2024-01-01 14:58:21 -05:00
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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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2023-11-01 14:57:55 -04:00
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use std::cell::OnceCell;
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use std::cell::RefCell;
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use std::collections::BTreeMap;
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use std::collections::HashMap;
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use std::env;
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use std::rc::Rc;
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use std::rc::Weak;
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use std::sync::Arc;
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use async_trait::async_trait;
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use deno_core::error::type_error;
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use deno_core::error::AnyError;
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use deno_core::futures;
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use deno_core::futures::FutureExt;
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2024-04-24 12:57:34 -04:00
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use deno_core::unsync::spawn;
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use deno_core::unsync::JoinHandle;
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2023-11-01 14:57:55 -04:00
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use tokio::sync::mpsc;
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use tokio::sync::mpsc::WeakSender;
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use tokio::sync::OwnedSemaphorePermit;
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use tokio::sync::Semaphore;
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use crate::CronHandle;
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use crate::CronHandler;
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use crate::CronSpec;
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const MAX_CRONS: usize = 100;
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const DISPATCH_CONCURRENCY_LIMIT: usize = 50;
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const MAX_BACKOFF_MS: u32 = 60 * 60 * 1_000; // 1 hour
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const MAX_BACKOFF_COUNT: usize = 5;
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const DEFAULT_BACKOFF_SCHEDULE: [u32; 5] = [100, 1_000, 5_000, 30_000, 60_000];
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pub struct LocalCronHandler {
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cron_schedule_tx: OnceCell<mpsc::Sender<(String, bool)>>,
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concurrency_limiter: Arc<Semaphore>,
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cron_loop_join_handle: OnceCell<JoinHandle<()>>,
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runtime_state: Rc<RefCell<RuntimeState>>,
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}
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struct RuntimeState {
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crons: HashMap<String, Cron>,
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scheduled_deadlines: BTreeMap<u64, Vec<String>>,
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}
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struct Cron {
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spec: CronSpec,
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next_tx: mpsc::WeakSender<()>,
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current_execution_retries: u32,
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}
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impl Cron {
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fn backoff_schedule(&self) -> &[u32] {
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self
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.spec
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.backoff_schedule
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.as_deref()
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.unwrap_or(&DEFAULT_BACKOFF_SCHEDULE)
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}
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}
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impl Default for LocalCronHandler {
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fn default() -> Self {
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Self::new()
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}
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}
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impl LocalCronHandler {
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pub fn new() -> Self {
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Self {
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cron_schedule_tx: OnceCell::new(),
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concurrency_limiter: Arc::new(Semaphore::new(DISPATCH_CONCURRENCY_LIMIT)),
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cron_loop_join_handle: OnceCell::new(),
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runtime_state: Rc::new(RefCell::new(RuntimeState {
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crons: HashMap::new(),
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scheduled_deadlines: BTreeMap::new(),
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})),
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}
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}
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async fn cron_loop(
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runtime_state: Rc<RefCell<RuntimeState>>,
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mut cron_schedule_rx: mpsc::Receiver<(String, bool)>,
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) -> Result<(), AnyError> {
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loop {
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let earliest_deadline = runtime_state
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.borrow()
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.scheduled_deadlines
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.keys()
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.next()
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.copied();
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let sleep_fut = if let Some(earliest_deadline) = earliest_deadline {
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2024-05-23 07:59:11 -04:00
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let now = chrono::Utc::now().timestamp_millis() as u64;
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2023-11-01 14:57:55 -04:00
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if let Some(delta) = earliest_deadline.checked_sub(now) {
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tokio::time::sleep(std::time::Duration::from_millis(delta)).boxed()
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} else {
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futures::future::ready(()).boxed()
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}
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} else {
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futures::future::pending().boxed()
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};
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let cron_to_schedule = tokio::select! {
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_ = sleep_fut => None,
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x = cron_schedule_rx.recv() => {
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if x.is_none() {
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return Ok(());
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};
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x
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}
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};
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// Schedule next execution of the cron if needed.
