#![allow(dead_code)] #[cfg(test)] mod tests; use std::net::SocketAddr; use anyhow::Context; use clap::Parser; mod arch; mod common; mod connector; mod gateway; mod instance; mod peer_center; mod peers; mod rpc; mod tunnels; mod vpn_portal; use common::{ config::{ConsoleLoggerConfig, FileLoggerConfig, NetworkIdentity, PeerConfig, VpnPortalConfig}, get_logger_timer_rfc3339, }; use instance::instance::Instance; use tracing::level_filters::LevelFilter; use tracing_subscriber::{layer::SubscriberExt, util::SubscriberInitExt, EnvFilter, Layer}; use crate::common::{ config::{ConfigLoader, TomlConfigLoader}, global_ctx::GlobalCtxEvent, }; #[derive(Parser, Debug)] #[command(author, version, about, long_about = None)] struct Cli { #[arg( long, help = "network name to identify this vpn network", default_value = "default" )] network_name: String, #[arg( long, help = "network secret to verify this node belongs to the vpn network", default_value = "" )] network_secret: String, #[arg(short, long, help = "ipv4 address of this vpn node")] ipv4: Option, #[arg(short, long, help = "peers to connect initially")] peers: Vec, #[arg(short, long, help = "use a public shared node to discover peers")] external_node: Option, #[arg( short = 'n', long, help = "export local networks to other peers in the vpn" )] proxy_networks: Vec, #[arg( short, long, default_value = "127.0.0.1:15888", help = "rpc portal address to listen for management" )] rpc_portal: SocketAddr, #[arg(short, long, help = "listeners to accept connections, pass '' to avoid listening.", default_values_t = ["tcp://0.0.0.0:11010".to_string(), "udp://0.0.0.0:11010".to_string(), "wg://0.0.0.0:11011".to_string()])] listeners: Vec, /// specify the linux network namespace, default is the root namespace #[arg(long)] net_ns: Option, #[arg(long, help = "console log level", value_parser = clap::builder::PossibleValuesParser::new(["trace", "debug", "info", "warn", "error", "off"]))] console_log_level: Option, #[arg(long, help = "file log level", value_parser = clap::builder::PossibleValuesParser::new(["trace", "debug", "info", "warn", "error", "off"]))] file_log_level: Option, #[arg(long, help = "directory to store log files")] file_log_dir: Option, #[arg( short = 'm', long, default_value = "default", help = "instance name to identify this vpn node in same machine" )] instance_name: String, #[arg( short = 'd', long, help = "instance uuid to identify this vpn node in whole vpn network example: 123e4567-e89b-12d3-a456-426614174000" )] instance_id: Option, #[arg( long, help = "url that defines the vpn portal, allow other vpn clients to connect. example: wg://0.0.0.0:11010/10.14.14.0/24, means the vpn portal is a wireguard server listening on vpn.example.com:11010, and the vpn client is in network of 10.14.14.0/24" )] vpn_portal: Option, } impl From for TomlConfigLoader { fn from(cli: Cli) -> Self { let cfg = TomlConfigLoader::default(); cfg.set_inst_name(cli.instance_name.clone()); cfg.set_network_identity(NetworkIdentity { network_name: cli.network_name.clone(), network_secret: cli.network_secret.clone(), }); cfg.set_netns(cli.net_ns.clone()); if let Some(ipv4) = &cli.ipv4 { cfg.set_ipv4( ipv4.parse() .with_context(|| format!("failed to parse ipv4 address: {}", ipv4)) .unwrap(), ) } cfg.set_peers( cli.peers .iter() .map(|s| PeerConfig { uri: s .parse() .with_context(|| format!("failed to parse peer uri: {}", s)) .unwrap(), }) .collect(), ); cfg.set_listeners( cli.listeners .iter() .filter_map(|s| { if s.is_empty() { return None; } Some( s.parse() .with_context(|| format!("failed to parse listener uri: {}", s)) .unwrap(), ) }) .collect(), ); for n in cli.proxy_networks.iter() { cfg.add_proxy_cidr( n.parse() .with_context(|| format!("failed to parse proxy network: {}", n)) .unwrap(), ); } cfg.set_rpc_portal(cli.rpc_portal); if cli.external_node.is_some() { let mut old_peers = cfg.get_peers(); old_peers.push(PeerConfig { uri: cli .external_node .clone() .unwrap() .parse() .with_context(|| { format!( "failed to parse external node uri: {}", cli.external_node.unwrap() ) }) .unwrap(), }); cfg.set_peers(old_peers); } if cli.console_log_level.is_some() { cfg.set_console_logger_config(ConsoleLoggerConfig { level: cli.console_log_level.clone(), }); } if cli.file_log_dir.is_some() || cli.file_log_level.is_some() { cfg.set_file_logger_config(FileLoggerConfig { level: cli.file_log_level.clone(), dir: cli.file_log_dir.clone(), file: Some(format!