CodeWalker/GameFiles/Resources/RpfFile.cs

1443 lines
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C#
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2017-09-21 18:33:05 +08:00
using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.IO;
using System.IO.Compression;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace CodeWalker.GameFiles
{
public class RpfFile
{
public string Name { get; set; } //name of this RPF file/package
public string NameLower { get; set; }
public string Path { get; set; } //path within the RPF structure
public string FilePath { get; set; } //full file path of the RPF
public long FileSize { get; set; }
public string LastError { get; set; }
public Exception LastException { get; set; }
public RpfDirectoryEntry Root { get; set; }
public bool IsCompressed { get; set; }
public bool IsAESEncrypted { get; set; }
public bool IsNGEncrypted { get; set; }
public long UncompressedSize { get; set; }
public string RootFileName { get; set; }
public long RootFileSize { get; set; }
//offset in the current file
public long StartPos { get; set; }
//header data
public uint Version { get; set; }
public uint EntryCount { get; set; }
public uint NamesLength { get; set; }
public RpfEncryption Encryption { get; set; }
//object linkage
public List<RpfEntry> AllEntries { get; set; }
public List<RpfFile> Children { get; set; }
public RpfFile Parent { get; set; }
public BinaryReader CurrentFileReader { get; set; } //for temporary use while reading header
public uint TotalFileCount { get; set; }
public uint TotalFolderCount { get; set; }
public uint TotalResourceCount { get; set; }
public uint TotalBinaryFileCount { get; set; }
public uint GrandTotalRpfCount { get; set; }
public uint GrandTotalFileCount { get; set; }
public uint GrandTotalFolderCount { get; set; }
public uint GrandTotalResourceCount { get; set; }
public uint GrandTotalBinaryFileCount { get; set; }
public long ExtractedByteCount { get; set; }
public RpfFile(string fpath, string relpath)
{
FileInfo fi = new FileInfo(fpath);
Name = fi.Name;
NameLower = Name.ToLowerInvariant();
Path = relpath.ToLowerInvariant();
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FilePath = fpath;
FileSize = fi.Length;
IsCompressed = false;
IsAESEncrypted = false;
RootFileName = Name;
RootFileSize = FileSize;
}
public RpfFile(string name, string path, string filepath, long filesize, bool compressed, bool encrypted, string rootfn, long rootfs)
{
Name = name;
NameLower = Name.ToLowerInvariant();
Path = path.ToLowerInvariant();
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FilePath = filepath;
FileSize = filesize;
IsCompressed = compressed;
IsAESEncrypted = encrypted;
RootFileName = rootfn;
RootFileSize = rootfs;
}
public string GetPhysicalFilePath()
{
RpfFile pfile = this;
while (pfile.Parent != null)
{
pfile = pfile.Parent;
}
return pfile.FilePath;
}
private void ReadHeader(BinaryReader br)
{
CurrentFileReader = br;
StartPos = br.BaseStream.Position;
Version = br.ReadUInt32(); //RPF Version - GTAV should be 0x52504637 (1380992567)
EntryCount = br.ReadUInt32(); //Number of Entries
NamesLength = br.ReadUInt32();
Encryption = (RpfEncryption)br.ReadUInt32(); //0x04E45504F (1313165391): none; 0x0ffffff9 (268435449): AES
if (Version == 0xF00)
{
throw new Exception("Invalid Resource.");
}
if (Version != 0x52504637)
{
throw new Exception("Invalid Resource - not GTAV!");
}
uint entriestotalbytes = EntryCount * 16; //4x uints each
uint entriesptr = (uint)br.BaseStream.Position;
uint namesptr = entriesptr + entriestotalbytes;
byte[] entriesdata = new byte[entriestotalbytes];
int entread = br.Read(entriesdata, 0, (int)entriestotalbytes);
byte[] namesdata = new byte[NamesLength];
int namread = br.Read(namesdata, 0, (int)NamesLength);
switch (Encryption)
{
case RpfEncryption.OPEN: //nothing to do.. OpenIV modified RPF with unencrypted TOC
break;
case RpfEncryption.AES:
entriesdata = GTACrypto.DecryptAES(entriesdata);
namesdata = GTACrypto.DecryptAES(namesdata);
IsAESEncrypted = true;
break;
case RpfEncryption.NG:
entriesdata = GTACrypto.DecryptNG(entriesdata, Name, (uint)FileSize);
namesdata = GTACrypto.DecryptNG(namesdata, Name, (uint)FileSize);
IsNGEncrypted = true;
break;
default: //unknown encryption type? assume NG.. never seems to get here
entriesdata = GTACrypto.DecryptNG(entriesdata, Name, (uint)FileSize);
namesdata = GTACrypto.DecryptNG(namesdata, Name, (uint)FileSize);
break;
}
var entriesrdr = new DataReader(new MemoryStream(entriesdata));
var namesrdr = new DataReader(new MemoryStream(namesdata));
AllEntries = new List<RpfEntry>();
TotalFileCount = 0;
TotalFolderCount = 0;
TotalResourceCount = 0;
TotalBinaryFileCount = 0;
for (uint i = 0; i < EntryCount; i++)
{
//entriesrdr.Position += 4;
uint y = entriesrdr.ReadUInt32();
uint x = entriesrdr.ReadUInt32();
entriesrdr.Position -= 8;
RpfEntry e;
if (x == 0x7fffff00) //directory entry
{
e = new RpfDirectoryEntry();
TotalFolderCount++;
}
else if ((x & 0x80000000) == 0) //binary file entry
{
e = new RpfBinaryFileEntry();
TotalBinaryFileCount++;
TotalFileCount++;
}
else //assume resource file entry
{
e = new RpfResourceFileEntry();
TotalResourceCount++;
TotalFileCount++;
}
e.File = this;
e.H1 = y;
e.H2 = x;
e.Read(entriesrdr);
namesrdr.Position = e.NameOffset;
e.Name = namesrdr.ReadString();
e.NameLower = e.Name.ToLowerInvariant();
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if ((e is RpfFileEntry) && string.IsNullOrEmpty(e.Name))
{
}
if ((e is RpfResourceFileEntry))// && string.IsNullOrEmpty(e.Name))
{
var rfe = e as RpfResourceFileEntry;
rfe.IsEncrypted = rfe.NameLower.EndsWith(".ysc");//any other way to know..?
