OpenShift Origin uses certificates to provide secure connections for the following components:
masters (API server and controllers)
etcd
nodes
registry
router
You can use Ansible playbooks provided with the installer to automate checking expiration dates for cluster certificates. Playbooks are also provided to automate backing up and redeploying these certificates, which can fix common certificate errors.
Possible use cases for redeploying certificates include:
The installer detected the wrong host names and the issue was identified too late.
The certificates are expired and you need to update them.
You have a new CA and want to create certificates using it instead.
You can use the installer to warn you about any certificates expiring within a
configurable window of days and notify you about any certificates that have
already expired. Certificate expiry playbooks use the Ansible role
openshift_certificate_expiry.
Certificates examined by the role include:
Master and node service certificates
Router and registry service certificates from etcd secrets
Master, node, router, registry, and kubeconfig files for cluster-admin users
etcd certificates (including embedded)
The openshift_certificate_expiry role uses the following variables:
| Variable Name | Default Value | Description |
|---|---|---|
|
|
Base OpenShift Origin configuration directory. |
|
|
Flag certificates that will expire in this many days from now. |
|
|
Include healthy (non-expired and non-warning) certificates in results. |
| Variable Name | Default Value | Description |
|---|---|---|
|
|
Generate an HTML report of the expiry check results. |
|
|
The full path for saving the HTML report. |
|
|
Save expiry check results as a JSON file. |
|
|
The full path for saving the JSON report. |
The OpenShift Origin installer provides a set of example certificate expiration
playbooks, using different sets of configuration for the
openshift_certificate_expiry role.
These playbooks must be used with an
inventory file that is representative of the cluster. For best results, run
ansible-playbook with the -v option.
Using the easy-mode.yaml example playbook, you can try the role out before tweaking it to your specifications as needed. This playbook:
Produces JSON and stylized HTML reports in /tmp/.
Sets the warning window very large, so you will almost always get results back.
Includes all certificates (healthy or not) in the results.
- name: Check cert expirys
hosts: nodes:masters:etcd
become: yes
gather_facts: no
vars:
openshift_certificate_expiry_warning_days: 1500
openshift_certificate_expiry_save_json_results: yes
openshift_certificate_expiry_generate_html_report: yes
openshift_certificate_expiry_show_all: yes
roles:
- role: openshift_certificate_expiry
To run the easy-mode.yaml playbook:
$ ansible-playbook -v -i <inventory_file> \
/usr/share/ansible/openshift-ansible/playbooks/certificate_expiry/easy-mode.yaml
The other example playbooks are also available to run directly out of the /usr/share/ansible/openshift-ansible/playbooks/certificate_expiry/ directory.
| File Name | Usage |
|---|---|
default.yaml |
Produces the default behavior of the |
html_and_json_default_paths.yaml |
Generates HTML and JSON artifacts in their default paths. |
longer_warning_period.yaml |
Changes the expiration warning window to 1500 days. |
longer-warning-period-json-results.yaml |
Changes the expiration warning window to 1500 days and saves the results as a JSON file. |
To run any of these example playbooks:
$ ansible-playbook -v -i <inventory_file> \
/usr/share/ansible/openshift-ansible/playbooks/certificate_expiry/<playbook>
As noted above, there are two ways to format your check report. In JSON format for machine parsing, or as a stylized HTML page for easy skimming.
An example of an HTML report is provided with the installer. You can open the following file in your browser to view it:
/usr/share/ansible/openshift-ansible/roles/openshift_certificate_expiry/examples/cert-expiry-report.html
There are two top-level keys in the saved JSON results: data and summary.
The data key is a hash where the keys are the names of each host examined and
the values are the check results for the certificates identified on each
respective host.
The summary key is a hash that summarizes the total number of certificates:
examined on the entire cluster
that are OK
expiring within the configured warning window
already expired
For an example of the full JSON report, see /usr/share/ansible/openshift-ansible/roles/openshift_certificate_expiry/examples/cert-expiry-report.json.
The summary from the JSON data can be easily checked for warnings or expirations
using a variety of command-line tools. For example, using grep you can look
for the word summary and print out the two lines after the match (-A2):
$ grep -A2 summary /tmp/cert-expiry-report.json
"summary": {
"warning": 16,
"expired": 0
If available, the jq tool can also be used to pick out specific values. The
first two examples below show how to select just one value, either warning or
expired. The third example shows how to select both values at once:
$ jq '.summary.warning' /tmp/cert-expiry-report.json 16 $ jq '.summary.expired' /tmp/cert-expiry-report.json 0 $ jq '.summary.warning,.summary.expired' /tmp/cert-expiry-report.json 16 0
Use the following playbooks to redeploy master, etcd, node, registry, and router certificates on all relevant hosts. You can redeploy all of them at once using the current CA, redeploy certificates for specific components only, or redeploy a newly generated or custom CA on its own.
