Multi-input Laconic Function Evaluation

Document Type

Conference Proceeding

Publication Date

1-1-2020

Abstract

Recently, Quach, Wee and Wichs (FOCS 2018) proposed a new powerful cryptographic primitive called laconic function evaluation (LFE). Using an LFE scheme, Alice can compress a large circuit f into a small digest. Bob can encrypt some data x under this digest in a way that enables Alice to recover f(x) without learning anything else about Bob’s data. The laconic property requires that the size of the digest, the run-time of the encryption algorithm and the size of the ciphertext should be much smaller than the circuit-size of f. This new tool is motivated by an interesting application of “Bob-optimized” two-round secure two-party computation (2PC). In such a 2PC, Alice will get the final result thus the workload of Bob will be minimized. In this paper, we consider a “client-optimized” two-round secure multiparty computation, in which multiple clients provide inputs and enable a server to obtain final outputs while protecting privacy of each individual input. More importantly, we would also minimize the cost of each client. For this purpose, we propose multi-input laconic function evaluation (MI-LFE), and give a systematic study of it. It turns out that MI-LFE for general circuit is not easy. Specifically, we first show that the directly generalized version, i.e., the public-key MI-LFE implies virtual black-box obfuscation. Hence the public-key MI-LFE (for general circuits) is infeasible. This forces us to turn to secret key version of MI-LFE, in which encryption now needs to take a secret key. Next we show that secret-key MI-LFE also implies heavy cryptographic primitives including witness encryption for NP language and the indistinguishability obfuscation. On the positive side, we show that the secret-key MI-LFE can be constructed assuming indistinguishability obfuscation and learning with errors assumption. Our theoretical results suggest that we may have to explore relaxed versions of MI-LFE for meaningful new applications of “client-optimized” MPC and others.

Identifier

85089721890 (Scopus)

ISBN

[9783030553036]

Publication Title

Lecture Notes in Computer Science Including Subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics

External Full Text Location

https://doi.org/10.1007/978-3-030-55304-3_19

e-ISSN

16113349

ISSN

03029743

First Page

369

Last Page

388

Volume

12248 LNCS

Grant

1801492

Fund Ref

Google

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