Struct SupervisorState 

pub struct SupervisorState {
    pub root_path: SupervisorPath,
    pub generated_at_unix_nanos: u128,
    pub sequence: EventSequence,
    pub config_version: u64,
    pub children: BTreeMap<String, ChildState>,
    pub meltdown_state: MeltdownState,
    pub shutdown_state: ShutdownState,
    pub journal_sequence: Option<EventSequence>,
}

Current state for a supervisor tree.

Fields

root_path: SupervisorPath

Root path for this state response.

generated_at_unix_nanos: u128

Generated time in nanoseconds since the Unix epoch.

sequence: EventSequence

Sequence assigned to this state generation.

config_version: u64

Configuration version that produced this state.

children: BTreeMap<String, ChildState>

Child states indexed by stable path text.

meltdown_state: MeltdownState

Current meltdown status.

shutdown_state: ShutdownState

Current shutdown status.

journal_sequence: Option<EventSequence>

Last event journal sequence known to the state owner.

Implementations

impl SupervisorState

pub fn new( root_path: SupervisorPath, sequence: EventSequence, config_version: u64, ) -> Self

Creates an empty supervisor current state.

Arguments

• root_path: Root path for the state response.
• sequence: State generation sequence.
• config_version: Configuration version that produced the state.

Returns

Returns a SupervisorState without children.

Examples

let state = rust_supervisor::state::supervisor::SupervisorState::new(
    rust_supervisor::id::types::SupervisorPath::root(),
    rust_supervisor::event::time::EventSequence::new(1),
    1,
);
assert!(state.children.is_empty());

Examples found in repository

examples/diagnostic_replay.rs (line 140)

fn main() {
    // Build the child identifier.
    let child_id = ChildId::new("market_feed");
    // Build the child path.
    let child_path = SupervisorPath::root().join("market_feed");
    // Build a typed task failure.
    let failure = TaskFailure::new(
        // Set the failure kind.
        TaskFailureKind::Timeout,
        // Set the low-cardinality failure category.
        "external_dependency",
        // Set the diagnostic failure message.
        "market feed heartbeat timed out",
        // Finish the typed task failure.
    );
    // Build the restart policy decision.
    let policy = PolicyDecision::new(
        // Set the decision label.
        "RestartAfter",
        // Set the restart delay.
        Some(500),
        // Set the diagnostic decision reason.
        Some("heartbeat timeout is restartable".to_owned()),
        // Finish the policy decision.
    );

    // Create the fixed-capacity event journal.
    let mut journal = EventJournal::new(8);
    // Push the running event.
    journal.push(event(
        // Set the event sequence.
        1,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the running event payload.
        What::ChildRunning {
            // Attach the state transition.
            transition: Some(StateTransition::new("Starting", "Running")),
            // Finish the running event payload.
        },
        // Attach no policy decision.
        None,
        // Finish the running event.
    ));
    // Push the failed event.
    journal.push(event(
        // Set the event sequence.
        2,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the failed event payload.
        What::ChildFailed {
            // Attach the typed failure.
            failure: failure.clone(),
            // Finish the failed event payload.
        },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the failed event.
    ));
    // Push the backoff event.
    journal.push(event(
        // Set the event sequence.
        3,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the backoff payload.
        What::BackoffScheduled { delay_ms: 500 },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the backoff event.
    ));
    // Push the restarted event.
    journal.push(event(
        // Set the event sequence.
        4,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the restarted payload.
        What::ChildRestarted { restart_count: 1 },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the restarted event.
    ));

    // Build the final child state.
    let child = ChildState::declared(child_path, child_id, "Market Feed")
        // Set the child lifecycle state.
        .with_lifecycle_state(ChildLifecycleState::Running, EventSequence::new(1))
        // Record the latest failure.
        .record_failure(failure, EventSequence::new(2))
        // Record the latest policy decision.
        .with_policy_decision(policy, 1);
    // Build the final supervisor state.
    let final_state = SupervisorState::new(SupervisorPath::root(), EventSequence::new(4), 1)
        // Add the child state.
        .with_child(child)
        // Mark shutdown as completed for the replay.
        .with_shutdown_state(ShutdownState::Completed)
        // Attach the last journal sequence.
        .with_journal_sequence(EventSequence::new(4));
    // Build the diagnostic run summary.
    let summary = RunSummaryBuilder::new(8).build(
        // Read recent events from the journal.
        &journal,
        // Attach the final current state.
        final_state,
        // Attach the shutdown cause.
        Some("diagnostic replay complete".to_owned()),
        // Finish the summary construction.
    );
    // Create the metrics facade.
    let metrics = MetricsFacade::new();

