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Routing TCP IP Volume I CCIE Professional Development
Routing TCP/IP, Volume I (CCIE Professional Development)
Table of Contents
Copyright
About the Author
About the Reviewers
Introduction
Objectives
Audience
Organization
Conventions and Features
Foreword
Part I: Routing Basics
Chapter 1. Basic Concepts: Internetworks, Routers, and Addresses
Bicycles with Motors
Data Link Addresses
Repeaters and Bridges
Routers
Network Addresses
Looking Ahead
Recommended Reading
Review Questions
Chapter 2. TCP/IP Review
The TCP/IP Protocol Layers
The IP Packet Header
IP Addresses
ARP
ICMP
The Host-to-Host Layer
Looking Ahead
Summary Table: Chapter 2 Command Review
Recommended Reading
Review Questions
Configuration Exercises
Troubleshooting Exercises
Chapter 3. Static Routing
The Route Table
Configuring Static Routes
Troubleshooting Static Routes
Looking Ahead
Summary Table:Chapter 3 Command Review
Review Questions
Configuration Exercises
Troubleshooting Exercises
Chapter 4. Dynamic Routing Protocols
Routing Protocol Basics
Distance Vector Routing Protocols
Link State Routing Protocols
Interior and Exterior Gateway Protocols
Static or Dynamic Routing?
Looking Ahead
Recommended Reading
Review Questions
Part II: Interior Routing Protocols
Chapter 5. Routing Information Protocol (RIP)
Operation of RIP
Configuring RIP
Troubleshooting RIP
Looking Ahead
Summary Table: Chapter 5 Command Review.
Recommended Reading
Review Questions
Configuration Exercises
Troubleshooting Exercises
Chapter 6. Interior Gateway Routing Protocol (IGRP)
Operation of IGRP
Configuring IGRP
Troubleshooting IGRP
Looking Ahead
Summary Table: Chapter 6 Command Review
Recommended Reading
Review Questions
Configuration Exercises
Troubleshooting Exercises
Chapter 7. Routing Information Protocol Version 2
Operation of RIPv2
Configuring RIPv2
Troubleshooting RIPv2
Looking Ahead
Summary Table:Chapter 7 Command Review
Recommended Reading
Review Questions
Configuration Exercises
Troubleshooting Exercises
Chapter 8. Enhanced Interior Gateway Routing Protocol (EIGRP)
Figure 8.1. The four major components of EIGRP. RTP and neighbor discovery are lower-level protocols that enable the correct operation of DUAL. DUAL can perform route computations for multiple routed protocols.
Configuring EIGRP
Troubleshooting EIGRP
Looking Ahead
Summary Table:Chapter 8 Command Review
Review Questions
Configuration Exercises
Troubleshooting Exercises
Chapter 9. Open Shortest Path First
Neighbors and Adjacencies
Configuring OSPF
Troubleshooting OSPF
Looking Ahead
Summary Table: Chapter 9 Command Review
Recommended Reading
Review Questions
Configuration Exercises
Troubleshooting Exercises
Chapter 10. Integrated IS-IS
Operation of Integrated IS-IS
Configuring Integrated IS-IS
Troubleshooting Integrated IS-IS
Looking Ahead
Summary Table: Chapter 10 Command Review
Review Questions
Configuration Exercises
Troubleshooting Exercises
Part III: Route Control and Interoperability
Chapter 11. Route Redistribution
Principles of Redistribution
Configuring Redistribution
Looking Ahead
Summary Table: Chapter 11 Command Review
Review Questions
Configuration Exercises
Troubleshooting Exercises
Chapter 12. Default Routes and On-Demand Routing
Fundamentals of Default Routes
Fundamentals of On-Demand Routing
Configuring Default Routes and ODR
Looking Ahead
Summary Table: Chapter 12 Command Review
Review Questions
Chapter 13. Route Filtering
Configuring Route Filters
Looking Ahead
Summary Table: Chapter 13 Command Review
Configuration Exercises
Troubleshooting Exercises
Chapter 14. Route Maps
Basic Uses of Route Maps
Configuring Route Maps
Looking Ahead
Summary Table: Chapter 14 Command Review
Review Questions
Configuration Exercises
Troubleshooting Exercises
Part IV: Appendixes
Appendix A. Tutorial: Working with Binary and Hex
Working with Binary Numbers
Working with Hexadecimal Numbers
Appendix B. Tutorial: Access Lists
Access List Basics
Standard IP Access Lists
Extended IP Access Lists
Calling the Access List
Keyword Alternatives
Named Access Lists
Filter Placement Considerations
Access List Monitoring and Accounting
Appendix C. CCIE Preparation Tips
Laying the Foundations
Hands-On Experience
Intensifying the Study
The Final Six Months
Exam Day
Appendix D. Answers to Review Questions
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 5
Chapter 6
Chapter 7
Chapter 8
Chapter 9
Chapter 10
Chapter 11
Chapter 12
Chapter 14
Appendix E. Solutions to Configuration Problems
Chapter 2
Chapter 3
Chapter 5
Chapter 6
Chapter 7
Chapter 8
Chapter 9
Chapter 10
Chapter 11
Chapter 13
Chapter 14
Appendix F. Solutions to Troubleshooting Exercises
Chapter 2
Chapter 3
Chapter 5
Chapter 6
Chapter 7
Chapter 8
Chapter 9
Chapter 10
Chapter 11
Chapter 13
Chapter 14
Index
index_SYMBOL
index_A
index_B
index_C
index_D
index_E
index_F
index_G
index_H
index_I
index_K
index_L
index_M
index_N
index_O
index_P
index_Q
index_R
index_S
index_T
index_U
index_V
index_W
index_Z
 

