This document describes how to deploy Kubernetes with Calico networking from scratch on bare metal Ubuntu. For more information on Project Calico, visit projectcalico.org and the calico-containers repository.
To install Calico on an existing Kubernetes cluster, or for more information on deploying Calico with Kubernetes in a number of other environments take a look at our supported deployment guides.
This guide will set up a simple Kubernetes cluster with a single Kubernetes master and two Kubernetes nodes. We’ll run Calico’s etcd cluster on the master and install the Calico daemon on the master and nodes.
systemd
for process management. Ubuntu 15.04 supports systemd natively as do a number of other Linux distributions.192.168.0.0/16
as the subnet from which pod IP addresses are assigned. If this overlaps with your host subnet, you will need to configure Calico to use a different IP pool.The master requires the root CA public key, ca.pem
; the apiserver certificate, apiserver.pem
and its private key, apiserver-key.pem
.
Create the file openssl.cnf
with the following contents.
[req]
req_extensions = v3_req
distinguished_name = req_distinguished_name
[req_distinguished_name]
[ v3_req ]
basicConstraints = CA:FALSE
keyUsage = nonRepudiation, digitalSignature, keyEncipherment
subjectAltName = @alt_names
[alt_names]
DNS.1 = kubernetes
DNS.2 = kubernetes.default
IP.1 = 10.100.0.1
IP.2 = ${MASTER_IPV4}
Replace ${MASTER_IPV4} with the Master’s IP address on which the Kubernetes API will be accessible.
Generate the necessary TLS assets.
# Generate the root CA.
openssl genrsa -out ca-key.pem 2048
openssl req -x509 -new -nodes -key ca-key.pem -days 10000 -out ca.pem -subj "/CN=kube-ca"
# Generate the API server keypair.
openssl genrsa -out apiserver-key.pem 2048
openssl req -new -key apiserver-key.pem -out apiserver.csr -subj "/CN=kube-apiserver" -config openssl.cnf
openssl x509 -req -in apiserver.csr -CA ca.pem -CAkey ca-key.pem -CAcreateserial -out apiserver.pem -days 365 -extensions v3_req -extfile openssl.cnf
ca.pem
, apiserver.pem
, and apiserver-key.pem
. Send the three files to your master host (using scp
for example).Move them to the /etc/kubernetes/ssl
folder and ensure that only the root user can read the key:
# Move keys
sudo mkdir -p /etc/kubernetes/ssl/
sudo mv -t /etc/kubernetes/ssl/ ca.pem apiserver.pem apiserver-key.pem
# Set permissions
sudo chmod 600 /etc/kubernetes/ssl/apiserver-key.pem
sudo chown root:root /etc/kubernetes/ssl/apiserver-key.pem
Calico needs its own etcd cluster to store its state. In this guide we install a single-node cluster on the master server.
Note: In a production deployment we recommend running a distributed etcd cluster for redundancy. In this guide, we use a single etcd for simplicitly.
Download the template manifest file:
wget https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/master/calico-etcd.manifest
Replace all instances of <MASTER_IPV4>
in the calico-etcd.manifest
file with your master’s IP address.
Then, move the file to the /etc/kubernetes/manifests
directory. This will not have any effect until we later run the kubelet, but Calico seems to tolerate the lack of its etcd in the interim.
sudo mv -f calico-etcd.manifest /etc/kubernetes/manifests
We need to install Calico on the master. This allows the master to route packets to the pods on other nodes.
Install the calicoctl
tool:
wget https://github.com/projectcalico/calico-containers/releases/download/v0.15.0/calicoctl
chmod +x calicoctl
sudo mv calicoctl /usr/bin
Prefetch the calico/node container (this ensures that the Calico service starts immediately when we enable it):
sudo docker pull calico/node:v0.15.0
Download the network-environment
template from the calico-kubernetes
repository:
wget -O network-environment https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/master/network-environment-template
Edit network-environment
to represent this node’s settings:
<KUBERNETES_MASTER>
with the IP address of the master. This should be the source IP address used to reach the Kubernetes worker nodes.Move network-environment
into /etc
:
sudo mv -f network-environment /etc
Install, enable, and start the calico-node
service:
sudo wget -N -P /etc/systemd https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/common/calico-node.service
sudo systemctl enable /etc/systemd/calico-node.service
sudo systemctl start calico-node.service
We’ll use the kubelet
to bootstrap the Kubernetes master.
