扩大故障注入范围的SM4差分故障攻击研究

计算机科学 ›› 2019, Vol. 46 ›› Issue (11A): 493-495.

扩大故障注入范围的SM4差分故障攻击研究

朱仁杰

(海军工程大学信息安全系武汉430000)

出版日期:2019-11-10 发布日期:2019-11-20
作者简介:朱仁杰(1995-),男,硕士,主要研究方向为密码芯片安全性评估,E-mail:1149518111@qq.com。
基金资助:
本文受保密通信国防科技重点实验室基金项目(614210301030117)资助。

Study on SM4 Differential Fault Attack Under Extended Fault Injection Range

ZHU Ren-jie

(Department of Information Security,Naval University of Engineering,Wuhan 430000,China)

Online:2019-11-10 Published:2019-11-20

摘要/Abstract

摘要： 为了使SM4分组密码的差分故障攻击在现实条件下更容易实现,文中深入研究并分析了可用于SM4差分故障攻击的各种方法。在现有的故障攻击方法基础上,提出了一种将故障注入的范围扩大到加密算法第26轮的攻击方法,解除了以往攻击方法中故障必须注入到加密算法后4轮的限制,达到了扩大可故障注入范围的目的。

关键词: SM4分组密码算法, 差分故障攻击, 扩大故障范围

Abstract: In order to make the differential fault attack on SM4 block cipher easier to implement under real conditions,various methods were studied and analyzed in depth for SM4 differential fault attack in this paper.Among the existing fault attack methods,this paper proposed a new attack method,which allow the scope of fault injection to extend to the 26th round of encryption algorithm.The limitation is removed that the fault must be injected into the last four rounds of encryption algorithm in the previous attack methods,and the purpose is achieved than expanding the fault injection range.

Key words: Different fault attack, Extended fault injection range, SM4 block cipher

中图分类号:

TP301

朱仁杰. 扩大故障注入范围的SM4差分故障攻击研究[J]. 计算机科学, 2019, 46(11A): 493-495. https://doi.org/

ZHU Ren-jie. Study on SM4 Differential Fault Attack Under Extended Fault Injection Range[J]. Computer Science, 2019, 46(11A): 493-495. https://doi.org/

参考文献

[1]国家密码管理局.国家密码管理局公告(7号)[EB/OL].[2016-11-04].http://www.oscca.gov.cn/News/200709/News_1105.htm.
[2]SU B Z,WU W L,ZHANG W T.Security of the SMS4 Block Cipher Against Differential Cryptanalysis[J].Journal of Computer Science & Technology,2011(1):132-140.
[3]LIU M J,CHEN J Z.Improved Linear Attacks on the Chinese Block Cipher Standard[J].Journal of Computer Science and Technology,2014:197-207.
[4]马猛,赵亚群,刘庆聪,等.SMS4算法的多维零相关线性分析[J].密码学报,2015,2(5):458-466.
[5]PIRET G,QUISQUATER J J.A differential fault attack technique against SPN structure,with application to the AES and KHAZAD[C]∥C.D.Walter,ÇK.Koçc,and C.Paar,editors,Cryptographic Hardware and Embedded Systems CHES 2003,volume 2779 of Lecture Notes in Computer Science.Springer Verlag,2003:77-88.
[6]TUNSTALL M,MUKHOPADHYAY D.Differential faultanalysis of the Advanced Encryption Standard using a single fault[J].Cryptology ePrint Archive,Report 2009/575,2009.
[7]BIHAM E,SHAMIR A.Differential Fault Analysis of SecretKey Cryptosystems[C]∥Proceedings of the 17th AnnualInternational Cryptology Conference.Berlin,Germany:Springer,1997:513-525.
[8]RIVAIN M.Differential fault analysis on DES middle rounds[C]∥International Workshop on Cryptograhic Hardware and Embedded Systems.Berlin:Springer,2009:457-469.
[9]HEMME L.A differential fault attack against early rounds of (Triple-)DES.[C]∥International Workshop on Cryptograhic Hardware and Embedded Systems.Berlin:Springer,2004:254-267.
[10]MATSUI M.On correlation between the order of S-boxes and the strength of DES[C]∥DeSantis,A.(ed.) Advances in Cryptology—EUROCRYPT ’94,Lecture Notes in ComputerScience.Berlin:Springer,1995:366-375.
[11]张蕾,吴文玲.SMS4密码算法的差分故障攻击[J].计算机学报,2006(9):86-92.
[12]荣雪芳,吴震,王敏,等.基于随机故障注入的SM4差分故障攻击方法[J].计算机工程,2016,42(7):129-133.
[13]王敏,吴震,饶金涛,等.针对SM4算法的约减轮故障攻击[J].通信学报,2016,37(S1):98-103.
[14]李玮.若干分组密码算法的故障攻击研究[D].上海:上海交通大学,2009.
[15]陶智.若干对称密码算法的安全性分析[D].上海:东华大学,2015.
[16]ABHISHEK C,BODHISATWA M,DEBDEEP M.Combinedside-channel and fault analysis attack on protected grain family of stream ciphers[OL].http://eprint.iacr.org/2015/602.pdf,2015.
[17]REN Y,WANG A,WU L.Transient-steady effect attack onblock ciphers[C]∥Cryptographic Hardware and Embedded Systems(CHES).Saint Malo,France,2015:433-450.
[18]SIKHAR P,ABHISHEK C,DEBDEEP M.Fault tolerant infective countermeasure for AES[J].Security,Privacy and Applied Cryptography Engineering,2015,935(4):190-209.

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