首页|格上基于身份的变色龙签名方案

格上基于身份的变色龙签名方案

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变色龙签名(CS)是一种比较理想的指定验证者签名,其采用变色龙哈希函数来实现签名的不可传递性,使得任意第三方不信任指定验证者所披露的内容,且避免了不可否认签名必须在线交互验证的缺陷.在满足不可传递性的同时,变色龙签名还要求满足不可伪造性以及签名者可拒绝性和不可抵赖性等.针对基于大整数分解或离散对数等数论难题的变色龙签名无法抵御量子计算机攻击,以及用户对公钥数字证书依赖的问题,该文给出了格上基于身份的变色龙签名(IBCS),新方案避免了已有方案存在的签名者无法拒绝指定验证者伪造的签名的安全性漏洞,并将最终签名的传输开销由平方级降为线性级;进一步地,针对变色龙签名在仲裁阶段不可传递性失效的问题,给出了格上抗消息暴露的基于身份的变色龙签名,新方案使得签名者能够在不暴露消息内容的条件下拒绝任意敌手伪造的变色龙签名.特别地,基于格上经典的小整数解问题,两个方案在随机预言机模型下是可证明安全的.
Identity-Based Chameleon Signature Schemes over Lattices
Chameleon Signature (CS) is an ideal designated verifier signature, it realizes non-transferability by using chameleon hash function, makes any third party distrust the content disclosed by a designated verifier,and avoids the shortcoming of online interactive verification of undeniable signature. In addition to non-transferability, CS also should satisfy unforgeability, deniability, non-repudiation for the signer, and so on. To solve the problems that cryptosystems based on the number theory problems such as integer factorization or discrete logarithm cannot resist quantum computing attacks and users rely on digital certificates, an Identity-Based Chameleon Signature (IBCS) over lattices is proposed, the new scheme avoids the security vulnerability that the signer cannot reject the forged signature of the designated verifier in the existing schemes, and reduces the transmission cost of the final signature from square to linear; Furthermore, to solve the failure problem of non-transferability in the arbitration phase, an IBCS scheme with exposure-freeness over lattices is proposed,the new scheme enables the signer to reject a forged signature of any adversary without exposing the real message. Particularly, based on the hardness of the small integer solution problem, both schemes can be proved secure in the random oracle model.

Chameleon Signature (CS)LatticeIdentity-based cryptographyNon-transferabilityExposure-freeness

张彦华、陈岩、刘西蒙、尹毅峰、胡予濮

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郑州轻工业大学计算机与通信工程学院 郑州 450001

福州大学数学与计算机科学学院 福州 350108

西安电子科技大学通信工程学院 西安 710071

变色龙签名 基于身份的密码 不可传递性 抗消息暴露

国家自然科学基金河南省自然科学基金河南省自然科学基金河南省网络密码技术重点实验室开放基金河南省高等学校重点科研项目

61802075222300420371202300410508LNCT2022-A0922A520047

2024

电子与信息学报
中国科学院电子学研究所 国家自然科学基金委员会信息科学部

电子与信息学报

CSTPCD北大核心
影响因子:1.302
ISSN:1009-5896
年,卷(期):2024.46(2)
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