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Module 1: Networking Today
Introduction to Networks v7.0
(ITN)
Module Objectives
Module Title: Networking Today

Module Objective: Explain the advances in modern technologies.

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1.1 Networks Affect Our
Lives

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Networking Today
Networks Connect Us

Communication is almost as important to us as our reliance on air, water, food, and
shelter.

In today‟s world, through the use of networks, we are connected like never before.

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Networking Today
Video – The Cisco Networking Academy Learning Experience
Cisco Networking Academy: learn how we use technology to make the world a better place.

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Networking Today
No Boundaries
World without boundaries

Global communities

Human network

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1.2 Network Components

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Network Components
Host Roles
Every computer on a network is
called a host or end device.
Servers are computers that
provide information to end devices:
email servers
web servers Server Description
Type
file server
Email Email server runs email server software.
Clients are computers that send Clients use client software to access email.
requests to the servers to retrieve
Web Web server runs web server software.
information: Clients use browser software to access web pages.
web page from a web server
email from an email server File File server stores corporate and user files.
The client devices access these files.
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Network Components
Peer-to-Peer
It is possible to have a device be a client and a server in a Peer-to-Peer Network. This type of
network design is only recommended for very small networks.

Advantages Disadvantages
Easy to set up No centralized administration
Less complex Not as secure
Lower cost Not scalable

Used for simple tasks: transferring files and sharing Slower performance
printers
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Network Components
End Devices
An end device is where a message originates from or where it is received. Data originates with an
end device, flows through the network, and arrives at an end device.

Example: PCs, VoIP phones, printers, servers, laptops, wireless tablets, telePresence endpoint.

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Network Components
Intermediary Network Devices
An intermediary device interconnects end devices. Examples include switches, wireless
access points, routers, and firewalls.

Management of data as it flows through a network is also the role of an intermediary
device, including:
Regenerate and retransmit data signals.
Maintain information about what pathways exist in the network.
Notify other devices of errors and communication failures.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 11
Network Components
Network Media
Communication across a network is carried through a medium which allows a message to
travel from source to destination.

Media Types Description

Metal wires within cables Uses electrical impulses

Glass or plastic fibers Uses pulses of light.
within cables (fiber-optic
cable)

Wireless transmission Uses modulation of
specific frequencies of
electromagnetic waves.

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1.3 Network Representations and
Topologies

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Network Representations and Topologies
Network Representations

Network diagrams, often called
topology diagrams, use symbols to
represent devices within the network.
Important terms to know include:
Network Interface Card (NIC)
Physical Port
Interface

Note: Often, the terms port and
interface are used interchangeably

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Network Representations and Topologies
Topology Diagrams
Physical topology diagrams illustrate the Logical topology diagrams illustrate devices,
physical location of intermediary devices ports, and the addressing scheme of the
and cable installation. network.

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1.4 Common Types of Networks

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Common Types of Networks
Networks of Many Sizes
Small Home Networks: connect a few
computers to each other and the Internet
Small Office/Home Office: enables
computer within a home or remote office
to connect to a corporate network
Small Home SOHO Medium to Large Networks: many
locations with hundreds or thousands of
interconnected computers
World Wide Networks: connects
hundreds of millions of computers world-
wide – such as the internet

Medium/Large World Wide
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Common Types of Networks
LANs and WANs
Network infrastructures vary greatly in
terms of:
Size of the area covered
Number of users connected
Number and types of services
available
Area of responsibility

Two most common types of networks:
Local Area Network (LAN)
Wide Area Network (WAN).

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Common Types of Networks
LANs and WANs (cont.)
A LAN is a network infrastructure that spans A WAN is a network infrastructure that spans
a small geographical area. a wide geographical area.

LAN WAN
Interconnect end devices in a limited area. Interconnect LANs over wide geographical areas.
Administered by a single organization or individual. Typically administered by one or more service providers.
Provide high-speed bandwidth to internal devices. Typically provide slower speed links between LANs.

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Common Types of Networks
The Internet
The internet is a worldwide collection of
interconnected LANs and WANs.
LANs are connected to each other using
WANs.
WANs may use copper wires, fiber optic
cables, and wireless transmissions.
The internet is not owned by any individual
or group. The following groups were
developed to help maintain structure on
the internet:
IETF
ICANN
IAB
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Common Types of Networks
Intranets and Extranets

An intranet is a private collection of LANs
and WANs internal to an organization that
is meant to be accessible only to the
organizations members or others with
authorization.
An organization might use an extranet to
provide secure access to their network for
individuals who work for a different
organization that need access to their
data on their network.

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1.5 Internet Connections

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Internet Connections
Internet Access Technologies There are many ways to connect users
and organizations to the internet:
Popular services for home users
and small offices include
broadband cable, broadband digital
subscriber line (DSL), wireless
WANs, and mobile services.
Organizations need faster
connections to support IP phones,
video conferencing and data center
storage.
Business-class interconnections
are usually provided by service
providers (SP) and may include:
business DSL, leased lines, and
Metro Ethernet.
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 23
Internet Connections
Home and Small Office Internet Connections
Connection Description

Cable high bandwidth, always on, internet
offered by cable television service
providers.

