use std::net::{Ipv4Addr, SocketAddr}; use std::time::Duration; use std::sync::Once; use std::process::Stdio; use std::io::Read; use rocket::fairing::AdHoc; use rocket::listener::{Bind, DefaultListener}; use rocket::serde::{Deserialize, DeserializeOwned, Serialize}; use rocket::{Build, Ignite, Rocket}; use ipc_channel::ipc::{IpcOneShotServer, IpcReceiver, IpcSender}; use crate::{Result, Error}; #[derive(Debug)] pub struct Server { proc: procspawn::JoinHandle, pub tls: bool, pub port: u16, _rx: IpcReceiver, } #[derive(Debug, Serialize, Deserialize)] #[serde(crate = "rocket::serde")] pub enum Message { Liftoff(bool, u16), Failure, } #[derive(Serialize, Deserialize)] #[serde(crate = "rocket::serde")] pub struct Token(String); #[derive(Serialize, Deserialize)] #[serde(crate = "rocket::serde")] pub struct Launched(()); fn stdio() -> Stdio { std::env::var_os("NOCAPTURE") .map(|_| Stdio::inherit()) .unwrap_or_else(Stdio::piped) } fn read(io: Option) -> Result { if let Some(mut io) = io { let mut string = String::new(); io.read_to_string(&mut string)?; return Ok(string); } Ok(String::new()) } impl Server { pub fn spawn(ctxt: T, f: fn((Token, T)) -> Launched) -> Result where T: Serialize + DeserializeOwned { static INIT: Once = Once::new(); INIT.call_once(procspawn::init); let (ipc, server) = IpcOneShotServer::new()?; let mut proc = procspawn::Builder::new() .stdin(Stdio::null()) .stdout(stdio()) .stderr(stdio()) .spawn((Token(server), ctxt), f); let (rx, _) = ipc.accept().unwrap(); match rx.recv()? { Message::Liftoff(tls, port) => { Ok(Server { proc, tls, port, _rx: rx }) }, Message::Failure => { Err(Error::Liftoff(read(proc.stdout())?, read(proc.stderr())?)) } } } pub fn socket_addr(&self) -> SocketAddr { let ip = Ipv4Addr::LOCALHOST; SocketAddr::new(ip.into(), self.port) } pub fn read_stdout(&mut self) -> Result { read(self.proc.stdout()) } pub fn read_stderr(&mut self) -> Result { read(self.proc.stderr()) } pub fn kill(&mut self) -> Result<()> { Ok(self.proc.kill()?) } pub fn terminate(&mut self) -> Result<()> { use nix::{sys::signal, unistd::Pid}; let pid = Pid::from_raw(self.proc.pid().unwrap() as i32); Ok(signal::kill(pid, signal::SIGTERM)?) } pub fn join(&mut self, duration: Duration) -> Result<()> { match self.proc.join_timeout(duration) { Ok(_) => Ok(()), Err(e) if e.is_remote_close() => Ok(()), Err(e) => Err(e.into()), } } } impl Token { pub fn launch_with(self, rocket: Rocket) -> Launched where B: for<'r> Bind<&'r Rocket> + Sync + Send + 'static { let server = self.0.clone(); let rocket = rocket.attach(AdHoc::on_liftoff("Liftoff", move |rocket| Box::pin(async move { let tcp = rocket.endpoints().find_map(|e| e.tcp()).unwrap(); let tls = rocket.endpoints().any(|e| e.is_tls()); let sender = IpcSender::::connect(server).unwrap(); let _ = sender.send(Message::Liftoff(tls, tcp.port())); let _ = sender.send(Message::Liftoff(tls, tcp.port())); }))); let server = self.0.clone(); if let Err(e) = rocket::execute(rocket.launch_with::()) { let sender = IpcSender::::connect(server).unwrap(); let _ = sender.send(Message::Failure); let _ = sender.send(Message::Failure); e.pretty_print(); std::process::exit(1); } Launched(()) } pub fn launch(self, rocket: Rocket) -> Launched { self.launch_with::(rocket) } } impl Drop for Server { fn drop(&mut self) { let _ = self.terminate(); if self.join(Duration::from_secs(3)).is_err() { let _ = self.kill(); } } } #[macro_export] macro_rules! spawn { ($($arg:ident : $t:ty),* => $rocket:block) => {{ #[allow(unused_parens)] fn _server((token, $($arg),*): ($crate::Token, $($t),*)) -> $crate::Launched { let rocket: rocket::Rocket = $rocket; token.launch(rocket) } Server::spawn(($($arg),*), _server) }}; ($($token:tt)*) => {{ let _unit = (); spawn!(_unit: () => { $($token)* } ) }}; }