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// Copyright 2013 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use libc::c_int;
use libc;
use std::ptr;
use std::c_str::CString;
use std::rt::rtio;
use std::rt::rtio::IoResult;
use std::rt::task::BlockedTask;
use homing::{HomingIO, HomeHandle};
use pipe::PipeWatcher;
use super::{UvHandle, UvError, uv_error_to_io_error,
wait_until_woken_after, wakeup, Loop};
use timer::TimerWatcher;
use uvio::UvIoFactory;
use uvll;
pub struct Process {
handle: *uvll::uv_process_t,
home: HomeHandle,
/// Task to wake up (may be null) for when the process exits
to_wake: Option<BlockedTask>,
/// Collected from the exit_cb
exit_status: Option<rtio::ProcessExit>,
/// Lazily initialized timeout timer
timer: Option<Box<TimerWatcher>>,
timeout_state: TimeoutState,
}
enum TimeoutState {
NoTimeout,
TimeoutPending,
TimeoutElapsed,
}
impl Process {
/// Spawn a new process inside the specified event loop.
///
/// Returns either the corresponding process object or an error which
/// occurred.
pub fn spawn(io_loop: &mut UvIoFactory, cfg: rtio::ProcessConfig)
-> Result<(Box<Process>, Vec<Option<PipeWatcher>>), UvError> {
let mut io = vec![cfg.stdin, cfg.stdout, cfg.stderr];
for slot in cfg.extra_io.iter() {
io.push(*slot);
}
let mut stdio = Vec::<uvll::uv_stdio_container_t>::with_capacity(io.len());
let mut ret_io = Vec::with_capacity(io.len());
unsafe {
stdio.set_len(io.len());
for (slot, other) in stdio.iter().zip(io.iter()) {
let io = set_stdio(slot as *uvll::uv_stdio_container_t, other,
io_loop);
ret_io.push(io);
}
}
let ret = with_argv(cfg.program, cfg.args, |argv| {
with_env(cfg.env, |envp| {
let mut flags = 0;
if cfg.uid.is_some() {
flags |= uvll::PROCESS_SETUID;
}
if cfg.gid.is_some() {
flags |= uvll::PROCESS_SETGID;
}
if cfg.detach {
flags |= uvll::PROCESS_DETACHED;
}
let options = uvll::uv_process_options_t {
exit_cb: on_exit,
file: unsafe { *argv },
args: argv,
env: envp,
cwd: match cfg.cwd {
Some(cwd) => cwd.with_ref(|p| p),
None => ptr::null(),
},
flags: flags as libc::c_uint,
stdio_count: stdio.len() as libc::c_int,
stdio: stdio.as_ptr(),
uid: cfg.uid.unwrap_or(0) as uvll::uv_uid_t,
gid: cfg.gid.unwrap_or(0) as uvll::uv_gid_t,
};
let handle = UvHandle::alloc(None::<Process>, uvll::UV_PROCESS);
let process = box Process {
handle: handle,
home: io_loop.make_handle(),
to_wake: None,
exit_status: None,
timer: None,
timeout_state: NoTimeout,
};
match unsafe {
uvll::uv_spawn(io_loop.uv_loop(), handle, &options)
} {
0 => Ok(process.install()),
err => Err(UvError(err)),
}
})
});
match ret {
Ok(p) => Ok((p, ret_io)),
Err(e) => Err(e),
}
}
pub fn kill(pid: libc::pid_t, signum: int) -> Result<(), UvError> {
match unsafe {
uvll::uv_kill(pid as libc::c_int, signum as libc::c_int)
} {
0 => Ok(()),
n => Err(UvError(n))
}
}
}
extern fn on_exit(handle: *uvll::uv_process_t,
exit_status: i64,
term_signal: libc::c_int) {
let p: &mut Process = unsafe { UvHandle::from_uv_handle(&handle) };
assert!(p.exit_status.is_none());
p.exit_status = Some(match term_signal {
0 => rtio::ExitStatus(exit_status as int),
n => rtio::ExitSignal(n as int),
});
if p.to_wake.is_none() { return }
wakeup(&mut p.to_wake);
}
unsafe fn set_stdio(dst: *uvll::uv_stdio_container_t,
io: &rtio::StdioContainer,
io_loop: &mut UvIoFactory) -> Option<PipeWatcher> {
match *io {
rtio::Ignored => {
uvll::set_stdio_container_flags(dst, uvll::STDIO_IGNORE);
None
}
rtio::InheritFd(fd) => {
uvll::set_stdio_container_flags(dst, uvll::STDIO_INHERIT_FD);
uvll::set_stdio_container_fd(dst, fd);
None
}
rtio::CreatePipe(readable, writable) => {
let mut flags = uvll::STDIO_CREATE_PIPE as libc::c_int;
if readable {
flags |= uvll::STDIO_READABLE_PIPE as libc::c_int;
}
if writable {
flags |= uvll::STDIO_WRITABLE_PIPE as libc::c_int;
}
let pipe = PipeWatcher::new(io_loop, false);
uvll::set_stdio_container_flags(dst, flags);
uvll::set_stdio_container_stream(dst, pipe.handle());
Some(pipe)
}
}
}
/// Converts the program and arguments to the argv array expected by libuv.
