Routing Protocols and Concepts, CCNA Exploration Labs and Study Guide, 2/e

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Routing Protocols and Concepts, CCNA Exploration Labs and Study Guide, 2/e

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Description

Routing Protocols and Concepts, CCNA Exploration
Labs and Study Guide is designed to support your learning routing
protocols and concepts in Version 4 of the Cisco Networking Academy CCNA®
Exploration curriculum. Each chapter contains a Study Guide section and a Labs
and Activities section.
 
Study Guide
The dozens of exercises in this book help you learn the
concepts and configurations crucial to your success as a CCNA exam candidate.
Each chapter is slightly different and includes multiple-choice,
fill-in-the-blank, and open-ended questions designed to help you:

Review vocabulary
Strengthen troubleshooting skills
Boost configuration skills
Reinforce concepts
Research topics
 
Packet Tracer Activities: This icon identifies
exercises interspersed throughout the Study Guide section where you can
practice or visualize a specific task using Packet Tracer, a powerful network
simulation program developed by Cisco.
 
Labs and Activities: The Labs and Activities sections
begins with a Command Reference table and includes all the online curriculum
labs to ensure that you have mastered the practical skills needed to succeed
in this course.
 
Hands-On Labs: This icon identifies the hands-on labs
created for each chapter. Work through all the Basic, Challenge, and
Troubleshooting labs as provided to gain a deep understanding of CCNA
knowledge and skills to ultimately succeed on the CCNA Certification Exam.

 
Packet Tracer Companion: This icon identifies the
companion activities that correspond to each hands-on lab. You use Packet
Tracer to complete a simulation of the hands-on lab.
 
Packet Tracer Skills Integration Challenge: Each
chapter concludes with a culminating activity called the Packet
Tracer Skills Integration Challenge. These challenging
activities require you to pull together several skills learned from the
chapter, as well as previous chapters and courses, to successfully complete
one comprehensive exercise.
 
Allan Johnson works full time developing curriculum for
Cisco Networking Academy. Allan also is a part-time instructor at Del Mar
College in Corpus Christi, Texas.
 
Use this book with:
Routing Protocols and Concepts,
CCNA Exploration Companion Guide
ISBN-10: 1-58713-206-0
ISBN-13: 978-158713-206-3
 
Companion CD-ROM
The CD-ROM provides all the Packet Tracer Activity,
Packet Tracer Companion, and Packet Tracer Challenge exercise files that are
referenced throughout the book as indicated by the icons. These files work
with Packet Tracer software V4.1, which is available through the Academy
Connection website. Ask your instructor for access to the Packet Tracer
software.
Table of Contents

