2018-2019-2 20175214 实验五《网络编程与安全》实验报告
一、实验准备情况概述
- 结对对象:20175209王梓鸿
- 之前的结对项目已经完成过四则运算的内容,因此在完成实验时没有完全使用博客链接中给定的代码,基本采用之前结对项目的代码,并且结对项目中的四则运算还可以实现分数的运算,更加全面。
- 在完成实验的过程中需要参考实验三中Java密码学算法中的内容。
二、实验内容及步骤
-
1.提交1
- 实验要求:
结对实现中缀表达式转后缀表达式的功能 MyBC.java 结对实现从上面功能中获取的表达式中实现后缀表达式求值的功能,调用MyDC.java 上传测试代码运行结果截图和码云链接-
实验原理
- 我们习惯使用的计算表达式称作中缀表达式,但计算机在计算时不使用中缀表达式;
- 因为中缀表达式需要计算机遇到符号后向后扫描一位 若为括号或优先级更高的操作符还需要向后继续扫描;
- 而后缀表达式严格按照从左到右进行计算的模式 符合计算机运行方式;
- 因此表达式求值分为两部分:中缀转后缀、后缀表达式求值。
-
实验代码
-
中缀转后缀MyBC.java
- 伪代码
-
1、设立空栈用于存放操作符
2、从左到右扫描中缀式,若遇到操作数,直接输出,并以空格作为分隔符;
3、若遇到运算符,则与栈顶元素比较,比栈顶级别高则进栈,否则退出栈顶元素并输出,并以空格作为分隔符,优先级从高到低为')' '/' (÷*) (+-) ;
4、若遇到左括号,进栈;若遇到右括号,则一直退栈输出,直到退到左括号止;
5、当栈变成空时,输出的结果即为后缀表达式。
- 产品代码
```
import java.util.Stack;
public class MyBC {
String C = new String();
String End = ""; //存储数字的字符串
public void ChangeString(String str) {
C = str;
}
public String ChangeOrder() {
Stack store = new Stack(); //创建一个存储字符的栈
for (int i = 0; i < C.length(); i++) {
char op = C.charAt(i); //将索引值为i处的字符的值返回
if (op >= '0' && op <= '9') {
End = End + op;
}
else if (op == '(') {
store.push(op);
}
else if (op == '+' || op == '-' || op == '*' || op == '÷'|| op == '/') {
End = End + " ";
if (store.empty()) {
store.push(op);
}
else if (compareValue(op) > compareValue((char) store.peek())) { //比较运算符优先级
store.push(op);
}
else {
End = End + String.valueOf(store.pop());
i--;
}
}
else if (op == ')') {
while ((char) store.peek() != '(') {
End = End + " " + String.valueOf(store.pop());
}
store.pop();
}
}
while (!store.empty()) {
End = End + " " + String.valueOf(store.pop());
}
return End;
}
public int compareValue(char chi) {
int number = 0;
switch (chi) {
case '(':
number = 1;
break;
case '+':
case '-':
number = 2;
break;
case '*':
case '÷':
number = 3;
break;
case '/':
number = 4;
break;
case ')':
number = 5;
break;
default:
number = 0;
break;
}
return number;
}
}
- 后缀表达式计算MyDC.java
- 伪代码
```
1、设置一个空栈用于存储数字元素;
2、从左到右扫描后缀表达式,遇操作数,进栈;
3、若遇运算符,则从栈顶弹出两个操作数,执行对应的运算,并将运算后的结果压栈栈;
4、重复执行直至后缀表达式扫描完毕,弹出栈中的最后一个元素即为表达式的值。
- 产品代码
```
import java.util.StringTokenizer;
import java.util.Stack;
public class MyDC {
String q;
Stack stack;
public MyDC() {
stack = new Stack();
}
void set(String question) { //输入后续排列的字符串
q = question;
}
public Rational get() {
Rational op1 = new Rational();
Rational op2 = new Rational();
Rational result = new Rational();
result.setNumerator(0);
StringTokenizer token = new StringTokenizer(q, " ");
String temp;
while (token.hasMoreTokens()) {
temp = token.nextToken();
if (Isop(temp) == 1) { //遇到操作符,弹出栈顶的两个数进行运算
op2 = (Rational) stack.pop();
op1 = (Rational) stack.pop();//弹出最上面两个操作数
result = cal(temp.charAt(0), op1, op2);//根据运算符进行运算
stack.push(result);//将计算结果压栈
}
else {
Rational num = new Rational();
num.setNumerator(Integer.parseInt(temp));
stack.push(num);//操作数入栈
}
}
return result;
}
Rational cal(char op, Rational a, Rational b) { //对栈顶弹出的两个数进行运算
Rational c = new Rational();
switch (op) {
case '+':
c = a.add(b);
break;
case '-':
c = a.sub(b);
break;
case '*':
c = a.muti(b);
break;
case '÷':
case '/':
if(b.getNumerator()==0) {
System.out.println("生成的算式计算时出现了分母为0的情况!");
System.exit(0);
}
else {
c = a.div(b);
break;
}
default:
System.out.println("Wrong!");
}
return c;
}
int Isop(String op) { //判断是不是运算符
if (op.equals("+") || op.equals("-") || op.equals("*") || op.equals("÷") || op.equals("/")) {
return 1;
}
else {
return 0;
}
}
}
- 有理数类Rational
- 用于实现分数运算
```
public class Rational {
int numerator = 1 ; //分子
int denominator = 1; //分母
void setNumerator(int a) { //设置分子
int c=f(Math.abs(a),denominator); //计算最大公约数
numerator = a/c;
denominator = denominator/c;
if(numerator<0&&denominator<0) {
numerator = -numerator;
denominator = -denominator;
}
}
void setDenominator(int b) { //设置分母
int c=f(numerator,Math.abs(b)); //计算最大公约数
numerator = numerator/c;
denominator = b/c;
if(numerator<0&&denominator<0) {
numerator = -numerator;
denominator = -denominator;
}
}
int getNumerator() {
return numerator;
}
int getDenominator() {
return denominator;
}
int f(int a,int b) { //求a和b的最大公约数
if(a0) {
return 1;
}
if(a<b) {
int c=a;
a=b;
b=c;
}
int r=a%b;
while(r!=0) {
a=b;
b=r;
r=a%b;
}
return b;
}
Rational add(Rational r) { //加法运算
int a=r.getNumerator();
int b=r.getDenominator();
int newNumerator=numeratorb+denominatora; //计算出新分子
int newDenominator=denominatorb; //计算出新分母
Rational result=new Rational();
result.setNumerator(newNumerator);
result.setDenominator(newDenominator);
return result;
}
Rational sub(Rational r) { //减法运算
int a=r.getNumerator();
int b=r.getDenominator();
int newNumerator=numeratorb-denominatora;
int newDenominator=denominatorb;
Rational result=new Rational();
result.setNumerator(newNumerator);
result.setDenominator(newDenominator);
return result;
}
Rational muti(Rational r) { //乘法运算
int a=r.getNumerator();
int b=r.getDenominator();
int newNumerator=numeratora;
int newDenominator=denominatorb;
Rational result=new Rational();
result.setNumerator(newNumerator);
result.setDenominator(newDenominator);
return result;
}
Rational div(Rational r) { //除法运算
int a=r.getNumerator();
int b=r.getDenominator();
int newNumerator=numeratorb;
int newDenominator=denominatora;
Rational result=new Rational();
if(a0) {
System.out.println("该算式无解");
result.setNumerator(0);
}
else {
result.setNumerator(newNumerator);
result.setDenominator(newDenominator);
}
return result;
}
}
- 测试代码Test
```
import java.util.*;
public class Test {
public static void main(String[] args) {
String question = "";
String question1 = "";
Scanner scanner = new Scanner(System.in);
System.out.println("请输入题目:");
question = scanner.nextLine();
MyBC change = new MyBC();
change.ChangeString(question);
question1 = change.ChangeOrder();
System.out.println(question1);
MyDC getanswer = new MyDC();
getanswer.set(question1);
Rational answer = getanswer.get();
int a = answer.getNumerator();
int b = answer.getDenominator();
float result = (float)a/b;
System.out.println("结果为(保留两位小数):");
System.out.println(String.format("%.2f",result));
}
}
- 测试结果截图
-
2.提交2
- 实验要求
1、基于Java Socket实现客户端/服务器功能,传输方式用TCP
2、客户端让用户输入中缀表达式,然后把中缀表达式调用MyBC.java的功能转化为后缀表达式,把后缀表达式通过网络发送给服务器
3、服务器接收到后缀表达式,调用MyDC.java的功能计算后缀表达式的值,把结果发送给客户端
4、客户端显示服务器发送过来的结果
5、上传测试结果截图和码云链接
- 实验原理
- 获取`Client`端的IP地址
- 打开终端,输入`ipconfig`查看;
- 在命令行输入IP地址;
- 调用`InetAddress`类中的`geetByName`方法获取输入的IP地址;
