AES加密算法分享
using System;using System.IO;
using System.Security.Cryptography;
using System.Text;
namespace Utils
{
/// <summary>
/// AES加密解密
/// </summary>
public class AES
{
#region 加密
#region 加密字符串
/// <summary>
/// AES 加密(高级加密标准,是下一代的加密算法标准,速度快,安全级别高,目前 AES 标准的一个实现是 Rijndael 算法)
/// </summary>
/// <param name="EncryptString">待加密密文</param>
/// <param name="EncryptKey">加密密钥</param>
public static string AESEncrypt(string EncryptString, string EncryptKey)
{
return Convert.ToBase64String(AESEncrypt(Encoding.Default.GetBytes(EncryptString), EncryptKey));
}
#endregion
#region 加密字节数组
/// <summary>
/// AES 加密(高级加密标准,是下一代的加密算法标准,速度快,安全级别高,目前 AES 标准的一个实现是 Rijndael 算法)
/// </summary>
/// <param name="EncryptString">待加密密文</param>
/// <param name="EncryptKey">加密密钥</param>
public static byte[] AESEncrypt(byte[] EncryptByte, string EncryptKey)
{
if (EncryptByte.Length == 0) { throw (new Exception("明文不得为空")); }
if (string.IsNullOrEmpty(EncryptKey)) { throw (new Exception("密钥不得为空")); }
byte[] m_strEncrypt;
byte[] m_btIV = Convert.FromBase64String("Rkb4jvUy/ye7Cd7k89QQgQ==");
byte[] m_salt = Convert.FromBase64String("gsf4jvkyhye5/d7k8OrLgM==");
Rijndael m_AESProvider = Rijndael.Create();
try
{
MemoryStream m_stream = new MemoryStream();
PasswordDeriveBytes pdb = new PasswordDeriveBytes(EncryptKey, m_salt, "SHA256", 1000);
CryptoStream m_csstream = new CryptoStream(m_stream, m_AESProvider.CreateEncryptor(pdb.GetBytes(32), m_btIV), CryptoStreamMode.Write);
m_csstream.Write(EncryptByte, 0, EncryptByte.Length); m_csstream.FlushFinalBlock();
m_strEncrypt = m_stream.ToArray();
m_stream.Close(); m_stream.Dispose();
m_csstream.Close(); m_csstream.Dispose();
}
catch (IOException ex) { throw ex; }
catch (CryptographicException ex) { throw ex; }
catch (ArgumentException ex) { throw ex; }
catch (Exception ex) { throw ex; }
finally { m_AESProvider.Clear(); }
return m_strEncrypt;
}
#endregion
#endregion
#region 解密
#region 解密字符串
/// <summary>
/// AES 解密(高级加密标准,是下一代的加密算法标准,速度快,安全级别高,目前 AES 标准的一个实现是 Rijndael 算法)
/// </summary>
/// <param name="DecryptString">待解密密文</param>
/// <param name="DecryptKey">解密密钥</param>
public static string AESDecrypt(string DecryptString, string DecryptKey)
{
return Convert.ToBase64String(AESDecrypt(Encoding.Default.GetBytes(DecryptString), DecryptKey));
}
#endregion
#region 解密字节数组
/// <summary>
/// AES 解密(高级加密标准,是下一代的加密算法标准,速度快,安全级别高,目前 AES 标准的一个实现是 Rijndael 算法)
/// </summary>
/// <param name="DecryptString">待解密密文</param>
/// <param name="DecryptKey">解密密钥</param>
public static byte[] AESDecrypt(byte[] DecryptByte, string DecryptKey)
{
if (DecryptByte.Length == 0) { throw (new Exception("密文不得为空")); }
if (string.IsNullOrEmpty(DecryptKey)) { throw (new Exception("密钥不得为空")); }
byte[] m_strDecrypt;
byte[] m_btIV = Convert.FromBase64String("Rkb4jvUy/ye7Cd7k89QQgQ==");
byte[] m_salt = Convert.FromBase64String("gsf4jvkyhye5/d7k8OrLgM==");
Rijndael m_AESProvider = Rijndael.Create();
try
{
MemoryStream m_stream = new MemoryStream();
PasswordDeriveBytes pdb = new PasswordDeriveBytes(DecryptKey, m_salt, "SHA256", 1000);
CryptoStream m_csstream = new CryptoStream(m_stream, m_AESProvider.CreateDecryptor(pdb.GetBytes(32), m_btIV), CryptoStreamMode.Write);
m_csstream.Write(DecryptByte, 0, DecryptByte.Length); m_csstream.FlushFinalBlock();
m_strDecrypt = m_stream.ToArray();
m_stream.Close(); m_stream.Dispose();
m_csstream.Close(); m_csstream.Dispose();
}
catch (IOException ex) { throw ex; }
catch (CryptographicException ex) { throw ex; }
catch (ArgumentException ex) { throw ex; }
catch (Exception ex) { throw ex; }
finally { m_AESProvider.Clear(); }
return m_strDecrypt;
}
#endregion
#endregion
}
} 这么给力
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