GARbro-mirror/ArcFormats/ArcXP3.cs

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//! \file ArcXP3.cs
//! \date Wed Jul 16 13:58:17 2014
//! \brief KiriKiri engine archive implementation.
//
// Copyright (C) 2014-2015 by morkt
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
// IN THE SOFTWARE.
//
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using System;
using System.IO;
using System.IO.MemoryMappedFiles;
using System.Text;
using System.Text.RegularExpressions;
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using System.Linq;
using System.Collections.Generic;
using System.ComponentModel.Composition;
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using System.Runtime.InteropServices;
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using System.Windows.Media;
using System.Windows.Media.Imaging;
using System.Diagnostics;
using GameRes.Compression;
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using GameRes.Utility;
using GameRes.Formats.Strings;
using GameRes.Formats.Properties;
namespace GameRes.Formats.KiriKiri
{
public struct Xp3Segment
{
public bool IsCompressed;
public long Offset;
public uint Size;
public uint PackedSize;
}
public class Xp3Entry : PackedEntry
{
List<Xp3Segment> m_segments = new List<Xp3Segment>();
public bool IsEncrypted { get; set; }
public ICrypt Cipher { get; set; }
public ICollection<Xp3Segment> Segments { get { return m_segments; } }
public uint Hash { get; set; }
}
public class Xp3Options : ResourceOptions
{
public int Version { get; set; }
public ICrypt Scheme { get; set; }
public bool CompressIndex { get; set; }
public bool CompressContents { get; set; }
public bool RetainDirs { get; set; }
}
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// Archive version 1: encrypt file first, then calculate checksum
// version 2: calculate checksum, then encrypt
[Export(typeof(ArchiveFormat))]
public class Xp3Opener : ArchiveFormat
{
public override string Tag { get { return "XP3"; } }
public override string Description { get { return arcStrings.XP3Description; } }
public override uint Signature { get { return 0x0d335058; } }
public override bool IsHierarchic { get { return true; } }
public override bool CanCreate { get { return true; } }
public Xp3Opener ()
{
Signatures = new uint[] { 0x0d335058, 0 };
}
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public bool ForceEncryptionQuery = true;
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private static readonly ICrypt NoCryptAlgorithm = new NoCrypt();
public static readonly Dictionary<string, ICrypt> KnownSchemes = new Dictionary<string, ICrypt> {
{ arcStrings.ArcNoEncryption, NoCryptAlgorithm },
{ "Cafe Sourire", new XorCrypt (0xcd) },
{ "Coμ", new ComyuCrypt() },
{ "Damegane", new DameganeCrypt() },
{ "Fate/hollow ataraxia", new FateHACrypt() },
{ "Fate/stay night", new FateCrypt() },
{ "Hime to Majin to Koi Suru Tamashii", new HashCrypt() },
{ "Imouto Style", new ImoutoStyleCrypt() },
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{ "Okiba ga Nai!", new OkibaCrypt() },
{ "Ore no Saimin Fantasia", new SaiminCrypt() },
{ "Seirei Tenshou", new SeitenCrypt() },
{ "Swan Song", new SwanSongCrypt() },
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};
public override ArcFile TryOpen (ArcView file)
{
long base_offset = 0;
if (0x5a4d == file.View.ReadUInt16 (0)) // 'MZ'
base_offset = SkipExeHeader (file);
if (!file.View.AsciiEqual (base_offset, "XP3\x0d\x0a\x20\x0a\x1a\x8b\x67\x01"))
return null;
long dir_offset = base_offset + file.View.ReadInt64 (base_offset+0x0b);
if (dir_offset < 0x13 || dir_offset >= file.MaxOffset)
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return null;
if (0x80 == file.View.ReadUInt32 (dir_offset))
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{
dir_offset = base_offset + file.View.ReadInt64 (dir_offset+9);
if (dir_offset < 0x13 || dir_offset >= file.MaxOffset)
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return null;
}
int header_type = file.View.ReadByte (dir_offset);
if (0 != header_type && 1 != header_type)
return null;
Stream header_stream;
if (0 == header_type) // read unpacked header
{
long header_size = file.View.ReadInt64 (dir_offset+1);
if (header_size > uint.MaxValue)
return null;
header_stream = file.CreateStream (dir_offset+9, (uint)header_size);
}
else // read packed header
{
long packed_size = file.View.ReadInt64 (dir_offset+1);
if (packed_size > uint.MaxValue)
return null;
long header_size = file.View.ReadInt64 (dir_offset+9);
using (var input = file.CreateStream (dir_offset+17, (uint)packed_size))
header_stream = ZLibCompressor.DeCompress (input);
}
var crypt_algorithm = new Lazy<ICrypt> (QueryCryptAlgorithm);
var dir = new List<Entry>();
dir_offset = 0;
using (var header = new BinaryReader (header_stream, Encoding.Unicode))
{
while (-1 != header.PeekChar())
{
uint entry_signature = header.ReadUInt32();
if (0x656c6946 != entry_signature) // "File"
{
break;
}
long entry_size = header.ReadInt64();
dir_offset += 12 + entry_size;
var entry = new Xp3Entry();
while (entry_size > 0)
{
uint section = header.ReadUInt32();
long section_size = header.ReadInt64();
entry_size -= 12;
if (section_size > entry_size)
break;
entry_size -= section_size;
long next_section_pos = header.BaseStream.Position + section_size;
switch (section)
{
case 0x6f666e69: // "info"
{
if (entry.Size != 0 || !string.IsNullOrEmpty (entry.Name))
{
goto NextEntry; // ambiguous entry, ignore
}
entry.IsEncrypted = 0 != header.ReadUInt32();
long file_size = header.ReadInt64();
long packed_size = header.ReadInt64();
if (file_size >= uint.MaxValue || packed_size > uint.MaxValue || packed_size > file.MaxOffset)
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{
goto NextEntry;
}
entry.IsPacked = file_size != packed_size;
entry.Size = (uint)packed_size;
entry.UnpackedSize = (uint)file_size;
int name_size = header.ReadInt16();
if (name_size > 0x100 || name_size <= 0)
{
goto NextEntry;
}
if (entry.IsEncrypted || ForceEncryptionQuery)
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entry.Cipher = crypt_algorithm.Value;
else
entry.Cipher = NoCryptAlgorithm;
entry.IsEncrypted = entry.Cipher != NoCryptAlgorithm;
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char[] name = header.ReadChars (name_size);
entry.Name = NormalizePath (new string (name));
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entry.Type = FormatCatalog.Instance.GetTypeFromName (entry.Name);
break;
}
case 0x6d676573: // "segm"
{
int segment_count = (int)(section_size / 0x1c);
if (segment_count > 0)
{
for (int i = 0; i < segment_count; ++i)
{
bool compressed = 0 != header.ReadInt32();
long segment_offset = base_offset+header.ReadInt64();
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long segment_size = header.ReadInt64();
long segment_packed_size = header.ReadInt64();
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if (segment_offset > file.MaxOffset || segment_packed_size > file.MaxOffset)
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{
goto NextEntry;
}
var segment = new Xp3Segment {
IsCompressed = compressed,
Offset = segment_offset,
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Size = (uint)segment_size,
PackedSize = (uint)segment_packed_size
};
entry.Segments.Add (segment);
}
entry.Offset = entry.Segments.First().Offset;
}
break;
}
case 0x726c6461: // "adlr"
if (4 == section_size)
entry.Hash = header.ReadUInt32();
break;
default: // unknown section
break;
}
header.BaseStream.Position = next_section_pos;
}
if (!string.IsNullOrEmpty (entry.Name) && entry.Segments.Any())
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{
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dir.Add (entry);
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}
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NextEntry:
header.BaseStream.Position = dir_offset;
}
}
return new ArcFile (file, this, dir);
}
static readonly Regex PathRe = new Regex (@"[^\\/]+[\\/]\.\.[\\/]");
private static string NormalizePath (string filename)
{
return PathRe.Replace (filename, "");
}
private long SkipExeHeader (ArcView file)
{
long offset = 0x10;
long pe_offset = file.View.ReadUInt32 (0x3c);
if (pe_offset < file.MaxOffset && 0x4550 == file.View.ReadUInt32 (pe_offset)) // 'PE'
{
int opt_header = file.View.ReadUInt16 (pe_offset+0x14); // SizeOfOptionalHeader
offset = file.View.ReadUInt32 (pe_offset+0x54); // SizeOfHeaders
long section_table = pe_offset+opt_header+0x18;
int count = file.View.ReadUInt16 (pe_offset+6); // NumberOfSections
if (section_table + 0x28*count < file.MaxOffset)
{
for (int i = 0; i < count; ++i)
{
uint size = file.View.ReadUInt32 (section_table+0x10);
uint addr = file.View.ReadUInt32 (section_table+0x14);
section_table += 0x28;
if (0 != size)
offset = Math.Max ((long)addr + size, offset);
}
}
}
offset = (offset + 0xf) & ~(long)0xf;
for (; offset < file.MaxOffset; offset += 0x10)
{
if (file.View.AsciiEqual (offset, "XP3\x0d\x0a\x20\x0a\x1a\x8b\x67\x01"))
return offset;
}
return 0;
}
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public override Stream OpenEntry (ArcFile arc, Entry entry)
{
var xp3_entry = entry as Xp3Entry;
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if (null == xp3_entry)
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return arc.File.CreateStream (entry.Offset, entry.Size);
