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I have developed a single page app prototype that is using Backbone on the front end and going to consume from a thin RESTful API on the server for it's data.

Coming from heavy server side application development (php and python), I have really enjoyed the new different design approach with a thick client side MVC but am confused on how best to restrict the app to authenticated users who log in.

I prefer to have the app itself behind a login and would also like to implement other types of logins eventually (openid, fb connect, etc) in addition to the site's native login. I am unclear how this is done and have been searching - however unsuccessful in finding information that made it clear to me.

In the big picture, what is the current best practice for registering users and requiring them to login to use your single page app?

Once a user is logged in, how are the api requests authenticated? Can I store a session but how do I detect for this session in the API calls or is there a token I have to pass in every single API call? Any answers to this would be much appreciated!

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What did you do finally? Please choose an answer if one of the existing answers solved or add your own solution? –  tgkprog Oct 20 '14 at 16:49

4 Answers 4

We use django cookie-based authentication and have a separate page for the login and the single-page-app. Works pretty well for our use case. We have used a Backbone-based session management system that I described here: backbone.js - handling if a user is logged in or not

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I do something similar to what is linked. I have a model that deals solely with authentication (login/logout), verify that on the server-side then send back a response. The success or error callback then sends out an event that my app and views are listening to. On the return from the server, I send an encrypted cookie session which I then use with each call to verify that they are authenticated. –  orangewarp Sep 20 '12 at 3:35
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@orangewarp: What you've described sounds a lot (if not exactly) like what we need. We're using knockout.js, not backbone.js. Is there any way you could provide more details on how you implemented your solution? Maybe some example code? Thanks! –  lmttag Oct 9 '12 at 21:43

The most RESTful way I have seen is based on the OAuth client credentials flow, basically a /token endpoint that you post username/password to which returns an access token for this session. Every ajax request after that appends an Authorization bearer header with the token. You can store the token in a global variable to just keep it around until the page is refreshed/closed, use local storage to keep users logged in between sessions, or javascript cookies. If you don't like the idea of tokens then you can just use the old cookie approach which is automatically send with any ajax request anyway.

As for facebook/google etc I normally follow the stackoverflow approach where I associate external userlogins to an account. Then use a fairly normal server based oauth dance (although you can replace all requests to the server with ajax requests with slight modifications, I just find it doesn't really make much difference as you need redirects between you and the server anyway). I normally issue an encrypted cookie for a facebook login, which I then convert into a token using a similar method as above (just send the cookie with the request instead of username/password).

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We're using Angular.js and also, have a separate page for the login. The separate page loads a separate single page (and secure) application, that calls the server using http XHR request, sending username and password. If the server authenticated the credentials, the javascript code sets a cookie. this cookie could be read from the 'other side', meaning, the non-secure application. In the cookie we only put the user name and of course, no password or other secured information. then we can show something like 'Not Lior? Logout' on the non-secure app.

Only thing to note is to override Angular's cookie mechanism to set an indefinite expiration and, most importantly, root path:

$document[0].cookie = 'username=' + escape($scope.userName) + ";expires=Thu, 01 Jan 2970 00:00:00 GMT; Path=/";
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RESTful Authentication

But this addresses it from the server-side. Let's look at this from the client-side. Before we do that, though, there's an important prelude:

Javascript Crypto is Hopeless

Matasano's article on this is famous, but the lessons contained therein are pretty important:

http://www.matasano.com/articles/javascript-cryptography/

To summarize:

A man-in-the-middle attack can trivially replace your crypto code with function hash_algorithm(password){ lol_nope_send_it_to_me_instead(password); } A man-in-the-middle attack is trivial against a page that serves any resource over a non-SSL connection. Once you have SSL, you're using real crypto anyways. And to add a corollary of my own:

A successful XSS attack can result in an attacker executing code on your client's browser, even if you're using SSL - so even if you've got every hatch battened down, your browser crypto can still fail if your attacker finds a way to execute any javascript code on someone else's browser. This renders a lot of RESTful authentication schemes impossible or silly if you're intending to use a JavaScript client. Let's look!

HTTP Basic Auth

First and foremost, HTTP Basic Auth. The simplest of schemes: simply pass a name and password with every request.

This, of course, absolutely requires SSL, because you're passing a Base64 (reversibly) encoded name and password with every request. Anybody listening on the line could extract username and password trivially. Most of the "Basic Auth is insecure" arguments come from a place of "Basic Auth over HTTP" which is an awful idea.

The browser provides baked-in HTTP Basic Auth support, but it is ugly as sin and you probably shouldn't use it for your app. The alternative, though, is to stash username and password in JavaScript.

