2018-04-01 11:58:40 +08:00
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//! \file YuzCrypt.cs
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//! \date 2018 Apr 01
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//! \brief YuzuSoft KiriKiri encryption schemes.
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//
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// Copyright (C) 2018 by morkt
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to
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// deal in the Software without restriction, including without limitation the
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// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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// sell copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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// IN THE SOFTWARE.
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//
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using System;
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using System.IO;
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using System.Text;
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using GameRes.Compression;
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using GameRes.Utility;
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namespace GameRes.Formats.KiriKiri
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{
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[Serializable]
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2018-04-03 06:00:26 +08:00
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public class SenrenCxCrypt : CxEncryption
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{
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public SenrenCxCrypt (CxScheme scheme) : base (scheme)
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{
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}
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2018-04-09 12:41:06 +08:00
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public virtual string NamesSectionId { get { return "sen:"; } }
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2018-04-03 06:00:26 +08:00
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internal virtual void ReadYuzNames (byte[] yuz, FilenameMap filename_map)
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{
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using (var ystream = new MemoryStream (yuz))
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using (var zstream = ZLibCompressor.DeCompress (ystream))
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using (var input = new BinaryReader (zstream, Encoding.Unicode))
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{
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long dir_offset = 0;
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while (-1 != input.PeekChar())
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{
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uint entry_signature = input.ReadUInt32();
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long entry_size = input.ReadInt64();
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if (entry_size < 0)
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return;
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dir_offset += 12 + entry_size;
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uint hash = input.ReadUInt32();
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int name_size = input.ReadInt16();
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if (name_size > 0)
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{
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entry_size -= 6;
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if (name_size * 2 <= entry_size)
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{
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var filename = new string (input.ReadChars (name_size));
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filename_map.Add (hash, filename);
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}
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}
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input.BaseStream.Position = dir_offset;
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}
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filename_map.AddShortcut ("$", "startup.tjs");
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}
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}
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}
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[Serializable]
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2018-04-07 07:09:04 +08:00
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public class NanaCxCrypt : SenrenCxCrypt
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2018-04-01 11:58:40 +08:00
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{
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uint m_random_seed;
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public uint[] YuzKey;
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2018-04-07 07:09:04 +08:00
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public NanaCxCrypt (CxScheme scheme, uint seed) : base (scheme)
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2018-04-01 11:58:40 +08:00
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{
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m_random_seed = seed;
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}
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2018-04-09 12:41:06 +08:00
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public override string NamesSectionId { get { return "dls:"; } }
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2018-04-01 11:58:40 +08:00
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internal override CxProgram NewProgram (uint seed)
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{
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return new CxProgramNana (seed, m_random_seed, ControlBlock);
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}
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2018-04-07 07:09:04 +08:00
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internal override void ReadYuzNames (byte[] yuz, FilenameMap filename_map)
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{
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if (null == YuzKey)
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throw new InvalidEncryptionScheme();
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var decryptor = CreateNameListDecryptor();
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decryptor.Decrypt (yuz, Math.Min (yuz.Length, 0x100));
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base.ReadYuzNames (yuz, filename_map);
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}
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internal virtual INameListDecryptor CreateNameListDecryptor ()
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{
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return new NanaDecryptor (YuzKey, YuzKey[4], YuzKey[5]);
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}
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}
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[Serializable]
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public class RiddleCxCrypt : NanaCxCrypt
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{
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public RiddleCxCrypt (CxScheme scheme, uint seed) : base (scheme, seed)
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{
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}
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2018-04-09 12:41:06 +08:00
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public override string NamesSectionId { get { return "yuz:"; } }
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2018-04-01 11:58:40 +08:00
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public override void Decrypt (Xp3Entry entry, long offset, byte[] buffer, int pos, int count)
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{
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ProcessFirstBytes (entry, offset, buffer, pos, count);
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base.Decrypt (entry, offset, buffer, pos, count);
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}
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public override void Encrypt (Xp3Entry entry, long offset, byte[] buffer, int pos, int count)
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{
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base.Encrypt (entry, offset, buffer, pos, count);
