Writing a REST API with Pyramid/Cornice using JWT for authentication, I'll have to implement some CSRF protection. Having thoroughly read up on the topic I understand the problem, but I'm pretty confused about the best way to implement it, it's a bit tricky considering all the possible attack vectors.
Since this API gives access to sensitive data and will be published as open source software, it requires a self-contained protection. It will be used in environments with untrusted subdomains and I can not rely on users to follow security guidelines.
For my stateless service I can either use "Double Submit Cookies" or the "Encrypted Token Pattern"-method.
Double Submit Cookies
To prevent "cookie tossing", the token in the Double Submit method needs to be verifiable. MiTM attacks are an additional threat, which I hope to mitigate sufficiently by forcing HTTPS-cookies only.
To get a verifiable token that can't be easily guessed and replicated by an attacker, I imagine a hashed token like this should work:
pbkdf2_sha256.encrypt($userid + $expire + $mycsrfsecret, salt=$salt)
"exp" is the expire-value from the JWT. The JWT will be issued together with the CSRF-cookie and "exp" can be read by the server, which adds some additional protection as it's variable and the attacker doesn't know it (Might be superfluous?).
On a request I can easily compare the two tokens I receive with each other and use pbkdf2_sha256.verify($tokenfromrequest, $userid + $exp + $mycsrfsecret)
to compare it with the values from the JWT-token ('Verifiablity').
Would that approach follow recommended practices?
I've selected pbkdf2 over bcrypt since its verify-method is noticeably quicker.
Expiry would be set to 7 days, after that both the JWT and the CSRF-token would be renewed by a fresh login (They would also be renewed on an intermediate relogin).
Encrypted Token Pattern
The alternative is to send a string to the client, consisting of userid, expiry and nonce, encrypted with a server-side secret. On a request this string is sent along and the server can decrypt it and verify userid and expiry.
This seems the simpler approach, but I'm unsure how to implement it, I don't intend to roll my own crypto and I have not found good examples:
- What cipher/library should I use in Python? How do I do Encrypt-then-MAC?
- How would I persist the token until its natural expiration? I don't want the users to have to login freshly every time they restart their browsers. Local Storage is not a safe place - but there is no alternative.