Kubernetes provides a command line tool for communicating with a Kubernetes cluster's control plane, using the Kubernetes API.
This tool is named kubectl
.
For configuration, kubectl
looks for a file named config
in the $HOME/.kube
directory.
You can specify other kubeconfig
files by setting the KUBECONFIG
environment variable or by setting the
--kubeconfig
flag.
This overview covers kubectl
syntax, describes the command operations, and provides common examples.
For details about each command, including all the supported flags and subcommands, see the
kubectl reference documentation.
For installation instructions, see Installing kubectl;
for a quick guide, see the cheat sheet.
If you're used to using the docker
command-line tool,
kubectl
for Docker Users explains some equivalent commands for Kubernetes.
Syntax
Use the following syntax to run kubectl
commands from your terminal window:
kubectl [command] [TYPE] [NAME] [flags]
where command
, TYPE
, NAME
, and flags
are:
-
command
: Specifies the operation that you want to perform on one or more resources, for examplecreate
,get
,describe
,delete
. -
TYPE
: Specifies the resource type. Resource types are case-insensitive and you can specify the singular, plural, or abbreviated forms. For example, the following commands produce the same output:kubectl get pod pod1 kubectl get pods pod1 kubectl get po pod1
-
NAME
: Specifies the name of the resource. Names are case-sensitive. If the name is omitted, details for all resources are displayed, for examplekubectl get pods
.When performing an operation on multiple resources, you can specify each resource by type and name or specify one or more files:
-
To specify resources by type and name:
-
To group resources if they are all the same type:
TYPE1 name1 name2 name<#>
.
Example:kubectl get pod example-pod1 example-pod2
-
To specify multiple resource types individually:
TYPE1/name1 TYPE1/name2 TYPE2/name3 TYPE<#>/name<#>
.
Example:kubectl get pod/example-pod1 replicationcontroller/example-rc1
-
-
To specify resources with one or more files:
-f file1 -f file2 -f file<#>
- Use YAML rather than JSON
since YAML tends to be more user-friendly, especially for configuration files.
Example:kubectl get -f ./pod.yaml
- Use YAML rather than JSON
since YAML tends to be more user-friendly, especially for configuration files.
-
-
flags
: Specifies optional flags. For example, you can use the-s
or--server
flags to specify the address and port of the Kubernetes API server.
If you need help, run kubectl help
from the terminal window.
In-cluster authentication and namespace overrides
By default kubectl
will first determine if it is running within a pod, and thus in a cluster.
It starts by checking for the KUBERNETES_SERVICE_HOST
and KUBERNETES_SERVICE_PORT
environment
variables and the existence of a service account token file at /var/run/secrets/kubernetes.io/serviceaccount/token
.
If all three are found in-cluster authentication is assumed.
To maintain backwards compatibility, if the POD_NAMESPACE
environment variable is set
during in-cluster authentication it will override the default namespace from the
service account token. Any manifests or tools relying on namespace defaulting will be affected by this.
POD_NAMESPACE
environment variable
If the POD_NAMESPACE
environment variable is set, cli operations on namespaced resources
will default to the variable value. For example, if the variable is set to seattle
,
kubectl get pods
would return pods in the seattle
namespace. This is because pods are
a namespaced resource, and no namespace was provided in the command. Review the output
of kubectl api-resources
to determine if a resource is namespaced.
Explicit use of --namespace <value>
overrides this behavior.
