A computationally sound mechanized prover for security protocols

Author

Blanchet, Bruno

Author_Institution

CNRS, Ecole Normale Superieure, Paris

fYear

2006

fDate

21-24 May 2006

Lastpage

154

Abstract

We present a new mechanized prover for secrecy properties of cryptographic protocols. In contrast to most previous provers, our tool does not rely on the Dolev-Yao model, but on the computational model. It produces proofs presented as sequences of games; these games are formalized in a probabilistic polynomial-time process calculus. Our tool provides a generic method for specifying security properties of the cryptographic primitives, which can handle shared-and public-key encryption, signatures, message authentication codes, and hash functions. Our tool produces proofs valid for a number of sessions polynomial in the security parameter, in the presence of an active adversary. We have implemented our tool and tested it on a number of examples of protocols from the literature

Keywords

message authentication; probability; process algebra; public key cryptography; Dolev-Yao model; computational model; computationally sound mechanized prover; cryptographic primitives; cryptographic protocols; game sequences; hash functions; message authentication codes; probabilistic polynomial-time process calculus; public-key encryption; security property specification; security protocols; shared-key encryption; Calculus; Computational modeling; Cryptographic protocols; Cryptography; Mechanical factors; Message authentication; Polynomials; Public key; Security; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Security and Privacy, 2006 IEEE Symposium on

Conference_Location

Berkeley/Oakland, CA

ISSN

1081-6011

Print_ISBN

0-7695-2574-1

Type

conf

DOI

10.1109/SP.2006.1

Filename

1624008