Signed-off-by: Mikkel Oscar Lyderik Larsen <mikkel.larsen@zalando.de>
kube-metrics-adapter
Kube Metrics Adapter is a general purpose metrics adapter for Kubernetes that can collect and serve custom and external metrics for Horizontal Pod Autoscaling.
It discovers Horizontal Pod Autoscaling resources and starts to collect the requested metrics and stores them in memory. It's implemented using the custom-metrics-apiserver library.
Here's an example of a HorizontalPodAutoscaler
resource configured to get
requests-per-second
metrics from each pod of the deployment myapp
.
apiVersion: autoscaling/v2beta1
kind: HorizontalPodAutoscaler
metadata:
name: myapp-hpa
annotations:
# metric-config.<metricType>.<metricName>.<collectorName>/<configKey>
metric-config.pods.requests-per-second.json-path/json-key: "$.http_server.rps"
metric-config.pods.requests-per-second.json-path/path: /metrics
metric-config.pods.requests-per-second.json-path/port: "9090"
spec:
scaleTargetRef:
apiVersion: apps/v1
kind: Deployment
name: myapp
minReplicas: 1
maxReplicas: 10
metrics:
- type: Pods
pods:
metricName: requests-per-second
targetAverageValue: 1k
The metric-config.*
annotations are used by the kube-metrics-adapter
to
configure a collector for getting the metrics. In the above example it
configures a json-path pod collector.
Building
This project uses Go modules as introduced in Go 1.11 therefore you need Go >=1.11 installed in order to build. If using Go 1.11 you also need to activate Module support.
Assuming Go has been setup with module support it can be built simply by running:
export GO111MODULE=on # needed if the project is checked out in your $GOPATH.
$ make
Collectors
Collectors are different implementations for getting metrics requested by an
HPA resource. They are configured based on HPA resources and started on-demand by the
kube-metrics-adapter
to only collect the metrics required for scaling the application.
The collectors are configured either simply based on the metrics defined in an HPA resource, or via additional annotations on the HPA resource.
Pod collector
The pod collector allows collecting metrics from each pod matched by the HPA.
Currently only json-path
collection is supported.
Supported metrics
Metric | Description | Type |
---|---|---|
custom | No predefined metrics. Metrics are generated from user defined queries. | Pods |
Example
This is an example of using the pod collector to collect metrics from a json metrics endpoint of each pod matched by the HPA.
apiVersion: autoscaling/v2beta1
kind: HorizontalPodAutoscaler
metadata:
name: myapp-hpa
annotations:
# metric-config.<metricType>.<metricName>.<collectorName>/<configKey>
metric-config.pods.requests-per-second.json-path/json-key: "$.http_server.rps"
metric-config.pods.requests-per-second.json-path/path: /metrics
metric-config.pods.requests-per-second.json-path/port: "9090"
spec:
scaleTargetRef:
apiVersion: apps/v1
kind: Deployment
name: myapp
minReplicas: 1
maxReplicas: 10
metrics:
- type: Pods
pods:
metricName: requests-per-second
targetAverageValue: 1k
The pod collector is configured through the annotations which specify the
collector name json-path
and a set of configuration options for the
collector. json-key
defines the json-path query for extracting the right
metric. This assumes the pod is exposing metrics in JSON format. For the above
example the following JSON data would be expected:
{
"http_server": {
"rps": 0.5
}
}
The json-path query support depends on the
github.com/oliveagle/jsonpath library.
See the README for possible queries. It's expected that the metric you query
returns something that can be turned into a float64
.
The other configuration options path
and port
specifies where the metrics
endpoint is exposed on the pod. There's no default values, so they must be
defined.
Prometheus collector
The Prometheus collector is a generic collector which can map Prometheus queries to metrics that can be used for scaling. This approach is different from how it's done in the k8s-prometheus-adapter where all available Prometheus metrics are collected and transformed into metrics which the HPA can scale on, and there is no possibility to do custom queries. With the approach implemented here, users can define custom queries and only metrics returned from those queries will be available, reducing the total number of metrics stored.
One downside of this approach is that bad performing queries can slow down/kill Prometheus, so it can be dangerous to allow in a multi tenant cluster. It's also not possible to restrict the available metrics using something like RBAC since any user would be able to create the metrics based on a custom query.
