解密代码Java 解密代码证

小程序后台获取openId解密的java代码怎么写

一、获取code

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将code作为参数传递过来

//如果有code,说明是微信小程序,根据code获取openId

//classify用于标识是哪个小程序

if (!CheckUtil.checkNulls( keUser.getCode(),keUser.getClassify())){

//

String openid = OpenIdUtil.oauth2GetOpenid(keUser.getCode(),keUser.getClassify());

printParamsLog(openid, logger);

keUser.setUserId(openid);

}1234567812345678

二、工具类

package com.util;

import net.sf.json.JSONObject;

import org.apache.http.client.HttpClient;

import org.apache.http.client.ResponseHandler;

import org.apache.http.client.methods.HttpGet;

import org.apache.http.impl.client.BasicResponseHandler;

import org.apache.http.impl.client.DefaultHttpClient;

import java.util.HashMap;

import java.util.Map;

/**

* @author xsx

*/

public class OpenIdUtil {

public static String oauth2GetOpenid(String code,String classify) {

String appid="";

String appsecret="";

switch (classify){

case "1":

//自己的配置appid

appid = "**********";

//自己的配置APPSECRET;

appsecret = "**********";

break;

case "2":

appid = "**********";

appsecret = "************";

break;

case "3":

appid = "**********";

appsecret = "************";

break;

case "4":

appid = "**********";

appsecret = "************";

break;

case "5":

appid = "**********";

appsecret = "************";

}

//授权(必填)

String grant_type = "authorization_code";

//URL

String requestUrl = "";

//请求参数

String params = "appid=" + appid + "secret=" + appsecret + "js_code=" + code + "grant_type=" + grant_type;

//发送请求

String data = HttpUtil.get(requestUrl, params);

//解析相应内容(转换成json对象)

JSONObject json = JSONObject.fromObject(data);

//用户的唯一标识(openid)

String Openid =String.valueOf(json.get("openid"));

//System.out.println(Openid);

return Openid;

}

}

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三、发送请求的工具类

package com.util;

import java.io.BufferedReader;

import java.io.InputStreamReader;

import java.net.URL;

import java.net.URLConnection;

import java.util.List;

import java.util.Map;

/**

* @author xsx

*/

public class HttpUtil {

/**

* 向指定URL发送GET方法的请求

*

* @param url

* 发送请求的URL

* @param param

* 请求参数,请求参数应该是 name1=value1name2=value2 的形式。

* @return String 所代表远程资源的响应结果

*/

public static String get(String url,String param){

String result = "";

BufferedReader in = null;

try {

String urlNameString = url + "?" + param;

//System.out.println(urlNameString);

URL realUrl = new URL(urlNameString);

// 打开和URL之间的连接

URLConnection connection = realUrl.openConnection();

// 设置通用的请求属性

connection.setRequestProperty("accept", "*/*");

connection.setRequestProperty("connection", "Keep-Alive");

connection.setRequestProperty("user-agent",

"Mozilla/4.0 (compatible; MSIE 6.0; Windows NT 5.1;SV1)");

// 建立实际的连接

connection.connect();

// 获取所有响应头字段

MapString, ListString map = connection.getHeaderFields();

// 遍历所有的响应头字段

/*for (String key : map.keySet()) {

System.out.println(key + "---" + map.get(key));

}*/

// 定义 BufferedReader输入流来读取URL的响应

in = new BufferedReader(new InputStreamReader(

connection.getInputStream()));

String line;

while ((line = in.readLine()) != null) {

result += line;

}

} catch (Exception e) {

System.out.println("发送GET请求出现异常!" + e);

e.printStackTrace();

}

// 使用finally块来关闭输入流

finally {

try {

if (in != null) {

in.close();

}

} catch (Exception e2) {

e2.printStackTrace();

}

}

return result;

}

}

java加密解密代码

package com.cube.limail.util;

import javax.crypto.Cipher;

import javax.crypto.KeyGenerator;

import javax.crypto.SecretKey;/**

* 加密解密类

*/

public class Eryptogram

{

private static String Algorithm ="DES";

private String key="CB7A92E3D3491964";

//定义 加密算法,可用 DES,DESede,Blowfish

static boolean debug = false ;

/**

* 构造子注解.

