CLI tools
Learning how to use the command-line tools for OpenShift Container Platform
Abstract
Chapter 1. OpenShift Container Platform CLI tools overview
A user performs a range of operations while working on OpenShift Container Platform such as the following:
- Managing clusters
- Building, deploying, and managing applications
- Managing deployment processes
- Developing Operators
- Creating and maintaining Operator catalogs
OpenShift Container Platform offers a set of command-line interface (CLI) tools that simplify these tasks by enabling users to perform various administration and development operations from the terminal. These tools expose simple commands to manage the applications, as well as interact with each component of the system.
1.1. List of CLI tools
The following set of CLI tools are available in OpenShift Container Platform:
- OpenShift CLI (oc): This is the most commonly used CLI tool by OpenShift Container Platform users. It helps both cluster administrators and developers to perform end-to-end operations across OpenShift Container Platform using the terminal. Unlike the web console, it allows the user to work directly with the project source code using command scripts.
-
Knative CLI (kn): The Knative (
kn
) CLI tool provides simple and intuitive terminal commands that can be used to interact with OpenShift Serverless components, such as Knative Serving and Eventing. -
Pipelines CLI (tkn): OpenShift Pipelines is a continuous integration and continuous delivery (CI/CD) solution in OpenShift Container Platform, which internally uses Tekton. The
tkn
CLI tool provides simple and intuitive commands to interact with OpenShift Pipelines using the terminal. -
opm CLI: The
opm
CLI tool helps the Operator developers and cluster administrators to create and maintain the catalogs of Operators from the terminal. - Operator SDK: The Operator SDK, a component of the Operator Framework, provides a CLI tool that Operator developers can use to build, test, and deploy an Operator from the terminal. It simplifies the process of building Kubernetes-native applications, which can require deep, application-specific operational knowledge.
Chapter 2. OpenShift CLI (oc)
2.1. Getting started with the OpenShift CLI
2.1.1. About the OpenShift CLI
With the OpenShift command-line interface (CLI), the oc
command, you can create applications and manage OpenShift Container Platform projects from a terminal. The OpenShift CLI is ideal in the following situations:
- Working directly with project source code
- Scripting OpenShift Container Platform operations
- Managing projects while restricted by bandwidth resources and the web console is unavailable
2.1.2. Installing the OpenShift CLI
You can install the OpenShift CLI (oc
) either by downloading the binary or by using an RPM.
2.1.2.1. Installing the OpenShift CLI by downloading the binary
You can install the OpenShift CLI (oc
) to interact with OpenShift Container Platform from a command-line interface. You can install oc
on Linux, Windows, or macOS.
If you installed an earlier version of oc
, you cannot use it to complete all of the commands in OpenShift Container Platform 4.10. Download and install the new version of oc
.
Installing the OpenShift CLI on Linux
You can install the OpenShift CLI (oc
) binary on Linux by using the following procedure.
Procedure
- Navigate to the OpenShift Container Platform downloads page on the Red Hat Customer Portal.
- Select the appropriate version in the Version drop-down menu.
- Click Download Now next to the OpenShift v4.10 Linux Client entry and save the file.
Unpack the archive:
$ tar xvf <file>
Place the
oc
binary in a directory that is on yourPATH
.To check your
PATH
, execute the following command:$ echo $PATH
After you install the OpenShift CLI, it is available using the oc
command:
$ oc <command>
Installing the OpenShift CLI on Windows
You can install the OpenShift CLI (oc
) binary on Windows by using the following procedure.
Procedure
- Navigate to the OpenShift Container Platform downloads page on the Red Hat Customer Portal.
- Select the appropriate version in the Version drop-down menu.
- Click Download Now next to the OpenShift v4.10 Windows Client entry and save the file.
- Unzip the archive with a ZIP program.
Move the
oc
binary to a directory that is on yourPATH
.To check your
PATH
, open the command prompt and execute the following command:C:\> path
After you install the OpenShift CLI, it is available using the oc
command:
C:\> oc <command>
Installing the OpenShift CLI on macOS
You can install the OpenShift CLI (oc
) binary on macOS by using the following procedure.
Procedure
- Navigate to the OpenShift Container Platform downloads page on the Red Hat Customer Portal.
- Select the appropriate version in the Version drop-down menu.
- Click Download Now next to the OpenShift v4.10 MacOSX Client entry and save the file.
- Unpack and unzip the archive.
Move the
oc
binary to a directory on your PATH.To check your
PATH
, open a terminal and execute the following command:$ echo $PATH
After you install the OpenShift CLI, it is available using the oc
command:
$ oc <command>
2.1.2.2. Installing the OpenShift CLI by using the web console
You can install the OpenShift CLI (oc
) to interact with OpenShift Container Platform from a web console. You can install oc
on Linux, Windows, or macOS.
If you installed an earlier version of oc
, you cannot use it to complete all of the commands in OpenShift Container Platform 4.10. Download and install the new version of oc
.
2.1.2.2.1. Installing the OpenShift CLI on Linux using the web console
You can install the OpenShift CLI (oc
) binary on Linux by using the following procedure.
Procedure
From the web console, click ?.
Click Command Line Tools.
-
Select appropriate
oc
binary for your Linux platform, and then click Download oc for Linux. - Save the file.
Unpack the archive.
$ tar xvf <file>
Move the
oc
binary to a directory that is on yourPATH
.To check your
PATH
, execute the following command:$ echo $PATH
After you install the OpenShift CLI, it is available using the oc
command:
$ oc <command>
2.1.2.2.2. Installing the OpenShift CLI on Windows using the web console
You can install the OpenShift CLI (oc
) binary on Winndows by using the following procedure.
Procedure
From the web console, click ?.
Click Command Line Tools.
-
Select the
oc
binary for Windows platform, and then click Download oc for Windows for x86_64. - Save the file.
- Unzip the archive with a ZIP program.
Move the
oc
binary to a directory that is on yourPATH
.To check your
PATH
, open the command prompt and execute the following command:C:\> path
After you install the OpenShift CLI, it is available using the oc
command:
C:\> oc <command>
2.1.2.2.3. Installing the OpenShift CLI on macOS using the web console
You can install the OpenShift CLI (oc
) binary on macOS by using the following procedure.
Procedure
From the web console, click ?.
Click Command Line Tools.
-
Select the
oc
binary for macOS platform, and then click Download oc for Mac for x86_64. - Save the file.
- Unpack and unzip the archive.
Move the
oc
binary to a directory on your PATH.To check your
PATH
, open a terminal and execute the following command:$ echo $PATH
After you install the OpenShift CLI, it is available using the oc
command:
$ oc <command>
2.1.2.3. Installing the OpenShift CLI by using an RPM
For Red Hat Enterprise Linux (RHEL), you can install the OpenShift CLI (oc
) as an RPM if you have an active OpenShift Container Platform subscription on your Red Hat account.
Prerequisites
- Must have root or sudo privileges.
Procedure
Register with Red Hat Subscription Manager:
# subscription-manager register
Pull the latest subscription data:
# subscription-manager refresh
List the available subscriptions:
# subscription-manager list --available --matches '*OpenShift*'
In the output for the previous command, find the pool ID for an OpenShift Container Platform subscription and attach the subscription to the registered system:
# subscription-manager attach --pool=<pool_id>
Enable the repositories required by OpenShift Container Platform 4.10.