Download and install the kubelet
and kubectl
binaries:
sudo wget -N -P /usr/bin http://storage.googleapis.com/kubernetes-release/release/v1.1.4/bin/linux/amd64/kubectl
sudo wget -N -P /usr/bin http://storage.googleapis.com/kubernetes-release/release/v1.1.4/bin/linux/amd64/kubelet
sudo chmod +x /usr/bin/kubelet /usr/bin/kubectl
Install the kubelet
systemd unit file and start the kubelet
:
# Install the unit file
sudo wget -N -P /etc/systemd https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/master/kubelet.service
# Enable the unit file so that it runs on boot
sudo systemctl enable /etc/systemd/kubelet.service
# Start the kubelet service
sudo systemctl start kubelet.service
Download and install the master manifest file, which will start the Kubernetes master services automatically:
sudo mkdir -p /etc/kubernetes/manifests
sudo wget -N -P /etc/kubernetes/manifests https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/master/kubernetes-master.manifest
Check the progress by running docker ps
. After a while, you should see the etcd
, apiserver
, controller-manager
, scheduler
, and kube-proxy
containers running.
Note: it may take some time for all the containers to start. Don’t worry if
docker ps
doesn’t show any containers for a while or if some containers start before others.
The following steps should be run on each Kubernetes node.
Worker nodes require three keys: ca.pem
, worker.pem
, and worker-key.pem
. We’ve already generated
ca.pem
and ca-key.pem
for use on the Master. The worker public/private keypair should be generated for each Kubernetes node.
Create the file worker-openssl.cnf
with the following contents.
[req]
req_extensions = v3_req
distinguished_name = req_distinguished_name
[req_distinguished_name]
[ v3_req ]
basicConstraints = CA:FALSE
keyUsage = nonRepudiation, digitalSignature, keyEncipherment
subjectAltName = @alt_names
[alt_names]
IP.1 = $ENV::WORKER_IP
Generate the necessary TLS assets for this worker. This relies on the worker’s IP address, and the ca.pem
and ca-key.pem
files generated earlier in the guide.
# Export this worker's IP address.
export WORKER_IP=<WORKER_IPV4>
# Generate keys.
openssl genrsa -out worker-key.pem 2048
openssl req -new -key worker-key.pem -out worker.csr -subj "/CN=worker-key" -config worker-openssl.cnf
openssl x509 -req -in worker.csr -CA ca.pem -CAkey ca-key.pem -CAcreateserial -out worker.pem -days 365 -extensions v3_req -extfile worker-openssl.cnf
Send the three files (ca.pem
, worker.pem
, and worker-key.pem
) to the host (using scp, for example).
