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#![allow(non_snake_case)]
#![allow(non_camel_case_types)]
#![allow(clippy::upper_case_acronyms)]
///
/// This example performs the full flow:
/// - define the circuit to be folded
/// - fold the circuit with Nova+CycleFold's IVC
/// - generate a DeciderEthCircuit final proof
/// - generate the Solidity contract that verifies the proof
/// - verify the proof in the EVM
///
use ark_bn254::{constraints::GVar, Bn254, Fr, G1Projective as G1};
use ark_groth16::Groth16;
use ark_grumpkin::{constraints::GVar as GVar2, Projective as G2};
use std::path::PathBuf;
use std::time::Instant;
use folding_schemes::{
commitment::{kzg::KZG, pedersen::Pedersen},
folding::nova::{
decider_eth::{prepare_calldata, Decider as DeciderEth},
Nova,
},
frontend::{circom::CircomFCircuit, FCircuit},
Decider, FoldingScheme,
};
use solidity_verifiers::{
evm::{compile_solidity, Evm},
utils::get_function_selector_for_nova_cyclefold_verifier,
verifiers::nova_cyclefold::get_decider_template_for_cyclefold_decider,
NovaCycleFoldVerifierKey,
};
mod utils;
use utils::init_ivc_and_decider_params;
fn main() {
// set the initial state
let z_0 = vec![Fr::from(3_u32)];
// set the external inputs to be used at each step of the IVC, it has length of 10 since this
// is the number of steps that we will do
let external_inputs = vec![
vec![Fr::from(6u32), Fr::from(7u32)],
vec![Fr::from(8u32), Fr::from(9u32)],
vec![Fr::from(10u32), Fr::from(11u32)],
vec![Fr::from(12u32), Fr::from(13u32)],
vec![Fr::from(14u32), Fr::from(15u32)],
vec![Fr::from(6u32), Fr::from(7u32)],
vec![Fr::from(8u32), Fr::from(9u32)],
vec![Fr::from(10u32), Fr::from(11u32)],
vec![Fr::from(12u32), Fr::from(13u32)],
vec![Fr::from(14u32), Fr::from(15u32)],
];
// initialize the Circom circuit
let r1cs_path =
PathBuf::from("./folding-schemes/src/frontend/circom/test_folder/external_inputs.r1cs");
let wasm_path = PathBuf::from(
"./folding-schemes/src/frontend/circom/test_folder/external_inputs_js/external_inputs.wasm",
);
let f_circuit_params = (r1cs_path, wasm_path, 1, 2);
let f_circuit = CircomFCircuit::<Fr>::new(f_circuit_params).unwrap();
let (fs_prover_params, kzg_vk, g16_pk, g16_vk) =
init_ivc_and_decider_params::<CircomFCircuit<Fr>>(f_circuit.clone());
pub type NOVA =
Nova<G1, GVar, G2, GVar2, CircomFCircuit<Fr>, KZG<'static, Bn254>, Pedersen<G2>>;
pub type DECIDERETH_FCircuit = DeciderEth<
G1,
GVar,
G2,
GVar2,
CircomFCircuit<Fr>,
KZG<'static, Bn254>,
Pedersen<G2>,
Groth16<Bn254>,
NOVA,
>;
// initialize the folding scheme engine, in our case we use Nova
let mut nova = NOVA::init(&fs_prover_params, f_circuit.clone(), z_0).unwrap();
// run n steps of the folding iteration
for (i, external_inputs_at_step) in external_inputs.iter().enumerate() {
let start = Instant::now();
nova.prove_step(external_inputs_at_step.clone()).unwrap();
println!("Nova::prove_step {}: {:?}", i, start.elapsed());
}
let rng = rand::rngs::OsRng;
let start = Instant::now();
let proof = DECIDERETH_FCircuit::prove(
(g16_pk, fs_prover_params.cs_params.clone()),
rng,
nova.clone(),
)
.unwrap();
println!("generated Decider proof: {:?}", start.elapsed());
let verified = DECIDERETH_FCircuit::verify(
(g16_vk.clone(), kzg_vk.clone()),
nova.i,
nova.z_0.clone(),
nova.z_i.clone(),
&nova.U_i,
&nova.u_i,
&proof,
)
.unwrap();
assert!(verified);
println!("Decider proof verification: {}", verified);
// Now, let's generate the Solidity code that verifies this Decider final proof
let function_selector =
get_function_selector_for_nova_cyclefold_verifier(nova.z_0.len() * 2 + 1);
let calldata: Vec<u8> = prepare_calldata(
function_selector,
nova.i,
nova.z_0,
nova.z_i,
&nova.U_i,
&nova.u_i,
proof,
)
.unwrap();
// prepare the setup params for the solidity verifier
let nova_cyclefold_vk = NovaCycleFoldVerifierKey::from((g16_vk, kzg_vk, f_circuit.state_len()));
// generate the solidity code
let decider_solidity_code = get_decider_template_for_cyclefold_decider(nova_cyclefold_vk);
// verify the proof against the solidity code in the EVM
let nova_cyclefold_verifier_bytecode = compile_solidity(&decider_solidity_code, "NovaDecider");
let mut evm = Evm::default();
let verifier_address = evm.create(nova_cyclefold_verifier_bytecode);
let (_, output) = evm.call(verifier_address, calldata.clone());
assert_eq!(*output.last().unwrap(), 1);
// save smart contract and the calldata
println!("storing nova-verifier.sol and the calldata into files");
use std::fs;
fs::write(
"./examples/nova-verifier.sol",
decider_solidity_code.clone(),
)
.unwrap();
fs::write("./examples/solidity-calldata.calldata", calldata.clone()).unwrap();
let s = solidity_verifiers::utils::get_formatted_calldata(calldata.clone());
fs::write("./examples/solidity-calldata.inputs", s.join(",\n")).expect("");
}