mirror of https://github.com/vacp2p/ark-circom.git
120 lines
3.4 KiB
Rust
120 lines
3.4 KiB
Rust
use ark_circom::{ethereum, CircomBuilder, CircomConfig};
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use ark_std::rand::thread_rng;
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use color_eyre::Result;
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use ark_bn254::Bn254;
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use ark_groth16::{create_random_proof as prove, generate_random_parameters};
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use ethers::{
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contract::ContractError,
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prelude::abigen,
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providers::{Http, Middleware, Provider},
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utils::Anvil,
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};
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use std::{convert::TryFrom, sync::Arc};
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#[tokio::test]
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async fn solidity_verifier() -> Result<()> {
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let cfg = CircomConfig::<Bn254>::new(
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"./test-vectors/mycircuit.wasm",
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"./test-vectors/mycircuit.r1cs",
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)?;
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let mut builder = CircomBuilder::new(cfg);
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builder.push_input("a", 3);
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builder.push_input("b", 11);
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// create an empty instance for setting it up
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let circom = builder.setup();
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let mut rng = thread_rng();
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let params = generate_random_parameters::<Bn254, _, _>(circom, &mut rng)?;
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let circom = builder.build()?;
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let inputs = circom.get_public_inputs().unwrap();
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let proof = prove(circom, ¶ms, &mut rng)?;
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// launch the network & compile the verifier
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let anvil = Anvil::new().spawn();
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let acc = anvil.addresses()[0];
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let provider = Provider::<Http>::try_from(anvil.endpoint())?;
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let provider = provider.with_sender(acc);
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let provider = Arc::new(provider);
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// deploy the verifier
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let contract = Groth16Verifier::deploy(provider.clone(), ())?
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.send()
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.await?;
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// check the proof
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let verified = contract
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.check_proof(proof, params.vk, inputs.as_slice())
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.await?;
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assert!(verified);
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Ok(())
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}
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// We need to implement the conversion from the Ark-Circom's internal Ethereum types to
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// the ones expected by the abigen'd types. Could we maybe provide a convenience
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// macro for these, given that there's room for implementation error?
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abigen!(Groth16Verifier, "./tests/verifier_artifact.json");
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use groth_16_verifier::{G1Point, G2Point, Proof, VerifyingKey};
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impl From<ethereum::G1> for G1Point {
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fn from(src: ethereum::G1) -> Self {
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Self { x: src.x, y: src.y }
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}
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}
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impl From<ethereum::G2> for G2Point {
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fn from(src: ethereum::G2) -> Self {
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// We should use the `.as_tuple()` method which handles converting
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// the G2 elements to have the second limb first
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let src = src.as_tuple();
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Self { x: src.0, y: src.1 }
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}
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}
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impl From<ethereum::Proof> for Proof {
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fn from(src: ethereum::Proof) -> Self {
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Self {
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a: src.a.into(),
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b: src.b.into(),
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c: src.c.into(),
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}
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}
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}
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impl From<ethereum::VerifyingKey> for VerifyingKey {
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fn from(src: ethereum::VerifyingKey) -> Self {
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Self {
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alfa_1: src.alpha1.into(),
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beta_2: src.beta2.into(),
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gamma_2: src.gamma2.into(),
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delta_2: src.delta2.into(),
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ic: src.ic.into_iter().map(|i| i.into()).collect(),
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}
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}
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}
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impl<M: Middleware> Groth16Verifier<M> {
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async fn check_proof<
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I: Into<ethereum::Inputs>,
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P: Into<ethereum::Proof>,
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VK: Into<ethereum::VerifyingKey>,
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>(
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&self,
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proof: P,
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vk: VK,
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inputs: I,
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) -> Result<bool, ContractError<M>> {
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// convert into the expected format by the contract
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let proof = proof.into().into();
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let vk = vk.into().into();
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let inputs = inputs.into().0;
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// query the contract
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let res = self.verify(inputs, proof, vk).call().await?;
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Ok(res)
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}
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}
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