use ethers::{contract::ContractFactory, types::H256}; mod common; pub use common::*; #[cfg(not(feature = "celo"))] mod eth_tests { use super::*; use ethers::{providers::StreamExt, types::Address, utils::Ganache}; use serial_test::serial; #[tokio::test] #[serial] async fn deploy_and_call_contract() { let (abi, bytecode) = compile(); // launch ganache let _ganache = Ganache::new() .mnemonic("abstract vacuum mammal awkward pudding scene penalty purchase dinner depart evoke puzzle") .spawn(); // Instantiate the clients. We assume that clients consume the provider and the wallet // (which makes sense), so for multi-client tests, you must clone the provider. let client = connect("380eb0f3d505f087e438eca80bc4df9a7faa24f868e69fc0440261a0fc0567dc"); let client2 = connect("cc96601bc52293b53c4736a12af9130abf347669b3813f9ec4cafdf6991b087e"); // create a factory which will be used to deploy instances of the contract let factory = ContractFactory::new(abi, bytecode, &client); // `send` consumes the deployer so it must be cloned for later re-use // (practically it's not expected that you'll need to deploy multiple instances of // the _same_ deployer, so it's fine to clone here from a dev UX vs perf tradeoff) let deployer = factory.deploy("initial value".to_string()).unwrap(); let contract = deployer.clone().send().await.unwrap(); let get_value = contract.method::<_, String>("getValue", ()).unwrap(); let last_sender = contract.method::<_, Address>("lastSender", ()).unwrap(); // the initial value must be the one set in the constructor let value = get_value.clone().call().await.unwrap(); assert_eq!(value, "initial value"); // make a call with `client2` let _tx_hash = contract .connect(&client2) .method::<_, H256>("setValue", "hi".to_owned()) .unwrap() .send() .await .unwrap(); assert_eq!(last_sender.clone().call().await.unwrap(), client2.address()); assert_eq!(get_value.clone().call().await.unwrap(), "hi"); // we can also call contract methods at other addresses with the `at` call // (useful when interacting with multiple ERC20s for example) let contract2_addr = deployer.clone().send().await.unwrap().address(); let contract2 = contract.at(contract2_addr); let init_value: String = contract2 .method::<_, String>("getValue", ()) .unwrap() .call() .await .unwrap(); let init_address = contract2 .method::<_, Address>("lastSender", ()) .unwrap() .call() .await .unwrap(); assert_eq!(init_address, Address::zero()); assert_eq!(init_value, "initial value"); } #[tokio::test] #[serial] async fn get_past_events() { let (abi, bytecode) = compile(); let client = connect("380eb0f3d505f087e438eca80bc4df9a7faa24f868e69fc0440261a0fc0567dc"); let (_ganache, contract) = deploy(&client, abi, bytecode).await; // make a call with `client2` let _tx_hash = contract .method::<_, H256>("setValue", "hi".to_owned()) .unwrap() .send() .await .unwrap(); // and we can fetch the events let logs: Vec = contract .event("ValueChanged") .unwrap() .from_block(0u64) .topic1(client.address()) // Corresponds to the first indexed parameter .query() .await .unwrap(); assert_eq!(logs[0].new_value, "initial value"); assert_eq!(logs[1].new_value, "hi"); assert_eq!(logs.len(), 2); } #[tokio::test] #[serial] async fn watch_events() { let (abi, bytecode) = compile(); let client = connect("380eb0f3d505f087e438eca80bc4df9a7faa24f868e69fc0440261a0fc0567dc"); let (_ganache, contract) = deploy(&client, abi, bytecode).await; // We spawn the event listener: let mut stream = contract .event::("ValueChanged") .unwrap() .stream() .await .unwrap(); let num_calls = 3u64; // and we make a few calls for i in 0..num_calls { let _tx_hash = contract .method::<_, H256>("setValue", i.to_string()) .unwrap() .send() .await .unwrap(); } for i in 0..num_calls { // unwrap the option of the stream, then unwrap the decoding result let log = stream.next().await.unwrap().unwrap(); assert_eq!(log.new_value, i.to_string()); } } } #[cfg(feature = "celo")] mod celo_tests { use super::*; use ethers::{ providers::{Http, Provider}, signers::Wallet, }; use std::convert::TryFrom; #[tokio::test] async fn deploy_and_call_contract() { let (abi, bytecode) = compile(); // Celo testnet let provider = Provider::::try_from("https://alfajores-forno.celo-testnet.org").unwrap(); // Funded with https://celo.org/developers/faucet let client = "d652abb81e8c686edba621a895531b1f291289b63b5ef09a94f686a5ecdd5db1" .parse::() .unwrap() .connect(provider); let factory = ContractFactory::new(abi, bytecode, &client); let deployer = factory.deploy("initial value".to_string()).unwrap(); let contract = deployer.send().await.unwrap(); let value: String = contract .method("getValue", ()) .unwrap() .call() .await .unwrap(); assert_eq!(value, "initial value"); // make a state mutating transaction let pending_tx = contract .method::<_, H256>("setValue", "hi".to_owned()) .unwrap() .send() .await .unwrap(); let _receipt = pending_tx.await.unwrap(); let value: String = contract .method("getValue", ()) .unwrap() .call() .await .unwrap(); assert_eq!(value, "hi"); } }