Networks, Internet & WWW Reading Materials: Ch 7 of [SG3] Additional Notes: (from web-site) Contents: Motivation for Networks Types of Networks and Their Structure Communication Protocols – routing info Network Services / Applications Internet and WWW Hon Wai Leong, NUS (UIT2201, Networks) Page 1 Copyright © 2007 by Leong Hon Wai Networks, Internet, WWW Context so far… Use algorithm to solve problem Database used to organize massive data Algorithms implemented using hardware Educational Goals for this Chapter: The computer as a tool for Communication and Collaboration Information Sharing Resource Sharing Shared Services Hon Wai Leong, NUS (UIT2201, Networks) Page 2 Copyright © 2007 by Leong Hon Wai Introduction to Computer Network What is a Computer Network Computers connected together Why: Share information and resources What kind of information data files (pictures, videos, audio), programs movies, tv and radio signals What kind of services a shared printer a shared software application Hon Wai Leong, NUS (UIT2201, Networks) Page 3 Copyright © 2007 by Leong Hon Wai Basic Networking Concepts A Computer Network A set of independent computer systems connected by telecommunication links Purpose: sharing information and resources Nodes, hosts, or end systems individual computers on a network Hon Wai Leong, NUS (UIT2201, Networks) Page 4 Copyright © 2007 by Leong Hon Wai The Ever-changing Internet Different colors based on IP address http://research.lumeta.com/ches/map What is the Internet? WWW Video conferencing ftp telnet Email Instant messaging … What is the Internet? WWW Video conferencing ftp telnet Email Instant messaging … A communication infrastructure Usefulness is in exchanging information “On-line interactive communities... will be communities not of common location, but of common interest.... the total number of users...will be large enough to support extensive general purpose [computers]. All of these will be interconnected by telecommunications channels... [to] constitute a labile network of networks--ever changing in both content and configuration.” J. C. R. Licklider Communicating Via the Internet How’s the weather in Seattle, Mar? kashaw@cs.stanford.edu Network mar@cs.washington.edu MSN Messenger Bits and Bytes Computer Data is stored in Binary Binary Digits (bits) Base 2 representation 1011 1000 0110 1010 Every 8 bits == 1 Byte 1011 1000 0110 1010 (2 bytes (once known as octet)) Hexadecimal == Base 16 representation 1011 1000 0110 1010 B 8 6 A Decimal == Base 10 (we have 10 fingers) 0...9, A = 10, B= 11, C = 12, D = 13, E = 14, F = 15 Bits and Bytes Kilobyte (2^10 bytes, 10^3 bytes in networking) Megabyte (2^20 bytes, 10^6 in Networking) Gigabyte (2^30 bytes, 10^9 in Networking) Terabyte (2^40, 10^12) Petabyte (2^50, 10^15) Performance: Latency and Bandwidth Latency How long minimum communication takes in seconds (s) Round trip vs. single trip More difficult to overcome than bandwidth Bandwidth Number of bits per time unit usually seconds (bps) bandwidth link latency Any-to-Any Communication n2 Network Effect (Metcalfe’s Law) Total utility of system proportional to n2 Think about Orkut, MSN Messenger A Brief History of the Internet and the World Wide Web: The Internet August 1962: First proposal for building a computer network Made by J. C. R. Licklider of MIT ARPANET Built by the Advanced Research Projects Agency (ARPA) in the 1960s Grew quickly during the early 1970s Hon Wai Leong, NUS (UIT2201, Networks) Page 14 Copyright © 2007 by Leong Hon Wai The Internet (continued) NSFNet: A national network built by the National Science Foundation (NSF) October 24, 1995: Formal acceptance of the term Internet Internet service providers start offering Internet access once provided by the ARPANET and NSFNet Hon Wai Leong, NUS (UIT2201, Networks) Page 15 Copyright © 2007 by Leong Hon Wai Figure 7.20 State of Networking in the Late 1980s Hon Wai Leong, NUS (UIT2201, Networks) Page 16 Copyright © 2007 by Leong Hon Wai The World Wide Web Development completed in May 1991 Designed and built by Tim Berners-Lee Components Hypertext A collection of documents interconnected by pointers called links URL (Uniform Resource Locator) The worldwide identification of a Web page located on a specific host computer Hon Wai Leong, NUS (UIT2201, Networks) Page 17 Copyright © 2007 by Leong Hon Wai Where Did It Come From? It was invented by Al Gore. JUST KIDDING! Early 