For Red Hat Enterprise Linux 8:
# subscription-manager repos --enable="rhocp-4.10-for-rhel-8-x86_64-rpms"
For Red Hat Enterprise Linux 7:
# subscription-manager repos --enable="rhel-7-server-ose-4.10-rpms"
Install the
openshift-clients
package:# yum install openshift-clients
After you install the CLI, it is available using the oc
command:
$ oc <command>
2.1.2.4. Installing the OpenShift CLI by using Homebrew
For macOS, you can install the OpenShift CLI (oc
) by using the Homebrew package manager.
Prerequisites
-
You must have Homebrew (
brew
) installed.
Procedure
Run the following command to install the openshift-cli package:
$ brew install openshift-cli
2.1.3. Logging in to the OpenShift CLI
You can log in to the OpenShift CLI (oc
) to access and manage your cluster.
Prerequisites
- You must have access to an OpenShift Container Platform cluster.
-
You must have installed the OpenShift CLI (
oc
).
To access a cluster that is accessible only over an HTTP proxy server, you can set the HTTP_PROXY
, HTTPS_PROXY
and NO_PROXY
variables. These environment variables are respected by the oc
CLI so that all communication with the cluster goes through the HTTP proxy.
Authentication headers are sent only when using HTTPS transport.
Procedure
Enter the
oc login
command and pass in a user name:$ oc login -u user1
When prompted, enter the required information:
Example output
Server [https://localhost:8443]: https://openshift.example.com:6443 1 The server uses a certificate signed by an unknown authority. You can bypass the certificate check, but any data you send to the server could be intercepted by others. Use insecure connections? (y/n): y 2 Authentication required for https://openshift.example.com:6443 (openshift) Username: user1 Password: 3 Login successful. You don't have any projects. You can try to create a new project, by running oc new-project <projectname> Welcome! See 'oc help' to get started.
If you are logged in to the web console, you can generate an oc login
command that includes your token and server information. You can use the command to log in to the OpenShift Container Platform CLI without the interactive prompts. To generate the command, select Copy login command from the username drop-down menu at the top right of the web console.
You can now create a project or issue other commands for managing your cluster.
2.1.4. Using the OpenShift CLI
Review the following sections to learn how to complete common tasks using the CLI.
2.1.4.1. Creating a project
Use the oc new-project
command to create a new project.
$ oc new-project my-project
Example output
Now using project "my-project" on server "https://openshift.example.com:6443".
2.1.4.2. Creating a new app
Use the oc new-app
command to create a new application.
$ oc new-app https://github.com/sclorg/cakephp-ex
Example output
--> Found image 40de956 (9 days old) in imagestream "openshift/php" under tag "7.2" for "php" ... Run 'oc status' to view your app.
2.1.4.3. Viewing pods
Use the oc get pods
command to view the pods for the current project.
When you run oc
inside a pod and do not specify a namespace, the namespace of the pod is used by default.
$ oc get pods -o wide
Example output
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE cakephp-ex-1-build 0/1 Completed 0 5m45s 10.131.0.10 ip-10-0-141-74.ec2.internal <none> cakephp-ex-1-deploy 0/1 Completed 0 3m44s 10.129.2.9 ip-10-0-147-65.ec2.internal <none> cakephp-ex-1-ktz97 1/1 Running 0 3m33s 10.128.2.11 ip-10-0-168-105.ec2.internal <none>
2.1.4.4. Viewing pod logs
Use the oc logs
command to view logs for a particular pod.
$ oc logs cakephp-ex-1-deploy
Example output
--> Scaling cakephp-ex-1 to 1 --> Success
2.1.4.5. Viewing the current project
Use the oc project
command to view the current project.
$ oc project
Example output
Using project "my-project" on server "https://openshift.example.com:6443".
2.1.4.6. Viewing the status for the current project
Use the oc status
command to view information about the current project, such as services, deployments, and build configs.
$ oc status
Example output
In project my-project on server https://openshift.example.com:6443 svc/cakephp-ex - 172.30.236.80 ports 8080, 8443 dc/cakephp-ex deploys istag/cakephp-ex:latest <- bc/cakephp-ex source builds https://github.com/sclorg/cakephp-ex on openshift/php:7.2 deployment #1 deployed 2 minutes ago - 1 pod 3 infos identified, use 'oc status --suggest' to see details.
2.1.4.7. Listing supported API resources
Use the oc api-resources
command to view the list of supported API resources on the server.
$ oc api-resources
Example output
NAME SHORTNAMES APIGROUP NAMESPACED KIND bindings true Binding componentstatuses cs false ComponentStatus configmaps cm true ConfigMap ...
2.1.5. Getting help
You can get help with CLI commands and OpenShift Container Platform resources in the following ways.
Use
oc help
to get a list and description of all available CLI commands:Example: Get general help for the CLI
$ oc help
Example output
OpenShift Client This client helps you develop, build, deploy, and run your applications on any OpenShift or Kubernetes compatible platform. It also includes the administrative commands for managing a cluster under the 'adm' subcommand. Usage: oc [flags] Basic Commands: login Log in to a server new-project Request a new project new-app Create a new application ...
Use the
--help
flag to get help about a specific CLI command:Example: Get help for the
oc create
command$ oc create --help
Example output
Create a resource by filename or stdin JSON and YAML formats are accepted. Usage: oc create -f FILENAME [flags] ...
Use the
oc explain
command to view the description and fields for a particular resource:Example: View documentation for the
Pod
resource$ oc explain pods
Example output
KIND: Pod VERSION: v1 DESCRIPTION: Pod is a collection of containers that can run on a host. This resource is created by clients and scheduled onto hosts. FIELDS: apiVersion <string> APIVersion defines the versioned schema of this representation of an object. Servers should convert recognized schemas to the latest internal value, and may reject unrecognized values. More info: https://git.k8s.io/community/contributors/devel/api-conventions.md#resources ...
2.1.6. Logging out of the OpenShift CLI
You can log out the OpenShift CLI to end your current session.
Use the
oc logout
command.$ oc logout
Example output
Logged "user1" out on "https://openshift.example.com"
This deletes the saved authentication token from the server and removes it from your configuration file.
2.2. Configuring the OpenShift CLI
2.2.1. Enabling tab completion
You can enable tab completion for the Bash or Zsh shells.
2.2.1.1. Enabling tab completion for Bash
After you install the OpenShift CLI (oc
), you can enable tab completion to automatically complete oc
commands or suggest options when you press Tab. The following procedure enables tab completion for the Bash shell.
Prerequisites
-
You must have the OpenShift CLI (
oc
) installed. -
You must have the package
bash-completion
installed.
Procedure
Save the Bash completion code to a file:
$ oc completion bash > oc_bash_completion
Copy the file to
/etc/bash_completion.d/
:$ sudo cp oc_bash_completion /etc/bash_completion.d/
You can also save the file to a local directory and source it from your
.bashrc
file instead.
Tab completion is enabled when you open a new terminal.
