C#与java TCP通道加密通信

时间:2024-02-25 12:10:34

背景说明

公司收费系统需要与银行做实时代收对接,业务协议使用我们收费系统的标准。但是银行要求在业务协议的基础上,使用银行的加密规则。

  1. 采用MD5计算报文摘要,保证数据的完整性
  2. 采用RSA256对摘要进行签名,保证报文的合法性
  3. 采用AES进行对称加密,保证报文的私密性

我们几个人一评估,在业务报文上加一套加密方案,加密方法又是通用的,这个能有什么问题,没问题。

银行发来的测试证书在这里

后来才知道这应该叫java版格式,而且这个证书经验证是正确的,可正常签名、验签的。

-----BEGIN PRIVATE KEY-----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-----END PRIVATE KEY-----
-----BEGIN PUBLIC KEY-----
MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA5ZYXPYMO2iLr/FEZ3/D7
T0SWcMNujnkrE2tRh7bqh3YwmqLAVylmgtv0sVd5bFEYsxVWPh4bx+s4KjQloUm5
8HebnKvGYgZG9vZCG2/aFSn7cabDE32XQIF0XlD4NXBOc8S76ZkjPIIMPdnzqvwo
GIG4p4MwEnGEeTJjIB+T8CBFYezIpaEuXzMfR1g7igGYHV42mRweVC/Lrr2/N4sr
SiSBJkt+Ol+NYwjPFEMC+IUWj77aLhkiM/qIg6aLT3yULSVcz9T/275ULESR0p9W
uWg6PsoB9t9fjynXys4cMQwzHiN2Mts8aiSrR6VXNN9ztsn75+U5UO/T9I/4bMGN
HwIDAQAB
-----END PUBLIC KEY-----

C#版本证书在这里,这个是后来正确的测试证书转换的C#版本,与上面的java版本对应

私钥

<RSAKeyValue><Modulus>5ZYXPYMO2iLr/FEZ3/D7T0SWcMNujnkrE2tRh7bqh3YwmqLAVylmgtv0sVd5bFEYsxVWPh4bx+s4KjQloUm58HebnKvGYgZG9vZCG2/aFSn7cabDE32XQIF0XlD4NXBOc8S76ZkjPIIMPdnzqvwoGIG4p4MwEnGEeTJjIB+T8CBFYezIpaEuXzMfR1g7igGYHV42mRweVC/Lrr2/N4srSiSBJkt+Ol+NYwjPFEMC+IUWj77aLhkiM/qIg6aLT3yULSVcz9T/275ULESR0p9WuWg6PsoB9t9fjynXys4cMQwzHiN2Mts8aiSrR6VXNN9ztsn75+U5UO/T9I/4bMGNHw==</Modulus><Exponent>AQAB</Exponent><P>/t4JgS32JS8cxyEKHh0tGOZhvsh/f2IOi1+pAtBKCQan34n/NCBUeyn8Ep/K95A+bPMIltaoUZYkBTGFbVsqdkcyG19qsV5B2ldyfvBoSpwsS7oLcV78EUPLBClCpYfmbq/MEdYTysJsjKRcROR0p30Cu/VEP72WTyY4zMy6yp8=</P><Q>5ptKmDAud48hlI7gNWkKIVEH16cg+0fSa1JgrBUZHOoVTuK8xMUxsGyYeYYolXd7I5Q4vdZwTzjGkAzCMtHzhMUSbzt6i04orDkfB3HEXgoIiGvChh+CjYOhc6aqKd3vFOwVyqZ0s5slc7EF4qWy9ZWD3hwWGfEEXkO1Zc/MrYE=</Q><DP>DatlARuw9v+W4ItCGqlf8NTyayQfyno843bG/tKjFebYfCHPoUEWpuByl6EgZrTC1F8Yl9Z9gpq15d1pFZttJJje9B7i/w5aI9bK2koUnePQcGNTF8qLZHWpXtjDrVMjpc4h+NbtitNwtP5fwIYsR4tp6SDXfz+w3x/irgFRB2s=</DP><DQ>DYhzejbpoy6NI/C2i6vcYlQlB6zRLK3sVUwCTFb4oE/EbFq2BT4lSls1H3yWCR935ICgS9O3x45naLC2/NCBX/tIt6pf6KjvjhvUDFXK1lH0aj0Yr1JOEQv2f5j6R3a0vx+Tr87Q7nFeY0myNLjQpcTedjxjt6YDQZzrmkv1kQE=</DQ><InverseQ>093wU/Ti1O3KqK6cTwYms4hAa0JSgSeniAlXlVUa6zX2pV/qtUyvVgQyWiPGC6NxpAm0Tzvxl6nq6vZZ5m5URA6qpdEvAoFNpZgDSJpuFQN3+cCHlwKMF9xit92dCic2sEmLkBxxt9SXoUSGSgVdBShzWadq4pwIHUAK+0FE0Yg=</InverseQ><D>pkqRaMd9wXhb73Uaxb65eI/YW7LiaCXRko5ADonp09ZCnC7YHAnrq0sAMFeIpnES79u7jOCoBKUWGFOPEgThvhAUUWWGGsgrLIPwHAlnL78p1gcQ8xQbsuhRTmNddO90k5vi8+8su44CqeYs/SMJM7757bMy5Zj9d/+MFt9oexq1Izc8dg3/OVMwPIWp8NzqKD6Ip6NbR2c0FBmkXK2KOliBbdBLpcqScNGhDRXW+mOgIJQyV97y2i20agG3VDyqs0rEVv13JdeQbH9CAN+/wD6Ra/Va7BhAaix70a7QvbxNYY58dLf32gl98l3Br+jaej4oJoqOMvl0IiPMsObxAQ==</D></RSAKeyValue>

