1 welcome to cs 334/534. 2 “fig 1.5” – an internet 4 ethernet lans linked by a wan bhm noatl...
TRANSCRIPT
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Welcome
to
CS 334/534
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“Fig 1.5” – An internet
4 Ethernet LANs linked by a WAN
BHM
NO ATL
CHL
Network of networks
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Comer Figure 1.1 – Growth of the Internet
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WORLD TOTALS
► Population 2010: 6,845,609,960
►Internet Users Dec 31 2000: 360,985,492
►Internet Users June 30 2010: 1,966,514,816 (+444.8 %)
►Penetration of population: 28.7 %
August 2010: “ Sometime this month, the 5 billionth device will plug into the Internet”
“Today, there are over 1 billion computers that regularly connect to the Internet.”
“But cellular devices, such as Internet-connected smartphones, have outstripped that total and are growing at a much faster rate.”
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2.2 Two Approaches to Network Communication
* circuit-switched networks (telephone)
3 phases:establish connection between end pointsuse connection
relinquish connection
disadvantage: cost independent of use
* packet-switched networks (post office)
at source, data divided into packets
packets individually sent from source to destination
data reassembled at destination
advantage: can share transport facilities disadvantage: traffic spike may overload
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2.4 Ethernet Technology
Comer Figure 2.1 Ethernet using twisted pair wiring (with HUB)
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2.4.5 Properties of an EthernetEthernet was “designed to be”
i.e. “classical” or “original” Ethernet■ shared bus
■ broadcast technology
■ best-effort delivery
■ distributed access control
- shared bandwidth- only one station transmitting at a time- “half duplex”
(station transmits XOR receives)
- all stations receive all messages
- CSMA/CD
- Like Post Office
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2.4.8 Ethernet Hardware Addresses
Destination address as filter
An Ethernet station receiving packet checks destination address
ignores packet if not intended for this station
6 bytes total - globally unique
High-Order 3 bytes: assigned to manufacturer by IEEE
Low-Order 3 bytes: serial number assigned bymanufacturer
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Ethernet Addresses – continued
Types of Destination address
An address can be used to specify■ a single, specific station
on this network (“unicast address”)■ all stations on this network
(“broadcast address”)■ a subset of stations on this network
(“multicast address”)
Interface Modes of Operation
■ normal modeInterface processes only packets with destination * its own unicast address * the network broadcast address
■ promiscuous modeInterface process all received packets (including those addressed to other stations)
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Figure 2.1 (with hub)
Figure 2.2 Format of an Ethernet frame (packet)
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► Bridge is “store and Forward” device, operating at frame level
►2 interfaces operting in promiscous mode,
frame buffer for each interface
►receives frame, checks for validity before forwarding –
no “runts”
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►” An (almost) arbitrary number of Ethernets can be connected together with bridges”
►”A set of bridged segments acts like a single Ethernet”
(“transparent”)
► “Most bridges . . . Make intelligent decisions about which frames to forward” -- No “runts”
► Special case when bridge first powered up -- “flooding”
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switch
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► No waiting to transmit
► not CSMA/CD
► If we upgrade switch with fast backplane, we can have multiple transmissions at same time
► Special case – station can be transmitting and receiving at same time - Full Duplex
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2.4.5 Properties of an EthernetEthernet was “designed to be”
i.e. “classical” or “original” Ethernet
■ shared bus- shared bandwidth- only one station transmitting at a time- “half duplex”
(station transmits XOR receives)
■ broadcast technology- all stations receive all messages
■ best-effort delivery
■ distributed access control- CSMA/CD
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■ not shared bus - point-to-point connections - not shared bandwidth - “full duplex” (station can be transmitting and
receiving)
■ not broadcast technology - stations receive only their own messages
■ best-effort delivery
■ no access control needed - private frame buffer - no entrance collisions - not CSMA/CD - exit port collision
Properties of a “switched” Ethernet
Most new wired Ethernet installations are switched
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IEEE 802.11 standards for wireless LANs
Speed Range Radio Frequency
802.11b 11 Mbits/sec 100 meters 2.4 GHz
802.11a 54 Mbits/sec 80 meters 5 Ghz
802.11g 54 Mbits/sec 150 meters 2.4 GHz
802.11n 248Mbits/sec
70 meters 2.4 and 5 GHz
We have 802.11g in the lab
Return to section 2.4.7 Wireless Networks and Ethernet
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Figure 1
Figure 2
(Independent) Basic Service Set
(ad-hoc network)
Extended Service Set
(infrastructure network)
New components: Distribution System each BSS has an Access Point
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Figure 3 – Hidden Station Problem
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23Figure 4 – CSMA/Collision Avoidance
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Independent Basic Service Set (IBSS)
Station Service (SS) must be provided by all stations:
(a) Authentication(b) Deauthentication(c) Privacy(d) Data Unit Delivery
Extended Service Set (ESS)
Additional services that must be provided by the access point/distribution system:
(a) Association
(c) Disassociation
(b) Distribution
(d) Reassociation
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Figure 5
AP acts like a bridge
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26Figure 6
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Network, BSS, and Station Identification
In the Network Lab:
BSSID is 00:06:25:49:B3:B2(MAC address of Access Point)
Each station identification is its MAC address
ESSID is netlab_w
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28Figure 6 - 802.11 frame format
Wired Ethernet Frame Format
Wired: All frames are data frames
Wireless: Management, Control, and Data frames
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Usage of Address Fields in 802.11
Address 1 identifies the immediate receiver
(the unit that will process the frame)
Address 2 identifies the transmitter
(the unit that transmits the frame and will receive the acknowledgment)
Usage of other addresses is situation-dependent.
