Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r explicitly created, used, released by apps r client/server paradigm r two types of.

Published byMelinda Greene Modified over 8 years ago

Similar presentations

Presentation on theme: "1 1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r explicitly created, used, released by apps r client/server paradigm r two types of."— Presentation transcript:

1 1 1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r explicitly created, used, released by apps r client/server paradigm r two types of transport service via socket API:  UDP  TCP A application-created, OS-controlled interface (a “door”) into which application process can both send and receive messages to/from another application process socket Goal: learn how to build client/server application that communicate using sockets

2 2 Socket programming basics r Server must be running before client can send anything to it. r Server must have a socket (door) through which it receives and sends segments r Similarly client needs a socket r Socket is locally identified with a port number  Analogous to the apt # in a building r Client needs to know server IP address and socket port number. 2

3 3 3 Socket-programming using TCP TCP service: reliable transfer of bytes from one process to another process TCP with buffers, variables socket controlled by application developer controlled by operating system host or server process TCP with buffers, variables socket controlled by application developer controlled by operating system host or server internet

4 4 4 Socket programming with TCP Client must contact server r server process must first be running r server must have created socket (door) that welcomes client’s contact Client contacts server by: r creating client-local TCP socket r specifying IP address, port number of server process r When client creates socket: client TCP establishes connection to server TCP r When contacted by client, server TCP creates new socket for server process to communicate with client  allows server to talk with multiple clients  source port numbers used to distinguish clients TCP provides reliable, in-order transfer of bytes (“pipe”) between client and server application viewpoint

5 5 5 Client/server socket interaction: TCP wait for incoming connection request connectionSocket = welcomeSocket.accept() create socket, port= x, for incoming request: welcomeSocket = ServerSocket() create socket, connect to hostid, port= x clientSocket = Socket() close connectionSocket read reply from clientSocket close clientSocket Server (running on hostid ) Client send request using clientSocket read request from connectionSocket write reply to connectionSocket TCP connection setup

6 6 6 Socket programming with TCP Example client-server app: 1) client reads line from standard input ( inFromUser stream), sends to server via socket ( outToServer stream) 2) server reads line from socket 3) server converts line to uppercase, sends back to client 4) client reads, prints modified line from socket ( inFromServer stream)

7 7 7 Client process client TCP socket Stream jargon r A stream is a sequence of characters that flow into or out of a process. r An input stream is attached to some input source for the process, e.g., keyboard or socket. r An output stream is attached to an output source, e.g., monitor or socket.

8 8 8 Example: Java client (TCP) import java.io.*; import java.net.*; class TCPClient { public static void main(String argv[]) throws Exception { String sentence; String modifiedSentence; BufferedReader inFromUser = new BufferedReader(new InputStreamReader(System.in)); Socket clientSocket = new Socket("hostname", 6789); DataOutputStream outToServer = new DataOutputStream(clientSocket.getOutputStream()); Create input stream Create client socket, connect to server Create output stream attached to socket

9 9 9 Example: Java client (TCP), cont. BufferedReader inFromServer = new BufferedReader(new InputStreamReader(clientSocket.getInputStream())); sentence = inFromUser.readLine(); outToServer.writeBytes(sentence + '\n'); modifiedSentence = inFromServer.readLine(); System.out.println ("FROM SERVER: " + modifiedSentence ); clientSocket.close(); } Create input stream attached to socket Send line to server Read line from server

10 10 Example: Java server (TCP) import java.io.*; import java.net.*; class TCPServer { public static void main(String argv[]) throws Exception { String clientSentence; String capitalizedSentence; ServerSocket welcomeSocket = new ServerSocket(6789); while(true) { Socket connectionSocket = welcomeSocket.accept(); BufferedReader inFromClient = new BufferedReader(new InputStreamReader(connectionSocket.getInputStream())); Create welcoming socket at port 6789 Wait, on welcoming socket for contact by client Create input stream, attached to socket

11 11 Example: Java server (TCP), cont DataOutputStream outToClient = new DataOutputStream (connectionSocket.getOutputStream()); clientSentence = inFromClient.readLine(); capitalizedSentence = clientSentence.toUpperCase() + '\n'; outToClient.writeBytes(capitalizedSentence); } Read in line from socket Create output stream, attached to socket Write out line to socket End of while loop, loop back and wait for another client connection

12 12 TCP server Labview Exemple donné par N.I. (C:\Program Files\National Instruments\LabVIEW 8.5\examples\comm\TCP.llb) Le serveur doit être démarré avant le client