公钥

<RSAKeyValue><Modulus>5ZYXPYMO2iLr/FEZ3/D7T0SWcMNujnkrE2tRh7bqh3YwmqLAVylmgtv0sVd5bFEYsxVWPh4bx+s4KjQloUm58HebnKvGYgZG9vZCG2/aFSn7cabDE32XQIF0XlD4NXBOc8S76ZkjPIIMPdnzqvwoGIG4p4MwEnGEeTJjIB+T8CBFYezIpaEuXzMfR1g7igGYHV42mRweVC/Lrr2/N4srSiSBJkt+Ol+NYwjPFEMC+IUWj77aLhkiM/qIg6aLT3yULSVcz9T/275ULESR0p9WuWg6PsoB9t9fjynXys4cMQwzHiN2Mts8aiSrR6VXNN9ztsn75+U5UO/T9I/4bMGNHw==</Modulus><Exponent>AQAB</Exponent></RSAKeyValue>

第一波 复制粘贴加密算法

百度C#RSA签名,大差不差,还简洁明了,很快签名、验签方法就出来啦。

/// <summary>
/// RSA签名
/// </summary>
/// <param name="privateKey">私钥</param>
/// <param name="data">待签名的内容</param>
/// <returns></returns>
public static string RSASignCSharp(string data, string privateKey, string hashAlgorithm = "SHA256", string encoding = "UTF-8")
{
    RSACryptoServiceProvider rsa = new RSACryptoServiceProvider();
    rsa.FromXmlString(privateKey); //加载私钥   
    var dataBytes = Encoding.GetEncoding(encoding).GetBytes(data);
    var HashbyteSignature = rsa.SignData(dataBytes, hashAlgorithm);
    return Convert.ToBase64String(HashbyteSignature);
}

/// <summary> 
/// 验证签名
/// </summary>
/// <param name="data"></param>
/// <param name="signature"></param>
/// <param name="encoding"></param>
/// <returns></returns>
public static bool VerifyCSharp(string data, string publicKey, string signature, string hashAlgorithm = "SHA256", string encoding = "UTF-8")
{
    RSACryptoServiceProvider rsa = new RSACryptoServiceProvider();
    //导入公钥,准备验证签名
    rsa.FromXmlString(publicKey);
    //返回数据验证结果
    byte[] Data = Encoding.GetEncoding(encoding).GetBytes(data);
    byte[] rgbSignature = Convert.FromBase64String(signature);
    return rsa.VerifyData(Data, hashAlgorithm, rgbSignature);
}

