the osi model and the tcp/ip protocol suitespecilistofficerit.yolasite.com/resources/networking...
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The OSI
Model and the
TCP/IP
Protocol Suite
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To discuss the idea of multiple layering in data communication
and networking and the interrelationship between layers.
To discuss the OSI model and its layer architecture and to show
the interface between the layers.
To briefly discuss the functions of each layer in the OSI model.
To introduce the TCP/IP protocol suite and compare its layers
with the ones in the OSI model.
To show the functionality of each layer in the TCP/IP protocol
with some examples.
To discuss the addressing mechanism used in some layers of the
TCP/IP protocol suite for the delivery of a message from the
source to the destination.
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Example
Assume Maria and Ann are neighbors with a lot of common ideas.
However, Maria speaks only Spanish, and Ann speaks only English.
Since both have learned the sign language in their childhood, they enjoy
meeting in a cafe a couple of days per week and exchange their ideas
using signs. Occasionally, they also use a bilingual dictionary.
Communication is face to face and Happens in one layer as shown in
Fig.
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Example
Now assume that Ann has to move to another town because of her job. Before she
moves, the two meet for the last time in the same cafe. Although both are sad, Maria
surprises Ann when she opens a packet that contains two small machines. The first
machine can scan and transform a letter in English to a secret code or vice versa. The
other machine can scan and translate a letter in Spanish to the same secret code or vice
versa. Ann takes the first machine; Maria keeps the second one. The two friends can still
communicate using the secret code, as shown in Fig.
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THE OSI MODEL
Established in 1947, the International Standards Organization (ISO) is a multinational body dedicated
to worldwide agreement on international standards.
Almost three-fourths of countries in the world are
represented in the ISO. An ISO standard that covers
all aspects of network communications is the Open Systems Interconnection (OSI) model. It was first
introduced in the late 1970s.
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Topics Discussed in the Section
Layered Architecture
Layer-to-layer Communication
Encapsulation
Layers in the OSI Model
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ISO is the organization;
OSI is the model.
Note
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The OSI model
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OSI layers
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An exchange using the OSI model
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The physical layer is responsible for
moving individual bits from one
(node) to the next.
Note
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Summary of OSI Layers
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A private internet
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Communication at the physical layer
A
Physicallayer
Physicallayer
R1 R3 R4 B
Source DestinationLegend
011 ... 101
011...
101011 ... 101 011 ... 101
Link 3 Link 5 Link 6Link 1
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The unit of communication at the
physical layer is a bit.
Note
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Communication at the data link layer
A
Physical Physical
Data linkData link
R1 R3 R4 B
Source Destination DataD HeaderHLegend
Link 1 Link 3 Link 5 Link 6
FrameD2 H2
Fram
eD
2H
2
Frame
D2 H2Frame
D2 H2
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The unit of communication at the data
link layer is a frame.
Note
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Communication at the network layer
A
Physical Physical
Data linkData link
R1 R3 R4 B
NetworkNetwork
Source Destination DataD HeaderHLegend
Datagram
D3 H3
Datagram
D3 H3
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The unit of communication at the
network layer is a datagram.
Note
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Communication at transport layer
A
Physical Physical
Data linkData link
R1 R3 R4
B
NetworkNetwork
Transport Transport
Source Destination DataD HeaderHLegend
Segment
D4 H4
Segment
D4 H4
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The unit of communication at the
transport layer is a segment, user
datagram, or a packet, depending on the
specific protocol used in this layer.
Note
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Communication at application layer
A
Physical Physical
Data linkData link
R1 R3 R4
B
NetworkNetwork
Transport Transport
ApplicationApplication Source Destination DataD HeaderHLegend
Message
D5 D5
D5 D5
Message
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The unit of communication at the
application layer is a message.
Note
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McGraw-Hill ©The McGraw-Hill Companies, Inc., 2000
• Responsible for movement of data from one node to another node.
• Concerned with •Physical Characteristics of the medium
•Representation of bits- Electrical, Electromagnetic, Optical
•Data rate
•Line Configuration
•Synchronization
•Physical Topology
•Transmission Mode- Simplex, Duplex, Half Duplex
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Physical Layer
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Responsible for moving frames from one node to the other- Next hop delivery
Framing- divides the data from N/W layer into frames
Physical Addressing- Sender and Rx if the Rx is within the N/W, otherwise next hop addressing.
Data Flow Control on the sender
Error detection/control with the use of trailer
Access control- in case of Multi Link system
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Data Link Layer
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Source to Destination Delivery of Packets
Not required in peer-to-peer delivery
Adds Logical addresses of sender and Rx.
Routing for internetwork communication.
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Network Layer
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A
10 85
B
Medium
95 77 Medium
P M
T2 DATA A P 10 20
T2 DATA A P 99 33
T2 DATA A P 66 95
RING
R 99
66 R
20
F
33
N
45
G
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Process to Process Delivery of message b/w Tx & Rx
Create connection b/w two end ports for sake of security.
Service Point or Port Addressing – Yahoo Messenger
Segmentation and Reassembly- Divide the message received from Session layer in to Segments and number them to make a sequence for reassembly at the receiving side
Flow Control End to End rather than across a link.
