Background task manager #332

Merged
lx merged 35 commits from background-task-manager into main 2022-07-08 11:30:32 +00:00
8 changed files with 89 additions and 27 deletions
Showing only changes of commit 59b43914d4 - Show all commits

View file

@ -734,12 +734,9 @@ impl Worker for ResyncWorker {
) -> Result<WorkerStatus, Error> {
self.tranquilizer.reset();
match self.manager.resync_iter().await {
Ok(ResyncIterResult::BusyDidSomething) => {
self.tranquilizer
.tranquilize(self.manager.background_tranquility)
.await;
Ok(WorkerStatus::Busy)
}
Ok(ResyncIterResult::BusyDidSomething) => Ok(self
.tranquilizer
.tranquilize_worker(self.manager.background_tranquility)),
Ok(ResyncIterResult::BusyDidNothing) => Ok(WorkerStatus::Busy),
Ok(ResyncIterResult::IdleFor(delay)) => {
self.next_delay = delay;
@ -750,10 +747,8 @@ impl Worker for ResyncWorker {
// We don't really know how to handle them so just ¯\_(ツ)_/¯
// (there is kind of an assumption that Sled won't error on us,
// if it does there is not much we can do -- TODO should we just panic?)
error!(
"Could not do a resync iteration: {} (this is a very bad error)",
e
);
// Here we just give the error to the worker manager,
// it will print it to the logs and increment a counter
Err(e.into())
}
}

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@ -138,8 +138,7 @@ impl Worker for ScrubWorker {
self.tranquilizer.reset();
if let Some(hash) = self.iterator.next().await? {
let _ = self.manager.read_block(&hash).await;
self.tranquilizer.tranquilize(self.tranquility).await;
Ok(WorkerStatus::Busy)
Ok(self.tranquilizer.tranquilize_worker(self.tranquility))
} else {
Ok(WorkerStatus::Done)
}

View file

@ -835,7 +835,9 @@ impl AdminRpcHandler {
let workers = if busy {
workers
.into_iter()
.filter(|(_, w)| w.status == WorkerStatus::Busy)
.filter(|(_, w)| {
matches!(w.status, WorkerStatus::Busy | WorkerStatus::Throttled(_))
})
.collect()
} else {
workers

View file

@ -242,7 +242,7 @@ pub fn print_worker_info(wi: HashMap<usize, WorkerInfo>) {
wi.sort_by_key(|(tid, info)| {
(
match info.status {
WorkerStatus::Busy => 0,
WorkerStatus::Busy | WorkerStatus::Throttled(_) => 0,
WorkerStatus::Idle => 1,
WorkerStatus::Done => 2,
},
@ -256,6 +256,20 @@ pub fn print_worker_info(wi: HashMap<usize, WorkerInfo>) {
if let Some(i) = &info.info {
table.push(format!("\t\t{}", i));
}
if info.consecutive_errors > 0 {
table.push(format!(
"\t\t{} CONSECUTIVE ERRORS ({} total), last: {}",
info.consecutive_errors,
info.errors,
info.last_error.as_deref().unwrap_or("(?)")
));
} else if info.errors > 0 {
table.push(format!(
"\t\t{} errors, last: {}",
info.errors,
info.last_error.as_deref().unwrap_or("(?)")
));
}
}
format_table(table);
}

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@ -2,7 +2,6 @@ use core::ops::Bound;
use std::collections::{hash_map, BTreeMap, HashMap};
use std::marker::PhantomData;
use std::sync::Arc;
use std::time::Duration;
use async_trait::async_trait;
use serde::{Deserialize, Serialize};
@ -408,6 +407,10 @@ impl<T: CountedItem> Worker for IndexPropagatorWorker<T> {
format!("{} index counter propagator", T::COUNTER_TABLE_NAME)
}
fn info(&self) -> Option<String> {
Some(format!("{} items in queue", self.buf.len()))
}
async fn work(&mut self, must_exit: &mut watch::Receiver<bool>) -> Result<WorkerStatus, Error> {
// This loop batches updates to counters to be sent all at once.
// They are sent once the propagate_rx channel has been emptied (or is closed).
@ -429,9 +432,10 @@ impl<T: CountedItem> Worker for IndexPropagatorWorker<T> {
error!("({}) Could not propagate {} counter values: {}, these counters will not be updated correctly.", T::COUNTER_TABLE_NAME, self.buf.len(), e);
return Ok(WorkerStatus::Done);
}
warn!("({}) Could not propagate {} counter values: {}, retrying in 5 seconds (retry #{})", T::COUNTER_TABLE_NAME, self.buf.len(), e, self.errors);
tokio::time::sleep(Duration::from_secs(5)).await;
return Ok(WorkerStatus::Busy);
// Propagate error up to worker manager, it will log it, increment a counter,
// and sleep for a certain delay (with exponential backoff), waiting for
// things to go back to normal
return Err(e);
} else {
self.buf.clear();
self.errors = 0;

