# Determine Hash Algorithm

If I have both the initial key and the hash that was created, is there any way to determine the hash algorithm?

For example:
Key: higher
Hash: df072c8afcf2385b8d34aab3362020d0
Algorithm = ?

-

Well, given that there are a finite number of popular hash algorithms, maybe what you propose is not so ridiculous.

But suppose I asked you this:

If I have an input and an output, can I determine the function?

Generally speaking, no, you cannot determine the inner-workings of any function simply from knowing one input and one output, without any additional information.

``````// very, very basic illustration
if (unknownFunction(2) == 4) {
// what does unknownFunction do?
// return x + 2?
// or return x * 2?
// or return Math.Pow(x, 2)?
// or return Math.Pow(x, 3) - 4?
// etc.
}
``````
-

By looking at the length, you can decide which algorithms to try. MD5 and MD2 produce 16-byte digests. SHA-1 produces 20 bytes of output. Etc. Then perform each hash on the input and see if it matches the output. If so, that's your algorithm.

Of course, if more than the "key" was hashed, you'll need to know that too. And depending on the application, hashes are often applied iteratively. That is, the output of the hash is hashed again, and that output is hashed… often thousands of times. So if you know in advance how many iterations were performed, that can help too.

There's nothing besides the length in the output of a cryptographic hash that would help narrow down the algorithm that produced it.

-
The length doesn't help that much. You could easily concatenate two related MD5s together to get a larger output. –  John Gietzen Sep 18 '09 at 15:40
Sure, but in the real world, I've never seen that done---including this question. On the other hand, I've had countless experiences where I had to figure out what digests were used in a protocol, and by simply counting the bytes I was able to verify my first guess. That's a lot of help. Of course, YMMV. –  erickson Sep 18 '09 at 16:39
@John anything trivial like that will be beaten. This is cryptography after all. The only way you are going to stop someone from guessing your hash algorithm is by using a keyed hash (and not giving him the key). Or making your own, which even then it could be feasible for the attacker to derive the algorithm. –  L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Jul 1 '10 at 23:48

1) The hash seems to contain only hexadecimal characters (each character represents 4bits)

2) Total count is 32 characters -> this is a 128-bits length hash.

3) Standard hashing algorithms that comply with these specs are: haval, md2, md4, md5 and ripemd128.

4) Highest probability is that MD5 was used.

5) md5("higher") != df072c8afcf2385b8d34aab3362020d0

6) Highest probability is that some salt was used.

7) Highest probability still remains MD5. :)

sb

-

Not other than trying out a bunch that you know and seeing if any match.

-
This is a good idea for casual use, but if you need rigor, I don't think it will do. At a guess, I'd bet that any two hashing algorithms don't or can't guarantee they won't have collisions with each other for some input value. –  Jason Sep 19 '09 at 20:38

didnt match any of those:
http://www.fileformat.info/tool/hash.htm?text=higher
Or even those:
http://www.webwiki.de/hashes/f/fa/fa2/fa2ec87a2e6783b2193f71bfdf0f9cc8

-
perhaps a salt was appended prioir to hashing? –  Amro Sep 18 '09 at 3:40
Yeah, I was checking it against some existing hashes as well and came up empty handed. The above example I gave was from a website's search box. I noticed that it hashed the search value, and was curious if I would be able to figure out the hashing method. –  Chrisc Sep 18 '09 at 3:49