CCNP Building Scalable Internetworks (BSCI 642-901) Lab Portfolio (Cisco Networking Academy)

CCNP Building Scalable Internetworks (BSCI 642-901) Lab Portfolio (Cisco Networking Academy)

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CCNPBuildingScalable Internetworks (BSCI 642-901) Lab Portfolio provides you with opportunities for hands-on practice to master the technologies necessary to configure advanced routing on a production network. The labs reinforce your understanding of how to install, configure, monitor, and troubleshoot network infrastructure equipment. You will apply your knowledge of configuration of EIGRP, OSPF, IS-IS, and BGP routing protocols and how to manipulate and optimize routing updates between these protocols. Other topics covered include multicast routing, IPv6, and DHCP configuration. Those preparing for the Building Scalable Cisco Internetworks (BSCI 642-901) certification exam should work through this book cover-to-cover. Or if you need to quickly review configuration examples, you can go directly to the relevant chapter. CCNPBuildingScalable Internetworks (BSCI 642-901) Lab Portfolio includes *33 Labs built to support v5 of the Building Scalable Internetworks course within the Cisco(R) Networking Academy(R) curriculum providing ample opportunity to practice. *6 Challenge and Troubleshooting Labs have been added to the Lab Portfolio to further test your mastery of the topics.* 4 Case Studies provide practice in planning, designing, and implementing EIGRP, OSPF, and BGP networks. Even if you do not have the actual equipment to configure these more complex topologies, it is worth reading through these labs to expand your thinking into more complex networking solutions. By successfully completing the exercises in this book you will gain the experience necessary to use advanced IP addressing and routing in implementing scalability for Cisco integrated services routers (ISR) connected to LANs and WANs.show more

Product details

  • Paperback | 600 pages
  • 212 x 274 x 36mm | 1,338.09g
  • Pearson Education (US)
  • Cisco Press
  • Indianapolis, United States
  • English
  • 1587132133
  • 9781587132131
  • 1,149,934

