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What would actually happen if I had a hash collision while using git?

E.g. I manage to commit two files with the same sha1 checksum, would git notice it or corrupt one of the files?

Could git be improved to live with that, or would I have to change to a new hash algorithm?

(Please do not deflect this question by discussing how unlikely that is - Thanks)

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I've been informed by the git Gods that the chances of a SHA1 collision is the same as the Earth being sucked up into the black hole created by the CERN accelerator. If this is indeed true, then there's no need for that extra memcmp. , source: lwn.net/Articles/307281 –  KurzedMetal May 3 '12 at 15:28
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ABSOLUTELY NOT SO. To quote Dan Bernstein: "The fact that academics haven't carried out the SHA-1 collision attack yet is a minor historical accident" - now that the SHA-3 contest is over, there's a good chance the relevant people will turn their attention to using the known attack to produce a collision. Marc Stevens estimates the difficulty as a mere 2^61 operations. There will very likely be a SHA-1 collision exhibited soon; it's odd that it hasn't happened already. –  Paul Crowley Oct 16 '12 at 11:17
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@KurzedMetal: There is a chance to create black hole in CERN (two protons would have collide accurately (10^-15m)), however this black hole would not suck Earth up, it would instantly evaporate due to Hawking radiation... So the chances of SHA1 collision are much bigger than being sucked up... just saying... –  Jaa-c Mar 23 '13 at 0:37
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possible duplicate of How would git handle a SHA-1 collision on a blob? –  meagar May 22 '13 at 17:07
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All this talk about SHA1 being "weak" or "vulnerable" is irrelevant. Git doesn't use SHA1 hashing for security, it uses it for speed. The ability to produce a contrived hash collision doesn't matter. –  meagar May 22 '13 at 17:08

4 Answers 4

If two files have the same hash sum in git, it would treat those files as identical. In the absolutely unlikely case this happens, you could always go back one commit, and change something in the file so they wouldn't collide anymore ...

See: http://kerneltrap.org/mailarchive/git/2006/8/28/211065

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"If two files have the same hash sum in git, it would treat those files as identical." This is actually a proper answer. However, do you have some source for this statement klaustopher? Your link is not working for me. –  Tiago Oct 31 '12 at 1:57
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Somebody pasted the whole answer here: stackoverflow.com/a/9392525/767272 –  kgz Oct 31 '12 at 17:10
    
But this is not so absolutely unlikely if you work on a project with a collection of samples of hash collision. –  Doomjunky Aug 19 at 23:13
    
@Doomjunky, Assign a number (say 1 through n) to each of your hash collision samples. Put a line at the top of each file with its unique number. They won't collide anymore, but whatever tools you're using to analyze them can just ignore the first line. –  scpayson Nov 6 at 11:04

It's not really possible to answer this question with the right "but" without also explaining why it's not a problem. It's not possible to do that without really having a good grip on what a hash really is. It's more complicated than the simple cases you might have been exposed to in a CS program.

There is a basic misunderstanding of information theory here. If you reduce a large amount of information into a smaller amount by discarding some amount (ie. a hash) there will be a chance of collision directly related to the length of the data. The shorter the data, the LESS likely it will be. Now, the vast majority of the collisions will be gibberish, making them that much more likely to actually happen (you would never check in gibberish...even a binary image is somewhat structured). In the end, the chances are remote. To answer your question, yes, git will treat them as the same, changing the hash algorithm won't help, it'll take a "second check" of some sort, but ultimately, you would need as much "additional check" data as the length of the data to be 100% sure...keep in mind you would be 99.99999....to a really long number of digits.... sure with a simple check like you describe. SHA-x are cryptographically strong hashes, which means is't generally hard to intentionally create two source data sets that are both VERY SIMILAR to each other, and have the same hash. One bit of change in the data should create more than one (preferably as many as possible) bits of change in the hash output, which also means it's very difficult (but not quite impossible) to work back from the hash to the complete set of collisions, and thereby pull out the original message from that set of collisions - all but a few will be gibberish, and of the ones that aren't there's still a huge number to sift through if the message length is any significant length. The downside of a crypto hash is that they are slow to compute...in general.

So, what's it all mean then for Git? Not much. The hashes get done so rarely (relative to everything else) that their computational penalty is low overall to operations. The chances of hitting a pair of collisions is so low, it's not a realistic chance to occur and not be detected immediately (ie. your code would most likely suddenly stop building), allowing the user to fix the problem (back up a revision, and make the change again, and you'll almost certainly get a different hash because of the time change, which also feeds the hash in git). There is more likely for it to be a real problem for you if you're storing arbitrary binaries in git, which isn't really what it's primary use model is. If you want to do that...you're probably better off using a traditional database.

It's not wrong to think about this - it's a good question that a lot of people just pass off as "so unlikely it's not worth thinking about" - but it's really a little more complicated than that. If it DOES happen, it should be very readily detectible, it won't be a silent corruption in a normal workflow.

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An SHA-1 hash is a 40 hex character string... that's 4 bits per character times 40... 160 bits. Now we know 10 bits is approximately 1000 (1024 to be exact) meaning that there are 1 000 000 000 000 000 000 000 000 000 000 000 000 000 000 000 000 different SHA-1 hashes... 10^48.

What is this equivalent of? Well the Moon is made up of about 10^47 atoms. So if we have 10 Moons... and you randomly pick one atom on one of these moons... and then go ahead and pick a random atom on them again... then the likelyhood that you'll pick the same atom twice, is the likelyhood that two git commits will have the same SHA-1 hash.

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Could git be improved to live with that, or would I have to change to a new hash algorithm?

Collisions are possible for any hash algorithm, so changing the hash function doesn't preclude the problem, it just makes it less unlikely to happen. So you should choose then a really good hash function (SHA-1 already is, but you asked not to be told :)

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