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I am currently creating a website which users can view and modify their widgets. All interation with the widget data stored on my server will be done through RESTful web services. For example, if a user wants to see a list of their widgets the flow of execution would be something like:

  1. User 12345 accesses and authenticates with the server (in my case through an OpenID provider)
  2. User 12345 then accesses the page
  3. Server responds with an HTML page and javascript that will be used to access my web services.
  4. When the HTML page has loaded the javascript function getWidgets() will be called. getWidgets() will call my web service
  5. The service responds with a list of the users widgets which another javascript function renderWidgets(widgets) will update the html page

I don't want anyone else but user 12345 accessing their own widgets so I guess getWidgets() will have to provide some authentication to my web service. I'm not sure what the best way would be to achieve this.

I was thinking that the client and server could have a shared secret that getWidgets() will send to the web service. The server could generate this secret as random string (number, GUID or whatever) and include it in the response header when the client requests the initial HTML page. The client would use this secret key when sending requests to the server.

Does this sound like a sensible idea?

This is a common requirement so is there a standard way of achieving the same thing? As far as I am aware this is outside of the scope of OpenID and OAuth would not be suitable.

Thanks in advance.

share|improve this question
I'm still thinking about this! ... a few links to consider and – Kevin Brydon Apr 18 '13 at 12:13

This is a great question - but I think your solution may need to be a bit more complex than you are thinking.

In general, the way in which you want to authenticate this kind of scenario is in a 2-stage handshake. The first step is for your application to provide the server a private key (generated by the server, unique to the client application) to authenticate that it is, in fact, a valid client. This is what provides authoritative evidence to your server that the request is coming from software it knows and can trust.

The second step, then, is that when a user goes to log in to your client application, they provide a username / password combination. This information, along with your application key, should all be sent up to the server via SSL.

SSL encrypts the data so that a third-party with a packet-sniffer can't read the data in-transit, and the server does the following:

  1. Checks that the application key is valid.
  2. Validates that the username exists, and is associated with the application.
  3. Encrypts the password and tests the encrypted version against the encrypted version in the database, associated with the username.
  4. IF ALL of the above-listed checks pass, the server returns a session ID, which can be put into a client-side cookie - and used to re-authenticate the user on each subsequent request. IF ANY of the tests fail - the server returns a 401: Unauthorized response, or other similar error.

At this point, the client can utilize the returned session ID without having to continue to re-submit the application key.

Your Application

Now, in your case, you may be actually hosting the client/server in the same application and on the same server. In this case - you can generally skip all of the pieces revolving around the private application key - and simply disallow cross-site script requests instead.

Why? - because the thing you're really protecting against is the following:

Server A hosts your RESTful API. Client's B, C and D host clients which will rely upon Server A's API. What you don't want is for Client E (not your application - and malicious) to be able to access Server A either by bypassing or stealing the credentials of one of the other Clients.

If, however, both client and server are hosted in the same place, and therefore have the same URL - i.e. the RESTful API resides at and the client resides at - you can generally just not allow any AJAX type requests which originate outside of - and that is your layer of security.

In this case, the following is all you should need to do to have a reasonable level of security:

  1. Enable SSL for your server.
  2. Only allow requests to /auth/login (or whatever your login POST method is) to come via SSL (in C# this can be done by using the [RequireHttps] attribute on the method or controller).
  3. Reject any AJAX requests which originate outside your own domain.
  4. Use a layer of encryption in your cookie.

What should your cookie contain?

Ideally, the cookie should contain 2-way encrypted data that ONLY your server can decrypt. In other words - you might put something like the user's username or user_id inside the cookie - but 2-way encrypt it using Rijndael or another cryptography system - using an encryption password that only your server has access to (I suggest a random string of characters).

Then - when you receive subsequent requests with the cookie attached, you can simply do the following:

  1. If the cookie exists, attempt to decrypt it using your private password.
  2. If the resulting decrypted data is garbage - throw a 401: Unauthorized response (this is an altered or fake cookie)
  3. If the resulting decrypted data is a username which matches your database - you now know who is making the request - and can filter / serve them data accordingly.

