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use crate::sync::batch_semaphore::Semaphore;
use crate::sync::rwlock::read_guard::RwLockReadGuard;
use crate::sync::rwlock::write_guard_mapped::RwLockMappedWriteGuard;
use std::fmt;
use std::marker;
use std::mem;
use std::ops;
/// RAII structure used to release the exclusive write access of a lock when
/// dropped.
///
/// This structure is created by the [`write`] method
/// on [`RwLock`].
///
/// [`write`]: method@crate::sync::RwLock::write
/// [`RwLock`]: struct@crate::sync::RwLock
pub struct RwLockWriteGuard<'a, T: ?Sized> {
#[cfg(all(tokio_unstable, feature = "tracing"))]
pub(super) resource_span: tracing::Span,
pub(super) permits_acquired: u32,
pub(super) s: &'a Semaphore,
pub(super) data: *mut T,
pub(super) marker: marker::PhantomData<&'a mut T>,
}
impl<'a, T: ?Sized> RwLockWriteGuard<'a, T> {
/// Makes a new [`RwLockMappedWriteGuard`] for a component of the locked data.
///
/// This operation cannot fail as the `RwLockWriteGuard` passed in already
/// locked the data.
///
/// This is an associated function that needs to be used as
/// `RwLockWriteGuard::map(..)`. A method would interfere with methods of
/// the same name on the contents of the locked data.
///
/// This is an asynchronous version of [`RwLockWriteGuard::map`] from the
/// [`parking_lot` crate].
///
/// [`RwLockMappedWriteGuard`]: struct@crate::sync::RwLockMappedWriteGuard
/// [`RwLockWriteGuard::map`]: https://docs.rs/lock_api/latest/lock_api/struct.RwLockWriteGuard.html#method.map
/// [`parking_lot` crate]: https://crates.io/crates/parking_lot
///
/// # Examples
///
/// ```
/// use tokio::sync::{RwLock, RwLockWriteGuard};
///
/// #[derive(Debug, Clone, Copy, PartialEq, Eq)]
/// struct Foo(u32);
///
/// # #[tokio::main]
/// # async fn main() {
/// let lock = RwLock::new(Foo(1));
///
/// {
/// let mut mapped = RwLockWriteGuard::map(lock.write().await, |f| &mut f.0);
/// *mapped = 2;
/// }
///
/// assert_eq!(Foo(2), *lock.read().await);
/// # }
/// ```
#[inline]
pub fn map<F, U: ?Sized>(mut this: Self, f: F) -> RwLockMappedWriteGuard<'a, U>
where
F: FnOnce(&mut T) -> &mut U,
{
let data = f(&mut *this) as *mut U;
let s = this.s;
let permits_acquired = this.permits_acquired;
#[cfg(all(tokio_unstable, feature = "tracing"))]
let resource_span = this.resource_span.clone();
// NB: Forget to avoid drop impl from being called.
mem::forget(this);
RwLockMappedWriteGuard {
permits_acquired,
s,
data,
marker: marker::PhantomData,
#[cfg(all(tokio_unstable, feature = "tracing"))]
resource_span,
}
}
/// Attempts to make a new [`RwLockMappedWriteGuard`] for a component of
/// the locked data. The original guard is returned if the closure returns
/// `None`.
///
/// This operation cannot fail as the `RwLockWriteGuard` passed in already
/// locked the data.
///
/// This is an associated function that needs to be
/// used as `RwLockWriteGuard::try_map(...)`. A method would interfere with
/// methods of the same name on the contents of the locked data.
///
/// This is an asynchronous version of [`RwLockWriteGuard::try_map`] from
/// the [`parking_lot` crate].
///
/// [`RwLockMappedWriteGuard`]: struct@crate::sync::RwLockMappedWriteGuard
/// [`RwLockWriteGuard::try_map`]: https://docs.rs/lock_api/latest/lock_api/struct.RwLockWriteGuard.html#method.try_map
/// [`parking_lot` crate]: https://crates.io/crates/parking_lot
///
/// # Examples
///
/// ```
/// use tokio::sync::{RwLock, RwLockWriteGuard};
///
/// #[derive(Debug, Clone, Copy, PartialEq, Eq)]
/// struct Foo(u32);
///
/// # #[tokio::main]
/// # async fn main() {
/// let lock = RwLock::new(Foo(1));
///
/// {
/// let guard = lock.write().await;
/// let mut guard = RwLockWriteGuard::try_map(guard, |f| Some(&mut f.0)).expect("should not fail");
/// *guard = 2;
/// }
///
/// assert_eq!(Foo(2), *lock.read().await);
/// # }
/// ```
#[inline]
pub fn try_map<F, U: ?Sized>(
mut this: Self,
f: F,
) -> Result<RwLockMappedWriteGuard<'a, U>, Self>
where
F: FnOnce(&mut T) -> Option<&mut U>,
{
let data = match f(&mut *this) {
Some(data) => data as *mut U,
None => return Err(this),
};
let s = this.s;
let permits_acquired = this.permits_acquired;
#[cfg(all(tokio_unstable, feature = "tracing"))]
let resource_span = this.resource_span.clone();
// NB: Forget to avoid drop impl from being called.