Interior and Exterior Gateway Protocols

Areas introduce a hierarchy to the internetwork architecture. Another layer is added to this hierarchical structure by grouping areas into larger areas. These higher-level areas are called autonomous systems in the IP world and routing domains in the ISO world.

An autonomous system was once defined as a group of routers under a common administrative domain running a common routing protocol. Given the fluidity of modern internetworking life, the latter part of the definition is no longer very accurate. Departments, divisions, and even entire companies frequently merge, and internetworks that were designed with different routing protocols merge along with them. The result is that many internetworks nowadays combine multiple routing protocols with multiple degrees of inelegance, all under common administrations. So a contemporary definition of an autonomous system is an internetwork under a common administration.

Note

Automonous system


The routing protocols that run within an autonomous system are referred to as Interior Gateway Protocols (IGPs). All the protocols given in this chapter as examples of distance vector or link state protocols are IGPs.

Routing protocols that route between autonomous systems or routing domains are referred to as Exterior Gateway Protocols (EGPs). Whereas IGPs discover paths between networks, EGPs discover paths between autonomous systems. Examples of EGPs include the following:

  • Border Gateway Protocol (BGP) for IP

  • Exterior Gateway Protocol (EGP) for IP (yes, an EGP named EGP)

  • The ISO's InterDomain Routing Protocol (IDRP)

Novell also incorporates an EGP functionality, called Level 3 Routing, into NLSP.

Having given these definitions, it must be said that the common usage of the term autonomous system is not so absolute. Various standards documents, literature, and people tend to give various meanings to the term. As a result, it is important to understand the context in which one is reading or hearing the term.

This book uses autonomous system in one of two contexts:

  • Autonomous system may refer to a routing domain, as defined at the beginning of this section. In this context, an autonomous system is a system of one or more IGPs that is autonomous from other systems of IGPs. An EGP is used to route between these autonomous systems.

  • Autonomous system may also refer to a process domain, or a single IGP process that is autonomous from other IGP processes. For example, a system of OSPF-speaking routers may be referred to as an OSPF autonomous system. The chapters on IGRP and EIGRP also use autonomous system in this context. Redistribution is used to route between these autonomous systems.

The context will indicate which form of autonomous system is under discussion at different points throughout this book.