1 * if the WIM is not split. */ u16 part_number; /* Total number of parts of the split WIM file, or 1 if the WIM is not * split. */ u16 total_parts; /* Number of images in the WIM. */ u32 image_count; /* Location and size of the WIM's lookup table. */ struct resource_entry_disk lookup_table_res_entry; /* Location and size of the WIM's XML data. */ struct resource_entry_disk xml_data_res_entry; /* Location and size of metadata resource for the bootable image of the * WIM, or all zeroes if no image is bootable. */ struct resource_entry_disk boot_metadata_res_entry; /* 1-based index of the bootable image of the WIM, or 0 if no image is * bootable. */ u32 boot_idx; /* Location and size of the WIM's integrity table, or all zeroes if the * WIM has no integrity table. * * Note the integrity_table_res_entry here is 4-byte aligned even though * it would ordinarily be 8-byte aligned--- hence, the _packed_attribute * on the `struct wim_header_disk' is essential. */ struct resource_entry_disk integrity_table_res_entry; /* Unused bytes. */ u8 unused[60]; } _packed_attribute; /* Reads the header from a WIM file. */ int read_header(const tchar *filename, int in_fd, struct wim_header *hdr) { struct wim_header_disk disk_hdr _aligned_attribute(8); BUILD_BUG_ON(sizeof(struct wim_header_disk) != WIM_HEADER_DISK_SIZE); DEBUG("Reading WIM header from \"%"TS"\"", filename); if (full_pread(in_fd, &disk_hdr, sizeof(disk_hdr), 0) != sizeof(disk_hdr)) { ERROR_WITH_ERRNO("\"%"TS"\": Error reading header", filename); return WIMLIB_ERR_READ; } if (disk_hdr.magic != WIM_MAGIC) { ERROR("\"%"TS"\": Invalid magic characters in header", filename); return WIMLIB_ERR_NOT_A_WIM_FILE; } if (le32_to_cpu(disk_hdr.hdr_size) != sizeof(struct wim_header_disk)) { ERROR("\"%"TS"\": Header size is invalid (%u bytes)", filename, le32_to_cpu(disk_hdr.hdr_size)); return WIMLIB_ERR_INVALID_HEADER_SIZE; } if (le32_to_cpu(disk_hdr.wim_version) != WIM_VERSION) { ERROR("\"%"TS"\": The WIM header says the WIM version is %u, " "but wimlib only knows about version %u", filename, le32_to_cpu(disk_hdr.wim_version), WIM_VERSION); return WIMLIB_ERR_UNKNOWN_VERSION; } hdr->flags = le32_to_cpu(disk_hdr.wim_flags); if (le32_to_cpu(disk_hdr.chunk_size) != WIM_CHUNK_SIZE && (hdr->flags & WIM_HDR_FLAG_COMPRESSION)) { ERROR("\"%"TS"\": Unexpected chunk size of %u! Ask the author to " "implement support for other chunk sizes.", filename, le32_to_cpu(disk_hdr.chunk_size)); ERROR("(Or it might just be that the WIM header is invalid.)"); return WIMLIB_ERR_INVALID_CHUNK_SIZE; } memcpy(hdr->guid, disk_hdr.guid, WIM_GID_LEN); hdr->part_number = le16_to_cpu(disk_hdr.part_number); hdr->total_parts = le16_to_cpu(disk_hdr.total_parts); if (hdr->total_parts == 0 || hdr->part_number == 0 || hdr->part_number > hdr->total_parts) { ERROR("\"%"TS"\": Invalid WIM part number: %hu