| Chapter 1-10
Labs
Labs:
| Chapter
1: Overview of Scalable Internetworks |
| There
are no labs for Chapter 1. |
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| Chapter
2: Advanced IP Addressing Management |
| 2.4.4 |
In this
lab, you will learn how to create an addressing scheme using
variable length subnet masking (VLSM). |
| 2.6.1 |
In this
lab, you will learn the usage of Network Address Translation
through the use of static translation. |
| 2.6.2 |
In this
lab, you will learn the usage of Network Address Translation
through the use of dynamic translation. |
| 2.6.3 |
In this
lab, you will learn the usage of Network Address
Translation through the use of overloading address
translation. |
| 2.7.1 |
In this
lab, you will learn how improper IP addressing can have a
negative impact on a network and the use of IP Unnumbered on a
point to point serial link to save IP addresses. |
| 2.8.1 |
In this lab, you will learn how
easy IP can be used to provide dynamic IP addressing.
|
| 2.9.1 |
In this lab, you will learn how
to use the IP Helper Address command to pass broadcasts from a
network.
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| Chapter
3: Routing Protocols Overview |
| There
are no labs for Chapter 3. |
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| Chapter
4: OSPF in a Single Area |
| 4.2.2 |
In this
lab, you will learn how to enable OSPF routing protocol in
Area 0 only. |
| 4.2.3 |
In this
lab, you will learn how to configure OSPF timers. |
| 4.2.4.1 |
In this
lab, you will learn how to observe the DR and BDR selection
process. |
| 4.2.4.2 |
In this
lab, you will learn how to force the DR and BDR election
process. |
| 4.3.2.1 |
In this
lab, you will learn how to stabilize OSPF router ID with a
loopback interface. |
| 4.3.2.2 |
In this lab, you will learn how
to configure OSPF area 0 authentication.
|
| 4.4.4 |
In this lab, you will learn how
to configure OSPF to function correctly in a non-broadcast
environment.
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| Chapter
5: OSPF with Multiple Areas |
| 5.1.2.1 |
In this
lab, you will learn how to enable OSPF routing protocol for
Multiple areas. |
| 5.1.2.2 |
In this
lab, you will learn how to configure OSPF to calculate the
correct cost of an interface. |
| 5.3.2 |
In this
lab, you will learn how to use summarization with OSPF to
reduce the number of external routes in the routing table. |
| 5.3.3 |
In this
lab, you will learn how to configure OSPF to summarize
addresses within an area. |
| 5.4.5 |
In this
lab, you will learn how to configure OSPF Area 1 as Stub and
Totally Stubby. |
| 5.5.2 |
In this
lab, you will learn how to configure OSPF Virtual Links. |
| 5.6.1 |
In this lab, you will learn how
to use OSPF with the NSSA option to redistribute RIP routes
into the OSPF core via a stub transit area.
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| Chapter
6: Configuring EIGRP |
| 6.1.1.1 |
In this
lab, you will learn how to enable EIGRP routing protocol. |
| 6.1.1.2 |
In this
lab, you will learn how to configure EIGRP and IGRP routing
protocols. IGRP will automatically redistribute into EIGRP if
given the same AS#. |
| 6.2.2 |
In this
lab, you will learn how to enable EIGRP routing protocol with
backup routes. |
| 6.5.4 |
In this
lab, you will learn how to use VLSM and IP unnumbered with the
EIGRP routing protocol. |
| 6.7.1 |
In this
lab, you will learn how to discover Auto-Summarization by the
EIGRP routing protocol. |
| 6.7.2 |
In this lab,
you will learn how to reduce the number of routes in the EIGRP
routing table through interface summarization. |
|
|
| Chapter
7: Route Optimization |
| 7.1.3 |
In this
lab, you will learn how to use a distribute list to filter
routes. |
| 7.2.1 |
In this
lab, you will learn how to configure OSPF with a
passive-interface, static route and a default route. |
| 7.3.5 |
In this
lab, you will learn how to configure a simple route-map to
control traffic flow. |
| 7.4.1 |
In this
lab, you will learn how to use a default route with RIP to
setup a gateway of last resort on all RIP routers. |
| 7.4.3 |
In this
lab, you will learn how to use a default network with IGRP to
setup a gateway of last resort on all IGRP routers. |
| 7.4.5 |
In this
lab, you will learn how to use a floating static route to
setup a backup route that will only appear in the routing
table when the link advertised by the routing protocol fails. |
| 7.4.6 |
In this
lab, you will learn to inject a static default route into the
entire OSPF routing domain. |
| 7.5.10 |
In this
lab, you will learn how to setup mutual route redistribution
between OSPF and IGRP. |
|
|
| Chapter
8: Basic BGP |
| 8.4.3 |
In this
lab, you will learn how to configure external BGP between
multiple autonomous systems. |
| 8.6.1.1 |
In this
lab, you will establish a basic BGP connection between routers
and observe differences between internal and external BGP
sessions. |
| 8.6.1.2 |
In this
lab, you will learn how to establish a BGP connection between
routers via a router that is not running BGP. |
| 8.7.5 |
In this
lab, you will learn how to configure
CIDR with BGP. |
| 8.7.9 |
In this
lab, you will learn how to use the neighbor next-hop-self
command to prevent routing failure between 2 routers that do
not have a direct connection. |
| 8.8.2 |
In this
lab, you will how to configure BGP to prevent the leakage of
Private AS numbers onto the Internet. |
| 8.8.3 |
In this
lab, you will learn how to filter BGP updates based on the
AS_path attribute. |
| 8.8.6 |
In this
lab, you will learn how to configure the Local Preference
attribute to indicate a preferred route to a destination with
multiple routes. |
| 8.8.8 |
In this
lab, you will learn how to configure the MED attribute to
influence routing decisions in another AS. |
|
|
| Chapter
9: Integrating BGP into
ISP Networks |
| 9.1.3 |
In this
lab, you will learn how to configure a Route Reflector to
reduce the IBGP mesh. |
| 9.2.3 |
In this
lab, you will learn how to filter routing information using a
distribute list in BGP. |
| 9.2.5 |
In this
lab, you will learn how to use a prefix list to filter routes. |
| 9.2.7 |
In this
lab, you will learn how to use the Community Attribute to
dynamically influence the routing decisions of another AS. |
| 9.2.9 |
In this
lab, you will learn how to configure a peer group to assign
policies to a group of BGP neighbors that share the same
update policies. |
| 9.4.2 |
In this
lab, you will learn how to configure a multihomed connection
to a single provider using default only routing, one primary,
and one backup link. |
| 9.5.4 |
In this
lab, you will how to inject routes from an IGP into BGP using
redistribution. |
|
|
| Chapter
10: Managing IP Traffic |
| 10.2.7 |
In
this lab, you will learn the usage of standard
access control lists. |
| 10.3.2 |
In this lab,
you will learn how
to use the access-class and line commands to control VTY
access. |
| 10.4.4 |
In this lab,
you will learn the usage of standard access control lists. |
| 10.5.2 |
In this lab,
you will learn how to deny traffic to a specific network by using a
static route to the null 0 interface. |
| 10.6.4 |
In this lab,
you will learn the usage of Lock-and-Key
security (dynamic access lists). |
| 10.7.4 |
In
this lab, you will learn usage of
Reflexive Access Control Lists. |
| 10.8.2.1 |
In this lab,
you will learn the usage of Context Based
Access Control. |
| 10.8.2.2 |
In this lab,
you will learn the usage of Context Based
Access Control. |
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