Routing and Switching Essentials V6 Labs & Study Guide

Routing and Switching Essentials V6 Labs & Study Guide

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The only authorized Labs & Study Guide for the Cisco Networking Academy Routing and Switching Essentials course in the CCNA Routing and Switching curriculum Each chapter of this book is divided into a Study Guide section followed by a Lab section. The Study Guide section offers exercises that help you learn the concepts, configurations, and troubleshooting skills crucial to your success as a CCENT exam candidate. Each chapter is slightly different and includes some or all the following types of exercises: *Vocabulary Matching Exercises*Concept Questions Exercises*Skill-Building Activities and Scenarios*Configuration Scenarios*Packet Tracer Exercises*Troubleshooting Scenarios The Labs & Activities include all the online course Labs and Packet Tracer activity instructions. If applicable, this section begins with a Command Reference that you will complete to highlight all the commands introduced in the chapter.show more

Product details

  • Paperback | 544 pages
  • 216 x 276 x 33.02mm | 1,210g
  • Pearson Education (US)
  • Cisco Press
  • Indianapolis, United States
  • English
  • Lab Manual, Study Guide
  • 1587134268
  • 9781587134265
  • 1,128,534

About Cisco Networking Academy

Cisco Networking Academy is an innovative Cisco education initiative that delivers information and communication technology skills to improve career and economic opportunities around the world. The Academy provides online courses, interactive tools, and lab activities to prepare individuals for information technology and networking careers in virtually every industry.show more

Table of contents

Introduction xxxvii Chapter 1 Routing Concepts 1 Study Guide 2 Router Initial Configuration 2 Router Functions 2 External Router Features 5 Topology and Addressing Documentation 6 Configure and Verify Dual-Stack IPv4 and IPv6 Addressing 7 Packet Tracer Exercise 1-1: Dual Stack Addressing 9 Verify Connectivity of Directly Connected Networks 9 Routing Decisions 12 Switching Packets Between Networks 12 Path Determination 13 Administrative Distance Exercise 15 Router Operation 15 Analyze the Routing Table 15 Directly Connected, Static, and Dynamic Routes 17 Labs and Activities 19 Command Reference 19 1.0.1.2 Lab-Do We Really Need a Map? 21 Objectives 21 Scenario 21 Resources 21 Reflection 21 1.1.1.8 Packet Tracer-Using Traceroute to Discover the Network 23 Topology 23 Scenario 23 Trace and Document a Remote Location 23 Addressing Scheme Documentation 25 Topology Documentation 25 Suggested Scoring Rubric 26 Hints-Command Summary Reference 26 DOS Commands 26 IOS Commands 26 1.1.1.9 Lab-Mapping the Internet 27 Objectives 27 Background/Scenario 27 Required Resources 27 Part 1: Determine Network Connectivity to a Destination Host 28 Part 2: Trace a Route to a Remote Server Using Tracert 28 Reflection 29 1.1.2.9 Packet Tracer-Documenting the Network 30 Topology 30 Background 30 Requirements 30 Addressing Scheme and Device Connection Documentation 31 Hints 31 1.1.3.5 Packet Tracer-Configuring IPv4 and IPv6 Interfaces 32 Topology 32 Addressing Table 32 Objectives 32 Background 33 Part 1: Configure IPv4 Addressing and Verify Connectivity 33 Part 2: Configure IPv6 Addressing and Verify