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I think I'm missing something fundamental about password based data encryption.

A tool that cracks password hash based login authentication knows it's found the correct password (or an alternate password that still matches the hash) when it successfully logs in. But how does a tool that cracks file or stream based encryption using a password as the source for a key know when it's successful? It seems to me that different attempted passwords would turn an encrypted source stream into a different set of destination bytes, with a particular password generating the 'correct' set of bytes. I don't understand how a cracking tool would recognize that it had the correct unencrypted set of bytes, stop trying and report 'Cracked!'.

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closed as off topic by owlstead, Martin Smith, martin clayton, GregS, DocMax Dec 7 '12 at 4:45

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1 Answer 1

up vote 5 down vote accepted

Most of the time the plain text uses a known pattern. If it would be fully randomized then the attacker cannot distinguish between success and failure. It could be that a set of keys may be returned, of which only one is correct. That said, most plain text contains enough information (like a longer piece of English text) to distinguish a correct key from the wrong one.

Furthermore, the encryption mode may leak enough information to distinguish between the plain text and random text. Block cipher modes - such as ECB and CBC - in particular may use some kind of plain text padding. This padding is added before block encryption, and generally contains identifiable information. Take a look at the PKCS#5/7 padding mode for instance.

Note that encryption algorithms themselves are required to even withstand known plain text attacks, so finding the key should be impossible even if you already know what the decrypted text looks like. However, using passwords weakens the amount of valid keys for modern cryptographic ciphers, so the strength of the password is of utmost importance.

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Note that passwords should not be used directly as a key, you should use a password based key derivation function such as PBKDF2 with a high iteration count to make it harder to crack the password. –  owlstead Dec 6 '12 at 16:05
    
Okay, thanks. That was my suspicion. So this leads me to believe encrypted binary data of an unknown format, or at least unknown to an attacker, is more resistant. –  Everett B Dec 6 '12 at 16:07
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@EverettB Yes, it is, but don't count on security through obscurity. Also note that most data is using some kind of protocol, and protocols can be distinguished from random data. That could be a unicode byte order mark, a JPEG header, ASN.1 DER structures, anything. –  owlstead Dec 6 '12 at 16:10
    
Thanks for the added info on block cipher plain text padding. Very good to know! –  Everett B Dec 6 '12 at 16:32

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