How kubectl handles ServiceAccount tokens
If:
- there is Kubernetes service account token file mounted at
/var/run/secrets/kubernetes.io/serviceaccount/token
, and - the
KUBERNETES_SERVICE_HOST
environment variable is set, and - the
KUBERNETES_SERVICE_PORT
environment variable is set, and - you don't explicitly specify a namespace on the kubectl command line
then kubectl assumes it is running in your cluster. The kubectl tool looks up the namespace of that ServiceAccount (this is the same as the namespace of the Pod) and acts against that namespace. This is different from what happens outside of a cluster; when kubectl runs outside a cluster and you don't specify a namespace, the kubectl command acts against the namespace set for the current context in your client configuration. To change the default namespace for your kubectl you can use the following command:
kubectl config set-context --current --namespace=<namespace-name>
Operations
The following table includes short descriptions and the general syntax for all of the kubectl
operations:
Operation | Syntax | Description |
---|---|---|
alpha |
kubectl alpha SUBCOMMAND [flags] |
List the available commands that correspond to alpha features, which are not enabled in Kubernetes clusters by default. |
annotate |
kubectl annotate (-f FILENAME | TYPE NAME | TYPE/NAME) KEY_1=VAL_1 ... KEY_N=VAL_N [--overwrite] [--all] [--resource-version=version] [flags] |
Add or update the annotations of one or more resources. |
api-resources |
kubectl api-resources [flags] |
List the API resources that are available. |
api-versions |
kubectl api-versions [flags] |
List the API versions that are available. |
apply |
kubectl apply -f FILENAME [flags] |
Apply a configuration change to a resource from a file or stdin. |
attach |
kubectl attach POD -c CONTAINER [-i] [-t] [flags] |
Attach to a running container either to view the output stream or interact with the container (stdin). |
auth |
kubectl auth [flags] [options] |
Inspect authorization. |
autoscale |
kubectl autoscale (-f FILENAME | TYPE NAME | TYPE/NAME) [--min=MINPODS] --max=MAXPODS [--cpu-percent=CPU] [flags] |
Automatically scale the set of pods that are managed by a replication controller. |
certificate |
kubectl certificate SUBCOMMAND [options] |
Modify certificate resources. |
cluster-info |
kubectl cluster-info [flags] |
Display endpoint information about the master and services in the cluster. |
completion |
kubectl completion SHELL [options] |
Output shell completion code for the specified shell (bash or zsh). |
config |
kubectl config SUBCOMMAND [flags] |
Modifies kubeconfig files. See the individual subcommands for details. |
convert |
kubectl convert -f FILENAME [options] |
Convert config files between different API versions. Both YAML and JSON formats are accepted. Note - requires kubectl-convert plugin to be installed. |
cordon |
kubectl cordon NODE [options] |
Mark node as unschedulable. |
cp |
kubectl cp <file-spec-src> <file-spec-dest> [options] |
Copy files and directories to and from containers. |
create |
kubectl create -f FILENAME [flags] |
Create one or more resources from a file or stdin. |
delete |
kubectl delete (-f FILENAME | TYPE [NAME | /NAME | -l label | --all]) [flags] |
Delete resources either from a file, stdin, or specifying label selectors, names, resource selectors, or resources. |
describe |
kubectl describe (-f FILENAME | TYPE [NAME_PREFIX | /NAME | -l label]) [flags] |
Display the detailed state of one or more resources. |
diff |
kubectl diff -f FILENAME [flags] |
Diff file or stdin against live configuration. |
drain |
kubectl drain NODE [options] |
Drain node in preparation for maintenance. |
edit |
kubectl edit (-f FILENAME | TYPE NAME | TYPE/NAME) [flags] |
Edit and update the definition of one or more resources on the server by using the default editor. |
events |
kubectl events |
