[en] In this article, we examine Differential Fault Attacks (DFA) targeting two stream ciphers, FLIP and FiLIP. We explore the fault model where an adversary flips a single bit of the key at an unknown position. Our analysis involves establishing complexity bounds for these attacks, contingent upon the cryptographic parameters of the Boolean functions employed as filters and the key size. Initially, we demonstrate how the concept of sensitivity enables the detection of the fault position using only a few keystream bits. This represents an enhancement over previous DFA methodologies applied to these ciphers. Subsequently, we leverage the properties of the filter's derivatives to execute attacks. This approach is universally applicable to any filter, and we delineate specific attack strategies for the two function families previously implemented in these ciphers.
Disciplines :
Mathematics
Author, co-author :
MEAUX, Pierrick ; University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT) > PI Coron
Roy, Dibyendu; Indian Institute of Information Technology Vadodara
Language :
English
Title :
Theoretical differential fault attacks on FLIP and FiLIP
Publication date :
2024
Focus Area :
Security, Reliability and Trust
Commentary :
Accepted at Cryptography and Communications,
Discrete Structures, Boolean Functions and Sequences
