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Introduction1-1 Data Communications and Computer Networks Chapter 5 CS 3830 Lecture 26 Omar Meqdadi Department of Computer Science and Software Engineering.

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Presentation on theme: "Introduction1-1 Data Communications and Computer Networks Chapter 5 CS 3830 Lecture 26 Omar Meqdadi Department of Computer Science and Software Engineering."— Presentation transcript:

1 Introduction1-1 Data Communications and Computer Networks Chapter 5 CS 3830 Lecture 26 Omar Meqdadi Department of Computer Science and Software Engineering University of Wisconsin-Platteville

2 5: DataLink Layer5-2 CSMA (Carrier Sense Multiple Access) CSMA: listen before transmit: r If channel sensed idle: transmit entire frame r If channel sensed busy, wait until channel is not busy and then send r human analogy: don’t interrupt others!

3 5: DataLink Layer5-3 CSMA collisions collisions can still occur: propagation delay means two nodes may not hear each other’s transmission collision: entire packet transmission time wasted spatial layout of nodes

4 5: DataLink Layer5-4 CSMA/CD (Collision Detection) CSMA/CD: carrier sensing, deferral as in CSMA m collisions detected within short time m colliding transmissions aborted, reducing channel wastage r collision detection: m easy in wired LANs: measure signal strengths, compare transmitted, received signals m difficult in wireless LANs: received signal strength overwhelmed by local transmission strength r human analogy: the polite conversationalist

5 5: DataLink Layer5-5 CSMA/CD collision detection

6 5: DataLink Layer5-6 “Taking Turns” MAC protocols channel partitioning MAC protocols: m share channel efficiently and fairly at high load m inefficient at low load: delay in channel access, 1/N bandwidth allocated even if only 1 active node! Random access MAC protocols m efficient at low load: single node can fully utilize channel m high load: collision overhead “taking turns” protocols look for best of both worlds!

7 5: DataLink Layer5-7 “Taking Turns” MAC protocols Polling: r master node “invites” slave nodes to transmit in turn r typically used with “dumb” slave devices r concerns: m polling overhead m latency m single point of failure (master) master slaves poll data

8 5: DataLink Layer5-8 “Taking Turns” MAC protocols Token passing: r control token passed from one node to next sequentially. r token message r concerns: m token overhead m latency m single point of failure (token) T data (nothing to send) T

9 5: DataLink Layer5-9 Summary of MAC protocols r channel partitioning, by time, frequency or code m Time Division, Frequency Division r random access (dynamic), m ALOHA, S-ALOHA, CSMA, CSMA/CD m carrier sensing: easy in some technologies (wire), hard in others (wireless) m CSMA/CD used in Ethernet r taking turns m polling from central site, token passing m Example: Bluetooth

10 5: DataLink Layer5-10 Link Layer r 5.1 Introduction and services r 5.2 Error detection and correction r 5.3Multiple access protocols r 5.4 Link-Layer Addressing r 5.5 Ethernet

11 5: DataLink Layer5-11 MAC Addresses and ARP r 32-bit IP address: m network-layer address m used to get datagram to destination IP subnet r MAC (or LAN or physical or Ethernet) address: m function: get frame from one interface to another physically-connected interface (same network) m 48 bit MAC address (for most LANs) burned in NIC ROM, also sometimes software settable

12 5: DataLink Layer5-12 LAN Addresses and ARP Each adapter on LAN has unique LAN address Broadcast address = FF-FF-FF-FF-FF-FF = adapter 1A-2F-BB-76-09-AD 58-23-D7-FA-20-B0 0C-C4-11-6F-E3-98 71-65-F7-2B-08-53 LAN (wired or wireless)

13 5: DataLink Layer5-13 LAN Address (more) r MAC address allocation administered by IEEE r manufacturer buys portion of MAC address space (to assure uniqueness) r analogy: (a) MAC address: like Social Security Number (b) IP address: like postal address  MAC flat address ➜ portability m can move LAN card from one LAN to another r IP hierarchical address NOT portable m address depends on IP subnet to which node is attached

14 5: DataLink Layer5-14 ARP: Address Resolution Protocol r Each IP node (host, router) on LAN has ARP table r ARP table: IP/MAC address mappings for some LAN nodes m TTL (Time To Live): time after which address mapping will be forgotten (typically 20 min) Question: how to determine MAC address of B knowing B’s IP address? 1A-2F-BB-76-09-AD 58-23-D7-FA-20-B0 0C-C4-11-6F-E3-98 71-65-F7-2B-08-53 LAN 137.196.7.23 137.196.7.78 137.196.7.14 137.196.7.88

15 5: DataLink Layer5-15 ARP protocol: Same LAN (network) r A wants to send datagram to B, and B’s MAC address not in A’s ARP table. r A broadcasts ARP query packet, containing B's IP address m dest MAC address = FF- FF-FF-FF-FF-FF m all machines on LAN receive ARP query r B receives ARP packet, replies to A with its (B's) MAC address m frame sent to A’s MAC address (unicast) r A caches (saves) IP-to- MAC address pair in its ARP table until information becomes old (times out) m soft state: information that times out (goes away) unless refreshed r ARP is “plug-and-play”: m nodes create their ARP tables without intervention from net administrator

16 5: DataLink Layer5-16 Addressing: routing to another LAN R 1A-23-F9-CD-06-9B 222.222.222.220 111.111.111.110 E6-E9-00-17-BB-4B CC-49-DE-D0-AB-7D 111.111.111.112 111.111.111.111 A 74-29-9C-E8-FF-55 222.222.222.221 88-B2-2F-54-1A-0F B 222.222.222.222 49-BD-D2-C7-56-2A walkthrough: send datagram from A to B via R assume A knows B’s IP address r two ARP tables in router R, one for each IP network (LAN)

17 5: DataLink Layer5-17 r A creates IP datagram with source A, destination B r A uses ARP to get R’s MAC address for 111.111.111.110 r A creates link-layer frame with R's MAC address as dest, frame contains A-to-B IP datagram r A’s NIC sends frame r R’s NIC receives frame r R removes IP datagram from Ethernet frame, sees its destined to B r R uses ARP to get B’s MAC address r R creates frame containing A-to-B IP datagram sends to B R 1A-23-F9-CD-06-9B 222.222.222.220 111.111.111.110 E6-E9-00-17-BB-4B CC-49-DE-D0-AB-7D 111.111.111.112 111.111.111.111 A 74-29-9C-E8-FF-55 222.222.222.221 88-B2-2F-54-1A-0F B 222.222.222.222 49-BD-D2-C7-56-2A

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