DSL high bandwidth, always on, internet
connection that runs over a
telephone line.
Cellular uses a cell phone network to connect
to the internet.

Satellite major benefit to rural areas without
Internet Service Providers.
Dial-up an inexpensive, low bandwidth
telephone option using a modem.

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Internet Connections
Businesses Internet Connections
Corporate business connections may Type of Description
require: Connection
Dedicated These are reserved circuits within
higher bandwidth Leased Line the service provider‟s network that
dedicated connections connect distant offices with private
voice and/or data networking.
managed services
Metro Ethernet This extends LAN access
(Ethernet technology into the WAN.
WAN)
DSL Business DSL is available in
various formats including
Symmetric Digital Subscriber
Lines (SDSL).
Satellite This can provide a connection
when a wired solution is not
available.
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 25
Internet Connections
The Converging Network

Before converged networks, an
organization would have been separately
cabled for telephone, video, and data.
Each of these networks would use
different technologies to carry the signal.
Each of these technologies would use a
different set of rules and standards.

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Internet Connections
The Converging Network (Cont.)
Converged data networks carry
multiple services on one link including:
data
voice
video
Converged networks can deliver data,
voice, and video over the same
network infrastructure.
The network infrastructure uses the
same set of rules and standards.

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Internet Connections
Video – Download and Install Packet Tracer
This video will demonstrate the download and install process of Packet Tracer.

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Internet Connections
Video – Getting Started in Cisco Packet Tracer
This video will cover the following:
Navigate the Packet Tracer interface
Customize the Packet Tracer Interface

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Internet Connections
Packet Tracer – Network Representation
In this Packet tracer you will do the following:
The network model in this activity incorporates many of the technologies that you will
master in your CCNA studies.

Note: It is not important that you understand everything you see and do in this activity.

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1.6 Reliable Networks

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Reliable Network
Network Architecture
Network Architecture refers to the
technologies that support the infrastructure
that moves data across the network.
There are four basic characteristics that the
underlying architectures need to address to
meet user expectations:
Fault Tolerance
Scalability
Quality of Service (QoS)
Security

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Reliable Network
Fault Tolerance
A fault tolerant network limits the impact of
a failure by limiting the number of affected
devices. Multiple paths are required for
fault tolerance.
Reliable networks provide redundancy by
implementing a packet switched network:
Packet switching splits traffic into
packets that are routed over a network.
Each packet could theoretically take a
different path to the destination.
This is not possible with circuit-switched
networks which establish dedicated
circuits.

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Reliable Network
Scalability
A scalable network can expand
quickly and easily to support new
users and applications without
impacting the performance of
services to existing users.

Network designers follow accepted
standards and protocols in order to
make the networks scalable.

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Reliable Network
Quality of Service
Voice and live video transmissions
require higher expectations for those
services being delivered.
Have you ever watched a live video with
constant breaks and pauses? This is
caused when there is a higher demand
for bandwidth than available – and QoS
isn‟t configured.

Quality of Service (QoS) is the primary
mechanism used to ensure reliable
delivery of content for all users.
With a QoS policy in place, the router
can more easily manage the flow of
data and voice traffic.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 35
Reliable Network There are two main types of network
Network Security security that must be addressed:
Network infrastructure security
 Physical security of network devices
 Preventing unauthorized access to the
devices
Information Security
 Protection of the information or data
transmitted over the network
Three goals of network security:
Confidentiality – only intended recipients
can read the data
Integrity – assurance that the data has
not be altered with during transmission
Availability – assurance of timely and
reliable access to data for authorized
users
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1.7 Network Trends

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Network Trends
Recent Trends
The role of the network must adjust
and continually transform in order to
be able to keep up with new
technologies and end user devices as
they constantly come to the market.

Several new networking trends that
effect organizations and consumers:
Bring Your Own Device (BYOD)
Online collaboration
Video communications
Cloud computing

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Network Trends
Bring Your Own Device (BYOD)
Bring Your Own Device allows users to use their own devices
giving them more opportunities and
greater flexibility.

BYOD allows end users to have the
freedom to use personal tools to
access information and communicate
using their:
Laptops
Netbooks
Tablets
Smartphones
E-readers
BYOD means any device, with any
ownership, used anywhere.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 39
Network Trends
Online Collaboration
 Collaborate and work with others
over the network on joint projects.

 Collaboration tools including Cisco
WebEx (shown in the figure) gives
users a way to instantly connect and
interact.

 Collaboration is a very high priority
for businesses and in education.

 Cisco Webex Teams is a
multifunctional collaboration tool.
send instant messages
post images
post videos and links

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Network Trends
Video Communication
Video calls are made to anyone, regardless of where they are located.

Video conferencing is a powerful tool for communicating with others.