- 创建一个套接字,可以使用`Socket`的构造方法;
- 如:`public Socket(java.lang.String host, int port)` 其中,`host`是IP地址,`port`是端口号。
- 调用`getInputStream()`方法获得一个输入流
- 调用`getOutputStream()`方法获得一个输出流
- 服务器端调用`ServerSocke`t实现套接字
- 使用`accept()`方法连接客户端和服务器的套接字
- 调用`getInputStream()`方法获得一个输入流
- 调用`getOutputStream()`方法获得一个输出流
- 实验代码
- 客户端Client
```
import java.io.*;
import java.net.*;
import java.util.Scanner;
public class Client {
public static void main(String args[]) {
Socket mysocket;
DataInputStream in=null;
DataOutputStream out=null;
Scanner scanner = new Scanner(System.in);
try{
System.out.print("输入服务器的IP:");
String IP = scanner.nextLine();
InetAddress address=InetAddress.getByName(IP);
mysocket = new Socket(address, 2010);
in=new DataInputStream(mysocket.getInputStream());
out=new DataOutputStream(mysocket.getOutputStream());
System.out.println("请输入中缀表达式:");
while (scanner.hasNext()) {
String question = scanner.next();
MyBC change = new MyBC();
change.ChangeString(question);
String question1 = change.ChangeOrder();
System.out.println("后缀表达式为:"+question1);
out.writeUTF(question1);
String s=in.readUTF(); //in读取信息,堵塞状态
System.out.println("客户收到服务器的回答:"+s);
Thread.sleep(500);
System.out.println("请输入中缀表达式:");
}
}
catch(Exception e) {
System.out.println("服务器已断开"+e);
}
}
}
- 服务器Server
```
import java.io.;
import java.net.;
public class Server {
public static void main(String[] args) {
ServerSocket serverForClient = null;
Socket socketOnServer = null;
DataOutputStream out = null;
DataInputStream in = null;
String question = "";
try {
serverForClient = new ServerSocket(2010);
} catch (IOException e) {
System.out.println(e);
}
System.out.println("等待客户呼叫");
try {
socketOnServer = serverForClient.accept();
out = new DataOutputStream(socketOnServer.getOutputStream());
in = new DataInputStream(socketOnServer.getInputStream());
while(true) {
question = in.readUTF(); // in读取信息,堵塞状态
System.out.println("服务器收到客户传递的后缀表达式为:" + question);
MyDC getanswer = new MyDC();
getanswer.set(question);
Rational answer = getanswer.get();
int a = answer.getNumerator();
int b = answer.getDenominator();
float result = (float) a / b;
System.out.println("计算出的结果为"+String.format("%.2f",result));
out.writeUTF(String.format("%.2f",result));
Thread.sleep(500);
}
} catch (Exception e) {
System.out.println("客户已断开" + e);
}
}
}
- 测试结果截图
- 客户端
- 服务器
- 3.提交3
- 实验要求
1、基于Java Socket实现客户端/服务器功能,传输方式用TCP
2、客户端让用户输入中缀表达式,然后把中缀表达式调用MyBC.java的功能转化为后缀表达式,把后缀表达式用3DES或AES算法加密后通过网络把密文发送给服务器
3、服务器接收到后缀表达式表达式后,进行解密(和客户端协商密钥,可以用数组保存),然后调用MyDC.java的功能计算后缀表达式的值,把结果发送给客户端
4、客户端显示服务器发送过来的结果
5、上传测试结果截图和码云链接
- 实验原理
- 本部分主要参考Java密码学算法中“Java对称加密-DES算法”部分;
- 但是这次和结对伙伴没有通过对象序列化方式写入文件中,而是直接将密钥进行传递。
- 伪代码
- 客户端
```
1、获取密钥生成器KeyGenerator kg=KeyGenerator.getInstance("DESede")
2、初始化密钥生成器kg.init(168);
3、生成密钥SecretKey k=kg.generateKey( );
4、获取主要编码格式byte[ ] kb=k.getEncoded( );
5、传送密钥长度及密钥内容
6、创建密码器Cipher cp=Cipher.getInstance("DESede");
7、初始化密码器cp.init(Cipher.ENCRYPT_MODE, k);
8、获取等待加密的明文byte ptext[]=s.getBytes("UTF8");
9、执行加密byte []ptext=cp.doFinal(ctext)
- 服务器
```
1、接收密钥长度
2、接收密钥内容
3、创建密码器Cipher cp=Cipher.getInstance("DESede");
