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Consider an ASP.NET web application [A] that makes a request to a secure web service [B] using a username and password.

The password used to authenticate to [B] is stored on [A] using "best-practices" in the web.config file and encrypted.

At some point, the unencrypted password must be present in memory on [A], right? Perhaps the web application is designed to cache the unencrypted password in a static object/string (so it only decrypts/reads from the web.config file once). Is that "statically-cached" approach worse or the same in terms of security?

Have there ever been attacks published (or is there potential for such) against ASP.NET where the attacker can access the memory of the server, potentially revealing the password?

Would it be a more secure architecture to pull the duty of communicating with [B] from [A] and assign it to a third application server [C] that is accessible by [A] but not accessible from the internet? Am I just being paranoid?

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Am I just being paranoid? - Yes. But paranoia isn't always bad. =) –  CodingGorilla Jan 25 '12 at 19:37
    
Thanks all for the good answers. I gave the check to the person with the lowest cred although all were helpful. –  mikey Jan 25 '12 at 21:19

4 Answers 4

up vote 1 down vote accepted

Strings in .NET can not be scheduled for garbage collection. You could read your password into a SecureString object which can be forced to be garbage collected after it is no longer required.

http://msdn.microsoft.com/en-us/library/system.security.securestring.aspx

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This is very interesting, I actually recall that I needed to use this object in the past for a certain API. It was a bear to work with but likely worth the effort for sensitive info. –  mikey Jan 25 '12 at 19:57
    
I know SecureString doesn't work as you would expect and it cannot be used in place of a standard string. The API generally needs to be SecureString aware. :-( –  Phil Bolduc Jan 26 '12 at 23:41

If an attacker can read/write arbitrary memory to the ASP.NET process, there is absolutely nothing you can do to protect against this. Anything that you can do, he can patch away. Even if you did a 3rd server C, he could just patch 'A' to send the password to a malicious service instead.

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If this was an application sitting on a user's machine, I'd be rather worried about it. For a web based server, I really don't think you should expect malicious users to have access to your memory. It's probably already too late for you if they're at that point.

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First off, an encrypted web.config section really isn't that secure. Quite frankly if they can get to the point of reading the web.config file then they are only a very minor step away from being able to have the app divulge the entire unencrypted contents of it.

Yes, the unencrypted section of the web.config is present in memory. Neither approach you define really has an impact on the level of security offered.

Yes, there have been attacks where memory dumps have happened. There have also been attacks where the contents of supposedly protected files, such as the web.config, have been divulged. You do keep up with your patches.. right?

Further IF the attacker has the capability to upload a single page to your site then that page will have ALL of the same access rights (including decrypting your web.config) and exposing that data.

"Would it be a more secure architecture to pull the duty of communicating with [B] from [A] and assign it to a third application server [C] that is accessible by [A] but not accessible from the internet?"

Um.. no. If A is cracked then the number of layers you put between A and B is immaterial.

You need to ensure that B is not accessible via the Internet. Further, your firewall should make sure that the ONLY thing that can talk to B is A. The communication between A and B should be encrypted on the wire.

Also, B shouldn't implicitly trust A. In other words A should send the appropriate USER credentials to B every time a secured transaction is taking place. And B should be responsible for verifying that those credentials are authorized to take the requested action.

Let's assume B is a database server and A is a web site that people log into. Every single time A sends a query to B it should include the end user's credentials. B should then check authentication and authorization of those credentials to make sure that this User is allowed to take the requested action. Of course, this requires A to NOT have direct access to run queries on B.. but that's a whole different topic.


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Thank you Chris, lots of good info here. If one was able to coax IIS into serving up the raw web.config, then the encryption would be helpful right? They'd also need to access the machine key? –  mikey Jan 25 '12 at 20:02
    
@mikey: See blog.mindedsecurity.com/2010/10/… it was a big problem a year ago. –  NotMe Jan 25 '12 at 20:07
    
Very interesting thank you sir. –  mikey Jan 25 '12 at 20:11

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