}
AllEntries.Add(e);
}
Root = (RpfDirectoryEntry)AllEntries[0];
Root.Path = Path.ToLowerInvariant();// + "\\" + Root.Name;
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var stack = new Stack<RpfDirectoryEntry>();
stack.Push(Root);
while (stack.Count > 0)
{
var item = stack.Pop();
for (int i = (int)item.EntriesIndex; i < (item.EntriesIndex + item.EntriesCount); i++)
{
RpfEntry e = AllEntries[i];
if (e is RpfDirectoryEntry)
{
RpfDirectoryEntry rde = e as RpfDirectoryEntry;
rde.Path = item.Path + "\\" + rde.NameLower;
item.Directories.Add(rde);
stack.Push(rde);
}
else if (e is RpfFileEntry)
{
RpfFileEntry rfe = e as RpfFileEntry;
rfe.Path = item.Path + "\\" + rfe.NameLower;
item.Files.Add(rfe);
}
}
}
br.BaseStream.Position = StartPos;
CurrentFileReader = null;
}
public void ScanStructure(Action<string> updateStatus, Action<string> errorLog)
{
using (BinaryReader br = new BinaryReader(File.OpenRead(FilePath)))
{
try
{
ScanStructure(br, updateStatus, errorLog);
}
catch (Exception ex)
{
LastError = ex.ToString();
LastException = ex;
errorLog(FilePath + ": " + LastError);
}
}
}
private void ScanStructure(BinaryReader br, Action<string> updateStatus, Action<string> errorLog)
{
ReadHeader(br);
Children = new List<RpfFile>();
GrandTotalRpfCount = 1; //count this file..
GrandTotalFileCount = 1; //start with this one.
GrandTotalFolderCount = 0;
GrandTotalResourceCount = 0;
GrandTotalBinaryFileCount = 0;
updateStatus?.Invoke("Scanning " + Path + "...");
foreach (RpfEntry entry in AllEntries)
{
try
{
if (entry is RpfBinaryFileEntry)
{
RpfBinaryFileEntry binentry = entry as RpfBinaryFileEntry;
long l = binentry.FileSize;
if (l == 0) l = binentry.FileUncompressedSize;
//search all the sub resources for YSC files. (recurse!)
string lname = binentry.NameLower;
if (lname.EndsWith(".rpf"))
{
br.BaseStream.Position = StartPos + (binentry.FileOffset * 512);
RpfFile subfile = new RpfFile(binentry.Name, binentry.Path, binentry.Path, l, binentry.FileSize != 0, binentry.IsEncrypted, RootFileName, RootFileSize);
subfile.UncompressedSize = binentry.FileUncompressedSize;
subfile.Parent = this;
subfile.ScanStructure(br, updateStatus, errorLog);
GrandTotalRpfCount += subfile.GrandTotalRpfCount;
GrandTotalFileCount += subfile.GrandTotalFileCount;
GrandTotalFolderCount += subfile.GrandTotalFolderCount;
GrandTotalResourceCount += subfile.GrandTotalResourceCount;
GrandTotalBinaryFileCount += subfile.GrandTotalBinaryFileCount;
Children.Add(subfile);
}
else
{
//binary file that's not an rpf...
GrandTotalBinaryFileCount++;
GrandTotalFileCount++;
}
}
else if (entry is RpfResourceFileEntry)
{
GrandTotalResourceCount++;
GrandTotalFileCount++;
}
else if (entry is RpfDirectoryEntry)
{
GrandTotalFolderCount++;
}
}
catch (Exception ex)
{
errorLog?.Invoke(entry.Path + ": " + ex.ToString());
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}
}
}
public void ExtractScripts(string outputfolder, Action<string> updateStatus)
{
FileStream fs = File.OpenRead(FilePath);
BinaryReader br = new BinaryReader(fs);
try
{
ExtractScripts(br, outputfolder, updateStatus);
}
catch (Exception ex)
{
LastError = ex.ToString();
LastException = ex;
}
br.Close();
br.Dispose();
fs.Dispose();
}
private void ExtractScripts(BinaryReader br, string outputfolder, Action<string> updateStatus)
{
updateStatus?.Invoke("Searching " + Name + "...");
ReadHeader(br);
//List<DataBlock> blocks = new List<DataBlock>();
foreach (RpfEntry entry in AllEntries)
{
if (entry is RpfBinaryFileEntry)
{
RpfBinaryFileEntry binentry = entry as RpfBinaryFileEntry;
long l = binentry.FileSize;
if (l == 0) l = binentry.FileUncompressedSize;
//search all the sub resources for YSC files. (recurse!)
