public string DecryptData(string encryptText, Algorithm.StringEncodeFormat inputStringEncode, Algorithm.Cryptography cryptographyAlgorithm, Algorithm.StringTransformationFormat outputStringEncode) { string data = string.Empty; if (!string.IsNullOrEmpty(encryptText)) { byte[] cipherText = null; byte[] password = null; byte[] salt = null; try { BinaryEncodeHelper encodeHelper = new BinaryEncodeHelper(Algorithm.StringTransformationFormat.Base64); switch (inputStringEncode) { case Algorithm.StringEncodeFormat.Base32: { encodeHelper.SetEncodeFormat(Algorithm.StringTransformationFormat.Base32); break; } case Algorithm.StringEncodeFormat.Base64: { encodeHelper.SetEncodeFormat(Algorithm.StringTransformationFormat.Base64); break; } } cipherText = encodeHelper.Decode(encryptText); if (!string.IsNullOrEmpty(m_Password)) { password = encodeHelper.Decode(m_Password); } if (!string.IsNullOrEmpty(m_Salt)) { salt = encodeHelper.Decode(m_Salt); } byte[] text = null; switch (cryptographyAlgorithm) { case Algorithm.Cryptography.AES: { if (cipherText != null && password != null && salt != null) { AESCryptography aes = new AESCryptography(password, salt); text = aes.DecryptData(cipherText); } break; } case Algorithm.Cryptography.RSA: { RSACryptography rsa = new RSACryptography(); text = rsa.DecryptData(cipherText); break; } } if (text != null) { encodeHelper.SetEncodeFormat(outputStringEncode); data = encodeHelper.Encode(text); } } catch (Exception) { throw; } } return(data); }
public string EncryptData(string data, Algorithm.StringTransformationFormat inputStringEncode, Algorithm.Cryptography cryptographyAlgorithm, Algorithm.StringEncodeFormat outputStringEncode) { string encryptText = string.Empty; if (!string.IsNullOrEmpty(data)) { byte[] cipherText = null; try { BinaryEncodeHelper encodeHelper = new BinaryEncodeHelper(Algorithm.StringTransformationFormat.UTF8); byte[] dataBinary = encodeHelper.Decode(data); switch (outputStringEncode) { case Algorithm.StringEncodeFormat.Base32: { encodeHelper.SetEncodeFormat(Algorithm.StringTransformationFormat.Base32); break; } case Algorithm.StringEncodeFormat.Base64: { encodeHelper.SetEncodeFormat(Algorithm.StringTransformationFormat.Base64); break; } } switch (cryptographyAlgorithm) { case Algorithm.Cryptography.AES: { AESCryptography aes = new AESCryptography(); cipherText = aes.EncryptData(dataBinary); m_Password = encodeHelper.Encode(aes.Password); m_Salt = encodeHelper.Encode(aes.Salt); break; } case Algorithm.Cryptography.RSA: { RSACryptography rsa = new RSACryptography(); cipherText = rsa.EncryptData(dataBinary); BinaryEncodeHelper encodeLittleHelper = new BinaryEncodeHelper(Algorithm.StringTransformationFormat.UTF8); m_Password = encodeHelper.Encode(encodeLittleHelper.Decode(rsa.PublicKey)); break; } } if (cipherText != null) { encryptText = encodeHelper.Encode(cipherText); } } catch (Exception) { throw; } } return(encryptText); }