One thing that I did not see mentioned here, although it is an extension of Marcus Adams's answer, is that you should not be using a single piece of information to both identify and authenticate a user if there is a possibility of timing attacks, which can use the differences in response times to guess how far a string comparison got.
If you are using a system which uses a "key" to look up the user or credential, that piece of information could be incrementally guessed over time by sending thousands of requests and examining the time that it takes for your database to find (or not find) a record. This is especially true if the "key" is stored in plaintext instead of a one-way hash of the key. You would want to store users's keys in a plaintext or symmetrically-encrypted for if you need to be able to display the key to the user again.
By having a second piece of information, or "secret", you can first look up the user or credential using the "key", which could be vulnerable to a timing attack, then use a timing-safe compare function to check the value of the "secret".
Here is Python's implementation of that function:
And it is exposed in the
hmac lib (and probably others):
One thing to note here is that I don't think that this kind of attack will work on values that are hashed or encrypted before lookup, because the values that are being compared change randomly each time a character in the input string changes. I found a good explanation of this here.
Solutions for storing API keys would then be:
- Use a separate key and secret, use the key to look up the record, and use a timing-safe compare to check the secret. This allows you to show the user the key and secret to a user again.
- Use a separate key and secret, use symmetrical, deterministic encryption on the secret, and do a normal comparison of encrypted secrets. This allows you to show the user the key and secret again, and could save you from having to implement a timing-safe comparison.
- Use a separate key and secret, display the secret, hash and store it, then do a normal comparison of the hashed secret. This removes the necessity to use two-way encryption, and has the added benefit of keeping your secret secure if the system is compromised. It has the downside that you cannot show the secret to the user again.
- Use a single key, show it to the user once, hash it, then do a normal lookup of the hashed or encrypted key. This uses a single key, but it is not able to be shown to the user again. Has the benefit of keeping keys secure if the system is compromised.
- Use a single key, show it to the user once, encrypt it, and do a normal lookup of the encrypted secret. Can be shown to the user again, but at the cost of having keys vulnerable if they system is compromised.
Of these, I think that 3 is the best balance of security and convenience. I have seen this implemented on many websites when getting keys issued.
Also, I invite any actual security experts to critique this answer. I just wanted to get this out there as another discussion point.