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ProcessFirstBytes (entry, offset, buffer, pos, count);
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}
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2018-04-07 07:09:04 +08:00
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public override byte Decrypt (Xp3Entry entry, long offset, byte value)
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{
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if (offset < 8)
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{
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var buffer = new byte[1] { value };
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this.Decrypt (entry, offset, buffer, 0, 1);
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return buffer[0];
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}
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else
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{
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return base.Decrypt (entry, offset, value);
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}
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}
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2018-04-01 11:58:40 +08:00
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internal void ProcessFirstBytes (Xp3Entry entry, long offset, byte[] buffer, int pos, int count)
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{
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if (offset < 8 && count > 0)
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{
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ulong key = GetKeyFromHash (entry.Hash);
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key >>= (int)offset << 3;
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2018-04-03 06:00:26 +08:00
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int first_chunk = Math.Min (count, 8 - (int)offset);
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2018-04-01 11:58:40 +08:00
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for (int i = 0; i < first_chunk; ++i)
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{
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buffer[pos+i] ^= (byte)key;
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key >>= 8;
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}
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}
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}
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internal ulong GetKeyFromHash (uint hash)
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{
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uint lo = hash ^ 0x55555555;
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uint hi = (hash << 13) ^ hash;
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2018-04-07 07:09:04 +08:00
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hi ^= hi >> 17;
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hi ^= (hi << 5) ^ 0xAAAAAAAA;
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2018-04-01 11:58:40 +08:00
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return (ulong)hi << 32 | lo;
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}
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2018-04-07 07:09:04 +08:00
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internal override INameListDecryptor CreateNameListDecryptor ()
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2018-04-01 11:58:40 +08:00
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{
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2018-04-07 07:09:04 +08:00
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return new YuzDecryptor (ControlBlock, YuzKey, YuzKey[4], YuzKey[5]);
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2018-04-01 11:58:40 +08:00
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}
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}
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2018-04-07 07:09:04 +08:00
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internal interface INameListDecryptor
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{
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void Decrypt (byte[] data, int length);
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}
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internal class YuzDecryptor : INameListDecryptor
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2018-04-01 11:58:40 +08:00
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{
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byte[] m_state;
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public YuzDecryptor (uint[] key1, uint[] key2, uint seed1, uint seed2)
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{
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m_state = new byte[64];
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Buffer.BlockCopy (key2, 0, m_state, 0, 16);
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Buffer.BlockCopy (key1, 0, m_state, 16, 32);
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LittleEndian.Pack (~0, m_state, 48);
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LittleEndian.Pack (~0, m_state, 52);
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LittleEndian.Pack (~seed1, m_state, 56);
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LittleEndian.Pack (~seed2, m_state, 60);
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}
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public void Decrypt (byte[] data, int length)
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{
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var state1 = new byte[64];
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var state2 = new byte[64];
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int i = 0;
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ulong offset = 0;
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while (length > 0)
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{
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Buffer.BlockCopy (m_state, 0, state1, 0, 64);
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LittleEndian.Pack (~offset++, state1, 48);
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TransformState (state1, state2, 8);
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int count = Math.Min (0x40, length);
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for (int j = 0; j < count; ++j)
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{
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data[i++] ^= state2[j];
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}
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length -= count;
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}
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}
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uint[] tmp = new uint[16];
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void TransformState (byte[] state1, byte[] target, int length)
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{
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for (int i = 0; i < 16; ++i)
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{
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tmp[i] = ~LittleEndian.ToUInt32 (state1, i * 4);
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}
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if (length > 0)
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{
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for (int count = ((length - 1) >> 1) + 1; count > 0; --count)
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{
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uint t1 = tmp[4] + tmp[0];
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uint t2 = Binary.RotL (t1 ^ tmp[12], 16);
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uint t3 = t2 + tmp[8];
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uint t4 = Binary.RotL (tmp[4] ^ t3, 12);
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uint t5 = t4 + t1;
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uint t6 = Binary.RotL (t5 ^ t2, 8);
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tmp[12] = t6;
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t6 += t3;
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tmp[4] = Binary.RotL (t4 ^ t6, 7);
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t4 = Binary.RotL ((tmp[5] + tmp[1]) ^ tmp[13], 16);
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t3 = Binary.RotL (tmp[5] ^ (t4 + tmp[9]), 12);
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t2 = t3 + tmp[5] + tmp[1];
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tmp[13] = Binary.RotL (t2 ^ t4, 8);
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tmp[9] += tmp[13] + t4;