1960’s - DARPA (ARPA in 1960’s) project headed by Licklider Late 1960’s - ARPANET & research on packet switching by Roberts First node installed by BBN at UCLA in September 1969 1969 - Four host computers (UCLA, SRI, UCSB, University of Utah) Get more info at: http://www.isoc.org/internet/history/ http://www.packet.cc/internet.html ARPANET, 1980 http://mappa.mundi.net/maps/maps_001/ History of the Internet Internet Hosts 100,000,000 10,000,000 Stage 1 DARPA Experiment, operation Stage 2 Enterprise Internets, R&A scaling Stage 3 Universality 1995-NSFNet ceases, non-USA nets >50% 1,000,000 100,000 10,000 Kahn poses internet challenge 2Q 73 Cerf-Kahn sketch gateway and TCP in 2Q 1973 Cerf-Kahn paper published May 1974 Cerf team full spec - Dec 1974 1992-Internet Society created ceases 1990-ARPANet 1989-first public commercial Internets created 1986-NSFNet created 1,000 1984-DNS created, DARPA divests JanInternet 1983-ARPANet adopts TCP/IP, CSNet 100 10 1 1968 created, first real Internet begins ARPANet 1973 1979 1981-Bitnet created 1984 1990 1995 2001 copyright © 1995 A.M.Rutkowski & Internet Society History of the Internet 1969 - RFCs begun by S. Crocker (http://rfc.sunsite.dk/) 1972 - Email by Ray Tomlinson & Larry Roberts 1970’s - TCP by Vint Cerf & Bob Kahn 1980s – Hardware Explosion (LANs, PCs, and workstations) Evolved into TCP/IP, and UDP 1983 – Ethernet by Metcalfe DNS – Distributed and scalable mechanism for resolving host names into IP addresses UC Berkeley implements TCP/IP into Unix BSD 1985 – Internet used by researchers and developers History of the Internet Tim Berners-Lee at CERN in 1989 Proposal for WWW in 1990 First web page on November 13, 1990 Hypertext - Text that contains links to other text. Ted Nelson’s Xanadu Vannevar Bush’s Memex (http://www.theatlantic.com/unbound/flashbks/computer/bushf.htm) W3C Get more info at: http://www.isoc.org/internet/history/ Babel Internet consists of many different types of networks Ethernet Token ring Different types of operating systems and other software How do they work together? How’s the weather in Seattle, Mar? kashaw@cs.stanford.edu Ethernet Network Tokenring Standards MSN Messenger mar@cs.washington.edu The Basic Communication Link Dial-up telephone line, A circuit is temporarily established between caller and callee Analog medium (analog signals) Requires modem at both ends to transmit information produced by a computer Computer produces digital information Hon Wai Leong, NUS (UIT2201, Networks) Page 24 Copyright © 2007 by Leong Hon Wai Analog vs Digital Signals Figure 7.1 Two Forms of Information Representation Hon Wai Leong, NUS (UIT2201, Networks) Page 25 Copyright © 2007 by Leong Hon Wai Analog Digital Conversion Figure 7.2: Modulation of a Carrier to Encode Binary Information Hon Wai Leong, NUS (UIT2201, Networks) Page 26 Copyright © 2007 by Leong Hon Wai The Communication Link (cont…) Dial-up phone links Transmission rate: 56 Kbps Broadband Transmission rate: > 256 Kbps Home Use: * DSL * Cable modem Hon Wai Leong, NUS Office & Commercial Use: * Ethernet * Fast Ethernet * Gigabit Ethernet (UIT2201, Networks) Page 27 Copyright © 2007 by Leong Hon Wai Comparison of Transmission Speed Figure 7.3: Transmission Time of an Image at Different Transmission Speeds Hon Wai Leong, NUS (UIT2201, Networks) Page 28 Copyright © 2007 by Leong Hon Wai TCP/IP Executive Summary Political Layer Economic Layer Application Layer TCP/UDP Layer IP Layer Link Layer Physical You Are Here Divide Work into Layers Application HTTP, SMTP, FTP, TELNET, DNS 01010 End-to-End TCP, UDP Network IP Link Level Ethernet, token ring 0 1 0 1 0 01010 make network simple and reliable a connect segments, address (locating points on graph) and route (navigating graph) 01010 01010 physically encode bits on “wire” b Sending Data Along Wires Connection-oriented Circuit switched Persistent connection set up between sender and receiver Example: telephone system Connectionless Packet switched Data partitioned into packets and H Data sent individually from sender to receiver Reassembled at receiver Message H Data H Data H Data Comparison of Switching Technologies Circuit switched Advantages Only route once Latency and bandwidth constant Disadvantages Idle resources unavailable for other connections Large setup time Single point of failure Distributed state Packet switched Advantages Efficient use of wires Small startup