private static void WriteFileHeader(BinderFile file, BinaryWriterEx bw, int index, Binder.Format format) { bw.WriteByte((byte)file.Flags); bw.WriteByte(0); bw.WriteByte(0); bw.WriteByte(0); bw.ReserveInt32($"CompressedSize{index}"); bw.ReserveUInt32($"FileData{index}"); if (Binder.HasID(format)) { bw.WriteInt32(file.ID); } if (Binder.HasName(format)) { bw.ReserveUInt32($"FileName{index}"); } if (Binder.HasUncompressedSize(format)) { bw.WriteInt32(file.Bytes.Length); } }
private static BinderFile ReadFile(BinaryReaderEx br, Binder.Format format) { Binder.FileFlags flags = br.ReadEnum8 <Binder.FileFlags>(); br.AssertByte(0); br.AssertByte(0); br.AssertByte(0); int compressedSize = br.ReadInt32(); uint fileOffset = br.ReadUInt32(); int id = -1; if (Binder.HasID(format)) { id = br.ReadInt32(); } string name = null; if (Binder.HasName(format)) { uint fileNameOffset = br.ReadUInt32(); name = br.GetShiftJIS(fileNameOffset); } if (Binder.HasUncompressedSize(format)) { int uncompressedSize = br.ReadInt32(); } byte[] bytes; if (Binder.IsCompressed(flags)) { br.StepIn(fileOffset); bytes = SFUtil.ReadZlib(br, compressedSize); br.StepOut(); } else { bytes = br.GetBytes(fileOffset, compressedSize); } return(new BinderFile(flags, id, name, bytes)); }
/// <summary> /// Writes BND3 data to a BinaryWriterEx. /// </summary> internal override void Write(BinaryWriterEx bw) { bw.BigEndian = false; bw.WriteASCII("BND3"); bw.WriteFixStr(Timestamp, 8); bw.WriteByte((byte)Format); bw.WriteBoolean(BigEndian); bw.WriteBoolean(Unk1); bw.WriteByte(0); bw.BigEndian = BigEndian || Binder.ForceBigEndian(Format); bw.WriteInt32(Files.Count); bw.ReserveInt32("HeaderEnd"); bw.WriteInt32(Unk2); bw.WriteInt32(0); for (int i = 0; i < Files.Count; i++) { WriteFileHeader(Files[i], bw, i, Format); } if (Binder.HasName(Format)) { for (int i = 0; i < Files.Count; i++) { WriteFileName(Files[i], bw, i); } } bw.FillInt32($"HeaderEnd", (int)bw.Position); for (int i = 0; i < Files.Count; i++) { WriteFileData(Files[i], bw, i); } }
private static BinderFile ReadFile(BinaryReaderEx br, bool unicode, Binder.Format format) { Binder.FileFlags flags = br.ReadEnum8 <Binder.FileFlags>(); br.AssertByte(0); br.AssertByte(0); br.AssertByte(0); br.AssertInt32(-1); long compressedSize = br.ReadInt64(); if (Binder.HasUncompressedSize(format)) { long uncompressedSize = br.ReadInt64(); } uint fileOffset = br.ReadUInt32(); int id = -1; if (Binder.HasID(format)) { id = br.ReadInt32(); } string name = null; if (Binder.HasName(format)) { uint nameOffset = br.ReadUInt32(); if (unicode) { name = br.GetUTF16(nameOffset); } else { name = br.GetShiftJIS(nameOffset); } } if (format == Binder.Format.x20) { br.AssertInt64(0); } byte[] bytes; if (Binder.IsCompressed(flags)) { if (format == Binder.Format.x2E) { bytes = br.GetBytes(fileOffset, (int)compressedSize); bytes = DCX.Decompress(bytes, out DCX.Type type); if (type != DCX.Type.DemonsSoulsEDGE) { throw null; } } else { br.StepIn(fileOffset); bytes = SFUtil.ReadZlib(br, (int)compressedSize); br.StepOut(); } } else { bytes = br.GetBytes(fileOffset, (int)compressedSize); } return(new BinderFile(flags, id, name, bytes)); }
