• Java使用RSA加密解密签名及校验


    RSA加密解密类:

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    package com.ihep;
    import java.io.BufferedReader; 
    import java.io.BufferedWriter; 
    import java.io.FileReader; 
    import java.io.FileWriter; 
    import java.io.IOException; 
    import java.security.InvalidKeyException; 
    import java.security.KeyFactory; 
    import java.security.KeyPair; 
    import java.security.KeyPairGenerator; 
    import java.security.NoSuchAlgorithmException; 
    import java.security.SecureRandom; 
       
    import java.security.interfaces.RSAPrivateKey; 
    import java.security.interfaces.RSAPublicKey; 
    import java.security.spec.InvalidKeySpecException; 
    import java.security.spec.PKCS8EncodedKeySpec; 
    import java.security.spec.X509EncodedKeySpec; 
       
    import javax.crypto.BadPaddingException; 
    import javax.crypto.Cipher; 
    import javax.crypto.IllegalBlockSizeException; 
    import javax.crypto.NoSuchPaddingException; 
       
    public class RSAEncrypt { 
        /**
         * 字节数据转字符串专用集合
         */ 
        private static final char[] HEX_CHAR = { '0', '1', '2', '3', '4', '5', '6'
                '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f' }; 
       
        /**
         * 随机生成密钥对
         */ 
        public static void genKeyPair(String filePath) { 
            // KeyPairGenerator类用于生成公钥和私钥对,基于RSA算法生成对象 
            KeyPairGenerator keyPairGen = null
            try 
                keyPairGen = KeyPairGenerator.getInstance("RSA"); 
            } catch (NoSuchAlgorithmException e) { 
                // TODO Auto-generated catch block 
                e.printStackTrace(); 
            
            // 初始化密钥对生成器,密钥大小为96-1024位 
            keyPairGen.initialize(1024,new SecureRandom()); 
            // 生成一个密钥对,保存在keyPair中 
            KeyPair keyPair = keyPairGen.generateKeyPair(); 
            // 得到私钥 
            RSAPrivateKey privateKey = (RSAPrivateKey) keyPair.getPrivate(); 
            // 得到公钥 
            RSAPublicKey publicKey = (RSAPublicKey) keyPair.getPublic(); 
            try 
                // 得到公钥字符串 
                String publicKeyString = Base64.encode(publicKey.getEncoded()); 
                // 得到私钥字符串 
                String privateKeyString = Base64.encode(privateKey.getEncoded()); 
                // 将密钥对写入到文件 
                FileWriter pubfw = new FileWriter(filePath + "/publicKey.keystore"); 
                FileWriter prifw = new FileWriter(filePath + "/privateKey.keystore"); 
                BufferedWriter pubbw = new BufferedWriter(pubfw); 
                BufferedWriter pribw = new BufferedWriter(prifw); 
                pubbw.write(publicKeyString); 
                pribw.write(privateKeyString); 
                pubbw.flush(); 
                pubbw.close(); 
                pubfw.close(); 
                pribw.flush(); 
                pribw.close(); 
                prifw.close(); 
            } catch (Exception e) { 
                e.printStackTrace(); 
            
        
       
        /**
         * 从文件中输入流中加载公钥
         
         * @param in
         *            公钥输入流
         * @throws Exception
         *             加载公钥时产生的异常
         */ 
        public static String loadPublicKeyByFile(String path) throws Exception { 
            try 
                BufferedReader br = new BufferedReader(new FileReader(path 
                        + "/publicKey.keystore")); 
                String readLine = null
                StringBuilder sb = new StringBuilder(); 
                while ((readLine = br.readLine()) != null) { 
                    sb.append(readLine); 
                
                br.close(); 
                return sb.toString(); 
            } catch (IOException e) { 
                throw new Exception("公钥数据流读取错误"); 
            } catch (NullPointerException e) { 
                throw new Exception("公钥输入流为空"); 
            
        
       
