virtual-node-autoscale

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Published: Nov 1, 2019 License: MIT

README


languages:

  • go page_type: sample description: "How to use custom metrics in combination with the Kubernetes Horizontal Pod Autoscaler to autoscale an application." products:
  • azure

Virtual node Autoscale Demo

This repository demonstrates how to use custom metrics in combination with the Kubernetes Horizontal Pod Autoscaler to autoscale an application. Virtual nodes let you scale quickly and easily run Kubernetes pods on Azure Container Instances where you'll pay only for the container instance runtime.

This repository will guide you through first installing the virtual node admission controller, followed by the Prometheus Operator. Then create a Prometheus instance and install the Prometheus Metric Adapter. With these in place, the provided Helm chart will install our demo application, along with supporting monitoring components, like a ServiceMonitor for Prometheus, a Horizontal Pod Autoscaler, and a custom container that will count the instances of the application and expose them to Prometheus. Finally, an optional Grafana dashboard can be installed to view the metrics in real-time.

This demo was used at Microsoft Ignite 2018 Kenote. Check out the video.

Prerequisites

Initialize Helm

Helm will be used to install the both the demo application and the supporting components. First ensure you have Helm installed. Once installed, you will need to initialize your cluster to use Helm. To do this, you will install the Tiller component with the helm init command.

kubectl -n kube-system create sa tiller
kubectl create clusterrolebinding tiller --clusterrole cluster-admin --serviceaccount=kube-system:tiller
helm init --service-account tiller

Install Virtual Node admission-controller (OPTIONAL)

In order to control the Kubernetes scheduler to "favor" VM backed Kubernetes nodes BEFORE scaling out to the virtual node we can use a Kubernetes Webhook Admission Controller to add pod affinity and toleration key/values to all pods in a correctly labeled namespace.

Pod patches

All pods on a correctly labelled namespace will be patched as follows:

Anti-affinity
spec:
  affinity:
    nodeAffinity:
      preferredDuringSchedulingIgnoredDuringExecution:
      - preference:
          matchExpressions:
          - key: type
            operator: NotIn
            values:
            - virtual-kubelet
Toleration
spec:
  tolerations:
  - key: virtual-kubelet.io/provider
    operator: Exists
  - effect: NoSchedule
    key: azure.com/aci
Install
helm install --name vn-affinity ./charts/vn-affinity-admission-controller

Label the namespace you wish enable the webhook to function on

kubectl label namespace default vn-affinity-injection=enabled

Install Prometheus Operator

We will use the Prometheus Operator to create the Prometheus cluster and to create the relevant configuration to monitor our app. So first, install the operator:

kubectl apply -f https://raw.githubusercontent.com/coreos/prometheus-operator/master/bundle.yaml

This will create a number of CRDs, Service Accounts and RBAC things. Once it's finished, you'll have the Prometheus Operator, but not a Prometheus instance. We will create one of those next.

Create a Prometheus instance

kubectl apply -f online-store/prometheus-config/prometheus

This will create a single replica Prometheus instance.

Expose a Service for Prometheus instance

kubectl expose pod prometheus-prometheus-0 --port 9090 --target-port 9090

Deploy online-store app

You will need your Virtual Kubelet node name, external IP address for Ingress, Ingress class name, and decide if you wish to use App Insights to install the online-store app.

Export Virtual Kubelet node name

The app will also install a counter that will get the pod count for the application and provide a metric for pods on Virtual Kubelet and pods on all other nodes.

$ kubectl get nodes
NAME                       STATUS    ROLES     AGE       VERSION
aks-nodepool1-30440750-0   Ready     agent     27d       v1.10.6
aks-nodepool1-30440750-1   Ready     agent     27d       v1.10.6
aks-nodepool1-30440750-2   Ready     agent     27d       v1.10.6
virtual-kubelet            Ready     agent     16h       v1.8.3

In this case, it's Virtual Kubelet. If you've installed with the ACI Connector, you may have a node name like virtual-kubelet-aci-connector-linux-westcentralus.

Export the node name to an environment variable

export VK_NODE_NAME=<your_node_name>
Export the ingress external IP address and class annotation

Stated in the pre-requisites, an ingress solution must exist to accept requests from the sample application. The easiest way to set this up is by installing the HTTP application routing add-on for AKS.

This can be installed with the following add-on command.

az aks enable-addons --resource-group myResourceGroup --name myAKSCluster --addons http_application_routing

Once installed, export the external IP address of your ingress point by retrieving details of your kube-system.

kubectl get svc --all-namespaces

In this example output using NGINX for ingress, it is 104.40.223.193.