Table of contents

Chapter 1 Scalable Network Design 1 Lab 1-1: BSCI Lab Configuration Guide (1.5.1) 1 Lab 1-2: TCL Script Reference and Demonstration (1.5.1) 3 Quick TCL Reference 3 Step 1: Initial Configuration 4 Step 2: Verify Connectivity 5 Step 3: Resolve Connectivity Issues 10 Conclusion 14 Chapter 2 EIGRP 15 Lab 2-1: EIGRP Configuration, Bandwidth, and Adjacencies (2.7.1) 15 Scenario 15 Step 1: Addressing 16 Step 2: Configuring EIGRP Across VLAN1 17 Step 3: Verifying the EIGRP Configuration 19 Step 4: Configuring EIGRP on the Serial Interfaces 20 Step 5: Configuring Network Statement Wildcard Masks 22 Challenge: Topology Change 23 Lab 2-2: EIGRP Load Balancing (2.7.2) 26 Scenario 26 Step 1: Addressing and Serial Configuration 26 Step 2: EIGRP Configuration 29 Step 3: EIGRP Topology Table 32 Step 4: Equal-Cost Load Balancing 34 Step 5: Alternate EIGRP Paths Not in the Topology Table 35 Step 6: Unequal-Cost Load Balancing 38 Initial Configurations 45 TCL Script Output 47 Lab 2-3: Summarization and Default Network Advertisement (2.7.3) 53 Scenario 53 Step 1: Initial Configuration 54 Step 2: Summarization Analysis 57 Step 3: EIGRP Auto-Summarization 61 Step 4: EIGRP Manual Summarization 70 Step 5: Default Network Advertisement 72 Conclusion 77 TCL Script Output 79 Analyzing Major Networks 86 Lab 2-4: EIGRP Frame Relay Hub and Spoke: Router Used as Frame Switch (2.7.4) 89 Scenario 90 Step 1: Addressing 90 Step 2: Configuring the Frame Relay Switch 91 Step 3: Configuring the Frame Relay Endpoints 92 Step 4: Setting Interface-Level Bandwidth 94 Step 5: Configuring EIGRP 95 Step 6: Using Nonbroadcast EIGRP Mode 99 Step 7: Implementing EIGRP Manual Summarization 100 TCL Script Output 102 Lab 2-5: EIGRP Frame Relay Hub and Spoke: Adtran Used as Frame Switch (2.7.4) 110 Scenario 111 Step 1: Addressing 111 Step 2: Frame Relay Network 112 Step 3: Configuring the Frame Relay Endpoints 113 Step 4: Setting Interface-Level Bandwidth 114 Step 5: Configuring EIGRP 115 Step 6: Using Nonbroadcast EIGRP Mode 119 Step 7: Implementing EIGRP Manual Summarization 120 TCL Script Output 122 Lab 2-6: EIGRP Authentication and Timers (2.7.5) 131 Scenario 131 Step 1: Addressing 131 Step 2: Configuring Basic EIGRP 133 Step 3: Configuring Authentication Keys 134 Step 4: Configuring EIGRP Link Authentication 135 Step 5: Manipulating EIGRP Timers 139 TCL Script Output 142 Lab 2-7: EIGRP Challenge Lab (2.7.6) 147 Lab 2-8: EIGRP Troubleshooting Lab (2.7.7) 148 Initial Configurations 148 Chapter 3 OSPF 151 Lab 3-1: Single-Area OSPF Link Costs and Interface Priorities (3.11.1) 151 Scenario 151 Step 1: Addressing 152 Step 2: Adding Physical Interfaces to OSPF 153 Step 3: OSPF show Commands 154 Step 4: Adding Loopback Interfaces to OSPF 157 Step 5: Modifying Link Costs in OSPF 159 Step 6: Modifying Interface Priorities 161 Challenge: Topology Change 162 TCL Script Verification 163 Lab 3-2: Multiple-Area OSPF with Stub Areas and Authentication (3.11.2) 167 Scenario 167 Step 1: Addressing 167 Step 2: Adding Interfaces into OSPF 168 Step 3: Stub Areas 171 Step 4: Totally Stubby Areas 173 Step 5: Not So Stubby Areas 176 Step 6: OSPF Interface Authentication 181 TCL Script Output 182 Lab 3-3: OSPF Virtual Links and Area Summarization (3.11.3) 187 Scenario 187 Step 1: Addressing 188 Step 2: Adding Interfaces into OSPF 189 Step 3: Creating a Virtual Link 190 Step 4: Summarizing an Area 193 Step 5: Generating a Default Route