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Please help interpret the Birthday effect as described in Wikipedia:

A birthday attack works as follows:

  1. Pick any message m and compute h(m).
  2. Update list L. Check if h(m) is in the list L.
  3. if (h(m),m) is already in L, a colliding message pair has been found. else save the pair (h(m),m) in the list L and go back to step 1.

From the birthday paradox we know that we can expect to find a matching entry, after performing about 2^(n/2) hash evaluations.

Does the above mean 2^(n/2) iterations through the above entire loop (i.e. 2^(n/2) returns to step 1), OR does it mean 2^(n/2) comparisons to individual items already in L?

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Hash evaluations. as in "compute h(m)" in step 1 – amphetamachine May 4 '10 at 16:08
oh right, hash evaluation would mean computing a hash for a message, thanks. – Mark May 4 '10 at 16:13
Can you provide the wikipedia link you are quoting? I don't see this text there. – ire_and_curses May 4 '10 at 16:20 Evidently it wasn't wikipedia. – Mark May 4 '10 at 16:35
up vote 4 down vote accepted

It means 2^(n/2) iterations through the loop. But note that L would not be a normal list here, but a hash table mapping h(m) to m. So each iteration would only need a constant number (O(1)) of comparisons in average, and there would be O(2^(n/2)) comparisons in total.

If L had been a normal array or a linked list, then the number of comparisons would be much larger since you would need to search through the whole list each iteration. This would be a bad way to implement this algorithm though.

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just one other thing regarding stack overflow - am I supposed to be updating the status somehow of members here that answer my questions. If so, how is that done. – Mark May 4 '10 at 16:17
@Mark: If you like an answer you can upvote it (click the up arrow to the left of the answer). If an answer solves your problem, you can accept it - click the tick mark to the left of the answer. – ire_and_curses May 4 '10 at 16:21
Well it looks like I'll have to register to do that. – Mark May 4 '10 at 16:25
If items are not added the list L, or rather periodically deleted from L after L reaches some set maximum (but before a collision is found), any idea on what effect that would have on the 2^(n/2) birthday bound. – Mark May 4 '10 at 17:13
@Mark: If you limit the size of L to k where k<2^(n/2), then you would need about (2^n)/k iterations to find a collision. – interjay May 4 '10 at 17:20

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