aarch64/usr/lib/rustlib/src/rust/library/std/src/sys/itron/mutex.rs - manifest_repos/toolchain - Git at Google

 //! Mutex implementation backed by μITRON mutexes. Assumes `acre_mtx` and
 //! `TA_INHERIT` are available.
 use super::{
     abi,
     error::{expect_success, expect_success_aborting, fail, ItronError},
     spin::SpinIdOnceCell,
 };

 pub struct Mutex {
     /// The ID of the underlying mutex object
     mtx: SpinIdOnceCell<()>,
 }

 /// Create a mutex object. This function never panics.
 fn new_mtx() -> Result<abi::ID, ItronError> {
     ItronError::err_if_negative(unsafe {
         abi::acre_mtx(&abi::T_CMTX {
             // Priority inheritance mutex
             mtxatr: abi::TA_INHERIT,
             // Unused
             ceilpri: 0,
         })
     })
 }

 impl Mutex {
     #[inline]
     pub const fn new() -> Mutex {
         Mutex { mtx: SpinIdOnceCell::new() }
     }

     /// Get the inner mutex's ID, which is lazily created.
     fn raw(&self) -> abi::ID {
         match self.mtx.get_or_try_init(|| new_mtx().map(|id| (id, ()))) {
             Ok((id, ())) => id,
             Err(e) => fail(e, &"acre_mtx"),
         }
     }

     pub fn lock(&self) {
         let mtx = self.raw();
         expect_success(unsafe { abi::loc_mtx(mtx) }, &"loc_mtx");
     }

     pub unsafe fn unlock(&self) {
         let mtx = unsafe { self.mtx.get_unchecked().0 };
         expect_success_aborting(unsafe { abi::unl_mtx(mtx) }, &"unl_mtx");
     }

     pub fn try_lock(&self) -> bool {
         let mtx = self.raw();
         match unsafe { abi::ploc_mtx(mtx) } {
             abi::E_TMOUT => false,
             er => {
                 expect_success(er, &"ploc_mtx");
                 true
             }
         }
     }
 }

 impl Drop for Mutex {
     fn drop(&mut self) {
         if let Some(mtx) = self.mtx.get().map(|x| x.0) {
             expect_success_aborting(unsafe { abi::del_mtx(mtx) }, &"del_mtx");
         }
     }
 }

 pub(super) struct MutexGuard<'a>(&'a Mutex);

 impl<'a> MutexGuard<'a> {
     #[inline]
     pub(super) fn lock(x: &'a Mutex) -> Self {
         x.lock();
         Self(x)
     }
 }

 impl Drop for MutexGuard<'_> {
     #[inline]
     fn drop(&mut self) {
         unsafe { self.0.unlock() };
     }
 }
	//! Mutex implementation backed by μITRON mutexes. Assumes `acre_mtx` and
	//! `TA_INHERIT` are available.
	use super::{
	abi,
	error::{expect_success, expect_success_aborting, fail, ItronError},
	spin::SpinIdOnceCell,
	};

	pub struct Mutex {
	/// The ID of the underlying mutex object
	mtx: SpinIdOnceCell<()>,
	}

	/// Create a mutex object. This function never panics.
	fn new_mtx() -> Result<abi::ID, ItronError> {
	ItronError::err_if_negative(unsafe {
	abi::acre_mtx(&abi::T_CMTX {
	// Priority inheritance mutex
	mtxatr: abi::TA_INHERIT,
	// Unused
	ceilpri: 0,
	})
	})
	}

	impl Mutex {
	#[inline]
	pub const fn new() -> Mutex {
	Mutex { mtx: SpinIdOnceCell::new() }
	}

	/// Get the inner mutex's ID, which is lazily created.
	fn raw(&self) -> abi::ID {
	match self.mtx.get_or_try_init(\|\| new_mtx().map(\|id\| (id, ()))) {
	Ok((id, ())) => id,
	Err(e) => fail(e, &"acre_mtx"),
	}
	}

	pub fn lock(&self) {
	let mtx = self.raw();
	expect_success(unsafe { abi::loc_mtx(mtx) }, &"loc_mtx");
	}

	pub unsafe fn unlock(&self) {
	let mtx = unsafe { self.mtx.get_unchecked().0 };
	expect_success_aborting(unsafe { abi::unl_mtx(mtx) }, &"unl_mtx");
	}

	pub fn try_lock(&self) -> bool {
	let mtx = self.raw();
	match unsafe { abi::ploc_mtx(mtx) } {
	abi::E_TMOUT => false,
	er => {
	expect_success(er, &"ploc_mtx");
	true
	}
	}
	}
	}

	impl Drop for Mutex {
	fn drop(&mut self) {
	if let Some(mtx) = self.mtx.get().map(\|x\| x.0) {
	expect_success_aborting(unsafe { abi::del_mtx(mtx) }, &"del_mtx");
	}
	}
	}

	pub(super) struct MutexGuard<'a>(&'a Mutex);

	impl<'a> MutexGuard<'a> {
	#[inline]
	pub(super) fn lock(x: &'a Mutex) -> Self {
	x.lock();
	Self(x)
	}
	}

	impl Drop for MutexGuard<'_> {
	#[inline]
	fn drop(&mut self) {
	unsafe { self.0.unlock() };
	}
	}