BGP
Border Gateway Protocol (BGP) is the routing protocol used to exchange routing information across the Internet. It makes it possible for ISPs to connect to each other and for end-users to connect to more than one ISP. BGP is the only protocol that is designed to deal with a network of the Internet&...
| Autor principal: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Beijing ; Sebastopol, California :
O'Reilly
2002.
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| Edición: | First edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627262806719 |
Tabla de Contenidos:
- Table of Contents; Preface; Intended Audience; What's in This Book?; How to Read This Book; Conventions Used in This Book; How to Contact Us; Acknowledgments; The Internet, Routing, and BGP; Topology of the Internet; The NSFNET Backbone; Commercial Backbones and NAPs; The Rest of the World; Transit and Peering; Classification of ISPs; TCP/IP Design Philosophy; The IP Protocol; The Routing Table; Routing Protocols; Multihoming; IP Addressing and the BGP Protocol; IP Addresses; Subnetting and VLSM; CIDR: Classless Inter-Domain Routing; Interdomain Routing History; The BGP Protocol; Open Message
- Update MessageNotification and Keepalive Messages; BGP States; Propagation of BGP Routes; How BGP Selects Routes; The route-selection algorithm; BGP tie-breaking rules; Multiprotocol BGP; Routing Multicast; IPv6; MBGP and MPLS VPNs; Interior Routing Protocols; RIP; IGRP and EIGRP; OSPF; IS-IS; Interaction Between Routing Protocols; Physical Design Considerations; Availability; Single points of failure; Common sense; Testing; Selecting ISPs; Bandwidth; Minimum Bandwidth Required; Burst Bandwidth and Queuing Delays; Calculating Bandwidth, Step by Step; Router Hardware; Host-Based Routers
- Multilayer SwitchesMemory and the Routing Table; Performance; Anticipating Growth; Failure Risks; Water; Power Failure; Building a Wide Area Network; The Likelihood of Concurrent Fiber Cuts; Network Topology Design; A Design Model; The Topology; IP Address Space and AS Numbers; The Different Types of Address Space; Provider-Independent Address Space; Your Own Provider Aggregatable Block; Address Space From an ISP; Requesting Address Space; Renumbering IP Addresses; The AS Number; Routing Registries; Routing Policy Specification Language; Getting Started with BGP; Enabling BGP
- How to Announce an Address BlockConfiguring the Router; Monitoring BGP; Clearing BGP Sessions; Soft Reconfiguration Inbound; Route Refresh; Filtering Routes; Filter Lists; Distribute Lists; Prefix Lists; Internal BGP; Enabling iBGP; Default Routes; Next Hop Processing; Synchronizing with the IGP; The Internal Network; Cisco's Hot Standby Routing Protocol; Full BR2 Configuration; RPSL Routing Policy; Minimizing the Impact of Link Failures; eBGP Multihop; Traffic Engineering; Knowing Which Route Is Best; Finding High- and Low-Quality Routes; Is the Highest-Bandwidth Route Best?; Route Maps
- Setting the Local PreferenceManipulating Inbound AS Paths; Inbound Communities; RPSL Routing Policy; BGP Load Balancing; Traffic Engineering for Incoming Traffic; Setting the MED; Prepending Outbound AS Paths; The Effect of AS Path Prepending; Setting Outbound Communities; Well-known communities; Common community actions; Influencing the Local Preference in Upstream ASes; Prepending the AS Path; Announcing More Specific Routes; Queuing, Traffic Shaping, and Policing; TCP Congestion Control; Slow start; Congestion avoidance; Fast retransmit and fast recovery
- TCP Under Packet Loss and Delay Conditions