        /**
         * 从字符串中加载公钥
         
         * @param publicKeyStr
         *            公钥数据字符串
         * @throws Exception
         *             加载公钥时产生的异常
         */ 
        public static RSAPublicKey loadPublicKeyByStr(String publicKeyStr) 
                throws Exception { 
            try 
                byte[] buffer = Base64.decode(publicKeyStr); 
                KeyFactory keyFactory = KeyFactory.getInstance("RSA"); 
                X509EncodedKeySpec keySpec = new X509EncodedKeySpec(buffer); 
                return (RSAPublicKey) keyFactory.generatePublic(keySpec); 
            } catch (NoSuchAlgorithmException e) { 
                throw new Exception("无此算法"); 
            } catch (InvalidKeySpecException e) { 
                throw new Exception("公钥非法"); 
            } catch (NullPointerException e) { 
                throw new Exception("公钥数据为空"); 
            
        
       
        /**
         * 从文件中加载私钥
         
         * @param keyFileName
         *            私钥文件名
         * @return 是否成功
         * @throws Exception
         */ 
        public static String loadPrivateKeyByFile(String path) throws Exception { 
            try 
                BufferedReader br = new BufferedReader(new FileReader(path 
                        + "/privateKey.keystore")); 
                String readLine = null
                StringBuilder sb = new StringBuilder(); 
                while ((readLine = br.readLine()) != null) { 
                    sb.append(readLine); 
                
                br.close(); 
                return sb.toString(); 
            } catch (IOException e) { 
                throw new Exception("私钥数据读取错误"); 
            } catch (NullPointerException e) { 
                throw new Exception("私钥输入流为空"); 
            
        
       
        public static RSAPrivateKey loadPrivateKeyByStr(String privateKeyStr) 
                throws Exception { 
            try 
                byte[] buffer = Base64.decode(privateKeyStr); 
                PKCS8EncodedKeySpec keySpec = new PKCS8EncodedKeySpec(buffer); 
                KeyFactory keyFactory = KeyFactory.getInstance("RSA"); 
                return (RSAPrivateKey) keyFactory.generatePrivate(keySpec); 
            } catch (NoSuchAlgorithmException e) { 
                throw new Exception("无此算法"); 
            } catch (InvalidKeySpecException e) { 
                throw new Exception("私钥非法"); 
            } catch (NullPointerException e) { 
                throw new Exception("私钥数据为空"); 
            
        
       
        /**
         * 公钥加密过程
         
         * @param publicKey
         *            公钥
         * @param plainTextData
         *            明文数据
         * @return
         * @throws Exception
         *             加密过程中的异常信息
         */ 
        public static byte[] encrypt(RSAPublicKey publicKey, byte[] plainTextData) 
                throws Exception { 
            if (publicKey == null) { 
                throw new Exception("加密公钥为空, 请设置"); 
            
            Cipher cipher = null
            try 
                // 使用默认RSA 
                cipher = Cipher.getInstance("RSA"); 
                // cipher= Cipher.getInstance("RSA", new BouncyCastleProvider()); 
                cipher.init(Cipher.ENCRYPT_MODE, publicKey); 
                byte[] output = cipher.doFinal(plainTextData); 
                return output; 
            } catch (NoSuchAlgorithmException e) { 
                throw new Exception("无此加密算法"); 
            } catch (NoSuchPaddingException e) { 
                e.printStackTrace(); 
                return null
            } catch (InvalidKeyException e) { 
                throw new Exception("加密公钥非法,请检查"); 
            } catch (IllegalBlockSizeException e) { 
                throw new Exception("明文长度非法"); 
            } catch (BadPaddingException e) { 
                throw new Exception("明文数据已损坏"); 
            
        
       
        /**
         * 私钥加密过程
         
         * @param privateKey
         *            私钥
         * @param plainTextData
         *            明文数据
         * @return
         * @throws Exception
         *             加密过程中的异常信息
         */ 
        public static byte[] encrypt(RSAPrivateKey privateKey, byte[] plainTextData) 
                throws Exception { 
            if (privateKey == null) { 
                throw new Exception("加密私钥为空, 请设置"); 
            
            Cipher cipher = null
            try 
                // 使用默认RSA 
                cipher = Cipher.getInstance("RSA"); 
                cipher.init(Cipher.ENCRYPT_MODE, privateKey); 
                byte[] output = cipher.doFinal(plainTextData); 
                return output; 
            } catch (NoSuchAlgorithmException e) { 
                throw new Exception("无此加密算法"); 
            } catch (NoSuchPaddingException e) { 
                e.printStackTrace(); 
                return null
            } catch (InvalidKeyException e) { 
                throw new Exception("加密私钥非法,请检查"); 
            } catch (IllegalBlockSizeException e) { 
                throw new Exception("明文长度非法"); 
            } catch (BadPaddingException e) { 
                throw new Exception("明文数据已损坏"); 
            
