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2020-09-04
Li, Ge, Iyer, Vishnuvardhan, Orshansky, Michael.  2019.  Securing AES against Localized EM Attacks through Spatial Randomization of Dataflow. 2019 IEEE International Symposium on Hardware Oriented Security and Trust (HOST). :191—197.
A localized electromagnetic (EM) attack is a potent threat to security of embedded cryptographic implementations. The attack utilizes high resolution EM probes to localize and exploit information leakage in sub-circuits of a system, providing information not available in traditional EM and power attacks. In this paper, we propose a countermeasure based on randomizing the assignment of sensitive data to parallel datapath components in a high-performance implementation of AES. In contrast to a conventional design where each state register byte is routed to a fixed S-box, a permutation network, controlled by a transient random value, creates a dynamic random mapping between the state registers and the set of S-boxes. This randomization results in a significant reduction of exploitable leakage.We demonstrate the countermeasure's effectiveness under two attack scenarios: a more powerful attack that assumes a fully controlled access to an attacked implementation for building a priori EM-profiles, and a generic attack based on the black-box model. Spatial randomization leads to a 150× increase of the minimum traces to disclosure (MTD) for the profiled attack and a 3.25× increase of MTD for the black-box model attack.