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Disclaimer: this is just out of curiosity; I'm no expert at all when it comes to cryptography.

Suppose a 256-bit key is composed of the following (UTF-16) characters:

Futher suppose that an attacker knows the last 4 characters of the key is cccc.
Does this knowledge make it easier for an attacker?

My guess is that it makes it easier for the attacker to brute-force the encrypted text, but my understanding is that brute-forcing AES-256 is a very difficult problem. Then again, there might be something I don't understand about AES itself that makes this type of knowledge more valuable for an attacker.

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up vote 7 down vote accepted

I would say it's a bigger problem that your key's bytes are from UTF-16 characters, but in the ASCII character space (meaning you could have a key 32 ASCII characters long). As such 16 of the 32 bytes of your key are known to be 0x00. Knowing that the last 4 are c means that 4 more bytes have been compromised.

As such, you've really only got 12-bytes => 96-bits of your AES key unknown.

If your attacker assumes the alpha-numeric character space, that cuts it down by about a quarter as well (62 / 256).

With what you're working with, your key is pretty compromised (but not just because 4 characters of it are known)

A 256-bit key should give someone a 1 in 1.16 × 10^77 chance of guessing right. With your situation, it's about a 1 in 3.23 x 10^21 chance (basically 62^12), which is a LOT smaller.

UPDATE: I was a nerd and had to do the math. 12 alpha-numeric characters (upper and lower case) is roughly a 71-bit encryption strength. ( Math check = log(62^12)/log(2) )

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Oh wow, yikes, that is a great point! – unforgiven3 Sep 20 '10 at 0:53
@unforgiven3: You shouldn't be using text directly as an AES key. The password text should be processed through a Key Derivation Function, like PBKDF2 (defined in PKCS #5). (This doesn't solve the problem of needing more entropy - only a longer password text can do that. But it allows a longer password that is longer than 32 bytes in UTF16 form to be used to generate a 256 bit key). – caf Sep 20 '10 at 4:32
@caf - Completely agree – userx Sep 20 '10 at 9:18
Thanks guys, that really clears things up for me. I appreciate it :-) – unforgiven3 Sep 20 '10 at 17:11

I don't think so. The hacker could guess the last 4 bytes [run through them brute-force], even if they didn't know, so knowing the last 4 bytes just reduces key space. [BTW, I'm not an "expert" either.]

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Theoretically, it is less secure now.

Practically, as long as there are still at least 80 bits unknown to attacker, you are good to go.

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