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crypto: Eliminate magic constants
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@ -102,7 +102,7 @@ Loader::ResultStatus DeriveSDKeys(std::array<Key256, 2>& sd_keys, const KeyManag
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AESCipher<Key128> cipher(sd_kek, Mode::ECB);
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AESCipher<Key128> cipher(sd_kek, Mode::ECB);
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for (size_t i = 0; i < 2; ++i) {
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for (size_t i = 0; i < 2; ++i) {
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for (size_t j = 0; j < 0x20; ++j)
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for (size_t j = 0; j < sd_key_sources[i].size(); ++j)
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sd_key_sources[i][j] ^= sd_seed[j & 0xF];
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sd_key_sources[i][j] ^= sd_seed[j & 0xF];
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cipher.Transcode(sd_key_sources[i].data(), sd_key_sources[i].size(), sd_keys[i].data(),
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cipher.Transcode(sd_key_sources[i].data(), sd_key_sources[i].size(), sd_keys[i].data(),
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Op::Decrypt);
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Op::Decrypt);
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@ -8,6 +8,8 @@
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namespace Core::Crypto {
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namespace Core::Crypto {
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constexpr u64 XTS_SECTOR_SIZE = 0x4000;
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XTSEncryptionLayer::XTSEncryptionLayer(FileSys::VirtualFile base_, Key256 key_)
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XTSEncryptionLayer::XTSEncryptionLayer(FileSys::VirtualFile base_, Key256 key_)
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: EncryptionLayer(std::move(base_)), cipher(key_, Mode::XTS) {}
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: EncryptionLayer(std::move(base_)), cipher(key_, Mode::XTS) {}
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@ -17,34 +19,35 @@ size_t XTSEncryptionLayer::Read(u8* data, size_t length, size_t offset) const {
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const auto sector_offset = offset & 0x3FFF;
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const auto sector_offset = offset & 0x3FFF;
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if (sector_offset == 0) {
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if (sector_offset == 0) {
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if (length % 0x4000 == 0) {
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if (length % XTS_SECTOR_SIZE == 0) {
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std::vector<u8> raw = base->ReadBytes(length, offset);
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std::vector<u8> raw = base->ReadBytes(length, offset);
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cipher.XTSTranscode(raw.data(), raw.size(), data, offset / 0x4000, 0x4000, Op::Decrypt);
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cipher.XTSTranscode(raw.data(), raw.size(), data, offset / XTS_SECTOR_SIZE,
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XTS_SECTOR_SIZE, Op::Decrypt);
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return raw.size();
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return raw.size();
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}
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}
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if (length > 0x4000) {
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if (length > XTS_SECTOR_SIZE) {
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const auto rem = length % 0x4000;
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const auto rem = length % XTS_SECTOR_SIZE;
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const auto read = length - rem;
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const auto read = length - rem;
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return Read(data, read, offset) + Read(data + read, rem, offset + read);
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return Read(data, read, offset) + Read(data + read, rem, offset + read);
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}
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}
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std::vector<u8> buffer = base->ReadBytes(0x4000, offset);
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std::vector<u8> buffer = base->ReadBytes(XTS_SECTOR_SIZE, offset);
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if (buffer.size() < 0x4000)
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if (buffer.size() < XTS_SECTOR_SIZE)
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buffer.resize(0x4000);
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buffer.resize(XTS_SECTOR_SIZE);
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cipher.XTSTranscode(buffer.data(), buffer.size(), buffer.data(), offset / 0x4000, 0x4000,
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cipher.XTSTranscode(buffer.data(), buffer.size(), buffer.data(), offset / XTS_SECTOR_SIZE,
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Op::Decrypt);
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XTS_SECTOR_SIZE, Op::Decrypt);
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std::memcpy(data, buffer.data(), std::min(buffer.size(), length));
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std::memcpy(data, buffer.data(), std::min(buffer.size(), length));
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return std::min(buffer.size(), length);
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return std::min(buffer.size(), length);
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}
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}
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// offset does not fall on block boundary (0x4000)
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// offset does not fall on block boundary (0x4000)
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std::vector<u8> block = base->ReadBytes(0x4000, offset - sector_offset);
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std::vector<u8> block = base->ReadBytes(0x4000, offset - sector_offset);
