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I have a Windows.Forms based .NET desktop application that stores privileged information in a file on disk (not using .NET configuraton files), encrypted using a symmetric cryptography algorithm such as TripleDES using MS's CryptoAPI. This file must be read/written over multiple program runs / machine power cycles, aka, use the same Key/IV every time. The obvious question here is how to protect the Key (and possibly IV), and several questions here on SO simply say "use the DPAPI" and give a trivial example of round trip encryption/decryption.

I know how to use the DPAPI already, but it seems there is an obvious problem with using it to protect a Key/IV to be fed to another encryption scheme. Consider the following code:

TripleDESCryptoServiceProvider^ cryptoprov = gcnew TripleDESCryptoServiceProvider;
cryptoprov->Key = ProtectedData::Unprotect(encryptedKey, salt, DataProtectionScope::CurrentUser);
cryptoprov->IV  = ProtectedData::Unprotect(encryptedIV,  salt, DataProtectionScope::CurrentUser);

Due to the fact you must assign a SymmetricAlgorithm derived class' Key and IV, couldn't an attacker just set a breakpoint on this point, and easily figure out what the Key/IV is?

My questions are as follows:

  • Have I missed the point for using DPAPI to protect keys? How would you do it?
  • Should I just use the DPAPI for the encryption of my file? Therefore, no Key/IV storage needed.
  • I've noticed the existence of CspParameters for asymmetric encryption. Is this inherently a better option than symmetrical? (within the context of my scenario, not symmetric vs assymetric outright)


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Unless you have good reasons, you should be using Rijndael, not TripleDES. – SLaks Mar 5 '10 at 14:30
up vote 2 down vote accepted

The goal of DPAPI is to protect persistant data from snooping and tampering, it offers nothing to protect tha secret data in the application's memory.

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If the attacker is able to set a breakpoint, you've already lost.
The attacker can simply set a breakpoint after the data is decrypted and read the plaintext.

What kind of attacker are you afraid of?

If you want to, you can write if (Debugger.IsAttached) Environment.FailFast(), but the attacker can remove the check using Reflexil.

share|improve this answer
Yes, good point, who would care to go after the key to decrypt something if they could just see it post decryption... I suppose I am trying to thwart the casual/curious user who wants to find sensitive info out, but trying to protect against a dedicated person seems like a huge waste of time. – Dave Foster Mar 5 '10 at 14:49
Who is the attacker? An admin on the system? Someone on the network? Someone else? – SLaks Mar 5 '10 at 15:23
Someone with physical access to a machine with the software running, with a user left logged in. Lets say the legitimate user has stepped away and not locked the system, and some riff-raff steps up to it. They have the same credentials as the user running our software. – Dave Foster Mar 5 '10 at 15:54
Then if (Debugger.IsAttached) Environment.FailFast(), sprinkled throughout the code, is probably enough. – SLaks Mar 5 '10 at 15:58

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