private static string encryptDecrypt(string _inputText, string _encryptionKey, EncryptMode _mode, string _initVector)
{
string _out = ""; // output string
//_encryptionKey = MD5Hash (_encryptionKey);
using (RijndaelManaged _rcipher = GetProvider(_encryptionKey, _initVector))
{
UTF8Encoding _enc = new UTF8Encoding();
try
{
if (_mode.Equals(EncryptMode.ENCRYPT))
{
//encrypt
byte[] plainText = _rcipher.CreateEncryptor().TransformFinalBlock(_enc.GetBytes(_inputText), 0, _inputText.Length);
_out = Convert.ToBase64String(plainText);
}
if (_mode.Equals(EncryptMode.DECRYPT))
{
//decrypt
byte[] plainText = _rcipher.CreateDecryptor().TransformFinalBlock(Convert.FromBase64String(_inputText), 0, Convert.FromBase64String(_inputText).Length);
_out = _enc.GetString(plainText);
}
}
catch (Exception ex) { throw; }
finally { _rcipher.Dispose(); }
}
return(_out); // return encrypted/decrypted string
}
private String encryptDecrypt(string _inputText, string _encryptionKey, EncryptMode _mode, string _initVector)
{
string _out = "";
//get hashed pin code to bytes array
_pwd = Encoding.UTF8.GetBytes(_encryptionKey);
//get IV to byte array
_ivBytes = Encoding.UTF8.GetBytes(_initVector);
//check that the IV and hashed key are the correct size in bytes
int len = _pwd.Length;
if (len > _key.Length)
{
len = _key.Length;
}
int ivLenth = _ivBytes.Length;
if (ivLenth > _iv.Length)
{
ivLenth = _iv.Length;
}
//copy hashed pincode and IV bytes to AES key and IV
Array.Copy(_pwd, _key, len);
Array.Copy(_ivBytes, _iv, ivLenth);
_rcipher.Key = _key;
_rcipher.IV = _iv;
//encrypt mode
if (_mode.Equals(EncryptMode.ENCRYPT))
{
//encrypt the password
byte[] plainText = _rcipher.CreateEncryptor().TransformFinalBlock(_enc.GetBytes(_inputText),
0, _inputText.Length);
//combine the ciphertext and the IV so we can use it later
byte[] combined = new byte[_iv.Length + plainText.Length];
System.Buffer.BlockCopy(_iv, 0, combined, 0, _iv.Length);
System.Buffer.BlockCopy(plainText, 0, combined, _iv.Length, plainText.Length);
//convert ciphertext bytes to hex
_out = Convert.ToBase64String(combined);
}
//decrypt mode
if (_mode.Equals(EncryptMode.DECRYPT))
{
//decrypt the ciphertext back to plaintext using the same IV
byte[] plainText = _rcipher.CreateDecryptor().TransformFinalBlock(Convert.FromBase64String(_inputText),
0, Convert.FromBase64String(_inputText).Length);
//convert plaintext bytes back to hex
String outputToString = _enc.GetString(plainText);
//remove IV from plaintext
String trimmed = outputToString.Remove(0, _iv.Length - 1);
_out = trimmed;
}
_rcipher.Dispose();
return(_out);
}
/***
* This function decrypts the encrypted text to plain text using the key
* provided. You'll have to use the same key which you used during
* encryption
*
* @param _encryptedText
* Encrypted/Cipher text to be decrypted
* @param _key
* Encryption key which you used during encryption
*/
private string encryptDecrypt(string _inputText, string _encryptionKey, EncryptMode _mode, string _initVector)
{
SymmetricKeyAlgorithmProvider aesCbcPkcs7 = SymmetricKeyAlgorithmProvider.OpenAlgorithm(SymmetricAlgorithmNames.AesCbcPkcs7);
// Creata a 16 byte initialization vector
IBuffer iv = CryptographicBuffer.ConvertStringToBinary(_initVector, BinaryStringEncoding.Utf8);
// Create an AES 128-bit (16 byte) key
IBuffer keyMaterial = CryptographicBuffer.ConvertStringToBinary(_encryptionKey, BinaryStringEncoding.Utf8);
CryptographicKey key = aesCbcPkcs7.CreateSymmetricKey(keyMaterial);
