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Computer Networks Lecture 1 Adrian Sergiu DARABANT.

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1 Computer Networks Lecture 1 Adrian Sergiu DARABANT

2 Introduction - Administrative Weekly lectures + lab Final grade: Final written examination Labs Practical exam  Don’t know yet – it depends on your lab activity Prerequisites C/C++ system programming (Unix and Windows) Operating systems

3 Bibliography 1. A.S. Tanenbaum – Computer Networks 4 th ed., Prentice Hall, 2003 2. J. Kurose, K. Ross, Computer Networking: A Top Down Approach, Addison-Wesley, rev2,3,4 2002-2007. 3. Douglas E. Comer, Internetworking with TCP/IP 1. Vol 1- Principles, Protocols, and Architecture 2. Vol 3- Client-Server Programming and Applications 4. G.R.Wright, R. Stevens, TCP/IP Illustrated – vol 1,2, Addison Wesley. 5. Matt Naugle, Illustrated TCP/IP – A Graphic Guide to protocol suite, John Willey & Sons, 1999. 6. W. Richard Stevens, Bill Fenner, Andrew M. Rudoff, UNIX® Network Programming Volume 1, Third Edition: The Sockets Networking API

4 Course Information http://www.cs.ubbcluj.ro/~dadi/compnet

5 Required (?!) Tools/Materials Windows 32/64 – Development Env ! VMware Player/ Virtual Box, etc Install Linux / Windows ! Integration Tools Development Environment Or Vi ?!? Set networking as bridged on VM! You will thank me later :P

6 Syllabus Communication basics Media and signals Asynchronous and synchronous communication Relationship among bandwidth, throughput, and noise Frequency-division and time-division multiplexing

7 Sylabus-2 Networking and network technologies Packing switching Framing, parity, and error detection Local and wide area technologies Network addressing Connection, wiring and extension (repeaters, bridges, hubs, switches) Forwarding and measuring of delay and throughput Protocol layers

8 Syllabus-3 Internets and Internetworking Motivation and concept Internet Protocol (IP) datagram format and addressing Internet routers and routing Address binding (ARP) Internet Control Message Protocol (ICMP) User Datagram Protocol (UDP) Transmission Control Protocol (TCP) Network Security

9 Syllabus-4 Network Applications Domain Name System (DNS) File Transfer Protocol (FTP) Remote Login Protocol (TELNET) Email Transfer (SMTP) Web technologies and protocol (HTTP)

10 What is a Computer Network ? A collection of computers (PCs, Workstations) and other devices interconnected. Components: Hosts (computers) Links (coaxial cable, twisted pair, optical fiber, radio, satellite) Switches/routers (intermediate systems)

11 Major Network Categories The global Internet Internal corporate networks The worldwide telephone system

12 What is a Computer Network? Client Station Mobile Client Station Server Station Server Station Stations communicate by sending messages called Frames Frame

13 What is a Computer Network? Frame Switch Frames may pass through multiple switches; Each switch reads the frame And passes it on

14 What is a Computer Network? Access Link Access Link Access Link Access Link Access links connect stations to the first switch Usually copper wire

15 What is a Computer Network? Trunk Link Trunk Link Trunk Link Trunk Link Trunk Link Trunk links connect switches Higher capacity than access links Often optical fiber

16 Classifications 1. Types of links Direct links Bus type links Type of transmission Circuit switched networks Packet switched networks Frame Relay Asynchronous Transfer Mode (ATM)

17 Types of communication 1. Types of links (connectivity) Direct -Point-to-point communication Direct - BUS Type / Multiple-access

18 Types of Communication 2. Switched Networks Circuit - switched network: public telephone network Packet switched network: Internet (collection of networks)

19 Circuit-Switching Set up a connection path (circuit) between the source and the destination (permanent for the lifetime of the connection) All bytes follow the same dedicated path Used in telephony Advantages: dedicated resources Disadvantages: not very efficient (lower utilization, e.g., a person talks < 35% of the time during a call) While A talks to C, B cannot talk to D on the same line.

20 Packet-Switching Packets from different sources are interleaved Efficient use of resources (since they are used on a demand): statistical multiplexing. Nobody reserves a lane on a freeway. Can accommodate bursty traffic (as opposed to circuit-switching where transmission is at constant rate).

21 Types of Communication Frame Relay Alternative for Packet switching systems Packet switching have large overheads to compensate for errors. ATM Asynchronous Transfer Mode Evolution of Frame Relay Little overhead for error control Fixed packet length

22 Communication infrastructure - Goals Reliable data delivery Error free data transmission Messages delivered in the same order they where sent Minimum guaranteed throughput Limited maximum delay Confidentiality Authentification

23 Network programming Programmer does not need to understand the hardware part of network technologies. Network facilities accessed through an Application Program Interface - API Communication Connection oriented Datagram Oriented

24 Connection oriented-API The BSD socket library Socket Bind Listen, Accept Connect Read, Write, Recv, Send Close, Shutdown Where do we get info on these ? man, msdn

25 Socket Example Server.c #include #include /* close */ #define SERVER_PORT 1500 int main (int argc, char *argv[]) { int sd, newSd, cliLen; struct sockaddr_in cliAddr, servAddr; char line[MAX_MSG]; int len; sd = socket (AF_INET, SOCK_STREAM, 0); if(sd<0) { perror("cannot open socket "); return ERROR; } /* bind server port */ servAddr.sin_family = AF_INET ; servAddr.sin_addr.s_addr = htonl (INADDR_ANY); servAddr.sin_port = htons (SERVER_PORT);

26 if ( bind (sd, (struct sockaddr *) &servAddr, sizeof(servAddr))<0) { perror("cannot bind port "); return ERROR; } listen (sd,5); while(1) { printf("%s: waiting for data on port TCP %u\n",argv[0],SERVER_PORT); cliLen = sizeof(cliAddr); newSd = accept (sd, (struct sockaddr *) &cliAddr, &cliLen); if(newSd<0) { perror("cannot accept connection "); return ERROR; } // end if /* init line */ memset(line,0,MAX_MSG); /* receive segments */ if ( (len= read (newSd,line,MAX_MSG))> 0) { printf("%s: received from %s:TCP%d : %s\n", argv[0], inet_ntoa (cliAddr.sin_addr), ntohs (cliAddr.sin_port), line); write(newSd,line,len); } else printf("Error receiving data\n"); close (newSd); } //end if } //end while

27 CLIENT.C include #include #include /* close */ #define SERVER_PORT 1500 #define MAX_MSG 100 int main (int argc, char *argv[]) { int sd, rc, i; struct sockaddr_in servAddr; struct hostent *h; char msg[300]; if(argc < 3) { printf("usage: %s \n",argv[0]); exit(1); } h = gethostbyname (argv[1]); if (h==NULL) { printf("%s: unknown host '%s'\n",argv[0],argv[1]); exit(1); } servAddr.sin_family = h->h_addrtype; memcpy((char *) &servAddr.sin_addr.s_addr, h->h_addr_list[0], h->h_length); servAddr.sin_port = htons (SERVER_PORT);

28 /* create socket */ sd = socket (AF_INET, SOCK_STREAM, 0); if(sd<0) { perror("cannot open socket "); exit(1); } /* connect to server */ rc = connect (sd, (struct sockaddr *) &servAddr, sizeof(servAddr)); if(rc<0) { perror("cannot connect "); exit(1); } write (rc, argv[1],strlen(argv[1]+1) ); read (rc, msg, 300); printf(”Received back: %s\n”, msg); close (rc); return 0; }

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