java与.net平台之间进行RSA加密验证
RSA加密算法虽然不分平台,标准都是一样的,但是各个平台的实现方式都不尽相同,下面来我来说说
java与.net平台之间该如何进行RSA加密验证,
即java端加密-》.net端验证和.net端加密-》java端验证。
我对RSA算法也只是停留在应用的层面,所以我就以应用的角度来说说这个过程。
首先,我们来看一下java端的私钥和公钥的样子:
私钥:
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
公钥:
MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQC+lSTeGZH2QN2jz4Cgt8Wqk/8mU+RTpUOUxoOoXlag1RBx1Sx9RPhxBJlprk79p4M/aWW88vSlpCaVefVtXYDR0kpOe+VY1AL9AYWVxUh9JZ4NpmdkOf9nVcSrAEoydm0IhBlA/CzuSqWi5X0KaNwDaLwWb1LR8OXsXoJ8l8mWwwIDAQAB
我们再来看一下.net端的私钥和公钥的样子:
私钥:
<RSAKeyValue><Modulus>vpUk3hmR9kDdo8+AoLfFqpP/JlPkU6VDlMaDqF5WoNUQcdUsfUT4cQSZaa5O/aeDP2llvPL0paQmlXn1bV2A0dJKTnvlWNQC/QGFlcVIfSWeDaZnZDn/Z1XEqwBKMnZtCIQZQPws7kqlouV9CmjcA2i8Fm9S0fDl7F6CfJfJlsM=</Modulus><Exponent>AQAB</Exponent><P>+94gtho2crq+GpiUDyunfpA5SdHWMslL0GtL3epn6D50AziKmsgWrnksFiKSyPy+3lLj/Qgxa8kLXQb1qg/3QQ==</P><Q>wbWcrybn0eaxiPZacZLZXzXO8g12hYoXT1h0DTLvy1rnVUOspNfKZcBZMjPxT4+QEknoTShSnSbJ5sHitfZxAw==</Q><DP>0yVTbPYqoSHWTvuMW+9v2hVUQYNtO2Qvb4kTr/VbqIH6xdx3reyBv0CL6f6P6XihFkaNJMnijIadRR6ZgjkiQQ==</DP><DQ>gPSTa3L+DxmCBQjj6wn01dJvg2p9BaeJnxPmpkbLplhM+tFDpLXXkud7OdWkhu+u3M4A7SSz4tTIwms+rx5x2w==</DQ><InverseQ>4NxLLg6UCAoCpXMgqqZHWMgbMwNNFr9diCWP/tZ5OJmWYHgn7zfqMXa/RNaethjdG1biIkj5h7qm6XDBBqGuxw==</InverseQ><D>r7YEWr1KhLcDYg9jMUqd9QokOSspnTEGoPlx016/EeO/GKSJMynOwSyTYQszisvRxzoecdmyU7GHXVMnQ2Ds7WvbcuNkIRWmxFa4nTkk2zNF6KByvvFwLiW4LQXF6B+uV7+ZNqvfhCoD/j2wki8jfWkuuAaKnTda/axHMi+zRYE=</D></RSAKeyValue>
公钥:
<RSAKeyValue><Modulus>vpUk3hmR9kDdo8+AoLfFqpP/JlPkU6VDlMaDqF5WoNUQcdUsfUT4cQSZaa5O/aeDP2llvPL0paQmlXn1bV2A0dJKTnvlWNQC/QGFlcVIfSWeDaZnZDn/Z1XEqwBKMnZtCIQZQPws7kqlouV9CmjcA2i8Fm9S0fDl7F6CfJfJlsM=</Modulus><Exponent>AQAB</Exponent></RSAKeyValue>
所以,只要将一边的公钥和私钥转换成另一边的即可。
我的做法是将java端的公钥和私钥转换成.net端的公钥和私钥。
咱们先看私钥的转换:
// --- Returns XML encoded RSA private key string suitable for .NET // CryptoServiceProvider.FromXmlString(true) ------ // --- Leading zero bytes (most significant) must be removed for XML // encoding for .NET; otherwise format error ---
private 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;
}
}
再看公钥的转换:
// --- Returns XML encoded RSA public key string suitable for .NET // CryptoServiceProvider.FromXmlString(true) ------ // --- Leading zero bytes (most significant) must be removed for XML // encoding for .NET; otherwise format error --- private String getRSAPublicKeyAsNetFormat(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("</RSAKeyValue>"); return buff.toString().replaceAll("[ \t\n\r]", ""); } catch (Exception e) { System.err.println(e); return null; } }
通过以上两个方法,就可以将java端的公钥和私钥转换为.net端的了。
然后.net端可以用如下代码装载转换好的key
//java端转换为.net端的私钥 string NET_PRIVATE_KEY = @"<RSAKeyValue><Modulus>lKc3QnhdBGrA+Tkz0QvbgEWHDjS/AMp4bhwqFgQXdo+mIwC/8POr8GpgCpsY2GgU+PBIFI51q2U64aKFwQYQhxSiQI3r7kAa5+DVQVhheRlAaHz/iRMr2HqVkxqtjoTbNjVCMuTqgX7xu30YDcX9ZXSH0lGWCy3NEdzxBpOAtFk=</Modulus><Exponent>AQAB</Exponent><P>3eX5uQZalJF/tgosNUUV8ss4aVAwDntID63Ta6bFEnZFzp3YckXKGzmOQuygHK0tuUviN+BQFlk0eelMz3JMiQ==</P><Q>q3+YtH0B30ijTITtGWqNI+zXbhpodhVuugWHkihz9XKFQ7srbYA3YovvyOmK1Q/zlF92X3MFfUjRFWB/fEVVUQ==</Q><DP>Ey1tB7Ck43Ivt2vppjDyVKl7lp53iMje0XwUaZlgLthJ8DF0I2wkq3Wt9dq9e7z71qfYRTv9r/DFuEORf9xBAQ==</DP><DQ>n2ynDSmkIugIfeqX6meluv7BqWW9NABqhVz8kT8vxLzn63XEQi/NzLtfdbq8x6HjgktX5BUtxjB5xVCGUoS1cQ==</DQ><InverseQ>FNZDF90zR/2b/kevm4DomVTs7Iz/oaidOFsLQqD4BZfycuMdpTMAO8UUVtK5+eL7G24JaJAmb1U6QfkTc4syOQ==</InverseQ><D>cVf2aHZB5kZHkT+uZKx31xwsWAabxEyc+sf6xwKjqUDqWjIOJ/iDlzJkvHF5xjfGFfGP5CyjR+ZNuREkjwLCwjBiOhp34QMuN22LbKfHsvgHYiAOqkTxwASQ2FwaonA8nrfluHZhWECMrOSYag2QWuaOoToF91XvkNf8tBFcHQE=</D></RSAKeyValue>"; //java端转换为.net端的公钥 //string NET_PUBLIC_KEY = @"<RSAKeyValue><Modulus>vpUk3hmR9kDdo8+AoLfFqpP/JlPkU6VDlMaDqF5WoNUQcdUsfUT4cQSZaa5O/aeDP2llvPL0paQmlXn1bV2A0dJKTnvlWNQC/QGFlcVIfSWeDaZnZDn/Z1XEqwBKMnZtCIQZQPws7kqlouV9CmjcA2i8Fm9S0fDl7F6CfJfJlsM=</Modulus><Exponent>AQAB</Exponent></RSAKeyValue>"; RSA = new RSACryptoServiceProvider(); RSA.FromXmlString(NET_PRIVATE_KEY); //RSA.FromXmlString(NET_PUBLIC_KEY);
注意,如果.net端只是验证,可以只导入NET_PUBLIC_KEY;如果.net端既加密又验证,那么只导入NET_PRIVATE_KEY即可,不用导入NET_PUBLIC_KEY。
下面给出完整代码及使用说明:
使用说明:
1.使用java端的GenerateKeys方法,生成java端和.net端需要的公钥和私钥
2.java端调用Sign方法进行加密,调用Verify方法进行验证
3..net端调用signData方法进行加密,调用verifySignature方法进行验证
.net端c#代码:
using System;using System.Security.Cryptography;using System.IO;using System.Text;using System.Xml;using System.Web;namespace RSASecurity{ class ssosign { private RSAParameters RSAKeyInfo; private static RSACryptoServiceProvider RSA=null; //私钥 private const string NET_PRIVATE_KEY = @"<RSAKeyValue><Modulus>lKc3QnhdBGrA+Tkz0QvbgEWHDjS/AMp4bhwqFgQXdo+mIwC/8POr8GpgCpsY2GgU+PBIFI51q2U64aKFwQYQhxSiQI3r7kAa5+DVQVhheRlAaHz/iRMr2HqVkxqtjoTbNjVCMuTqgX7xu30YDcX9ZXSH0lGWCy3NEdzxBpOAtFk=</Modulus><Exponent>AQAB</Exponent><P>3eX5uQZalJF/tgosNUUV8ss4aVAwDntID63Ta6bFEnZFzp3YckXKGzmOQuygHK0tuUviN+BQFlk0eelMz3JMiQ==</P><Q>q3+YtH0B30ijTITtGWqNI+zXbhpodhVuugWHkihz9XKFQ7srbYA3YovvyOmK1Q/zlF92X3MFfUjRFWB/fEVVUQ==</Q><DP>Ey1tB7Ck43Ivt2vppjDyVKl7lp53iMje0XwUaZlgLthJ8DF0I2wkq3Wt9dq9e7z71qfYRTv9r/DFuEORf9xBAQ==</DP><DQ>n2ynDSmkIugIfeqX6meluv7BqWW9NABqhVz8kT8vxLzn63XEQi/NzLtfdbq8x6HjgktX5BUtxjB5xVCGUoS1cQ==</DQ><InverseQ>FNZDF90zR/2b/kevm4DomVTs7Iz/oaidOFsLQqD4BZfycuMdpTMAO8UUVtK5+eL7G24JaJAmb1U6QfkTc4syOQ==</InverseQ><D>cVf2aHZB5kZHkT+uZKx31xwsWAabxEyc+sf6xwKjqUDqWjIOJ/iDlzJkvHF5xjfGFfGP5CyjR+ZNuREkjwLCwjBiOhp34QMuN22LbKfHsvgHYiAOqkTxwASQ2FwaonA8nrfluHZhWECMrOSYag2QWuaOoToF91XvkNf8tBFcHQE=</D></RSAKeyValue>"; //公钥参数 private const string PUB_KEY_MODULES = @"1lpnLvumD8/NedJ7s4WS8UO9OORbXVTgJXmfa72bI4A1L1l6Np91BETQ+yB8Fq6iGWw5OR8OB2UbRBcopb2etepDqWd7kmCtbVT36kTW+E8dWdaVjbI2BCXEGaXuzPPdGOlp52OaawYR5zyG0MiCvJ4jE7RDJax4Cl24ZqPUs4U="; //公钥参数 private const string PUB_KEY_EXP = @"AQAB"; /// <summary> /// Reads the Public key file and Loads the RSAParameters with the /// Modulous and Exponent data. /// </summary> public ssosign(RSAType type) { RSA = new RSACryptoServiceProvider(); //if (type == RSAType.ITDMS) //{ // RSAKeyInfo = new RSAParameters(); // RSAKeyInfo.Modulus = Convert.FromBase64String(PUB_KEY_MODULES); // RSAKeyInfo.Exponent = Convert.FromBase64String(PUB_KEY_EXP); // RSA.ImportParameters(RSAKeyInfo); //} //else //type == RSAType.RSP //{ RSA.FromXmlString(NET_PRIVATE_KEY); //} } /// <summary> /// sign the data /// </summary> /// <param name="dataToBeSigned"></param> /// <returns></returns> public string signData(string