Non-malleable encryption with proofs of plaintext knowledge and applications to voting

Ben Smyth & Yoshikazu Hanatani (2019) Non-malleable encryption with proofs of plaintext knowledge and applications to voting. International Journal of Security and Networks, 14(4), pp. 191-204.

Download

Abstract

Non-malleable asymmetric encryption schemes which prove plaintext knowledge are sufficient for secrecy in some domains. For example, ballot secrecy in voting. In these domains, some applications derive encryption schemes by coupling malleable ciphertexts with proofs of plaintext knowledge, without evidence that the sufficient condition (for secrecy) is satisfied nor an independent security proof (of secrecy). Consequently, it is unknown whether these applications satisfy desirable secrecy properties. In this article, we propose a generic construction for such a coupling and show that our construction produces non-malleable encryption schemes which prove plaintext knowledge. Furthermore, we show how our results can be used to prove ballot secrecy of voting systems. Accordingly, we facilitate the development of applications satisfying their security objectives.

Bibtex Entry

@article{2018-ballot-secrecy-from-NM-CPA,
	author = "Ben Smyth and Yoshikazu Hanatani",
	title = "{Non-malleable encryption with proofs of plaintext knowledge and applications to voting}",
	year = "2019",
	journal = "International Journal of Security and Networks",
	volume = "14",
	number = "4",
	pages = "191--204",
}