NAMESPACE     NAME                                                  TYPE           CLUSTER-IP     EXTERNAL-IP      PORT(S)                      AGE
default       kubernetes                                            ClusterIP      10.0.0.1       <none>      443/TCP                      4h
default       prometheus-operated                                   ClusterIP      None           <none>      9090/TCP                     21m
default       prometheus-prometheus-0                               ClusterIP      10.0.188.67    <none>      9090/TCP                     21m
kube-system   addon-http-application-routing-default-http-backend   ClusterIP      10.0.253.241   <none>      80/TCP                       4h
kube-system   addon-http-application-routing-nginx-ingress          LoadBalancer   10.0.91.10     104.40.223.193   80:31237/TCP,443:30963/TCP   4h

Export this external IP to an environment variable.

export INGRESS_EXTERNAL_IP=<ingress_external_ip>

Next find the Ingress controller class name.

kubectl -n <ingress_controller_namespace> get po <ingress_controller_pod_name> -o yaml | grep ingress-class | sed -e 's/.*=//'

Export the Ingress controller class annotation.

export INGRESS_CLASS_ANNOTATION=<ingress_controller_class_annotation>
Set Application Insights on or off

By default, the online store will also send data to Application Insights. Once you have created a workspace, you'll need the Instrumentation Key. If you'd prefer to run without Application Insights, you can skip this step.

export APP_INSIGHT_KEY=<INSTRUMENTATION_KEY>
helm install ./charts/online-store --name online-store --set counter.specialNodeName=$VK_NODE_NAME,app.ingress.host=store.$INGRESS_EXTERNAL_IP.nip.io,appInsight.key=$APP_INSIGHT_KEY,app.ingress.annotations."kubernetes\.io/ingress\.class"=$INGRESS_CLASS_ANNOTATION

To run this demo without Application Insights, run the command:

helm install ./charts/online-store --name online-store --set counter.specialNodeName=$VK_NODE_NAME,app.ingress.host=store.$INGRESS_EXTERNAL_IP.nip.io,appInsight.enabled=false,app.ingress.annotations."kubernetes\.io/ingress\.class"=$INGRESS_CLASS_ANNOTATION

Deploy the Prometheus Metric Adapter

NOTE: if you have the Azure application insights adapter installed, you'll need to remove that first.

helm install stable/prometheus-adapter --name prometheus-adaptor -f ./online-store/prometheus-config/prometheus-adapter/values.yaml

There might be some lag time between when you create the adapter and when the metrics are available.

kubectl get --raw /apis/custom.metrics.k8s.io/v1beta1/namespaces/default/pod/*/requests_per_second | jq .

This should show metrics if everything is setup correctly. Example:

$ kubectl get --raw /apis/custom.metrics.k8s.io/v1beta1/namespaces/default/pod/*/requests_per_second | jq .
{
  "kind": "MetricValueList",
  "apiVersion": "custom.metrics.k8s.io/v1beta1",
  "metadata": {
    "selfLink": "/apis/custom.metrics.k8s.io/v1beta1/namespaces/default/pod/%2A/requests_per_second"
  },
  "items": [
    {
      "describedObject": {
        "kind": "Pod",
        "namespace": "default",
        "name": "online-store-8684976576-7hvc9",
        "apiVersion": "/__internal"
      },
      "metricName": "requests_per_second",
      "timestamp": "2018-09-05T03:57:44Z",
      "value": "0"
    },
    {
      "describedObject": {
        "kind": "Pod",
        "namespace": "default",
        "name": "online-store-8684976576-p6wm7",
        "apiVersion": "/__internal"
      },
      "metricName": "requests_per_second",
      "timestamp": "2018-09-05T03:57:44Z",
      "value": "0"
    }
  ]
}

Deploy the Grafana Dashboard (OPTIONAL)

This optional step installs a Grafana dashboard to view measured metrics in real-time.

helm install stable/grafana --name grafana -f grafana/values.yaml

Retreive admin user password for UI access

kubectl get secret --namespace default grafana -o jsonpath="{.data.admin-password}" | base64 --decode ; echo

Use kubectl to create a port-forward to the grafana pod

export POD_NAME=$(kubectl get pods --namespace default -l "app=grafana" -o jsonpath="{.items[0].metadata.name}")
kubectl --namespace default port-forward $POD_NAME 3000

Browse to localhost:3000 and login

Hit it with some Load

I've been using Hey

export GOPATH=~/go
export PATH=$GOPATH/bin:$PATH
go get -u github.com/rakyll/hey
hey -z 20m http://<whatever-the-ingress-url-is>

Watch it scale

$ kubectl get hpa online-store -w
NAME                REFERENCE                      TARGETS   MINPODS   MAXPODS   REPLICAS   AGE
online-store   Deployment/online-store   0 / 10    2         10        2          4m
online-store   Deployment/online-store   128500m / 10   2         10        2         4m
online-store   Deployment/online-store   170500m / 10   2         10        4         5m
online-store   Deployment/online-store   111500m / 10   2         10        4         5m
online-store   Deployment/online-store   95250m / 10   2         10        4         6m
online-store   Deployment/online-store   141 / 10   2         10        4         6m

Overtime, this should go up.

Some Prometheus Queries

Rounded average requests per second per container

round(avg(irate(request_durations_histogram_secs_count[1m])))

Rounded total requests per second

round(sum(irate(request_durations_histogram_secs_count[1m])))

Individual number of data points, should correspond to number of containers

count(irate(request_durations_histogram_secs_count[1m]))

The number of containers running, per the counter

running_containers

Average response time in seconds:

avg(request_durations_histogram_secs_sum / request_durations_histogram_secs_count)

Directories

Path Synopsis
online-store
prometheus-containercounter

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