List events |
exec |
kubectl exec POD [-c CONTAINER] [-i] [-t] [flags] [-- COMMAND [args...]] |
Execute a command against a container in a pod. |
explain |
kubectl explain TYPE [--recursive=false] [flags] |
Get documentation of various resources. For instance pods, nodes, services, etc. |
expose |
kubectl expose (-f FILENAME | TYPE NAME | TYPE/NAME) [--port=port] [--protocol=TCP|UDP] [--target-port=number-or-name] [--name=name] [--external-ip=external-ip-of-service] [--type=type] [flags] |
Expose a replication controller, service, or pod as a new Kubernetes service. |
get |
kubectl get (-f FILENAME | TYPE [NAME | /NAME | -l label]) [--watch] [--sort-by=FIELD] [[-o | --output]=OUTPUT_FORMAT] [flags] |
List one or more resources. |
kustomize |
kubectl kustomize <dir> [flags] [options] |
List a set of API resources generated from instructions in a kustomization.yaml file. The argument must be the path to the directory containing the file, or a git repository URL with a path suffix specifying same with respect to the repository root. |
label |
kubectl label (-f FILENAME | TYPE NAME | TYPE/NAME) KEY_1=VAL_1 ... KEY_N=VAL_N [--overwrite] [--all] [--resource-version=version] [flags] |
Add or update the labels of one or more resources. |
logs |
kubectl logs POD [-c CONTAINER] [--follow] [flags] |
Print the logs for a container in a pod. |
options |
kubectl options |
List of global command-line options, which apply to all commands. |
patch |
kubectl patch (-f FILENAME | TYPE NAME | TYPE/NAME) --patch PATCH [flags] |
Update one or more fields of a resource by using the strategic merge patch process. |
plugin |
kubectl plugin [flags] [options] |
Provides utilities for interacting with plugins. |
port-forward |
kubectl port-forward POD [LOCAL_PORT:]REMOTE_PORT [...[LOCAL_PORT_N:]REMOTE_PORT_N] [flags] |
Forward one or more local ports to a pod. |
proxy |
kubectl proxy [--port=PORT] [--www=static-dir] [--www-prefix=prefix] [--api-prefix=prefix] [flags] |
Run a proxy to the Kubernetes API server. |
replace |
kubectl replace -f FILENAME |
Replace a resource from a file or stdin. |
rollout |
kubectl rollout SUBCOMMAND [options] |
Manage the rollout of a resource. Valid resource types include: deployments, daemonsets and statefulsets. |
run |
kubectl run NAME --image=image [--env="key=value"] [--port=port] [--dry-run=server|client|none] [--overrides=inline-json] [flags] |
Run a specified image on the cluster. |
scale |
kubectl scale (-f FILENAME | TYPE NAME | TYPE/NAME) --replicas=COUNT [--resource-version=version] [--current-replicas=count] [flags] |
Update the size of the specified replication controller. |
set |
kubectl set SUBCOMMAND [options] |
Configure application resources. |
taint |
kubectl taint NODE NAME KEY_1=VAL_1:TAINT_EFFECT_1 ... KEY_N=VAL_N:TAINT_EFFECT_N [options] |
Update the taints on one or more nodes. |
top |
kubectl top (POD | NODE) [flags] [options] |
Display Resource (CPU/Memory/Storage) usage of pod or node. |
uncordon |
kubectl uncordon NODE [options] |
Mark node as schedulable. |
version |
kubectl version [--client] [flags] |
Display the Kubernetes version running on the client and server. |
wait |
kubectl wait ([-f FILENAME] | resource.group/resource.name | resource.group [(-l label | --all)]) [--for=delete|--for condition=available] [options] |
Experimental: Wait for a specific condition on one or many resources. |
To learn more about command operations, see the kubectl reference documentation.
Resource types
The following table includes a list of all the supported resource types and their abbreviated aliases.
(This output can be retrieved from kubectl api-resources
, and was accurate as of Kubernetes 1.25.0)
NAME | SHORTNAMES | APIVERSION | NAMESPACED | KIND |
---|---|---|---|---|
bindings |
v1 | true | Binding | |
componentstatuses |
cs |
v1 | false | ComponentStatus |
configmaps |
