Kubernetes supports multiple virtual clusters backed by the same physical cluster. These virtual clusters are called namespaces.
Namespaces are intended for use in environments with many users spread across multiple teams, or projects. For clusters with a few to tens of users, you should not need to create or think about namespaces at all. Start using namespaces when you need the features they provide.
Namespaces provide a scope for names. Names of resources need to be unique within a namespace, but not across namespaces. Namespaces can not be nested inside one another and each Kubernetes resource can only be in one namespace.
Namespaces are a way to divide cluster resources between multiple users (via resource quota).
In future versions of Kubernetes, objects in the same namespace will have the same access control policies by default.
It is not necessary to use multiple namespaces just to separate slightly different resources, such as different versions of the same software: use labels to distinguish resources within the same namespace.
Creation and deletion of namespaces are described in the Admin Guide documentation for namespaces.
You can list the current namespaces in a cluster using:
kubectl get namespace
NAME STATUS AGE default Active 1d kube-system Active 1d kube-public Active 1d
Kubernetes starts with three initial namespaces:
defaultThe default namespace for objects with no other namespace
kube-systemThe namespace for objects created by the Kubernetes system
kube-publicThis namespace is created automatically and is readable by all users (including those not authenticated). This namespace is mostly reserved for cluster usage, in case that some resources should be visible and readable publicly throughout the whole cluster. The public aspect of this namespace is only a convention, not a requirement.
To set the namespace for a current request, use the
kubectl run nginx --image=nginx --namespace=<insert-namespace-name-here> kubectl get pods --namespace=<insert-namespace-name-here>
You can permanently save the namespace for all subsequent kubectl commands in that context.
kubectl config set-context --current --namespace=<insert-namespace-name-here> # Validate it kubectl config view --minify | grep namespace:
When you create a Service, it creates a corresponding DNS entry.
This entry is of the form
<service-name>.<namespace-name>.svc.cluster.local, which means
that if a container just uses
<service-name>, it will resolve to the service which
is local to a namespace. This is useful for using the same configuration across
multiple namespaces such as Development, Staging and Production. If you want to reach
across namespaces, you need to use the fully qualified domain name (FQDN).
Most Kubernetes resources (e.g. pods, services, replication controllers, and others) are in some namespaces. However namespace resources are not themselves in a namespace. And low-level resources, such as nodes and persistentVolumes, are not in any namespace.
To see which Kubernetes resources are and aren’t in a namespace:
# In a namespace kubectl api-resources --namespaced=true # Not in a namespace kubectl api-resources --namespaced=false
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