public static void EncryptMessage(Internal.ByteArray message, int payloadStart, int blockSize) { blockSize = Math.Min(blockSize, message.Length - payloadStart); message.Position = payloadStart + blockSize; int length = (int)(Math.Floor((blockSize + RSABlockSize - 1D) / RSABlockSize) * RSABlockSize); if (length > blockSize) { var tmp = new byte[length - blockSize]; s_Random.NextBytes(tmp); message.WriteBytes(tmp); blockSize = length; } message.Position = payloadStart; var bytes = ProcessBlock(message.Buffer, payloadStart, RSABlockSize); message.WriteBytes(bytes, 0, bytes.Length); }
public int Encrypt(Internal.ByteArray message, int offset = 0, int length = int.MaxValue) { length = Math.Min(length, message.Length - offset); message.Position = offset + length; int encryptedLength = (int)(Math.Floor((length + BlockSize - 1) / (double)BlockSize) * BlockSize); if (encryptedLength > length) { byte[] tmp = new byte[encryptedLength - length]; _random.NextBytes(tmp); message.WriteBytes(tmp); length = encryptedLength; } int i = offset; while (i < offset + length) { message.Position = i; uint v0 = message.ReadUnsignedInt(); uint v1 = message.ReadUnsignedInt(); uint delta = 0x61C88647; uint sum = 0; for (int r = 0; r < 32; r++) { v0 += (v1 << 4 ^ v1 >> 5) + v1 ^ sum + _key[sum & 3]; sum -= delta; v1 += (v0 << 4 ^ v0 >> 5) + v0 ^ sum + _key[sum >> 11 & 3]; } message.Position -= BlockSize; message.WriteUnsignedInt(v0); message.WriteUnsignedInt(v1); i += BlockSize; } return(length); }