src/sys/signalfd.rs - platform/external/rust/crates/nix - Git at Google

 //! Interface for the `signalfd` syscall.
 //!
 //! # Signal discarding
 //! When a signal can't be delivered to a process (or thread), it will become a pending signal.
 //! Failure to deliver could happen if the signal is blocked by every thread in the process or if
 //! the signal handler is still handling a previous signal.
 //!
 //! If a signal is sent to a process (or thread) that already has a pending signal of the same
 //! type, it will be discarded. This means that if signals of the same type are received faster than
 //! they are processed, some of those signals will be dropped. Because of this limitation,
 //! `signalfd` in itself cannot be used for reliable communication between processes or threads.
 //!
 //! Once the signal is unblocked, or the signal handler is finished, and a signal is still pending
 //! (ie. not consumed from a signalfd) it will be delivered to the signal handler.
 //!
 //! Please note that signal discarding is not specific to `signalfd`, but also happens with regular
 //! signal handlers.
 use crate::errno::Errno;
 pub use crate::sys::signal::{self, SigSet};
 use crate::unistd;
 use crate::Result;
 pub use libc::signalfd_siginfo as siginfo;

 use std::mem;
 use std::os::unix::io::{AsRawFd, RawFd};

 libc_bitflags! {
     pub struct SfdFlags: libc::c_int {
         SFD_NONBLOCK;
         SFD_CLOEXEC;
     }
 }

 pub const SIGNALFD_NEW: RawFd = -1;
 #[deprecated(since = "0.23.0", note = "use mem::size_of::<siginfo>() instead")]
 pub const SIGNALFD_SIGINFO_SIZE: usize = mem::size_of::<siginfo>();

 /// Creates a new file descriptor for reading signals.
 ///
 /// **Important:** please read the module level documentation about signal discarding before using
 /// this function!
 ///
 /// The `mask` parameter specifies the set of signals that can be accepted via this file descriptor.
 ///
 /// A signal must be blocked on every thread in a process, otherwise it won't be visible from
 /// signalfd (the default handler will be invoked instead).
 ///
 /// See [the signalfd man page for more information](https://man7.org/linux/man-pages/man2/signalfd.2.html)
 pub fn signalfd(fd: RawFd, mask: &SigSet, flags: SfdFlags) -> Result<RawFd> {
     unsafe {
         Errno::result(libc::signalfd(
             fd as libc::c_int,
             mask.as_ref(),
             flags.bits(),
         ))
     }
 }

 /// A helper struct for creating, reading and closing a `signalfd` instance.
 ///
 /// **Important:** please read the module level documentation about signal discarding before using
 /// this struct!
 ///
 /// # Examples
 ///
 /// ```
 /// # use nix::sys::signalfd::*;
 /// // Set the thread to block the SIGUSR1 signal, otherwise the default handler will be used
 /// let mut mask = SigSet::empty();
 /// mask.add(signal::SIGUSR1);
 /// mask.thread_block().unwrap();
 ///
 /// // Signals are queued up on the file descriptor
 /// let mut sfd = SignalFd::with_flags(&mask, SfdFlags::SFD_NONBLOCK).unwrap();
 ///
 /// match sfd.read_signal() {
 ///     // we caught a signal
 ///     Ok(Some(sig)) => (),
 ///     // there were no signals waiting (only happens when the SFD_NONBLOCK flag is set,
 ///     // otherwise the read_signal call blocks)
 ///     Ok(None) => (),
 ///     Err(err) => (), // some error happend
 /// }
 /// ```
 #[derive(Debug, Eq, Hash, PartialEq)]
 pub struct SignalFd(RawFd);

 impl SignalFd {
     pub fn new(mask: &SigSet) -> Result<SignalFd> {
         Self::with_flags(mask, SfdFlags::empty())
     }

     pub fn with_flags(mask: &SigSet, flags: SfdFlags) -> Result<SignalFd> {
         let fd = signalfd(SIGNALFD_NEW, mask, flags)?;

