vendor/tracing-subscriber-0.3.18/src/reload.rs - toolchain/rustc - Git at Google

 //! Wrapper for a `Layer` to allow it to be dynamically reloaded.
 //!
 //! This module provides a [`Layer` type] implementing the [`Layer` trait] or [`Filter` trait]
 //! which wraps another type implementing the corresponding trait. This
 //! allows the wrapped type to be replaced with another
 //! instance of that type at runtime.
 //!
 //! This can be used in cases where a subset of `Layer` or `Filter` functionality
 //! should be dynamically reconfigured, such as when filtering directives may
 //! change at runtime. Note that this layer introduces a (relatively small)
 //! amount of overhead, and should thus only be used as needed.
 //!
 //! # Examples
 //!
 //! Reloading a [global filtering](crate::layer#global-filtering) layer:
 //!
 //! ```rust
 //! # use tracing::info;
 //! use tracing_subscriber::{filter, fmt, reload, prelude::*};
 //! let filter = filter::LevelFilter::WARN;
 //! let (filter, reload_handle) = reload::Layer::new(filter);
 //! tracing_subscriber::registry()
 //!   .with(filter)
 //!   .with(fmt::Layer::default())
 //!   .init();
 //! #
 //! # // specifying the Registry type is required
 //! # let _: &reload::Handle<filter::LevelFilter, tracing_subscriber::Registry> = &reload_handle;
 //! #
 //! info!("This will be ignored");
 //! reload_handle.modify(|filter| *filter = filter::LevelFilter::INFO);
 //! info!("This will be logged");
 //! ```
 //!
 //! Reloading a [`Filtered`](crate::filter::Filtered) layer:
 //!
 //! ```rust
 //! # use tracing::info;
 //! use tracing_subscriber::{filter, fmt, reload, prelude::*};
 //! let filtered_layer = fmt::Layer::default().with_filter(filter::LevelFilter::WARN);
 //! let (filtered_layer, reload_handle) = reload::Layer::new(filtered_layer);
 //! #
 //! # // specifying the Registry type is required
 //! # let _: &reload::Handle<filter::Filtered<fmt::Layer<tracing_subscriber::Registry>,
 //! # filter::LevelFilter, tracing_subscriber::Registry>,tracing_subscriber::Registry>
 //! # = &reload_handle;
 //! #
 //! tracing_subscriber::registry()
 //!   .with(filtered_layer)
 //!   .init();
 //! info!("This will be ignored");
 //! reload_handle.modify(|layer| *layer.filter_mut() = filter::LevelFilter::INFO);
 //! info!("This will be logged");
 //! ```
 //!
 //! ## Note
 //!
 //! The [`Layer`] implementation is unable to implement downcasting functionality,
 //! so certain [`Layer`] will fail to downcast if wrapped in a `reload::Layer`.
 //!
 //! If you only want to be able to dynamically change the
 //! `Filter` on a layer, prefer wrapping that `Filter` in the `reload::Layer`.
 //!
 //! [`Filter` trait]: crate::layer::Filter
 //! [`Layer` type]: Layer
 //! [`Layer` trait]: super::layer::Layer
 use crate::layer;
 use crate::sync::RwLock;

 use core::any::TypeId;
 use std::{
     error, fmt,
     marker::PhantomData,
     sync::{Arc, Weak},
 };
 use tracing_core::{
     callsite, span,
     subscriber::{Interest, Subscriber},
     Dispatch, Event, LevelFilter, Metadata,
 };

 /// Wraps a `Layer` or `Filter`, allowing it to be reloaded dynamically at runtime.
 #[derive(Debug)]
 pub struct Layer<L, S> {
     // TODO(eliza): this once used a `crossbeam_util::ShardedRwLock`. We may
     // eventually wish to replace it with a sharded lock implementation on top
     // of our internal `RwLock` wrapper type. If possible, we should profile
     // this first to determine if it's necessary.
     inner: Arc<RwLock<L>>,
     _s: PhantomData<fn(S)>,
 }

 /// Allows reloading the state of an associated [`Layer`](crate::layer::Layer).
 #[derive(Debug)]
 pub struct Handle<L, S> {
     inner: Weak<RwLock<L>>,
     _s: PhantomData<fn(S)>,
 }

 /// Indicates that an error occurred when reloading a layer.
 #[derive(Debug)]
 pub struct Error {
     kind: ErrorKind,
 }

