rust/src/libstd/timer.rs

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// Copyright 2012 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.
//! Utilities that leverage libuv's `uv_timer_*` API
use uv;
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use uv::iotask;
use uv::iotask::IoTask;
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use core::either;
use core::libc;
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use core::libc::c_void;
use core::cast::transmute;
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use core::comm::{stream, Chan, SharedChan, Port, select2i};
use core::prelude::*;
use core::ptr;
use core;
/**
* Wait for timeout period then send provided value over a channel
*
* This call returns immediately. Useful as the building block for a number
* of higher-level timer functions.
*
* Is not guaranteed to wait for exactly the specified time, but will wait
* for *at least* that period of time.
*
* # Arguments
*
* * `hl_loop` - a `uv::hl::high_level_loop` that the tcp request will run on
* * msecs - a timeout period, in milliseconds, to wait
* * ch - a channel of type T to send a `val` on
* * val - a value of type T to send over the provided `ch`
*/
pub fn delayed_send<T:Owned>(iotask: &IoTask,
msecs: uint,
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ch: &Chan<T>,
val: T) {
unsafe {
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let (timer_done_po, timer_done_ch) = stream::<()>();
let timer_done_ch = SharedChan(timer_done_ch);
let timer = uv::ll::timer_t();
let timer_ptr = ptr::addr_of(&timer);
do iotask::interact(iotask) |loop_ptr| {
unsafe {
let init_result = uv::ll::timer_init(loop_ptr, timer_ptr);
if (init_result == 0i32) {
let start_result = uv::ll::timer_start(
timer_ptr, delayed_send_cb, msecs, 0u);
if (start_result == 0i32) {
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// Note: putting the channel into a ~
// to cast to *c_void
let timer_done_ch_clone = ~timer_done_ch.clone();
let timer_done_ch_ptr = transmute::<
~SharedChan<()>, *c_void>(
timer_done_ch_clone);
uv::ll::set_data_for_uv_handle(
timer_ptr,
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timer_done_ch_ptr);
} else {
let error_msg = uv::ll::get_last_err_info(
loop_ptr);
fail!(~"timer::delayed_send() start failed: " +
error_msg);
}
} else {
let error_msg = uv::ll::get_last_err_info(loop_ptr);
fail!(~"timer::delayed_send() init failed: " +
error_msg);
}
}
};
// delayed_send_cb has been processed by libuv
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timer_done_po.recv();
// notify the caller immediately
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ch.send(val);
// uv_close for this timer has been processed
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timer_done_po.recv();
};
}
/**
* Blocks the current task for (at least) the specified time period.
*
* Is not guaranteed to sleep for exactly the specified time, but will sleep
* for *at least* that period of time.
*
* # Arguments
*
* * `iotask` - a `uv::iotask` that the tcp request will run on
* * msecs - an amount of time, in milliseconds, for the current task to block
*/
pub fn sleep(iotask: &IoTask, msecs: uint) {
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let (exit_po, exit_ch) = stream::<()>();
delayed_send(iotask, msecs, &exit_ch, ());
exit_po.recv();
}
/**
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* Receive on a port for (up to) a specified time, then return an `Option<T>`
*
* This call will block to receive on the provided port for up to the
* specified timeout. Depending on whether the provided port receives in that
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* time period, `recv_timeout` will return an `Option<T>` representing the
* result.
*
* # Arguments
*
* * `iotask' - `uv::iotask` that the tcp request will run on
* * msecs - an mount of time, in milliseconds, to wait to receive
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* * wait_port - a `core::comm::port<T>` to receive on
*
* # Returns
*
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* An `Option<T>` representing the outcome of the call. If the call `recv`'d
* on the provided port in the allotted timeout period, then the result will
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* be a `Some(T)`. If not, then `None` will be returned.
