Welcome to the resource topic for 2022/865

Title:
Linked Fault Analysis

Authors: Ali Asghar Beigizad, Hadi Soleimany, Sara Zarei, and Hamed Ramzanipour

Numerous fault models have been developed, each with distinct characteristics and effects. These models should be evaluated in light of their costs, repeatability, and practicability. Moreover, there must be effective ways to use the injected fault to retrieve the secret key, especially if there are some countermeasures in the implementation. In this paper, we introduce a new fault analysis technique called ``linked fault analysis’’ (LFA), which can be viewed as a more powerful version of well-known fault attacks against implementations of symmetric primitives in various circumstances, especially software implementations. For known fault analyses, the bias over the faulty value or the relationship between the correct value and the faulty one, both produced by the fault injection serve as the foundations for the fault model. In the LFA, however, a single fault involves two intermediate values. The faulty target variable, u', is linked to a second variable, v, such that a particular relation holds: u'=l(v). We show that LFA lets the attacker perform fault attacks without the input control, with much fewer data than previously introduced fault attacks in the same class. Also, we show two approaches, called LDFA and LIFA, that show how LFA can be utilized in the presence or absence of typical redundant-based countermeasures. Finally, we demonstrate that LFA is still effective, but under specific circumstances, even when masking protections are in place. We performed our attacks against the public implementation of AES in ATMEGA328p to show how LFA works in the real world. The practical results and simulations validate our theoretical models as well.

ePrint: https://eprint.iacr.org/2022/865

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