//! A utility module for working with threads that automatically joins threads upon drop
//! and provides functionality for interfacing with operating system quality of service (QoS) APIs.
//!
//! As a system, rust-analyzer should have the property that
//! old manual scheduling APIs are replaced entirely by QoS.
//! To maintain this invariant, we panic when it is clear that
//! old scheduling APIs have been used.
//!
//! Moreover, we also want to ensure that every thread has a QoS set explicitly
//! to force a decision about its importance to the system.
//! Thus, [`QoSClass`] has no default value
//! and every entry point to creating a thread requires a [`QoSClass`] upfront.
use std::fmt;
pub fn spawn<F, T>(qos_class: QoSClass, f: F) -> JoinHandle<T>
where
F: FnOnce() -> T,
F: Send + 'static,
T: Send + 'static,
{
Builder::new(qos_class).spawn(f).expect("failed to spawn thread")
}
pub struct Builder {
qos_class: QoSClass,
inner: jod_thread::Builder,
allow_leak: bool,
}
impl Builder {
pub fn new(qos_class: QoSClass) -> Builder {
Builder { qos_class, inner: jod_thread::Builder::new(), allow_leak: false }
}
pub fn name(self, name: String) -> Builder {
Builder { inner: self.inner.name(name), ..self }
}
pub fn stack_size(self, size: usize) -> Builder {
Builder { inner: self.inner.stack_size(size), ..self }
}
pub fn allow_leak(self, b: bool) -> Builder {
Builder { allow_leak: b, ..self }
}
pub fn spawn<F, T>(self, f: F) -> std::io::Result<JoinHandle<T>>
where
F: FnOnce() -> T,
F: Send + 'static,
T: Send + 'static,
{
let inner_handle = self.inner.spawn(move || {
set_current_thread_qos_class(self.qos_class);
f()
})?;
Ok(JoinHandle { inner: Some(inner_handle), allow_leak: self.allow_leak })
}
}
pub struct JoinHandle<T = ()> {
// `inner` is an `Option` so that we can
// take ownership of the contained `JoinHandle`
// in the `Drop` impl below.
inner: Option<jod_thread::JoinHandle<T>>,
allow_leak: bool,
}
impl<T> JoinHandle<T> {
pub fn join(mut self) -> T {
self.inner.take().unwrap().join()
}
}
impl<T> Drop for JoinHandle<T> {
fn drop(&mut self) {
if !self.allow_leak {
return;
}
if let Some(join_handle) = self.inner.take() {
join_handle.detach();
}
}
}
impl<T> fmt::Debug for JoinHandle<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.pad("JoinHandle { .. }")
}
}
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
pub enum QoSClass {
// Maintain order in priority from least to most.
Background,
Utility,
UserInitiated,
UserInteractive,
}
#[cfg(target_vendor = "apple")]
pub const IS_QOS_AVAILABLE: bool = true;
#[cfg(not(target_vendor = "apple"))]
pub const IS_QOS_AVAILABLE: bool = false;
// All Apple platforms use XNU as their kernel
// and thus have the concept of QoS.
#[cfg(target_vendor = "apple")]
pub fn set_current_thread_qos_class(class: QoSClass) {
let c = match class {
QoSClass::UserInteractive => libc::qos_class_t::QOS_CLASS_USER_INTERACTIVE,
QoSClass::UserInitiated => libc::qos_class_t::QOS_CLASS_USER_INITIATED,
QoSClass::Utility => libc::qos_class_t::QOS_CLASS_UTILITY,
QoSClass::Background => libc::qos_class_t::QOS_CLASS_BACKGROUND,
};
let code = unsafe { libc::pthread_set_qos_class_self_np(c, 0) };
if code == 0 {
return;
}
let errno = unsafe { *libc::__error() };
match errno {
libc::EPERM => {
// This thread has been excluded from the QoS system
// due to a previous call to a function such as `pthread_setschedparam`
// which is incompatible with QoS.
//
// Let’s just panic here because rust-analyzer as a system
// should have the property that QoS is used consistently
// instead of old manual scheduling management APIs.
panic!("tried to set QoS of thread which has opted out of QoS (os error {errno})")
}
libc::EINVAL => {
// This is returned if we pass something other than a qos_class_t
// to `pthread_set_qos_class_self_np`.
//
// This is impossible, so again panic.
unreachable!("invalid qos_class_t value was passed to pthread_set_qos_class_self_np")
}
_ => {
// `pthread_set_qos_class_self_np`’s documentation
// does not mention any other errors.
unreachable!("`pthread_set_qos_class_self_np` returned unexpected error {errno}")
}
}
}
#[cfg(not(target_vendor = "apple"))]
pub fn set_current_thread_qos_class(class: QoSClass) {
// FIXME: Windows has QoS APIs, we should use them!
}
#[cfg(target_vendor = "apple")]
pub fn get_current_thread_qos_class() -> Option<QoSClass> {
let current_thread = unsafe { libc::pthread_self() };
let mut qos_class_raw = libc::qos_class_t::QOS_CLASS_UNSPECIFIED;
let code = unsafe {
libc::pthread_get_qos_class_np(current_thread, &mut qos_class_raw, std::ptr::null_mut())
};
if code != 0 {
// `pthread_get_qos_class_np`’s documentation states that
// an error value is placed into errno if the return code is not zero.
// However, it never states what errors are possible.
// Inspecting the source[0] shows that, as of this writing, it always returns zero.
//
// Whatever errors the function could report in future are likely to be
// ones which we cannot handle anyway
//
// 0: https://github.com/apple-oss-distributions/libpthread/blob/67e155c94093be9a204b69637d198eceff2c7c46/src/qos.c#L171-L177
let errno = unsafe { *libc::__error() };
unreachable!("`pthread_get_qos_class_np` failed unexpectedly (os error {errno})");
}
match qos_class_raw {
libc::qos_class_t::QOS_CLASS_USER_INTERACTIVE => Some(QoSClass::UserInteractive),
libc::qos_class_t::QOS_CLASS_USER_INITIATED => Some(QoSClass::UserInitiated),
libc::qos_class_t::QOS_CLASS_DEFAULT => None, // QoS has never been set
libc::qos_class_t::QOS_CLASS_UTILITY => Some(QoSClass::Utility),
libc::qos_class_t::QOS_CLASS_BACKGROUND => Some(QoSClass::Background),
libc::qos_class_t::QOS_CLASS_UNSPECIFIED => {
// We panic here because rust-analyzer should never use
panic!("tried to get QoS of thread which has opted out of QoS")
}
}
}
#[cfg(not(target_vendor = "apple"))]
pub fn get_current_thread_qos_class() -> Option<QoSClass> {
None
}