swMATH ID: 15633
Software Authors: Saarinen, Markku-Juhani O.
Description: CBEAM: efficient authenticated encryption from feebly one-way φ functions. We show how efficient and secure cryptographic mixing functions can be constructed from low-degree rotation-invariant φ functions rather than conventional S-Boxes. These novel functions have surprising properties; many exhibit inherent feeble (Boolean circuit) one-wayness and offer speed/area tradeoffs unobtainable with traditional constructs. Recent theoretical results indicate that even if the inverse is not explicitly computed in an implementation, its degree plays a fundamental role to the security of the iterated composition. To illustrate these properties, we present CBEAM, a Cryptographic Sponge Permutation based on a single 5×1-bit Boolean function. This simple nonlinear function is used to construct a 16-bit rotation-invariant φ function of Degree 4 (but with a very complex Degree 11 inverse), which in turn is expanded into an efficient 256-bit mixing function. In addition to flexible tradeoffs in hardware we show that efficient implementation strategies exist for software platforms ranging from low-end microcontrollers to the very latest x86-64 AVX2 instruction set. A rotational bit-sliced software implementation offers not only comparable speeds to AES but also increased security against cache side channel attacks. Our construction supports sponge-based authenticated encryption, hashing, and PRF/PRNG modes and is highly useful as a compact “all-in-one” primitive for pervasive security.
Homepage: http://link.springer.com/chapter/10.1007%2F978-3-319-04852-9_13
Keywords: CBEAM; authenticated encryption; cryptographic sponge functions; trapdoor \(varphi \) functions; lightweight cryptography
Related Software: Keccak; Salsa20; Chaskey; XooTools; Gimli; PRINTcipher; Midori; tweakey; NOEKEON; CubeHash; ChaCha; McOE; spongent; DLMF
Cited in: 3 Documents

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