if (_mode.Equals(EncryptMode.ENCRYPT))
{
// Encrypt the data
IBuffer plainText = CryptographicBuffer.ConvertStringToBinary(_inputText, BinaryStringEncoding.Utf8);
IBuffer cipherText = CryptographicEngine.Encrypt(key, plainText, iv);
string strEncrypted64 = CryptographicBuffer.EncodeToBase64String(cipherText);
return(strEncrypted64);
}
else
{
// Decrypt the data
IBuffer cipherText = CryptographicBuffer.DecodeFromBase64String(_inputText);
IBuffer decryptedText = CryptographicEngine.Decrypt(key, cipherText, iv);
return(CryptographicBuffer.ConvertBinaryToString(BinaryStringEncoding.Utf8, decryptedText));
}
}
/**
*
* @param _inputText
* Text to be encrypted or decrypted
* @param _encryptionKey
* Encryption key to used for encryption / decryption
* @param _mode
* specify the mode encryption / decryption
* @param _initVector
* initialization vector
* @return encrypted or decrypted string based on the mode
*/
private String encryptDecrypt(string _inputText, string _encryptionKey, EncryptMode _mode, string _initVector)
{
string _out = "";// output string
_pwd = Encoding.UTF8.GetBytes(_encryptionKey);
_ivBytes = Encoding.UTF8.GetBytes(_initVector);
int len = _pwd.Length;
if (len > _key.Length)
{
len = _key.Length;
}
int ivLenth = _ivBytes.Length;
if (ivLenth > _iv.Length)
{
ivLenth = _iv.Length;
}
Array.Copy(_pwd, _key, len);
Array.Copy(_ivBytes, _iv, ivLenth);
_rcipher.Key = _key;
_rcipher.IV = _iv;
if (_mode.Equals(EncryptMode.ENCRYPT))
{
//encrypt
byte[] plainText = _rcipher.CreateEncryptor().TransformFinalBlock(_enc.GetBytes(_inputText), 0, _inputText.Length);
_out = Convert.ToBase64String(plainText);
}
if (_mode.Equals(EncryptMode.DECRYPT))
{
//decrypt
byte[] plainText = _rcipher.CreateDecryptor().TransformFinalBlock(Convert.FromBase64String(_inputText), 0, Convert.FromBase64String(_inputText).Length);
_out = _enc.GetString(plainText);
}
_rcipher.Dispose();
return(_out);// return encrypted/decrypted string
}
/**
*
* @param inputText
* Text to be encrypted or decrypted
* @param encryptionKey
* Encryption key to used for encryption / decryption
* @param mode
* specify the mode encryption / decryption
* @param initVector
* initialization vector
* @return encrypted or decrypted string based on the mode
*/
private string EncryptDecrypt(string inputText, string encryptionKey, EncryptMode mode, string initVector)
{
string outputString = ""; // output string
pwd = Encoding.UTF8.GetBytes(encryptionKey);
ivBytes = Encoding.UTF8.GetBytes(initVector);
int len = pwd.Length;
if (len > key.Length)
{
len = key.Length;
}
int ivLenth = ivBytes.Length;
if (ivLenth > iv.Length)
{
ivLenth = iv.Length;
}
Array.Copy(pwd, key, len);
Array.Copy(ivBytes, iv, ivLenth);
rcipher.Key = key;
rcipher.IV = iv;
if (mode.Equals(EncryptMode.ENCRYPT))
{
//encrypt
byte[] plainText = rcipher.CreateEncryptor().TransformFinalBlock(enc.GetBytes(inputText), 0, inputText.Length);
outputString = Convert.ToBase64String(plainText);
}
if (mode.Equals(EncryptMode.DECRYPT))
{
//decrypt
byte[] plainText = rcipher.CreateDecryptor().TransformFinalBlock(Convert.FromBase64String(inputText), 0, Convert.FromBase64String(inputText).Length);
outputString = enc.GetString(plainText);
}
rcipher.Dispose();
return(outputString);// return encrypted/decrypted string
}
/// <summary>
/// 解密字符串(失败返回空)
/// </summary>
/// <param name="DecryptString">待解密字符串</param>
/// <param name="Mode">加密模式</param>
/// <returns></returns>