into OSPF 195 Challenge: Configure OSPF Authentication 197 TCL Connectivity Verification 197 Lab 3-4: OSPF over Frame Relay Using a Router as the Frame Relay Switch (3.11.4a) 202 Scenario 203 Step 1: Addressing 203 Step 2: Setting Up NBMA OSPF 204 Step 3: Changing the Network Type to Point-to-Multipoint 205 Step 4: Changing OSPF Timers 207 Challenge: Minimal Hello Intervals 208 TCL Connectivity Verification 209 Lab 3-5: OSPF Over Frame Relay Using an Adtran as the Frame Relay Switch (3.11.4b) 213 Scenario 213 Step 1: Addressing 214 Step 2: Setting Up NBMA OSPF 215 Step 3: Changing the Network Type to Point-to-Multipoint 216 Step 4: Changing OSPF Timers 218 Challenge: Minimal Hello Intervals 219 TCL Connectivity Verification 220 Lab 3-6: OSPF Challenge Lab (3.11.5) 224 Lab 3-7: OSPF Troubleshooting Lab (3.11.6) 225 Initial Configurations 226 Chapter 4 IS-IS 229 Lab 4-1: Configuring Basic Integrated IS-IS (4.7.1) 229 Scenario 229 Step 1: Addressing and Basic Connectivity 230 Step 2: Configuring Basic IS-IS 230 Step 3: Verifying IS-IS Adjacencies and Operation 231 Step 4: Converting to the IS-IS Backbone 237 Step 5: Manipulating the IS-IS Interface Timers 239 Step 6: Implementing IS-IS L2 Core Authentication 240 Step 7: Implementing IS-IS Domain Authentication 241 TCL Script Output 243 Lab 4-2 Multi-Area Integrated IS-IS (4.7.2) 246 Scenario 246 Step 1: Addressing and Initial Configuration 246 Step 2: Verify IS-IS Initial Operation 247 Step 3: Configure IS-IS Area 2 248 Step 4: Verify IS-IS Multi-Area Operation 248 Step 5: Configure IS-IS Domain Authentication 250 Step 6: Reconfigure IS-IS Area 1 251 Step 7: Reconfigure R3 IS-IS Operation 254 Step 8: Verify IS-IS Intra-Area Operation 255 Reflection 257 TCL Script Output 257 Lab 4-3: Configuring IS-IS over Frame Relay: Router Used as Frame Switch (4.7.3a) 260 Scenario 261 Step 1: Addressing and Basic Configuration 261 Step 2: Frame Relay Configuration 261 Step 3: Configure and Verify IS-IS over Frame Relay 263 Step 4: Verify IS-IS Connectivity 265 Step 5: Demonstrate IS-IS Interface-Type Mismatch 265 Router as Frame Relay Switch Configuration 267 TCL Script Output 268 Lab 4-4: Configuring IS-IS over Frame Relay: Adtran Used as Frame Switch (4.7.3b) 271 Scenario 271 Step 1: Addressing and Basic Configuration 271 Step 2: Frame Relay Configuration 272 Step 3: Configure and Verify IS-IS over Frame Relay 274 Step 4: Verify IS-IS Connectivity 276 Step 5: Demonstrate IS-IS Interface-Type Mismatch 276 TCL Script Output 278 Chapter 5 Route Optimization 281 Lab 5-1: Redistribution Between RIP and OSPF (5.6.1) 281 Scenario 282 Step 1: Assign Addresses 282 Step 2: Configure RIPv2 284 Step 3: Configure Passive Interfaces in RIP 286 Step 4: Summarize a Supernet with RIP 288 Step 5: Suppress Routes Using Prefix Lists 290 Step 6: Configure OSPF 292 Step 7: Configure Passive Interfaces in OSPF 293 Step 8: Allow One-Way Redistribution 295 Step 9: Redistribute Between Two Routing Protocols 297 Step 10: Set a Default Seed Metric 297 Step 11: Change the OSPF External Network Type 298 Challenge: Use Extended Access Lists for Filtering 299 TCL Script Output: Steps 8 and 9 300 Lab 5-2 Redistribution Between EIGRP and OSPF (5.6.2) 307 Scenario 307 Step 1: Additional Addressing 308 Step 2: Configuring EIGRP 308 Step 3: Create Passive Interfaces in EIGRP 309 Step 4: Manually Summarize with EIGRP 311 Step 5: Additional OSPF Configuration 312 Step 6: Summarize