java的BASE64Encoder,BASE64Decoder加密与解密

java

package com.app.common;

import java.io.ByteArrayOutputStream;

import java.io.File;

import java.io.FileInputStream;

import java.io.IOException;

import java.io.InputStream;

import java.io.OutputStream;

import sun.misc.BASE64Decoder;

import sun.misc.BASE64Encoder;

/**

*@DEMO:napp

*@Author:jilongliang

*@Date:2013-7-25

*/

@SuppressWarnings("all")

public class EDncrypt {

private static BASE64Encoder encoder = new BASE64Encoder();// 加密

private static BASE64Decoder decoder = new BASE64Decoder();// 解密

/**

* 加密文件

*

* @param f

* @param path

*/

private static String encryptFile(File f, String path) {

InputStream in = null;

OutputStream out = null;

String key = "";

try {

f = new File(path);

in = new FileInputStream(f);

out = new ByteArrayOutputStream();

// System.out.println(f.getAbsolutePath());

// System.out.println(f.length());

encoder.encodeBuffer(in, out);

key = out.toString();

in.close();

out.close();

} catch (IOException e) {

e.printStackTrace();

}

return key;

}

/**

*解密

*

* @param f

* @param path

*/

private static String decryptFile(File f, String path) {

InputStream in = null;

OutputStream out = null;

String key = "";

try {

f = new File(path);

in = new FileInputStream(f);

out = new ByteArrayOutputStream();

decoder.decodeBuffer(in, out);

key = out.toString();

in.close();

out.close();

} catch (IOException e) {

e.printStackTrace();

}

return key;

}

/**

* 加密

*

* @param key

* @return

* @throws Exception

*/

public static String encryptBASE64(String inputStr) {

String value = "";

try {

byte[] key = inputStr.getBytes();

value = encoder.encodeBuffer(key);

} catch (Exception e) {

e.printStackTrace();

}

return value;

}

/**

* 解密

*

* @param key

* @return

* @throws Exception

*/

public static String decryptBASE64(String outputStr) {

String value = "";

try {

byte[] key = decoder.decodeBuffer(outputStr);

value = new String(key);

} catch (Exception e) {

}

return value;

}

}

可逆的加密:Apache的

public static String encodePassword(String rawPass,String type) {

String pass="";

if(type.toLowerCase().equals("md5")){

Md5PasswordEncoder md5PasswordEncoder=new Md5PasswordEncoder();

pass=md5PasswordEncoder.encodePassword(rawPass, null);

}

return pass;

}

public static String encodePassword(String rawPass) {

return encodePassword(rawPass,"MD5");

}

java 加密 Digest EnCrypt 加密与解密

package digest;

import java.security.MessageDigest;

import java.security.NoSuchAlgorithmException;

import javax.crypto.Cipher;

import javax.crypto.KeyGenerator;

import javax.crypto.SecretKey;

import org.apache.commons.codec.binary.Base64;

public class DigestExample {

public static void main(String[] args) throws Exception {

//加密内容

final String content = "hello hello hello";

/*

* 单向加密 md5 & sha

*/

//md5 加密

MessageDigest md5 = MessageDigest.getInstance("md5");

byte[] md5SecretStr = md5.digest(content.getBytes());

System.out.print("md5 加密 : { " + new String(Base64.encodeBase64(md5SecretStr)) + " }\n\r");

//sha 加密

MessageDigest sha = MessageDigest.getInstance("sha");

byte[] shaSecretBytes = sha.digest(content.getBytes());

System.out.print("sha 加密 : { " + new String(Base64.encodeBase64(shaSecretBytes)) + " }\n\r");

/*

* 对称加密 aes & des

*/

//aes 加密

KeyGenerator aesKeyGenerator = KeyGenerator.getInstance("aes");

SecretKey aesSecretKey = aesKeyGenerator.generateKey();

Cipher aesCipher = Cipher.getInstance("aes");

aesCipher.init(Cipher.ENCRYPT_MODE, aesSecretKey);

byte[] aseResultBytes = aesCipher.doFinal(content.getBytes());

System.out.print("aes 加密 : { " + new String(Base64.encodeBase64(aseResultBytes)) + " }\n\r");

//aes 解密

aesCipher.init(Cipher.DECRYPT_MODE, aesSecretKey);

aseResultBytes = aesCipher.doFinal(aseResultBytes);

System.out.print("aes 解密: { " + new String(aseResultBytes) + " }\n\r");

//des 加密

KeyGenerator desKeyGenerator = KeyGenerator.getInstance("aes");

SecretKey desSecretKey = desKeyGenerator.generateKey();

Cipher desCipher = Cipher.getInstance("aes");

desCipher.init(Cipher.ENCRYPT_MODE, desSecretKey);

byte[] dseResultBytes = desCipher.doFinal(content.getBytes());

