Ronkathon is a collection of cryptographic primitives implemented in Rust. It is inspired by the python plonkathon repository and plonk-by-hand. We use the same curve and field as plonk-by-hand (which is not secure) and the goal of this repository is to work towards building everything from scratch to understand everything from first principles.
This project implements the sum-check protocol for multivariate polynomials over finite fields. The sum-check protocol is an interactive proof system where a prover convinces a verifier of the sum of a multivariate polynomial over a boolean hypercube. This implementation includes:
- A
MultiVarPolynomial
struct which represents a multivariate polynomial - A
SumCheckProver
for generating proofs - A
SumCheckVerifier
for verifying proofs - A
SumCheck
struct that encapsulates the entire protocol.
You can use:
cargo run --example sumcheck_ex
to run example code.
- Finite Group
- Fields and Their Extensions
- Curves and Their Pairings
- Polynomials
- KZG Commitments
- Reed-Solomon Codes
- Merkle Proofs
- DSL
-
Ciphers:
-
- ECB, CBC, CTR, GCM
- Edwards curve Signatures (EdDSA)
We have found the following resources helpful in understanding the foundational mathematics behind this implementation. After going through these, you should be able to understand the codebase
To see computations used in the background, go to the math/
directory.
From there, you can run the .sage
files in a SageMath environment.
In particular, the math/field.sage
computes roots of unity in the PlutoField
which is of size 101. To install sage on your machine, follow the instructions here. If you are on a Mac, you can install it via homebrew with brew install --cask sage
.
Licensed under the Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
We welcome contributions to our open-source projects. If you want to contribute or follow along with contributor discussions, join our main Telegram channel to chat about Pluto's development.
Our contributor guidelines can be found at CONTRIBUTING.md. A good starting point is issues labelled 'bounty' in our repositories.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be licensed as above, without any additional terms or conditions.