If you are using a released version of Kubernetes, you should refer to the docs that go with that version.
The latest 1.0.x release of this document can be found [here](http://releases.k8s.io/release-1.0/docs/getting-started-guides/vagrant.md).Documentation for other releases can be found at releases.k8s.io.
Running Kubernetes with Vagrant (and VirtualBox) is an easy way to run/test/develop on your local machine (Linux, Mac OS X).
Table of Contents
- Prerequisites
- Setup
- Interacting with your Kubernetes cluster with Vagrant.
- Authenticating with your master
- Running containers
- Troubleshooting
- I keep downloading the same (large) box all the time!
- I just created the cluster, but I am getting authorization errors!
- I just created the cluster, but I do not see my container running!
- I want to make changes to Kubernetes code!
- I have brought Vagrant up but the nodes cannot validate!
- I want to change the number of nodes!
- I want my VMs to have more memory!
- I ran vagrant suspend and nothing works!
- I want vagrant to sync folders via nfs!
- Install latest version >= 1.6.2 of vagrant from http://www.vagrantup.com/downloads.html
- Install one of:
- Version 4.3.28 of Virtual Box from https://www.virtualbox.org/wiki/Download_Old_Builds_4_3
- VMWare Fusion version 5 or greater as well as the appropriate Vagrant VMWare Fusion provider
- VMWare Workstation version 9 or greater as well as the Vagrant VMWare Workstation provider
- Parallels Desktop version 9 or greater as well as the Vagrant Parallels provider
- libvirt with KVM and enable support of hardware virtualisation. Vagrant-libvirt. For fedora provided official rpm, and possible to use
yum install vagrant-libvirt
Setting up a cluster is as simple as running:
export KUBERNETES_PROVIDER=vagrant
curl -sS https://get.k8s.io | bash
Alternatively, you can download Kubernetes release and extract the archive. To start your local cluster, open a shell and run:
cd kubernetes
export KUBERNETES_PROVIDER=vagrant
./cluster/kube-up.sh
The KUBERNETES_PROVIDER
environment variable tells all of the various cluster management scripts which variant to use. If you forget to set this, the assumption is you are running on Google Compute Engine.
By default, the Vagrant setup will create a single master VM (called kubernetes-master) and one node (called kubernetes-minion-1). Each VM will take 1 GB, so make sure you have at least 2GB to 4GB of free memory (plus appropriate free disk space).
Vagrant will provision each machine in the cluster with all the necessary components to run Kubernetes. The initial setup can take a few minutes to complete on each machine.
If you installed more than one Vagrant provider, Kubernetes will usually pick the appropriate one. However, you can override which one Kubernetes will use by setting the VAGRANT_DEFAULT_PROVIDER
environment variable:
export VAGRANT_DEFAULT_PROVIDER=parallels
export KUBERNETES_PROVIDER=vagrant
./cluster/kube-up.sh
By default, each VM in the cluster is running Fedora.
To access the master or any node:
vagrant ssh master
vagrant ssh minion-1
If you are running more than one node, you can access the others by:
vagrant ssh minion-2
vagrant ssh minion-3
Each node in the cluster installs the docker daemon and the kubelet.
The master node instantiates the Kubernetes master components as pods on the machine.
To view the service status and/or logs on the kubernetes-master:
[vagrant@kubernetes-master ~] $ vagrant ssh master
[vagrant@kubernetes-master ~] $ sudo su
[root@kubernetes-master ~] $ systemctl status kubelet
[root@kubernetes-master ~] $ journalctl -ru kubelet
[root@kubernetes-master ~] $ systemctl status docker
[root@kubernetes-master ~] $ journalctl -ru docker
[root@kubernetes-master ~] $ tail -f /var/log/kube-apiserver.log
[root@kubernetes-master ~] $ tail -f /var/log/kube-controller-manager.log
[root@kubernetes-master ~] $ tail -f /var/log/kube-scheduler.log
To view the services on any of the nodes:
[vagrant@kubernetes-master ~] $ vagrant ssh minion-1
[vagrant@kubernetes-master ~] $ sudo su
[root@kubernetes-master ~] $ systemctl status kubelet
[root@kubernetes-master ~] $ journalctl -ru kubelet
[root@kubernetes-master ~] $ systemctl status docker
[root@kubernetes-master ~] $ journalctl -ru docker
With your Kubernetes cluster up, you can manage the nodes in your cluster with the regular Vagrant commands.