2.2.1.2. Enabling tab completion for Zsh
After you install the OpenShift CLI (oc
), you can enable tab completion to automatically complete oc
commands or suggest options when you press Tab. The following procedure enables tab completion for the Zsh shell.
Prerequisites
-
You must have the OpenShift CLI (
oc
) installed.
Procedure
To add tab completion for
oc
to your.zshrc
file, run the following command:$ cat >>~/.zshrc<<EOF if [ $commands[oc] ]; then source <(oc completion zsh) compdef _oc oc fi EOF
Tab completion is enabled when you open a new terminal.
2.3. Managing CLI profiles
A CLI configuration file allows you to configure different profiles, or contexts, for use with the CLI tools overview. A context consists of user authentication and OpenShift Container Platform server information associated with a nickname.
2.3.1. About switches between CLI profiles
Contexts allow you to easily switch between multiple users across multiple OpenShift Container Platform servers, or clusters, when using CLI operations. Nicknames make managing CLI configurations easier by providing short-hand references to contexts, user credentials, and cluster details. After logging in with the CLI for the first time, OpenShift Container Platform creates a ~/.kube/config
file if one does not already exist. As more authentication and connection details are provided to the CLI, either automatically during an oc login
operation or by manually configuring CLI profiles, the updated information is stored in the configuration file:
CLI config file
apiVersion: v1 clusters: 1 - cluster: insecure-skip-tls-verify: true server: https://openshift1.example.com:8443 name: openshift1.example.com:8443 - cluster: insecure-skip-tls-verify: true server: https://openshift2.example.com:8443 name: openshift2.example.com:8443 contexts: 2 - context: cluster: openshift1.example.com:8443 namespace: alice-project user: alice/openshift1.example.com:8443 name: alice-project/openshift1.example.com:8443/alice - context: cluster: openshift1.example.com:8443 namespace: joe-project user: alice/openshift1.example.com:8443 name: joe-project/openshift1/alice current-context: joe-project/openshift1.example.com:8443/alice 3 kind: Config preferences: {} users: 4 - name: alice/openshift1.example.com:8443 user: token: xZHd2piv5_9vQrg-SKXRJ2Dsl9SceNJdhNTljEKTb8k
- 1
- The
clusters
section defines connection details for OpenShift Container Platform clusters, including the address for their master server. In this example, one cluster is nicknamedopenshift1.example.com:8443
and another is nicknamedopenshift2.example.com:8443
. - 2
- This
contexts
section defines two contexts: one nicknamedalice-project/openshift1.example.com:8443/alice
, using thealice-project
project,openshift1.example.com:8443
cluster, andalice
user, and another nicknamedjoe-project/openshift1.example.com:8443/alice
, using thejoe-project
project,openshift1.example.com:8443
cluster andalice
user. - 3
- The
current-context
parameter shows that thejoe-project/openshift1.example.com:8443/alice
context is currently in use, allowing thealice
user to work in thejoe-project
project on theopenshift1.example.com:8443
cluster. - 4
- The
users
section defines user credentials. In this example, the user nicknamealice/openshift1.example.com:8443
uses an access token.
The CLI can support multiple configuration files which are loaded at runtime and merged together along with any override options specified from the command line. After you are logged in, you can use the oc status
or oc project
command to verify your current working environment:
Verify the current working environment
$ oc status
Example output
oc status In project Joe's Project (joe-project) service database (172.30.43.12:5434 -> 3306) database deploys docker.io/openshift/mysql-55-centos7:latest #1 deployed 25 minutes ago - 1 pod service frontend (172.30.159.137:5432 -> 8080) frontend deploys origin-ruby-sample:latest <- builds https://github.com/openshift/ruby-hello-world with joe-project/ruby-20-centos7:latest #1 deployed 22 minutes ago - 2 pods To see more information about a service or deployment, use 'oc describe service <name>' or 'oc describe dc <name>'. You can use 'oc get all' to see lists of each of the types described in this example.
List the current project
$ oc project
Example output
Using project "joe-project" from context named "joe-project/openshift1.example.com:8443/alice" on server "https://openshift1.example.com:8443".
You can run the oc login
command again and supply the required information during the interactive process, to log in using any other combination of user credentials and cluster details. A context is constructed based on the supplied information if one does not already exist. If you are already logged in and want to switch to another project the current user already has access to, use the oc project
command and enter the name of the project:
$ oc project alice-project
Example output
Now using project "alice-project" on server "https://openshift1.example.com:8443".
At any time, you can use the oc config view
command to view your current CLI configuration, as seen in the output. Additional CLI configuration commands are also available for more advanced usage.
If you have access to administrator credentials but are no longer logged in as the default system user system:admin
, you can log back in as this user at any time as long as the credentials are still present in your CLI config file. The following command logs in and switches to the default project:
$ oc login -u system:admin -n default
2.3.2. Manual configuration of CLI profiles
This section covers more advanced usage of CLI configurations. In most situations, you can use the oc login
and oc project
commands to log in and switch between contexts and projects.
If you want to manually configure your CLI config files, you can use the oc config
command instead of directly modifying the files. The oc config
command includes a number of helpful sub-commands for this purpose:
Subcommand | Usage |
---|---|
| Sets a cluster entry in the CLI config file. If the referenced cluster nickname already exists, the specified information is merged in. $ oc config set-cluster <cluster_nickname> [--server=<master_ip_or_fqdn>] [--certificate-authority=<path/to/certificate/authority>] [--api-version=<apiversion>] [--insecure-skip-tls-verify=true] |
| Sets a context entry in the CLI config file. If the referenced context nickname already exists, the specified information is merged in. $ oc config set-context <context_nickname> [--cluster=<cluster_nickname>] [--user=<user_nickname>] [--namespace=<namespace>] |
| Sets the current context using the specified context nickname. $ oc config use-context <context_nickname> |
| Sets an individual value in the CLI config file. $ oc config set <property_name> <property_value>
The |
| Unsets individual values in the CLI config file. $ oc config unset <property_name>
The |
| Displays the merged CLI configuration currently in use. $ oc config view Displays the result of the specified CLI config file. $ oc config view --config=<specific_filename> |
Example usage
-
Log in as a user that uses an access token. This token is used by the
alice
user:
$ oc login https://openshift1.example.com --token=ns7yVhuRNpDM9cgzfhhxQ7bM5s7N2ZVrkZepSRf4LC0
- View the cluster entry automatically created:
$ oc config view
Example output
apiVersion: v1 clusters: - cluster: insecure-skip-tls-verify: true server: https://openshift1.example.com name: openshift1-example-com contexts: - context: cluster: openshift1-example-com namespace: default user: alice/openshift1-example-com name: default/openshift1-example-com/alice current-context: default/openshift1-example-com/alice kind: Config preferences: {} users: - name: alice/openshift1.example.com user: token: ns7yVhuRNpDM9cgzfhhxQ7bM5s7N2ZVrkZepSRf4LC0
- Update the current context to have users log in to the desired namespace:
$ oc config set-context `oc config current-context` --namespace=<project_name>
- Examine the current context, to confirm that the changes are implemented:
$ oc whoami -c
All subsequent CLI operations uses the new context, unless otherwise specified by overriding CLI options or until the context is switched.
2.3.3. Load and merge rules
You can follow these rules, when issuing CLI operations for the loading and merging order for the CLI configuration:
CLI config files are retrieved from your workstation, using the following hierarchy and merge rules:
-
If the
--config
option is set, then only that file is loaded. The flag is set once and no merging takes place. -
If the
$KUBECONFIG
environment variable is set, then it is used. The variable can be a list of paths, and if so the paths are merged together. When a value is modified, it is modified in the file that defines the stanza. When a value is created, it is created in the first file that exists. If no files in the chain exist, then it creates the last file in the list. -
Otherwise, the
~/.kube/config
file is used and no merging takes place.
-
If the
The context to use is determined based on the first match in the following flow:
-
The value of the
--context
option. -
The
current-context
value from the CLI config file. - An empty value is allowed at this stage.
-
The value of the
The user and cluster to use is determined. At this point, you may or may not have a context; they are built based on the first match in the following flow, which is run once for the user and once for the cluster:
-
The value of the
--user
for user name and--cluster
option for cluster name. -
If the
--context
option is present, then use the context’s value. - An empty value is allowed at this stage.
-
The value of the
The actual cluster information to use is determined. At this point, you may or may not have cluster information. Each piece of the cluster information is built based on the first match in the following flow:
The values of any of the following command line options:
-
--server
, -
--api-version
-
--certificate-authority
-
--insecure-skip-tls-verify
-
- If cluster information and a value for the attribute is present, then use it.
- If you do not have a server location, then there is an error.
The actual user information to use is determined. Users are built using the same rules as clusters, except that you can only have one authentication technique per user; conflicting techniques cause the operation to fail. Command line options take precedence over config file values. Valid command line options are:
-
--auth-path
-
--client-certificate
-
--client-key
-
--token
-
- For any information that is still missing, default values are used and prompts are given for additional information.
2.4. Extending the OpenShift CLI with plugins
You can write and install plugins to build on the default oc
commands, allowing you to perform new and more complex tasks with the OpenShift Container Platform CLI.
2.4.1. Writing CLI plugins
You can write a plugin for the OpenShift Container Platform CLI in any programming language or script that allows you to write command-line commands. Note that you can not use a plugin to overwrite an existing oc
command.
Procedure
This procedure creates a simple Bash plugin that prints a message to the terminal when the oc foo
command is issued.
Create a file called
oc-foo
.When naming your plugin file, keep the following in mind:
-
The file must begin with
oc-
orkubectl-
to be recognized as a plugin. -
The file name determines the command that invokes the plugin. For example, a plugin with the file name
oc-foo-bar
can be invoked by a command ofoc foo bar
. You can also use underscores if you want the command to contain dashes. For example, a plugin with the file nameoc-foo_bar
can be invoked by a command ofoc foo-bar
.
-
The file must begin with
Add the following contents to the file.
#!/bin/bash # optional argument handling if [[ "$1" == "version" ]] then echo "1.0.0" exit 0 fi # optional argument handling if [[ "$1" == "config" ]] then echo $KUBECONFIG exit 0 fi echo "I am a plugin named kubectl-foo"
After you install this plugin for the OpenShift Container Platform CLI, it can be invoked using the oc foo
command.
Additional resources
- Review the Sample plugin repository for an example of a plugin written in Go.
- Review the CLI runtime repository for a set of utilities to assist in writing plugins in Go.
2.4.2. Installing and using CLI plugins
After you write a custom plugin for the OpenShift Container Platform CLI, you must install it to use the functionality that it provides.
Prerequisites
-
You must have the
oc
CLI tool installed. -
You must have a CLI plugin file that begins with
oc-
orkubectl-
.
Procedure
If necessary, update the plugin file to be executable.
$ chmod +x <plugin_file>
Place the file anywhere in your
PATH
, such as/usr/local/bin/
.$ sudo mv <plugin_file> /usr/local/bin/.
Run
oc plugin list
to make sure that the plugin is listed.$ oc plugin list
Example output
The following compatible plugins are available: /usr/local/bin/<plugin_file>
If your plugin is not listed here, verify that the file begins with
oc-
orkubectl-
, is executable, and is on yourPATH
.Invoke the new command or option introduced by the plugin.
For example, if you built and installed the
kubectl-ns
plugin from the Sample plugin repository, you can use the following command to view the current namespace.$ oc ns
Note that the command to invoke the plugin depends on the plugin file name. For example, a plugin with the file name of
oc-foo-bar
is invoked by theoc foo bar
command.
2.5. OpenShift CLI developer command reference
This reference provides descriptions and example commands for OpenShift CLI (oc
) developer commands. For administrator commands, see the OpenShift CLI administrator command reference.
Run oc help
to list all commands or run oc <command> --help
to get additional details for a specific command.
2.5.1. OpenShift CLI (oc) developer commands
2.5.1.1. oc annotate
Update the annotations on a resource
Example usage
# Update pod 'foo' with the annotation 'description' and the value 'my frontend' # If the same annotation is set multiple times, only the last value will be applied oc annotate pods foo description='my frontend' # Update a pod identified by type and name in "pod.json" oc annotate -f pod.json description='my frontend' # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value oc annotate --overwrite pods foo description='my frontend running nginx' # Update all pods in the namespace oc annotate pods --all description='my frontend running nginx' # Update pod 'foo' only if the resource is unchanged from version 1 oc annotate pods foo description='my frontend running nginx' --resource-version=1 # Update pod 'foo' by removing an annotation named 'description' if it exists # Does not require the --overwrite flag oc annotate pods foo description-
2.5.1.2. oc api-resources
Print the supported API resources on the server
Example usage
# Print the supported API resources oc api-resources # Print the supported API resources with more information oc api-resources -o wide # Print the supported API resources sorted by a column oc api-resources --sort-by=name # Print the supported namespaced resources oc api-resources --namespaced=true # Print the supported non-namespaced resources oc api-resources --namespaced=false # Print the supported API resources with a specific APIGroup oc api-resources --api-group=extensions
2.5.1.3. oc api-versions
Print the supported API versions on the server, in the form of "group/version"
Example usage
# Print the supported API versions oc api-versions
2.5.1.4. oc apply
Apply a configuration to a resource by file name or stdin
Example usage
# Apply the configuration in pod.json to a pod oc apply -f ./pod.json # Apply resources from a directory containing kustomization.yaml - e.g. dir/kustomization.yaml oc apply -k dir/ # Apply the JSON passed into stdin to a pod cat pod.json | oc apply -f - # Note: --prune is still in Alpha # Apply the configuration in manifest.yaml that matches label app=nginx and delete all other resources that are not in the file and match label app=nginx oc apply --prune -f manifest.yaml -l app=nginx # Apply the configuration in manifest.yaml and delete all the other config maps that are not in the file oc apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap
2.5.1.5. oc apply edit-last-applied