fn with_argv<T>(prog: &CString, args: &[CString], cb: |**libc::c_char| -> T) -> T {
let mut ptrs: Vec<*libc::c_char> = Vec::with_capacity(args.len()+1);
// Convert the CStrings into an array of pointers. Note: the
// lifetime of the various CStrings involved is guaranteed to be
// larger than the lifetime of our invocation of cb, but this is
// technically unsafe as the callback could leak these pointers
// out of our scope.
ptrs.push(prog.with_ref(|buf| buf));
ptrs.extend(args.iter().map(|tmp| tmp.with_ref(|buf| buf)));
// Add a terminating null pointer (required by libc).
ptrs.push(ptr::null());
cb(ptrs.as_ptr())
}
/// Converts the environment to the env array expected by libuv
fn with_env<T>(env: Option<&[(CString, CString)]>, cb: |**libc::c_char| -> T) -> T {
// We can pass a char** for envp, which is a null-terminated array
// of "k=v\0" strings. Since we must create these strings locally,
// yet expose a raw pointer to them, we create a temporary vector
// to own the CStrings that outlives the call to cb.
match env {
Some(env) => {
let mut tmps = Vec::with_capacity(env.len());
for pair in env.iter() {
let mut kv = Vec::new();
kv.push_all(pair.ref0().as_bytes_no_nul());
kv.push('=' as u8);
kv.push_all(pair.ref1().as_bytes()); // includes terminal \0
tmps.push(kv);
}
// As with `with_argv`, this is unsafe, since cb could leak the pointers.
let mut ptrs: Vec<*libc::c_char> =
tmps.iter()
.map(|tmp| tmp.as_ptr() as *libc::c_char)
.collect();
ptrs.push(ptr::null());
cb(ptrs.as_ptr())
}
_ => cb(ptr::null())
}
}
impl HomingIO for Process {
fn home<'r>(&'r mut self) -> &'r mut HomeHandle { &mut self.home }
}
impl UvHandle<uvll::uv_process_t> for Process {
fn uv_handle(&self) -> *uvll::uv_process_t { self.handle }
}
impl rtio::RtioProcess for Process {
fn id(&self) -> libc::pid_t {
unsafe { uvll::process_pid(self.handle) as libc::pid_t }
}
fn kill(&mut self, signal: int) -> IoResult<()> {
let _m = self.fire_homing_missile();
match unsafe {
uvll::uv_process_kill(self.handle, signal as libc::c_int)
} {
0 => Ok(()),
err => Err(uv_error_to_io_error(UvError(err)))
}
}
fn wait(&mut self) -> IoResult<rtio::ProcessExit> {
// Make sure (on the home scheduler) that we have an exit status listed
let _m = self.fire_homing_missile();
match self.exit_status {
Some(status) => return Ok(status),
None => {}
}
// If there's no exit code previously listed, then the process's exit
// callback has yet to be invoked. We just need to deschedule ourselves
// and wait to be reawoken.
match self.timeout_state {
NoTimeout | TimeoutPending => {
wait_until_woken_after(&mut self.to_wake, &self.uv_loop(), || {});
}
TimeoutElapsed => {}
}
// If there's still no exit status listed, then we timed out, and we
// need to return.
match self.exit_status {
Some(status) => Ok(status),
None => Err(uv_error_to_io_error(UvError(uvll::ECANCELED)))
}
}
fn set_timeout(&mut self, timeout: Option<u64>) {
let _m = self.fire_homing_missile();
self.timeout_state = NoTimeout;
let ms = match timeout {
Some(ms) => ms,
None => {
match self.timer {
Some(ref mut timer) => timer.stop(),
None => {}
}
return
}
};
if self.timer.is_none() {
let loop_ = Loop::wrap(unsafe {
uvll::get_loop_for_uv_handle(self.uv_handle())
});
let mut timer = box TimerWatcher::new_home(&loop_, self.home().clone());
unsafe {
timer.set_data(self as *mut _ as *Process);
}
self.timer = Some(timer);
}
let timer = self.timer.get_mut_ref();
timer.stop();
timer.start(timer_cb, ms, 0);
self.timeout_state = TimeoutPending;
extern fn timer_cb(timer: *uvll::uv_timer_t) {
let p: &mut Process = unsafe {
&mut *(uvll::get_data_for_uv_handle(timer) as *mut Process)
};
p.timeout_state = TimeoutElapsed;
match p.to_wake.take() {
Some(task) => { let _t = task.wake().map(|t| t.reawaken()); }
None => {}
}
}
}
}
impl Drop for Process {
fn drop(&mut self) {
let _m = self.fire_homing_missile();
assert!(self.to_wake.is_none());
self.close();
}
}
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