Implementing Cisco IP Routing 1.0 (ROUTE)

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Oct 28, 2013 (3 years and 11 months ago)

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Sunset Learning Institute

www.sunsetlearning.com | 888.888.5
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51

Authorized Cisco Learning Partner Specialized

Authorized Training That Optimizes Your Network…

And Advances Your Career





Implementing Cisco IP Routing 1.0 (ROUTE)



Course Overview:

Implementing Cisco IP Routing (ROUTE) v1.0 is an instructor
-
led training course presented by Cisco
training partners to
their end customers. This five
-
day course is designed to help students prepare for
Cisco CCNP certification. The ROUTE course is a component of the CCNP curriculum.


The ROUTE course is designed to provide professionals of medium to large network sites wit
h information
on the use of advanced routing in implementing scalability for Cisco routers that are connected to LANs
and WANs. The goal is to train professionals to dramatically increase the number of routers and sites
using these techniques instead of re
designing the network when additional sites or wiring configurations
are added. The ROUTE training reinforces the instruction by providing students with hands
-
on labs to
ensure they thoroughly understand how to implement advanced routing within their netwo
rks.



Who will benefit from this course?

This course is intended for those engineers who are candidates for Cisco CCNP certifications as well as
those who are candidates for Cisco CCI
E

Routing and Switching and CCIE certifications. Others who will
benefit from this course are:




Network professionals who want to correctly implement routing
-
based solutions given a network design
using Cisco IOS services and features, where implementation

of routing includes planning,
configuration, and verification.



The typical job roles for this type of network professional are network engineers; network operations
center (NOC) technical support personnel, and help desk technicians.



Any individual involv
ed in implementation and verification of routing protocols in enterprise networks.



Prerequisites:

The knowledge and skills that a student must have before attending this course are as follows:




Knowledge and skill level equal to Cisco CCNA
certification.



In addition to knowledge and skill level equal to Cisco CCNA certification, it is recommended that the
student have practical experience in installing, operating, and maintaining Cisco routers and switches in
an enterprise environment.



Knowl
edge of and experience with the implementation and verification of enterprise routing and
switching technologies as offered by the
Interconnecting Cisco Networking Devices Part 1

(ICND1) and
Interconnecting Cisco Networking Devices Part 2

(ICND2) courses o
r equivalent skills and knowledge.







Sunset Learning Institute

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Sunset Learning Differentiators
:



World Class Instruction Team

o

All instructors hold Certified Cisco Systems Instructor (CCSI) certification.

o

All instructors have a four
-
year technical degree or equivalent work
experience.

o

All instructors have a minimum of either four years teaching technical networking classes or five
years consulting experience.




Enhanced Learning Experience

o

The goal of our instructors during class is ensure students understand the material, gu
ide them
through our up to date labs and encourage questions and interactive discussions. Enjoyment of the
learning process is a primary objective for Sunset Learning instructors.




High Quality “Real World” Lab Environments

o

Course offerings include real
-
time access to labs with the latest Cisco equipment

o

Result is real world experiences to help students prepare for actual networking environments.

o

Hands on experience aids in Cisco exam preparation.




Outstanding Customer Service

o

Dedicated program manager

o

Quality instruction team

o

Creatively designed curriculum to meet your specific needs

o

Delivery at your location or ours



Sunset Learning ROUTE Enhancements

What you will only find at Sunset Learning in the ROUTE class are additional labs. These additional

labs
are target for both Enterprise and Service Provider customers. We made enhancement to Cisco EIGRP
Routing Protocol. EIGRP is a scalable routing protocol that ensures that as a network grows larger, it
operates efficiently and adjusts rapidly to chan
ges. One of the advanced features that Sunset Learning
has implemented in the ROUTE class lab is to configure the EIGRP Stub for Hub and Spoke environment.
Having optimized the routing table in the Hub devices by summarizing the routes from the Spoke dev
ices
to the Hub devices, you will now limit the query traffic from the Hub devices to the Spoke devices. We
also made enhancement to Cisco EIGRP Default Route. With this advanced feature, you will advertise a
default route from the Hub devices to the Spo
ke devices through EIGRP. This advanced feature will add to
the stability and speed convergence of the network by minimizing update traffic and minimizing routing
table size.


