Leakage Model-flexible Deep Learning-based Side-channel Analysis

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Leakage Model-flexible Deep Learning-based Side-channel Analysis

Authors:	Lichao Wu , Technical University of Darmstadt Azade Rezaeezade , Delft University of Technology Amir Ali-pour , École de technologie supérieure Guilherme Perin , Leiden University Stjepan Picek , Radboud University
Download:	DOI: 10.62056/ay4c3txol7 URL: https://cic.iacr.org//p/1/3/41 Search ePrint Search Google
Abstract:	Profiling side-channel analysis has gained widespread acceptance in both academic and industrial realms due to its robust capacity to unveil protected secrets, even in the presence of countermeasures. To harness this capability, an adversary must access a clone of the target device to acquire profiling measurements, labeling them with leakage models. The challenge of finding an effective leakage model, especially for a protected dataset with a low signal-to-noise ratio or weak correlation between actual leakages and labels, often necessitates an intuitive engineering approach, as otherwise, the attack will not perform well. In this paper, we introduce a deep learning approach with a flexible leakage model, referred to as the multi-bit model. Instead of trying to learn a pre-determined representation of the target intermediate data, we utilize the concept of the stochastic model to decompose the label into bits. Then, the deep learning model is used to classify each bit independently. This versatile multi-bit model can adjust to existing leakage models like the Hamming weight and Most Significant Bit while also possessing the flexibility to adapt to complex leakage scenarios. To further improve the attack efficiency, we extend the multi-bit model to profile all 16 subkey bytes simultaneously, which requires negligible computational effort. The experimental results show that the proposed methods can efficiently break all key bytes across four considered datasets while the conventional leakage models fail. Our work signifies a significant step forward in deep learning-based side-channel attacks, showcasing a high degree of flexibility and efficiency with the proposed leakage model.

Authors:

Lichao Wu , Technical University of Darmstadt
Azade Rezaeezade , Delft University of Technology
Amir Ali-pour , École de technologie supérieure
Guilherme Perin , Leiden University
Stjepan Picek , Radboud University

Download:

DOI: 10.62056/ay4c3txol7

URL: https://cic.iacr.org//p/1/3/41

Search ePrint

Search Google

Abstract:

Profiling side-channel analysis has gained widespread acceptance in both academic and industrial realms due to its robust capacity to unveil protected secrets, even in the presence of countermeasures. To harness this capability, an adversary must access a clone of the target device to acquire profiling measurements, labeling them with leakage models. The challenge of finding an effective leakage model, especially for a protected dataset with a low signal-to-noise ratio or weak correlation between actual leakages and labels, often necessitates an intuitive engineering approach, as otherwise, the attack will not perform well.
In this paper, we introduce a deep learning approach with a flexible leakage model, referred to as the multi-bit model. Instead of trying to learn a pre-determined representation of the target intermediate data, we utilize the concept of the stochastic model to decompose the label into bits. Then, the deep learning model is used to classify each bit independently. This versatile multi-bit model can adjust to existing leakage models like the Hamming weight and Most Significant Bit while also possessing the flexibility to adapt to complex leakage scenarios. To further improve the attack efficiency, we extend the multi-bit model to profile all 16 subkey bytes simultaneously, which requires negligible computational effort. The experimental results show that the proposed methods can efficiently break all key bytes across four considered datasets while the conventional leakage models fail. Our work signifies a significant step forward in deep learning-based side-channel attacks, showcasing a high degree of flexibility and efficiency with the proposed leakage model. 

BibTeX

@article{cic-2024-34852,
  title={Leakage Model-flexible Deep Learning-based Side-channel Analysis},
  journal={cic},
  publisher={International Association for Cryptologic Research},
  volume={1, Issue 3},
  url={https://cic.iacr.org//p/1/3/41},
  doi={10.62056/ay4c3txol7},
  author={Lichao Wu and Azade Rezaeezade and Amir Ali-pour and Guilherme Perin and Stjepan Picek},
  year=2024
}

International Association for Cryptologic Research

International Associationfor Cryptologic Research

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Leakage Model-flexible Deep Learning-based Side-channel Analysis

BibTeX

International Association
for Cryptologic Research