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tmp[5] = Binary.RotL (t3 ^ tmp[9], 7);
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t4 = Binary.RotL ((tmp[6] + tmp[2]) ^ tmp[14], 16);
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tmp[10] += t4;
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t1 = Binary.RotL (tmp[6] ^ tmp[10], 12);
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t3 = t1 + tmp[6] + tmp[2];
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tmp[14] = Binary.RotL (t3 ^ t4, 8);
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tmp[6] = Binary.RotL (t1 ^ (tmp[14] + tmp[10]), 7);
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tmp[10] += tmp[14];
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t4 = (tmp[7] + tmp[3]) ^ tmp[15];
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tmp[3] += tmp[7];
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t4 = Binary.RotL (t4, 16);
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tmp[11] += t4;
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t1 = Binary.RotL (tmp[7] ^ tmp[11], 12);
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t4 ^= t1 + tmp[3];
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tmp[3] += t1;
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t4 = Binary.RotL (t4, 8);
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tmp[11] += t4;
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t1 = Binary.RotL (t1 ^ tmp[11], 7);
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t5 += tmp[5];
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t2 += tmp[6];
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t4 = Binary.RotL (t5 ^ t4, 16);
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tmp[10] += t4;
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tmp[5] = Binary.RotL (tmp[5] ^ tmp[10], 12);
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tmp[0] = tmp[5] + t5;
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t4 = Binary.RotL (tmp[0] ^ t4, 8);
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tmp[15] = t4;
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tmp[10] += t4;
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tmp[5] = Binary.RotL (tmp[5] ^ tmp[10], 7);
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tmp[12] = Binary.RotL (tmp[12] ^ t2, 16);
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tmp[11] += tmp[12];
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t4 = Binary.RotL (tmp[11] ^ tmp[6], 12);
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tmp[1] = t4 + t2;
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tmp[12] = Binary.RotL (tmp[12] ^ tmp[1], 8);
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tmp[11] += tmp[12];
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tmp[6] = Binary.RotL (t4 ^ tmp[11], 7);
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t3 += t1;
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t4 = Binary.RotL (tmp[13] ^ t3, 16);
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t2 = t4 + t6;
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t1 = Binary.RotL (t2 ^ t1, 12);
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tmp[2] = t1 + t3;
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tmp[13] = Binary.RotL (t4 ^ tmp[2], 8);
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tmp[8] = tmp[13] + t2;
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tmp[7] = Binary.RotL (tmp[8] ^ t1, 7);
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t6 = Binary.RotL (tmp[14] ^ (tmp[4] + tmp[3]), 16);
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t1 = Binary.RotL (tmp[4] ^ (t6 + tmp[9]), 12);
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tmp[3] += t1 + tmp[4];
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t3 = Binary.RotL (t6 ^ tmp[3], 8);
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tmp[9] += t3 + t6;
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tmp[4] = Binary.RotL (t1 ^ tmp[9], 7);
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tmp[14] = t3;
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}
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}
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int pos = 0;
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for (int i = 0; i < 16; ++i)
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{
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uint x = tmp[i] + ~LittleEndian.ToUInt32 (state1, pos);
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LittleEndian.Pack (x, target, pos);
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pos += 4;
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}
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}
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}
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2018-04-07 07:09:04 +08:00
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internal class NanaDecryptor : INameListDecryptor
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{
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uint[] m_state;
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ulong m_seed;
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public NanaDecryptor (uint[] key, uint seed1, uint seed2)
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{
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m_state = new uint[27];
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m_seed = (ulong)seed2 << 32 | seed1;
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var s = new uint[3];
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uint k = key[0];
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s[0] = key[1];
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s[1] = key[2];
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s[2] = key[3];
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m_state[0] = k;
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int dst = 1;
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for (uint i = 0; i < 26; ++i)
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{
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int src = (int)i % 3;
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uint m = Binary.RotR (s[src], 8);
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uint n = i ^ (k + m);
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k = n ^ Binary.RotL (k, 3);
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m_state[dst++] = k;
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s[src] = n;
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}
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}
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public void Decrypt (byte[] data, int length)
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{
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int i = 0;
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ulong offset = 0;
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while (length > 0)
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{
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ulong key = ++offset ^ m_seed;
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key = TransformKey (key);
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int count = Math.Min (8, length);
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for (int j = 0; j < count; ++j)
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{
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data[i++] ^= (byte)key;
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key >>= 8;
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}
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length -= count;
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}
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}
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|
|
|
|
|
|
|
ulong TransformKey (ulong key)
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|
|
|
{
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|
|
|
uint lo = (uint)key;
|
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|
|
uint hi = (uint)(key >> 32);
|
|
|
|
for (int i = 0; i < 27; ++i)
|
|
|
|
{
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|
|
hi = Binary.RotR (hi, 8);
|
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|
hi += lo;
|
|
|
|
hi ^= m_state[i];
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|
|
lo = Binary.RotL (lo, 3);
|
|
|
|
lo ^= hi;
|
|
|
|
}
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|
|
return (ulong)hi << 32 | lo;
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|
|
|
}
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|
|
}
|
2018-04-01 11:58:40 +08:00
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}
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