ethers-rs/ethers-middleware/tests/transformer.rs

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#![cfg(not(target_arch = "wasm32"))]
#![allow(unused)]
use ethers_contract::{BaseContract, ContractFactory};
use ethers_core::{abi::Abi, types::*, utils::Anvil};
use ethers_middleware::{
transformer::{DsProxy, TransformerMiddleware},
SignerMiddleware,
};
use ethers_providers::{Http, Middleware, Provider};
use ethers_signers::{LocalWallet, Signer};
use ethers_solc::Solc;
use rand::Rng;
use std::{convert::TryFrom, sync::Arc, time::Duration};
type HttpWallet = SignerMiddleware<Provider<Http>, LocalWallet>;
// compiles the given contract and returns the ABI and Bytecode
fn compile_contract(path: &str, name: &str) -> (Abi, Bytes) {
let path = format!("./tests/solidity-contracts/{path}");
let compiled = Solc::default().compile_source(&path).unwrap();
let contract = compiled.get(&path, name).expect("could not find contract");
let (abi, bin, _) = contract.into_parts_or_default();
(abi, bin)
}
#[tokio::test]
#[cfg(not(feature = "celo"))]
async fn ds_proxy_transformer() {
// randomness
let mut rng = rand::thread_rng();
// spawn anvil and instantiate a signer middleware.
let anvil = Anvil::new().spawn();
let wallet: LocalWallet = anvil.keys()[0].clone().into();
let provider = Provider::<Http>::try_from(anvil.endpoint())
.unwrap()
.interval(Duration::from_millis(10u64));
let chain_id = provider.get_chainid().await.unwrap().as_u64();
let wallet = wallet.with_chain_id(chain_id);
let signer_middleware = SignerMiddleware::new(provider.clone(), wallet);
let wallet_addr = signer_middleware.address();
let provider = Arc::new(signer_middleware.clone());
// deploy DsProxyFactory which we'll use to deploy a new DsProxy contract.
let (abi, bytecode) = compile_contract("DSProxy.sol", "DSProxyFactory");
let factory = ContractFactory::new(abi, bytecode, Arc::clone(&provider));
let ds_proxy_factory = factory.deploy(()).unwrap().legacy();
let ds_proxy_factory = ds_proxy_factory.send().await.unwrap();
// deploy a new DsProxy contract.
let ds_proxy = DsProxy::build::<HttpWallet, Arc<HttpWallet>>(
Arc::clone(&provider),
Some(ds_proxy_factory.address()),
provider.address(),
)
.await
.unwrap();
let ds_proxy_addr = ds_proxy.address();
// deploy SimpleStorage and try to update its value via transformer middleware.
let (abi, bytecode) = compile_contract("SimpleStorage.sol", "SimpleStorage");
let factory = ContractFactory::new(abi, bytecode, Arc::clone(&provider));
let deployer = factory.deploy(()).unwrap().legacy();
let simple_storage = deployer.send().await.unwrap();
// instantiate a new transformer middleware.
let provider = TransformerMiddleware::new(signer_middleware, ds_proxy.clone());
// broadcast the setValue tx via transformer middleware (first wallet).
let expected_value: u64 = rng.gen();
let calldata = simple_storage
.encode("setValue", U256::from(expected_value))
.expect("could not get ABI encoded data");
let tx = TransactionRequest::new().to(simple_storage.address()).data(calldata);
provider.send_transaction(tx, None).await.unwrap().await.unwrap();
// verify that DsProxy's state was updated.
let last_sender = provider.get_storage_at(ds_proxy_addr, H256::zero(), None).await.unwrap();
let last_value =
provider.get_storage_at(ds_proxy_addr, H256::from_low_u64_be(1u64), None).await.unwrap();
assert_eq!(last_sender, wallet_addr.into());
assert_eq!(last_value, H256::from_low_u64_be(expected_value));
}
#[tokio::test]
#[cfg(not(feature = "celo"))]
async fn ds_proxy_code() {
// randomness
let mut rng = rand::thread_rng();
// spawn anvil and instantiate a signer middleware.
let anvil = Anvil::new().spawn();
let wallet: LocalWallet = anvil.keys()[1].clone().into();
let provider = Provider::<Http>::try_from(anvil.endpoint())
.unwrap()
.interval(Duration::from_millis(10u64));
let chain_id = provider.get_chainid().await.unwrap().as_u64();
let wallet = wallet.with_chain_id(chain_id);
let signer_middleware = SignerMiddleware::new(provider.clone(), wallet);
let wallet_addr = signer_middleware.address();
let provider = Arc::new(signer_middleware.clone());
// deploy DsProxyFactory which we'll use to deploy a new DsProxy contract.
let (abi, bytecode) = compile_contract("DSProxy.sol", "DSProxyFactory");
let factory = ContractFactory::new(abi, bytecode, Arc::clone(&provider));
let ds_proxy_factory = factory.deploy(()).unwrap().legacy();
let ds_proxy_factory = ds_proxy_factory.send().await.unwrap();
// deploy a new DsProxy contract.
let ds_proxy = DsProxy::build::<HttpWallet, Arc<HttpWallet>>(
Arc::clone(&provider),
Some(ds_proxy_factory.address()),
provider.address(),
)
.await
.unwrap();
let ds_proxy_addr = ds_proxy.address();
// compile the SimpleStorage contract which we will use to interact via DsProxy.
let (abi, bytecode) = compile_contract("SimpleStorage.sol", "SimpleStorage");
let ss_base_contract: BaseContract = abi.into();
let expected_value: u64 = rng.gen();
let calldata = ss_base_contract
.encode("setValue", U256::from(expected_value))
.expect("could not get ABI encoded data");
// execute code via the deployed DsProxy contract.
ds_proxy
.execute::<HttpWallet, Arc<HttpWallet>, Bytes>(
Arc::clone(&provider),
bytecode.clone(),
calldata,
)
.expect("could not construct DSProxy contract call")
.legacy()
.send()
.await
.unwrap();
// verify that DsProxy's state was updated.
let last_sender = provider.get_storage_at(ds_proxy_addr, H256::zero(), None).await.unwrap();
let last_value =
provider.get_storage_at(ds_proxy_addr, H256::from_low_u64_be(1u64), None).await.unwrap();
assert_eq!(last_sender, wallet_addr.into());
assert_eq!(last_value, H256::from_low_u64_be(expected_value));
}