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Chapter 4: Network Layer

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1 Chapter 4: Network Layer
4. 1 Introduction 4.2 Virtual circuit and datagram networks 4.3 What’s inside a router 4.4 IP: Internet Protocol Datagram format IPv4 addressing ICMP IPv6 4.5 Routing algorithms Link state Distance Vector Hierarchical routing 4.6 Routing in the Internet RIP OSPF BGP 4.7 Broadcast and multicast routing Network Layer

2 Hierarchical Routing Our routing study thus far - idealization
all routers identical network “flat” … not true in practice scale: with 200 million destinations: can’t store all dest’s in routing tables! routing table exchange would swamp links! administrative autonomy internet = network of networks each network admin may want to control routing in its own network Network Layer

3 Hierarchical Routing aggregate routers into regions, “autonomous systems” (AS) routers in same AS run same routing protocol “intra-AS” routing protocol routers in different AS can run different intra-AS routing protocol Gateway router Direct link to router in another AS Network Layer

4 Chapter 4: Network Layer
4. 1 Introduction 4.2 Virtual circuit and datagram networks 4.3 What’s inside a router 4.4 IP: Internet Protocol Datagram format IPv4 addressing ICMP IPv6 4.5 Routing algorithms Link state Distance Vector Hierarchical routing 4.6 Routing in the Internet RIP OSPF BGP 4.7 Broadcast and multicast routing Network Layer

5 Intra-AS Routing Also known as Interior Gateway Protocols (IGP)
Most common Intra-AS routing protocols: RIP: Routing Information Protocol OSPF: Open Shortest Path First IGRP: Interior Gateway Routing Protocol (Cisco proprietary) Network Layer

6 Chapter 4: Network Layer
4. 1 Introduction 4.2 Virtual circuit and datagram networks 4.3 What’s inside a router 4.4 IP: Internet Protocol Datagram format IPv4 addressing ICMP IPv6 4.5 Routing algorithms Link state Distance Vector Hierarchical routing 4.6 Routing in the Internet RIP OSPF BGP 4.7 Broadcast and multicast routing Network Layer

7 RIP ( Routing Information Protocol)
Distance vector algorithm Included in BSD-UNIX Distribution in 1982 Distance metric: # of hops (max = 15 hops) D C B A u v w x y z destination hops u v w x y z Network Layer

8 RIP advertisements Distance vectors: exchanged among neighbors every 30 sec via Response Message (also called advertisement) Each advertisement: list of up to 25 destination nets within AS Network Layer

9 RIP: Example z w x y A D B C y B 2 z B 7 x -- 1
Destination Network Next Router Num. of hops to dest. w A 2 y B 2 z B 7 x …. … Routing table in D Network Layer

10 RIP: Example w x y z A C D B y B 2 z B A 7 5 x -- 1 Advertisement
Dest Next hops w x z C 4 …. … Advertisement from A to D w x y z A C D B Destination Network Next Router Num. of hops to dest. w A 2 y B 2 z B A 7 5 x …. … Routing table in D Network Layer

11 RIP: Link Failure and Recovery
If no advertisement heard after 180 sec --> neighbor/link declared dead routes via neighbor invalidated new advertisements sent to neighbors neighbors in turn send out new advertisements (if tables changed) link failure info quickly propagates to entire net poison reverse used to prevent ping-pong loops (infinite distance = 16 hops) Network Layer

12 RIP Table processing RIP routing tables managed by application-level process called route-d (daemon) advertisements sent in UDP packets, periodically repeated routed routed Transprt (UDP) Transprt (UDP) network forwarding (IP) table network (IP) forwarding table link link physical physical Network Layer

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