示例#1
0
// containerNextState determines the next state a container should go to.
// It returns: The state it should transition to, a bool indicating whether any
// action is required, and a bool indicating whether a known status change is
// possible.
// 'Stopped, false, true' -> "You can move it to known stopped, but you don't have to call a transition function"
// 'Running, true, true' -> "You can move it to running and you need to call the transition function"
// 'None, false, false' -> "This should not be moved; it has unresolved dependencies or is complete; no knownstatus change"
func (mtask *managedTask) containerNextState(container *api.Container) (api.ContainerStatus, bool, bool) {
	clog := log.New("task", mtask.Task, "container", container)

	if container.KnownStatus == container.DesiredStatus {
		clog.Debug("Container at desired status", "desired", container.DesiredStatus)
		return api.ContainerStatusNone, false, false
	}
	if container.KnownStatus > container.DesiredStatus {
		clog.Debug("Container past desired status")
		return api.ContainerStatusNone, false, false
	}
	if !dependencygraph.DependenciesAreResolved(container, mtask.Containers) {
		clog.Debug("Can't apply state to container yet; dependencies unresolved", "state", container.DesiredStatus)
		return api.ContainerStatusNone, false, false
	}

	var nextState api.ContainerStatus
	if container.DesiredTerminal() {
		nextState = api.ContainerStopped
		if container.KnownStatus != api.ContainerRunning {
			// If it's not currently running we do not need to do anything to make it become stopped.
			return nextState, false, true
		}
	} else {
		nextState = container.KnownStatus + 1
	}
	return nextState, true, true
}
func (engine *DockerTaskEngine) pullContainer(task *api.Task, container *api.Container) DockerContainerMetadata {
	log.Info("Pulling container", "task", task, "container", container)
	seelog.Debugf("Attempting to obtain ImagePullDeleteLock to pull image - %s", container.Image)

	ImagePullDeleteLock.Lock()
	seelog.Debugf("Obtained ImagePullDeleteLock to pull image - %s", container.Image)
	defer seelog.Debugf("Released ImagePullDeleteLock after pulling image - %s", container.Image)
	defer ImagePullDeleteLock.Unlock()

	// If a task is blocked here for some time, and before it starts pulling image,
	// the task's desired status is set to stopped, then don't pull the image
	if task.GetDesiredStatus() == api.TaskStopped {
		seelog.Infof("Task desired status is stopped, skip pull container: %v, task %v", container, task)
		container.SetDesiredStatus(api.ContainerStopped)
		return DockerContainerMetadata{Error: TaskStoppedBeforePullBeginError{task.Arn}}
	}

	metadata := engine.client.PullImage(container.Image, container.RegistryAuthentication)
	err := engine.imageManager.AddContainerReferenceToImageState(container)
	if err != nil {
		seelog.Errorf("Error adding container reference to image state: %v", err)
	}
	imageState := engine.imageManager.GetImageStateFromImageName(container.Image)
	engine.state.AddImageState(imageState)
	engine.saver.Save()
	return metadata
}
// emitContainerEvent passes a given event up through the containerEvents channel if necessary.
// It will omit events the backend would not process and will perform best-effort deduplication of events.
func (engine *DockerTaskEngine) emitContainerEvent(task *api.Task, cont *api.Container, reason string) {
	contKnownStatus := cont.GetKnownStatus()
	if !contKnownStatus.BackendRecognized() {
		return
	}
	if cont.IsInternal {
		return
	}
	if cont.SentStatus >= contKnownStatus {
		log.Debug("Already sent container event; no need to re-send", "task", task.Arn, "container", cont.Name, "event", contKnownStatus.String())
		return
	}

	if reason == "" && cont.ApplyingError != nil {
		reason = cont.ApplyingError.Error()
	}
	event := api.ContainerStateChange{
		TaskArn:       task.Arn,
		ContainerName: cont.Name,
		Status:        contKnownStatus,
		ExitCode:      cont.KnownExitCode,
		PortBindings:  cont.KnownPortBindings,
		Reason:        reason,
		SentStatus:    &cont.SentStatus,
	}
	log.Debug("Container change event", "event", event)
	engine.containerEvents <- event
	log.Debug("Container change event passed on", "event", event)
}
func linkCanResolve(target *api.Container, link *api.Container) bool {
	targetDesiredStatus := target.GetDesiredStatus()
	linkDesiredStatus := link.GetDesiredStatus()
	if targetDesiredStatus == api.ContainerCreated {
		return linkDesiredStatus == api.ContainerCreated || linkDesiredStatus == api.ContainerRunning
	} else if targetDesiredStatus == api.ContainerRunning {
		return linkDesiredStatus == api.ContainerRunning
	}
	log.Error("Unexpected desired status", "target", target)
	return false
}
func volumeIsResolved(target *api.Container, volume *api.Container) bool {
	targetDesiredStatus := target.GetDesiredStatus()
	if targetDesiredStatus == api.ContainerCreated || targetDesiredStatus == api.ContainerRunning {
		knownStatus := volume.GetKnownStatus()
		return knownStatus == api.ContainerCreated ||
			knownStatus == api.ContainerRunning ||
			knownStatus == api.ContainerStopped
	}

	log.Error("Unexpected desired status", "target", target)
	return false
}
// verifyStatusResolveable validates that `target` can be resolved given that
// target depends on `dependencies` (which are container names) and there are
// `existingContainers` (map from name to container). The `resolves` function
// passed should return true if the named container is resolved.
func verifyStatusResolveable(target *api.Container, existingContainers map[string]*api.Container, dependencies []string, resolves func(*api.Container, *api.Container) bool) bool {
	targetGoal := target.GetDesiredStatus()
	if targetGoal != api.ContainerRunning && targetGoal != api.ContainerCreated {
		// A container can always stop, die, or reach whatever other statre it
		// wants regardless of what dependencies it has
		return true
	}

	for _, dependency := range dependencies {
		maybeResolves, exists := existingContainers[dependency]
		if !exists {
			return false
		}
		if !resolves(target, maybeResolves) {
			return false
		}
	}
	return true
}
func (imageState *ImageState) RemoveContainerReference(container *api.Container) error {
	// Get the image state write lock for updating container reference
	imageState.updateLock.Lock()
	defer imageState.updateLock.Unlock()
	for i, _ := range imageState.Containers {
		if imageState.Containers[i].Name == container.Name {
			// Container reference found; hence remove it
			seelog.Infof("Removing Container Reference: %v from Image State- %v", container.Name, imageState.Image.ImageID)
			imageState.Containers = append(imageState.Containers[:i], imageState.Containers[i+1:]...)
			// Update the last used time for the image
			imageState.LastUsedAt = time.Now()
			return nil
		}
	}
	return fmt.Errorf("Container reference is not found in the image state container: %s", container.String())
}
// onRunIsResolved defines a relationship where a target cannot be created until
// 'run' has reached a running state.
func onRunIsResolved(target *api.Container, run *api.Container) bool {
	if target.GetDesiredStatus() >= api.ContainerCreated {
		return run.GetKnownStatus() >= api.ContainerRunning
	}
	return false
}