2022-07-08 11:30:26 +00:00
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use std::collections::HashMap;
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use std::sync::Arc;
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use std::time::{Duration, Instant};
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use async_trait::async_trait;
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use futures::future::*;
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use futures::stream::FuturesUnordered;
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use futures::StreamExt;
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use serde::{Deserialize, Serialize};
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use tokio::select;
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use tokio::sync::{mpsc, watch};
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2022-12-12 16:16:49 +00:00
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use crate::background::{WorkerInfo, WorkerStatus};
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2022-07-08 11:30:26 +00:00
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use crate::error::Error;
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use crate::time::now_msec;
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#[derive(PartialEq, Copy, Clone, Serialize, Deserialize, Debug)]
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pub enum WorkerState {
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Busy,
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Throttled(f32),
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Idle,
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Done,
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}
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impl std::fmt::Display for WorkerState {
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fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
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match self {
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WorkerState::Busy => write!(f, "Busy"),
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2022-12-12 16:16:49 +00:00
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WorkerState::Throttled(_) => write!(f, "Busy*"),
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2022-07-08 11:30:26 +00:00
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WorkerState::Idle => write!(f, "Idle"),
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WorkerState::Done => write!(f, "Done"),
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}
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}
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}
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#[async_trait]
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pub trait Worker: Send {
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fn name(&self) -> String;
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2022-12-12 16:16:49 +00:00
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fn status(&self) -> WorkerStatus {
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Default::default()
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2022-07-08 11:30:26 +00:00
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}
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/// Work: do a basic unit of work, if one is available (otherwise, should return
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/// WorkerState::Idle immediately). We will do our best to not interrupt this future in the
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/// middle of processing, it will only be interrupted at the last minute when Garage is trying
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/// to exit and this hasn't returned yet. This function may return an error to indicate that
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/// its unit of work could not be processed due to an error: the error will be logged and
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/// .work() will be called again after a short delay.
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async fn work(&mut self, must_exit: &mut watch::Receiver<bool>) -> Result<WorkerState, Error>;
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/// Wait for work: await for some task to become available. This future can be interrupted in
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/// the middle for any reason. This future doesn't have to await on must_exit.changed(), we
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/// are doing it for you. Therefore it only receives a read refernce to must_exit which allows
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/// it to check if we are exiting.
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async fn wait_for_work(&mut self, must_exit: &watch::Receiver<bool>) -> WorkerState;
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}
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pub(crate) struct WorkerProcessor {
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stop_signal: watch::Receiver<bool>,
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worker_chan: mpsc::UnboundedReceiver<Box<dyn Worker>>,
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worker_info: Arc<std::sync::Mutex<HashMap<usize, WorkerInfo>>>,
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}
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impl WorkerProcessor {
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pub(crate) fn new(
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worker_chan: mpsc::UnboundedReceiver<Box<dyn Worker>>,
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stop_signal: watch::Receiver<bool>,
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worker_info: Arc<std::sync::Mutex<HashMap<usize, WorkerInfo>>>,
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) -> Self {
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Self {
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stop_signal,
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worker_chan,
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worker_info,
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}
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}
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pub(crate) async fn run(&mut self) {
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let mut workers = FuturesUnordered::new();
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let mut next_task_id = 1;
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while !*self.stop_signal.borrow() {
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let await_next_worker = async {
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if workers.is_empty() {
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futures::future::pending().await
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} else {
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workers.next().await
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}
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};
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select! {
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new_worker_opt = self.worker_chan.recv() => {
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if let Some(new_worker) = new_worker_opt {
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let task_id = next_task_id;
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next_task_id += 1;
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let stop_signal = self.stop_signal.clone();
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let stop_signal_worker = self.stop_signal.clone();
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let mut worker = WorkerHandler {
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task_id,
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stop_signal,
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stop_signal_worker,
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worker: new_worker,
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state: WorkerState::Busy,
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errors: 0,
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consecutive_errors: 0,
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last_error: None,
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};
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workers.push(async move {
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worker.step().await;
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worker
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}.boxed());
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}
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}
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worker = await_next_worker => {
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if let Some(mut worker) = worker {
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trace!("{} (TID {}): {:?}", worker.worker.name(), worker.task_id, worker.state);
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// Save worker info
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let mut wi = self.worker_info.lock().unwrap();
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match wi.get_mut(&worker.task_id) {
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Some(i) => {
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i.state = worker.state;
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2022-12-12 16:16:49 +00:00
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i.status = worker.worker.status();
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2022-07-08 11:30:26 +00:00
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i.errors = worker.errors;
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i.consecutive_errors = worker.consecutive_errors;