Just like the certificate expiry playbooks, these playbooks must be run with an inventory file that is representative of the cluster.
In particular, the inventory must specify or override all host names and IP addresses set via the following variables such that they match the current cluster configuration:
openshift_hostname
openshift_public_hostname
openshift_ip
openshift_public_ip
openshift_master_cluster_hostname
openshift_master_cluster_public_hostname
The playbooks you need are provided by:
# yum install atomic-openshift-utils
|
The validity (length in days until they expire) for any certificates auto-generated while redeploying can be configured via Ansible as well. See Configuring Certificate Validity. |
|
OpenShift CA and etcd certificates expire after five years. Signed OpenShift certificates expire after two years. |
The redeploy-certificates.yml playbook does not regenerate the OpenShift Origin CA certificate. New master, etcd, node, registry, and router certificates are created using the current CA certificate to sign new certificates.
This also includes serial restarts of:
etcd
master services
node services
To redeploy master, etcd, and node certificates using the current OpenShift Origin CA, run this playbook, specifying your inventory file:
$ ansible-playbook -i <inventory_file> \
/usr/share/ansible/openshift-ansible/playbooks/redeploy-certificates.yml
The redeploy-openshift-ca.yml playbook redeploys the OpenShift Origin CA certificate by generating a new CA certificate and distributing an updated bundle to all components including client kubeconfig files and the node’s database of trusted CAs (the CA-trust).
This also includes serial restarts of:
master services
node services
docker
Additionally, you can specify a custom CA certificate when redeploying certificates instead of relying on a CA generated by OpenShift Origin.
When the master services are restarted, the registry and routers can continue to communicate with the master without being redeployed because the master’s serving certificate is the same, and the CA the registry and routers have are still valid.
To redeploy a newly generated or custom CA:
If you want to use a custom CA, set the following variable in your inventory file:
# Configure custom ca certificate
# NOTE: CA certificate will not be replaced with existing clusters.
# This option may only be specified when creating a new cluster or
# when redeploying cluster certificates with the redeploy-certificates
# playbook.
openshift_master_ca_certificate={'certfile': '</path/to/ca.crt>', 'keyfile': '</path/to/ca.key>'}
If you do not set the above, then the current CA will be regenerated in the next step.
Run the redeploy-openshift-ca.yml playbook, specifying your inventory file:
$ ansible-playbook -i <inventory_file> \
/usr/share/ansible/openshift-ansible/playbooks/openshift-master/redeploy-openshift-ca.yml
With the new OpenShift Origin CA in place, you can then use the redeploy-certificates.yml playbook at your discretion whenever you want to redeploy certificates signed by the new CA on all components.
The redeploy-etcd-ca.yml playbook redeploys the etcd CA certificate by generating a new CA certificate and distributing an updated bundle to all etcd peers and master clients.
This also includes serial restarts of:
etcd
master services
|
The redeploy-etcd-ca.yml playbook is only available for OpenShift Origin v3.5.91-1 and above. |
To redeploy a newly generated etcd CA:
Run the redeploy-etcd-ca.yml playbook, specifying your inventory file:
$ ansible-playbook -i <inventory_file> \
/usr/share/ansible/openshift-ansible/playbooks/openshift-etcd/redeploy-ca.yml
With the new etcd CA in place, you can then use the redeploy-etcd-certificates.yml playbook at your discretion whenever you want to redeploy certificates signed by the new etcd CA on etcd peers and master clients. Alternatively, you can use the redeploy-certificates.yml playbook to redeploy certificates for OpenShift Origin components in addition to etcd peers and master clients.
The redeploy-master-certificates.yml playbook only redeploys master certificates. This also includes serial restarts of master services.
To redeploy master certificates, run this playbook, specifying your inventory file:
$ ansible-playbook -i <inventory_file> \
/usr/share/ansible/openshift-ansible/playbooks/openshift-master/redeploy-certificates.yml
The redeploy-etcd-certificates.yml playbook only redeploys etcd certificates including master client certificates.
This also include serial restarts of:
etcd
master services.
To redeploy etcd certificates, run this playbook, specifying your inventory file:
$ ansible-playbook -i <inventory_file> \
/usr/share/ansible/openshift-ansible/playbooks/openshift-etcd/redeploy-certificates.yml
The redeploy-node-certificates.yml playbook only redeploys node certificates. This also include serial restarts of node services.
