use std::{format, time::Duration}; use clap::Parser; use futures_util::{pin_mut, StreamExt}; use log::info; use tokio::{ io::{stdout, AsyncWriteExt}, time::sleep, }; use tokio_tungstenite::connect_async; mod clash_conn_msg; mod statistics; mod udp_server; mod wan; use wan::poll_wan_traffic; #[derive(Parser, Debug)] #[clap( version = "0.1.0", author = "Ivan Li", about = "Watch Clash network traffic" )] struct Args { #[clap( short, env, long, default_value = "ws://192.168.1.1:9090/connections?token=123456" )] clash_url: String, #[clap(short = 'p', long, env, default_value = "17890")] listen_port: u16, #[clap(short, long, env, default_value = "http://192.168.1.1/cgi-bin/luci")] luci_url: String, #[clap(short = 'u', long, env, default_value = "root")] luci_username: String, #[clap(short = 'P', long, env, default_value = "123456")] luci_password: String, } #[tokio::main] async fn main() { dotenvy::dotenv().ok(); env_logger::init(); println!("Hello, world!"); let args = Args::parse(); tokio::spawn(async move { poll_wan_traffic( args.luci_url.as_str(), args.luci_username.as_str(), args.luci_password.as_str(), ) .await .unwrap(); }); let connect_addr = args.clash_url; loop { pipe(connect_addr.clone()).await; sleep(Duration::from_secs(1)).await; info!("restart!"); } } async fn pipe(connect_addr: String) { let url = url::Url::parse(&connect_addr).unwrap(); let (ws_stream, _) = connect_async(url).await.expect("Failed to connect"); println!("WebSocket handshake has been successfully completed"); let (_, read) = ws_stream.split(); let ws_to_stdout = { read.for_each(|message| async { let data = message.unwrap().into_data(); let wrapper = serde_json::from_slice::(&data); if let Err(err) = wrapper { stdout() .write_all(format!("Error: {}\n", err).as_bytes()) .await .unwrap(); return; } let wrapper = wrapper.unwrap(); let statistics_manager = statistics::StatisticsManager::global().await; statistics_manager.update(&wrapper).await; let state = statistics_manager.get_state().await; // stdout() // .write_all( // format!( // "len: {},speed_upload: {}, speed_download: {}, update_direct_speed: {}, download_direct_speed: {}, update_proxy_speed: {}, download_proxy_speed: {}\n", // state.connections, // state.speed_upload, // state.speed_download, // state.direct_upload_speed, // state.direct_download_speed, // state.proxy_upload_speed, // state.proxy_download_speed, // ) // .as_bytes(), // ) // .await // .unwrap(); let udp_server = udp_server::UdpServer::global().await; let mut buf = [0; 32]; buf[0..8].copy_from_slice(&state.direct_upload_speed.to_le_bytes()); buf[8..16].copy_from_slice(&state.direct_download_speed.to_le_bytes()); buf[16..24].copy_from_slice(&state.proxy_upload_speed.to_le_bytes()); buf[24..32].copy_from_slice(&state.proxy_download_speed.to_le_bytes()); udp_server.publish_clash(&buf).await; }) }; pin_mut!(ws_to_stdout); ws_to_stdout.await; }