To push updates to new Kubernetes code after making source changes:
./cluster/kube-push.sh
To stop and then restart the cluster:
vagrant halt
./cluster/kube-up.sh
To destroy the cluster:
vagrant destroy
Once your Vagrant machines are up and provisioned, the first thing to do is to check that you can use the kubectl.sh
script.
You may need to build the binaries first, you can do this with make
$ ./cluster/kubectl.sh get nodes
NAME LABELS
10.245.1.4 <none>
10.245.1.5 <none>
10.245.1.3 <none>
When using the vagrant provider in Kubernetes, the cluster/kubectl.sh
script will cache your credentials in a ~/.kubernetes_vagrant_auth
file so you will not be prompted for them in the future.
cat ~/.kubernetes_vagrant_auth
{ "User": "vagrant",
"Password": "vagrant",
"CAFile": "/home/k8s_user/.kubernetes.vagrant.ca.crt",
"CertFile": "/home/k8s_user/.kubecfg.vagrant.crt",
"KeyFile": "/home/k8s_user/.kubecfg.vagrant.key"
}
You should now be set to use the cluster/kubectl.sh
script. For example try to list the nodes that you have started with:
./cluster/kubectl.sh get nodes
Your cluster is running, you can list the nodes in your cluster:
$ ./cluster/kubectl.sh get nodes
NAME LABELS
10.245.2.4 <none>
10.245.2.3 <none>
10.245.2.2 <none>
Now start running some containers!
You can now use any of the cluster/kube-*.sh
commands to interact with your VM machines.
Before starting a container there will be no pods, services and replication controllers.
$ ./cluster/kubectl.sh get pods
NAME READY STATUS RESTARTS AGE
$ ./cluster/kubectl.sh get services
NAME CLUSTER_IP EXTERNAL_IP PORT(S) SELECTOR AGE
$ ./cluster/kubectl.sh get replicationcontrollers
CONTROLLER CONTAINER(S) IMAGE(S) SELECTOR REPLICAS
Start a container running nginx with a replication controller and three replicas
$ ./cluster/kubectl.sh run my-nginx --image=nginx --replicas=3 --port=80
When listing the pods, you will see that three containers have been started and are in Waiting state:
$ ./cluster/kubectl.sh get pods
NAME READY STATUS RESTARTS AGE
my-nginx-5kq0g 0/1 Pending 0 10s
my-nginx-gr3hh 0/1 Pending 0 10s
my-nginx-xql4j 0/1 Pending 0 10s
You need to wait for the provisioning to complete, you can monitor the nodes by doing:
$ vagrant ssh minion-1 -c 'sudo docker images'
kubernetes-minion-1:
REPOSITORY TAG IMAGE ID CREATED VIRTUAL SIZE
<none> <none> 96864a7d2df3 26 hours ago 204.4 MB
google/cadvisor latest e0575e677c50 13 days ago 12.64 MB
kubernetes/pause latest 6c4579af347b 8 weeks ago 239.8 kB
Once the docker image for nginx has been downloaded, the container will start and you can list it:
$ vagrant ssh minion-1 -c 'sudo docker ps'
kubernetes-minion-1:
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
dbe79bf6e25b nginx:latest "nginx" 21 seconds ago Up 19 seconds k8s--mynginx.8c5b8a3a--7813c8bd_-_3ffe_-_11e4_-_9036_-_0800279696e1.etcd--7813c8bd_-_3ffe_-_11e4_-_9036_-_0800279696e1--fcfa837f
fa0e29c94501 kubernetes/pause:latest "/pause" 8 minutes ago Up 8 minutes 0.0.0.0:8080->80/tcp k8s--net.a90e7ce4--7813c8bd_-_3ffe_-_11e4_-_9036_-_0800279696e1.etcd--7813c8bd_-_3ffe_-_11e4_-_9036_-_0800279696e1--baf5b21b
aa2ee3ed844a google/cadvisor:latest "/usr/bin/cadvisor" 38 minutes ago Up 38 minutes k8s--cadvisor.9e90d182--cadvisor_-_agent.file--4626b3a2
