fabaccess-bffh/runtime/lightproc/src/lightproc.rs

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//!
//! Lightweight process implementation which enables users
//! to create either panic recoverable process or
//! ordinary process.
//!
//! Lightweight processes needs a stack to use their lifecycle
//! operations like `before_start`, `after_complete` and more...
//!
//! # Example Usage
//!
//! ```rust
//! use lightproc::prelude::*;
//!
//! // ... future that does work
//! let future = async {
//! println!("Doing some work");
//! };
//!
//! // ... basic schedule function with no waker logic
//! fn schedule_function(proc: LightProc) {;}
//!
//! // ... creating a recoverable process
//! let panic_recoverable = LightProc::recoverable(
//! future,
//! schedule_function,
//! );
//! ```
use crate::proc_data::ProcData;
use crate::proc_ext::ProcFutureExt;
use crate::proc_handle::ProcHandle;
use crate::raw_proc::RawProc;
use crate::recoverable_handle::RecoverableHandle;
use std::fmt::{self, Debug, Formatter};
use std::future::Future;
use std::mem::ManuallyDrop;
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use std::panic::AssertUnwindSafe;
use std::ptr::NonNull;
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use tracing::Span;
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/// Shared functionality for both Send and !Send LightProc
pub struct LightProc {
/// A pointer to the heap-allocated proc.
pub(crate) raw_proc: NonNull<()>,
}
// LightProc is both Sync and Send because it explicitly handles synchronization internally:
// The state of a `LightProc` is only modified atomically guaranteeing a consistent view from all
// threads. Existing wakers (and the proc_handle) are atomically reference counted so the proc
// itself will not be dropped until all pointers to it are themselves dropped.
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// However, if the future or result inside the LightProc is !Send the executor must ensure that
// the `schedule` function does not move the LightProc to a different thread.
unsafe impl Send for LightProc {}
unsafe impl Sync for LightProc {}
impl LightProc {
/// Creates a recoverable process which will catch panics in the given future.
///
/// # Example
/// ```rust
/// # use std::any::Any;
/// # use lightproc::prelude::*;
/// #
/// # // ... basic schedule function with no waker logic
/// # fn schedule_function(proc: LightProc) {;}
/// #
/// let future = async {
/// panic!("oh no!");
/// };
/// // ... creating a recoverable process
/// let (proc, handle) = LightProc::recoverable(
/// future,
/// schedule_function,
/// );
/// let handle = handle.on_panic(|s: &mut EmptyProcState, e: Box<dyn Any + Send>| {
/// let reason = e.downcast::<String>();
/// println!("future panicked!: {}", &reason);
/// });
/// ```
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pub fn recoverable<'a, F, R, S>(
future: F,
schedule: S,
span: Span,
) -> (Self, RecoverableHandle<R>)
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where
F: Future<Output = R> + 'a,
R: 'a,
S: Fn(LightProc) + 'a,
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{
let recovery_future = AssertUnwindSafe(future).catch_unwind();
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let (proc, handle) = Self::build(recovery_future, schedule, span);
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(proc, RecoverableHandle::new(handle))
}
///
/// Creates a process which will stop its execution on occurrence of panic.
///
/// # Example
/// ```rust
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/// # use tracing::Span;
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/// # use lightproc::prelude::*;
/// #
/// # // ... future that does work
/// # let future = async {
/// # println!("Doing some work");
/// # };
/// #
/// # // ... basic schedule function with no waker logic
/// # fn schedule_function(proc: LightProc) {;}
/// #
/// # // ... process stack with a lifecycle callback
/// # let proc_stack =
/// # ProcStack::default()
/// # .with_after_panic(|s: &mut EmptyProcState| {
/// # println!("After panic started!");
/// # });
/// #
/// // ... creating a standard process
/// let standard = LightProc::build(
/// future,
/// schedule_function,
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/// Span::current(),
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/// );
/// ```
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pub fn build<'a, F, R, S>(future: F, schedule: S, span: Span) -> (Self, ProcHandle<R>)
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where
F: Future<Output = R> + 'a,
R: 'a,
S: Fn(LightProc) + 'a,
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{
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let raw_proc = RawProc::allocate(future, schedule, span);
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let proc = LightProc { raw_proc };
let handle = ProcHandle::new(raw_proc);
(proc, handle)
}
///
/// Schedule the lightweight process with passed `schedule` function at the build time.
pub fn schedule(self) {
let this = ManuallyDrop::new(self);
let ptr = this.raw_proc.as_ptr();
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let pdata = ptr as *const ProcData;
unsafe {
((*pdata).vtable.schedule)(ptr);
}
}
/// Run this LightProc.
///
/// "Running" a lightproc means ticking it once and if it doesn't complete
/// immediately re-scheduling it as soon as it's Waker wakes it back up.
pub fn run(self) {
let this = ManuallyDrop::new(self);
let ptr = this.raw_proc.as_ptr();
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let pdata = ptr as *const ProcData;
unsafe {
((*pdata).vtable.tick)(ptr);
}
}
/// Cancel polling the lightproc's inner future, thus cancelling the proc itself.
pub fn cancel(&self) {
let ptr = self.raw_proc.as_ptr();
let pdata = ptr as *const ProcData;
unsafe {
(*pdata).cancel();
}
}
}
impl Debug for LightProc {
fn fmt(&self, fmt: &mut Formatter) -> fmt::Result {
let ptr = self.raw_proc.as_ptr();
let pdata = ptr as *const ProcData;
fmt.debug_struct("LightProc")
.field("pdata", unsafe { &(*pdata) })
.finish()
}
}
impl Drop for LightProc {
fn drop(&mut self) {
let ptr = self.raw_proc.as_ptr();
let pdata = ptr as *const ProcData;
unsafe {
// Cancel the proc.
(*pdata).cancel();
// Drop the future.
((*pdata).vtable.drop_future)(ptr);
// Drop the proc reference.
((*pdata).vtable.decrement)(ptr);
}
}
}