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TCP socket application
Architecture of Client-Server ApplicationsJava Socket ProgrammingClient ApplicationServer Application
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Java – is one of the earliest programming language to support 3-tier and n-tier architecture.
Java’s strength is in developing enterprise software (J2EE) as it simplify developer’s job in implementing the newer application architecture – from 3-tier to n-tier to mobile.
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TCP overview Unlike UDP which is concerned with the
transmission of packets of data, TCP establishes a "virtual connection" between two machines through which streams of data may be sent.
TCP guarantees delivery and order, providing a reliable byte communication stream between client and server that supports two-way communication.
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Establish a virtual connection
Terminate the connection
Transmit data back and forth
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TCP uses IP (Internet Protocol) to establish the connection between machines.
This connection provides an interface that allows streams of bytes to be sent and received, and transparently converts the data into IP datagram packets.
The virtual connection between two machines is represented by a socket.
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What is a socket? Original idea came from UNIX “The network is just like a file system” Read and write a stream of data “to the
network” through socket Stream? ( recall : using package java.io ) A socket is bound to a port number so that
the TCP layer can identify the correct application for the data
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A little background Socket provides the TCP/IP communication
protocol Introduced in 1981- UNIX BSD 4.2 Later Sun build RPC and NFS over the socket
Is supported by all OS WinSocks for Windows 3.1 Built into Windows 95, … and NT For other OS – it is not new
Is the De Facto in network communication
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Communication between processes : using port and socket
message
agreed portany port
socketsocket
Internet address = 138.37.88.249Internet address = 138.37.94.248
other ports
client server
• Port: The destination of a message• Socket: The final point for processes communication• Each socket is associated with UDP or TCP
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Like ports in UDP, ports in TCP are also represented by a number in the range 1 - 65535.
Ports below 1024 are restricted to use by well-known services. For example, Telnet (port 23) SMTP (port 25) HTTP (port 80) POP3 (port 110)
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TCP vs UDP TCP sockets are different from UDP
sockets: TCP sockets are connected to a single machine. UDP sockets only send and receive packets of
data. TCP allows transmission of data through byte
streams. They are converted into datagram packets for transmission over the network without programmer intervention.
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Advantages of TCP over UDP Automatic Error Control
Data transmission is more dependable. Delivery of data is guaranteed - lost data packets are retransmitted.
By means of a timer, TCP retransmits a packet if an acknowledgement is not received from the recipient within a specified amount of time.
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Reliability As packets are delivered by IP, they will
frequently arrive out of order. However, each packet contains a sequence number. Using this sequence number and queuing out-of-order packets, TCP is able to pass arriving packets to the application in the correct sequence.
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Ease of Use Network programmers will find programming
communication via TCP sockets far simpler than via datagram packets. This is because data sent and received can be treated as a continuous stream (like I/O streams). The data need not be packaged into discrete units like UDP.
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Socket Operations TCP sockets can perform a variety of
operations: Establish a connection to a remote host Send data to a remote host Receive data from a remote host Close a connection
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There is a special type of socket that provides a service that will bind to a specific port number. Normally used only in servers, this socket can perform the following operations: Bind to a local port Accept incoming connections from remote hosts Unbind from a local port
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TCP and the Client/Server Paradigm
In network programming, applications that use sockets are divided into clients and servers.
A client is software that initiates a connection and sends requests.
A server is software that listens for connections and processes requests.
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Note that in the context of UDP programming, no actual connection is established. UDP applications may both initiate and receive requests on the same socket.
In the client/server paradigm, when there is a connection between two applications, one must be a client and the other must be a server.
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Network Clients Network clients initiate connections and
control network transactions. The server fulfills the requests of the client
but not the other way round. The network client speaks to the server
using a network protocol. E.g an HTTP client communicates with an HTTP server using HTTP.
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Port numbers are used to enable clients to locate server applications. E.g. a web server uses port 80.
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Network Servers The role of the network server is to bind to a
specific port and to listen for new connections. Unlike the client, the server must run continually
in the hope that some client will want its services. The server runs indefinitely. Normally, it is
automatically started when the host computer of the server is started.