Video is becoming a critical requirement for effective collaboration.

Cisco TelePresence powers is one way of working where everyone,
everywhere.

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Network Trends
Video – Cisco WebEx for Huddles

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Network Trends
Cloud Computing
Cloud computing allows us to store personal files or backup our data on servers over the internet.
Applications can also be accessed using the Cloud.
Allows businesses to deliver to any device anywhere in the world.

Cloud computing is made possible by data centers.
Smaller companies that can‟t afford their own data centers, lease server and storage services from larger
data center organizations in the Cloud.

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Network Trends
Cloud Computing (Cont.)
Four types of Clouds:
Public Clouds
 Available to the general public through a pay-per-use model or for free.
Private Clouds
 Intended for a specific organization or entity such as the government.
Hybrid Clouds
 Made up of two or more Cloud types – for example, part custom and part public.
 Each part remains a distinctive object but both are connected using the same
architecture.
Custom Clouds
 Built to meet the needs of a specific industry, such as healthcare or media.
 Can be private or public.
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Network Trends
Technology Trends in the Home
Smart home technology is a
growing trend that allows technology
to be integrated into every-day
appliances which allows them to
interconnect with other devices.
Ovens might know what time to cook
a meal for you by communicating
with your calendar on what time you
are scheduled to be home.
Smart home technology is currently
being developed for all rooms within
a house.

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Network Trends
Powerline Networking Powerline networking can allow
devices to connect to a LAN
where data network cables or
wireless communications are not
a viable option.

Using a standard powerline
adapter, devices can connect to
the LAN wherever there is an
electrical outlet by sending data
on certain frequencies.

Powerline networking is
especially useful when wireless
access points cannot reach all the
devices in the home.
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Network Trends
Wireless Broadband
In addition to DSL and cable, wireless is
another option used to connect homes
and small businesses to the internet.
More commonly found in rural
environments, a Wireless Internet Service
Provider (WISP) is an ISP that connects
subscribers to designated access points or
hotspots.
Wireless broadband is another solution for
the home and small businesses.
Uses the same cellular technology used by a
smart phone.
An antenna is installed outside the house
providing wireless or wired connectivity for
devices in the home.

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1.8 Network Security

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Network Security
Security Threats Network security is an integral
part of networking regardless of
the size of the network.
The network security that is
implemented must take into
account the environment while
securing the data, but still
allowing for quality of service that
is expected of the network.
Securing a network involves
many protocols, technologies,
devices, tools, and techniques in
order to secure data and mitigate
threats.
Threat vectors might be external
or internal.
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Network Security
External Threats:
Security Threats (Cont.)
Viruses, worms, and Trojan
horses
Spyware and adware
Zero-day attacks
Threat Actor attacks
Denial of service attacks
Data interception and theft
Identity theft

Internal Threats:
lost or stolen devices
accidental misuse by employees
malicious employees
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Network Security
Security Solutions
Security must be implemented in multiple
layers using more than one security solution.
Network security components for home or
small office network:
Antivirus and antispyware software
should be installed on end devices.
Firewall filtering used to block
unauthorized access to the network.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 51
Network Security
Security Solutions (Cont.)

Larger networks have additional security
requirements:
Dedicated firewall system
Access control lists (ACL)
Intrusion prevention systems (IPS)
Virtual private networks (VPN)
The study of network security starts with a clear
understanding of the underlying switching and
routing infrastructure.

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1.9 The IT Professional

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The IT Professional
The Cisco Certified Network Associate
CCNA (CCNA) certification:
demonstrates that you have a knowledge of
foundational technologies
ensures you stay relevant with skills needed
for the adoption of next-generation
technologies.
The new CCNA focus:
IP foundation and security topics
Wireless, virtualization, automation, and
network programmability.
New DevNet certifications at the
associate, specialist and professional
levels, to validate your software
development skills.
Specialist certification validate your skills
in line with your job role and interests.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 54
The IT Professional
Networking Jobs

At www.netacad.com you can click the
Careers menu and then select Employment
opportunities.
Find employment opportunities by
using the Talent Bridge Matching
Engine.
Search for jobs with Cisco, Cisco
partners and distributors seeking
Cisco Networking Academy students
and alumni.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 55
The IT Professional
Lab – Researching IT and Networking Job Opportunities

In this lab, you will complete the following objectives:
Research Job Opportunities
Reflect on Research

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1.10 Module Practice and
Quiz

