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In our app we're going to be handed png images along with a ~200 character byte array. I want to save the image with a filename corresponding to that bytearray, but not the bytearray itself, as i don't want 200 character filenames. So, what i thought was that i would save the bytearray into the database, and then MD5 it to get a short filename. When it comes time to display a particular image, i look up its bytearray, MD5 it, then look for that file.

So far so good. The problem is that potentially two different bytearrays could hash down to the same MD5. Then, one file would effectively overwrite another. Or could they? I guess my questions are

  • Could two ~200 char bytearrays MD5-hash down to the same string?
  • If they could, is it a once-per-10-ages-of-the-universe sort of deal or something that could conceivably happen in my app?
  • Is there a hashing algorithm that will produce a (say) 32 char string that's guaranteed to be unique?
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I don't understand the need to automatically determine the file name by some arbitrary calculation. Just create some key... file name or whatever and store it along side the 200 char byte array and use that as your file name. Takes the calculation out of the mix and makes the underlying code more simple... –  jsobo May 29 '12 at 11:56
    
Please capitalize conventionally. –  thb May 29 '12 at 12:02
    
jsobo - the reason i want to use a hashing (or similar) function is that in a lot of cases the source bytearray (and png) will be the same for different users, so i could avoid saving multiple versions of the same png in that instance. Ie, if 100 people all have the same bytearray (due to the same option set) then they all share the same png file. –  Max Williams May 29 '12 at 12:24

8 Answers 8

When hashing (as opposed to encrypting), you're reducing the information space of the data being hashed, so there's always a chance of a collision.

The best you can hope for in a hash function is that all hashes are evenly distributed in the hash space and your hash output is large enough to provide your "once-per-10-ages-of-the-universe sort of deal" as you put it!

So whether a hash is "good enough" for you depends on the consequences of a collision. You could always add a unique id to a checksum/hash to get the best of both worlds.

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+1 for grabbing a unique ID from the DB –  Paul Bain May 29 '12 at 12:16
    
Well, you cannot if you want to be able to calculate the code from the data source alone. If you can use a unique ID, you probably do not need a hash. –  JohnB May 29 '12 at 14:16

It's logically impossible to get a 32 byte code from a 200 byte source which is unique among all possible 200 byte sources, since you can store more information in 200 bytes than in 32 bytes.

They only exception would be that the information stored in these 200 bytes would also fit into 32 bytes, in which case your source date format would be extremely inefficient and space-wasting.

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Why don't you use a unique ID from your database?

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Uniqe ids are not always integer. Some RDMS has uuid facility. –  shiplu.mokadd.im May 29 '12 at 12:00

Could two ~200 char bytearrays MD5-hash down to the same string?

Considering that there are more 200 byte strings than 32 byte strings (MD5 digests), that is guaranteed to be the case.

All hash functions have that problem, but some are more robust than MD5. Try SHA-1. git is using it for the same purpose.

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It may happen that two MD5 hashes collides (are the same). In 1996, a flaw was found in MD5 algorithm, and cryptanalysts advised to switch to SHA-1 hashing algorithm.

So, I will advise you to switch to SHA-1 (40 characters). But do not worry: I doubt that your two pictures will get the same hash. I think you can assume this risk in your application.

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As other said before. Hash doesnt give you what you need unless you are fine with risk of collision.

Database is helpful here. You get unique index for each 200 long string. No collisions here, and you need to set your 200 long names to be indexed, in that way it will use extra memory but it will sort it for you making search very very fast. You get unique id which can be easily used for filenames.

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The probability of two hashes will likely to collide depends on the hash size. MD5 produces 128-bit hash. So for 2128+1 number of hashes there will be at least one collision.

This number is 2160+1 for SHA1 and 2512+1 for SHA512.

Here this rule applies. The more the output bits the more uniqueness and more computation. So there is a trade off. What you have to do is to choose an optimal one.

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You should read about the Birthday attack before drawing any conclusion from the above number. en.wikipedia.org/wiki/Birthday_attack –  jsobo May 29 '12 at 11:59
    
The conclusion is correct, though. For 2^128+1 inputs, there will be a collision (at least one). The birthday paradox says that you will likely get one much earlier. –  Thilo May 29 '12 at 12:02
    
@Thilo You are right. –  shiplu.mokadd.im May 29 '12 at 12:04

I have'nt worked much on hashing algorithms but as per my understanding there is always a chance of collison in hashing algorithm i.e. two differnce object may be hashed to same hash value but it is guaranteed that every time a object will be hashed to same hash value. There are other techniques that may be used for this , like linear probing.

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