See also: Kubectl Overview and JsonPath Guide.
$ source <(kubectl completion bash) # setup autocomplete in bash, bash-completion package should be installed first.
$ source <(kubectl completion zsh) # setup autocomplete in zsh
Set which Kubernetes cluster kubectl
communicates with and modifies configuration
information. See Authenticating Across Clusters with kubeconfig documentation for
detailed config file information.
$ kubectl config view # Show Merged kubeconfig settings.
# use multiple kubeconfig files at the same time and view merged config
$ KUBECONFIG=~/.kube/config:~/.kube/kubconfig2 kubectl config view
# Get the password for the e2e user
$ kubectl config view -o jsonpath='{.users[?(@.name == "e2e")].user.password}'
$ kubectl config current-context # Display the current-context
$ kubectl config use-context my-cluster-name # set the default context to my-cluster-name
# add a new cluster to your kubeconf that supports basic auth
$ kubectl config set-credentials kubeuser/foo.kubernetes.com --username=kubeuser --password=kubepassword
# set a context utilizing a specific username and namespace.
$ kubectl config set-context gce --user=cluster-admin --namespace=foo \
&& kubectl config use-context gce
Kubernetes manifests can be defined in json or yaml. The file extension .yaml
,
.yml
, and .json
can be used.
$ kubectl create -f ./my-manifest.yaml # create resource(s)
$ kubectl create -f ./my1.yaml -f ./my2.yaml # create from multiple files
$ kubectl create -f ./dir # create resource(s) in all manifest files in dir
$ kubectl create -f https://git.io/vPieo # create resource(s) from url
$ kubectl run nginx --image=nginx # start a single instance of nginx
$ kubectl explain pods,svc # get the documentation for pod and svc manifests
# Create multiple YAML objects from stdin
$ cat <<EOF | kubectl create -f -
apiVersion: v1
kind: Pod
metadata:
name: busybox-sleep
spec:
containers:
- name: busybox
image: busybox
args:
- sleep
- "1000000"
---
apiVersion: v1
kind: Pod
metadata:
name: busybox-sleep-less
spec:
containers:
- name: busybox
image: busybox
args:
- sleep
- "1000"
EOF
# Create a secret with several keys
$ cat <<EOF | kubectl create -f -
apiVersion: v1
kind: Secret
metadata:
name: mysecret
type: Opaque
data:
password: $(echo -n "s33msi4" | base64)
username: $(echo -n "jane" | base64)
EOF
# Get commands with basic output
$ kubectl get services # List all services in the namespace
$ kubectl get pods --all-namespaces # List all pods in all namespaces
$ kubectl get pods -o wide # List all pods in the namespace, with more details
$ kubectl get deployment my-dep # List a particular deployment
$ kubectl get pods --include-uninitialized # List all pods in the namespace, including uninitialized ones
# Describe commands with verbose output
$ kubectl describe nodes my-node
$ kubectl describe pods my-pod
$ kubectl get services --sort-by=.metadata.name # List Services Sorted by Name
# List pods Sorted by Restart Count
$ kubectl get pods --sort-by='.status.containerStatuses[0].restartCount'
# Get the version label of all pods with label app=cassandra
$ kubectl get pods --selector=app=cassandra rc -o \
jsonpath='{.items[*].metadata.labels.version}'
# Get all running pods in the namespace
$ kubectl get pods --field-selector=status.phase=Running
# Get ExternalIPs of all nodes
$ kubectl get nodes -o jsonpath='{.items[*].status.addresses[?(@.type=="ExternalIP")].address}'
# List Names of Pods that belong to Particular RC
# "jq" command useful for transformations that are too complex for jsonpath, it can be found at https://stedolan.github.io/jq/
$ sel=${$(kubectl get rc my-rc --output=json | jq -j '.spec.selector | to_entries | .[] | "\(.key)=\(.value),"')%?}
$ echo $(kubectl get pods --selector=$sel --output=jsonpath={.items..metadata.name})
# Check which nodes are ready
$ JSONPATH='{range .items[*]}{@.metadata.name}:{range @.status.conditions[*]}{@.type}={@.status};{end}{end}' \
&& kubectl get nodes -o jsonpath="$JSONPATH" | grep "Ready=True"
# List all Secrets currently in use by a pod
$ kubectl get pods -o json | jq '.items[].spec.containers[].env[]?.valueFrom.secretKeyRef.name' | grep -v null | sort | uniq
$ kubectl rolling-update frontend-v1 -f frontend-v2.json # Rolling update pods of frontend-v1
$ kubectl rolling-update frontend-v1 frontend-v2 --image=image:v2 # Change the name of the resource and update the image
$ kubectl rolling-update frontend --image=image:v2 # Update the pods image of frontend
$ kubectl rolling-update frontend-v1 frontend-v2 --rollback # Abort existing rollout in progress
$ cat pod.json | kubectl replace -f - # Replace a pod based on the JSON passed into stdin