    // Print summary counters.
    println!(
        // Provide the output template.
        "summary restart_count={} failure_count={} recent_events={}",
        // Print the restart count.
        summary.restart_count,
        // Print the failure count.
        summary.failure_count,
        // Print the recent event count.
        summary.recent_events.len(),
        // Finish summary output.
    );
    // Iterate over recent journal events.
    for event in journal.recent(8) {
        // Print event names and derived metrics.
        println!(
            // Provide the output template.
            "event={} metrics={:?}",
            // Print the event name.
            event.what.name(),
            // Print metrics derived from the event.
            metrics.samples_for_event(&event),
            // Finish event output.
        );
        // Finish the journal replay loop.
    }
    // End the diagnostic replay example.
}

pub fn with_child(self, child: ChildState) -> Self

Inserts or replaces one child state.

Arguments

• child: Current state for one child.

Returns

Returns the updated SupervisorState.

Examples found in repository

examples/diagnostic_replay.rs (line 142)

fn main() {
    // Build the child identifier.
    let child_id = ChildId::new("market_feed");
    // Build the child path.
    let child_path = SupervisorPath::root().join("market_feed");
    // Build a typed task failure.
    let failure = TaskFailure::new(
        // Set the failure kind.
        TaskFailureKind::Timeout,
        // Set the low-cardinality failure category.
        "external_dependency",
        // Set the diagnostic failure message.
        "market feed heartbeat timed out",
        // Finish the typed task failure.
    );
    // Build the restart policy decision.
    let policy = PolicyDecision::new(
        // Set the decision label.
        "RestartAfter",
        // Set the restart delay.
        Some(500),
        // Set the diagnostic decision reason.
        Some("heartbeat timeout is restartable".to_owned()),
        // Finish the policy decision.
    );

    // Create the fixed-capacity event journal.
    let mut journal = EventJournal::new(8);
    // Push the running event.
    journal.push(event(
        // Set the event sequence.
        1,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the running event payload.
        What::ChildRunning {
            // Attach the state transition.
            transition: Some(StateTransition::new("Starting", "Running")),
            // Finish the running event payload.
        },
        // Attach no policy decision.
        None,
        // Finish the running event.
    ));
    // Push the failed event.
    journal.push(event(
        // Set the event sequence.
        2,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the failed event payload.
        What::ChildFailed {
            // Attach the typed failure.
            failure: failure.clone(),
            // Finish the failed event payload.
        },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the failed event.
    ));
    // Push the backoff event.
    journal.push(event(
        // Set the event sequence.
        3,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the backoff payload.
        What::BackoffScheduled { delay_ms: 500 },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the backoff event.
    ));
    // Push the restarted event.
    journal.push(event(
        // Set the event sequence.
        4,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the restarted payload.
        What::ChildRestarted { restart_count: 1 },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the restarted event.
    ));

    // Build the final child state.
    let child = ChildState::declared(child_path, child_id, "Market Feed")
        // Set the child lifecycle state.
        .with_lifecycle_state(ChildLifecycleState::Running, EventSequence::new(1))
        // Record the latest failure.
        .record_failure(failure, EventSequence::new(2))
        // Record the latest policy decision.
        .with_policy_decision(policy, 1);
    // Build the final supervisor state.
    let final_state = SupervisorState::new(SupervisorPath::root(), EventSequence::new(4), 1)
        // Add the child state.
        .with_child(child)
        // Mark shutdown as completed for the replay.
        .with_shutdown_state(ShutdownState::Completed)
        // Attach the last journal sequence.
        .with_journal_sequence(EventSequence::new(4));
    // Build the diagnostic run summary.
    let summary = RunSummaryBuilder::new(8).build(
        // Read recent events from the journal.
        &journal,
        // Attach the final current state.
        final_state,
        // Attach the shutdown cause.
        Some("diagnostic replay complete".to_owned()),
        // Finish the summary construction.
    );
    // Create the metrics facade.
    let metrics = MetricsFacade::new();

    // Print summary counters.
    println!(
        // Provide the output template.
        "summary restart_count={} failure_count={} recent_events={}",
        // Print the restart count.
        summary.restart_count,
        // Print the failure count.
        summary.failure_count,
        // Print the recent event count.
        summary.recent_events.len(),
        // Finish summary output.
    );
    // Iterate over recent journal events.
    for event in journal.recent(8) {
        // Print event names and derived metrics.
        println!(
            // Provide the output template.
            "event={} metrics={:?}",
            // Print the event name.
            event.what.name(),
            // Print metrics derived from the event.
            metrics.samples_for_event(&event),
            // Finish event output.
        );
        // Finish the journal replay loop.
    }
    // End the diagnostic replay example.
}

pub fn with_shutdown_state(self, shutdown_state: ShutdownState) -> Self

Updates shutdown state.

