Introduction to Networking - Protocols and Models PDF

Summary

This document provides an introduction to networking protocols and models. It details the rules, standards, and structures that are required for successful network communication

Full Transcript

Introduction to Networking
CT043-3-1 & Version VE1

Protocols and Models

Module Code & Module Title Slide Title SLIDE 1
Protocols and Models.
Topic and structure of the Lesson

Topic Title Topic Objective
The Rules Describe the types of rules that are necessary to successfully communicate.

Protocols Explain why protocols are necessary in network communication.

Protocol Suites Explain the purpose of adhering to a protocol suite.

Standards Organizations Explain the role of standards organizations in establishing protocols for network
interoperability.

Reference Models Explain how the TCP/IP model and the OSI model are used to facilitate
standardization in the communication process.

Data Encapsulation Explain how data encapsulation allows data to be transported across the
network.
Data Access Explain how local hosts access local resources on a network.

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Module Code & Module Title Slide Title SLIDE 4
The Rules

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The Rules
Communications Fundamentals
Networks can vary in size and complexity. It is not enough to have a connection,
devices must agree on “how” to communicate.
There are three elements to any communication:
There will be a source (sender).
There will be a destination (receiver).
There will be a channel (media) that provides for the path of communications to
occur.

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The Rules
Communications Protocols
All communications are governed by protocols.

Protocols are the rules that communications will follow.

These rules will vary depending on the protocol.

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The Rules
Rule Establishment
Individuals must use established rules or agreements to govern the conversation.

The first message is difficult to read because it is not formatted properly. The second shows
the message properly formatted

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The Rules
Rule Establishment (Cont.)
Protocols must account for the following requirements:
An identified sender and receiver
Common language and grammar
Speed and timing of delivery
Confirmation or acknowledgment requirements

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The Rules
Network Protocol Requirements
Common computer protocols must be in agreement and include the following
requirements:
Message encoding
Message formatting and encapsulation
Message size
Message timing
Message delivery options

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The Rules
Message Encoding
Encoding is the process of converting information into another acceptable
form for transmission.
Decoding reverses this process to interpret the information.

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The Rules
Message Encoding
Encoding between hosts must be in an appropriate format for the medium.
Messages sent across the network are converted to bits
The bits are encoded into a pattern of light, sound, or electrical impulses.
The destination host must decode the signals to interpret the message.

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The Rules
Message Formatting and Encapsulation
When a message is sent, it must use a specific format or structure.

Message formats depend on the type of message and the channel that is used to
deliver the message.

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The Rules
Message Size
when a long message is sent from one host to another over a network, it is
necessary to break the message into smaller pieces (packets).

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The Rules
Message Timing
Message timing includes the following:
Flow Control – Manages the rate of data transmission and defines how much information
can be sent and the speed at which it can be delivered.

Response Timeout – Manages how long a device waits when it does not hear a reply
from the destination.
Access method - Determines when someone can send a message.
There may be various rules governing issues like “collisions”. This is when more than
one device sends traffic at the same time and the messages become corrupt.
Some protocols are proactive and attempt to prevent collisions; other protocols are
reactive and establish a recovery method after the collision occurs.

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The Rules
Message Delivery Options
Message delivery may one of the following methods:
Unicast – one to one communication
Multicast – one to many, typically not all
Broadcast – one to all

Note: Broadcasts are used in IPv4 networks, but are not an option for IPv6. Later we will also
see “Anycast” as an additional delivery option for IPv6.

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The Rules
A Note About the Node Icon
Documents may use the node icon , typically a circle, to represent all devices.

The figure illustrates the use of the node icon for delivery options.

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Protocols

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Protocols
Network Protocol Overview
Network protocols define a
Protocol Type Description
common set of rules.
Can be implemented on
devices in: Network enable two or more devices to communicate
Communications over one or more networks
Software
Hardware Network Security secure data to provide authentication, data
integrity, and data encryption
Both
Protocols have their own: Routing enable routers to exchange route information,
compare path information, and select best path
Function
Format Service used for the automatic detection of devices or
Rules Discovery services

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Protocols
Network Protocol Functions
Devices use agreed-upon
protocols to communicate.
Protocols may have one or more
functions.

