一种适应多芯场景的安全芯片业务测试系统设计
A Multi-Core Adaptable Automatic Workflow Testing System Design for Security Chip
DOI: 10.12677/SEA.2020.95050, PDF,   
作者: 周 静, 付青琴, 刘 佳, 白雪松, 梁昭庆:北京智芯微电子科技有限公司,国家电网公司电力芯片设计分析重点实验室,北京;北京智芯微电子科技有限公司,北京市电力高可靠性集成电路设计工程技术研究中心,北京
关键词: 安全芯片业务流程测试模块化多芯业务场景Security Chip Workflow Test Modulization Multi-Core Service Scenarios
摘要: 本文分析了多芯模组化智能电表的应用给安全芯片业务场景测试带来的挑战和问题,分析了传统测试方法中存在的缺陷,提出了能适应多芯业务场景的自动化业务测试系统。此方法通过提取用例,对安全芯片的业务进行模块化设计,提取密钥场景和芯片指令等可变量参数,封装SPI,7816,645协议,模拟多芯场景的业务交互流程,实现了业务流程的模块化和自动化,大大的提升了安全芯片业务流程测试的效率。
Abstract: This paper analyzes the challenges and problems for workflow testing for introducing the mul-ti-core energy meter, and the faults of traditional workflow testing of security chip, and proposes a multi-core adaptive automatic workflow testing for security chip. This method is based on user case extraction and the workflow modulization of security chip. It extracts the variables like key state and instructions, and encapsulates SPI, 7816, 645 protocol, to simulate the multi-core workflow. It realizes the workflow modulization and automation, and greatly improves the efficiency of the workflow test and regression test.
文章引用:周静, 付青琴, 刘佳, 白雪松, 梁昭庆. 一种适应多芯场景的安全芯片业务测试系统设计[J]. 软件工程与应用, 2020, 9(5): 434-440. https://doi.org/10.12677/SEA.2020.95050

参考文献

[1] 王爱英. 智能卡技术[M]. 北京: 清华大学出版社, 2009.
[2] 秦璐怡. 基于智能卡芯片的一种自动化测试方法[D]: [硕士学位论文]. 西安: 西安电子科技大学, 2012.
[3] Fu, Q.Q. (2015) A Grey Lock Method to Support Mul-tiple Pre-Freezing Mechanism in IC Card. CRC Press, Balkema, 1395-1400.
[4] Liu, J., et al. (2017) Implementation of IC Card Authentication Method Based on Self-Defined Algorithm. 2nd International Conference on Electrical and Electronics: Techniques and Applications, Beijing. 15-16 January 2017, 324-329. [Google Scholar] [CrossRef
[5] 孔梦荣, 朱国华. 基于智能卡的远程认证体制[J]. 计算机工程与设计, 2008, 29(3): 606-608.
[6] Zhou, J. (2019) An Instruction Based Automatic Workflow Testing Method for Security Chip. IEEE 2nd International Conference on Automation, Electronics and Electrical Engineering, Shenyang, 22-24 November 2019, 564.