Enterprise Integration Zone is brought to you in partnership with:

Senior Java developer, one of the top stackoverflow users, fluent with Java and Java technology stacks - Spring, JPA, JavaEE. Founder and creator of http://computoser.com and http://welshare.com . Worked on Ericsson projects, Bulgarian e-government projects and large scale recruitment platforms. Member of the jury of the International Olympiad in Linguistics and the Program committee of the North American Computational Linguistics Olympiad. Bozhidar is a DZone MVB and is not an employee of DZone and has posted 81 posts at DZone. You can read more from them at their website. View Full User Profile

Login Tokens In Email Links

04.30.2013
| 4465 views |
  • submit to reddit

Your system is probably sending some emails. Sometimes these emails contain links to the public part of the site, sometimes they have links to the authentication-protected part. Either way, if the email is sent to registered users (as opposed to just subscribed emails) you should not make the user type in username and password. Even if it’s the public part of the site, the user may then want to do something that requires authentication with the content you display – e.g. add it to favourites. It’s a bit tricky with public content though, and you might not want to have it there, as users tend to forward “digest” or “best this week” emails, and then the recipients will be able to impersonate them, without even knowing.

Anyway, when users click on a link in an email sent by your system, they could be logged in automatically. That’s the product requirement I think many systems should have, and it sounds pretty reasonable. But I’ve rarely seen in. Let’s assume you like it and you want to implement it in your system. How to do that, as there are certainly some security implications?

  1. For each email sent, generate a token. The token should be the HMAC of (the user’s email (or username, or id) concatenated with the token generation timestamp)
  2. Use an application-wide, configurable per-environment key for the HMAC. Also use a good hash algorithm, like SHA-256 (and not MD5)
  3. Append the token to each link in the email. You are probably using an email template, so just have ?emailLoginToken=${token} for each link. Also pass the email and the timestamp as parameters.
  4. Have a filter/interceptor that looks for that specific parameter name, and if it is found, invoke the authentication-by-token logic (described below)
  5. Redo the HMAC with the parameters passed (email and timestamp) and compare it to the token parameter
  6. Check if the token is still valid – you can have an expiration period and don’t allow tokens to be used after more than 2 weeks after generating them.
  7. If everything is OK (the token passed and the result of redoing the HMAC are the same), login the user (send a session cookie). But add a flag (in the session) that the login was via a token. Then do not allow changing password, email or any “sensitive” action without password confirmation. Use the same conditions as in your “remember me” login, if you have implemented that.
  8. Have all such links go through https

There’s another, slightly different scenario. Instead of using hmac and sending all the parameters, just generate the token as the hash of the email and timestamp and store it (and the timestamp) in the database, with foreign key to the users table. In this case, the authenticity confirmation comes from the fact, that it’s found in your database, rather than through verifying an HMAC. Then, when the token is presented as a parameter, simply look it up in the database. You should still pass the user’s email as parameter and compare the passed email parameter to the email of the user corresponding to the persisted token (to avoid guesses). On successful login you can delete the token. You may decide not to do this, and have a scheduled job that cleans up tokens older than X weeks. If you delete it immediately, it will be more secure. If you leave it, it will make it possible for the user to open the same mail again, and the login will still work. This approach lets you invalidate tokens on demand. For example if users decides to change their password or email, you can invalidate all their tokens.

It seems like a tough process, but it’s fairly easy to implement. The tough part is taking all the points into account and not compromising security.

Note that security is an important aspect here. As pointed out on reddit, email may be insecure – when the user downloads emails via unsecured POP3 (with Outlook, Thunderbird, etc), an attacker may obtain the links and impersonate the user. That’s why you should restrict the actions the user can perform when logged in via a token. This may not matter that much, since most users either use webmail or secured POP3, or internal email server. But you should not do that for banking software, for example. Having tokens in links is probably less problematic than password reset links, though, which can also be intercepted the same way. But I’ll probably discuss that in a separate article.

One extra step you can take when addressing security is restrict the token authentication to the most often used IP addresses by the user.

Overall, the above approach has more pros than security risks, so I believe any mainstream site should implement it (having in mind all the security implications).

 

Published at DZone with permission of Bozhidar Bozhanov, author and DZone MVB. (source)

(Note: Opinions expressed in this article and its replies are the opinions of their respective authors and not those of DZone, Inc.)

Tags: