Exemplo n.º 1
0
// Refresh updates the current state of the CoreOSMachine.
func (m *CoreOSMachine) Refresh() {
	m.RLock()
	defer m.RUnlock()

	cs := m.currentState()
	if cs == nil {
		log.Warning("Unable to refresh machine state")
	} else {
		m.dynamicState = cs
	}
}
Exemplo n.º 2
0
// Run periodically attempts to reconcile the provided Agent until the stop
// channel is closed. Run will also reconcile in reaction to calls to Trigger.
// While a reconciliation is being attempted, calls to Trigger are ignored.
func (ar *AgentReconciler) Run(a *Agent, stop chan bool) {
	reconcile := func() {
		start := time.Now()
		ar.Reconcile(a)
		elapsed := time.Now().Sub(start)

		msg := fmt.Sprintf("AgentReconciler completed reconciliation in %s", elapsed)
		if elapsed > reconcileInterval {
			log.Warning(msg)
		} else {
			log.V(1).Info(msg)
		}
	}
	reconciler := pkg.NewPeriodicReconciler(reconcileInterval, reconcile, ar.rStream)
	reconciler.Run(stop)
}
Exemplo n.º 3
0
func (e *Engine) Run(ival time.Duration, stop chan bool) {
	leaseTTL := ival * 5
	machID := e.machine.State().ID

	reconcile := func() {
		e.lease = ensureLeader(e.lease, e.registry, machID, leaseTTL)
		if e.lease == nil {
			return
		}

		// abort is closed when reconciliation must stop prematurely, either
		// by a local timeout or the fleet server shutting down
		abort := make(chan struct{})

		// monitor is used to shut down the following goroutine
		monitor := make(chan struct{})

		go func() {
			select {
			case <-monitor:
				return
			case <-time.After(leaseTTL):
				close(abort)
			case <-stop:
				close(abort)
			}
		}()

		start := time.Now()
		e.rec.Reconcile(e, abort)
		close(monitor)
		elapsed := time.Now().Sub(start)

		msg := fmt.Sprintf("Engine completed reconciliation in %s", elapsed)
		if elapsed > ival {
			log.Warning(msg)
		} else {
			log.V(1).Info(msg)
		}
	}

	rec := pkg.NewPeriodicReconciler(ival, reconcile, e.rStream)
	rec.Run(stop)
}
Exemplo n.º 4
0
func (e *Engine) Run(ival time.Duration, stop chan bool) {
	leaseTTL := ival * 5
	machID := e.machine.State().ID

	reconcile := func() {
		if !ensureEngineVersionMatch(e.cRegistry, engineVersion) {
			return
		}

		var l lease.Lease
		if isLeader(e.lease, machID) {
			l = renewLeadership(e.lease, leaseTTL)
		} else {
			l = acquireLeadership(e.lManager, machID, engineVersion, leaseTTL)
		}

		// log all leadership changes
		if l != nil && e.lease == nil && l.MachineID() != machID {
			log.Infof("Engine leader is %s", l.MachineID())
		} else if l != nil && e.lease != nil && l.MachineID() != e.lease.MachineID() {
			log.Infof("Engine leadership changed from %s to %s", e.lease.MachineID(), l.MachineID())
		}

		e.lease = l

		if !isLeader(e.lease, machID) {
			return
		}

		// abort is closed when reconciliation must stop prematurely, either
		// by a local timeout or the fleet server shutting down
		abort := make(chan struct{})

		// monitor is used to shut down the following goroutine
		monitor := make(chan struct{})

		go func() {
			select {
			case <-monitor:
				return
			case <-time.After(leaseTTL):
				close(abort)
			case <-stop:
				close(abort)
			}
		}()

		start := time.Now()
		e.rec.Reconcile(e, abort)
		close(monitor)
		elapsed := time.Now().Sub(start)

		msg := fmt.Sprintf("Engine completed reconciliation in %s", elapsed)
		if elapsed > ival {
			log.Warning(msg)
		} else {
			log.Debug(msg)
		}
	}

	rec := pkg.NewPeriodicReconciler(ival, reconcile, e.rStream)
	rec.Run(stop)
}
Exemplo n.º 5
0
func (e *Engine) Run(ival time.Duration, stop <-chan struct{}) {
	leaseTTL := ival * 5
	if e.machine.State().Capabilities.Has(machine.CapGRPC) {
		// With grpc it doesn't make sense to set to 5secs the TTL of the etcd key.
		// This has a special impact whenever we have high worload in the cluster, cause
		// it'd provoke constant leader re-elections.
		// TODO: IMHO, this should be configurable via a flag to disable the TTL.
		leaseTTL = ival * 500000
	}
	machID := e.machine.State().ID

	reconcile := func() {
		if !ensureEngineVersionMatch(e.cRegistry, engineVersion) {
			return
		}

		if e.machine.State().Capabilities.Has(machine.CapGRPC) {
			// rpcLeadership gets the lease (leader), and apply changes to the engine state if need it.
			e.lease = e.rpcLeadership(leaseTTL, machID)
		} else {
			var l lease.Lease
			if isLeader(e.lease, machID) {
				l = renewLeadership(e.lease, leaseTTL)
			} else {
				l = acquireLeadership(e.lManager, machID, engineVersion, leaseTTL)
			}

			// log all leadership changes
			if l != nil && e.lease == nil && l.MachineID() != machID {
				log.Infof("Engine leader is %s", l.MachineID())
			} else if l != nil && e.lease != nil && l.MachineID() != e.lease.MachineID() {
				log.Infof("Engine leadership changed from %s to %s", e.lease.MachineID(), l.MachineID())
			}

			e.lease = l
		}

		if !isLeader(e.lease, machID) {
			return
		}

		// abort is closed when reconciliation must stop prematurely, either
		// by a local timeout or the fleet server shutting down
		abort := make(chan struct{})

		// monitor is used to shut down the following goroutine
		monitor := make(chan struct{})

		go func() {
			select {
			case <-monitor:
				return
			case <-time.After(leaseTTL):
				close(abort)
			case <-stop:
				close(abort)
			}
		}()

		start := time.Now()
		e.rec.Reconcile(e, abort)
		close(monitor)
		elapsed := time.Now().Sub(start)
		metrics.ReportEngineReconcileSuccess(start)

		msg := fmt.Sprintf("Engine completed reconciliation in %s", elapsed)
		if elapsed > ival {
			log.Warning(msg)
		} else {
			log.Debug(msg)
		}
	}

	rec := pkg.NewPeriodicReconciler(ival, reconcile, e.rStream)
	rec.Run(stop)
}