CryptoDB

Paper: Treatment of the Initial Value in Time-Memory-Data Tradeoff Attacks on Stream Ciphers

Authors: Orr Dunkelman Nathan Keller URL: http://eprint.iacr.org/2008/311 Search ePrint Search Google Time-Memory Tradeoff (TMTO) attacks on stream ciphers are a serious security threat and the resistance to this class of attacks is an important criterion in the design of a modern stream cipher. TMTO attacks are especially effective against stream ciphers where a variant of the TMTO attack can make use of multiple data to reduce the off-line and the on-line time complexities of the attack (given a fixed amount of memory). In this paper we present a new approach to TMTO attacks against stream ciphers using a publicly known initial value (IV): We suggest not to treat the IV as part of the secret key material (as done in current attacks), but rather to choose in advance some IVs and apply a TMTO attack to streams produced using these IVs. We show that while the obtained tradeoff curve is identical to the curve obtained by the current approach, the new technique allows to mount the TMTO attack in a larger variety of settings. For example, if both the secret key and the IV are of length n, it is possible to mount an attack with data, time, and memory complexities of 2^{4n/5}, while in the current approach, either the time complexity or the memory complexity is not less than 2^n. We conclude that if the IV length of a stream cipher is less than 1.5 times the key length, there exists an attack on the cipher with data, time, and memory complexities less than the complexity of exhaustive key search.
BibTeX
@misc{eprint-2008-17988,
title={Treatment of the Initial Value in Time-Memory-Data Tradeoff Attacks on Stream Ciphers},
booktitle={IACR Eprint archive},
keywords={secret-key cryptography / Time-Memory-Data Tradeoff attacks, Stream ciphers, IV initialization},
url={http://eprint.iacr.org/2008/311},
note={This is the full version of a paper to appear in IPL orr.dunkelman@ens.fr 14076 received 16 Jul 2008, last revised 16 Jul 2008},
author={Orr Dunkelman and Nathan Keller},
year=2008
}