Every Kubernetes cluster has a cluster root Certificate Authority (CA). The CA
is generally used by cluster components to validate the API server’s
certificate, by the API server to validate kubelet client certificates, etc. To
support this, the CA certificate bundle is distributed to every node in the
cluster and is distributed as a secret attached to default service accounts.
Optionally, your workloads can use this CA to establish trust. Your application
can request a certificate signing using the certificates.k8s.io
API using a
protocol that is similar to the
ACME draft.
You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. If you do not already have a cluster, you can create one by using Minikube, or you can use one of these Kubernetes playgrounds:
To check the version, enter kubectl version
.
Trusting the cluster root CA from an application running as a pod usually
requires some extra application configuration. You will need to add the CA
certificate bundle to the list of CA certificates that the TLS client or server
trusts. For example, you would do this with a golang TLS config by parsing the
certificate chain and adding the parsed certificates to the Certificates
field
in the tls.Config
struct.
The CA certificate bundle is automatically mounted into pods using the default
service account at the path /var/run/secrets/kubernetes.io/serviceaccount/ca.crt
.
If you are not using the default service account, ask a cluster administrator to
build a configmap containing the certificate bundle that you have access to use.
The following section demonstrates how to create a TLS certificate for a Kubernetes service accessed through DNS.
Note: This tutorial uses CFSSL: Cloudflare’s PKI and TLS toolkit click here to know more.
The cfssl tools used in this example can be downloaded at https://pkg.cfssl.org/.
Generate a private key and certificate signing request (or CSR) by running the following command:
cat <<EOF | cfssl genkey - | cfssljson -bare server
{
"hosts": [
"my-svc.my-namespace.svc.cluster.local",
"my-pod.my-namespace.pod.cluster.local",
"172.168.0.24",
"10.0.34.2"
],
"CN": "my-pod.my-namespace.pod.cluster.local",
"key": {
"algo": "ecdsa",
"size": 256
}
}
EOF
Where 172.168.0.24
is the service’s cluster IP,
my-svc.my-namespace.svc.cluster.local
is the service’s DNS name,
10.0.34.2
is the pod’s IP and my-pod.my-namespace.pod.cluster.local
is the pod’s DNS name. You should see the following output:
2017/03/21 06:48:17 [INFO] generate received request
2017/03/21 06:48:17 [INFO] received CSR
2017/03/21 06:48:17 [INFO] generating key: ecdsa-256
2017/03/21 06:48:17 [INFO] encoded CSR
This command generates two files; it generates server.csr
containing the PEM
encoded pkcs#10 certification request,
and server-key.pem
containing the PEM encoded key to the certificate that
is still to be created.
Generate a CSR yaml blob and send it to the apiserver by running the following command:
cat <<EOF | kubectl apply -f -
apiVersion: certificates.k8s.io/v1beta1
kind: CertificateSigningRequest
metadata:
name: my-svc.my-namespace
spec:
groups:
- system:authenticated
request: $(cat server.csr | base64 | tr -d '\n')
usages:
- digital signature
- key encipherment
- server auth
EOF
Notice that the server.csr
file created in step 1 is base64 encoded
and stashed in the .spec.request
field. We are also requesting a
certificate with the “digital signature”, “key encipherment”, and “server
auth” key usages. We support all key usages and extended key usages listed
here
so you can request client certificates and other certificates using this
same API.
The CSR should now be visible from the API in a Pending state. You can see it by running:
kubectl describe csr my-svc.my-namespace
Name: my-svc.my-namespace
Labels: <none>
Annotations: <none>
CreationTimestamp: Tue, 21 Mar 2017 07:03:51 -0700
Requesting User: yourname@example.com
Status: Pending
Subject:
Common Name: my-svc.my-namespace.svc.cluster.local
Serial Number:
Subject Alternative Names:
DNS Names: my-svc.my-namespace.svc.cluster.local
IP Addresses: 172.168.0.24
10.0.34.2
Events: <none>
Approving the certificate signing request is either done by an automated approval process or on a one off basis by a cluster administrator. More information on what this involves is covered below.
Once the CSR is signed and approved you should see the following:
kubectl get csr
NAME AGE REQUESTOR CONDITION
my-svc.my-namespace 10m yourname@example.com Approved,Issued
You can download the issued certificate and save it to a server.crt
file
by running the following:
kubectl get csr my-svc.my-namespace -o jsonpath='{.status.certificate}' \
| base64 --decode > server.crt
Now you can use server.crt
and server-key.pem
as the keypair to start
your HTTPS server.
A Kubernetes administrator (with appropriate permissions) can manually approve
(or deny) Certificate Signing Requests by using the kubectl certificate
approve
and kubectl certificate deny
commands. However if you intend
to make heavy usage of this API, you might consider writing an automated
certificates controller.
Whether a machine or a human using kubectl as above, the role of the approver is to verify that the CSR satisfies two requirements:
If and only if these two requirements are met, the approver should approve the CSR and otherwise should deny the CSR.
The ability to approve CSRs decides who trusts who within the cluster. This includes who the Kubernetes API trusts. The ability to approve CSRs should not be granted broadly or lightly. The requirements of the challenge noted in the previous section and the repercussions of issuing a specific certificate should be fully understood before granting this permission. See here for information on how certificates interact with authentication.
This tutorial assumes that a signer is setup to serve the certificates API. The
Kubernetes controller manager provides a default implementation of a signer. To
enable it, pass the --cluster-signing-cert-file
and
--cluster-signing-key-file
parameters to the controller manager with paths to
your Certificate Authority’s keypair.
Was this page helpful?
Thanks for the feedback. If you have a specific, answerable question about how to use Kubernetes, ask it on Stack Overflow. Open an issue in the GitHub repo if you want to report a problem or suggest an improvement.