This walkthrough will go over the basics of setting up the Prometheus adapter on your cluster and configuring an autoscaler to use application metrics sourced from the adapter.
Before getting started, ensure that the main components of your cluster are configured for autoscaling on custom metrics. As of Kubernetes 1.7, this requires enabling the aggregation layer on the API server and configuring the controller manager to use the metrics APIs via their REST clients.
Detailed instructions can be found in the Kubernetes documentation under Horizontal Pod Autoscaling.
Make sure that you've properly configured metrics-server (as default in Kubernetes 1.9+), or enabling custom metrics autoscaling support will disable CPU autoscaling support.
Note that most of the API versions in this walkthrough target Kubernetes 1.9+. Note that current versions of the adapter only work with Kubernetes 1.8+. Version 0.1.0 works with Kubernetes 1.7, but is significantly different.
In order to follow this walkthrough, you'll need container images for Prometheus and the custom metrics adapter.
The Prometheus Operator, makes it easy to get up and running with Prometheus. This walkthrough will assume you're planning on doing that -- if you've deployed it by hand instead, you'll need to make a few adjustments to the way you expose metrics to Prometheus.
The adapter has different images for each arch, which can be found at
directxman12/k8s-prometheus-adapter-${ARCH}
. For instance, if you're on
an x86_64 machine, use the directxman12/k8s-prometheus-adapter-amd64
image.
If you're feeling adventurous, you can build the latest version of the
custom metrics adapter by running make docker-build
or make build-local-image
.
Special thanks to @luxas for providing the demo application for this walkthrough.
Suppose that you've written some new web application, and you know it's the next best thing since sliced bread. It's ready to unveil to the world... except you're not sure that just one instance will handle all the traffic once it goes viral. Thankfully, you've got Kubernetes.
Deploy your app into your cluster, exposed via a service so that you can send traffic to it and fetch metrics from it:
sample-app.deploy.yaml
apiVersion: apps/v1
kind: Deployment
metadata:
name: sample-app
labels:
app: sample-app
spec:
replicas: 1
selector:
matchLabels:
app: sample-app
template:
metadata:
labels:
app: sample-app
spec:
containers:
- image: luxas/autoscale-demo:v0.1.2
name: metrics-provider
ports:
- name: http
port: 8080
$ kubectl create -f sample-app.deploy.yaml
$ kubectl create service clusterip sample-app --tcp=80:8080
Now, check your app, which exposes metrics and counts the number of
accesses to the metrics page via the http_requests_total
metric:
$ curl http://$(kubectl get service sample-app -o jsonpath='{ .spec.clusterIP }')/metrics
Notice that each time you access the page, the counter goes up.
Now, you'll want to make sure you can autoscale your application on that metric, so that you're ready for your launch. You can use a HorizontalPodAutoscaler like this to accomplish the autoscaling:
sample-app-hpa.yaml
kind: HorizontalPodAutoscaler
apiVersion: autoscaling/v2beta1
metadata:
name: sample-app
spec:
scaleTargetRef:
# point the HPA at the sample application
# you created above
apiVersion: apps/v1
kind: Deployment
name: sample-app
# autoscale between 1 and 10 replicas
minReplicas: 1
maxReplicas: 10
metrics:
# use a "Pods" metric, which takes the average of the
# given metric across all pods controlled by the autoscaling target
- type: Pods
pods:
# use the metric that you used above: pods/http_requests
metricName: http_requests
# target 500 milli-requests per second,
# which is 1 request every two seconds
targetAverageValue: 500m
If you try creating that now (and take a look at your controller-manager
logs), you'll see that the that the HorizontalPodAutoscaler controller is
attempting to fetch metrics from
/apis/custom.metrics.k8s.io/v1beta1/namespaces/default/pods/*/http_requests?selector=app%3Dsample-app
,
but right now, nothing's serving that API.
Before you can autoscale your application, you'll need to make sure that Kubernetes can read the metrics that your application exposes.
In order to expose metrics beyond CPU and memory to Kubernetes for autoscaling, you'll need an "adapter" that serves the custom metrics API. Since you've got Prometheus metrics, it makes sense to use the Prometheus adapter to serve metrics out of Prometheus.
First, you'll need to deploy the Prometheus Operator. Check out the getting started guide for the Operator to deploy a copy of Prometheus.
This walkthrough assumes that Prometheus is deployed in the prom
namespace. Most of the sample commands and files are namespace-agnostic,
but there are a few commands or pieces of configuration that rely on that
namespace. If you're using a different namespace, simply substitute that
in for prom
when it appears.
In order to monitor your application, you'll need to set up
a ServiceMonitor pointing at the application. Assuming you've set up your
Prometheus instance to use ServiceMonitors with the app: sample-app
label, create a ServiceMonitor to monitor the app's metrics via the
service:
service-monitor.yaml
kind: ServiceMonitor
apiVersion: monitoring.coreos.com/v1
metadata:
name: sample-app
labels:
app: sample-app
spec:
selector:
matchLabels:
app: sample-app
endpoints:
- port: http
$ kubectl create -f service-monitor.yaml
Now, you should see your metrics appear in your Prometheus instance. Look
them up via the dashboard, and make sure they have the namespace
and
pod
labels.
