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OSI Reference Model & Layered Communication Sritrusta Sukaridhoto OSI Layer Open Systems Interconnection for Communications There are 7 Layers Layers 7,6,5 are oriented more toward services to the applications Layer 4,3,2,1 are oriented more toward the flows data from end-to-end through network 7 Layer OSI How to Remember (CISCO) Please Do Not Throw Sousces Pizza Away Physical Data Link Network Transport Session Presentation Application Application Layer 7 Function & Description An application that communicates with other computers is implementing OSI application layer concepts. Application layer refer to communications service to application. Example Telnet HTTP FTP WWW Browser NFS SMTP Gateway SNMP Presentation Layer 6 Function & Description This layer main purpose is defining data format such as ASCII text, EBCDIC text, binary, BCD, JPEG. Encryption is also defined by OSI as presentation layer service. Example JPEG ASCII TIFF GIF PICT MPEG MIDI Encryption Session Layer 5 Function & Description This session layer defines how to start, control, and end conversation (called session). This includes the control and management of multi bidirectional messages so that application can be notified if only some of a series of messages are completed. Example RPC SQL NFS Netbios Names AppleTalk ASP SCP DECnet Transport Layer 4 Function & Description Layer 4 includes the choice of protocols that either do or do not provide error recovery. Multiplexing of incoming data for different flows to applications on the same host. Example TCP UDP SPX Network Layer 3 Function & Description This layer defines end-to-end delivery packets. To accomplish this, the network layer defines logical addressing so that any endpoint can be identified. It also defines how routing works and how routes are learned so that the packets can be delivered Network layer also defines how to fragment a packet into smaller packets to accommodate media with smaller maximum transmission unit size Example IP IPX AppleTalk DDP Data Link Layer 2 Function & Description The data link specifications are concerned with getting data across one particular link or medium. The data link protocols define delivery across an individual link. These protocols are necessary concerned with the type of media in question. Example IEEE 802.3/802.2 HDLC Frame Relay PPP FDDI ATM Physical Layer 1 Function & Description Deal with the physical characteristics of the transmission medium, Connection pins, use of pins, electrical currents, encoding and light modulation. Example Ethernet RJ-45 V.35 FDDI EIA/TIA-232 Some protocol define details of multiple layers. Example: NFS Benefit & Concept Humans can discuss and learn about many details of a protocol specification easier Standardized interfaces among layers Better environment for interoperability Reduce complexity, faster production Each layer can define header and trailers around the user data One layer use the services of the layer immediately below it. Interaction Between OSI Layer On Same Computer Step 1 = Physical Layer, ensure bit synchronization Step 2 = Data Link Layer, Frame Check Sequence (FCS) whether error occurred in transmission Step 3 = Network Layer, Exam address Step 4 = Transport Layer, acknowleadment Step 5 = Session Layer, to ensure that a series of messages is completed Step 6 = Presentation Layer, manipulate data format Step 7 = Application Layer, processes the final header and then can examine the true end-user data Different Computer Data Encapsulation 5 Step Data Encapsulation Create the data Package the data for transport Add the destination network layer address to the data Add the destination data link address to the data Transmit the bit Frames, Packets and Seqments The layer 2 PDU (Protocol Data Unit) including the data link header and trailer = Frame The Layer 3 PDU = packet The Layer 4 PDU = seqment OSI, TCP/IP OSI Transport Layer Function Connection Oriented vs Connectionless Oriented Error Recovery Flow Control Flow control is the process of controlling the rate at witch a computer sends data. Implementation: Buffering Congestion Avoidance Windowing Buffering Buffering simply means that computers reserve enough buffer space that bursts of incoming data can be held until processed Congestion Avoidance Windowing Data Link Function MAC = Media Access Control CSMA/CD = Carrier Sense Multiple Access/Collision Detect OSI Network Layer Function Routing Sending data to a nearby Router Routing data Across Network Delivering Data to End Destination Addressing Summary Application (Layer 7) User Interface Telnet, HTTP Application (Layer 6) How data is presented JPEG, ASCII Session (Layer 5) Keeping data separate from different application OS, application access scheduling Transport (Layer 4) Reliable or unreliable delivery, Multiplexing TCP, UDP, SPX Network (Layer 3) Logical addressing, Routing IP, IPX Data Link (Layer 2) MAC, error detection 802.3/802.2, HDLC Physical (Layer 1) Devices Ethernet, V.35