Introduction xv
 
Chapter 1 Introduction to
Routing and Packet Forwarding 1
Study Guide 2
Inside the Router 2
    Vocabulary Exercise: Matching 2
    Vocabulary Exercise: Completion
4
    Label the External Components of a
Router Exercise 6
    Label the Internal Components of a
Router Exercise 7
    Describe the Internal Components of
a Router Exercise 8
    Router Bootup Process Exercise
10
    Interpreting the show version
Command Exercise 10
CLI Configuration and
Addressing 11
    Implementing Basic Addressing
Schemes Exercise 11
    Basic Router Configuration Exercise
12
Packet Tracer Exercise
1-1: Basic Router Configuration 15
    Task 1: Add Devices and Connect
Cables 15
    Task 2: Configure PCs 15
    Task 3: Configure R1 16
    Task 4: Configure R2 16
    Task 5: Save the Packet Tracer File
17
Building the Routing Table
17
    Vocabulary Exercise: Completion
17
    Routing Table Principles Exercise
19
Path Determination and
Switching Functions 20
    Internet Protocol (IP) Packet Format
Exercise 20
    MAC Layer Frame Format Exercise
20
    Best Path and Metrics: Completion
and Short Answer Exercise 21
    Path Determination and Switching
Function Exercise 21
Labs and Activities 25
Command Reference 25
Lab 1-1: Cabling a Network
and Basic Router Configuration (1.5.1) 26
    Task 1: Cable the Ethernet Links of
the Network 27
    Task 2: Cable the Serial Link
Between the R1 and R2 Routers 28
    Task 3: Establish a Console
Connection to the R1 Router 29
    Task 4: Erase and Reload the Routers
29
    Task 5: Understand Command-Line
Basics 30
    Task 6: Perform Basic Configuration
of Router R1 33
    Task 7: Perform Basic Configuration
of Router R2 36
    Task 8: Configure IP Addressing on
the Host PCs 37
    Task 9: Examine Router show Commands
37
    Task 10: Use the ping Command 41
    Task 11: Use the traceroute Command
42
    Task 12: Create a start.txt File
43
    Task 13: Load the start.txt File
onto the R1 Router 45
    Packet Tracer Companion 46
    Appendix 1A: Installing and
Configuring Tera Term for Use in Windows XP 47
    Appendix 1B: Configuring Tera Term
as the Default Telnet Client in
    Windows XP 48
    Appendix 1C: Accessing and
Configuring HyperTerminal 51
Lab 1-2: Basic Router
Configuration (1.5.2) 52
    Task 1: Cable the Network 53
    Task 2: Erase and Reload the Routers
54
    Task 3: Perform Basic Configuration
of Router R1 55
    Task 4: Perform Basic Configuration
of Router R2 57
    Task 5: Configure IP Addressing on
the Host PCs 58
    Task 6: Verify and Test the
Configurations 58
    Task 7: Reflection 61
    Task 8: Documentation 61
    Task 9: Clean Up 61
    Packet Tracer Companion 61
Lab 1-3: Challenge Router
Configuration (1.5.3) 61
    Task 1: Subnet the Address Space
62
    Task 2: Determine Interface
Addresses 63
    Task 3: Prepare the Network 63
    Task 4: Perform Basic Router
Configurations 63
    Task 5: Configure and Activate
Serial and Ethernet Addresses 64
    Task 6: Verify the Configurations
64
    Task 7: Reflection 64
    Task 8: Document the Router
Configurations 65
    Packet Tracer Companion 65
Packet Tracer Skills
Integration Challenge 65
    Task 1: Design and Document an
Addressing Scheme 66
    Task 2: Cable Devices 67
    Task 3: Apply a Basic Configuration
67
    Task 4: Identify Layer 2 and Layer 3
Addresses Used to Switch Packets 67
    Reflection 68
End Notes 68
 
