5G网络下可证安全的TPKC-CLPKC异构混合签密方案

doi:10.3969/j.issn.1671-1122.2019.05.004

信息网络安全 ›› 2019, Vol. 19 ›› Issue (5): 30-37.doi: 10.3969/j.issn.1671-1122.2019.05.004

5G网络下可证安全的TPKC-CLPKC异构混合签密方案

张玉磊(), 骆广萍, 王欢, 刘祥震

西北师范大学计算机科学与工程学院,甘肃兰州 730070

收稿日期:2019-01-15 出版日期:2019-05-10 发布日期:2020-05-11
作者简介:
作者简介：张玉磊（1979—）,男,甘肃,副教授,博士,主要研究方向为密码学、云计算安全;骆广萍（1995—）,女,吉林,硕士研究生,主要研究方向为密码学;王欢（1991—）,女,河北,硕士研究生,主要研究方向为信息安全;刘祥震（1993—）,男,山东,硕士研究生,主要研究方向为信息安全。
基金资助:
国家自然科学基金[61163038,61262056];甘肃省高等学校科研项目[2017A-003,2018A-207]

TPKC-CLPKC Heterogeneous Hybrid Signcryption Scheme under 5G Network

Yulei ZHANG(), Guangping LUO, Huan WANG, Xiangzhen LIU

College of Computer Science and Engineering, Northwest Normal University, Lanzhou GanSu 730070, China

Received:2019-01-15 Online:2019-05-10 Published:2020-05-11

摘要/Abstract

摘要：

异构签密能够实现异构密码环境下数据的机密性和不可伪造性。分析现有的异构签密方案,发现它们运算速度较慢,适合加密短消息,而混合签密具有高效封装对称密钥和安全传输数据的优势。文章提出一个5G网络下传统公钥密码系统（TPKC）与无证书公钥密码系统（CLPKC）的异构混合签密方案。该方案不仅能够保证TPKC和CLPKC通信的机密性和认证性,而且能够处理TPKC-CLPKC异构密码环境下任意长度的消息,运算速度较快。在随机预言模型下,基于双线性Diffie-Hellman困难假设、计算Diffie-Hellman困难假设和离散对数困难问题,通过实验证明该方案能实现适应性即选择密文攻击下的密文不可区分性和适应选择消息下的不可伪造性。

关键词: 异构签密, 混合签密, 双线性Diffie-Hellman困难假设, Diffie-Hellman困难假设, 离散对数困难问题

Abstract:

Heterogeneous signcryption can be used to guarantee the confidentiality and the unforgeability in the different cryptographies. By analyzing some existing heterogeneous signcryption schemes, it is found that those schemes are slow in operation and more suitable for encrypting short messages. Hybrid signcryption can efficiently encapsulate symmetric keys and securely transmit data. This paper proposes a heterogeneous hybrid signcryption scheme for the traditional public key cryptosystem (TPKC)-certificate public key cryptosystem (CLPKC) under 5G network.The scheme can not only ensure the confidentiality and the unforgeability from TPKC to CLPKC, but also fastly handle the arbitrary length messages. Based on the bilinear Diffie-Hellman difficulty hypothesis, the Diffie-Hellman difficulty hypothesis and the discrete logarithm difficulty problem, it is proved that the scheme satisfies the unforgeability under the adaptive ciphertext attack and the unforgeability under the adaptive selection message.Based on the bilinear of Diffie-Hellman difficulty hypothesis, computational Diffie-Hellman and Discrete logarithm, under the random oracle model.The scheme posseses indistinguishability against adaptive chosen ciphertext attack and existential unforgeability against adaptive chosen messages attack.

Key words: heterogeneous signcryption, hybrid signcryption, bilinear Diffie-Hellman problem, Diffie-Hellman problem, discrete logarithm problem

中图分类号:

TP309

张玉磊, 骆广萍, 王欢, 刘祥震. 5G网络下可证安全的TPKC-CLPKC异构混合签密方案[J]. 信息网络安全, 2019, 19(5): 30-37.

Yulei ZHANG, Guangping LUO, Huan WANG, Xiangzhen LIU. TPKC-CLPKC Heterogeneous Hybrid Signcryption Scheme under 5G Network[J]. Netinfo Security, 2019, 19(5): 30-37.