Arguments

• shutdown_state: New shutdown phase.

Returns

Returns the updated SupervisorState.

Examples found in repository

examples/diagnostic_replay.rs (line 144)

fn main() {
    // Build the child identifier.
    let child_id = ChildId::new("market_feed");
    // Build the child path.
    let child_path = SupervisorPath::root().join("market_feed");
    // Build a typed task failure.
    let failure = TaskFailure::new(
        // Set the failure kind.
        TaskFailureKind::Timeout,
        // Set the low-cardinality failure category.
        "external_dependency",
        // Set the diagnostic failure message.
        "market feed heartbeat timed out",
        // Finish the typed task failure.
    );
    // Build the restart policy decision.
    let policy = PolicyDecision::new(
        // Set the decision label.
        "RestartAfter",
        // Set the restart delay.
        Some(500),
        // Set the diagnostic decision reason.
        Some("heartbeat timeout is restartable".to_owned()),
        // Finish the policy decision.
    );

    // Create the fixed-capacity event journal.
    let mut journal = EventJournal::new(8);
    // Push the running event.
    journal.push(event(
        // Set the event sequence.
        1,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the running event payload.
        What::ChildRunning {
            // Attach the state transition.
            transition: Some(StateTransition::new("Starting", "Running")),
            // Finish the running event payload.
        },
        // Attach no policy decision.
        None,
        // Finish the running event.
    ));
    // Push the failed event.
    journal.push(event(
        // Set the event sequence.
        2,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the failed event payload.
        What::ChildFailed {
            // Attach the typed failure.
            failure: failure.clone(),
            // Finish the failed event payload.
        },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the failed event.
    ));
    // Push the backoff event.
    journal.push(event(
        // Set the event sequence.
        3,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the backoff payload.
        What::BackoffScheduled { delay_ms: 500 },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the backoff event.
    ));
    // Push the restarted event.
    journal.push(event(
        // Set the event sequence.
        4,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the restarted payload.
        What::ChildRestarted { restart_count: 1 },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the restarted event.
    ));

    // Build the final child state.
    let child = ChildState::declared(child_path, child_id, "Market Feed")
        // Set the child lifecycle state.
        .with_lifecycle_state(ChildLifecycleState::Running, EventSequence::new(1))
        // Record the latest failure.
        .record_failure(failure, EventSequence::new(2))
        // Record the latest policy decision.
        .with_policy_decision(policy, 1);
    // Build the final supervisor state.
    let final_state = SupervisorState::new(SupervisorPath::root(), EventSequence::new(4), 1)
        // Add the child state.
        .with_child(child)
        // Mark shutdown as completed for the replay.
        .with_shutdown_state(ShutdownState::Completed)
        // Attach the last journal sequence.
        .with_journal_sequence(EventSequence::new(4));
    // Build the diagnostic run summary.
    let summary = RunSummaryBuilder::new(8).build(
        // Read recent events from the journal.
        &journal,
        // Attach the final current state.
        final_state,
        // Attach the shutdown cause.
        Some("diagnostic replay complete".to_owned()),
        // Finish the summary construction.
    );
    // Create the metrics facade.
    let metrics = MetricsFacade::new();

    // Print summary counters.
    println!(
        // Provide the output template.
        "summary restart_count={} failure_count={} recent_events={}",
        // Print the restart count.
        summary.restart_count,
        // Print the failure count.
        summary.failure_count,
        // Print the recent event count.
        summary.recent_events.len(),
        // Finish summary output.
    );
    // Iterate over recent journal events.
    for event in journal.recent(8) {
        // Print event names and derived metrics.
        println!(
            // Provide the output template.
            "event={} metrics={:?}",
            // Print the event name.
            event.what.name(),
            // Print metrics derived from the event.
            metrics.samples_for_event(&event),
            // Finish event output.
        );
        // Finish the journal replay loop.
    }
    // End the diagnostic replay example.
}

pub fn with_meltdown_state(self, meltdown_state: MeltdownState) -> Self

Updates meltdown state.

Arguments

• meltdown_state: New meltdown state.

Returns

Returns the updated SupervisorState.

pub fn with_journal_sequence(self, journal_sequence: EventSequence) -> Self

Records the latest journal sequence known to this state.

Arguments

• journal_sequence: Latest event sequence from the journal.

Returns

Returns the updated SupervisorState.

