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rust/src/libstd/rt/rtio.rs
Alex Crichton f09592a5d1 io: Implement process wait timeouts 
This implements set_timeout() for std::io::Process which will affect wait()
operations on the process. This follows the same pattern as the rest of the
timeouts emerging in std::io::net.

The implementation was super easy for everything except libnative on unix
(backwards from usual!), which required a good bit of signal handling. There's a
doc comment explaining the strategy in libnative. Internally, this also required
refactoring the "helper thread" implementation used by libnative to allow for an
extra helper thread (not just the timer).

This is a breaking change in terms of the io::Process API. It is now possible
for wait() to fail, and subsequently wait_with_output(). These two functions now
return IoResult<T> due to the fact that they can time out.

Additionally, the wait_with_output() function has moved from taking `&mut self`
to taking `self`. If a timeout occurs while waiting with output, the semantics
are undesirable in almost all cases if attempting to re-wait on the process.
Equivalent functionality can still be achieved by dealing with the output
handles manually.

[breaking-change]

cc #13523
2014-05-13 17:27:42 -07:00

316 lines
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Rust
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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.
//! The EventLoop and internal synchronous I/O interface.
use c_str::CString;
use comm::{Sender, Receiver};
use kinds::Send;
use libc::c_int;
use libc;
use mem;
use ops::Drop;
use option::{Option, Some, None};
use owned::Box;
use path::Path;
use result::Err;
use rt::local::Local;
use rt::task::Task;
use vec::Vec;
use ai = io::net::addrinfo;
use io;
use io::IoResult;
use io::net::ip::{IpAddr, SocketAddr};
use io::process::{ProcessConfig, ProcessExit};
use io::signal::Signum;
use io::{FileMode, FileAccess, FileStat, FilePermission};
use io::{SeekStyle};
pub trait Callback {
fn call(&mut self);
}
pub trait EventLoop {
fn run(&mut self);
fn callback(&mut self, arg: proc():Send);
fn pausable_idle_callback(&mut self, Box<Callback:Send>)
-> Box<PausableIdleCallback:Send>;
fn remote_callback(&mut self, Box<Callback:Send>)
-> Box<RemoteCallback:Send>;
/// The asynchronous I/O services. Not all event loops may provide one.
fn io<'a>(&'a mut self) -> Option<&'a mut IoFactory>;
fn has_active_io(&self) -> bool;
}
pub trait RemoteCallback {
/// Trigger the remote callback. Note that the number of times the
/// callback is run is not guaranteed. All that is guaranteed is
/// that, after calling 'fire', the callback will be called at
/// least once, but multiple callbacks may be coalesced and
/// callbacks may be called more often requested. Destruction also
/// triggers the callback.
fn fire(&mut self);
}
/// Data needed to make a successful open(2) call
/// Using unix flag conventions for now, which happens to also be what's supported
/// libuv (it does translation to windows under the hood).
pub struct FileOpenConfig {
/// Path to file to be opened
pub path: Path,
/// Flags for file access mode (as per open(2))
pub flags: int,
/// File creation mode, ignored unless O_CREAT is passed as part of flags
pub mode: int
}
/// Description of what to do when a file handle is closed
pub enum CloseBehavior {
/// Do not close this handle when the object is destroyed
DontClose,
/// Synchronously close the handle, meaning that the task will block when
/// the handle is destroyed until it has been fully closed.
CloseSynchronously,
/// Asynchronously closes a handle, meaning that the task will *not* block
/// when the handle is destroyed, but the handle will still get deallocated
/// and cleaned up (but this will happen asynchronously on the local event
/// loop).
CloseAsynchronously,
}
pub struct LocalIo<'a> {
factory: &'a mut IoFactory,
}
