Your search keyword '"Wan Nur Aqlili Ruzai"' showing total 2 results

1. New simultaneous Diophantine attacks on generalized RSA key equations

Author

Wan Nur Aqlili Ruzai, Muhammad Rezal Kamel Ariffin, Muhammad Asyraf Asbullah, and Amir Hamzah Abd Ghafar

Subjects

Public-key cryptography, RSA cryptosystem, Integer factorization problem, Diophantine approximations, Coppersmith’s method, Lattice reduction, Electronic computers. Computer science, QA75.5-76.95

Abstract

RSA stands as a widely adopted method within asymmetric cryptography, commonly applied for digital signature validation and message encryption. The security of RSA relies on the challenge of integer factorization, a problem considered either computationally infeasible or highly intricate, especially when dealing with sufficiently large security parameters. Effective exploits of the integer factorization problem in RSA can allow an adversary to assume the identity of the key holder and decrypt such confidential messages. The keys employed in secure hardware are particularly significant due to the typically greater value of the information they safeguard, such as in the context of securing payment transactions. In general, RSA faces various attacks exploiting weaknesses in its key equations. This paper introduces a new vulnerability that enables the concurrent factorization of multiple RSA moduli. By working with pairs (Ni,ei) and a fixed value y satisfying the Diophantine equation eixi2−y2ϕ(Ni)=zi, we successfully factorized these moduli simultaneously using the lattice basis reduction technique. Notably, our research expands the scope of RSA decryption exponents considered as insecure.

Published

2024

2. On (Unknowingly) Using Near-Square RSA Primes

Author

Wan Nur Aqlili Ruzai, Amir Hamzah Abd Ghafar, Nur Raidah Salim, and Muhammad Rezal Kamel Ariffin

Subjects

public-key cryptography, RSA encryption scheme, RSA primes, cryptanalysis, near-square prime, Mathematics, QA1-939

Abstract

The invention in 1978 of the first practical asymmetric cryptosystem known as RSA was a breakthrough within the long history of secret communications. Since its inception, the RSA cryptosystem has become embedded in millions of digital applications with the objectives of ensuring confidentiality, integrity, authenticity, and disallowing repudiation. However, the generation of the RSA modulus, N=pq which requires p and q to be random primes, may accidentally entail the choice of a special type of prime called a near-square prime. This structure of N may be used unknowingly en masse in real-world applications since no current cryptographic implementation prevents its generation. In this study, we show that use of this type of prime will potentially lead to total destruction of RSA. We present three cases of near-square primes used as RSA primes, set in the form of (i) N=pq=(am−ra)(bm−rb); (ii) N=pq=(am+ra)(bm−rb); and (iii) N=pq=(am−ra)(bm+rb). Although (ii) and (iii) are quite similar, p and q must be within the same size range of n-bits, which results in different conditions for both cases. We formulate attacks using three different algorithms to better understand their feasibility. We also provide an efficient countermeasure that it is recommended is adopted by current cryptographic libraries with RSA implementation.

Published

2022