// Copyright 2012 Dolphin Emulator Project // Licensed under GPLv2+ // Refer to the license.txt file included. #include #include #include #include #include #include "Common/CommonFuncs.h" #include "Common/CommonTypes.h" #include "Common/FileUtil.h" #include "Common/MsgHandler.h" #include "Common/Logging/Log.h" #include "DiscIO/WbfsBlob.h" namespace DiscIO { static const u64 WII_SECTOR_SIZE = 0x8000; static const u64 WII_SECTOR_COUNT = 143432 * 2; static const u64 WII_DISC_HEADER_SIZE = 256; static inline u64 align(u64 value, u64 bounds) { return (value + (bounds - 1)) & (~(bounds - 1)); } WbfsFileReader::WbfsFileReader(const std::string& filename) : m_total_files(0), m_size(0), m_wlba_table(nullptr), m_good(true) { if (filename.length() < 4 || !OpenFiles(filename) || !ReadHeader()) { m_good = false; return; } // Grab disc info (assume slot 0, checked in ReadHeader()) m_wlba_table = new u16[m_blocks_per_disc]; m_files[0]->file.Seek(m_hd_sector_size + WII_DISC_HEADER_SIZE /*+ i * m_disc_info_size*/, SEEK_SET); m_files[0]->file.ReadBytes(m_wlba_table, m_blocks_per_disc * sizeof(u16)); for (size_t i = 0; i < m_blocks_per_disc; i++) m_wlba_table[i] = Common::swap16(m_wlba_table[i]); } WbfsFileReader::~WbfsFileReader() { for (file_entry* entry : m_files) delete entry; delete[] m_wlba_table; } u64 WbfsFileReader::GetDataSize() const { return WII_SECTOR_COUNT * WII_SECTOR_SIZE; } bool WbfsFileReader::OpenFiles(const std::string& filename) { m_total_files = 0; while (true) { file_entry* new_entry = new file_entry; // Replace last character with index (e.g. wbfs = wbf1) std::string path = filename; if (m_total_files != 0) { path[path.length() - 1] = '0' + m_total_files; } if (!new_entry->file.Open(path, "rb")) { delete new_entry; return 0 != m_total_files; } new_entry->base_address = m_size; new_entry->size = new_entry->file.GetSize(); m_size += new_entry->size; m_total_files++; m_files.push_back(new_entry); } } bool WbfsFileReader::ReadHeader() { // Read hd size info m_files[0]->file.ReadBytes(&m_header, sizeof(WbfsHeader)); m_header.hd_sector_count = Common::swap32(m_header.hd_sector_count); m_hd_sector_size = 1ull << m_header.hd_sector_shift; if (m_size != (m_header.hd_sector_count * m_hd_sector_size)) return false; // Read wbfs cluster info m_wbfs_sector_size = 1ull << m_header.wbfs_sector_shift; m_wbfs_sector_count = m_size / m_wbfs_sector_size; if (m_wbfs_sector_size < WII_SECTOR_SIZE) return false; m_blocks_per_disc = (WII_SECTOR_COUNT * WII_SECTOR_SIZE + m_wbfs_sector_size - 1) / m_wbfs_sector_size; m_disc_info_size = align(WII_DISC_HEADER_SIZE + m_blocks_per_disc * sizeof(u16), m_hd_sector_size); return m_header.disc_table[0] != 0; } bool WbfsFileReader::Read(u64 offset, u64 nbytes, u8* out_ptr) { while (nbytes) { u64 read_size; File::IOFile& data_file = SeekToCluster(offset, &read_size); if (read_size == 0) return false; read_size = std::min(read_size, nbytes); if (!data_file.ReadBytes(out_ptr, read_size)) { data_file.Clear(); return false; } out_ptr += read_size; nbytes -= read_size; offset += read_size; } return true; } File::IOFile& WbfsFileReader::SeekToCluster(u64 offset, u64* available) { u64 base_cluster = (offset >> m_header.wbfs_sector_shift); if (base_cluster < m_blocks_per_disc) { u64 cluster_address = m_wbfs_sector_size * m_wlba_table[base_cluster]; u64 cluster_offset = offset & (m_wbfs_sector_size - 1); u64 final_address = cluster_address + cluster_offset; for (u32 i = 0; i != m_total_files; i++) { if (final_address < (m_files[i]->base_address + m_files[i]->size)) { m_files[i]->file.Seek(final_address - m_files[i]->base_address, SEEK_SET); if (available) { u64 till_end_of_file = m_files[i]->size - (final_address - m_files[i]->base_address); u64 till_end_of_sector = m_wbfs_sector_size - cluster_offset; *available = std::min(till_end_of_file, till_end_of_sector); } return m_files[i]->file; } } } PanicAlert("Read beyond end of disc"); if (available) *available = 0; m_files[0]->file.Seek(0, SEEK_SET); return m_files[0]->file; } WbfsFileReader* WbfsFileReader::Create(const std::string& filename) { WbfsFileReader* reader = new WbfsFileReader(filename); if (reader->IsGood()) { return reader; } else { delete reader; return nullptr; } } bool IsWbfsBlob(const std::string& filename) { File::IOFile f(filename, "rb"); u8 magic[4] = {0, 0, 0, 0}; f.ReadBytes(&magic, 4); return (magic[0] == 'W') && (magic[1] == 'B') && (magic[2] == 'F') && (magic[3] == 'S'); } } // namespace