An additional enhancement lab is Intermediate System
-
to
-
Intermediate System Pro
tocol (IS
-
IS). IS
-
IS is a
popular IP routing protocol in the Internet service provider (ISP) industry. The simplicity and stability of
IS
-
IS make it robust in large internetworks. Large ISPs chose IS
-
IS because of their unique requirement for
scalability
, convergence, and stability. ISO specifications refer to routers as intermediate systems (ISs).
Thus, IS
-
IS is a protocol that allows routers to communicate with other routers. The OSI suite uses
Connectionless Network Service (CLNS) to provide connecti
onless delivery of data, and the actual Layer 3
protocol is Connectionless Network Protocol (CLNP). IS
-
IS uses CLNS addresses to identify the routers and
to build the link
-
state database (LSDB). IS
-
IS serves as an interior gateway protocol (IGP) for the C
LNS.
CLNP is the solution for “unreliable” (connectionless) delivery of data, similar to IP. IS
-
IS is the dynamic
link
-
state routing protocol for the OSI protocol stack. It distributes routing information for routing CLNP
data for the ISO CLNS environmen
t. IS
-
IS operates similarly to OSPF. IS
-
IS allows the routing domain to be
partitioned into areas. IS
-
IS routers establish adjacencies using a Hello protocol and exchange link
-
state
information, using link
-
state packets (LSPs), throughout an area to build

the LSDB.


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The ability to scale networks for future demands requires a limitless supply of IP addresses and improved
mobility.
IP version 6 (
IPv6) combines expanded addressing with a more efficient and feature
-
rich header
to meet the demands for
scalable networks in the future. IPv6 satisfies the increasingly complex
requirements of hierarchical addressing that
IP version 4 (
IPv4
)

does not provide. One key benefit is that
IPv6 can recreate end
-
to
-
end communications without the need for
Network Ad
dress Translation (
NAT
)

a
requirement for a new generation of shared
-
experience and real
-
time applications. There are 3 additional
enhancement labs for IPv6. The first IPv6 lab is configuring IPv6 Addresses. With this lab, you will be able
to enable IPv
6 routing globally and configure IPv6 addresses on your router interfaces. The second IPv6
lab is enabling IPv6 OSPF Routing. With this lab, you will be able to configure an IPv6 routing using
OSPFv3 for your routers. The third IPv6 lab is configuring I
Pv6 Tunnels. With this lab, you will be able to
configure a manual IPv6
-
over
-
IPv4 tunnel.



Related Courses:



SWITCH



TSHOOT



Course Objectives:

Upon completing this course, the student will be able to meet these overall objectives:



Plan and document the configuration and
verification of routing protocols and their optimization in
enterprise networks.



Identify the technologies, components, and metrics of EIGRP used to implement and verify EIGRP
routing in diverse, large
-
scale internetworks based on requirements.



Identify, a
nalyze, and match OSPF multi
-
area routing functions and benefits for routing efficiencies in
network operations in order to implement and verify OSPF routing in a complex enterprise network



Implement and verify a redistribution solution in a multi
-
protoco
l network that uses Cisco IOS features
to control path selection and provides a loop
-
free topology according to a given network design and
requirements



Evaluate common network performance issues and identify the tools needed to provide Layer 3 path
control

that uses Cisco IOS features to control the path



Implement and verify a Layer 3 solution using BGP to connect an enterprise network to a service
provider



Course Outline:


Module 1: Planning Routing Services to Requirements

Lesson 1: Assessing Complex En
terprise Network Requirements



Describe the Cisco conceptual network models, such
as Cisco Enterprise Architectures and the Cisco
hierarchical network model



Describe the Cisco Enterprise Architecture



Describe the traffic conditions in a converged

network



Describe the Cisco SONA framework



Describe routing and routing protocols


Lesson 2: Common Maintenance Processes and Procedures



Describe the step required to create a typical
implementation plan



Describe the types of infor
mation contained in a
typical implementation plan.



