Minikube is a tool that makes it easy to run Kubernetes locally. Minikube runs a single-node Kubernetes cluster inside a Virtual Machine (VM) on your laptop for users looking to try out Kubernetes or develop with it day-to-day.
Minikube supports the following Kubernetes features:
See Installing Minikube.
This brief demo guides you on how to start, use, and delete Minikube locally. Follow the steps given below to start and explore Minikube.
Start Minikube and create a cluster:
minikube start
The output is similar to this:
Starting local Kubernetes cluster...
Running pre-create checks...
Creating machine...
Starting local Kubernetes cluster...
For more information on starting your cluster on a specific Kubernetes version, VM, or container runtime, see Starting a Cluster.
Now, you can interact with your cluster using kubectl. For more information, see Interacting with Your Cluster.
Let’s create a Kubernetes Deployment using an existing image named echoserver
, which is a simple HTTP server and expose it on port 8080 using --port
.
kubectl run hello-minikube --image=k8s.gcr.io/echoserver:1.10 --port=8080
The output is similar to this:
deployment.apps/hello-minikube created
To access the hello-minikube
Deployment, expose it as a Service:
kubectl expose deployment hello-minikube --type=NodePort
The option --type=NodePort
specifies the type of the Service.
The output is similar to this:
service/hello-minikube exposed
The hello-minikube
Pod is now launched but you have to wait until the Pod is up before accessing it via the exposed Service.
Check if the Pod is up and running:
kubectl get pod
If the output shows the STATUS
as ContainerCreating
, the Pod is still being created:
NAME READY STATUS RESTARTS AGE
hello-minikube-3383150820-vctvh 0/1 ContainerCreating 0 3s
If the output shows the STATUS
as Running
, the Pod is now up and running:
NAME READY STATUS RESTARTS AGE
hello-minikube-3383150820-vctvh 1/1 Running 0 13s
Get the URL of the exposed Service to view the Service details:
minikube service hello-minikube --url
To view the details of your local cluster, copy and paste the URL you got as the output, on your browser.
The output is similar to this:
Hostname: hello-minikube-7c77b68cff-8wdzq
Pod Information:
-no pod information available-
Server values:
server_version=nginx: 1.13.3 - lua: 10008
Request Information:
client_address=172.17.0.1
method=GET
real path=/
query=
request_version=1.1
request_scheme=http
request_uri=http://192.168.99.100:8080/
Request Headers:
accept=*/*
host=192.168.99.100:30674
user-agent=curl/7.47.0
Request Body:
-no body in request-
If you no longer want the Service and cluster to run, you can delete them.
Delete the hello-minikube
Service:
kubectl delete services hello-minikube
The output is similar to this:
service "hello-minikube" deleted
Delete the hello-minikube
Deployment:
kubectl delete deployment hello-minikube
The output is similar to this:
deployment.extensions "hello-minikube" deleted
Stop the local Minikube cluster:
minikube stop
The output is similar to this:
Stopping "minikube"...
"minikube" stopped.
For more information, see Stopping a Cluster.
Delete the local Minikube cluster:
minikube delete
The output is similar to this:
Deleting "minikube" ...
The "minikube" cluster has been deleted.
For more information, see Deleting a cluster.
The minikube start
command can be used to start your cluster.
This command creates and configures a Virtual Machine that runs a single-node Kubernetes cluster.
This command also configures your kubectl installation to communicate with this cluster.
Note:If you are behind a web proxy, you need to pass this information to the
minikube start
command:https_proxy=<my proxy> minikube start --docker-env http_proxy=<my proxy> --docker-env https_proxy=<my proxy> --docker-env no_proxy=192.168.99.0/24
Unfortunately, setting the environment variables alone does not work.
Minikube also creates a “minikube” context, and sets it to default in kubectl. To switch back to this context, run this command:
kubectl config use-context minikube
.