I hope this helps. :) If not - feel free to post any comments and ask questions, and I'll try to clarify.

share|improve this answer
Thanks for your answer. I will need some time to think about it and I will get back to you. – Kevin Brydon Nov 2 '12 at 7:02
Take your time - I'm working on a very similar thing for work right now, so it's definitely top-of-brain. – Troy Alford Nov 3 '12 at 0:37
I've awarded you the bounty as you were first to comment and it seems like a few people agree with you. However I still don't think I have got a complete answer. I have my own solution at the moment (which I will add to the answers hopefully tonight) but I am holding out fo someone to say "hey, thats already been done, check out this standard". – Kevin Brydon Dec 2 '12 at 16:27
Well, thank you for the extra rep, much appreciated. I wound up implementing something almost identical to my answer here for my project at work, and with a few tweaks, it was sufficient to pass some fairly rigorous security requirements. It is a bit of work to set up, though. I'm happy to give you some more detail, or discuss on Skype or something if you wish. Just let me know by comment and I'll give you my contact info. – Troy Alford Dec 2 '12 at 17:03

Is this not as simple as MACing the request to the web service?

So, you're providing the JavaScript that calls the web service, within this JavaScript you put a nonce. Unlike most nonce implementations, you have this live for the duration of the user session.

When calling the web service, the JavaScript in GetWidgets() uses the nonce as the key to hash some 'random' data, I'd probably use the time formatted as a string and the data, the user's id (12345) as the salt. The JavaScript then sends the hashed data and the unhashed time string as part of the web service call, but not the nonce. I'd then ensure the time that was sent was recent (i.e. last 20 seconds, limiting replay attacks) and that when the server hashes the time with the user id as salt with the nonce (that it knows because it set it) that it gets the same result.

So, we've used a shared key set by the server and sent to the client to act as the key for producing a hashed message authorization code (MAC or HMAC) but also prevented replay attacks (the MAC will be different for each request and has a very short replay window) and preventing session hijacking by not transferring any session information in cookies.

I've not come across your specific scenario before, but it does seem like a specific case of a generic problem of authenticating messages without wanting to send credentials with every message. MACing is reliably how I've seen this done.

See:, this gives a good overview on MACing and even includes a nice diagram to help explain. It's a fairly well trodden solution, the only deviation I'd recommend (because I've fallen foul of it) is to include the time in the message to prevent replays.

It's the basis of the approach used by to help authorize access to their API, see part 8 on this page (Signing Calls): The Hash they're using is MD5, the querystring is being included in the body text to be hashed and the secret being used a session key obtained from an initial authenticate call.

share|improve this answer
Thanks for the reply. Do you know of any credible sources that gives a description of this? I can't imagine that I'm the only person to have come across this problem and I'd have expected the solution to be documented somewhere. – Kevin Brydon Nov 29 '12 at 22:10
I was going to award the bounty to both you and Troy but it seem like it only goes to one person (is that right?). Thanks for the info and once I get my thoughts in order I will add my solution to the answers (but not mark it as an answer). As per the comment I just left on Troys answer, I hope someone comes along pointing me in the direction of a proper standard implementation. – Kevin Brydon Dec 2 '12 at 16:30
No worries, thanks for the recognition anyway. – joocer Dec 2 '12 at 19:01

I don't know much about security, but i think it all depends on how much time/cost you are willing to spend (keeping in mind that everything is hackable).

As concerned of security as you are, you probably protected your session variables, the easiest thing you can do is an ajax call to a server action in which you check for the session and compare it with user request.

share|improve this answer
I appreciate taking the time to reply but I don't think your answer adds anything to the discussion. Regarding your first point, yes, any security measure is indeed hackable given enough time and effort. The goal should be to have a solution in which the time and effort required outweigh the payoff. On your second point, a RESTful web service should not rely on a session to retain state. This is a core principal. For reference – Kevin Brydon Dec 2 '12 at 16:19

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