e5da6a71a6
This commit applies stability attributes to the contents of these modules,
summarized here:
* The `unit` and `bool` modules have become #[unstable] as they are purely meant
for documentation purposes and are candidates for removal.
* The `ty` module has been deprecated, and the inner `Unsafe` type has been
renamed to `UnsafeCell` and moved to the `cell` module. The `marker1` field
has been removed as the compiler now always infers `UnsafeCell` to be
invariant. The `new` method i stable, but the `value` field, `get` and
`unwrap` methods are all unstable.
* The `tuple` module has its name as stable, the naming of the `TupleN` traits
as stable while the methods are all #[unstable]. The other impls in the module
have appropriate stability for the corresponding trait.
* The `arc` module has received the exact same treatment as the `rc` module
previously did.
* The `any` module has its name as stable. The `Any` trait is also stable, with
a new private supertrait which now contains the `get_type_id` method. This is
to make the method a private implementation detail rather than a public-facing
detail.
The two extension traits in the module are marked #[unstable] as they will not
be necessary with DST. The `is` method is #[stable], the as_{mut,ref} methods
have been renamed to downcast_{mut,ref} and are #[unstable].
The extension trait `BoxAny` has been clarified as to why it is unstable as it
will not be necessary with DST.
This is a breaking change because the `marker1` field was removed from the
`UnsafeCell` type. To deal with this change, you can simply delete the field and
only specify the value of the `data` field in static initializers.
[breaking-change]
197 lines
6.4 KiB
Rust
197 lines
6.4 KiB
Rust
// Copyright 2013-2014 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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//! Implementation of the helper thread for the timer module
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//!
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//! This module contains the management necessary for the timer worker thread.
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//! This thread is responsible for performing the send()s on channels for timers
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//! that are using channels instead of a blocking call.
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//!
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//! The timer thread is lazily initialized, and it's shut down via the
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//! `shutdown` function provided. It must be maintained as an invariant that
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//! `shutdown` is only called when the entire program is finished. No new timers
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//! can be created in the future and there must be no active timers at that
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//! time.
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#![macro_escape]
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use std::mem;
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use std::rt::bookkeeping;
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use std::rt::mutex::StaticNativeMutex;
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use std::rt;
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use std::cell::UnsafeCell;
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use task;
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/// A structure for management of a helper thread.
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///
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/// This is generally a static structure which tracks the lifetime of a helper
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/// thread.
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///
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/// The fields of this helper are all public, but they should not be used, this
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/// is for static initialization.
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pub struct Helper<M> {
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/// Internal lock which protects the remaining fields
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pub lock: StaticNativeMutex,
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// You'll notice that the remaining fields are UnsafeCell<T>, and this is
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// because all helper thread operations are done through &self, but we need
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// these to be mutable (once `lock` is held).
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/// Lazily allocated channel to send messages to the helper thread.
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pub chan: UnsafeCell<*mut Sender<M>>,
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/// OS handle used to wake up a blocked helper thread
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pub signal: UnsafeCell<uint>,
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/// Flag if this helper thread has booted and been initialized yet.
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pub initialized: UnsafeCell<bool>,
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}
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macro_rules! helper_init( (static mut $name:ident: Helper<$m:ty>) => (
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static mut $name: Helper<$m> = Helper {
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lock: ::std::rt::mutex::NATIVE_MUTEX_INIT,
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chan: ::std::cell::UnsafeCell { value: 0 as *mut Sender<$m> },
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signal: ::std::cell::UnsafeCell { value: 0 },
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initialized: ::std::cell::UnsafeCell { value: false },
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};
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) )
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impl<M: Send> Helper<M> {
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/// Lazily boots a helper thread, becoming a no-op if the helper has already
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/// been spawned.
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///
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/// This function will check to see if the thread has been initialized, and
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/// if it has it returns quickly. If initialization has not happened yet,
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/// the closure `f` will be run (inside of the initialization lock) and
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/// passed to the helper thread in a separate task.
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///
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/// This function is safe to be called many times.
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pub fn boot<T: Send>(&'static self,
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f: || -> T,
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helper: fn(imp::signal, Receiver<M>, T)) {
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unsafe {
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let _guard = self.lock.lock();
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if !*self.initialized.get() {
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let (tx, rx) = channel();
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*self.chan.get() = mem::transmute(box tx);
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let (receive, send) = imp::new();
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*self.signal.get() = send as uint;
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let t = f();
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task::spawn(proc() {
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bookkeeping::decrement();
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helper(receive, rx, t);
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self.lock.lock().signal()
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});
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rt::at_exit(proc() { self.shutdown() });
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*self.initialized.get() = true;
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}
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}
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}
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/// Sends a message to a spawned worker thread.
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///
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/// This is only valid if the worker thread has previously booted
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pub fn send(&'static self, msg: M) {
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unsafe {
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let _guard = self.lock.lock();
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// Must send and *then* signal to ensure that the child receives the
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// message. Otherwise it could wake up and go to sleep before we
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// send the message.
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assert!(!self.chan.get().is_null());
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(**self.chan.get()).send(msg);
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imp::signal(*self.signal.get() as imp::signal);
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}
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}
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fn shutdown(&'static self) {
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unsafe {
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// Shut down, but make sure this is done inside our lock to ensure
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// that we'll always receive the exit signal when the thread
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// returns.
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let guard = self.lock.lock();
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// Close the channel by destroying it
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let chan: Box<Sender<M>> = mem::transmute(*self.chan.get());
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*self.chan.get() = 0 as *mut Sender<M>;
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drop(chan);
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imp::signal(*self.signal.get() as imp::signal);
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// Wait for the child to exit
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guard.wait();
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drop(guard);
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// Clean up after ourselves
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self.lock.destroy();
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imp::close(*self.signal.get() as imp::signal);
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*self.signal.get() = 0;
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}
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}
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}
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#[cfg(unix)]
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mod imp {
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use libc;
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use std::os;
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use io::file::FileDesc;
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pub type signal = libc::c_int;
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pub fn new() -> (signal, signal) {
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let os::Pipe { reader, writer } = unsafe { os::pipe().unwrap() };
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(reader, writer)
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}
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pub fn signal(fd: libc::c_int) {
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FileDesc::new(fd, false).inner_write([0]).ok().unwrap();
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}
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pub fn close(fd: libc::c_int) {
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let _fd = FileDesc::new(fd, true);
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}
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}
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#[cfg(windows)]
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mod imp {
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use libc::{BOOL, LPCSTR, HANDLE, LPSECURITY_ATTRIBUTES, CloseHandle};
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use std::ptr;
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use libc;
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pub type signal = HANDLE;
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pub fn new() -> (HANDLE, HANDLE) {
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unsafe {
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let handle = CreateEventA(ptr::mut_null(), libc::FALSE, libc::FALSE,
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ptr::null());
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(handle, handle)
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}
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}
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pub fn signal(handle: HANDLE) {
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assert!(unsafe { SetEvent(handle) != 0 });
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}
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pub fn close(handle: HANDLE) {
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assert!(unsafe { CloseHandle(handle) != 0 });
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}
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extern "system" {
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fn CreateEventA(lpSecurityAttributes: LPSECURITY_ATTRIBUTES,
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bManualReset: BOOL,
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bInitialState: BOOL,
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lpName: LPCSTR) -> HANDLE;
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fn SetEvent(hEvent: HANDLE) -> BOOL;
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}
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}
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