overhead Disadvantages Route each packet Per packet overhead Bursty Communication Links (continued) Wireless Data Communication Uses radio-wave, microwave, infrared Enables “mobile computing” Two types: Wireless Local Access Network Wireless Wide-area Access Network Hon Wai Leong, NUS (UIT2201, Networks) Page 33 Copyright © 2007 by Leong Hon Wai Local Area Networks Local Area Networks (LAN) Used to connects computers in a small area (say, in a building) Common LAN topologies Hon Wai Leong, NUS (UIT2201, Networks) Page 34 Copyright © 2007 by Leong Hon Wai Local Area Networks (cont…) Most commonly wired by Ethernet Using bus topology Two ways to wire-up an Ethernet LAN Hub Shared Cable Hon Wai Leong, NUS (UIT2201, Networks) Page 35 Copyright © 2007 by Leong Hon Wai Ethernet Bob Metcalfe at Xerox PARC Used for local area networks (LANs) Physically near one another 200 computers within 100 meters Broadcast medium Single wire connects all computers Each computer has unique 48-bit MAC address All computers constantly listen “Carrier Sense, Multiple Access with Collision Detect” Sender waits until wire unused before sending If hears collision, stops, waits random time, retransmits Ethernet Ethernet Variations Ethernet Properties Shared Distributed (not Centralized) Insecure Unpredictable Latency & Bandwidth But it works! Under light load (<30%), appears to be point-topoint Alternative to Ethernet: Token Ring Alternative introduced by IBM (1980s) “Passing the Conch Shell” Wide Area Networks To connect across town, country, ocean Dedicated point-to-point lines Expensive. By major service providers (SP) Users buy services from SP Uses different protocol: Store-and-forward, packet-switched tech. Hon Wai Leong, NUS (UIT2201, Networks) Page 41 Copyright © 2007 by Leong Hon Wai Wide Area Networks To connect across town, country, ocean Figure 7.7: Typical Structure of a Wide Area Network Hon Wai Leong, NUS (UIT2201, Networks) Page 42 Copyright © 2007 by Leong Hon Wai Overall Structure of the Internet All real-world networks, including the Internet, are a mix of LANs and WANs Example: A company or a college One or more LANs connecting its local computers Individual LANs interconnected into a widearea company network Hon Wai Leong, NUS (UIT2201, Networks) Page 43 Copyright © 2007 by Leong Hon Wai Structure of Large Network Large networks contains hybrid… Figure 7.8(a): Structure of a Typical Company Network Hon Wai Leong, NUS (UIT2201, Networks) Page 44 Copyright © 2007 by Leong Hon Wai Figure 7.8(b): Structure of a Network Using an ISP Hon Wai Leong, NUS (UIT2201, Networks) Page 45 Copyright © 2007 by Leong Hon Wai Figure 7.8(c): Hierarchy of Internet Service Providers Hon Wai Leong, NUS (UIT2201, Networks) Page 46 Copyright © 2007 by Leong Hon Wai Overall Structure of the Internet (cont…) Internet Service Provider (ISP) A wide-area network Provides a pathway from a specific network to other networks, or from an individual’s computer to other networks ISPs are hierarchical Interconnect to each other in multiple layers to provide greater geographical coverage Hon Wai Leong, NUS (UIT2201, Networks) Page 47 Copyright © 2007 by Leong Hon Wai Overall Structure of the Internet Internet A huge interconnected “network of networks” Includes nodes, LANs, WANs, bridges, routers, and multiple levels of ISPs Early 2003 170 million nodes (hosts) Hundreds of thousands of separate networks located in over 225 countries Hon Wai Leong, NUS (UIT2201, Networks) Page 48 Copyright © 2007 by Leong Hon Wai Communication Protocols A protocol A mutually agreed upon set of rules, conventions, and agreements for the efficient and orderly exchange of information TCP/IP The Internet protocol hierarchy Governs the operation of the Internet Five layers Hon Wai Leong, NUS (UIT2201, Networks) Page 49 Copyright © 2007 by Leong Hon Wai Figure 7.10 The Five-Layer TCP/IP Internet Protocol Hierarchy Hon Wai Leong, NUS (UIT2201, Networks) Page 50 Copyright © 2007 by Leong Hon Wai Physical Layer Protocols govern the exchange of binary digits across a physical communication channel Goal: Create a bit pipe between two computers Hon Wai Leong, NUS (UIT2201, Networks) Page 51 Copyright © 2007 by Leong Hon Wai Data Link Layer Protocols carry out Error handling Framing Creates an error-free message pipe Composed of two services Layer 2a: Medium access control Layer 2b: Logical link control Hon Wai Leong, NUS (UIT2201, Networks) Page 52 Copyright © 2007 by Leong Hon Wai Data Link Layer (continued) Medium access control protocols Determine how to arbitrate ownership of a shared line when multiple nodes want to send at the same time Logical link control protocols Ensure that a message traveling across a channel from source to destination arrives correctly Hon Wai Leong, NUS (UIT2201, Networks) Page 53 Copyright © 2007 by Leong Hon Wai Network Layer Delivers a message from the site where it was created to its ultimate destination Critical responsibilities Create a universal addressing scheme for all network nodes Deliver messages between any two nodes in the network Hon Wai Leong, NUS (UIT2201, Networks) Page 54 Copyright © 2007 by Leong Hon Wai Network Layer (continued) Provides a true network delivery service Messages are delivered between any two nodes in the network, regardless of where they are located IP (Internet Protocol) layer Network layer in the Internet Hon Wai Leong, NUS (UIT2201, Networks) Page 55 Copyright © 2007 by Leong Hon Wai Transport Layer Provides a high-quality, error-free, order- preserving, end-to-end delivery service TCP (Transport Control Protocol) Primary transport protocol on the Internet Requires the source and destination programs to initially establish a connection Hon Wai Leong, NUS (UIT2201, Networks) Page 56 Copyright © 2007 by Leong Hon Wai Figure 7.15: Logical View of a TCP Connection Hon Wai Leong, NUS (UIT2201, Networks) Page 57 Copyright © 2007 by Leong Hon Wai Application Layer Implements the end-user services provided by a network There are many application protocols HTTP SMTP POP3 IMAP FTP Hon Wai Leong, NUS (UIT2201, Networks) Page 58 Copyright © 2007 by Leong Hon Wai Figure 7.16: Some Popular Application Protocols on the Internet Hon Wai Leong, NUS (UIT2201, Networks) Page 59 Copyright © 2007 by Leong Hon Wai Application Layer (continued) Uniform Resource Locator (URL) A symbolic string that identifies a Web page Form protocol://host address/page The most common Web page format is hypertext information Accessed using the HTTP protocol Hon Wai Leong, NUS (UIT2201, Networks) Page 60 Copyright © 2007 by Leong Hon Wai Network Services and Benefits Services offered by computer networks Electronic mail (email) Bulletin boards News groups Chat rooms Resource sharing Physical resources Logical resources Hon Wai Leong, NUS (UIT2201, Networks) Page 61 Copyright © 2007 by Leong Hon Wai Network Services and Benefits … Services offered by computer networks Client-server computing Information sharing Information utility Electronic commerce (e-commerce) Hon Wai Leong, NUS (UIT2201, Networks) Page 62 Copyright © 2007 by Leong Hon Wai WWW and Hypertext documents Figure 7.21 Hypertext Documents Hon Wai Leong, NUS (UIT2201, Networks) Page 63 Copyright © 2007 by Leong Hon Wai WWW – web-pages Web-pages are documents similar to any other document, but written in special “web-languages” html (hypertext markup language) xml (extensible markup language) Allows text, pictures, formatting, etc More sophisticated web-pages Dynamic pages (dhtml) Allows “programming” Pages with forms, questionnaires, etc Languages: cgi, perl, jsp, asp, etc… Hon Wai Leong, NUS (UIT2201, Networks) Page 64 Copyright © 2007 by Leong Hon Wai WWW – continued… Tools for Creating Web-Pages Back to basics (eg: UIT2201 pages) Frontpage, Dreamweaver, etc, etc Web-Sites Individual Servers Web-Hosting Servers Web Applications Forms, registration, etc ASP (Application Service Providers) Hon Wai Leong, NUS (UIT2201, Networks) Page 65 Copyright © 2007 by Leong Hon Wai Summary Computer network: A set of independent computer systems connected by telecommunication links Options for transmitting data on a network: Dial-up telephone lines, DSL, cable modem, Ethernet, Fast Ethernet Types of networks: Local area network (LAN) and wide area network (WAN) Hon Wai Leong, NUS (UIT2201, Networks) Page 66 Copyright © 2007 by Leong Hon Wai Summary (continued) The Internet is a huge interconnected "network of networks" TCP/IP is the Internet protocol hierarchy, composed of five layers: physical, data link, network, transport, and application The World Wide Web is an information system based on the concept of hypertext Hon Wai Leong, NUS (UIT2201, Networks) Page 67 Copyright © 2007 by Leong Hon Wai Thank you. Hon Wai Leong, NUS (UIT2201, Networks) Page 68 Copyright © 2007 by Leong Hon Wai