The Canetti-Krawczyk (CK) model is a formalism for the analysis of key-exchange protocols, which can guarantee many security properties for the protocols proved secure by this model. But we find this model lacks the a...The Canetti-Krawczyk (CK) model is a formalism for the analysis of key-exchange protocols, which can guarantee many security properties for the protocols proved secure by this model. But we find this model lacks the ability to guarantee key generation center (KGC) forward secrecy, which is an important security property for key-agreement protocols based on Identity. The essential reason leading to this weakness is that it does not fully consider the attacker's capabilities. In this paper, the CK model is accordingly extended with a new additional attacker's capability of the KGC corruption in Identity-based systems, which enables it to support KGC forward secrecy.展开更多
由于低功耗的移动设备计算和存储能力较低,设计一种高效且强安全的两方匿名漫游认证与密钥协商方案是一项挑战性的工作.现有方案不仅计算开销较高,而且不能抵抗临时秘密泄露攻击.针对这两点不足,提出一种新的两方匿名漫游认证与密钥协...由于低功耗的移动设备计算和存储能力较低,设计一种高效且强安全的两方匿名漫游认证与密钥协商方案是一项挑战性的工作.现有方案不仅计算开销较高,而且不能抵抗临时秘密泄露攻击.针对这两点不足,提出一种新的两方匿名漫游认证与密钥协商方案.在新方案中,基于Schnorr签名机制,设计了一种高效的基于身份签密算法,利用签密的特性实现实体的相互认证和不可追踪;利用认证双方的公私钥直接构造了一个计算Diffie-Hellman(Computational Diffie-Hellman,CDH)问题实例,能抵抗临时秘密泄露攻击.新方案实现了可证明安全,在e CK (extended Canetti-Krawczyk)模型基础上,探讨两方漫游认证密钥协商方案安全证明过程中可能出现的情形,进行归纳和拓展,并给出新方案的安全性证明,其安全性被规约为多项式时间敌手求解椭圆曲线上的CDH问题.对比分析表明:新方案安全性更强,需要实现的算法库更少,计算和通信开销较低.新方案可应用于移动通信网络、物联网或泛在网络,为资源约束型移动终端提供漫游接入服务.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.90204012)the National“863”High-tech Project of China(Grant No.2002AA143021)the Excellent Young Teachers Program of MOE,China and the Key Project of Chinese Ministry of Education
文摘The Canetti-Krawczyk (CK) model is a formalism for the analysis of key-exchange protocols, which can guarantee many security properties for the protocols proved secure by this model. But we find this model lacks the ability to guarantee key generation center (KGC) forward secrecy, which is an important security property for key-agreement protocols based on Identity. The essential reason leading to this weakness is that it does not fully consider the attacker's capabilities. In this paper, the CK model is accordingly extended with a new additional attacker's capability of the KGC corruption in Identity-based systems, which enables it to support KGC forward secrecy.
文摘由于低功耗的移动设备计算和存储能力较低,设计一种高效且强安全的两方匿名漫游认证与密钥协商方案是一项挑战性的工作.现有方案不仅计算开销较高,而且不能抵抗临时秘密泄露攻击.针对这两点不足,提出一种新的两方匿名漫游认证与密钥协商方案.在新方案中,基于Schnorr签名机制,设计了一种高效的基于身份签密算法,利用签密的特性实现实体的相互认证和不可追踪;利用认证双方的公私钥直接构造了一个计算Diffie-Hellman(Computational Diffie-Hellman,CDH)问题实例,能抵抗临时秘密泄露攻击.新方案实现了可证明安全,在e CK (extended Canetti-Krawczyk)模型基础上,探讨两方漫游认证密钥协商方案安全证明过程中可能出现的情形,进行归纳和拓展,并给出新方案的安全性证明,其安全性被规约为多项式时间敌手求解椭圆曲线上的CDH问题.对比分析表明:新方案安全性更强,需要实现的算法库更少,计算和通信开销较低.新方案可应用于移动通信网络、物联网或泛在网络,为资源约束型移动终端提供漫游接入服务.