watchexec/src/process.rs
2017-04-02 21:21:30 +02:00

275 lines
8.1 KiB
Rust

use std::path::PathBuf;
pub fn spawn(cmd: &str, updated_paths: Vec<PathBuf>) -> Process {
self::imp::Process::new(cmd, updated_paths).expect("unable to spawn process")
}
pub use self::imp::Process;
#[cfg(target_family = "unix")]
mod imp {
use libc::*;
use std::io::Result;
use std::path::PathBuf;
use std::process::Command;
use std::sync::*;
use signal::Signal;
pub struct Process {
pgid: pid_t,
lock: Mutex<bool>,
cvar: Condvar,
}
#[allow(unknown_lints)]
#[allow(mutex_atomic)]
impl Process {
pub fn new(cmd: &str, updated_paths: Vec<PathBuf>) -> Result<Process> {
use nix::unistd::*;
use std::io;
use std::os::unix::process::CommandExt;
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);
}
// Until process_exec lands in stable, handle fork/exec ourselves
command
.before_exec(|| setpgid(0, 0).map_err(io::Error::from))
.spawn()
.and_then(|p| {
Ok(Process {
pgid: p.id() as i32,
lock: Mutex::new(false),
cvar: Condvar::new(),
})
})
}
pub fn reap(&self) {
use nix::sys::wait::*;
let mut finished = true;
loop {
match waitpid(-self.pgid, Some(WNOHANG)) {
Ok(WaitStatus::Exited(_, _)) |
Ok(WaitStatus::Signaled(_, _, _)) => finished = finished && true,
Ok(_) => {
finished = false;
break;
}
Err(_) => break,
}
}
if finished {
let mut done = self.lock.lock().unwrap();
*done = true;
self.cvar.notify_one();
}
}
pub fn signal(&self, signal: Signal) {
use signal::ConvertToLibc;
let signo = signal.convert_to_libc();
debug!("Sending {:?} (int: {}) to child process", signal, signo);
self.c_signal(signo);
}
fn c_signal(&self, sig: c_int) {
extern "C" {
fn killpg(pgrp: pid_t, sig: c_int) -> c_int;
}
unsafe {
killpg(self.pgid, sig);
}
}
pub fn wait(&self) {
let mut done = self.lock.lock().unwrap();
while !*done {
done = self.cvar.wait(done).unwrap();
}
}
}
}
#[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::*;
use signal::Signal;
pub struct Process {
job: HANDLE,
}
impl Process {
pub fn new(cmd: &str, updated_paths: Vec<PathBuf>) -> Result<Process> {
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 })
})
}
pub fn reap(&self) {}
pub fn signal(&self, signal: Signal) {
debug!("Ignoring signal {:?} (not supported by Windows)", signal);
unsafe {
let _ = TerminateJobObject(self.job, 1);
}
}
pub fn wait(&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 {}
unsafe impl Sync for 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<String> {
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::PathBuf;
use super::spawn;
use super::get_longest_common_path;
#[test]
fn test_start() {
let _ = spawn("echo hi", vec![]);
}
#[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");
}
}