Chapter 2 Static Routing
69
Study Guide 70
Routers and the Network
70
    Document the Addressing Scheme
70
    x
Routing Protocols and Concepts, CCNA Exploration Labs and Study Guide
    Packet Tracer Exercise 2-1 71
Router Configuration
Review 72
    show Commands Matching Exercise
72
    Configuring and Verifying Interfaces
Exercise 73
Exploring Directly
Connected Networks 75
    Directly Connected Networks Exercise
75
    Packet Tracer Exercise 2-1: Task
3–Basic Router Configuration 78
    Cisco Discovery Protocol Exercise
78
    Packet Tracer Exercise 2-1: Task
4–Configure CDP 80
Static Routes with
Next-Hop Addresses 80
    Static Route Command Syntax Exercise
81
    Static Routes with Next-Hop Address
Exercise 81
    Packet Tracer Exercise 2-1 83
Configuring a Static Route
with an Exit Interface 84
    Static Routes with an Exit Interface
Exercise 84
    Packet Tracer Exercise 2-2 85
Summary and Default Static
Routes 86
    Calculating Summary Route Exercises
86
    Combining Static Routes into Summary
Routes Exercise 92
    Packet Tracer Exercise 2-3: Summary
Route Configuration 93
    Configuring Default Static Routes
Exercise 94
    Packet Tracer Exercise 2-4: Default
Route Configuration 95
Managing and
Troubleshooting Static Routes 96
    Troubleshooting a Missing Route
96
Labs and Activities 98
Command Reference 98
Lab 2-1: Basic Static
Route Configuration (2.8.1) 98
    Task 1: Cable, Erase, and Reload the
Routers 100
    Task 2: Perform Basic Router
Configuration 100
    Task 3: Interpreting Debug Output
102
    Task 4: Finish Configuring Router
Interfaces 107
    Task 5: Configure IP Addressing on
the Host PCs 107
    Task 6: Test and Verify the
Configurations 107
    Task 7: Gather Information 108
    Task 8: Configure a Static Route
Using a Next-Hop Address 110
    Task 9: Configure a Static Route
Using an Exit Interface 112
    Task 10: Configure a Default Static
Route 114
    Task 11: Configure a Summary Static
Route 115
    Task 12: Summary, Reflection, and
Documentation 117
    Task 13: Clean Up 118
    Task 14: Challenge 118
Packet Tracer Companion:
Basic Static Route Configuration (2.8.1) 119
Lab 2-2: Challenge Static
Route Configuration (2.8.2) 119
    Task 1: Subnet the Address Space
120
    Task 2: Determine Interface
Addresses 121
    Task 3: Prepare the Network 121
    Task 4: Perform Basic Router
Configurations 122
    Task 5: Configure and Activate
Serial and Ethernet Addresses 122
    Task 6: Verify Connectivity to
Next-Hop Device 122
    Task 7: Configure Static Routing on
BRANCH 122
    Task 8: Configure Static Routing on
HQ 123
    Task 9: Configure Static Routing on
ISP 124
    Task 10: Verify the Configurations
125
    Task 11: Reflection 126
    Task 12: Document the Router
Configurations 126
    Task 13: Clean Up 126
    Packet Tracer Companion: Challenge
Static Route Configuration (2.8.2) 126
Lab 2-3: Troubleshooting
Static Routes (2.8.3) 126
    Task 1: Cable, Erase, and Reload the
Routers 128
    Task 2: Load Routers with the
Supplied Scripts 128
    Task 3: Troubleshoot the BRANCH
Router 129
    Task 4: Troubleshoot the HQ Router
131
    Task 5: Troubleshoot the ISP Router
132
    Task 6: Reflection 134
    Task 7: Documentation 134
    Packet Tracer Companion:
Troubleshooting Static Routes (2.8.3) 134
Packet Tracer Skills
Integration Challenge 134
    Introduction 134
    Task 1: Cable the Devices 135
    Task 2: Apply a Basic Configuration
135
    Task 3: Configure Static and Default
Routing 135
    Task 4: Test Connectivity and
Examine the Configuration 136
End Notes 136
 
Chapter 3 Introduction to
Dynamic Routing Protocols 137
Study Guide 138
Introduction and
Advantages 138
    Routing Protocols Evolution and
Classification Exercise 138
    Vocabulary Exercise: Matching (Key
Words) 139
    Dynamic Routing Protocol Concepts
Exercise 140
    Dynamic Versus Static Routing
Exercise 141
Classifying Dynamic
Routing Protocols 141
    Dynamic Routing Protocols
Classification Chart 142
    Dynamic Routing Protocols
Classification Exercise 142
Metrics 144
    Metric Parameters Exercise
144
Administrative Distances
145
    Concept of Administrative Distance
Exercise 145
    Routing Sources and Administrative
Distance Exercise 146
    Identifying Elements of the Routing
Table Exercise 146
Labs and Activities
148
Command Reference 148
Lab 3-1: Subnetting
Scenario 1 (3.5.2) 148
    Task 1: Examine the Network
Requirements 150
    Task 2: Design an IP Addressing
Scheme 150
    Task 3: Assign IP Addresses to the
Network Devices 151
    Task 4: Test the Network Design
151
    Task 5: Reflection 152
Lab 3-2: Subnetting
Scenario 2 (3.5.3) 152
    Task 1: Examine the Network
Requirements 155
    Task 2: Design an IP Addressing
Scheme 155
    Task 3: Assign IP Addresses to the
Network Devices 156
    Task 4: Test the Network Design
158
    Task 5: Reflection 158
Lab 3-3: Subnetting
Scenario 3 (3.5.4) 159
    Task 1: Examine the Network
Requirements 161
    Task 2: Design an IP Addressing
Scheme 161
    Task 3: Reflection 161
Packet Tracer Skills
Integration Challenge 162
    Introduction 162
    Task 1: Design and Document an
Addressing Scheme 163
    Task 2: Apply a Basic Configuration
164
    Task 3: Configure Static and Default
Routing 164
    Task 4: Test Connectivity and
Examine the Configuration 164
 