*/

public Eryptogram ()

{

} /**

* 生成密钥

* @return byte[] 返回生成的密钥

* @throws exception 扔出异常.

*/

public static byte [] getSecretKey () throws Exception

{

KeyGenerator keygen = KeyGenerator.getInstance (Algorithm );

SecretKey deskey = keygen.generateKey ();

System.out.println ("生成密钥:"+bytesToHexString (deskey.getEncoded ()));

if (debug ) System.out.println ("生成密钥:"+bytesToHexString (deskey.getEncoded ()));

return deskey.getEncoded ();

} /**

* 将指定的数据根据提供的密钥进行加密

* @param input 需要加密的数据

* @param key 密钥

* @return byte[] 加密后的数据

* @throws Exception

*/

public static byte [] encryptData (byte [] input ,byte [] key ) throws Exception

{

SecretKey deskey = new javax.crypto.spec.SecretKeySpec (key ,Algorithm );

if (debug )

{

System.out.println ("加密前的二进串:"+byte2hex (input ));

System.out.println ("加密前的字符串:"+new String (input ));

} Cipher c1 = Cipher.getInstance (Algorithm );

c1.init (Cipher.ENCRYPT_MODE ,deskey );

byte [] cipherByte =c1.doFinal (input );

if (debug ) System.out.println ("加密后的二进串:"+byte2hex (cipherByte ));

return cipherByte ;

} /**

* 将给定的已加密的数据通过指定的密钥进行解密

* @param input 待解密的数据

* @param key 密钥

* @return byte[] 解密后的数据

* @throws Exception

*/

public static byte [] decryptData (byte [] input ,byte [] key ) throws Exception

{

SecretKey deskey = new javax.crypto.spec.SecretKeySpec (key ,Algorithm );

if (debug ) System.out.println ("解密前的信息:"+byte2hex (input ));

Cipher c1 = Cipher.getInstance (Algorithm );

c1.init (Cipher.DECRYPT_MODE ,deskey );

byte [] clearByte =c1.doFinal (input );

if (debug )

{

System.out.println ("解密后的二进串:"+byte2hex (clearByte ));

System.out.println ("解密后的字符串:"+(new String (clearByte )));

} return clearByte ;

} /**

* 字节码转换成16进制字符串

* @param byte[] b 输入要转换的字节码

* @return String 返回转换后的16进制字符串

*/

public static String byte2hex (byte [] b )

{

String hs ="";

String stmp ="";

for (int n =0 ;n b.length ;n ++)

{

stmp =(java.lang.Integer.toHexString (b [n ] 0XFF ));

if (stmp.length ()==1 ) hs =hs +"0"+stmp ;

else hs =hs +stmp ;

if (n b.length -1 ) hs =hs +":";

} return hs.toUpperCase ();

}

/**

* 字符串转成字节数组.

* @param hex 要转化的字符串.

* @return byte[] 返回转化后的字符串.

*/

public static byte[] hexStringToByte(String hex) {

int len = (hex.length() / 2);

byte[] result = new byte[len];

char[] achar = hex.toCharArray();

for (int i = 0; i len; i++) {

int pos = i * 2;

result[i] = (byte) (toByte(achar[pos]) 4 | toByte(achar[pos + 1]));

}

return result;

}

private static byte toByte(char c) {

byte b = (byte) "0123456789ABCDEF".indexOf(c);

return b;

}

/**

* 字节数组转成字符串.

* @param String 要转化的字符串.

* @return 返回转化后的字节数组.

*/

public static final String bytesToHexString(byte[] bArray) {

StringBuffer sb = new StringBuffer(bArray.length);

String sTemp;

for (int i = 0; i bArray.length; i++) {

sTemp = Integer.toHexString(0xFF bArray[i]);

if (sTemp.length() 2)

sb.append(0);

sb.append(sTemp.toUpperCase());

}

return sb.toString();

}

/**

* 从数据库中获取密钥.

* @param deptid 企业id.

* @return 要返回的字节数组.

* @throws Exception 可能抛出的异常.