        
       
        /**
         * 私钥解密过程
         
         * @param privateKey
         *            私钥
         * @param cipherData
         *            密文数据
         * @return 明文
         * @throws Exception
         *             解密过程中的异常信息
         */ 
        public static byte[] decrypt(RSAPrivateKey privateKey, byte[] cipherData) 
                throws Exception { 
            if (privateKey == null) { 
                throw new Exception("解密私钥为空, 请设置"); 
            
            Cipher cipher = null
            try 
                // 使用默认RSA 
                cipher = Cipher.getInstance("RSA"); 
                // cipher= Cipher.getInstance("RSA", new BouncyCastleProvider()); 
                cipher.init(Cipher.DECRYPT_MODE, privateKey); 
                byte[] output = cipher.doFinal(cipherData); 
                return output; 
            } catch (NoSuchAlgorithmException e) { 
                throw new Exception("无此解密算法"); 
            } catch (NoSuchPaddingException e) { 
                e.printStackTrace(); 
                return null
            } catch (InvalidKeyException e) { 
                throw new Exception("解密私钥非法,请检查"); 
            } catch (IllegalBlockSizeException e) { 
                throw new Exception("密文长度非法"); 
            } catch (BadPaddingException e) { 
                throw new Exception("密文数据已损坏"); 
            
        
       
        /**
         * 公钥解密过程
         
         * @param publicKey
         *            公钥
         * @param cipherData
         *            密文数据
         * @return 明文
         * @throws Exception
         *             解密过程中的异常信息
         */ 
        public static byte[] decrypt(RSAPublicKey publicKey, byte[] cipherData) 
                throws Exception { 
            if (publicKey == null) { 
                throw new Exception("解密公钥为空, 请设置"); 
            
            Cipher cipher = null
            try 
                // 使用默认RSA 
                cipher = Cipher.getInstance("RSA"); 
                // cipher= Cipher.getInstance("RSA", new BouncyCastleProvider()); 
                cipher.init(Cipher.DECRYPT_MODE, publicKey); 
                byte[] output = cipher.doFinal(cipherData); 
                return output; 
            } catch (NoSuchAlgorithmException e) { 
                throw new Exception("无此解密算法"); 
            } catch (NoSuchPaddingException e) { 
                e.printStackTrace(); 
                return null
            } catch (InvalidKeyException e) { 
                throw new Exception("解密公钥非法,请检查"); 
            } catch (IllegalBlockSizeException e) { 
                throw new Exception("密文长度非法"); 
            } catch (BadPaddingException e) { 
                throw new Exception("密文数据已损坏"); 
            
        
       
        /**
         * 字节数据转十六进制字符串
         
         * @param data
         *            输入数据
         * @return 十六进制内容
         */ 
        public static String byteArrayToString(byte[] data) { 
            StringBuilder stringBuilder = new StringBuilder(); 
            for (int i = 0; i < data.length; i++) { 
                // 取出字节的高四位 作为索引得到相应的十六进制标识符 注意无符号右移 
                stringBuilder.append(HEX_CHAR[(data[i] & 0xf0) >>> 4]); 
                // 取出字节的低四位 作为索引得到相应的十六进制标识符 
                stringBuilder.append(HEX_CHAR[(data[i] & 0x0f)]); 
                if (i < data.length - 1) { 
                    stringBuilder.append(' '); 
                
            
            return stringBuilder.toString(); 
        
    }


    签名及校验类:

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    package com.ihep;
    import java.security.KeyFactory; 
    import java.security.PrivateKey; 
    import java.security.PublicKey; 
    import java.security.spec.PKCS8EncodedKeySpec; 
    import java.security.spec.X509EncodedKeySpec; 
       
    /**
     * RSA签名验签类
     */ 
    public class RSASignature{ 
           
        /**
         * 签名算法
         */ 
        public static final String SIGN_ALGORITHMS = "SHA1WithRSA"
       
        /**
        * RSA签名
        * @param content 待签名数据
        * @param privateKey 商户私钥
        * @param encode 字符集编码
        * @return 签名值
        */ 
        public static String sign(String content, String privateKey, String encode) 
        
            try  
            
                PKCS8EncodedKeySpec priPKCS8    = new PKCS8EncodedKeySpec( Base64.decode(privateKey) );  
                   