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Some servers can handle only one connection at a time, while others can handle many connections concurrently, through the use of threads.
Some protocols (e.g. HTTP/1.0) normally allow only one request per connection. Others, like POP3, support a sequence of requests.
Servers answer the client request by sending either a response or an error message.
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Socket Types In Java, there are 4 main socket types:
ServerSocket Socket DatagramSocket MulticastSocket
Accessible by importing java.net.*;
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TCP Sockets and Java Java provide the following classes for TCP
sockets: java.net.Socket java.net.ServerSocket
The Socket class should be used when writing client software.
The ServerSocket class should be used when writing server software.
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Socket Class
Socket objects represent client sockets, and is a communication channel between two TCP communications ports belonging to one or two machines.
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There are several constructors for the Socket class.
The easiest way to create a socket is shown below:
Socket mySocket;
try {
mySocket = new Socket("www.aol.com", 80);
} catch (Exception e) {
…
}
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Socket Constructors From 8 constructors, 4 are commonly used:
public Socket(InetAddress address, int port) Throws java.io.IOException, java.lang.SecurityException
Creates a stream socket and connects it to the specified port number at the specified IP address.
. public Socket(InetAddress address, int port, InetAddress localAddr, int localPort)
Throws java.io.IOException, java.lang.SecurityException Creates a socket and connects it to the specified remote address on the specified remote
port.
public Socket(String host, int port) Throws java.io.IOException, java.lang.SecurityException
Creates a stream socket and connects it to the specified port number on the named host. public Socket(String host, int port, InetAddress localAddr, int localPort)
Throws java.net.UnknownHostException, java.io.IOException, java.lang.SecurityException
Creates a socket and connects it to the specified remote host on the specified remote port.
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Reading from and Writing to TCP Sockets
In Java, once a socket is created, it is connected and ready to read/write by using the socket's input and output streams. Use the methods getInputStream() and getOutputStream() to access those streams.
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Example:
Socket socket;InputStreamReader isr;BufferedReader br;PrintStream ps;try {
socket = new Socket("www.aol.com",80);isr = new InputStreamReader(socket.getInputStream());br = new BufferedReader(isr); ps = new PrintStream(socket.getOutputStream());
} catch (Exception e) {…
}
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public InputStream getInputStream(); Returns an input stream for this socket.
public OutputStream getOutputStream(); Returns an output stream for this socket.
public void close(); Closes this socket.
public int getPort(); Returns a remote port associated to the socket.
public InetAddress getInetAddress(); Returns an address associated to the socket.
public int getLocalPort(); Returns a local port associated to the socket.
Returned stream depends on TCP flow control and error
correction.
Methods of class Socket
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Server Socket Server socket is bound to a certain port of a
local host When it is successfully bound to a port, it
immediately listens to any attempt of incoming connection
When a server detects an attempt of incoming connection, it accept the connection
This creates a socket which handles communication between the client and server
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ServerSocket Class java.net.ServerSocket represents the
serve socket ServerSocket object is created on a local
port and calls method accept() to listen to incoming connection
accept() will block until a connection is detected. Then it returns a Socket object that handles communication with a client
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The easiest way to create a socket to listen at a certain port is shown below:
ServerSocket mySocket;
try {
mySocket = new ServerSocket(80);
} catch (Exception e) {
…
}
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ServerSocket Constructors Some of the other constructors:
ServerSocket(int port) Throws java.io.IOException, java.lang.SecurityException
If port is 0, then any free port will be used. By default, the queue size is set to 50.
ServerSocket(int port, int maxClients) Throws java.io.IOException, java.lang.SecurityException
Allocates sufficient space to the queue to support the specified number of client sockets.
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Methods of class ServerSocket public Socket accept();
Listens for a connection to be made to this socket and accepts it.
public void close(); Closes this socket.
public InetAddress getInetAddress(); Returns the local address of this server socket.
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When a ServerSocket object is created, it attempts to bind to the port on the local host given by the port argument.
If another server socket is already listening to the port, then a java.net.BindException, a subclass of IOException, is thrown.
