private bool LoadFile(DuplicatableStream headerStream, DuplicatableStream contentStream) { DuplicatableStream infile = headerStream.Duplicate(); contentFile = contentStream.Duplicate(); infile.Seek(0x00, SeekOrigin.Begin); string magic = infile.ReadAscii(4); if (magic != "FPS4") { Console.WriteLine("Not an FPS4 file!"); return(false); } Endian = Util.Endianness.BigEndian; FileCount = infile.ReadUInt32().FromEndian(Endian); HeaderSize = infile.ReadUInt32().FromEndian(Endian); // if header seems huge then we probably have assumed the wrong endianness if (HeaderSize > 0xFFFF) { Endian = Util.Endianness.LittleEndian; FileCount = FileCount.ToEndian(Util.Endianness.BigEndian).FromEndian(Endian); HeaderSize = HeaderSize.ToEndian(Util.Endianness.BigEndian).FromEndian(Endian); } FirstFileStart = infile.ReadUInt32().FromEndian(Endian); EntrySize = infile.ReadUInt16().FromEndian(Endian); ContentBitmask = new ContentInfo(infile.ReadUInt16().FromEndian(Endian)); Unknown2 = infile.ReadUInt32().FromEndian(Endian); ArchiveNameLocation = infile.ReadUInt32().FromEndian(Endian); infile.Position = ArchiveNameLocation; if (ArchiveNameLocation > 0) { ArchiveName = infile.ReadShiftJisNullterm(); } Alignment = FirstFileStart; Console.WriteLine("Content Bitmask: 0x" + ContentBitmask.Value.ToString("X4")); if (ContentBitmask.HasUnknownDataTypes) { Console.WriteLine("WARNING: Bitmask identifies unknown data types, data interpretation will probably be incorrect."); } Files = new List <FileInfo>((int)FileCount); for (uint i = 0; i < FileCount; ++i) { infile.Position = HeaderSize + (i * EntrySize); Files.Add(new FileInfo(infile, i, ContentBitmask, Endian, Util.GameTextEncoding.ASCII)); } FileLocationMultiplier = CalculateFileLocationMultiplier(); ShouldGuessFilesizeFromNextFile = !ContentBitmask.ContainsFileSizes && !ContentBitmask.ContainsSectorSizes && CalculateIsLinear(); infile.Dispose(); return(true); }
public override void Dispose() { if (Stream != null) { Stream.Close(); Stream.Dispose(); Stream = null; } }
private bool disposedValue = false; // To detect redundant calls protected virtual void Dispose(bool disposing) { if (!disposedValue) { if (disposing) { infile.Dispose(); } infile = null; toc_string_table = null; disposedValue = true; } }
public static DuplicatableStream CreateConcatenatedStream(List <DuplicatableStream> streams) { if (streams.Count == 0) { return(EmptyStream.Instance); } var Streams = new List <DuplicatableStream>(streams.Count); var Offsets = new List <long>(Streams.Count); var InternalCanRead = true; var InternalCanSeek = true; var InternalCanWrite = true; long sum = 0; for (int i = 0; i < streams.Count; ++i) { DuplicatableStream s = streams[i].Duplicate(); s.ReStart(); long l = s.Length; if (l <= 0) { s.End(); s.Dispose(); continue; } sum += l; InternalCanRead = InternalCanRead && s.CanRead; InternalCanSeek = InternalCanSeek && s.CanSeek; InternalCanWrite = InternalCanWrite && s.CanWrite; s.End(); Streams.Add(s); Offsets.Add(sum); } if (Streams.Count == 0) { return(EmptyStream.Instance); } if (Streams.Count == 1) { return(Streams[0]); } return(new ConcatenatedStream(Streams, Offsets, InternalCanRead, InternalCanSeek, InternalCanWrite)); }
