Circom zero knowledge kit


Keywords
solarity, circom, kit, zkp, typescript, zk
License
MIT
Install
npm install @solarity/zkit@0.2.0

Documentation

npm License: MIT

ZKit - Circom Zero Knowledge Kit

A zero knowledge kit that helps you interact with Circom circuits.

  • Generate and verify ZK proofs with a single line of code.
  • Leverage groth16 and plonk proving systems.
  • Render optimized Solidity | Vyper verifiers.
  • Build and work with ZK witnesses.

Installation

To install the package, run:

npm install --save-dev @solarity/zkit

Usage

Important

The kit is not meant to be used directly as its fitness relies heavily on the environment, Circom compilation artifacts management, processing of remappings, etc. Consider using hardhat-zkit which is a complete, developer-friendly package.

CircuitZKit

CircuitZKit is a user-friendly interface for interacting with circom circuits.

To create a CircuitZKit object it is necessary to pass a circuit config and a ProtocolImplementer instance:

const config = {
  circuitName: string;
  circuitArtifactsPath: string;
  verifierDirPath: string;
};

const implementer = new Groth16Implementer() | new PlonkImplementer();

const circuit = new CircuitZKit<"groth16" | "plonk">(config, implementer);

The config contains all the information required to work with the circuit, namely:

  • circuitName - Name of the circuit file without extension.
  • circuitArtifactsPath - Full path to compilation artifacts for the desired circuit.
  • verifierDirPath - Full path to the directory where Solidity | Vyper verifier file will be generated.

The implementer is the instance of a certain proving system. Currently groth16 and plonk systems are supported.

API reference


  • async createVerifier("sol" | "vy", verifierNameSuffix?: string)

Creates a Solidity | Vyper verifier contract with the optional verifierNameSuffix on verifierDirPath path, which was specified in the config.

await circuit.createVerifier("sol");
await circuit.createVerifier("sol", "_suffix_");
  • async calculateWitness(inputs) -> bigint[]

Calculates a witness in the tmp directory and returns its json representation.

/// witness = [1n, 200n, 20n, 10n]
const witness = await circuit.calculateWitness({ a: 10, b: 20 });
  • async generateProof(inputs) -> proof

Generates a proof for the given inputs.

/// { proof: { pi_a, pi_b, pi_c, protocol, curve }, publicSignals: [6] }
const proof = await circuit.generateProof({ a: 2, b: 3 });
  • async verifyProof(proof) -> bool

Verifies the proof.

/// true
const isValidProof = await circuit.verifyProof(proof);
  • async generateCalldata(proof) -> calldata

Generates calldata by proof for the Solidity | Vyper verifier's verifyProof() method.

/// You can use this calldata to call the verifier contract
const calldata = await circuit.generateCalldata(proof);
  • getCircuitName() -> string

Returns the name of the circuit from the config.

  • getVerifierName(verifierNameSuffix?: string) -> string

Returns the name of the verifier in the following form:

<Circuit name><Suffix><Proving system>Verifier
  • getProvingSystemType() -> "groth16" | "plonk"

Returns the current proving system in use.

  • getVerifierTemplate() -> string

Returns the full ejs verifier template as a string.