string lname = binentry.NameLower;
if (lname.EndsWith(".rpf"))
{
br.BaseStream.Position = StartPos + (binentry.FileOffset * 512);
RpfFile subfile = new RpfFile(binentry.Name, binentry.Path, binentry.Path, l, binentry.FileSize != 0, binentry.IsEncrypted, RootFileName, RootFileSize);
subfile.UncompressedSize = binentry.FileUncompressedSize;
subfile.Parent = this;
subfile.ExtractScripts(br, outputfolder, updateStatus);
}
}
else if (entry is RpfResourceFileEntry)
{
RpfResourceFileEntry resentry = entry as RpfResourceFileEntry;
string lname = resentry.NameLower;
if (lname.EndsWith(".ysc"))
{
updateStatus?.Invoke("Extracting " + resentry.Name + "...");
//found a YSC file. extract it!
string ofpath = outputfolder + "\\" + resentry.Name;
br.BaseStream.Position = StartPos + (resentry.FileOffset * 512);
if (resentry.FileSize > 0)
{
uint offset = 0x10;
uint totlen = resentry.FileSize - offset;
byte[] tbytes = new byte[totlen];
br.BaseStream.Position += offset;
br.Read(tbytes, 0, (int)totlen);
byte[] decr;
if (IsAESEncrypted)
{
decr = GTACrypto.DecryptAES(tbytes);
//special case! probable duplicate pilot_school.ysc
ofpath = outputfolder + "\\" + Name + "___" + resentry.Name;
}
else
{
decr = GTACrypto.DecryptNG(tbytes, resentry.Name, resentry.FileSize);
}
try
{
MemoryStream ms = new MemoryStream(decr);
DeflateStream ds = new DeflateStream(ms, CompressionMode.Decompress);
MemoryStream outstr = new MemoryStream();
ds.CopyTo(outstr);
byte[] deflated = outstr.GetBuffer();
byte[] outbuf = new byte[outstr.Length]; //need to copy to the right size buffer for File.WriteAllBytes().
Array.Copy(deflated, outbuf, outbuf.Length);
bool pathok = true;
if (File.Exists(ofpath))
{
ofpath = outputfolder + "\\" + Name + "_" + resentry.Name;
if (File.Exists(ofpath))
{
LastError = "Output file " + ofpath + " already exists!";
pathok = false;
}
}
if (pathok)
{
File.WriteAllBytes(ofpath, outbuf);
}
}
catch (Exception ex)
{
LastError = ex.ToString();
LastException = ex;
}
}
}
}
}
}
public byte[] ExtractFile(RpfFileEntry entry)
{
try
{
using (BinaryReader br = new BinaryReader(File.OpenRead(GetPhysicalFilePath())))
{
if (entry is RpfBinaryFileEntry)
{
return ExtractFileBinary(entry as RpfBinaryFileEntry, br);
}
else if (entry is RpfResourceFileEntry)
{
return ExtractFileResource(entry as RpfResourceFileEntry, br);
}
else
{
return null;
}
}
}
catch (Exception ex)
{
LastError = ex.ToString();
LastException = ex;
return null;
}
}
public byte[] ExtractFileBinary(RpfBinaryFileEntry entry, BinaryReader br)
{
br.BaseStream.Position = StartPos + ((long)entry.FileOffset * 512);
long l = entry.FileSize;
if (l == 0) l = entry.FileUncompressedSize;
if (l > 0)
{
uint offset = 0;// 0x10;
uint totlen = (uint)l - offset;
byte[] tbytes = new byte[totlen];
br.BaseStream.Position += offset;
br.Read(tbytes, 0, (int)totlen);
byte[] decr = tbytes;
if (entry.IsEncrypted)
{
if (IsAESEncrypted)
{
decr = GTACrypto.DecryptAES(tbytes);
}
else //if (IsNGEncrypted) //assume the archive is set to NG encryption if not AES... (comment: fix for openIV modded files)
{
decr = GTACrypto.DecryptNG(tbytes, entry.Name, entry.FileUncompressedSize);
}
//else
//{ }
}
byte[] defl = decr;
if (entry.FileSize > 0) //apparently this means it's compressed
{
defl = DecompressBytes(decr);
}
else
{
}
return defl;
}
return null;
}
public byte[] ExtractFileResource(RpfResourceFileEntry entry, BinaryReader br)
{
br.BaseStream.Position = StartPos + ((long)entry.FileOffset * 512);
if (entry.FileSize > 0)
{
uint offset = 0x10;
uint totlen = entry.FileSize - offset;
byte[] tbytes = new byte[totlen];
br.BaseStream.Position += offset;
//byte[] hbytes = new byte[16]; //what are these 16 bytes actually used for?