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// Trace.WriteLine (string.Format ("{0,-16} {3:X8} {1,11} {2,12}", xp3_entry.Name,
// xp3_entry.IsEncrypted ? "[encrypted]" : "",
// xp3_entry.Segments.First().IsCompressed ? "[compressed]" : "",
// xp3_entry.Hash));
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if (1 == xp3_entry.Segments.Count && !xp3_entry.IsEncrypted)
{
var segment = xp3_entry.Segments.First();
if (segment.IsCompressed)
return new ZLibStream (arc.File.CreateStream (segment.Offset, segment.PackedSize),
CompressionMode.Decompress);
else
return arc.File.CreateStream (segment.Offset, segment.Size);
}
return new Xp3Stream (arc.File, xp3_entry);
}
public override ResourceOptions GetDefaultOptions ()
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{
return new Xp3Options {
Version = Settings.Default.XP3Version,
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Scheme = GetScheme (Settings.Default.XP3Scheme),
CompressIndex = Settings.Default.XP3CompressHeader,
CompressContents = Settings.Default.XP3CompressContents,
RetainDirs = Settings.Default.XP3RetainStructure,
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};
}
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public override object GetCreationWidget ()
{
return new GUI.CreateXP3Widget();
}
public override object GetAccessWidget ()
{
return new GUI.WidgetXP3();
}
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ICrypt QueryCryptAlgorithm ()
{
var options = Query<Xp3Options> (arcStrings.ArcEncryptedNotice);
return options.Scheme;
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}
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public static ICrypt GetScheme (string scheme)
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{
ICrypt algorithm;
if (string.IsNullOrEmpty (scheme) || !KnownSchemes.TryGetValue (scheme, out algorithm))
algorithm = NoCryptAlgorithm;
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return algorithm;
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}
static uint GetFileCheckSum (Stream src)
{
// compute file checksum via adler32.
// src's file pointer should be reset to zero.
var sum = new Adler32();
byte[] buf = new byte[64*1024];
for (;;)
{
int read = src.Read (buf, 0, buf.Length);
if (0 == read) break;
sum.Update (buf, 0, read);
}
return sum.Value;
}
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static readonly byte[] s_xp3_header = {
(byte)'X', (byte)'P', (byte)'3', 0x0d, 0x0a, 0x20, 0x0a, 0x1a, 0x8b, 0x67, 0x01
};
public override void Create (Stream output, IEnumerable<Entry> list, ResourceOptions options,
EntryCallback callback)
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{
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var xp3_options = GetOptions<Xp3Options> (options);
ICrypt scheme = xp3_options.Scheme;
bool compress_index = xp3_options.CompressIndex;
bool compress_contents = xp3_options.CompressContents;
bool retain_dirs = xp3_options.RetainDirs;
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bool use_encryption = scheme != NoCryptAlgorithm;
using (var writer = new BinaryWriter (output, Encoding.ASCII, true))
{
writer.Write (s_xp3_header);
if (2 == xp3_options.Version)
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{
writer.Write ((long)0x17);
writer.Write ((int)1);
writer.Write ((byte)0x80);
writer.Write ((long)0);
}
long index_pos_offset = writer.BaseStream.Position;
writer.BaseStream.Seek (8, SeekOrigin.Current);
int callback_count = 0;
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var used_names = new HashSet<string>();
var dir = new List<Xp3Entry>();
long current_offset = writer.BaseStream.Position;
foreach (var entry in list)
{
if (null != callback)
callback (callback_count++, entry, arcStrings.MsgAddingFile);
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string name = entry.Name;
if (!retain_dirs)
name = Path.GetFileName (name);
else
name = name.Replace (@"\", "/");
if (!used_names.Add (name))
{
Trace.WriteLine ("duplicate name", entry.Name);
continue;
}
var xp3entry = new Xp3Entry {
Name = name,
IsEncrypted = use_encryption,
Cipher = scheme,
};
bool compress = compress_contents && ShouldCompressFile (entry);
using (var file = File.Open (name, FileMode.Open, FileAccess.Read))
{
if (!use_encryption || 0 == file.Length)
RawFileCopy (file, xp3entry, output, compress);
else
EncryptedFileCopy (file, xp3entry, output, compress);
}
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dir.Add (xp3entry);
}
long index_pos = writer.BaseStream.Position;
writer.BaseStream.Position = index_pos_offset;
writer.Write (index_pos);
writer.BaseStream.Position = index_pos;
using (var header = new BinaryWriter (new MemoryStream (dir.Count*0x58), Encoding.Unicode))
