This article shows how to create a certificate and pair it with Apache APISIX Ingress Controller via the Cert Manager.
Apache APISIX Ingress Controller is a Kubernetes Ingress Controller Open Source Tool that uses Apache APISIX as a data surface and has been updated to v1.3 with features such as certificate management, load balancing, Canary Publishing, and more.
For a long time, certificate management is not a simple thing although Apache APISIX Ingress Controller supports extracting certificates and private keys from Kubernetes Secrets Resources and converting them into Apache APISIX recognizable SSL objects, but this is only a part of the whole certificate management chain, certificate issuance, rotation, revocation logic still need to be implemented by administrators, especially when the number of certificates is relatively large, the workload is often not small, so it takes up a lot of the administrator’s time.
Cert Manager is a piece of software dedicated to simplifying certificate management on the Kubernetes platform and supports docking many different certificate sources, such as Let’s Encrypt and HashiCorp Vault.
If you’re having trouble with certificate management when using Apache APISIX Ingress Controller, using the Cert Manager is a good option, and this article shows how to create a certificate and pair it with Apache APISIX Ingress Controller via the Cert Manager.
Step 1: Environmental Preparation
If you want to follow the instructions in this article, make sure the following environments and tools are in place:
- To prepare a usable Kubernetes cluster, in the development environment, you can use Kind and Minikube
- Install kubectl
- Install Helm v3
Note that all of the following operations will be performed in the ingress-apisix namespace, so you need to create the namespace first:
kubectl create namespace ingress-apisix
Step 2:Install Apache APISIX Ingress Controller
You can install Apache APISIX Ingress Controller via Helm, including Apache APISIX and etcd clusters for data planes.
helm repo add apisix https://charts.apiseven.com
helm repo update
helm install apisix apisix/apisix --set gateway.tls.enabled=true --set ingress-controller.enabled=true --namespace ingress-apisix
Click to view the installation details.
Step 3:Install Cert Manager
To Install Cert Manager from Helm, click to view the installation details.
helm install cert-manager jetstack/cert-manager --namespace ingress-apisix --set prometheus.enabled=false --set installCRDs=true
Please wait for a moment after installation to check the running status of the components and make sure that all the components are working properly. You can do this by following the command.
kubectl get all -n ingress-apisix
The result is as follows, indicating that all components are working properly.
NAME READY STATUS RESTARTS AGE
pod/apisix-5d99956d88-j68sj 1/1 Running 0 63s
pod/apisix-69459554d4-btnwn 0/1 Terminating 0 57m
pod/apisix-etcd-0 1/1 Running 0 57m
pod/apisix-etcd-1 1/1 Running 0 57m
pod/apisix-etcd-2 0/1 Running 0 50s
pod/apisix-ingress-controller-7b5c767cc7-j62hb 1/1 Running 0 55m
pod/cert-manager-5ffd4f6c89-q9f7m 1/1 Running 0 45m
pod/cert-manager-cainjector-748dc889c5-nrvkh 1/1 Running 0 45m
pod/cert-manager-startupapicheck-kmgxf 0/1 Completed 0 45m
pod/cert-manager-webhook-bc964d98b-mkjj7 1/1 Running 0 45m
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
service/apisix-admin ClusterIP 10.96.16.25 <none> 9180/TCP 57m
service/apisix-etcd ClusterIP 10.96.232.251 <none> 2379/TCP,2380/TCP 57m
service/apisix-etcd-headless ClusterIP None <none> 2379/TCP,2380/TCP 57m
service/apisix-gateway NodePort 10.96.118.75 <none> 80:32039/TCP,443:30107/TCP 57m
service/apisix-ingress-controller ClusterIP 10.96.13.76 <none> 80/TCP 57m
service/cert-manager-webhook ClusterIP 10.96.182.188 <none> 443/TCP 45m
NAME READY UP-TO-DATE AVAILABLE AGE
deployment.apps/apisix 1/1 1 1 57m
deployment.apps/apisix-ingress-controller 1/1 1 1 57m
deployment.apps/cert-manager 1/1 1 1 45m
deployment.apps/cert-manager-cainjector 1/1 1 1 45m
deployment.apps/cert-manager-webhook 1/1 1 1 45m
NAME DESIRED CURRENT READY AGE
replicaset.apps/apisix-5d99956d88 1 1 1 63s
replicaset.apps/apisix-69459554d4 0 0 0 57m
replicaset.apps/apisix-ingress-controller-74c6b5fbdd 0 0 0 57m
replicaset.apps/apisix-ingress-controller-7b5c767cc7 1 1 1 55m
replicaset.apps/apisix-ingress-controller-7d58db957c 0 0 0 55m
replicaset.apps/cert-manager-5ffd4f6c89 1 1 1 45m
replicaset.apps/cert-manager-cainjector-748dc889c5 1 1 1 45m
replicaset.apps/cert-manager-webhook-bc964d98b 1 1 1 45m
NAME READY AGE
statefulset.apps/apisix-etcd 2/3 57m
NAME COMPLETIONS DURATION AGE
job.batch/cert-manager-startupapicheck 1/1 6m24s 45m
The mechanism of the Kubernetes Controller Manager determines that the Pod name will be different.