4、初始化密码器cp.init(Cipher.DECRYPT_MODE, k);
5、执行解密byte []ptext=cp.doFinal(ctext)
- 实验代码
- 客户端Client
```
import java.io.*;
import java.net.*;
import javax.crypto.*;
import java.util.Scanner;
public class Client {
public static void main(String args[]) throws Exception{
Socket mysocket;
DataInputStream in=null;
DataOutputStream out=null;
Scanner scanner = new Scanner(System.in);
try {
System.out.print("输入服务器的IP:");
String IP = scanner.nextLine();
InetAddress address=InetAddress.getByName(IP);
mysocket = new Socket(address, 2010);
in = new DataInputStream(mysocket.getInputStream());
out = new DataOutputStream(mysocket.getOutputStream());
KeyGenerator kg = KeyGenerator.getInstance("DESede");
kg.init(168);
SecretKey k = kg.generateKey();
byte []kb = k.getEncoded();
out.writeUTF(kb.length+ "");
System.out.println("产生的密钥为");
for(int i=0;i<kb.length;i++) {
System.out.print(kb[i]+ " ");
out.writeUTF(kb[i] +"");
}
System.out.println("\n请输入中缀表达式:");
while(scanner.hasNext()) {
String question = scanner.next();
MyBC change = new MyBC();
change.ChangeString(question);
String question1 = change.ChangeOrder();
System.out.println("后缀表达式为:"+question1);
Cipher cp = Cipher.getInstance("DESede");
cp.init(Cipher.ENCRYPT_MODE,k);
byte ptext[] = question1.getBytes("UTF8");
byte ctext[] = cp.doFinal(ptext);
out.writeUTF(ctext.length + "");
for(int i=0;i<ctext.length;i++) {
out.writeUTF(ctext[i] +"");
}
String s=in.readUTF(); //in读取信息,堵塞状态
System.out.println("客户收到服务器的回答:"+s);
Thread.sleep(500);
System.out.println("请输入中缀表达式:");
}
}
catch (IOException e) {
System.out.println("服务器已断开"+e);
}
}
}
- 服务器Server
```
import java.io.;
import java.net.;
import javax.crypto.;
import javax.crypto.spec.;
public class Server {
public static void main(String[] args) throws Exception{
ServerSocket serverForClient = null;
Socket socketOnServer = null;
DataOutputStream out = null;
DataInputStream in = null;
try {
serverForClient = new ServerSocket(2010);
} catch (IOException e) {
System.out.println(e);
}
System.out.println("等待客户呼叫");
try {
socketOnServer = serverForClient.accept();
out = new DataOutputStream(socketOnServer.getOutputStream());
in = new DataInputStream(socketOnServer.getInputStream());
String keylength = in.readUTF();
byte []kb = new byte[Integer.parseInt(keylength)];
System.out.println("收到的密钥为:");
for(int i = 0;i<Integer.parseInt(keylength);i++) {
String str = in.readUTF();
kb[i] = Byte.parseByte(str);
System.out.print(kb[i] + " ");
}
while(true) {
SecretKeySpec k = new SecretKeySpec(kb, "DESede");
Cipher cp = Cipher.getInstance("DESede");
cp.init(Cipher.DECRYPT_MODE, k);
String clength = in.readUTF();
byte ctext[] = new byte[Integer.parseInt(clength)];
for (int i = 0;i<Integer.parseInt(clength);i++) {
String temp = in.readUTF();
ctext[i] = Byte.parseByte(temp);
}
byte[] ptext = cp.doFinal(ctext);
String question = new String(ptext,"UTF8");
System.out.print("\n后缀表达式为:"+ question);
MyDC getanswer = new MyDC();
getanswer.set(question);
Rational answer = getanswer.get();
int a = answer.getNumerator();
int b = answer.getDenominator();
float result = (float) a / b;
System.out.println("\n计算出的结果为"+String.format("%.2f",result));
