// Copyright 2017 Dolphin Emulator Project // Licensed under GPLv2+ // Refer to the license.txt file included. #include "DiscIO/DiscExtractor.h" #include #include #include #include #include #include "Common/CommonTypes.h" #include "Common/File.h" #include "Common/FileUtil.h" #include "DiscIO/Enums.h" #include "DiscIO/Filesystem.h" #include "DiscIO/Volume.h" namespace DiscIO { std::string NameForPartitionType(u32 partition_type, bool include_prefix) { switch (partition_type) { case PARTITION_DATA: return "DATA"; case PARTITION_UPDATE: return "UPDATE"; case PARTITION_CHANNEL: return "CHANNEL"; case PARTITION_INSTALL: // wit doesn't recognize the name "INSTALL", so we can't use it when naming partition folders if (!include_prefix) return "INSTALL"; [[fallthrough]]; default: const std::string type_as_game_id{static_cast((partition_type >> 24) & 0xFF), static_cast((partition_type >> 16) & 0xFF), static_cast((partition_type >> 8) & 0xFF), static_cast(partition_type & 0xFF)}; if (std::all_of(type_as_game_id.cbegin(), type_as_game_id.cend(), [](char c) { return std::isalnum(c, std::locale::classic()); })) { return include_prefix ? "P-" + type_as_game_id : type_as_game_id; } return fmt::format(include_prefix ? "P{}" : "{}", partition_type); } } u64 ReadFile(const Volume& volume, const Partition& partition, const FileInfo* file_info, u8* buffer, u64 max_buffer_size, u64 offset_in_file) { if (!file_info || file_info->IsDirectory() || offset_in_file >= file_info->GetSize()) return 0; const u64 read_length = std::min(max_buffer_size, file_info->GetSize() - offset_in_file); DEBUG_LOG(DISCIO, "Reading %" PRIx64 " bytes at %" PRIx64 " from file %s. Offset: %" PRIx64 " Size: %" PRIx32, read_length, offset_in_file, file_info->GetPath().c_str(), file_info->GetOffset(), file_info->GetSize()); if (!volume.Read(file_info->GetOffset() + offset_in_file, read_length, buffer, partition)) return 0; return read_length; } u64 ReadFile(const Volume& volume, const Partition& partition, std::string_view path, u8* buffer, u64 max_buffer_size, u64 offset_in_file) { const FileSystem* file_system = volume.GetFileSystem(partition); if (!file_system) return 0; return ReadFile(volume, partition, file_system->FindFileInfo(path).get(), buffer, max_buffer_size, offset_in_file); } bool ExportData(const Volume& volume, const Partition& partition, u64 offset, u64 size, const std::string& export_filename) { File::IOFile f(export_filename, "wb"); if (!f) return false; while (size) { // Limit read size to 128 MB const size_t read_size = static_cast(std::min(size, 0x08000000)); std::vector buffer(read_size); if (!volume.Read(offset, read_size, buffer.data(), partition)) return false; if (!f.WriteBytes(buffer.data(), read_size)) return false; size -= read_size; offset += read_size; } return true; } bool ExportFile(const Volume& volume, const Partition& partition, const FileInfo* file_info, const std::string& export_filename) { if (!file_info || file_info->IsDirectory()) return false; return ExportData(volume, partition, file_info->GetOffset(), file_info->GetSize(), export_filename); } bool ExportFile(const Volume& volume, const Partition& partition, std::string_view path, const std::string& export_filename) { const FileSystem* file_system = volume.GetFileSystem(partition); if (!file_system) return false; return ExportFile(volume, partition, file_system->FindFileInfo(path).get(), export_filename); } void ExportDirectory(const Volume& volume, const Partition& partition, const FileInfo& directory, bool recursive, const std::string& filesystem_path, const std::string& export_folder, const std::function& update_progress) { File::CreateFullPath(export_folder + '/'); for (const FileInfo& file_info : directory) { const std::string name = file_info.GetName() + (file_info.IsDirectory() ? "/" : ""); const std::string path = filesystem_path + name; const std::string export_path = export_folder + '/' + name; if (update_progress(path)) return; DEBUG_LOG(DISCIO, "%s", export_path.c_str()); if (!file_info.IsDirectory()) { if (File::Exists(export_path)) NOTICE_LOG(DISCIO, "%s already exists", export_path.c_str()); else if (!ExportFile(volume, partition, &file_info, export_path)) ERROR_LOG(DISCIO, "Could not export %s", export_path.c_str()); } else if (recursive) { ExportDirectory(volume, partition, file_info, recursive, path, export_path, update_progress); } } } bool ExportWiiUnencryptedHeader(const Volume& volume, const std::string& export_filename) { if (volume.GetVolumeType() != Platform::WiiDisc) return false; return ExportData(volume, PARTITION_NONE, 0, 0x100, export_filename); } bool ExportWiiRegionData(const Volume& volume, const std::string& export_filename) { if (volume.GetVolumeType() != Platform::WiiDisc) return false; return ExportData(volume, PARTITION_NONE, 0x4E000, 0x20, export_filename); } bool ExportTicket(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (volume.GetVolumeType() != Platform::WiiDisc) return false; return ExportData(volume, PARTITION_NONE, partition.offset, 0x2a4, export_filename); } bool ExportTMD(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (volume.GetVolumeType() != Platform::WiiDisc) return false; const std::optional size = volume.ReadSwapped(partition.offset + 0x2a4, PARTITION_NONE); const std::optional offset = volume.ReadSwappedAndShifted(partition.offset + 0x2a8, PARTITION_NONE); if (!size || !offset) return false; return ExportData(volume, PARTITION_NONE, partition.offset + *offset, *size, export_filename); } bool ExportCertificateChain(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (volume.GetVolumeType() != Platform::WiiDisc) return