{
if (null != callback)
callback (callback_count++, null, arcStrings.MsgWritingIndex);
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long dir_pos = 0;
foreach (var entry in dir)
{
header.BaseStream.Position = dir_pos;
header.Write ((uint)0x656c6946); // "File"
long header_size_pos = header.BaseStream.Position;
header.Write ((long)0);
header.Write ((uint)0x6f666e69); // "info"
header.Write ((long)(4+8+8+2 + entry.Name.Length*2));
header.Write ((uint)(use_encryption ? 0x80000000 : 0));
header.Write ((long)entry.UnpackedSize);
header.Write ((long)entry.Size);
header.Write ((short)entry.Name.Length);
foreach (char c in entry.Name)
header.Write (c);
header.Write ((uint)0x6d676573); // "segm"
header.Write ((long)0x1c);
var segment = entry.Segments.First();
header.Write ((int)(segment.IsCompressed ? 1 : 0));
header.Write ((long)segment.Offset);
header.Write ((long)segment.Size);
header.Write ((long)segment.PackedSize);
header.Write ((uint)0x726c6461); // "adlr"
header.Write ((long)4);
header.Write ((uint)entry.Hash);
dir_pos = header.BaseStream.Position;
long header_size = dir_pos - header_size_pos - 8;
header.BaseStream.Position = header_size_pos;
header.Write (header_size);
}
header.BaseStream.Position = 0;
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writer.Write (compress_index);
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long unpacked_dir_size = header.BaseStream.Length;
if (compress_index)
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{
if (null != callback)
callback (callback_count++, null, arcStrings.MsgCompressingIndex);
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long packed_dir_size_pos = writer.BaseStream.Position;
writer.Write ((long)0);
writer.Write (unpacked_dir_size);
long dir_start = writer.BaseStream.Position;
using (var zstream = new ZLibStream (writer.BaseStream, CompressionMode.Compress,
CompressionLevel.Level9, true))
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header.BaseStream.CopyTo (zstream);
long packed_dir_size = writer.BaseStream.Position - dir_start;
writer.BaseStream.Position = packed_dir_size_pos;
writer.Write (packed_dir_size);
}
else
{
writer.Write (unpacked_dir_size);
header.BaseStream.CopyTo (writer.BaseStream);
}
}
}
output.Seek (0, SeekOrigin.End);
}
void RawFileCopy (FileStream file, Xp3Entry xp3entry, Stream output, bool compress)
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{
if (file.Length > uint.MaxValue)
throw new FileSizeException();
uint unpacked_size = (uint)file.Length;
xp3entry.UnpackedSize = (uint)unpacked_size;
xp3entry.Size = (uint)unpacked_size;
compress = compress && unpacked_size > 0;
var segment = new Xp3Segment {
IsCompressed = compress,
Offset = output.Position,
Size = unpacked_size,
PackedSize = unpacked_size
};
if (compress)
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{
var start = output.Position;
using (var zstream = new ZLibStream (output, CompressionMode.Compress, CompressionLevel.Level9, true))
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{
xp3entry.Hash = CheckedCopy (file, zstream);
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}
segment.PackedSize = (uint)(output.Position - start);
xp3entry.Size = segment.PackedSize;
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}
else
{
xp3entry.Hash = CheckedCopy (file, output);
}
xp3entry.Segments.Add (segment);
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}
void EncryptedFileCopy (FileStream file, Xp3Entry xp3entry, Stream output, bool compress)
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{
if (file.Length > int.MaxValue)
throw new FileSizeException();
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using (var map = MemoryMappedFile.CreateFromFile (file, null, 0,
MemoryMappedFileAccess.Read, null, HandleInheritability.None, true))
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{
uint unpacked_size = (uint)file.Length;
xp3entry.UnpackedSize = (uint)unpacked_size;
xp3entry.Size = (uint)unpacked_size;
using (var view = map.CreateViewAccessor (0, unpacked_size, MemoryMappedFileAccess.Read))
{
var segment = new Xp3Segment {
IsCompressed = compress,
Offset = output.Position,
Size = unpacked_size,
PackedSize = unpacked_size,
};
xp3entry.Segments.Add (segment);
if (compress)
{
output = new ZLibStream (output, CompressionMode.Compress, CompressionLevel.Level9, true);
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}
unsafe
{
byte[] read_buffer = new byte[81920];
byte* ptr = view.GetPointer (0);
try
{
var checksum = new Adler32();
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bool hash_after_crypt = xp3entry.Cipher.HashAfterCrypt;
if (!hash_after_crypt)