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Module Practice and Quiz
What did I learn in this module?
Through the use of networks, we are connected like never before.
All computers that are connected to a network and participate directly in network
communication are classified as hosts.
Diagrams of networks often use symbols to represent the different devices and
connections that make up a network.
A diagram provides an easy way to understand how devices connect in a large network.
The two types of network infrastructures are Local Area Networks (LANs), and Wide Area
Networks (WANs).
SOHO internet connections include cable, DSL, Cellular, Satellite, and Dial-up telephone.
Business internet connections include Dedicated Leased Line, Metro Ethernet, Business
DSL, and Satellite.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 58
Module Practice and Quiz
What did I learn in this module? (Cont.)
Network architecture refers to the technologies that support the infrastructure and the
programmed services and rules, or protocols, that move data across the network.
There are four basic characteristics of network architecture: Fault Tolerance, Scalability,
Quality of Service (QoS), and Security.
Recent networking trends that affect organizations and consumers: Bring Your Own Device
(BYOD), online collaboration, video communications, and cloud computing.
There are several common external and internal threats to networks.
Larger networks and corporate networks use antivirus, antispyware, and firewall filtering, but
they also have other security requirements: Dedicated firewall systems, Access control lists
(ACL), Intrusion prevention systems (IPS), and Virtual private networks (VPN)
The Cisco Certified Network Associate (CCNA) certification demonstrates your knowledge of
foundational technologies.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 59
Module 2: Basic Switch and
End Device Configuration
Introductions to Networks v7.0
(ITN)
Module Objectives
Module Title: Basic Switch and End Device Configuration

Module Objective: Implement initial settings including passwords, IP addressing, and default gateway
parameters on a network switch and end devices.

Topic Title Topic Objective
Explain how to access a Cisco IOS device for configuration
Cisco IOS Access
purposes.
Explain how to navigate Cisco IOS to configure network
IOS Navigation
devices.

The Command Structure Describe the command structure of Cisco IOS software.

Basic Device Configuration Configure a Cisco IOS device using CLI.

Save Configurations Use IOS commands to save the running configuration.

Ports and Addresses Explain how devices communicate across network media.

Configure IP Addressing Configure a host device with an IP address.
Verify Connectivity Verify connectivity between two end devices.
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 61
2.1 Cisco IOS Access

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Cisco IOS Access
Operating Systems
Shell - The user interface that allows
users to request specific tasks from
the computer. These requests can be
made either through the CLI or GUI
interfaces.
Kernel - Communicates between the
hardware and software of a computer
and manages how hardware
resources are used to meet software
requirements.
Hardware - The physical part of a
computer including underlying
electronics.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 63
Cisco IOS Access
GUI
A GUI allows the user to interact with the
system using an environment of
graphical icons, menus, and windows.
A GUI is more user-friendly and requires
less knowledge of the underlying
command structure that controls the
system.
Examples of these are: Windows,
macOS, Linux KDE, Apple iOS and
Android.

GUIs can fail, crash, or simply not
operate as specified. For these reasons,
network devices are typically accessed
through a CLI.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 64
Cisco IOS Access
Purpose of an OS
PC operating system enables a user to do CLI-based network operating system enables a
the following: network technician to do the following:
Use a mouse to make selections Use a keyboard to run CLI-based
and run programs network programs
Enter text and text-based Use a keyboard to enter text and
commands text-based commands
View output on a monitor
View output on a monitor

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 65
Cisco IOS Access
Access Methods
Console – A physical management port
used to access a device in order to
provide maintenance, such as
performing the initial configurations.
Secure Shell (SSH) – Establishes a
secure remote CLI connection to a
device, through a virtual interface, over a
network. (Note: This is the recommended
method for remotely connecting to a
device.)

Telnet – Establishes an insecure remote
CLI connection to a device over the
network. (Note: User authentication,
passwords and commands are sent over the
network in plaintext.)
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 66
Cisco IOS Access
Terminal Emulation Programs
Terminal emulation programs are used to connect to a network device by either a console
port or by an SSH/Telnet connection.
There are several terminal emulation programs to chose from such as PuTTY, Tera Term
and SecureCRT.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 67
2.2 IOS Navigation

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IOS Navigation
Primary Command Modes
User EXEC Mode:
Mode with limited capabilities
Allows access to only a limited number of basic monitoring
commands
Identified by the CLI prompt that ends with the > symbol

Privileged EXEC Mode:
Allows access to all commands and features
Allows access to higher configuration mode (like global
configuration mode)
Identified by the CLI prompt that ends with the # symbol

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 69
IOS Navigation
Configuration Mode and Subconfiguration Modes

Global Configuration Mode:
Used to access configuration options on
the device

Line Configuration Mode:
Used to configure console, SSH, Telnet
or AUX access

Interface Configuration Mode:
Used to configure a switch port or router
interface

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IOS Navigation
Video – IOS CLI Primary Command Modes

This video will cover the following:
User EXEC mode
Privilege EXEC mode
Global Config mode

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IOS Navigation
Navigation Between IOS Modes
 Privileged EXEC Mode:
To move from user EXEC mode to privilege EXEC mode, use
the enabled command.
To return to the user EXEC mode, use the disable command
 Global Configuration Mode:
To move in and out of global configuration mode, use the
configure terminal command.
To return to privilege EXEC mode, use the exit command.
 Line Configuration Mode:
To move in and out of line configuration mode, use the line
command followed by the management line type (example:
line console 0).
To return to global configuration mode, use the exit command.
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 72
IOS Navigation
Navigation Between IOS Modes (Cont.)
Subconfiguration Modes:
To move out of any subconfiguration mode to get
back to global configuration mode, use the exit
command.

