EEC-484/584 Computer Networks Lecture 9 Wenbing Zhao (Part of the slides are based on Drs. Kurose & Ross ’ s slides for their Computer.

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EEC-484/584 Computer Networks Lecture 9 Wenbing Zhao (Part of the slides are based on Drs. Kurose & Ross ’ s slides for their Computer Networking book)

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Outline Quiz#2 result Introduction to network layer  Routing and forwarding, etc. Router architecture Routing algorithm  Link state routing  Distance vector routing

EEC584 Quiz#2 Result High 100, low 10, average 62.5  Compared at F2013: High 95, low 35, average: 69 Average: q1-5, q2-6, q3-4.6, q4-7.3, q5-5.2, q6-3.7, q7-8, q8-7.3, q9- 8.5, q Wenbing Zhao 10/19/2015 EEC-484/584: Computer Networks

10/19/2015 Wenbing Zhao Network Layer Main concern: end-to-end transmission  Perhaps over many hops at intermediate nodes Services provided to transport layer  Transport segment from sending to receiving host  On sending side encapsulates segments into datagrams  On receiving side, delivers segments to transport layer Network layer protocols in every host, router Router examines header fields in all IP datagrams passing through it network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical application transport network data link physical application transport network data link physical

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Two Key Network-Layer Functions Routing: determine route taken by packets from source to destination Forwarding: move packets from router’s input to appropriate router output Analogy: Routing: process of planning trip from source to destination Forwarding: process of getting through single intersection

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao value in arriving packet’s header routing algorithm local forwarding table header value output link Interplay between Routing & Forwarding Forwarding table is also referred to as routing table

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Network Service Model Q: What service model for “channel” transporting datagrams from sender to receiver? Example services for individual datagrams: Guaranteed delivery Guaranteed delivery with less than 40 msec delay Best effort Example services for a flow of datagrams: In-order datagram delivery Guaranteed minimum bandwidth to flow Restrictions on changes in inter-packet spacing No guarantee whatsoever

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Network Layer Connection and Connection-less Service Datagram network provides network-layer connectionless service Virtual Circuit network provides network-layer connection-oriented service (omitted)

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Datagram Networks No call setup at network layer Routers: no state about end-to-end connections  no network-level concept of “connection” Packets forwarded using destination host address  packets between same source-dest pair may take different paths application transport network data link physical 1. Send data 2. Receive data application transport network data link physical

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Routing within a Datagram Subnet Router has forwarding table telling which outgoing line to use for each possible destination router Each datagram has full destination address When packet arrives, router looks up outgoing line to use and transmits packet

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Datagram or VC Network: Why? Internet (datagram) data exchange among computers  “elastic” service, no strict timing requirement “smart” end systems (computers)  can adapt, perform control, error recovery  simple inside network, complexity at “edge” ATM (VC) evolved from telephony human conversation:  strict timing, reliability requirements  need for guaranteed service “dumb” end systems  telephones  complexity inside network

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao What’s in a Router? Run routing algorithms/protocol (RIP, OSPF, BGP) Forwarding datagrams from incoming to outgoing link

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Input Port Functions Decentralized switching: given datagram dest., lookup output port using forwarding table in input port memory queuing: newly arrived datagrams might be queued before processing Physical layer: bit-level reception Data link layer: e.g., Ethernet

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Output Ports Buffering required when datagrams arrive from fabric faster than the transmission rate Scheduling discipline chooses among queued datagrams for transmission

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Routing Algorithms Least-cost in what sense?  Number of hops, geographical distance, least queueing and transmission delay Desirable properties  Correctness, simplicity  Robustness to faults  Stability – converge to equilibrium Routing algorithm: algorithm that finds least-cost path

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Routing Algorithm Classification Static or dynamic? Non-adaptive (static) - Route computed in advance, off-line, downloaded to routers Adaptive (dynamic) - Route based on measurements or estimates of current traffic and topology

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Routing Algorithm Classification Global or decentralized information? Global:  all routers have complete topology & link cost info  “link state” algorithms Decentralized:  router knows physically-connected neighbors, link costs to neighbors  iterative process of computation, exchange of info with neighbors  “distance vector” algorithms

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Link State Routing Basic idea Assumes net topology & link costs known to all nodes  Accomplished via “link state broadcast”  All nodes have same info Computes least cost paths from one node (‘source”) to all other nodes, using Dijkstra ’ s Algorithm  Gives forwarding table for that node

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Dijkstra ’ s Algorithm Each node labeled with distance from source node along best known path Initially, no paths known so all nodes labeled with infinity As algorithm proceeds, labels may change reflecting shortest path Label may be tentative or permanent, initially, all tentative When label represents shortest path from source to node, label becomes permanent

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Compute Shortest Path from A to D Start with node A as the initial working node Examine each of the nodes adjacent to A, i.e., B and G, relabeling them with the distance to A Examine all the tentatively labeled nodes in the whole graph and make the one with the smallest label permanent, i.e., B. B is the new working node

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Compute Shortest Path from A to D

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Step Permanently labeled BGECFHD 1 A 2,A6,A∞∞∞∞∞ 2 AB 6,A4,B9,B∞∞∞ 3 ABE 5,E9,B6,E∞∞ 4 ABEG 9,B6,E9,G∞ 5 ABEGF 9,B8,F∞ 6 ABEGFH 9,B10,H 7 ABEGFHC 10,H 8 ABEGFHCD

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Computation Results BCDEFGHBCDEFGH (A,B) Destination link A B C D E F G H Routing Table in A

10/19/2015 EEC-484/584: Computer Networks Wenbing Zhao Dijkstra ’ s Algorithm : Exercise Given the subnet shown below, using the Dijkstra ’ s Algorithm, determine the shortest path tree from node u and its routing table u y x wv z