use ethers::{ prelude::{Http, Provider}, types::Address, utils::{Anvil, AnvilInstance}, }; use hashbrown::HashMap; use parking_lot::Mutex; use std::{ env, str::FromStr, sync::atomic::{AtomicU16, Ordering}, }; use std::{sync::Arc, time::Duration}; use tokio::{ sync::broadcast::{self, error::SendError}, task::JoinHandle, time::{sleep, Instant}, }; use tracing::info; use web3_proxy::{ config::{AppConfig, TopConfig, Web3RpcConfig}, sub_commands::ProxydSubCommand, }; pub struct TestApp { /// anvil shuts down when this guard is dropped. _anvil: AnvilInstance, /// spawn handle for the proxy. handle: Mutex>>>, /// tell the app to shut down (use `self.stop()`). shutdown_sender: broadcast::Sender<()>, /// connection to anvil. pub anvil_provider: Provider, /// connection to the proxy that is connected to anil. pub proxy_provider: Provider, } impl TestApp { pub async fn spawn() -> Self { let num_workers = 2; // TODO: move basic setup into a test fixture let path = env::var("PATH").unwrap(); info!("path: {}", path); // TODO: configurable rpc and block let anvil = Anvil::new() // .fork("https://polygon.llamarpc.com@44300000") .spawn(); info!("Anvil running at `{}`", anvil.endpoint()); let anvil_provider = Provider::::try_from(anvil.endpoint()).unwrap(); // make a test TopConfig // TODO: load TopConfig from a file? CliConfig could have `cli_config.load_top_config`. would need to inject our endpoint ports let top_config = TopConfig { app: AppConfig { chain_id: 31337, // TODO: [make sqlite work]() // db_url: Some("sqlite::memory:".into()), default_user_max_requests_per_period: Some(6_000_000), deposit_factory_contract: Address::from_str( "4e3BC2054788De923A04936C6ADdB99A05B0Ea36", ) .ok(), min_sum_soft_limit: 1, min_synced_rpcs: 1, public_requests_per_period: Some(1_000_000), response_cache_max_bytes: 10_u64.pow(7), ..Default::default() }, balanced_rpcs: HashMap::from([( "anvil_both".to_string(), Web3RpcConfig { http_url: Some(anvil.endpoint()), ws_url: Some(anvil.ws_endpoint()), ..Default::default() }, )]), private_rpcs: None, bundler_4337_rpcs: None, extra: Default::default(), }; let (shutdown_sender, _shutdown_receiver) = broadcast::channel(1); let frontend_port_arc = Arc::new(AtomicU16::new(0)); let prometheus_port_arc = Arc::new(AtomicU16::new(0)); // spawn the app // TODO: spawn in a thread so we can run from non-async tests and so the Drop impl can wait for it to stop let handle = { tokio::spawn(ProxydSubCommand::_main( top_config, None, frontend_port_arc.clone(), prometheus_port_arc, num_workers, shutdown_sender.clone(), )) }; let mut frontend_port = frontend_port_arc.load(Ordering::Relaxed); let start = Instant::now(); while frontend_port == 0 { if start.elapsed() > Duration::from_secs(1) { panic!("took too long to start!"); } sleep(Duration::from_millis(10)).await; frontend_port = frontend_port_arc.load(Ordering::Relaxed); } let proxy_endpoint = format!("http://127.0.0.1:{}", frontend_port); let proxy_provider = Provider::::try_from(proxy_endpoint).unwrap(); Self { handle: Mutex::new(Some(handle)), anvil_provider, proxy_provider, shutdown_sender, _anvil: anvil, } } pub fn stop(&self) -> Result> { self.shutdown_sender.send(()) } pub async fn wait(&self) { // TODO: lock+take feels weird, but it works let handle = self.handle.lock().take(); if let Some(handle) = handle { let _ = self.stop(); info!("waiting for the app to stop..."); handle.await.unwrap().unwrap(); } } } impl Drop for TestApp { fn drop(&mut self) { let _ = self.stop(); // TODO: do we care about waiting for it to stop? it will slow our tests down so we probably only care about waiting in some tests } }