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177 lines
6.3 KiB
C#
177 lines
6.3 KiB
C#
#if !DISABLE_ENCRYPTION
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using System.IO;
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using System.Security.Cryptography;
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#if NETFX_CORE
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using Windows.Security.Cryptography;
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using Windows.Security.Cryptography.Core;
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using Windows.Storage.Streams;
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using System.Runtime.InteropServices.WindowsRuntime;
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#endif
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namespace ES3Internal
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{
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public static class ES3Hash
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{
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#if NETFX_CORE
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public static string SHA1Hash(string input)
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{
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return System.Text.Encoding.UTF8.GetString(UnityEngine.Windows.Crypto.ComputeSHA1Hash(System.Text.Encoding.UTF8.GetBytes(input)));
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}
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#else
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public static string SHA1Hash(string input)
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{
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using (SHA1Managed sha1 = new SHA1Managed())
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return System.Text.Encoding.UTF8.GetString(sha1.ComputeHash(System.Text.Encoding.UTF8.GetBytes(input)));
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}
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#endif
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}
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public abstract class EncryptionAlgorithm
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{
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public abstract void Encrypt(Stream input, Stream output, string password, int bufferSize);
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public abstract void Decrypt(Stream input, Stream output, string password, int bufferSize);
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protected static void CopyStream(Stream input, Stream output, int bufferSize)
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{
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byte[] buffer = new byte[bufferSize];
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int read;
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while ((read = input.Read(buffer, 0, bufferSize)) > 0)
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output.Write(buffer, 0, read);
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}
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}
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public class AESEncryptionAlgorithm : EncryptionAlgorithm
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{
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private const int ivSize = 16;
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private const int keySize = 16;
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private const int pwIterations = 100;
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public override void Encrypt(Stream input, Stream output, string password, int bufferSize)
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{
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input.Position = 0;
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#if NETFX_CORE
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// Generate an IV and write it to the output.
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var iv = CryptographicBuffer.GenerateRandom(ivSize);
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output.Write(iv.ToArray(), 0, ivSize);
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var pwBuffer = CryptographicBuffer.ConvertStringToBinary(password, BinaryStringEncoding.Utf8);
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var keyDerivationProvider = KeyDerivationAlgorithmProvider.OpenAlgorithm("PBKDF2_SHA1");
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KeyDerivationParameters pbkdf2Parms = KeyDerivationParameters.BuildForPbkdf2(iv, pwIterations);
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// Create a key based on original key and derivation parmaters
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CryptographicKey keyOriginal = keyDerivationProvider.CreateKey(pwBuffer);
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IBuffer keyMaterial = CryptographicEngine.DeriveKeyMaterial(keyOriginal, pbkdf2Parms, keySize);
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var provider = SymmetricKeyAlgorithmProvider.OpenAlgorithm(SymmetricAlgorithmNames.AesCbcPkcs7);
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var key = provider.CreateSymmetricKey(keyMaterial);
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// Get the input stream as an IBuffer.
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IBuffer msg;
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using(var ms = new MemoryStream())
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{
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input.CopyTo(ms);
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msg = ms.ToArray().AsBuffer();
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}
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var buffEncrypt = CryptographicEngine.Encrypt(key, msg, iv);
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output.Write(buffEncrypt.ToArray(), 0, (int)buffEncrypt.Length);
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output.Dispose();
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#else
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using (var alg = Aes.Create())
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{
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alg.Mode = CipherMode.CBC;
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alg.Padding = PaddingMode.PKCS7;
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alg.GenerateIV();
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var key = new Rfc2898DeriveBytes(password, alg.IV, pwIterations);
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alg.Key = key.GetBytes(keySize);
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// Write the IV to the output stream.
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output.Write(alg.IV, 0, ivSize);
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using(var encryptor = alg.CreateEncryptor())
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using(var cs = new CryptoStream(output, encryptor, CryptoStreamMode.Write))
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CopyStream(input, cs, bufferSize);
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}
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#endif
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}
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public override void Decrypt(Stream input, Stream output, string password, int bufferSize)
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{
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#if NETFX_CORE
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var thisIV = new byte[ivSize];
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input.Read(thisIV, 0, ivSize);
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var iv = thisIV.AsBuffer();
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var pwBuffer = CryptographicBuffer.ConvertStringToBinary(password, BinaryStringEncoding.Utf8);
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var keyDerivationProvider = KeyDerivationAlgorithmProvider.OpenAlgorithm("PBKDF2_SHA1");
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KeyDerivationParameters pbkdf2Parms = KeyDerivationParameters.BuildForPbkdf2(iv, pwIterations);
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// Create a key based on original key and derivation parameters.
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CryptographicKey keyOriginal = keyDerivationProvider.CreateKey(pwBuffer);
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IBuffer keyMaterial = CryptographicEngine.DeriveKeyMaterial(keyOriginal, pbkdf2Parms, keySize);
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var provider = SymmetricKeyAlgorithmProvider.OpenAlgorithm(SymmetricAlgorithmNames.AesCbcPkcs7);
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var key = provider.CreateSymmetricKey(keyMaterial);
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// Get the input stream as an IBuffer.
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IBuffer msg;
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using(var ms = new MemoryStream())
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{
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input.CopyTo(ms);
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msg = ms.ToArray().AsBuffer();
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}
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var buffDecrypt = CryptographicEngine.Decrypt(key, msg, iv);
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output.Write(buffDecrypt.ToArray(), 0, (int)buffDecrypt.Length);
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#else
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using (var alg = Aes.Create())
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{
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var thisIV = new byte[ivSize];
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input.Read(thisIV, 0, ivSize);
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alg.IV = thisIV;
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var key = new Rfc2898DeriveBytes(password, alg.IV, pwIterations);
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alg.Key = key.GetBytes(keySize);
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using(var decryptor = alg.CreateDecryptor())
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using(var cryptoStream = new CryptoStream(input, decryptor, CryptoStreamMode.Read))
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CopyStream(cryptoStream, output, bufferSize);
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}
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#endif
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output.Position = 0;
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}
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}
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public class UnbufferedCryptoStream : MemoryStream
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{
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private readonly Stream stream;
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private readonly bool isReadStream;
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private string password;
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private int bufferSize;
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private EncryptionAlgorithm alg;
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public UnbufferedCryptoStream(Stream stream, bool isReadStream, string password, int bufferSize, EncryptionAlgorithm alg) : base()
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{
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this.stream = stream;
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this.isReadStream = isReadStream;
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this.password = password;
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this.bufferSize = bufferSize;
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this.alg = alg;
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if (isReadStream)
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alg.Decrypt(stream, this, password, bufferSize);
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}
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protected override void Dispose(bool disposing)
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{
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if (!isReadStream)
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alg.Encrypt(this, stream, password, bufferSize);
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stream.Dispose();
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base.Dispose(disposing);
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}
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}
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}
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#endif |