RSA加密Socket传输文件、签名（二）

服务器端采用多线程方式并行处理传输请求以提高效率。

因为我想用JavaServiceWrapper将 程序作为windows服务运行，所以main方法中需接收一些参数，比如端口、密钥文件位置、文件存放路径等。

1.从main方法接受配置参数

 

for(String arg : args){

            String argName = arg.substring(0,arg.indexOf(":")).trim();

            String argValue = arg.substring(arg.indexOf(":")+1).trim();

            if(argName.equals("rsa_private")){
                privateKey = argValue;

            }else if(argName.equals("rsa_public")){
                publicKey = argValue;

            }else if(argName.equals("port")){
                port = Integer.parseInt(argValue);

            }else if(argName.equals("file_dir")){
                file_dir = argValue;
            }
        }

 

 

 

2.初始化解密、签名类实例

 

RSASecurityCoder coder = new RSASecurityCoder(privateKey);

RSASecuritySignature sign = new RSASecuritySignature(publicKey);

 

 

 

3.建立服务器

 

private static void runServer(String[] args){

        long start = System.currentTimeMillis();

        //获取配置参数

        for(String arg : args){

            String argName = arg.substring(0,arg.indexOf(":")).trim();

            String argValue = arg.substring(arg.indexOf(":")+1).trim();

            if(argName.equals("rsa_private")){
                privateKey = argValue;

            }else if(argName.equals("rsa_public")){
                publicKey = argValue;

            }else if(argName.equals("port")){
                port = Integer.parseInt(argValue);

            }else if(argName.equals("file_dir")){
                file_dir = argValue;
            }
        }


        //配置

        coder = new RSASecurityCoder(privateKey);

        sign = new RSASecuritySignature(publicKey);

        //启动服务器

        System.out.println("服务器启动中...");

        try {

            ss = new ServerSocket(port);

            clientCount = 0;

        } catch (NumberFormatException e) {

            System.err.println("端口配置错误");

        } catch (IOException e) {

            System.err.println("服务器在端口"+port+"启动失败");
        }


        //文件存放目录

        dir = new File(file_dir);

        if(!dir.exists()){
            dir.mkdir();
        }

        System.out.println("服务器已启动，端口： "+port);

        //计算启动时间

        long end = System.currentTimeMillis();

        System.out.println("共消耗 "+(end-start)+" ms.");


        //接收数据

        while(true){

            try {

                if(ss == null){

                    ss = new ServerSocket(port);

                    clientCount = 0;
                }
                Socket socket = ss.accept();

                clientCount += 1;

                System.out.println("有新的连接,当前总连接数："+clientCount);

                Thread th = new Thread(new ServerProcessor(socket));
                th.start();

            } catch (IOException e) {
                e.printStackTrace();
            }
        }

    }

 

 

 

 

3.建立线程类ServerProcessor处理每个文件

 

static class ServerProcessor extends Thread{

        private Socket socket;

        private InputStream in;

        private String filename;

        private long totalBytes;

        private File file;

        private FileOutputStream fos;

        public ServerProcessor(Socket socket){

            this.socket = socket;
        }

        @Override

        public void run(){

            try {
                in = socket.getInputStream();

                DataInputStream dis = new DataInputStream(in);

                filename = dis.readUTF();         //读取文件名

                totalBytes = dis.readLong();      //读取文件大小

                file = new File(dir,filename);

                fos = new FileOutputStream(file);

                //FileOutputStream fos = new FileOutputStream(File.createTempFile(filename, null, dir));

                //输出日志


                //RSA加密以128 bytes位单位，一次最多加密117bytes.

                byte[] buf = new byte[128];

                int available;

                while((available = in.read(buf)) != -1){

                    //读取签名

                    byte[] signature = buf;

                    //读取数据

                    buf = new byte[128];
                    available = in.read(buf);

                    byte[] availableBytes = null;

                    if(available == buf.length){
                        availableBytes = buf;

                    }else{

                        availableBytes = new byte[available];

                        for (int i = 0; i < available; i++) {
                            availableBytes[i] = (Byte) buf[i];
                        }
                    }


                    //验证数据签名

                    boolean flag = sign.verifySignature(availableBytes, signature);

                    //写入数据

                    if(flag){

                        //count += availableBytes.length;
                        fos.write(coder.decrypt(availableBytes));

                        //System.out.println(""+count+" bytes received");
                    }
                }
                fos.close();
                socket.shutdownInput();

                clientCount -= 1;

                System.out.println("有连接断开，当前总连接数："+clientCount);

                System.out.println(new SimpleDateFormat("[yyyy-MM-DD HH:mm:ss ]").format(new Date())

                    +filename+" 接收完毕. 大小 "+(totalBytes/1024)+" kb，保存路径："+dir.getAbsolutePath());

            } catch (NumberFormatException e) {

                System.err.println("端口配置错误");
                e.printStackTrace();

            } catch (FileNotFoundException e) {

                System.err.println("文件没找到，文件名："+filename+"，可能是因为读取socket数据失败");
                e.printStackTrace();

            } catch (IOException e) {

                System.err.println("文件读/写错误");

                try {
                    fos.close();

                } catch (IOException e1) {
                    e1.printStackTrace();
                }
                file.delete();
                e.printStackTrace();
            }
        }
    }

 

 

 

main方法

 

public static void main(String[] args) {

        runServer(args);

    }