/// <summary>
/// aes加混淆解密接口
/// </summary>
static public byte[] ExecuteDecrypt(byte[] buffer, string key)
{
//这里后续附加混淆规则
int bufferLen = buffer.Length;
if (bufferLen > MAX_ENCRYPT_LEN)
{
//规定 ECBMode:(明文长度/16 + 1) * 16 = 密文长度
int decryLen = (MAX_ENCRYPT_LEN / BLOCK_SIZE + 1) * BLOCK_SIZE;
byte[] decryBuffer = new byte[decryLen];
Array.Copy(buffer, decryBuffer, decryLen);
byte[] beDecryBuffer = AesEncrypt.Decrypt(decryBuffer, key);
int retLen = bufferLen - decryLen + beDecryBuffer.Length;
byte[] retBuffer = new byte[retLen];
beDecryBuffer.CopyTo(retBuffer, 0);
Array.Copy(buffer, decryLen, retBuffer, beDecryBuffer.Length, retBuffer.Length - beDecryBuffer.Length);
for (int i = beDecryBuffer.Length, j = 0; i < retLen; i += CONFUSE_OFFSET)
{
retBuffer[i] -= beDecryBuffer[j];
j += 2;
if (j >= beDecryBuffer.Length)
{
j = 0;
}
}
return(retBuffer);
}
else
{
return(AesEncrypt.Decrypt(buffer, key));
}
}
/// <summary>
/// 服务端收到数据
/// </summary>
/// <param name="sender"></param>
/// <param name="e"></param>
private void AsyncNetUdpServer_UdpPacketArrived(object sender, UdpPacketArrivedEventArgs e)
{
String dataJson = AesEncrypt.Decrypt(Program.AppSettings.ControlKey, e.PacketData).TrimEnd('\0');
Program.Logger.Log("UdpSocketServer", $"UdpPacketArrived=>{e.RemoteEndPoint.Address}:{e.RemoteEndPoint.Port}=>{dataJson}");
if (String.IsNullOrWhiteSpace(dataJson) || dataJson.IndexOf("ActionId") < 0 || dataJson.IndexOf("ActionName") < 0)
{
this.AsyncNetUdpServer.Post($"UnknownDataPacket,Logged\"{e.RemoteEndPoint.Address}:{e.RemoteEndPoint.Port}\"".GetBytes_Utf8(), e.RemoteEndPoint);
return;
}
Entity.UdpSocketPacketRecive packet = null;
try { packet = JsonConvert.DeserializeObject <Entity.UdpSocketPacketRecive>(dataJson); } catch {}
if (packet == null)
{
this.AsyncNetUdpServer.Post($"UnknownDataPacket,Logged\"{e.RemoteEndPoint.Address}:{e.RemoteEndPoint.Port}\"".GetBytes_Utf8(), e.RemoteEndPoint);
return;
}
switch (packet.ActionId)
{
case 1: this.PacketAction1(e.RemoteEndPoint); break;
case 2: this.PacketAction2(e.RemoteEndPoint); break;
case 1001: this.PacketAction1001(e.RemoteEndPoint); break;
case 1002: this.PacketAction1002(e.RemoteEndPoint); break;
case 1003: this.PacketAction1003(e.RemoteEndPoint, packet); break;
case 1004: this.PacketAction1004(e.RemoteEndPoint); break;
case 1005: this.PacketAction1005(e.RemoteEndPoint, packet); break;
}
}
public async Task DecomcryptAsync(Letter letter)
{
var decryptFailed = false;
if (letter.LetterMetadata.Encrypted && (_hashKey?.Length > 0))
{
try
{
letter.Body = AesEncrypt.Decrypt(letter.Body, _hashKey);
letter.LetterMetadata.Encrypted = false;
}
catch { decryptFailed = true; }
}
if (!decryptFailed && letter.LetterMetadata.Compressed)
{
try
{
letter.Body = await Gzip.DecompressAsync(letter.Body).ConfigureAwait(false);
letter.LetterMetadata.Compressed = false;
}
catch { }
}
}
// Returns Success
public bool Decrypt(Letter letter)
{
if (!letter.LetterMetadata.Encrypted || (_hashKey == null && _hashKey.Length == 0))
{
return(false);
} // Don't decrypt without it being encrypted.
