use std::path::PathBuf; use std::sync::mpsc::{channel, Receiver, Sender}; use std::thread; pub use self::imp::*; #[cfg(target_family = "unix")] mod imp { use std::io::Result; use std::path::PathBuf; use std::process::Command; pub struct Process { pid: i32, killed: bool, } impl Process { pub fn new(cmd: &str, updated_paths: Vec) -> Result { use std::io; use std::os::unix::process::CommandExt; use nix::unistd::setpgid; let mut command = Command::new("sh"); command.arg("-c").arg(cmd); if let Some(single_path) = super::get_single_updated_path(&updated_paths) { command.env("WATCHEXEC_UPDATED_PATH", single_path); } if let Some(common_path) = super::get_longest_common_path(&updated_paths) { command.env("WATCHEXEC_COMMON_PATH", common_path); } command.before_exec(|| setpgid(0, 0).map_err(io::Error::from)) .spawn() .and_then(|p| { Ok(Process { pid: p.id() as i32, killed: false, }) }) } pub fn kill(&mut self) { use libc; if self.killed { return; } extern "C" { fn killpg(pgrp: libc::pid_t, sig: libc::c_int) -> libc::c_int; } unsafe { killpg(self.pid, libc::SIGTERM); } self.killed = true; } pub fn wait(&mut self) { use nix::sys::wait::waitpid; let _ = waitpid(-self.pid, None); } } impl Drop for Process { fn drop(&mut self) { self.kill(); } } } #[cfg(target_family = "windows")] mod imp { use std::io; use std::io::Result; use std::mem; use std::path::PathBuf; use std::process::Command; use kernel32::*; use winapi::*; pub struct Process { job: HANDLE, killed: bool, } impl Process { pub fn new(cmd: &str, updated_paths: Vec) -> Result { use std::os::windows::io::IntoRawHandle; fn last_err() -> io::Error { io::Error::last_os_error() } let job = unsafe { CreateJobObjectW(0 as *mut _, 0 as *const _) }; if job.is_null() { panic!("failed to create job object: {}", last_err()); } let mut info: JOBOBJECT_EXTENDED_LIMIT_INFORMATION = unsafe { mem::zeroed() }; info.BasicLimitInformation.LimitFlags = JOB_OBJECT_LIMIT_KILL_ON_JOB_CLOSE; let r = unsafe { SetInformationJobObject(job, JobObjectExtendedLimitInformation, &mut info as *mut _ as LPVOID, mem::size_of_val(&info) as DWORD) }; if r == 0 { panic!("failed to set job info: {}", last_err()); } let mut command = Command::new("cmd.exe"); command.arg("/C").arg(cmd); if let Some(single_path) = super::get_single_updated_path(&updated_paths) { command.env("WATCHEXEC_UPDATED_PATH", single_path); } if let Some(common_path) = super::get_longest_common_path(&updated_paths) { command.env("WATCHEXEC_COMMON_PATH", common_path); } command.spawn() .and_then(|p| { let r = unsafe { AssignProcessToJobObject(job, p.into_raw_handle()) }; if r == 0 { panic!("failed to add to job object: {}", last_err()); } Ok(Process { job: job, killed: false, }) }) } pub fn kill(&mut self) { if self.killed { return; } unsafe { let _ = TerminateJobObject(self.job, 1); } self.killed = true; } pub fn wait(&mut self) { unsafe { let _ = WaitForSingleObject(self.job, INFINITE); } } } impl Drop for Process { fn drop(&mut self) { unsafe { let _ = CloseHandle(self.job); } } } unsafe impl Send for Process {} } /// Watches for child process death, notifying callers via a channel. /// /// On Windows, we don't have SIGCHLD, and even if we did, we'd still need /// to relay that over a channel. pub struct ProcessReaper { processes_tx: Sender, } impl ProcessReaper { pub fn new(tx: Sender<()>) -> ProcessReaper { let (processes_tx, processes_rx): (Sender, Receiver) = channel(); thread::spawn(move || { loop { while let Ok(mut process) = processes_rx.recv() { process.wait(); let _ = tx.send(()); } } }); ProcessReaper { processes_tx: processes_tx } } pub fn wait_process(&self, process: imp::Process) { let _ = self.processes_tx.send(process); } } fn get_single_updated_path(paths: &[PathBuf]) -> Option<&str> { paths.get(0).and_then(|p| p.to_str()) } fn get_longest_common_path(paths: &[PathBuf]) -> Option { match paths.len() { 0 => return None, 1 => return paths[0].to_str().map(|ref_val| ref_val.to_string()), _ => {} }; let mut longest_path: Vec<_> = paths[0].components().collect(); for path in &paths[1..] { let mut greatest_distance = 0; for component_pair in path.components().zip(longest_path.iter()) { if component_pair.0 != *component_pair.1 { break; } greatest_distance += 1; } if greatest_distance != longest_path.len() { longest_path.truncate(greatest_distance); } } let mut result = PathBuf::new(); for component in longest_path { result.push(component.as_os_str()); } result.to_str().map(|ref_val| ref_val.to_string()) } #[cfg(test)] #[cfg(target_family = "unix")] mod tests { use std::path::{Path, PathBuf}; use std::thread; use std::time::Duration; use mktemp::Temp; use super::imp::Process; use super::get_longest_common_path; fn file_contents(path: &Path) -> String { use std::fs::File; use std::io::Read; let mut f = File::open(path).unwrap(); let mut s = String::new(); f.read_to_string(&mut s).unwrap(); s } #[test] fn test_start() { let process = Process::new("echo hi", vec![]); assert!(process.is_ok()); } #[test] fn test_wait() { let file = Temp::new_file().unwrap(); let path = file.to_path_buf(); let mut process = Process::new(&format!("echo hi > {}", path.to_str().unwrap()), vec![]) .unwrap(); process.wait(); assert!(file_contents(&path).starts_with("hi")); } #[test] fn test_kill() { let file = Temp::new_file().unwrap(); let path = file.to_path_buf(); let mut process = Process::new(&format!("sleep 20; echo hi > {}", path.to_str().unwrap()), vec![]) .unwrap(); thread::sleep(Duration::from_millis(250)); process.kill(); process.wait(); assert!(file_contents(&path) == ""); } #[test] fn longest_common_path_should_return_correct_value() { let single_path = vec![PathBuf::from("/tmp/random/")]; let single_result = get_longest_common_path(&single_path).unwrap(); assert_eq!(single_result, "/tmp/random/"); let common_paths = vec![PathBuf::from("/tmp/logs/hi"), PathBuf::from("/tmp/logs/bye"), PathBuf::from("/tmp/logs/bye"), PathBuf::from("/tmp/logs/fly")]; let common_result = get_longest_common_path(&common_paths).unwrap(); assert_eq!(common_result, "/tmp/logs"); let diverging_paths = vec![PathBuf::from("/tmp/logs/hi"), PathBuf::from("/var/logs/hi")]; let diverging_result = get_longest_common_path(&diverging_paths).unwrap(); assert_eq!(diverging_result, "/"); let uneven_paths = vec![PathBuf::from("/tmp/logs/hi"), PathBuf::from("/tmp/logs/"), PathBuf::from("/tmp/logs/bye")]; let uneven_result = get_longest_common_path(&uneven_paths).unwrap(); assert_eq!(uneven_result, "/tmp/logs"); } }