Simple forward and backward private searchable symmetric encryption schemes with constant number of roundtrips

Abstract

Searchable Symmetric Encryption (SSE) is a mechanism that facilitates search over encrypted data that is outsourced to an untrusted Server. SSE schemes offer practicality at the expense of some information leakage. The last two years, the first dynamic SSE (DSSE) schemes, i.e. schemes that support updates, that are both forward and backward private, were introduced. Two lines of design have been proposed. The first one contains the schemes that use an oblivious data structure, i.e. the Client hides the memory access pattern from the Server. This level of security comes at the expense of significant communication overheads as the oblivious memory access requires several communication roundtrips or the use of expensive primitives that limits the potential of practicality. The second line of design contains solutions that avoid oblivious data structures. In this paper, we introduce a new DSSE solution that offers both forward and the highest level of backward privacy. Our scheme is the first one that follows the first line of design and achieves this level of security with a constant and small number of communication roundtrips. We evaluate the scheme's performance and we show that it is practical.