                KeyFactory keyf                 = KeyFactory.getInstance("RSA"); 
                PrivateKey priKey               = keyf.generatePrivate(priPKCS8); 
       
                java.security.Signature signature = java.security.Signature.getInstance(SIGN_ALGORITHMS); 
       
                signature.initSign(priKey); 
                signature.update( content.getBytes(encode)); 
       
                byte[] signed = signature.sign(); 
                   
                return Base64.encode(signed); 
            
            catch (Exception e)  
            
                e.printStackTrace(); 
            
               
            return null
        
           
        public static String sign(String content, String privateKey) 
        
            try  
            
                PKCS8EncodedKeySpec priPKCS8    = new PKCS8EncodedKeySpec( Base64.decode(privateKey) );  
                KeyFactory keyf = KeyFactory.getInstance("RSA"); 
                PrivateKey priKey = keyf.generatePrivate(priPKCS8); 
                java.security.Signature signature = java.security.Signature.getInstance(SIGN_ALGORITHMS); 
                signature.initSign(priKey); 
                signature.update( content.getBytes()); 
                byte[] signed = signature.sign(); 
                return Base64.encode(signed); 
            
            catch (Exception e)  
            
                e.printStackTrace(); 
            
            return null
        
           
        /**
        * RSA验签名检查
        * @param content 待签名数据
        * @param sign 签名值
        * @param publicKey 分配给开发商公钥
        * @param encode 字符集编码
        * @return 布尔值
        */ 
        public static boolean doCheck(String content, String sign, String publicKey,String encode) 
        
            try  
            
                KeyFactory keyFactory = KeyFactory.getInstance("RSA"); 
                byte[] encodedKey = Base64.decode(publicKey); 
                PublicKey pubKey = keyFactory.generatePublic(new X509EncodedKeySpec(encodedKey)); 
       
               
                java.security.Signature signature = java.security.Signature 
                .getInstance(SIGN_ALGORITHMS); 
               
                signature.initVerify(pubKey); 
                signature.update( content.getBytes(encode) ); 
               
                boolean bverify = signature.verify( Base64.decode(sign) ); 
                return bverify; 
                   
            }  
            catch (Exception e)  
            
                e.printStackTrace(); 
            
               
            return false
        
           
        public static boolean doCheck(String content, String sign, String publicKey) 
        
            try  
            
                KeyFactory keyFactory = KeyFactory.getInstance("RSA"); 
                byte[] encodedKey = Base64.decode(publicKey); 
                PublicKey pubKey = keyFactory.generatePublic(new X509EncodedKeySpec(encodedKey)); 
       
                java.security.Signature signature = java.security.Signature 
                .getInstance(SIGN_ALGORITHMS); 
               
                signature.initVerify(pubKey); 
                signature.update( content.getBytes() ); 
               
                boolean bverify = signature.verify( Base64.decode(sign) ); 
                return bverify; 
                   
            }  
            catch (Exception e)  
            {
                e.printStackTrace(); 
            }
               
            return false
        
           
    }

    再来一个Base64的类,当然你也可以用commons-codec-1.9.jar

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    package com.ihep; 
       
    public final class Base64 { 
       
        static private final int     BASELENGTH           = 128
        static private final int     LOOKUPLENGTH         = 64
        static private final int     TWENTYFOURBITGROUP   = 24
        static private final int     EIGHTBIT             = 8
        static private final int     SIXTEENBIT           = 16
        static private final int     FOURBYTE             = 4
        static private final int     SIGN                 = -128
        static private final char    PAD                  = '='
        static private final boolean fDebug               = false
        static final private byte[]  base64Alphabet       = new byte[BASELENGTH]; 
        static final private char[]  lookUpBase64Alphabet = new char[LOOKUPLENGTH]; 
       
        static 
            for (int i = 0; i < BASELENGTH; ++i) { 
                base64Alphabet[i] = -1
            
            for (int i = 'Z'; i >= 'A'; i--) { 
                base64Alphabet[i] = (byte) (i - 'A'); 
            
            for (int i = 'z'; i >= 'a'; i--) { 
                base64Alphabet[i] = (byte) (i - 'a' + 26); 
            