dataToBeSigned) { byte[] data = Encoding.UTF8.GetBytes(dataToBeSigned); byte[] endata = RSA.SignData(data,"SHA1"); return Convert.ToBase64String(endata); } /// <summary> /// Verifies the signature for a given data. /// </summary> /// <param name="signature">Signature data in Base64</param> /// <param name="signedData">Original data in BASE64</param> /// <returns>True if signature is valid else False</returns> public bool verifySignature(string signature,string signedData) { byte[] sign = Convert.FromBase64String(signature); return verifySignature(sign,signedData); } /// <summary> /// Verifies the signature for a given data. /// </summary> /// <param name="signature">The signature </param> /// <param name="signedData">Original data in Base64</param> /// <returns></returns> public bool verifySignature(byte[] signature , string signedData) { try { byte[] hash = Convert.FromBase64String(signedData); if(RSA.VerifyData(hash,"SHA1",signature)) { return true; } else { //Console.WriteLine("The signature is not valid."); return false; } } catch(Exception e) { Console.WriteLine(e.Message); return false; } } /// <summary> /// The main entry point for the application. /// </summary> [STAThread] static void Main() { ssosign sso = new ssosign(RSAType.RSP); string user = "limt"; string time = "2010-12-01 11:00:00"; string data = user + time; string endata = Convert.ToBase64String(Encoding.UTF8.GetBytes(data)); //string ensignature = @"SjAoGfsw+vjTLOEC7eXq+V41Q6UNdRXVIdD+5gTbEfy8tfE8cgDIZRn4uIAydYfqprhJ2GbJnTTpQZxOJ0PsQR9TUVVGp0QmbNOJc/Zjm0kuBBwF43ESTSMe0CpXqOLMpLasP7hEdJlVgcrEIXijde0GxSD7qZ+6Ty8P0istR1Y="; string ensignature = sso.signData(data); bool result = sso.verifySignature(ensignature, endata); Console.WriteLine("Data is validate: " + result); //string str = HttpUtility.UrlDecode("MDEyMzQ1Njc4OTAxMjM0NTY3ODkwMTIzNDU2Nzg5MDEyMzQ1Njc4OQ%3D%3D",Encoding.UTF8); //Console.WriteLine(str); Console.ReadLine(); } }}
java端代码:
package rsa;import java.security.*;import java.security.spec.*;import java.io.*;import java.security.interfaces.*;import org.castor.util.Base64Decoder;import org.castor.util.Base64Encoder;public class ssosign { private KeyPairGenerator keyGen; // Key pair generator for RSA private PrivateKey privateKey; // Private Key Class private PublicKey publicKey; // Public Key Class private KeyPair keypair; // KeyPair Class private Signature sign; // Signature, used to sign the data /** * Default Constructor. Instantiates the signature algorithm. */ public ssosign() { try { // Get the instance of Signature Engine. sign = Signature.getInstance("SHA1withRSA"); } catch (NoSuchAlgorithmException nsa) { System.out.println("" + nsa.getMessage()); } } /** * Signs the data and return the signature for a given data. * * @param user * The current user’s external person number * @param time * The current time in string format: yyyy-mm-dd hh:mm:ss * @param EncodedCert * The hard coded certificate string, i.e. <b>private key</b> * @return String URLEncode string of Signature * @throws UnsupportedEncodingException */ public String Sign(String user, String time, String EncodedCert) { String returnStr = ""; try { String toBeSigned = user + time; byte[] signature = signData(toBeSigned.getBytes(), EncodedCert); String base64Signature = b64encode(signature); returnStr = base64Signature;// java.net.URLEncoder.encode(base64Signature, // "UTF-8"); } // catch (UnsupportedEncodingException ue) { // // TODO Auto-generated catch block // System.out.println(ue.getMessage()); // } catch (Exception e) { System.out.println(e); } return returnStr; } public boolean Verify(String base64signature, String user, String time, String EncodedCert) { String toBeSigned = user + time; // try { // base64signature = java.net.URLDecoder.decode(base64signature, // "UTF-8"); // } catch (UnsupportedEncodingException e) { // // TODO Auto-generated catch block // e.printStackTrace(); // } byte[] signature = b64decode(base64signature); return verifySignature(signature, toBeSigned.getBytes(), EncodedCert); } /** * Generates the keys for given size. * * @param size * Key Size [512|1024] * @param privateKeyPath * Private key will be generated in file which can be named with * "privateKeyPath" parameter; * @param publicKeyPath * Public key will be generated in file which can be named with * "publicKeyPath" parameter; * @param netPublicKeyPath * Public key can be read for .Net platform will be generated in * file which can be named with "netPublicKeyPath" parameter; */ public void GenerateKeys(int size, String privateKeyPath, String publicKeyPath, String netPublicKeyPath, String netPrivateKeyPath) { try { System.out.println("Generatign Keys"); // Get Key Pair Generator for RSA. keyGen = KeyPairGenerator.getInstance("RSA"); keyGen.initialize(size); keypair = keyGen.genKeyPair(); privateKey = keypair.getPrivate(); publicKey = keypair.getPublic(); // Get the bytes of the public and private keys byte[] privateKeyBytes = privateKey.getEncoded(); byte[] publicKeyBytes = publicKey.getEncoded(); // write bytes to corresponding files. writeKeyBytesToFile(b64encode(privateKeyBytes).getBytes(), privateKeyPath); String encodedValue = b64encode(publicKeyBytes); writeKeyBytesToFile(encodedValue.getBytes(), publicKeyPath); // Generate the Private Key, Public Key and Public Key in XML // format. PrivateKey privateKey = KeyFactory.getInstance("RSA") .generatePrivate(new PKCS8EncodedKeySpec(privateKeyBytes)); PublicKey publicKey = KeyFactory.getInstance("RSA").generatePublic( new X509EncodedKeySpec(publicKeyBytes)); // RSAPublicKey rsaPublicKey = (RSAPublicKey) // KeyFactory.getInstance( // "RSA").generatePublic( // new X509EncodedKeySpec(publicKeyBytes)); // // get the modules and exponent of public key to make compatible // // .Net public key file // String netPublicKey = getRSAPublicKeyAsNetFormat(rsaPublicKey); // Store the modules and exponent (Generated .Net public key file) // in file // writeKeyBytesToFile(netPublicKey.getBytes(), netPublicKeyPath); String netPrivateKey = getRSAPrivateKeyAsNetFormat(privateKeyBytes); writeKeyBytesToFile(netPrivateKey.getBytes(), netPrivateKeyPath); String netPublicKey = getRSAPublicKeyAsNetFormat(privateKeyBytes); writeKeyBytesToFile(netPublicKey.getBytes(), netPublicKeyPath); } catch (java.security.NoSuchAlgorithmException e) { System.out .println("No such