CNIT202 Hybrid Saturdays 9-1 Cloud 218, Instructor: Sufyaan Mateen & Miao-Chuan (Mercy) Ho. Title: Routing Protocols and Concepts This course describes the architecture, components, and operation of routers, and explains the principles of routing and routing protocols. Students analyze, configure, verify, and troubleshoot the primary routing protocols RIPv1, RIPv2, EIGRP, and OSPF. By the end of this course, students will be able to recognize and correct common routing issues and problems. Each chapter walks the student through a basic procedural lab, and then presents basic configuration, implementation, and troubleshooting labs. Packet Tracer (PT) activities reinforce new concepts, and allow students to model and analyze routing processes that may be difficult to visualize or understand. Outline 1. Introduction to Routing and Packet Forwarding 1.0 Chapter Introduction 1.1 Inside the Router 1.2 CLI Configuration and Addressing 1.3 Building the Routing Table 1.4 Path Determination and Switching Functions 1.5 Router Configuration Labs Activities Labs 1.1.1.5 PT Corporate Network Simulation 1.1.4.3 PT Using Setup Mode 1.1.5.3 PT Cabling Devices 1.1.5.4 PT Using PT Device Tab 1.2.1.2 PT Connecting and Identifying Devices 1.2.2.4 PT Configure and Verify R1 1.3.2.2 PT Directly-Connected Networks 1.3.3.2 PT Static Routing 1.3.4.2 PT Dynamic Routing 1.3.5.2 PT Comprehensive Rouing Simul. 1.4.2.2 PT Discover Packet and Frame Fields 1.4.3.2 PT Determine Best Path using Routing Tables 1.5.1.2 PT Cabling a Network 1.5.2 .2 PT Basic Router Configuration 1.5.3.2 PT Challenge Router Conf 1.5.1.1 Cabling a network 1.5.2.1 Basic Router Conf. 1.5.3.1 Challenge Router C Assmts 1.6 Summary 1.7 Chapter Quiz 2. Static Routing 2.0 Chapter Introduction 2.1 Routers in Networks 2.2 Router Configuration Review 2.3 Exploring Directly Connected Networks 2.4 Static Routes with “Next Hop” Addresses 2.5 Static Routes with Exit Interfaces 2.6 Summary and Default Static Routes 2.7 Managing and Troubleshooting Static Routes 2.8 Static Route Configuration Labs 2.9 Chapter Summary Ch 1 2.1.3.2 PT Build the Chapter Topology 2.2.3.3 PT Conf Ethernet Interfaces for IP on hosts & routers 2.3.1.3 PT Configure Serial Interfaces and Verify Routing Table 2.3.2.3 PT Verify Connectivity of Directly Connected Devides 2.3.3.3 PT Cisco Discovery Protocol(CDP) 2.3.4.2 PT Mapping a Network with CDP & Telnet 2.5.3.2 PT Removing and Configuring Static Routes 2.6.2.3 PT Configuring a Default Route 2.7.3.2 PT Packet the Missing Route 2.8.1.2 PT Basic Static Route Configuration 2.8.2.2 PT Chall. Static Route Configuration 2.8.3.2 PT Troubleshooting Static Routes 2.9.1.3 Ch 2 PT Skills Integration 2.8.1.1 Basic Static Route Conf. 2.8.2.1 Chall. St. Route Conf. 2.8.3.1 Troublesh. St. Routes 3. Introduction to Dynamic Routing Protocols 3.0 Chapter Introduction 3.1 Introduction and Advantages 3.2 Classifying Dynamic Routing Protocols 3.3 Metrics 3.4 Administrative Distances 3.5 Routing Protocol and Subnetting Activities 3.6 Summary 3.7 Chapter Quiz Ch 2 3.2.1 Overview 3.2.2.2 PT IGP & EGP 3.2.5.2 PT Convergence 3.4.4.2 PT Viewing Routing Table Info 3.5.1 Identifying Elements of Routing Table 3.5.2.2 PT Subnetting Scen. 1 with Static R. 3.5.3.2 PT Subnetting Scen. 2 with Static R 3.5.4.2 PT Subnetting Scen. 3 with Static R 3.6.1.3 Ch 3 PT Skills Integration 3.5.2.1 Subnet. Sc.1 w/t Static R 3.5.3.1 Subnet. Sc.2 w/t Static R 3.5.4.1 Subnet. Sc.3 w/t Static R Ch 3 4. Distance Vector Routing Protocols 4.0 Chapter Introduction 4.1 Introduction to Distance Vector Routing Protocols 4.2 Network Discovery 4.3 Routing Table Maintenance 4.4 Routing Loops 4.5 Distance Vector Routing Protocols Today 4.6 Summary 4.7 Quiz 4.4.1.2 PT Routing Loops 4.5.1 Dist. Vector Routing Prot. Compared 4.6.1 Routing TableInterpretation 4.7.1.3 PT Skills Integration Ch 4 5.2.1.2 PT Conf. IP Addr. On Router interf. 