Move the files to the /etc/kubernetes/ssl
folder with the appropriate permissions:
# Move keys
sudo mkdir -p /etc/kubernetes/ssl/
sudo mv -t /etc/kubernetes/ssl/ ca.pem worker.pem worker-key.pem
# Set permissions
sudo chmod 600 /etc/kubernetes/ssl/worker-key.pem
sudo chown root:root /etc/kubernetes/ssl/worker-key.pem
With your certs in place, create a kubeconfig for worker authentication in /etc/kubernetes/worker-kubeconfig.yaml
; replace <KUBERNETES_MASTER>
with the IP address of the master:
apiVersion: v1
kind: Config
clusters:
- name: local
cluster:
server: https://<KUBERNETES_MASTER>:443
certificate-authority: /etc/kubernetes/ssl/ca.pem
users:
- name: kubelet
user:
client-certificate: /etc/kubernetes/ssl/worker.pem
client-key: /etc/kubernetes/ssl/worker-key.pem
contexts:
- context:
cluster: local
user: kubelet
name: kubelet-context
current-context: kubelet-context
On your compute nodes, it is important that you install Calico before Kubernetes. We’ll install Calico using the provided calico-node.service
systemd unit file:
Install the calicoctl
binary:
wget https://github.com/projectcalico/calico-containers/releases/download/v0.15.0/calicoctl
chmod +x calicoctl
sudo mv calicoctl /usr/bin
Fetch the calico/node container:
sudo docker pull calico/node:v0.15.0
Download the network-environment
template from the calico-cni
repository:
wget -O network-environment https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/node/network-environment-template
Edit network-environment
to represent this node’s settings:
<DEFAULT_IPV4>
with the IP address of the node.<KUBERNETES_MASTER>
with the IP or hostname of the master.Move network-environment
into /etc
:
sudo mv -f network-environment /etc
Install the calico-node
service:
sudo wget -N -P /etc/systemd https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/common/calico-node.service
sudo systemctl enable /etc/systemd/calico-node.service
sudo systemctl start calico-node.service
Install the Calico CNI plugins:
sudo mkdir -p /opt/cni/bin/
sudo wget -N -P /opt/cni/bin/ https://github.com/projectcalico/calico-cni/releases/download/v1.0.0/calico
sudo wget -N -P /opt/cni/bin/ https://github.com/projectcalico/calico-cni/releases/download/v1.0.0/calico-ipam
sudo chmod +x /opt/cni/bin/calico /opt/cni/bin/calico-ipam
Create a CNI network configuration file, which tells Kubernetes to create a network named calico-k8s-network
and to use the calico plugins for that network. Create file /etc/cni/net.d/10-calico.conf
with the following contents, replacing <KUBERNETES_MASTER>
with the IP of the master (this file should be the same on each node):
# Make the directory structure.
mkdir -p /etc/cni/net.d
# Make the network configuration file
cat >/etc/cni/net.d/10-calico.conf <<EOF
{
"name": "calico-k8s-network",
"type": "calico",
"etcd_authority": "<KUBERNETES_MASTER>:6666",
"log_level": "info",
"ipam": {
"type": "calico-ipam"
}
}
EOF
Since this is the only network we create, it will be used by default by the kubelet.
Verify that Calico started correctly:
calicoctl status
should show that Felix (Calico’s per-node agent) is running and the there should be a BGP status line for each other node that you’ve configured and the master. The “Info” column should show “Established”:
$ calicoctl status
calico-node container is running. Status: Up 15 hours
Running felix version 1.3.0rc5
IPv4 BGP status
+---------------+-------------------+-------+----------+-------------+
| Peer address | Peer type | State | Since | Info |
+---------------+-------------------+-------+----------+-------------+
| 172.18.203.41 | node-to-node mesh | up | 17:32:26 | Established |
| 172.18.203.42 | node-to-node mesh | up | 17:32:25 | Established |
+---------------+-------------------+-------+----------+-------------+
IPv6 BGP status
+--------------+-----------+-------+-------+------+
| Peer address | Peer type | State | Since | Info |
+--------------+-----------+-------+-------+------+
+--------------+-----------+-------+-------+------+
If the “Info” column shows “Active” or some other value then Calico is having difficulty connecting to the other host. Check the IP address of the peer is correct and check that Calico is using the correct local IP address (set in the network-environment
file above).
Download and Install the kubelet binary:
sudo wget -N -P /usr/bin http://storage.googleapis.com/kubernetes-release/release/v1.1.4/bin/linux/amd64/kubelet
sudo chmod +x /usr/bin/kubelet
Install the kubelet
systemd unit file:
# Download the unit file.
sudo wget -N -P /etc/systemd https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/node/kubelet.service
# Enable and start the unit files so that they run on boot
sudo systemctl enable /etc/systemd/kubelet.service
sudo systemctl start kubelet.service
Download the kube-proxy
manifest:
wget https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/node/kube-proxy.manifest
In that file, replace <KUBERNETES_MASTER>
with your master’s IP. Then move it into place:
sudo mkdir -p /etc/kubernetes/manifests/
sudo mv kube-proxy.manifest /etc/kubernetes/manifests/
To administer your cluster from a separate host (e.g your laptop), you will need the root CA generated earlier, as well as an admin public/private keypair (ca.pem
, admin.pem
, admin-key.pem
). Run the following steps on the machine which you will use to control your cluster.