algorithm. Please check the JDK version." + e.getCause()); } catch (java.security.spec.InvalidKeySpecException ik) { System.out.println("Invalid Key Specs. Not valid Key files." + ik.getCause()); } catch (UnsupportedEncodingException ex) { System.out.println(ex); } catch (IOException ioe) { System.out.println("Files not found on specified path. " + ioe.getCause()); } catch (Exception ex1) { System.out.println(ex1); } } /** * Initialize only the private key. */ private void initializePrivateKey(String privateKeyStr) { try { // Read key files back and decode them from BASE64 byte[] privateKeyBytes = b64decode(privateKeyStr); // Convert back to public and private key objects KeyFactory keyFactory = KeyFactory.getInstance("RSA"); EncodedKeySpec privateKeySpec = new PKCS8EncodedKeySpec( privateKeyBytes); privateKey = keyFactory.generatePrivate(privateKeySpec); } catch (InvalidKeySpecException e) { System.out.println("Invalid Key Specs. Not valid Key files." + e.getCause()); } catch (NoSuchAlgorithmException e) { System.out .println("There is no such algorithm. Please check the JDK ver." + e.getCause()); } } /** * Signs the data and return the signature for a given data. * * @param toBeSigned * Data to be signed * @return byte[] Signature */ private byte[] signData(byte[] toBeSigned, String EncodedCert) { if (privateKey == null) { initializePrivateKey(EncodedCert); } try { Signature rsa = Signature.getInstance("SHA1withRSA"); rsa.initSign(privateKey); rsa.update(toBeSigned); return rsa.sign(); } catch (NoSuchAlgorithmException ex) { System.out.println(ex); } catch (InvalidKeyException in) { System.out .println("Invalid Key file.Please check the key file path" + in.getCause()); } catch (SignatureException se) { System.out.println(se); } return null; } /** * Verifies the signature for the given bytes using the public key. * * @param signature * Signature * @param data * Data that was signed * @param EncodedCert * public key string * @return boolean True if valid signature else false */ private boolean verifySignature(byte[] signature, byte[] data, String EncodedCert) { try { initializePublicKey(EncodedCert); sign.initVerify(publicKey); sign.update(data); return sign.verify(signature); } catch (SignatureException e) { e.printStackTrace(); } catch (InvalidKeyException e) { } return false; } /** * Initializes the public and private keys. */ private void initializePublicKey(String publicKeyStr) { try { // Read key files back and decode them from BASE64 byte[] publicKeyBytes = b64decode(publicKeyStr); // Convert back to public and private key objects KeyFactory keyFactory = KeyFactory.getInstance("RSA"); EncodedKeySpec publicKeySpec = new X509EncodedKeySpec( publicKeyBytes); publicKey = keyFactory.generatePublic(publicKeySpec); } catch (InvalidKeySpecException e) { System.out.println("Invalid Key Specs. Not valid Key files." + e.getCause()); } catch (NoSuchAlgorithmException e) { System.out .println("There is no such algorithm. Please check the JDK ver." + e.getCause()); } }// /**// * Gets the RSA Public Key. The key idea is to make the key readable for// * .Net platform.