Is MD5 hashing a file still considered a good enough method to uniquely identify it given all the breaking of MD5 algorithm and security issues etc? Security is not my primary concern here, but uniquely identifying each file is.

Any thoughts?

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    I am actually currently using it myself in one of my applications, and as far as I'm aware it's good enough to uniquely identify files. – Not Available Oct 27 '10 at 10:39
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    You will likely find this question: stackoverflow.com/questions/862346/… useful. – sharptooth Oct 27 '10 at 10:42
  • How many files do you need to identify? It outputs 128bits, so if you're trying to identify few thousands of files, it's fine. But if you're trying to id a lot more than that, you might be bumping into collisions/the birthday paradox. – Marcin Oct 27 '10 at 14:52
  • They are going to be image files, jpg's, png's and gif's. And yes i think the limit would be a few thousand... But how many files do you roughly think is going to cause me trouble? – Ranhiru Jude Cooray Oct 27 '10 at 14:57
  • Related: stackoverflow.com/questions/14973197/… – NeDark Jun 10 '14 at 2:27

Yes. MD5 has been completely broken from a security perspective, but the probability of an accidental collision is still vanishingly small. Just be sure that the files aren't being created by someone you don't trust and who might have malicious intent.

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    @none: For your first question, see here. I'm afraid I don't understand the other questions. – Marcelo Cantos Oct 27 '10 at 10:52
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    @0xA3: Neither you nor I have any idea what files the OP is referring to, or how much damage a compromise would cause. It could be their kid's baby photo collection for all we know. My goal is to provide the facts; what someone else does with them is their business. Also consider that Bruce Schneier recommends writing down your password; not everything needs to be stored at Fort Knox. Some things will keep just fine under the flower pot. – Marcelo Cantos Oct 27 '10 at 11:02
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    @Marcelo Cantos, I think what is lacking here is a differentiation or unpacking of the term 'security'. Obviously people are assuming 'security' for any use of checksum work, but the nomenclature Marcelo likely means is 'in a laboratory'. – hpavc Oct 27 '10 at 11:15
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    I strongly disagree. A different hash value tells that the files are different. But for an equal hash value: you can't say "it is highly likely both are the same" if the hash are the same : you can only compare byte-for-byte. A hash is many orders of magnitude smaller than the number of different values for the whole file, so there are many, many, many possible collisions for each hash values. Only if you are in the case of copying a known file (with a known hash) does an identical hash value "probably means" the 2nd was copied correctly (even then, it's not 100% sure, but highly likely). – Olivier Dulac May 19 '16 at 15:32
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    OK, my math sucks. GUIDs have about 122 bits of entropy, and so the probability of a collision anywhere in a billion files is about 2^(2*30 - 122) = 2^-62. While this is much higher than my original calculation, it's still minuscule at roughly one in 4-quintillion. – Marcelo Cantos Jun 8 '16 at 23:26

For practical purposes, the hash created might be suitably random, but theoretically there is always a probability of a collision, due to the Pigeonhole principle. Having different hashes certainly means that the files are different, but getting the same hash doesn't necessarily mean that the files are identical.

Using a hash function for that purpose - no matter whether security is a concern or not - should therefore always only be the first step of a check, especially if the hash algorithm is known to easily create collisions. To reliably find out if two files with the same hash are different you would have to compare those files byte-by-byte.

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    @Ranhiru. No. The hash gives you a 'summary' value which (for MD5) is only 16 bytes long. To guarantee the files are identical you would need to make a byte by byte check. This is true no matter what hash algorithm you choose, there is always the possibility of a collision. – PaulG Oct 27 '10 at 15:14
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    @Ranhiru. Reread this answer, its imho the most comprehensive one here. Hashing could be used as a first step, which gets you to 99.99^e% certainty that the files are identical, but if you want to be absolutely 100% certain, then you'll need to make a byte by byte check. This is true whether you use MD5, SHA or any other algorithm. – PaulG Oct 27 '10 at 15:48
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    This answer is wrong. Prevention of tampering and verifying uniqueness are the same thing. Also, while hashing doesn't guarantee uniqueness, neither does actual comparison. In fact, the likelihood of a hash accidentally colliding is actually lower that the probability of the comparison failing due to glitches in the CPU generated by normal solar gamma ray emissions. And don't forget that often the only source of the file is sitting on the other side of the world inside a web server, and the only independent piece of information you have for comparison purposes is the hash. – Marcelo Cantos Oct 27 '10 at 20:59
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    @Marcelo. It doesn't stand to logical reasoning that accidental collision is less likely than accidental bit flips (whilst making a byte by byte comparison). You still have the same chance of bit flips when building the hash (and arguably more since more processing time is involved). @Thomas raised the point originally to suggest that there is no guaranteed way of identifying uniqueness, though the impact of bit flips is highly debatable. The most pessimistic estimate is 1 flip per GB/hour, and ECC RAM would remove even that. – PaulG Oct 28 '10 at 9:29
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    "the likelihood of a hash accidentally colliding is actually lower that the probability of the comparison failing due to glitches in the CPU generated by normal solar gamma ray emissions" [citation needed] – endolith Jul 28 '15 at 18:42

MD5 will be good enough if you have no adversary. However, someone can (purposely) create two distinct files which hash to the same value (that's called a collision), and this may or may not be a problem, depending on your exact situation.