OSPF Areas at the ABR 314 Step 7: Mutually Redistribute Between OSPF and EIGRP 315 Step 8: Filter Redistribution with Route Maps 319 Step 9: Summarize External Routes into OSPF at the ASBR 320 Step 10: Modifying EIGRP Distances 321 Step 11: Modifying OSPF Distances 322 Challenge: Change Administrative Distance on R2 324 TCL Script Output 325 Exploring Black Hole Operation 333 Lab 5-3: Redistribution Between EIGRP and IS-IS (5.6.3) 337 Scenario 337 Step 1: Assign Addresses 338 Step 2: Configure EIGRP 339 Step 3: Configure IS-IS 340 Step 4: Mutually Redistribute Between IS-IS and EIGRP 342 Step 5: Filter Network Addresses with Route Maps 344 Step 6: Filter Prefixes with Route Maps 347 Step 7: Summarize Addresses in IS-IS 349 TCL Script Output 350 Lab 5-4: Manipulating Administrative Distances (5.6.4) 357 Scenario 357 Pre-Lab: Review of Administrative Distances 358 Step 1: Configure Addressing 358 Step 2: Configure RIP 359 Step 3: Configure OSPF 362 Step 4: Modify a Routing Protocol's Distance 366 Step 5: Modify Distance Based on Route Source 368 Step 6: Modify Distance Based on an Access List 370 Challenge 373 Lab 5-5: Configuring the Cisco IOS DHCP Server (5.6.5) 374 Scenario 374 Step 1: Assign IP Addresses 374 Step 2: Configure EIGRP 375 Step 3: Configure a DHCP Pool 376 Step 4: Verify DHCP Lease on Client 379 Step 5: Verify DHCP Configuration on Server 380 Step 6: DHCPRELEASE and DHCPRENEW 381 Step 7: Configure the IP Helper Address 385 Challenge: Apply Per-Protocol Forwarding 386 Chapter 6 BGP 387 Lab 6-1: Configuring BGP with Default Routing (6.7.1) 387 Scenario 387 Step 1: Assign IP Addresses 387 Step 2: Configure the ISPs 388 Step 3: Configure SanJose BGP 388 Step 4: Verify BGP on the SanJose Router 389 Step 5: Filter Routes 390 Step 6: Configure the Primary and Backup Routes Using Floating Static Routes 390 Step 7: Configure Primary and Backup Routes Using Static Routes 392 TCL Verification 395 Lab 6-2: Using the AS_PATH Attribute (6.7.2) 399 Scenario 399 Step 1: IP Addressing 399 Step 2: Configure BGP 400 Step 3: Remove the Private AS 400 Step 4: Use the AS_PATH Attribute to Filter Routes 401 TCL Output 402 Lab 6-3: Configuring IBGP and EBGP Sessions, Local Preference, and MED (6.7.3) 406 Scenario 406 Step 1: IP Addressing 406 Step 2: Configure EIGRP 407 Step 3: Configure IBGP 407 Step 4: Verify BGP Neighbors 407 Step 5: Configure EBGP 407 Step 6: Verify BGP Neighbors 408 Step 7: View BGP Summary Output 408 Step 8: Verify Which Path Traffic Takes 408 Step 9: BGP Next-Hop_Self 412 Step 10: Set BGP Local Preference 414 Step 11: Set BGP MED 415 Step 12: Establish a Default Network 419 TCL Verification 420 Lab 6-4: BGP Route Reflectors and Route Filters (6.7.4) 425 Scenario 425 Step 1: Configure RIPv2 425 Step 2: IBGP Peers and Route Reflectors 426 Step 3: Inject an External Route into BGP 427 Step 4: Inject a Summary Address into BGP 428 TCL Verification 429 Chapter 7 IP Multicasting 433 Lab 7-1: Implementing IGMP and IGMP Snooping (7.5.1) 433 Scenario 433 Overview 433 Step 1: Configure Hosts on a LAN 434 Step 2: Subscribe Interfaces to Multicast Groups with IGMP 434 Step 3: Verify IGMP Snooping on the Switch 439 Step 4: Configure a Multicast-Enabled Router on the VLAN 440 Step 5: Verify Multicast Operation at Layer 2 443 Step 6: Verify IGMP Snooping 444 Step 7: Verify Multicast Operation at Layer 3 446 Lab 7-2: Routing IP Multicast with PIM Dense Mode (7.5.2) 447 Scenario 447 