Automated Verification of Group Key Agreement Protocols

2014 IEEE Symposium on Security and Privacy Pub Date : 2014-05-18 DOI:10.1109/SP.2014.19
Benedikt Schmidt, R. Sasse, C. Cremers, D. Basin
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引用次数: 44

Abstract

We advance the state-of-the-art in automated symbolic cryptographic protocol analysis by providing the first algorithm that can handle Diffie-Hellman exponentiation, bilinear pairing, and AC-operators. Our support for AC-operators enables protocol specifications to use multisets, natural numbers, and finite maps. We implement the algorithm in the TAMARIN prover and provide the first symbolic correctness proofs for group key agreement protocols that use Diffie-Hellman or bilinear pairing, loops, and recursion, while at the same time supporting advanced security properties, such as perfect forward secrecy and eCK-security. We automatically verify a set of protocols, including the STR, group Joux, and GDH protocols, thereby demonstrating the effectiveness of our approach.
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组密钥协议协议的自动验证
我们通过提供第一个可以处理Diffie-Hellman幂、双线性配对和ac算子的算法,推进了自动化符号密码协议分析的最新技术。我们对交流操作符的支持使协议规范能够使用多集、自然数和有限映射。我们在TAMARIN证明器中实现了该算法,并为使用Diffie-Hellman或双线性配对、循环和递归的组密钥协议提供了第一个符号正确性证明,同时支持高级安全属性,如完美的前向保密和eck安全。我们自动验证了一组协议,包括STR、group Joux和GDH协议,从而证明了我们方法的有效性。
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2014 IEEE Symposium on Security and Privacy
2014 IEEE Symposium on Security and Privacy
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