cm |
v1 | true | ConfigMap |
endpoints |
ep |
v1 | true | Endpoints |
events |
ev |
v1 | true | Event |
limitranges |
limits |
v1 | true | LimitRange |
namespaces |
ns |
v1 | false | Namespace |
nodes |
no |
v1 | false | Node |
persistentvolumeclaims |
pvc |
v1 | true | PersistentVolumeClaim |
persistentvolumes |
pv |
v1 | false | PersistentVolume |
pods |
po |
v1 | true | Pod |
podtemplates |
v1 | true | PodTemplate | |
replicationcontrollers |
rc |
v1 | true | ReplicationController |
resourcequotas |
quota |
v1 | true | ResourceQuota |
secrets |
v1 | true | Secret | |
serviceaccounts |
sa |
v1 | true | ServiceAccount |
services |
svc |
v1 | true | Service |
mutatingwebhookconfigurations |
admissionregistration.k8s.io/v1 | false | MutatingWebhookConfiguration | |
validatingwebhookconfigurations |
admissionregistration.k8s.io/v1 | false | ValidatingWebhookConfiguration | |
customresourcedefinitions |
crd,crds |
apiextensions.k8s.io/v1 | false | CustomResourceDefinition |
apiservices |
apiregistration.k8s.io/v1 | false | APIService | |
controllerrevisions |
apps/v1 | true | ControllerRevision | |
daemonsets |
ds |
apps/v1 | true | DaemonSet |
deployments |
deploy |
apps/v1 | true | Deployment |
replicasets |
rs |
apps/v1 | true | ReplicaSet |
statefulsets |
sts |
apps/v1 | true | StatefulSet |
tokenreviews |
authentication.k8s.io/v1 | false | TokenReview | |
localsubjectaccessreviews |
authorization.k8s.io/v1 | true | LocalSubjectAccessReview | |
selfsubjectaccessreviews |
authorization.k8s.io/v1 | false | SelfSubjectAccessReview | |
selfsubjectrulesreviews |
authorization.k8s.io/v1 | false | SelfSubjectRulesReview | |
subjectaccessreviews |
authorization.k8s.io/v1 | false | SubjectAccessReview | |
horizontalpodautoscalers |
hpa |
autoscaling/v2 | true | HorizontalPodAutoscaler |
cronjobs |
cj |
batch/v1 | true | CronJob |
jobs |
batch/v1 | true | Job | |
certificatesigningrequests |
csr |
certificates.k8s.io/v1 | false | CertificateSigningRequest |
leases |
coordination.k8s.io/v1 | true | Lease | |
endpointslices |
discovery.k8s.io/v1 | true | EndpointSlice | |
events |
ev |
events.k8s.io/v1 | true | Event |
flowschemas |
flowcontrol.apiserver.k8s.io/v1beta2 | false | FlowSchema | |
prioritylevelconfigurations |
flowcontrol.apiserver.k8s.io/v1beta2 | false | PriorityLevelConfiguration | |
ingressclasses |
networking.k8s.io/v1 | false | IngressClass | |
ingresses |
ing |
networking.k8s.io/v1 | true | Ingress |
networkpolicies |
netpol |
networking.k8s.io/v1 | true | NetworkPolicy |
runtimeclasses |
node.k8s.io/v1 | false | RuntimeClass | |
poddisruptionbudgets |
pdb |
policy/v1 | true | PodDisruptionBudget |
podsecuritypolicies |
psp |
policy/v1beta1 | false | PodSecurityPolicy |
clusterrolebindings |
rbac.authorization.k8s.io/v1 | false | ClusterRoleBinding | |
clusterroles |
rbac.authorization.k8s.io/v1 | false | ClusterRole | |
rolebindings |
rbac.authorization.k8s.io/v1 | true | RoleBinding | |
roles |
rbac.authorization.k8s.io/v1 | true | Role | |
priorityclasses |
pc |
scheduling.k8s.io/v1 | false | PriorityClass |
csidrivers |
storage.k8s.io/v1 | false | CSIDriver | |
csinodes |
storage.k8s.io/v1 | false | CSINode | |
csistoragecapacities |
storage.k8s.io/v1 | true | CSIStorageCapacity | |
storageclasses |
sc |
storage.k8s.io/v1 | false | StorageClass |
volumeattachments |
storage.k8s.io/v1 | false | VolumeAttachment |
Output options
Use the following sections for information about how you can format or sort the output of certain commands. For details about which commands support the various output options, see the kubectl reference documentation.
Formatting output
The default output format for all kubectl
commands is the human readable plain-text format.
To output details to your terminal window in a specific format, you can add either the -o
or --output
flags to a supported kubectl
command.