To return to privilege EXEC mode, use the end
command or key combination Ctrl +Z.

To move directly from one subconfiguration mode to
another, type in the desired subconfiguration mode
command.
In the example, the command prompt changes from
(config-line)# to (config-if)#.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 73
IOS Navigation
Video – Navigation Between IOS Modes

This video will cover the following:
enable
disable
configure terminal
exit
end
Control + Z on keyboard
Other commands to enter sub configuration modes

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 74
2.3 The Command Structure

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The Command Structure
Basic IOS Command Structure

Keyword – This is a specific parameter defined in the operating system (in the figure, ip
protocols).

Argument - This is not predefined; it is a value or variable defined by the user (in the
figure, 192.168.10.5).

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 76
The Command Structure
IOS Command Syntax Check
A command might require one or more arguments. To determine the keywords
and arguments required for a command, refer to the command syntax.
Boldface text indicates commands and keywords that are entered as shown.
Italic text indicates an argument for which the user provides the value.

Convention Description
Boldface text indicates commands and keywords that you enter literally as
boldface
shown.
italics Italic text indicates arguments for which you supply values.

[x] Square brackets indicate an optional element (keyword or argument).

{x} Braces indicate a required element (keyword or argument).

Braces and vertical lines within square brackets indicate a required choice
[x {y | z }] within an optional element. Spaces are used to clearly delineate parts of the
command.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 77
The Command Structure
IOS Command Syntax Check (Cont.)
 The command syntax provides the pattern, or format, that must be used when
entering a command.

 The command is ping and the user-defined
argument is the ip-address of the destination device.
For example, ping 10.10.10.5.

 The command is traceroute and the user-defined
argument is the ip-address of the destination
device. For example, traceroute 192.168.254.254.

 If a command is complex with multiple arguments, you may see it represented like this:

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The Command Structure
IOS Help Features
The IOS has two forms of help available: context-sensitive help and command
syntax check.
Context-sensitive help enables you to Command syntax check verifies that
quickly find answers to these questions: a valid command was entered by
Which commands are available in each command the user.
mode? If the interpreter cannot understand the
Which commands start with specific characters or command being entered, it will provide
group of characters? feedback describing what is wrong with
the command.
Which arguments and keywords are available to
particular commands?

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 79
The Command Structure
Video – Context Sensitive Help and Command Syntax Checker

This video will cover the following:
Use the help command in user EXEC, privileged EXEC, and global config mode
Finish commands and arguments with the help command
Use the command syntax checker to fix syntax errors and incomplete commands

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 80
The Command Structure
Hot Keys and Shortcuts
The IOS CLI provides hot keys and shortcuts that make configuring, monitoring, and
troubleshooting easier.
Commands and keywords can be shortened to the minimum number of characters
that identify a unique selection. For example, the configure command can be
shortened to conf because configure is the only command that begins with conf.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 81
The Command Structure
Hot Keys and Shortcuts (Cont.)
 The table below is a brief list of keystrokes to enhance command line editing.

Keystroke Description

Tab Completes a partial command name entry.

Backspace Erases the character to the left of the cursor.

Left Arrow or Ctrl+B Moves the cursor one character to the left.

Right Arrow or Ctrl+F Moves the cursor one character to the right.

Recalls the commands in the history buffer, beginning with
Up Arrow or Ctrl+P
the most recent commands.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 82
The Command Structure
Hot Keys and Shortcuts (Cont.)
When a command output produces more text
than can be displayed in a terminal window, The table below lists commands that can
the IOS will display a “--More--” prompt. The be used to exit out of an operation.
table below describes the keystrokes that can
be used when this prompt is displayed.

Keystroke Description Keystroke Description
When in any configuration mode, ends the
Enter Key Displays the next line. Ctrl-C configuration mode and returns to privileged EXEC
mode.
When in any configuration mode, ends the
Space Bar Displays the next screen. Ctrl-Z configuration mode and returns to privileged EXEC
mode.
Ends the display string, returning to All-purpose break sequence used to abort DNS
Any other key Ctrl-Shift-6
privileged EXEC mode. lookups, traceroutes, pings, etc.

Note: To see more hot keys and shortcuts refer to 2.3.5.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 83
The Command Structure
Video – Hot Keys and Shortcuts

This video will cover the following:
Tab key (tab completion)
Command shortening
Up and down arrow key
CTRL + C
CTRL + Z
CTRL + Shift + 6
CTRL + R

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 84
The Command Structure
Packet Tracer – Navigate the IOS

In this Packet Tracer, you will do the following:
Establish Basic Connections, Access the CLI, and Explore Help

Explore EXEC Modes

Set the Clock

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 85
The Command Structure
Lab – Navigate the IOS by Using Tera Term for Console
Connectivity
In this lab, you complete the following objectives:
Access a Cisco Switch through the Serial Console Port

Display and Configure Basic Device Settings

(Optional) Access a Cisco Router Using a Mini-USB Console Cable

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 86
2.4 Basic Device Configuration

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 87
Basic Device Configuration
Device Names
The first configuration command on any device should be to give it a unique hostname.

