Abstract
One of the most promising lightweight hardware countermeasures against SCA attacks is the so-called Threshold Implementation (TI) [12] countermeasure. In this work we discuss issues towards its applicability and introduce solutions to boost its implementation efficiency. In particular, our contribution is three-fold: first we introduce two methodologies to efficiently implement 3-share TI to a given S-box. Second, as an example, we successfully apply these methodologies to PRESENT and are able to decrease the area requirements of its protected S-box by 37-40%. Third, we present the first successful practical Mutual Information Attack on the original 3-share TI implementation of PRESENT and compare it with a correlation-enhanced collision attack using second-order moments.
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Bilgin, B., Nikova, S., Nikov, V., Rijmen, V., Stütz, G.: Threshold Implementations of All 3 ×3 and 4 ×4 S-Boxes. In: Prouff, E., Schaumont, P. (eds.) CHES 2012. LNCS, vol. 7428, pp. 76–91. Springer, Heidelberg (2012)
Fiser, P., Hlavicka, J.: Two-Level Boolean Minimizer BOOM-II. In: IWSBP 2004, pp. 221–228 (2004)
Fiser, P., Hlavicka, J.: BOOM - A Heuristic Boolean Minimizer. Computers and Informatics 22(1), 19–51 (2003)
Guo, J., Peyrin, T., Poschmann, A., Robshaw, M.J.B.: The LED Block Cipher. In: Preneel, B., Takagi, T. (eds.) CHES 2011. LNCS, vol. 6917, pp. 326–341. Springer, Heidelberg (2011)
Virtual Silicon Inc. 0.18 μm VIP Standard Cell Library Tape Out Ready, Part Number: UMCL18G212T3, Process: UMC Logic 0.18 μm Generic II Technology: 0.18μm
Kocher, P.C.: Timing Attacks on Implementations of Diffie-Hellman, RSA, DSS, and Other Systems. In: Koblitz, N. (ed.) CRYPTO 1996. LNCS, vol. 1109, pp. 104–113. Springer, Heidelberg (1996)
Kocher, P.C., Jaffe, J., Jun, B.: Differential Power Analysis. In: Wiener, M. (ed.) CRYPTO 1999. LNCS, vol. 1666, pp. 388–397. Springer, Heidelberg (1999)
Leander, G., Poschmann, A.: On the Classification of 4 Bit S-Boxes. In: Carlet, C., Sunar, B. (eds.) WAIFI 2007. LNCS, vol. 4547, pp. 159–176. Springer, Heidelberg (2007)
Mangard, S., Oswald, E., Popp, T.: Power Analysis Attacks: Revealing the Secrets of Smart Cards. Advances in Information Security. Springer (2007)
Moradi, A.: Statistical Tools Flavor Side-Channel Collision Attacks. In: Pointcheval, D., Johansson, T. (eds.) EUROCRYPT 2012. LNCS, vol. 7237, pp. 428–445. Springer, Heidelberg (2012)
Nikova, S., Rechberger, C., Rijmen, V.: Threshold Implementations Against Side-Channel Attacks and Glitches. In: Ning, P., Qing, S., Li, N. (eds.) ICICS 2006. LNCS, vol. 4307, pp. 529–545. Springer, Heidelberg (2006)
Nikova, S., Rijmen, V., Schlaffer, M.: Secure Hardware Implementation of Nonlinear Functions in the Presence of Glitches. Journal of Cryptology 24(2), 292–321 (2011)
Popp, T., Mangard, S.: Masked Dual-Rail Pre-charge Logic: DPA-Resistance Without Routing Constraints. In: Rao, J.R., Sunar, B. (eds.) CHES 2005. LNCS, vol. 3659, pp. 172–186. Springer, Heidelberg (2005)
Poschmann, A., Moradi, A., Khoo, K., Lim, C., Wee, C., Wang, H., Ling, S.: Side-Channel Resistant Crypto for Less than 2,300 GE. Journal of Cryptology 24(2), 322–345 (2011)
Waddle, J., Wagner, D.: Towards Efficient Second-Order Power Analysis. In: Joye, M., Quisquater, J.-J. (eds.) CHES 2004. LNCS, vol. 3156, pp. 1–15. Springer, Heidelberg (2004)
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Kutzner, S., Nguyen, P.H., Poschmann, A., Wang, H. (2013). On 3-Share Threshold Implementations for 4-Bit S-boxes. In: Prouff, E. (eds) Constructive Side-Channel Analysis and Secure Design. COSADE 2013. Lecture Notes in Computer Science, vol 7864. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-40026-1_7
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DOI: https://doi.org/10.1007/978-3-642-40026-1_7
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