       
            for (int i = '9'; i >= '0'; i--) { 
                base64Alphabet[i] = (byte) (i - '0' + 52); 
            
       
            base64Alphabet['+'] = 62
            base64Alphabet['/'] = 63
       
            for (int i = 0; i <= 25; i++) { 
                lookUpBase64Alphabet[i] = (char) ('A' + i); 
            
       
            for (int i = 26, j = 0; i <= 51; i++, j++) { 
                lookUpBase64Alphabet[i] = (char) ('a' + j); 
            
       
            for (int i = 52, j = 0; i <= 61; i++, j++) { 
                lookUpBase64Alphabet[i] = (char) ('0' + j); 
            
            lookUpBase64Alphabet[62] = (char) '+'
            lookUpBase64Alphabet[63] = (char) '/'
       
        
       
        private static boolean isWhiteSpace(char octect) { 
            return (octect == 0x20 || octect == 0xd || octect == 0xa || octect == 0x9); 
        
       
        private static boolean isPad(char octect) { 
            return (octect == PAD); 
        
       
        private static boolean isData(char octect) { 
            return (octect < BASELENGTH && base64Alphabet[octect] != -1); 
        
       
        /**
         * Encodes hex octects into Base64
         *
         * @param binaryData Array containing binaryData
         * @return Encoded Base64 array
         */ 
        public static String encode(byte[] binaryData) { 
       
            if (binaryData == null) { 
                return null
            
       
            int lengthDataBits = binaryData.length * EIGHTBIT; 
            if (lengthDataBits == 0) { 
                return ""
            
       
            int fewerThan24bits = lengthDataBits % TWENTYFOURBITGROUP; 
            int numberTriplets = lengthDataBits / TWENTYFOURBITGROUP; 
            int numberQuartet = fewerThan24bits != 0 ? numberTriplets + 1 : numberTriplets; 
            char encodedData[] = null
       
            encodedData = new char[numberQuartet * 4]; 
       
            byte k = 0, l = 0, b1 = 0, b2 = 0, b3 = 0
       
            int encodedIndex = 0
            int dataIndex = 0
            if (fDebug) { 
                System.out.println("number of triplets = " + numberTriplets); 
            
       
            for (int i = 0; i < numberTriplets; i++) { 
                b1 = binaryData[dataIndex++]; 
                b2 = binaryData[dataIndex++]; 
                b3 = binaryData[dataIndex++]; 
       
                if (fDebug) { 
                    System.out.println("b1= " + b1 + ", b2= " + b2 + ", b3= " + b3); 
                
       
                l = (byte) (b2 & 0x0f); 
                k = (byte) (b1 & 0x03); 
       
                byte val1 = ((b1 & SIGN) == 0) ? (byte) (b1 >> 2) : (byte) ((b1) >> 2 ^ 0xc0); 
                byte val2 = ((b2 & SIGN) == 0) ? (byte) (b2 >> 4) : (byte) ((b2) >> 4 ^ 0xf0); 
                byte val3 = ((b3 & SIGN) == 0) ? (byte) (b3 >> 6) : (byte) ((b3) >> 6 ^ 0xfc); 
       
                if (fDebug) { 
                    System.out.println("val2 = " + val2); 
                    System.out.println("k4   = " + (k << 4)); 
                    System.out.println("vak  = " + (val2 | (k << 4))); 
                
       
                encodedData[encodedIndex++] = lookUpBase64Alphabet[val1]; 
                encodedData[encodedIndex++] = lookUpBase64Alphabet[val2 | (k << 4)]; 
                encodedData[encodedIndex++] = lookUpBase64Alphabet[(l << 2) | val3]; 
                encodedData[encodedIndex++] = lookUpBase64Alphabet[b3 & 0x3f]; 
            
