{% capture overview %}

{% comment %}Updated: 4/14/2015{% endcomment %} {% comment %}Edited and moved to Concepts section: 2/2/17{% endcomment %}

This page describes the lifecycle of a Pod.

{% endcapture %}

{% capture body %}

Pod phase

A Pod's status field is a PodStatus object, which has a phase field.

The phase of a Pod is a simple, high-level summary of where the Pod is in its lifecycle. The phase is not intended to be a comprehensive rollup of observations of Container or Pod state, nor is it intended to be a comprehensive state machine.

The number and meanings of Pod phase values are tightly guarded. Other than what is documented here, nothing should be assumed about Pods that have a given phase value.

Here are the possible values for phase:

  • Pending: The Pod has been accepted by the Kubernetes system, but one or more of the Container images has not been created. This includes time before being scheduled as well as time spent downloading images over the network, which could take a while.

  • Running: The Pod has been bound to a node, and all of the Containers have been created. At least one Container is still running, or is in the process of starting or restarting.

  • Succeeded: All Containers in the Pod have terminated in success, and will not be restarted.

  • Failed: All Containers in the Pod have terminated, and at least one Container has terminated in failure. That is, the Container either exited with non-zero status or was terminated by the system.

  • Unknown: For some reason the state of the Pod could not be obtained, typically due to an error in communicating with the host of the Pod.

Pod conditions

A Pod has a PodStatus, which has an array of PodConditions. Each element of the PodCondition array has a type field and a status field. The type field is a string, with possible values PodScheduled, Ready, Initialized, and Unschedulable. The status field is a string, with possible values True, False, and Unknown.

Container probes

A Probe is a diagnostic performed periodically by the kubelet on a Container. To perform a diagnostic, the kublet calls a Handler implemented by the Container. There are three types of handlers:

  • ExecAction: Executes a specified command inside the Container. The diagnostic is considered successful if the command exits with a status code of 0.

  • TCPSocketAction: Performs a TCP check against the Container's IP address on a specified port. The diagnostic is considered successful if the port is open.

  • HTTPGetAction: Performs an HTTP Get request against the Container's IP address on a specified port and path. The diagnostic is considered successful if the response has a status code greater than or equal to 200 and less than 400.

Each probe has one of three results:

  • Success: The Container passed the diagnostic.
  • Failure: The Container failed the diagnostic.
  • Unknown: The diagnostic failed, so no action should be taken.

The kubelet can optionally perform and react to two kinds of probes on running Containers:

  • livenessProbe: Indicates whether the Container is running. If the liveness probe fails, the kubelet kills the Container, and the Container is subjected to its restart policy. If a Container does not provide a liveness probe, the default state is Success.

  • readinessProbe: Indicates whether the Container is ready to service requests. If the readiness probe fails, the endpoints controller removes the Pod's IP address from the endpoints of all Services that match the Pod. The default state of readiness before the initial delay is Failure. If a Container does not provide a readiness probe, the default state is Success.

When should you use liveness or readiness probes?

If the process in your Container is able to crash on its own whenever it encounters an issue or becomes unhealthy, you do not necessarily need a liveness probe; the kubelet will automatically perform the correct action in accordance with the Pod's restartPolicy.

If you'd like your Container to be killed and restarted if a probe fails, then specify a liveness probe, and specify a restartPolicy of Always or OnFailure.

If you'd like to start sending traffic to a Pod only when a probe succeeds, specify a readiness probe. In this case, the readiness probe might be the same as the liveness probe, but the existence of the readiness probe in the spec means that the Pod will start without receiving any traffic and only start receiving traffic after the probe starts succeeding.

If you want your Container to be able to take itself down for maintenance, you can specify a readiness probe that checks an endpoint specific to readiness that is different from the liveness probe.

Note that if you just want to be able to drain requests when the Pod is deleted, you do not necessarily need a readiness probe; on deletion, the Pod automatically puts itself into an unready state regardless of whether the readiness probe exists. The Pod remains in the unready state while it waits for the Containers in the Pod to stop.

Pod and Container status

For detailed information about Pod Container status, see PodStatus and ContainerStatus. Note that the information reported as Pod status depends on the current ContainerState.