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if let Some((name, prev_success)) = cron_to_schedule {
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let mut runtime_state = runtime_state.borrow_mut();
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if let Some(cron) = runtime_state.crons.get_mut(&name) {
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let backoff_schedule = cron.backoff_schedule();
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let next_deadline = if !prev_success
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&& cron.current_execution_retries < backoff_schedule.len() as u32
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{
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let backoff_ms =
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backoff_schedule[cron.current_execution_retries as usize];
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2024-05-23 07:59:11 -04:00
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let now = chrono::Utc::now().timestamp_millis() as u64;
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cron.current_execution_retries += 1;
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now + backoff_ms as u64
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} else {
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let next_ts = compute_next_deadline(&cron.spec.cron_schedule)?;
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cron.current_execution_retries = 0;
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next_ts
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};
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runtime_state
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.scheduled_deadlines
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.entry(next_deadline)
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.or_default()
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.push(name.to_string());
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}
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}
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// Dispatch ready to execute crons.
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let crons_to_execute = {
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let mut runtime_state = runtime_state.borrow_mut();
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runtime_state.get_ready_crons()?
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};
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for (_, tx) in crons_to_execute {
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if let Some(tx) = tx.upgrade() {
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let _ = tx.send(()).await;
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}
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}
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}
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}
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}
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impl RuntimeState {
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fn get_ready_crons(
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&mut self,
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) -> Result<Vec<(String, WeakSender<()>)>, AnyError> {
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let now = chrono::Utc::now().timestamp_millis() as u64;
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2023-11-01 14:57:55 -04:00
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let ready = {
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let to_remove = self
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.scheduled_deadlines
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.range(..=now)
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.map(|(ts, _)| *ts)
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.collect::<Vec<_>>();
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to_remove
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.iter()
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.flat_map(|ts| {
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self
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.scheduled_deadlines
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.remove(ts)
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.unwrap()
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.iter()
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.map(move |name| (*ts, name.clone()))
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.collect::<Vec<_>>()
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})
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2023-11-16 17:19:00 -05:00
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.filter_map(|(_, name)| {
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self
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.crons
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.get(&name)
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.map(|c| (name.clone(), c.next_tx.clone()))
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2023-11-01 14:57:55 -04:00
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})
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.collect::<Vec<_>>()
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};
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Ok(ready)
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}
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}
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#[async_trait(?Send)]
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impl CronHandler for LocalCronHandler {
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type EH = CronExecutionHandle;
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fn create(&self, spec: CronSpec) -> Result<Self::EH, AnyError> {
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// Ensure that the cron loop is started.
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self.cron_loop_join_handle.get_or_init(|| {
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let (cron_schedule_tx, cron_schedule_rx) =
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mpsc::channel::<(String, bool)>(1);
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self.cron_schedule_tx.set(cron_schedule_tx).unwrap();
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let runtime_state = self.runtime_state.clone();
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spawn(async move {
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LocalCronHandler::cron_loop(runtime_state, cron_schedule_rx)
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.await
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.unwrap();
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})
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});
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let mut runtime_state = self.runtime_state.borrow_mut();
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if runtime_state.crons.len() > MAX_CRONS {
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return Err(type_error("Too many crons"));
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}
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if runtime_state.crons.contains_key(&spec.name) {
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return Err(type_error("Cron with this name already exists"));
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}
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// Validate schedule expression.
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spec
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.cron_schedule
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.parse::<saffron::Cron>()
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.map_err(|_| type_error("Invalid cron schedule"))?;
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// Validate backoff_schedule.
