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1 ECEN 619-600 “Internet Protocols and Modeling”, Spring 2011 Slide 5.

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Presentation on theme: "1 ECEN 619-600 “Internet Protocols and Modeling”, Spring 2011 Slide 5."— Presentation transcript:

1 1 ECEN 619-600 “Internet Protocols and Modeling”, Spring 2011 Slide 5

2 2 Applications and Layered Architectures OSI Reference Model

3 3 Why Layering? Layering simplifies design, implementation, and testing by partitioning overall communications process into parts Protocol in each layer can be designed separately from those in other layers Protocol makes “calls” for services from layer below Layering provides flexibility for modifying and evolving protocols and services without having to change layers below Monolithic non-layered architectures are costly, inflexible, and soon obsolete

4 4 Open Systems Interconnection Network architecture: –Definition of all the layers –Design of protocols for every layer By the 1970s every computer vendor had developed its own proprietary layered network architecture Problem: computers from different vendors could not be networked together Open Systems Interconnection (OSI) was an international effort by the International Organization for Standardization (ISO) to enable multivendor computer interconnection

5 5 OSI Reference Model Describes a seven-layer abstract reference model for a network architecture Purpose of the reference model was to provide a framework for the development of protocols OSI also provided a unified view of layers, protocols, and services which is still in use in the development of new protocols Detailed standards were developed for each layer, but most of these are not in use TCP/IP protocols preempted deployment of OSI protocols

6 6 7-Layer OSI Reference Model Application Layer Presentation Layer Session Layer Transport Layer Network Layer Data Link Layer Physical Layer Application Layer Presentation Layer Session Layer Transport Layer Network Layer Data Link Layer Physical Layer Network Layer Application Data Link Layer Physical Layer Network Layer Data Link Layer Physical Layer Communicating End Systems One or More Network Nodes End-to-End Protocols

7 7 Physical Layer Transfers bits across link Definition & specification of the physical aspects of a communications link –Mechanical: cable, plugs, pins... –Electrical/optical: modulation, signal strength, voltage levels, bit times, … –functional/procedural: how to activate, maintain, and deactivate physical links… Ethernet, DSL, cable modem, telephone modems… Twisted-pair cable, coaxial cable optical fiber, radio, infrared, …

8 8 Data Link Layer Transfers frames across direct connections Groups bits into frames Detection of bit errors; Retransmission of frames Activation, maintenance, & deactivation of data link connections Medium access control for local area networks Flow control Data Link Layer Physical Layer Data Link Layer Physical Layer frames bits

9 9 Network Layer Transfers packets across multiple links and/or multiple networks Addressing must scale to large networks Nodes jointly execute routing algorithm to determine paths across the network Forwarding transfers packet across a node Congestion control to deal with traffic surges Connection setup, maintenance, and teardown when connection-based

10 10 Internetworking Internetworking is part of network layer and provides transfer of packets across multiple possibly dissimilar networks Gateways (routers) direct packets across networks G = gateway H = host Net 1 Net 5 Net 3 Net 2 H Net 3 G H H H G G G G G Net 1Net 2Net 4Net 5 Ethernet LAN ATM Switch ATM Switch ATM Switch ATM Switch ATM Network

11 11 Transport Layer Transfers data end-to-end from process in a machine to process in another machine Reliable stream transfer or quick-and-simple single-block transfer Port numbers enable multiplexing Message segmentation and reassembly Connection setup, maintenance, and release Transport Layer Network Layer Transport Layer Network Layer Network Layer Network Layer Communication Network

12 12 Application & Upper Layers Application Layer: Provides services that are frequently required by applications: DNS, web access, file transfer, email… Presentation Layer: machine- independent representation of data… Session Layer: dialog management, recovery from errors, … Application Layer Presentation Layer Session Layer Transport Layer Application Layer Transport Layer Application Incorporated into Application Layer

13 13 Headers & Trailers Each protocol uses a header that carries addresses, sequence numbers, flag bits, length indicators, etc… CRC check bits may be appended for error detection Application Layer Transport Layer Network Layer Data Link Layer Physical Layer Application Layer Transport Layer Network Layer Data Link Layer Physical Layer Application APP DATA AHAPP DATA TH AHAPP DATA NHTH AHAPP DATA DHNHTH AHAPP DATA CRC bits

14 14 OSI Unified View: Protocols Layer n in one machine interacts with layer n in another machine to provide a service to layer n +1 The entities comprising the corresponding layers on different machines are called peer processes. The machines use a set of rules and conventions called the layer-n protocol. Layer-n peer processes communicate by exchanging Protocol Data Units (PDUs) n Entity n Entity Layer n peer protocol n-PDUs

15 15 OSI Unified View: Services Communication between peer processes is virtual and actually indirect Layer n+1 transfers information by invoking the services provided by layer n Services are available at Service Access Points (SAP’s) Each layer passes data & control information to the layer below it until the physical layer is reached and transfer occurs The data passed to the layer below is called a Service Data Unit (SDU) SDU’s are encapsulated in PDU’s

16 16 n+1 entity n-SAP n+1 entity n-SAP n entity n-SDU H H n-PDU Layers, Services & Protocols

17 17 Interlayer Interaction layer N+1 userN provider System ASystem B N providerN+1 user Request Indication Response Confirm

18 18 Connectionless & Connection- Oriented Services Connection-Oriented –Three-phases: 1.Connection setup between two SAPs to initialize state information 2.SDU transfer 3.Connection release –E.g. TCP, ATM Connectionless –Immediate SDU transfer –No connection setup –E.g. UDP, IP Layered services need not be of same type –TCP operates over IP –IP operates over ATM

19 19 n-PDU Segmentation & Reassembly A layer may impose a limit on the size of a data block that it can transfer for implementation or other reasons Thus a layer-n SDU may be too large to be handled as a single unit by layer- (n-1) Sender side: SDU is segmented into multiple PDUs Receiver side: SDU is reassembled from sequence of PDUs n-SDU n-PDU Segmentation (a) n-SDU n-PDU Reassembly (b)

20 20 n+1 entity n+1 entity n+1 entity n+1 entity Multiplexing Sharing of layer n service by multiple layer n+1 users Multiplexing tag or ID required in each PDU to determine which users an SDU belongs to n entity n-SDU H H n-PDU

21 21 Summary Layers: related communications functions –Application Layer: HTTP, DNS –Transport Layer: TCP, UDP –Network Layer: IP Services: a protocol provides a communications service to the layer above –TCP provides connection-oriented reliable byte transfer service –UDP provides best-effort datagram service Each layer builds on services of lower layers –HTTP builds on top of TCP –DNS builds on top of UDP –TCP and UDP build on top of IP

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