CryptoDB
Mark M. Tehranipoor
Publications
Year
Venue
Title
2017
CHES
Novel Bypass Attack and BDD-based Tradeoff Analysis Against All Known Logic Locking Attacks
Abstract
Logic locking has emerged as a promising technique for protecting gate-level semiconductor intellectual property. However, recent work has shown that such gate-level locking techniques are vulnerable to Boolean satisfiability (SAT) attacks. In order to thwart such attacks, several SAT-resistant logic locking techniques have been proposed, which minimize the discriminating ability of input patterns to rule out incorrect keys. In this work, we show that such SAT-resistant logic locking techniques have their own set of unique vulnerabilities. In particular, we propose a novel “bypass attack” that ensures the locked circuit works even when an incorrect key is applied. Such a technique makes it possible for an adversary to be oblivious to the type of SAT-resistant protection applied on the circuit, and still be able to restore the circuit to its correct functionality. We show that such a bypass attack is feasible on a wide range of benchmarks and SAT-resistant techniques, while incurring minimal run-time and area/delay overhead. Binary decision diagrams (BDDs) are utilized to analyze the proposed bypass attack and assess tradeoffs in security vs overhead of various countermeasures.
Coauthors
- Domenic Forte (1)
- Bicky Shakya (1)
- Mark M. Tehranipoor (1)
- Xiaolin Xu (1)