Connectivity 33 1.1.4.5 Packet Tracer-Configuring and Verifying a Small Network 34 Topology 34 Addressing Table 34 Objectives 34 Background 34 Part 1: Configure Devices and Verify Connectivity 35 Part 2: Gather Information with Show Commands 35 Suggested Scoring Rubric 36 1.1.4.6 Lab-Configuring Basic Router Settings with IOS CLI 37 Topology 37 Addressing Table 37 Objectives 37 Background/Scenario 37 Required Resources 38 Part 1: Set Up the Topology and Initialize Devices 38 Part 2: Configure Devices and Verify Connectivity 38 Part 3: Display Router Information 42 Part 4: Configure IPv6 and Verify Connectivity 43 Reflection 44 Router Interface Summary Table 44 Appendix A: Initializing and Reloading a Router and Switch 45 1.3.2.5 Packet Tracer-Investigating Directly Connected Routes 47 Topology 47 Objectives 47 Background 47 Part 1: Investigate IPv4 Directly Connected Routes 47 Part 2: Investigate IPv6 Directly Connected Routes 48 Suggested Scoring Rubric 50 1.4.1.1 Lab-We Really Could Use a Map! 51 Objectives 51 Scenario 51 Resources 51 Reflection 52 Chapter 2 Static Routing 53 Study Guide 54 Implement Static Routes 54 Static Routing 54 Types of Static Routes 55 Configure Static and Default Routes 55 Configuring IPv4 Static and Default Routes 55 Configuring IPv6 Static and Default Routes 57 Packet Tracer Exercise 2-1: Configuring Static and Default Routes 61 Troubleshoot Static and Default Route Issues 62 IPv4 Static and Default Route Implementation 62 IPv6 Static and Default Route Implementation 62 Labs and Activities 63 Command Reference 63 2.0.1.2 Lab-Which Way Should We Go? 64 Objectives 64 Scenario 64 Required Resources 64 Reflection 64 2.2.2.4 Packet Tracer-Configuring IPv4 Static and Default Routes 65 Topology 65 Addressing Table 65 Objectives 65 Background 66 Part 1: Examine the Network and Evaluate the Need for Static Routing 66 Part 2: Configure Static and Default Routes 66 Part 3: Verify Connectivity 68 Suggested Scoring Rubric 68 2.2.2.5 Lab-Configuring IPv4 Static and Default Routes 69 Topology 69 Addressing Table 69 Objectives 69 Background/Scenario 70 Required Resources 70 Part 1: Set Up the Topology and Initialize Devices 70 Part 2: Configure Basic Device Settings and Verify Connectivity 71 Part 3: Configure Static Routes 72 Part 4: Configure and Verify a Default Route 74 Reflection 74 Router Interface Summary Table 75 Appendix A: Configuration Commands for Parts 2, 3, and 4 76 Basic Device Settings 76 Static Route Configurations 76 Default Route Configuration 76 2.2.4.4 Packet Tracer-Configuring IPv6 Static and Default Routes 77 IPv6 Addressing Table 77 Objectives 77 Background 77 Part 1: Examine the Network and Evaluate the Need for Static Routing 78 Part 2: Configure IPv6 Static and Default Routes 78 Part 3: Verify Network Connectivity 79 Suggested Scoring Rubric 79 2.2.4.5 Lab-Configuring IPv6 Static and Default Routes 80 Topology 80 Addressing Table 80 Objectives 80 Background/Scenario 81 Required Resources 81 Part 1: Build the Network and Configure Basic Device Settings 81 Part 2: Configure IPv6 Static and Default Routes 85 Reflection 87 Router Interface Summary Table 88 2.2.5.5 Packet Tracer-Configuring Floating Static Routes 89 Topology 89 Objectives 89 Background 89 Part 1: Configure an IPv4 Floating Static Route 89 Part 2: Test Failover to the IPv4 Floating Static Route 90 Part 3: Configure and Test Failover to an IPv6 Floating Static Route 91 Suggested Scoring Rubric 93 2.3.2.3 Packet Tracer-Troubleshooting Static Routes 94 Topology 94 Addressing Table 94 Objectives 94 Background 94 Part 1: Locate the Problem 95 Part 2: Determine the Solution 95 Part 3: Implement the Solution 95 Part 4: Verify That the Issue Is Resolved 95 Suggested Scoring Rubric 95 2.3.2.4 Lab-Troubleshooting IPv4 and IPv6 Static Routes 96 Topology 96 Addressing Table 96 Objectives 97 Background/Scenario 97 Required Resources 98 Part 1: Build the Network and Configure Basic Device Settings 98 Part 2: Troubleshoot Static Routes in an IPv4 Network 100 Part 3: Troubleshoot Static Routes in an IPv6 Network 103 Router Interface Summary Table 106 2.4.1.1 Class Activity-Make It Static! 107 Objectives 107 Resources 107 Chapter 3 Dynamic Routing 109 Study Guide 110 Dynamic Routing Protocols 110 Dynamic Routing Protocol Overview 110 Compare Static and Dynamic Routing 110 RIPv2 110 Configuring the RIP Protocol 111 Packet Tracer Exercise 3-1: Configuring RIPv2 112 The Routing Table 113 Parts of an IPv4 Route Entry 113 Dynamically Learned IPv4 Routes 114 The IPv4 Route Lookup Process 116 Analyze an IPv6 Routing Table 117 Labs and Activities 119 Command Reference 119 3.0.1.2 Lab-How Much Does This Cost? 120 Objectives 120 Scenario 120 Activity 1 120 Activity 2 120 Required Resources 120 Scenario-Part 2 Recording Matrix 121 Reflection Questions 121 3.2.1.8 Packet Tracer-Configuring RIPv2 122 Topology 122 Objectives 122 Background 122 Part 1: Configure RIPv2 122 Part 2: Verify Configurations 124 3.2.1.9 Lab-Configuring Basic RIPv2 125 Topology 125 Addressing Table 125 Objectives 126 Background/Scenario 126 Required Resources 126 Part 1: Build the Network and Configure Basic Device Settings 127 Part 2: Configure and Verify RIPv2 Routing 127 Reflection 132 Router Interface Summary Table 133 3.4.1.1 Class Activity-IPv6 - Details, Details... 134 Objectives 134 Scenario 134 Required Resources 134 Reflection 134 Chapter 4 Switched Networks 137 Study Guide 138 LAN Design 138 LAN Design Principles 138 Selecting Switch Hardware 139 The Switched Environment 139 Frame Forwarding Methods and Terminology 139 Building the MAC Address Table 140 Collision and Broadcast Domains 141 Labs and Activities 144 Command Reference 144 4.0.1.2 Lab Sent or Received 145 Objectives 145 Scenario 145 Resources 145 Reflection 145 4.3.1.1 Lab-It's Network Access Time 146 Objectives 146 Scenario 146 Reflection 146 Chapter 5 Switch Configuration 147 Study Guide 148 Basic Switch Configuration 148 Switch Boot Sequence 148 Half-Duplex, Full-Duplex, and Auto-MDIX 148 Configure a Switch with Initial Settings 148 Switch Security 152 Secure Remote Access with SSH 152 Switch Port Security 153 Packet Tracer Exercise 5-1: Configuring Secure Access and Port Security 156 Labs and Activities 157 Command Reference 157 5.0.1.2 Lab-Stand By Me 158 Objective 158 Scenario 158 Reflection 158 5.1.1.6 Lab-Configuring Basic Switch Settings 159 Topology 159 Addressing Table 159 Objectives 159 Background/Scenario 159 Required Resources 160 Part 1: Cable the Network and Verify the Default Switch Configuration 160 Part 2: Configure Basic Network Device Settings 163 Part 3: Verify and Test Network Connectivity 165 Part 4: Manage the MAC Address Table 168 Reflection 170 Appendix A: Initializing and Reloading a Switch 170 5.2.1.4 Packet Tracer-Configuring SSH 172 Topology 172 Addressing Table 172 Objectives 172 Background 172 Part 1: Secure Passwords 172 Part 2: Encrypt Communications 173 Part 3: Verify SSH Implementation 173 5.2.2.7 Packet Tracer-Configuring Switch Port Security 174 Topology 174 Addressing Table 174 Objective 174 Background 174 Part 1: Configure Port Security 174 Part 2: Verify Port Security 175 5.2.2.8 Packet Tracer-Troubleshooting Switch Port Security 176 Topology 176 Scenario 176 Requirements 176 Suggested Scoring Rubric 176 5.2.2.9 Lab-Configuring Switch Security Features 177 Topology 177 Addressing Table 177 Objectives 177 Background/Scenario 177 Required Resources 178 Part 1: Set Up the Topology and Initialize Devices 178 Part 2: Configure Basic Device Settings and Verify Connectivity 178 Part 3: Configure and Verify SSH Access on S1 180 Part 4: Configure and Verify Security Features on S1 182 Reflection 186 Router Interface Summary Table 186 5.3.1.1 Lab-Switch Trio 187 Objective 187 Scenario 187 Reflection 187 5.3.1.2 Packet Tracer-Skills Integration Challenge 188 Topology 188 Addressing Table 188 Scenario 188 Requirements 188 Chapter 6 VLANs 191 Study Guide 192 VLAN Segmentation 192 Overview of VLANs 192 VLANs in a Multiswitched Environment 193 VLAN Implementations 194 VLAN Configuration Exercise 194 Practice VLAN Configuration 198 VLAN Trunk Configuration Exercise 198 Packet Tracer Exercise 6-1: Configuring VLANs and Trunking 199 Troubleshoot VLANs and Trunks 199 Inter-VLAN Routing Configuration 201 Types of Inter-VLAN Routing 201 Configuring Inter-VLAN Routing 202 Packet Tracer Exercise 6-2: Configuring Inter-VLAN Routing 204 Labs and Activities 205 Command Reference 205 Lab 6.0.1.2-Vacation Station 206 Objective 206 Scenario 206 Reflection 207 6.1.1.5 Packet Tracer-Who Hears the Broadcast? 208 Topology 208 Objectives 208 Scenario 208 Part 1: Observe Broadcast Traffic in a VLAN Implementation 208 Part 2: Complete Review Questions 209 Suggested Scoring Rubric 209 6.1.2.7 Packet Tracer-Investigating a VLAN Implementation 210 Topology 210 Addressing Table 210 Objectives 211 Background 211 Part 1: Observe Broadcast Traffic in a VLAN Implementation 211 Part 2: Observe Broadcast Traffic without VLANs 212 Part 3: Complete Reflection Questions 212 Suggested Scoring Rubric 213 6.2.1.7 Packet Tracer-Configuring VLANs 214 Topology 214 Addressing Table 214 Objectives 214 Background 214 Part 1: View the Default VLAN Configuration 215 Part 2: Configure VLANs 215 Part 3: Assign VLANs to Ports 216 Suggested Scoring Rubric 216 6.2.2.4 Packet Tracer-Configuring Trunks 217 Topology 217 Addressing Table 217 Objectives 217 Background 217 Part 1: Verify VLANs 218 Part 2: Configure Trunks 218 Suggested Scoring Rubric 219 6.2.2.5 Lab-Configuring VLANs and Trunking 220 Topology 220 Addressing Table 220 Objectives 220 Background/Scenario 220 Required Resources 221 Part 1: Build the Network and Configure Basic Device Settings 221 Part 2: Create VLANs and Assign Switch Ports 222 Part 3: Maintain VLAN Port Assignments and the VLAN Database 225 Part 4: Configure an 802.1Q Trunk Between the Switches 227 Part 5: Delete the VLAN Database 230 Reflection 231 6.2.3.7 Packet Tracer-Troubleshooting a VLAN Implementation Scenario 1 232 Topology 232 Addressing Table 232 Objectives 232 Scenario 232 Part 1: Test