DiscIO: Improve CBlobBigEndianReader error handling
This commit is contained in:
JosJuice
parent
c01265db34
commit
bd67333da9
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@ -83,25 +83,14 @@ class CBlobBigEndianReader
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public:
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CBlobBigEndianReader(IBlobReader& reader) : m_reader(reader) {}
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u32 Read32(u64 offset) const
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template <typename T>
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bool ReadSwapped(u64 offset, T* buffer) const
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{
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u32 temp;
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m_reader.Read(offset, sizeof(u32), reinterpret_cast<u8*>(&temp));
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return Common::swap32(temp);
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}
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u16 Read16(u64 offset) const
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{
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u16 temp;
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m_reader.Read(offset, sizeof(u16), reinterpret_cast<u8*>(&temp));
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return Common::swap16(temp);
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}
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u8 Read8(u64 offset) const
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{
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u8 temp;
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m_reader.Read(offset, sizeof(u8), &temp);
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return temp;
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T temp;
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if (!m_reader.Read(offset, sizeof(T), reinterpret_cast<u8*>(&temp)))
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return false;
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*buffer = Common::FromBigEndian(temp);
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return true;
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}
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private:
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@ -87,8 +87,6 @@ std::unique_ptr<IVolume> CreateVolumeFromDirectory(const std::string& directory,
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void VolumeKeyForPartition(IBlobReader& _rReader, u64 offset, u8* VolumeKey)
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{
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CBlobBigEndianReader Reader(_rReader);
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u8 SubKey[16];
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_rReader.Read(offset + 0x1bf, 16, SubKey);
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@ -96,16 +94,17 @@ void VolumeKeyForPartition(IBlobReader& _rReader, u64 offset, u8* VolumeKey)
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memset(IV, 0, 16);
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_rReader.Read(offset + 0x44c, 8, IV);
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bool usingKoreanKey = false;
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// Issue: 6813
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// Magic value is at partition's offset + 0x1f1 (1byte)
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// If encrypted with the Korean key, the magic value would be 1
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// Otherwise it is zero
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if (Reader.Read8(0x3) == 'K' && Reader.Read8(offset + 0x1f1) == 1)
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usingKoreanKey = true;
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u8 using_korean_key = 0;
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_rReader.Read(offset + 0x1f1, sizeof(u8), &using_korean_key);
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u8 region = 0;
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_rReader.Read(0x3, sizeof(u8), ®ion);
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mbedtls_aes_context AES_ctx;
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mbedtls_aes_setkey_dec(&AES_ctx, (usingKoreanKey ? s_master_key_korean : s_master_key), 128);
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mbedtls_aes_setkey_dec(&AES_ctx, (using_korean_key == 1 && region == 'K' ? s_master_key_korean : s_master_key), 128);
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mbedtls_aes_crypt_cbc(&AES_ctx, MBEDTLS_AES_DECRYPT, 16, IV, SubKey, VolumeKey);
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}
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@ -114,15 +113,23 @@ static std::unique_ptr<IVolume> CreateVolumeFromCryptedWiiImage(std::unique_ptr<
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{
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CBlobBigEndianReader big_endian_reader(*reader);
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u32 numPartitions = big_endian_reader.Read32(0x40000 + (partition_group * 8));
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u64 PartitionsOffset = (u64)big_endian_reader.Read32(0x40000 + (partition_group * 8) + 4) << 2;
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u32 num_partitions;
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if (!big_endian_reader.ReadSwapped(0x40000 + (partition_group * 8), &num_partitions))
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return nullptr;
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// Check if we're looking for a valid partition
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if ((int)volume_number != -1 && volume_number > numPartitions)
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if ((int)volume_number != -1 && volume_number > num_partitions)
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return nullptr;
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u32 partitions_offset_unshifted;
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if (!big_endian_reader.ReadSwapped(0x40000 + (partition_group * 8) + 4, &partitions_offset_unshifted))
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return nullptr;
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u64 partitions_offset = (u64)partitions_offset_unshifted << 2;
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struct SPartition
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{
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SPartition(u64 offset, u32 type) : offset(offset), type(type) {}
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u64 offset;
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u32 type;
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};
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@ -138,12 +145,14 @@ static std::unique_ptr<IVolume> CreateVolumeFromCryptedWiiImage(std::unique_ptr<
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// Read all partitions
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for (SPartitionGroup& group : partition_groups)
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{
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for (u32 i = 0; i < numPartitions; i++)
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for (u32 i = 0; i < num_partitions; i++)
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{
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SPartition partition;
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partition.offset = ((u64)big_endian_reader.Read32(PartitionsOffset + (i * 8) + 0)) << 2;
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partition.type = big_endian_reader.Read32(PartitionsOffset + (i * 8) + 4);
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group.partitions.push_back(partition);
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u32 partition_offset, partition_type;
