Is there any input that SHA1 will compute to a hex value of fourtyzeros, i.e. "0000000000000000000000000000000000000000"?

I don't think so. There is no easy way to show why it's not possible. If there was, then this would itself be the basis of an algorithm to find collisions. Longer analysis: The preprocessing makes sure that there is always at least one The loop over Note: In the main loop, it's easy to see that the factor This leaves us with the question whether you can create a bit pattern for which This is possible for the first 16 values of So the next step could be to unroll the loops and create a system of linear equations. I'll leave that as an exercise to the reader ;) The system is interesting since we have a loop that creates additional equations until we end up with a stable result. Basically, the algorithm was chosen in such a way that you can create individual 0 words by selecting input patterns but these effects are countered by Just an example: To make
which gives us Word 1, similarly, is used in words 1, 17, 20, 23, 2526, 2829, 3179. As you can see, there is a lot of overlap. If you calculate the input value that would give you a 0 result, that value influences at last 32 other input values. 


Yes, it's just incredibly unlikely. I.e. one in 2^160, or 0.00000000000000000000000000000000000000000000006842277657836021%. 


Also, becuase SHA1 is cryptographically strong, it would also be computationally unfeasible (at least with current computer technology  all bets are off for emergent technologies such as quantum computing) to find out what data would result in an allzero hash until it occurred in practice. If you really must use the "0" hash as a sentinel be sure to include an appropriate assertion (that you did not just hash input data to your "zero" hash sentinel) that survives into production. It is a failure condition your code will permanently need to check for. WARNING: Your code will permanently be broken if it does. Depending on your situation (if your logic can cope with handling the empty string as a special case in order to forbid it from input) you could use the SHA1 hash ('da39a3ee5e6b4b0d3255bfef95601890afd80709') of the empty string. Also possible is using the hash for any string not in your input domain such as sha1('a') if your input has numericonly as an invariant. If the input is preprocessed to add any regular decoration then a hash of something without the decoration would work as well (eg: sha1('abc') if your inputs like 'foo' are decorated with quotes to something like '"foo"'). 


Without any knowledge of SHA1 internals, I don't see why any particular value should be impossible (unless explicitly stated in the description of the algorithm). An allzero value is no more or less probable than any other specific value. 


The post by Aaron is incorrect. It is getting hung up on the internals of the SHA1 computation while ignoring what happens at the end of the round function. Specifically, see the pseudocode from Wikipedia. At the end of the round, the following computation is done:
So an all 0 output can happen if To answer your question: nobody knows whether there exists an input that produces all zero outputs, but cryptographers expect that there are based upon the simple argument provided by daf. 


Contrary to all answers here, the answer is simply No. The hash value always contains bits set to 1. 


Contrary to all of the current answers here, nobody knows that. There's a big difference between a probability estimation and a proof. But you can safely assume it won't happen. In fact, you can safely assume that just about ANY value won't be the result (assuming it wasn't obtained through some SHA1like procedures). You can assume this as long as SHA1 is secure (it actually isn't anymore, at least theoretically). People doesn't seem realize just how improbable it is (if all humanity focused all of it's current resources on finding a zero hash by bruteforcing, it would take about xxx... ages of the current universe to crack it). If you know the function is safe, it's not wrong to assume it won't happen. That may change in the future, so assume some malicious inputs could give that value (e.g. don't erase user's HDD if you find a zero hash). If anyone still thinks it's not "clean" or something, I can tell you that nothing is guaranteed in the real world, because of quantum mechanics. You assume you can't walk through a solid wall just because of an insanely low probability. [I'm done with this site... My first answer here, I tried to write a nice answer, but all I see is a bunch of downvoting morons who are wrong and can't even tell the reason why are they doing it. Your community really disappointed me. I'll still use this site, but only passively] 