No more than one process or thread can listen to a particular port at a time. This includes non-Java processes or threads.
For example, if there's already an HTTP server running on port 80, you won't be able to bind to port 80.
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If you want your process to wait (listening) incoming connections at a specified port, ServerSocket class allow it to detect the incoming connection:
ServerSocket outSock = new ServerSocket (8888);
while (true) {
Socket inSock = outSock.accept();
handleConnection(inSock);
inSock.close(); }
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Accepting and Processing Requests from TCP Clients
The most important function of a server socket is to accept client sockets. Once a client socket is obtained, the server can perform all the "real work" of server programming, which involves reading from and writing to the socket to implement a network protocol.
Example: a mail server that provides access to stored messages would listen to commands and send back message contents.
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Example:
ServerSocket server;BufferedReader reader;PrintWriter writer;server = new ServerSocket(13);while (true) {
Socket client = server.accept();reader = new BufferedReader(
new InputStreamReader(client.getInputStream()));
writer = new PrintWriter(new OutputStreamWriter(client.getOutputStream()));
…}
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Client Application The example consists of two applications
which is executed separately The client app is implemented as
NyietInSengClient class
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import java.io.*;import java.net.*;
public class NyietInSengClient { public static void main(String[] args) throws IOException { Socket nisSocket = null; PrintWriter out = null; BufferedReader in = null;
try { nisSocket = new Socket("localhost", 8888); out = new
PrintWriter(nisSocket.getOutputStream(), true); in = new BufferedReader(new
InputStreamReader(nisSocket.getInputStream())); } catch (UnknownHostException e) { System.err.println("Don't know about host:
localhost."); System.exit(1); } catch (IOException e) { System.err.println("Couldn't get I/O for the
connection to: localhost."); System.exit(1); }
BufferedReader stdIn = new BufferedReader(new InputStreamReader(System.in));
String fromServer; String fromUser;
while ((fromServer = in.readLine()) != null) { System.out.println("Server: " +
fromServer); if (fromServer.equals("tata titi tutu")) break;
fromUser = stdIn.readLine();
if (fromUser != null) { System.out.println("Client: " +
fromUser); out.println(fromUser);
} }
out.close(); in.close(); stdIn.close(); nisSocket.close(); }}
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Server Application Server app is implemented using 2 classes:
NyietInSengServer NyietInSengServer contains the main() method for
the server app. It listens at a port, accepts connection, read from and write to the socket.
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import java.net.*;import java.io.*;
public class NyietInSengServer { public static void main(String[] args) throws
IOException {
ServerSocket serverSocket = null; try { serverSocket = new ServerSocket(8888); } catch (IOException e) { System.err.println("Could not listen on
port: 8888."); System.exit(1); }
Socket clientSocket = null; try { clientSocket = serverSocket.accept(); } catch (IOException e) { System.err.println("Accept failed."); System.exit(1); }
PrintWriter out = new PrintWriter(clientSocket.getOutputStream(), true);
BufferedReader in = new BufferedReader(new
InputStreamReader(clientSocket.getInputStream()));
String inputLine, outputLine; NyietInSengProtocol nis = new
NyietInSengProtocol();
outputLine = nis.processInput(null); out.println(outputLine);
while ((inputLine = in.readLine()) != null) { outputLine = nis.processInput(inputLine); out.println(outputLine); if (outputLine.equals("tata titi tutu")) break; } out.close(); in.close(); clientSocket.close(); serverSocket.close(); }}
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NyietInSengProtocol NyietInSengProtocol provides the jokes. It tracks
the current joke, current status (SENTTOKTOK, SENTCLUE, etc) and returns jokes text based on the current status.
It implements the communication protocol agreed by the client and server.
Server Application
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The server app begins by creating a ServerSocket object to listen (wait) at a specified port. When selecting a port number use the one not defined for other services. NyietInSengServer waits at port 8888 because 8/8 is my birthdate (ONG) and port 8888 is not used in my computer environment
try { serverSocket = new ServerSocket(8888);
} catch (IOException e) {
System.out.println("Could not listen on port: 8888"); System.exit(-1); }
Server Application
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Constructor ServerSocket throws an exception if it cannot listen to the specified port (in used).