*/

public static byte[] getSecretKey(long deptid) throws Exception {

byte[] key=null;

String value=null;

//CommDao dao=new CommDao();

// List list=dao.getRecordList("from Key k where k.deptid="+deptid);

//if(list.size()0){

//value=((com.csc.sale.bean.Key)list.get(0)).getKey();

value = "CB7A92E3D3491964";

key=hexStringToByte(value);

//}

if (debug)

System.out.println("密钥:" + value);

return key;

}

public String encryptData2(String data) {

String en = null;

try {

byte[] key=hexStringToByte(this.key);

en = bytesToHexString(encryptData(data.getBytes(),key));

} catch (Exception e) {

e.printStackTrace();

}

return en;

}

public String decryptData2(String data) {

String de = null;

try {

byte[] key=hexStringToByte(this.key);

de = new String(decryptData(hexStringToByte(data),key));

} catch (Exception e) {

e.printStackTrace();

}

return de;

}

} 加密使用: byte[] key=Eryptogram.getSecretKey(deptid); //获得钥匙(字节数组)

byte[] tmp=Eryptogram.encryptData(password.getBytes(), key); //传入密码和钥匙,获得加密后的字节数组的密码

password=Eryptogram.bytesToHexString(tmp); //将字节数组转化为字符串,获得加密后的字符串密码解密与之差不多

java密码加密与解密

以下两个类可以很方便的完成字符串的加密和解密

加密 CryptHelper encrypt(password)

解密 CrypHelper decrypt(password)

代码如下

CryptUtils java

[java]

package gdie lab crypt;

import java io IOException;

import javax crypto Cipher;

import javax crypto KeyGenerator;

import javax crypto SecretKey;

import apache xerces internal impl dv util Base ;

public class CryptUtils {

private static String Algorithm = DES ;

private static byte[] DEFAULT_KEY=new byte[] { };

private static String VALUE_ENCODING= UTF ;

/**

* 生成密钥

*

* @return byte[] 返回生成的密钥

* @throws exception

*             扔出异常

*/

public static byte[] getSecretKey() throws Exception {

KeyGenerator keygen = KeyGenerator getInstance(Algorithm)

SecretKey deskey = keygen generateKey()

// if (debug ) System out println ( 生成密钥 +byte hex (deskey getEncoded

// ()))

return deskey getEncoded()

}

/**

* 将指定的数据根据提供的密钥进行加密

*

* @param input

*            需要加密的数据

* @param key

*            密钥

* @return byte[] 加密后的数据

* @throws Exception

*/

public static byte[] encryptData(byte[] input byte[] key) throws Exception {

SecretKey deskey = new javax crypto spec SecretKeySpec(key Algorithm)

// if (debug )

// {

// System out println ( 加密前的二进串 +byte hex (input ))

// System out println ( 加密前的字符串 +new String (input ))

//

// }

Cipher c = Cipher getInstance(Algorithm)

c init(Cipher ENCRYPT_MODE deskey)

byte[] cipherByte = c doFinal(input)

// if (debug ) System out println ( 加密后的二进串 +byte hex (cipherByte ))

return cipherByte;

}

public static byte[] encryptData(byte[] input) throws Exception {

return encryptData(input DEFAULT_KEY)

}

/**

* 将给定的已加密的数据通过指定的密钥进行解密

*

* @param input

*            待解密的数据

* @param key

*            密钥

* @return byte[] 解密后的数据

* @throws Exception

*/

public static byte[] decryptData(byte[] input byte[] key) throws Exception {

SecretKey deskey = new javax crypto spec SecretKeySpec(key Algorithm)

// if (debug ) System out println ( 解密前的信息 +byte hex (input ))

Cipher c = Cipher getInstance(Algorithm)

c init(Cipher DECRYPT_MODE deskey)

byte[] clearByte = c doFinal(input)

// if (debug )

// {

// System out println ( 解密后的二进串 +byte hex (clearByte ))

// System out println ( 解密后的字符串 +(new String (clearByte )))

//

// }

return clearByte;

}

public static byte[] decryptData(byte[] input) throws Exception {

return decryptData(input DEFAULT_KEY)

}

/**

* 字节码转换成 进制字符串

*

* @param byte[] b 输入要转换的字节码

* @return String 返回转换后的 进制字符串

*/

public static String byte hex(byte[] bytes) {

StringBuilder hs = new StringBuilder()

for(byte b : bytes)

hs append(String format( % $ X b))

return hs toString()

