Reusable garbled circuits and succinct functional encryption
Author(s)
Goldwasser, Shafi; Kalai, Yael Tauman; Popa, Raluca Ada; Vaikuntanathan, Vinod; Zeldovich, Nickolai
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Garbled circuits, introduced by Yao in the mid 80s, allow computing a function f on an input x without leaking anything about f or x besides f(x). Garbled circuits found numerous applications, but every known construction suffers from one limitation: it offers no security if used on multiple inputs x. In this paper, we construct for the first time reusable garbled circuits. The key building block is a new succinct single-key functional encryption scheme.
Functional encryption is an ambitious primitive: given an encryption Enc(x) of a value x, and a secret key sk_f for a function f, anyone can compute f(x) without learning any other information about x. We construct, for the first time, a succinct functional encryption scheme for {\em any} polynomial-time function f where succinctness means that the ciphertext size does not grow with the size of the circuit for f, but only with its depth. The security of our construction is based on the intractability of the Learning with Errors (LWE) problem and holds as long as an adversary has access to a single key sk_f (or even an a priori bounded number of keys for different functions).
Building on our succinct single-key functional encryption scheme, we show several new applications in addition to reusable garbled circuits, such as a paradigm for general function obfuscation which we call token-based obfuscation, homomorphic encryption for a class of Turing machines where the evaluation runs in input-specific time rather than worst-case time, and a scheme for delegating computation which is publicly verifiable and maintains the privacy of the computation.
Date issued
2013-06Department
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory; Massachusetts Institute of Technology. Department of Electrical Engineering and Computer ScienceJournal
Proceedings of the 45th annual ACM symposium on Symposium on theory of computing - STOC '13
Publisher
Association for Computing Machinery
Citation
Goldwasser, Shafi, Yael Kalai, Raluca Ada Popa, Vinod Vaikuntanathan, and Nickolai Zeldovich. “Reusable Garbled Circuits and Succinct Functional Encryption.” Proceedings of the 45th Annual ACM Symposium on Symposium on Theory of Computing - STOC ’13 (2013), June 1-4, 2013, Palo Alto, Calif. USA. ACM, p. 555-564.
Version: Author's final manuscript
ISBN
9781450320290
ISSN
0737-8017