         Ok(SignalFd(fd))
     }

     pub fn set_mask(&mut self, mask: &SigSet) -> Result<()> {
         signalfd(self.0, mask, SfdFlags::empty()).map(drop)
     }

     pub fn read_signal(&mut self) -> Result<Option<siginfo>> {
         let mut buffer = mem::MaybeUninit::<siginfo>::uninit();

         let size = mem::size_of_val(&buffer);
         let res = Errno::result(unsafe {
             libc::read(self.0, buffer.as_mut_ptr() as *mut libc::c_void, size)
         })
         .map(|r| r as usize);
         match res {
             Ok(x) if x == size => Ok(Some(unsafe { buffer.assume_init() })),
             Ok(_) => unreachable!("partial read on signalfd"),
             Err(Errno::EAGAIN) => Ok(None),
             Err(error) => Err(error),
         }
     }
 }

 impl Drop for SignalFd {
     fn drop(&mut self) {
         let e = unistd::close(self.0);
         if !std::thread::panicking() && e == Err(Errno::EBADF) {
             panic!("Closing an invalid file descriptor!");
         };
     }
 }

 impl AsRawFd for SignalFd {
     fn as_raw_fd(&self) -> RawFd {
         self.0
     }
 }

 impl Iterator for SignalFd {
     type Item = siginfo;

     fn next(&mut self) -> Option<Self::Item> {
         match self.read_signal() {
             Ok(Some(sig)) => Some(sig),
             Ok(None) | Err(_) => None,
         }
     }
 }

 #[cfg(test)]
 mod tests {
     use super::*;

     #[test]
     fn create_signalfd() {
         let mask = SigSet::empty();
         SignalFd::new(&mask).unwrap();
     }

     #[test]
     fn create_signalfd_with_opts() {
         let mask = SigSet::empty();
         SignalFd::with_flags(
             &mask,
             SfdFlags::SFD_CLOEXEC | SfdFlags::SFD_NONBLOCK,
         )
         .unwrap();
     }

     #[test]
     fn read_empty_signalfd() {
         let mask = SigSet::empty();
         let mut fd =
             SignalFd::with_flags(&mask, SfdFlags::SFD_NONBLOCK).unwrap();

         let res = fd.read_signal();
         assert!(res.unwrap().is_none());
     }
 }
	//! Interface for the `signalfd` syscall.
	//!
	//! # Signal discarding
	//! When a signal can't be delivered to a process (or thread), it will become a pending signal.
	//! Failure to deliver could happen if the signal is blocked by every thread in the process or if
	//! the signal handler is still handling a previous signal.
	//!
	//! If a signal is sent to a process (or thread) that already has a pending signal of the same
	//! type, it will be discarded. This means that if signals of the same type are received faster than
	//! they are processed, some of those signals will be dropped. Because of this limitation,
	//! `signalfd` in itself cannot be used for reliable communication between processes or threads.
	//!
	//! Once the signal is unblocked, or the signal handler is finished, and a signal is still pending
	//! (ie. not consumed from a signalfd) it will be delivered to the signal handler.
	//!
	//! Please note that signal discarding is not specific to `signalfd`, but also happens with regular
	//! signal handlers.
	use crate::errno::Errno;
	pub use crate::sys::signal::{self, SigSet};
	use crate::unistd;
	use crate::Result;
	pub use libc::signalfd_siginfo as siginfo;

	use std::mem;
	use std::os::unix::io::{AsRawFd, RawFd};

	libc_bitflags! {
	pub struct SfdFlags: libc::c_int {
	SFD_NONBLOCK;
	SFD_CLOEXEC;
	}
	}

	pub const SIGNALFD_NEW: RawFd = -1;
	#[deprecated(since = "0.23.0", note = "use mem::size_of::<siginfo>() instead")]
	pub const SIGNALFD_SIGINFO_SIZE: usize = mem::size_of::<siginfo>();

	/// Creates a new file descriptor for reading signals.
	///
	/// Important: please read the module level documentation about signal discarding before using
	/// this function!
	///
	/// The `mask` parameter specifies the set of signals that can be accepted via this file descriptor.
	///
	/// A signal must be blocked on every thread in a process, otherwise it won't be visible from
	/// signalfd (the default handler will be invoked instead).
	///
	/// See [the signalfd man page for more information](https://man7.org/linux/man-pages/man2/signalfd.2.html)
	pub fn signalfd(fd: RawFd, mask: &SigSet, flags: SfdFlags) -> Result<RawFd> {
	unsafe {
	Errno::result(libc::signalfd(
	fd as libc::c_int,
	mask.as_ref(),
	flags.bits(),
	))
	}
	}