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if worker.last_error.is_some() {
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i.last_error = worker.last_error.take();
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}
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}
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None => {
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wi.insert(worker.task_id, WorkerInfo {
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name: worker.worker.name(),
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state: worker.state,
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2022-12-12 16:16:49 +00:00
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status: worker.worker.status(),
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2022-07-08 11:30:26 +00:00
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errors: worker.errors,
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consecutive_errors: worker.consecutive_errors,
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last_error: worker.last_error.take(),
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});
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}
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}
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if worker.state == WorkerState::Done {
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info!("Worker {} (TID {}) exited", worker.worker.name(), worker.task_id);
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} else {
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workers.push(async move {
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worker.step().await;
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worker
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}.boxed());
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}
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}
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}
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_ = self.stop_signal.changed() => (),
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}
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}
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// We are exiting, drain everything
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let drain_half_time = Instant::now() + Duration::from_secs(5);
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let drain_everything = async move {
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while let Some(mut worker) = workers.next().await {
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if worker.state == WorkerState::Done {
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info!(
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"Worker {} (TID {}) exited",
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worker.worker.name(),
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worker.task_id
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);
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} else if Instant::now() > drain_half_time {
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warn!("Worker {} (TID {}) interrupted between two iterations in state {:?} (this should be fine)", worker.worker.name(), worker.task_id, worker.state);
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} else {
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workers.push(
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async move {
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worker.step().await;
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worker
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}
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.boxed(),
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);
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}
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}
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};
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select! {
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_ = drain_everything => {
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info!("All workers exited peacefully \\o/");
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}
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_ = tokio::time::sleep(Duration::from_secs(9)) => {
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error!("Some workers could not exit in time, we are cancelling some things in the middle");
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}
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}
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}
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}
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struct WorkerHandler {
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task_id: usize,
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stop_signal: watch::Receiver<bool>,
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stop_signal_worker: watch::Receiver<bool>,
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worker: Box<dyn Worker>,
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state: WorkerState,
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errors: usize,
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consecutive_errors: usize,
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last_error: Option<(String, u64)>,
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}
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impl WorkerHandler {
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async fn step(&mut self) {
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match self.state {
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WorkerState::Busy => match self.worker.work(&mut self.stop_signal).await {
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Ok(s) => {
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self.state = s;
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self.consecutive_errors = 0;
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}
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Err(e) => {
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error!(
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"Error in worker {} (TID {}): {}",
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self.worker.name(),
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self.task_id,
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e
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);
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self.errors += 1;
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self.consecutive_errors += 1;
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self.last_error = Some((format!("{}", e), now_msec()));
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// Sleep a bit so that error won't repeat immediately, exponential backoff
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// strategy (min 1sec, max ~60sec)
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self.state = WorkerState::Throttled(
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(1.5f32).powf(std::cmp::min(10, self.consecutive_errors - 1) as f32),
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);
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}
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},
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WorkerState::Throttled(delay) => {
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// Sleep for given delay and go back to busy state
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if !*self.stop_signal.borrow() {
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select! {
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_ = tokio::time::sleep(Duration::from_secs_f32(delay)) => (),
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_ = self.stop_signal.changed() => (),
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}
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}
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self.state = WorkerState::Busy;
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}
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WorkerState::Idle => {
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if *self.stop_signal.borrow() {
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select! {
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new_st = self.worker.wait_for_work(&self.stop_signal_worker) => {
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self.state = new_st;
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}
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_ = tokio::time::sleep(Duration::from_secs(1)) => {
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// stay in Idle state
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}
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}
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} else {
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select! {
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new_st = self.worker.wait_for_work(&self.stop_signal_worker) => {
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self.state = new_st;
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}
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_ = self.stop_signal.changed() => {
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// stay in Idle state
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}
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}
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}
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}
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WorkerState::Done => unreachable!(),
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}
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}
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}
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