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Example 1 – IBSS
For frames traveling within an IBSS:
Address 1 is the destination address
Address 2 is the source address
Address 3 is the BSSID
(used as a filter, since IBSSs may overlap)
Another IBSS!
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Client request
Addr 1 - immediate destination - AP
Addr 2 – client address
Addr 3 – ultimate destination (DA)
Example 2 – ESS with 802.3 (wired) DS, client-server transaction
Server reply
Addr 1 – client
Addr2 – immediate source (AP)
Addr3 – original source (server)
On 802.11 segment
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Example 3 – ESS with 802.11 (wireless) DS
AP1 AP2
Addr 1 – AP2
Addr 2 – AP1
Addr 3 – ultimate dest
Addr 4 – original source
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“Fig 1.5” – An internet
4 Ethernet LANs linked by a WAN
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Net 1 Net 2
Figure 3.1
C1 C2B?
B1 ? B2 ?C1 C2
Figure 3.2
Net 1 Net 2Net 3
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Comer figure 3.3 (a) user’s view (b) structure of physical networks and routers
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“Fig 1.5” – An internet
4 Ethernet LANs linked by a WAN
We regard each of the links in the WAN as a network
Comer section 3.8: All Networks are Equal
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| | |
0 31
0 | | |
10 | | |
110 | | |
A
B
C
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Figure 4.1 The original classful IP addressing scheme
IPv4
IP addresses specify network connections
A router must have at least two IP addresses, with different network parts
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42Figure 4.4 Special forms of IP addresses
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4.11 Dotted Decimal Notation
1 0 0 0 1 0 1 0 0 0 0 1 1 0 1 0 0 1 0 0 0 0 1 0 0 0 0 0 0 1 1 0
138 . 26 . 66 . 6
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4.14 Internet Addressing Authority
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Figure 4.5 Logical connection of
Two networks to the Internet backbone
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46Figure 4.6 Example IP address assignment
128.10.0.0
128.210.0.09.0.0.0
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“Fig 1.5” – An internet
BHM
NO ATL
CHL
Final router has to deliver packet to final destination over Ethernet network.
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Figure 2.2 Format of an Ethernet Frame
Destination Ethernet Address
Final Router has to deliver packet over Ethernet network.
IP Packet0800
From the incoming packet final router knows the destination IP address.
We have to find the Ethernet address corresponding to the destination IP address.
The ONLY way data can move over an Ethernet is in the payload of an Ethernet frame.
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router
destination
Ch 5: Mapping Internet Addresses to Physical Addresses
Incoming IP Packet
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Comer Section 5.10 ARP Implementation
■ action when sending an ARP requestdetain outgoing data message in queue
until ARP reply received
■ action when receiving an ARP message either request or reply contain mapping(s) in either case
look in ARP cache to see if receiver already has an entry for the sender.
if yes, overwrite physical address (quickest way) and reset timerif no, make new entry and start timer
further action depends on two sub-cases:
* incoming ARP message was a requestlook at target IP address; if it’s for this
machine, generate ARP reply
* incoming ARP message was a reply since reply is unicast, this machine earlier sent an ARP request
for the IP address in the reply
so release outgoing data message from queue, incorporate packet into outgoing frame and transmit.
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Figure 2.2 Ethernet Frame Format
0806
5.11 ARP Encapsulation and Identification
ARP MESSAGE
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52Figure 5.3 ARP Message Format
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ARP Message
0806
5.12 ARP Protocol Format
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