Refinement types for secure implementations

Author:

Bengtson Jesper1,Bhargavan Karthikeyan2,Fournet Cédric2,Gordon Andrew D.2,Maffeis Sergio3

Affiliation:

1. Uppsala University, Uppsala, Sweden

2. Microsoft Research, United Kingdom

3. Imperial College London, London, United Kingdom

Abstract

We present the design and implementation of a typechecker for verifying security properties of the source code of cryptographic protocols and access control mechanisms. The underlying type theory is a λ-calculus equipped with refinement types for expressing pre- and post-conditions within first-order logic. We derive formal cryptographic primitives and represent active adversaries within the type theory. Well-typed programs enjoy assertion-based security properties, with respect to a realistic threat model including key compromise. The implementation amounts to an enhanced typechecker for the general-purpose functional language F # ; typechecking generates verification conditions that are passed to an SMT solver. We describe a series of checked examples. This is the first tool to verify authentication properties of cryptographic protocols by typechecking their source code.

Funder

Engineering and Physical Sciences Research Council

Publisher

Association for Computing Machinery (ACM)

Subject

Software

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