We present ARM2GC, a novel secure computation framework based on Yao's
Garbled Circuit (GC) protocol and the ARM processor. It allows users to develop
privacy-preserving applications using standard high-level programming languages
(e.g., C) and compile them using off-the-shelf ARM compilers (e.g., gcc-arm).
The main enabler of this framework is the introduction of SkipGate, an
algorithm that dynamically omits the communication and encryption cost of the
gates whose outputs are independent of the private data. SkipGate greatly
enhances the performance of ARM2GC by omitting costs of the gates associated
with the instructions of the compiled binary, which is known by both parties
involved in the computation. Our evaluation on benchmark functions demonstrates
that ARM2GC not only outperforms the current GC frameworks that support
high-level languages, it also achieves efficiency comparable to the best prior
solutions based on hardware description languages. Moreover, in contrast to
previous high-level frameworks with domain-specific languages and customized
compilers, ARM2GC relies on standard ARM compiler which is rigorously verified
and supports programs written in the standard syntax.Comment: 13 page