By default, all devices are assigned a factory default name. For example, a Cisco IOS
switch is "Switch.”

Guideline for naming devices:
Start with a letter
Contain no spaces
End with a letter or digit
Note: To return the switch to the default
Use only letters, digits, and dashes
prompt, use the no hostname global
Be less than 64 characters in length config command.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 88
Basic Device Configuration
Password Guidelines
The use of weak or easily guessed passwords are a security concern.
All networking devices should limit administrative access by securing privileged EXEC,
user EXEC, and remote Telnet access with passwords. In addition, all passwords should
be encrypted and legal notifications provided.

Password Guidelines:
Use passwords that are more than eight
characters in length.
Use a combination of upper and lowercase
letters, numbers, special characters, and/or
numeric sequences. Note: Most of the labs in this course use simple
passwords such as cisco or class. These
Avoid using the same password for all devices. passwords are considered weak and easily
Do not use common words because they are guessable and should be avoided in production
easily guessed. environments.
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 89
Basic Device Configuration
Configure Passwords
Securing user EXEC mode access:
First enter line console configuration mode
using the line console 0 command in global
configuration mode.
Next, specify the user EXEC mode password
using the password password command.
Finally, enable user EXEC access using
the login command.

Securing privileged EXEC mode access:
First enter global configuration mode.
Next, use the enable secret password command.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 90
Basic Device Configuration
Configure Passwords (Cont.)
Securing VTY line access:
First enter line VTY configuration mode
using the line vty 0 15 command in
global configuration mode.
Next, specify the VTY password using
the password password command.
Finally, enable VTY access using
the login command.

 Note: VTY lines enable remote access using Telnet or SSH to the device. Many Cisco
switches support up to 16 VTY lines that are numbered 0 to 15.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 91
Basic Device Configuration
Encrypt Passwords
 The startup-config and running-config files  Use the show running-config command
display most passwords in plaintext. to verify that the passwords on the device
are now encrypted.
 To encrypt all plaintext passwords, use
the service password-encryption global config
command.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 92
Basic Device Configuration
Banner Messages
 A banner message is important to warn
unauthorized personnel from attempting
to access the device.
 To create a banner message of the day
on a network device, use the banner The banner will be displayed on attempts to access the device.
motd # the message of the day # global
config command.

Note: The “#” in the command syntax is called
the delimiting character. It is entered before
and after the message.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 93
Basic Device Configuration
Video – Secure Administrative Access to a Switch

This video will cover the following:
Access the command line to secure the switch
Secure access to the console port
Secure virtual terminal access for remote access
Encrypt passwords on the switch
Configure the banner message
Verify security changes

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 94
2.5 Save Configurations

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 95
Save Configurations
Configuration Files
 There are two system files that store the device configuration:
startup-config - This is the saved configuration file that is stored in NVRAM. It contains all the commands that will be
used by the device upon startup or reboot. Flash does not lose its contents when the device is powered off.
running-config - This is stored in Random Access Memory (RAM). It reflects the current configuration. Modifying a
running configuration affects the operation of a Cisco device immediately. RAM is volatile memory. It loses all of its
content when the device is powered off or restarted.
To save changes made to the running configuration to the startup configuration file, use the copy running-config
startup-config privileged EXEC mode command.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 96
Save Configurations
Alter the Running Configurations
If changes made to the running config do not
have the desired effect and the running-config
has not yet been saved, you can restore the
device to its previous configuration. To do this
you can do any of the following:
Remove the changed commands individually.
Reload the device using the reload command
in privilege EXEC mode. Note: This will cause
the device to briefly go offline, leading to
network downtime.
If the undesired changes were saved to the
startup-config, it may be necessary to clear all
the configurations using the erase startup-
config command in privilege EXEC mode.
After erasing the startup-config, reload the
device to clear the running-config file from
RAM.
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 97
Save Configurations
Video – Alter the Running Configuration

This video will cover the following:
Copy the running-config file to the startup-config file
Show the files in the flash or NVRAM directory
Use command shortening
Erase the startup-config file
Copy the start-config file to the running-config file

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 98
Save Configurations
Capture Configuration to a Text File
Configuration files can also be saved and
archived to a text document.
Step 1. Open terminal emulation software,
such as PuTTY or Tera Term, that is already
connected to a switch.
Step 2. Enable logging in to the terminal
software and assign a name and file location to
save the log file. The figure displays that All
session output will be captured to the file
specified (i.e., MySwitchLogs).