You can specify the version of Kubernetes for Minikube to use by
adding the --kubernetes-version
string to the minikube start
command. For
example, to run version v1.14.10, you would run the following:
minikube start --kubernetes-version v1.14.10
You can change the VM driver by adding the --vm-driver=<enter_driver_name>
flag to minikube start
.
For example the command would be.
minikube start --vm-driver=<driver_name>
Minikube supports the following drivers:
Note: See DRIVERS for details on supported drivers and how to install plugins.
minikube ip
.You can start Minikube on the following container runtimes.
To use containerd as the container runtime, run:
minikube start \
--network-plugin=cni \
--enable-default-cni \
--container-runtime=containerd \
--bootstrapper=kubeadm
Or you can use the extended version:
minikube start \
--network-plugin=cni \
--enable-default-cni \
--extra-config=kubelet.container-runtime=remote \
--extra-config=kubelet.container-runtime-endpoint=unix:///run/containerd/containerd.sock \
--extra-config=kubelet.image-service-endpoint=unix:///run/containerd/containerd.sock \
--bootstrapper=kubeadm
To use CRI-O as the container runtime, run:
minikube start \
--network-plugin=cni \
--enable-default-cni \
--container-runtime=cri-o \
--bootstrapper=kubeadm
Or you can use the extended version:
minikube start \
--network-plugin=cni \
--enable-default-cni \
--extra-config=kubelet.container-runtime=remote \
--extra-config=kubelet.container-runtime-endpoint=/var/run/crio.sock \
--extra-config=kubelet.image-service-endpoint=/var/run/crio.sock \
--bootstrapper=kubeadm
To use rkt as the container runtime run:
minikube start \
--network-plugin=cni \
--enable-default-cni \
--container-runtime=rkt
This will use an alternative minikube ISO image containing both rkt, and Docker, and enable CNI networking.
When using a single VM for Kubernetes, it’s useful to reuse Minikube’s built-in Docker daemon. Reusing the built-in daemon means you don’t have to build a Docker registry on your host machine and push the image into it. Instead, you can build inside the same Docker daemon as Minikube, which speeds up local experiments.
Note: Be sure to tag your Docker image with something other than latest and use that tag to pull the image. Because:latest
is the default value, with a corresponding default image pull policy ofAlways
, an image pull error (ErrImagePull
) eventually results if you do not have the Docker image in the default Docker registry (usually DockerHub).
To work with the Docker daemon on your Mac/Linux host, use the docker-env command
in your shell:
eval $(minikube docker-env)
You can now use Docker at the command line of your host Mac/Linux machine to communicate with the Docker daemon inside the Minikube VM:
docker ps
Note:On Centos 7, Docker may report the following error:
Could not read CA certificate "/etc/docker/ca.pem": open /etc/docker/ca.pem: no such file or directory
You can fix this by updating /etc/sysconfig/docker to ensure that Minikube’s environment changes are respected:
< DOCKER_CERT_PATH=/etc/docker --- > if [ -z "${DOCKER_CERT_PATH}" ]; then > DOCKER_CERT_PATH=/etc/docker > fi
Minikube has a “configurator” feature that allows users to configure the Kubernetes components with arbitrary values.
To use this feature, you can use the --extra-config
flag on the minikube start
command.
This flag is repeated, so you can pass it several times with several different values to set multiple options.
This flag takes a string of the form component.key=value
, where component
is one of the strings from the below list, key
is a value on the
configuration struct and value
is the value to set.
Valid keys can be found by examining the documentation for the Kubernetes componentconfigs
for each component.
Here is the documentation for each supported configuration:
To change the MaxPods
setting to 5 on the Kubelet, pass this flag: --extra-config=kubelet.MaxPods=5
.
This feature also supports nested structs. To change the LeaderElection.LeaderElect
setting to true
on the scheduler, pass this flag: --extra-config=scheduler.LeaderElection.LeaderElect=true
.
To set the AuthorizationMode
on the apiserver
to RBAC
, you can use: --extra-config=apiserver.authorization-mode=RBAC
.