Edit latest last-applied-configuration annotations of a resource/object
Example usage
# Edit the last-applied-configuration annotations by type/name in YAML oc apply edit-last-applied deployment/nginx # Edit the last-applied-configuration annotations by file in JSON oc apply edit-last-applied -f deploy.yaml -o json
2.5.1.6. oc apply set-last-applied
Set the last-applied-configuration annotation on a live object to match the contents of a file
Example usage
# Set the last-applied-configuration of a resource to match the contents of a file oc apply set-last-applied -f deploy.yaml # Execute set-last-applied against each configuration file in a directory oc apply set-last-applied -f path/ # Set the last-applied-configuration of a resource to match the contents of a file; will create the annotation if it does not already exist oc apply set-last-applied -f deploy.yaml --create-annotation=true
2.5.1.7. oc apply view-last-applied
View the latest last-applied-configuration annotations of a resource/object
Example usage
# View the last-applied-configuration annotations by type/name in YAML oc apply view-last-applied deployment/nginx # View the last-applied-configuration annotations by file in JSON oc apply view-last-applied -f deploy.yaml -o json
2.5.1.8. oc attach
Attach to a running container
Example usage
# Get output from running pod mypod; use the 'oc.kubernetes.io/default-container' annotation # for selecting the container to be attached or the first container in the pod will be chosen oc attach mypod # Get output from ruby-container from pod mypod oc attach mypod -c ruby-container # Switch to raw terminal mode; sends stdin to 'bash' in ruby-container from pod mypod # and sends stdout/stderr from 'bash' back to the client oc attach mypod -c ruby-container -i -t # Get output from the first pod of a replica set named nginx oc attach rs/nginx
2.5.1.9. oc auth can-i
Check whether an action is allowed
Example usage
# Check to see if I can create pods in any namespace oc auth can-i create pods --all-namespaces # Check to see if I can list deployments in my current namespace oc auth can-i list deployments.apps # Check to see if I can do everything in my current namespace ("*" means all) oc auth can-i '*' '*' # Check to see if I can get the job named "bar" in namespace "foo" oc auth can-i list jobs.batch/bar -n foo # Check to see if I can read pod logs oc auth can-i get pods --subresource=log # Check to see if I can access the URL /logs/ oc auth can-i get /logs/ # List all allowed actions in namespace "foo" oc auth can-i --list --namespace=foo
2.5.1.10. oc auth reconcile
Reconciles rules for RBAC role, role binding, cluster role, and cluster role binding objects
Example usage
# Reconcile RBAC resources from a file oc auth reconcile -f my-rbac-rules.yaml
2.5.1.11. oc autoscale
Autoscale a deployment config, deployment, replica set, stateful set, or replication controller
Example usage
# Auto scale a deployment "foo", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used oc autoscale deployment foo --min=2 --max=10 # Auto scale a replication controller "foo", with the number of pods between 1 and 5, target CPU utilization at 80% oc autoscale rc foo --max=5 --cpu-percent=80
2.5.1.12. oc cancel-build
Cancel running, pending, or new builds
Example usage
# Cancel the build with the given name oc cancel-build ruby-build-2 # Cancel the named build and print the build logs oc cancel-build ruby-build-2 --dump-logs # Cancel the named build and create a new one with the same parameters oc cancel-build ruby-build-2 --restart # Cancel multiple builds oc cancel-build ruby-build-1 ruby-build-2 ruby-build-3 # Cancel all builds created from the 'ruby-build' build config that are in the 'new' state oc cancel-build bc/ruby-build --state=new
2.5.1.13. oc cluster-info
Display cluster information
Example usage
# Print the address of the control plane and cluster services oc cluster-info
2.5.1.14. oc cluster-info dump
Dump relevant information for debugging and diagnosis
Example usage
# Dump current cluster state to stdout oc cluster-info dump # Dump current cluster state to /path/to/cluster-state oc cluster-info dump --output-directory=/path/to/cluster-state # Dump all namespaces to stdout oc cluster-info dump --all-namespaces # Dump a set of namespaces to /path/to/cluster-state oc cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state
2.5.1.15. oc completion
Output shell completion code for the specified shell (bash, zsh or fish)
Example usage
# Installing bash completion on macOS using homebrew ## If running Bash 3.2 included with macOS brew install bash-completion ## or, if running Bash 4.1+ brew install bash-completion@2 ## If oc is installed via homebrew, this should start working immediately ## If you've installed via other means, you may need add the completion to your completion directory oc completion bash > $(brew --prefix)/etc/bash_completion.d/oc # Installing bash completion on Linux ## If bash-completion is not installed on Linux, install the 'bash-completion' package ## via your distribution's package manager. ## Load the oc completion code for bash into the current shell source <(oc completion bash) ## Write bash completion code to a file and source it from .bash_profile oc completion bash > ~/.kube/completion.bash.inc printf " # Kubectl shell completion source '$HOME/.kube/completion.bash.inc' " >> $HOME/.bash_profile source $HOME/.bash_profile # Load the oc completion code for zsh[1] into the current shell source <(oc completion zsh) # Set the oc completion code for zsh[1] to autoload on startup oc completion zsh > "${fpath[1]}/_oc" # Load the oc completion code for fish[2] into the current shell oc completion fish | source # To load completions for each session, execute once: oc completion fish > ~/.config/fish/completions/oc.fish # Load the oc completion code for powershell into the current shell oc completion powershell | Out-String | Invoke-Expression # Set oc completion code for powershell to run on startup ## Save completion code to a script and execute in the profile oc completion powershell > $HOME\.kube\completion.ps1 Add-Content $PROFILE "$HOME\.kube\completion.ps1" ## Execute completion code in the profile Add-Content $PROFILE "if (Get-Command oc -ErrorAction SilentlyContinue) { oc completion powershell | Out-String | Invoke-Expression }" ## Add completion code directly to the $PROFILE script oc completion powershell >> $PROFILE
2.5.1.16. oc config current-context
Display the current-context
Example usage
# Display the current-context oc config current-context
2.5.1.17. oc config delete-cluster
Delete the specified cluster from the kubeconfig
Example usage
# Delete the minikube cluster oc config delete-cluster minikube
2.5.1.18. oc config delete-context
Delete the specified context from the kubeconfig
Example usage
# Delete the context for the minikube cluster oc config delete-context minikube
2.5.1.19. oc config delete-user
Delete the specified user from the kubeconfig
Example usage
# Delete the minikube user oc config delete-user minikube
2.5.1.20. oc config get-clusters
Display clusters defined in the kubeconfig
Example usage
# List the clusters that oc knows about oc config get-clusters
2.5.1.21. oc config get-contexts
Describe one or many contexts
Example usage
# List all the contexts in your kubeconfig file oc config get-contexts # Describe one context in your kubeconfig file oc config get-contexts my-context
2.5.1.22. oc config get-users
Display users defined in the kubeconfig
Example usage
# List the users that oc knows about oc config get-users
2.5.1.23. oc config rename-context
Rename a context from the kubeconfig file
Example usage
# Rename the context 'old-name' to 'new-name' in your kubeconfig file oc config rename-context old-name new-name
2.5.1.24. oc config set
Set an individual value in a kubeconfig file
Example usage