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 99
Save Configurations
Capture Configuration to a Text File (Cont.)
Step 3. Execute the show running-
config or show startup-config command at
the privileged EXEC prompt. Text displayed in
the terminal window will be placed into the
chosen file.
Step 4. Disable logging in the terminal
software. The figure shows how to disable
logging by choosing the None session logging
option

Note: The text file created can be used as a record of
how the device is currently implemented. The file could
require editing before being used to restore a saved
configuration to a device.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 100
Save Configurations
Packet Tracer – Configure Initial Switch Settings

In this Packet Tracer, you will do the following:
Verify the Default Switch Configuration

Configure a Basic Switch Configuration

Configure a MOTD Banner

Save Configuration Files to NVRAM

Configure a second Switch

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 101
2.6 Ports and Addresses

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 102
Ports and Addresses
IP Addresses
The use of IP addresses is the primary means of
enabling devices to locate one another and
establish end-to-end communication on the
internet.
The structure of an IPv4 address is called dotted
decimal notation and is represented by four
decimal numbers between 0 and 255.
An IPv4 subnet mask is a 32-bit value that
differentiates the network portion of the address
from the host portion. Coupled with the IPv4
address, the subnet mask determines to which
subnet the device is a member.
The default gateway address is the IP address of
the router that the host will use to access remote
networks, including the internet.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 103
Ports and Addresses
IP Addresses (Cont.)
IPv6 addresses are 128 bits in length and
written as a string of hexadecimal values.
Every four bits is represented by a single
hexadecimal digit; for a total of 32
hexadecimal values. Groups of four
hexadecimal digits are separated by a colon
“:”.
IPv6 addresses are not case-sensitive and
can be written in either lowercase or
uppercase.

Note: IP in this course refers to both the IPv4 and IPv6
protocols. IPv6 is the most recent version of IP and is
replacing the more common IPv4.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 104
Ports and Addresses
Interfaces and Ports
Network communications depend on end
user device interfaces, networking device
interfaces, and the cables that connect
them.
Types of network media include twisted-
pair copper cables, fiber-optic cables,
coaxial cables, or wireless.

Different types of network media have
different features and benefits. Some of
the differences between various types of
media include:
Distance the media can successfully carry a signal
Environment in which the media is to be installed
Amount of data and the speed at which it must be
transmitted
Cost of the media and installation

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 105
2.7 Configure IP Addressing

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 106
Configure IP Addressing
Manual IP Address Configuration for End Devices
End devices on the network need an IP address in
order to communicate with other devices on the
network.
IPv4 address information can be entered into end
devices manually, or automatically using Dynamic
Host Configuration Protocol (DHCP).
To manually configure an IPv4 address on a Windows
PC, open the Control Panel > Network Sharing
Center > Change adapter settings and choose the
adapter. Next right-click and select Properties to
display the Local Area Connection Properties.
Next, click Properties to open the Internet Protocol
Version 4 (TCP/IPv4) Properties window. Then
configure the IPv4 address and subnet mask
information, and default gateway. Note: IPv6 addressing and
configuration options are similar to
IPv4.
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 107
Configure IP Addressing
Automatic IP Address Configuration for End Devices
DHCP enables automatic IPv4 address
configuration for every end device that is
DHCP-enabled.
End devices are typically by default
using DHCP for automatic IPv4 address
configuration.
To configure DHCP on a Windows PC, open
the Control Panel > Network Sharing
Center > Change adapter settings and
choose the adapter. Next right-click and
select Properties to display the Local Area
Connection Properties.
Next, click Properties to open the Internet
Protocol Version 4 (TCP/IPv4)
Properties window, then select Obtain an Note: IPv6 uses DHCPv6 and SLAAC (Stateless
IP address automatically and Obtain DNS Address Autoconfiguration) for dynamic address
server address automatically. allocation.
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 108
Configure IP Addressing
Switch Virtual Interface Configuration
To access the switch remotely, an IP address and a subnet mask must be configured on
the SVI.
To configure an SVI on a switch:
Enter the interface vlan 1 command in global configuration mode.
Next assign an IPv4 address using the ip address ip-address subnet-mask command.
Finally, enable the virtual interface using the no shutdown command.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 109
Configure IP Addressing
Switch Virtual Interface Configuration
Similar to a Windows hosts, switches configured with an IPv4 address will typically also
need to have a default gateway assigned.
To configure the default gateway on a switch:
Enter the ip default-gateway ip-address command in global configuration mode.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 110
Configure IP Addressing
Packet Tracer – Implement Basic Connectivity

In this Packet Tracer, you will do the following:
 Perform a Basic Configuration on two switches

 Configure the PCs

 Configure the Switch Management Interface

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 111
2.8 Verify Connectivity

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 112
Verify Connectivity
Video – Test the Interface Assignment

This video will cover the following:
 Connect a console cable from the PC to the switch

 Use the terminal emulation program and accept the defaults to bring you to the command line

 Use enable to enter privileged EXEC mode

 Use the global configuration mode and the interface configuration mode to enter the no shutdown
command

