Updated on 2024-11-11 GMT+08:00

Priority-based Scheduling

A pod priority indicates the importance of a pod relative to other pods. Volcano supports pod PriorityClasses in Kubernetes. After PriorityClasses are configured, the scheduler preferentially schedules high-priority pods.

Prerequisites

Overview

The services running in a cluster are diversified, including core services, non-core services, online services, and offline services. You can configure priorities for different services based on service importance and SLA requirements. For example, configure a high priority for core services and online services so that such services preferentially obtain cluster resources.

Table 1 lists the priority-based scheduling supported by CCE clusters.

Table 1 Priority-based scheduling

Scheduling Type

Description

Priority-based scheduling

The scheduler preferentially guarantees the running of high-priority pods, but will not evict low-priority pods that are running. Priority-based scheduling is enabled by default and cannot be disabled.

Configuring Priority-based Scheduling Policies

  1. Log in to the CCE console.
  2. Click the cluster name to access the cluster console. Choose Settings in the navigation pane. In the right pane, click the Scheduling tab.
  3. In the Business priority scheduling area, configure priority-based scheduling.

    • Scheduling based on priority: The scheduler preferentially guarantees the running of high-priority pods, but will not evict low-priority pods that are running. Priority-based scheduling is enabled by default and cannot be disabled.

  4. After the configuration, you can use PriorityClasses to schedule the pods of workloads or Volcano jobs based priorities.

    1. Create one or more PriorityClasses.
      apiVersion: scheduling.k8s.io/v1
      kind: PriorityClass
      metadata:
        name: high-priority
      value: 1000000
      globalDefault: false
      description: ""
    2. Create a workload or Volcano job and specify its PriorityClass name.
      • Workload
        apiVersion: apps/v1
        kind: Deployment
        metadata:
          name: high-test
          labels:
            app: high-test
        spec:
          replicas: 5
          selector:
            matchLabels:
              app: test
          template:
            metadata:
              labels:
                app: test
            spec:
              priorityClassName: high-priority
              schedulerName: volcano
              containers:
              - name: test
                image: busybox
                imagePullPolicy: IfNotPresent
                command: ['sh', '-c', 'echo "Hello, Kubernetes!" && sleep 3600']
                resources:
                  requests:
                    cpu: 500m
                  limits:
                    cpu: 500m
      • Volcano job
        apiVersion: batch.volcano.sh/v1alpha1
        kind: Job
        metadata:
          name: vcjob
        spec:
          schedulerName: volcano
          minAvailable: 4
          priorityClassName: high-priority
          tasks:
            - replicas: 4
              name: "test"
              template:
                spec:
                  containers:
                    - image: alpine
                      command: ["/bin/sh", "-c", "sleep 1000"]
                      imagePullPolicy: IfNotPresent
                      name: running
                      resources:
                        requests:
                          cpu: "1"
                  restartPolicy: OnFailure

Example of Priority-based Scheduling

For example, there are two idle nodes and several workloads with three priorities (high-priority, medium-priority, and low-priority). Run the high-priority workload to exhaust all cluster resources, and issue the medium-priority and low-priority workloads. Then, the two types of workloads are pending due to insufficient resources. When the high-priority workload ends, the pods of the medium-priority workload will be scheduled ahead of the pods of the low-priority workload according to the priority-based scheduling setting.

  1. Add three PriorityClasses (high-priority, med-priority, and low-priority) in priority.yaml.

    Example configuration of priority.yaml:
    apiVersion: scheduling.k8s.io/v1
    kind: PriorityClass
    metadata:
      name: high-priority
    value: 100
    globalDefault: false
    description: "This priority class should be used for volcano job only."
    ---
    apiVersion: scheduling.k8s.io/v1
    kind: PriorityClass
    metadata:
      name: med-priority
    value: 50
    globalDefault: false
    description: "This priority class should be used for volcano job only."
    ---
    apiVersion: scheduling.k8s.io/v1
    kind: PriorityClass
    metadata:
      name: low-priority
    value: 10
    globalDefault: false
    description: "This priority class should be used for volcano job only."
    Create PriorityClasses.
    kubectl apply -f priority.yaml

  2. Check PriorityClasses.

    kubectl get PriorityClass
    Command output:
    NAME                      VALUE        GLOBAL-DEFAULT   AGE
    high-priority             100          false            97s
    low-priority              10           false            97s
    med-priority              50           false            97s
    system-cluster-critical   2000000000   false            6d6h
    system-node-critical      2000001000   false            6d6h