# Set the server field on the my-cluster cluster to https://1.2.3.4 oc config set clusters.my-cluster.server https://1.2.3.4 # Set the certificate-authority-data field on the my-cluster cluster oc config set clusters.my-cluster.certificate-authority-data $(echo "cert_data_here" | base64 -i -) # Set the cluster field in the my-context context to my-cluster oc config set contexts.my-context.cluster my-cluster # Set the client-key-data field in the cluster-admin user using --set-raw-bytes option oc config set users.cluster-admin.client-key-data cert_data_here --set-raw-bytes=true
2.5.1.25. oc config set-cluster
Set a cluster entry in kubeconfig
Example usage
# Set only the server field on the e2e cluster entry without touching other values oc config set-cluster e2e --server=https://1.2.3.4 # Embed certificate authority data for the e2e cluster entry oc config set-cluster e2e --embed-certs --certificate-authority=~/.kube/e2e/kubernetes.ca.crt # Disable cert checking for the dev cluster entry oc config set-cluster e2e --insecure-skip-tls-verify=true # Set custom TLS server name to use for validation for the e2e cluster entry oc config set-cluster e2e --tls-server-name=my-cluster-name
2.5.1.26. oc config set-context
Set a context entry in kubeconfig
Example usage
# Set the user field on the gce context entry without touching other values oc config set-context gce --user=cluster-admin
2.5.1.27. oc config set-credentials
Set a user entry in kubeconfig
Example usage
# Set only the "client-key" field on the "cluster-admin" # entry, without touching other values oc config set-credentials cluster-admin --client-key=~/.kube/admin.key # Set basic auth for the "cluster-admin" entry oc config set-credentials cluster-admin --username=admin --password=uXFGweU9l35qcif # Embed client certificate data in the "cluster-admin" entry oc config set-credentials cluster-admin --client-certificate=~/.kube/admin.crt --embed-certs=true # Enable the Google Compute Platform auth provider for the "cluster-admin" entry oc config set-credentials cluster-admin --auth-provider=gcp # Enable the OpenID Connect auth provider for the "cluster-admin" entry with additional args oc config set-credentials cluster-admin --auth-provider=oidc --auth-provider-arg=client-id=foo --auth-provider-arg=client-secret=bar # Remove the "client-secret" config value for the OpenID Connect auth provider for the "cluster-admin" entry oc config set-credentials cluster-admin --auth-provider=oidc --auth-provider-arg=client-secret- # Enable new exec auth plugin for the "cluster-admin" entry oc config set-credentials cluster-admin --exec-command=/path/to/the/executable --exec-api-version=client.authentication.k8s.io/v1beta1 # Define new exec auth plugin args for the "cluster-admin" entry oc config set-credentials cluster-admin --exec-arg=arg1 --exec-arg=arg2 # Create or update exec auth plugin environment variables for the "cluster-admin" entry oc config set-credentials cluster-admin --exec-env=key1=val1 --exec-env=key2=val2 # Remove exec auth plugin environment variables for the "cluster-admin" entry oc config set-credentials cluster-admin --exec-env=var-to-remove-
2.5.1.28. oc config unset
Unset an individual value in a kubeconfig file
Example usage
# Unset the current-context oc config unset current-context # Unset namespace in foo context oc config unset contexts.foo.namespace
2.5.1.29. oc config use-context
Set the current-context in a kubeconfig file
Example usage
# Use the context for the minikube cluster oc config use-context minikube
2.5.1.30. oc config view
Display merged kubeconfig settings or a specified kubeconfig file
Example usage
# Show merged kubeconfig settings oc config view # Show merged kubeconfig settings and raw certificate data oc config view --raw # Get the password for the e2e user oc config view -o jsonpath='{.users[?(@.name == "e2e")].user.password}'
2.5.1.31. oc cp
Copy files and directories to and from containers
Example usage
# !!!Important Note!!! # Requires that the 'tar' binary is present in your container # image. If 'tar' is not present, 'oc cp' will fail. # # For advanced use cases, such as symlinks, wildcard expansion or # file mode preservation, consider using 'oc exec'. # Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace <some-namespace> tar cf - /tmp/foo | oc exec -i -n <some-namespace> <some-pod> -- tar xf - -C /tmp/bar # Copy /tmp/foo from a remote pod to /tmp/bar locally oc exec -n <some-namespace> <some-pod> -- tar cf - /tmp/foo | tar xf - -C /tmp/bar # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace oc cp /tmp/foo_dir <some-pod>:/tmp/bar_dir # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container oc cp /tmp/foo <some-pod>:/tmp/bar -c <specific-container> # Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace <some-namespace> oc cp /tmp/foo <some-namespace>/<some-pod>:/tmp/bar # Copy /tmp/foo from a remote pod to /tmp/bar locally oc cp <some-namespace>/<some-pod>:/tmp/foo /tmp/bar
2.5.1.32. oc create
Create a resource from a file or from stdin
Example usage
# Create a pod using the data in pod.json oc create -f ./pod.json # Create a pod based on the JSON passed into stdin cat pod.json | oc create -f - # Edit the data in docker-registry.yaml in JSON then create the resource using the edited data oc create -f docker-registry.yaml --edit -o json
2.5.1.33. oc create build
Create a new build
Example usage
# Create a new build oc create build myapp
2.5.1.34. oc create clusterresourcequota
Create a cluster resource quota
Example usage
# Create a cluster resource quota limited to 10 pods oc create clusterresourcequota limit-bob --project-annotation-selector=openshift.io/requester=user-bob --hard=pods=10
2.5.1.35. oc create clusterrole
Create a cluster role
Example usage
# Create a cluster role named "pod-reader" that allows user to perform "get", "watch" and "list" on pods oc create clusterrole pod-reader --verb=get,list,watch --resource=pods # Create a cluster role named "pod-reader" with ResourceName specified oc create clusterrole pod-reader --verb=get --resource=pods --resource-name=readablepod --resource-name=anotherpod # Create a cluster role named "foo" with API Group specified oc create clusterrole foo --verb=get,list,watch --resource=rs.extensions # Create a cluster role named "foo" with SubResource specified oc create clusterrole foo --verb=get,list,watch --resource=pods,pods/status # Create a cluster role name "foo" with NonResourceURL specified oc create clusterrole "foo" --verb=get --non-resource-url=/logs/* # Create a cluster role name "monitoring" with AggregationRule specified oc create clusterrole monitoring --aggregation-rule="rbac.example.com/aggregate-to-monitoring=true"
2.5.1.36. oc create clusterrolebinding
Create a cluster role binding for a particular cluster role
Example usage
# Create a cluster role binding for user1, user2, and group1 using the cluster-admin cluster role oc create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1
2.5.1.37. oc create configmap
Create a config map from a local file, directory or literal value
Example usage
# Create a new config map named my-config based on folder bar oc create configmap my-config --from-file=path/to/bar # Create a new config map named my-config with specified keys instead of file basenames on disk oc create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt # Create a new config map named my-config with key1=config1 and key2=config2 oc create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2 # Create a new config map named my-config from the key=value pairs in the file oc create configmap my-config --from-file=path/to/bar # Create a new config map named my-config from an env file oc create configmap my-config --from-env-file=path/to/foo.env --from-env-file=path/to/bar.env
2.5.1.38. oc create cronjob
Create a cron job with the specified name
Example usage
# Create a cron job oc create cronjob my-job --image=busybox --schedule="*/1 * * * *" # Create a cron job with a command oc create cronjob my-job --image=busybox --schedule="*/1 * * * *" -- date
2.5.1.39. oc create deployment
Create a deployment with the specified name
Example usage