5.2.3.3 PT Confi. RIP Routing on a Network 5.3.4.2 PT Conf. Passive Interface in RIP 5.4.5.4 PT Automatic Route Summarization 5.5.2.2 PT Propagating the Default Route in RIP 5.6.1.2 PT Basic RIP Configuration 5.6.2.2 PT Challenge RIP Configuration 5.6.3.2 PT RIP Troubleshooting 5.6.1.1 Basic RIP Configuration 5.6.2.1 Challenge RIP Config 5.6.3.1 RIP Troubleshooting Ch 5 6.4.1.2 PTBasic VLSM Calc. & Addr. Design 6.4.2.2 PTChall. VLSM Calc. & Addr. Design 6.4.3.2 PT Troublesh. a VLSM Addr. Design 6.4.4.2 PT Basic Route Summarization 6.4.5.2 PT Challenge Route Summarization 6.4.6.2 PT Troublesh. Route Summarization 6.5.1.3 PT Skills Integration Challenge 6.4.1.1 Basic VLSM Calc.& Addr. 6.4.2.1 Chall. VLSM Calc.& Addr. 6.4.3.1Troublesh. VLSM Ad Des 6.4.4.1 Basic Route Summarizat. 6.4.5.1 Challenge Route Summ 6.4.6.1 Troublesh. Route Summ 7. RIPv2 7.0 Chapter Introduction 7.1 RIPv1 Limitations 7.2 Configuring RIPv2 7.3 VLSM and CIDR 7.4 Verifying and Troubleshooting RIPv2 7.5 RIPv2 Configuration Labs 7.6 Chapter Summary 7.7 Chapter Quiz Ch 6 7.1.2.3 PT Configuring Discontiguous Rtes 7.1.5.2 PT Verify Non-Convergence Using C 7.2.4.2 PT Configure RIPv2 7.4.3.2 PT Routing Table Configuration 7.5.1.2 PT Using RIPv2 Configuration 7.5.2.2 PT Challenge RIPv2 Configuration 7.5.3.2 PT RIPv2 Troubleshooting 7.6.1.3 PT skills Integration Challenge 7.5.1.1 Using RIPv2 Config. 7.5.2.1 Challenge RIPv2 Config 7.5.3.1 RIPv2 Troubleshooting 8. The Routing Table: A Closer Look 8.0 Chapter Introduction 8.1 The Routing Table Structure 8.2 Routing Table Lookup Process 8.3 Routing Behavior 8.4 Routing Table Labs 8.5 Chapter Summary 8.6 Chapter Quiz Ch 7 8.4.1.2 PT Investigating the Routing Table Lookup Process 8.4.2.2 PT The show ip route Challenge lab 8.5.1.3 PT Skills Integration Challenge 8.4.1.1 Investigating the Routing Table Lookup Process 8.4.2.1 Show ip route Chall. lab. 9. EIGRP 9.0 Chapter Introduction 9.1 Introduction to EIGRP 9.2 Basic EIGRP Configuration 9.3 EIGRP Metric Calculation 9.4 DUAL 9.5 More EIGRP Configuration 9.6 EIGRP Configuration Labs 9.7 Chapter Summary 9.8 Chapter Quiz Ch 8 9.2.6.4 PT Configure and Verify EIGRP Routing 9.3.4.3 PT Examine and Modify EIGRP metric 9.4.6.4 PT Investigating Successors and Feasible successors 9.6.1.2 PT Basic EIGRP Configuration Lab 9.6.2.2 PT Challenge EIGRP Config. Lab 9.6.3.2 PT Troubleshooting EIGRP Conf, lab 9.7.1.3 PT Skills Integration Challenge 10. Link-State Routing Protocols 10.0 Chapter Introduction 10.1 Link-State Routing Protocols 10.2 Implementing Link-State Routing Protocols 10.3 Chapter Summary 10.4 Chapter Quiz Ch 9 10.3.1.3 PT Skills Integration Challenge 11. OSPF 11.0 Chapter Introduction 11.1 Introduction to OSPF 11.2 Basic OSPF Configuration 11.3 The OSPF Metric 9.6.1.1 Basic EIGRP Config Lab 9.6.2.1 Chall. EIGRP Config. Lab 9.6.3.2 PT Troubleshooting EIGRP Conf, lab Ch 10 11.2.6.2 PT Configure and Verify OSPF Routing 11.3.2.4 PT Modifying the Cost of a Link 11.4 OSPF and Multiaccess Networks 11.5 More OSPF Configuration 11.6 OSPF Configuration Labs 11.7 Chapter Summary Review and Catch Up Final Exam 11.4.3.2 PT Determining the DR and the BDR 11.5.2.3 PT Default Route and Fine-tuning OSPF 11.6.1.2 PT Basic OSPF Configuration Lab 11.6.2.2 PT Challenge OSPF Config Lab 11.6.3.2 PT Troubleshooting OSPF Conf 11.6.1.1 Basic OSPF Configuration Lab 11.6.2.1 Challenge OSPF Config Lab 11.6.3.2 1 PT Troubleshooting OSPF Conf 11.7.1.3 PT Skills Integration Ch 11