Help Center/ Cloud Container Engine/ User Guide/ Nodes/ Accepting Nodes for Management
Updated on 2024-11-12 GMT+08:00

Accepting Nodes for Management

Scenario

In CCE, you can create a node (Creating a Node) or add existing nodes (ECSs or BMSs) to your cluster for management. These nodes can be billed on a yearly/monthly or pay-per-use basis.

  • When accepting an ECS, you can reset the ECS OS to a standard public image offered by CCE. If you choose to do so, you need to reset the password or key pair, and the previous password or key pair will become invalid.
  • LVM information, including volume groups (VGs), logical volumes (LVs), and physical volumes (PVs), will be deleted from the system disks and data disks attached to the selected ECSs during acceptance. Ensure that the information has been backed up.
  • During the acceptance of an ECS, do not perform any operation on the ECS through the ECS console.

Notes and Constraints

  • BMSs and ECSs, as well as DeHs can be managed.

Prerequisites

The cloud servers to be managed must meet the following requirements:

  • The node to be accepted must be in the Running state and not used by other clusters. In addition, the node to be accepted does not carry the CCE-Dynamic-Provisioning-Node tag.
  • The node to be accepted and the cluster must be in the same VPC. (If the cluster version is earlier than v1.13.10, the node to be accepted and the CCE cluster must be in the same subnet.)
  • Data disks must be attached to the nodes to be managed. A local disk (disk-intensive disk) or a data disk of at least 20 GiB can be attached to the node, and any data disks already attached cannot be smaller than 10 GiB. For details about how to attach a data disk, see Adding a Disk to an ECS.
  • The node to be accepted has 2-core or higher CPU, 4 GiB or larger memory, and only one NIC.
  • If an enterprise project is used, the node to be accepted and the cluster must be in the same enterprise project. Otherwise, resources cannot be identified during management. As a result, the node cannot be accepted.
  • Only cloud servers with the same data disk configuration can be accepted in batches for management.
  • If IPv6 is enabled for a cluster, only nodes in a subnet with IPv6 enabled can be accepted and managed. If IPv6 is not enabled for the cluster, only nodes in a subnet without IPv6 enabled can be accepted.
  • Nodes in a CCE Turbo cluster must support sub-ENIs or be bound to at least 16 ENIs. For details about the node flavors, see the node flavors that can be selected on the console when you create a node.
  • Data disks that have been partitioned will be ignored during node management. Ensure that there is at least one unpartitioned data disk meeting the specifications is attached to the node.

Procedure

  1. Log in to the CCE console and go to the cluster where the node to be accepted resides.
  2. In the navigation pane, choose Nodes. On the displayed page, click the Nodes tab and then Accept Node in the upper right corner.
  3. Specify node parameters.

    Configurations

    Table 1 Node configuration parameters

    Parameter

    Description

    Node Pool

    • Default node pool: You can add nodes that meet the management requirements to the default node pool of the cluster.
    • Custom node pool: You only need to select the nodes that meet the management requirements. These nodes will use the basic, network, and advanced settings of the custom node pool. You do not need to configure other parameters. For details, see Accepting Nodes in a Node Pool.

    Specifications

    Click Select Cloud Server and select the servers to be accepted.

    You can select multiple cloud servers for batch management. However, only the cloud servers with the same specifications, AZ, and data disk configuration can be added in batches.

    If a cloud server contains multiple data disks, select one of them for the container runtime and kubelet.

    Container Engine

    The container engines supported by CCE include Docker and containerd, which may vary depending on cluster types, cluster versions, and OSs. Select a container engine based on the information displayed on the CCE console. For details, see Mapping Between Node OSs and Container Engines.

    OS

    Select an OS type. Different types of nodes support different OSs.
    • Public image: Select a public image for the node.
    • Private image: Select a private image for the node. For details about how to create a private image, see Creating a Custom CCE Node Image.
    NOTE:

    Service container runtimes share the kernel and underlying calls of nodes. To ensure compatibility, select a Linux distribution version that is the same as or close to that of the final service container image for the node OS.

    Login Mode

    • Password

      The default username is root. Enter the password for logging in to the node and confirm the password.

      Be sure to remember the password as you will need it when you log in to the node.

    • Key Pair

      Select the key pair used to log in to the node. You can select a shared key.

      A key pair is used for identity authentication when you remotely log in to a node. If no key pair is available, click Create Key Pair. For details about how to create a key pair, see Creating a Key Pair.