//br.Read(hbytes, 0, 16);
//MetaHash h1 = br.ReadUInt32();
//MetaHash h2 = br.ReadUInt32();
//MetaHash h3 = br.ReadUInt32();
//MetaHash h4 = br.ReadUInt32();
//long l1 = br.ReadInt64();
//long l2 = br.ReadInt64();
br.Read(tbytes, 0, (int)totlen);
byte[] decr = tbytes;
if (entry.IsEncrypted)
{
if (IsAESEncrypted)
{
decr = GTACrypto.DecryptAES(tbytes);
}
else //if (IsNGEncrypted) //assume the archive is set to NG encryption if not AES... (comment: fix for openIV modded files)
{
decr = GTACrypto.DecryptNG(tbytes, entry.Name, entry.FileSize);
}
//else
//{ }
}
byte[] deflated = DecompressBytes(decr);
byte[] data = null;
if (deflated != null)
{
data = deflated;
}
else
{
entry.FileSize -= offset;
data = decr;
}
return data;
}
return null;
}
public static T GetFile<T>(RpfEntry e) where T : class, PackedFile, new()
{
T file = null;
byte[] data = null;
RpfFileEntry entry = e as RpfFileEntry;
if (entry != null)
{
data = entry.File.ExtractFile(entry);
}
if (data != null)
{
file = new T();
file.Load(data, entry);
}
return file;
}
public static T GetFile<T>(RpfEntry e, byte[] data) where T : class, PackedFile, new()
{
T file = null;
RpfFileEntry entry = e as RpfFileEntry;
if ((data != null))
{
if (entry == null)
{
entry = CreateResourceFileEntry(data, 0);
}
file = new T();
file.Load(data, entry);
}
return file;
}
public static T GetResourceFile<T>(byte[] data) where T : class, PackedFile, new()
{
T file = null;
RpfFileEntry entry = CreateResourceFileEntry(data, 0);
if ((data != null) && (entry != null))
{
file = new T();
file.Load(data, entry);
}
return file;
}
public static RpfResourceFileEntry CreateResourceFileEntry(byte[] data, uint ver)
{
var resentry = new RpfResourceFileEntry();
//hopefully this format has an RSC7 header...
uint rsc7 = BitConverter.ToUInt32(data, 0);
if (rsc7 == 0x37435352) //RSC7 header present!
{
int version = BitConverter.ToInt32(data, 4);//use this instead of what was given...
resentry.SystemFlags = BitConverter.ToUInt32(data, 8);
resentry.GraphicsFlags = BitConverter.ToUInt32(data, 12);
//if (data.Length > 16)
//{
// int newlen = data.Length - 16; //trim the header from the data passed to the next step.
// byte[] newdata = new byte[newlen];
// Buffer.BlockCopy(data, 16, newdata, 0, newlen);
// data = newdata;
//}
//else
//{
// data = null; //shouldn't happen... empty..
//}
}
else
{
//direct load from file without the rpf header..
//assume it's in resource meta format
resentry.SystemFlags = RpfResourceFileEntry.GetFlagsFromSize(data.Length, 0);
resentry.GraphicsFlags = RpfResourceFileEntry.GetFlagsFromSize(0, ver); //graphics type 2 for ymap
}
resentry.Name = "";
resentry.NameLower = "";
return resentry;
}
public string TestExtractAllFiles()
{
StringBuilder sb = new StringBuilder();
ExtractedByteCount = 0;
try
{
using (BinaryReader br = new BinaryReader(File.OpenRead(GetPhysicalFilePath())))
{
foreach (RpfEntry entry in AllEntries)
{
try
{
LastError = string.Empty;
LastException = null;
if (!entry.NameLower.EndsWith(".rpf")) //don't try to extract rpf's, they will be done separately..
{
if (entry is RpfBinaryFileEntry)
{
RpfBinaryFileEntry binentry = entry as RpfBinaryFileEntry;
byte[] data = ExtractFileBinary(binentry, br);
if (data == null)
{
if (binentry.FileSize == 0)
{
sb.AppendFormat("{0} : Binary FileSize is 0.", entry.Path);
sb.AppendLine();
}
else
{
sb.AppendFormat("{0} : {1}", entry.Path, LastError);
sb.AppendLine();
}
}
else if (data.Length == 0)
{
sb.AppendFormat("{0} : Decompressed output was empty.", entry.Path);
sb.AppendLine();
}
else
{
ExtractedByteCount += data.Length;
}
}
else if (entry is RpfResourceFileEntry)
{
RpfResourceFileEntry resentry = entry as RpfResourceFileEntry;
byte[] data = ExtractFileResource(resentry, br);
if (data == null)
{
if (resentry.FileSize == 0)
{
sb.AppendFormat("{0} : Resource FileSize is 0.", entry.Path);
sb.AppendLine();
}
else
{
sb.AppendFormat("{0} : {1}", entry.Path, LastError);
sb.AppendLine();
}
}
else if (data.Length == 0)
{
sb.AppendFormat("{0} : Decompressed output was empty.", entry.Path);
sb.AppendLine();
}
else
{
ExtractedByteCount += data.Length;
}
}
}
}
catch (Exception ex)
{
LastError = ex.ToString();
LastException = ex;
sb.AppendFormat("{0} : {1}", entry.Path, ex.Message);
sb.AppendLine();
}
}
}
}
catch (Exception ex)
{
LastError = ex.ToString();
LastException = ex;
sb.AppendFormat("{0} : {1}", Path, ex.Message);
sb.AppendLine();
return null;
}
return sb.ToString();
}
public List<RpfFileEntry> GetFiles(string folder, bool recurse)
{
List<RpfFileEntry> result = new List<RpfFileEntry>();
string[] parts = folder.ToLowerInvariant().Split(new[] { '\\' }, StringSplitOptions.RemoveEmptyEntries);
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RpfDirectoryEntry dir = Root;
for (int i = 0; i < parts.Length; i++)
{
if (dir == null) break;
dir = FindSubDirectory(dir, parts[i]);
}
if (dir != null)
{
GetFiles(dir, result, recurse);
}
return result;
}
public void GetFiles(RpfDirectoryEntry dir, List<RpfFileEntry> result, bool recurse)
{
if (dir.Files != null)
{
result.AddRange(dir.Files);
}
if (recurse)
{
if (dir.Directories != null)
{
for (int i = 0; i < dir.Directories.Count; i++)
{
GetFiles(dir.Directories[i], result, recurse);
}
}
}
}
private RpfDirectoryEntry FindSubDirectory(RpfDirectoryEntry dir, string name)
{
if (dir == null) return null;
if (dir.Directories == null) return null;
for (int i = 0; i < dir.Directories.Count; i++)
{
var cdir = dir.Directories[i];
if (cdir.Name.ToLowerInvariant() == name)
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{
return cdir;
}
}
return null;
}
public byte[] DecompressBytes(byte[] bytes)
{
try
{
using (DeflateStream ds = new DeflateStream(new MemoryStream(bytes), CompressionMode.Decompress))
{
MemoryStream outstr = new MemoryStream();
ds.CopyTo(outstr);
byte[] deflated = outstr.GetBuffer();
byte[] outbuf = new byte[outstr.Length]; //need to copy to the right size buffer for output.
