cluster-capacity

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Published: Jul 11, 2018 License: Apache-2.0

README

Cluster capacity analysis framework

Build Status

Implementation of cluster capacity analysis.

Intro

As new pods get scheduled on nodes in a cluster, more resources get consumed. Monitoring available resources in the cluster is very important as operators can increase the current resources in time before all of them get exhausted. Or, carry different steps that lead to increase of available resources.

Cluster capacity consists of capacities of individual cluster nodes. Capacity covers CPU, memory, disk space and other resources.

Overall remaining allocatable capacity is a rough estimation since it does not assume all resources being distributed among nodes. Goal is to analyze remaining allocatable resources and estimate available capacity that is still consumable in terms of a number of instances of a pod with given requirements that can be scheduled in a cluster.

Build and Run

Build the framework:

$ make build

and run the analysis:

$ ./cluster-capacity --kubeconfig <path to kubeconfig> --podspec=examples/pod.yaml

For more information about available options run:

$ ./cluster-capacity --help

Demonstration

Assuming a cluster is running with 4 nodes and 1 master with each node with 2 CPUs and 4GB of memory. With pod resource requirements to be 150m of CPU and 100Mi of Memory.

$ ./cluster-capacity --kubeconfig <path to kubeconfig> --podspec=pod.yaml --verbose
Pod requirements:
	- cpu: 150m
	- memory: 100Mi

The cluster can schedule 52 instance(s) of the pod.
Termination reason: FailedScheduling: pod (small-pod-52) failed to fit in any node
fit failure on node (kube-node-1): Insufficient cpu
fit failure on node (kube-node-4): Insufficient cpu
fit failure on node (kube-node-2): Insufficient cpu
fit failure on node (kube-node-3): Insufficient cpu


Pod distribution among nodes:
	- kube-node-1: 13 instance(s)
	- kube-node-4: 13 instance(s)
	- kube-node-2: 13 instance(s)
	- kube-node-3: 13 instance(s)

To decrease available resources in the cluster you can use provided RC (examples/rc.yml):

$ kubectl create -f examples/rc.yml

E.g. to change a number of replicas to 6, you can run:

$ kubectl patch -f examples/rc.yml -p '{"spec":{"replicas":6}}'

Once the number of running pods in the cluster grows and the analysis is run again, the number of schedulable pods decreases as well:

$ ./cluster-capacity --kubeconfig <path to kubeconfig> --podspec=pod.yaml --verbose
Pod requirements:
	- cpu: 150m
	- memory: 100Mi

The cluster can schedule 46 instance(s) of the pod.
Termination reason: FailedScheduling: pod (small-pod-46) failed to fit in any node
fit failure on node (kube-node-1): Insufficient cpu
fit failure on node (kube-node-4): Insufficient cpu
fit failure on node (kube-node-2): Insufficient cpu
fit failure on node (kube-node-3): Insufficient cpu


Pod distribution among nodes:
	- kube-node-1: 11 instance(s)
	- kube-node-4: 12 instance(s)
	- kube-node-2: 11 instance(s)
	- kube-node-3: 12 instance(s)

Output format

cluster capacity command has a flag --output (-o) to format its output as json or yaml.

$ ./cluster-capacity --kubeconfig <path to kubeconfig> --podspec=pod.yaml -o json
$ ./cluster-capacity --kubeconfig <path to kubeconfig> --podspec=pod.yaml -o yaml

The json or yaml output is not versioned and is not guaranteed to be stable across various releases.

Running Cluster Capacity as a Job Inside of a Pod

Running the cluster capacity tool as a job inside of a pod has the advantage of being able to be run multiple times without needing user intervention.

Follow these example steps to run Cluster Capacity as a job:

1. Create a Container that runs Cluster Capacity

In this example we create a simple Docker image utilizing the Dockerfile found in the root directory and tag it with cluster-capacity-image:

$ docker build -t cluster-capacity-image .
2. Setup an authorized user with the necessary permissions
A. Create a role:
$ cat << EOF| kubectl create -f -
kind: ClusterRole
apiVersion: rbac.authorization.k8s.io/v1beta1
metadata:
  name: cluster-capacity-role
rules:
- apiGroups: [""]
  resources: ["pods", "nodes", "persistentvolumeclaims", "persistentvolumes", "services"]
  verbs: ["get", "watch", "list"]
EOF
B. Create the service account which will be used to run the job:
$ kubectl create sa cluster-capacity-sa
C. Add the role to the service account:
$ kubectl create clusterrolebinding cluster-capacity-role \
    --clusterrole=cluster-capacity-role \
    --serviceaccount=default:cluster-capacity-sa
3. Define and create the pod specification (pod.yaml):
apiVersion: v1
kind: Pod
metadata:
  name: small-pod
  labels:
    app: guestbook
    tier: frontend
spec:
  containers:
  - name: php-redis
    image: gcr.io/google-samples/gb-frontend:v4
    imagePullPolicy: Always
    resources:
      limits:
        cpu: 150m
        memory: 100Mi
      requests:
        cpu: 150m
        memory: 100Mi

The cluster capacity analysis is mounted in a volume using a ConfigMap named cluster-capacity-configmap to mount input pod spec file pod.yaml into a volume test-volume at the path /test-pod.

