A zero knowledge kit that helps you interact with Circom circuits.
- Generate and verify ZK proofs with a single line of code.
- Leverage
groth16
andplonk
proving systems. - Render optimized Solidity | Vyper verifiers.
- Build and work with ZK witnesses.
To install the package, run:
npm install --save-dev @solarity/zkit
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
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.
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
.