I am trying to implement stateless authentication with JWT for my RESTful APIs.

AFAIK, JWT is basically an encrypted string passed as HTTP headers during a REST call.

But what if there's an eavesdropper who see the request and steals the token? Then he will be able to fake request with my identity?

Actually, this concern applies to all token-based authentication.

How to prevent that? A secure channel like HTTPS?

  • This is why tokens are often only valid for a short period of time. And yes, you should use HTTPS if you are concerned about the confidentiality of your data. – Jonathon Reinhart Dec 14 '15 at 3:19
  • 3
    @JonathonReinhart But if a token expires soon, my client will have to get a new token by re-authenticating himself from time to time. Isn't it kind of tedious? – smwikipedia Dec 14 '15 at 3:21
  • @JonathonReinhart I think I get the point why token is short-lived. Because that way, the server doesn't need to keep track of the expiration of a token and thus make way for scalability. It's kind of a trade-off between having finer control of token expiration and having better scalability. – smwikipedia Dec 14 '15 at 4:41
  • According to here (stormpath.com/blog/…), seems HTTPS is necessary. – smwikipedia Dec 14 '15 at 6:12
  • 1
    Can this also help? - "A common security mechanism for detecting token theft is to keep track of request IP address origins." - described in detail in last section here - firebase.google.com/docs/auth/admin/manage-sessions – Ula Aug 29 at 4:51
up vote 176 down vote accepted

I'm the author of a node library that handles authentication in quite some depth, express-stormpath, so I'll chime in with some information here.

First off, JWTs are typically NOT encrypted. While there is a way to encrypt JWTs (see: JWEs), this is not very common in practice for many reasons.

Next up, any form of authentication (using JWTs or not), is subject to MitM attacks (man-in-the-middle) attacks. These attacks happen when an attacker can VIEW YOUR NETWORK traffic as you make requests over the internet. This is what your ISP can see, the NSA, etc.

This is what SSL helps prevent against: by encrypting your NETWORK traffic from your computer -> some server when authenticating, a third party who is monitoring your network traffic can NOT see your tokens, passwords, or anything like that unless they're somehow able to get a copy of the server's private SSL key (unlikely). This is the reason SSL is MANDATORY for all forms of authentication.

Let's say, however, that someone is able to exploit your SSL and is able to view your token: the answer to your question is that YES, the attacker will be able to use that token to impersonate you and make requests to your server.

Now, this is where protocols come in.

JWTs are just one standard for an authentication token. They can be used for pretty much anything. The reason JWTs are sort of cool is that you can embed extra information in them, and you can validate that nobody has messed with it (signing).

HOWEVER, JWTs themselves have nothing to do with 'security'. For all intents-and-purposes, JWTs are more or less the same thing as API keys: just random strings that you use to authenticate against some server somewhere.

What makes your question more interesting, is the protocol being used (most likely OAuth2).

The way OAuth2 works, is that it was designed to give clients TEMPORARY tokens (like JWTs!) for authentication for a SHORT PERIOD OF TIME ONLY!

The idea is that if your token gets stolen, the attacker can only use it for a short period of time.

With OAuth2, you have to re-authenticate yourself with the server every so often, by supplying your username/password OR API credentials, and then getting a token back in exchange.

Because this process happens every now and then, your tokens will frequently change, making it 'harder' for attackers to constantly impersonate you without going through great trouble.

Hopefully this helps ^^

  • Since you mention OAuth, one related question: what if attacker steals my oauth token and refresh token... they can theoretically gain access to my API forever (unless I revoke access to that token) correct? – pratikm May 23 '17 at 22:55
  • Usually refresh tokens have a set expiration as well (although it will be longer than an access token). But yes, you are correct. – rdegges May 23 '17 at 23:02
  • Author of the following article argues that a disadvantage of JWT is that the only way to recover from a stolen JWT is to generate a new key-pair and effectively log all users out. Whereas with session-ids stored in a DB the website could delete only the sessions of the affected user and log him out of all devices. I am not sure how OAuth2 fits in the picture here or whether it helps to mitigate the disadvantages presented. medium.com/@rahulgolwalkar/… – Marcel Jan 17 at 15:59
  • The author is incorrect. There are different design patterns you can use to invalidate tokens. But in general: using a JWT for any sort of authentication purpose is a bad idea. It's far more efficient to use a session cookie with a session idea embedded inside that is cryptographically signed. – rdegges Jan 18 at 16:53
  • 3
    This is way too long to type in a single response. If you want to learn more, I've given a detailed talk on the subject. You can check out my slides online: speakerdeck.com/rdegges/jwts-suck-and-are-stupid – rdegges Jan 27 at 7:44

I know this is an old question but I think I can drop my $0.50 here, probably someone can improve or provide an argument to totally decline my approach. I'm using JWTs in a RESTful API over HTTPS (ofc).

For this to work, you should always issue short-lived tokens (depends on most cases, in my app I'm actually setting the exp claim to 30 minutes, and ttl to 3 days, so you can refresh this token as long as its ttl is still valid and the token has not been blacklisted)

For the authentication service, in order to invalidate tokens, I like to use an in-memory cache layer (redis in my case) as a JWT blacklist/ban-list in front, depending on some criterias: (I know it breaks the RESTful philosophy, but the stored documents are really short-lived, as I blacklist for their remaining time-to-live -ttl claim-)

Note: blacklisted tokens can't be automatically refreshed

  • If user.password or user.email has been updated (requires password confirmation), auth service returns a refreshed token and invalidates (blacklist) previous one(s), so if your client detects that user's identity has been compromised somehow, you can ask that user to change its password. If you don't want to use the blacklist for it, you can (but I don't encourage you to) validate the iat (issued at) claim against user.updated_at field (if jwt.iat < user.updated_at then JWT is not valid).
  • User deliberately logged out.

Finally you validate the token normally as everybody does.

Note 2: instead of using the token itself (which is really long) as the cache's key, I suggest generating and using a UUID token for the jti claim. Which is good and I think (not sure since it just came up in my mind) you can use this same UUID as the CSRF token as well, by returning a secure / non-http-only cookie with it and properly implementing the X-XSRF-TOKEN header using js. This way you avoid the computing work of creating yet another token for CSRF checks.

  • 3
    It's never too late to contribute your idea. Thanks for your reply. – smwikipedia Feb 8 at 7:43

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.