This document highlights and consolidates configuration best practices that are introduced throughout the user-guide, getting-started documentation, and examples.
This is a living document. If you think of something that is not on this list but might be useful to others, please don’t hesitate to file an issue or submit a PR.
When defining configurations, specify the latest stable API version (currently v1).
Configuration files should be stored in version control before being pushed to the cluster. This allows quick roll-back of a configuration if needed. It also aids with cluster re-creation and restoration if necessary.
Write your configuration files using YAML rather than JSON. Though these formats can be used interchangeably in almost all scenarios, YAML tends to be more user-friendly.
Group related objects into a single file whenever it makes sense. One file is often easier to manage than several. See the guestbook-all-in-one.yaml file as an example of this syntax.
Note also that many kubectl
commands can be called on a directory, so you can also call kubectl create
on a directory of config files. See below for more details.
Don’t specify default values unnecessarily, in order to simplify and minimize configs, and to reduce error. For example, omit the selector and labels in a ReplicationController
if you want them to be the same as the labels in its podTemplate
, since those fields are populated from the podTemplate
labels by default. See the guestbook app’s .yaml files for some examples of this.
Put an object description in an annotation to allow better introspection.
If there is a viable alternative to naked pods (in other words: pods not bound to a replication controller), go with the alternative. Naked pods will not be rescheduled in the event of node failure.
Replication controllers are almost always preferable to creating pods, except for some explicit restartPolicy: Never
scenarios. A Job object (currently in Beta) may also be appropriate.
It’s typically best to create a service before corresponding replication controllers. This lets the scheduler spread the pods that comprise the service.
You can also use this process to ensure that at least one replica works before creating lots of them:
Don’t use hostPort
unless it is absolutely necessary (for example: for a node daemon). It specifies the port number to expose on the host. When you bind a Pod to a hostPort
, there are a limited number of places to schedule a pod due to port conflicts— you can only schedule as many such Pods as there are nodes in your Kubernetes cluster.
If you only need access to the port for debugging purposes, you can use the kubectl proxy and apiserver proxy or kubectl port-forward. You can use a Service object for external service access.
If you explicitly need to expose a pod’s port on the host machine, consider using a NodePort service before resorting to hostPort
.
Avoid using hostNetwork
, for the same reasons as hostPort
.
Use headless services for easy service discovery when you don’t need kube-proxy load balancing. See headless services.
Define and use labels that identify semantic attributes of your application or deployment. For example, instead of attaching a label to a set of pods to explicitly represent some service (For example, service: myservice
), or explicitly representing the replication controller managing the pods (for example, controller: mycontroller
), attach labels that identify semantic attributes, such as { app: myapp, tier: frontend, phase: test, deployment: v3 }
. This will let you select the object groups appropriate to the context— for example, a service for all “tier: frontend” pods, or all “test” phase components of app “myapp”. See the guestbook app for an example of this approach.
A service can be made to span multiple deployments, such as is done across rolling updates, by simply omitting release-specific labels from its selector, rather than updating a service’s selector to match the replication controller’s selector fully.
To facilitate rolling updates, include version info in replication controller names, for example as a suffix to the name. It is useful to set a ‘version’ label as well. The rolling update creates a new controller as opposed to modifying the existing controller. So, there will be issues with version-agnostic controller names. See the documentation on the rolling-update command for more detail.
Note that the Deployment object obviates the need to manage replication controller ‘version names’. A desired state of an object is described by a Deployment, and if changes to that spec are applied, the deployment controller changes the actual state to the desired state at a controlled rate. (Deployment objects are currently part of the extensions
API Group.)
You can manipulate labels for debugging. Because Kubernetes replication controllers and services match to pods using labels, this allows you to remove a pod from being considereby a controller, or served traffic by a service, by removing the relevant selectolabels. If you remove the labels of an existing pod, its controller will create a new pod to takits place. This is a useful way to debug a previously “live” pod in a quarantine environmentSee the kubectl label
command.
The default container image pull policy is IfNotPresent
, which causes the Kubelet to not pull an image if it already exists. If you would like to always force a pull, you must specify a pull image policy of Always
in your .yaml file (imagePullPolicy: Always
) or specify a :latest
tag on your image.
That is, if you’re specifying an image with other than the :latest
tag, for example myimage:v1
, and there is an image update to that same tag, the Kubelet won’t pull the updated image. You can address this by ensuring that any updates to an image bump the image tag as well (for example, myimage:v2
), and ensuring that your configs point to the correct version.
Note: you should avoid using :latest
tag when deploying containers in production, because this makes it hard to track which version of the image is running and hard to roll back.
Use kubectl create -f <directory>
where possible. This looks for config objects in all .yaml
, .yml
, and .json
files in <directory>
and passes them to create
.
Use kubectl delete
rather than stop
. Delete
has a superset of the functionality of stop
, and stop
is deprecated.
Use kubectl bulk operations (via files and/or labels) for get and delete. See label selectors and using labels effectively.
Use kubectl run
and expose
to quickly create and expose single container Deployments. See the quick start guide for an example.