// Copyright 2013 Dolphin Emulator Project // Licensed under GPLv2 // Refer to the license.txt file included. #include "CommonPaths.h" #include "FileBlob.h" #include "MathUtil.h" #include "VolumeDirectory.h" namespace DiscIO { CVolumeDirectory::CVolumeDirectory(const std::string& _rDirectory, bool _bIsWii, const std::string& _rApploader, const std::string& _rDOL) : m_totalNameSize(0) , m_dataStartAddress(-1) , m_fstSize(0) , m_FSTData(NULL) , m_apploaderSize(0) , m_apploader(NULL) , m_DOLSize(0) , m_DOL(NULL) , FST_ADDRESS(0) , DOL_ADDRESS(0) { m_rootDirectory = ExtractDirectoryName(_rDirectory); // create the default disk header m_diskHeader = new u8[DISKHEADERINFO_ADDRESS]; memset(m_diskHeader, 0, (size_t)DISKHEADERINFO_ADDRESS); SetUniqueID("AGBJ01"); SetName("Default name"); if(_bIsWii) { SetDiskTypeWii(); } else { SetDiskTypeGC(); } m_diskHeaderInfo = new SDiskHeaderInfo(); // Don't load the dol if we've no apploader... if (SetApploader(_rApploader)) SetDOL(_rDOL); BuildFST(); } CVolumeDirectory::~CVolumeDirectory() { delete[] m_FSTData; m_FSTData = NULL; delete[] m_diskHeader; m_diskHeader = NULL; delete m_diskHeaderInfo; m_diskHeaderInfo = NULL; delete[] m_DOL; m_DOL = NULL; delete[] m_apploader; m_apploader = NULL; } bool CVolumeDirectory::IsValidDirectory(const std::string& _rDirectory) { std::string directoryName = ExtractDirectoryName(_rDirectory); return File::IsDirectory(directoryName); } bool CVolumeDirectory::RAWRead( u64 _Offset, u64 _Length, u8* _pBuffer ) const { return false; } bool CVolumeDirectory::Read(u64 _Offset, u64 _Length, u8* _pBuffer) const { // header if(_Offset < DISKHEADERINFO_ADDRESS) { WriteToBuffer(DISKHEADER_ADDRESS, DISKHEADERINFO_ADDRESS, m_diskHeader, _Offset, _Length, _pBuffer); } // header info if(_Offset >= DISKHEADERINFO_ADDRESS && _Offset < APPLOADER_ADDRESS) { WriteToBuffer(DISKHEADERINFO_ADDRESS, sizeof(m_diskHeaderInfo), (u8*)m_diskHeaderInfo, _Offset, _Length, _pBuffer); } // apploader if(_Offset >= APPLOADER_ADDRESS && _Offset < APPLOADER_ADDRESS + m_apploaderSize) { WriteToBuffer(APPLOADER_ADDRESS, m_apploaderSize, m_apploader, _Offset, _Length, _pBuffer); } // dol if(_Offset >= DOL_ADDRESS && _Offset < DOL_ADDRESS + m_DOLSize) { WriteToBuffer(DOL_ADDRESS, m_DOLSize, m_DOL, _Offset, _Length, _pBuffer); } // fst if(_Offset >= FST_ADDRESS && _Offset < m_dataStartAddress) { WriteToBuffer(FST_ADDRESS, m_fstSize, m_FSTData, _Offset, _Length, _pBuffer); } if(m_virtualDisk.size() == 0) return true; // Determine which file the offset refers to std::map::const_iterator fileIter = m_virtualDisk.lower_bound(_Offset); if(fileIter->first > _Offset && fileIter != m_virtualDisk.begin()) --fileIter; // zero fill to start of file data PadToAddress(fileIter->first, _Offset, _Length, _pBuffer); while(fileIter != m_virtualDisk.end() && _Length > 0) { _dbg_assert_(DVDINTERFACE, fileIter->first <= _Offset); u64 fileOffset = _Offset - fileIter->first; PlainFileReader* reader = PlainFileReader::Create(fileIter->second.c_str()); if(reader == NULL) return false; u64 fileSize = reader->GetDataSize(); if(fileOffset < fileSize) { u64 fileBytes = fileSize - fileOffset; if(_Length < fileBytes) fileBytes = _Length; if(!reader->Read(fileOffset, fileBytes, _pBuffer)) return false; _Length -= fileBytes; _pBuffer += fileBytes; _Offset += fileBytes; } ++fileIter; if(fileIter != m_virtualDisk.end()) { _dbg_assert_(DVDINTERFACE, fileIter->first >= _Offset); PadToAddress(fileIter->first, _Offset, _Length, _pBuffer); } delete reader; } return true; } std::string CVolumeDirectory::GetUniqueID() const { _dbg_assert_(DVDINTERFACE, m_diskHeader); char buffer[7]; memcpy(buffer, m_diskHeader, 6); buffer[6] = 0; std::string id = buffer; return id; } void CVolumeDirectory::SetUniqueID(std::string _ID) { _dbg_assert_(DVDINTERFACE, m_diskHeader); u32 length = (u32)_ID.length(); if(length > 6) length = 6; memcpy(m_diskHeader, _ID.c_str(), length); } IVolume::ECountry