out.writeUTF(String.format("%.2f",result));
Thread.sleep(500);
}
} catch (IOException e) {
System.out.println("客户已断开" + e);
}
}
}
- 测试结果截图
- 客户端
- 服务器
- 4.提交4
- 实验要求
1、基于Java Socket实现客户端/服务器功能,传输方式用TCP
2、客户端让用户输入中缀表达式,然后把中缀表达式调用MyBC.java的功能转化为后缀表达式,把后缀表达式用3DES或AES算法加密通过网络把密文发送给服务器
3、客户端和服务器用DH算法进行3DES或AES算法的密钥交换
4、服务器接收到后缀表达式表达式后,进行解密,然后调用MyDC.java的功能计算后缀表达式的值,把结果发送给客户端
5、客户端显示服务器发送过来的结果
6、上传测试结果截图和码云链接
- 实验原理
- 本部分主要参考Java密码学算法中“使用密钥协定创建共享密钥”部分
- 对博客中的代码进行了部分更改如下:
- `Key_DH`和`KeyAgree`主类的参数改为由客户端和服务器传递,并修改方法名
- `public static void DH(String str1,String str2) throws Exception`
- `public static void Agree(String str1,String str2)`
- 客户端和服务器分别产生自己的公钥和私钥,并用过字节数组的形式分别向另一方传递自己的公钥;
- 客户端和服务器接受对方的公钥后利用自己的私钥创建共享密钥
- 创建密钥协定对象`KeyAgreement ka=KeyAgreement.getInstance("DH")`;
- 初始化密钥协定对象`ka.init(prk)`;
- 执行密钥协定`ka.doPhase(pbk,true)`;
- 生成共享信息`byte[ ] sb=ka.generateSecret()`;
- 从文件中读取信息并给出共享密钥
- 实验代码
- 客户端Client
```
import javax.crypto.Cipher;
import javax.crypto.spec.SecretKeySpec;
import java.io.*;
import java.security.*;
import java.util.Scanner;
import java.net.*;
public class Client {
public static void main(String[] args) {
Socket mysocket;
DataInputStream in=null;
DataOutputStream out=null;
Scanner scanner = new Scanner(System.in);
try {
System.out.print("输入服务器的IP:");
String IP = scanner.nextLine();
InetAddress address=InetAddress.getByName(IP);
mysocket = new Socket(address, 2010);
in = new DataInputStream(mysocket.getInputStream());
out = new DataOutputStream(mysocket.getOutputStream());
Key_DH.DH("Lpub.dat","Lpri.dat");
FileInputStream my = new FileInputStream("Lpub.dat");
ObjectInputStream mypub = new ObjectInputStream(my);
Key kp = (Key) mypub.readObject();
ByteArrayOutputStream DH = new ByteArrayOutputStream();
ObjectOutputStream myDH = new ObjectOutputStream(DH);
myDH.writeObject(kp);
byte []pub = DH.toByteArray();
out.writeUTF(pub.length+"");
for(int i=0;i<pub.length;i++) {
out.writeUTF(pub[i]+ "");
}
Thread.sleep(1000);
int length = Integer.parseInt(in.readUTF());
byte cpub[] = new byte[length];
for(int i=0;i<length;i++) {
String temp = in.readUTF();
cpub[i] = Byte.parseByte(temp);
}
ByteArrayInputStream ckey1 = new ByteArrayInputStream(cpub);
ObjectInputStream ckey = new ObjectInputStream(ckey1);
Key k = (Key) ckey.readObject();
FileOutputStream f2 = new FileOutputStream("W1pub.dat");
ObjectOutputStream b2 = new ObjectOutputStream(f2);
b2.writeObject(k);
KeyAgree.Agree("W1pub.dat","Lpri.dat");
FileInputStream f = new FileInputStream("sb.dat");
byte[] keysb = new byte[24];
f.read(keysb);
System.out.println("公共密钥为:");
for (int i = 0;i<24;i++) {
System.out.print(keysb[i]+" ");
}
System.out.println("\n请输入中缀表达式:");
while(scanner.hasNext()) {
String question = scanner.next();
MyBC change = new MyBC();
change.ChangeString(question);
String question1 = change.ChangeOrder();
System.out.println("后缀表达式为:" + question1);
SecretKeySpec k1 = new SecretKeySpec(keysb, "DESede");
Cipher cp = Cipher.getInstance("DESede");
cp.init(Cipher.ENCRYPT_MODE, k1);
byte ptext[] = question1.getBytes("UTF8");
byte ctext[] = cp.doFinal(ptext);
System.out.println("加密后的后缀表达式为:");