Connectivity Between PCs on the Same VLAN 233 Part 2: Investigate Connectivity Problems by Gathering Data 233 Part 3: Implement the Solution and Test Connectivity 234 Suggested Scoring Rubric 234 6.2.3.8 Packet Tracer-Troubleshooting a VLAN Implementation Scenario 2 235 Topology 235 Addressing Table 235 VLAN and Port Assignments 235 Objectives 236 Background 236 Part 1: Discover and Document Issues in the Network 236 Documentation 236 Part 2: Implement the Solution and Test Connectivity 236 Suggested Scoring Rubric 236 6.2.3.9 Lab-Troubleshooting VLAN Configurations 237 Topology 237 Addressing Table 237 Switch Port Assignment Specifications 237 Objectives 237 Background/Scenario 238 Required Resources 238 Part 1: Build the Network and Configure Basic Device Settings 238 Part 2: Troubleshoot VLAN 10 240 Part 3: Troubleshoot VLAN 20 241 Reflection 242 6.3.2.4 Lab-Configuring Per-Interface Inter-VLAN Routing 243 Topology 243 Addressing Table 243 Objectives 243 Background/Scenario 244 Required Resources 244 Part 1: Build the Network and Configure Basic Device Settings 244 Part 2: Configure Switches with VLANs and Trunking 245 Part 3: Verify Trunking, VLANs, Routing, and Connectivity 246 Reflection 246 Router Interface Summary Table 247 Appendix A: Configuration Commands 247 Switch S1 247 Switch S2 248 6.3.3.6 Packet Tracer-Configuring Router-on-a-Stick Inter-VLAN Routing 249 Topology 249 Addressing Table 249 Objectives 249 Scenario 249 Part 1: Test Connectivity Without Inter-VLAN Routing 249 Part 2: Add VLANs to a Switch 250 Part 3: Configure Subinterfaces 251 Part 4: Test Connectivity with Inter-VLAN Routing 251 Suggested Scoring Rubric 251 6.3.3.7 Lab-Configuring 802.1Q Trunk-Based Inter-VLAN Routing 252 Topology 252 Addressing Table 252 Switch Port Assignment Specifications 253 Objectives 253 Background/Scenario 253 Required Resources 253 Part 1: Build the Network and Configure Basic Device Settings 254 Part 2: Configure Switches with VLANs and Trunking 255 Part 3: Configure Trunk-Based Inter-VLAN Routing 256 Reflection 257 Router Interface Summary Table 257 Appendix A-Configuration Commands 257 Switch S1 257 Switch S2 258 Router R1 258 6.3.3.8 Packet Tracer-Inter-VLAN Routing Challenge 259 Topology 259 Addressing Table 259 VLAN and Port Assignments Table 259 Scenario 260 Requirements 260 6.4.1.1 Lab-The Inside Track 261 Objective 261 Scenario 261 Resources 261 Directions 261 6.4.1.2 Packet Tracer-Skills Integration Challenge 263 Topology 263 Addressing Table 263 VLAN Table 263 Scenario 264 Requirements 264 Chapter 7 Access Control Lists 265 Study Guide 266 ACL Operation 266 Calculating Wildcard Masks 266 Wildcard Mask in Operation 267 Guidelines for ACL Creation 268 Guidelines for ACL Placement 268 Standard IPv4 ACLs 269 Configuring Standard IPv4 ACLs 269 Modifying IPv4 ACLs 272 Securing vty Ports with a Standard IPv4 ACL 272 Troubleshoot ACLs 273 Labs and Activities 274 Command Reference 274 7.0.1.2 Permit Me to Assist You 275 Objective 275 Scenario 275 Reflection 275 7.1.1.4 Packet Tracer-Access Control List Demonstration 276 Topology 276 Objectives 276 Background 276 Part 1: Verify Local Connectivity and Test Access Control List 276 Part 2: Remove ACL and Repeat Test 277 Suggested Scoring Rubric 278 7.2.1.6 Packet Tracer-Configuring Numbered Standard IPv4 ACLs 279 Topology 279 Addressing Table 279show more