mirror of
https://github.com/serai-dex/serai.git
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185 lines
5.7 KiB
Rust
185 lines
5.7 KiB
Rust
// TODO
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use std::{convert::TryFrom, sync::Arc, collections::HashMap};
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use rand_core::OsRng;
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use group::Group;
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use k256::ProjectivePoint;
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use frost::{
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curve::Secp256k1,
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Participant, ThresholdKeys,
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algorithm::IetfSchnorr,
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tests::{algorithm_machines, sign},
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};
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use alloy_core::primitives::{Address, U256};
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use alloy_simple_request_transport::SimpleRequest;
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use alloy_rpc_types_eth::BlockTransactionsKind;
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use alloy_rpc_client::ClientBuilder;
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use alloy_provider::{Provider, RootProvider};
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use alloy_node_bindings::{Anvil, AnvilInstance};
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use crate::{
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crypto::*,
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deployer::Deployer,
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router::{Router, abi as router},
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tests::{key_gen, send, fund_account},
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};
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async fn setup_test() -> (
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AnvilInstance,
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Arc<RootProvider<SimpleRequest>>,
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u64,
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Router,
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HashMap<Participant, ThresholdKeys<Secp256k1>>,
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PublicKey,
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) {
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let anvil = Anvil::new().spawn();
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let provider = RootProvider::new(
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ClientBuilder::default().transport(SimpleRequest::new(anvil.endpoint()), true),
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);
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let chain_id = provider.get_chain_id().await.unwrap();
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let wallet = anvil.keys()[0].clone().into();
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let client = Arc::new(provider);
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// Make sure the Deployer constructor returns None, as it doesn't exist yet
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assert!(Deployer::new(client.clone()).await.unwrap().is_none());
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// Deploy the Deployer
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let tx = Deployer::deployment_tx();
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fund_account(
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&client,
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&wallet,
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tx.recover_signer().unwrap(),
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U256::from(tx.tx().gas_limit) * U256::from(tx.tx().gas_price),
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)
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.await
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.unwrap();
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let (tx, sig, _) = tx.into_parts();
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let mut bytes = vec![];
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tx.encode_with_signature_fields(&sig, &mut bytes);
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let pending_tx = client.send_raw_transaction(&bytes).await.unwrap();
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let receipt = pending_tx.get_receipt().await.unwrap();
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assert!(receipt.status());
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let deployer =
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Deployer::new(client.clone()).await.expect("network error").expect("deployer wasn't deployed");
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let (keys, public_key) = key_gen();
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// Verify the Router constructor returns None, as it doesn't exist yet
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assert!(deployer.find_router(client.clone(), &public_key).await.unwrap().is_none());
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// Deploy the router
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let receipt = send(&client, &anvil.keys()[0].clone().into(), deployer.deploy_router(&public_key))
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.await
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.unwrap();
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assert!(receipt.status());
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let contract = deployer.find_router(client.clone(), &public_key).await.unwrap().unwrap();
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(anvil, client, chain_id, contract, keys, public_key)
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}
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async fn latest_block_hash(client: &RootProvider<SimpleRequest>) -> [u8; 32] {
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client
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.get_block(client.get_block_number().await.unwrap().into(), BlockTransactionsKind::Hashes)
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.await
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.unwrap()
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.unwrap()
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.header
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.hash
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.0
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}
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#[tokio::test]
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async fn test_deploy_contract() {
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let (_anvil, client, _, router, _, public_key) = setup_test().await;
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let block_hash = latest_block_hash(&client).await;
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assert_eq!(router.serai_key(block_hash).await.unwrap(), public_key);
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assert_eq!(router.nonce(block_hash).await.unwrap(), U256::try_from(1u64).unwrap());
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// TODO: Check it emitted SeraiKeyUpdated(public_key) at its genesis
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}
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pub fn hash_and_sign(
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keys: &HashMap<Participant, ThresholdKeys<Secp256k1>>,
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public_key: &PublicKey,
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message: &[u8],
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) -> Signature {
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let algo = IetfSchnorr::<Secp256k1, EthereumHram>::ietf();
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let sig =
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sign(&mut OsRng, &algo, keys.clone(), algorithm_machines(&mut OsRng, &algo, keys), message);
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Signature::new(public_key, message, sig).unwrap()
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}
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#[tokio::test]
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async fn test_router_update_serai_key() {
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let (anvil, client, chain_id, contract, keys, public_key) = setup_test().await;
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let next_key = loop {
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let point = ProjectivePoint::random(&mut OsRng);
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let Some(next_key) = PublicKey::new(point) else { continue };
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break next_key;
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};
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let message = Router::update_serai_key_message(
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U256::try_from(chain_id).unwrap(),
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U256::try_from(1u64).unwrap(),
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&next_key,
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);
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let sig = hash_and_sign(&keys, &public_key, &message);
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let first_block_hash = latest_block_hash(&client).await;
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assert_eq!(contract.serai_key(first_block_hash).await.unwrap(), public_key);
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let receipt =
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send(&client, &anvil.keys()[0].clone().into(), contract.update_serai_key(&next_key, &sig))
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.await
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.unwrap();
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assert!(receipt.status());
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let second_block_hash = latest_block_hash(&client).await;
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assert_eq!(contract.serai_key(second_block_hash).await.unwrap(), next_key);
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// Check this does still offer the historical state
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assert_eq!(contract.serai_key(first_block_hash).await.unwrap(), public_key);
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// TODO: Check logs
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println!("gas used: {:?}", receipt.gas_used);
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// println!("logs: {:?}", receipt.logs);
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}
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#[tokio::test]
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async fn test_router_execute() {
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let (anvil, client, chain_id, contract, keys, public_key) = setup_test().await;
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let to = Address::from([0; 20]);
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let value = U256::ZERO;
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let tx = router::OutInstruction { to, value, calls: vec![] };
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let txs = vec![tx];
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let first_block_hash = latest_block_hash(&client).await;
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let nonce = contract.nonce(first_block_hash).await.unwrap();
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assert_eq!(nonce, U256::try_from(1u64).unwrap());
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let message = Router::execute_message(U256::try_from(chain_id).unwrap(), nonce, txs.clone());
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let sig = hash_and_sign(&keys, &public_key, &message);
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let receipt =
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send(&client, &anvil.keys()[0].clone().into(), contract.execute(&txs, &sig)).await.unwrap();
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assert!(receipt.status());
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let second_block_hash = latest_block_hash(&client).await;
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assert_eq!(contract.nonce(second_block_hash).await.unwrap(), U256::try_from(2u64).unwrap());
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// Check this does still offer the historical state
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assert_eq!(contract.nonce(first_block_hash).await.unwrap(), U256::try_from(1u64).unwrap());
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// TODO: Check logs
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println!("gas used: {:?}", receipt.gas_used);
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// println!("logs: {:?}", receipt.logs);
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}
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