# Force replace, delete and then re-create the resource. Will cause a service outage.
$ kubectl replace --force -f ./pod.json
# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000
$ kubectl expose rc nginx --port=80 --target-port=8000
# Update a single-container pod's image version (tag) to v4
$ kubectl get pod mypod -o yaml | sed 's/\(image: myimage\):.*$/\1:v4/' | kubectl replace -f -
$ kubectl label pods my-pod new-label=awesome # Add a Label
$ kubectl annotate pods my-pod icon-url=http://goo.gl/XXBTWq # Add an annotation
$ kubectl autoscale deployment foo --min=2 --max=10 # Auto scale a deployment "foo"
$ kubectl patch node k8s-node-1 -p '{"spec":{"unschedulable":true}}' # Partially update a node
# Update a container's image; spec.containers[*].name is required because it's a merge key
$ kubectl patch pod valid-pod -p '{"spec":{"containers":[{"name":"kubernetes-serve-hostname","image":"new image"}]}}'
# Update a container's image using a json patch with positional arrays
$ kubectl patch pod valid-pod --type='json' -p='[{"op": "replace", "path": "/spec/containers/0/image", "value":"new image"}]'
# Disable a deployment livenessProbe using a json patch with positional arrays
$ kubectl patch deployment valid-deployment --type json -p='[{"op": "remove", "path": "/spec/template/spec/containers/0/livenessProbe"}]'
# Add a new element to a positional array
$ kubectl patch sa default --type='json' -p='[{"op": "add", "path": "/secrets/1", "value": {"name": "whatever" } }]'
The edit any API resource in an editor.
$ kubectl edit svc/docker-registry # Edit the service named docker-registry
$ KUBE_EDITOR="nano" kubectl edit svc/docker-registry # Use an alternative editor
$ kubectl scale --replicas=3 rs/foo # Scale a replicaset named 'foo' to 3
$ kubectl scale --replicas=3 -f foo.yaml # Scale a resource specified in "foo.yaml" to 3
$ kubectl scale --current-replicas=2 --replicas=3 deployment/mysql # If the deployment named mysql's current size is 2, scale mysql to 3
$ kubectl scale --replicas=5 rc/foo rc/bar rc/baz # Scale multiple replication controllers
$ kubectl delete -f ./pod.json # Delete a pod using the type and name specified in pod.json
$ kubectl delete pod,service baz foo # Delete pods and services with same names "baz" and "foo"
$ kubectl delete pods,services -l name=myLabel # Delete pods and services with label name=myLabel
$ kubectl delete pods,services -l name=myLabel --include-uninitialized # Delete pods and services, including uninitialized ones, with label name=myLabel
$ kubectl -n my-ns delete po,svc --all # Delete all pods and services, including uninitialized ones, in namespace my-ns,
$ kubectl logs my-pod # dump pod logs (stdout)
$ kubectl logs my-pod -c my-container # dump pod container logs (stdout, multi-container case)
$ kubectl logs -f my-pod # stream pod logs (stdout)
$ kubectl logs -f my-pod -c my-container # stream pod container logs (stdout, multi-container case)
$ kubectl run -i --tty busybox --image=busybox -- sh # Run pod as interactive shell
$ kubectl attach my-pod -i # Attach to Running Container
$ kubectl port-forward my-pod 5000:6000 # Listen on port 5000 on the local machine and forward to port 6000 on my-pod
$ kubectl exec my-pod -- ls / # Run command in existing pod (1 container case)
$ kubectl exec my-pod -c my-container -- ls / # Run command in existing pod (multi-container case)
$ kubectl top pod POD_NAME --containers # Show metrics for a given pod and its containers
$ kubectl cordon my-node # Mark my-node as unschedulable
$ kubectl drain my-node # Drain my-node in preparation for maintenance
$ kubectl uncordon my-node # Mark my-node as schedulable
$ kubectl top node my-node # Show metrics for a given node
$ kubectl cluster-info # Display addresses of the master and services
$ kubectl cluster-info dump # Dump current cluster state to stdout
$ kubectl cluster-info dump --output-directory=/path/to/cluster-state # Dump current cluster state to /path/to/cluster-state
# If a taint with that key and effect already exists, its value is replaced as specified.
$ kubectl taint nodes foo dedicated=special-user:NoSchedule
The following table includes a list of all the supported resource types and their abbreviated aliases:
Resource type | Abbreviated alias |
---|---|
all |
|
certificatesigningrequests |
csr |
clusterrolebindings |
|
clusterroles |
|
componentstatuses |
cs |
configmaps |
cm |
controllerrevisions |
|
cronjobs |
|
customresourcedefinition |
crd |
daemonsets |
ds |
deployments |
deploy |
endpoints |
ep |
events |
ev |
horizontalpodautoscalers |
hpa |
ingresses |
ing |
jobs |
|
limitranges |
limits |
namespaces |
ns |
networkpolicies |
netpol |
nodes |
no |
persistentvolumeclaims |
pvc |
persistentvolumes |
pv |
poddisruptionbudgets |
pdb |
podpreset |
|
pods |
po |
podsecuritypolicies |
psp |
podtemplates |
|
replicasets |
rs |
replicationcontrollers |
rc |
resourcequotas |
quota |
rolebindings |
|
roles |
|
secrets |
|
serviceaccount |
sa |
services |
svc |
statefulsets |
sts |
storageclasses |
sc |
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.
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, and for pods, the node name is included |
-o=yaml |
Output a YAML formatted API object |
Kubectl verbosity is controlled with the -v
or --v
flags followed by an integer representing the log level. General Kubernetes logging conventions and the associated log levels are described here.
Verbosity | Description |
---|---|
--v=0 |
Generally useful for this to ALWAYS be visible to an operator. |
--v=1 |
A reasonable default log level if you don’t want verbosity. |
--v=2 |
Useful steady state information about the service and important log messages that may correlate to significant changes in the system. This is the recommended default log level for most systems. |
--v=3 |
Extended information about changes. |
--v=4 |
Debug level verbosity. |
--v=6 |
Display requested resources. |
--v=7 |
Display HTTP request headers. |
--v=8 |
Display HTTP request contents. |
--v=9 |
Display HTTP request contents without truncation of contents. |