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I recently read an article about password hashing.

How are MD5 or SHA1 hashes are created such that it can't be decrypted?? What I think is, it must be encypting string by certain FORMULA (it always gives same hash for the same string; so there must be no randomization) and thats why we should be able to decrypt that by the same FORMULA?? Or people don't know the forumla?

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By the inverse formula. I am far from an expert in cryptography, but the idea is that you have two functions: encrypt(plaintext) which can be computed in reasonable time, and decrypt(ciphertext), which cannot, at least not without a key. Usually the best thing you can do is run all plaintexts through the encryption function, until you get the right one. This takes exponential time, and from this stems the security of the method. –  Panayiotis Karabassis Jun 20 '12 at 10:31
@PanayiotisKarabassis MD5 and SHA1 are not encryption algorithms and cannot be decrypted. They are hashing functions. Your comment is a bit misleading. –  psych Jun 20 '12 at 10:32
Indeed. Sorry... –  Panayiotis Karabassis Jun 20 '12 at 10:59

3 Answers 3

up vote 17 down vote accepted

MD5 and SHA1 are not encryption algorithms. They are hashing algorithms.

It is a one way formula. Running MD5 or SHA1 on a particular string gives a hash that is always the same. It isn't possible to reverse the function to get back to the original string.

For example:

15 Mod 4 = 3

Even if you know the formula is

x Mod 4

you can't deduce x as it could be 3, 7, 11, 15 etc...

Obviously MD5 and SHA1 are a lot more complex!

In the above example, imputing 15 will always give you the answer of 3, but nobody would be able to deduce the original number. This does lead nicely on to collisions where multiple input strings could give the same hash:


Wikipedia has information on the particular algorithm used:


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well, that makes sense... –  Dilip Raj Baral Jun 20 '12 at 10:44

Everything is correctly explained by psych, I would like to add one more point to this:

15 Mod 4 = 3

Even if you know the formula is

x Mod 4

you can't deduce x as it could be 3, 7, 11, 15 etc

We can go even closer to our situation and have result of the action (like you have hash as result of action and action description)

x mod 4 = 3

x can be 12, 13, 14 or 15 which doesn't tell, what incoming integer we had.

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But with that formula it's trivial to find an input that matches the output. So it's trivial to find a first preimage. An essential property of a cryptographic hash is that you can't find any input matching the given output. –  CodesInChaos Feb 28 '13 at 10:42

I have always believed that the md5 and sha1 could not be decrypted and have used in my applications. But to my surprise I found some sites that perform the procedure. see http://www.crypt-security.com/ Therefore this procedure is not secure enough

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This is a pretty old question and doesn't really answer the question... Thanks for joining stackoverflow, I hope you stick around and find the site useful. –  jeremy Dec 27 '12 at 21:58
MD5 and SHA1 cannot be decrypted as they are not encryption algorithms. They are hashing functions. Whilst it isn't easy to reverse engineer, there is nothing to stop me looking up MD5('password)'=5f4dcc3b5aa765d61d8327deb882cf99 and storing the hashed value in a dictionary so that I can perform a lookup to identify the input string was 'password'. –  psych Jan 14 '13 at 10:41
There are a number of other ways to identify a match for these common hashing functions, but the use of the word 'decrypting' is incorrect and misleading. –  psych Jan 14 '13 at 10:46

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