Explicit Rate-1 Non-malleable Codes for Local Tampering

Divya Gupta; Hemanta Maji; Mingyuan Wang

Explicit Rate-1 Non-malleable Codes for Local Tampering

Divya Gupta ,
Hemanta Maji ,
Mingyuan Wang

CRYPTO | August 2019

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This paper constructs high-rate non-malleable codes in the information-theoretic plain model against tampering functions with bounded locality. We consider $δ "> δ$ -local tampering functions; namely, each output bit of the tampering function is a function of (at most) $δ "> δ$ input bits. This work presents the first explicit and efficient rate-1 non-malleable code for $δ ">$ $δ$ -local tampering functions, where $δ = ξ lg n "> δ = ξ lg n$ and $ξ < 1 "> ξ < 1$ $ξ < 1$

is any positive constant. As a corollary, we construct the first explicit rate-1 non-malleable code against NC $0 "> 0$ $^{0}$

tampering functions.

Before our work, no explicit construction for a constant-rate non-malleable code was known even for the simplest 1-local tampering functions. Ball et al. (EUROCRYPT–2016), and Chattopadhyay and Li (STOC–2017) provided the first explicit non-malleable codes against $δ "> δ$ $δ$

-local tampering functions. However, these constructions are rate-0 even when the tampering functions have 1-locality. In the CRS model, Faust et al. (EUROCRYPT–2014) constructed efficient rate-1 non-malleable codes for $δ = O (log n) "> δ = O (log n)$ $δ = O (\log n)$

local tampering functions.

Our main result is a general compiler that bootstraps a rate-0 non-malleable code against leaky input and output local tampering functions to construct a rate-1 non-malleable code against $ξ lg n "> ξ lg n$ $ξ \lg n$

-local tampering functions, for any positive constant $ξ < 1 "> ξ < 1$ $ξ < 1$

. Our explicit construction instantiates this compiler using an appropriate encoding by Ball et al. (EUROCRYPT–2016).