I've searched a lot for md5 hash collision, but I've found binary examples only. I would like to find two UTF8 strings, which have the same md5 hash. Are there any, or the collision works only for binary data?
It's definitely possible:
- We all agree there are collisions for MD5 due to birthday paradox - we are mapping infinitely many possible inputs to elements belonging to a finite sequence.
- There is a solid chance that there are infinitely many collisions: we are able to produce infinite pairs of input and MD5 tries to map them uniformly.
By that alone some of these collisions are bound to be valid UTF8 strings, but they're extremely rare, since most of these will be just random binary garbage.
If you absolutely need to find such messages, I recommend using collision finder written by Patrick Stach, which should return pair of arbitrary messages within a few hours, or my attempt to improve it. The latter uses techniques presented in later papers by Wang (the first person to demonstrate examples of MD5 collisions), Lian, Sasaki, Yajima and Klima.
I think you could also use length extension attack to some extent, but it requires deeper understanding of what happens inside MD5.
There are UTF-8 collisions. By the nature of cryptographic hashes, finding them is intentionally difficult, even for a hash as broken as MD5.
You might search for MD5 Rainbow Tables, which can be used for password cracking, and hence for UTF-8 strings. As @alk pointed out, a brute force search is going to take a very long time.
I recently found a very simple case of hash collision in my project. I am using Python wrapper of xxhash for hashing. Link: https://github.com/ewencp/pyhashxx
s1 = 'mdsAnalysisResult105588' s2 = 'mdsAlertCompleteResult360224' pyhashxx.hashxx(s1) # Out: 2535747266 pyhashxx.hashxx(s2) # Out: 2535747266
It caused a very tricky caching issue in the system, then I finally found that it's a hash collision.
The canonical example of an MD5 hash collision (hex - from here):
d131dd02c5e6eec4693d9a0698aff95c 2fcab58712467eab4004583eb8fb7f89 55ad340609f4b30283e488832571415a 085125e8f7cdc99fd91dbdf280373c5b d8823e3156348f5bae6dacd436c919c6 dd53e2b487da03fd02396306d248cda0 e99f33420f577ee8ce54b67080a80d1e c69821bcb6a8839396f9652b6ff72a70
d131dd02c5e6eec4693d9a0698aff95c 2fcab50712467eab4004583eb8fb7f89 55ad340609f4b30283e4888325f1415a 085125e8f7cdc99fd91dbd7280373c5b d8823e3156348f5bae6dacd436c919c6 dd53e23487da03fd02396306d248cda0 e99f33420f577ee8ce54b67080280d1e c69821bcb6a8839396f965ab6ff72a70
are, in fact, valid UTF-8 strings. They do not contain any
NULL bytes and are therefore UTF-8 strings. Now, they are meaningless and look like garbage when decoded:
1i=\/ʵF~@X>U4 䈃%qAZQ%ɟ7<[>1V4[m6Sⴇ9cH͠3BW~Tp Ƙ!e+o*p
(some characters were control characters)
1i=\/ʵF~@X>U4 䈃%AZQ%ɟr7<[>1V4[m6S49cH͠3BW~Tp( Ƙ!eo*p
Oh, and before I forget, here's the MD5 hash: