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Unit 1 : Introduction to Internetworking

·    What did you learn in TDC 361 and 362? ·    What is a (communications) network? An interconnected structure that allows attached devices to communicate with each other ·     Client/Server Model ·     Network Protocols ·     Network Classifications: LAN, MAN, WAN etc. ·     Internetwork

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Unit 1 : Introduction to Internetworking

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  1. ·   What did you learn in TDC 361 and 362? ·   What is a (communications) network? An interconnected structure that allows attached devices to communicate with each other ·    Client/Server Model ·    Network Protocols ·    Network Classifications: LAN, MAN, WAN etc. ·    Internetwork ·       Internetworking devices ·       The Internet as an example ·       Brief history ·       Structure of the Internet ·       RFC (Request for Comments) ·    Network Architectures: OSI and TCP/IP  ·    Internetworking devices revisited ·    Some Internet probing tools: ping and traceroute / tracert ·    Conversion between different number systems ·    IP Classful Addresses Unit 1: Introduction to Internetworking

  2. Request Service Provide Service • Network Protocols = • agreed-upon ways in which computers exchange information • Syntax: structure or format of the data • Semantics: meanings • Timing: when data should be sent and how fast it can be sent.

  3. LAN MAN WAN

  4. Internetwork Internetworking devices: bridges, routers, gateways etc. The Internet

  5. The Internet: A collection of networks and routers that span many countries and uses the TCP/IP protocols to form a single, cooperative virtual network. Intranet: connection of different LANs within an organization. Main players in the Internet: Started by U.S. research/military organizations: (D)ARPA: (Defense) Advanced Research Projects Agency  funds technology with military usefulness DoD: U.S. Department of Defense  early adaptor of Internet technology NSF: National Science Foundations  funds university research

  6. Today: National backbone providers (NBPs) interconnected through exchange points: NAPs (Network Access Points) and MAEs (Metropolitan Area Exchanges) Regional ISPs connects to the NBPs

  7. Brief History of the Internet 1830: telegraph 1876: telephone (circuit-switching) Development of Early Packet Switching Principles: early 1960's concept of packet switching (Paul Baran) 1965: MIT's Lincoln Laboratory commissions Thomas Marill to study computer networking 1968: ARPAnet contract awarded to Bolt Beranek and Newman (BBN) 1969: ARPAnet has 4 nodes (UCLA, SRI, UCSB, U. Utah), connected by IMPs (Interface message processors); connected by 50 kbps lines 1971: 15 nodes and 23 hosts

  8. Internetworking, and New and Proprietary Networks 1973: TCP/IP design. First satellite link from California to Hawaii First international connections to the ARPANET:England and Norway 1979: ARPAnet had about 100 nodes 1980s: DARPA funded Berkeley Unix, with TCP/IP 1980-81: BITNET (IBM protocols) and CSNET (NSF-funded) Early 1980's: split ARPnet (research), MILNET (Military) Proliferation of Networks: 1984: Domain Name Services (Mapping Domain names into IP addresses) 1986: NSFNET created (56kbps backbone) 1989: Internet passes 100,000 nodes First proposal for World Wide Web NSFNET backbone upgraded to T1 (1.544 Mbps)

  9. Commercialization and the Web: 1990: Original ARPAnet disbanded Fall 1991: CSNET discontinued 1991: Gopher released by University of Minnesota 1992: NSFNET backbone upgraded to T3 (44.736 Mbps) March 1992: First MBONE (Multicast Backbone) video multicast November 1992: First MBONE video multicast Februray 1993: 1,776,000 hosts May 1993: NSF solicited for bids and designated a series of NAPs (e.g. Chicago NAP is run by Ameritech) April 30, 1995: NSFNet backbone disbanded (See http://www.navigators.com/isp.html for excellent information and links about the architecture of the Internet)

  10. Internet growth from 1981 through 2000 plotted on a log scale Internet growth from 1981 through 2000

  11. Some Internet-related organizations ISOC: http://www.isoc.org The Internet SOCiety (ISOC) is a professional membership society with more than 150 organizational and 6,000 individual members in over 100 countries. It provides leadership in addressing issues that confront the future of the Internet, and is the organization home for the groups responsible for Internet infrastructure standards, including the Internet Engineering Task Force (IETF) and the Internet Architecture Board (IAB). IAB: http://www.iab.org The IAB (Internet Architecture Board) is the Internet Society overseer of the technical evolution of the Internet. The IAB supervises the Internet Engineering Task Force (IETF), which oversees the evolution of TCP/IP, and the Internet Research Task Force (IRTF), which works on network technology. IETF: http://www.ietf.org The Internet Engineering Task Force (IETF) is a large open international community of network designers, operators, vendors, and researchers concerned with the evolution of the Internet architecture and the smooth operation of the Internet. It is open to any interested individual. Responsible for RFCs (Request for Comments, Internet Standards/drafts) which can be located at http://www.ietf.org/rfc.html ICANN: http://www.icann.org The Internet Corporation for Assigned Names and Numbers (ICANN) is the non-profit corporation that was formed to assume responsibility for the IP address space allocation, protocol parameter assignment, domain name system management, and root server system management function previously performed under U.S. Government contract by IANA (Internet Assigned Numbers Authority) and other entities.

  12. - - Maturity levels of an RFC

  13. Analogy: Application = boss Transport = secretary Network Access = post office

  14. ISO OSI Model (ISO = International Standard Organization, OSI = Open Systems Interconnection)

  15. OSI Layers

  16. An exchange using the OSI model: Encapsulation and Decapsulation

  17. TCP/IP and OSI Model Connection-oriented Connectionless IP: Internet Protocol TCP: Transmission Control Protocol UDP: User Datagram Protocol Connection-oriented: a connection must be set up first. Data go in sequence Connectionless: no need to set up a connection. Data may arrive out of sequence.

  18. Figure 2-13 Relationship of layers and addresses in TCP/IP Example: web browser implementing HTTP Eg. TCP port 80 for web server Interface. Eg. WINSOCK on PCs Implemented in TCP and UDP software. HTTP uses TCP. Eg. 140.192.33.37 (32- bit) Implemented in IP software Eg. Ethernet Medium Access Control (MAC) implemented in NIC card (Network Interface Card) and driver software Eg. Ethernet address (48-bit) Eg. Ethernet PHY layer. Implemented in NIC card

  19. Figure 2-14 Physical addresses: identify and interface card (Link address, MAC address) Eg. Ethernet: a broadcast network.

  20. Figure 2-15 IP addresses (A logical address necessary for universal communication over the internet, and is independent of the underlying physical networks) Note: We commonly uses names such as www.cs.depaul.edu (called Domain Names). To translate from names to IP addresses, needs to use DNS (Domain Name Service) implemented at the Application level.

  21. Internetworking devices • Bridges: interconnect LANs at Layer 2 • Connected LANs assigned a single network number (a single extended LAN) • Routers: interconnect at Layer 3 • Each network assigned a different network number • Gateway: many kind of devices • Interconnect at Layer 4 and above • Note: Routers are used to (and sometimes still) be called gateways

  22. A host is assigned a host number unique within a network A router assigned an IP address per interface Each network assigned an IP network number

  23. Dotted Decimal Notation Class A: Large networks Class B: Medium networks Class C: Small networks Hostid with all 0’s or all 1’s are special. Classful IP Addresses

  24. Range of addresses in each class

  25. Multihomed devices have different addresses for each interface

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