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I'm writing an encryption sequence for sensitive data in our database.

Currently I'm taking a GUID based on the UserId, and putting that through a hash. Then, I run the hash through a Rfc2898DeriveBytes to get Key and IV which I use to encrypt the data using the Rijndael function.

My code looks like this:

        var salt = new byte[] { 1, 2, 23, 234, 37, 48, 134, 63, 248, 4 };
        const int iterations = 1000;
        using (var rfc2898DeriveBytes = new Rfc2898DeriveBytes(GenerateHash("2525"), salt, iterations)) {
            _key = rfc2898DeriveBytes.GetBytes(32);
            _iv = rfc2898DeriveBytes.GetBytes(16);
        }

I then pass the _key and _iv along to decrypt or encrypt the data. My goal is to have each user always have access to their unique key through every session. That being said, what can be randomized and still maintain this function? Do I always have to use the same salt and the same IV to get the data I want?

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Nothing can be "randomized", to decrypt the data, you need to know the same key and iv that was used to encrypt it. Rfc2898DeriveBytes is designed to generate entropy from a low entropy input, but if you change ANY input (salt, subject, # of iterations) it will result in a different output. –  Matthew Aug 22 '12 at 20:28
    
I can't find a key in your scheme. Some part needs to be secret. And what are you trying to achieve with encryption here? In particular how do you prevent somebody who obtains the encrypted data from obtaining the key, if its stored in the same system. –  CodesInChaos Aug 22 '12 at 21:10

1 Answer 1

up vote 2 down vote accepted

Rfc2898DeriveBytes is an implementation of PBKDF2.

Observations:

  1. The GenerateHash method is spurious, Rfc2898DeriveBytes will do this for you;
  2. You should use something less predictable than a UID to create a key; the data should not be directly available to an attacker as this would completely defeat the purpose of PBKDF2;
  3. If you want to use the same set of UID + salt + iterations for multiple encryptions, then you should generate a random IV and prepend it to the ciphertext, having a non-random IV completely defeats the purpose of the IV;
  4. You can change the salt to get multiple keys, but you would have to go through the PBKDF2 function for each and every encryption.

Just a general hint, only use the resulting key to encrypt data specific keys created out of a secure random function. Then you don't even need to bother about an IV, and you may be able to "recrypt" by decrypting the data specific key, and encrypting that with a new key.

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