In this kes NyietInSengServer has no other choice than to end the program. (exit).
Server Application
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If server manage to connect to the specified port, then a ServerSocket object is created and the next step is executed- accept client connection (bold): Socket clientSocket = null;
try {
clientSocket = serverSocket.accept();
} catch (IOException e) {
System.out.println("Accept failed: 8888");
System.exit(-1);
}
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accept() waits until client program is executed and request for connection to host and port. (In example: host : localhost and port : 8888.
When connection is successful, method accept() will return a new Socket object (i.e :clientSocket) which is bound to a new port.
Server program can communicate with client via this new socket. It can continue waiting for the next incoming call through the original ServerSocket object (in the program : serverSocket)
Nevertheless in this example, server app cannot wait for more than 1 client
Server Application
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Read/Write1. Gets the socket's input and output stream
and opens readers and writers on themPrintWriter out = new PrintWriter(clientSocket.getOutputStream(),
true);
BufferedReader in = new BufferedReader( new InputStreamReader( clientSocket.getInputStream()));
String inputLine, outputLine;
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2. After the server successfully establishes a connection with a client, it communicates with the client using this code:
// initiate conversation with client
NyietInSengProtocol nis = new NyietInSengProtocol();
outputLine = nis.processInput(null);
out.println(outputLine);
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while ((inputLine = in.readLine()) != null) {
outputLine = nis.processInput(inputLine);
out.println(outputLine);
if outputLine.equals(“tata titi tutu"))
break;
}
3. Communicates with the client by reading from and writing to the socket (the while loop).
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1 is already familiar. Step 2 is shown in bold and is worth a few comments.
After the NyietInSengProtocol is created, the code calls NyietInSengProtocol 's processInput method to get the first message that the server sends to the client.
For this example, the first thing that the server says is “NyietInSeng MatekAji Semar Ngiseng!" Next, the server writes the information to the PrintWriter connected to the client socket, thereby sending the message to the client.
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AliBaba Communication Protocol Following is the class implementation of the
protocol
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import java.net.*;import java.io.*;
public class NyietInSengProtocol { private static final int WAITING = 0; private static final int SENTTOKTOK = 1; private static final int SENTCLUE = 2; private static final int ANOTHER = 3;
private static final int NUMJOKES = 3;
private int state = WAITING; private int currentJoke = 0;
private String[] clues = { "Ali", "Di Sini", "Hari"};
private String[] answers = { "Ali Baba, Bujang Lapok la.. ",
"Di Sini lah, Oi Di Sana! ", "Harimau Kuat! Grrrrrr "};
public String processInput(String theInput) { String theOutput = null;
if (state == WAITING) { theOutput = "NyietInSeng MatekAji Semar Ngiseng!"; state = SENTTOKTOK; } else if (state == SENTTOKTOK) { if (theInput.equalsIgnoreCase("Siapa tu?")) { theOutput = clues[currentJoke]; state = SENTCLUE; } else { theOutput = "Sepatutnya awak cakap \"Siapa tu?\"! " +
"Cuba lagi. NyietInSeng MatekAji Semar Ngiseng!";
} } else if (state == SENTCLUE) { if (theInput.equalsIgnoreCase(clues[currentJoke] + " mana?")) { theOutput = answers[currentJoke] + " Main lagi? (y/n)"; state = ANOTHER; } else { theOutput = "Sepatutnya awak cakap \"" +
clues[currentJoke] + " mana?\"" + "! Cuba lagi. NyietInSeng MatekAji
Semar Ngiseng!"; state = SENTTOKTOK; } } else if (state == ANOTHER) { if (theInput.equalsIgnoreCase("y")) { theOutput = "NyietInSeng MatekAji Semar Ngiseng!"; if (currentJoke == (NUMJOKES - 1)) currentJoke = 0; else currentJoke++; state = SENTTOKTOK; } else { theOutput = "tata titi tutu"; state = WAITING; } } return theOutput; }}