Array.Copy(deflated, outbuf, outbuf.Length);
if (outbuf.Length <= bytes.Length)
{
LastError = "Decompressed data was smaller than compressed data...";
return null;
}
return outbuf;
}
}
catch (Exception ex)
{
LastError = "Could not decompress.";// ex.ToString();
LastException = ex;
return null;
}
}
public override string ToString()
{
return Path;
}
}
public enum RpfEncryption : uint
{
OPEN = 0x4E45504F, //1313165391 "OPEN", ie. "no encryption?"
AES = 0x0FFFFFF9, //268435449
NG = 0x0FEFFFFF, //267386879
}
[TypeConverter(typeof(ExpandableObjectConverter))] public abstract class RpfEntry
{
public RpfFile File { get; set; }
public uint NameHash { get; set; }
public uint ShortNameHash { get; set; }
public uint NameOffset { get; set; }
public string Name { get; set; }
public string NameLower { get; set; }
public string Path { get; set; }
public uint H1; //first 2 header values from RPF table...
public uint H2;
public abstract void Read(DataReader reader);
public abstract void Write(DataWriter writer);
public override string ToString()
{
return Path;
}
}
[TypeConverter(typeof(ExpandableObjectConverter))] public class RpfDirectoryEntry : RpfEntry
{
public uint EntriesIndex { get; set; }
public uint EntriesCount { get; set; }
public List<RpfDirectoryEntry> Directories = new List<RpfDirectoryEntry>();
public List<RpfFileEntry> Files = new List<RpfFileEntry>();
public override void Read(DataReader reader)
{
NameOffset = reader.ReadUInt32();
uint ident = reader.ReadUInt32();
if (ident != 0x7FFFFF00u)
{
throw new Exception("Error in RPF7 directory entry.");
}
EntriesIndex = reader.ReadUInt32();
EntriesCount = reader.ReadUInt32();
}
public override void Write(DataWriter writer)
{
writer.Write(NameOffset);
writer.Write(0x7FFFFF00u);
writer.Write(EntriesIndex);
writer.Write(EntriesCount);
}
public override string ToString()
{
return "Directory: " + Path;
}
}
[TypeConverter(typeof(ExpandableObjectConverter))] public abstract class RpfFileEntry : RpfEntry
{
public uint FileOffset { get; set; }
public uint FileSize { get; set; }
public bool IsEncrypted { get; set; }
public virtual long GetFileSize()
{
return FileSize;
}
}
[TypeConverter(typeof(ExpandableObjectConverter))] public class RpfBinaryFileEntry : RpfFileEntry
{
public uint FileUncompressedSize { get; set; }
public uint EncryptionType { get; set; }
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public override void Read(DataReader reader)
{
ulong buf = reader.ReadUInt64();
NameOffset = (uint)buf & 0xFFFF;
FileSize = (uint)(buf >> 16) & 0xFFFFFF;
FileOffset = (uint)(buf >> 40) & 0xFFFFFF;
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FileUncompressedSize = reader.ReadUInt32();
EncryptionType = reader.ReadUInt32();
switch (EncryptionType)
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{
case 0: IsEncrypted = false; break;
case 1: IsEncrypted = true; break;
default:
throw new Exception("Error in RPF7 file entry.");
}
}
public override void Write(DataWriter writer)
{
writer.Write((ushort)NameOffset);
var buf1 = new byte[] {
(byte)((FileSize >> 0) & 0xFF),
(byte)((FileSize >> 8) & 0xFF),
(byte)((FileSize >> 16) & 0xFF)
};
writer.Write(buf1);
var buf2 = new byte[] {
(byte)((FileOffset >> 0) & 0xFF),
(byte)((FileOffset >> 8) & 0xFF),
(byte)((FileOffset >> 16) & 0xFF)
};
writer.Write(buf2);
writer.Write(FileUncompressedSize);
if (IsEncrypted)
writer.Write((uint)1);
else
writer.Write((uint)0);
}
public override string ToString()
{
return "Binary file: " + Path;
}
public override long GetFileSize()
{
return FileUncompressedSize;
}
}
[TypeConverter(typeof(ExpandableObjectConverter))] public class RpfResourceFileEntry : RpfFileEntry
{
public uint SystemFlags { get; set; }
public uint GraphicsFlags { get; set; }