Controls duplication of message
Connection Control
◦ Connection Oriented Transport Layer, like Telephone
◦ Connectionless Transport Layer, like E-Mail
Error Control End to End rather than across a link.
Sending transport layer makes ensure that the entire message arrives at the receiving transport layer without error.
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A P
DATA J K
DATA 2 J
INTERNET
k P A
DATA 1 J k P A
DATA 2 J k P A
DATA 1 J k P A
T2
T2
H2
H2
DATA J K
DATA 1 J k P A
DATA 2 J k P A
DATA 1 J k P A
DATA 2 J k P A
T2
T2
H2
H2
TL
NL
DLL
TL
NL
DLL
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Network dialog controller. Establishes, maintains and Synchronizes interaction b/w comm. systems
Dialog Controlling – Half Duplex or Full Duplex
Synchronization – Allows a process to add checkpoints to a stream of data
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L6 Data
Session Layer
H5
L5 Data
Syn
L6 Data
Session Layer
H5
L5 Data
Syn
From PL To PL
To TL From TL
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Concerned with Syntax and Semantics of the information exchanged b/w the two communication systems
Translation – Encoding and Decoding ◦ Sender to Common format on Sending side
◦ Common to Receiving format on Rx side
Encryption – for security and privacy purpose
Compression – reducing the number of bits to sent over network.
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L7 Data
Presentation Layer
Encoded, Encrypted and compress Data H6
L6 Data
L7 Data
L6 Data
Syn
From AL To AL
To SL From SL
Presentation Layer
Decoded, Decrypted and Decompress Data H6
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Provides User interfaces and support for Services, like e-mail, file transfer.
Network Virtual terminal
File Transfer Access, and Management(FATM)
Mail Services
Directory Services
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Application Layer
User A
L7 Data
X.500 FATM X.400
Application Layer
L7 Data
X.500 FATM X.400
User B
To PL From PL
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2-4 ADDRESSING
Four levels of addresses are used in an internet
employing the TCP/IP protocols: physical address,
logical address, port address, and application-
specific address. Each address is related to a one
layer in the TCP/IP architecture, as shown in Figure
2.15.
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Topics Discussed in the Section
Physical Addresses
Logical Addresses
Port Addresses
Application-Specific Addresses
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Figure 2.15 Addresses in the TCP/IP protocol suite
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In Figure 2.16 a node with physical address 10 sends a frame to a
node with physical address 87. The two nodes are connected by a
link (a LAN). At the data link layer, this frame contains physical (link)
addresses in the header. These are the only addresses needed. The
rest of the header contains other information needed at this level. As
the figure shows, the computer with physical address 10 is the
sender, and the computer with physical address 87 is the receiver.
The data link layer at the sender receives data from an upper layer. It
encapsulates the data in a frame. The frame is propagated through
the LAN. Each station with a physical address other than 87 drops the
frame because the destination address in the frame does not match
its own physical address. The intended destination computer,
however, finds a match between the destination address in the frame
and its own physical address.
Example 2.3
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Figure 2.16 Example 2.3: physical addresses
Data87 101 packet
acceptedData87 10
4
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As we will see in Chapter 3, most local area networks use a 48-
bit (6-byte) physical address written as 12 hexadecimal digits;
every byte (2 hexadecimal digits) is separated by a colon, as
shown below:
Example 2.4
07:01:02:01:2C:4B
A 6-byte (12 hexadecimal digits) physical address
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Figure 2.17 shows a part of an internet with two routers connecting
three LANs. Each device (computer or router) has a pair of addresses
(logical and physical) for each connection. In this case, each
computer is connected to only one link and therefore has only one
pair of addresses. Each router, however, is connected to three
networks. So each router has three pairs of addresses, one for each
connection. Although it may be obvious that each router must have a
separate physical address for each connection, it may not be obvious
why it needs a logical address for each connection. We discuss these
issues in Chapters 11 and 12 when we discuss routing. The computer
with logical address A and physical address 10 needs to send a
packet to the computer with logical address P and physical address
95. We use letters to show the logical addresses and numbers for
physical addresses, but note that both are actually numbers, as we
will see in later chapters.
Example 2.5
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Figure 2.17 Example 2.5: logical addresses
DataA P20 10 DataA P20 10
Physicaladdresseschanged
DataA P33 99
DataA P33 99
Physicaladdresseschanged
DataA P95 66DataA P95 66
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The physical addresses will change from
hop to hop, but the logical addresses
remain the same.
Note
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Figure 2.18 shows two computers communicating via the
Internet. The sending computer is running three processes at
this time with port addresses a, b, and c. The receiving
computer is running two processes at this time with port
addresses j and k. Process a in the sending computer needs to
communicate with process j in the receiving computer. Note that
although both computers are using the same application, FTP,
for example, the port addresses are different because one is a
client program and the other is a server program, as we will see
in Chapter 17.
Example 2.6
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A Sender Receiver P
Internet
Figure 2.18 Example 2.6: port numbers
a DatajA PH2
a DatajA P
a Dataj
Data
a DatajA PH2
a DatajA P
a Dataj
Data
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The physical addresses change from
hop to hop, but the logical and port
addresses usually remain the same.
Note
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As we will see in future chapters, a port address is a 16-bit
address represented by one decimal number as shown.
Example 2.7
753
A 16-bit port address represented as one single number