// 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 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Timers based on Windows WaitableTimers //! //! This implementation is meant to be used solely on windows. As with other //! implementations, there is a worker thread which is doing all the waiting on //! a large number of timers for all active timers in the system. This worker //! thread uses the select() equivalent, WaitForMultipleObjects. One of the //! objects being waited on is a signal into the worker thread to notify that //! the incoming channel should be looked at. //! //! Other than that, the implementation is pretty straightforward in terms of //! the other two implementations of timers with nothing *that* new showing up. pub use self::Req::*; use libc; use ptr; use comm; use sys::c; use sys::fs::FileDesc; use sys_common::helper_thread::Helper; use prelude::*; use io::IoResult; helper_init! { static HELPER: Helper } pub trait Callback { fn call(&mut self); } pub struct Timer { obj: libc::HANDLE, on_worker: bool, } pub enum Req { NewTimer(libc::HANDLE, Box, bool), RemoveTimer(libc::HANDLE, Sender<()>), } fn helper(input: libc::HANDLE, messages: Receiver, _: ()) { let mut objs = vec![input]; let mut chans = vec![]; 'outer: loop { let idx = unsafe { imp::WaitForMultipleObjects(objs.len() as libc::DWORD, objs.as_ptr(), 0 as libc::BOOL, libc::INFINITE) }; if idx == 0 { loop { match messages.try_recv() { Ok(NewTimer(obj, c, one)) => { objs.push(obj); chans.push((c, one)); } Ok(RemoveTimer(obj, c)) => { c.send(()); match objs.iter().position(|&o| o == obj) { Some(i) => { drop(objs.remove(i)); drop(chans.remove(i - 1)); } None => {} } } Err(comm::Disconnected) => { assert_eq!(objs.len(), 1); assert_eq!(chans.len(), 0); break 'outer; } Err(..) => break } } } else { let remove = { match &mut chans[idx as uint - 1] { &(ref mut c, oneshot) => { c.call(); oneshot } } }; if remove { drop(objs.remove(idx as uint)); drop(chans.remove(idx as uint - 1)); } } } } // returns the current time (in milliseconds) pub fn now() -> u64 { let mut ticks_per_s = 0; assert_eq!(unsafe { libc::QueryPerformanceFrequency(&mut ticks_per_s) }, 1); let ticks_per_s = if ticks_per_s == 0 {1} else {ticks_per_s}; let mut ticks = 0; assert_eq!(unsafe { libc::QueryPerformanceCounter(&mut ticks) }, 1); return (ticks as u64 * 1000) / (ticks_per_s as u64); } impl Timer { pub fn new() -> IoResult { HELPER.boot(|| {}, helper); let obj = unsafe { imp::CreateWaitableTimerA(ptr::null_mut(), 0, ptr::null()) }; if obj.is_null() { Err(super::last_error()) } else { Ok(Timer { obj: obj, on_worker: false, }) } } fn remove(&mut self) { if !self.on_worker { return } let (tx, rx) = channel(); HELPER.send(RemoveTimer(self.obj, tx)); rx.recv(); self.on_worker = false; } pub fn sleep(&mut self, msecs: u64) { self.remove(); // there are 10^6 nanoseconds in a millisecond, and the parameter is in // 100ns intervals, so we multiply by 10^4. let due = -(msecs as i64 * 10000) as libc::LARGE_INTEGER; assert_eq!(unsafe { imp::SetWaitableTimer(self.obj, &due, 0, ptr::null_mut(), ptr::null_mut(), 0) }, 1); let _ = unsafe { imp::WaitForSingleObject(self.obj, libc::INFINITE) }; } pub fn oneshot(&mut self, msecs: u64, cb: Box) { self.remove(); // see above for the calculation let due = -(msecs as i64 * 10000) as libc::LARGE_INTEGER; assert_eq!(unsafe { imp::SetWaitableTimer(self.obj, &due, 0, ptr::null_mut(), ptr::null_mut(), 0) }, 1); HELPER.send(NewTimer(self.obj, cb, true)); self.on_worker = true; } pub fn period(&mut self, msecs: u64, cb: Box) { self.remove(); // see above for the calculation let due = -(msecs as i64 * 10000) as libc::LARGE_INTEGER; assert_eq!(unsafe { imp::SetWaitableTimer(self.obj, &due, msecs as libc::LONG, ptr::null_mut(), ptr::null_mut(), 0) }, 1); HELPER.send(NewTimer(self.obj, cb, false)); self.on_worker = true; } } impl Drop for Timer { fn drop(&mut self) { self.remove(); assert!(unsafe { libc::CloseHandle(self.obj) != 0 }); } } mod imp { use libc::{LPSECURITY_ATTRIBUTES, BOOL, LPCSTR, HANDLE, LARGE_INTEGER, LONG, LPVOID, DWORD, c_void}; pub type PTIMERAPCROUTINE = *mut c_void; extern "system" { pub fn CreateWaitableTimerA(lpTimerAttributes: LPSECURITY_ATTRIBUTES, bManualReset: BOOL, lpTimerName: LPCSTR) -> HANDLE; pub fn SetWaitableTimer(hTimer: HANDLE, pDueTime: *const LARGE_INTEGER, lPeriod: LONG, pfnCompletionRoutine: PTIMERAPCROUTINE, lpArgToCompletionRoutine: LPVOID, fResume: BOOL) -> BOOL; pub fn WaitForMultipleObjects(nCount: DWORD, lpHandles: *const HANDLE, bWaitAll: BOOL, dwMilliseconds: DWORD) -> DWORD; pub fn WaitForSingleObject(hHandle: HANDLE, dwMilliseconds: DWORD) -> DWORD; } }