One-Way Functions and (Im)perfect Obfuscation

Abstract

A program obfuscator takes a program and outputs a “scrambled” version of it, where the goal is that the obfuscated program will not reveal much about its structure beyond what is apparent from executing it. There are several ways of formalizing this goal. Specifically, in indistinguishability obfuscation, first defined by Barak et al. (CRYPTO 2001), the requirement is that the results of obfuscating any two functionally equivalent programs (circuits) will be computationally indistinguishable. Recently, a fascinating candidate construction for indistinguishability obfuscation was proposed by Garg et al. (FOCS 2013). This has led to a flurry of discovery of intriguing constructions of primitives and protocols whose existence was not previously known (for instance, fully deniable encryption by Sahai and Waters, STOC 2014). Most of them explicitly rely on additional hardness assumptions, such as one-way functions. Our goal is to get rid of this extra assumption. We cannot argue that indistinguishability obfuscation of all polynomial-time circuits implies the existence of one-way functions, since if P = NP, then program obfuscation (under the indistinguishability notion) is possible. Instead, the ultimate goal is to argue that if P 6= NP and program obfuscation is possible, then one-way functions exist. Our main result is that if NP 6⊆ io-BPP and there is an efficient (even imperfect) indistinguishability obfuscator, then there are one-way functions. In addition, we show that the existence of an indistinguishability obfuscator implies (unconditionally) the existence of SZKarguments for NP. This, in turn, provides an alternative version of our main result, based on the assumption of hard-on-the average NP problems. To get some of our results we need obfuscators for simple programs such as 3CNF formulas. ∗This paper incorporates the manuscript of Moran and Rosen [MR13]. †Weizmann Institute of Science. Email: {ilan.komargodski,moni.naor,eylon.yogev}@weizmann.ac.il. Supported in part by a grant from the I-CORE Program of the Planning and Budgeting Committee, the Israel Science Foundation, BSF, IMOS and the Citi Foundation. Moni Naor is the incumbent of the Judith Kleeman Professorial Chair. ‡IDC Herzliya. Email: talm@idc.ac.il. Supported by ISF grant no. 1790/13 and by the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement no. 293843 §Cornell University. Email: rafael@cs.cornell.edu. Supported in part by a Alfred P. Sloan Fellowship, Microsoft New Faculty Fellowship, NSF Award CNS1217821, NSF CAREER Award CCF-0746990, NSF Award CCF-1214844, AFOSR YIP Award FA9550-10-1-0093, and DARPA and AFRL under contract FA8750-11-20211. The views and conclusions contained in this document are those of the authors and should not be interpreted as representing the official policies, either expressed or implied, of the Defense Advanced Research Projects Agency or the US Government. ¶IDC Herzliya. Email: alon.rosen@idc.ac.il. Supported by ISF grant no. 1255/12 and by the ERC under the EU’s Seventh Framework Programme (FP/2007-2013) ERC Grant Agreement n. 307952.