#ifndef __NOD_DISC_BASE__ #define __NOD_DISC_BASE__ #include #include #include #include #include #include "Util.hpp" #include "IDiscIO.hpp" #include "IFileIO.hpp" namespace NOD { class DiscBase { public: virtual ~DiscBase() {} struct Header { char gameID[6]; char discNum; char discVersion; char audioStreaming; char streamBufSz; char unk[14]; uint32_t wiiMagic; uint32_t gcnMagic; char gameTitle[64]; Header(IDiscIO& dio) { std::unique_ptr s = dio.beginReadStream(0); s->read(this, sizeof(*this)); wiiMagic = SBig(wiiMagic); gcnMagic = SBig(gcnMagic); } }; class FSTNode { uint32_t typeAndNameOffset; uint32_t offset; uint32_t length; public: inline bool isDir() const {return SBig(typeAndNameOffset) >> 24;} inline uint32_t getNameOffset() const {return SBig(typeAndNameOffset) & 0xffffff;} inline uint32_t getOffset() const {return SBig(offset);} inline uint32_t getLength() const {return SBig(length);} }; class IPartition { public: virtual ~IPartition() {} enum Kind { PART_DATA, PART_UPDATE, PART_CHANNEL }; struct DOLHeader { uint32_t textOff[7]; uint32_t dataOff[11]; uint32_t textStarts[7]; uint32_t dataStarts[11]; uint32_t textSizes[7]; uint32_t dataSizes[11]; uint32_t bssStart; uint32_t bssSize; uint32_t entryPoint; }; class Node { public: enum Kind { NODE_FILE, NODE_DIRECTORY }; private: friend class IPartition; const IPartition& m_parent; Kind m_kind; std::unique_ptr m_hddFile; uint64_t m_discOffset; uint64_t m_discLength; std::string m_name; std::vector::iterator m_childrenBegin; std::vector::iterator m_childrenEnd; public: Node(const IPartition& parent, const FSTNode& node, const char* name) : m_parent(parent), m_kind(node.isDir() ? NODE_DIRECTORY : NODE_FILE), m_discOffset(parent.normalizeOffset(node.getOffset())), m_discLength(node.getLength()), m_name(name) {} inline Kind getKind() const {return m_kind;} inline const std::string& getName() const {return m_name;} inline uint64_t size() const {return m_discLength;} std::unique_ptr beginReadStream(uint64_t offset=0) const { if (m_kind != NODE_FILE) { throw std::runtime_error("unable to stream a non-file"); return std::unique_ptr(); } return m_parent.beginReadStream(m_discOffset + offset); } std::unique_ptr getBuf() const { if (m_kind != NODE_FILE) { throw std::runtime_error("unable to buffer a non-file"); return std::unique_ptr(); } uint8_t* buf = new uint8_t[m_discLength]; beginReadStream()->read(buf, m_discLength); return std::unique_ptr(buf); } inline std::vector::iterator rawBegin() const {return m_childrenBegin;} inline std::vector::iterator rawEnd() const {return m_childrenEnd;} class DirectoryIterator : std::iterator { friend class Node; std::vector::iterator m_it; DirectoryIterator(const std::vector::iterator& it) : m_it(it) {} public: inline bool operator!=(const DirectoryIterator& other) {return m_it != other.m_it;} inline bool operator==(const DirectoryIterator& other) {return m_it == other.m_it;} inline DirectoryIterator& operator++() { if (m_it->m_kind == NODE_DIRECTORY) m_it = m_it->rawEnd(); else ++m_it; return *this; } inline Node& operator*() {return *m_it;} inline Node* operator->() {return &*m_it;} }; inline DirectoryIterator begin() const {return DirectoryIterator(m_childrenBegin);} inline DirectoryIterator end() const {return DirectoryIterator(m_childrenEnd);} inline DirectoryIterator find(const std::string& name) const { if (m_kind == NODE_DIRECTORY) { DirectoryIterator it=begin(); for (; it != end() ; ++it) { if (!it->getName().compare(name)) return it; } return it; } return end(); } void extractToDirectory(const SystemString& basePath, bool force=false); }; protected: uint64_t m_dolOff; uint64_t m_fstOff; uint64_t m_fstSz; uint64_t m_apploaderSz; std::vector m_nodes; void parseFST(IPartReadStream& s); DOLHeader m_dolHead; uint64_t m_dolSz; void parseDOL(IPartReadStream& s); const DiscBase& m_parent; Kind m_kind; uint64_t m_offset; public: IPartition(const DiscBase& parent, Kind kind, uint64_t offset) : m_parent(parent), m_kind(kind), m_offset(offset) {} virtual uint64_t normalizeOffset(uint64_t anOffset) const {return anOffset;} inline Kind getKind() const {return m_kind;} virtual std::unique_ptr beginReadStream(uint64_t offset=0) const=0; inline std::unique_ptr beginDOLReadStream(uint64_t offset=0) const {return beginReadStream(m_dolOff + offset);} inline std::unique_ptr beginFSTReadStream(uint64_t offset=0) const {return beginReadStream(m_fstOff + offset);} inline std::unique_ptr beginApploaderReadStream(uint64_t offset=0) const {return beginReadStream(0x2440 + offset);} inline const Node& getFSTRoot() const {return m_nodes[0];} inline Node& getFSTRoot() {return m_nodes[0];} void extractToDirectory(const SystemString& path, bool force=false); inline uint64_t getDOLSize() const {return m_dolSz;} inline std::unique_ptr getDOLBuf() const { std::unique_ptr buf(new uint8_t[m_dolSz]); beginDOLReadStream()->read(buf.get(), m_dolSz); return buf; } inline uint64_t getFSTSize() const {return m_fstSz;} inline std::unique_ptr getFSTBuf() const { std::unique_ptr buf(new uint8_t[m_fstSz]); beginFSTReadStream()->read(buf.get(), m_fstSz); return buf; } inline uint64_t getApploaderSize() const {return m_apploaderSz;} inline std::unique_ptr getApploaderBuf() const { std::unique_ptr buf(new uint8_t[m_apploaderSz]); beginApploaderReadStream()->read(buf.get(), m_apploaderSz); return buf; } }; protected: std::unique_ptr m_discIO; Header m_header; std::vector> m_partitions; public: DiscBase(std::unique_ptr&& dio) : m_discIO(std::move(dio)), m_header(*m_discIO.get()) {} virtual bool commit()=0; inline const Header& getHeader() const {return m_header;} inline const IDiscIO& getDiscIO() const {return *m_discIO.get();} inline IPartition* getDataPartition() { for (const std::unique_ptr& part : m_partitions) if (part->getKind() == IPartition::PART_DATA) return part.get(); return nullptr; } inline IPartition* getUpdatePartition() { for (const std::unique_ptr& part : m_partitions) if (part->getKind() == IPartition::PART_UPDATE) return part.get(); return nullptr; } inline void extractToDirectory(const SystemString& path, bool force=false) { for (std::unique_ptr& part : m_partitions) part->extractToDirectory(path, force); } }; } #endif // __NOD_DISC_BASE__