王婆卖瓜,自卖自夸。

来波自签自验吧,竟然不过。怎么就不过了呢,越简单越感觉无处下手调试呀。算法都封装了,那只可能是参数的问题了。

第二波 证书格式转换

主要原因是java和C#采用的公钥、私钥存储格式不一致,导致无法直接使用银行提供的java版证书,需要进行格式转换,转换成C#能够识别的证书。这里是转换方法

/// <summary>
/// RSA公钥格式转换,java->.net
/// </summary>
/// <param name="publicKey">java生成的公钥</param>
/// <returns></returns>
public static string RSAPublicKeyJava2DotNet(string publicKey)
{
    RsaKeyParameters publicKeyParam = (RsaKeyParameters)PublicKeyFactory.CreateKey(Convert.FromBase64String(publicKey));
    return string.Format("<RSAKeyValue><Modulus>{0}</Modulus><Exponent>{1}</Exponent></RSAKeyValue>",
        Convert.ToBase64String(publicKeyParam.Modulus.ToByteArrayUnsigned()),
        Convert.ToBase64String(publicKeyParam.Exponent.ToByteArrayUnsigned()));

}
/// <summary>
/// RSA私钥格式转换,java->.net
/// </summary>
/// <param name="privateKey">java生成的私钥</param>
/// <returns></returns>
public static string RSAPrivateKeyJava2DotNet(string privateKey)
{
    RsaPrivateCrtKeyParameters privateKeyParam = (RsaPrivateCrtKeyParameters)PrivateKeyFactory.CreateKey(Convert.FromBase64String(privateKey));

    return string.Format("<RSAKeyValue><Modulus>{0}</Modulus><Exponent>{1}</Exponent><P>{2}</P><Q>{3}</Q><DP>{4}</DP><DQ>{5}</DQ><InverseQ>{6}</InverseQ><D>{7}</D></RSAKeyValue>",
        Convert.ToBase64String(privateKeyParam.Modulus.ToByteArrayUnsigned()),
        Convert.ToBase64String(privateKeyParam.PublicExponent.ToByteArrayUnsigned()),
        Convert.ToBase64String(privateKeyParam.P.ToByteArrayUnsigned()),
        Convert.ToBase64String(privateKeyParam.Q.ToByteArrayUnsigned()),
        Convert.ToBase64String(privateKeyParam.DP.ToByteArrayUnsigned()),
        Convert.ToBase64String(privateKeyParam.DQ.ToByteArrayUnsigned()),
        Convert.ToBase64String(privateKeyParam.QInv.ToByteArrayUnsigned()),
        Convert.ToBase64String(privateKeyParam.Exponent.ToByteArrayUnsigned()));
}

结果证书转换也不过,直接抛异常。然后就反复梳理代码逻辑,总觉得转换方法不对,各种百度。

众里寻他千百度。蓦然回首,那人却在,灯火阑珊处。

这大概就是这种比较不可思议问题的纠结吧,证书不会有错吧?
出于验证的目的我们找到了线上在用的正常证书,进行转换,正常转换,签名验签正常。不至于吧,我又找来了java的转换方法。下面是java代码,转换java证书为C#格式:

package com.company;


import com.sun.org.apache.xerces.internal.impl.dv.util.Base64;

import java.security.KeyFactory;
import java.security.PublicKey;
import java.security.interfaces.RSAPrivateCrtKey;
import java.security.interfaces.RSAPublicKey;
import java.security.spec.PKCS8EncodedKeySpec;
import java.security.spec.X509EncodedKeySpec;

public class CerJava2CSharp {
    public static void main(String[] args)
    {
        String tes="java版私钥证书";
        byte[] temp=b64decode(tes);
        String ver=getRSAPrivateKeyAsNetFormat(temp);//转换私钥

        String tes1="java版公钥证书";
        byte[] temp1=b64decode(tes1);
        String ver1=getRSAPublicKeyAsNetFormat(temp1);//转换公钥
        String temp2= ver1;

    }
    
    public static String getRSAPrivateKeyAsNetFormat(byte[] encodedPrivkey) {
        try {
            StringBuffer buff = new StringBuffer(1024);

            PKCS8EncodedKeySpec pvkKeySpec = new PKCS8EncodedKeySpec(
                    encodedPrivkey);
            KeyFactory keyFactory = KeyFactory.getInstance("RSA");
            RSAPrivateCrtKey pvkKey = (RSAPrivateCrtKey) keyFactory
                    .generatePrivate(pvkKeySpec);

            buff.append("<RSAKeyValue>");
            buff.append("<Modulus>"
                    + b64encode(removeMSZero(pvkKey.getModulus().toByteArray()))
                    + "</Modulus>");

            buff.append("<Exponent>"
                    + b64encode(removeMSZero(pvkKey.getPublicExponent()
                    .toByteArray())) + "</Exponent>");