public static int GetSizeFromFlags(uint flags)
{
//dexfx simplified version
var s0 = ((flags >> 27) & 0x1) << 0; // 1 bit - 27 (*1)
var s1 = ((flags >> 26) & 0x1) << 1; // 1 bit - 26 (*2)
var s2 = ((flags >> 25) & 0x1) << 2; // 1 bit - 25 (*4)
var s3 = ((flags >> 24) & 0x1) << 3; // 1 bit - 24 (*8)
var s4 = ((flags >> 17) & 0x7F) << 4; // 7 bits - 17 - 23 (*16) (max 127 * 16)
var s5 = ((flags >> 11) & 0x3F) << 5; // 6 bits - 11 - 16 (*32) (max 63 * 32)
var s6 = ((flags >> 7) & 0xF) << 6; // 4 bits - 7 - 10 (*64) (max 15 * 64)
var s7 = ((flags >> 5) & 0x3) << 7; // 2 bits - 5 - 6 (*128) (max 3 * 128)
var s8 = ((flags >> 4) & 0x1) << 8; // 1 bit - 4 (*256)
var ss = ((flags >> 0) & 0xF); // 4 bits - 0 - 3
var baseSize = 0x200 << (int)ss;
var size = baseSize * (s0 + s1 + s2 + s3 + s4 + s5 + s6 + s7 + s8);
return (int)size;
//var type = flags >> 28;
//var test = GetFlagsFromSize((int)size, type);
//s0 = ((test >> 27) & 0x1) << 0; // 1 bit - 27 (*1)
//s1 = ((test >> 26) & 0x1) << 1; // 1 bit - 26 (*2)
//s2 = ((test >> 25) & 0x1) << 2; // 1 bit - 25 (*4)
//s3 = ((test >> 24) & 0x1) << 3; // 1 bit - 24 (*8)
//s4 = ((test >> 17) & 0x7F) << 4; // 7 bits - 17 - 23 (*16) (max 127 * 16)
//s5 = ((test >> 11) & 0x3F) << 5; // 6 bits - 11 - 16 (*32) (max 63 * 32)
//s6 = ((test >> 7) & 0xF) << 6; // 4 bits - 7 - 10 (*64) (max 15 * 64)
//s7 = ((test >> 5) & 0x3) << 7; // 2 bits - 5 - 6 (*128) (max 3 * 128)
//s8 = ((test >> 4) & 0x1) << 8; // 1 bit - 4 (*256)
//ss = ((test >> 0) & 0xF); // 4 bits - 0 - 3
//baseSize = 0x200 << (int)ss;
//var tsize = baseSize * (s0 + s1 + s2 + s3 + s4 + s5 + s6 + s7 + s8);
//if (tsize != size)
//{ }
//if (s8 == 256)
//{ }
//if ((s0 != 0) || (s1 != 0) || (s2 != 0) || (s3 != 0))
//{ }
//return (int)size;
//examples:
//size:8192, ss:0, s4:1 (ytd)
//size:16384, ss:0, s5:1 (ytyp)
//size:24576, ss:0, s4:1, s5:1 (ytyp)
//size:40960, ss:0, s4:1, s5:2 (ytyp)
//size:49152, ss:0, s4:2, s5:2 (ytyp)
//size:237568, ss:0, s4:5, s7:1, s8:1 (yft)
//size:262144, ss:1, s8:1 (yft)
//size:589824, ss:1, s6:9 (ytd)
//size:663552, ss:1, s3:1, s4:12, s6:1, s7:3 (ydd)
//size:606208, ss:2, s3:1, s4:2, s8:1 (ydr)
//size:958464, ss:2, s2:1, s4:1, s6:3, s8:1 (ydr)
//size:966656, ss:2, s3:1, s4:1, s6:3, s8:1 (ydr)
//size:1695744, ss:2, s2:1, s3:1, s4:5, s5:3, s7:3, s8:1 (ydr)
//size:2768896, ss:3, s2:1, s4:24, s5:1, s6:4 (ydd)
//size:4063232, ss:4, s4:15, s7:2 (ytd)
//size:8650752, ss:5, s4:13, s6:5 (ytd)
#region original neo version (system)
//const int RESOURCE_IDENT = 0x37435352;
//const int BASE_SIZE = 0x2000;
//var SystemPagesDiv16 = (int)(SystemFlags >> 27) & 0x1;
//var SystemPagesDiv8 = (int)(SystemFlags >> 26) & 0x1;
//var SystemPagesDiv4 = (int)(SystemFlags >> 25) & 0x1;
//var SystemPagesDiv2 = (int)(SystemFlags >> 24) & 0x1;
//var SystemPagesMul1 = (int)(SystemFlags >> 17) & 0x7F;
//var SystemPagesMul2 = (int)(SystemFlags >> 11) & 0x3F;
//var SystemPagesMul4 = (int)(SystemFlags >> 7) & 0xF;
//var SystemPagesMul8 = (int)(SystemFlags >> 5) & 0x3;
//var SystemPagesMul16 = (int)(SystemFlags >> 4) & 0x1;
//var SystemPagesSizeShift = (int)(SystemFlags >> 0) & 0xF;
//var systemBaseSize = BASE_SIZE << SystemPagesSizeShift;
//return
// (systemBaseSize * SystemPagesDiv16) / 16 +
// (systemBaseSize * SystemPagesDiv8) / 8 +
// (systemBaseSize * SystemPagesDiv4) / 4 +
// (systemBaseSize * SystemPagesDiv2) / 2 +
// (systemBaseSize * SystemPagesMul1) * 1 +
// (systemBaseSize * SystemPagesMul2) * 2 +
// (systemBaseSize * SystemPagesMul4) * 4 +
// (systemBaseSize * SystemPagesMul8) * 8 +
// (systemBaseSize * SystemPagesMul16) * 16;
#endregion
#region original neo version (graphics)
//const int RESOURCE_IDENT = 0x37435352;
//const int BASE_SIZE = 0x2000;