mem::forget(this);
Ok(RwLockMappedWriteGuard {
permits_acquired,
s,
data,
marker: marker::PhantomData,
#[cfg(all(tokio_unstable, feature = "tracing"))]
resource_span,
})
}
/// Converts this `RwLockWriteGuard` into an `RwLockMappedWriteGuard`. This
/// method can be used to store a non-mapped guard in a struct field that
/// expects a mapped guard.
///
/// This is equivalent to calling `RwLockWriteGuard::map(guard, |me| me)`.
#[inline]
pub fn into_mapped(this: Self) -> RwLockMappedWriteGuard<'a, T> {
RwLockWriteGuard::map(this, |me| me)
}
/// Atomically downgrades a write lock into a read lock without allowing
/// any writers to take exclusive access of the lock in the meantime.
///
/// **Note:** This won't *necessarily* allow any additional readers to acquire
/// locks, since [`RwLock`] is fair and it is possible that a writer is next
/// in line.
///
/// Returns an RAII guard which will drop this read access of the `RwLock`
/// when dropped.
///
/// # Examples
///
/// ```
/// # use tokio::sync::RwLock;
/// # use std::sync::Arc;
/// #
/// # #[tokio::main]
/// # async fn main() {
/// let lock = Arc::new(RwLock::new(1));
///
/// let n = lock.write().await;
///
/// let cloned_lock = lock.clone();
/// let handle = tokio::spawn(async move {
/// *cloned_lock.write().await = 2;
/// });
///
/// let n = n.downgrade();
/// assert_eq!(*n, 1, "downgrade is atomic");
///
/// drop(n);
/// handle.await.unwrap();
/// assert_eq!(*lock.read().await, 2, "second writer obtained write lock");
/// # }
/// ```
///
/// [`RwLock`]: struct@crate::sync::RwLock
pub fn downgrade(self) -> RwLockReadGuard<'a, T> {
let RwLockWriteGuard { s, data, .. } = self;
let to_release = (self.permits_acquired - 1) as usize;
// Release all but one of the permits held by the write guard
s.release(to_release);
#[cfg(all(tokio_unstable, feature = "tracing"))]
self.resource_span.in_scope(|| {
tracing::trace!(
target: "runtime::resource::state_update",
write_locked = false,
write_locked.op = "override",
)
});
#[cfg(all(tokio_unstable, feature = "tracing"))]
self.resource_span.in_scope(|| {
tracing::trace!(
target: "runtime::resource::state_update",
current_readers = 1,
current_readers.op = "add",
)
});
#[cfg(all(tokio_unstable, feature = "tracing"))]
let resource_span = self.resource_span.clone();
// NB: Forget to avoid drop impl from being called.
mem::forget(self);
RwLockReadGuard {
s,
data,
marker: marker::PhantomData,
#[cfg(all(tokio_unstable, feature = "tracing"))]
resource_span,
}
}
}
impl<T: ?Sized> ops::Deref for RwLockWriteGuard<'_, T> {
type Target = T;
fn deref(&self) -> &T {
unsafe { &*self.data }
}
}
impl<T: ?Sized> ops::DerefMut for RwLockWriteGuard<'_, T> {
fn deref_mut(&mut self) -> &mut T {
unsafe { &mut *self.data }
}
}
impl<'a, T: ?Sized> fmt::Debug for RwLockWriteGuard<'a, T>
where
T: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt::Debug::fmt(&**self, f)
}
}
impl<'a, T: ?Sized> fmt::Display for RwLockWriteGuard<'a, T>
where
T: fmt::Display,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt::Display::fmt(&**self, f)
}
}
impl<'a, T: ?Sized> Drop for RwLockWriteGuard<'a, T> {
fn drop(&mut self) {
self.s.release(self.permits_acquired as usize);
#[cfg(all(tokio_unstable, feature = "tracing"))]
self.resource_span.in_scope(|| {
tracing::trace!(
target: "runtime::resource::state_update",
write_locked = false,
write_locked.op = "override",
)
});
}
}