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CCS
2015
ACM
2015
ACM
Leakage-Resilient Authentication and Encryption from Symmetric Cryptographic Primitives
Leakage-resilient cryptosystems aim to maintain security in situations where their implementation leaks physical information about their internal secrets. Because of their efficiency and usability on a wide range of platforms, solutions based on symmetric primitives (such as block ciphers) are particularly attractive in this context. So far, the literature has mostly focused on the design of leakage-resilient pseudorandom objects (e.g. PRGs, PRFs, PRPs). In this paper, we consider the complementary and practically important problem of designing secure authentication and encryption schemes. For this purpose, we follow a pragmatic approach based on the advantages and limitations of existing leakageresilient pseudorandom objects, and rely on the (arguably necessary, yet minimal) use of a leak-free component. The latter can typically be instantiated with a block cipher implementation protected by traditional countermeasures, and we investigate how to combine it with the more intensive use...
Real-time Traffic| Added | 17 Apr 2016 |
| Updated | 17 Apr 2016 |
| Type | Journal |
| Year | 2015 |
| Where | CCS |
| Authors | Olivier Pereira, François-Xavier Standaert, Srinivas Vivek |
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