}

public static byte[] hex byte(String content) {

int l=content length()》 ;

byte[] result=new byte[l];

for(int i= ;il;i++) {

int j=i《 ;

String s=content substring(j j+ )

result[i]=Integer valueOf(s ) byteValue()

}

return result;

}

/**

* 将字节数组转换为base 编码字符串

* @param buffer

* @return

*/

public static String bytesToBase (byte[] buffer) {

//BASE Encoder en=new BASE Encoder()

return Base encode(buffer)

//      return encoder encode(buffer)

}

/**

* 将base 编码的字符串解码为字节数组

* @param value

* @return

* @throws IOException

*/

public static byte[] base ToBytes(String value) throws IOException {

//return Base decodeToByteArray(value)

//      System out println(decoder decodeBuffer(value))

//      return decoder decodeBuffer(value)

return Base decode(value)

}

/**

* 加密给定的字符串

* @param value

* @return 加密后的base 字符串

*/

public static String encryptString(String value) {

return encryptString(value DEFAULT_KEY)

}

/**

* 根据给定的密钥加密字符串

* @param value 待加密的字符串

* @param key 以BASE 形式存在的密钥

* @return 加密后的base 字符串

* @throws IOException

*/

public static String encryptString(String value String key) throws IOException {

return encryptString(value base ToBytes(key))

}

/**

* 根据给定的密钥加密字符串

* @param value 待加密的字符串

* @param key 字节数组形式的密钥

* @return 加密后的base 字符串

*/

public static String encryptString(String value byte[] key) {

try {

byte[] data=value getBytes(VALUE_ENCODING)

data=CryptUtils encryptData(data key)

return bytesToBase (data)

} catch (Exception e) {

// TODO Auto generated catch block

e printStackTrace()

return null;

}

}

/**

* 解密字符串

* @param value base 形式存在的密文

* @return 明文

*/

public static String decryptString(String value) {

return decryptString(value DEFAULT_KEY)

}

/**

* 解密字符串

* @param value base 形式存在的密文

* @param key base 形式存在的密钥

* @return 明文

* @throws IOException

*/

public static String decryptString(String value String key) throws IOException {

String s=decryptString(value base ToBytes(key))

return s;

}

/**

* 解密字符串

* @param value base 形式存在的密文

* @param key 字节数据形式存在的密钥

* @return 明文

*/

public static String decryptString(String value byte[] key) {

try {

byte[] data=base ToBytes(value)

data=CryptUtils decryptData(data key)

return new String(data VALUE_ENCODING)

}catch(Exception e) {

e printStackTrace()

return null;

}

}

}

package gdie lab crypt;

import java io IOException;

import javax crypto Cipher;

import javax crypto KeyGenerator;

import javax crypto SecretKey;

import apache xerces internal impl dv util Base ;

public class CryptUtils {

private static String Algorithm = DES ;

private static byte[] DEFAULT_KEY=new byte[] { };

private static String VALUE_ENCODING= UTF ;

/**

* 生成密钥

*

* @return byte[] 返回生成的密钥

* @throws exception

*             扔出异常

*/

public static byte[] getSecretKey() throws Exception {

KeyGenerator keygen = KeyGenerator getInstance(Algorithm)

SecretKey deskey = keygen generateKey()

// if (debug ) System out println ( 生成密钥 +byte hex (deskey getEncoded

// ()))

return deskey getEncoded()

}

/**

* 将指定的数据根据提供的密钥进行加密

*

* @param input

*            需要加密的数据

* @param key

*            密钥

* @return byte[] 加密后的数据

* @throws Exception

*/

public static byte[] encryptData(byte[] input byte[] key) throws Exception {

SecretKey deskey = new javax crypto spec SecretKeySpec(key Algorithm)

// if (debug )

// {

// System out println ( 加密前的二进串 +byte hex (input ))

// System out println ( 加密前的字符串 +new String (input ))

//

// }

Cipher c = Cipher getInstance(Algorithm)

c init(Cipher ENCRYPT_MODE deskey)

byte[] cipherByte = c doFinal(input)