Download the kubectl binary.
sudo wget -N -P /usr/bin http://storage.googleapis.com/kubernetes-release/release/v1.1.4/bin/linux/amd64/kubectl
sudo chmod +x /usr/bin/kubectl
Generate the admin public/private keypair.
Export the necessary variables, substituting in correct values for your machine.
# Export the appropriate paths.
export CA_CERT_PATH=<PATH_TO_CA_PEM>
export ADMIN_CERT_PATH=<PATH_TO_ADMIN_PEM>
export ADMIN_KEY_PATH=<PATH_TO_ADMIN_KEY_PEM>
# Export the Master's IP address.
export MASTER_IPV4=<MASTER_IPV4>
Configure your host kubectl
with the admin credentials:
kubectl config set-cluster calico-cluster --server=https://${MASTER_IPV4} --certificate-authority=${CA_CERT_PATH}
kubectl config set-credentials calico-admin --certificate-authority=${CA_CERT_PATH} --client-key=${ADMIN_KEY_PATH} --client-certificate=${ADMIN_CERT_PATH}
kubectl config set-context calico --cluster=calico-cluster --user=calico-admin
kubectl config use-context calico
Check your work with kubectl get nodes
, which should succeed and display the nodes.
Most Kubernetes deployments will require the DNS addon for service discovery. To install DNS, create the skydns service and replication controller provided. This step makes use of the kubectl configuration made above.
kubectl create -f https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/master/dns/skydns.yaml
The Kubernetes UI can be installed using kubectl
to run the following manifest file.
kubectl create -f https://raw.githubusercontent.com/projectcalico/calico-cni/k8s-1.1-docs/samples/kubernetes/master/kube-ui/kube-ui.yaml
Note: The Kubernetes UI addon is deprecated and has been replaced with Kubernetes dashboard. You can install it by running:
kubectl create -f https://rawgit.com/kubernetes/dashboard/master/src/deploy/kubernetes-dashboard.yaml
You can find the docs at Kubernetes Dashboard
At this point, you have a fully functioning cluster running on Kubernetes with a master and two nodes networked with Calico. You can now follow any of the standard documentation to set up other services on your cluster.
Because containers in this guide have private 192.168.0.0/16
IPs, you will need NAT to allow connectivity between containers and the internet. However, in a production data center deployment, NAT is not always necessary, since Calico can peer with the data center’s border routers over BGP.
The simplest method for enabling connectivity from containers to the internet is to use outgoing NAT on your Kubernetes nodes.
Calico can provide outgoing NAT for containers. To enable it, use the following calicoctl
command:
ETCD_AUTHORITY=<master_ip:6666> calicoctl pool add <CONTAINER_SUBNET> --nat-outgoing
By default, <CONTAINER_SUBNET>
will be 192.168.0.0/16
. You can find out which pools have been configured with the following command:
ETCD_AUTHORITY=<master_ip:6666> calicoctl pool show
In a data center environment, it is recommended to configure Calico to peer with the border routers over BGP. This means that the container IPs will be routable anywhere in the data center, and so NAT is not needed on the nodes (though it may be enabled at the data center edge to allow outbound-only internet connectivity).
The Calico documentation contains more information on how to configure Calico to peer with existing infrastructure.
IaaS Provider | Config. Mgmt | OS | Networking | Docs | Conforms | Support Level |
---|---|---|---|---|---|---|
Bare-metal | custom | Ubuntu | Calico | docs | Community (@djosborne) |
For support level information on all solutions, see the Table of solutions chart.