External issuers extend cert-manager to issue certificates using APIs and services which aren't built into the cert-manager core.
This repository provides an example of an External Issuer built using the issuer-lib library.
kubectl apply -f https://github.com/cert-manager/sample-external-issuer/releases/download/v0.1.0/install.yaml
You can run the sample-external-issuer on a local cluster with this command:
make kind-cluster deploy-cert-manager docker-build kind-load deploy e2e
If you are writing an external issuer you may find it helpful to review the sample code in this repository
and to follow the steps below, replacing references to sample-external-issuer
with the name of your project.
You will need the following command line tools installed on your PATH:
- Git
- Golang v1.20+
- Docker v17.03+
- Kind v0.18.0+
- Kubectl v1.26.3+
- Kubebuilder v3.9.1+
- Kustomize v3.8.1+
You may also want to read: the Kubebuilder Book and the cert-manager Concepts Documentation for further background information.
We will need a Kubernetes cluster on which to test our issuer and we can quickly create one using kind
.
kind create cluster
This will update your KUBECONFIG file with the URL and credentials for the test cluster.
You can explore it using kubectl
kubectl get nodes
This should show you details of a single node.
We need a Git repository to track changes to the issuer code. You can start by creating a repository on GitHub or you can create it locally.
mkdir my-external-issuer
cd my-external-issuer
git clone https://github.com/cert-manager/sample-external-issuer.git .
git remote rm origin
git remote add origin https://github.com/<username>/my-external-issuer.git
With all these tools in place and with the project initialised you should now be able to run the issuer for the first time.
make run
This will compile and run the issuer locally and it will connect to the test cluster and log some startup messages. We will add more to it in the next steps.
An External Issuer must implement two custom resources for compatibility with cert-manager: MyIssuer
and MyClusterIssuer
NOTE: It is important to understand the [Concept of Issuers] before proceeding.
The MyIssuer
and MyClusterIssuer
custom resources can be defined in the api/v1alpha1
directory.
Use the SampleIssuer
and SampleClusterIssuer
definitions as a starting point.
Additionally, the group, version and kind of the custom resources must be customised to be unique to your issuer:
group
is the name given to a collection of custom resource APIskind
is the name of an individual resource in that groupversion
allows you to create multiple versions of your APIs as they evolve, whilst providing backwards compatibility for clients using older API versions
After modifying the API source files you should always regenerate all generated code and configuration, as follows:
make generate manifests
You should see a number of new and modified files, reflecting the changes you made to the API source files.
An issuer that connects to a certificate authority API may want to perform periodic health checks and sanity checks,
to ensure that the API server is responding and if not,
to set update the Ready
condition of the Issuer
to false, and log a meaningful error message with the condition.
This will give early warning of problems with the configuration or with the API,
rather than waiting a for CertificateRequest
to fail before being alerted to the problem.
Additionally, this implements the "Circuit Breaker" pattern, it makes all the CertificateRequest
wait until the Issuer
is healthy again.
The health check is implemented in the Check
function in the ./internal/controllers/signer.go
file.
TODO: issuer-lib does not yet support performing the health checks periodically.
There should be some return value for the Check
function so we can make controller-runtime retry reconciling regularly, even when the current reconcile succeeds.
See the issuer-lib README for more information.
Sign the cert-manager CertificateRequest resources and kubernetes CertificateSigningRequest resources
The Sign
function in the ./internal/controllers/signer.go
file is used by the CertificateRequest and CertificateSigningRequest reconcilers
to create signed x509 certificates for the provided x509 certificate signing requests.
If Sign
succeeds it returns the bytes of a signed certificate which we then use as the value for CertificateRequest.Status.Certificate
.
If it returns a normal error, the Sign function will be retried as long as we have not spent more than the configured MaxRetryDuration after the certificate request was created.
See the issuer-lib README for more information.
The API for your CA may require some configuration and credentials and the obvious place to store these is in a Kubernetes Secret
.
We extend the IssuerSpec
to include a URL
field and a AuthSecretName
, which is the name of a Secret
.
As usual run make generate manifests
after modifying the API source files:
make generate manifests
NOTE: The namespace of that Secret is deliberately not specified here,
because that would breach a security boundary and potentially allow someone who has permission to create Issuer
resources,
to make the controller access secrets in another namespace which that person would not normally have access to.
For this reason, the Secret for an Issuer MUST be in the same namespace as the Issuer. The Secret for a ClusterIssuer MUST be in a namespace defined by cluster administrator, but that is a little more complicated and for now we will concentrate on Issuer Secrets.
Both the IssuerReconciler
and the CertificateRequestReconciler
are updated to GET
the Secret
referred to by the Issuer
.
Add a new Kubebuilder RBAC Marker to both controllers,
permitting them read-only access to Secret
resources.
// +kubebuilder:rbac:groups="",resources=secrets,verbs=get;list;watch
Then run make manifests
to regenerate the RBAC configuration in config/
.
Add the corev1
types to the Scheme
in the unit-tests.
NOTE: It has already been added to the main.go
Scheme
as part of the clientgoscheme
.