Describe the types of task detailed in a typical
implementation plan



Describe the types of information that should be
documented related to an implementation.



Describe the way that the information related
to an
implementation can be documented


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Module 2: Implementing an EIGRP based Solution


Lesson 1: Planning Routing Implementations with EIGRP



Identify the four key technologies employed by
EIGRP




Describe how EIGRP operates



Descri
be the five components of the metric used by
EIGRP




Calculate the EIGRP metric for a range of pathways
between routers



Create a typical implementation plan for an EIGRP
based solution.



Document EIGRP implementation, operations and
maintenance processes

Lesson 2: Implementing and Verifying Basic EIGRP for the Enterprise LAN Architecture



Describe the commands used in a basic EIGRP
configuration task




Select the interfaces and networks that will
participate in EIGRP routing use the
network
command and wildcard masks



Verify basic
EIGRP
operations and
that the router
recognizes EIGRP neighbors and their routes



Create neighbor relationships using the
neighbor

command and verify that the router recognizes
EIGRP neighbors and routes



Cont
rol routing update advertisements using the
passive
-
interface

command



Configure and verify the last
-
resort gateway or
default route



Determine why administrators may need to use
manual route summarization over default
automatic route summarization



Configure

and verify route summarization

Lesson 3: Configuring and Verifying EIGRP for the Enterprise WAN Architecture



Describe the effect on EIGRP operations when
operating over a circuit emulation link like Metro
Ethernet or EoMPLS



Describ
e the effect on EIGRP operations when
operating over MPLS VPNs



Describe the effect on EIGRP operations when
operating over Frame Relay



Physical interface
-

dynamic DLCI mapping, static
DLCI mapping
-
broadcast vs. non
-
broadcast



Logical multipoint interface

-

dynamic DLCI
mapping, static DLCI mapping
-

broadcast vs. non
-
broadcast



Logical point
-
to
-
point interface



Configure and verify EIGRP operating over Frame
Relay



Physical interface
-

dynamic DLCI mapping, static
DLCI mapping
-
broadcast vs. non
-
broadcast



Logical multipoint interface
-

dynamic DLCI
mapping, static DLCI mapping
-

broadcast vs. non
-
broadcast



Logical point
-
to
-
point interface



Describe the features of load balancing across equal
paths




Configure and verify EIGRP load balancing across
unequal
-
cos
t paths



Evaluate why EIGRP defaults may need to be
changed to ensure efficient use of bandwidth across
WAN links



Configure EIGRP bandwidth use across WAN links


Lesson 4: Implementing and Verifying EIGRP Authentication



Evaluate rout
er authentication



Describe the Message Digest 5 (MD5) authentication
used in EIGRP



Configure MD5 authentication



Troubleshoot MD5 authentication

Lesson 5: Advanced EIGRP Features in an Enterprise Network



Describe factors affecting
scalability in large
internetworks



Describe how EIGRP uses queries to update its
routing tables in the event that a route is lost and
there is no feasible successor



Mark the spokes of a large network as stubs to
reduce EIGRP queries and thus improve netwo
rk
scaling



Describe why stuck
-
in
-
active (SIA) connections occur



Minimize active routes



Illustrate how graceful shutdown prevents loss of
packets when routers go down









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Module 3: Implementing a Scalable Multi
-
area Network OSPF Based So
lution

Lesson 1: Planning Routing Implementations with OSPF as Scalable Routing Protocol



Describe link
-
state routing protocols



Describe the two
-
tier hierarchy structure of OSPF



Describe how routers running a link
-
state routing
protocol establish

neighbor adjacencies with their
neighboring routers



Describe how OSPF calculates the best path to each
destination network



Describe how routers use link
-
state updates (LSUs)
to verify that links are still active



Describe the different OSPF area types.