 #[derive(Debug)]
 enum ErrorKind {
     SubscriberGone,
     Poisoned,
 }

 // ===== impl Layer =====

 impl<L, S> crate::Layer<S> for Layer<L, S>
 where
     L: crate::Layer<S> + 'static,
     S: Subscriber,
 {
     fn on_register_dispatch(&self, subscriber: &Dispatch) {
         try_lock!(self.inner.read()).on_register_dispatch(subscriber);
     }

     fn on_layer(&mut self, subscriber: &mut S) {
         try_lock!(self.inner.write(), else return).on_layer(subscriber);
     }

     #[inline]
     fn register_callsite(&self, metadata: &'static Metadata<'static>) -> Interest {
         try_lock!(self.inner.read(), else return Interest::sometimes()).register_callsite(metadata)
     }

     #[inline]
     fn enabled(&self, metadata: &Metadata<'_>, ctx: layer::Context<'_, S>) -> bool {
         try_lock!(self.inner.read(), else return false).enabled(metadata, ctx)
     }

     #[inline]
     fn on_new_span(&self, attrs: &span::Attributes<'_>, id: &span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_new_span(attrs, id, ctx)
     }

     #[inline]
     fn on_record(&self, span: &span::Id, values: &span::Record<'_>, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_record(span, values, ctx)
     }

     #[inline]
     fn on_follows_from(&self, span: &span::Id, follows: &span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_follows_from(span, follows, ctx)
     }

     #[inline]
     fn event_enabled(&self, event: &Event<'_>, ctx: layer::Context<'_, S>) -> bool {
         try_lock!(self.inner.read(), else return false).event_enabled(event, ctx)
     }

     #[inline]
     fn on_event(&self, event: &Event<'_>, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_event(event, ctx)
     }

     #[inline]
     fn on_enter(&self, id: &span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_enter(id, ctx)
     }

     #[inline]
     fn on_exit(&self, id: &span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_exit(id, ctx)
     }

     #[inline]
     fn on_close(&self, id: span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_close(id, ctx)
     }

     #[inline]
     fn on_id_change(&self, old: &span::Id, new: &span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_id_change(old, new, ctx)
     }

     #[inline]
     fn max_level_hint(&self) -> Option<LevelFilter> {
         try_lock!(self.inner.read(), else return None).max_level_hint()
     }

     #[doc(hidden)]
     unsafe fn downcast_raw(&self, id: TypeId) -> Option<*const ()> {
         // Safety: it is generally unsafe to downcast through a reload, because
         // the pointer can be invalidated after the lock is dropped.
         // `NoneLayerMarker` is a special case because it
         // is never dereferenced.
         //
         // Additionally, even if the marker type *is* dereferenced (which it
         // never will be), the pointer should be valid even if the subscriber
         // is reloaded, because all `NoneLayerMarker` pointers that we return
         // actually point to the global static singleton `NoneLayerMarker`,
         // rather than to a field inside the lock.
         if id == TypeId::of::<layer::NoneLayerMarker>() {
             return try_lock!(self.inner.read(), else return None).downcast_raw(id);
         }

         None
     }
 }

 // ===== impl Filter =====

 #[cfg(all(feature = "registry", feature = "std"))]
 #[cfg_attr(docsrs, doc(cfg(all(feature = "registry", feature = "std"))))]
 impl<S, L> crate::layer::Filter<S> for Layer<L, S>
 where
     L: crate::layer::Filter<S> + 'static,
     S: Subscriber,
 {
     #[inline]
     fn callsite_enabled(&self, metadata: &'static Metadata<'static>) -> Interest {
         try_lock!(self.inner.read(), else return Interest::sometimes()).callsite_enabled(metadata)
     }

     #[inline]
     fn enabled(&self, metadata: &Metadata<'_>, ctx: &layer::Context<'_, S>) -> bool {
         try_lock!(self.inner.read(), else return false).enabled(metadata, ctx)
     }

     #[inline]
     fn on_new_span(&self, attrs: &span::Attributes<'_>, id: &span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_new_span(attrs, id, ctx)
     }

     #[inline]
     fn on_record(&self, span: &span::Id, values: &span::Record<'_>, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_record(span, values, ctx)
     }

     #[inline]
     fn on_enter(&self, id: &span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_enter(id, ctx)
     }

     #[inline]
     fn on_exit(&self, id: &span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_exit(id, ctx)
     }

     #[inline]
     fn on_close(&self, id: span::Id, ctx: layer::Context<'_, S>) {
         try_lock!(self.inner.read()).on_close(id, ctx)
     }