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xp3entry.Hash = checksum.Update (ptr, (int)unpacked_size);
int offset = 0;
int remaining = (int)unpacked_size;
while (remaining > 0)
{
int amount = Math.Min (remaining, read_buffer.Length);
remaining -= amount;
Marshal.Copy ((IntPtr)(ptr+offset), read_buffer, 0, amount);
xp3entry.Cipher.Encrypt (xp3entry, offset, read_buffer, 0, amount);
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if (hash_after_crypt)
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checksum.Update (read_buffer, 0, amount);
output.Write (read_buffer, 0, amount);
offset += amount;
}
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if (hash_after_crypt)
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xp3entry.Hash = checksum.Value;
}
finally
{
view.SafeMemoryMappedViewHandle.ReleasePointer();
if (compress)
{
var dest = (output as ZLibStream).BaseStream;
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output.Dispose();
segment.PackedSize = (uint)(dest.Position - segment.Offset);
xp3entry.Size = segment.PackedSize;
}
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}
}
}
}
}
uint CheckedCopy (Stream src, Stream dst)
{
var checksum = new Adler32();
var read_buffer = new byte[81920];
for (;;)
{
int read = src.Read (read_buffer, 0, read_buffer.Length);
if (0 == read)
break;
checksum.Update (read_buffer, 0, read);
dst.Write (read_buffer, 0, read);
}
return checksum.Value;
}
bool ShouldCompressFile (Entry entry)
{
if ("image" == entry.Type || "archive" == entry.Type)
return false;
if (entry.Name.EndsWith (".ogg", StringComparison.InvariantCultureIgnoreCase))
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return false;
return true;
}
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}
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internal class Xp3Stream : Stream
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{
ArcView m_file;
Xp3Entry m_entry;
IEnumerator<Xp3Segment> m_segment;
Stream m_stream;
long m_offset = 0;
bool m_eof = false;
public override bool CanRead { get { return m_stream != null; } }
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public override bool CanSeek { get { return false; } }
public override bool CanWrite { get { return false; } }
public override long Length { get { return m_entry.UnpackedSize; } }
public override long Position
{
get { return m_offset; }
set { throw new NotSupportedException ("Xp3Stream.Position not supported."); }
}
public Xp3Stream (ArcView file, Xp3Entry entry)
{
m_file = file;
m_entry = entry;
m_segment = entry.Segments.GetEnumerator();
NextSegment();
}
private void NextSegment ()
{
if (!m_segment.MoveNext())
{
m_eof = true;
return;
}
if (null != m_stream)
m_stream.Dispose();
var segment = m_segment.Current;
m_stream = m_file.CreateStream (segment.Offset, segment.Size);
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if (segment.IsCompressed)
m_stream = new ZLibStream (m_stream, CompressionMode.Decompress);
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}
public override int Read (byte[] buffer, int offset, int count)
{
int total = 0;
while (!m_eof && count > 0)
{
int read = m_stream.Read (buffer, offset, count);
m_entry.Cipher.Decrypt (m_entry, m_offset, buffer, offset, read);
m_offset += read;
total += read;
offset += read;
count -= read;
if (0 != count)
NextSegment();
}
return total;
}
public override int ReadByte ()
{
int b = -1;
while (!m_eof)
{
b = m_stream.ReadByte();
if (-1 != b)
{
b = m_entry.Cipher.Decrypt (m_entry, m_offset++, (byte)b);
break;
}
NextSegment();
}
return b;
}
public override void Flush ()
{
}
public override long Seek (long offset, SeekOrigin origin)
{
throw new NotSupportedException ("Xp3Stream.Seek method is not supported");
}
public override void SetLength (long length)
{
throw new NotSupportedException ("Xp3Stream.SetLength method is not supported");
}
public override void Write (byte[] buffer, int offset, int count)
{
throw new NotSupportedException ("Xp3Stream.Write method is not supported");
}
public override void WriteByte (byte value)
{
throw new NotSupportedException("Xp3Stream.WriteByte method is not supported");
}
#region IDisposable Members
bool disposed = false;
protected override void Dispose (bool disposing)
{
if (!disposed)
{
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if (disposing && null != m_stream)
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{
m_stream.Dispose();
}
disposed = true;
base.Dispose (disposing);
}
}
#endregion
}
public abstract class ICrypt
{
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/// <summary>
/// whether Adler32 checksum should be calculated after contents have been encrypted.
