2010 | OriginalPaper | Buchkapitel
Algebraic Cryptanalysis of McEliece Variants with Compact Keys
verfasst von : Jean-Charles Faugère, Ayoub Otmani, Ludovic Perret, Jean-Pierre Tillich
Erschienen in: Advances in Cryptology – EUROCRYPT 2010
Verlag: Springer Berlin Heidelberg
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In this paper we propose a new approach to investigate the security of the McEliece cryptosystem. We recall that this cryptosystem relies on the use of error-correcting codes. Since its invention thirty years ago, no efficient attack had been devised that managed to recover the private key. We prove that the private key of the cryptosystem satisfies a system of bi-homogeneous polynomial equations. This property is due to the particular class of codes considered which are alternant codes. We have used these highly structured algebraic equations to mount an efficient key-recovery attack against two recent variants of the McEliece cryptosystems that aim at reducing public key sizes. These two compact variants of McEliece managed to propose keys with less than 20,000 bits. To do so, they proposed to use quasi-cyclic or dyadic structures. An implementation of our algebraic attack in the computer algebra system
Magma
allows to find the secret-key in a negligible time (less than one second) for almost all the proposed challenges. For instance, a private key designed for a 256-bit security has been found in 0.06 seconds with about 2
17.8
operations.