Cre
ate a typical implementation plan for an OSPF
based solution.



Create a typical implementation documentation
package for an OSPF based solution

Lesson 2: How OSPF Packet Processes Work



Describe the five OSPF packet types



Describe how

OSPF neighbor adjacencies are
established



Describe the process of exchanging and
synchronizing the link
-
state databases (LSDBs, or
topology tables) between routers



Describe how OSPF maintains synchronization of the
LSDBs (topology tables) of all routers
in the network



Describe the process of maintaining a database of
only the most recent link
-
state sequence numbers



Describe how to verify that OSPF packets are flowing
properly between two routers


Lesson 3: Improving Routing Performance in a
Complex Enterprise Network



Introduce OSPF network types



Determine adjacency behavior in point
-
to
-
point links



Determine adjacency behavior in a broadcast
network



Determine adjacency behavior in a Metro Ethernet
and EoMPLS network



Determine adjace
ncy behavior in MPLS networks



Select a DR and BDR



Implement OSPF over different Frame Relay
implementations



Implement OSPF over Frame Relay NBMA



Use sub
-
interfaces in OSPF over Frame Relay



Implement OSPF over a point
-
to
-
point Frame Relay
network



Implement

OSPF over a point
-
to
-
multipoint Frame
Relay network

Lesson 4: Configuring and Verifying OSPF Routing



Describe the procedure to configure basic single
-
area and multiarea OSPF



Enable the route process



Configure a router ID



Enable OSPF on networks and interfaces using the
network

and
ip ospf

commands



Configure basic multi
-
area OSPF operations



Verify basic multi
-
area OSPF operations



Neighbor relationship



OSPF router types



LSAs defined by OSPF



Interpret the OSPF LSDB and
routing table



Describe how routing advertisements can be
controlled using the passive
-
interface command



Describe the effects of a non
-
contiguous backbone
or area that does not connect to area 0 and how
(Design note: Network mergers are a good context.)



OSP
F virtual links are used to address these issues



Configure and verify an OSPF virtual link



Change the cost metric from default values


Lesson 5: Configuring and Verifying OSPF Route Summarization



Describe the functions of inter
-
area

route
summarization and external route summarization



Configure route summarization in OSPF



Describe the benefits of a default route in OSPF



Configure a default route injection into OSPF


Lesson 6: Configuring and
Verifying OSPF Special Area Types



Describe the OSPF area types



Configure OSPF stub areas



Configure OSPF totally stubby areas



Interpret information shown on routing tables for
stub areas and totally stubby areas



Configure OSPF NSSAs



Verify all ty
pes of OSPF stub areas


Lesson 7: Configuring and Verifying OSPF Authentication



Distinguish between the two types of authentication
used in OSPF



Configure simple password authentication



Configure MD5 authentication



Troubleshoot simp
le password authentication



Troubleshoot MD5 authentication



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Module 4: Implement an IPv4
-
based Redistribution Solution

Lesson 1: Assessing Network Routing Performance and Security Issues



Determine common network performance issues



Identify How distribution lists work



Use distribution lists to control routing updates



Identify how prefix lists work



Use a prefix list to control routing updates



Identify how route maps work



Use route maps to control routing updates



Use route maps to filt
er routes



Suppress routing updates using passive interfaces

Lesson 2: Operating a Network Using Multiple IP Routing Protocols



Describe the need to use multiple IP routing
protocols



Define route redistribution



Illustrate how to configure dynamic routing protocol
updates for passive interfaces and distribute lists.



Illustrate the use of Policy routing and route maps



Identify the seed metrics that are used by various
routing protocols



Describe the process for poi
nts of distribution in a
network and identifying possible routing loops.



Create a distribution and loop map for a given
network.