Syntax
kubectl [command] [TYPE] [NAME] -o <output_format>
Depending on the kubectl
operation, the following output formats are supported:
Output format | Description |
---|---|
-o custom-columns=<spec> |
Print a table using a comma separated list of custom columns. |
-o custom-columns-file=<filename> |
Print a table using the custom columns template in the <filename> file. |
-o json |
Output a JSON formatted API object. |
-o jsonpath=<template> |
Print the fields defined in a jsonpath expression. |
-o jsonpath-file=<filename> |
Print the fields defined by the jsonpath expression in the <filename> file. |
-o name |
Print only the resource name and nothing else. |
-o wide |
Output in the plain-text format with any additional information. For pods, the node name is included. |
-o yaml |
Output a YAML formatted API object. |
Example
In this example, the following command outputs the details for a single pod as a YAML formatted object:
kubectl get pod web-pod-13je7 -o yaml
Remember: See the kubectl reference documentation for details about which output format is supported by each command.
Custom columns
To define custom columns and output only the details that you want into a table, you can use the custom-columns
option.
You can choose to define the custom columns inline or use a template file: -o custom-columns=<spec>
or -o custom-columns-file=<filename>
.
Examples
Inline:
kubectl get pods <pod-name> -o custom-columns=NAME:.metadata.name,RSRC:.metadata.resourceVersion
Template file:
kubectl get pods <pod-name> -o custom-columns-file=template.txt
where the template.txt
file contains:
NAME RSRC
metadata.name metadata.resourceVersion
The result of running either command is similar to:
NAME RSRC
submit-queue 610995
Server-side columns
kubectl
supports receiving specific column information from the server about objects.
This means that for any given resource, the server will return columns and rows relevant to that resource, for the client to print.
This allows for consistent human-readable output across clients used against the same cluster, by having the server encapsulate the details of printing.
This feature is enabled by default. To disable it, add the
--server-print=false
flag to the kubectl get
command.
Examples
To print information about the status of a pod, use a command like the following:
kubectl get pods <pod-name> --server-print=false
The output is similar to:
NAME AGE
pod-name 1m
Sorting list objects
To output objects to a sorted list in your terminal window, you can add the --sort-by
flag
to a supported kubectl
command. Sort your objects by specifying any numeric or string field
with the --sort-by
flag. To specify a field, use a jsonpath expression.
Syntax
kubectl [command] [TYPE] [NAME] --sort-by=<jsonpath_exp>
Example
To print a list of pods sorted by name, you run:
kubectl get pods --sort-by=.metadata.name
Examples: Common operations
Use the following set of examples to help you familiarize yourself with running the commonly used kubectl
operations:
kubectl apply
- Apply or Update a resource from a file or stdin.
# Create a service using the definition in example-service.yaml.
kubectl apply -f example-service.yaml
# Create a replication controller using the definition in example-controller.yaml.
kubectl apply -f example-controller.yaml
# Create the objects that are defined in any .yaml, .yml, or .json file within the <directory> directory.
kubectl apply -f <directory>
kubectl get
- List one or more resources.
# List all pods in plain-text output format.
kubectl get pods
# List all pods in plain-text output format and include additional information (such as node name).
kubectl get pods -o wide
# List the replication controller with the specified name in plain-text output format. Tip: You can shorten and replace the 'replicationcontroller' resource type with the alias 'rc'.
kubectl get replicationcontroller <rc-name>
# List all replication controllers and services together in plain-text output format.
kubectl get rc,services
# List all daemon sets in plain-text output format.
kubectl get ds
# List all pods running on node server01
kubectl get pods --field-selector=spec.nodeName=server01
kubectl describe
- Display detailed state of one or more resources, including the uninitialized ones by default.
# Display the details of the node with name <node-name>.
kubectl describe nodes <node-name>
# Display the details of the pod with name <pod-name>.
kubectl describe pods/<pod-name>
# Display the details of all the pods that are managed by the replication controller named <rc-name>.
# Remember: Any pods that are created by the replication controller get prefixed with the name of the replication controller.
kubectl describe pods <rc-name>
# Describe all pods
kubectl describe pods
kubectl get
command is usually used for retrieving one or more
resources of the same resource type. It features a rich set of flags that allows
you to customize the output format using the -o
or --output
flag, for example.
You can specify the -w
or --watch
flag to start watching updates to a particular
object. The kubectl describe
command is more focused on describing the many
related aspects of a specified resource. It may invoke several API calls to the
API server to build a view for the user. For example, the kubectl describe node
command retrieves not only the information about the node, but also a summary of
the pods running on it, the events generated for the node etc.
kubectl delete
- Delete resources either from a file, stdin, or specifying label selectors, names, resource selectors, or resources.
