1 itc242 – introduction to data communications tcp/ip and osi
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ITC242 – Introduction to Data Communications
TCP/IP and OSI
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“Study algorithm for this unit”• Make up the background knowledge for this unit.• The subsequent chapter is related logically to the previous chapters.------- This means that you must
make up them if you miss one or more.• You cannot fully understand the contents being covered by only attending the class !• The content I am lecturing in the classes is harder than that of the text• Different learning outcomes, depending on the degree for which you are studying• The exam is relatively easier than…..
Before coming to my classes(1) Read the corresponding chapter(s) to be covered(2) Read my PowerPoint slides published on the course website (3) Write down the questions you haveIf you have not done the above, then ……
During my classesConcentrate on listening and thinking rather than talking !Concentrate on understanding rather than writing ! ( make notes)
After my classes
Read the text and the slides again !If you still have questions, then go to my officeIf you still have questions, then read the reference book(s)If you still have questions, then consider withdrawing from this unit
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Last Week
Topic 3 – Distributed Data Processing• Describe the differences between centralised
and distributed data processing• Describe different types of distributed data
processing for applications and distributed databases
• Describe the implications for data comms of distributed data processing
• Understand the motivation towards client server architectures
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Last Week
Topic 4 – The Internet
• Discuss the history of the Internet and explain it’s explosive growth
• Describe the overall Internet architecture including key components
• Explain the components and operation of the Domain Name System
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Topic 5 – TCP/IP and OSI
Learning objectives
• Describe the definition of a protocol;
• Discuss the need and benefits of using protocol architectures;
• Describe the TCP/IP protocol architecture
• Describe the OSI reference model.
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What’s a protocol?human protocols:• “what’s the time?”• “I have a question”• introductions
… specific msgs sent
… specific actions taken when msgs received, or other events
network protocols:• machines rather than
humans• all communication activity
in Internet governed by protocols
protocols define format, order of msgs sent and received among network entities, and actions taken on msg transmission, receipt
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What’s a protocol?a human protocol and a computer network protocol:
Hi
Hi
Got thetime?
2:00
TCP connection request
TCP connectionresponseGet http://www.awl.com/kurose-ross
<file>time
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Protocol Architecture – Modular Approach
• Breaks complex tasks into subtasks
• Each module handles specific subset of tasks
• Communication occurs– between different modules on the same
system– between similar modules on different systems
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Advantages of Modularity
• Easier application development
• Network can change without all programs being modified
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Organization of air travel
• a series of steps
ticket (purchase)
baggage (check)
gates (load)
runway takeoff
airplane routing
ticket (complain)
baggage (claim)
gates (unload)
runway landing
airplane routing
airplane routing
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ticket (purchase)
baggage (check)
gates (load)
runway (takeoff)
airplane routing
departureairport
arrivalairport
intermediate air-trafficcontrol centers
airplane routing airplane routing
ticket (complain)
baggage (claim
gates (unload)
runway (land)
airplane routing
ticket
baggage
gate
takeoff/landing
airplane routing
Layering of airline functionality
Layers: each layer implements a service– via its own internal-layer actions– relying on services provided by layer below
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Three-Layer Model
• Distributed data communications involves three primary components:– Networks– Computers– Applications
• Three corresponding layers– Network access layer– Transport layer– Application layer
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Network Access Layer
• Concerned with exchange of data between computer and network
• Includes addressing, routing, prioritizing, etc
• Different networks require different software at this layer
• Example: X.25 standard for network access procedures on packet-switching networks
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Transport Layer
• Concerned with reliable transfer of information between applications
• Independent of the nature of the application
• Includes aspects like flow control and error checking
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Application Layer
• Logic needed to support various applications
• Each type of application (file transfer, remote access) requires different software on this layer
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Addressing
• Each computer on a network requires a unique address on that network
• Each application requires a unique address within the computer to allow support for multiple applications (service access points, or SAP)
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Data Transmission
• Application layer creates data block• Transport layer appends header to create PDU
(protocol data unit)– Destination SAP, Sequence #, Error-Detection Code
• Network layer appends another header– Destination computer, facilities (e.g. “priority”)
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Simplified Architecture
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Protocol Architecture Operation
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Standardised Protocol Architectures
• Vendors like standards because they make their products more marketable
• Customers like standards because they enable products from different vendors to interoperate
• Two protocol standards are well-known:– TCP/IP: widely implemented– OSI: less used, but widely known and still useful for
modeling/conceptualizing
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TCP/IP
• Transmission Control Protocol/Internet Protocol
• Developed by DARPA• No official protocol
model
• Identified by 5 Layers– Application– Host-to-Host
(transport)– Internet (Network)– Network Access (link)– Physical
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linkphysical
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networklink
physical
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HtHnHl M
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router