Lesson 3: Configuring and Verifying Route Redistribution



Describe the procedures necessary to configure

route redistribution

o

Describe how to redistribute routes into RIP

o

Describe how to redistribute routes into EIGRP

o

Describe how to redistribute routes into OSPF



Assess the advantages of administrative distance in
terms of routing protocols



Modify administra
tive distance on the router
globally for a particular routing protocol or
specifically for certain routes to control path
selection



Assess the impact of administrative distance
changes on routing tables



Implement route maps with route redistribution to
pre
vent routing loops



Verify

route redistribution operation
Module 5: Implementing Path Control

Lesson 1: Assessing Path Control Network Performance Issues



Assess path control network performance



Use filters to determine path selection



Use PBR to determine path selection



Configure and verify PBR



Configure and verify PBR operations on a Cisco
router

Lesson 2: References to additional Path Control in E
-
Learning



ROUTE
-
01 of 3: Implement Path Control



ROUTE
-
01 Lesson
1: Parallel processes when
implementing Path Control



ROUTE
-
01 Lesson 2: Directed Demo of Procedures to
Implement Path Control by Other Methods



ROUTE
-
01 Lesson 3: Self
-
Check Assessment

Module 6: Connection of an Enterprise Network to an ISP
Network

Lesson 1: Planning the Enterprise
-
to
-
ISP Connection



Describe connectivity requirement between an
enterprise network and an ISP.



Describe the methods for exchanging routing
information across an ISP.



Static routes



Common IGPs



MPLS VPNs



Ci
rcuit Emulation



BGP



Describe the types of enterprise
-
to
-
ISP connections
and their effect on the selection of an exchange
method.



Single
-
homed



Dual
-
homed



Multi
-
homed



Dual multi
-
homed


Lesson 2: Considering the Advantages of Using BGP



Describe connectivity between an enterprise network
and an ISP that requires the use of BGP, including a
description of the issues that arise when an
enterprise decides to connect to the Internet through
multiple ISPs



Describe BGP multi
-
homing options



Des
cribe how BGP routes between autonomous
systems



Describe how BGP uses path
-
vector functionality



Describe the features of BGP in terms of
deployment, enhancements over other distance
vector routing protocol and database types


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Lesson 3: Compar
ing the Functions and Uses of EBGP and IBGP



Define terms used to describe BGP routers and
their relationships



Describe the requirements for establishing an
external BGP (EBGP) neighbor relationship



Describe the requirements for establishing an
i
nternal BGP (IBGP) neighbor relationship



Use of metrics

Lesson 4: Configuring and Verifying Basic BGP Operations



Initiate basic BGP configuration



Activate a BGP session for external and internal
neighboring routers



Administratively shut down and re
-
enable a BGP
neighbor



Select the factors and options to correctly
configure BGP



Describe BGP neighbor states



Configure MD5 authentication on the BGP TCP
connection between two routers



Configure and verify BGP operations i
n a single
-
homed environment.



Troubleshoot BGP configuration

Lesson 5: Using the BGP Attributes and Path Selection Process



Characterize BGP attributes that effect outbound
EBGP path selection



Select the criteria for selecting a BGP
path



Configure the AS path attribute to effect outbound
EBGP path selection



Describe how the local preference attribute can be
configured to effect outbound path selection



Configure the weight attribute to effect outbound
EBGP path selection



Use route maps

to set selected attributes for
selected routes to control outbound EBGP path
selection



AS Path prepending



Local preference



Weight



Describe how the MED attribute can be configured to
effect inbound EBGP path selection



Describe how the AS path attribute (AS prepending)
can be configured to affect inbound EBGP path
selection



Describe how to use route maps to set selected attributes for
selected routes to control outbound EBGP path selection



AS Path prepending



MED

Lesson 6: E
-
Learning Training on IPv6 and Routing for Branch Offices and Remote Workers


ROUTE
-
02: Implementing IPv6



Lesson 1: IPv6 Addressing and Unicast



Lesson 2: Implementing RIPng, OSPFv3, EIGRP and
Redistribution in IPv6



Lesson 3: IPv6 Transition Techniques



Lesson 4: NAT and PAT with IPv6


ROUTE
-
03: Implementing Routing Facilities for Branch Offices and Mobile Workers



Lesson 1: Analyzing Branch Office Designs and Planning for Branch Office Installations



Lesso
n 2: Directed Demo
-

Implement Special Facilities for Branch Offices.