Step 4: Apply for a Certificate and Test it
First we need to configure the credential issuing object.
# issuer.yaml
apiVersion: cert-manager.io/v1
kind: Issuer
metadata:
name: issuer
namespace: ingress-apisix
spec:
selfSigned: {}
And create a self-signed certificate issuer.
kubectl apply -f issuer.yaml
Note that self-signed authoring objects are not recommended for use in production environments! See here for more on the configuration of the certificate authority object.
。Then create a certificate for the domain name httpbin. org
.
# httpbin-cert.yaml
apiVersion: cert-manager.io/v1
kind: Certificate
metadata:
name: httpbin
namespace: ingress-apisix
spec:
secretName: httpbin
duration: 2160h # 90d
renewBefore: 360h # 15d
subject:
organizations:
- foo
commonName: httpbin.org
isCA: false
privateKey:
algorithm: RSA
encoding: PKCS1
size: 2048
usages:
- server auth
dnsNames:
- "httpbin.org"
- "*.httpbin.org"
issuerRef:
name: issuer
kind: Issuer
group: cert-manager.io
kubectl apply -f httpbin-cert.yaml
At this point, it is necessary to see whether the corresponding Secrets have been created.
kubectl get secrets -n ingress-apisix httpbin
NAME TYPE DATA AGE
httpbin kubernetes.io/tls 3 2m5s
With the above validation, the creation of the Secrets object has been captured by Apache APISIX Ingress Controller, we try to access Apache APISIX Ingress Controller to verify the certificate is valid, first we need to create additional routing objects.
# Create backend
kubectl run httpbin --image kennethreitz/httpbin --namespace ingress-apisix
kubectl expose pod httpbin -n ingress-apisix --port 80
# Define ApisixTls Objects
apiVersion: apisix.apache.org/v1
kind: ApisixTls
metadata:
name: httpbin
namespace: ingress-apisix
spec:
hosts:
- httpbin.org
secret:
name: httpbin
namespace: ingress-apisix
---
# Define the route to access the backend
apiVersion: apisix.apache.org/v2beta1
kind: ApisixRoute
metadata:
name: httpbin
namespace: ingress-apisix
spec:
http:
- name: httpbin
match:
paths:
- /*
hosts:
- httpbin.org
backends:
- serviceName: httpbin
servicePort: 80
Next access the service apisix-gateway
. Note that the service is NodePort
by default, and you can change its type as needed. If your Kubernetes cluster is hosted by the cloud vendor, consider changing it to the LoadBalancer
type, to get an externally accessible IP.
Here we map the service to local via port forwarding.
kubectl port-forward -n ingress-apisix svc/apisix-gateway 8443:443
Then start configuring access.
curl https://httpbin.org:8443/json --resolve 'httpbin.org:8443:127.0.0.1' -sk
{
"slideshow": {
"author": "Yours Truly",
"date": "date of publication",
"slides": [
{
"title": "Wake up to WonderWidgets!",
"type": "all"
},
{
"items": [
"Why <em>WonderWidgets</em> are great",
"Who <em>buys</em> WonderWidgets"
],
"title": "Overview",
"type": "all"
}
],
"title": "Sample Slide Show"
}
}
After the above operation, you can see that the access was successful, that the certificate has been validated. Note that since the certificate is self-signed, the -k
option needs to be added to ignore the certificate validation.
In addition, if you want to rotate the certificate, remove the httpbin
as the Secret object, and Cert Manager immediately creates a new httpbin Secret object and includes the new certificate.
Summary
This article focuses on how to use the CERT Manager to create and manage certificates in Apache APISIX Ingress Controller. For more on Apache APISIX Ingress, see this article.
Or take part in a biweekly online discussion on the Apache APISIX Ingress Project to share current project progress, best practices, and design ideas.