View file

@ -31,6 +31,9 @@ pub struct WorkerInfo {
pub name: String,
pub info: Option<String>,
pub status: WorkerStatus,
pub errors: usize,
pub consecutive_errors: usize,
pub last_error: Option<String>,
}
impl BackgroundRunner {

View file

@ -17,6 +17,7 @@ use crate::error::Error;
#[derive(PartialEq, Copy, Clone, Debug, Serialize, Deserialize)]
pub enum WorkerStatus {
Busy,
Throttled(f32),
Idle,
Done,
}
@ -82,14 +83,17 @@ impl WorkerProcessor {
next_task_id += 1;
let stop_signal = self.stop_signal.clone();
let stop_signal_worker = self.stop_signal.clone();
workers.push(async move {
let mut worker = WorkerHandler {
task_id,
stop_signal,
stop_signal_worker,
worker: new_worker,
status: WorkerStatus::Busy,
errors: 0,
consecutive_errors: 0,
last_error: None,
};
workers.push(async move {
worker.step().await;
worker
}.boxed());
@ -98,21 +102,31 @@ impl WorkerProcessor {
worker = await_next_worker => {
if let Some(mut worker) = worker {
trace!("{} (TID {}): {:?}", worker.worker.name(), worker.task_id, worker.status);
// Save worker info
let mut wi = self.worker_info.lock().unwrap();
match wi.get_mut(&worker.task_id) {
Some(i) => {
i.status = worker.status;
i.info = worker.worker.info();
i.errors = worker.errors;
i.consecutive_errors = worker.consecutive_errors;
if worker.last_error.is_some() {
i.last_error = worker.last_error.take();
}
}
None => {
wi.insert(worker.task_id, WorkerInfo {
name: worker.worker.name(),
status: worker.status,
info: worker.worker.info(),
errors: worker.errors,
consecutive_errors: worker.consecutive_errors,
last_error: worker.last_error.take(),
});
}
}
// TODO save new worker status somewhere
if worker.status == WorkerStatus::Done {
info!("Worker {} (TID {}) exited", worker.worker.name(), worker.task_id);
} else {
@ -169,6 +183,9 @@ struct WorkerHandler {
stop_signal_worker: watch::Receiver<bool>,
worker: Box<dyn Worker>,
status: WorkerStatus,
errors: usize,
consecutive_errors: usize,
last_error: Option<String>,
}
impl WorkerHandler {
@ -177,6 +194,7 @@ impl WorkerHandler {
WorkerStatus::Busy => match self.worker.work(&mut self.stop_signal).await {
Ok(s) => {
self.status = s;
self.consecutive_errors = 0;
}
Err(e) => {
error!(
@ -185,11 +203,21 @@ impl WorkerHandler {
self.task_id,
e
);
// Sleep a bit so that error won't repeat immediately
// (TODO good way to handle errors)
tokio::time::sleep(Duration::from_secs(10)).await;
self.errors += 1;
self.consecutive_errors += 1;
self.last_error = Some(format!("{}", e));
// Sleep a bit so that error won't repeat immediately, exponential backoff
// strategy (min 1sec, max ~60sec)
self.status = WorkerStatus::Throttled(
(1.5f32).powf(std::cmp::min(10, self.consecutive_errors - 1) as f32),
);
}
},
WorkerStatus::Throttled(delay) => {
// Sleep for given delay and go back to busy state
tokio::time::sleep(Duration::from_secs_f32(delay)).await;
self.status = WorkerStatus::Busy;
}
WorkerStatus::Idle => {
if *self.stop_signal.borrow() {
select! {

View file

@ -3,6 +3,8 @@ use std::time::{Duration, Instant};
use tokio::time::sleep;
use crate::background::WorkerStatus;
/// A tranquilizer is a helper object that is used to make
/// background operations not take up too much time.
///
@ -33,7 +35,7 @@ impl Tranquilizer {
}
}
pub async fn tranquilize(&mut self, tranquility: u32) {
fn tranquilize_internal(&mut self, tranquility: u32) -> Option<Duration> {
let observation = Instant::now() - self.last_step_begin;
self.observations.push_back(observation);
@ -45,11 +47,26 @@ impl Tranquilizer {
if !self.observations.is_empty() {
let delay = (tranquility * self.sum_observations) / (self.observations.len() as u32);
sleep(delay).await;
Some(delay)
} else {
None
}
}
pub async fn tranquilize(&mut self, tranquility: u32) {
if let Some(delay) = self.tranquilize_internal(tranquility) {
sleep(delay).await;
self.reset();
}
}
#[must_use]
pub fn tranquilize_worker(&mut self, tranquility: u32) -> WorkerStatus {
match self.tranquilize_internal(tranquility) {
Some(delay) => WorkerStatus::Throttled(delay.as_secs_f32()),
None => WorkerStatus::Busy,
}
}
pub fn reset(&mut self) {
self.last_step_begin = Instant::now();