try
{
letter.Body = AesEncrypt.Decrypt(letter.Body, _hashKey);
letter.LetterMetadata.Encrypted = false;
if (letter.LetterMetadata.CustomFields.ContainsKey(Utils.Constants.HeaderForEncrypt))
{
letter.LetterMetadata.CustomFields.Remove(Utils.Constants.HeaderForEncrypt);
}
if (letter.LetterMetadata.CustomFields.ContainsKey(Utils.Constants.HeaderForEncryptDate))
{
letter.LetterMetadata.CustomFields.Remove(Utils.Constants.HeaderForEncryptDate);
}
}
catch { return(false); }
return(true);
}
public async Task ComcryptDecomcryptTest()
{
var message = new Message {
StringMessage = $"Sensitive ReceivedLetter 0", MessageId = 0
};
var data = JsonSerializer.SerializeToUtf8Bytes(message);
var hashKey = await ArgonHash
.GetHashKeyAsync(Passphrase, Salt, Constants.EncryptionKeySize)
.ConfigureAwait(false);
_output.WriteLine(Encoding.UTF8.GetString(hashKey));
_output.WriteLine($"HashKey: {Encoding.UTF8.GetString(hashKey)}");
// Comcrypt
var payload = await Gzip.CompressAsync(data);
var encryptedPayload = AesEncrypt.Encrypt(payload, hashKey);
// Decomcrypt
var decryptedData = AesEncrypt.Decrypt(encryptedPayload, hashKey);
Assert.NotNull(decryptedData);
var decompressed = await Gzip.DecompressAsync(decryptedData);
JsonSerializer.SerializeToUtf8Bytes(decompressed);
_output.WriteLine($"Data: {Encoding.UTF8.GetString(data)}");
_output.WriteLine($"Decrypted: {Encoding.UTF8.GetString(decryptedData)}");
Assert.Equal(data, decompressed);
}
public bool Decrypt(Letter letter)
{
if (letter.LetterMetadata.Encrypted && (_hashKey?.Length > 0))
{
try
{
letter.Body = AesEncrypt.Decrypt(letter.Body, _hashKey);
letter.LetterMetadata.Encrypted = false;
}
catch { }
}
return(!letter.LetterMetadata.Encrypted);
}
public async Task DecomcryptDataAsync(bool decrypt = false, bool decompress = false)
{
if (!_decrypted && decrypt && _hashKey.Length > 0)
{
Data = AesEncrypt.Decrypt(Data, _hashKey);
_decrypted = true;
}
if (!_decompressed && decompress)
{
Data = await Gzip
.DecompressAsync(Data)
.ConfigureAwait(false);
_decompressed = true;
}
}
public async Task EncryptDecryptTest()
{
var data = new byte[] { 0xFF, 0x00, 0xAA, 0xFF, 0x00, 0x00, 0xFF, 0xAA, 0x00, 0xFF, 0x00, 0xFF };
var hashKey = await ArgonHash
.GetHashKeyAsync(Passphrase, Salt, 32)
.ConfigureAwait(false);
_output.WriteLine(Encoding.UTF8.GetString(hashKey));
_output.WriteLine($"HashKey: {Encoding.UTF8.GetString(hashKey)}");
var encryptedData = AesEncrypt.Encrypt(data, hashKey);
_output.WriteLine($"Encrypted: {Encoding.UTF8.GetString(encryptedData)}");
var decryptedData = AesEncrypt.Decrypt(encryptedData, hashKey);
_output.WriteLine($"Data: {Encoding.UTF8.GetString(data)}");
_output.WriteLine($"Decrypted: {Encoding.UTF8.GetString(decryptedData)}");
Assert.Equal(data, decryptedData);
}
public async Task CreateLetterFromDataAsync()
{
if (Letter == null)
{
Letter = JsonSerializer.Deserialize <Letter>(Data);
}
if (!_decrypted && Letter.LetterMetadata.Encrypted && _hashKey.Length > 0)
{
Letter.Body = AesEncrypt.Decrypt(Letter.Body, _hashKey);
Letter.LetterMetadata.Encrypted = false;
_decrypted = true;
}
if (!_decompressed && Letter.LetterMetadata.Compressed)
{
Letter.Body = await Gzip
.DecompressAsync(Letter.Body)
.ConfigureAwait(false);
Letter.LetterMetadata.Compressed = false;
_decompressed = true;
}
}
public void EncryptDecrypt1024()
{
var decryptedData = AesEncrypt.Decrypt(AesEncrypt.Encrypt(Payload3, HashKey), HashKey);
}
public void EncryptDecrypt512()
{
var decryptedData = AesEncrypt.Decrypt(AesEncrypt.Encrypt(Payload2, HashKey), HashKey);
}
public void EncryptDecrypt2048()
{
var decryptedData = AesEncrypt.Decrypt(AesEncrypt.Encrypt(Payload4, HashKey), HashKey);
}