// if (debug ) System out println ( 加密后的二进串 +byte hex (cipherByte ))

return cipherByte;

}

public static byte[] encryptData(byte[] input) throws Exception {

return encryptData(input DEFAULT_KEY)

}

/**

* 将给定的已加密的数据通过指定的密钥进行解密

*

* @param input

*            待解密的数据

* @param key

*            密钥

* @return byte[] 解密后的数据

* @throws Exception

*/

public static byte[] decryptData(byte[] input byte[] key) throws Exception {

SecretKey deskey = new javax crypto spec SecretKeySpec(key Algorithm)

// if (debug ) System out println ( 解密前的信息 +byte hex (input ))

Cipher c = Cipher getInstance(Algorithm)

c init(Cipher DECRYPT_MODE deskey)

byte[] clearByte = c doFinal(input)

// if (debug )

// {

// System out println ( 解密后的二进串 +byte hex (clearByte ))

// System out println ( 解密后的字符串 +(new String (clearByte )))

//

// }

return clearByte;

}

public static byte[] decryptData(byte[] input) throws Exception {

return decryptData(input DEFAULT_KEY)

}

/**

* 字节码转换成 进制字符串

*

* @param byte[] b 输入要转换的字节码

* @return String 返回转换后的 进制字符串

*/

public static String byte hex(byte[] bytes) {

StringBuilder hs = new StringBuilder()

for(byte b : bytes)

hs append(String format( % $ X b))

return hs toString()

}

public static byte[] hex byte(String content) {

int l=content length()》 ;

byte[] result=new byte[l];

for(int i= ;il;i++) {

int j=i《 ;

String s=content substring(j j+ )

result[i]=Integer valueOf(s ) byteValue()

}

return result;

}

/**

* 将字节数组转换为base 编码字符串

* @param buffer

* @return

*/

public static String bytesToBase (byte[] buffer) {

//BASE Encoder en=new BASE Encoder()

return Base encode(buffer)

//  return encoder encode(buffer)

}

/**

* 将base 编码的字符串解码为字节数组

* @param value

* @return

* @throws IOException

*/

public static byte[] base ToBytes(String value) throws IOException {

//return Base decodeToByteArray(value)

//  System out println(decoder decodeBuffer(value))

//  return decoder decodeBuffer(value)

return Base decode(value)

}

/**

* 加密给定的字符串

* @param value

* @return 加密后的base 字符串

*/

public static String encryptString(String value) {

return encryptString(value DEFAULT_KEY)

}

/**

* 根据给定的密钥加密字符串

* @param value 待加密的字符串

* @param key 以BASE 形式存在的密钥

* @return 加密后的base 字符串

* @throws IOException

*/

public static String encryptString(String value String key) throws IOException {

return encryptString(value base ToBytes(key))

}

/**

* 根据给定的密钥加密字符串

* @param value 待加密的字符串

* @param key 字节数组形式的密钥

* @return 加密后的base 字符串

*/

public static String encryptString(String value byte[] key) {

try {

byte[] data=value getBytes(VALUE_ENCODING)

data=CryptUtils encryptData(data key)

return bytesToBase (data)

} catch (Exception e) {

// TODO Auto generated catch block

e printStackTrace()

return null;

}

}

/**

* 解密字符串

* @param value base 形式存在的密文

* @return 明文

*/

public static String decryptString(String value) {

return decryptString(value DEFAULT_KEY)

}

/**

* 解密字符串

* @param value base 形式存在的密文

* @param key base 形式存在的密钥

* @return 明文

* @throws IOException

*/

public static String decryptString(String value String key) throws IOException {

String s=decryptString(value base ToBytes(key))

return s;

}

/**

* 解密字符串

* @param value base 形式存在的密文

* @param key 字节数据形式存在的密钥

* @return 明文

*/

public static String decryptString(String value byte[] key) {

try {

byte[] data=base ToBytes(value)

data=CryptUtils decryptData(data key)

return new String(data VALUE_ENCODING)

}catch(Exception e) {

e printStackTrace()

return null;

}

}

}

CryptHelper java

[java]

package gdie lab crypt;

import javax crypto Cipher;

import javax crypto SecretKey;

import javax crypto SecretKeyFactory;

import javax crypto spec DESKeySpec;

import javax crypto spec IvParameterSpec;

import springframework util DigestUtils;

public class CryptHelper{

private static String CRYPT_KEY = zhongqian ;