for (int i = 0; i < ctext.length; i++) {
System.out.print(ctext[i] + " ");
}
out.writeUTF(ctext.length + "");
for (int i = 0; i < ctext.length; i++) {
out.writeUTF(ctext[i] + "");
}
String s=in.readUTF(); //in读取信息,堵塞状态
System.out.println("\n客户收到服务器的回答:"+s);
Thread.sleep(500);
System.out.println("请输入中缀表达式:");
}
}
catch (Exception e) {
System.out.println(e);
}
}
}
- 服务器Server
```
import javax.crypto.Cipher;
import javax.crypto.spec.SecretKeySpec;
import java.io.;
import java.net.ServerSocket;
import java.net.Socket;
import java.security.;
public class Server {
public static void main(String[] args) throws Exception {
ServerSocket serverForClient = null;
Socket socketOnServer = null;
DataOutputStream out = null;
DataInputStream in = null;
try {
serverForClient = new ServerSocket(2010);
} catch (IOException e) {
System.out.println(e);
}
System.out.println("等待客户呼叫");
try {
socketOnServer = serverForClient.accept();
out = new DataOutputStream(socketOnServer.getOutputStream());
in = new DataInputStream(socketOnServer.getInputStream());
Key_DH.DH("Wpub.dat","Wpri.dat");
int length = Integer.parseInt(in.readUTF());
byte cpub[] = new byte[length];
for(int i=0;i<length;i++) {
String temp = in.readUTF();
cpub[i] = Byte.parseByte(temp);
}
ByteArrayInputStream ckey1 = new ByteArrayInputStream(cpub);
ObjectInputStream ckey = new ObjectInputStream(ckey1);
Key k1 = (Key) ckey.readObject();
FileOutputStream f2 = new FileOutputStream("Lpub.dat");
ObjectOutputStream b2 = new ObjectOutputStream(f2);
b2.writeObject(k1);
FileInputStream my = new FileInputStream("Wpub.dat");
ObjectInputStream mypub = new ObjectInputStream(my);
Key kp = (Key) mypub.readObject();
ByteArrayOutputStream DH = new ByteArrayOutputStream();
ObjectOutputStream myDH = new ObjectOutputStream(DH);
myDH.writeObject(kp);
byte []pub = DH.toByteArray();
out.writeUTF(pub.length+"");
for(int i=0;i<pub.length;i++) {
out.writeUTF(pub[i]+ "");
}
KeyAgree.Agree("Lpub.dat","Wpri.dat");
FileInputStream f = new FileInputStream("sb.dat");
byte[] keysb = new byte[24];
f.read(keysb);
System.out.println("公共密钥为:");
for (int i = 0;i<24;i++) {
System.out.print(keysb[i]+" ");
}
while(true) {
SecretKeySpec k = new SecretKeySpec(keysb, "DESede");
Cipher cp = Cipher.getInstance("DESede");
cp.init(Cipher.DECRYPT_MODE, k);
String clength = in.readUTF();
byte ctext[] = new byte[Integer.parseInt(clength)];
for (int i = 0; i < Integer.parseInt(clength); i++) {
String temp = in.readUTF();
ctext[i] = Byte.parseByte(temp);
}
byte[] ptext = cp.doFinal(ctext);
String question = new String(ptext, "UTF8");
System.out.print("\n解密后的后缀表达式为:" + question);
MyDC getanswer = new MyDC();
getanswer.set(question);
Rational answer = getanswer.get();
int a = answer.getNumerator();
int b = answer.getDenominator();
float result = (float) a / b;
System.out.println("\n计算出的结果为"+String.format("%.2f",result));
out.writeUTF(String.format("%.2f",result));
Thread.sleep(500);
}
}
catch(Exception e) {
System.out.println("客户已断开" + e);
}
}
}
- 测试结果截图
- 客户端
- 服务器
- 5.任务五
- 实验要求
1、基于Java Socket实现客户端/服务器功能,传输方式用TCP
2、客户端让用户输入中缀表达式,然后把中缀表达式调用MyBC.java的功能转化为后缀表达式,把后缀表达式用3DES或AES算法加密通过网络把密文和明文的MD5値发送给服务器