Step 1: Configure Addressing and Implement IGMP 448 Step 2: Configure EIGRP 451 Step 3: Implement PIM-DM 451 Step 4: Verify PIM Adjacencies 455 Step 5: Verify Multicast Routing Operation 458 Step 6: Verify PIM-DM Flood-and-Prune Behavior 463 Step 7: Explore the Multicast Routing Table 466 Challenge 468 TCL Script Output: Unicast 468 Lab 7-3: Routing IP Multicast with PIM Sparse Mode (7.5.3) 474 Scenario 474 Step 1: Load Initial Configurations 474 Step 3: Implement PIM-SM 478 Step 4: Verify PIM Adjacencies 483 Step 5: Verify Multicast Routing Operation 485 Step 6: Verify PIM-SM Registration and SPT Cutover 490 Conclusion 493 Lab 7-4: Routing IP Multicast with PIM Sparse-Dense Mode (7.5.4) 496 Scenario 496 Step 1: Configure Addressing and Implement IGMP 497 Step 2: Configure Single-Area OSPF 500 Step 3: Implement PIM Sparse-Dense Mode 500 Step 4: Configure PIM Auto-RP 505 Step 5: Verify the RP Mappings 509 Step 6: Verify Multicast Operation 511 Step 7: Explore Auto-RP Operation with Sparse-Dense Mode 513 Step 8: Verify the Operation of Dense-Mode Fallback 515 TCL Script Output 520 Chapter 8 IPv6 527 Lab 8-1: Configuring OSPF for IPv6 (8.7.1) 527 Scenario 527 Step 1: Configuring the Loopback Interfaces 527 Step 2: Configuring Static IPv6 Addresses 528 Step 3: Changing the Link-Local Address on an Interface 529 Step 4: Configuring EUI-64 Addresses 531 Step 5: Enabling IPv6 Routing and CEF 533 Step 6: Setting Up OSPFv3 533 Challenge: Summarizing OSPFv3 Areas 539 TCL Script Output 539 Lab 8-2: Using Manual IPv6 Tunnels (8.7.2) 544 Scenario 544 Step 1: Configure Loopbacks and Physical Interfaces 544 Step 2: Configure EIGRP 545 Step 3: Configure a Manual IPv6 Tunnel 545 Step 4: Configure OSPFv3 Over a Tunnel 546 TCL Script Output 547 Lab 8-3: Configuring 6to4 Tunnels (8.7.3) 552 Scenario 552 Step 1: Configure Loopbacks and Physical Interfaces 552 Step 2: Configure EIGRP 553 Step 3: Configure a Manual IPv6 Tunnel 553 Step 4: Configure Static IPv6 Routes 554 TCL Script Output 556 Lab 8-4: IPv6 Challenge Lab 561 Lab 8-5: IPv6 Troubleshooting Lab 562 Initial Configurations 562 Chapter 9 Case Studies 565 Case Study 1: EIGRP 565 Case Study 2: OSPF: Four Routers 566 Case Study 3: OSPF: Five Routers 568 Case Study 4: BGP 570show more

About David Kotfila

David Kotfila , CCNP, CCAI, is the Director of the Cisco Academy at Rensselaer PolytechnicInstitute (RPI), Troy, New York. Under his direction, 350 students have received their CCNA, 150 studentshave received their CCNP, and 8 students have obtained their CCIE. David is a consultant forCisco, working as a member of the CCNP assessment group. His team at RPI has authored the fournew CCNP lab books for the Academy program. David has served on the National Advisory Council for the Academy program for four years. Previously he was the Senior Training Manager at PSINet, a Tier 1 global Internet service provider. Joshua Moorhouse, CCNP, recently graduated from Rensselaer Polytechnic Institute (RPI) with a B.S. in Computer Science, where he also worked as a teaching assistant in the Cisco Networking Academy. He currently works as a network engineer at Factset Research Systems in Norwalk, Connecticut. Ross Wolfson, CCIE No. 16696, recently graduated from Rensselaer Polytechnic Institute (RPI) with a B.S. in Computer Science. He currently works as a network engineer at Factset Research Systems.show more

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