Creating a DaemonSet
Scenario
CCE provides deployment and management capabilities for multiple types of containers and supports features of container workloads, including creation, configuration, monitoring, scaling, upgrade, uninstall, service discovery, and load balancing.
DaemonSet ensures that only one pod runs on all or some nodes. When a node is added to a cluster, a new pod is also added for the node. When a node is removed from a cluster, the pod is also reclaimed. If a DaemonSet is deleted, all pods created by it will be deleted.
The typical application scenarios of a DaemonSet are as follows:
- Run the cluster storage daemon, such as glusterd or Ceph, on each node.
- Run the log collection daemon, such as Fluentd or Logstash, on each node.
- Run the monitoring daemon, such as Prometheus Node Exporter, collectd, Datadog agent, New Relic agent, or Ganglia (gmond), on each node.
You can deploy a DaemonSet for each type of daemons on all nodes, or deploy multiple DaemonSets for the same type of daemons. In the second case, DaemonSets have different flags and different requirements on memory and CPU for different hardware types.
Prerequisites
Before creating a DaemonSet, you must have an available cluster. For details on how to create a cluster, see Buying a CCE Standard Cluster.
Using the CCE Console
- Log in to the CCE console.
- Click the cluster name to go to the cluster console, choose Workloads in the navigation pane, and click the Create Workload in the upper right corner.
- Set basic information about the workload.
Basic Info
- Workload Type: Select DaemonSet. For details about workload types, see Overview.
- Workload Name: Enter the name of the workload. Enter 1 to 63 characters starting with a lowercase letter and ending with a lowercase letter or digit. Only lowercase letters, digits, and hyphens (-) are allowed.
- Namespace: Select the namespace of the workload. The default value is default. You can also click Create Namespace to create one. For details, see Creating a Namespace.
- Time Zone Synchronization: Specify whether to enable time zone synchronization. After time zone synchronization is enabled, the container and node use the same time zone. The time zone synchronization function depends on the local disk mounted to the container. Do not modify or delete the time zone. For details, see Configuring Time Zone Synchronization.
Container Settings- Container Information
Multiple containers can be configured in a pod. You can click Add Container on the right to configure multiple containers for the pod.
- Basic Info: Configure basic information about the container.
Parameter
Description
Container Name
Name the container.
Pull Policy
Image update or pull policy. If you select Always, the image is pulled from the image repository each time. If you do not select Always, the existing image of the node is preferentially used. If the image does not exist, the image is pulled from the image repository.
Image Name
Click Select Image and select the image used by the container.
To use a third-party image, see Using Third-Party Images.
Image Tag
Select the image tag to be deployed.
CPU Quota
- Request: minimum number of CPU cores required by a container. The default value is 0.25 cores.
- Limit: maximum number of CPU cores that can be used by a container. This prevents containers from using excessive resources.
If Request and Limit are not specified, the quota is not limited. For more information and suggestions about Request and Limit, see Configuring Container Specifications.
Memory Quota
- Request: minimum amount of memory required by a container. The default value is 512 MiB.
- Limit: maximum amount of memory available for a container. When memory usage exceeds the specified memory limit, the container will be terminated.
If Request and Limit are not specified, the quota is not limited. For more information and suggestions about Request and Limit, see Configuring Container Specifications.
(Optional) GPU Quota
Configurable only when the cluster contains GPU nodes and the CCE AI Suite (NVIDIA GPU) add-on is installed.
- All: No GPU will be used.
- Dedicated: GPU resources are dedicated for the container.
- Shared: percentage of GPU resources used by the container. For example, if this parameter is set to 10%, the container uses 10% of GPU resources.
For details about how to use GPUs in the cluster, see Default GPU Scheduling in Kubernetes.
(Optional) NPU Quota
Number of required Ascend chips. The value must be an integer and the CCE AI Suite (Ascend NPU) add-on must be installed.
For details about how to use NPUs in the cluster, see NPU Scheduling.
(Optional) Privileged Container
Programs in a privileged container have certain privileges.
If Privileged Container is enabled, the container is assigned privileges. For example, privileged containers can manipulate network devices on the host machine and modify kernel parameters.
(Optional) Init Container
Whether to use the container as an init container. An init container does not support health check.
An init container is a special container that runs before other app containers in a pod are started. Each pod can contain multiple containers. In addition, a pod can contain one or more init containers. Application containers in a pod are started and run only after the running of all init containers completes. For details, see Init Containers.
- (Optional) Lifecycle: Configure operations to be performed in a specific phase of the container lifecycle, such as Startup Command, Post-Start, and Pre-Stop. For details, see Configuring Container Lifecycle Parameters.
- (Optional) Health Check: Set the liveness probe, ready probe, and startup probe as required. For details, see Configuring Container Health Check.