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if (block.size() < 0x4000)
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if (block.size() < XTS_SECTOR_SIZE)
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block.resize(0x4000);
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block.resize(XTS_SECTOR_SIZE);
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cipher.XTSTranscode(block.data(), block.size(), block.data(), (offset - sector_offset) / 0x4000,
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cipher.XTSTranscode(block.data(), block.size(), block.data(),
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0x4000, Op::Decrypt);
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(offset - sector_offset) / XTS_SECTOR_SIZE, XTS_SECTOR_SIZE, Op::Decrypt);
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const size_t read = 0x4000 - sector_offset;
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const size_t read = XTS_SECTOR_SIZE - sector_offset;
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if (length + sector_offset < 0x4000) {
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if (length + sector_offset < XTS_SECTOR_SIZE) {
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std::memcpy(data, block.data() + sector_offset, std::min<u64>(length, read));
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std::memcpy(data, block.data() + sector_offset, std::min<u64>(length, read));
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return std::min<u64>(length, read);
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return std::min<u64>(length, read);
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}
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}
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@ -19,6 +19,8 @@
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namespace FileSys {
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namespace FileSys {
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constexpr u64 NAX_HEADER_PADDING_SIZE = 0x4000;
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template <typename SourceData, typename SourceKey, typename Destination>
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template <typename SourceData, typename SourceKey, typename Destination>
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static bool CalculateHMAC256(Destination* out, const SourceKey* key, size_t key_length,
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static bool CalculateHMAC256(Destination* out, const SourceKey* key, size_t key_length,
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const SourceData* data, size_t data_length) {
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const SourceData* data, size_t data_length) {
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@ -67,14 +69,14 @@ NAX::NAX(VirtualFile file_, std::array<u8, 0x10> nca_id)
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Common::HexArrayToString(nca_id, false)));
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Common::HexArrayToString(nca_id, false)));
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}
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}
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Loader::ResultStatus NAX::Parse(std::string path) {
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Loader::ResultStatus NAX::Parse(std::string_view path) {
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if (file->ReadObject(header.get()) != sizeof(NAXHeader))
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if (file->ReadObject(header.get()) != sizeof(NAXHeader))
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return Loader::ResultStatus::ErrorBadNAXHeader;
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return Loader::ResultStatus::ErrorBadNAXHeader;
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if (header->magic != Common::MakeMagic('N', 'A', 'X', '0'))
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if (header->magic != Common::MakeMagic('N', 'A', 'X', '0'))
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return Loader::ResultStatus::ErrorBadNAXHeader;
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return Loader::ResultStatus::ErrorBadNAXHeader;
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if (file->GetSize() < 0x4000 + header->file_size)
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if (file->GetSize() < NAX_HEADER_PADDING_SIZE + header->file_size)
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return Loader::ResultStatus::ErrorIncorrectNAXFileSize;
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return Loader::ResultStatus::ErrorIncorrectNAXFileSize;
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keys.DeriveSDSeedLazy();
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keys.DeriveSDSeedLazy();
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@ -87,14 +89,14 @@ Loader::ResultStatus NAX::Parse(std::string path) {
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const auto enc_keys = header->key_area;
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const auto enc_keys = header->key_area;
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size_t i = 0;
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size_t i = 0;
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for (; i < 2; ++i) {
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for (; i < sd_keys.size(); ++i) {
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std::array<Core::Crypto::Key128, 2> nax_keys{};
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std::array<Core::Crypto::Key128, 2> nax_keys{};
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if (!CalculateHMAC256(nax_keys.data(), sd_keys[i].data(), 0x10, path.c_str(),
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if (!CalculateHMAC256(nax_keys.data(), sd_keys[i].data(), 0x10, std::string(path).c_str(),
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path.size())) {
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path.size())) {
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return Loader::ResultStatus::ErrorNAXKeyHMACFailed;
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return Loader::ResultStatus::ErrorNAXKeyHMACFailed;
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}
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}
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for (size_t j = 0; j < 2; ++j) {
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for (size_t j = 0; j < nax_keys.size(); ++j) {