/// </summary>
public virtual bool HashAfterCrypt { get { return false; } }
public virtual byte Decrypt (Xp3Entry entry, long offset, byte value)
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{
byte[] buffer = new byte[1] { value };
Decrypt (entry, offset, buffer, 0, 1);
return buffer[0];
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}
public abstract void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count);
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public virtual void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
throw new NotImplementedException (arcStrings.MsgEncNotImplemented);
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}
}
public class NoCrypt : ICrypt
{
public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
return value;
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
return;
}
public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
return;
}
}
internal class FateCrypt : ICrypt
{
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public override bool HashAfterCrypt { get { return true; } }
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public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
byte result = (byte)(value ^ 0x36);
if (0x13 == offset)
result ^= 1;
else if (0x2ea29 == offset)
result ^= 3;
return result;
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
for (int i = 0; i < count; ++i)
{
values[pos+i] ^= 0x36;
}
if (offset > 0x2ea29)
return;
if (offset + count > 0x2ea29)
values[pos+0x2ea29-offset] ^= 3;
if (offset > 0x13)
return;
if (offset + count > 0x13)
values[pos+0x13-offset] ^= 1;
}
public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
Decrypt (entry, offset, values, pos, count);
}
}
internal class HashCrypt : ICrypt
{
public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
return (byte)(value ^ entry.Hash);
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
byte key = (byte)entry.Hash;
for (int i = 0; i < count; ++i)
{
values[pos+i] ^= key;
}
}
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public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
Decrypt (entry, offset, values, pos, count);
}
}
internal class XorCrypt : ICrypt
{
private byte m_key;
public byte Key
{
get { return m_key; }
set { m_key = value; }
}
public XorCrypt (uint key)
{
m_key = (byte)key;
}
public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
return (byte)(value ^ m_key);
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
for (int i = 0; i < count; ++i)
{
values[pos+i] ^= m_key;
}
}
public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
Decrypt (entry, offset, values, pos, count);
}
}
internal class SwanSongCrypt : ICrypt
{
static private byte Adjust (uint hash, out int shift)
{
int cl = (int)(hash & 0xff);
if (0 == cl) cl = 0x0f;
shift = cl & 7;
int ch = (int)((hash >> 8) & 0xff);
if (0 == ch) ch = 0xf0;
return (byte)ch;
}
public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
int shift;
byte xor = Adjust (entry.Hash, out shift);
uint data = (uint)(value ^ xor);
return (byte)((data >> shift) | (data << (8 - shift)));
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
int shift;
byte xor = Adjust (entry.Hash, out shift);
for (int i = 0; i < count; ++i)
{
uint data = (uint)(values[pos+i] ^ xor);
values[pos+i] = (byte)((data >> shift) | (data << (8 - shift)));
}
}
public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
int shift;
byte xor = Adjust (entry.Hash, out shift);
for (int i = 0; i < count; ++i)
{
uint data = values[pos+i];
data = (byte)((data << shift) | (data >> (8 - shift)));
values[pos+i] = (byte)(data ^ xor);
}
}
}
internal class SeitenCrypt : ICrypt
{
public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
uint key = entry.Hash ^ (uint)offset;
if (0 != (key & 2))
{
int ecx = (int)key & 0x18;
