An improved cryptanalysis of large RSA decryption exponent with constrained secret key Online publication date: Tue, 23-Feb-2021
by Majid Mumtaz; Luo Ping
International Journal of Information and Computer Security (IJICS), Vol. 14, No. 2, 2021
Abstract: In this study, we revisit the RSA public key cryptosystem in some special case of Boneh and Durfee's attack when the private key d assumes to be larger than the public key e. The attack in this study is the variation of an approach adopted by Luo et al. (2009) based on large decryption exponent. They had chosen a large private key (d > e) and found the weak keys in some specific range between N0.258 ≤ e ≤ N0.857. We highlight the shortcomings and new improvements in our study with more refined bound analysis up to the range between N0.104 ≤ e ≤ N0.923. Our experimental results revealed more refined bounds using lattice-based Coppersmith's method. In our experimental yield, we find the small roots of the devised polynomial, which helps to factorise the RSA modulus of size up to 1,024-bits. We also measure the probability of a specific range of weak keys, which further certify our results about weak keys in an RSA constrained secret key environment.
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