More than one year ago CoreOS introduced AWS ALB (Application Load Balancer) support for Kubernetes. This project was born out of Ticketmaster's tight relationship with CoreOS. It was in an alpha state for a long time so I waited for some beta/stable release to put my hands on it. The project was donated to Kubernetes SIG-AWS on June 1, 2018, and now there is a lot more activity. A few months ago the first stable version got released. Let's try the ALB ingress and see how it compares to Nginx ingress or more advanced Contour ingress that I wrote about in some previous posts.
On this picture you can see how ALB ingress fits together with Kubernetes:
And here is a standard ingress controller like Nginx for comparison:
The major difference when comparing these two is that standard ingress is running in the cluster. All name-based routing and SSL termination are done inside the pod which shares the same cluster resources as your app. ELB/NLB (Network Load Balancer) acts just like a gateway to the outside world and only ingress controller service is connected to it.
In the case of ALB, you can clearly see that app services are exposed to nodes via node port and all routing happens inside the ALB. This also means that you cannot use cert-manager with ALB ingress to automatically get SSL certificates for example, because ALB is outside of cluster scope. Instead, you could use AWS certificates, create them in advance and just select which one to use. More on SSL with ALB here.
Managing ALBs will be automatic and you only need to define your ingress resources as you would normally do. ALB ingress controller pod which is running inside the Kubernetes cluster will communicate with Kubernetes API and do all the work. But, this pod is only a control plane, it doesn't do any proxying and stuff like that.
Keep in mind that ALB is layer 7 load balancer, so no TCP here. If you want TCP capabilities you could define NLB and put it in front of ALB. This will also help if you want static IPs, but it is a manual step.
Let's deploy ALB ingress controller with Helm:
$ helm repo add akomljen-charts https://raw.githubusercontent.com/komljen/helm-charts/master/charts/ $ helm install --name=alb \ --namespace ingress \ --set-string autoDiscoverAwsRegion=true \ --set-string autoDiscoverAwsVpcID=true \ --set clusterName=k8s.test.akomljen.com \ --set extraEnv.AWS_ACCESS_KEY_ID=<YOUR_ACCESS_KEY> \ --set extraEnv.AWS_SECRET_ACCESS_KEY=<YOUR_SECRET_KEY> \ akomljen-charts/alb-ingress
After a few minutes the ALB controller should be up and running:
$ kubectl get pods -l "app=alb-ingress,release=alb" -n ingress NAME READY STATUS RESTARTS AGE alb-alb-ingress-5bcd44fb59-mtf65 1/1 Running 0 1m
Actual ALB will not be created until you create an ingress object which is expected. Let's try to create some sample app:
$ cat > sample-app.yaml <<EOF apiVersion: apps/v1 kind: Deployment metadata: name: blog spec: selector: matchLabels: app: blog replicas: 3 template: metadata: labels: app: blog spec: containers: - name: blog image: dockersamples/static-site env: - name: AUTHOR value: blog ports: - containerPort: 80 --- apiVersion: v1 kind: Service metadata: labels: app: blog name: blog spec: type: NodePort ports: - port: 80 protocol: TCP targetPort: 80 selector: app: blog EOF $ kubectl create -f sample-app.yaml $ kubectl get all --selector=app=blog NAME READY STATUS RESTARTS AGE pod/blog-696457695f-6h9h2 1/1 Running 0 21s pod/blog-696457695f-bws5v 1/1 Running 0 21s pod/blog-696457695f-qqc8h 1/1 Running 0 21s NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE service/blog ClusterIP 100.67.82.181 <none> 80/TCP 20s NAME DESIRED CURRENT READY AGE replicaset.apps/blog-696457695f 3 3 3 21s
Service of the app needs to be exposed as NodePort (picture 1) for ALB to function properly.