13 13 Fonctions (Data communications  Protocols  TCP) TCP Listen Attends une connexion au port spécifié. TCP Write Écrit des strings sur la connexion (au client)

14 14 Fonctions (…) TCP Read Récupère un string sur la connexion (du client) TCP Close Connection

15 15 TCP Client LabView

16 16 Fonctions (TCP client) TCP Open connection Ouvre une connexion à l’adresse IP et au port spécifiés

17 17 Socket programming with UDP UDP: no “connection” between client and server r no handshaking r sender explicitly attaches IP address and port of destination to each segment r OS attaches IP address and port of sending socket to each segment r Server can extract IP address, port of sender from received segment application viewpoint UDP provides unreliable transfer of groups of bytes (“datagrams”) between client and server Note: the official terminology for a UDP packet is “datagram”. In this class, we instead use “UDP segment”.

18 18 Running example r Client:  User types line of text  Client program sends line to server r Server:  Server receives line of text  Capitalizes all the letters  Sends modified line to client r Client:  Receives line of text  Displays 18

19 19 Client/server socket interaction: UDP Server (running on hostid ) close clientSocket read datagram from clientSocket create socket, clientSocket = DatagramSocket() Client Create datagram with server IP and port=x; send datagram via clientSocket create socket, port= x. serverSocket = DatagramSocket() read datagram from serverSocket write reply to serverSocket specifying client address, port number

20 20 Example: Java client (UDP) Output: sends packet (recall that TCP sent “byte stream”) Input: receives packet (recall thatTCP received “byte stream”) Client process client UDP socket

21 21 Example: Java client (UDP) import java.io.*; import java.net.*; class UDPClient { public static void main(String args[]) throws Exception { BufferedReader inFromUser = new BufferedReader(new InputStreamReader(System.in)); DatagramSocket clientSocket = new DatagramSocket(); InetAddress IPAddress = InetAddress.getByName("hostname"); byte[] sendData = new byte[1024]; byte[] receiveData = new byte[1024]; String sentence = inFromUser.readLine(); sendData = sentence.getBytes(); Create input stream Create client socket Translate hostname to IP address using DNS

22 22 Example: Java client (UDP), cont. DatagramPacket sendPacket = new DatagramPacket(sendData, sendData.length, IPAddress, 9876); clientSocket.send(sendPacket); DatagramPacket receivePacket = new DatagramPacket(receiveData, receiveData.length); clientSocket.receive(receivePacket); String modifiedSentence = new String(receivePacket.getData()); System.out.println("FROM SERVER:" + modifiedSentence); clientSocket.close(); } Create datagram with data-to-send, length, IP addr, port Send datagram to server Read datagram from server

23 23 Example: Java server (UDP) import java.io.*; import java.net.*; class UDPServer { public static void main(String args[]) throws Exception { DatagramSocket serverSocket = new DatagramSocket(9876); byte[] receiveData = new byte[1024]; byte[] sendData = new byte[1024]; while(true) { DatagramPacket receivePacket = new DatagramPacket(receiveData, receiveData.length); serverSocket.receive(receivePacket); Create datagram socket at port 9876 Create space for received datagram Receive datagram

24 24 Example: Java server (UDP), cont String sentence = new String(receivePacket.getData()); InetAddress IPAddress = receivePacket.getAddress(); int port = receivePacket.getPort(); String capitalizedSentence = sentence.toUpperCase(); sendData = capitalizedSentence.getBytes(); DatagramPacket sendPacket = new DatagramPacket(sendData, sendData.length, IPAddress, port); serverSocket.send(sendPacket); } Get IP addr port #, of sender Write out datagram to socket End of while loop, loop back and wait for another datagram Create datagram to send to client

25 25 UDP récepteur LabView Dans ce cas, c’est l’émetteur qui dirigera ses données vers ce récepteur

26 26 Fonctions pour UDP émetteur UDP Open UDP Read Adresse réseau = locale (choix de carte si plusieurs) Port = local Nom = nomme le port

27 27 Fonctions UDP (..) String Length UDP Close Extrait la longueur d’une chaine de caractères.

28 28 UDP Émetteur LabView

Download ppt "1 1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r explicitly created, used, released by apps r client/server paradigm r two types of."

Similar presentations

Socket UDP H. Fauconnier 1-1 M2-Internet Java. UDP H. Fauconnier M2-Internet Java 2.