65a3a926f357 kubernetes/pause:latest "/pause" 39 minutes ago Up 39 minutes 0.0.0.0:4194->8080/tcp k8s--net.c5ba7f0e--cadvisor_-_agent.file--342fd561
Going back to listing the pods, services and replicationcontrollers, you now have:
$ ./cluster/kubectl.sh get pods
NAME READY STATUS RESTARTS AGE
my-nginx-5kq0g 1/1 Running 0 1m
my-nginx-gr3hh 1/1 Running 0 1m
my-nginx-xql4j 1/1 Running 0 1m
$ ./cluster/kubectl.sh get services
NAME CLUSTER_IP EXTERNAL_IP PORT(S) SELECTOR AGE
my-nginx 10.0.0.1 <none> 80/TCP run=my-nginx 1h
We did not start any services, hence there are none listed. But we see three replicas displayed properly. Check the guestbook application to learn how to create a service. You can already play with scaling the replicas with:
$ ./cluster/kubectl.sh scale rc my-nginx --replicas=2
$ ./cluster/kubectl.sh get pods
NAME READY STATUS RESTARTS AGE
my-nginx-5kq0g 1/1 Running 0 2m
my-nginx-gr3hh 1/1 Running 0 2m
Congratulations!
By default the Vagrantfile will download the box from S3. You can change this (and cache the box locally) by providing a name and an alternate URL when calling kube-up.sh
export KUBERNETES_BOX_NAME=choose_your_own_name_for_your_kuber_box
export KUBERNETES_BOX_URL=path_of_your_kuber_box
export KUBERNETES_PROVIDER=vagrant
./cluster/kube-up.sh
You probably have an incorrect ~/.kubernetes_vagrant_auth file for the cluster you are attempting to contact.
rm ~/.kubernetes_vagrant_auth
After using kubectl.sh make sure that the correct credentials are set:
cat ~/.kubernetes_vagrant_auth
{
"User": "vagrant",
"Password": "vagrant"
}
If this is your first time creating the cluster, the kubelet on each node schedules a number of docker pull requests to fetch prerequisite images. This can take some time and as a result may delay your initial pod getting provisioned.
To set up a vagrant cluster for hacking, follow the vagrant developer guide.
Log on to one of the nodes (vagrant ssh minion-1
) and inspect the salt minion log (sudo cat /var/log/salt/minion
).
You can control the number of nodes that are instantiated via the environment variable NUM_MINIONS
on your host machine. If you plan to work with replicas, we strongly encourage you to work with enough nodes to satisfy your largest intended replica size. If you do not plan to work with replicas, you can save some system resources by running with a single node. You do this, by setting NUM_MINIONS
to 1 like so:
export NUM_MINIONS=1
You can control the memory allotted to virtual machines with the KUBERNETES_MEMORY
environment variable.
Just set it to the number of megabytes you would like the machines to have. For example:
export KUBERNETES_MEMORY=2048
If you need more granular control, you can set the amount of memory for the master and nodes independently. For example:
export KUBERNETES_MASTER_MEMORY=1536
export KUBERNETES_MINION_MEMORY=2048
vagrant suspend
seems to mess up the network. This is not supported at this time.
You can ensure that vagrant uses nfs to sync folders with virtual machines by setting the KUBERNETES_VAGRANT_USE_NFS environment variable to 'true'. nfs is faster than virtualbox or vmware's 'shared folders' and does not require guest additions. See the vagrant docs for details on configuring nfs on the host. This setting will have no effect on the libvirt provider, which uses nfs by default. For example:
export KUBERNETES_VAGRANT_USE_NFS=true