Now that you've got a running copy of Prometheus that's monitoring your application, you'll need to deploy the adapter, which knows how to communicate with both Kubernetes and Prometheus, acting as a translator between the two.
The deploy/manifests directory contains the appropriate files for creating the Kubernetes objects to deploy the adapter.
See the deployment README for more information about
the steps to deploy the adapter. Note that if you're deploying on
a non-x86_64 (amd64) platform, you'll need to change the image
field in
the Deployment to be the appropriate image for your platform.
The default adapter configuration should work for this walkthrough and
a standard Prometheus Operator configuration, but if you've got custom
relabelling rules, or your labels above weren't exactly namespace
and
pod
, you may need to edit the configuration in the ConfigMap. The
configuration walkthrough provides an
overview of how configuration works.
As part of the creation of the adapter Deployment and associated objects (performed above), we registered the API with the API aggregator (part of the main Kubernetes API server).
The API is registered as custom.metrics.k8s.io/v1beta1
, and you can find
more information about aggregation at Concepts:
Aggregation.
With that all set, your custom metrics API should show up in discovery.
Try fetching the discovery information for it:
$ kubectl get --raw /apis/custom.metrics.k8s.io/v1beta1
Since you've set up Prometheus to collect your app's metrics, you should
see a pods/http_request
resource show up. This represents the
http_requests_total
metric, converted into a rate, aggregated to have
one datapoint per pod. Notice that this translates to the same API that
our HorizontalPodAutoscaler was trying to use above.
You can check the value of the metric using kubectl get --raw
, which
sends a raw GET request to the Kubernetes API server, automatically
injecting auth information:
$ kubectl get --raw "/apis/custom.metrics.k8s.io/v1beta1/namespaces/default/pods/*/http_requests?selector=app%3Dsample-app"
Because of the adapter's configuration, the cumulative metric
http_requests_total
has been converted into a rate metric,
pods/http_requests
, which measures requests per second over a 2 minute
interval. The value should currently be close to zero, since there's no
traffic to your app, except for the regular metrics collection from
Prometheus.
Try generating some traffic using cURL a few times, like before:
$ curl http://$(kubectl get service sample-app -o jsonpath='{ .spec.clusterIP }')/metrics
Now, if you fetch the metrics again, you should see an increase in the value. If you leave it alone for a bit, the value should go back down again.
Notice that the API uses Kubernetes-style quantities to describe metric
values. These quantities use SI suffixes instead of decimal points. The
most common to see in the metrics API is the m
suffix, which means
milli-units, or 1000ths of a unit. If your metric is exactly a whole
number of units on the nose, you might not see a suffix. Otherwise, you'll
probably see an m
suffix to represent fractions of a unit.
For example, here, 500m
would be half a request per second, 10
would
be 10 requests per second, and 10500m
would be 10.5
requests per
second.
If the metric does not appear, or is not registered with the right resources, you might need to modify your adapter configuration, as mentioned above. Check your labels via the Prometheus dashboard, and then modify the configuration appropriately.
As noted in the main README, you'll need to also make sure your metrics relist interval is at least your Prometheus scrape interval. If it's less that that, you'll see metrics periodically appear and disappear from the adapter.
Now that you finally have the metrics API set up, your HorizontalPodAutoscaler should be able to fetch the appropriate metric, and make decisions based on it.
If you didn't create the HorizontalPodAutoscaler above, create it now:
$ kubectl create -f sample-app-hpa.yaml
Wait a little bit, and then examine the HPA:
$ kubectl describe hpa sample-app
You should see that it succesfully fetched the metric, but it hasn't tried to scale, since there's not traffic.
Since your app is going to need to scale in response to traffic, generate some via cURL like above:
$ curl http://$(kubectl get service sample-app -o jsonpath='{ .spec.clusterIP }')/metrics
Recall from the configuration at the start that you configured your HPA to have each replica handle 500 milli-requests, or 1 request every two seconds (ok, so maybe you still have some performance issues to work out before your beta period ends). Thus, if you generate a few requests, you should see the HPA scale up your app relatively quickly.
If you describe the HPA again, you should see that the last observed metric value roughly corresponds to your rate of requests, and that the HPA has recently scaled your app.
Now that you've got your app autoscaling on the HTTP requests, you're all ready to launch! If you leave the app alone for a while, the HPA should scale it back down, so you can save precious budget for the launch party.
For more information on how the HPA controller consumes different kinds of metrics, take a look at the HPA walkthrough.
Also try exposing a non-cumulative metric from your own application, or
scaling on application on a metric provided by another application by
setting different labels or using the Object
metric source type.
For more information on how metrics are exposed by the Prometheus adapter, see config documentation, and check the default configuration.