New Constructions of Convertible Undeniable Signature Schemes without Random Oracles

Abstract

In Undeniable Signature, a signature\u27s validity can only be confirmed or disavowed with the help of an alleged signer via a confirmation or disavowal protocol. A Convertible undeniable signature further allows the signer to release some additional information which can make an undeniable signature become publicly verifiable. In this work we introduce a new kind of attacks, called \emph{claimability attacks}, in which a dishonest/malicious signer both disavows a signature via the disavowal protocol and confirms it via selective conversion. Conventional security requirement does not capture the claimability attacks. We show that some convertible undeniable signature schemes are vulnerable to this kind of attacks. We then propose a new efficient construction of fully functional convertible undeniable signature, which supports both selective conversion and universal conversion, and is immune to the claimability attacks. To the best of our knowledge, it is the most efficient convertible undeniable signature scheme with provable security in the standard model. A signature is comprised of three elements of a bilinear group. Both the selective converter of a signature and the universal converter consist of one group element only. Besides, the confirmation and disavowal protocols are also very simple and efficient. Furthermore, the scheme can be extended to support additional features which include the delegation of conversion and confirmation/disavowal, threshold conversion and etc. We also propose an alternative generic construction of convertible undeniable signature schemes. Unlike the conventional sign-then-encrypt paradigm, the signer encrypts its (standard) signature with an identity-based encryption instead of a public key encryption. It enjoys the advantage of short selective converter, which is simply an identity-based user private key, and security against claimability attacks