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Encapsulationmessage M
Ht M
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frame
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TCP/IP Physical Layer
• Physical interface between a DTE (e.g. computer or terminal) and a transmission medium
• Specifies:– Characteristics of medium– Nature of signals– Data rate
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TCP/IP Network Access (link)
• Exchange of data between systems on a shared network
• Utilizes address of host and destination• Can also prioritize transmission• Software at this layer depends on network
(e.g. X.25 vs. Ethernet)
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TCP/IP Internet Layer
• An Internet is an interconnection of two or more networks
• Internet layer handles tasks similar to network access layer, but between networks rather than between nodes on a network
• Uses IP for addressing and routing across networks
• Implemented in workstations and routers
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TCP/IP Transport Layer
• Also called host-to-host layer
• Reliable exchange of data between applications
• Uses TCP protocols for transmission
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TCP/IP Application Layer
• Logic needed to support variety of applications
• Separate module supports each type of application (e.g. file transfer)
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TCP & UDP
• Most TCP/IP applications use TCP for transport layer
• TCP provides a connection (logical association) between two entities to regulate flow check errors
• UDP (User Datagram Protocol) does not maintain a connection, and therefore does not guarantee delivery, preserve sequences, or protect against duplication
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TCP service
• Reliable, in-order byte-stream data transfer– loss: acknowledgements and retransmissions
• Flow control: – sender won’t overwhelm receiver
• Congestion control: – senders “slow down sending rate” when
network congested
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UDP
Goal: data transfer between end systems– same as TCP
• UDP - User Datagram Protocol : – connectionless – unreliable data
transfer– no flow control– no congestion control
App’s using TCP: • HTTP (Web), FTP
(file transfer), Telnet (remote login), SMTP (email)
App’s using UDP:• streaming media,
teleconferencing, DNS, Internet telephony
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IP and IPv6
• IP provides for 32-bit source and destination addresses
• IPv6 (1996 standard) provides for 128-bit addresses
• Migration to IPv6 will be a very slow process
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TCP/IP Applications
• SMTP (Simple Mail Transfer Protocol)– Basic e-mail facility, transferring messages among
hosts
• FTP (File Transfer Protocol)– Sends files from one system to another on user
command
• Telnet– Remote login capability, allowing a user to emulate a
terminal on the remote system
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Internetworking
• Interconnected networks, usually implies TCP/IP
• Can appear to users as a single large network
• The global Internet is the largest example, but intranets and extranets are also examples
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Origins of the OSI reference model
• The early development of LANs, MANs, and WANs was chaotic in many ways. The early 1980s saw tremendous increases in the number and sizes of networks.
• As companies realized that they could save money and gain productivity by using networking technology, they added networks and expanded existing networks as rapidly as new network technologies and products were introduced.
• By the middle of the 1980s, companies began to experience difficulties from all the expansions they had made. It became more difficult for networks using different specifications and implementations to communicate with each other.
To address the problem of networks being incompatible and unable to communicate with each other, the International Organization for Standardization (ISO) researched different network schemes.
As a result of this research, the ISO created a model that would help vendors create networks that would be compatible with, and operate with, other networks.
• the OSI reference model describes how data travels from application programs (for example, spreadsheets), through a network medium, to an application program located in another computer, even if the sender and receiver are connected using different network media.
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OSI
• Open Systems Interconnection
• Developed by ISO
• Contains seven layers
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OSI Lower Layers
• Physical
• Data Link
• Network
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OSI Physical Layer
• Responsible for transmission of bits--binary transmission • Always implemented through hardware• This layer outlines the functional, procedural, electrical,
and mechanical specifications for controlling physical links. The specifications relate to the activation, maintenance, and deactivation of physical links. It also controls the transmitting of data onto physical media.
• e.g. RS-232
• A “hub” operates at this layer
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OSI Data Link Layer• The data-link layer arranges bits from the physical layer into logical
chunks of data, known as frames. A frame is a contiguous series of data with a common function. Framing enables the network to organize bits into a logical data format and send them to the correct computer.
• This layer controls how data is formatted and how transmission on the network is controlled
• Responsible for error-free, reliable transmission of data• Flow control, error correction• Controls access to the medium
• e.g. HDLC, ethernet
• A “switch” operates at this layer
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OSI Network Layer
• Responsible for routing of messages through network• ensures data delivery by providing connectivity and path
selection between two host systems. • selects the most appropriate path for sending data, and
routes data packets • Concerned with type of switching used (circuit v. packet)• Handles routing between networks, as well as through
packet-switching networks• provides logical LAN-to-LAN communications by
supporting the routing of data between different networks • IP protocol and IP addressing at this layer
• A “router” operates at this layer
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OSI Upper Layers
• Transport
• Session
• Presentation
• Application
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OSI Transport Layer
• Aids point-to-point communications • Isolates messages from lower and upper layers• Provides reliability in the transportation of data between
hosts and ensures complete data transfer. The transport layer uses error detection and recovery information flow control to establish, maintain, and terminate all virtual circuits.