       
            // form integral number of 6-bit groups 
            if (fewerThan24bits == EIGHTBIT) { 
                b1 = binaryData[dataIndex]; 
                k = (byte) (b1 & 0x03); 
                if (fDebug) { 
                    System.out.println("b1=" + b1); 
                    System.out.println("b1<<2 = " + (b1 >> 2)); 
                
                byte val1 = ((b1 & SIGN) == 0) ? (byte) (b1 >> 2) : (byte) ((b1) >> 2 ^ 0xc0); 
                encodedData[encodedIndex++] = lookUpBase64Alphabet[val1]; 
                encodedData[encodedIndex++] = lookUpBase64Alphabet[k << 4]; 
                encodedData[encodedIndex++] = PAD; 
                encodedData[encodedIndex++] = PAD; 
            } else if (fewerThan24bits == SIXTEENBIT) { 
                b1 = binaryData[dataIndex]; 
                b2 = binaryData[dataIndex + 1]; 
                l = (byte) (b2 & 0x0f); 
                k = (byte) (b1 & 0x03); 
       
                byte val1 = ((b1 & SIGN) == 0) ? (byte) (b1 >> 2) : (byte) ((b1) >> 2 ^ 0xc0); 
                byte val2 = ((b2 & SIGN) == 0) ? (byte) (b2 >> 4) : (byte) ((b2) >> 4 ^ 0xf0); 
       
                encodedData[encodedIndex++] = lookUpBase64Alphabet[val1]; 
                encodedData[encodedIndex++] = lookUpBase64Alphabet[val2 | (k << 4)]; 
                encodedData[encodedIndex++] = lookUpBase64Alphabet[l << 2]; 
                encodedData[encodedIndex++] = PAD; 
            
       
            return new String(encodedData); 
        
       
        /**
         * Decodes Base64 data into octects
         *
         * @param encoded string containing Base64 data
         * @return Array containind decoded data.
         */ 
        public static byte[] decode(String encoded) { 
       
            if (encoded == null) { 
                return null
            
       
            char[] base64Data = encoded.toCharArray(); 
            // remove white spaces 
            int len = removeWhiteSpace(base64Data); 
       
            if (len % FOURBYTE != 0) { 
                return null;//should be divisible by four 
            
       
            int numberQuadruple = (len / FOURBYTE); 
       
            if (numberQuadruple == 0) { 
                return new byte[0]; 
            
       
            byte decodedData[] = null
            byte b1 = 0, b2 = 0, b3 = 0, b4 = 0
            char d1 = 0, d2 = 0, d3 = 0, d4 = 0
       
            int i = 0
            int encodedIndex = 0
            int dataIndex = 0
            decodedData = new byte[(numberQuadruple) * 3]; 
       
            for (; i < numberQuadruple - 1; i++) { 
       
                if (!isData((d1 = base64Data[dataIndex++])) || !isData((d2 = base64Data[dataIndex++])) 
                    || !isData((d3 = base64Data[dataIndex++])) 
                    || !isData((d4 = base64Data[dataIndex++]))) { 
                    return null
                }//if found "no data" just return null 
       
                b1 = base64Alphabet[d1]; 
                b2 = base64Alphabet[d2]; 
                b3 = base64Alphabet[d3]; 
                b4 = base64Alphabet[d4]; 
       
                decodedData[encodedIndex++] = (byte) (b1 << 2 | b2 >> 4); 
                decodedData[encodedIndex++] = (byte) (((b2 & 0xf) << 4) | ((b3 >> 2) & 0xf)); 
                decodedData[encodedIndex++] = (byte) (b3 << 6 | b4); 
            
       
            if (!isData((d1 = base64Data[dataIndex++])) || !isData((d2 = base64Data[dataIndex++]))) { 
                return null;//if found "no data" just return null 
            
       
            b1 = base64Alphabet[d1]; 
            b2 = base64Alphabet[d2]; 
       
            d3 = base64Data[dataIndex++]; 
            d4 = base64Data[dataIndex++]; 
            if (!isData((d3)) || !isData((d4))) {//Check if they are PAD characters 
                if (isPad(d3) && isPad(d4)) { 
                    if ((b2 & 0xf) != 0)//last 4 bits should be zero 
                    
                        return null
                    
                    byte[] tmp = new byte[i * 3 + 1]; 
                    System.arraycopy(decodedData, 0, tmp, 0, i * 3); 
                    tmp[encodedIndex] = (byte) (b1 << 2 | b2 >> 4); 
                    return tmp; 
                } else if (!isPad(d3) && isPad(d4)) { 
                    b3 = base64Alphabet[d3]; 
                    if ((b3 & 0x3) != 0)//last 2 bits should be zero 
                    