Chapter 4 Distance Vector
Routing Protocols 167
Study Guide 168
Introduction to Distance
Vector Routing Protocols 168
    Distance Vector Protocols Concepts
Exercise 168
    Routing Protocols Characteristics
Exercise 169
    Comparing Routing Protocol
Characteristics Exercise 170
Network Discovery
170
    Network Discovery Exercise
170
Routing Table Maintenance
172
    Distance Vector Table Maintenance
Techniques Exercise 172
Routing Loops 174
    Routing Loop Concepts Exercise
174
Distance Vector Routing
Protocols Today 176
    Comparing Distance Vector Routing
Protocols 176
Labs and Activities
177
Lab 4-1: Routing Table
Interpretation (4.6.1) 177
    Task 1: Examine the Router Output
177
    Task 2: Create a Diagram of the
Network Based on the Router Output 179
    Task 3: Create the Network 180
    Task 4: Configure the Routing
Protocol for Each Router 180
    Task 5: Document the Router
Configurations 181
    Task 6: Clean Up 181
    Packet Tracer Companion: Routing
Table Interpretation (4.6.1) 181
Packet Tracer Skills
Integration Challenge 181
    Introduction 181
    Task 1: Design and Document an
Addressing Scheme 182
    Task 2: Apply a Basic Configuration
185
    Task 3: Configure Static and Default
Routing 185
    Task 4: Test Connectivity and
Examine the Configuration 185
 
Chapter 5 RIP Version 1
187
Study Guide 188
RIPv1: Distance Vector,
Classful Routing Protocol 188
    RIP Concepts Exercise 188
Basic RIPv1 Configuration
190
    Document the Addressing Scheme
190
    Packet Tracer Exercise 5-1 191
    Configuring RIP as the Routing
Protocol 192
    Packet Tracer Exercise 5-1
(Continued) 193
Verification and
Troubleshooting 193
    show ip route Command 193
    Interpreting show ip route Output
194
    show ip protocols Command 194
    debug ip rip Command 195
    Passive Interfaces 196
    Packet Tracer Exercise 5-1
(Continued) 196
Automatic Summarization
197
    Automatic Summarization Concepts
197
    Automatic Summarization Example
198
Default Routes and RIPv1
199
    Default Routing Exercise 199
    Packet Tracer Exercise 5-2
200
Labs and Activities
202
Command Reference
202
Lab 5-1: Basic RIP
Configuration (5.6.1) 202
    Scenario A: Running RIPv1 on
Classful Networks 203
    Packet Tracer Companion: Basic RIP
Configuration (5.6.1a) 208
    Scenario B: Running RIPv1 with
Subnets and Between Classful Networks 208
    Packet Tracer Companion: Basic RIP
Configuration (5.6.1b) 212
    Scenario C: Running RIPv1 on a Stub
Network 213
    Packet Tracer Companion: Basic RIP
Configuration (5.6.1c) 216
Lab 5-2: Challenge RIP
Configuration (5.6.2) 217
    Task 1: Subnet the Address Space
218
    Task 2: Determine Interface
Addresses 219
    Task 3: Prepare the Network 219
    Task 4: Perform Basic Router
Configurations 219
    Task 5: Configure and Activate
Serial and Ethernet Addresses 220
    Task 6: Verify Connectivity to
Next-Hop Device 220
    Task 7: Configure RIP Routing on the
BRANCH Router 220
    Task 8: Configure RIP and Static
Routing on the HQ Router 221
    Task 9: Configure Static Routing on
the ISP Router 221
    Task 10: Verify the Configurations
221
    Task 11: Reflection 222
    Task 12: Document the Router
Configurations 222
    Task 13: Clean Up 223
    Packet Tracer Companion: Challenge
RIP Configuration (5.6.2) 223
Lab 5-3: RIP
Troubleshooting (5.6.3) 223
    Task 1: Cable, Erase, and Reload the
Routers 225
    Task 2: Load Routers with the
Supplied Scripts 225
    Task 3: Troubleshoot the BRANCH
Router 227
    Task 4: Troubleshoot the HQ Router
228
    Task 5: Troubleshoot the ISP Router
230
    Task 6: Reflection 232
    Task 7: Documentation 232
    Task 8: Clean Up 232
    Packet Tracer Companion: RIP
Troubleshooting (5.6.3) 233
Packet Tracer Skills
Integration Challenge 233
    Introduction 233
    Task 1: Design and Document an
Addressing Scheme 236
    Task 3: Apply a Basic Configuration
238
    Task 4: Configure Static Routing
Between ISP Routers 238
    Task 5: Configure RIPv1 Routing in
Region 1 and Region 2 238
    Task 6: Disable RIP Updates on
Appropriate Interfaces 239
    Task 7: Configure Default Routes and
Redistribute Through RIP 239
    Task 8: Verify Full Connectivity
Between All Devices in the Topology 239
 