$ kubectl create configmap cluster-capacity-configmap \
    --from-file pod.yaml
4. Create the job specification (cluster-capacity-job.yaml):
apiVersion: batch/v1
kind: Job
metadata:
  name: cluster-capacity-job
spec:
  parallelism: 1
  completions: 1
  template:
    metadata:
      name: cluster-capacity-pod
    spec:
        containers:
        - name: cluster-capacity
          image: cluster-capacity-image
          imagePullPolicy: "Never"
          volumeMounts:
          - mountPath: /test-pod
            name: test-volume
          env:
          - name: CC_INCLUSTER
            value: "true"
          command:
          - "/bin/sh"
          - "-ec"
          - |
            /bin/cluster-capacity --podspec=/test-pod/pod.yaml --verbose
        restartPolicy: "Never"
        serviceAccountName: cluster-capacity-sa
        volumes:
        - name: test-volume
          configMap:
            name: cluster-capacity-configmap

Note the environment variable CC_INCLUSTER the example above is required. This is used to indicate to the cluster capacity tool that it is running inside a cluster as a pod.

The pod.yaml key of the ConfigMap is the same as the pod specification file name, though it is not required. By doing this, the input pod spec file can be accessed inside the pod as /test-pod/pod.yaml.

5. Run the cluster capacity image as a job in a pod:
$ kubectl create -f cluster-capacity-job.yaml
6. Check the job logs to find the number of pods that can be scheduled in the cluster:
$ kubectl logs jobs/cluster-capacity-job
small-pod pod requirements:
        - CPU: 150m
        - Memory: 100Mi

The cluster can schedule 52 instance(s) of the pod small-pod.

Termination reason: Unschedulable: No nodes are available that match all of the
following predicates:: Insufficient cpu (2).

Pod distribution among nodes:
small-pod
        - 192.168.124.214: 26 instance(s)
        - 192.168.124.120: 26 instance(s)

Pod spec generator: genpod

genpod is an internal tool to cluster capacity, and could be used to create sample pod spec. In general, users are recommended to provide their own pod spec file as part of analysis

As pods are part of a namespace with resource limits and additional constraints (e.g. node selector forced by namespace annotation), it is natural to analyse how many instances of a pod with maximal resource requirements can be scheduled. In order to generate the pod spec, you can run:

$ genpod --kubeconfig <path to kubeconfig>  --namespace <namespace>

Assuming at least one resource limits object is available with at least one maximum resource type per pod. If multiple resource limits objects per namespace are available, minimum of all maximum resources per type is taken. If a namespace is annotated with openshift.io/node-selector, the selector is set as pod's node selector.

Example:

Assuming cluster-capacity namespace with openshift.io/node-selector: "region=hpc,load=high" annotation and resource limits are created (see examples/namespace.yml and examples/limits.yml)

$ kubectl describe limits hpclimits --namespace cluster-capacity
Name:           hpclimits
Namespace:      cluster-capacity
Type            Resource        Min     Max     Default Request Default Limit   Max Limit/Request Ratio
----            --------        ---     ---     --------------- -------------   -----------------------
Pod             cpu             10m     200m    -               -               -
Pod             memory          6Mi     100Mi   -               -               -
Container       memory          6Mi     20Mi    6Mi             6Mi             -
Container       cpu             10m     50m     10m             10m             -

$ genpod --kubeconfig <path to kubeconfig>  --namespace cluster-capacity
apiVersion: v1
kind: Pod
metadata:
  creationTimestamp: null
  name: cluster-capacity-stub-container
  namespace: cluster-capacity
spec:
  containers:
  - image: gcr.io/google_containers/pause:2.0
    imagePullPolicy: Always
    name: cluster-capacity-stub-container
    resources:
      limits:
        cpu: 200m
        memory: 100Mi
      requests:
        cpu: 200m
        memory: 100Mi
  dnsPolicy: Default
  nodeSelector:
    load: high
    region: hpc
  restartPolicy: OnFailure
status: {}

Roadmap

Underway:

  • analysis covering scheduler and admission controller
  • generic framework for any scheduler created by the default scheduler factory
  • continuous stream of estimations

Would like to get soon:

  • include multiple schedulers
  • accept a list (sequence) of pods
  • extend analysis with volume handling
  • define common interface each scheduler need to implement if embedded in the framework

Other possibilities:

  • incorporate re-scheduler
  • incorporate preemptive scheduling
  • include more of Kubelet's behaviour (e.g. recognize memory pressure, secrets/configmap existence test)

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