// Copyright 2012-2013-2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. // ignore-pretty // compile-flags:--test // NB: These tests kill child processes. Valgrind sees these children as leaking // memory, which makes for some *confusing* logs. That's why these are here // instead of in std. #![feature(macro_rules)] #![reexport_test_harness_main = "test_main"] extern crate libc; extern crate native; extern crate green; extern crate rustuv; use std::io::{Process, Command}; use std::time::Duration; macro_rules! succeed( ($e:expr) => ( match $e { Ok(..) => {}, Err(e) => fail!("failure: {}", e) } ) ) macro_rules! iotest ( { fn $name:ident() $b:block $($a:attr)* } => ( mod $name { #![allow(unused_imports)] use std::io::timer; use libc; use std::str; use std::io::process::Command; use native; use super::{sleeper, test_destroy_actually_kills}; fn f() $b $($a)* #[test] fn green() { f() } $($a)* #[test] fn native() { use native; let (tx, rx) = channel(); native::task::spawn(proc() { tx.send(f()) }); rx.recv(); } } ) ) #[cfg(test)] #[start] fn start(argc: int, argv: *const *const u8) -> int { green::start(argc, argv, rustuv::event_loop, test_main) } iotest!(fn test_destroy_once() { let mut p = sleeper(); match p.signal_exit() { Ok(()) => {} Err(e) => fail!("error: {}", e), } }) #[cfg(unix)] pub fn sleeper() -> Process { Command::new("sleep").arg("1000").spawn().unwrap() } #[cfg(windows)] pub fn sleeper() -> Process { // There's a `timeout` command on windows, but it doesn't like having // its output piped, so instead just ping ourselves a few times with // gaps in between so we're sure this process is alive for awhile Command::new("ping").arg("127.0.0.1").arg("-n").arg("1000").spawn().unwrap() } iotest!(fn test_destroy_twice() { let mut p = sleeper(); succeed!(p.signal_exit()); // this shouldnt crash... let _ = p.signal_exit(); // ...and nor should this (and nor should the destructor) }) pub fn test_destroy_actually_kills(force: bool) { use std::io::process::{Command, ProcessOutput, ExitStatus, ExitSignal}; use std::io::timer; use libc; use std::str; #[cfg(unix,not(target_os="android"))] static BLOCK_COMMAND: &'static str = "cat"; #[cfg(unix,target_os="android")] static BLOCK_COMMAND: &'static str = "/system/bin/cat"; #[cfg(windows)] static BLOCK_COMMAND: &'static str = "cmd"; // this process will stay alive indefinitely trying to read from stdin let mut p = Command::new(BLOCK_COMMAND).spawn().unwrap(); assert!(p.signal(0).is_ok()); if force { p.signal_kill().unwrap(); } else { p.signal_exit().unwrap(); } // Don't let this test time out, this should be quick let (tx, rx1) = channel(); let mut t = timer::Timer::new().unwrap(); let rx2 = t.oneshot(Duration::milliseconds(1000)); spawn(proc() { select! { () = rx2.recv() => unsafe { libc::exit(1) }, () = rx1.recv() => {} } }); match p.wait().unwrap() { ExitStatus(..) => fail!("expected a signal"), ExitSignal(..) => tx.send(()), } } iotest!(fn test_unforced_destroy_actually_kills() { test_destroy_actually_kills(false); }) iotest!(fn test_forced_destroy_actually_kills() { test_destroy_actually_kills(true); })