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//! A global registry where events are registered and can be
//! subscribed to by registering hooks. The registry identifies event
//! types using their type name so multiple event with the same type name
//! may not be registered (will cause a panic to ensure soundness)
use std::any::TypeId;
use anyhow::{bail, Result};
use hashbrown::hash_map::Entry;
use hashbrown::HashMap;
use parking_lot::RwLock;
use crate::hook::ErasedHook;
use crate::runtime_local;
pub struct Registry {
events: HashMap<&'static str, TypeId, ahash::RandomState>,
handlers: HashMap<&'static str, Vec<ErasedHook>, ahash::RandomState>,
}
impl Registry {
pub fn register_event<E: Event + 'static>(&mut self) {
let ty = TypeId::of::<E>();
assert_eq!(ty, TypeId::of::<E::Static>());
match self.events.entry(E::ID) {
Entry::Occupied(entry) => {
if entry.get() == &ty {
// don't warn during tests to avoid log spam
#[cfg(not(feature = "integration_test"))]
panic!("Event {} was registered multiple times", E::ID);
} else {
panic!("Multiple events with ID {} were registered", E::ID);
}
}
Entry::Vacant(ent) => {
ent.insert(ty);
self.handlers.insert(E::ID, Vec::new());
}
}
}
/// # Safety
///
/// `hook` must be totally generic over all lifetime parameters of `E`. For
/// example if `E` was a known type `Foo<'a, 'b> then the correct trait bound
/// would be `F: for<'a, 'b, 'c> Fn(&'a mut Foo<'b, 'c>)` but there is no way to
/// express that kind of constraint for a generic type with the rust type system
/// right now.
pub unsafe fn register_hook<E: Event>(
&mut self,
hook: impl Fn(&mut E) -> Result<()> + 'static + Send + Sync,
) {
// ensure event type ids match so we can rely on them always matching
let id = E::ID;
let Some(&event_id) = self.events.get(id) else {
panic!("Tried to register handler for unknown event {id}");
};
assert!(
TypeId::of::<E::Static>() == event_id,
"Tried to register invalid hook for event {id}"
);
let hook = ErasedHook::new(hook);
self.handlers.get_mut(id).unwrap().push(hook);
}
pub fn register_dynamic_hook(
&mut self,
hook: impl Fn() -> Result<()> + 'static + Send + Sync,
id: &str,
) -> Result<()> {
// ensure event type ids match so we can rely on them always matching
if self.events.get(id).is_none() {
bail!("Tried to register handler for unknown event {id}");
};
let hook = ErasedHook::new_dynamic(hook);
self.handlers.get_mut(id).unwrap().push(hook);
Ok(())
}
pub fn dispatch<E: Event>(&self, mut event: E) {
let Some(hooks) = self.handlers.get(E::ID) else {
log::error!("Dispatched unknown event {}", E::ID);
return;
};
let event_id = self.events[E::ID];
assert_eq!(
TypeId::of::<E::Static>(),
event_id,
"Tried to dispatch invalid event {}",
E::ID
);
for hook in hooks {
// safety: event type is the same
if let Err(err) = unsafe { hook.call(&mut event) } {
log::error!("{} hook failed: {err:#?}", E::ID);
crate::status::report_blocking(err);
}
}
}
}
runtime_local! {
static REGISTRY: RwLock<Registry> = RwLock::new(Registry {
// hardcoded random number is good enough here we don't care about DOS resistance
// and avoids the additional complexity of `Option<Registry>`
events: HashMap::with_hasher(ahash::RandomState::with_seeds(423, 9978, 38322, 3280080)),
handlers: HashMap::with_hasher(ahash::RandomState::with_seeds(423, 99078, 382322, 3282938)),
});
}
pub(crate) fn with<T>(f: impl FnOnce(&Registry) -> T) -> T {
f(®ISTRY.read())
}
pub(crate) fn with_mut<T>(f: impl FnOnce(&mut Registry) -> T) -> T {
f(&mut REGISTRY.write())
}
/// # Safety
/// The number of specified lifetimes and the static type *must* be correct.
/// This is ensured automatically by the [`events`](crate::events)
/// macro.
pub unsafe trait Event: Sized {
/// Globally unique (case sensitive) string that identifies this type.
/// A good candidate is the events type name
const ID: &'static str;
const LIFETIMES: usize;
type Static: Event + 'static;
}
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