/// <summary> /// Writes BND4 data to a BinaryWriterEx. /// </summary> internal override void Write(BinaryWriterEx bw) { bw.BigEndian = BigEndian; bw.WriteASCII("BND4"); bw.WriteBoolean(Flag1); bw.WriteBoolean(Flag2); bw.WriteByte(0); bw.WriteByte(0); bw.WriteInt32(0x10000); bw.WriteInt32(Files.Count); bw.WriteInt64(0x40); bw.WriteFixStr(Timestamp, 8); bw.WriteInt64(Binder.FileHeaderSize(Format)); bw.ReserveInt64("DataStart"); bw.WriteBoolean(Unicode); bw.WriteByte((byte)Format); bw.WriteByte(Extended); bw.WriteByte(0); bw.WriteInt32(0); if (Extended == 4) { bw.ReserveInt64("HashGroups"); } else { bw.WriteInt64(0); } for (int i = 0; i < Files.Count; i++) { WriteFile(Files[i], bw, i, Format); } if (Binder.HasName(Format)) { for (int i = 0; i < Files.Count; i++) { BinderFile file = Files[i]; bw.FillUInt32($"FileName{i}", (uint)bw.Position); if (Unicode) { bw.WriteUTF16(file.Name, true); } else { bw.WriteShiftJIS(file.Name, true); } } } if (Extended == 4) { uint groupCount = 0; for (uint p = (uint)Files.Count / 7; p <= 100000; p++) { if (SFUtil.IsPrime(p)) { groupCount = p; break; } } if (groupCount == 0) { throw new InvalidOperationException("Hash group count not determined in BND4."); } var hashLists = new List <PathHash> [groupCount]; for (int i = 0; i < groupCount; i++) { hashLists[i] = new List <PathHash>(); } for (int i = 0; i < Files.Count; i++) { var pathHash = new PathHash(i, Files[i].Name); uint group = pathHash.Hash % groupCount; hashLists[group].Add(pathHash); } for (int i = 0; i < groupCount; i++) { hashLists[i].Sort((ph1, ph2) => ph1.Hash.CompareTo(ph2.Hash)); } var hashGroups = new List <HashGroup>(); var pathHashes = new List <PathHash>(); int count = 0; foreach (List <PathHash> hashList in hashLists) { int index = count; foreach (PathHash pathHash in hashList) { pathHashes.Add(pathHash); count++; } hashGroups.Add(new HashGroup(index, count - index)); } bw.Pad(0x8); bw.FillInt64("HashGroups", bw.Position); bw.ReserveInt64("PathHashes"); bw.WriteUInt32(groupCount); bw.WriteInt32(0x00080810); foreach (HashGroup hashGroup in hashGroups) { hashGroup.Write(bw); } // No padding after section 1 bw.FillInt64("PathHashes", bw.Position); foreach (PathHash pathHash in pathHashes) { pathHash.Write(bw); } } bw.FillInt64("DataStart", bw.Position); for (int i = 0; i < Files.Count; i++) { BinderFile file = Files[i]; if (file.Bytes.LongLength > 0) { bw.Pad(0x10); } bw.FillUInt32($"FileData{i}", (uint)bw.Position); int compressedSize = file.Bytes.Length; if (Binder.IsCompressed(file.Flags)) { if (Format == Binder.Format.x2E) { byte[] bytes = DCX.Compress(file.Bytes, DCX.Type.DemonsSoulsEDGE); bw.WriteBytes(bytes); compressedSize = bytes.Length; } else { compressedSize = SFUtil.WriteZlib(bw, 0x9C, file.Bytes); } } else { bw.WriteBytes(file.Bytes); } bw.FillInt64($"CompressedSize{i}", compressedSize); } }