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if let Some(backoff_schedule) = &spec.backoff_schedule {
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validate_backoff_schedule(backoff_schedule)?;
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}
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let (next_tx, next_rx) = mpsc::channel::<()>(1);
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let cron = Cron {
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spec: spec.clone(),
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next_tx: next_tx.downgrade(),
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current_execution_retries: 0,
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};
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runtime_state.crons.insert(spec.name.clone(), cron);
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Ok(CronExecutionHandle {
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name: spec.name.clone(),
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cron_schedule_tx: self.cron_schedule_tx.get().unwrap().clone(),
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concurrency_limiter: self.concurrency_limiter.clone(),
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runtime_state: Rc::downgrade(&self.runtime_state),
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inner: RefCell::new(Inner {
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next_rx: Some(next_rx),
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shutdown_tx: Some(next_tx),
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permit: None,
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}),
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})
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}
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}
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pub struct CronExecutionHandle {
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name: String,
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runtime_state: Weak<RefCell<RuntimeState>>,
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cron_schedule_tx: mpsc::Sender<(String, bool)>,
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concurrency_limiter: Arc<Semaphore>,
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inner: RefCell<Inner>,
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}
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struct Inner {
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next_rx: Option<mpsc::Receiver<()>>,
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shutdown_tx: Option<mpsc::Sender<()>>,
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permit: Option<OwnedSemaphorePermit>,
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}
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#[async_trait(?Send)]
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impl CronHandle for CronExecutionHandle {
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async fn next(&self, prev_success: bool) -> Result<bool, AnyError> {
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self.inner.borrow_mut().permit.take();
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if self
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.cron_schedule_tx
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.send((self.name.clone(), prev_success))
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.await
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.is_err()
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{
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return Ok(false);
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};
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let Some(mut next_rx) = self.inner.borrow_mut().next_rx.take() else {
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return Ok(false);
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};
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if next_rx.recv().await.is_none() {
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return Ok(false);
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};
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let permit = self.concurrency_limiter.clone().acquire_owned().await?;
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let mut inner = self.inner.borrow_mut();
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inner.next_rx = Some(next_rx);
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inner.permit = Some(permit);
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Ok(true)
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}
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fn close(&self) {
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if let Some(tx) = self.inner.borrow_mut().shutdown_tx.take() {
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drop(tx)
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}
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if let Some(runtime_state) = self.runtime_state.upgrade() {
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let mut runtime_state = runtime_state.borrow_mut();
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runtime_state.crons.remove(&self.name);
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}
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}
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}
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fn compute_next_deadline(cron_expression: &str) -> Result<u64, AnyError> {
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let now = chrono::Utc::now();
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if let Ok(test_schedule) = env::var("DENO_CRON_TEST_SCHEDULE_OFFSET") {
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if let Ok(offset) = test_schedule.parse::<u64>() {
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return Ok(now.timestamp_millis() as u64 + offset);
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}
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}
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let cron = cron_expression
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.parse::<saffron::Cron>()
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.map_err(|_| anyhow::anyhow!("invalid cron expression"))?;
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let Some(next_deadline) = cron.next_after(now) else {
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return Err(anyhow::anyhow!("invalid cron expression"));
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};
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Ok(next_deadline.timestamp_millis() as u64)
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}
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2024-02-11 22:00:33 -05:00
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fn validate_backoff_schedule(backoff_schedule: &[u32]) -> Result<(), AnyError> {
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if backoff_schedule.len() > MAX_BACKOFF_COUNT {
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return Err(type_error("Invalid backoff schedule"));
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}
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if backoff_schedule.iter().any(|s| *s > MAX_BACKOFF_MS) {
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return Err(type_error("Invalid backoff schedule"));
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}
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Ok(())
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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#[test]
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fn test_compute_next_deadline() {
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let now = chrono::Utc::now().timestamp_millis() as u64;
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assert!(compute_next_deadline("*/1 * * * *").unwrap() > now);
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assert!(compute_next_deadline("* * * * *").unwrap() > now);
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assert!(compute_next_deadline("bogus").is_err());
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assert!(compute_next_deadline("* * * * * *").is_err());
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assert!(compute_next_deadline("* * *").is_err());
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}
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}
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