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 113
Verify Connectivity
Video – Test End-to-End Connectivity

This video will cover the use of the ping command to test connectivity on both switches and both
PCs.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 114
2.9 Module Practice and Quiz

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 115
Module Practice and Quiz
Packet Tracer – Basic Switch and End Device Configuration
In this Packet Tracer, you will do the following:
 Configure hostnames and IP addresses on two switches

 Use Cisco IOS commands to specify or limit access to the device configurations

 Use IOS commands to save the running configuration

 Configure two host devices with IP addresses

 Verify connectivity between the two PC end devices

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 116
Module Practice and Quiz
Lab – Basic Switch and End Device Configuration

In this lab, you complete the following objectives:
Set Up the Network Topology

Configure PC Hosts

Configure and Verify Basic Switch Settings

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 117
Module Practice and Quiz
What did I learn in this module?
All end devices and network devices require an operating system (OS).

Cisco IOS software separates management access into the following
two command modes: User EXEC Mode and Privileged EXEC Mode.
Global configuration mode is accessed before other specific
configuration modes. From global config mode, the user can enter
different subconfiguration modes.
Each IOS command has a specific format or syntax and can only be
executed in the appropriate mode.
Basic device configurations- hostname, password, encrypt passwords
and banner.
There are two system files that store the device configuration: startup-
config and running-config.
IP addresses enable devices to locate one another and establish end-
to-end communication on the internet. Each end device on a network
must be configured with an IP address.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 118
Module 3: Protocols and
Models
Instructor Materials

Introduction to Networks v7.0
(ITN)
Module 3: Protocols and
Models
Introduction to Networks 7.0
(ITN)
Module Objectives
Module Title: Protocols and Models
Module Objective: Explain how network protocols enable devices to access local and remote
network resources.
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 121
Class Activity – Design a Communications System
Design a Communications System
Objectives:
Explain the role of protocols and standards organizations in facilitating
interoperability in network communications.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 122
3.1 The Rules

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 123
The Rules
Video – Devices in a Bubble

This video will explain the protocols that devices use to see their place in the
network and communicate with other devices.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 124
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 125
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 126
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

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 127
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

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 128
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

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 129
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 130
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 131
The Rules
Message Size
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 132
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 133
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 134
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 135
3.2 Protocols

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 136
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 over
Communications 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

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 137
Protocols
Network Protocol Functions
Devices use agreed-upon protocols
to communicate.
Protocols may have may have one
or 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
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 138
Protocols
Protocol Interaction
Networks 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)
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 139
3.3 Protocol Suites

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 140
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
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 141
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 142
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).

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 143
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

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 144
Protocol Suites
TCP/IP Communication Process
A web server encapsulating and sending a A client de-encapsulating the web page for
web page to a client. the web browser

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 145
3.4 Standards Organizations

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 146
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.

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 147
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
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 148
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

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 149
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)
© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 150
Standards Organizations
Lab – Researching Networking Standards
In this lab, you will do the following:
Part 1: Research Networking Standards Organizations
Part 2: Reflect on Internet and Computer Networking Experience

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 151
3.5 Reference Models

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 152
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

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 153
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

© 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 154
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 application
6 - Presentation
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.

3 - Network Provides services to exchange the individual pieces of data over the network.

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

1 - Physical Describes the means to activate, maintain, and de-activate physical connections.

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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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Reference Models
Packet Tracer – Investigate the TCP/IP and OSI Models in Action
This simulation activity is intended to provide a foundation for understanding the
TCP/IP protocol suite and the relationship to the OSI model. Simulation mode
allows you to view the data contents being sent across the network at each layer.
In this Packet Tracer, you will:
Part 1: Examine HTTP Web Traffic
Part 2: Display Elements of the TCP/IP Protocol Suite

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3.6 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 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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3.7 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
Role of the Data Link Layer Addresses: Same IP Network
When devices are on the same Ethernet
network the data link frame will use the
actual MAC address of the destination
NIC.
MAC addresses are physically embedded
into the Ethernet NIC and are local
addressing.
The Source MAC address will be that of
the originator on the link.
The Destination MAC address will
always be on the same link as the
source, even if the ultimate destination
is remote.
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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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Data Access
Role of the Data Link Layer Addresses: Different IP Networks
(Cont.)
The data link addressing is local
addressing so it will have a source and
destination for each link.
The MAC addressing for the first
segment is :
Source – AA-AA-AA-AA-AA-AA
(PC1) Sends the frame.
Destination – 11-11-11-11-11-11 (R1-
Default Gateway MAC) Receives
the frame.
Note: While the L2 local addressing will
change from link to link or hop to hop, the
L3 addressing remains the same.
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Data Access
Data Link Addresses
Since data link addressing is local addressing, it will have a source and destination for
each segment or hop of the journey to the destination.
The MAC addressing for the first segment is:
Source – (PC1 NIC) sends frame
Destination – (First Router- DGW interface) receives frame

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Data Access
Data Link Addresses