I may need to implement an OAuth2.0 server for an API I'm creating. This API would allow 3rd parties to perform actions on the user's behalf.
OAuth2.0 has 3 mains calls. First, there is a call to prompt the user for consent. This returns a
code. The second is where the
code is exchanged for a
access token. Finally, the
access token is used to call the API on the user's behalf.
For implementation, I was thinking the first call generates a random string which acts as a
code is then stored in a database with a pointer to the current User and a random
HMAC Key, then the random data is returned to the 3rd party as the
When the 3rd party requests an
access token, another piece of random data is generated and concatenated with the
code. This string is signed using the
HMAC key from Step 1, then this signed string and signature is returned with the signature to form the
When the API call occurs, the
hmac key corresponding to the provided
access_token is retrieved from the database. The signature of the
access_token is verified using the hmac key.
The user can revoke 3rd party access by simply removing an HMAC key from their list of authorized HMAC keys. Furthermore, but just signing random data, I can avoid storing every single access_token every created, and instead maintain a short list of hmac keys.
Anyway, this is my first attempt as thinking through this. Surprisingly, there is little information about implementing the server side of OAuth2.0 efficiently. I would prefer to keep as little information as possible in the database. The advantage of signing random data then later revoking the HMAC key is that I don't have to store every single
access token generated by every single authorization call.
Thoughts needed! There has got to be a better way!
I'm NOT looking for an implementation. Thank you though! Also, I assume this whole system will run over HTTPs. Also, I'm talking about the pure OAuth2.0 flow, I'm not talking about OAuth1.0 with signatures and client keys. I'm asking how to design the cryptography behind an OAuth2.0 server that would work in a similar fashion to (for example) Google's OAuth2.0 flow works.