# Create a deployment named my-dep that runs the busybox image oc create deployment my-dep --image=busybox # Create a deployment with a command oc create deployment my-dep --image=busybox -- date # Create a deployment named my-dep that runs the nginx image with 3 replicas oc create deployment my-dep --image=nginx --replicas=3 # Create a deployment named my-dep that runs the busybox image and expose port 5701 oc create deployment my-dep --image=busybox --port=5701
2.5.1.40. oc create deploymentconfig
Create a deployment config with default options that uses a given image
Example usage
# Create an nginx deployment config named my-nginx oc create deploymentconfig my-nginx --image=nginx
2.5.1.41. oc create identity
Manually create an identity (only needed if automatic creation is disabled)
Example usage
# Create an identity with identity provider "acme_ldap" and the identity provider username "adamjones" oc create identity acme_ldap:adamjones
2.5.1.42. oc create imagestream
Create a new empty image stream
Example usage
# Create a new image stream oc create imagestream mysql
2.5.1.43. oc create imagestreamtag
Create a new image stream tag
Example usage
# Create a new image stream tag based on an image in a remote registry oc create imagestreamtag mysql:latest --from-image=myregistry.local/mysql/mysql:5.0
2.5.1.44. oc create ingress
Create an ingress with the specified name
Example usage
# Create a single ingress called 'simple' that directs requests to foo.com/bar to svc # svc1:8080 with a tls secret "my-cert" oc create ingress simple --rule="foo.com/bar=svc1:8080,tls=my-cert" # Create a catch all ingress of "/path" pointing to service svc:port and Ingress Class as "otheringress" oc create ingress catch-all --class=otheringress --rule="/path=svc:port" # Create an ingress with two annotations: ingress.annotation1 and ingress.annotations2 oc create ingress annotated --class=default --rule="foo.com/bar=svc:port" \ --annotation ingress.annotation1=foo \ --annotation ingress.annotation2=bla # Create an ingress with the same host and multiple paths oc create ingress multipath --class=default \ --rule="foo.com/=svc:port" \ --rule="foo.com/admin/=svcadmin:portadmin" # Create an ingress with multiple hosts and the pathType as Prefix oc create ingress ingress1 --class=default \ --rule="foo.com/path*=svc:8080" \ --rule="bar.com/admin*=svc2:http" # Create an ingress with TLS enabled using the default ingress certificate and different path types oc create ingress ingtls --class=default \ --rule="foo.com/=svc:https,tls" \ --rule="foo.com/path/subpath*=othersvc:8080" # Create an ingress with TLS enabled using a specific secret and pathType as Prefix oc create ingress ingsecret --class=default \ --rule="foo.com/*=svc:8080,tls=secret1" # Create an ingress with a default backend oc create ingress ingdefault --class=default \ --default-backend=defaultsvc:http \ --rule="foo.com/*=svc:8080,tls=secret1"
2.5.1.45. oc create job
Create a job with the specified name
Example usage
# Create a job oc create job my-job --image=busybox # Create a job with a command oc create job my-job --image=busybox -- date # Create a job from a cron job named "a-cronjob" oc create job test-job --from=cronjob/a-cronjob
2.5.1.46. oc create namespace
Create a namespace with the specified name
Example usage
# Create a new namespace named my-namespace oc create namespace my-namespace
2.5.1.47. oc create poddisruptionbudget
Create a pod disruption budget with the specified name
Example usage
# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label # and require at least one of them being available at any point in time oc create poddisruptionbudget my-pdb --selector=app=rails --min-available=1 # Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label # and require at least half of the pods selected to be available at any point in time oc create pdb my-pdb --selector=app=nginx --min-available=50%
2.5.1.48. oc create priorityclass
Create a priority class with the specified name
Example usage
# Create a priority class named high-priority oc create priorityclass high-priority --value=1000 --description="high priority" # Create a priority class named default-priority that is considered as the global default priority oc create priorityclass default-priority --value=1000 --global-default=true --description="default priority" # Create a priority class named high-priority that cannot preempt pods with lower priority oc create priorityclass high-priority --value=1000 --description="high priority" --preemption-policy="Never"
2.5.1.49. oc create quota
Create a quota with the specified name
Example usage
# Create a new resource quota named my-quota oc create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10 # Create a new resource quota named best-effort oc create quota best-effort --hard=pods=100 --scopes=BestEffort
2.5.1.50. oc create role
Create a role with single rule
Example usage
# Create a role named "pod-reader" that allows user to perform "get", "watch" and "list" on pods oc create role pod-reader --verb=get --verb=list --verb=watch --resource=pods # Create a role named "pod-reader" with ResourceName specified oc create role pod-reader --verb=get --resource=pods --resource-name=readablepod --resource-name=anotherpod # Create a role named "foo" with API Group specified oc create role foo --verb=get,list,watch --resource=rs.extensions # Create a role named "foo" with SubResource specified oc create role foo --verb=get,list,watch --resource=pods,pods/status
2.5.1.51. oc create rolebinding
Create a role binding for a particular role or cluster role
Example usage
# Create a role binding for user1, user2, and group1 using the admin cluster role oc create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1
2.5.1.52. oc create route edge
Create a route that uses edge TLS termination
Example usage
# Create an edge route named "my-route" that exposes the frontend service oc create route edge my-route --service=frontend # Create an edge route that exposes the frontend service and specify a path # If the route name is omitted, the service name will be used oc create route edge --service=frontend --path /assets
2.5.1.53. oc create route passthrough
Create a route that uses passthrough TLS termination
Example usage
# Create a passthrough route named "my-route" that exposes the frontend service oc create route passthrough my-route --service=frontend # Create a passthrough route that exposes the frontend service and specify # a host name. If the route name is omitted, the service name will be used oc create route passthrough --service=frontend --hostname=www.example.com
2.5.1.54. oc create route reencrypt
Create a route that uses reencrypt TLS termination
Example usage
# Create a route named "my-route" that exposes the frontend service oc create route reencrypt my-route --service=frontend --dest-ca-cert cert.cert # Create a reencrypt route that exposes the frontend service, letting the # route name default to the service name and the destination CA certificate # default to the service CA oc create route reencrypt --service=frontend
2.5.1.55. oc create secret docker-registry
Create a secret for use with a Docker registry
Example usage
# If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using: oc create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL # Create a new secret named my-secret from ~/.docker/config.json oc create secret docker-registry my-secret --from-file=.dockerconfigjson=path/to/.docker/config.json
2.5.1.56. oc create secret generic
Create a secret from a local file, directory, or literal value
Example usage
# Create a new secret named my-secret with keys for each file in folder bar oc create secret generic my-secret --from-file=path/to/bar # Create a new secret named my-secret with specified keys instead of names on disk oc create secret generic my-secret --from-file=ssh-privatekey=path/to/id_rsa --from-file=ssh-publickey=path/to/id_rsa.pub # Create a new secret named my-secret with key1=supersecret and key2=topsecret oc create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret # Create a new secret named my-secret using a combination of a file and a literal oc create secret generic my-secret --from-file=ssh-privatekey=path/to/id_rsa --from-literal=passphrase=topsecret # Create a new secret named my-secret from env files oc create secret generic my-secret --from-env-file=path/to/foo.env --from-env-file=path/to/bar.env
2.5.1.57. oc create secret tls