To redeploy node certificates, run this playbook, specifying your inventory file:
$ ansible-playbook -i <inventory_file> \
/usr/share/ansible/openshift-ansible/playbooks/openshift-node/redeploy-certificates.yml
The redeploy-registry-certificates.yml and redeploy-router-certificates.yml playbooks replace installer-created certificates for the registry and router. If custom certificates are in use for these components, see Redeploying Custom Registry or Router Certificates to replace them manually.
When nodes are evacuated due to a redeployed CA, registry and router pods are restarted. If the registry and router certificates were not also redeployed with the new CA, this can cause outages because they cannot reach the masters using their old certificates.
The playbooks for redeploying certificates cannot redeploy custom registry or router certificates, so to address this issue, you can manually redeploy the registry and router certificates.
To redeploy registry certificates manually, you must add new registry
certificates to a secret named registry-certificates, then redeploy the
registry:
Switch to the default project for the remainder of these steps:
$ oc project default
If your registry was initially created on OpenShift Origin 3.1 or earlier, it may still be using environment variables to store certificates (which has been deprecated in favor of using secrets).
Run the following and look for the
OPENSHIFT_CA_DATA, OPENSHIFT_CERT_DATA, OPENSHIFT_KEY_DATA environment
variables:
$ oc env dc/docker-registry --list
If they do not exist, skip this step. If they do, create the following ClusterRoleBinding:
$ cat <<EOF | apiVersion: v1 groupNames: null kind: ClusterRoleBinding metadata: creationTimestamp: null name: registry-registry-role roleRef: kind: ClusterRole name: system:registry subjects: - kind: ServiceAccount name: registry namespace: default userNames: - system:serviceaccount:default:registry EOF oc create -f -
Then, run the following to remove the environment variables:
$ oc env dc/docker-registry OPENSHIFT_CA_DATA- OPENSHIFT_CERT_DATA- OPENSHIFT_KEY_DATA- OPENSHIFT_MASTER-
Set the following environment variables locally to make later commands less complex:
$ REGISTRY_IP=`oc get service docker-registry -o jsonpath='{.spec.clusterIP}'`
$ REGISTRY_HOSTNAME=`oc get route/docker-registry -o jsonpath='{.spec.host}'`
Create new registry certificates:
$ oc adm ca create-server-cert \
--signer-cert=/etc/origin/master/ca.crt \
--signer-key=/etc/origin/master/ca.key \
--hostnames=$REGISTRY_IP,docker-registry.default.svc.cluster.local,$REGISTRY_HOSTNAME \
--cert=/etc/origin/master/registry.crt \
--key=/etc/origin/master/registry.key \
--signer-serial=/etc/origin/master/ca.serial.txt
Run oc adm commands only from the first master listed in the Ansible host inventory file,
by default /etc/ansible/hosts.
Update the registry-certificates secret with the new registry certificates:
$ oc secret new registry-certificates \
/etc/origin/master/registry.crt \
/etc/origin/master/registry.key \
-o json | oc replace -f -
Redeploy the registry:
$ oc deploy dc/docker-registry --latest
When routers are initially deployed, an annotation is added to the router’s service that automatically creates a service serving certificate secret.
To redeploy router certificates manually, that service serving certificate can
be triggered to be recreated by deleting the secret, removing and re-adding
annotations to the router service, then redeploying the router:
Switch to the default project for the remainder of these steps:
$ oc project default
If your router was initially created on OpenShift Origin 3.1 or earlier, it may still be using environment variables to store certificates (which has been deprecated in favor of using service serving certificate secret).
Run the following and look for the
OPENSHIFT_CA_DATA, OPENSHIFT_CERT_DATA, OPENSHIFT_KEY_DATA environment
variables:
$ oc env dc/router --list
If they do not exist, skip this step. If they do, create the following ClusterRoleBinding:
$ cat <<EOF | apiVersion: v1 groupNames: null kind: ClusterRoleBinding metadata: creationTimestamp: null name: router-router-role roleRef: kind: ClusterRole name: system:router subjects: - kind: ServiceAccount name: router namespace: default userNames: - system:serviceaccount:default:router EOF oc create -f -
Then, run the following to remove the environment variables:
$ oc env dc/router OPENSHIFT_CA_DATA- OPENSHIFT_CERT_DATA- OPENSHIFT_KEY_DATA- OPENSHIFT_MASTER-
Delete the router-certs secret:
$ oc delete secret router-certs
Remove the following annotations from the router service:
$ oc annotate service router \
service.alpha.openshift.io/serving-cert-secret-name- \
service.alpha.openshift.io/serving-cert-signed-by-
Re-add the annotations:
$ oc annotate service router \
service.alpha.openshift.io/serving-cert-secret-name=router-certs
Redeploy the router:
$ oc rollout latest dc/router