//加密

private static Cipher ecip;

//解密

private static Cipher dcip;

static {

try {

String KEY = DigestUtils md DigestAsHex(CRYPT_KEY getBytes()) toUpperCase()

KEY = KEY substring( )

byte[] bytes = KEY getBytes()

DESKeySpec ks = new DESKeySpec(bytes)

SecretKeyFactory skf = SecretKeyFactory getInstance( DES )

SecretKey sk = skf generateSecret(ks)

IvParameterSpec iv = new IvParameterSpec(bytes)

ecip = Cipher getInstance( DES/CBC/PKCS Padding )

ecip init(Cipher ENCRYPT_MODE sk iv )

dcip = Cipher getInstance( DES/CBC/PKCS Padding )

dcip init(Cipher DECRYPT_MODE sk iv )

}catch(Exception ex) {

ex printStackTrace()

}

}

public static String encrypt(String content) throws Exception {

byte[] bytes = ecip doFinal(content getBytes( ascii ))

return CryptUtils byte hex(bytes)

}

public static String decrypt(String content) throws Exception {

byte[] bytes  = CryptUtils hex byte(content)

bytes = dcip doFinal(bytes)

return new String(bytes ascii )

}

//test

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

String password = gly ;

String en = encrypt(password)

System out println(en)

System out println(decrypt(en))

}

}

package gdie lab crypt;

import javax crypto Cipher;

import javax crypto SecretKey;

import javax crypto SecretKeyFactory;

import javax crypto spec DESKeySpec;

import javax crypto spec IvParameterSpec;

import springframework util DigestUtils;

public class CryptHelper{

private static String CRYPT_KEY = zhongqian ;

//加密

private static Cipher ecip;

//解密

private static Cipher dcip;

static {

try {

String KEY = DigestUtils md DigestAsHex(CRYPT_KEY getBytes()) toUpperCase()

KEY = KEY substring( )

byte[] bytes = KEY getBytes()

DESKeySpec ks = new DESKeySpec(bytes)

SecretKeyFactory skf = SecretKeyFactory getInstance( DES )

SecretKey sk = skf generateSecret(ks)

IvParameterSpec iv = new IvParameterSpec(bytes)

ecip = Cipher getInstance( DES/CBC/PKCS Padding )

ecip init(Cipher ENCRYPT_MODE sk iv )

dcip = Cipher getInstance( DES/CBC/PKCS Padding )

dcip init(Cipher DECRYPT_MODE sk iv )

}catch(Exception ex) {

ex printStackTrace()

}

}

public static String encrypt(String content) throws Exception {

byte[] bytes = ecip doFinal(content getBytes( ascii ))

return CryptUtils byte hex(bytes)

}

public static String decrypt(String content) throws Exception {

byte[] bytes  = CryptUtils hex byte(content)

bytes = dcip doFinal(bytes)

return new String(bytes ascii )

}

//test

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

String password = gly ;

String en = encrypt(password)

System out println(en)

System out println(decrypt(en))

}

lishixinzhi/Article/program/Java/hx/201311/26449

JAVA解密文本代码的问题。可以运行追加200分。

按照你同学的加密算法,只对英文小写字母进行了加密,原文和密文的对应关系如下:

原文:a b c d e f g h i j k l m n o p q r s t u v w x y z

密文:f g h i j k l m n o p q r s t u v w x y z { | } a b

怎么得到上述关系呢,其实是所有的字符都有一个对应的ASCII码,相关ASCII码如下:

可以看到v的ASCII码为118,+5为123,所以变为{

97 a

98 b

99 c

100 d

101 e

102 f

103 g

104 h

105 i

106 j

107 k

108 l

109 m

110 n

111 o

112 p

113 q

114 r

115 s

116 t

117 u

118 v

119 w

120 x

121 y

122 z

123 {

124 |

125 }

下面为解密代码

import java.io.*;

class FileIo2 {

public static void main(String args[]) {

// 声明输入流引用

FileInputStream fis = null;