     #[inline]
     fn max_level_hint(&self) -> Option<LevelFilter> {
         try_lock!(self.inner.read(), else return None).max_level_hint()
     }
 }

 impl<L, S> Layer<L, S> {
     /// Wraps the given [`Layer`] or [`Filter`], returning a `reload::Layer`
     /// and a `Handle` that allows the inner value to be modified at runtime.
     ///
     /// [`Layer`]: crate::layer::Layer
     /// [`Filter`]: crate::layer::Filter
     pub fn new(inner: L) -> (Self, Handle<L, S>) {
         let this = Self {
             inner: Arc::new(RwLock::new(inner)),
             _s: PhantomData,
         };
         let handle = this.handle();
         (this, handle)
     }

     /// Returns a `Handle` that can be used to reload the wrapped [`Layer`] or [`Filter`].
     ///
     /// [`Layer`]: crate::layer::Layer
     /// [`Filter`]: crate::filter::Filter
     pub fn handle(&self) -> Handle<L, S> {
         Handle {
             inner: Arc::downgrade(&self.inner),
             _s: PhantomData,
         }
     }
 }

 // ===== impl Handle =====

 impl<L, S> Handle<L, S> {
     /// Replace the current [`Layer`] or [`Filter`] with the provided `new_value`.
     ///
     /// [`Handle::reload`] cannot be used with the [`Filtered`] layer; use
     /// [`Handle::modify`] instead (see [this issue] for additional details).
     ///
     /// However, if the _only_ the [`Filter`]  needs to be modified, use
     /// `reload::Layer` to wrap the `Filter` directly.
     ///
     /// [`Layer`]: crate::layer::Layer
     /// [`Filter`]: crate::layer::Filter
     /// [`Filtered`]: crate::filter::Filtered
     ///
     /// [this issue]: https://github.com/tokio-rs/tracing/issues/1629
     pub fn reload(&self, new_value: impl Into<L>) -> Result<(), Error> {
         self.modify(|layer| {
             *layer = new_value.into();
         })
     }

     /// Invokes a closure with a mutable reference to the current layer or filter,
     /// allowing it to be modified in place.
     pub fn modify(&self, f: impl FnOnce(&mut L)) -> Result<(), Error> {
         let inner = self.inner.upgrade().ok_or(Error {
             kind: ErrorKind::SubscriberGone,
         })?;

         let mut lock = try_lock!(inner.write(), else return Err(Error::poisoned()));
         f(&mut *lock);
         // Release the lock before rebuilding the interest cache, as that
         // function will lock the new layer.
         drop(lock);

         callsite::rebuild_interest_cache();
         Ok(())
     }

     /// Returns a clone of the layer or filter's current value if it still exists.
     /// Otherwise, if the subscriber has been dropped, returns `None`.
     pub fn clone_current(&self) -> Option<L>
     where
         L: Clone,
     {
         self.with_current(L::clone).ok()
     }

     /// Invokes a closure with a borrowed reference to the current layer or filter,
     /// returning the result (or an error if the subscriber no longer exists).
     pub fn with_current<T>(&self, f: impl FnOnce(&L) -> T) -> Result<T, Error> {
         let inner = self.inner.upgrade().ok_or(Error {
             kind: ErrorKind::SubscriberGone,
         })?;
         let inner = try_lock!(inner.read(), else return Err(Error::poisoned()));
         Ok(f(&*inner))
     }
 }

 impl<L, S> Clone for Handle<L, S> {
     fn clone(&self) -> Self {
         Handle {
             inner: self.inner.clone(),
             _s: PhantomData,
         }
     }
 }

 // ===== impl Error =====

 impl Error {
     fn poisoned() -> Self {
         Self {
             kind: ErrorKind::Poisoned,
         }
     }

     /// Returns `true` if this error occurred because the layer was poisoned by
     /// a panic on another thread.
     pub fn is_poisoned(&self) -> bool {
         matches!(self.kind, ErrorKind::Poisoned)
     }

