Your search keyword '"Thomé, Emmanuel"' showing total 3 results

1. Imperfect forward secrecy.

Author

Adrian, David, Bhargavan, Karthikeyan, Durumeric, Zakir, Gaudry, Pierrick, Green, Matthew, Halderman, J. Alex, Heninger, Nadia, Springall, Drew, Thomé, Emmanuel, Valenta, Luke, VanderSloot, Benjamin, Wustrow, Eric, Zanella-Béguelin, Santiago, and Zimmermann, Paul

Subjects

COMPUTER network protocols, PUBLIC key cryptography, CRYPTOGRAPHY, CRYPTOSYSTEMS, DATA encryption, COMPUTER network security, VIRTUAL private networks

Abstract

We investigate the security of Diffie-Hellman key exchange as used in popular Internet protocols and find it to be less secure than widely believed. First, we present Logjam, a novel flaw in TLS that lets a man-in-the-middle downgrade connections to "export-grade" Diffie-Hellman. To carry out this attack, we implement the number field sieve discrete logarithm algorithm. After a week-long precomputation for a specified 512-bit group, we can compute arbitrary discrete logarithms in that group in about a minute. We find that 82% of vulnerable servers use a single 512-bit group, and that 8.4% of Alexa Top Million HTTPS sites are vulnerable to the attack. In response, major browsers have changed to reject short groups. We go on to consider Diffie-Hellman with 768- and 1024-bit groups. We estimate that even in the 1024-bit case, the computations are plausible given nation-state resources. A small number of fixed or standardized groups are used by millions of servers; performing precomputation for a single 1024-bit group would allow passive eavesdropping on 18% of popular HTTPS sites, and a second group would allow decryption of traffic to 66% of IPsec VPNs and 26% of SSH servers. A close reading of published NSA leaks shows that the agency's attacks on VPNs are consistent with having achieved such a break. We conclude that moving to stronger key exchange methods should be a priority for the Internet community. [ABSTRACT FROM AUTHOR]

Published

2019

2. Computing Class Polynomials for Abelian Surfaces

Author

Enge, Andreas and Thomé, Emmanuel

Abstract

We describe a quasilinear algorithm for computing Igusa class polynomials of Jacobians of genus-2 curves via complex floating-point approximations of their roots. After providing an explicit treatment of the computations in quartic CM fields and their Galois closures, we pursue an approach due to Dupont for evaluating ϑ-constants in quasilinear time using Newton iterations on the Borchardt mean. We report on experiments with our implementation and present an example with class number 20 016.

Published

2014

3. Abstracts of the CADO workshop on integer factorization

Author

Thomé, Emmanuel

Abstract

The CADO workshop on integer factorization was held in Nancy, France, on October 7-9th, 2008. The workshop was focused on the Number Field Sieve and its implementation aspects. Fifty participants attended the workshop. The workshop was organized by Pierrick Gaudry, Emmanuel Thomé and Paul Zimmermann.

Published

2009