// * // * @param key// * RSAPublicKey// * @return String the public key that .Net platform can read// */// private String getRSAPublicKeyAsNetFormat(RSAPublicKey key) {//// byte[] modulusBytes = key.getModulus().toByteArray();// modulusBytes = stripLeadingZeros(modulusBytes);// String modules = b64encode(modulusBytes);//// byte[] exponentBytes = key.getPublicExponent().toByteArray();// String exponent = b64encode(exponentBytes);//// String result = "modules : " + modules + "\r\n" + "exponent : "// + exponent;// return result;// } /** * Utility method to delete the leading zeros from the modulus. * * @param a * modulus * @return modulus */ private byte[] stripLeadingZeros(byte[] a) { int lastZero = -1; for (int i = 0; i < a.length; i++) { if (a[i] == 0) { lastZero = i; } else { break; } } lastZero++; byte[] result = new byte[a.length - lastZero]; System.arraycopy(a, lastZero, result, 0, result.length); return result; } /** * Writes the bytes of the key in a file. * * @param key * byte array of key data. * @param file * File Name */ private void writeKeyBytesToFile(byte[] key, String file) throws IOException { OutputStream out = new FileOutputStream(file); out.write(key); out.close(); } // --- Returns XML encoded RSA private key string suitable for .NET // CryptoServiceProvider.FromXmlString(true) ------ // --- Leading zero bytes (most significant) must be removed for XML // encoding for .NET; otherwise format error --- private 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; } } // --- Returns XML encoded RSA public key string suitable for .NET // CryptoServiceProvider.FromXmlString(true) ------ // --- Leading zero bytes (most significant) must be removed for XML // encoding for .NET; otherwise format error --- private String getRSAPublicKeyAsNetFormat(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("</RSAKeyValue>"); return buff.toString().replaceAll("[ \t\n\r]", ""); } catch (Exception e) { System.err.println(e); return null; } } // --------- remove leading (Most Significant) zero byte if present // ---------------- private 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; } private String b64encode(byte[] data) { String b64str = new String(Base64Encoder.encode(data)); return b64str; } private byte[] b64decode(String data) { byte[] decodeData = Base64Decoder.decode(data); return decodeData; } public static void main(String args[]) { ssosign sso = new ssosign();// sso.GenerateKeys(// 1024,// "d:/private.key",// "d:/public.key",// "d:/netpublic.key",// "d:/netprivate.key"); String signedData = sso .Sign("zhangxn", "2010-12-10 11:21:18", "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"); System.out.println(signedData);// String signedData = "D+vkrMIe9cJyr3kELI5jNes/bJe7MLExyJDMqJyBlVgFtmPNQ723IsBtWmqO93yoBoKHaxeTI1kwaJzESe3X5vqS6TfFBTl+IeX5aJ/cc1+Hxo5Rr2QZwzUywgS/e3gRC+Ik+Fx0M0gBaQTGNdIDNaIvl776+0SNVaD0L3Sar9k=";// boolean res = sso// .Verify(signedData,// "zhangxn",// "2010-12-10 11:21:18",// "MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDWWmcu+6YPz8150nuzhZLxQ7045FtdVOAleZ9rvZsjgDUvWXo2n3UERND7IHwWrqIZbDk5Hw4HZRtEFyilvZ616kOpZ3uSYK1tVPfqRNb4Tx1Z1pWNsjYEJcQZpe7M890Y6WnnY5prBhHnPIbQyIK8niMTtEMlrHgKXbhmo9SzhQIDAQAB");// System.out.println(res); }
