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This is a follow-up to my previous question: ARP reply packet does not update ARP cache on Ubuntu. It turned out that my problem was that I was using an arbitrary MAC address as my source MAC (ie. one that doesn't exist on my network, say aa:bb:cc:dd:ee:ff). I could send ARP replies to poison my cache with no problem as long as my source MAC matches with the MAC of my NIC. I tried to manually set my NIC to have an arbitrary MAC address, then send ARP replies using that as my ARP packet's source MAC - also worked.

I am wondering if anybody knows the inner workings of this. Was there some kind of check that prevents packets with mismatched source MAC from being sent? Was it a check between the source MAC of the Ethernet frame vs. the source MAC of the ARP packet? And for the purpose of an experiment that I'm running, is there a way to bypass this restriction?

JY

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1 Answer 1

Various optimizations are possible to make ARP work more efficiently. To start with, once a machine has run ARP, it caches the result in case it needs to contact the same machine shortly. Next time it will find the mapping it its own cache, thus eliminating the need for a second broadcast. In many cases, host 2(receiver) will need to send back a reply, forcing it, too, to run ARP to determine the sender's Ethernet address. This ARP broadcast can be avoided by having sender include its IP-to-Ethernet mapping in the ARP packet.

Quoted from Tanenbaum's Computer Networks, fifth Edition p486-487

So it looks like your receiver fails to resolve MAC of the sender. And Tanenbaum presented a solution to you to avoid this failure.

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Thanks for the reply. I am not sure if I understood correctly though, because I was under the impression that the receiver only replies if it gets an ARP request. In my case, my sender is always sending ARP replies directly (ie. unsolicited ARP replies). I am also a bit confused as to how I would include the sender's IP-to-Ethernet mapping in the ARP packet - wouldn't it just be the sender IP and sender MAC? But the sender IP and MAC are what's controlling the spoofing, so they can't be altered? I think I'm missing something very important here :P –  user1589408 Sep 5 '12 at 5:55

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