Knowledge checks


Different types of addressing (a).



We've now learned about both IPv4 addresses and MAC addresses.  Consider the address properties below, and use the pulldown menu to indicate  which of these properties is only a property of MAC addresses (and therefore is not a property of IPv4 addresses - careful!).




 

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1/9

Different types of addressing (b).



We've now learned about both IPv4 addresses and MAC addresses.  Consider the address properties below, and use the pulldown menu to indicate  which of these properties is only a property of IPv4 addresses (and therefore is not a property of MAC addresses - careful!).




 

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2/9

Different types of addressing (c).



We've now learned about both IPv4 addresses and MAC addresses.  Consider the address properties below, and use the pulldown menu to indicate  which of these properties is a property of both IPv4 addresses and MAC addresses.




 

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3/9

Fields in an Ethernet frame.



  Use the pulldown menus below to match the name of the field with the function/purpose of a field within an Ethernet frame.



Question List:
Answer List:
  1. Used for flow control.

  2. This field does not exist in the Ethernet frame

  3. Used to demultiplex the payload up to a higher level protocol at the receiver.

  4. The contents of this field is typically (bit not always) a network-layer IP datagram.

  5. 48-bit MAC address of the sending node.

  6. Used only to detect, but never correct, bit-level errors in the frame.

  7. Used to detect and possibly correct bit-level errors in the frame.


 

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4/9

Switch forwarding and filtering.



Suppose an Ethernet frame arrives to an Ethernet switch, and the Ethernet switch does not know which of its switch ports leads to the node with the given destination MAC address?  In this case, what does the switch do?




 

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5/9

Self-learning switches.



Which of the following statements are true about a self learning switch?




 

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6/9

Learning switch scenario.



Consider the simple star-connected Ethernet LAN shown below, and suppose the Ethernet switch is a learning switch, and that the switch table is initially empty. Suppose C sends an Ethernet frame address to C' and C ' replies back to C.  How many of these two frames are also received at B's interface?





 

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7/9

Learning switch state removal.



Consider the simple star-connected Ethernet LAN shown below, and suppose the switch table contains entries for each of the 6 hosts.  How will those entries be removed from the switch table?





 

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8/9

MAC addresses (versus other types of addresses and identifiers).



Which of the following statements are true about MAC (link-layer) addresses?  Select one or more statements below.




 

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9/9

We gratefully acknowledge the programming and problem design work of John Broderick (UMass '21), which has really helped to substantially improve this site.

Copyright © 2010-2021 J.F. Kurose, K.W. Ross
Comments welcome and appreciated: kurose@cs.umass.edu