[Resource Topic] 2019/769: Exploiting Determinism in Lattice-based Signatures - Practical Fault Attacks on pqm4 Implementations of NIST candidates

Welcome to the resource topic for 2019/769

Title:
Exploiting Determinism in Lattice-based Signatures - Practical Fault Attacks on pqm4 Implementations of NIST candidates

Authors: Prasanna Ravi, Mahabir Prasad Jhanwar, James Howe, Anupam Chattopadhyay, Shivam Bhasin

Abstract:

In this paper, we analyze the implementation level fault vulnerabilities of deterministic lattice-based signature schemes. In particular, we extend the practicality of skip-addition fault attacks through exploitation of determinism in certain variants of Dilithium (Deterministic variant) and qTESLA signature scheme (originally submitted deterministic version), which are two leading candidates for the NIST standardization of post-quantum cryptography. We show that single targeted faults injected in the signing procedure allow to recover an important portion of the secret key. Though faults injected in the signing procedure do not recover all the secret key elements, we propose a novel forgery algorithm that allows the attacker to sign any given message with only the extracted portion of the secret key. We perform experimental validation of our attack using Electromagnetic fault injection on reference implementations taken from the pqm4 library, a benchmarking and testing framework for post quantum cryptographic implementations for the ARM Cortex-M4 microcontroller. We also show that our attacks break two well known countermeasures known to protect against skip-addition fault attacks. We further propose an efficient mitigation strategy against our attack that exponentially increases the attacker’s complexity at almost zero increase in computational complexity.

ePrint: https://eprint.iacr.org/2019/769

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