Lab Objectives:



Create an implementation plan to implement Branch Office facilities.



Configure changes to the core network to connect to Branch Offices.



Verify cor
rect operation and required performance of the installed services.



Document implementation, operations, and maintenance for the installed services.



Lesson 3: Lab Debrief



Lesson 4: Analyzing Mobile Workers Designs and Planning for Mobile Workers Installatio
ns



Lesson 5: Directed Demo
-

Implement Special Facilities for Mobile Workers.

Lab Objectives:



Create an implementation plan to implement Mobile Workers facilities.



Configure changes to the core network to connect to Mobile Workers.



Verify correct operation and required performance of the installed services



Document implementation, operations, and maintenance for the installed services



Lesson 6: Lab 03
-
2 Debrief



Lesson 7: Self
-
Check Assessment






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Lab Outline



Lab 1
-
1: Assess Skills

for Implementing Complex Networks



Lab 2
-
1: Configure and Verify EIGRP Operations



Lab 2
-
2: Configure and Verify EIGRP Circuit Emulation and Frame Relay Operations



Lab 2
-
3: Configure and Verify EIGRP Authentication



Lab 2
-
4: Implement and Verify EIGRP operat
ions

*
Lab
modified
by SLI


detailed below



Lab 3
-
1: Configure and Verify OSPF to Improve Routing Performance



Lab 3
-
2: Implement and Verify OSPF Multiarea Routing



Lab 3
-
3: Configure and Verify OSPF Route Summarization for Interarea and External Routes



Lab
3
-
4: Configure and Verify OSPF Special Area Types



Lab 3
-
5: Configure and Verify OSPF Authentication



Lab 4
-
1: Configure Route Redistribution Between Multiple IP Routing Protocols



Lab 5
-
1: Configure and Verify Path Control Between Multiple IP Routing Protoco
ls



Lab 6
-
1: Configure BGP Operations



Lab 6
-
2: Manipulate EBGP Path Selections



Modified and New Labs offered Exclusively at Sunset Learning


1.

Modified Existing Lab from above
-

Implement Advanced EIGRP Features

You will configure EIGRP stub, limit the
query traffic from the edge routers of the pod to
the internal routers of the pod. You will also configure to advertise a default route from
the edge router to the internal routers through EIGRP. This change will add to the
stability and speed convergenc
e of the network by minimizing update traffic and
minimizing routing table size.


Task 1
: Configure the EIGRP Stub

Having optimized the routing table, you will now limit the query traffic
from the edge routers of the pod to the internal routers of the pod



Task 2
: Configure the EIGRP Default Route

You will advertise a default route from the edge router to the internal
router through EIGRP. This change will add to the stability and speed
convergence of the network by minimizing update traffic and minimizing

routing table size.

2.

New Lab
-

Configuring Integrated IS
-
IS

You will configure the routers in your pod for IS
-
IS routing in multiple areas.


Task 1
: Configure Integrated IS
-
IS in Multiple Areas



Y
ou will configure IS
-
IS in multiple areas.

3.

New Lab
-

Config
uring IPv6 Addresses

You will enable IPv6 routing globally and configure IPv6 addresses on your pod routers.
After completing this activity, you will be able
enable IPv6 globally and on an interface.


Task 1
: Configure IPv6

You will enable IPv6 globally on

your routers and configure IPv6
addresses on all interfaces.

4.

New Lab
-

Enabling IPv6 OSPF Routing

You will configure an IPv6 routing on your pod routers.


Task 1
: Enable IPv6 OSPF Globally



You will enable IPv6 OSPF globally on all pod routers.

5.

New Lab
-

Configuring IPv6 Tunnels

You will configure a manual IPv6
-
over
-
IPv4 tunnel.

Task 1
: Configure the Tunnel Interface


You will prepare the IPv4 tunnel interface to carry IPv6 packets.