CIS 203 2 : Protocols and the TCP/IP Protocol Suite.
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Transcript of CIS 203 2 : Protocols and the TCP/IP Protocol Suite.
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CIS 203
2 : Protocols and the TCP/IP Protocol Suite
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Need For Protocol Architecture• E.g. File transfer
—Source must activate comms. Path or inform network of destination
—Source must check destination is prepared to receive
—File transfer application on source must check destination file management system will accept and store file for his user
—May need file format translation
• Task broken into subtasks• Implemented separately in layers in stack• Functions needed in both systems• Peer layers communicate
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Key Elements of a Protocol• Syntax
—Data formats—Signal levels
• Semantics—Control information—Error handling
• Timing—Speed matching—Sequencing
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Protocol Architecture• Task of communication broken up into
modules• For example file transfer could use three
modules—File transfer application—Communication service module—Network access module
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Figure 2.1 Simplified Architecture for File Transfer
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A Three Layer Model• Network Access Layer• Transport Layer• Application Layer
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Network Access Layer• Exchange of data between the computer
and the network• Sending computer provides address of
destination• May invoke levels of service• Dependent on type of network used (LAN,
packet switched etc.)
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Transport Layer• Reliable data exchange• Independent of network being used• Independent of application
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Application Layer• Support for different user applications• e.g. e-mail, file transfer
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Figure 2.2 Protocol Architectures and Networks
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Addressing Requirements• Two levels of addressing required• Each computer needs unique network
address• Each application on a (multi-tasking)
computer needs a unique address within the computer—The service access point or SAP—The port on TCP/IP stacks
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Figure 2.3 Protocols in Simplified Architecture
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Protocol Data Units (PDU)• At each layer, protocols are used to
communicate• Control information is added to user data
at each layer• Transport layer may fragment user data• Each fragment has a transport header
added—Destination SAP—Sequence number—Error detection code
• This gives a transport protocol data unit
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Figure 2.4 Protocol Data Units
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Network PDU• Adds network header
—network address for destination computer—Facilities requests
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Figure 2.5 Operation of a Protocol Architecture
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Standardized Protocol Architectures• Required for devices to communicate• Vendors have more marketable products• Customers can insist on standards based
equipment• Two standards:
—OSI Reference model• Never lived up to early promises
—TCP/IP protocol suite• Most widely used
• Also: IBM Systems Network Architecture (SNA)
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OSI• Open Systems Interconnection• Developed by the International
Organization for Standardization (ISO)• Seven layers• A theoretical system delivered too late!• TCP/IP is the de facto standard
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OSI - The Model• A layer model• Each layer performs a subset of the
required communication functions• Each layer relies on the next lower layer
to perform more primitive functions• Each layer provides services to the next
higher layer• Changes in one layer should not require
changes in other layers
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Figure 2.6OSI Layers
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Figure 2.7The OSI Environment
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Figure 2.8 OSI as Framework for Standardization
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Figure 2.9Layer Specific Standards
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Elements of Standardization• Protocol specification
—Operates between the same layer on two systems
—May involve different operating system—Protocol specification must be precise
• Format of data units• Semantics of all fields• allowable sequence of PCUs
• Service definition—Functional description of what is provided
• Addressing—Referenced by SAPs
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Service Primitives and Parameters• Services between adjacent layers
expressed in terms of primitives and parameters
• Primitives specify function to be performed
• Parameters pass data and control info
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Primitive TypesREQUEST A primitive issued by a service user to
invoke some service and to pass the parameters needed to specify fully the requested service
INDICATION A primitive issued by a service provider either to: indicate that a procedure has been invoked by the peer service user on the connection and to provide the associated parameters, or notify the service user of a provider-initiated action
RESPONSE A primitive issued by a service user to acknowledge or complete some procedure previously invoked by an indication to that user
CONFIRM A primitive issued by a service provider to acknowledge or complete some procedure previously invoked by a request by the service user
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Figure 2.10 Timing Sequence for Service Primitives
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TCP/IP Protocol Architecture• Developed by the US Defense Advanced
Research Project Agency (DARPA) for its packet switched network (ARPANET)
• Used by the global Internet• No official model but a working one.
—Application layer—Host to host or transport layer—Internet layer—Network access layer—Physical layer
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Physical Layer• Physical interface between data
transmission device (e.g. computer) and transmission medium or network
• Characteristics of transmission medium• Signal levels• Data rates• etc.