value ^= (byte)((key >> ecx) | (key >> (ecx & 8)));
}
if (0 != (key & 4))
{
value += (byte)key;
}
if (0 != (key & 8))
{
value -= (byte)(key >> (int)(key & 0x10));
}
return value;
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] buffer, int pos, int count)
{
for (int i = 0; i < count; ++i)
{
int shift;
uint key = entry.Hash ^ (uint)offset;
byte v = buffer[pos+i];
if (0 != (key & 2))
{
shift = (int)key & 0x18;
uint ebx = key >> shift;
shift &= 8;
v ^= (byte)(ebx | (key >> shift));
}
if (0 != (key & 4))
{
v += (byte)key;
}
if (0 != (key & 8))
{
shift = (int)key & 0x10;
v -= (byte)(key >> shift);
}
buffer[pos+i] = v;
++offset;
}
}
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public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
for (int i = 0; i < count; ++i)
{
uint key = entry.Hash ^ (uint)offset;
if (0 != (key & 8))
{
values[pos+i] += (byte)(key >> (int)(key & 0x10));
}
if (0 != (key & 4))
{
values[pos+i] -= (byte)key;
}
if (0 != (key & 2))
{
int ecx = (int)key & 0x18;
values[pos+i] ^= (byte)((key >> ecx) | (key >> (ecx & 8)));
}
}
}
}
internal class OkibaCrypt : ICrypt
{
public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
if (offset < 0x65)
return (byte)(value ^ (byte)(entry.Hash >> 4));
uint key = entry.Hash;
// 0,1,2,3 -> 1,0,3,2
key = ((key & 0xff0000) << 8) | ((key & 0xff000000) >> 8)
| ((key & 0xff00) >> 8) | ((key & 0xff) << 8);
key >>= 8 * ((int)(offset - 0x65) & 3);
return (byte)(value ^ (byte)key);
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
int i = 0;
if (offset < 0x65)
{
uint key = entry.Hash >> 4;
int limit = Math.Min (count, (int)(0x65 - offset));
for (; i < limit; ++i)
{
values[pos+i] ^= (byte)key;
++offset;
}
}
if (i < count)
{
offset -= 0x65;
uint key = entry.Hash;
key = ((key & 0xff0000) << 8) | ((key & 0xff000000) >> 8)
| ((key & 0xff00) >> 8) | ((key & 0xff) << 8);
do
{
values[pos+i] ^= (byte)(key >> (8 * ((int)offset & 3)));
++offset;
}
while (++i < count);
}
}
public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
Decrypt (entry, offset, values, pos, count);
}
}
internal class SaiminCrypt : ICrypt
{
public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
byte key = (byte)entry.Hash;
if (offset < 0x7B)
value ^= (byte)(21 * key);
else if (offset < 0xF6)
value += (byte)(-32 * key);
else if (offset < 0x171)
value ^= (byte)(43 * key);
else if (offset <= 0xffffffffL)
value += (byte)(-54 * key);
return value;
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
byte key = (byte)entry.Hash;
for (int i = 0; i < count && offset <= 0xffffffffL; ++i, ++offset)
{
if (offset < 0x7B)
values[pos+i] ^= (byte)(21 * key);
else if (offset < 0xF6)
values[pos+i] += (byte)(-32 * key);
else if (offset >= 0x171)
values[pos+i] += (byte)(-54 * key);
else
values[pos+i] ^= (byte)(43 * key);
}
}
public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
byte key = (byte)entry.Hash;
for (int i = 0; i < count && offset <= 0xffffffffL; ++i, ++offset)
{
if (offset < 0x7B)
values[pos+i] ^= (byte)(21 * key);
else if (offset < 0xF6)
values[pos+i] -= (byte)(-32 * key);
else if (offset >= 0x171)
values[pos+i] -= (byte)(-54 * key);
else
values[pos+i] ^= (byte)(43 * key);
}
}
}
internal class DameganeCrypt : ICrypt
{
public override byte Decrypt (Xp3Entry entry, long offset, byte value)
{
if (0 != (offset & 1))
return (byte)(value ^ entry.Hash);
else
return (byte)(value ^ offset);
}
public override void Decrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
for (int i = 0; i < count; ++i, ++offset)
{
if (0 != (offset & 1))
values[pos+i] ^= (byte)entry.Hash;
else
values[pos+i] ^= (byte)offset;
}
}
public override void Encrypt (Xp3Entry entry, long offset, byte[] values, int pos, int count)
{
Decrypt (entry, offset, values, pos, count);
}
}
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}