*/
pub fn recv_timeout<T:Copy + Owned>(iotask: &IoTask,
msecs: uint,
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wait_po: &Port<T>)
-> Option<T> {
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let (timeout_po, timeout_ch) = stream::<()>();
delayed_send(iotask, msecs, &timeout_ch, ());
// FIXME: This could be written clearer (#2618)
either::either(
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|_| {
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None
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}, |_| {
Some(wait_po.recv())
}, &select2i(&timeout_po, wait_po)
)
}
// INTERNAL API
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extern fn delayed_send_cb(handle: *uv::ll::uv_timer_t,
status: libc::c_int) {
unsafe {
log(debug,
fmt!("delayed_send_cb handle %? status %?", handle, status));
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// Faking a borrowed pointer to our ~SharedChan
let timer_done_ch_ptr: &*c_void = &uv::ll::get_data_for_uv_handle(
handle);
let timer_done_ch_ptr = transmute::<&*c_void, &~SharedChan<()>>(
timer_done_ch_ptr);
let stop_result = uv::ll::timer_stop(handle);
if (stop_result == 0i32) {
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timer_done_ch_ptr.send(());
uv::ll::close(handle, delayed_send_close_cb);
} else {
let loop_ptr = uv::ll::get_loop_for_uv_handle(handle);
let error_msg = uv::ll::get_last_err_info(loop_ptr);
fail!(~"timer::sleep() init failed: "+error_msg);
}
}
}
extern fn delayed_send_close_cb(handle: *uv::ll::uv_timer_t) {
unsafe {
log(debug, fmt!("delayed_send_close_cb handle %?", handle));
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let timer_done_ch_ptr = uv::ll::get_data_for_uv_handle(handle);
let timer_done_ch = transmute::<*c_void, ~SharedChan<()>>(
timer_done_ch_ptr);
timer_done_ch.send(());
}
}
#[cfg(test)]
mod test {
use core::prelude::*;
use timer::*;
use uv;
use core::iter;
use core::rand;
use core::task;
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use core::pipes::{stream, SharedChan};
#[test]
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pub fn test_gl_timer_simple_sleep_test() {
let hl_loop = &uv::global_loop::get();
sleep(hl_loop, 1u);
}
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#[test]
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pub fn test_gl_timer_sleep_stress1() {
let hl_loop = &uv::global_loop::get();
for iter::repeat(50u) {
sleep(hl_loop, 1u);
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}
}
#[test]
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pub fn test_gl_timer_sleep_stress2() {
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let (po, ch) = stream();
let ch = SharedChan(ch);
let hl_loop = &uv::global_loop::get();
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let repeat = 20u;
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let spec = {
~[(1u, 20u),
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(10u, 10u),
(20u, 2u)]
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};
for iter::repeat(repeat) {
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let ch = ch.clone();
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for spec.each |spec| {
let (times, maxms) = *spec;
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let ch = ch.clone();
let hl_loop_clone = hl_loop.clone();
do task::spawn {
use rand::*;
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let rng = Rng();
for iter::repeat(times) {
sleep(&hl_loop_clone, rng.next() as uint % maxms);
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}
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ch.send(());
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}
}
}
for iter::repeat(repeat * spec.len()) {
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po.recv()
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}
}
// Because valgrind serializes multithreaded programs it can
// make timing-sensitive tests fail in wierd ways. In these
// next test we run them many times and expect them to pass
// the majority of tries.
#[test]
#[cfg(ignore)]
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pub fn test_gl_timer_recv_timeout_before_time_passes() {
let times = 100;
let mut successes = 0;
let mut failures = 0;
let hl_loop = uv::global_loop::get();
for iter::repeat(times as uint) {
task::yield();
let expected = rand::rng().gen_str(16u);
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let (test_po, test_ch) = stream::<~str>();
do task::spawn() {
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delayed_send(hl_loop, 1u, &test_ch, expected);
};
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match recv_timeout(hl_loop, 10u, &test_po) {
Some(val) => {
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assert val == expected;
successes += 1;
}
_ => failures += 1
};
}
assert successes > times / 2;
}
#[test]
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pub fn test_gl_timer_recv_timeout_after_time_passes() {
let times = 100;
let mut successes = 0;
let mut failures = 0;
let hl_loop = uv::global_loop::get();
for iter::repeat(times as uint) {
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let expected = rand::Rng().gen_str(16u);
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let (test_po, test_ch) = stream::<~str>();
let hl_loop_clone = hl_loop.clone();
do task::spawn() {
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delayed_send(&hl_loop_clone, 50u, &test_ch, expected);
};
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match recv_timeout(&hl_loop, 1u, &test_po) {
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None => successes += 1,
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_ => failures += 1
};
}
assert successes > times / 2;
}
}