Published: August 18, 2017
Author(s)
Ray Perlner (NIST), Albrecht Petzoldt (NIST), Daniel Smith-Tone (NIST)
Conference
Name: 24th International Conference, Selected Areas in Cryptography (SAC 2017)
Dates: 08/16/2017 - 08/18/2017
Location: Ottawa, Ontario, Canada
Citation: SAC 2017: Selected Areas in Cryptography, vol. 10719, pp. 355-373
Multivariate Public Key Cryptography (MPKC) is one of the main candidates for secure communication in a post-quantum era. Recently, Yasuda and Sakurai proposed in [7] a new multivariate encryption scheme called SRP, which combines the Square encryption scheme with the Rainbow signature scheme and the Plus modifier.
In this paper we propose a practical key recovery attack against the SRP scheme, which is based on the min-Q-rank property of the system. Our attack is very efficient and allows us to break the parameter sets recommended in [7] within minutes. Our attack shows that combining a weak scheme with a secure one does not automatically increase the security of the weak scheme.
Multivariate Public Key Cryptography (MPKC) is one of the main candidates for secure communication in a post-quantum era. Recently, Yasuda and Sakurai proposed in [7] a new multivariate encryption scheme called SRP, which combines the Square encryption scheme with the Rainbow signature scheme and...
See full abstract
Multivariate Public Key Cryptography (MPKC) is one of the main candidates for secure communication in a post-quantum era. Recently, Yasuda and Sakurai proposed in [7] a new multivariate encryption scheme called SRP, which combines the Square encryption scheme with the Rainbow signature scheme and the Plus modifier.
In this paper we propose a practical key recovery attack against the SRP scheme, which is based on the min-Q-rank property of the system. Our attack is very efficient and allows us to break the parameter sets recommended in [7] within minutes. Our attack shows that combining a weak scheme with a secure one does not automatically increase the security of the weak scheme.
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Keywords
multivariate cryptography; SRP encryption scheme; cryptanalysis; min-Q-Rank
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