public static string Decode(string DecryptString, EncryptMode Mode)
{
string ReturnString = "";
if (Mode == EncryptMode.Cipher)
{
return(ReturnString);
}
List <EncryptInfo> EncryptList = EncryptConfigs.GetConfig().EncryptInfo;
try {
foreach (EncryptInfo el in EncryptList)
{
EncryptMode TempMode = Utils.GetEnum <EncryptMode>(el.EncryptName.Trim(), EncryptMode.Default);
if (Mode.Equals(TempMode))
{
ReturnString = DecryptString;
//反向解密
for (int i = el.EncryptType.Count - 1; i >= 0; i--)
{
EncryptType ei = el.EncryptType[i];
switch (ei.Type)
{
case EncryptEnum.AES:
ReturnString = AES.Decode(ReturnString, ei.Key);
break;
case EncryptEnum.DES:
ReturnString = DES.Decode(ReturnString, ei.Key);
break;
default:
break;
}
}
break;
}
}
}
catch { ReturnString = ""; }
return(ReturnString);
}
/// <summary>
/// 加密字符串(失败返回空)
/// </summary>
/// <param name="EncryptString">待加密字符串</param>
/// <param name="Mode">加密模式</param>
/// <returns></returns>
public static string Encode(string EncryptString, EncryptMode Mode)
{
string ReturnString = "";
List <EncryptInfo> EncryptList = EncryptConfigs.GetConfig().EncryptInfo;
try {
foreach (EncryptInfo el in EncryptList)
{
EncryptMode TempMode = Utils.GetEnum <EncryptMode>(el.EncryptName.Trim(), EncryptMode.Default);
if (Mode.Equals(TempMode))
{
ReturnString = EncryptString;
//正向加密
foreach (EncryptType ei in el.EncryptType)
{
switch (ei.Type)
{
case EncryptEnum.AES:
ReturnString = AES.Encode(ReturnString, ei.Key);
break;
case EncryptEnum.DES:
ReturnString = DES.Encode(ReturnString, ei.Key);
break;
case EncryptEnum.MD5:
ReturnString = MD5.Encode(ReturnString);
break;
default:
break;
}
}
break;
}
}
}
catch { ReturnString = ""; }
return(ReturnString);
}
/**
*
* @param _inputText
* Text to be encrypted or decrypted
* @param _encryptionKey
* Encryption key to used for encryption / decryption
* @param _mode
* specify the mode encryption / decryption
* @param _initVector
* initialization vector
* @return encrypted or decrypted string based on the mode
*/
private byte[] doEncryptDecrypt(byte[] _inputText, string _encryptionKey, EncryptMode _mode, string _initVector)
{
byte[] _out = _inputText;// output string
//_encryptionKey = MD5Hash (_encryptionKey);
_pwd = System.Text.Encoding.UTF8.GetBytes(_encryptionKey);
_ivBytes = System.Text.Encoding.UTF8.GetBytes(_initVector);
int len = _pwd.Length;
if (len > _key.Length)
{
len = _key.Length;
}
int ivLenth = _ivBytes.Length;
if (ivLenth > _iv.Length)
{
ivLenth = _iv.Length;
}
Array.Copy(_pwd, _key, len);
Array.Copy(_ivBytes, _iv, ivLenth);
_rcipher.Key = _key;
_rcipher.IV = _iv;
if (_mode.Equals(EncryptMode.ENCRYPT))
{
//encrypt
//byte[] plainText = _rcipher.CreateEncryptor().TransformFinalBlock(_enc.GetBytes(_inputText), 0, _inputText.Length);
_out = _rcipher.CreateEncryptor().TransformFinalBlock(_inputText, 0, _inputText.Length);
//_out = Convert.ToBase64String(plainText);
}
if (_mode.Equals(EncryptMode.DECRYPT))
{
//decrypt
//byte[] plainText = _rcipher.CreateDecryptor().TransformFinalBlock(Convert.FromBase64String(_inputText), 0, Convert.FromBase64String(_inputText).Length);
_out = _rcipher.CreateDecryptor().TransformFinalBlock(_inputText, 0, _inputText.Length);
//_out = _enc.GetString(plainText);
}
_rcipher.Dispose();
return _out;// return encrypted/decrypted string
}
/**
*
* @param _inputText
* Text to be encrypted or decrypted
* @param _encryptionKey
* Encryption key to used for encryption / decryption
* @param _mode
* specify the mode encryption / decryption