	/// A helper struct for creating, reading and closing a `signalfd` instance.
	///
	/// Important: please read the module level documentation about signal discarding before using
	/// this struct!
	///
	/// # Examples
	///
	/// ```
	/// # use nix::sys::signalfd::*;
	/// // Set the thread to block the SIGUSR1 signal, otherwise the default handler will be used
	/// let mut mask = SigSet::empty();
	/// mask.add(signal::SIGUSR1);
	/// mask.thread_block().unwrap();
	///
	/// // Signals are queued up on the file descriptor
	/// let mut sfd = SignalFd::with_flags(&mask, SfdFlags::SFD_NONBLOCK).unwrap();
	///
	/// match sfd.read_signal() {
	/// // we caught a signal
	/// Ok(Some(sig)) => (),
	/// // there were no signals waiting (only happens when the SFD_NONBLOCK flag is set,
	/// // otherwise the read_signal call blocks)
	/// Ok(None) => (),
	/// Err(err) => (), // some error happend
	/// }
	/// ```
	#[derive(Debug, Eq, Hash, PartialEq)]
	pub struct SignalFd(RawFd);

	impl SignalFd {
	pub fn new(mask: &SigSet) -> Result<SignalFd> {
	Self::with_flags(mask, SfdFlags::empty())
	}

	pub fn with_flags(mask: &SigSet, flags: SfdFlags) -> Result<SignalFd> {
	let fd = signalfd(SIGNALFD_NEW, mask, flags)?;

	Ok(SignalFd(fd))
	}

	pub fn set_mask(&mut self, mask: &SigSet) -> Result<()> {
	signalfd(self.0, mask, SfdFlags::empty()).map(drop)
	}

	pub fn read_signal(&mut self) -> Result<Option<siginfo>> {
	let mut buffer = mem::MaybeUninit::<siginfo>::uninit();

	let size = mem::size_of_val(&buffer);
	let res = Errno::result(unsafe {
	libc::read(self.0, buffer.as_mut_ptr() as *mut libc::c_void, size)
	})
	.map(\|r\| r as usize);
	match res {
	Ok(x) if x == size => Ok(Some(unsafe { buffer.assume_init() })),
	Ok(_) => unreachable!("partial read on signalfd"),
	Err(Errno::EAGAIN) => Ok(None),
	Err(error) => Err(error),
	}
	}
	}

	impl Drop for SignalFd {
	fn drop(&mut self) {
	let e = unistd::close(self.0);
	if !std::thread::panicking() && e == Err(Errno::EBADF) {
	panic!("Closing an invalid file descriptor!");
	};
	}
	}

	impl AsRawFd for SignalFd {
	fn as_raw_fd(&self) -> RawFd {
	self.0
	}
	}

	impl Iterator for SignalFd {
	type Item = siginfo;

	fn next(&mut self) -> Option<Self::Item> {
	match self.read_signal() {
	Ok(Some(sig)) => Some(sig),
	Ok(None) \| Err(_) => None,
	}
	}
	}

	#[cfg(test)]
	mod tests {
	use super::*;

	#[test]
	fn create_signalfd() {
	let mask = SigSet::empty();
	SignalFd::new(&mask).unwrap();
	}

	#[test]
	fn create_signalfd_with_opts() {
	let mask = SigSet::empty();
	SignalFd::with_flags(
	&mask,
	SfdFlags::SFD_CLOEXEC \| SfdFlags::SFD_NONBLOCK,
	)
	.unwrap();
	}

	#[test]
	fn read_empty_signalfd() {
	let mask = SigSet::empty();
	let mut fd =
	SignalFd::with_flags(&mask, SfdFlags::SFD_NONBLOCK).unwrap();

	let res = fd.read_signal();
	assert!(res.unwrap().is_none());
	}
	}