Chapter 6 VLSM and CIDR
241
Study Guide 242
Classful and Classless
Addressing 242
    Move from Classful to Classless
Addressing Exercise 242
VLSM 244
    VLSM Addressing Design Exercises
244
    VLSM Addressing Design Scenarios
247
CIDR 255
    Calculating a Summary Route
Exercises 255
Labs and Activities
258
Activity 6-1: Basic VLSM
Calculation and Addressing Design (6.4.1) 258
    Task 1: Examine the Network
Requirements 259
    Task 2: Design an IP Addressing
Scheme 259
    Task 3: Assign IP Addresses to the
Network Devices 262
    Packet Tracer Companion: Basic VLSM
Calculation and Addressing Design (6.4.1) 264
Activity 6-2: Challenge
VLSM Calculation and Addressing
Design (6.4.2) 264
    Task 1: Examine the Network
Requirements 266
    Task 2: Divide the Network into
Three Subnetworks 266
    Task 3: Design an IP Addressing
Scheme for the Central Network 267
    Task 4: Design an IP Addressing
Scheme for the West Network 268
    Task 5: Design an IP Addressing
Scheme for the East Network 271
    Packet Tracer Companion: Challenge
VLSM Calculation and Addressing Design (6.4.2) 276
Activity 6-3:
Troubleshooting a VLSM Addressing Design (6.4.3) 276
    Task 1: Examine the Addressing for
the HQ LANs 277
    Task 2: Examine the Addressing for
the Branch1 LANs 278
    Task 3: Examine the Addressing for
the Branch2 LANs 279
    Task 4: Examine the Addressing for
the Links Between Routers 279
    Task 5: Document the Corrected
Addressing Information 280
    Packet Tracer Companion:
Troubleshooting a VLSM Addressing Design (6.4.3) 281
Activity 6-4: Basic Route
Summarization (6.4.4) 281
    Task 1: Determine the Summary Route
for the HQ LANs 282
    Task 2: Determine the Summary Route
for the EAST LANs 282
    Task 3: Determine the Summary Route
for the WEST LANs 283
    Task 4: Determine the Summary Route
for the HQ, EAST, and WEST LANs 283
    Packet Tracer Companion: Basic Route
Summarization (6.4.4) 283
Activity 6-5: Challenge
Route Summarization (6.4.5) 284
    Task 1: Determine the Summary Route
for the S-WEST LANs 286
    Task 2: Determine the Summary Route
for the NW-BR1 LANs 286
    Task 3: Determine the Summary Route
for the NW-BR2 LANs 286
    Task 4: Determine the Summary Route
for the Northwest Portion of the Network 287
    Task 5: Determine the Summary Route
for the West Portion of the Network 287
    Task 6: Determine the Summary Route
for the Central Portion of the Network 288
    Task 7: Determine the Summary Route
for the N-EAST LANs 288
    Task 8: Determine the Summary Route
for the SE-BR1 LANs 288
    Task 9: Determine the Summary Route
for the SE-BR2 LANs 289
    Task 10: Determine the Summary Route
for the SE-ST1 LANs 289
    Task 11: Determine the Summary Route
for the SE-ST2 LANs 289
    Task 12: Determine the Summary Route
for the Southeast Portion of the Network 290
    Task 13: Determine the Summary Route
for the East Portion of the Network 290
    Task 14: Determine the Summary Route
for the Entire Network 291
    Packet Tracer Companion: Challenge
