量子电子学报, 2020, 37 (2): 196, 网络出版: 2020-04-03
量子噪声随机流密码中密钥扩展模块的研究
Research on key expansion module of quantum noise random stream cipher
量子信息 密钥扩展 量子噪声随机流密码 Hash算法 计数器模式 密码分组链接模式 quantum information key expansion quantum noise random stream cipher Hash algorithm counter mode cipher block link mode
摘要
密钥扩展是量子噪声随机流密码(QNRC)高效利用量子密钥分发(QKD)密钥的手段,通常使用 经典加密方法来进行密钥扩展。高级加密标准(AES)和Hash算法因其破译难度大,在QNRC实验中常用作密钥扩展。根据分组加密的工作模式, 合理设计了计数器(CTR)模式和密码分组链接(CBC)模式下的Hash扩展方案。并且对不同扩展方案下产生的运行密钥流进行了NIST随机性检测,测 试结果表明CTR和CBC模式下的AES和Hash扩展都能通过随机性检测。尤其是CTR模式下的Hash扩展,输入长度可以灵活控制,能较好地适应现代 高速光网络的不同需求。
Abstract
Key expansion is an efficient way for quantum noise random stream cipher (QNRC) to use quantum key distribution (QKD) keys. Generally, the classical encryption methods are often used for key expansion in QNRC experiments, such as advanced encryption standard (AES) and Hash algorithms, because of the difficulty of deciphering. According to the working mode of block cipher, the Hash expansion schemes of counter (CTR) mode and cipher block link (CBC) mode are reasonably designed. Moreover, NIST random test is implemented on the running key streams generated under different expansion schemes. The test results show that AES and Hash expansion schemes both in CTR and CBC modes can pass the test of randomicity. Especially for the Hash expansion in CTR mode, the input length of which can be flexibly controlled, so it can better adapt to different requirements of modern high-speed optical network.
史海勤, 蒲涛, 郑吉林, 谭业腾, 陈毓锴. 量子噪声随机流密码中密钥扩展模块的研究[J]. 量子电子学报, 2020, 37(2): 196. SHI Haiqin, PU Tao, ZHENG Jilin, TAN Yeteng, CHEN Yukai. Research on key expansion module of quantum noise random stream cipher[J]. Chinese Journal of Quantum Electronics, 2020, 37(2): 196.