Function Description
Addressing Identifies sender and receiver
Reliability Provides guaranteed delivery
Flow Control Ensures data flows at an efficient rate
Sequencing Uniquely labels each transmitted segment of data
Error Detection Determines if data became corrupted during transmission
Application Interface Process-to-process communications between network applications

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Protocols
Protocol Interaction
When we use network, we require the use of
several protocols.
Each protocol has its own function and
format.
Protocol Function
Hypertext Transfer ▪ Governs the way a web server and a web client interact
Protocol (HTTP) ▪ Defines content and format
Transmission Control ▪ Manages the individual conversations
Protocol (TCP) ▪ Provides guaranteed delivery
▪ Manages flow control
Internet Protocol (IP) Delivers messages globally from the sender to the receiver
Ethernet Delivers messages from one NIC to another NIC on the same Ethernet
Local Area Network (LAN)
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Protocol Suites

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Protocol Suites
Network Protocol Suites
Protocols must be able to work with other
protocols.
Protocol suite:
A group of inter-related protocols
necessary to perform a communication
function
Sets of rules that work together to help
solve a problem
The protocols are viewed in terms of layers:
Higher Layers
Lower Layers- concerned with moving
data and provide services to upper layers

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Protocol Suites
Evolution of Protocol Suites
There are several protocol suites.
Internet Protocol Suite or TCP/IP- The
most common protocol suite and maintained
by the Internet Engineering Task Force
(IETF)

Open Systems Interconnection (OSI)
protocols- Developed by the International
Organization for Standardization (ISO) and
the International Telecommunications Union
(ITU)

AppleTalk- Proprietary suite release by
Apple Inc.

Novell NetWare- Proprietary suite
developed by Novell Inc.

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Protocol Suites
TCP/IP Protocol Example
TCP/IP protocols operate at
the application, transport, and
internet layers.
The most common network
access layer LAN protocols are
Ethernet and WLAN (wireless
LAN).

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Protocol Suites
TCP/IP Protocol Suite
TCP/IP is the protocol suite used
by the internet and includes many
protocols.

TCP/IP is:

An open standard protocol suite
that is freely available to the
public and can be used by any
vendor
A standards-based protocol suite
that is endorsed by the networking
industry and approved by a
standards organization to ensure
interoperability

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Protocol Suites
TCP/IP Communication Process
A web server encapsulating and sending A client de-encapsulating the web page
a web page to a client. for the web browser

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Standards Organizations

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Standards Organizations
Open Standards
Open standards encourage:
interoperability

competition

innovation

Standards organizations are:
vendor-neutral

non-profit organizations

established to develop and promote the
concept of open standards.

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Standards Organizations
Internet Society (ISOC) - Promotes
Internet Standards the open development and evolution of
internet
Internet Architecture Board (IAB) -
Responsible for management and
development of internet standards
Internet Engineering Task Force
(IETF) - Develops, updates, and
maintains internet and TCP/IP
technologies
Internet Research Task Force
(IRTF) - Focused on long-term
research related to internet and
TCP/IP protocols
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Standards Organizations
Internet Standards (Cont.)
Standards organizations involved with the
development and support of TCP/IP
Internet Corporation for Assigned
Names and Numbers (ICANN) -
Coordinates IP address allocation, the
management of domain names, and
assignment of other information
Internet Assigned Numbers Authority
(IANA) - Oversees and manages IP
address allocation, domain name
management, and protocol identifiers
for ICANN

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Standards Organizations
Electronic and Communications Standards
Institute of Electrical and Electronics Engineers (IEEE, pronounced “I-triple-E”)
- dedicated to creating standards in power and energy, healthcare,
telecommunications, and networking
Electronic Industries Alliance (EIA) - develops standards relating to electrical
wiring, connectors, and the 19-inch racks used to mount networking equipment
Telecommunications Industry Association (TIA) - develops communication
standards in radio equipment, cellular towers, Voice over IP (VoIP) devices,
satellite communications, and more
International Telecommunications Union-Telecommunication
Standardization Sector (ITU-T) - defines standards for video compression,
Internet Protocol Television (IPTV), and broadband communications, such as a
digital subscriber line (DSL)
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Reference Models

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Reference Models
The Benefits of Using a Layered Model
Complex concepts such as how a
network operates can be difficult to
explain and understand. For this
reason, a layered model is used.
Two layered models describe network
operations:
Open System Interconnection
(OSI) Reference Model
TCP/IP Reference Model

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Reference Models
The Benefits of Using a Layered Model (Cont.)
These are the benefits of using a layered model:
Assist in protocol design because protocols that operate at a specific layer have
defined information that they act upon and a defined interface to the layers above
and below
Foster competition because products from different vendors can work together

Prevent technology or capability changes in one layer from affecting other
layers above and below
Provide a common language to describe networking functions and capabilities

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Reference Models
The OSI Reference Model

OSI Model Layer Description

7 - Application Contains protocols used for process-to-process communications.
Provides for common representation of the data transferred between
6 - Presentation
application layer services.

5 - Session Provides services to the presentation layer and to manage data exchange.

Defines services to segment, transfer, and reassemble the data for individual
4 - Transport
communications.
Provides services to exchange the individual pieces of data over the
3 - Network
network.

2 - Data Link Describes methods for exchanging data frames over a common media.

