Cryptology ePrint Archive: Report 2008/116

Chosen-Ciphertext Security via Correlated Products

Alon Rosen and Gil Segev

Abstract: We initiate the study of one-wayness under {\em correlated products}. We are interested in identifying necessary and sufficient conditions for a function $f$ and a distribution on inputs $(x_1, \ldots, x_k)$, so that the function $(f(x_1), \ldots, f(x_k))$ is one-way. The main motivation of this study is the construction of public-key encryption schemes that are secure against chosen-ciphertext attacks (CCA). We show that any collection of injective trapdoor functions that is secure under a very natural correlated product can be used to construct a CCA-secure public-key encryption scheme. The construction is simple, black-box, and admits a direct proof of security. It can be viewed as a simplification of the seminal work of Dolev, Dwork and Naor (SICOMP '00), while relying on a seemingly incomparable assumption.

We provide evidence that security under correlated products is achievable by demonstrating that lossy trapdoor functions (Peikert and Waters, STOC '08) yield injective trapdoor functions that are secure under the above mentioned correlated product. Although we currently base security under correlated products on existing constructions of lossy trapdoor functions, we argue that the former notion is potentially weaker as a general assumption. Specifically, there is no fully-black-box construction of lossy trapdoor functions from trapdoor functions that are secure under correlated products.

Category / Keywords: foundations / public-key encryption, chosen-ciphertext security

Publication Info: SIAM Journal on Computing (preliminary version in TCC '09).

Date: received 14 Mar 2008, last revised 19 Mar 2010

Contact author: gil segev at weizmann ac il

Available format(s): Postscript (PS) | Compressed Postscript (PS.GZ) | PDF | BibTeX Citation

Version: 20100319:201622 (All versions of this report)

Discussion forum: Show discussion | Start new discussion


[ Cryptology ePrint archive ]