  3. Create a high-priority workload named high-priority-job to exhaust all cluster resources.

    high-priority-job.yaml

    apiVersion: batch.volcano.sh/v1alpha1
    kind: Job
    metadata:
      name: priority-high
    spec:
      schedulerName: volcano
      minAvailable: 4
      priorityClassName: high-priority
      tasks:
        - replicas: 4
          name: "test"
          template:
            spec:
              containers:
                - image: alpine
                  command: ["/bin/sh", "-c", "sleep 1000"]
                  imagePullPolicy: IfNotPresent
                  name: running
                  resources:
                    requests:
                      cpu: "1"
              restartPolicy: OnFailure

    Run the following command to issue the job:

    kubectl apply -f high_priority_job.yaml

    Run the kubectl get pod command to check pod statuses:

    NAME                   READY   STATUS    RESTARTS   AGE
    priority-high-test-0   1/1     Running   0          3s
    priority-high-test-1   1/1     Running   0          3s
    priority-high-test-2   1/1     Running   0          3s
    priority-high-test-3   1/1     Running   0          3s

    The command output shows that all cluster resources have been used up.

  4. Create a medium-priority workload med-priority-job and a low-priority workload low-priority-job.

    med-priority-job.yaml

    apiVersion: batch.volcano.sh/v1alpha1
    kind: Job
    metadata:
      name: priority-medium
    spec:
      schedulerName: volcano
      minAvailable: 4
      priorityClassName: med-priority
      tasks:
        - replicas: 4
          name: "test"
          template:
            spec:
              containers:
                - image: alpine
                  command: ["/bin/sh", "-c", "sleep 1000"]
                  imagePullPolicy: IfNotPresent
                  name: running
                  resources:
                    requests:
                      cpu: "1"
              restartPolicy: OnFailure

    low-priority-job.yaml

    apiVersion: batch.volcano.sh/v1alpha1
    kind: Job
    metadata:
      name: priority-low
    spec:
      schedulerName: volcano
      minAvailable: 4
      priorityClassName: low-priority
      tasks:
        - replicas: 4
          name: "test"
          template:
            spec:
              containers:
                - image: alpine
                  command: ["/bin/sh", "-c", "sleep 1000"]
                  imagePullPolicy: IfNotPresent
                  name: running
                  resources:
                    requests:
                      cpu: "1"
              restartPolicy: OnFailure

    Run the following commands to issue the jobs:

    kubectl apply -f med_priority_job.yaml
    kubectl apply -f low_priority_job.yaml

    Run the kubectl get pod command to check the statuses of the pods for the newly created workloads. The command output shows that the pods are pending due to insufficient resources:

    NAME                     READY   STATUS    RESTARTS   AGE
    priority-high-test-0     1/1     Running   0          3m29s
    priority-high-test-1     1/1     Running   0          3m29s
    priority-high-test-2     1/1     Running   0          3m29s
    priority-high-test-3     1/1     Running   0          3m29s
    priority-low-test-0      0/1     Pending   0          2m26s
    priority-low-test-1      0/1     Pending   0          2m26s
    priority-low-test-2      0/1     Pending   0          2m26s
    priority-low-test-3      0/1     Pending   0          2m26s
    priority-medium-test-0   0/1     Pending   0          2m36s
    priority-medium-test-1   0/1     Pending   0          2m36s
    priority-medium-test-2   0/1     Pending   0          2m36s
    priority-medium-test-3   0/1     Pending   0          2m36s

  5. Delete the high_priority_job workload to release resources and check whether the pods of the med-priority-job workload will be preferentially scheduled.

    Run the kubectl delete -f high_priority_job.yaml command to release cluster resources and check pod scheduling.

    NAME                     READY   STATUS    RESTARTS   AGE
    priority-low-test-0      0/1     Pending   0          5m18s
    priority-low-test-1      0/1     Pending   0          5m18s
    priority-low-test-2      0/1     Pending   0          5m18s
    priority-low-test-3      0/1     Pending   0          5m18s
    priority-medium-test-0   1/1     Running   0          5m28s
    priority-medium-test-1   1/1     Running   0          5m28s
    priority-medium-test-2   1/1     Running   0          5m28s
    priority-medium-test-3   1/1     Running   0          5m28s