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Core::Crypto::AESCipher<Core::Crypto::Key128> cipher(nax_keys[j],
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Core::Crypto::AESCipher<Core::Crypto::Key128> cipher(nax_keys[j],
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Core::Crypto::Mode::ECB);
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Core::Crypto::Mode::ECB);
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cipher.Transcode(enc_keys[j].data(), 0x10, header->key_area[j].data(),
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cipher.Transcode(enc_keys[j].data(), 0x10, header->key_area[j].data(),
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@ -117,28 +119,29 @@ Loader::ResultStatus NAX::Parse(std::string path) {
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type = static_cast<NAXContentType>(i);
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type = static_cast<NAXContentType>(i);
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Core::Crypto::Key256 final_key{};
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Core::Crypto::Key256 final_key{};
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memcpy(final_key.data(), &header->key_area, 0x20);
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std::memcpy(final_key.data(), &header->key_area, final_key.size());
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const auto enc_file = std::make_shared<OffsetVfsFile>(file, header->file_size, 0x4000);
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const auto enc_file =
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std::make_shared<OffsetVfsFile>(file, header->file_size, NAX_HEADER_PADDING_SIZE);
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dec_file = std::make_shared<Core::Crypto::XTSEncryptionLayer>(enc_file, final_key);
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dec_file = std::make_shared<Core::Crypto::XTSEncryptionLayer>(enc_file, final_key);
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return Loader::ResultStatus::Success;
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return Loader::ResultStatus::Success;
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}
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}
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Loader::ResultStatus NAX::GetStatus() {
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Loader::ResultStatus NAX::GetStatus() const {
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return status;
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return status;
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}
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}
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VirtualFile NAX::GetDecrypted() {
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VirtualFile NAX::GetDecrypted() const {
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return dec_file;
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return dec_file;
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}
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}
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std::shared_ptr<NCA> NAX::AsNCA() {
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std::shared_ptr<NCA> NAX::AsNCA() const {
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if (type == NAXContentType::NCA)
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if (type == NAXContentType::NCA)
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return std::make_shared<NCA>(GetDecrypted());
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return std::make_shared<NCA>(GetDecrypted());
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return nullptr;
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return nullptr;
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}
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}
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NAXContentType NAX::GetContentType() {
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NAXContentType NAX::GetContentType() const {
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return type;
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return type;
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}
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}
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@ -33,13 +33,13 @@ public:
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explicit NAX(VirtualFile file);
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explicit NAX(VirtualFile file);
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explicit NAX(VirtualFile file, std::array<u8, 0x10> nca_id);
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explicit NAX(VirtualFile file, std::array<u8, 0x10> nca_id);
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Loader::ResultStatus GetStatus();
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Loader::ResultStatus GetStatus() const;
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VirtualFile GetDecrypted();
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VirtualFile GetDecrypted() const;
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std::shared_ptr<NCA> AsNCA();
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std::shared_ptr<NCA> AsNCA() const;
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NAXContentType GetContentType();
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NAXContentType GetContentType() const;
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std::vector<std::shared_ptr<VfsFile>> GetFiles() const override;
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std::vector<std::shared_ptr<VfsFile>> GetFiles() const override;
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@ -53,7 +53,7 @@ protected:
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bool ReplaceFileWithSubdirectory(VirtualFile file, VirtualDir dir) override;
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bool ReplaceFileWithSubdirectory(VirtualFile file, VirtualDir dir) override;
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private:
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private:
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Loader::ResultStatus Parse(std::string path);
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Loader::ResultStatus Parse(std::string_view path);
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std::unique_ptr<NAXHeader> header;
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std::unique_ptr<NAXHeader> header;
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