This is the most RESTful solution. The server requires no knowledge of state whatsoever and authenticates every individual interaction with the user. Some REST enthusiasts (mostly strawmen) insist that maintaining any sort of state is heresy and will froth at the mouth if you think of any other authentication method. There are theoretical benefits to this sort of standards-compliance - it's supported by Apache out of the box - you could store your objects as files in folders protected by .htaccess files if your heart desired!

The problem? You are caching on the client-side a username and password. This gives evil.ru a better crack at it - even the most basic of XSS vulnerabilities could result in the client beaming his username and password to an evil server. You could try to alleviate this risk by hashing and salting the password, but remember: JavaScript Crypto is Hopeless. You could alleviate this risk by leaving it up to the Browser's Basic Auth support, but.. ugly as sin, as mentioned earlier.

HTTP Digest Auth

Digest Authentication w/ Jquery, is it possible?

A more "secure" auth, this is a request/response hash challenge. Except JavaScript Crypto is Hopeless, so it only works over SSL and you still have to cache the username and password on the client side, making it more complicated than HTTP Basic Auth but no more secure.

Query Authentication with Additional Signature Parameters.

Another more "secure" auth, where you encrypt your parameters with nonce and timing data (to protect against repeat and timing attacks) and send the. One of the best examples of this is the OAuth 1.0 protocol, which is, as far as I know, a pretty stonking way to implement authentication on a REST server.

http://tools.ietf.org/html/rfc5849

Oh, but there aren't any OAuth 1.0 clients for JavaScript. Why?

JavaScript Crypto is Hopeless, remember. JavaScript can't participate in OAuth 1.0 without SSL, and you still have to store the client's username and password locally - which puts this in the same category as Digest Auth - it's more complicated than HTTP Basic Auth but it's no more secure.

Token

The user sends a username and password, and in exchange gets a token that can be used to authenticate requests.

This is marginally more secure than HTTP Basic Auth, because as soon as the username/password transaction is complete you can discard the sensitive data. It's also less RESTful, as tokens constitute "state" and make the server implementation more complicated.

SSL Still

The rub though, is that you still have to send that initial username and password to get a token. Sensitive information still touches your compromisable JavaScript.

To protect your user's credentials, you still need to keep attackers out of your JavaScript, and you still need to send a username and password over the wire. SSL Required.

Token Expiry

It's common to enforce token policies like "hey, when this token has been around too long, discard it and make the user authenticate again." or "I'm pretty sure that the only IP address allowed to use this token is XXX.XXX.XXX.XXX". Many of these policies are pretty good ideas.

Firesheeping

However, using a token Without SSL is still vulnerable to an attack called 'sidejacking': http://codebutler.com/firesheep/

The attacker doesn't get your user's credentials, but they can still pretend to be your user, which can be pretty bad.

tl;dr: Sending unencrypted tokens over the wire means that attackers can easily nab those tokens and pretend to be your user. FireSheep is a program that makes this very easy.

A Separate, More Secure Zone

The larger the application that you're running, the harder it is to absolutely ensure that they won't be able to inject some code that changes how you process sensitive data. Do you absolutely trust your CDN? Your advertisers? Your own code base?

Common for credit card details and less common for username and password - some implementers keep 'sensitive data entry' on a separate page from the rest of their application, a page that can be tightly controlled and locked down as best as possible, preferably one that is difficult to phish users with.

Cookie (just means Token)

It is possible (and common) to put the authentication token in a cookie. This doesn't change any of the properties of auth with the token, it's more of a convenience thing. All of the previous arguments still apply.

Session (still just means Token)

Session Auth is just Token authentication, but with a few differences that make it seem like a slightly different thing:

Users start with an unauthenticated token. The backend maintains a 'state' object that is tied to a user's token. The token is provided in a cookie. The application environment abstracts the details away from you. Aside from that, though, it's no different from Token Auth, really.

This wanders even further from a RESTful implementation - with state objects you're going further and further down the path of plain ol' RPC on a stateful server.

OAuth 2.0

OAuth 2.0 looks at the problem of "How does Software A give Software B access to User X's data without Software B having access to User X's login credentials."

The implementation is very much just a standard way for a user to get a token, and then for a third party service to go "yep, this user and this token match, and you can get some of their data from us now."

Fundamentally, though, OAuth 2.0 is just a token protocol. It exhibits the same properties as other token protocols - you still need SSL to protect those tokens - it just changes up how those tokens are generated.

There are two ways that OAuth 2.0 can help you:

Providing Authentication/Information to Others Getting Authentication/Information from Others But when it comes down to it, you're just... using tokens.

Back to your question

So, the question that you're asking is "should I store my token in a cookie and have my environment's automatic session management take care of the details, or should I store my token in Javascript and handle those details myself?"

And the answer is: do whatever makes you happy.

The thing about automatic session management, though, is that there's a lot of magic happening behind the scenes for you. Often it's nicer to be in control of those details yourself.

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