Describes the means to activate, maintain, and de-activate physical
1 - Physical
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Reference Models
The TCP/IP Reference Model
TCP/IP Model
Description
Layer
Application Represents data to the user, plus encoding and dialog control.

Transport Supports communication between various devices across diverse networks.

Internet Determines the best path through the network.

Network Access Controls the hardware devices and media that make up the network.

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Reference Models
OSI and TCP/IP Model Comparison

The OSI model divides the network
access layer and the application
layer of the TCP/IP model into
multiple layers.
The TCP/IP protocol suite does not
specify which protocols to use when
transmitting over a physical medium.
OSI Layers 1 and 2 discuss the
necessary procedures to access the
media and the physical means to
send data over a network.

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Data Encapsulation

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Data Encapsulation
Segmenting Messages Segmenting is the process of breaking up
messages into smaller units.
Multiplexing is the processes of taking
multiple streams of segmented data and
interleaving them together.
Segmenting messages has two primary
benefits:
Increases speed - Large amounts of
data can be sent over the network
without tying up a communications
link.
Increases efficiency - Only segments
which fail to reach the destination need
to be retransmitted, not the entire data
stream.
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Data Encapsulation
Sequencing

Sequencing messages is the process of
numbering the segments so that the
message may be reassembled at the
destination.
TCP is responsible for sequencing the
individual segments.

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Data Encapsulation Encapsulation is the process where protocols
Protocol Data Units (PDU) add their information to the data.
At each stage of the process, a PDU has a
different name to reflect its new functions.
There is no universal naming convention for
PDUs, in this course, the PDUs are named
according to the protocols of the TCP/IP
suite.
PDUs passing down the stack are as
follows:
1. Data (Data Stream)
2. Segment
3. Packet
4. Frame
5. Bits (Bit Stream)
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Data Encapsulation
Encapsulation Example
Encapsulation is a top down
process.
The level above does its
process and then passes it
down to the next level of
the model. This process is
repeated by each layer until
it is sent out as a bit stream.

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Data Encapsulation
De-encapsulation Example
Data is de-encapsulated as it moves
up the stack.
When a layer completes its process,
that layer strips off its header and
passes it up to the next level to be
processed. This is repeated at each
layer until it is a data stream that the
application can process.
1. Received as Bits (Bit Stream)
2. Frame
3. Packet
4. Segment
5. Data (Data Stream)
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Data Access

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Data Access
Addresses
Both the data link and network layers use addressing to deliver data from source to
destination.
Network layer source and destination addresses - Responsible for delivering the IP
packet from original source to the final destination.
Data link layer source and destination addresses – Responsible for delivering the data
link frame from one network interface card (NIC) to another NIC on the same network.

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Data Access
Layer 3 Logical Address

The IP packet contains two IP
addresses:
Source IP address - The IP
address of the sending device,
original source of the packet.
Destination IP address - The IP
address of the receiving device,
final destination of the packet.
These addresses may be on the same
link or remote.

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Data Access
Layer 3 Logical Address (Cont.)
An IP address contains two parts:
Network portion (IPv4) or Prefix (IPv6)
The left-most part of the address indicates
the network group which the IP address is
a member.
Each LAN or WAN will have the same
network portion.
Host portion (IPv4) or Interface ID
(IPv6)
The remaining part of the address identifies
a specific device within the group.
This portion is unique for each device on
the network.
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Data Access
Devices on the Same Network

When devices are on the same
network the source and destination will
have the same number in network
portion of the address.
PC1 – 192.168.1.110
FTP Server – 192.168.1.9

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Data Access
Devices on a Remote Network
What happens when the actual
(ultimate) destination is not on the
same LAN and is remote?
What happens when PC1 tries to
reach the Web Server?
Does this impact the network and data
link layers?

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Data Access
Role of the Network Layer Addresses
When the source and destination have
a different network portion, this
means they are on different
networks.
PC1 – 192.168.1
Web Server – 172.16.1

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Data Access
Role of the Data Link Layer Addresses: Different IP Networks
When the final destination is remote, Layer 3
will provide Layer 2 with the local default
gateway IP address, also known as the
router address.
The default gateway (DGW) is the
router interface IP address that is part of
this LAN and will be the “door” or
“gateway” to all other remote locations.
All devices on the LAN must be told about
this address or their traffic will be confined
to the LAN only.

Once Layer 2 on PC1 forwards to the
default gateway (Router), the router then
can start the routing process of getting
the information to actual destination.
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▪ https://www.youtube.com/watch?v=xaKvGnnuYmk

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Summary

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 Summary / Recap of Main Points

Module Code & Module Title Slide Title SLIDE 55
 Q&A

Module Code & Module Title Slide Title SLIDE 56
 What To Expect Next Week

In Class
Application Layer

Module Code & Module Title Slide Title SLIDE 57