I still believe custom queries are more useful, but it's good to be aware of the trade-offs between the two approaches.
Supported metrics
Metric | Description | Type | Kind |
---|---|---|---|
custom | No predefined metrics. Metrics are generated from user defined queries. | Object | any |
Example
This is an example of an HPA configured to get metrics based on a Prometheus
query. The query is defined in the annotation
metric-config.object.processed-events-per-second.prometheus/query
where
processed-events-per-second
is the metric name which will be associated with
the result of the query.
It also specifies an annotation
metric-config.object.processed-events-per-second.prometheus/per-replica
which
instructs the collector to treat the results as an average over all pods
targeted by the HPA. This makes it possible to mimic the behavior of
targetAverageValue
which is not implemented for metric type Object
as of
Kubernetes v1.10. (It will most likely come in v1.12).
apiVersion: autoscaling/v2beta1
kind: HorizontalPodAutoscaler
metadata:
name: myapp-hpa
annotations:
# metric-config.<metricType>.<metricName>.<collectorName>/<configKey>
metric-config.object.processed-events-per-second.prometheus/query: |
scalar(sum(rate(event-service_events_count{application="event-service",processed="true"}[1m])))
metric-config.object.processed-events-per-second.prometheus/per-replica: "true"
spec:
scaleTargetRef:
apiVersion: apps/v1
kind: Deployment
name: custom-metrics-consumer
minReplicas: 1
maxReplicas: 10
metrics:
- type: Object
object:
metricName: processed-events-per-second
target:
apiVersion: v1
kind: Service
name: event-service
targetValue: 10 # this will be treated as targetAverageValue
Skipper collector
The skipper collector is a simple wrapper around the Prometheus collector to make it easy to define an HPA for scaling based on ingress metrics when skipper is used as the ingress implementation in your cluster. It assumes you are collecting Prometheus metrics from skipper and it provides the correct Prometheus queries out of the box so users don't have to define those manually.
Supported metrics
Metric | Description | Type | Kind |
---|---|---|---|
requests-per-second |
Scale based on requests per second for a certain ingress. | Object | Ingress |
Example
This is an example of an HPA that will scale based on requests-per-second
for
an ingress called myapp
.
apiVersion: autoscaling/v2beta1
kind: HorizontalPodAutoscaler
metadata:
name: myapp-hpa
spec:
scaleTargetRef:
apiVersion: apps/v1
kind: Deployment
name: myapp
minReplicas: 1
maxReplicas: 10
metrics:
- type: Object
object:
metricName: requests-per-second
target:
apiVersion: extensions/v1beta1
kind: Ingress
name: myapp
targetValue: 10 # this will be treated as targetAverageValue
Note: As of Kubernetes v1.10 the HPA does not support targetAverageValue
for
metrics of type Object
. In case of requests per second it does not make sense
to scale on a summed value because you can not make the total requests per
second go down by adding more pods. For this reason the skipper collector will
automatically treat the value you define in targetValue
as an average per pod
instead of a total sum.
AWS collector
The AWS collector allows scaling based on external metrics exposed by AWS services e.g. SQS queue lengths.
Supported metrics
Metric | Description | Type |
---|---|---|
sqs-queue-length |
Scale based on SQS queue length | External |
Example
This is an example of an HPA that will scale based on the length of an SQS queue.
apiVersion: autoscaling/v2beta1
kind: HorizontalPodAutoscaler
metadata:
name: myapp-hpa
spec:
scaleTargetRef:
apiVersion: apps/v1
kind: Deployment
name: custom-metrics-consumer
minReplicas: 1
maxReplicas: 10
metrics:
- type: External
external:
metricName: sqs-queue-length
metricSelector:
matchLabels:
queue-name: foobar
region: eu-central-1
targetAverageValue: 30
The matchLabels
are used by kube-metrics-adapter
to configure a collector
that will get the queue length for an SQS queue named foobar
in region
eu-central-1
.
The AWS account of the queue currently depends on how kube-metrics-adapter
is
configured to get AWS credentials. The normal assumption is that you run the
adapter in a cluster running in the AWS account where the queue is defined.
Please open an issue if you would like support for other use cases.