use std::{convert::TryFrom, sync::Arc, time::Duration}; use rand_core::OsRng; use k256::{elliptic_curve::bigint::ArrayEncoding, U256}; use ethers::{ prelude::*, utils::{keccak256, Anvil, AnvilInstance}, }; use frost::{ curve::Secp256k1, algorithm::Schnorr as Algo, tests::{key_gen, algorithm_machines, sign}, }; use ethereum_serai::{ crypto, contract::{Schnorr, call_verify, deploy_schnorr_verifier_contract}, }; async fn deploy_test_contract( ) -> (u32, AnvilInstance, Schnorr, LocalWallet>>) { let anvil = Anvil::new().spawn(); let wallet: LocalWallet = anvil.keys()[0].clone().into(); let provider = Provider::::try_from(anvil.endpoint()).unwrap().interval(Duration::from_millis(10u64)); let chain_id = provider.get_chainid().await.unwrap().as_u32(); let client = Arc::new(SignerMiddleware::new_with_provider_chain(provider, wallet).await.unwrap()); (chain_id, anvil, deploy_schnorr_verifier_contract(client).await.unwrap()) } #[tokio::test] async fn test_deploy_contract() { deploy_test_contract().await; } #[tokio::test] async fn test_ecrecover_hack() { let (chain_id, _anvil, contract) = deploy_test_contract().await; let chain_id = U256::from(chain_id); let keys = key_gen::<_, Secp256k1>(&mut OsRng); let group_key = keys[&1].group_key(); const MESSAGE: &'static [u8] = b"Hello, World!"; let hashed_message = keccak256(MESSAGE); let full_message = &[chain_id.to_be_byte_array().as_slice(), &hashed_message].concat(); let sig = sign( &mut OsRng, algorithm_machines(&mut OsRng, Algo::::new(), &keys), full_message, ); let mut processed_sig = crypto::process_signature_for_contract(hashed_message, &sig.R, sig.s, &group_key, chain_id); call_verify(&contract, &processed_sig).await.unwrap(); // test invalid signature fails processed_sig.message[0] = 0; assert!(call_verify(&contract, &processed_sig).await.is_err()); }