Route Summarization (6.4.5) 291
Activity 6-6:
Troubleshooting Route Summarization (6.4.6) 291
    Task 1: Examine the Summary Routes
on the HQ Router 292
    Task 2: Examine the Summary Routes
on the WEST Router 293
    Task 3: Examine the Summary Routes
on the EAST Router 293
    Task 4: Examine the Summary Route on
the ISP Router 293
    Task 5: Document the Corrected
Summary Routes 293
    Packet Tracer Companion:
Troubleshooting Route Summarization (6.4.6) 294
Packet Tracer Skills
Integration Challenge: VLSM and CIDR 294
    Task 1: Design and Document an
Addressing Scheme 297
    Task 3: Apply a Basic Configuration
300
    Task 4: Configure Static Routing
Between ISP Routers 300
    Task 5: Configure RIPv2 Routing in
Region 1 and Static Routing in Region 2 300
    Task 6: Disable RIP Updates on
Appropriate Interfaces 300
    Task 7: Configure Default Routes and
Redistribute Through RIP 300
    Task 8: Verify Full Connectivity
Between All Devices in the Topology 301
Chapter 7 RIPv2 303
Study Guide 304
RIPv1 Limitations
304
    Documenting the Addressing Scheme
304
    Packet Tracer Exercise 7-1 306
    Dynamic and Static Routing
Configuration 307
    Packet Tracer Exercise 7-1 308
    Concept Questions 308
Configuring RIPv2
310
    RIPv2 Message Format 310
    RIPv2 Configurations 311
    Packet Tracer Exercise 7-1 312
    Task 4: Save the Packet Tracer File
312
    RIPv2 and VLSM 312
    RIPv2 and CIDR 313
Verifying and
Troubleshooting RIPv2 313
    Verification and Troubleshooting
Commands 313
    Common RIPv2 Issues 314
    Authentication 314
Labs amd Activities
315
Command Reference 315
Lab 7-1: RIPv2 Basic
Configuration (7.5.1) 315
    Task 1: Cable, Erase, and Reload the
Routers 316
    Task 2: Load Routers with the
Supplied Scripts 317
    Task 3: Examine the Current Status
of the Network 319
    Task 4: Configure RIP Version 2
321
    Task 5: Examine the Automatic
Summarization of Routes 322
    Task 6: Disable Automatic
Summarization 324
    Task 7: Examine the Routing Tables
324
    Task 8: Verify Network Connectivity
325
    Task 9: Documentation 326
    Task 10: Clean Up 326
    Packet Tracer Companion: RIPv2 Basic
Configuration (7.5.1) 326
Lab 7-2: RIPv2 Challenge
Configuration (7.5.2) 327
    Task 1: Subnet the Address Space
327
    Task 2: Determine Interface
Addresses 328
    Task 3: Prepare the Network 330
    Task 4: Perform Basic Router
Configurations 330
    Task 5: Configure and Activate
Serial and Ethernet Addresses 330
    Task 6: Verify Connectivity to the
Next-Hop Device 330
    Task 7: Configure RIPv2 Routing on
the BRANCH Router 331
    Task 8: Configure RIPv2 and Static
Routing on HQ 331
    Task 9: Configure Static Routing on
the ISP Router 332
    Task 10: Verify the Configurations
332
    Task 11: Reflection 333
    Task 12: Document the Router
Configurations 333
    Task 13: Clean Up 333
    Packet Tracer Companion: RIPv2
Challenge Configuration (7.5.2) 334
Lab 7-3: RIPv2
Troubleshooting (7.5.3) 334
