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I know very little about security (I need to find a basic explanation of the basics) and am trying to come up with a reasonable way to store user passwords in a database using .Net.

Here's my current solution:

private static byte[] HashPassword(string password)
   using (var deriveBytes = new Rfc2898DeriveBytes(password, 10))
      byte[] salt = deriveBytes.Salt;
      byte[] key  = deriveBytes.GetBytes(20);

      return salt.Concat(key).ToArray();  //Return Salt+Key

I store the results of HashPassword() in the database. To check a user's password I do this:

var salt = //1st  10 bytes stored in the DB
var key  = //Next 20 bytes stored in the DB 
using (var deriveBytes = new Rfc2898DeriveBytes(password, salt))
   byte[] newKey = deriveBytes.GetBytes(20);

   if (newKey.SequenceEqual(key) == false)  //Check if keys match
      return "No Match";
   else { return "Passwords match"; }

My question is if the salt needs to be random and stored in the DB like this or if I could generate a 10-byte salt and store it in my code and always use the same salt to save myself storing the salt in the DB and just store the key?

Also if anyone sees any other problems with what I'm doing I'd appreciate any advise.

share|improve this question
@Xander that's not true, as long as you store the salt along with the password. – Sedat Kapanoglu Feb 8 '12 at 14:56
Compare – CodesInChaos Feb 8 '12 at 15:51
10 iterations is a bit low. Why not keep the default 1000? – CodesInChaos Feb 8 '12 at 15:52
up vote 29 down vote accepted

My question is if the salt needs to be random and stored in the DB like this or if I could generate a 10-byte salt and store it in my code and always use the same salt to save myself storing the salt in the DB and just store the key?


You don't understand at all the purpose of the salt if you're even asking that question.

The purpose of the salt is to make it arbitrarily more difficult for an attacker to use a precomputed table of hashed common passwords. If the salt is always the same then the attacker just precomputes a table of hashed common passwords with that salt.

Let me make that more clear. Suppose an attacker has obtained your password database and is mounting an attack at her leisure against all the stored hashes to work out what the password corresponding to the hash is. If every salt is different then the attacker has to mount a fresh attack against every entry in the database. If every salt is the same then attacking one user attacks every user.

Moreover: suppose you use the same salt for every user. Suppose two users have the same password. And suppose the attacker has obtained the password database. The attacker now knows which two users have the same password because they have the same salted hash and can make the reasonable assumption that this is the weakest password in the database. The attacker can concentrate her efforts (whatever those may be) on attacking that user in particular. And once she knows that user's password, odds are good that the user has used that user name and weak password on other systems, which the attacker can now compromise without having their password files.

It is good that you want to learn about security; it is bad that you're trying to write a real password system with your level of understanding. If this is for a real system that has to protect real users, use a system built by experts, or hire your own expert. You're going to make a system that you can't break, not a system that an attacker can't break.

Moreover: you are asking strangers on the internet for help with security. Strangers who you have no idea whether they know what they're talking about or are just making stuff up. Get a real security expert (and that is not me -- I'm an expert on semantic analyzers). Building a security system is one of the hardest programming tasks there is; you need professional help.

For a gentle introduction to basic password authentication schemes, see my series of articles:

share|improve this answer
Thanks for the info. I will read your series. – C.J. Feb 8 '12 at 15:26
If you prefer to avoid hiring an expert, Microsoft has done so on your behalf. Use Membership. – Brian Feb 8 '12 at 15:45
@Brian: Oh good heavens yes. I had not heard that we had shipped this; I have been out of the ASP.NET loop for some years now. That's awesome. By all means, use off-the-shelf tools written by experts if you possibly can. – Eric Lippert Feb 8 '12 at 15:52

Whenever we hash a password we come up with the same hash value. That produces the problem of finding out actual password using a hash. There are many dictionaries called "rainbow tables" readily available for that purpose which match hash values to actual plain text passwords. To prevent that you prefix or suffix the password with a known value which causes the resulting hash to be completely different, preventing a lookup from a rainbow table.

Salt can be known value. Just make sure salt changes with every user (almost unique to each user) and make sure that salt value does not change over time. For instance if you make "username" as a salt value and if you add a feature to update your username, salt value will become invalid and user won't be able to login without a password reset.

Using a random value has a very little value (in case someone decides to create a all rainbow tables for first million user id's) and you'll need additional storage to keep the salt value. My suggestion is to use another unique fixed value per user.

share|improve this answer
A userid or username alone isn't a good salt, since other websites might use the same scheme with the same username. It's preferable to use globally unique values are salt. – CodesInChaos Feb 8 '12 at 16:01
I would not recommend using the username as the salt. Suppose you do. The attacker can now precompute the salted hashes of the combinations of common user names and common passwords. Were I attacking such a system I would start with the user names "admin" and "test" and work my way up from there. It is far safer to use a long, unique, cryptographically random string of bits as the salt; the cost of storing it is trivial in a world where terabyte drives are common home user equipment. – Eric Lippert Feb 8 '12 at 16:03
I always assume when someone has access to DB to retrieve a hash value, he also has access to salt values which makes you end up with the same "generation" problem. Computational problem is only multiplexed by number of users. It makes hacker's job harder but not impossible. For hashes that end up on client (such as authentication cookie) the strategy should be entirely different (such as ASP.NET 's encryption solution). My point is specific to what you keep in your database. – Sedat Kapanoglu Feb 8 '12 at 16:31
We could argue that based on my point we could have no salting at all and store everything in plaintext because it's just a matter of time before someone generates a lookup table. However I think computational overhead difference between unsalted, global salt, per-user unique salt and per-user random salt are not evenly distributed. – Sedat Kapanoglu Feb 8 '12 at 16:34
The point is that the attacker can start generating tables of common password/common user name hashes before the database is compromised, and then work on compromising the database at her leisure. If the salts are long random bit strings then the hash generation attack cannot begin until after the salt is compromised. Anything you can do to make the attacker have to wait longer to begin some phase of the attack is goodness. – Eric Lippert Feb 9 '12 at 16:53

You don't need to apply a random salt, but if you do your passwords will be that bit more secure. Obviously, if you do apply a random salt then you need to store that with the hashed password in the db so that you can check against a supplied password.

A quick google revealed this post, which may help you out.

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