use anyhow::Result; use ethers::{ prelude::*, utils::{compile_and_launch_ganache, Ganache, Solc}, }; use std::{convert::TryFrom, sync::Arc, time::Duration}; // Generate the type-safe contract bindings by providing the ABI // definition in human readable format abigen!( SimpleContract, "./examples/contract_abi.json", event_derives(serde::Deserialize, serde::Serialize) ); #[tokio::main] async fn main() -> Result<()> { // 1. compile the contract (note this requires that you are inside the `examples` directory) and launch ganache let (compiled, ganache) = compile_and_launch_ganache(Solc::new("**/contract.sol"), Ganache::new()).await?; let contract = compiled .get("SimpleStorage") .expect("could not find contract"); dbg!("OK"); // 2. instantiate our wallet let wallet: LocalWallet = ganache.keys()[0].clone().into(); // 3. connect to the network let provider = Provider::::try_from(ganache.endpoint())?.interval(Duration::from_millis(10u64)); // 4. instantiate the client with the wallet let client = SignerMiddleware::new(provider, wallet); let client = Arc::new(client); // 5. create a factory which will be used to deploy instances of the contract let factory = ContractFactory::new( contract.abi.clone(), contract.bytecode.clone(), client.clone(), ); // 6. deploy it with the constructor arguments let contract = factory .deploy("initial value".to_string())? .legacy() .send() .await?; // 7. get the contract's address let addr = contract.address(); // 8. instantiate the contract let contract = SimpleContract::new(addr, client.clone()); // 9. call the `setValue` method // (first `await` returns a PendingTransaction, second one waits for it to be mined) let _receipt = contract .set_value("hi".to_owned()) .legacy() .send() .await? .await?; // 10. get all events let logs = contract .value_changed_filter() .from_block(0u64) .query() .await?; // 11. get the new value let value = contract.get_value().call().await?; println!("Value: {}. Logs: {}", value, serde_json::to_string(&logs)?); Ok(()) }