     /// Returns `true` if this error occurred because the `Subscriber`
     /// containing the reloadable layer was dropped.
     pub fn is_dropped(&self) -> bool {
         matches!(self.kind, ErrorKind::SubscriberGone)
     }
 }

 impl fmt::Display for Error {
     fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
         let msg = match self.kind {
             ErrorKind::SubscriberGone => "subscriber no longer exists",
             ErrorKind::Poisoned => "lock poisoned",
         };
         f.pad(msg)
     }
 }

 impl error::Error for Error {}
	//! Wrapper for a `Layer` to allow it to be dynamically reloaded.
	//!
	//! This module provides a [`Layer` type] implementing the [`Layer` trait] or [`Filter` trait]
	//! which wraps another type implementing the corresponding trait. This
	//! allows the wrapped type to be replaced with another
	//! instance of that type at runtime.
	//!
	//! This can be used in cases where a subset of `Layer` or `Filter` functionality
	//! should be dynamically reconfigured, such as when filtering directives may
	//! change at runtime. Note that this layer introduces a (relatively small)
	//! amount of overhead, and should thus only be used as needed.
	//!
	//! # Examples
	//!
	//! Reloading a [global filtering](crate::layer#global-filtering) layer:
	//!
	//! ```rust
	//! # use tracing::info;
	//! use tracing_subscriber::{filter, fmt, reload, prelude::*};
	//! let filter = filter::LevelFilter::WARN;
	//! let (filter, reload_handle) = reload::Layer::new(filter);
	//! tracing_subscriber::registry()
	//! .with(filter)
	//! .with(fmt::Layer::default())
	//! .init();
	//! #
	//! # // specifying the Registry type is required
	//! # let _: &reload::Handle<filter::LevelFilter, tracing_subscriber::Registry> = &reload_handle;
	//! #
	//! info!("This will be ignored");
	//! reload_handle.modify(\|filter\| *filter = filter::LevelFilter::INFO);
	//! info!("This will be logged");
	//! ```
	//!
	//! Reloading a [`Filtered`](crate::filter::Filtered) layer:
	//!
	//! ```rust
	//! # use tracing::info;
	//! use tracing_subscriber::{filter, fmt, reload, prelude::*};
	//! let filtered_layer = fmt::Layer::default().with_filter(filter::LevelFilter::WARN);
	//! let (filtered_layer, reload_handle) = reload::Layer::new(filtered_layer);
	//! #
	//! # // specifying the Registry type is required
	//! # let _: &reload::Handle<filter::Filtered<fmt::Layer<tracing_subscriber::Registry>,
	//! # filter::LevelFilter, tracing_subscriber::Registry>,tracing_subscriber::Registry>
	//! # = &reload_handle;
	//! #
	//! tracing_subscriber::registry()
	//! .with(filtered_layer)
	//! .init();
	//! info!("This will be ignored");
	//! reload_handle.modify(\|layer\| *layer.filter_mut() = filter::LevelFilter::INFO);
	//! info!("This will be logged");
	//! ```
	//!
	//! ## Note
	//!
	//! The [`Layer`] implementation is unable to implement downcasting functionality,
	//! so certain [`Layer`] will fail to downcast if wrapped in a `reload::Layer`.
	//!
	//! If you only want to be able to dynamically change the
	//! `Filter` on a layer, prefer wrapping that `Filter` in the `reload::Layer`.
	//!
	//! [`Filter` trait]: crate::layer::Filter
	//! [`Layer` type]: Layer
	//! [`Layer` trait]: super::layer::Layer
	use crate::layer;
	use crate::sync::RwLock;

	use core::any::TypeId;
	use std::{
	error, fmt,
	marker::PhantomData,
	sync::{Arc, Weak},
	};
	use tracing_core::{
	callsite, span,
	subscriber::{Interest, Subscriber},
	Dispatch, Event, LevelFilter, Metadata,
	};

	/// Wraps a `Layer` or `Filter`, allowing it to be reloaded dynamically at runtime.
	#[derive(Debug)]
	pub struct Layer<L, S> {
	// TODO(eliza): this once used a `crossbeam_util::ShardedRwLock`. We may
	// eventually wish to replace it with a sharded lock implementation on top
	// of our internal `RwLock` wrapper type. If possible, we should profile
	// this first to determine if it's necessary.
	inner: Arc<RwLock<L>>,
	_s: PhantomData<fn(S)>,
	}

	/// Allows reloading the state of an associated [`Layer`](crate::layer::Layer).
	#[derive(Debug)]
	pub struct Handle<L, S> {
	inner: Weak<RwLock<L>>,
	_s: PhantomData<fn(S)>,
	}

	/// Indicates that an error occurred when reloading a layer.
	#[derive(Debug)]
	pub struct Error {
	kind: ErrorKind,
	}