                        return null
                    
                    byte[] tmp = new byte[i * 3 + 2]; 
                    System.arraycopy(decodedData, 0, tmp, 0, i * 3); 
                    tmp[encodedIndex++] = (byte) (b1 << 2 | b2 >> 4); 
                    tmp[encodedIndex] = (byte) (((b2 & 0xf) << 4) | ((b3 >> 2) & 0xf)); 
                    return tmp; 
                } else 
                    return null
                
            } else { //No PAD e.g 3cQl 
                b3 = base64Alphabet[d3]; 
                b4 = base64Alphabet[d4]; 
                decodedData[encodedIndex++] = (byte) (b1 << 2 | b2 >> 4); 
                decodedData[encodedIndex++] = (byte) (((b2 & 0xf) << 4) | ((b3 >> 2) & 0xf)); 
                decodedData[encodedIndex++] = (byte) (b3 << 6 | b4); 
       
            
       
            return decodedData; 
        
       
        /**
         * remove WhiteSpace from MIME containing encoded Base64 data.
         *
         * @param data  the byte array of base64 data (with WS)
         * @return      the new length
         */ 
        private static int removeWhiteSpace(char[] data) { 
            if (data == null) { 
                return 0
            
       
            // count characters that's not whitespace 
            int newSize = 0
            int len = data.length; 
            for (int i = 0; i < len; i++) { 
                if (!isWhiteSpace(data[i])) { 
                    data[newSize++] = data[i]; 
                
            
            return newSize; 
        
    }

    最后是一个MainTest:

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    package com.ihep; 
       
    public class MainTest { 
       
        public static void main(String[] args) throws Exception { 
            String filepath="E:/tmp/"
       
            //生成公钥和私钥文件
            RSAEncrypt.genKeyPair(filepath);
               
            System.out.println("--------------公钥加密私钥解密过程-------------------"); 
            String plainText="ihep_公钥加密私钥解密"
            //公钥加密过程 
            byte[] cipherData=RSAEncrypt.encrypt(RSAEncrypt.loadPublicKeyByStr(RSAEncrypt.loadPublicKeyByFile(filepath)),plainText.getBytes()); 
            String cipher=Base64.encode(cipherData); 
            //私钥解密过程 
            byte[] res=RSAEncrypt.decrypt(RSAEncrypt.loadPrivateKeyByStr(RSAEncrypt.loadPrivateKeyByFile(filepath)), Base64.decode(cipher)); 
            String restr=new String(res); 
            System.out.println("原文:"+plainText); 
            System.out.println("加密:"+cipher); 
            System.out.println("解密:"+restr); 
            System.out.println(); 
               
            System.out.println("--------------私钥加密公钥解密过程-------------------"); 
            plainText="ihep_私钥加密公钥解密"
            //私钥加密过程 
            cipherData=RSAEncrypt.encrypt(RSAEncrypt.loadPrivateKeyByStr(RSAEncrypt.loadPrivateKeyByFile(filepath)),plainText.getBytes()); 
            cipher=Base64.encode(cipherData); 
            //公钥解密过程 
            res=RSAEncrypt.decrypt(RSAEncrypt.loadPublicKeyByStr(RSAEncrypt.loadPublicKeyByFile(filepath)), Base64.decode(cipher)); 
            restr=new String(res); 
            System.out.println("原文:"+plainText); 
            System.out.println("加密:"+cipher); 
            System.out.println("解密:"+restr); 
            System.out.println(); 
               
            System.out.println("---------------私钥签名过程------------------"); 
            String content="ihep_这是用于签名的原始数据"
            String signstr=RSASignature.sign(content,RSAEncrypt.loadPrivateKeyByFile(filepath)); 
            System.out.println("签名原串:"+content); 
            System.out.println("签名串:"+signstr); 
            System.out.println(); 
               
            System.out.println("---------------公钥校验签名------------------"); 
            System.out.println("签名原串:"+content); 
            System.out.println("签名串:"+signstr); 
               
            System.out.println("验签结果:"+RSASignature.doCheck(content, signstr, RSAEncrypt.loadPublicKeyByFile(filepath))); 
            System.out.println(); 
               
        
    }

    三、运行效果

    在 E盘 建立一个tmp目录。然后运行 MainTest类(该类有main方法)。

    1、自动生成公钥和私钥文件:

    image.png

    2、eclipse控制台输出信息如下:

    image.png

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  • 原文地址:https://www.cnblogs.com/cnsdhzzl/p/9920587.html
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