Managing Kubernetes Objects Using Imperative Commands

    Install kubectl.

    You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. If you do not already have a cluster, you can create one by using , or you can use one of these Kubernetes playgrounds:

    To check the version, enter kubectl version.

    Trade-offs

    The kubectl tool supports three kinds of object management:

    • Imperative object configuration
    • Declarative object configuration

    See for a discussion of the advantages and disadvantage of each kind of object management.

    How to create objects

    The kubectl tool supports verb-driven commands for creating some of the most common object types. The commands are named to be recognizable to users unfamiliar with the Kubernetes object types.

    • run: Create a new Deployment object to run Containers in one or more Pods.
    • expose: Create a new Service object to load balance traffic across Pods.
    • autoscale: Create a new Autoscaler object to automatically horizontally scale a controller, such as a Deployment.
    • create <objecttype> [<subtype>] <instancename>

    Some objects types have subtypes that you can specify in the create command. For example, the Service object has several subtypes including ClusterIP, LoadBalancer, and NodePort. Here’s an example that creates a Service with subtype NodePort:

    In the preceding example, the create service nodeport command is called a subcommand of the create service command.

    You can use the -h flag to find the arguments and flags supported by a subcommand:

    The kubectl command supports verb-driven commands for some common update operations. These commands are named to enable users unfamiliar with Kubernetes objects to perform updates without knowing the specific fields that must be set:

    • : Horizontally scale a controller to add or remove Pods by updating the replica count of the controller.
    • annotate: Add or remove an annotation from an object.
    • label: Add or remove a label from an object.

    The kubectl command also supports update commands driven by an aspect of the object. Setting this aspect may set different fields for different object types:

    • set <field>: Set an aspect of an object.
    • edit: Directly edit the raw configuration of a live object by opening its configuration in an editor.
    • patch: Directly modify specific fields of a live object by using a patch string. For more details on patch strings, see the patch section in .

    How to delete objects

    You can use the delete command to delete an object from a cluster:

    Note: You can use kubectl delete for both imperative commands and imperative object configuration. The difference is in the arguments passed to the command. To use kubectl delete as an imperative command, pass the object to be deleted as an argument. Here’s an example that passes a Deployment object named nginx:

    How to view an object

    There are several commands for printing information about an object:

    • get: Prints basic information about matching objects. Use get -h to see a list of options.
    • : Prints aggregated detailed information about matching objects.
    • logs: Prints the stdout and stderr for a container running in a Pod.

    There are some object fields that don’t have a flag you can use in a create command. In some of those cases, you can use a combination of set and create to specify a value for the field before object creation. This is done by piping the output of the create command to the set command, and then back to the create command. Here’s an example:

    1. The kubectl create service -o yaml --dry-run command creates the configuration for the Service, but prints it to stdout as YAML instead of sending it to the Kubernetes API server.
    2. The kubectl set selector --local -f - -o yaml command reads the configuration from stdin, and writes the updated configuration to stdout as YAML.
    3. The kubectl create -f - command creates the object using the configuration provided via stdin.

    Using —edit to modify objects before creation

    You can use kubectl create --edit to make arbitrary changes to an object before it is created. Here’s an example:

    1. The kubectl create service command creates the configuration for the Service and saves it to /tmp/srv.yaml.
    2. The kubectl create --edit command opens the configuration file for editing before it creates the object.

    What’s next

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