false; const std::optional size = volume.ReadSwapped(partition.offset + 0x2ac, PARTITION_NONE); const std::optional offset = volume.ReadSwappedAndShifted(partition.offset + 0x2b0, PARTITION_NONE); if (!size || !offset) return false; return ExportData(volume, PARTITION_NONE, partition.offset + *offset, *size, export_filename); } bool ExportH3Hashes(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (volume.GetVolumeType() != Platform::WiiDisc) return false; const std::optional offset = volume.ReadSwappedAndShifted(partition.offset + 0x2b4, PARTITION_NONE); if (!offset) return false; return ExportData(volume, PARTITION_NONE, partition.offset + *offset, 0x18000, export_filename); } bool ExportHeader(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (!IsDisc(volume.GetVolumeType())) return false; return ExportData(volume, partition, 0, 0x440, export_filename); } bool ExportBI2Data(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (!IsDisc(volume.GetVolumeType())) return false; return ExportData(volume, partition, 0x440, 0x2000, export_filename); } std::optional GetApploaderSize(const Volume& volume, const Partition& partition) { constexpr u64 header_size = 0x20; const std::optional apploader_size = volume.ReadSwapped(0x2440 + 0x14, partition); const std::optional trailer_size = volume.ReadSwapped(0x2440 + 0x18, partition); if (!apploader_size || !trailer_size) return std::nullopt; return header_size + *apploader_size + *trailer_size; } bool ExportApploader(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (!IsDisc(volume.GetVolumeType())) return false; const std::optional apploader_size = GetApploaderSize(volume, partition); if (!apploader_size) return false; return ExportData(volume, partition, 0x2440, *apploader_size, export_filename); } std::optional GetBootDOLOffset(const Volume& volume, const Partition& partition) { const Platform volume_type = volume.GetVolumeType(); if (!IsDisc(volume_type)) return std::nullopt; std::optional dol_offset = volume.ReadSwappedAndShifted(0x420, partition); // Datel AR disc has 0x00000000 as the offset (invalid) and doesn't use it in the AppLoader. if (dol_offset && *dol_offset == 0) dol_offset.reset(); return dol_offset; } std::optional GetBootDOLSize(const Volume& volume, const Partition& partition, u64 dol_offset) { if (!IsDisc(volume.GetVolumeType())) return std::nullopt; u32 dol_size = 0; // Iterate through the 7 code segments for (u8 i = 0; i < 7; i++) { const std::optional offset = volume.ReadSwapped(dol_offset + 0x00 + i * 4, partition); const std::optional size = volume.ReadSwapped(dol_offset + 0x90 + i * 4, partition); if (!offset || !size) return {}; dol_size = std::max(*offset + *size, dol_size); } // Iterate through the 11 data segments for (u8 i = 0; i < 11; i++) { const std::optional offset = volume.ReadSwapped(dol_offset + 0x1c + i * 4, partition); const std::optional size = volume.ReadSwapped(dol_offset + 0xac + i * 4, partition); if (!offset || !size) return {}; dol_size = std::max(*offset + *size, dol_size); } return dol_size; } bool ExportDOL(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (!IsDisc(volume.GetVolumeType())) return false; const std::optional dol_offset = GetBootDOLOffset(volume, partition); if (!dol_offset) return false; const std::optional dol_size = GetBootDOLSize(volume, partition, *dol_offset); if (!dol_size) return false; return ExportData(volume, partition, *dol_offset, *dol_size, export_filename); } std::optional GetFSTOffset(const Volume& volume, const Partition& partition) { const Platform volume_type = volume.GetVolumeType(); if (!IsDisc(volume_type)) return std::nullopt; return volume.ReadSwappedAndShifted(0x424, partition); } std::optional GetFSTSize(const Volume& volume, const Partition& partition) { const Platform volume_type = volume.GetVolumeType(); if (!IsDisc(volume_type)) return std::nullopt; return volume.ReadSwappedAndShifted(0x428, partition); } bool ExportFST(const Volume& volume, const Partition& partition, const std::string& export_filename) { if (!IsDisc(volume.GetVolumeType())) return false; const std::optional fst_offset = GetFSTOffset(volume, partition); const std::optional fst_size = GetFSTSize(volume, partition); if (!fst_offset || !fst_size) return false; return ExportData(volume, partition, *fst_offset, *fst_size, export_filename); } bool ExportSystemData(const Volume& volume, const Partition& partition, const std::string& export_folder) { bool success = true; File::CreateFullPath(export_folder + "/sys/"); success &= ExportHeader(volume, partition, export_folder + "/sys/boot.bin"); success &= ExportBI2Data(volume, partition, export_folder + "/sys/bi2.bin"); success &= ExportApploader(volume, partition, export_folder + "/sys/apploader.img"); success &= ExportDOL(volume, partition, export_folder + "/sys/main.dol"); success &= ExportFST(volume, partition, export_folder + "/sys/fst.bin"); if (volume.GetVolumeType() == Platform::WiiDisc) { File::CreateFullPath(export_folder + "/disc/"); success &= ExportWiiUnencryptedHeader(volume, export_folder + "/disc/header.bin"); success &= ExportWiiRegionData(volume, export_folder + "/disc/region.bin"); success &= ExportTicket(volume, partition, export_folder + "/ticket.bin"); success &= ExportTMD(volume, partition, export_folder + "/tmd.bin"); success &= ExportCertificateChain(volume, partition, export_folder + "/cert.bin"); if (volume.IsEncryptedAndHashed()) success &= ExportH3Hashes(volume, partition, export_folder + "/h3.bin"); } return success; } } // namespace DiscIO