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Network Access Layer• Exchange of data between end system
and network• Destination address provision• Invoking services like priority
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Internet Layer (IP)• Systems may be attached to different
networks• Routing functions across multiple
networks• Implemented in end systems and routers
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Transport Layer (TCP)• Reliable delivery of data• Ordering of delivery
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Application Layer• Support for user applications• e.g. http, SMPT
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Figure 2.11OSI v TCP/IP
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TCP• Usual transport layer is Transmission Control
Protocol—Reliable connection
• Connection—Temporary logical association between entities in
different systems
• TCP PDU —Called TCP segment—Includes source and destination port (c.f. SAP)
• Identify respective users (applications)• Connection refers to pair of ports
• TCP tracks segments between entities on each connection
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UDP• Alternative to TCP is User Datagram
Protocol• Not guaranteed delivery• No preservation of sequence• No protection against duplication• Minimum overhead• Adds port addressing to IP
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Figure 2.12TCP and UDP Headers
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IP and IPv6• IP (v4) header minimum 20 octets (160 bits)• 32-bit source and destination addresses• Checksum applies to header to avoid incorrect
delivery• Protocol field shows if TCP, UDP etc. carried• Flags and fragmentation offset used in
fragmentation• 1995 IPng became standard IPv6 in 1996• Enhancements for modern high speed
networks• Carry multimedia data streams• Increase address space
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Figure 2.13 (a)IPv4 Header
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Figure 2.13 (b)IPv6 Header
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Figure 2.14TCP/IP Concepts
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Addressing level• Level in architecture at which entity is
named• Unique address for each end system
(computer) and router• Network level address
—IP or internet address (TCP/IP)—Network service access point or NSAP (OSI)
• Process within the system—Port number (TCP/IP)—Service access point or SAP (OSI)
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Trace of Simple Operation• Process associated with port 1 in host A
sends message to port 2 in host B• Process at A hands down message to TCP
to send to port 2• TCP hands down to IP to send to host B• IP hands down to network layer (e.g.
Ethernet) to send to router J• Generates a set of encapsulated PDUs
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Figure 2.15PDUs in TCP/IP
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Example Header Information• Destination port• Sequence number• Checksum
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Internetworking• Most networks not isolated
—Different types of LAN—Multiple similar LANs—Multiple sites connected by WAN(s)
• May appear as large network• Entire configuration referred to as an internet
—Note indefinite article and lower case “i”
• Each constituent network is a subnetwork• Most important example of an internet is referred to
simply as the Internet—Note definite article and upper case “I”
• The Internet evolved from research-oriented packet-switching network
• Basis for development of internetworking technology• Model for private internets
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Internetworking Devices• Each subnetwork supports communication among
devices attached to that subnetwork—End systems (ESs)
• Subnetworks connected by intermediate systems (ISs)—Provide communications path and relay and routing functions—Bridges and routers—Different types of protocols used
• Bridge operates at layer 2—Relay between like networks
• Router operates at layer 3• Routes packets between potentially different
networks
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Routers• Interconnect dissimilar subnetworks
—Provide a link between networks—Provide for routing and delivery of data between
processes on end systems attached to different networks—Do not require modifications of architecture of
subnetworks
• Must accommodate differences among networks—Addressing schemes—Maximum packet sizes—Interfaces—Reliability
• Satisfied by internetworking protocol implemented in all end systems and routers—IP
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Figure 2.16 Configuration for TCP/IP Example
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Figure 2.17 Action of Sender
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Figure 2.18 Action of Router
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Figure 2.19Action ofReceiver
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Internetworking Terminology (1)• Internet
—Collection of communication networks interconnected by bridges and/or routers
• Intranet—An internet used by single organization—Provides key Internet applications (World Wide Web)—Operates within organization for internal purposes—Can exist as isolated, self-contained internet—May have links to the Internet
• Subnetwork— Refers to a constituent network of an internet.
This avoids ambiguity because the entire internet, from a user's point of view, is a single network
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Internetworking Terminology (2)• End System (ES)
— Device attached to one of the networks of an internet— Supports end-user applications or services
• Intermediate System (IS)— Device used to connect two networks— Permits communication between ES attached to different networks
• Bridge— IS used to connect two LANs that use similar protocols— Address filter— Does not modify packets— Layer 2 of the OSI model
• Router— IS used to connect two networks that may or may not be similar— Uses an internet protocol present in each router and each end
system of the network— Layer 3 of the OSI model
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Required Reading• Stallings chapter 2• Comer,D. Internetworking with TCP/IP
volume I• Comer,D. and Stevens,D. Internetworking
with TCP/IP volume II and volume III, Prentice Hall
• Halsall, F. Data Communications, Computer Networks and Open Systems, Addison Wesley
• RFCs