mirror of
https://gitlab.com/fabinfra/fabaccess/bffh.git
synced 2024-11-24 15:47:57 +01:00
138 lines
4.3 KiB
Rust
138 lines
4.3 KiB
Rust
use executor::blocking;
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use executor::prelude::ProcStack;
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use executor::run::run;
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use futures_util::future::join_all;
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use lightproc::recoverable_handle::RecoverableHandle;
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use std::thread;
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use std::time::Duration;
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use std::time::Instant;
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// Test for slow joins without task bursts during joins.
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#[test]
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#[ignore]
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fn slow_join() {
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let thread_join_time_max = 11_000;
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let start = Instant::now();
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// Send an initial batch of million bursts.
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let handles = (0..1_000_000)
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.map(|_| {
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blocking::spawn_blocking(async {
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let duration = Duration::from_millis(1);
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thread::sleep(duration);
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})
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})
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.collect::<Vec<RecoverableHandle<()>>>();
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run(join_all(handles), ProcStack {});
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// Let them join to see how it behaves under different workloads.
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let duration = Duration::from_millis(thread_join_time_max);
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thread::sleep(duration);
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// Spawn yet another batch of work on top of it
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let handles = (0..10_000)
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.map(|_| {
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blocking::spawn_blocking(async {
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let duration = Duration::from_millis(100);
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thread::sleep(duration);
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})
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})
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.collect::<Vec<RecoverableHandle<()>>>();
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run(join_all(handles), ProcStack {});
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// Slow joins shouldn't cause internal slow down
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let elapsed = start.elapsed().as_millis() - thread_join_time_max as u128;
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println!("Slow task join. Monotonic exec time: {:?} ns", elapsed);
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// Previous implementation is around this threshold.
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}
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// Test for slow joins with task burst.
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#[test]
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#[ignore]
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fn slow_join_interrupted() {
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let thread_join_time_max = 2_000;
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let start = Instant::now();
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// Send an initial batch of million bursts.
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let handles = (0..1_000_000)
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.map(|_| {
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blocking::spawn_blocking(async {
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let duration = Duration::from_millis(1);
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thread::sleep(duration);
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})
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})
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.collect::<Vec<RecoverableHandle<()>>>();
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run(join_all(handles), ProcStack {});
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// Let them join to see how it behaves under different workloads.
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// This time join under the time window.
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let duration = Duration::from_millis(thread_join_time_max);
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thread::sleep(duration);
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// Spawn yet another batch of work on top of it
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let handles = (0..10_000)
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.map(|_| {
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blocking::spawn_blocking(async {
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let duration = Duration::from_millis(100);
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thread::sleep(duration);
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})
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})
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.collect::<Vec<RecoverableHandle<()>>>();
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run(join_all(handles), ProcStack {});
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// Slow joins shouldn't cause internal slow down
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let elapsed = start.elapsed().as_millis() - thread_join_time_max as u128;
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println!("Slow task join. Monotonic exec time: {:?} ns", elapsed);
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// Previous implementation is around this threshold.
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}
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// This test is expensive but it proves that longhauling tasks are working in adaptive thread pool.
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// Thread pool which spawns on-demand will panic with this test.
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#[test]
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#[ignore]
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fn longhauling_task_join() {
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let thread_join_time_max = 11_000;
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let start = Instant::now();
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// First batch of overhauling tasks
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let _ = (0..100_000)
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.map(|_| {
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blocking::spawn_blocking(async {
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let duration = Duration::from_millis(1000);
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thread::sleep(duration);
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})
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})
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.collect::<Vec<RecoverableHandle<()>>>();
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// Let them join to see how it behaves under different workloads.
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let duration = Duration::from_millis(thread_join_time_max);
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thread::sleep(duration);
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// Send yet another medium sized batch to see how it scales.
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let handles = (0..10_000)
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.map(|_| {
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blocking::spawn_blocking(async {
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let duration = Duration::from_millis(100);
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thread::sleep(duration);
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})
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})
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.collect::<Vec<RecoverableHandle<()>>>();
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run(join_all(handles), ProcStack {});
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// Slow joins shouldn't cause internal slow down
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let elapsed = start.elapsed().as_millis() - thread_join_time_max as u128;
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println!(
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"Long-hauling task join. Monotonic exec time: {:?} ns",
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elapsed
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);
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// Previous implementation will panic when this test is running.
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}
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