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450 lines
12 KiB
450 lines
12 KiB
#![cfg(not(miri))]
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use crate::async_functions::{CountPending, PollOnce};
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use anyhow::anyhow;
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use std::sync::atomic::{AtomicBool, Ordering};
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use std::sync::Arc;
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use wasmtime::*;
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fn build_engine() -> Arc<Engine> {
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let mut config = Config::new();
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config.async_support(true);
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config.epoch_interruption(true);
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Arc::new(Engine::new(&config).unwrap())
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}
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fn make_env<T>(engine: &Engine) -> Linker<T> {
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let mut linker = Linker::new(engine);
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let engine = engine.clone();
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linker
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.func_new(
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"",
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"bump_epoch",
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FuncType::new(&engine, None, None),
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move |_caller, _params, _results| {
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engine.increment_epoch();
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Ok(())
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},
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)
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.unwrap();
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linker
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}
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enum InterruptMode {
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Trap,
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Callback(fn(StoreContextMut<usize>) -> Result<UpdateDeadline>),
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Yield(u64),
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}
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/// Run a test with the given wasm, giving an initial deadline of
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/// `initial` ticks in the future, and either configuring the wasm to
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/// yield and set a deadline `delta` ticks in the future if `delta` is
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/// `Some(..)` or trapping if `delta` is `None`.
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///
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/// Returns `Some((yields, store))` if function completed normally, giving
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/// the number of yields that occurred, or `None` if a trap occurred.
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async fn run_and_count_yields_or_trap<F: Fn(Arc<Engine>)>(
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wasm: &str,
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initial: u64,
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delta: InterruptMode,
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setup_func: F,
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) -> Option<(usize, usize)> {
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let engine = build_engine();
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let linker = make_env(&engine);
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let module = Module::new(&engine, wasm).unwrap();
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let mut store = Store::new(&engine, 0);
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store.set_epoch_deadline(initial);
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match delta {
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InterruptMode::Yield(delta) => {
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store.epoch_deadline_async_yield_and_update(delta);
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}
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InterruptMode::Callback(func) => {
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store.epoch_deadline_callback(func);
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}
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InterruptMode::Trap => {
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store.epoch_deadline_trap();
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}
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}
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let engine_clone = engine.clone();
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setup_func(engine_clone);
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let instance = linker.instantiate_async(&mut store, &module).await.unwrap();
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let f = instance.get_func(&mut store, "run").unwrap();
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let (result, yields) =
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CountPending::new(Box::pin(f.call_async(&mut store, &[], &mut []))).await;
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let store = store.data();
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return result.ok().map(|_| (yields, *store));
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}
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#[tokio::test]
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async fn epoch_yield_at_func_entry() {
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// Should yield at start of call to func $subfunc.
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assert_eq!(
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Some((1, 0)),
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")
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call $bump ;; bump epoch
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call $subfunc) ;; call func; will notice new epoch and yield
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(func $subfunc))
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",
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1,
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InterruptMode::Yield(1),
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|_| {},
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)
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.await
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);
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}
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#[tokio::test]
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async fn epoch_yield_at_loop_header() {
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// Should yield at top of loop, once per five iters.
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assert_eq!(
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Some((2, 0)),
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")
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(local $i i32)
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(local.set $i (i32.const 10))
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(loop $l
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call $bump
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(br_if $l (local.tee $i (i32.sub (local.get $i) (i32.const 1)))))))
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",
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0,
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InterruptMode::Yield(5),
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|_| {},
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)
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.await
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);
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}
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#[tokio::test]
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async fn epoch_yield_immediate() {
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// We should see one yield immediately when the initial deadline
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// is zero.
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assert_eq!(
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Some((1, 0)),
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")))
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",
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0,
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InterruptMode::Yield(1),
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|_| {},
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)
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.await
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);
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}
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#[tokio::test]
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async fn epoch_yield_only_once() {
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// We should yield from the subfunction, and then when we return
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// to the outer function and hit another loop header, we should
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// not yield again (the double-check block will reload the correct
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// epoch).