• Breaks down message size• Monitors quality of communications channel• Selects most efficient communication service necessary
for a given transmission
• TCP/UDP operate at this layer
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OSI Session Layer
• Establishes logical connections between hosts:connection establishment, data transfer, and connection release
• Manages log-ons, password exchange, log-offs
• Terminates connection at end of session
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OSI Presentation Layer
• manages data representation • transforms data into a mutually agreed format
that each application can understand • Provides format and code conversion services• Examples
– File conversion from ASCII to EBDIC(Extended Binary-Coded Decimal Interchange Code )
– Encryption and compression– Invoking character sequences to generate bold,
italics, etc on a printer
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OSI Application Layer
• Provides access to network for end-user
• User’s capabilities are determined by what items are available on this layer
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Layering: The OSI Model
Session
Network
Link
PhysicalPhysicalPhysical
Application
Presentation
Transport
Network
Link Link
Network
Transport
Session
Presentation
Application
Network
Link
Physical
Peer-layer communication
layer-to-layer communication
Router Router
1
2
3
4
5
6
7
1
2
3
4
5
6
7
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Network
Link
Transport
Application
Presentation
Session
Transport
Network
Link
Physical
The 7-layer OSI Model The 4-layer Internet model
ApplicationFTP
ASCII/Binary
IP
TCP
Ethernet
TCP/IP - OSI Comparison
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Example: FTP over the Internet Using TCP/IP and Ethernet
App
OS
R2R2 R3R3
R4R4
R1R1 R5R5
Ethernet
“A” Stanford “B” (MIT)
Ethernet
App
OS
1
234
67
20
191817
5
910
81213
11 1516
14
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In the sending host1. Application-Programming Interface (API)
– Application requests TCP connection with “B”
2. Transmission Control Protocol (TCP)– Creates TCP “Connection setup” packet– TCP requests IP packet to be sent to “B”
TCPData
TCPHeader
TCP Packet
Type = Connection Setup
Empty
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In the sending host (2)
3. Internet Protocol (IP)– Creates IP packet with correct addresses.– IP requests packet to be sent to router.
IPData
TCP Packet
Encapsulation
IPHeader
IP Packet
Destination Address: IP “B”Source Address: IP “A”Protocol = TCP
TCPData
TCPHeader
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In the sending host (3)4. Link (“MAC” or Ethernet) Protocol
– Creates MAC frame with Frame Check Sequence (FCS). – Wait for Access to the line.– MAC requests PHY to send each bit of the frame.
EthernetData
IP Packet
EthernetFCS
EthernetHeader
Ethernet Packet
Destination Address: MAC “R1”Source Address: MAC “A”Protocol = IP
IPData
IPHeader
Encapsulation
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In Router R15. Link (“MAC” or Ethernet) Protocol
– Accept MAC frame, check address and Frame Check Sequence (FCS).
– Pass data to IP Protocol.
EthernetData
IP Packet
EthernetFCS
EthernetHeader
Ethernet Packet
Destination Address: MAC “R1”Source Address: MAC “A”Protocol = IP
IPData
IPHeader
Decapsulation
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In Router R16. Internet Protocol (IP)
– Use IP destination address to decide where to send packet next (“next-hop routing”).
– Request Link Protocol to transmit packet.
IPData
IPHeader
IP Packet
Destination Address: IP “B”Source Address: IP “A”Protocol = TCP
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In Router R17. Link (“MAC” or Ethernet) Protocol
– Creates MAC frame with Frame Check Sequence (FCS). – Wait for Access to the line.– MAC requests PHY to send each bit of the frame.
EthernetData
IP Packet
EthernetFCS
EthernetHeader
Ethernet Packet
Destination Address: MAC “R2”Source Address: MAC “R1”Protocol = IP
IPData
IPHeader
Encapsulation
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In Router R516. Link (“MAC” or Ethernet) Protocol
– Creates MAC frame with Frame Check Sequence (FCS). – Wait for Access to the line.– MAC requests PHY to send each bit of the frame.
EthernetData
IP Packet
EthernetFCS
EthernetHeader
Ethernet Packet
Destination Address: MAC “B”Source Address: MAC “R5”Protocol = IP
IPData
IPHeader
Encapsulation
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In the receiving host17. Link (“MAC” or Ethernet) Protocol
– Accept MAC frame, check address and Frame Check Sequence (FCS).
– Pass data to IP Protocol.
EthernetData
IP Packet
EthernetFCS
EthernetHeader
Ethernet Packet
Destination Address: MAC “B”Source Address: MAC “R5”Protocol = IP
IPData
IPHeader
Decapsulation
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In the receiving host (2)18. Internet Protocol (IP)
– Verify IP address.– Extract/decapsulate TCP packet from IP packet.– Pass TCP packet to TCP Protocol.
IPData
TCP Packet
Decapsulation
IPHeader
IP Packet
Destination Address: IP “B”Source Address: IP “A”Protocol = TCP
TCPData
TCPHeader
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In the receiving host (3)
19. Transmission Control Protocol (TCP)– Accepts TCP “Connection setup” packet– Establishes connection by sending “Ack”.
20. Application-Programming Interface (API)– Application receives request for TCP
connection with “A”.
TCPData
TCPHeader
TCP Packet
Type = Connection Setup
Empty
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Topic 5 Summary
• Looked at what a protocol is
• Discuss the need for and benefits of using protocol architectures;
• Describe the TCP/IP protocol architecture
• Describe the OSI reference model.