vendor/rustix-0.38.6/src/pid.rs - toolchain/rustc - Git at Google

 #![allow(unsafe_code)]

 use crate::backend::c;
 use core::num::NonZeroI32;

 /// A process identifier as a raw integer.
 pub type RawPid = c::pid_t;

 /// `pid_t`—A non-zero Unix process ID.
 ///
 /// This is a pid, and not a pidfd. It is not a file descriptor, and the
 /// process it refers to could disappear at any time and be replaced by
 /// another, unrelated, process.
 #[repr(transparent)]
 #[derive(Copy, Clone, Eq, PartialEq, Debug, Hash)]
 pub struct Pid(NonZeroI32);

 impl Pid {
     /// A `Pid` corresponding to the init process (pid 1).
     pub const INIT: Self = Self(
         // SAFETY: One is non-zero.
         unsafe { NonZeroI32::new_unchecked(1) },
     );

     /// Converts a `RawPid` into a `Pid`.
     ///
     /// Returns `Some` for strictly positive `RawPid`s. Otherwise, returns
     /// `None`.
     ///
     /// This is always safe because a `Pid` is a number without any guarantees
     /// for the kernel. Non-child `Pid`s are always racy for any syscalls,
     /// but can only cause logic errors. If you want race-free access or
     /// control to non-child processes, please consider other mechanisms
     /// like [pidfd] on Linux.
     ///
     /// [pidfd]: https://man7.org/linux/man-pages/man2/pidfd_open.2.html
     #[inline]
     pub const fn from_raw(raw: RawPid) -> Option<Self> {
         if raw > 0 {
             // SAFETY: raw > 0.
             unsafe { Some(Self::from_raw_unchecked(raw)) }
         } else {
             None
         }
     }

     /// Converts a known strictly positive `RawPid` into a `Pid`.
     ///
     /// # Safety
     ///
     /// The caller must guarantee `raw` is strictly positive.
     #[inline]
     pub const unsafe fn from_raw_unchecked(raw: RawPid) -> Self {
         debug_assert!(raw > 0);
         Self(NonZeroI32::new_unchecked(raw))
     }

     /// Creates a `Pid` holding the ID of the given child process.
     #[cfg(feature = "std")]
     #[inline]
     pub fn from_child(child: &std::process::Child) -> Self {
         let id = child.id();
         // SAFETY: We know the returned ID is valid because it came directly
         // from an OS API.
         unsafe { Self::from_raw_unchecked(id as i32) }
     }

     /// Converts a `Pid` into a `NonZeroI32`.
     #[inline]
     pub const fn as_raw_nonzero(self) -> NonZeroI32 {
         self.0
     }

     /// Converts an `Option<Pid>` into a `RawPid`.
     #[inline]
     pub fn as_raw(pid: Option<Self>) -> RawPid {
         pid.map_or(0, |pid| pid.0.get())
     }

     /// Test whether this pid represents the init process (pid 1).
     #[inline]
     pub const fn is_init(self) -> bool {
         self.0.get() == Self::INIT.0.get()
     }
 }

 #[test]
 fn test_sizes() {
     use core::mem::transmute;

     assert_eq_size!(RawPid, NonZeroI32);
     assert_eq_size!(RawPid, Pid);
     assert_eq_size!(RawPid, Option<Pid>);

     // Rustix doesn't depend on `Option<Pid>` matching the ABI of a raw integer
     // for correctness, but it should work nonetheless.
     const_assert_eq!(0 as RawPid, unsafe {
         transmute::<Option<Pid>, RawPid>(None)
     });
     const_assert_eq!(4567 as RawPid, unsafe {
         transmute::<Option<Pid>, RawPid>(Some(Pid::from_raw_unchecked(4567)))
     });
 }
	#![allow(unsafe_code)]

	use crate::backend::c;
	use core::num::NonZeroI32;

	/// A process identifier as a raw integer.
	pub type RawPid = c::pid_t;

	/// `pid_t`—A non-zero Unix process ID.
	///
	/// This is a pid, and not a pidfd. It is not a file descriptor, and the
	/// process it refers to could disappear at any time and be replaced by
	/// another, unrelated, process.
	#[repr(transparent)]
	#[derive(Copy, Clone, Eq, PartialEq, Debug, Hash)]
	pub struct Pid(NonZeroI32);

	impl Pid {
	/// A `Pid` corresponding to the init process (pid 1).
	pub const INIT: Self = Self(
	// SAFETY: One is non-zero.
	unsafe { NonZeroI32::new_unchecked(1) },
	);

	/// Converts a `RawPid` into a `Pid`.
	///
	/// Returns `Some` for strictly positive `RawPid`s. Otherwise, returns
	/// `None`.
	///
	/// This is always safe because a `Pid` is a number without any guarantees
	/// for the kernel. Non-child `Pid`s are always racy for any syscalls,
	/// but can only cause logic errors. If you want race-free access or
	/// control to non-child processes, please consider other mechanisms
	/// like [pidfd] on Linux.
	///
	/// [pidfd]: https://man7.org/linux/man-pages/man2/pidfd_open.2.html
	#[inline]
	pub const fn from_raw(raw: RawPid) -> Option<Self> {
	if raw > 0 {
	// SAFETY: raw > 0.
	unsafe { Some(Self::from_raw_unchecked(raw)) }
	} else {
	None
	}
	}

	/// Converts a known strictly positive `RawPid` into a `Pid`.
	///
	/// # Safety
	///
	/// The caller must guarantee `raw` is strictly positive.
	#[inline]
	pub const unsafe fn from_raw_unchecked(raw: RawPid) -> Self {
	debug_assert!(raw > 0);
	Self(NonZeroI32::new_unchecked(raw))
	}

	/// Creates a `Pid` holding the ID of the given child process.
	#[cfg(feature = "std")]
	#[inline]
	pub fn from_child(child: &std::process::Child) -> Self {
	let id = child.id();
	// SAFETY: We know the returned ID is valid because it came directly
	// from an OS API.
	unsafe { Self::from_raw_unchecked(id as i32) }
	}

	/// Converts a `Pid` into a `NonZeroI32`.
	#[inline]
	pub const fn as_raw_nonzero(self) -> NonZeroI32 {
	self.0
	}

	/// Converts an `Option<Pid>` into a `RawPid`.
	#[inline]
	pub fn as_raw(pid: Option<Self>) -> RawPid {
	pid.map_or(0, \|pid\| pid.0.get())
	}

	/// Test whether this pid represents the init process (pid 1).
	#[inline]
	pub const fn is_init(self) -> bool {
	self.0.get() == Self::INIT.0.get()
	}
	}

	#[test]
	fn test_sizes() {
	use core::mem::transmute;

	assert_eq_size!(RawPid, NonZeroI32);
	assert_eq_size!(RawPid, Pid);
	assert_eq_size!(RawPid, Option<Pid>);

	// Rustix doesn't depend on `Option<Pid>` matching the ABI of a raw integer
	// for correctness, but it should work nonetheless.
	const_assert_eq!(0 as RawPid, unsafe {
	transmute::<Option<Pid>, RawPid>(None)
	});
	const_assert_eq!(4567 as RawPid, unsafe {
	transmute::<Option<Pid>, RawPid>(Some(Pid::from_raw_unchecked(4567)))
	});
	}