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if (big_endian_reader.ReadSwapped(partitions_offset + (i * 8) + 0, &partition_offset) &&
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big_endian_reader.ReadSwapped(partitions_offset + (i * 8) + 4, &partition_type))
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{
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group.partitions.emplace_back((u64)partition_offset << 2, partition_type);
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}
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}
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}
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@ -168,12 +177,12 @@ static std::unique_ptr<IVolume> CreateVolumeFromCryptedWiiImage(std::unique_ptr<
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EDiscType GetDiscType(IBlobReader& _rReader)
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{
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CBlobBigEndianReader Reader(_rReader);
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u32 WiiMagic = Reader.Read32(0x18);
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u32 WiiContainerMagic = Reader.Read32(0x60);
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u32 WADMagic = Reader.Read32(0x02);
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u32 GCMagic = Reader.Read32(0x1C);
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// Check for Wii
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u32 WiiMagic = 0;
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Reader.ReadSwapped(0x18, &WiiMagic);
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u32 WiiContainerMagic = 0;
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Reader.ReadSwapped(0x60, &WiiContainerMagic);
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if (WiiMagic == 0x5D1C9EA3 && WiiContainerMagic != 0)
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return DISC_TYPE_WII;
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if (WiiMagic == 0x5D1C9EA3 && WiiContainerMagic == 0)
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@ -181,10 +190,14 @@ EDiscType GetDiscType(IBlobReader& _rReader)
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// Check for WAD
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// 0x206962 for boot2 wads
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u32 WADMagic = 0;
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Reader.ReadSwapped(0x02, &WADMagic);
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if (WADMagic == 0x00204973 || WADMagic == 0x00206962)
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return DISC_TYPE_WAD;
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// Check for GC
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u32 GCMagic = 0;
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Reader.ReadSwapped(0x1C, &GCMagic);
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if (GCMagic == 0xC2339F3D)
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return DISC_TYPE_GC;
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@ -64,27 +64,17 @@ bool WiiWAD::ParseWAD(DiscIO::IBlobReader& _rReader)
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{
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CBlobBigEndianReader ReaderBig(_rReader);
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// get header size
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u32 HeaderSize = ReaderBig.Read32(0);
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if (HeaderSize != 0x20)
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{
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_dbg_assert_msg_(BOOT, (HeaderSize==0x20), "WiiWAD: Header size != 0x20");
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return false;
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}
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// get header
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u8 Header[0x20];
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_rReader.Read(0, HeaderSize, Header);
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u32 HeaderType = ReaderBig.Read32(0x4);
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if ((0x49730000 != HeaderType) && (0x69620000 != HeaderType))
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if (!IsWiiWAD(ReaderBig))
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return false;
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m_CertificateChainSize = ReaderBig.Read32(0x8);
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u32 Reserved = ReaderBig.Read32(0xC);
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m_TicketSize = ReaderBig.Read32(0x10);
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m_TMDSize = ReaderBig.Read32(0x14);
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m_DataAppSize = ReaderBig.Read32(0x18);
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m_FooterSize = ReaderBig.Read32(0x1C);
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u32 Reserved;
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if (!ReaderBig.ReadSwapped(0x8, &m_CertificateChainSize) ||
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!ReaderBig.ReadSwapped(0xC, &Reserved) ||
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!ReaderBig.ReadSwapped(0x10, &m_TicketSize) ||
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!ReaderBig.ReadSwapped(0x14, &m_TMDSize) ||
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!ReaderBig.ReadSwapped(0x18, &m_DataAppSize) ||
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!ReaderBig.ReadSwapped(0x1C, &m_FooterSize))
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return false;
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if (MAX_LOGLEVEL >= LogTypes::LOG_LEVELS::LDEBUG)
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_dbg_assert_msg_(BOOT, Reserved==0x00, "WiiWAD: Reserved must be 0x00");
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@ -99,5 +89,13 @@ bool WiiWAD::ParseWAD(DiscIO::IBlobReader& _rReader)
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return true;
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}
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} // namespace end
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bool WiiWAD::IsWiiWAD(const DiscIO::CBlobBigEndianReader& reader)
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{
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u32 header_size = 0;
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u32 header_type = 0;
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reader.ReadSwapped(0x0, &header_size);
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reader.ReadSwapped(0x4, &header_type);
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return header_size == 0x20 && (header_type == 0x49730000 || header_type == 0x69620000);
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}
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} // namespace end
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@ -12,6 +12,7 @@ namespace DiscIO
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{
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class IBlobReader;
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class CBlobBigEndianReader;
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class WiiWAD
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{
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@ -52,6 +53,7 @@ private:
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u8* CreateWADEntry(DiscIO::IBlobReader& _rReader, u32 _Size, u64 _Offset);
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bool ParseWAD(DiscIO::IBlobReader& _rReader);
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static bool IsWiiWAD(const DiscIO::CBlobBigEndianReader& reader);
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};
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}
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