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Wednesday, August 10 • 11:00am - 11:30am
Verifying Constant-Time Implementations

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The constant-time programming discipline is an effective countermeasure against timing attacks, which can lead to complete breaks of otherwise secure systems. However, adhering to constant-time programming is hard on its own, and extremely hard under additional efficiency and legacy constraints. This makes automated verification of constant-time code an essential component for building secure software.

We propose a novel approach for verifying constanttime security of real-world code. Our approach is able to validate implementations that locally and intentionally violate the constant-time policy, when such violations are benign and leak no more information than the public outputs of the computation. Such implementations, which are used in cryptographic libraries to obtain important speedups or to comply with legacy APIs, would be declared insecure by all prior solutions.

We implement our approach in a publicly available, cross-platform, and fully automated prototype, ct-verif, that leverages the SMACK and Boogie tools and verifies optimized LLVM implementations. We present verification results obtained over a wide range of constant-time components from the NaCl, OpenSSL, FourQ and other off-the-shelf libraries. The diversity and scale of our examples, as well as the fact that we deal with top-level APIs rather than being limited to low-level leaf functions, distinguishes ct-verif from prior tools.

Our approach is based on a simple reduction of constant-time security of a program P to safety of a product program Qthat simulates two executions of P. We formalize and verify the reduction for a core high-level language using the Coq proof assistant.

Wednesday August 10, 2016 11:00am - 11:30am PDT
Zilker Ballroom 3

Attendees (5)