// 声明输出流引用

FileOutputStream fos = null;

try {

// 生成代表输入流的对象

fis = new FileInputStream("D:/test1.txt");

// 生成代表输出流的对象

fos = new FileOutputStream("D:/test2.txt");

// 生成一个字节数组

byte[] buffer = new byte[100];

// 调用输入对象的read方法,读取字节数组的数据

int temp = fis.read(buffer, 0, buffer.length);

for (int i = 0; i  temp; i++) {

if (buffer[i] = 'f'  buffer[i] = 'z') {

buffer[i] -= 5;

System.out.printf("%c", buffer[i]);

}else if (buffer[i] == 'a') {

buffer[i] = 'y';

System.out.printf("%c", buffer[i]);

}else if (buffer[i] == 'b') {

buffer[i] = 'z';

System.out.printf("%c", buffer[i]);

}else if(buffer[i] == '{'){

buffer[i] = 'v';

System.out.printf("%c", buffer[i]);

}else if(buffer[i] == '|'){

buffer[i] = 'w';

System.out.printf("%c", buffer[i]);

}else if(buffer[i] == '}'){

buffer[i] = 'x';

System.out.printf("%c", buffer[i]);

}

}

// System.out.printf("temp=%d",temp);

// temp临时定义用来接收read返回值类型,从而判断写入多少数据

fos.write(buffer, 0, temp);

} catch (Exception e) {

System.out.println(e);

}

}

}

下面这段代码是既有加密也有解密:

import java.io.*;

class FileIo2 {

public static void jiemi(){

// 声明输入流引用

FileInputStream fis = null;

// 声明输出流引用

FileOutputStream fos = null;

try {

// 生成代表输入流的对象

fis = new FileInputStream("D:/test1.txt");

// 生成代表输出流的对象

fos = new FileOutputStream("D:/test2.txt");

// 生成一个字节数组

byte[] buffer = new byte[100];

// 调用输入对象的read方法,读取字节数组的数据

int temp = fis.read(buffer, 0, buffer.length);

for (int i = 0; i  temp; i++) {

if (buffer[i] = 'f'  buffer[i] = 'z') {

buffer[i] -= 5;

System.out.printf("%c", buffer[i]);

}else if (buffer[i] == 'a') {

buffer[i] = 'y';

System.out.printf("%c", buffer[i]);

}else if (buffer[i] == 'b') {

buffer[i] = 'z';

System.out.printf("%c", buffer[i]);

}else if(buffer[i] == '{'){

buffer[i] = 'v';

System.out.printf("%c", buffer[i]);

}else if(buffer[i] == '|'){

buffer[i] = 'w';

System.out.printf("%c", buffer[i]);

}else if(buffer[i] == '}'){

buffer[i] = 'x';

System.out.printf("%c", buffer[i]);

}

}

// System.out.printf("temp=%d",temp);

// temp临时定义用来接收read返回值类型,从而判断写入多少数据

fos.write(buffer, 0, temp);

} catch (Exception e) {

System.out.println(e);

}

}

public static void jiami(){

// 声明输入流引用

FileInputStream fis = null;

// 声明输出流引用

FileOutputStream fos = null;

try {

// 生成代表输入流的对象

fis = new FileInputStream("D:/test.txt");

// 生成代表输出流的对象

fos = new FileOutputStream("D:/test1.txt");

// 生成一个字节数组

byte[] buffer = new byte[100];

// 调用输入对象的read方法,读取字节数组的数据

int temp = fis.read(buffer, 0, buffer.length);

for (int i = 0; i  temp; i++) {

if (buffer[i] = 'a'  buffer[i] = 'x') {

buffer[i] += 5;

// buffer[i]--;

System.out.printf("%c", buffer[i]);

}

if (buffer[i] == 'y') {

buffer[i] = 'a';

System.out.printf("%c", buffer[i]);

}

if (buffer[i] == 'z') {

buffer[i] = 'b';

System.out.printf("%c", buffer[i]);

}

}

// System.out.printf("temp=%d",temp);

// temp临时定义用来接收read返回值类型,从而判断写入多少数据

fos.write(buffer, 0, temp);

} catch (Exception e) {

System.out.println(e);

}

}

public static void main(String args[]) {

jiami();//先加密

jiemi();//再解密

}

}


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