Chapter
Review
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Chapter
Overview
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| 9.1 |
Route Reflectors
| 9.1.1 |
Route
Reflector Basics |
| 9.1.2 |
Internal
Peers without Route Reflectors |
| 9.1.3 |
Internal
Peers with Route Reflectors |
| 9.1.4 |
Naming
Conventions and Rules of Operation |
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| 9.2 |
Route Filtering and
Manipulation Process (Policies)
| 9.2.1 |
Route
Filtering and Attribute Manipulation |
| 9.2.2 |
Route
Filtering and Manipulation Process Actions |
| 9.2.3 |
How to ID and
Filter Routes Based on NLRI |
| 9.2.4 |
Configuring
BGP Filtering Using Prefix Lists |
| 9.2.5 |
Route
Filtering Configuration Example Using a Single Prefix List |
| 9.2.6 |
The Community
Attribute |
| 9.2.7 |
Configuration
Example: Communities |
| 9.2.8 |
Peer Group |
| 9.2.9 |
Configuration
Example: Peer Groups |
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| 9.3 |
Issues of
Redundancy, Symmetry and Load Balancing
| 9.3.1 |
Introduction
to Redundancy, Symmetry, and Load Balancing |
| 9.3.2 |
Why
Redundancy is Desired |
| 9.3.3 |
How to Use
Dynamically Learned Default Routes |
| 9.3.4 |
Configuration
Example: Dynamically Learned Defaults |
| 9.3.5 |
How to Use
Statically Set Default Routes |
| 9.3.6 |
Configuration
Example: Statically Set default Routes |
| 9.3.7 |
Symmetry |
| 9.3.8 |
Loading
Balancing |
| 9.3.9 |
Single-homed
Connections |
|
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| 9.4 |
Various Multihomed
Connections to a Single Provider and Multiple Providers
| 9.4.1 |
Describe
Multihomed Connections with a Single Provider |
| 9.4.2 |
Default Only,
One Primary, and One Backup Link Scenario |
| 9.4.3 |
Multihomed
Scenarios with Multiple Poviders |
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| 9.5 |
Configure BGP to Interact
with IGPs
| 9.5.1 |
Injecting
Information Dynamically into BGP |
| 9.5.2 |
Injection of
Unwanted or Faulty Information |
| 9.5.3 |
Injecting
Information Statically Into BGP |
| 9.5.4 |
Inject
Information Dynamically Into BGP (Configuration) |
| 9.5.5 |
Inject
Routing Information Statically Into BGP |
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| 9.6 |
Practical BGP Design Example
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| Chapter
Summary
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| Chapter
Quiz
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