标签:oba 公钥加密 font ati turn eof min div 非对称加密
证书实现非对称加密/解密的代码如下 //非对称加密密钥 static byte[] RSAEncrypt(byte[] enkey, X509Certificate2 Certificate) { RSACryptoServiceProvider RSA = Certificate.PublicKey.Key as RSACryptoServiceProvider; return RSA.Encrypt(enkey, false); } //非对成解密密钥 static byte[] RSADecrypt(byte[] context, X509Certificate2 Certificate) { RSACryptoServiceProvider RSA = Certificate.PrivateKey as RSACryptoServiceProvider; return RSA.Decrypt(context, false); } 使用证书的公钥加密,使用证书的私钥解密
对称加密算法进行消息的加密和解密,代码如下: //对称加密消息内容 static byte[] Encrypt(SymmetricAlgorithm RC2, string bodystring) { MemoryStream ms = new MemoryStream(); CryptoStream encStream = new CryptoStream(ms, RC2.CreateEncryptor(), CryptoStreamMode.Write); StreamWriter sw = new StreamWriter(encStream); sw.WriteLine(bodystring); sw.Close(); encStream.Close(); byte[] buffer = ms.ToArray(); ms.Close(); return buffer; } //对称解密消息内容 static string Decrypt(byte[] CypherText, SymmetricAlgorithm RC2) { MemoryStream ms = new MemoryStream(CypherText); CryptoStream encStream = new CryptoStream(ms, RC2.CreateDecryptor(), CryptoStreamMode.Read); StreamReader sr = new StreamReader(encStream); string val = sr.ReadLine(); sr.Close(); encStream.Close(); ms.Close(); return val; }
static void Send()
{
MessageQueue mq = new MessageQueue(DestinationQueue);
//mq.EncryptionRequired = EncryptionRequired.Body;
//mq.FormatName = new BinaryMessageFormatter();
Message message = new Message();
//采用二进制序列化
message.Formatter = new BinaryMessageFormatter();// new XmlMessageFormatter(new Type[] { typeof(string) });
//获取x509证书
X509Certificate2 certificate = GetCertificate();
//使用x509证书非对称加密对称加密密钥
RC2CryptoServiceProvider RC2 = new RC2CryptoServiceProvider();
byte[] key=RSAEncrypt(RC2.Key, certificate);
byte[] iv = RSAEncrypt(RC2.IV, certificate);
byte[] extarry= new byte[256];
key.CopyTo(extarry, 0);
iv.CopyTo(extarry, 128);
//保存使用非对称加密后的对称加密密钥
message.Extension = extarry;
//message.DestinationSymmetricKey = RSAEncrypt(RC2.Key, certificate);
//设定使用非对称加密的证书
//message.DigitalSignature = certificate.RawData;
message.SenderCertificate = certificate.RawData;
message.UseEncryption = false;
//message.AcknowledgeType = AcknowledgeTypes.PositiveReceive | AcknowledgeTypes.PositiveArrival;
//message.AdministrationQueue = new MessageQueue(@"thinkpad-t400\private$\myAdministrationQueue");
//message.UseJournalQueue = true;
message.UseDeadLetterQueue = true;
//设定对消息体对称加密算法
message.EncryptionAlgorithm = EncryptionAlgorithm.Rc2;
//message.ConnectorType = new Guid("1E9A03C5-A9B5-4BF6-B0CB-CCB313275285");
message.Label = Guid.NewGuid().ToString();
//生成同步加密key
//MD5CryptoServiceProvider hashmd5 = new MD5CryptoServiceProvider();
//SHA256CryptoServiceProvider hsa = new SHA256CryptoServiceProvider();
//byte[] keyArray = hsa.ComputeHash(System.Text.Encoding.ASCII.GetBytes(DestinationSymmetricKey));
//message.HashAlgorithm = System.Messaging.HashAlgorithm.Sha;
// RC2.Key = keyArray;
//使用RC2算法进行加密
byte[] enarry = Encrypt(RC2, BodyString);
string base64 = Convert.ToBase64String(enarry);
message.Body = enarry;
//message.SecurityContext = new SecurityContext();
Console.WriteLine("send encrypt message \r\n" + BodyString);
mq.Send(message, MessageQueueTransactionType.Single);
}
static void Receive()
{
MessageQueue mq = new MessageQueue(DestinationQueue);
//设定读取消息中证书,扩展属性中加密过的解密密钥
mq.MessageReadPropertyFilter.DestinationSymmetricKey = true;
mq.MessageReadPropertyFilter.Extension = true;
mq.MessageReadPropertyFilter.SenderCertificate = true;
mq.MessageReadPropertyFilter.DigitalSignature = true;
Message message=mq.Receive(MessageQueueTransactionType.Single);
message.Formatter = new BinaryMessageFormatter();
//获取证书
byte[] cert = message.SenderCertificate;
X509Certificate2 x509 = new X509Certificate2(cert);
x509 = GetCertificateBySubject(x509.Subject);
Console.WriteLine(x509.Thumbprint.ToString());
byte[] key = new byte[128];
byte[] iv = new byte[128];
for(int i=0;i<message.Extension.Length;i++)
{
if(i<128)
key[i] = message.Extension[i];
else
iv[i - 128] = message.Extension[i];
}
//还原对称加密密钥
key = RSADecrypt(key, x509);
iv = RSADecrypt(iv, x509);
//解密消息
RC2CryptoServiceProvider rc2 = new RC2CryptoServiceProvider();
rc2.Key = key;
rc2.IV = iv;
byte[] body = message.Body as byte[];
string bodystring= Decrypt(body, rc2);
Console.WriteLine("receive message " + bodystring);
}
证书实现非对称加密/解密的代码如下
//非对称加密密钥
static byte[] RSAEncrypt(byte[] enkey, X509Certificate2 Certificate)
{
RSACryptoServiceProvider RSA = Certificate.PublicKey.Key as RSACryptoServiceProvider;
return RSA.Encrypt(enkey, false);
}
//非对成解密密钥
static byte[] RSADecrypt(byte[] context, X509Certificate2 Certificate)
{
RSACryptoServiceProvider RSA = Certificate.PrivateKey as RSACryptoServiceProvider;
return RSA.Decrypt(context, false);
}
使用证书的公钥加密,使用证书的私钥解密
标签:oba 公钥加密 font ati turn eof min div 非对称加密
原文地址:http://www.cnblogs.com/xiangxiong/p/7614372.html