The minikube stop
command can be used to stop your cluster.
This command shuts down the Minikube Virtual Machine, but preserves all cluster state and data.
Starting the cluster again will restore it to its previous state.
The minikube delete
command can be used to delete your cluster.
This command shuts down and deletes the Minikube Virtual Machine. No data or state is preserved.
The minikube start
command creates a kubectl context called “minikube”.
This context contains the configuration to communicate with your Minikube cluster.
Minikube sets this context to default automatically, but if you need to switch back to it in the future, run:
kubectl config use-context minikube
,
Or pass the context on each command like this: kubectl get pods --context=minikube
.
To access the Kubernetes Dashboard, run this command in a shell after starting Minikube to get the address:
minikube dashboard
To access a Service exposed via a node port, run this command in a shell after starting Minikube to get the address:
minikube service [-n NAMESPACE] [--url] NAME
The Minikube VM is exposed to the host system via a host-only IP address, that can be obtained with the minikube ip
command.
Any services of type NodePort
can be accessed over that IP address, on the NodePort.
To determine the NodePort for your service, you can use a kubectl
command like this:
kubectl get service $SERVICE --output='jsonpath="{.spec.ports[0].nodePort}"'
Minikube supports PersistentVolumes of type hostPath
.
These PersistentVolumes are mapped to a directory inside the Minikube VM.
The Minikube VM boots into a tmpfs, so most directories will not be persisted across reboots (minikube stop
).
However, Minikube is configured to persist files stored under the following host directories:
/data
/var/lib/minikube
/var/lib/docker
Here is an example PersistentVolume config to persist data in the /data
directory:
apiVersion: v1
kind: PersistentVolume
metadata:
name: pv0001
spec:
accessModes:
- ReadWriteOnce
capacity:
storage: 5Gi
hostPath:
path: /data/pv0001/
Some drivers will mount a host folder within the VM so that you can easily share files between the VM and host. These are not configurable at the moment and different for the driver and OS you are using.
Note: Host folder sharing is not implemented in the KVM driver yet.
Driver | OS | HostFolder | VM |
---|---|---|---|
VirtualBox | Linux | /home | /hosthome |
VirtualBox | macOS | /Users | /Users |
VirtualBox | Windows | C://Users | /c/Users |
VMware Fusion | macOS | /Users | /Users |
Xhyve | macOS | /Users | /Users |
To access a private container registry, follow the steps on this page.
We recommend you use ImagePullSecrets
, but if you would like to configure access on the Minikube VM you can place the .dockercfg
in the /home/docker
directory or the config.json
in the /home/docker/.docker
directory.
In order to have Minikube properly start or restart custom addons,
place the addons you wish to be launched with Minikube in the ~/.minikube/addons
directory. Addons in this folder will be moved to the Minikube VM and
launched each time Minikube is started or restarted.
Minikube creates a Virtual Machine that includes Kubernetes and a Docker daemon. When Kubernetes attempts to schedule containers using Docker, the Docker daemon may require external network access to pull containers.
If you are behind an HTTP proxy, you may need to supply Docker with the proxy settings.
To do this, pass the required environment variables as flags during minikube start
.
For example:
minikube start --docker-env http_proxy=http://$YOURPROXY:PORT \
--docker-env https_proxy=https://$YOURPROXY:PORT
If your Virtual Machine address is 192.168.99.100, then chances are your proxy settings will prevent kubectl
from directly reaching it.
To by-pass proxy configuration for this IP address, you should modify your no_proxy settings. You can do so with:
export no_proxy=$no_proxy,$(minikube ip)
Minikube uses libmachine for provisioning VMs, and kubeadm to provision a Kubernetes cluster.
For more information about Minikube, see the proposal.
Contributions, questions, and comments are all welcomed and encouraged! Minikube developers hang out on Slack in the #minikube channel (get an invitation here). We also have the kubernetes-dev Google Groups mailing list. If you are posting to the list please prefix your subject with “minikube: “.
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