In October 2020, Supranational, Protocol Labs and the Ethereum Foundation engaged NCC Group’s Cryptography Services team to conduct a cryptographic implementation review of the BLST library. This library implements support for the draft IETF specifications on Hashing to Elliptic Curves and BLS Signatures. The latter specification uses advanced cryptographic-pairing operations to feature aggregation properties for … Continue reading Public Report – BLST Cryptographic Implementation Review
This post is about some new (or sort of new) elliptic curves for use in cryptographic protocols. They were made public in mid-December 2020, on a dedicated Web site: https://doubleodd.group/There is also a complete whitepaper, full of mathematical demonstrations, and several implementations. Oh noes, more curves! Will this never end? It is true that there … Continue reading Double-odd Elliptic Curves
In May 2020, Protocol Labs engaged NCC Group's Cryptography Services team to conduct a cryptography review of multiple Filecoin code repositories. Filecoin is a decentralized storage and content distribution network developed by Protocol Labs. These repositories implement finite field and group arithmetic, cryptographic pairings, SHA2 via intrinsics, BLS signatures and zk-SNARK operations. Taken together, these … Continue reading Public Report – Filecoin Bellman and BLS Signatures Cryptographic Review
Elliptic curves are commonly used to implement asymmetric cryptographic operations such as key exchange and signatures. These operations are used in many places, in particular to initiate secure network connections within protocols such as TLS and Noise. However, they are relatively expensive in terms of computing resources, especially for low-end embedded systems, which run on … Continue reading Faster Modular Inversion and Legendre Symbol, and an X25519 Speed Record
In June 2020, the Electric Coin Company engaged NCC Group to conduct a security review of the six Zcash Improvement Proposals (ZIPs) that constitute the core of the upcoming Canopy (https://z.cash/upgrade/canopy/) upgrade (also called "NU4") to the Zcash network. This upgrade coincides with the first Zcash halving and will initiate a new development fund for … Continue reading Public Report – Electric Coin Company NU4 Cryptographic Specification and Implementation Review
wolfSSL is a C-language-based SSL/TLS library targeted at IoT, embedded, and RTOS environments. wolfSSL incorrectly implements the TLS 1.3 client state machine. This allows attackers in a privileged network position to completely impersonate any TLS 1.3 servers and read or modify potentially sensitive information between clients using the wolfSSL library and these TLS servers.
This is the last of three code-centric blog posts on pairing based cryptography. Support for these operations in an Ethereum precompiled contract has been proposed , and support for a related pairing configuration in precompiled contracts is already in operation [2, 3]. The first post  covered modular arithmetic, finite fields, the embedding degree, and … Continue reading Pairing over BLS12-381, Part 3: Pairing!
During the spring of 2020, Qredo engaged NCC Group Cryptography Services to conduct a security assessment of the Apache Milagro MPC library. This library implements the primitives necessary to instantiate the multi-party ECDSA signature scheme provided in Gennaro and Goldfeder’s Fast Multiparty Threshold ECDSA with Fast Trustless Setup. This assessment occurred over the course of … Continue reading Public Report – Qredo Apache Milagro MPC Cryptographic Assessment
This is the first of three code-centric blog posts on pairing based cryptography. The series will ultimately conclude with a detailed review of the popular BLS12-381 pairing operations found in a variety of applications such as BLS signatures . Support for these operations in an Ethereum precompiled contract has been proposed , and support for … Continue reading Pairing over BLS12-381, Part 1: Fields
The secure generation of parameters for zk-SNARKs is a crucial step in the trustworthiness of the resulting proof system. By highlighting some potential pitfalls and important security considerations of these implementations, NCC Group hopes to provide helpful pointers to all implementers and avoid the introduction of vulnerabilities detrimental to the confidence users have in the different applications of these systems.