            buff.append("<P>"
                    + b64encode(removeMSZero(pvkKey.getPrimeP().toByteArray()))
                    + "</P>");

            buff.append("<Q>"
                    + b64encode(removeMSZero(pvkKey.getPrimeQ().toByteArray()))
                    + "</Q>");

            buff.append("<DP>"
                    + b64encode(removeMSZero(pvkKey.getPrimeExponentP()
                    .toByteArray())) + "</DP>");

            buff.append("<DQ>"
                    + b64encode(removeMSZero(pvkKey.getPrimeExponentQ()
                    .toByteArray())) + "</DQ>");

            buff.append("<InverseQ>"
                    + b64encode(removeMSZero(pvkKey.getCrtCoefficient()
                    .toByteArray())) + "</InverseQ>");

            buff.append("<D>"
                    + b64encode(removeMSZero(pvkKey.getPrivateExponent()
                    .toByteArray())) + "</D>");
            buff.append("</RSAKeyValue>");

            return buff.toString().replaceAll("[ \t\n\r]", "");
        } catch (Exception e) {
            System.err.println(e);
            return null;
        }
    }

    public static String getRSAPublicKeyAsNetFormat(byte[] encodedPrivkey) {
        try {
            StringBuffer buff = new StringBuffer(1024);

            PKCS8EncodedKeySpec pvkKeySpec = new PKCS8EncodedKeySpec(encodedPrivkey);
            KeyFactory keyFactory = KeyFactory.getInstance("RSA");
            RSAPublicKey pukKey=(RSAPublicKey) keyFactory.generatePublic(new X509EncodedKeySpec(encodedPrivkey));
            // RSAPrivateCrtKey pvkKey = (RSAPrivateCrtKey) keyFactory.generatePrivate(pvkKeySpec);

            //PublicKey publicKey =KeyFactory.getInstance("RSA").generatePublic(pvkKeySpec);
            buff.append("<RSAKeyValue>");
            buff.append("<Modulus>"
                    + b64encode(removeMSZero(pukKey.getModulus().toByteArray()))
                    + "</Modulus>");
            buff.append("<Exponent>"
                    + b64encode(removeMSZero(pukKey.getPublicExponent()
                    .toByteArray())) + "</Exponent>");
            buff.append("</RSAKeyValue>");
            return buff.toString().replaceAll("[ \t\n\r]", "");
        } catch (Exception e) {
            System.err.println(e);
            return null;
        }
    }

    public static String encodePublicKeyToXml(PublicKey key) {
        if (!RSAPublicKey.class.isInstance(key)) {
            return null;
        }
        RSAPublicKey pubKey = (RSAPublicKey) key;
        StringBuilder sb = new StringBuilder();

        sb.append("<RSAKeyValue>");
        sb.append("<Modulus>")
                .append(Base64.encode(pubKey.getModulus().toByteArray()))
                .append("</Modulus>");
        sb.append("<Exponent>")
                .append(Base64.encode(pubKey.getPublicExponent()
                        .toByteArray())).append("</Exponent>");
        sb.append("</RSAKeyValue>");
        return sb.toString();
    }

    public static byte[] removeMSZero(byte[] data) {
        byte[] data1;
        int len = data.length;
        if (data[0] == 0) {
            data1 = new byte[data.length - 1];
            System.arraycopy(data, 1, data1, 0, len - 1);
        } else
            data1 = data;

        return data1;
    }

    public static String b64encode(byte[] data) {

        String b64str = new String(Base64.encode(data));
        return b64str;
    }

    public static byte[] b64decode(String data) {
        byte[] decodeData = Base64.decode(data);
        return decodeData;
    }
}

经验证,仍然无法转换,好吧,实锤了,证书有问题。至于是什么原因造成的证书问题,不太清楚。更换证书后,转换、签名、验签一切OK。

PS1 RSA证书格式

我们通常看到的比较多的证书对形式,pfx证书包含了公钥信息和私钥信息。cer证书只包含公钥信息。pfx证书既可以导出为pfx证书,也可以导出为cer证书。pfx证书导出时,会提示是否导出私钥,导出私钥即pfx证书,不到出则是cer证书。pfx证书导入、导出和程序加载时,是需要提供证书密码的。

  • 私钥证书常见格式:pfx p12 pem key
  • 公钥证书常见格式:pem crt/cer key

参考博文

OpenSSL中证书格式的区别以及格式的转换

RSA密钥——JAVA与C#的区别和联系