    • Inherit Password From Image (supported for ECSs or PMs whose OSs are private images)

      Retain the password of the selected image. To use this option, ensure that you have set a password for the selected image.

    Storage Settings

    Configure storage resources on a node for the containers running on it.
    Table 2 Configuration parameters

    Parameter

    Description

    System Disk

    Directly use the system disk of the cloud server.

    System Component Storage

    Select a disk for storing system components.

    • Data Disk: added for storing container runtime and kubelet components by default. The disk size ranges from 20 GiB to 32768 GiB. The default value is 100 GiB. This data disk cannot be deleted or detached. Otherwise, the node will be unavailable.
    • System Disk: stores CCE resources such as downloaded images, ephemeral storage for containers, and container stdout logs. If the system disk is fully occupied, it will negatively affect the stability of the node.
    NOTE:

    In clusters of v1.23.18-r0, v1.25.13-r0, v1.27.10-r0, v1.28.8-r0, v1.29.4-r0, or later, you can select a disk for storing system components. If CCE Node Problem Detector is used, ensure that its version is 1.19.2 or later.

    Data Disk

    At least one data disk is required for the container runtime and kubelet components in clusters of a version earlier than v1.23.18-r0, v1.25.13-r0, v1.27.10-r0, v1.28.8-r0, or v1.29.4-r0. This data disk cannot be deleted or detached. Otherwise, the node will be unavailable.

    In clusters of v1.23.18-r0, v1.25.13-r0, v1.27.10-r0, v1.28.8-r0, v1.29.4-r0, or later, if System Component Storage is set to System Disk, you have the option not to add the default data disk.

    Click Expand to configure Data Disk Space Allocation, which is used to allocate space for container engines, images, and ephemeral storage for them to run properly. For details about how to allocate data disk space, see Space Allocation of a Data Disk.

    For other data disks, a raw disk is created without any processing by default. You can also click Expand and select Mount Disk to mount the data disk to a specified directory. Data disks can also be used as local PVs and local EVs.

    Advanced Settings

    Table 3 Advanced configuration parameters

    Parameter

    Description

    Resource Tag

    You can add resource tags to classify resources. A maximum of eight resource tags can be added.

    You can create predefined tags on the TMS console. The predefined tags are available to all resources that support tags. You can use these tags to improve the tag creation and resource migration efficiency. For details, see Creating Predefined Tags.

    CCE will automatically create the "CCE-Dynamic-Provisioning-Node=Node ID" tag.

    Kubernetes Label

    Click Add Label to set the key-value pair attached to the Kubernetes objects (such as pods). A maximum of 20 labels can be added.

    Labels can be used to distinguish nodes. With workload affinity settings, container pods can be scheduled to a specified node. For more information, see Labels and Selectors.

    Taint

    This parameter is left blank by default. You can add taints to configure anti-affinity for the node. A maximum of 20 taints are allowed for each node. Each taint contains the following parameters:
    • Key: A key must contain 1 to 63 characters, starting with a letter or digit. Only letters, digits, hyphens (-), underscores (_), and periods (.) are allowed. A DNS subdomain name can be used as the prefix of a key.
    • Value: A value must contain 1 to 63 characters, starting with a letter or digit. Only letters, digits, hyphens (-), underscores (_), and periods (.) are allowed.
    • Effect: Available options are NoSchedule, PreferNoSchedule, and NoExecute.
    NOTICE:
    • If taints are used, you must configure tolerations of pods. Otherwise, a scale-out may fail or pods cannot be scheduled onto the added nodes.
    • After a node pool is created, you can click Edit to modify its configuration. The modification will be synchronized to all nodes in the node pool.

    Max. Pods

    Maximum number of pods that can run on the node, including the default system pods. Value range: 16 to 256

    This limit prevents the node from being overloaded with pods.

    Pre-installation Command

    Installation script command, in which Chinese characters are not allowed. The script command will be Base64-transcoded.

    The script will be executed before Kubernetes software is installed. Note that if the script is incorrect, Kubernetes software may fail to be installed.

    Post-installation Command

    Installation script command, in which Chinese characters are not allowed. The script command will be Base64-transcoded.

    The script will be executed after Kubernetes software is installed, which does not affect the installation.

  4. Click Next: Confirm. Ensure that you have read and understood the Image Management Service Statement. Click Submit.