Chapter 1-10 Labs

Labs:

Chapter 1: Overview of Scalable Internetworks
There are no labs for Chapter 1.
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.

Chapter 3: Routing Protocols Overview
There are no labs for Chapter 3.
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.

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.

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.