3、客户端和服务器用DH算法进行3DES或AES算法的密钥交换
4、服务器接收到后缀表达式表达式后,进行解密,解密后计算明文的MD5值,和客户端传来的MD5进行比较,一致则调用MyDC.java的功能计算后缀表达式的值,把结果发送给客户端
5、客户端显示服务器发送过来的结果
6、上传测试结果截图和码云链接
- 实验原理
- 本部分主要参考Java密码学算法中“Java摘要算法- MD5”部分;
- 主要在任务四基础上进行操作。
- 实验代码
- 客户端Client
```
import javax.crypto.Cipher;
import javax.crypto.spec.SecretKeySpec;
import java.io.*;
import java.net.Socket;
import java.security.*;
import java.util.Scanner;
import java.net.*;
public class Client {
public static void main(String[] args) {
Socket mysocket;
DataInputStream in=null;
DataOutputStream out=null;
Scanner scanner = new Scanner(System.in);
try {
System.out.print("输入服务器的IP:");
String IP = scanner.nextLine();
InetAddress address=InetAddress.getByName(IP);
mysocket = new Socket(address, 2010);
in = new DataInputStream(mysocket.getInputStream());
out = new DataOutputStream(mysocket.getOutputStream());
Key_DH.DH("Lpub.dat","Lpri.dat");
FileInputStream my = new FileInputStream("Lpub.dat");
ObjectInputStream mypub = new ObjectInputStream(my);
Key kp = (Key) mypub.readObject();
ByteArrayOutputStream DH = new ByteArrayOutputStream();
ObjectOutputStream myDH = new ObjectOutputStream(DH);
myDH.writeObject(kp);
byte []pub = DH.toByteArray();
out.writeUTF(pub.length+"");
for(int i=0;i<pub.length;i++) {
out.writeUTF(pub[i]+ "");
}
Thread.sleep(1000);
int length = Integer.parseInt(in.readUTF());
byte cpub[] = new byte[length];
for(int i=0;i<length;i++) {
String temp = in.readUTF();
cpub[i] = Byte.parseByte(temp);
}
ByteArrayInputStream ckey1 = new ByteArrayInputStream(cpub);
ObjectInputStream ckey = new ObjectInputStream(ckey1);
Key k = (Key) ckey.readObject();
FileOutputStream f2 = new FileOutputStream("W1pub.dat");
ObjectOutputStream b2 = new ObjectOutputStream(f2);
b2.writeObject(k);
KeyAgree.Agree("W1pub.dat","Lpri.dat");
FileInputStream f = new FileInputStream("sb.dat");
byte[] keysb = new byte[24];
f.read(keysb);
System.out.println("公共密钥为:");
for (int i = 0;i<24;i++) {
System.out.print(keysb[i]+" ");
}
System.out.println("\n请输入中缀表达式:");
while(scanner.hasNext()) {
String question = scanner.next();
MyBC change = new MyBC();
change.ChangeString(question);
String question1 = change.ChangeOrder();
System.out.println("后缀表达式为:" + question1);
String mtoMD5 = DigestPass.MD5(question1);
System.out.println("明文的MD5值为:"+mtoMD5);
out.writeUTF(mtoMD5);
SecretKeySpec k1 = new SecretKeySpec(keysb, "DESede");
Cipher cp = Cipher.getInstance("DESede");
cp.init(Cipher.ENCRYPT_MODE, k1);
byte ptext[] = question1.getBytes("UTF8");
byte ctext[] = cp.doFinal(ptext);
System.out.println("加密后的后缀表达式为:");
for (int i = 0; i < ctext.length; i++) {
System.out.print(ctext[i] + " ");
}
out.writeUTF(ctext.length + "");
for (int i = 0; i < ctext.length; i++) {
out.writeUTF(ctext[i] + "");
}
String s=in.readUTF(); //in读取信息,堵塞状态
System.out.println("\n客户收到服务器的回答:"+s);
Thread.sleep(500);
System.out.println("请输入中缀表达式:");
}
}
catch (Exception e) {
System.out.println(e);
}
}
}
- 服务器Server
```
import javax.crypto.Cipher;
import javax.crypto.spec.SecretKeySpec;
import java.io.;
import java.net.ServerSocket;
import java.net.Socket;
import java.security.;
