using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; using Toolbox; using System.Windows.Forms; using Toolbox.Library; using Toolbox.Library.IO; using System.Runtime.InteropServices; namespace HedgehogLibrary { public class PACx : IArchiveFile, IFileFormat { public FileType FileType { get; set; } = FileType.Archive; public bool CanSave { get; set; } public string[] Description { get; set; } = new string[] { "Hedgehog Engine Archive" }; public string[] Extension { get; set; } = new string[] { "*.pac" }; public string FileName { get; set; } public string FilePath { get; set; } public IFileInfo IFileInfo { get; set; } public bool CanAddFiles { get; set; } public bool CanRenameFiles { get; set; } public bool CanReplaceFiles { get; set; } public bool CanDeleteFiles { get; set; } public bool Identify(System.IO.Stream stream) { using (var reader = new Toolbox.Library.IO.FileReader(stream, true)) { return reader.CheckSignature(8, "PACx301L") || reader.CheckSignature(8, "PACx302L") || reader.CheckSignature(8, "PACx402L"); } } public Type[] Types { get { List types = new List(); return types.ToArray(); } } public List files = new List(); public IEnumerable Files => files; public string Name { get; set; } public void ClearFiles() { files.Clear(); } public uint Checksum; public static bool IsVersion4; public List SplitEntries = new List(); public void Load(System.IO.Stream stream) { using (var reader = new FileReader(stream)) { reader.ByteOrder = Syroot.BinaryData.ByteOrder.LittleEndian; IsVersion4 = reader.CheckSignature(8, "PACx402L"); if (IsVersion4) { var header = reader.ReadStruct(); var chunks = reader.ReadMultipleStructs(header.ChunkCount); Checksum = header.PacID; //Decompress each chunk now reader.SeekBegin(header.RootOffset); ReadRootPac(DecompressChunks(reader, chunks)); //Read splits from root pac if (SplitEntries.Count > 0) { foreach (var pacSplit in SplitEntries) ReadSplitPac(reader, pacSplit); } } else { var header3 = reader.ReadStruct(); PacNodeTree tree = new PacNodeTree(); tree.Read(reader, header3); var rootNode = tree.RootNode; LoadTree(rootNode); } } } public void ReadSplitPac(FileReader reader, SplitEntry entry) { reader.SeekBegin(entry.SplitOffset); ReadRootPac(DecompressChunks(reader, entry.Chunks), entry.Name); } public byte[] DecompressChunks(FileReader reader, List chunks) { List PacChunks = new List(); for (int i = 0; i < chunks.Count; i++) { if (chunks[i].CompressedSize == chunks[i].UncompressedSize) { PacChunks.Add(reader.ReadBytes((int)chunks[i].UncompressedSize)); } else { PacChunks.Add(STLibraryCompression.Type_LZ4.Decompress( reader.ReadBytes((int)chunks[i].CompressedSize), 0, (int)chunks[i].CompressedSize, (int)chunks[i].UncompressedSize)); } } return Utils.CombineByteArray(PacChunks.ToArray()); } public void ReadRootPac(byte[] buffer, string splitName = "") { using (var reader = new FileReader(new System.IO.MemoryStream(buffer))) { var header3 = reader.ReadStruct(); PacNodeTree tree = new PacNodeTree(); tree.Read(reader, header3); var rootNode = tree.RootNode; LoadTree(rootNode, splitName); if (header3.SplitCount != 0) { //Read the split data if present reader.SeekBegin(48 + header3.NodesSize); ulong splitCount = reader.ReadUInt64(); ulong splitEntriesOffset = reader.ReadUInt64(); reader.SeekBegin(splitEntriesOffset); for (int i = 0; i < (int)splitCount; i++) { SplitEntry entry = new SplitEntry(); entry.SplitNameOffset = reader.ReadUInt64(); entry.SplitCompressedSize = reader.ReadUInt32(); entry.SplitUncompressedSize = reader.ReadUInt32(); entry.SplitOffset = reader.ReadUInt32(); entry.SplitChunkCount = reader.ReadUInt32(); entry.SplitChunksOffset = reader.ReadUInt64(); using (reader.TemporarySeek((long)entry.SplitNameOffset, System.IO.SeekOrigin.Begin)) { entry.Name = reader.ReadZeroTerminatedString(); } using (reader.TemporarySeek((long)entry.SplitChunksOffset, System.IO.SeekOrigin.Begin)) { entry.Chunks = reader.ReadMultipleStructs(entry.SplitChunkCount); } SplitEntries.Add(entry); Console.WriteLine("SplitName " + entry.Name); Console.WriteLine("SplitCompressedSize " + entry.SplitCompressedSize); Console.WriteLine("SplitUncompressedSize " + entry.SplitUncompressedSize); Console.WriteLine("SplitOffset " + entry.SplitOffset); Console.WriteLine("SplitChunkCount " + entry.SplitChunkCount); Console.WriteLine("SplitChunksOffset " + entry.SplitChunksOffset); } } } } //Documentation from https://pastebin.com/RSAbK46c [StructLayout(LayoutKind.Sequential, Pack = 1)] public class HeaderV4 { public Magic8 Magic = "PACx402L"; public uint PacID; public uint FileSize; public uint RootOffset; public uint RootCompressedSize; public uint RootUncompressedSize; public PacType Type = PacType.HasNoSplit; public ushort Constant = 0x208; public uint ChunkCount; } [StructLayout(LayoutKind.Sequential, Pack = 1)] public class Chunk { // When decompressing the root pac allocate a buffer of // size Header.RootUncompressedSize, then loop through these // chunks and decompress each one, one-by-one, into that buffer. // If you try to decompress all at once instead the data can be corrupted. public uint CompressedSize; //Compressed as LZ4 public uint UncompressedSize; } [StructLayout(LayoutKind.Sequential, Pack = 1)] public class HeaderV3 { public Magic8 Magic = "PACx402L"; public uint PacID; public uint FileSize; public uint NodesSize; public uint SplitsInfoSize; public uint DataEntriesSize; public uint StringTableSize; public uint DataSize; public uint OffsetTableSize; public PacType Type = PacType.HasNoSplit; public ushort Constant = 0x108; public uint SplitCount; } public class SplitEntry { public ulong SplitNameOffset; public uint SplitCompressedSize; public uint SplitUncompressedSize; public uint SplitOffset; public uint SplitChunkCount; public ulong SplitChunksOffset; public string Name; public List Chunks; } public class EmbeddedPAC { } public enum PacType : ushort { // PAC has no splits HasNoSplit = 1, // PAC is a split IsSplit = 2, // PAC has splits HasSplit = 5 } public void LoadTree(PacNode node, string fullPath = "") { bool IsFile = node.HasData && node.Data != null; if (IsFile) { FileEntry newNode = new FileEntry(node); newNode.FileName = $"{fullPath}.{newNode.Name}"; files.Add(newNode); } if (node.Name != "Node" && node.Name != null) fullPath += $"/{node.Name}"; for (int i = 0; i < node.Children.Count; i++) LoadTree(node.Children[i], fullPath); } public class FileEntry : ArchiveFileInfo { public FileEntry(PacNode node) { Name = node.Name; FileData = node.Data; if (node.Name == null) Name = "File Node"; if (FileData == null) FileData = new byte[0]; } } public class PacNodeTree { public PacNode RootNode { get; set; } public ulong rootNodeOffset; public void Read(FileReader reader, HeaderV3 pac) { uint nodeCount = reader.ReadUInt32(); uint dataNodeCount = reader.ReadUInt32(); rootNodeOffset = reader.ReadUInt64(); ulong dataNodeIndicesOffset = reader.ReadUInt64(); reader.SeekBegin(rootNodeOffset); RootNode = new PacNode(pac, this); RootNode.Read(reader); } } public class PacNode { public HeaderV3 PacFile; public byte[] Data; public PacNodeTree ParentTree; public string Name { get; set; } public bool HasData { get; set; } public List Children = new List(); public DataType DataType; public PacNode(HeaderV3 pac, PacNodeTree tree) { PacFile = pac; ParentTree = tree; } public void Read(FileReader reader) { ulong nameOffset = reader.ReadUInt64(); ulong dataOffset = reader.ReadUInt64(); ulong childIndicesOffset = reader.ReadUInt64(); int parentIndex = reader.ReadInt32(); int index = reader.ReadInt32(); int dataIndex = reader.ReadInt32(); ushort childCount = reader.ReadUInt16(); HasData = reader.ReadBoolean(); byte fullPathSize = reader.ReadByte(); Console.WriteLine($"nameOffset {nameOffset}"); Console.WriteLine($"dataOffset {dataOffset}"); Console.WriteLine($"childIndicesOffset {childIndicesOffset}"); Console.WriteLine($"parentIndex {parentIndex}"); Console.WriteLine($"index {index}"); Console.WriteLine($"dataIndex {dataIndex}"); Console.WriteLine($"childCount {childCount}"); Console.WriteLine($"HasData {HasData}"); if (nameOffset != 0) { reader.SeekBegin((long)nameOffset); Name = reader.ReadZeroTerminatedString(); } if (dataOffset != 0) { reader.SeekBegin((long)dataOffset); uint PacID = reader.ReadUInt32(); //Detecting data in v4 is a pain //Check if the offset is set within the data section var dataPos = 48 + PacFile.NodesSize + PacFile.SplitsInfoSize; if (PacID == PacFile.PacID || IsVersion4 && dataOffset >= dataPos) { ulong dataSize = reader.ReadUInt64(); uint padding = reader.ReadUInt32(); ulong dataBlockOffset = reader.ReadUInt64(); ulong padding2 = reader.ReadUInt64(); ulong extensionOffset = reader.ReadUInt64(); DataType = reader.ReadEnum(false); if (extensionOffset != 0) { reader.SeekBegin((long)extensionOffset); string extension = reader.ReadZeroTerminatedString(); Name += extension; } if (dataBlockOffset != 0) { reader.SeekBegin((long)dataBlockOffset); Data = reader.ReadBytes((int)dataSize); } } else { reader.SeekBegin((long)dataOffset); PacNodeTree tree = new PacNodeTree(); tree.Read(reader, PacFile); Children.Add(tree.RootNode); } } if (childIndicesOffset != 0) { reader.SeekBegin((long)childIndicesOffset); int[] Indices = reader.ReadInt32s(childCount); for (int i = 0; i < childCount; i++) { int childIndex = Indices[i]; reader.SeekBegin((uint)ParentTree.rootNodeOffset + (childIndex * 40)); PacNode node = new PacNode(PacFile, ParentTree); node.Read(reader); Children.Add(node); } } } } public enum DataType : ulong { RegularFile = 0, NotHere = 1, BINAFile = 2 } public void Unload() { } public void Save(System.IO.Stream stream) { } public bool AddFile(ArchiveFileInfo archiveFileInfo) { return false; } public bool DeleteFile(ArchiveFileInfo archiveFileInfo) { return false; } } }