Since knowing whether known MD5 weaknesses apply to a given context is a subtle matter, it is recommended not to use MD5. Using a collision-resistant hash function (SHA-256 or SHA-512) is the safe answer. Also, using MD5 is bad public relations (if you use MD5, be prepared to have to justify yourselves; whereas nobody will question your using SHA-256).

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    This answer might be a bit misleading if the reader isn't too familiar with hashing. There is nothing magical about SHA that prevents hash collisions, they are just more resistant to hash collision attacks. If you wanted to be more than 99.999^e% certain that files are identical, you would still need a byte by byte check. – PaulG Oct 27 '10 at 15:32
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    Actually a byte-to-byte comparison may fail due to a cosmic ray flipping a bit (e.g. transforming a return 0; into a return 1;). This is highly unlikely, but the risk of a collision with SHA-256 is even smaller than that. Mathematically, you cannot be sure that two files which hash to the same value are identical, but you cannot be sure of that either by comparing the files themselves, as long as you use a computer for the comparison. What I mean is that it is meaningless to go beyond some 99.999....9% certainty, and SHA-256 already provides more than that. – Thomas Pornin Oct 27 '10 at 16:16
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    What, you don't use ECC memory? ;). Good comment, very interesting thoughts. – PaulG Oct 27 '10 at 16:23
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    Don't forget the tin foil hat ! More seriously, how do you know these factoids about collisions and have you verified this in some way ? – James P. Aug 16 '13 at 0:56
  • @ThomasPornin Cosmic ray bit flips would affect the MD5 method too, so it is still worse. – endolith Dec 20 '15 at 12:55

An md5 can produce collisions. Theoretically, although highly unlikely, a million files in a row can produce the same hash. Don't test your luck and check for md5 collisions before storing the value.

I personally like to create md5 of random strings, which reduces the overhead of hashing large files. When collisions are found, I iterate and re-hash with the appended loop counter.

You may read on the pigeonhole principle.


I wouldn't recommend it. If the application would work on multi-user system, there might be user, that would have two files with the same md5 hash (he might be engineer and play with such files, or be just curious - they are easily downloadable from http://www2.mat.dtu.dk/people/S.Thomsen/wangmd5/samples.html , I myself during writing this answer downloaded two samples). Another thing is, that some applications might store such duplicates for whatever reason (I'm not sure, if there are any such applications but the possibility exists).

If you are uniquely identifying files generated by your program I would say it is ok to use MD5. Otherwise, I would recommend any other hash function where no collisions are known yet.


Personally i think people use raw checksums (pick your method) of other objects to act as unique identifiers way too much when they really want to do is have unique identifiers. Fingerprinting an object for this use wasn't the intent and is likely to require more thinking than using a uuid or similar integrity mechanism.


MD5 has been broken, you could use SHA1 instead (implemented in most languages)

  • This is a perfectly good answer. MD5 is unacceptable for use cases in Law and Accounting in Europe from May 2018 on. – Bert Sinnema Sep 21 '17 at 7:15
  • @BertSinnema could you point me to the source that defines which hash functions are acceptable etc., please? – berezovskyi Feb 19 '18 at 20:05
  • @GregSchmit maybe because OP did not care about cryptographic strength per se. I understood the question as "I already use MD5 in non-security context, do I need to spend time to update the code?" kind of thing. And in this context the answer was likely wrong and SHA1 has been broken since too. – berezovskyi Feb 19 '18 at 20:07

When hashing short (< a few K ?) strings (or files) one can create two md5 hash keys, one for the actual string and a second one for the reverse of the string concatenated with a short asymmetric string. Example : md5 ( reverse ( string || '1010' ) ). Adding the extra string ensures that even files consisting of a series of identical bits generate two different keys. Please understand that even under this scheme there is a theoretical chance of the two hash keys being identical for non-identical strings, but the probability seems exceedingly small - something in the order of the square of the single md5 collision probability, and the time saving can be considerable when the number of files is growing. More elaborate schemes for creating the second string could be considered as well, but I am not sure that these would substantially improve the odds.

To check for collisions one can run this test for the uniqueness of the md5 hash keys for all bit_vectors in a db:

select md5 ( bit_vector ), count(*), bit_and ( bit_vector) from db with bit_vector
group by md5( bit_vector ), bit_vector having bit_and ( bit_vector ) <> bit_vector

  • Smart idea. If an "attacker" makes a fake file with the same md5 hash, it will not help unless he knows your "salting", and reversing the contents would create a different hash. Using 2 md5 keys like that would reduce the odds a lot. If its just to prevent an "attack" using a salt before calculating locally will be enough. – Wolf5 Jan 18 '17 at 22:17

I like to think of MD5 as an indicator of probability when storing a large amount of file data.

If the hashes are equal I then know I have to compare the files byte by byte, but that might only happen a few times for a false reason, otherwise (hashes are not equal) I can be certain we're talking about two different files.

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