public HyoutaArchiveChunk(DuplicatableStream duplicatableStream, out ulong chunkLength) { using (DuplicatableStream data = duplicatableStream.Duplicate()) { data.Position = 0; // header ulong extraMagic = data.ReadUInt64(EndianUtils.Endianness.LittleEndian); ulong magic = extraMagic & 0x00fffffffffffffful; if (magic != 0x6b6e7568636168) { throw new Exception("wrong magic"); } byte extra = (byte)((extraMagic >> 56) & 0xffu); byte packedAlignment = (byte)(extra & 0x1fu); long unpackedAlignment = 1L << packedAlignment; bool hasMetadata = (extra & 0x20) != 0; bool isCompressed = (extra & 0x40) != 0; bool isBigEndian = (extra & 0x80) != 0; EndianUtils.Endianness e = isBigEndian ? EndianUtils.Endianness.BigEndian : EndianUtils.Endianness.LittleEndian; ulong endOfFileOffset = data.ReadUInt64(e) << packedAlignment; ulong tableOfContentsOffset = data.ReadUInt64(e) << packedAlignment; ulong filecount = data.ReadUInt64(e); chunkLength = endOfFileOffset; if (hasMetadata) { // just skip past this for now ulong metadataLength = data.ReadUInt64(e); data.DiscardBytes(metadataLength); } DuplicatableStream dataBlockStream; if (isCompressed) { ushort compressionInfoLengthRaw = data.ReadUInt16(e); uint compressionInfoLength = compressionInfoLengthRaw & 0xfffcu; int compressionInfoAlignmentPacked = (compressionInfoLengthRaw & 0x3) + 1; data.ReadAlign(1u << compressionInfoAlignmentPacked); Compression.IHyoutaArchiveCompressionInfo?compressionInfo = HyoutaArchiveCompression.Deserialize(data, compressionInfoLength == 0 ? 0x10000u : compressionInfoLength, e); if (compressionInfo == null) { throw new Exception("File is indicated to be compressed, but no decompressor found."); } dataBlockStream = compressionInfo.Decompress(data); } else { data.ReadAlign(unpackedAlignment); dataBlockStream = new PartialStream(data, data.Position, (long)(endOfFileOffset - (ulong)data.Position)); } try { data.Dispose(); dataBlockStream.Position = (long)tableOfContentsOffset; uint offsetToFirstFileInfo = ReadContentLength(dataBlockStream, e); // decode content bitfield(s) long numberOfUnknownBits = 0; ushort contentBitfield1 = dataBlockStream.ReadUInt16(e); bool hasDummyContent = (contentBitfield1 & 0x0001u) != 0; bool hasFilename = (contentBitfield1 & 0x0002u) != 0; bool hasCompression = (contentBitfield1 & 0x0004u) != 0; bool hasBpsPatch = (contentBitfield1 & 0x0008u) != 0; bool hasCrc32 = (contentBitfield1 & 0x0010u) != 0; bool hasMd5 = (contentBitfield1 & 0x0020u) != 0; bool hasSha1 = (contentBitfield1 & 0x0040u) != 0; numberOfUnknownBits += (contentBitfield1 & 0x0080u) != 0 ? 1 : 0; numberOfUnknownBits += (contentBitfield1 & 0x0100u) != 0 ? 1 : 0; numberOfUnknownBits += (contentBitfield1 & 0x0200u) != 0 ? 1 : 0; numberOfUnknownBits += (contentBitfield1 & 0x0400u) != 0 ? 1 : 0; numberOfUnknownBits += (contentBitfield1 & 0x0800u) != 0 ? 1 : 0; numberOfUnknownBits += (contentBitfield1 & 0x1000u) != 0 ? 1 : 0; numberOfUnknownBits += (contentBitfield1 & 0x2000u) != 0 ? 1 : 0; numberOfUnknownBits += (contentBitfield1 & 0x4000u) != 0 ? 1 : 0; ushort currentBitfield = contentBitfield1; while ((currentBitfield & 0x8000u) != 0) { // more bitfields, though we don't understand them since only the first handful of bits are defined at the moment, so just count and skip them currentBitfield = dataBlockStream.ReadUInt16(e); numberOfUnknownBits += (currentBitfield & 