Socket UDP H. Fauconnier 1-1 M2-Internet Java. UDP H. Fauconnier M2-Internet Java 2.
2: Application Layer1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r Sockets are explicitly created, used, released by applications.

2: Application Layer1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r Sockets are explicitly created, used, released by applications.
Network Programming and Java Sockets

Network Programming and Java Sockets
Application Layer 2-1 Chapter 2 Application Layer Computer Networking: A Top Down Approach 6 th edition Jim Kurose, Keith Ross Application Layer – Lecture.

Application Layer 2-1 Chapter 2 Application Layer Computer Networking: A Top Down Approach 6 th edition Jim Kurose, Keith Ross Application Layer – Lecture.
2: Application Layer 1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r explicitly created, used, released by apps r client/server paradigm.

2: Application Layer 1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r explicitly created, used, released by apps r client/server paradigm.
9/23/2003-9/25/2003 Sockets & DNS September 23-25, 2003.

9/23/2003-9/25/2003 Sockets & DNS September 23-25, 2003.
1 Creating a network app Write programs that  run on different end systems and  communicate over a network.  e.g., Web: Web server software communicates.

1 Creating a network app Write programs that  run on different end systems and  communicate over a network.  e.g., Web: Web server software communicates.
2: Application Layer1 Data Communication and Networks Lecture 12 Java Sockets November 30, 2006.

2: Application Layer1 Data Communication and Networks Lecture 12 Java Sockets November 30, 2006.
2: Application Layer1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r explicitly created, used, released by apps r client/server paradigm.

2: Application Layer1 Socket programming Socket API r introduced in BSD4.1 UNIX, 1981 r explicitly created, used, released by apps r client/server paradigm.
1 Overview r Socket programming with TCP r Socket programming with UDP r Building a Web server.

1 Overview r Socket programming with TCP r Socket programming with UDP r Building a Web server.
1 Review of Previous Lecture r Electronic Mail r DNS r P2P file sharing.

1 Review of Previous Lecture r Electronic Mail r DNS r P2P file sharing.
Internet and Intranet Protocols and Applications Lecture 4: Application Layer 3: Socket Programming February 8, 2005 Arthur Goldberg Computer Science Department.

Internet and Intranet Protocols and Applications Lecture 4: Application Layer 3: Socket Programming February 8, 2005 Arthur Goldberg Computer Science Department.
Networking Overview February 2, 2004. 2/2/2004 Assignments Due – Homework 0 Due – Reading and Warmup questions Work on Homework 1.

Networking Overview February 2, /2/2004 Assignments Due – Homework 0 Due – Reading and Warmup questions Work on Homework 1.
2: Application Layer1 Chapter 2 (continued) Application Layer – part 2 Computer Networking: A Top Down Approach Featuring the Internet, 3 rd edition. Jim.

2: Application Layer1 Chapter 2 (continued) Application Layer – part 2 Computer Networking: A Top Down Approach Featuring the Internet, 3 rd edition. Jim.
Socket programming with UDP and TCP. Socket Programming with TCP Connection oriented – Handshaking procedure Reliable byte-stream.

Socket programming with UDP and TCP. Socket Programming with TCP Connection oriented – Handshaking procedure Reliable byte-stream.
TCP Socket Programming CPSC 441 Department of Computer Science University of Calgary.

TCP Socket Programming CPSC 441 Department of Computer Science University of Calgary.
2: Application Layer1 Socket Programming. 2: Application Layer2 Socket-programming using TCP Socket: a door between application process and end- end-transport.

2: Application Layer1 Socket Programming. 2: Application Layer2 Socket-programming using TCP Socket: a door between application process and end- end-transport.
2: Application Layer1 Chapter 2: Application layer r 2.1 Principles of network applications r 2.2 Web and HTTP r 2.3 FTP r 2.4 Electronic Mail  SMTP,

2: Application Layer1 Chapter 2: Application layer r 2.1 Principles of network applications r 2.2 Web and HTTP r 2.3 FTP r 2.4 Electronic Mail  SMTP,
1 Network Layers Application Transport Network Data-Link Physical bits.

1 Network Layers Application Transport Network Data-Link Physical bits.
Protocols Rules for communicating between two entities (e.g., a client and a server) “A protocol definition specifies how distributed system elements interact.

Protocols Rules for communicating between two entities (e.g., a client and a server) “A protocol definition specifies how distributed system elements interact.

Similar presentations

Ads by Google