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I'm working on a new site that utilizes a service-oriented architecture, with pure JavaScript on the front-end, accessing web services for data via RESTful AJAX calls.

It shouldn't be of particular importance but my stack is:

  • javascriptMVC
  • jQuery
  • Bootsrap
  • ASP.NET Web API (C# on .NET 4.0)
  • MS SQL

From this article I've figured out some good ways of securing my web service calls once I have a private key shared between the client (JavaScript) and server (REST services via Web API). However, I'm struggling with how to establish the private key to be used for encryption.

Bad Idea #1

The initial though was to set it at log in which would occur over HTTPS, then store it on the client in a cookie for reuse. The problem is that our SSL cert is for https://secure.example.com, while our site is on http://www.example.com - so I wouldn't be able to access the secure.example.com cookie from www.example.com.

Bad Idea #2

My next thought was to pass it encrypted and signed via a URL parameter from the HTTPS login to the HTTP post-login page like so:

http://www.example.com/processLogin?key=[encryptedKey]&sig=[encryptedSig]&user=[userid]

encryptedKey and encryptedSig would both be encrypted with another private key that only exists just for that transaction. It would be created at log-in and assigned to that user in the database. On the HTTP side, all of this gets passed to the server which decrypts it, validates the signature, removes that private key (to guard against replay attacks - essentially a nonce) and returns the decrypted private key ([encryptedKey] decrypted).

From then on out, the decrypted value of [encryptedKey] would be used for all future transactions. The problem is that the decrypted private key would have to be sent over the line via HTTP, which sucks.

Bad Idea #3

It also briefly occurred to me to have a hard-coded key in the JavaScript that's used to decrypt this value but no matter how I try and obfuscate it, it could be found and used by a hacker.

Bad Idea #4

I've also considered some sort of key exchange using Public-key cryptography at the initial handshake, but as noted elsewhere, you can't really be confident on the client-side that there isn't tampering during this initial handshake unless it's over SSL - putting me back at square one.

The Big Question

So, how do you guys manage such things without everything going over HTTPS? Do I have to have the same domain name for my HTTP and HTTPS so that I can store this private key in a cookie?

Note that the non-SSL portions of the site wouldn't be sharing credit card or login information or the like. I just don't want to leave this sucker wide open.

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3  
Why not just have everything be HTTPS? You won't want your secure cookie being sent with HTTP transactions anyway, lest they cease to be secure cookies :-) –  Pointy Aug 22 '12 at 16:05
2  
Your question is essentially "how do I get SSL to work without SSL?" Well, you don't. –  NullUserException Aug 22 '12 at 16:08
    
i believe you can share cookies across sub domains by setting the domain value to ".domain.com" –  Jeff Wooden Aug 22 '12 at 16:20
    
@Pointy: HTTPS comes with overhead. I assume the cookie comment is in reference to "Bad Idea #1". The cookie would contain the private key that is used to encrypt future transactions. I wasn't saying that you would send the key with the transactions. –  Grinn Aug 22 '12 at 16:39
    
@Grinn yes, HTTPS comes with overhead, but in 2012 it's not much of a price to pay for security. –  Pointy Aug 22 '12 at 16:41

2 Answers 2

up vote 1 down vote accepted

You can view how to work with sub domains and cookies by checking out this answer: Creating a javascript cookie on a domain and reading it across sub domains

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You can not have secure and encrypted communication between a javascript client and a server without implementing SSL. It is impossible. If what you really want to accomplish is not to encrypt the traffic but simply insure the client you are talking to has been authorized to make the request and that the client is not an impersonator, then OAuth may be sufficient. See http://www.dotnetopenauth.net/ for the standard OAuth .net implementation.

If OAuth is not what you want to get involved in and you simply want to build on what you already have built, you should distribute a token and a public and a private key to the javascript client. The public key and the token is what gets sent back and forth for every request while the private key is never sent back and forth and is instead used to generate some type of signature hash. Every request should have this signature and a time-based nonce to prevent replays. You should also expire the token on a very frequent basis and require the client to request a "refresh" token with their sig and their public key. In essence, what I have described is OAuth 1.0a, and if you do want to take this route, I would refer back to DotNet OpenAuth instead of trying to roll it yourself.

However, to reiterate, without SSL, you will still be vulnerable to other types of attacks. Also, unless you SSL encrypt the initial token request, a hacker could always sniff the initial delivery of the token/public/private key pair, therefore, eliminating all your hard work to make things secure in the first place.

An alternative to the above is to have a proxy server sitting between your client and the REST API. Requests to the API can only go through the proxy server. The client logs in and gets a cookie from https://secure.example.com using basic auth. The client then continues to make requests to secure.example.com and secure.example.com then makes requests to your API and returns the data back to the client.

Anyway, hopefully enough info to give you food for thought.

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Thanks Alex, but the non-OAuth approach is what I'm already doing. The trouble I am having is with establishing that initial private token. –  Grinn Aug 23 '12 at 16:18

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