#[unsafe_destructor]
impl<'a> Drop for LocalIo<'a> {
fn drop(&mut self) {
// FIXME(pcwalton): Do nothing here for now, but eventually we may want
// something. For now this serves to make `LocalIo` noncopyable.
}
}
impl<'a> LocalIo<'a> {
/// Returns the local I/O: either the local scheduler's I/O services or
/// the native I/O services.
pub fn borrow() -> Option<LocalIo> {
// FIXME(#11053): bad
//
// This is currently very unsafely implemented. We don't actually
// *take* the local I/O so there's a very real possibility that we
// can have two borrows at once. Currently there is not a clear way
// to actually borrow the local I/O factory safely because even if
// ownership were transferred down to the functions that the I/O
// factory implements it's just too much of a pain to know when to
// relinquish ownership back into the local task (but that would be
// the safe way of implementing this function).
//
// In order to get around this, we just transmute a copy out of the task
// in order to have what is likely a static lifetime (bad).
let mut t: Box<Task> = Local::take();
let ret = t.local_io().map(|t| {
unsafe { mem::transmute_copy(&t) }
});
Local::put(t);
return ret;
}
pub fn maybe_raise<T>(f: |io: &mut IoFactory| -> IoResult<T>)
-> IoResult<T>
{
match LocalIo::borrow() {
None => Err(io::standard_error(io::IoUnavailable)),
Some(mut io) => f(io.get()),
}
}
pub fn new<'a>(io: &'a mut IoFactory) -> LocalIo<'a> {
LocalIo { factory: io }
}
/// Returns the underlying I/O factory as a trait reference.
#[inline]
pub fn get<'a>(&'a mut self) -> &'a mut IoFactory {
// FIXME(pcwalton): I think this is actually sound? Could borrow check
// allow this safely?
unsafe {
mem::transmute_copy(&self.factory)
}
}
}
pub trait IoFactory {
// networking
fn tcp_connect(&mut self, addr: SocketAddr,
timeout: Option<u64>) -> IoResult<Box<RtioTcpStream:Send>>;
fn tcp_bind(&mut self, addr: SocketAddr)
-> IoResult<Box<RtioTcpListener:Send>>;
fn udp_bind(&mut self, addr: SocketAddr)
-> IoResult<Box<RtioUdpSocket:Send>>;
fn unix_bind(&mut self, path: &CString)
-> IoResult<Box<RtioUnixListener:Send>>;
fn unix_connect(&mut self, path: &CString,
timeout: Option<u64>) -> IoResult<Box<RtioPipe:Send>>;
fn get_host_addresses(&mut self, host: Option<&str>, servname: Option<&str>,
hint: Option<ai::Hint>) -> IoResult<Vec<ai::Info>>;
// filesystem operations
fn fs_from_raw_fd(&mut self, fd: c_int, close: CloseBehavior)
-> Box<RtioFileStream:Send>;
fn fs_open(&mut self, path: &CString, fm: FileMode, fa: FileAccess)
-> IoResult<Box<RtioFileStream:Send>>;
fn fs_unlink(&mut self, path: &CString) -> IoResult<()>;
fn fs_stat(&mut self, path: &CString) -> IoResult<FileStat>;
fn fs_mkdir(&mut self, path: &CString,
mode: FilePermission) -> IoResult<()>;
fn fs_chmod(&mut self, path: &CString,
mode: FilePermission) -> IoResult<()>;
fn fs_rmdir(&mut self, path: &CString) -> IoResult<()>;
fn fs_rename(&mut self, path: &CString, to: &CString) -> IoResult<()>;
fn fs_readdir(&mut self, path: &CString, flags: c_int) ->
IoResult<Vec<Path>>;
fn fs_lstat(&mut self, path: &CString) -> IoResult<FileStat>;
fn fs_chown(&mut self, path: &CString, uid: int, gid: int) ->
IoResult<()>;
fn fs_readlink(&mut self, path: &CString) -> IoResult<Path>;
fn fs_symlink(&mut self, src: &CString, dst: &CString) -> IoResult<()>;
fn fs_link(&mut self, src: &CString, dst: &CString) -> IoResult<()>;
fn fs_utime(&mut self, src: &CString, atime: u64, mtime: u64) ->
IoResult<()>;
// misc
fn timer_init(&mut self) -> IoResult<Box<RtioTimer:Send>>;
fn spawn(&mut self, config: ProcessConfig)
-> IoResult<(Box<RtioProcess:Send>,
Vec<Option<Box<RtioPipe:Send>>>)>;
fn kill(&mut self, pid: libc::pid_t, signal: int) -> IoResult<()>;
fn pipe_open(&mut self, fd: c_int) -> IoResult<Box<RtioPipe:Send>>;
fn tty_open(&mut self, fd: c_int, readable: bool)
-> IoResult<Box<RtioTTY:Send>>;
fn signal(&mut self, signal: Signum, channel: Sender<Signum>)