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assert_eq!(
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Some((1, 0)),
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")
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(local $i i32)
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(call $subfunc)
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(local.set $i (i32.const 0))
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(loop $l
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(br_if $l (i32.eq (i32.const 10)
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(local.tee $i (i32.add (i32.const 1) (local.get $i)))))))
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(func $subfunc
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(call $bump)))
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",
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1,
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InterruptMode::Yield(1),
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|_| {},
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)
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.await
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);
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}
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#[tokio::test]
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async fn epoch_interrupt_infinite_loop() {
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assert_eq!(
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None,
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")
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(loop $l
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(br $l))))
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",
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1,
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InterruptMode::Trap,
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|engine| {
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std::thread::spawn(move || {
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std::thread::sleep(std::time::Duration::from_millis(50));
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engine.increment_epoch();
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});
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},
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)
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.await
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);
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}
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#[tokio::test]
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async fn epoch_interrupt_function_entries() {
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assert_eq!(
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None,
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")
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call $f1
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call $f1
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call $f1
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call $f1
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call $f1
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call $f1
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call $f1
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call $f1
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call $f1
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call $f1)
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(func $f1
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call $f2
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call $f2
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call $f2
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call $f2
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call $f2
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call $f2
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call $f2
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call $f2
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call $f2
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call $f2)
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(func $f2
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call $f3
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call $f3
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call $f3
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call $f3
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call $f3
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call $f3
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call $f3
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call $f3
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call $f3
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call $f3)
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(func $f3
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call $f4
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call $f4
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call $f4
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call $f4
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call $f4
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call $f4
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call $f4
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call $f4
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call $f4
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call $f4)
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(func $f4
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call $f5
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call $f5
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call $f5
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call $f5
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call $f5
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call $f5
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call $f5
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call $f5
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call $f5
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call $f5)
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(func $f5
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call $f6
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call $f6
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call $f6
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call $f6
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call $f6
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call $f6
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call $f6
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call $f6
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call $f6
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call $f6)
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(func $f6
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call $f7
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call $f7
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call $f7
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call $f7
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call $f7
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call $f7
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call $f7
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call $f7
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call $f7
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call $f7)
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(func $f7
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call $f8
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call $f8
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call $f8
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call $f8
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call $f8
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call $f8
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call $f8
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call $f8
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call $f8
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call $f8)
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(func $f8
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call $f9
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call $f9
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call $f9
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call $f9
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call $f9
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call $f9
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call $f9
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call $f9
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call $f9
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call $f9)
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(func $f9))
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",
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1,
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InterruptMode::Trap,
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|engine| {
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std::thread::spawn(move || {
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std::thread::sleep(std::time::Duration::from_millis(50));
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engine.increment_epoch();
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});
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},
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)
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.await
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);
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}
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#[tokio::test]
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async fn epoch_callback_continue() {
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assert_eq!(
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Some((0, 1)),
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")
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call $bump ;; bump epoch
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call $subfunc) ;; call func; will notice new epoch and yield
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(func $subfunc))
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",
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1,
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InterruptMode::Callback(|mut cx| {
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let s = cx.data_mut();
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*s += 1;
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Ok(UpdateDeadline::Continue(1))
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}),
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|_| {},
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)
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.await
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);
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}
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#[tokio::test]
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async fn epoch_callback_yield() {
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assert_eq!(
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Some((1, 1)),
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")
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call $bump ;; bump epoch
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call $subfunc) ;; call func; will notice new epoch and yield
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(func $subfunc))
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",
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1,
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InterruptMode::Callback(|mut cx| {
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let s = cx.data_mut();
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*s += 1;
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Ok(UpdateDeadline::Yield(1))
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}),
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|_| {},
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)
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.await
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);
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}
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#[tokio::test]
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async fn epoch_callback_trap() {
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assert_eq!(
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None,
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run_and_count_yields_or_trap(
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"
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(func (export \"run\")
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call $bump ;; bump epoch
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call $subfunc) ;; call func; will notice new epoch and yield
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(func $subfunc))
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",
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1,
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InterruptMode::Callback(|_| Err(anyhow!("Failing in callback"))),
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|_| {},
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)
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.await
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);
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}
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#[tokio::test]
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async fn drop_future_on_epoch_yield() {
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let wasm = "
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(module
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(import \"\" \"bump_epoch\" (func $bump))
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(import \"\" \"im_alive\" (func $im_alive))
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(import \"\" \"oops\" (func $oops))
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(func (export \"run\")
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(call $im_alive)
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(call $bump)
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(call $subfunc) ;; subfunc entry to do epoch check
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(call $oops))
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(func $subfunc))
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";
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let engine = build_engine();
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let mut linker = make_env(&engine);
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// Create a few helpers for the Wasm to call.
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let alive_flag = Arc::new(AtomicBool::new(false));
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let alive_flag_clone = alive_flag.clone();
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linker
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.func_new(
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"",
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"oops",
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FuncType::new(&engine, None, None),
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move |_caller, _params, _results| {
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panic!("Should not have reached this point!");
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},
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)
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.unwrap();
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linker
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.func_new(
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"",
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"im_alive",
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FuncType::new(&engine, None, None),
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move |_caller, _params, _results| {
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alive_flag_clone.store(true, Ordering::Release);
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Ok(())
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},
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)
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.unwrap();
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let module = Module::new(&engine, wasm).unwrap();
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let mut store = Store::new(&engine, ());
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store.set_epoch_deadline(1);
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store.epoch_deadline_async_yield_and_update(1);
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let instance = linker.instantiate_async(&mut store, &module).await.unwrap();
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let f = instance.get_func(&mut store, "run").unwrap();
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let _ = PollOnce::new(Box::pin(f.call_async(&mut store, &[], &mut []))).await;
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assert_eq!(true, alive_flag.load(Ordering::Acquire));
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}
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