public class Server {
public static void main(String[] args) throws Exception {
ServerSocket serverForClient = null;
Socket socketOnServer = null;
DataOutputStream out = null;
DataInputStream in = null;
try {
serverForClient = new ServerSocket(2010);
} catch (IOException e) {
System.out.println(e);
}
System.out.println("等待客户呼叫");
try {
socketOnServer = serverForClient.accept();
out = new DataOutputStream(socketOnServer.getOutputStream());
in = new DataInputStream(socketOnServer.getInputStream());
Key_DH.DH("Wpub.dat","Wpri.dat");
int length = Integer.parseInt(in.readUTF());
byte cpub[] = new byte[length];
for(int i=0;i<length;i++) {
String temp = in.readUTF();
cpub[i] = Byte.parseByte(temp);
}
ByteArrayInputStream ckey1 = new ByteArrayInputStream(cpub);
ObjectInputStream ckey = new ObjectInputStream(ckey1);
Key k1 = (Key) ckey.readObject();
FileOutputStream f2 = new FileOutputStream("L1pub.dat");
ObjectOutputStream b2 = new ObjectOutputStream(f2);
b2.writeObject(k1);
FileInputStream my = new FileInputStream("Wpub.dat");
ObjectInputStream mypub = new ObjectInputStream(my);
Key kp = (Key) mypub.readObject();
ByteArrayOutputStream DH = new ByteArrayOutputStream();
ObjectOutputStream myDH = new ObjectOutputStream(DH);
myDH.writeObject(kp);
byte []pub = DH.toByteArray();
out.writeUTF(pub.length+"");
for(int i=0;i<pub.length;i++) {
out.writeUTF(pub[i]+ "");
}
KeyAgree.Agree("L1pub.dat","Wpri.dat");
FileInputStream f = new FileInputStream("sb.dat");
byte[] keysb = new byte[24];
f.read(keysb);
System.out.println("公共密钥为:");
for (int i = 0;i<24;i++) {
System.out.print(keysb[i]+" ");
}
while(true) {
String c = in.readUTF();
SecretKeySpec k = new SecretKeySpec(keysb, "DESede");
Cipher cp = Cipher.getInstance("DESede");
cp.init(Cipher.DECRYPT_MODE, k);
String clength = in.readUTF();
byte ctext[] = new byte[Integer.parseInt(clength)];
for (int i = 0; i < Integer.parseInt(clength); i++) {
String temp = in.readUTF();
ctext[i] = Byte.parseByte(temp);
}
byte[] ptext = cp.doFinal(ctext);
String question = new String(ptext, "UTF8");
System.out.println("\n解密后的后缀表达式为:" + question);
String mtoMD5 = DigestPass.MD5(question);
System.out.println("MD5的值为"+ mtoMD5);
if(mtoMD5.equals(c)) {
System.out.println("传递的MD5值和解密的后缀表达式的MD5值相同,可以解密!");
MyDC getanswer = new MyDC();
getanswer.set(question);
Rational answer = getanswer.get();
int a = answer.getNumerator();
int b = answer.getDenominator();
float result = (float) a / b;
System.out.println("计算出的结果为"+String.format("%.2f",result));
out.writeUTF(String.format("%.2f",result));
}
else {
System.out.println("密文有误,不能解密!");
}
Thread.sleep(500);
}
}
catch(Exception e) {
System.out.println("客户已断开" + e);
}
}
}
- 测试结果截图
- 客户端
- 服务器
## 三、代码托管
- 码云链接
- [链接](https://gitee.com/fzlzc/java2019/tree/master/src/%E5%AE%9E%E9%AA%8C%E4%BA%94)
- 伙伴的码云链接
- [链接](https://gitee.com/wangzihong/20175209/tree/master/%E5%AE%9E%E9%AA%8C%E4%BA%94)
## 四、实验心得体会
本次实验综合了教材第十三章和Java密码学的相关内容,在和伙伴的讨论中,对于java的网络和安全方面的编程有了更好地掌握。
## 五、参考资料
- [2016-2017-2 《Java 程序设计》课堂实践项目-网络与安全](https://www.cnblogs.com/rocedu/p/6766748.html#SECDSA)
- [Java密码学算法](https://www.cnblogs.com/rocedu/p/6683948.html)