- (Optional) Environment Variables: Configure variables for the container running environment using key-value pairs. These variables transfer external information to containers running in pods and can be flexibly modified after application deployment. For details, see Configuring Environment Variables.
- (Optional) Data Storage: Mount local storage or cloud storage to the container. The application scenarios and mounting modes vary with the storage type. For details, see Storage.
- (Optional) Security Context: Assign container permissions to protect the system and other containers from being affected. Enter the user ID to assign container permissions and prevent systems and other containers from being affected.
- (Optional) Logging: Report standard container output logs to AOM by default, without requiring manual settings. You can manually configure the log collection path. For details, see Collecting Container Logs Using ICAgent.
To disable the standard output of the current workload, add the annotation kubernetes.AOM.log.stdout: [] in Labels and Annotations. For details about how to use this annotation, see Table 1.
- Basic Info: Configure basic information about the container.
- Image Access Credential: Select the credential used for accessing the image repository. The default value is default-secret. You can use default-secret to access images in SWR. For details about default-secret, see default-secret.
- (Optional) GPU: All is selected by default. The workload instance will be scheduled to the node of the specified GPU type.
(Optional) Service Settings
A Service provides external access for pods. With a static IP address, a Service forwards access traffic to pods and automatically balances load for these pods.
You can also create a Service after creating a workload. For details about Services of different types, see Overview.
(Optional) Advanced Settings- Upgrade: Specify the upgrade mode and parameters of the workload. Rolling upgrade and Replace upgrade are available. For details, see Configuring Workload Upgrade Policies.
- Scheduling: Configure affinity and anti-affinity policies for flexible workload scheduling. Node affinity is provided.
- Node Affinity: Common load affinity policies are offered for quick load affinity deployment.
- Specified node scheduling: Workload pods can be deployed on specified nodes through node affinity (nodeAffinity). If no node is specified, the pods will be randomly scheduled based on the default scheduling policy of the cluster.
- Specified node pool scheduling: Workload pods can be deployed in a specified node pool through node affinity (nodeAffinity). If no node pool is specified, the pods will be randomly scheduled based on the default scheduling policy of the cluster.
- Custom policies: Affinity and anti-affinity policies can be customized as needed. For details, see Scheduling Policies (Affinity/Anti-affinity).
- Node Affinity: Common load affinity policies are offered for quick load affinity deployment.
- Toleration: Using both taints and tolerations allows (not forcibly) the pod to be scheduled to a node with the matching taints, and controls the pod eviction policies after the node where the pod is located is tainted. For details, see Configuring Tolerance Policies.
- Labels and Annotations: Add labels or annotations for pods using key-value pairs. After entering the key and value, click Confirm. For details about how to use and configure labels and annotations, see Configuring Labels and Annotations.
- DNS: Configure a separate DNS policy for the workload. For details, see DNS Configuration.
- Network Configuration
- Pod ingress/egress bandwidth limitation: You can set ingress/egress bandwidth limitation for pods. For details, see Configuring QoS for a Pod.
- Click Create Workload in the lower right corner.
Using kubectl
The following procedure uses Nginx as an example to describe how to create a workload using kubectl.
- Use kubectl to access the cluster. For details, see Connecting to a Cluster Using kubectl.
- Create and edit the nginx-daemonset.yaml file. nginx-daemonset.yaml is an example file name, and you can change it as required.
vi nginx-daemonset.yaml
The content of the description file is as follows: The following provides an example. For more information on DaemonSets, see Kubernetes documents.
apiVersion: apps/v1 kind: DaemonSet metadata: name: nginx-daemonset labels: app: nginx-daemonset spec: selector: matchLabels: app: nginx-daemonset template: metadata: labels: app: nginx-daemonset spec: nodeSelector: # Node selection. A pod is created on a node only when the node meets daemon=need. daemon: need containers: - name: nginx-daemonset image: nginx:alpine resources: limits: cpu: 250m memory: 512Mi requests: cpu: 250m memory: 512Mi imagePullSecrets: - name: default-secret
The replicas parameter used in defining a Deployment or StatefulSet does not exist in the above configuration for a DaemonSet, because each node has only one replica. It is fixed.
The nodeSelector in the preceding pod template specifies that a pod is created only on the nodes that meet daemon=need. If you want to create a pod on each node, delete the label.
- Create a DaemonSet.
kubectl create -f nginx-daemonset.yaml
If the following information is displayed, the DaemonSet is being created.
daemonset.apps/nginx-daemonset created
- Obtain the DaemonSet status.
kubectl get ds
$ kubectl get ds NAME DESIRED CURRENT READY UP-TO-DATE AVAILABLE NODE SELECTOR AGE nginx-daemonset 1 1 0 1 0 daemon=need 116s
- If the workload will be accessed through a ClusterIP or NodePort Service, configure the access mode. For details, see Network.
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