	#[derive(Debug)]
	enum ErrorKind {
	SubscriberGone,
	Poisoned,
	}

	// ===== impl Layer =====

	impl<L, S> crate::Layer<S> for Layer<L, S>
	where
	L: crate::Layer<S> + 'static,
	S: Subscriber,
	{
	fn on_register_dispatch(&self, subscriber: &Dispatch) {
	try_lock!(self.inner.read()).on_register_dispatch(subscriber);
	}

	fn on_layer(&mut self, subscriber: &mut S) {
	try_lock!(self.inner.write(), else return).on_layer(subscriber);
	}

	#[inline]
	fn register_callsite(&self, metadata: &'static Metadata<'static>) -> Interest {
	try_lock!(self.inner.read(), else return Interest::sometimes()).register_callsite(metadata)
	}

	#[inline]
	fn enabled(&self, metadata: &Metadata<'_>, ctx: layer::Context<'_, S>) -> bool {
	try_lock!(self.inner.read(), else return false).enabled(metadata, ctx)
	}

	#[inline]
	fn on_new_span(&self, attrs: &span::Attributes<'_>, id: &span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_new_span(attrs, id, ctx)
	}

	#[inline]
	fn on_record(&self, span: &span::Id, values: &span::Record<'_>, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_record(span, values, ctx)
	}

	#[inline]
	fn on_follows_from(&self, span: &span::Id, follows: &span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_follows_from(span, follows, ctx)
	}

	#[inline]
	fn event_enabled(&self, event: &Event<'_>, ctx: layer::Context<'_, S>) -> bool {
	try_lock!(self.inner.read(), else return false).event_enabled(event, ctx)
	}

	#[inline]
	fn on_event(&self, event: &Event<'_>, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_event(event, ctx)
	}

	#[inline]
	fn on_enter(&self, id: &span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_enter(id, ctx)
	}

	#[inline]
	fn on_exit(&self, id: &span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_exit(id, ctx)
	}

	#[inline]
	fn on_close(&self, id: span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_close(id, ctx)
	}

	#[inline]
	fn on_id_change(&self, old: &span::Id, new: &span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_id_change(old, new, ctx)
	}

	#[inline]
	fn max_level_hint(&self) -> Option<LevelFilter> {
	try_lock!(self.inner.read(), else return None).max_level_hint()
	}

	#[doc(hidden)]
	unsafe fn downcast_raw(&self, id: TypeId) -> Option<*const ()> {
	// Safety: it is generally unsafe to downcast through a reload, because
	// the pointer can be invalidated after the lock is dropped.
	// `NoneLayerMarker` is a special case because it
	// is never dereferenced.
	//
	// Additionally, even if the marker type is dereferenced (which it
	// never will be), the pointer should be valid even if the subscriber
	// is reloaded, because all `NoneLayerMarker` pointers that we return
	// actually point to the global static singleton `NoneLayerMarker`,
	// rather than to a field inside the lock.
	if id == TypeId::of::<layer::NoneLayerMarker>() {
	return try_lock!(self.inner.read(), else return None).downcast_raw(id);
	}

	None
	}
	}

	// ===== impl Filter =====

	#[cfg(all(feature = "registry", feature = "std"))]
	#[cfg_attr(docsrs, doc(cfg(all(feature = "registry", feature = "std"))))]
	impl<S, L> crate::layer::Filter<S> for Layer<L, S>
	where
	L: crate::layer::Filter<S> + 'static,
	S: Subscriber,
	{
	#[inline]
	fn callsite_enabled(&self, metadata: &'static Metadata<'static>) -> Interest {
	try_lock!(self.inner.read(), else return Interest::sometimes()).callsite_enabled(metadata)
	}

	#[inline]
	fn enabled(&self, metadata: &Metadata<'_>, ctx: &layer::Context<'_, S>) -> bool {
	try_lock!(self.inner.read(), else return false).enabled(metadata, ctx)
	}

	#[inline]
	fn on_new_span(&self, attrs: &span::Attributes<'_>, id: &span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_new_span(attrs, id, ctx)
	}

	#[inline]
	fn on_record(&self, span: &span::Id, values: &span::Record<'_>, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_record(span, values, ctx)
	}

	#[inline]
	fn on_enter(&self, id: &span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_enter(id, ctx)
	}

	#[inline]
	fn on_exit(&self, id: &span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_exit(id, ctx)
	}

	#[inline]
	fn on_close(&self, id: span::Id, ctx: layer::Context<'_, S>) {
	try_lock!(self.inner.read()).on_close(id, ctx)
	}