# Delete a pod using the type and name specified in the pod.yaml file.
kubectl delete -f pod.yaml
# Delete all the pods and services that have the label '<label-key>=<label-value>'.
kubectl delete pods,services -l <label-key>=<label-value>
# Delete all pods, including uninitialized ones.
kubectl delete pods --all
kubectl exec
- Execute a command against a container in a pod.
# Get output from running 'date' from pod <pod-name>. By default, output is from the first container.
kubectl exec <pod-name> -- date
# Get output from running 'date' in container <container-name> of pod <pod-name>.
kubectl exec <pod-name> -c <container-name> -- date
# Get an interactive TTY and run /bin/bash from pod <pod-name>. By default, output is from the first container.
kubectl exec -ti <pod-name> -- /bin/bash
kubectl logs
- Print the logs for a container in a pod.
# Return a snapshot of the logs from pod <pod-name>.
kubectl logs <pod-name>
# Start streaming the logs from pod <pod-name>. This is similar to the 'tail -f' Linux command.
kubectl logs -f <pod-name>
kubectl diff
- View a diff of the proposed updates to a cluster.
# Diff resources included in "pod.json".
kubectl diff -f pod.json
# Diff file read from stdin.
cat service.yaml | kubectl diff -f -
Examples: Creating and using plugins
Use the following set of examples to help you familiarize yourself with writing and using kubectl
plugins:
# create a simple plugin in any language and name the resulting executable file
# so that it begins with the prefix "kubectl-"
cat ./kubectl-hello
#!/bin/sh
# this plugin prints the words "hello world"
echo "hello world"
With a plugin written, let's make it executable:
chmod a+x ./kubectl-hello
# and move it to a location in our PATH
sudo mv ./kubectl-hello /usr/local/bin
sudo chown root:root /usr/local/bin
# You have now created and "installed" a kubectl plugin.
# You can begin using this plugin by invoking it from kubectl as if it were a regular command
kubectl hello
hello world
# You can "uninstall" a plugin, by removing it from the folder in your
# $PATH where you placed it
sudo rm /usr/local/bin/kubectl-hello
In order to view all of the plugins that are available to kubectl
, use
the kubectl plugin list
subcommand:
kubectl plugin list
The output is similar to:
The following kubectl-compatible plugins are available:
/usr/local/bin/kubectl-hello
/usr/local/bin/kubectl-foo
/usr/local/bin/kubectl-bar
kubectl plugin list
also warns you about plugins that are not
executable, or that are shadowed by other plugins; for example:
sudo chmod -x /usr/local/bin/kubectl-foo # remove execute permission
kubectl plugin list
The following kubectl-compatible plugins are available:
/usr/local/bin/kubectl-hello
/usr/local/bin/kubectl-foo
- warning: /usr/local/bin/kubectl-foo identified as a plugin, but it is not executable
/usr/local/bin/kubectl-bar
error: one plugin warning was found
You can think of plugins as a means to build more complex functionality on top of the existing kubectl commands:
cat ./kubectl-whoami
The next few examples assume that you already made kubectl-whoami
have
the following contents:
#!/bin/bash
# this plugin makes use of the `kubectl config` command in order to output
# information about the current user, based on the currently selected context
kubectl config view --template='{{ range .contexts }}{{ if eq .name "'$(kubectl config current-context)'" }}Current user: {{ printf "%s\n" .context.user }}{{ end }}{{ end }}'
Running the above command gives you an output containing the user for the current context in your KUBECONFIG file:
# make the file executable
sudo chmod +x ./kubectl-whoami
# and move it into your PATH
sudo mv ./kubectl-whoami /usr/local/bin
kubectl whoami
Current user: plugins-user
What's next
- Read the
kubectl
reference documentation:- the kubectl command reference
- the command line arguments reference
- Learn about
kubectl
usage conventions - Read about JSONPath support in kubectl
- Read about how to extend kubectl with plugins
- To find out more about plugins, take a look at the example CLI plugin.