//! Timer API via file descriptors. //! //! Timer FD is a Linux-only API to create timers and get expiration //! notifications through file descriptors. //! //! For more documentation, please read [timerfd_create(2)](https://man7.org/linux/man-pages/man2/timerfd_create.2.html). //! //! # Examples //! //! Create a new one-shot timer that expires after 1 second. //! ``` //! # use std::os::unix::io::AsRawFd; //! # use nix::sys::timerfd::{TimerFd, ClockId, TimerFlags, TimerSetTimeFlags, //! # Expiration}; //! # use nix::sys::time::{TimeSpec, TimeValLike}; //! # use nix::unistd::read; //! # //! // We create a new monotonic timer. //! let timer = TimerFd::new(ClockId::CLOCK_MONOTONIC, TimerFlags::empty()) //! .unwrap(); //! //! // We set a new one-shot timer in 1 seconds. //! timer.set( //! Expiration::OneShot(TimeSpec::seconds(1)), //! TimerSetTimeFlags::empty() //! ).unwrap(); //! //! // We wait for the timer to expire. //! timer.wait().unwrap(); //! ``` use crate::sys::time::timer::TimerSpec; pub use crate::sys::time::timer::{Expiration, TimerSetTimeFlags}; use crate::unistd::read; use crate::{errno::Errno, Result}; use libc::c_int; use std::os::unix::io::{AsRawFd, FromRawFd, RawFd}; /// A timerfd instance. This is also a file descriptor, you can feed it to /// other interfaces consuming file descriptors, epoll for example. #[derive(Debug)] pub struct TimerFd { fd: RawFd, } impl AsRawFd for TimerFd { fn as_raw_fd(&self) -> RawFd { self.fd } } impl FromRawFd for TimerFd { unsafe fn from_raw_fd(fd: RawFd) -> Self { TimerFd { fd } } } libc_enum! { /// The type of the clock used to mark the progress of the timer. For more /// details on each kind of clock, please refer to [timerfd_create(2)](https://man7.org/linux/man-pages/man2/timerfd_create.2.html). #[repr(i32)] #[non_exhaustive] pub enum ClockId { /// A settable system-wide real-time clock. CLOCK_REALTIME, /// A non-settable monotonically increasing clock. /// /// Does not change after system startup. /// Does not measure time while the system is suspended. CLOCK_MONOTONIC, /// Like `CLOCK_MONOTONIC`, except that `CLOCK_BOOTTIME` includes the time /// that the system was suspended. CLOCK_BOOTTIME, /// Like `CLOCK_REALTIME`, but will wake the system if it is suspended. CLOCK_REALTIME_ALARM, /// Like `CLOCK_BOOTTIME`, but will wake the system if it is suspended. CLOCK_BOOTTIME_ALARM, } } libc_bitflags! { /// Additional flags to change the behaviour of the file descriptor at the /// time of creation. pub struct TimerFlags: c_int { /// Set the `O_NONBLOCK` flag on the open file description referred to by the new file descriptor. TFD_NONBLOCK; /// Set the `FD_CLOEXEC` flag on the file descriptor. TFD_CLOEXEC; } } impl TimerFd { /// Creates a new timer based on the clock defined by `clockid`. The /// underlying fd can be assigned specific flags with `flags` (CLOEXEC, /// NONBLOCK). The underlying fd will be closed on drop. #[cfg_attr(has_doc_alias, doc(alias("timerfd_create")))] pub fn new(clockid: ClockId, flags: TimerFlags) -> Result { Errno::result(unsafe { libc::timerfd_create(clockid as i32, flags.bits()) }) .map(|fd| Self { fd }) } /// Sets a new alarm on the timer. /// /// # Types of alarm /// /// There are 3 types of alarms you can set: /// /// - one shot: the alarm will trigger once after the specified amount of /// time. /// Example: I want an alarm to go off in 60s and then disable itself. /// /// - interval: the alarm will trigger every specified interval of time. /// Example: I want an alarm to go off every 60s. The alarm will first /// go off 60s after I set it and every 60s after that. The alarm will /// not disable itself. /// /// - interval delayed: the alarm will trigger after a certain amount of /// time and then trigger at a specified interval. /// Example: I want an alarm to go off every 60s but only start in 1h. /// The alarm will first trigger 1h after I set it and then every 60s /// after that. The alarm will not disable itself. /// /// # Relative vs absolute alarm /// /// If you do not set any `TimerSetTimeFlags`, then the `TimeSpec` you pass /// to the `Expiration` you want is relative. If however you want an alarm /// to go off at a certain point in time, you can set `TFD_TIMER_ABSTIME`. /// Then the one shot TimeSpec and the delay TimeSpec of the delayed /// interval are going to be interpreted as absolute. /// /// # Disabling alarms /// /// Note: Only one alarm can be set for any given timer. Setting a new alarm /// actually removes the previous one. /// /// Note: Setting a one shot alarm with a 0s TimeSpec disables the alarm /// altogether. #[cfg_attr(has_doc_alias, doc(alias("timerfd_settime")))] pub fn set(&self, expiration: Expiration, flags: TimerSetTimeFlags) -> Result<()> { let timerspec: TimerSpec = expiration.into(); Errno::result(unsafe { libc::timerfd_settime( self.fd, flags.bits(), timerspec.as_ref(), std::ptr::null_mut(), ) }) .map(drop) } /// Get the parameters for the alarm currently set, if any. #[cfg_attr(has_doc_alias, doc(alias("timerfd_gettime")))] pub fn get(&self) -> Result> { let mut timerspec = TimerSpec::none(); Errno::result(unsafe { libc::timerfd_gettime(self.fd, timerspec.as_mut()) }).map(|_| { if timerspec.as_ref().it_interval.tv_sec == 0 && timerspec.as_ref().it_interval.tv_nsec == 0 && timerspec.as_ref().it_value.tv_sec == 0 && timerspec.as_ref().it_value.tv_nsec == 0 { None } else { Some(timerspec.into()) } }) } /// Remove the alarm if any is set. #[cfg_attr(has_doc_alias, doc(alias("timerfd_settime")))] pub fn unset(&self) -> Result<()> { Errno::result(unsafe { libc::timerfd_settime( self.fd, TimerSetTimeFlags::empty().bits(), TimerSpec::none().as_ref(), std::ptr::null_mut(), ) }) .map(drop) } /// Wait for the configured alarm to expire. /// /// Note: If the alarm is unset, then you will wait forever. pub fn wait(&self) -> Result<()> { while let Err(e) = read(self.fd, &mut [0u8; 8]) { if e != Errno::EINTR { return Err(e); } } Ok(()) } } impl Drop for TimerFd { fn drop(&mut self) { if !std::thread::panicking() { let result = Errno::result(unsafe { libc::close(self.fd) }); if let Err(Errno::EBADF) = result { panic!("close of TimerFd encountered EBADF"); } } } }