//var GraphicsPagesDiv16 = (int)(GraphicsFlags >> 27) & 0x1;
//var GraphicsPagesDiv8 = (int)(GraphicsFlags >> 26) & 0x1;
//var GraphicsPagesDiv4 = (int)(GraphicsFlags >> 25) & 0x1;
//var GraphicsPagesDiv2 = (int)(GraphicsFlags >> 24) & 0x1;
//var GraphicsPagesMul1 = (int)(GraphicsFlags >> 17) & 0x7F;
//var GraphicsPagesMul2 = (int)(GraphicsFlags >> 11) & 0x3F;
//var GraphicsPagesMul4 = (int)(GraphicsFlags >> 7) & 0xF;
//var GraphicsPagesMul8 = (int)(GraphicsFlags >> 5) & 0x3;
//var GraphicsPagesMul16 = (int)(GraphicsFlags >> 4) & 0x1;
//var GraphicsPagesSizeShift = (int)(GraphicsFlags >> 0) & 0xF;
//var graphicsBaseSize = BASE_SIZE << GraphicsPagesSizeShift;
//return
// graphicsBaseSize * GraphicsPagesDiv16 / 16 +
// graphicsBaseSize * GraphicsPagesDiv8 / 8 +
// graphicsBaseSize * GraphicsPagesDiv4 / 4 +
// graphicsBaseSize * GraphicsPagesDiv2 / 2 +
// graphicsBaseSize * GraphicsPagesMul1 * 1 +
// graphicsBaseSize * GraphicsPagesMul2 * 2 +
// graphicsBaseSize * GraphicsPagesMul4 * 4 +
// graphicsBaseSize * GraphicsPagesMul8 * 8 +
// graphicsBaseSize * GraphicsPagesMul16 * 16;
#endregion
}
public static uint GetFlagsFromSize(int size, uint version)
{
//WIP - may make crashes :(
//type: see SystemSize and GraphicsSize below
//aim for s4: blocksize (0 remainder for 0x2000 block)
int origsize = size;
int remainder = size & 0x1FF;
int blocksize = 0x200;
if (remainder != 0)
{
size = (size - remainder) + blocksize; //round up to the minimum blocksize
}
uint blockcount = (uint)size >> 9; //how many blocks of the minimum size (0x200)
uint ss = 0;
while (blockcount > 1024)
{
ss++;
blockcount = blockcount >> 1;
}
if (ss > 0)
{
size = origsize;
blocksize = blocksize << (int)ss; //adjust the block size to reduce the block count.
remainder = size & blocksize;
if(remainder!=0)
{
size = (size - remainder) + blocksize; //readjust size with round-up
}
}
var s0 = (blockcount >> 0) & 0x1; //*1 X
var s1 = (blockcount >> 1) & 0x1; //*2 X
var s2 = (blockcount >> 2) & 0x1; //*4 X
var s3 = (blockcount >> 3) & 0x1; //*8 X
var s4 = (blockcount >> 4) & 0x7F; //*16 7 bits XXXXXXX
var s5 = (blockcount >> 5) & 0x3F; //*32 6 bits XXXXXX
var s6 = (blockcount >> 6) & 0xF; //*64 4 bits XXXX
var s7 = (blockcount >> 7) & 0x3; //*128 2 bits XX
var s8 = (blockcount >> 8) & 0x1; //*256 X
if (ss > 4)
{ }
if (s4 > 0x7F)
{ } //too big...
//needs more work to include higher bits..
uint f = 0;
f |= (version & 0xF) << 28;
f |= (s0 & 0x1) << 27;
f |= (s1 & 0x1) << 26;
f |= (s2 & 0x1) << 25;
f |= (s3 & 0x1) << 24;
f |= (s4 & 0x7F) << 17;
f |= (ss & 0xF);
return f;
//var s0 = ((flags >> 27) & 0x1) << 0; // 1 bit - 27 (*1)
//var s1 = ((flags >> 26) & 0x1) << 1; // 1 bit - 26 (*2)
//var s2 = ((flags >> 25) & 0x1) << 2; // 1 bit - 25 (*4)
//var s3 = ((flags >> 24) & 0x1) << 3; // 1 bit - 24 (*8)
//var s4 = ((flags >> 17) & 0x7F) << 4; // 7 bits - 17 - 23 (*16) (max 127 * 16)
//var s5 = ((flags >> 11) & 0x3F) << 5; // 6 bits - 11 - 16 (*32) (max 63 * 32)
//var s6 = ((flags >> 7) & 0xF) << 6; // 4 bits - 7 - 10 (*64) (max 15 * 64)
//var s7 = ((flags >> 5) & 0x3) << 7; // 2 bits - 5 - 6 (*128) (max 3 * 128)
//var s8 = ((flags >> 4) & 0x1) << 8; // 1 bit - 4 (*256)
//var ss = ((flags >> 0) & 0xF); // 4 bits - 0 - 3
//var baseSize = 0x200 << (int)ss;
//var size = baseSize * (s0 + s1 + s2 + s3 + s4 + s5 + s6 + s7 + s8);
}
public static uint GetFlagsFromBlocks(uint blockCount, uint blockSize, uint version)
{
//dexfx test version - seems to work mostly...
uint s0 = 0;
uint s1 = 0;
uint s2 = 0;
uint s3 = 0;
uint s4 = 0;
uint s5 = 0;
uint s6 = 0;
uint s7 = 0;
uint s8 = 0;
uint ss = 0;
uint bst = blockSize;
if (blockCount > 0)
{
while (bst > 0x200) //ss is number of bits to shift 0x200 to get blocksize...