Write a test to check that if the GET
Secret
operation fails,
the error is returned and triggers a retry-with-backoff.
This important because the Secret
may not exist at the time the Issuer
or CertificateRequest
is created.
NOTE: Ideally, we would WATCH
for the particular Secret
and trigger the reconciliation when it becomes available.
And that may be a future enhancement to this project.
In the case of the CertificateRequestReconciler
we need to deal with both Issuer
and ClusterIssuer
types,
so we modify the issuerutil
function to allow us to extract an IssuerSpec
from either of those types.
We want to make it easy to debug problems with the issuer, so in addition to setting Conditions on the Issuer, ClusterIssuer and CertificateRequest, we can provide more feedback to the user by logging Kubernetes Events. You may want to read more about Application Introspection and Debugging before continuing.
Kubernetes Events are saved to the API server on a best-effort basis,
they are (usually) associated with some other Kubernetes resource,
and they are temporary; old Events are periodically purged from the API server.
This allows tools such as kubectl describe <resource-kind> <resource-name>
to show not only the resource details,
but also a table of the recent events associated with that resource.
The aim is to produce helpful debug output that looks like this:
$ kubectl describe clusterissuers.sample-issuer.example.com clusterissuer-sample
...
Type: Ready
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal IssuerReconciler 13s sample-external-issuer First seen
Warning IssuerReconciler 13s (x3 over 13s) sample-external-issuer Temporary error. Retrying: failed to get Secret containing Issuer credentials, secret name: sample-external-issuer-system/clusterissuer-sample-credentials, reason: Secret "clusterissuer-sample-credentials" not found
Normal IssuerReconciler 13s (x3 over 13s) sample-external-issuer Success
And this:
$ kubectl describe certificaterequests.cert-manager.io issuer-sample
...
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal CertificateRequestReconciler 23m sample-external-issuer Initialising Ready condition
Warning CertificateRequestReconciler 23m sample-external-issuer Temporary error. Retrying: error getting issuer: Issuer.sample-issuer.example.com "issuer-sample" not found
Normal CertificateRequestReconciler 23m sample-external-issuer Signed
First add record.EventRecorder attributes to the IssuerReconciler
and to the CertificateRequestReconciler
.
And then in the Reconciler code, you can then generate an event by executing r.recorder.Eventf(...)
whenever a significant change is made to the resource.
You can also write unit tests to verify the Reconciler events by using a record.FakeRecorder.
See PR 10: Generate Kubernetes Events for an example of how you might generate events in your issuer.
Now our issuer is almost feature complete and it should be possible to write an end-to-end test that
deploys a cert-manager Certificate
referring to an external Issuer
and check that a signed Certificate
is saved to the expected secret.
We can make such a test easier by tidying up the Makefile
and adding some new targets
which will help create a test cluster and to help install cert-manager.
We can write a simple end-to-end test which deploys a Certificate
manifest and waits for it to be ready.
kubectl apply --filename config/samples
kubectl wait --for=condition=Ready --timeout=5s sampleissuers.sample-issuer.example.com sampleissuer-sample
kubectl wait --for=condition=Ready --timeout=5s certificates.cert-manager.io certificate-by-sampleissuer
You can of course write more complete tests than this, but this is a good start and demonstrates that the issuer is doing what we hoped it would do.
Run the tests as follows:
# Create a Kind cluster along with cert-manager.
make kind-cluster deploy-cert-manager
# Wait for cert-manager to start...
# Build and install sample-external-issuer and run the E2E tests.
# This step can be run iteratively when ever you make changes to the code or to the installation manifests.
make docker-build kind-load deploy e2e
You should configure a CI system to automatically run the unit-tests when the code changes.
See the .github/workflows/
directory for some examples of using GitHub Actions
which are triggered by changes to pull request branches and by any changes to the master branch.
The E2E tests can be executed with GitHub Actions too. The GitHub Actions Ubuntu runner has Docker installed and is capable of running a Kind cluster for the E2E tests. The Kind cluster logs can be saved in the event of an E2E test failure, and uploaded as a GitHub Actions artifact, to make it easier to diagnose E2E test failures.
We use a Distroless Docker Image as our Docker base image,
and we configure our manager
process to run as USER: nonroot:nonroot
.
This limits the privileges of the manager
process in the cluster.
The kube-rbac-proxy sidecar Docker image also uses a non-root user by default (since v0.7.0).
Additionally we Configure a Security Context for the manager Pod.
We set runAsNonRoot
, which ensure that the Kubelet will validate the image at runtime
to ensure that it does not run as UID 0 (root) and fail to start the container if it does.
Visit the GitHub New Release Page and fill in the form. Here are some example values:
- Tag Version:
v0.1.0-alpha.0
,v0.1.0
for example. - Target:
main
- Release Title:
Release v0.1.0-alpha.2
- Description: (optional) a short summary of the changes since the last release.
Click the Publish release
button to trigger the automated release process:
- A Docker image will be generated and published to
ghcr.io/cert-manager/sample-external-issuer/controller
with the chosen tag. - An
install.yaml
file will be generated and attached to the release.