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Consider a file that will be encrypted by a C# library that I will write, consisting of a 64 byte HMAC followed immediately by the encrypted data encrypted with AES 256. The 16-byte IV, 32-byte Key and 64-byte HMACSHA512 initialisation key will come from Rfc2898DeriveBytes via a single string password, entered by the user (4096 iterations, and a single salt from

  1. Are there any negative security implications of this design?

  2. Have I gone overboard? (it, with the 64-byte initialisation key or 4096 iterations)

  3. I want to be able to decrypt any data whatsoever in order to use the embedded HMAC to verify that the password was correct (that is, that the 'decrypted file is the original file'). Specifically, I'm looking to avoid errors such as "Padding is invalid and cannot be removed.". Any ideas on how to go about this?

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1. You must use a different salt each time you encrypt the data with the same key/IV, otherwise security is broken. 2. You may want to have a look at AEAD ciphers. –  dtb Mar 12 '12 at 18:46
@dtb It's alright to use the same salt for key derivation from the password; deriving the IV from the password is a problem. –  erickson Mar 12 '12 at 21:13
Right, I confused the salt with the nonce/IV. Choosing a different salt should lead to a different IV though. –  dtb Mar 12 '12 at 21:14
Just to clarify: The entered password, the fixed salt, and the 4096 iterations will be supplied to Rfc2898DeriveBytes to generate the byte array data for the HMAC initialisation key, as well as the encryption algorithm's Key and IV. –  Nicholas Hill Mar 13 '12 at 11:11
To complete my answer, I need to know what the HMAC value is for. It's unclear to me if it is used to check if the password supplied is correct, or if it is used to check if the plain text or cipher text is correct. –  Maarten Bodewes Mar 19 '12 at 11:07

1 Answer 1

  1. Yes, the IV should be prepended to the cipher text and should be random. If you use Rfc2898DeriveBytes you will get the same IV each time, so encrypting different plain texts will result in identical cipher texts, leaking information.

  2. Yes, the 64 byte initialization key is a bit much. 16 to 32 bytes should be more than enough. That said, it does not make much difference regarding performance, so... 4Ki iterations is fine (why not just 4000, the algorithm does not change).

  3. Yes, place the HMAC over the encrypted data, and make sure you verify the HMAC before you decrypt (the last block). Normally the HMAC is placed after the cipher text (as a streaming implementation will only know the HMAC once it encrypted all the cipher text).

Alternatively you could use AES in GCM mode so you don't need the HMAC anymore. GCM (or EAX) mode is not always available though.

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Anything wrong with this answer Nicholas? Are there any parts missing on unclear? –  Maarten Bodewes Mar 17 '12 at 13:41
It's a partial answer. Are you suggesting that the encrypted result consist of edata+IV+HMAC, where edata is encrypted data, IV is original IV and HMAC is the HMAC of the unencrypted data? Or are you suggesting basing the HMAC on the password (would it therefore be easier to crack the password)? Would using AES in GCM prevent exceptions decrypting data with a wrong password, and does it verify decrypted data? Thanks for the input so far. Would be great to know the rest of the info. –  Nicholas Hill Mar 19 '12 at 10:14
@NicholasHill Owlstead's "Cipher Text" (i.e. opposite of plain text) term is the same as your "edata" term. The ideal result should be IV+EDATA+HMAC(IV+EDATA) that way you don't have to copy buffers around to change the order around which is why he's talking about streaming implementation. AES-GCM does Encryption & Authentication in one algorithm so you don't have to worry about all sorts of issue such as when and what to authenticate correctly, experts did it for you. –  jbtule Apr 25 '12 at 14:20

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