A DFA on AES Based on the Entropy of Error Distributions

Author

Lashermes, Ronan ; Reymond, Guillaume ; Dutertre, Jean-Max ; Fournier, Jacques ; Robisson, Bruno ; Tria, Assia

Author_Institution

CEA-Leti, Gardanne, France

fYear

2012

fDate

9-9 Sept. 2012

Firstpage

34

Lastpage

43

Abstract

Differential fault analysis (DFA) techniques have been widely studied during the past decade. To our best knowledge, most DFA techniques on the Advanced Encryption Standard (AES) either impose strong constraints on the fault injection process or require numerous faults in order to recover the secret key. This article presents a simple methodology based on information theory which allows to adapt the number of required faults for the analysis to the fault injection process. With this technique, the constraints on the fault model to recover the last round key are considerably lowered. Additionally, entropy is proposed as a tool to apprehend the most complex fault models in DFA. A practical realization and simulations are presented to illustrate our methodology.

Keywords

cryptography; entropy; AES; DFA; advanced encryption standard; differential fault analysis; entropy; error distributions; fault injection; fault model; last round key; secret key; Algorithm design and analysis; Circuit faults; Clocks; Doped fiber amplifiers; Encryption; Entropy; Advanced Encryption Standard; Differential fault analysis; Shannon entropy; error distribution; information theory;

fLanguage

English

Publisher

ieee

Conference_Titel

Fault Diagnosis and Tolerance in Cryptography (FDTC), 2012 Workshop on

Conference_Location

Leuven

Print_ISBN

978-1-4673-2900-2

Type

conf

DOI

10.1109/FDTC.2012.18

Filename

6305227