{
ss++;
bst = bst >> 1;
}
}
s0 = (blockCount >> 0) & 0x1; //*1 X
s1 = (blockCount >> 1) & 0x1; //*2 X
s2 = (blockCount >> 2) & 0x1; //*4 X
s3 = (blockCount >> 3) & 0x1; //*8 X
s4 = (blockCount >> 4) & 0x7F; //*16 7 bits XXXXXXX
//s5 = (blockCount >> 5) & 0x3F; //*32 6 bits XXXXXX
//s6 = (blockCount >> 6) & 0xF; //*64 4 bits XXXX
//s7 = (blockCount >> 7) & 0x3; //*128 2 bits XX
//s8 = (blockCount >> 8) & 0x1; //*256 X
//if (blockCount > 0)
//{
// var curblocksize = 0x2000u;
// var totsize = blockCount * blockSize;
// var totcount = totsize / curblocksize;
// if ((totsize % curblocksize) > 0) totcount++;
// ss = 4;
// while (totcount > 0x7f)
// {
// ss++;
// curblocksize = curblocksize << 1;
// totcount = totsize / curblocksize;
// if ((totsize % curblocksize) > 0) totcount++;
// if (ss >= 16)
// { break; }
// }
// s4 = totcount >> 4;
// s3 = (totcount >> 3) & 1;
// s2 = (totcount >> 2) & 1;
// s1 = (totcount >> 1) & 1;
// s0 = (totcount >> 0) & 1;
//}
if (ss > 0xF)
{ } //too big...
if (s4 > 0x7F)
{ } //too big...
//needs more work to include higher bits..
uint f = 0;
f |= (version & 0xF) << 28;
f |= (s0 & 0x1) << 27;
f |= (s1 & 0x1) << 26;
f |= (s2 & 0x1) << 25;
f |= (s3 & 0x1) << 24;
f |= (s4 & 0x7F) << 17;
f |= (s5 & 0x3F) << 11;
f |= (s6 & 0xF) << 7;
f |= (s7 & 0x3) << 5;
f |= (s8 & 0x1) << 4;
f |= (ss & 0xF);
return f;
}
public static int GetVersionFromFlags(uint sysFlags, uint gfxFlags)
{
var sv = (sysFlags >> 28) & 0xF;
var gv = (gfxFlags >> 28) & 0xF;
return (int)((sv << 4) + gv);
}
public int Version
{
get
{
return GetVersionFromFlags(SystemFlags, GraphicsFlags);
}
}
public int SystemSize
{
get
{
var sv = (SystemFlags >> 28);
switch(sv)
{
case 0: break; //ytd, ytyp, ...
case 10:break;//ydr, ydd, yft
case 4:break; //ypt
case 2:break; //ycd
case 1:break;//yed
default:break;
}
return GetSizeFromFlags(SystemFlags);
}
}
public int GraphicsSize
{
get
{
var gv = (GraphicsFlags >> 28);
switch (gv)
{
case 0: break; //empty? some vehicle addon yft
case 1: break; //ynd
case 2: break; //ytyp, ymap
case 4: break; //yfd
case 5: break; //ydd, ydr, yft
case 9: break; //yed
case 10: break; //ysc
case 11: break; //ybn
case 13: break; //ytd
case 14: break; //ycd
default: break;
}
return GetSizeFromFlags(GraphicsFlags);
}
}
public override void Read(DataReader reader)
{
NameOffset = reader.ReadUInt16();
var buf1 = reader.ReadBytes(3);
FileSize = (uint)buf1[0] + (uint)(buf1[1] << 8) + (uint)(buf1[2] << 16);
var buf2 = reader.ReadBytes(3);
FileOffset = ((uint)buf2[0] + (uint)(buf2[1] << 8) + (uint)(buf2[2] << 16)) & 0x7FFFFF;
SystemFlags = reader.ReadUInt32();
GraphicsFlags = reader.ReadUInt32();
// there are sometimes resources with length=0xffffff which actually
// means length>=0xffffff
if (FileSize == 0xFFFFFF)
{
BinaryReader cfr = File.CurrentFileReader;
long opos = cfr.BaseStream.Position;
cfr.BaseStream.Position = File.StartPos + ((long)FileOffset * 512); //need to use the base offset!!
var buf = cfr.ReadBytes(16);
FileSize = ((uint)buf[7] << 0) | ((uint)buf[14] << 8) | ((uint)buf[5] << 16) | ((uint)buf[2] << 24);
cfr.BaseStream.Position = opos;
}
}
public override void Write(DataWriter writer)
{
writer.Write((ushort)NameOffset);
var buf1 = new byte[] {
(byte)((FileSize >> 0) & 0xFF),
(byte)((FileSize >> 8) & 0xFF),
(byte)((FileSize >> 16) & 0xFF)
};
writer.Write(buf1);
var buf2 = new byte[] {
(byte)((FileOffset >> 0) & 0xFF),
(byte)((FileOffset >> 8) & 0xFF),
(byte)(((FileOffset >> 16) & 0xFF) | 0x80)
};
writer.Write(buf2);
writer.Write(SystemFlags);
writer.Write(GraphicsFlags);
}
public override string ToString()
{
return "Resource file: " + Path;
}
public override long GetFileSize()
{
return (FileSize == 0) ? (long)(SystemSize + GraphicsSize) : FileSize;
}
}
public interface PackedFile //interface for the different file types to use
{
void Load(byte[] data, RpfFileEntry entry);
}
}