-> IoResult<Box<RtioSignal:Send>>;
}
pub trait RtioTcpListener : RtioSocket {
fn listen(~self) -> IoResult<Box<RtioTcpAcceptor:Send>>;
}
pub trait RtioTcpAcceptor : RtioSocket {
fn accept(&mut self) -> IoResult<Box<RtioTcpStream:Send>>;
fn accept_simultaneously(&mut self) -> IoResult<()>;
fn dont_accept_simultaneously(&mut self) -> IoResult<()>;
fn set_timeout(&mut self, timeout: Option<u64>);
}
pub trait RtioTcpStream : RtioSocket {
fn read(&mut self, buf: &mut [u8]) -> IoResult<uint>;
fn write(&mut self, buf: &[u8]) -> IoResult<()>;
fn peer_name(&mut self) -> IoResult<SocketAddr>;
fn control_congestion(&mut self) -> IoResult<()>;
fn nodelay(&mut self) -> IoResult<()>;
fn keepalive(&mut self, delay_in_seconds: uint) -> IoResult<()>;
fn letdie(&mut self) -> IoResult<()>;
fn clone(&self) -> Box<RtioTcpStream:Send>;
fn close_write(&mut self) -> IoResult<()>;
fn close_read(&mut self) -> IoResult<()>;
fn set_timeout(&mut self, timeout_ms: Option<u64>);
fn set_read_timeout(&mut self, timeout_ms: Option<u64>);
fn set_write_timeout(&mut self, timeout_ms: Option<u64>);
}
pub trait RtioSocket {
fn socket_name(&mut self) -> IoResult<SocketAddr>;
}
pub trait RtioUdpSocket : RtioSocket {
fn recvfrom(&mut self, buf: &mut [u8]) -> IoResult<(uint, SocketAddr)>;
fn sendto(&mut self, buf: &[u8], dst: SocketAddr) -> IoResult<()>;
fn join_multicast(&mut self, multi: IpAddr) -> IoResult<()>;
fn leave_multicast(&mut self, multi: IpAddr) -> IoResult<()>;
fn loop_multicast_locally(&mut self) -> IoResult<()>;
fn dont_loop_multicast_locally(&mut self) -> IoResult<()>;
fn multicast_time_to_live(&mut self, ttl: int) -> IoResult<()>;
fn time_to_live(&mut self, ttl: int) -> IoResult<()>;
fn hear_broadcasts(&mut self) -> IoResult<()>;
fn ignore_broadcasts(&mut self) -> IoResult<()>;
fn clone(&self) -> Box<RtioUdpSocket:Send>;
fn set_timeout(&mut self, timeout_ms: Option<u64>);
fn set_read_timeout(&mut self, timeout_ms: Option<u64>);
fn set_write_timeout(&mut self, timeout_ms: Option<u64>);
}
pub trait RtioTimer {
fn sleep(&mut self, msecs: u64);
fn oneshot(&mut self, msecs: u64) -> Receiver<()>;
fn period(&mut self, msecs: u64) -> Receiver<()>;
}
pub trait RtioFileStream {
fn read(&mut self, buf: &mut [u8]) -> IoResult<int>;
fn write(&mut self, buf: &[u8]) -> IoResult<()>;
fn pread(&mut self, buf: &mut [u8], offset: u64) -> IoResult<int>;
fn pwrite(&mut self, buf: &[u8], offset: u64) -> IoResult<()>;
fn seek(&mut self, pos: i64, whence: SeekStyle) -> IoResult<u64>;
fn tell(&self) -> IoResult<u64>;
fn fsync(&mut self) -> IoResult<()>;
fn datasync(&mut self) -> IoResult<()>;
fn truncate(&mut self, offset: i64) -> IoResult<()>;
fn fstat(&mut self) -> IoResult<FileStat>;
}
pub trait RtioProcess {
fn id(&self) -> libc::pid_t;
fn kill(&mut self, signal: int) -> IoResult<()>;
fn wait(&mut self) -> IoResult<ProcessExit>;
fn set_timeout(&mut self, timeout: Option<u64>);
}
pub trait RtioPipe {
fn read(&mut self, buf: &mut [u8]) -> IoResult<uint>;
fn write(&mut self, buf: &[u8]) -> IoResult<()>;
fn clone(&self) -> Box<RtioPipe:Send>;
fn close_write(&mut self) -> IoResult<()>;
fn close_read(&mut self) -> IoResult<()>;
fn set_timeout(&mut self, timeout_ms: Option<u64>);
fn set_read_timeout(&mut self, timeout_ms: Option<u64>);
fn set_write_timeout(&mut self, timeout_ms: Option<u64>);
}
pub trait RtioUnixListener {
fn listen(~self) -> IoResult<Box<RtioUnixAcceptor:Send>>;
}
pub trait RtioUnixAcceptor {
fn accept(&mut self) -> IoResult<Box<RtioPipe:Send>>;
fn set_timeout(&mut self, timeout: Option<u64>);
}
pub trait RtioTTY {
fn read(&mut self, buf: &mut [u8]) -> IoResult<uint>;
fn write(&mut self, buf: &[u8]) -> IoResult<()>;
fn set_raw(&mut self, raw: bool) -> IoResult<()>;
fn get_winsize(&mut self) -> IoResult<(int, int)>;
fn isatty(&self) -> bool;
}
pub trait PausableIdleCallback {
fn pause(&mut self);
fn resume(&mut self);
}
pub trait RtioSignal {}
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