Restart policy

A PodSpec has a restartPolicy field with possible values Always, OnFailure, and Never. The default value is Always. restartPolicy applies to all Containers in the Pod. restartPolicy only refers to restarts of the Containers by the kubelet on the same node. Failed Containers that are restarted by the kubelet are restarted with an exponential back-off delay (10s, 20s, 40s ...) capped at five minutes, and is reset after ten minutes of successful execution. As discussed in the Pods document, once bound to a node, a Pod will never be rebound to another node.

Pod lifetime

In general, Pods do not disappear until someone destroys them. This might be a human or a controller. The only exception to this rule is that Pods with a phase of Succeeded or Failed for more than some duration (determined by the master) will expire and be automatically destroyed.

Three types of controllers are available:

  • Use a Job for Pods that are expected to terminate, for example, batch computations. Jobs are appropriate only for Pods with restartPolicy equal to OnFailure or Never.

  • Use a ReplicationController, ReplicaSet, or Deployment for Pods that are not expected to terminate, for example, web servers. ReplicationControllers are appropriate only for Pods with a restartPolicy of Always.

  • Use a DaemonSet for Pods that need to run one per machine, because they provide a machine-specific system service.

All three types of controllers contain a PodTemplate. It is recommended to create the appropriate controller and let it create Pods, rather than directly create Pods yourself. That is because Pods alone are not resilient to machine failures, but controllers are.

If a node dies or is disconnected from the rest of the cluster, Kubernetes applies a policy for setting the phase of all Pods on the lost node to Failed.

Examples

Advanced liveness probe example

Liveness probes are executed by the kubelet, so all requests are made in the kubelet network namespace.

apiVersion: v1
kind: Pod
metadata:
  labels:
    test: liveness
  name: liveness-http
spec:
  containers:
  - args:
    - /server
    image: gcr.io/google_containers/liveness
    livenessProbe:
      httpGet:
        # when "host" is not defined, "PodIP" will be used
        # host: my-host
        # when "scheme" is not defined, "HTTP" scheme will be used. Only "HTTP" and "HTTPS" are allowed
        # scheme: HTTPS
        path: /healthz
        port: 8080
        httpHeaders:
          - name: X-Custom-Header
            value: Awesome
      initialDelaySeconds: 15
      timeoutSeconds: 1
    name: liveness

Example states

  • Pod is running and has one Container. Container exits with success.

    • Log completion event.
    • If restartPolicy is:
    • Always: Restart Container; Pod phase stays Running.
    • OnFailure: Pod phase becomes Succeeded.
    • Never: Pod phase becomes Succeeded.
  • Pod is running and has one Container. Container exits with failure.

    • Log failure event.
    • If restartPolicy is:
    • Always: Restart Container; Pod phase stays Running.
    • OnFailure: Restart Container; Pod phase stays Running.
    • Never: Pod phase becomes Failed.
  • Pod is running and has two Containers. Container 1 exits with failure.

    • Log failure event.
    • If restartPolicy is:
    • Always: Restart Container; Pod phase stays Running.
    • OnFailure: Restart Container; Pod phase stays Running.
    • Never: Do not restart Container; Pod phase stays Running.
    • If Container 1 is not running, and Container 2 exits:
    • Log failure event.
    • If restartPolicy is:
      • Always: Restart Container; Pod phase stays Running.
      • OnFailure: Restart Container; Pod phase stays Running.
      • Never: Pod phase becomes Failed.
  • Pod is running and has one Container. Container runs out of memory.

    • Container terminates in failure.
    • Log OOM event.
    • If restartPolicy is:
    • Always: Restart Container; Pod phase stays Running.
    • OnFailure: Restart Container; Pod phase stays Running.
    • Never: Log failure event; Pod phase becomes Failed.
  • Pod is running, and a disk dies.

    • Kill all Containers.
    • Log appropriate event.
    • Pod phase becomes Failed.
    • If running under a controller, Pod is recreated elsewhere.
  • Pod is running, and its node is segmented out.

    • Node controller waits for timeout.
    • Node controller sets Pod phase to Failed.
    • If running under a controller, Pod is recreated elsewhere.

{% endcapture %}

{% capture whatsnext %}

{% endcapture %}

{% include templates/concept.md %}