When creating an ALB ingress resource you need to specify at least two subnets using
alb.ingress.kubernetes.io/subnets annotation. You could also rely on subnet auto-discovery, but then you need to tag your subnets with:
kubernetes.io/role/internal-elb: 1(for internal ELB)
kubernetes.io/role/elb: 1(for external ELB)
If you deployed Kubernetes cluster with kops, subnet tags already exist and you should be fine. By default ALB will be internal, so you need to add
alb.ingress.kubernetes.io/scheme: internet-facing annotation if you want to access the app externally. Check the full list of annotations supported by ALB ingress to suit your needs. Now, let's create the ALB ingress resource for the above app:
$ cat > ingress.yaml <<EOF apiVersion: extensions/v1beta1 kind: Ingress metadata: name: blog labels: app: blog annotations: kubernetes.io/ingress.class: alb alb.ingress.kubernetes.io/scheme: internet-facing spec: rules: - http: paths: - path: /* backend: serviceName: blog servicePort: 80 EOF $ kubectl apply -f ingress.yaml $ kubectl get ingress -o wide NAME HOSTS ADDRESS PORTS AGE blog * f5427a54-default-blog-c930-1940190599.eu-west-1.elb.amazonaws.com 80 5m21s
NOTE: If you specify a host for ingress, you need to add ALB address to Route53 to be able to access it externally. Or, deploy external DNS to manage Route53 records automatically, which is also recommended.
The sample app should be available using the above ingress address.
For each additional ALB ingress resource, the completely new ALB will be created. You maybe want as few ALBs as possible for all ingresses instead of 1-to-1 mapping - check this issue for more details. Luckily there is a workaround that you could use, meet the ingress merge controller.
This is how it works:
- You create ingress objects like usual, but they need to be annotated with
merge.ingress.kubernetes.io/config: <CONFIG_MAP_NAME>where you specify a config map name which holds the annotations for resulting ingress
- Merge controller watches for ingress resources annotated with
kubernetes.io/ingress.class: mergeand using defined config map, merges them together resulting in new ingress object
Let's deploy the ingress merge controller and try it:
$ helm repo add akomljen-charts https://raw.githubusercontent.com/komljen/helm-charts/master/charts/ $ helm install --name imc \ --namespace ingress \ akomljen-charts/merge-ingress $ kubectl get pods --selector=app=merge-ingress -n ingress NAME READY STATUS RESTARTS AGE imc-merge-ingress-579fcd6f54-kdg8f 1/1 Running 0 55s
First, you need to create a config map which holds annotations for resulting ingress:
$ cat > merged-ingress-cm.yaml <<EOF apiVersion: v1 kind: ConfigMap metadata: name: blog-ingress data: annotations: | kubernetes.io/ingress.class: alb alb.ingress.kubernetes.io/scheme: internet-facing EOF $ kubectl apply -f merged-ingress-cm.yaml
Then you can delete existing ingress created in the previous step and create the new one, but now use
kubernetes.io/ingress.class: merge and
merge.ingress.kubernetes.io/config: blog-ingress annotations:
$ kubectl delete -f ingress.yaml $ cat > merged-ingress.yaml <<EOF apiVersion: extensions/v1beta1 kind: Ingress metadata: name: blog labels: app: blog annotations: kubernetes.io/ingress.class: merge merge.ingress.kubernetes.io/config: blog-ingress spec: rules: - http: paths: - path: /* backend: serviceName: blog servicePort: 80 EOF $ kubectl create -f merged-ingress.yaml $ kubectl get ingress -o wide NAME HOSTS ADDRESS PORTS AGE blog * f5427a54-default-blogingre-b47d-460392593.eu-west-1.elb.amazonaws.com 80 48s blog-ingress * f5427a54-default-blogingre-b47d-460392593.eu-west-1.elb.amazonaws.com 80 48s
Seeing two ingresses with same ALB address is confusing, but merge ingress controller is just propagating the status of merged ingress
The downside of using ingress merge controller is that all ingresses will share the same annotations defined in the config map. But, you can create more config maps per ALB ingress group. Then you have the flexibility of using just enough ALBs to cover all groups of ingress resources. Also, for each namespace, you still need another ALB.
Here you go, a new option to expose your services when running the Kubernetes cluster on AWS. I hope this post will help you to decide which ingress controller to use and to understand some major differences when comparing different ingress controllers.
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