As others have said, HMAC should be the way to go.
HMAC-SHA-256 with a proper key should:
- Avoid collisions.
- Avoid retrieval of the credit card number from the stored value.
- Prevent an attacker from performing the same computation (on all possible credit card numbers, to find a matching value).
But there is one more very important thing:
It is with good reason that you are not storing the credit card numbers. Even if you could be 100% sure that you are using proper encryption, you probably still would not store credit card numbers. Why? For one thing, because the key could be leaked.
So you store hashes, so that the credit card number cannot be retrieved. ...Right?
Well, if you use a plain hash, a simple rainbow table with hashes of all possible credit card numbers gives away all the original data that you presumably did not store. Oops. But this you knew by now.
So we try to do better. Let's say using individual salts is better, and using HMAC is the best approach we know.
Consider the following scenario:
- Take a 16-digit card number.
- First 6 digits (Bank Identification Number) are guessed by trying a few common BINs.
- Last 4 digits are visible in masked card number, which you are allowed to store. (You might not have this stored, which helps.)
- 1 digit is calculated (Luhn).
This leaves 5 digits to be brute-forced. That is a meager 100'000 attempts.
If we have used the individual salts, it's game over. We can simply brute-force each individual card number at an average of 50'000 attempts.
If we have used HMAC, we appear to be safe. But remember... we choose not to store encrypted card numbers, because even with perfect encryption, the key could be leaked. Guess what. Our HMAC key can be leaked just the same. With the key, again, we can brute-force each individual card number at an average of 50'000 attempts. So a leaked key gives us the credit card numbers, just as it would if we had stored encrypted card numbers.
As such, because of the low entropy of credit card numbers, storing hashes does not add much security compared to encrypted values (yet PCI limits the key rotation requirement to encryption).
A bit of perspective:
Ok, we're assuming a leaked key here. Extreme. But then again, so does PCI as part of their reasoning to forbid you from storing credit card numbers, so we should at least consider it.
True, I did not take into account the multiple guesses to find the BIN. It should be a small constant, though. Or we could limit ourselves to one BIN.
Definitely, a PCI auditor may be more forgiving than I am.
Yes, if you do not store the masked card number, you are a factor 10'000 safer. This helps a lot. Use it to your advantage. Still, if 50K attempts are doable, 500M may be doable, too. It's not enough to make me consider the data secure, in the context of a compromised key.
Use HMAC-SHA-256. Understand the risk. Store as little as possible. Protect your keys vigilantly. Spend a fortune on a Hardware Security Module :-)