Adding force-down option
This commit is contained in:
Kinesin Data Technologies Incorporated
parent
2c96b16ec8
commit
03412bb79d
@@ -126,6 +126,12 @@ impl IntervalSet {
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pub fn difference(&self, other: &Self) -> Self {
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self.intersection(&other.complement())
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}
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/// Subtract all intervals in `other` from self
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/// both sides must be sorted
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pub fn subtract(&mut self, other: &Self) {
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self.0 = self.difference(other).0;
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}
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}
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impl Deref for IntervalSet {
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type Target = Vec<Interval>;
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+73
-26
@@ -32,18 +32,26 @@ pub struct Action {
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#[derive(Debug, Serialize, Deserialize)]
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pub enum RunnerMessage {
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Tick,
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ActionCompleted { action_id: usize, succeeded: bool },
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RetryAction { action_id: usize },
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ActionCompleted {
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action_id: usize,
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succeeded: bool,
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},
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RetryAction {
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action_id: usize,
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},
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/*
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/// Marks all resources in the set available over the interval
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ForceUp {
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resources: HashSet<String>,
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interval: Interval,
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},
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*/
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/// Marks all resources in the set as down over _at least_ the interval.
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/// Will cause a re-check / re-gen
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ForceDown {
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resources: HashSet<String>,
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interval: Interval,
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},
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*/
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Stop,
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}
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@@ -334,6 +342,37 @@ impl Runner {
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self.events
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.push(delayed_event(Duration::seconds(5), RunnerMessage::Tick));
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}
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/*
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Some(Ok(RunnerMessage::ForceUp {
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resources,
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interval,
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})) => {
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}
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*/
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Some(Ok(RunnerMessage::ForceDown {
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resources,
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interval,
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})) => {
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// Use the interval to identify
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for (tid, task) in self.tasks.iter().enumerate() {
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if task.provides.is_subset(&resources) {
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let aligned_is =
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IntervalSet::from(task.schedule.align_interval(interval));
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for resource in &task.provides {
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self.current
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.get_mut(resource)
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.unwrap()
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.subtract(&aligned_is);
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}
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for action in &mut self.actions {
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if action.task == tid && aligned_is.has_subset(action.interval) {
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action.state = ActionState::Queued;
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}
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}
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}
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}
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self.store_state();
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}
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Some(Ok(RunnerMessage::Stop)) => {
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info!("Stopping");
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break;
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@@ -347,29 +386,7 @@ impl Runner {
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action_id,
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succeeded,
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})) => {
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info!("Completing action {}", action_id);
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if succeeded {
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let action = &mut self.actions[action_id];
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let task = self.tasks.get(action.task).unwrap();
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action.state = ActionState::Completed;
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for res in &task.provides {
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self.current
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.entry(res.clone())
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.or_insert(IntervalSet::new())
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.insert(action.interval);
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}
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self.storage
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.send(StorageMessage::StoreState {
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state: self.current.clone(),
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})
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.unwrap();
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self.queue_actions();
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} else {
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self.events.push(delayed_event(
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Duration::seconds(30),
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RunnerMessage::RetryAction { action_id },
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));
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}
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self.complete_task(action_id, succeeded);
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}
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Some(Err(e)) => {
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panic!("Something went wrong: {:?}", e)
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@@ -380,6 +397,36 @@ impl Runner {
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}
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}
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fn complete_task(&mut self, action_id: usize, succeeded: bool) {
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info!("Completing action {}", action_id);
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if succeeded {
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let action = &mut self.actions[action_id];
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let task = self.tasks.get(action.task).unwrap();
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action.state = ActionState::Completed;
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for res in &task.provides {
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self.current
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.entry(res.clone())
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.or_insert(IntervalSet::new())
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.insert(action.interval);
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}
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self.store_state();
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self.queue_actions();
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} else {
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self.events.push(delayed_event(
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Duration::seconds(30),
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RunnerMessage::RetryAction { action_id },
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));
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}
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}
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fn store_state(&self) {
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self.storage
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.send(StorageMessage::StoreState {
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state: self.current.clone(),
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})
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.unwrap();
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}
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fn queue_actions(&mut self) {
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let now = Utc::now();
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+27
-3
@@ -21,6 +21,32 @@ impl Schedule {
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}
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}
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fn is_end_time<T: TimeZone>(&self, dt: DateTime<T>) -> bool {
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// Need to get the current interval, then offset it
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let at = dt.with_timezone(&self.timezone);
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self.times.iter().any(|x| *x == at.time())
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&& self.calendar.includes(at.date().naive_local())
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}
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/// Given an interval I, return the interval J that is the smallest
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/// set of schedule intervals that completely contain I.
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/// If the given interval is bounded by MIN_TIME or MAX_TIME, then the
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/// returned interval will be likewise bounded
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pub fn align_interval(&self, interval: Interval) -> Interval {
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let st = if interval.start == MIN_TIME {
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self.next_time(interval.start).with_timezone(&Utc)
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} else {
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interval.start
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};
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let et = if interval.end == MAX_TIME {
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self.prev_time(interval.end).with_timezone(&Utc)
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} else {
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interval.end
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};
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Interval::new(self.interval(st, 0).start, self.interval(et, 0).end)
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}
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pub fn generate(&self, interval: Interval) -> Vec<Interval> {
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if self.times.is_empty() {
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return Vec::new();
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@@ -67,9 +93,7 @@ impl Schedule {
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let at = dt.with_timezone(&self.timezone);
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// If the time is at an edge
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let rt = if self.times.iter().any(|x| *x == at.time())
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&& self.calendar.includes(at.date().naive_local())
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{
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let rt = if self.is_end_time(at) {
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at
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} else {
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self.next_time(at)
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