* @param _initVector
* initialization vector
* @return encrypted or decrypted string based on the mode
*/
private String encryptDecrypt(byte[] _encryptDecryptBytes, string _encryptionKey, EncryptMode _mode, string _initVector)
{
// initialization
_aes = Aes.Create();
_aes.Mode = CipherMode.CBC;
_aes.Padding = PaddingMode.PKCS7;
_aes.KeySize = 256;
_aes.BlockSize = 128;
byte[] _key = new byte[32];
byte[] _iv = new byte[_aes.BlockSize / 8]; //128 bit / 8 = 16 bytes
byte[] _pwd = Encoding.UTF8.GetBytes(_encryptionKey);
byte[] _ivBytes = Encoding.UTF8.GetBytes(_initVector);
try
{
string _out = string.Empty; // output string
//_encryptionKey = MD5Hash (_encryptionKey);
int len = _pwd.Length;
if (len > _key.Length)
{
len = _key.Length;
}
int ivLenth = _ivBytes.Length;
if (ivLenth > _iv.Length)
{
ivLenth = _iv.Length;
}
Array.Copy(_pwd, _key, len);
Array.Copy(_ivBytes, _iv, ivLenth);
_aes.Key = _key;
_aes.IV = _iv;
if (_mode.Equals(EncryptMode.ENCRYPT))
{
//encrypt
using (var memoryStream = new MemoryStream())
{
using (var encryptor = _aes.CreateEncryptor())
{
using (var cryptoStream = new CryptoStream(memoryStream, encryptor, CryptoStreamMode.Write))
{
cryptoStream.Write(_encryptDecryptBytes, 0, _encryptDecryptBytes.Length);
cryptoStream.Close();
_out = Convert.ToBase64String(memoryStream.ToArray());
}
}
}
}
if (_mode.Equals(EncryptMode.DECRYPT))
{
//decrypt
using (var memoryStream = new MemoryStream())
{
using (var decryptor = _aes.CreateDecryptor())
{
using (var cryptoStream = new CryptoStream(memoryStream, decryptor, CryptoStreamMode.Write))
{
cryptoStream.Write(_encryptDecryptBytes, 0, _encryptDecryptBytes.Length);
cryptoStream.Close();
_out = Encoding.UTF8.GetString(memoryStream.ToArray());
}
}
}
}
return(_out);// return encrypted/decrypted string
}
finally
{
Array.Clear(_key, 0, _key.Length);
Array.Clear(_pwd, 0, _pwd.Length);
Array.Clear(_ivBytes, 0, _ivBytes.Length);
Array.Clear(_iv, 0, _iv.Length);
_aes.Dispose();
}
}
/***
* This function decrypts the encrypted text to plain text using the key
* provided. You'll have to use the same key which you used during
* encryption
*
* @param _encryptedText
* Encrypted/Cipher text to be decrypted
* @param _key
* Encryption key which you used during encryption
*/
private string encryptDecrypt(string _inputText, string _encryptionKey, EncryptMode _mode, string _initVector)
{
SymmetricKeyAlgorithmProvider aesCbcPkcs7 = SymmetricKeyAlgorithmProvider.OpenAlgorithm(SymmetricAlgorithmNames.AesCbcPkcs7);
// Creata a 16 byte initialization vector
IBuffer iv = CryptographicBuffer.ConvertStringToBinary(_initVector, BinaryStringEncoding.Utf8);
// Create an AES 128-bit (16 byte) key
IBuffer keyMaterial = CryptographicBuffer.ConvertStringToBinary(_encryptionKey, BinaryStringEncoding.Utf8);
CryptographicKey key = aesCbcPkcs7.CreateSymmetricKey(keyMaterial);
if (_mode.Equals(EncryptMode.ENCRYPT))
{
// Encrypt the data
IBuffer plainText = CryptographicBuffer.ConvertStringToBinary(_inputText, BinaryStringEncoding.Utf8);
IBuffer cipherText = CryptographicEngine.Encrypt(key, plainText, iv);
string strEncrypted64 = CryptographicBuffer.EncodeToBase64String(cipherText);
return strEncrypted64;
}
else
{
// Decrypt the data
IBuffer cipherText = CryptographicBuffer.DecodeFromBase64String(_inputText);
IBuffer decryptedText = CryptographicEngine.Decrypt(key, cipherText, iv);
return CryptographicBuffer.ConvertBinaryToString(BinaryStringEncoding.Utf8, decryptedText);
}
}