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Transcript
Cisco S3 C5 Routing Protocols Network Design Characteristics • Reliable – provides mechanisms for error detection and correction • Connectivity – incorporate variety of hard ware and software • Easy to use – don’t need to know structure • Easy to modify – can evolve and adapt • Easy to implement – follow standards & allow for variety of configurations Path Determination • Frame received on router interface and data link layer frame is removed and discarded • Network layer handled by appropriate network layer process • Network protocol header examined to determine destination • Refers to routing table to determine which port to send packet back out IP Routing Table • Consists of destination network address and next hop pairs • When no match is found, datagram is sent to default router; drops packet if no default router • Routers communicate to build tables and update at intervals or by event • Routing updates can help build detailed picture of network topology Routing Metrics • • • • • • • Hop Count Bandwidth Delay Load Reliability (administrative number) Ticks Cost Routed and Routing • Routed Protocols – IP, IPX, Appletalk, Vines, DecNet • Routing Protocols – IGRP EIGRP – RIP OSPF – EGP BGP OSI routing Advanced Peer-to-Peer Multi-protocol Routing • Route multiple routed protocols – IP, IPX, AppleTalk, etc. • Can use multiple routing protocols – RIP, IGRP • Routers pass traffic from all routed protocols over inter-network Routing Protocol Differences • Goals of protocol designer affect operation of resulting routing protocol • Various types of routing protocols – each protocol has different effect on network and router resources • Routing protocols use variety of metrics to identify best routes • Two broad classes – Exterior and Interior Routing Protocol Goals • Optimal Route – select best route – depends on metrics and metric weightings • Simplicity and Efficiency – important when there are limited resources • Robustness – perform correctly in difficult circumstances – high loads • Rapid convergence – all routers see same topology • Flexibility – adapt to variety of network circumstances Routing Loops • Maximum defined by protocol – IGRP has 255 maximum; defaults to 100; usually set for 50 Static vs Dynamic • Static – Uses a protocol route that network administrator enters into router • Dynamic Route – Uses route that network routing protocol adjusts automatically for topology or traffic changes • Supplement with static routes and router of last resort – gateway router Routing Classes • Distance vector – metrics – IGRP and RIP • Link State – SPF – re-creates exact topology – OSPF , IS-IS and NLSP • Hybrid – combines aspects of distance vector and hybrid -- EIGRP Configuring Protocols • Each routing protocol must be configured separately – Create the routing process with a router command – Configure protocol specifics • Both RIP and IGRP must have list of networks specified before routing activities begin • IGRP requires an autonomous system AS number Choosing a Routing Protocol • • • • • • • Network size and complexity Network traffic levels Security needs Reliability needs Network delay characteristics Organization policies Organization tolerance for change Distance Vector Metrics • • • • Reliability Load Bandwidth Delay 1 to 255 1 to 255 1200 bps to 10 Gbps 1 to 224 • Default values related to weightings for IGRP give most importance to bandwidth making it superior to RIP which uses hop count How IGRP Works • Used only on autonomous systems • If network is not sub-netted, it does not advertise interior routes and subnet information is not included in IGRP updates • System routes to other major networks in AS do not include sub-netting information • Exterior routes are considered when identifying gateway of last resort • Sends up-date every 90 seconds • Maximum hop count is 255 Router Commands • Router (config)#router igrp 202.22.22.0 120 • Router (config-router)# network 222.22.22.0 • Sample Router Statement – Router(config)# router igrp 46 – timers basic 15 45 0 60 – network 128.6.0.0 – no metric holddown – metric maximum-hop 50 Routing Problems • Holddown – used when router learns that a network is a greater distance than previously known or a network is down – advertisements from other routers are ignored – helps avoid routing loop • Holddown period is greater than period of time necessary to update entire network Routing Problems • Split Horizons provide extra protocol stability; Keeps router from sending information about a route back in the direction from which it came; defeats loops between adjacent routers • Poison Reverse – intended to defeat larger routing loops; increase in metrics indicate loops. Poison reverse updates sent to remove route and place it in holddown – sends metric of infinity – helps speed convergence