("easytier-{}", cli.instance_name)), }); } if cli.vpn_portal.is_some() { let url: url::Url = cli .vpn_portal .clone() .unwrap() .parse() .with_context(|| { format!( "failed to parse vpn portal url: {}", cli.vpn_portal.unwrap() ) }) .unwrap(); cfg.set_vpn_portal_config(VpnPortalConfig { client_cidr: url.path()[1..] .parse() .with_context(|| { format!("failed to parse vpn portal client cidr: {}", url.path()) }) .unwrap(), wireguard_listen: format!("{}:{}", url.host_str().unwrap(), url.port().unwrap()) .parse() .with_context(|| { format!( "failed to parse vpn portal wireguard listen address: {}", url.host_str().unwrap() ) }) .unwrap(), }); } cfg } } fn init_logger(config: impl ConfigLoader) { let file_config = config.get_file_logger_config(); let file_level = file_config .level .map(|s| s.parse().unwrap()) .unwrap_or(LevelFilter::OFF); // logger to rolling file let mut file_layer = None; if file_level != LevelFilter::OFF { let mut l = tracing_subscriber::fmt::layer(); l.set_ansi(false); let file_filter = EnvFilter::builder() .with_default_directive(file_level.into()) .from_env() .unwrap(); let file_appender = tracing_appender::rolling::Builder::new() .rotation(tracing_appender::rolling::Rotation::DAILY) .max_log_files(5) .filename_prefix(file_config.file.unwrap_or("easytier".to_string())) .build(file_config.dir.unwrap_or("./".to_string())) .expect("failed to initialize rolling file appender"); file_layer = Some( l.with_writer(file_appender) .with_timer(get_logger_timer_rfc3339()) .with_filter(file_filter), ); } // logger to console let console_config = config.get_console_logger_config(); let console_level = console_config .level .map(|s| s.parse().unwrap()) .unwrap_or(LevelFilter::OFF); let console_filter = EnvFilter::builder() .with_default_directive(console_level.into()) .from_env() .unwrap(); let console_layer = tracing_subscriber::fmt::layer() .pretty() .with_timer(get_logger_timer_rfc3339()) .with_writer(std::io::stderr) .with_filter(console_filter); tracing_subscriber::Registry::default() .with(console_layer) .with(file_layer) .init(); } fn print_event(msg: String) { println!( "{}: {}", chrono::Local::now().format("%Y-%m-%d %H:%M:%S"), msg ); } fn peer_conn_info_to_string(p: crate::rpc::PeerConnInfo) -> String { format!( "my_peer_id: {}, dst_peer_id: {}, tunnel_info: {:?}", p.my_peer_id, p.peer_id, p.tunnel ) } #[tokio::main(flavor = "current_thread")] #[tracing::instrument] pub async fn main() { let cli = Cli::parse(); tracing::info!(cli = ?cli, "cli args parsed"); let cfg: TomlConfigLoader = cli.into(); init_logger(&cfg); let mut inst = Instance::new(cfg.clone()); let mut events = inst.get_global_ctx().subscribe(); tokio::spawn(async move { while let Ok(e) = events.recv().await { match e { GlobalCtxEvent::PeerAdded(p) => { print_event(format!("new peer added. peer_id: {}", p)); } GlobalCtxEvent::PeerRemoved(p) => { print_event(format!("peer removed. peer_id: {}", p)); } GlobalCtxEvent::PeerConnAdded(p) => { print_event(format!( "new peer connection added. conn_info: {}", peer_conn_info_to_string(p) )); } GlobalCtxEvent::PeerConnRemoved(p) => { print_event(format!( "peer connection removed. conn_info: {}", peer_conn_info_to_string(p) )); } GlobalCtxEvent::ListenerAdded(p) => { if p.scheme() == "ring" { continue; } print_event(format!("new listener added. listener: {}", p)); } GlobalCtxEvent::ConnectionAccepted(local, remote) => { print_event(format!( "new connection accepted. local: {}, remote: {}", local, remote )); } GlobalCtxEvent::ConnectionError(local, remote, err) => { print_event(format!( "connection error. local: {}, remote: {}, err: {}", local, remote, err )); } GlobalCtxEvent::TunDeviceReady(dev) => { print_event(format!("tun device ready. dev: {}", dev)); } GlobalCtxEvent::Connecting(dst) => { print_event(format!("connecting to peer. dst: {}", dst)); } GlobalCtxEvent::ConnectError(dst, err) => { print_event(format!("connect to peer error. dst: {}, err: {}", dst, err)); } GlobalCtxEvent::VpnPortalClientConnected(portal, client_addr) => { print_event(format!( "vpn portal client connected. portal: {}, client_addr: {}", portal, client_addr )); } GlobalCtxEvent::VpnPortalClientDisconnected(portal, client_addr) => { print_event(format!( "vpn portal client disconnected. portal: {}, client_addr: {}", portal, client_addr )); } } } }); println!("Starting easytier with config:"); println!("############### TOML ##############\n"); println!("{}", cfg.dump()); println!("-----------------------------------"); inst.run().await.unwrap(); inst.wait().await; }