    Task 1: Cable, Erase, and Reload the
Routers 336
    Task 2: Load Routers with the
Supplied Scripts 336
    Task 3: Troubleshoot the BRANCH1
Router 338
    Task 4: Troubleshoot HQ 340
    Task 5: Troubleshoot BRANCH2 342
    Task 6: Reflection 345
    Task 7: Documentation 345
    Task 8: Clean Up 345
    Packet Tracer Companion:
Troubleshooting RIPv2 Configuration (7.5.3) 345
Packet Tracer Skills
Integration Challenge: Configuring and Troubleshooting RIPv2 346
    Task 1: Design and Document an
Addressing Scheme 347
    Task 2: Select Equipment and Cable
Devices 348
    Task 3: Apply a Basic Configuration
348
    Task 4: Test Connectivity 348
    Task 5: Configure and Verify RIPv2
Routing 348
    Task 6: Configure Static and Default
Routing 349
Task 7: Test Connectivity
and Examine the Configuration 349
    Chapter 8 The Routing Table: A
Closer Look 351
Study Guide 352
Routing Table Structure
352
    Level 1 and Level 2 Routes 352
    Parent and Child Routes 353
Routing Table Lookup
Process 355
    Complete the Chart 355
    Routing Table Lookup Exercise
355
Routing Behavior
357
    Classful and Classless Routing
Behavior 357
    Determine the Route 358
    Determine the Topology 359
Labs and Activities
364
Command Reference 364
Lab 8-1: Investigating the
Routing Table Lookup Process (8.4.1) 364
    Scenario A: Level 1 and Level 2
Routes 365
    Packet Tracer Companion:
Investigating the Routing Table Lookup Process (8.4.1) 369
    Scenario B: Classful and Classless
Routing Behavior 369
Lab 8-2: show ip route
Challenge (8.4.2) 372
    Task 1: Examine the Router Outputs
372
    Task 2: Create a Diagram of the
Network Based on the show ip route Output on Routers R1—R5 375
    Task 3: Build and Configure the
Diagram Using Packet Tracer 376
    Task 4: Identify Routing Processes
377
    Packet Tracer Companion: show ip
route Challenge Lab (8.4.2) 378
Packet Tracer Skills
Integration Challenge 379
    Introduction 379
    Task 1: Design and Document an
Addressing Scheme 382
    Task 2: Apply a Basic Configuration
385
    Task 3: Configure Static Routing
Between ISP Routers 385
    Task 4: Configure RIPv2 Routing in
Both Regions 385
    Task 5: Disable RIP Updates on
Appropriate Interfaces 385
    Task 6: Configure Default Routes and
Redistribute Through RIP 385
    Task 7: Verify Full Connectivity
Between All Devices in the Topology 385
Chapter 9 EIGRP 387
Study Guide 388
Introduction to EIGRP
388
    Vocabulary Exercise: Matching
389
    EIGRP Concepts Exercise 390
Basic EIGRP Configuration
395
    Documenting the Addressing Scheme
395
    Packet Tracer Exercise 9-1 398
    Configuring EIGRP as the Routing
Protocol 398
    Verifying EIGRP 399
    Packet Tracer Exercise 9-1
(Continued) 401
EIGRP Metric Calculation
402
    EIGRP Metric Concepts 402
    Modifying the Bandwidth 402
    Packet Tracer Exercise 9-1
(Continued) 403
DUAL 403
    DUAL Concepts Exercise 404
    DUAL FSM Completion Exercise
406
More EIGRP Configurations
407
    Manual Summarization Exercise
407