of %hu", filename, hdr->part_number, hdr->total_parts); return WIMLIB_ERR_INVALID_PART_NUMBER; } hdr->image_count = le32_to_cpu(disk_hdr.image_count); DEBUG("part_number = %u, total_parts = %u, image_count = %u", hdr->part_number, hdr->total_parts, hdr->image_count); if (hdr->image_count >= INT_MAX) { ERROR("\"%"TS"\": Invalid image count (%u)", filename, hdr->image_count); return WIMLIB_ERR_IMAGE_COUNT; } get_resource_entry(&disk_hdr.lookup_table_res_entry, &hdr->lookup_table_res_entry); get_resource_entry(&disk_hdr.xml_data_res_entry, &hdr->xml_res_entry); get_resource_entry(&disk_hdr.boot_metadata_res_entry, &hdr->boot_metadata_res_entry); hdr->boot_idx = le32_to_cpu(disk_hdr.boot_idx); get_resource_entry(&disk_hdr.integrity_table_res_entry, &hdr->integrity); return 0; } /* * Writes the header for a WIM file. * * @hdr: A pointer to a struct wim_header structure that describes the header. * @out_fd: The file descriptor to the WIM file, opened for writing. * * Returns zero on success, nonzero on failure. */ int write_header(const struct wim_header *hdr, int out_fd) { struct wim_header_disk disk_hdr _aligned_attribute(8); DEBUG("Writing WIM header."); disk_hdr.magic = WIM_MAGIC; disk_hdr.hdr_size = cpu_to_le32(sizeof(struct wim_header_disk)); disk_hdr.wim_version = cpu_to_le32(WIM_VERSION); disk_hdr.wim_flags = cpu_to_le32(hdr->flags); disk_hdr.chunk_size = cpu_to_le32((hdr->flags & WIM_HDR_FLAG_COMPRESSION) ? WIM_CHUNK_SIZE : 0); memcpy(disk_hdr.guid, hdr->guid, WIM_GID_LEN); disk_hdr.part_number = cpu_to_le16(hdr->part_number); disk_hdr.total_parts = cpu_to_le16(hdr->total_parts); disk_hdr.image_count = cpu_to_le32(hdr->image_count); put_resource_entry(&hdr->lookup_table_res_entry, &disk_hdr.lookup_table_res_entry); put_resource_entry(&hdr->xml_res_entry, &disk_hdr.xml_data_res_entry); put_resource_entry(&hdr->boot_metadata_res_entry, &disk_hdr.boot_metadata_res_entry); disk_hdr.boot_idx = cpu_to_le32(hdr->boot_idx); put_resource_entry(&hdr->integrity, &disk_hdr.integrity_table_res_entry); memset(disk_hdr.unused, 0, sizeof(disk_hdr.unused)); if (full_pwrite(out_fd, &disk_hdr, sizeof(disk_hdr), 0) != sizeof(disk_hdr)) { ERROR_WITH_ERRNO("Failed to write WIM header"); return WIMLIB_ERR_WRITE; } DEBUG("Done writing WIM header"); return 0; } /* * Initializes the header for a WIM file. */ int init_header(struct wim_header *hdr, int ctype) { memset(hdr, 0, sizeof(struct wim_header)); switch (ctype) { case WIMLIB_COMPRESSION_TYPE_NONE: hdr->flags = 0; break; case WIMLIB_COMPRESSION_TYPE_LZX: hdr->flags = WIM_HDR_FLAG_COMPRESSION | WIM_HDR_FLAG_COMPRESS_LZX; break; case WIMLIB_COMPRESSION_TYPE_XPRESS: hdr->flags = WIM_HDR_FLAG_COMPRESSION | WIM_HDR_FLAG_COMPRESS_XPRESS; break; default: ERROR("Invalid compression type specified (%d)", ctype); return WIMLIB_ERR_INVALID_COMPRESSION_TYPE; } hdr->total_parts = 1; hdr->part_number = 1; randomize_byte_array(hdr->guid, sizeof(hdr->guid)); return 0; } struct hdr_flag { u32 flag; const char *name; }; struct hdr_flag hdr_flags[] = { {WIM_HDR_FLAG_RESERVED, "RESERVED"}, {WIM_HDR_FLAG_COMPRESSION, "COMPRESSION"}, {WIM_HDR_FLAG_READONLY, "READONLY"}, {WIM_HDR_FLAG_SPANNED, "SPANNED"}, {WIM_HDR_FLAG_RESOURCE_ONLY, "RESOURCE_ONLY"}, {WIM_HDR_FLAG_METADATA_ONLY, "METADATA_ONLY"}, {WIM_HDR_FLAG_WRITE_IN_PROGRESS,"WRITE_IN_PROGRESS"}, {WIM_HDR_FLAG_RP_FIX, "RP_FIX"}, {WIM_HDR_FLAG_COMPRESS_RESERVED,"COMPRESS_RESERVED"}, {WIM_HDR_FLAG_COMPRESS_LZX, "COMPRESS_LZX"}, {WIM_HDR_FLAG_COMPRESS_XPRESS, "COMPRESS_XPRESS"}, }; /* Prints information from the header of the WIM file associated with @w. */ WIMLIBAPI void wimlib_print_header(const WIMStruct *w) { const struct wim_header *hdr = &w->hdr; tprintf(T("Magic Characters = MSWIM\\000\\000\\000\n")); tprintf(T("Header Size = %u\n"), WIM_HEADER_DISK_SIZE); tprintf(T("Version = 0x%x\n"), WIM_VERSION); tprintf(T("Flags = 0x%x\n"), hdr->flags); for (size_t i = 0; i < ARRAY_LEN(hdr_flags); i++) if (hdr_flags[i].flag & hdr->flags) tprintf(T(" WIM_HDR_FLAG_%s is set\n"), hdr_flags[i].name); tprintf(T("Chunk Size = %u\n"), WIM_CHUNK_SIZE); tfputs (T("GUID = "), stdout); print_byte_field(hdr->guid, WIM_GID_LEN, stdout); tputchar(T('\n')); tprintf(T("Part Number = %hu\n"), w->hdr.part_number); tprintf(T("Total Parts = %hu\n"), w->hdr.total_parts); tprintf(T("Image Count = %u\n"), hdr->image_count); tprintf(T("Lookup Table Size = %"PRIu64"\n"), (u64)hdr->lookup_table_res_entry.size); tprintf(T("Lookup Table Flags = 0x%hhx\n"), (u8)hdr->lookup_table_res_entry.flags); tprintf(T("Lookup Table Offset = %"PRIu64"\n"), hdr->lookup_table_res_entry.offset); tprintf(T("Lookup Table Original_size = %"PRIu64"\n"), hdr->lookup_table_res_entry.original_size); tprintf(T("XML Data Size = %"PRIu64"\n"), (u64)hdr->xml_res_entry.size); tprintf(T("XML Data Flags = 0x%hhx\n"), (u8)hdr->xml_res_entry.flags); tprintf(T("XML Data Offset = %"PRIu64"\n"), hdr->xml_res_entry.offset); tprintf(T("XML Data Original Size = %"PRIu64"\n"), hdr->xml_res_entry.original_size); tprintf(T("Boot Metadata Size = %"PRIu64"\n"), (u64)hdr->boot_metadata_res_entry.size); tprintf(T("Boot Metadata Flags = 0x%hhx\n"), (u8)hdr->boot_metadata_res_entry.flags); tprintf(T("Boot Metadata Offset = %"PRIu64"\n"), hdr->boot_metadata_res_entry.offset); tprintf(T("Boot Metadata Original Size = %"PRIu64"\n"), hdr->boot_metadata_res_entry.original_size); tprintf(T("Boot Index = %u\n"), hdr->boot_idx); tprintf(T("Integrity Size = %"PRIu64"\n"), (u64)hdr->integrity.size); tprintf(T("Integrity Flags = 0x%hhx\n"), (u8)hdr->integrity.flags); tprintf(T("Integrity Offset = %"PRIu64"\n"), hdr->integrity.offset); tprintf(T("Integrity Original_size = %"PRIu64"\n"), hdr->integrity.original_size); }