CVolumeDirectory::GetCountry() const { _dbg_assert_(DVDINTERFACE, m_diskHeader); u8 CountryCode = m_diskHeader[3]; return CountrySwitch(CountryCode); } std::string CVolumeDirectory::GetMakerID() const { return "VOID"; } std::vector CVolumeDirectory::GetNames() const { _dbg_assert_(DVDINTERFACE, m_diskHeader); return std::vector(1, (char*)(m_diskHeader + 0x20)); } void CVolumeDirectory::SetName(std::string _Name) { _dbg_assert_(DVDINTERFACE, m_diskHeader); u32 length = (u32)_Name.length(); if(length > MAX_NAME_LENGTH) length = MAX_NAME_LENGTH; memcpy(m_diskHeader + 0x20, _Name.c_str(), length); m_diskHeader[length + 0x20] = 0; } u32 CVolumeDirectory::GetFSTSize() const { return 0; } std::string CVolumeDirectory::GetApploaderDate() const { return "VOID"; } u64 CVolumeDirectory::GetSize() const { return 0; } u64 CVolumeDirectory::GetRawSize() const { return GetSize(); } std::string CVolumeDirectory::ExtractDirectoryName(const std::string& _rDirectory) { std::string directoryName = _rDirectory; size_t lastSep = directoryName.find_last_of(DIR_SEP_CHR); if(lastSep != directoryName.size() - 1) { // TODO: This assumes that file names will always have a dot in them // and directory names never will; both assumptions are often // right but in general wrong. size_t extensionStart = directoryName.find_last_of('.'); if(extensionStart != std::string::npos && extensionStart > lastSep) { directoryName.resize(lastSep); } } else { directoryName.resize(lastSep); } return directoryName; } void CVolumeDirectory::SetDiskTypeWii() { _dbg_assert_(DVDINTERFACE, m_diskHeader); m_diskHeader[0x18] = 0x5d; m_diskHeader[0x19] = 0x1c; m_diskHeader[0x1a] = 0x9e; m_diskHeader[0x1b] = 0xa3; memset(m_diskHeader + 0x1c, 0, 4); m_addressShift = 2; } void CVolumeDirectory::SetDiskTypeGC() { _dbg_assert_(DVDINTERFACE, m_diskHeader); memset(m_diskHeader + 0x18, 0, 4); m_diskHeader[0x1c] = 0xc2; m_diskHeader[0x1d] = 0x33; m_diskHeader[0x1e] = 0x9f; m_diskHeader[0x1f] = 0x3d; m_addressShift = 0; } bool CVolumeDirectory::SetApploader(const std::string& _rApploader) { if (!_rApploader.empty()) { std::string data; if (!File::ReadFileToString(_rApploader.c_str(), data)) { PanicAlertT("Apploader unable to load from file"); return false; } m_apploaderSize = 0x20 + Common::swap32(*(u32*)&data.data()[0x14]) + Common::swap32(*(u32*)&data.data()[0x18]); if (m_apploaderSize != data.size()) { PanicAlertT("Apploader is the wrong size...is it really an apploader?"); return false; } m_apploader = new u8[m_apploaderSize]; copy(data.begin(), data.end(), m_apploader); // 32byte aligned (plus 0x20 padding) DOL_ADDRESS = ROUND_UP(APPLOADER_ADDRESS + m_apploaderSize + 0x20, 0x20ull); return true; } else { m_apploaderSize = 0x20; m_apploader = new u8[m_apploaderSize]; // Make sure BS2 HLE doesn't try to run the apploader *(u32*)&m_apploader[0x10] = (u32)-1; return false; } } void CVolumeDirectory::SetDOL(const std::string& _rDOL) { if (!_rDOL.empty()) { std::string data; File::ReadFileToString(_rDOL.c_str(), data); m_DOLSize = data.size(); m_DOL = new u8[m_DOLSize]; copy(data.begin(), data.end(), m_DOL); Write32((u32)(DOL_ADDRESS >> m_addressShift), 0x0420, m_diskHeader); // 32byte aligned (plus 0x20 padding) FST_ADDRESS = ROUND_UP(DOL_ADDRESS + m_DOLSize + 0x20, 0x20ull); } } void CVolumeDirectory::BuildFST() { if(m_FSTData) { delete m_FSTData; } File::FSTEntry rootEntry; // read data from physical disk to rootEntry u32 totalEntries = AddDirectoryEntries(m_rootDirectory, rootEntry) + 1; m_fstNameOffset = totalEntries * ENTRY_SIZE; // offset in FST nameTable m_fstSize = m_fstNameOffset + m_totalNameSize; m_FSTData = new u8[(u32)m_fstSize]; // if FST hasn't been assigned (ie no apploader/dol setup), set to default if (FST_ADDRESS == 0) FST_ADDRESS = APPLOADER_ADDRESS + 0x2000; // 4 byte aligned start of data on disk m_dataStartAddress = ROUND_UP(FST_ADDRESS + m_fstSize, 0x8000ull); u64 curDataAddress = m_dataStartAddress; u32 fstOffset = 0; // offset within FST data u32 nameOffset = 0; // offset within name table u32 rootOffset = 0; // offset of root of FST // write root entry WriteEntryData(fstOffset, DIRECTORY_ENTRY, 0, 0, totalEntries); for(auto& entry : rootEntry.children) { WriteEntry(entry, fstOffset, nameOffset, curDataAddress, rootOffset); } // overflow check _dbg_assert_(DVDINTERFACE, nameOffset == m_totalNameSize); // write FST size and location _dbg_assert_(DVDINTERFACE, m_diskHeader); Write32((u32)(FST_ADDRESS >> m_addressShift), 0x0424, m_diskHeader); Write32((u32)(m_fstSize >> m_addressShift), 0x0428, m_diskHeader); Write32((u32)(m_fstSize >> m_addressShift), 0x042c, m_diskHeader); } void CVolumeDirectory::WriteToBuffer(u64 _SrcStartAddress, u64 _SrcLength, u8* _Src, u64& _Address, u64& _Length, u8*& _pBuffer) const { if(_Length == 0) return; _dbg_assert_(DVDINTERFACE, _Address >= _SrcStartAddress); u64 srcOffset = _Address - _SrcStartAddress; if(srcOffset < _SrcLength) { u64 srcBytes = _SrcLength - srcOffset; if(_Length < srcBytes) srcBytes = _Length; memcpy(_pBuffer, _Src + srcOffset, (size_t)srcBytes); _Length -= srcBytes; _pBuffer += srcBytes; _Address += srcBytes; } } void CVolumeDirectory::PadToAddress(u64 _StartAddress, u64& _Address, u64& _Length, u8*& _pBuffer) const { if(_StartAddress <= _Address) return; u64 padBytes = _StartAddress - _Address; if(padBytes > _Length) padBytes = _Length; if(_Length > 0) { memset(_pBuffer, 0, (size_t)padBytes); _Length -= padBytes; _pBuffer += padBytes; _Address += padBytes; } } void CVolumeDirectory::Write32(u32 data, u32 offset, u8* buffer) { buffer[offset++] = (data >> 24); buffer[offset++] = (data >> 16) & 0xff; buffer[offset++] = (data >> 8) & 0xff; buffer[offset] = (data) & 0xff; } void CVolumeDirectory::WriteEntryData(u32& entryOffset, u8 type, u32 nameOffset, u64 dataOffset, u32 length) { m_FSTData[entryOffset++] = type; m_FSTData[entryOffset++] = (nameOffset >> 16) & 0xff; m_FSTData[entryOffset++] = (nameOffset >> 8) & 0xff; m_FSTData[entryOffset++] = (nameOffset) & 0xff; Write32((u32)(dataOffset >> m_addressShift), entryOffset, m_FSTData); entryOffset += 4; Write32((u32)length, entryOffset, m_FSTData); entryOffset += 4; } void CVolumeDirectory::WriteEntryName(u32& nameOffset, const std::string& name) { strncpy((char*)(m_FSTData + nameOffset + m_fstNameOffset), name.c_str(), name.length() + 1); nameOffset += (u32)(name.length() + 1); } void CVolumeDirectory::WriteEntry(const File::FSTEntry& entry, u32& fstOffset, u32& nameOffset, u64& dataOffset, u32 parentEntryNum) { if(entry.isDirectory) { u32 myOffset = fstOffset; u32 myEntryNum = myOffset / ENTRY_SIZE; WriteEntryData(fstOffset, DIRECTORY_ENTRY, nameOffset, parentEntryNum, (u32)(myEntryNum + entry.size + 1)); WriteEntryName(nameOffset, entry.virtualName); for(const auto& child : entry.children) { WriteEntry(child, fstOffset, nameOffset, dataOffset, myEntryNum); } } else { // put entry in FST WriteEntryData(fstOffset, FILE_ENTRY, nameOffset, dataOffset, (u32)entry.size); WriteEntryName(nameOffset, entry.virtualName); // write entry to virtual disk _dbg_assert_(DVDINTERFACE, m_virtualDisk.find(dataOffset) == m_virtualDisk.end()); m_virtualDisk.insert(make_pair(dataOffset, entry.physicalName)); // 4 byte aligned dataOffset = ROUND_UP(dataOffset + entry.size, 0x8000ull); } } static u32 ComputeNameSize(const File::FSTEntry& parentEntry) { u32 nameSize = 0; const std::vector& children = parentEntry.children; for (auto it = children.cbegin(); it != children.cend(); ++it) { const File::FSTEntry& entry = *it; if (entry.isDirectory) { nameSize += ComputeNameSize(entry); } nameSize += (u32)entry.virtualName.length() + 1; } return nameSize; } u32 CVolumeDirectory::AddDirectoryEntries(const std::string& _Directory, File::FSTEntry& parentEntry) { u32 foundEntries = ScanDirectoryTree(_Directory, parentEntry); m_totalNameSize += ComputeNameSize(parentEntry); return foundEntries; } } // namespace