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)