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Title:
A Novel Permutation-based Hash Mode of Operation FP and the Hash Function SAMOSA

Authors: Souradyuti Paul, Ekawat Homsirikamol, Kris Gaj

The contribution of the paper is two-fold. First, we design a novel permutation-based hash mode of operation FP, and analyze its security. The FP mode is derived by replacing the hard-to-invert primitive of the FWP mode – designed by Nandi and Paul, Indocrypt 2010 – with an easy-to-invert permutation; since easy-to-invert permutations with good cryptographic properties are normally easier to design, and are more efficient than the hard-to-invert functions, the FP mode is more suitable in practical applications than the FWP mode. We show that any n-bit hash function that uses the FP mode is indifferentiable from a random oracle up to 2^n/2 queries (up to a constant factor), if the underlying 2n-bit permutation is free from any structural weaknesses. Based on our further analysis and experiments, we conjecture that the FP mode is resistant to all non-trivial generic attacks with work less than the brute force, mainly due to its large internal state. We compare the FP mode with other permutation-based hash modes, and observe that it displays the so-far best security/rate trade-off. To put this into perspective, our second contribution is a proposal for a concrete hash function SAMOSA using the new mode and the P-permutations of the SHA-3 finalist Groestl. Based on our analysis we claim that the SAMOSA family cannot be attacked with work significantly less than the brute force. We also provide hardware implementation (FPGA) results for SAMOSA to compare it with the SHA-3 finalists. In our implementations, SAMOSA family consistently beats Groestl, Blake and Skein in the throughput to area ratio. With more efficient underlying permutation, it seems possible to design a hash function based on the FP mode that can achieve even higher performances.

ePrint: https://eprint.iacr.org/2012/597

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