	#[inline]
	fn max_level_hint(&self) -> Option<LevelFilter> {
	try_lock!(self.inner.read(), else return None).max_level_hint()
	}
	}

	impl<L, S> Layer<L, S> {
	/// Wraps the given [`Layer`] or [`Filter`], returning a `reload::Layer`
	/// and a `Handle` that allows the inner value to be modified at runtime.
	///
	/// [`Layer`]: crate::layer::Layer
	/// [`Filter`]: crate::layer::Filter
	pub fn new(inner: L) -> (Self, Handle<L, S>) {
	let this = Self {
	inner: Arc::new(RwLock::new(inner)),
	_s: PhantomData,
	};
	let handle = this.handle();
	(this, handle)
	}

	/// Returns a `Handle` that can be used to reload the wrapped [`Layer`] or [`Filter`].
	///
	/// [`Layer`]: crate::layer::Layer
	/// [`Filter`]: crate::filter::Filter
	pub fn handle(&self) -> Handle<L, S> {
	Handle {
	inner: Arc::downgrade(&self.inner),
	_s: PhantomData,
	}
	}
	}

	// ===== impl Handle =====

	impl<L, S> Handle<L, S> {
	/// Replace the current [`Layer`] or [`Filter`] with the provided `new_value`.
	///
	/// [`Handle::reload`] cannot be used with the [`Filtered`] layer; use
	/// [`Handle::modify`] instead (see [this issue] for additional details).
	///
	/// However, if the _only_ the [`Filter`] needs to be modified, use
	/// `reload::Layer` to wrap the `Filter` directly.
	///
	/// [`Layer`]: crate::layer::Layer
	/// [`Filter`]: crate::layer::Filter
	/// [`Filtered`]: crate::filter::Filtered
	///
	/// [this issue]: https://github.com/tokio-rs/tracing/issues/1629
	pub fn reload(&self, new_value: impl Into<L>) -> Result<(), Error> {
	self.modify(\|layer\| {
	*layer = new_value.into();
	})
	}

	/// Invokes a closure with a mutable reference to the current layer or filter,
	/// allowing it to be modified in place.
	pub fn modify(&self, f: impl FnOnce(&mut L)) -> Result<(), Error> {
	let inner = self.inner.upgrade().ok_or(Error {
	kind: ErrorKind::SubscriberGone,
	})?;

	let mut lock = try_lock!(inner.write(), else return Err(Error::poisoned()));
	f(&mut *lock);
	// Release the lock before rebuilding the interest cache, as that
	// function will lock the new layer.
	drop(lock);

	callsite::rebuild_interest_cache();
	Ok(())
	}

	/// Returns a clone of the layer or filter's current value if it still exists.
	/// Otherwise, if the subscriber has been dropped, returns `None`.
	pub fn clone_current(&self) -> Option<L>
	where
	L: Clone,
	{
	self.with_current(L::clone).ok()
	}

	/// Invokes a closure with a borrowed reference to the current layer or filter,
	/// returning the result (or an error if the subscriber no longer exists).
	pub fn with_current<T>(&self, f: impl FnOnce(&L) -> T) -> Result<T, Error> {
	let inner = self.inner.upgrade().ok_or(Error {
	kind: ErrorKind::SubscriberGone,
	})?;
	let inner = try_lock!(inner.read(), else return Err(Error::poisoned()));
	Ok(f(&*inner))
	}
	}

	impl<L, S> Clone for Handle<L, S> {
	fn clone(&self) -> Self {
	Handle {
	inner: self.inner.clone(),
	_s: PhantomData,
	}
	}
	}

	// ===== impl Error =====

	impl Error {
	fn poisoned() -> Self {
	Self {
	kind: ErrorKind::Poisoned,
	}
	}

	/// Returns `true` if this error occurred because the layer was poisoned by
	/// a panic on another thread.
	pub fn is_poisoned(&self) -> bool {
	matches!(self.kind, ErrorKind::Poisoned)
	}

	/// Returns `true` if this error occurred because the `Subscriber`
	/// containing the reloadable layer was dropped.
	pub fn is_dropped(&self) -> bool {
	matches!(self.kind, ErrorKind::SubscriberGone)
	}
	}

	impl fmt::Display for Error {
	fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
	let msg = match self.kind {
	ErrorKind::SubscriberGone => "subscriber no longer exists",
	ErrorKind::Poisoned => "lock poisoned",
	};
	f.pad(msg)
	}
	}

	impl error::Error for Error {}