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I'm currently researching user authentication protocols for a website I'm developing. I would like to create an authentication cookie so users can stay logged in between pages.

Here is my first bash:

cookie = user_id|expiry_date|HMAC(user_id|expiry_date, k)

Where k is HMAC(user_id|expiry_date, sk) and sk is a 256 bit key only known to the server. HMAC is a SHA-256 hash. Note that '|' is a separator, not just concatenation.

This looks like this in PHP:

$key = hash_hmac('sha256', $user_id . '|' . $expiry_time, SECRET_KEY);
$digest = hash_hmac('sha256', $user_id . '|' . $expiry_time, $key);
$cookie = $user_id . '|' . $expiry_time . '|' . $digest;

I can see that it's vulnerable to Replay Attacks as stated in A Secure Cookie Protocol, but should be resistant to Volume Attacks, and Cryptographic Splicing.

THE QUESTION: Am I on the right lines here, or is there a massive vulnerability that I've missed? Is there a way to defend against Replay Attacks that works with dynamically assigned IP addresses and doesn't use sessions?

NOTES

The most recent material I have read:
Dos and Don'ts of Client Authentication on the Web aka Fu et al.
(http://cookies.lcs.mit.edu/pubs.html)

A Secure Cookie Protocol aka Liu et al.
(http://www.cse.msu.edu/~alexliu/publications/Cookie/cookie.pdf)
which expands on the previous method

Hardened Stateless Session Cookies
(http://www.lightbluetouchpaper.org/2008/05/16/hardened-stateless-session-cookies/)
which also expands on the previous method.

As the subject is extremely complicated I'm am only looking for answers from security experts with real world experience in creating and breaking authentication schemes.

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This is a great question, and I am wondering if you'd consider starting a bounty to resurrect the question and get it more attention. Maybe even e-mail a link to the question to various security experts. –  John Zabroski Feb 11 '13 at 14:02
1  
You might get more answers at security.stackexchange.com –  Edu Feb 11 '13 at 14:16
    
Good idea. security.stackexchange.com/questions/30707/… –  Joony Feb 11 '13 at 14:27

4 Answers 4

This is fine in general, I've done something similar in multiple apps. It is no more susceptible to replay attacks than session IDs already were. You can protect the tokens from leakage for replay by using SSL, same as you would for session IDs.

Minor suggestions:

  • Put a field in your user data that gets updated on change-password (maybe password generation counter, or even just the random salt), and include that field in the token and signed-part. Then when the user changes their passwords they are also invalidating any other stolen tokens. Without this you are limited on how long you can reasonably allow a token to live before expiry.

  • Put a scheme identifier in the token and signed-part, so that (a) you can have different types of token for different purposes (eg one for auth and one for XSRF protection), and (b) you can update the mechanism with a new version without having to invalidate all the old tokens.

  • Ensure user_id is never re-used, to prevent a token being used to gain access to a different resource with the same ID.

  • Pipe-delimiting assumes | can never appear in any of the field values. This probably works for the numeric values you are (presumably) dealing with, but you might at some point need a more involved format, eg URL-encoded name/value pairs.

  • The double-HMAC doesn't seem to really get you much. Both brute force and cryptanalysis against HMAC-SHA256 are already implausibly hard by current understanding.

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I would consider this protocol as very weak!

  1. your session-cookie is not a random source with high entropy.
  2. The server must do asymmetric encryption on each page to verify a user.
  3. The security of ANY user only relies in the security of the server-key sk.

The server-key SK is the most vulnerable part here. If anyone can guess it or steal it, he can login as a specific user.

So if sk is generated for each session and user, then why the hmac? I think you will use TLS anyway, if not, consider your protocol as broken because of replay attacks and eavesdropping in general!

If sk is generated for each user, but not for each session, it is similar to a 256bit password.

If sk is identical for all users, someone just has to crack 256 bits and he can log in as any user he wants. He only has to guess the id and the exiration date.

Have a look at digest-authentication. It's a per request authentication, specified by the rfc2617. It is secure for repay attacks using nonces, sent on each request. It is secure for eavesdropping using hashing. It is integrated in HTTP.

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This is the most thorough and practical solution I've seen to PHP authentication that's actually documented in real English.

The problem with security books is that the people who write them at it are scary theoretical and worry warts. So the documentation they write often goes way overboard and gets a little too technie. Having worked for an International bank, I can tell you firsthand that the theoretical and the practical are two very different things. Unless you're protecting billions in transactions as my previous employer was, it just doesn't need to be that insane.

Consider OpenID. It's really very easy to make work well.

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3  
This is exactly the kind of answer I was not looking for. How is MD5 hashing the username and password in JavaScript before sending to the server considered secure? OpenID isn't really aimed at corporate users. Just because I don't have billions of transactions doesn't mean my users data is any less important. –  Joony Oct 27 '10 at 14:24
  1. Unless your transactions/second will tax your hardware, I would only pass a hash in the cookie (i.e. leave out the user_id and expiry_date -- no sense giving the bad people any more information than you absolutely have to).

  2. You could make some assumptions about what the next dynamic IP address should be, given the previous dynamic IP address (I don't have the details handy, alas). Hashing only the unchanging part of the dynamic IP address would help in verifying the user even when their IP address changes. This may or may not work, given the varieties of IP address allocation schemes.

  3. You could get information about the system and hash that also -- in Linux, you could uname -a (but there are similar capabilities available for other OSes). Enough system information, and you might be able to skip using the (partial) IP address entirely. This technique will require some experimentation. Using only normally-browser-supplied system information would make it easier.

  4. You need to think about how long your cookies should remain fresh. If you can live with people having to authenticate once daily, that would be easier on your system authentication coding than allowing people to authenticate only once a month (and so on).

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