Examples found in repository

examples/diagnostic_replay.rs (line 146)

fn main() {
    // Build the child identifier.
    let child_id = ChildId::new("market_feed");
    // Build the child path.
    let child_path = SupervisorPath::root().join("market_feed");
    // Build a typed task failure.
    let failure = TaskFailure::new(
        // Set the failure kind.
        TaskFailureKind::Timeout,
        // Set the low-cardinality failure category.
        "external_dependency",
        // Set the diagnostic failure message.
        "market feed heartbeat timed out",
        // Finish the typed task failure.
    );
    // Build the restart policy decision.
    let policy = PolicyDecision::new(
        // Set the decision label.
        "RestartAfter",
        // Set the restart delay.
        Some(500),
        // Set the diagnostic decision reason.
        Some("heartbeat timeout is restartable".to_owned()),
        // Finish the policy decision.
    );

    // Create the fixed-capacity event journal.
    let mut journal = EventJournal::new(8);
    // Push the running event.
    journal.push(event(
        // Set the event sequence.
        1,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the running event payload.
        What::ChildRunning {
            // Attach the state transition.
            transition: Some(StateTransition::new("Starting", "Running")),
            // Finish the running event payload.
        },
        // Attach no policy decision.
        None,
        // Finish the running event.
    ));
    // Push the failed event.
    journal.push(event(
        // Set the event sequence.
        2,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the failed event payload.
        What::ChildFailed {
            // Attach the typed failure.
            failure: failure.clone(),
            // Finish the failed event payload.
        },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the failed event.
    ));
    // Push the backoff event.
    journal.push(event(
        // Set the event sequence.
        3,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the backoff payload.
        What::BackoffScheduled { delay_ms: 500 },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the backoff event.
    ));
    // Push the restarted event.
    journal.push(event(
        // Set the event sequence.
        4,
        // Clone the child identifier.
        child_id.clone(),
        // Set the child display name.
        "Market Feed",
        // Build the restarted payload.
        What::ChildRestarted { restart_count: 1 },
        // Attach the restart policy decision.
        Some(policy.clone()),
        // Finish the restarted event.
    ));

    // Build the final child state.
    let child = ChildState::declared(child_path, child_id, "Market Feed")
        // Set the child lifecycle state.
        .with_lifecycle_state(ChildLifecycleState::Running, EventSequence::new(1))
        // Record the latest failure.
        .record_failure(failure, EventSequence::new(2))
        // Record the latest policy decision.
        .with_policy_decision(policy, 1);
    // Build the final supervisor state.
    let final_state = SupervisorState::new(SupervisorPath::root(), EventSequence::new(4), 1)
        // Add the child state.
        .with_child(child)
        // Mark shutdown as completed for the replay.
        .with_shutdown_state(ShutdownState::Completed)
        // Attach the last journal sequence.
        .with_journal_sequence(EventSequence::new(4));
    // Build the diagnostic run summary.
    let summary = RunSummaryBuilder::new(8).build(
        // Read recent events from the journal.
        &journal,
        // Attach the final current state.
        final_state,
        // Attach the shutdown cause.
        Some("diagnostic replay complete".to_owned()),
        // Finish the summary construction.
    );
    // Create the metrics facade.
    let metrics = MetricsFacade::new();

    // Print summary counters.
    println!(
        // Provide the output template.
        "summary restart_count={} failure_count={} recent_events={}",
        // Print the restart count.
        summary.restart_count,
        // Print the failure count.
        summary.failure_count,
        // Print the recent event count.
        summary.recent_events.len(),
        // Finish summary output.
    );
    // Iterate over recent journal events.
    for event in journal.recent(8) {
        // Print event names and derived metrics.
        println!(
            // Provide the output template.
            "event={} metrics={:?}",
            // Print the event name.
            event.what.name(),
            // Print metrics derived from the event.
            metrics.samples_for_event(&event),
            // Finish event output.
        );
        // Finish the journal replay loop.
    }
    // End the diagnostic replay example.
}

Trait Implementations

impl Clone for SupervisorState

fn clone(&self) -> SupervisorState

Returns a duplicate of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for SupervisorState

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl<'de> Deserialize<'de> for SupervisorState

fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>

where __D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer.

impl PartialEq for SupervisorState

fn eq(&self, other: &SupervisorState) -> bool

Tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl Serialize for SupervisorState

fn serialize<__S>(&self, __serializer: __S) -> Result<__S::Ok, __S::Error>

where __S: Serializer,

Serialize this value into the given Serde serializer.

impl Eq for SupervisorState

impl StructuralPartialEq for SupervisorState