A cryptographic library that is compatible with the KZG commitment scheme used in the Ethereum blockchain for PeerDAS.
The cryptography implemented in this library is the prerequisite needed for Ethereum's version of Data Availability Sampling(DAS). The library has been implemented in a modular way, so one can also use the underlying polynomial commitment scheme, for a different purpose.
cargo add rust_eth_kzg
npm i @crate-crypto/node-eth-kzg
pkg:maven/io.github.crate-crypto/java-eth-kzg@X.Y.Z
dotnet add package EthKZG.Bindings
Use the github URL for Nim.
This library is written in Rust and offers bindings to C, C#, node.js, golang, Java and Nim. These bindings can be found in the bindings
folder. The bindings expose an API that is compatible with the API needed for Ethereum.
If you only intend to modify the cryptography, then a Rust compiler will be needed. For the bindings, one should check the respective language's README file to find out additional requirements.
To build everything including the artifacts needed for the bindings, you can run:
./scripts/compile.sh
To only build the native Rust code, you can run:
cargo build
Benchmarks can be run by calling:
cargo bench
Note: This will benchmark the underlying Rust library. It will not account for (if any) discrepancies due to calling the library via a particular language. An example of this is the CGO overhead when calling a foreign language from Golang; in our case, this overhead is negligible compared to the actual computations being performed.
This library conforms and is tested against commit 13ac373a2c284dc66b48ddd2ef0a10537e4e0de6
.
Licensed and distributed under either of
MIT license: LICENSE-MIT or http://opensource.org/licenses/MIT
or
Apache License, Version 2.0, (LICENSE-APACHEv2 or http://www.apache.org/licenses/LICENSE-2.0) at your option. These files may not be copied, modified, or distributed except according to those terms.