When authenticating a user to a website, should the hash generation and comparison be done in the database or the website?

My argument is the website should pass the user supplied password (possibly encrypted by the web server) to the database. The database then re-encrypts it with the salt and compares the hash's. The database the responds to the web server whether the user's credentials are valid or not. This way, the very minimum ever leaves the database, essentially either a yes or no, none of the stored credential info. Downside is, the database has to do more work.

The other argument is that the work should be done in the web server. Here the web server would create the hash and request the stored hash from the database and compare. In this situation the salt needs to be passed from the database back to the web server for the hash to be created. but, work is shared as # of web servers increase.

Personally I see the second method as a potential security risk. Should the web server be compromised, salts and hashes can be requested from the database and easily cracked.

What is the best practise for performing the above operation? Am I overlooking/missing something?



The first problem I suspect you will run into (and it's a big one) is that your database does not have a password hash function. Sure, it probably has MD5() and SHA1() but these are cryptographic hash functions. Does it have bcrypt() or scrypt() or PBKDF2()?

Using a cryptographic hash function rather than a password hash function is what meant that the LinkedIn passwords could be cracked so quickly. If you don't use one of the above functions then you will be similarly vulnerable if your hashes are leaked.

Going on to answer your question assuming that your database does support a password hashing algorithm (using bcrypt simply because I have to pick one). The two alternatives are:

Hashing in the database:

$db->query("SELECT COUNT(*) FROM users WHERE username = '?' AND password = BCRYPT(?, (SELECT salt FROM user WHERE username = '?'))", $username, $password, $username);
if($row['count'] != 1)
  // Not authenticated.  Throw exception.

In this case, the raw password is sent to the database and a simple yes or no (1 or 0) is returned. This database communication can be encrypted. The hash and salt are never held in the application.

Hashing in the application:

$db->query("SELECT username, salt, password FROM users WHERE username = '?', $username);
if(bcrypt($password, $row['salt']) != $row['password'])
  // Not authenticated.  Throw exception.

In this case, the hash and salt are pulled from the database into the application and the hashing of the raw password and comparison is done there. The communication to the database can still be encrypted. The raw password is never held in the database memory.

For efficiency, we can assume that both hashing algorithms are written in C (or some compiled language) and are possibly provided by the OS so take the same time. The application hashing option receives more data over the wire and the database hashing option sends more and has a more complex query (essentially two queries, one to get the salt and one to effect the comparison). It may not be possible to use an index the way I have written that query but the query could be rewritten. Since the size of the data in both cases is likely still one TCP packet, the speed difference will be negligible. I would call this one a win for the application hashing option due to the subquery.

For exposure. I would consider the raw password to be more sensitive than the hash and the salt together. Therefore, limiting the exposure of the raw password seems like the safer bet, making application hashing the best practice.

  • I guess I over simplified the example but you could still embed the encryption method in the database, for example using clr objects in sql server – Blootac Jun 17 '12 at 10:16
  • @Blootac Good point. I've added an answer to the actual the question with the assumption that your database has an appropriate hashing algorithm. – Ladadadada Jun 17 '12 at 16:41

There's a really good article on how to store passwords securely here:



You are overlooking the purpose of a salt.

A salt is used to prevent a dictionary attack against hashed passwords. If your password is "peanut" and hashes to 12345, then I can pre-generate a list of hashes for every word in a dictionary (including your password) and quickly find your password by doing a lookup against my pre-generated set of password hashes. This is what happened to LinkedIn recently. If the passwords are salted, I'd have to pre-generate a dictionary for each salt value after compromising the database, which would be prohibitively expensive.

Furthermore, proper randomly-generated salts prevent an attacker from knowing that you and I have the same password (without the salt, we'd have the same hash).

My point is that the salts are not intended to be a secret. They are not public information, but an attacker getting access to the salt values + the hashes does not necessarily mean that the passwords have been compromised.


A good rule of thumb for computer security is that if you have to ask, you shouldn't do it yourself. But if your concern is exposure of password details if the web server is compromised, then one approach is to move authentication onto its own system, and don't give the web server access to the password database at all.

  • 2
    I see your point but if no one ever asks questions, no one ever learns and people will continue to do things wrongly. It's the people who don't ask the questions you should be more concerned with. Thank you for your suggestion. – Blootac Jun 17 '12 at 10:19

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for?Browse other questions tagged or ask your own question.