proxmox-backup/pbs-runtime/src/lib.rs
Wolfgang Bumiller 4906bac10f linking fixup
Signed-off-by: Wolfgang Bumiller <w.bumiller@proxmox.com>
2021-07-07 11:59:33 +02:00

204 lines
5.7 KiB
Rust

//! Helpers for quirks of the current tokio runtime.
use std::cell::RefCell;
use std::future::Future;
use std::sync::{Arc, Weak, Mutex};
use std::task::{Context, Poll, RawWaker, Waker};
use std::thread::{self, Thread};
use lazy_static::lazy_static;
use pin_utils::pin_mut;
use tokio::runtime::{self, Runtime};
thread_local! {
static BLOCKING: RefCell<bool> = RefCell::new(false);
}
fn is_in_tokio() -> bool {
tokio::runtime::Handle::try_current()
.is_ok()
}
fn is_blocking() -> bool {
BLOCKING.with(|v| *v.borrow())
}
struct BlockingGuard(bool);
impl BlockingGuard {
fn set() -> Self {
Self(BLOCKING.with(|v| {
let old = *v.borrow();
*v.borrow_mut() = true;
old
}))
}
}
impl Drop for BlockingGuard {
fn drop(&mut self) {
BLOCKING.with(|v| {
*v.borrow_mut() = self.0;
});
}
}
lazy_static! {
// avoid openssl bug: https://github.com/openssl/openssl/issues/6214
// by dropping the runtime as early as possible
static ref RUNTIME: Mutex<Weak<Runtime>> = Mutex::new(Weak::new());
}
#[link(name = "crypto")]
extern "C" {
fn OPENSSL_thread_stop();
}
/// Get or create the current main tokio runtime.
///
/// This makes sure that tokio's worker threads are marked for us so that we know whether we
/// can/need to use `block_in_place` in our `block_on` helper.
pub fn get_runtime_with_builder<F: Fn() -> runtime::Builder>(get_builder: F) -> Arc<Runtime> {
let mut guard = RUNTIME.lock().unwrap();
if let Some(rt) = guard.upgrade() { return rt; }
let mut builder = get_builder();
builder.on_thread_stop(|| {
// avoid openssl bug: https://github.com/openssl/openssl/issues/6214
// call OPENSSL_thread_stop to avoid race with openssl cleanup handlers
unsafe { OPENSSL_thread_stop(); }
});
let runtime = builder.build().expect("failed to spawn tokio runtime");
let rt = Arc::new(runtime);
*guard = Arc::downgrade(&rt);
rt
}
/// Get or create the current main tokio runtime.
///
/// This calls get_runtime_with_builder() using the tokio default threaded scheduler
pub fn get_runtime() -> Arc<Runtime> {
get_runtime_with_builder(|| {
let mut builder = runtime::Builder::new_multi_thread();
builder.enable_all();
builder
})
}
/// Block on a synchronous piece of code.
pub fn block_in_place<R>(fut: impl FnOnce() -> R) -> R {
// don't double-exit the context (tokio doesn't like that)
// also, if we're not actually in a tokio-worker we must not use block_in_place() either
if is_blocking() || !is_in_tokio() {
fut()
} else {
// we are in an actual tokio worker thread, block it:
tokio::task::block_in_place(move || {
let _guard = BlockingGuard::set();
fut()
})
}
}
/// Block on a future in this thread.
pub fn block_on<F: Future>(fut: F) -> F::Output {
// don't double-exit the context (tokio doesn't like that)
if is_blocking() {
block_on_local_future(fut)
} else if is_in_tokio() {
// inside a tokio worker we need to tell tokio that we're about to really block:
tokio::task::block_in_place(move || {
let _guard = BlockingGuard::set();
block_on_local_future(fut)
})
} else {
// not a worker thread, not associated with a runtime, make sure we have a runtime (spawn
// it on demand if necessary), then enter it
let _guard = BlockingGuard::set();
let _enter_guard = get_runtime().enter();
get_runtime().block_on(fut)
}
}
/*
fn block_on_impl<F>(mut fut: F) -> F::Output
where
F: Future + Send,
F::Output: Send + 'static,
{
let (tx, rx) = tokio::sync::oneshot::channel();
let fut_ptr = &mut fut as *mut F as usize; // hack to not require F to be 'static
tokio::spawn(async move {
let fut: F = unsafe { std::ptr::read(fut_ptr as *mut F) };
tx
.send(fut.await)
.map_err(drop)
.expect("failed to send block_on result to channel")
});
futures::executor::block_on(async move {
rx.await.expect("failed to receive block_on result from channel")
})
std::mem::forget(fut);
}
*/
/// This used to be our tokio main entry point. Now this just calls out to `block_on` for
/// compatibility, which will perform all the necessary tasks on-demand anyway.
pub fn main<F: Future>(fut: F) -> F::Output {
block_on(fut)
}
fn block_on_local_future<F: Future>(fut: F) -> F::Output {
pin_mut!(fut);
let waker = Arc::new(thread::current());
let waker = thread_waker_clone(Arc::into_raw(waker) as *const ());
let waker = unsafe { Waker::from_raw(waker) };
let mut context = Context::from_waker(&waker);
loop {
match fut.as_mut().poll(&mut context) {
Poll::Ready(out) => return out,
Poll::Pending => thread::park(),
}
}
}
const THREAD_WAKER_VTABLE: std::task::RawWakerVTable = std::task::RawWakerVTable::new(
thread_waker_clone,
thread_waker_wake,
thread_waker_wake_by_ref,
thread_waker_drop,
);
fn thread_waker_clone(this: *const ()) -> RawWaker {
let this = unsafe { Arc::from_raw(this as *const Thread) };
let cloned = Arc::clone(&this);
let _ = Arc::into_raw(this);
RawWaker::new(Arc::into_raw(cloned) as *const (), &THREAD_WAKER_VTABLE)
}
fn thread_waker_wake(this: *const ()) {
let this = unsafe { Arc::from_raw(this as *const Thread) };
this.unpark();
}
fn thread_waker_wake_by_ref(this: *const ()) {
let this = unsafe { Arc::from_raw(this as *const Thread) };
this.unpark();
let _ = Arc::into_raw(this);
}
fn thread_waker_drop(this: *const ()) {
let this = unsafe { Arc::from_raw(this as *const Thread) };
drop(this);
}