图/表 2

参考文献 20

[1]	CRAMER R, SOUR V.Design and Analysis of Practical Public-key Encryption Schemes Secure Against Adaptive Chosen Ciphertext Attack[J]. Society for Industrial and Applied Mathematics, 2004, 33(1): 167-226.
[2]	DENT A W.Hybrid Signcryption Schemes with Outsider Security[C]//LNCS. 8th International Conference on Information Security, October 1, 2005, Heidelberg , Grmany . Berlin: Springer, 2005: 203-217.
[3]	DENT A W.Hybrid Signcryption Schemes with Insider Security[C]//LNCS. 8th International Conference on Information Security, October 1, 2005, Heidelberg, Germany. Berlin: Springer, 2005: 253-266.
[4]	LIA F, SHIRASE M, TAKAGI T.Certificateless Hybrid Signcryption[C]//LNCS. 9th International Conference on Information Security, October 1, 2009, Heidelberg, Germany. Berlin: Springer, 2009: 112-123.
[5]	LIA F, SHIRASE M, TAKAGI T.Identity-based Hybrid Signcryption[C]//IEEE. 4th International Conference on Availability Reliability and Security, March 16, 2009, Fukuoka, Japan. New York: IEEE, 2009: 534-539.
[6]	YU Huifang, YANG Bo.Provably Secure Certificateless Hybrid Signcryption[J]. Chinese Journal of Computers, 2015, 38(4): 804-813.
	俞惠芳,杨波.可证安全的无证书混合签密[J].计算机学报,2015,38(4):804-813.
[7]	ZHOU Yanwei, YANG Bo, WANG Qinglong.Provably Secure Leakage-resilient Certificateless Hybrid Signcryption Scheme[J]. Journal of software, 2016, 27(11): 2898-2911.
	周彦伟,杨波,王青龙.可证安全的抗泄露无证书混合签密机制[J].软件学报,2016,27(11):2898-2911.
[8]	SUN Yinxia and LI Hui. Efficient Signcryption between TPKC and IDPKC and Its Multi-receiver Construction[J]. Science China Information Sciences, 2010, 53(3): 557-566.
[9]	HUANG Qiong, WONG D S, YANG Guomin.Heterogeneous Signcryption with Key Privacy[J]. The Computer Journal, 2011, 54(4): 525-536.
[10]	LIU Jingwei, ZHANG Lihuan, SUN Rong.Mutual Signcryption Schemes under Heterogeneous Systems[J]. Journal of Electronics & Information Technology, 2016, 38(11): 2948-2953.
	刘景伟,张俐欢,孙蓉.异构系统下的双向签密方案[J]. 电子与信息学报,2016,38(11):2948-2953.
[11]	ZHANG Yulei, WANG Huan, LIU Wenjing, et al.Security Analysis and Improvement of Matual Signcryption Schemes under Heterogeneous Systems[J]. Journal of Electronics & Information Technology, 2017, 39(12): 3045-3050.
	张玉磊,王欢,刘文静,等.异构双向签密方案的安全性分析和改进[J]. 电子与信息学报,2017,39(12):3045-3050.
[12]	LI F, HAN Y, JIN C.Practical Signcryption for Secure Communication of Wireless Sensor Networks[J]. Wireless Personal Communications, 2016, 89(4): 1391-1412.
[13]	LI F, ZHENG Z, JIN C.Secure and Efficient Data Transmission in the Internet of Things[J]. Telecommunication Systems, 2016, 62(1): 111-122.
[14]	ZHANG Yulei, WANG Huan, MA Yanli, et al.Provable and Secure Traditional Public Key Infrastructure-certificateless Public Key Heterogeneous Aggregate Signcryption Scheme[J]. Journal of Electronics & Information Technology, 2018, 40(5): 1079-1086.
	张玉磊,王欢,马彦丽,等.可证安全的传统公钥密码-无证书公钥密码异构聚合签密方案[J].电子与信息学报,2018,40(5):1079-1086.
[15]	DAVID P, JACQUES S .Security Arguments for Digital Signatures and Blind Signatures[J]. Journal of Cryptology, 2000, 13(3): 361-396.
[16]	DING Chao, Research Status and Development Trend of 5G Network Technology[J]. Digital Communication World, 2018(4): 131-132.
	丁超. 5G网络技术研究现状和发展趋势[J].数字通信世界,2018,(4):131-132.
[17]	FENG Dengguo, XU Jing, LAN Xiao.Study on 5G Mobile Communication Network Security[J]. Journal of Software, 2018, 29(6): 1813-1825.
	冯登国,徐静,兰晓. 5G移动通信网络安全研究[J].软件学报,2018,29(6):1813-1825.
[18]	WANG Caifen, LIU Chao, LI Yahong.Two-way and Anonymous Heterogeneous Signcryption Scheme between PKI and IBC[J]. Journal on Communications, 2017, 38(10): 10-17.
	王彩芬,刘超,李亚红.基于PKI 和 IBC 的双向匿名异构签密方案[J].通信学报,2017,38(10):10-17.
[19]	LI Chenyi, ZHANG Yulei, ZHANG Yongjie, et al.Efficient TPKC→IDPKC Heterogeneous Signcryption Scheme[J]. Computer Engineering and Applications, 2018, 54(2): 125-130.
	李臣意,张玉磊,张永洁,等.高效的TPKC→IDPKC的异构签密方案[J].计算机工程与应用,2018,54(2):125-130.
[20]	WANG Zhen, MA Zhaofeng, LUO Shoushan.Identity-based Efficient Authentication and Key Agreement Protocol for Mobile Internet[J]. Journal on Communications, 2017, 38(8): 19-27.
	王真,马兆丰,罗守山.基于身份的移动互联网高效认证密钥协商协议[J].通信学报,2017,38(8):19-27.

方案	签密			解签密			密文长度
方案	p	e	s	p	e	s	密文长度
文献[6]方案	2	2	3	6	1	0	2\|G₁\|+n
文献[11]方案	1	1	3	1	0	3	\|G₁\|+2n+\|r\|
本文方案	1	1	3	1	0	3	\|G₁\|+n+\|r\|

5G网络下可证安全的TPKC-CLPKC异构混合签密方案

TPKC-CLPKC Heterogeneous Hybrid Signcryption Scheme under 5G Network

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