6 matches found
An Efficient Hardware Implementation of Elliptic Curve Point Multiplication over $GF(2^M)$ on FPGA
Elliptic Curve Cryptography ECC is widely accepted for ensuring secure data exchange between resource-limited IoT devices. The National Institute of Standards and Technology NIST recommended implementation, such as B-163, is particularly well-suited for Internet of Things IoT applications. Here,...
Efficient Modular Multiplier over GF (2^M) for ECPM
Elliptic curve cryptography ECC has emerged as the dominant public-key protocol, with NIST standardizing parameters for binary field GF2^m ECC systems. This work presents a hardware implementation of a Hybrid Multiplication technique for modular multiplication over binary field GF2m, targeting NI...
OpenSSL 0.9.6 < 0.9.6j Multiple Vulnerabilities
The version of OpenSSL installed on the remote host is prior to 0.9.6j. It is, therefore, affected by multiple vulnerabilities as referenced in the 0.9.6j advisory. - The SSL and TLS components for OpenSSL 0.9.6i and earlier, 0.9.7, and 0.9.7a allow remote attackers to perform an unauthorized RSA...
CVE-2004-2682
Affected software: PeerSec MatrixSSL prior to 1.1. Vulnerability: does not implement RSA blinding, enabling context-dependent attackers to deduce the server’s private key via timing differences in Montgomery reductions and in the use of different multiplication algorithms (Karatsuba vs normal). T...
security flaw
OpenSSL does not use RSA blinding by default, which allows local and remote attackers to obtain the server's private key by determining factors using timing differences on 1 the number of extra reductions during Montgomery reduction, and 2 the use of different integer multiplication algorithms...
security flaw
OpenSSL does not use RSA blinding by default, which allows local and remote attackers to obtain the server's private key by determining factors using timing differences on 1 the number of extra reductions during Montgomery reduction, and 2 the use of different integer multiplication algorithms...