System.out.print("des 加密 : { " + new String(Base64.encodeBase64(dseResultBytes)) + " }\n\r");

desCipher.init(Cipher.DECRYPT_MODE, desSecretKey);

dseResultBytes = desCipher.doFinal(dseResultBytes);

System.out.print("aes 解密: { " + new String(dseResultBytes) + " }\n\r");

}

}

console run result

md5 : { ZnptFLLcFU/qw2LdrU1MqA== }

sha : { g52cyhSXeHXr8kcWODkq738OAVk= }

aes 加密 : { pudmyrvBANStqfcDIb7+DFPK+5gPZP/ais6sibTKyIk= }

aes 解密: { hello hello hello }

des : { Nx2RwaJBl5+P2eVb0v+JRVTd8tfwAQQ7KA28n97Ln8E= }

aes 解密: { hello hello hello }

rsa 非对称加密

package digest;

import java.security.KeyPair;

import java.security.KeyPairGenerator;

import java.security.PrivateKey;

import java.security.PublicKey;

import javax.crypto.Cipher;

import org.apache.commons.codec.binary.Base64;

public class RsaExample {

public static void main(String[] args) throws Exception {

final String context = "rsa加密";

KeyPairGenerator kpg = KeyPairGenerator.getInstance("rsa");

KeyPair gkp = kpg.generateKeyPair();

PrivateKey privateKey = gkp.getPrivate();

PublicKey publicKey = gkp.getPublic();

byte[] encode1 = privateKey.getEncoded();

byte[] encode2 = publicKey.getEncoded();

byte[] key1 = Base64.encodeBase64(encode1);

byte[] key2 = Base64.encodeBase64(encode2);

System.out.println(new String(key1));

System.out.println(new String(key2));

/*System.out.println("privateKey:{"+privateKey+"}");

System.out.println("publicKey:{" +publicKey+"}");*/

Cipher cipher = Cipher.getInstance("rsa");

cipher.init(1, privateKey);

byte[] result = cipher.doFinal(context.getBytes());

byte[] signatrue = Base64.encodeBase64(result);

System.out.println("result:{" + new String(signatrue)+"}");

byte[] i = Base64.decodeBase64(signatrue);

cipher.init(2, publicKey);

System.out.println(new String(cipher.doFinal(i)));

}

}

console run result

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

MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQCPirX/2wD50xEeMC/o2MEoI78IN1VOCka3b6DoqcvOtkTnCXcPZwhkSMnxaSGBWAC2OZJtBk20dXL3weTeOxmxGnfDjLDItSTrzYIpKfKH1IBXeGq7Ig+qerFne0bML1X4HRSkJj+jm7vYzOcwmcXrWh/29MSurQTSSVv8J/sxvQIDAQAB

privateKey:{Sun RSA private CRT key, 1024 bits

modulus: 100798507655562672634382563625239291964945102222464707977557265818850161373345900576705678605564617099559134111187263533690577667029773051561093784895113396514352229224857085774815551784918475310931537765905461572526427050491602207190137661866307492752828388294013838106222346293330945028978188314252819509693

public exponent: 65537

private exponent: 20818905345464338263561078188370524376115734679391523676460856464652879813687079210313076057874523659301347930619814748798932805909867830781557982091646774464612734768033397966651666313646610127404321982687308504412645000261745579169493965806942893895422786998315749053429010938321263854313553436041981325313

prime p: 12235258251843427800322533580271468214768411862644285725616323425147295210732054481178485319627614069545483443675930314214646122186102225213965689240712673

prime q: 8238363717445509899921811355733496220359326926172197592231787257563498251698094349890806400362388734966369330560689902140965710482536375658188849975803741

prime exponent p: 943169884009231384519118050071432281322154153075040534138176388053223910228090074902935865766799003301093769282249720728937733025377854368996973649145985

prime exponent q: 77937432363645210155355341876417407824935268538791255431034501116764101439687787004780505183708149834126508460070307449645219349362536474176069807665873

crt coefficient: 11228541263870362801929539584646038800421516291723873773379889902535223043030350582050117672514417336396982286570742313855229425370741626261320117750796856}

publicKey:{Sun RSA public key, 1024 bits

modulus: 100798507655562672634382563625239291964945102222464707977557265818850161373345900576705678605564617099559134111187263533690577667029773051561093784895113396514352229224857085774815551784918475310931537765905461572526427050491602207190137661866307492752828388294013838106222346293330945028978188314252819509693

public exponent: 65537}

result:{XxdVrhgArX5/AnDGGqU2/VGTcrmjcY37SnKxnTR7+5VFaACbj6aSi+S3xyfgu1UHwlDUrpYczCU+ikXrbSQWs9+WGT1CixYrCC04VuxxZ32G4gKLY8Q9Ag904PuTQbA/s/YWuHxfvKykr9r2Epx2wHrZiRKA6eFvVQIQCKzWjvk=}

rsa加密

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