0x0001u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0002u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0004u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0008u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0010u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0020u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0040u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0080u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0100u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0200u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0400u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x0800u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x1000u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x2000u) != 0 ? 1 : 0; numberOfUnknownBits += (currentBitfield & 0x4000u) != 0 ? 1 : 0; } uint dummyContentLength = hasDummyContent ? ReadContentLength(dataBlockStream, e) : 0; uint filenameLength = hasFilename ? ReadContentLength(dataBlockStream, e) : 0; uint compressionLength = hasCompression ? ReadContentLength(dataBlockStream, e) : 0; uint bpspatchLength = hasBpsPatch ? ReadContentLength(dataBlockStream, e) : 0; uint crc32Length = hasCrc32 ? ReadContentLength(dataBlockStream, e) : 0; uint md5Length = hasMd5 ? ReadContentLength(dataBlockStream, e) : 0; uint sha1Length = hasSha1 ? ReadContentLength(dataBlockStream, e) : 0; long unknownContentLength = 0; for (long i = 0; i < numberOfUnknownBits; ++i) { unknownContentLength += ReadContentLength(dataBlockStream, e); } dataBlockStream.Position = (long)(tableOfContentsOffset + offsetToFirstFileInfo); List <HyoutaArchiveFileInfo> files = new List <HyoutaArchiveFileInfo>((int)filecount); for (ulong i = 0; i < filecount; ++i) { ulong offset = dataBlockStream.ReadUInt64(e) << packedAlignment; ulong filesize = dataBlockStream.ReadUInt64(e); HyoutaArchiveFileInfo fi = new HyoutaArchiveFileInfo(); if (hasDummyContent) { fi.DummyContent = dataBlockStream.ReadBytes(dummyContentLength); } if (hasFilename) { fi.Filename = ReadString(dataBlockStream, filenameLength, e); } if (hasCompression) { fi.CompressionInfo = HyoutaArchiveCompression.Deserialize(dataBlockStream, compressionLength, e); fi.StreamIsCompressed = true; } if (hasBpsPatch) { fi.BpsPatchInfo = HyoutaArchiveBpsPatchInfo.Deserialize(dataBlockStream, bpspatchLength, e, i, this); fi.StreamIsBpsPatch = fi.BpsPatchInfo != null; } if (hasCrc32) { if (crc32Length >= 4) { fi.crc32 = new CRC32(dataBlockStream.ReadUInt32(EndianUtils.Endianness.BigEndian)); dataBlockStream.DiscardBytes(crc32Length - 4); } else { dataBlockStream.DiscardBytes(crc32Length); } } if (hasMd5) { if (md5Length >= 16) { ulong a = dataBlockStream.ReadUInt64(EndianUtils.Endianness.BigEndian); ulong b = dataBlockStream.ReadUInt64(EndianUtils.Endianness.BigEndian); fi.md5 = new MD5(a, b); dataBlockStream.DiscardBytes(md5Length - 16); } else { dataBlockStream.DiscardBytes(md5Length); } } if (hasSha1) { if (sha1Length >= 20) { ulong a = dataBlockStream.ReadUInt64(EndianUtils.Endianness.BigEndian); ulong b = dataBlockStream.ReadUInt64(EndianUtils.Endianness.BigEndian); uint c = dataBlockStream.ReadUInt32(EndianUtils.Endianness.BigEndian); fi.sha1 = new SHA1(a, b, c); dataBlockStream.DiscardBytes(sha1Length - 20); } else { dataBlockStream.DiscardBytes(sha1Length); } } dataBlockStream.DiscardBytes(unknownContentLength); fi.Data = new PartialStream(dataBlockStream, (long)offset, (long)filesize); files.Add(fi); } Files = files; } finally { dataBlockStream.Dispose(); } } }
public override void Dispose() { Stream.Dispose(); }