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Microsoft released their out of band release to fix the security flaw in ASP.NET the yesterday.

What methods did Microsoft use to end the viability of this vector?

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I think it was duct tape. – FrustratedWithFormsDesigner Sep 29 '10 at 17:13
sooner or later someone will compare both versions of System.Web.Extensions.dll using NDepend or Reflector. – Mauricio Scheffer Sep 29 '10 at 17:16
@Mauricio, AES implementations are unmanaged code so I don't think Reflector or NDepend will help much :-) If it was a pure managed fix there wouldn't be versions of the patch for every imaginable Windows Version, CPU type, ... – Darin Dimitrov Sep 29 '10 at 17:20
@Darin: this only lists System.Web.Extensions.dll – Mauricio Scheffer Sep 29 '10 at 17:24
@Mauricio, yes indeed this is correct, but this assembly is 1.75MB on my computer and the patch is 7.42MB. It's probably the installer bits. – Darin Dimitrov Sep 29 '10 at 17:25
up vote 14 down vote accepted

A great summary of the changes comes from

  • Don't leak exception information - This prevents exploits from seeing what is broken.
  • Don't short-circuit on padding checks (take the same amount of time for padding correct verses padding broken) - This prevents exploits from seeing timing difference for incorrect padding.
  • Don't be too picky about exception catching in IHttpHandler.ProcessRequest - This prevents exploits from seeing that you caught one kind of exception (CryptographicException) instead of all exceptions.
  • Switch from Hash-based initialization vectors to Random IVs - This prevents exploits from using the relationship between the data and the hash to decrypt faster.
  • Allow for backward compatibility - In case this breaks something, allow the new behavior to be reverted in-part.
  • When doing a code review pass, change to make it clear you've considered the new options.
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+1 nice detailed info, added an answer about what I consider to be the main fix. – eglasius Sep 29 '10 at 18:01
Too bad I didn't think to look here and post my blog answer first :) – IDisposable Sep 29 '10 at 18:43
@IDisposable you should ... I prefer to upvote the author – eglasius Sep 29 '10 at 19:02
@eglaius No, you did the service of watching these questions and posting my answer, and you attributed it to me... that makes you the hero :) – IDisposable Sep 29 '10 at 19:23
@IDisposable good point of view ps. It was @Aaron who did that :P – eglasius Sep 29 '10 at 19:47

The main: sign any encrypted data that is sent to the browser. This prevents messing with the values like the attack did to gain information on valid vs. invalid padding i.e. since the signature won't match in all those cases.

Its important to note, the hole in webresource and scriptresource that allowed files retrieval shouldn't have happened. Simple encryption alone isn't meant to tamper proof. In other words, it wasn't an oversight of an advanced scenario like the rest of the padding oracle attack (which still relied on the same fact, sending back modified encrypted data to the app with no tamper proof protection on the server).

Besides the main fix above, expected things like trying to hide further encryption side channels and making sure it doesn't break other features that rely in the same encryption calls (like membership).

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The vulnerability relates to flaws introduced by CBC Padding. The full theory behind the attack can be found here. However you must first read up on block cipher modes of operation.

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