Create a TLS secret
Example usage
# Create a new TLS secret named tls-secret with the given key pair oc create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key
2.5.1.58. oc create service clusterip
Create a ClusterIP service
Example usage
# Create a new ClusterIP service named my-cs oc create service clusterip my-cs --tcp=5678:8080 # Create a new ClusterIP service named my-cs (in headless mode) oc create service clusterip my-cs --clusterip="None"
2.5.1.59. oc create service externalname
Create an ExternalName service
Example usage
# Create a new ExternalName service named my-ns oc create service externalname my-ns --external-name bar.com
2.5.1.60. oc create service loadbalancer
Create a LoadBalancer service
Example usage
# Create a new LoadBalancer service named my-lbs oc create service loadbalancer my-lbs --tcp=5678:8080
2.5.1.61. oc create service nodeport
Create a NodePort service
Example usage
# Create a new NodePort service named my-ns oc create service nodeport my-ns --tcp=5678:8080
2.5.1.62. oc create serviceaccount
Create a service account with the specified name
Example usage
# Create a new service account named my-service-account oc create serviceaccount my-service-account
2.5.1.63. oc create user
Manually create a user (only needed if automatic creation is disabled)
Example usage
# Create a user with the username "ajones" and the display name "Adam Jones" oc create user ajones --full-name="Adam Jones"
2.5.1.64. oc create useridentitymapping
Manually map an identity to a user
Example usage
# Map the identity "acme_ldap:adamjones" to the user "ajones" oc create useridentitymapping acme_ldap:adamjones ajones
2.5.1.65. oc debug
Launch a new instance of a pod for debugging
Example usage
# Start a shell session into a pod using the OpenShift tools image oc debug # Debug a currently running deployment by creating a new pod oc debug deploy/test # Debug a node as an administrator oc debug node/master-1 # Launch a shell in a pod using the provided image stream tag oc debug istag/mysql:latest -n openshift # Test running a job as a non-root user oc debug job/test --as-user=1000000 # Debug a specific failing container by running the env command in the 'second' container oc debug daemonset/test -c second -- /bin/env # See the pod that would be created to debug oc debug mypod-9xbc -o yaml # Debug a resource but launch the debug pod in another namespace # Note: Not all resources can be debugged using --to-namespace without modification. For example, # volumes and service accounts are namespace-dependent. Add '-o yaml' to output the debug pod definition # to disk. If necessary, edit the definition then run 'oc debug -f -' or run without --to-namespace oc debug mypod-9xbc --to-namespace testns
2.5.1.66. oc delete
Delete resources by file names, stdin, resources and names, or by resources and label selector
Example usage
# Delete a pod using the type and name specified in pod.json oc delete -f ./pod.json # Delete resources from a directory containing kustomization.yaml - e.g. dir/kustomization.yaml oc delete -k dir # Delete a pod based on the type and name in the JSON passed into stdin cat pod.json | oc delete -f - # Delete pods and services with same names "baz" and "foo" oc delete pod,service baz foo # Delete pods and services with label name=myLabel oc delete pods,services -l name=myLabel # Delete a pod with minimal delay oc delete pod foo --now # Force delete a pod on a dead node oc delete pod foo --force # Delete all pods oc delete pods --all
2.5.1.67. oc describe
Show details of a specific resource or group of resources
Example usage
# Describe a node oc describe nodes kubernetes-node-emt8.c.myproject.internal # Describe a pod oc describe pods/nginx # Describe a pod identified by type and name in "pod.json" oc describe -f pod.json # Describe all pods oc describe pods # Describe pods by label name=myLabel oc describe po -l name=myLabel # Describe all pods managed by the 'frontend' replication controller # (rc-created pods get the name of the rc as a prefix in the pod name) oc describe pods frontend
2.5.1.68. oc diff
Diff the live version against a would-be applied version
Example usage
# Diff resources included in pod.json oc diff -f pod.json # Diff file read from stdin cat service.yaml | oc diff -f -
2.5.1.69. oc edit
Edit a resource on the server
Example usage
# Edit the service named 'docker-registry' oc edit svc/docker-registry # Use an alternative editor KUBE_EDITOR="nano" oc edit svc/docker-registry # Edit the job 'myjob' in JSON using the v1 API format oc edit job.v1.batch/myjob -o json # Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation oc edit deployment/mydeployment -o yaml --save-config
2.5.1.70. oc exec
Execute a command in a container
Example usage
# Get output from running the 'date' command from pod mypod, using the first container by default oc exec mypod -- date # Get output from running the 'date' command in ruby-container from pod mypod oc exec mypod -c ruby-container -- date # Switch to raw terminal mode; sends stdin to 'bash' in ruby-container from pod mypod # and sends stdout/stderr from 'bash' back to the client oc exec mypod -c ruby-container -i -t -- bash -il # List contents of /usr from the first container of pod mypod and sort by modification time # If the command you want to execute in the pod has any flags in common (e.g. -i), # you must use two dashes (--) to separate your command's flags/arguments # Also note, do not surround your command and its flags/arguments with quotes # unless that is how you would execute it normally (i.e., do ls -t /usr, not "ls -t /usr") oc exec mypod -i -t -- ls -t /usr # Get output from running 'date' command from the first pod of the deployment mydeployment, using the first container by default oc exec deploy/mydeployment -- date # Get output from running 'date' command from the first pod of the service myservice, using the first container by default oc exec svc/myservice -- date
2.5.1.71. oc explain
Get documentation for a resource
Example usage
# Get the documentation of the resource and its fields oc explain pods # Get the documentation of a specific field of a resource oc explain pods.spec.containers
2.5.1.72. oc expose
Expose a replicated application as a service or route
Example usage
# Create a route based on service nginx. The new route will reuse nginx's labels oc expose service nginx # Create a route and specify your own label and route name oc expose service nginx -l name=myroute --name=fromdowntown # Create a route and specify a host name oc expose service nginx --hostname=www.example.com # Create a route with a wildcard oc expose service nginx --hostname=x.example.com --wildcard-policy=Subdomain # This would be equivalent to *.example.com. NOTE: only hosts are matched by the wildcard; subdomains would not be included # Expose a deployment configuration as a service and use the specified port oc expose dc ruby-hello-world --port=8080 # Expose a service as a route in the specified path oc expose service nginx --path=/nginx # Expose a service using different generators oc expose service nginx --name=exposed-svc --port=12201 --protocol="TCP" --generator="service/v2" oc expose service nginx --name=my-route --port=12201 --generator="route/v1" # Exposing a service using the "route/v1" generator (default) will create a new exposed route with the "--name" provided # (or the name of the service otherwise). You may not specify a "--protocol" or "--target-port" option when using this generator
2.5.1.73. oc extract
Extract secrets or config maps to disk
Example usage
# Extract the secret "test" to the current directory oc extract secret/test # Extract the config map "nginx" to the /tmp directory oc extract configmap/nginx --to=/tmp # Extract the config map "nginx" to STDOUT oc extract configmap/nginx --to=- # Extract only the key "nginx.conf" from config map "nginx" to the /tmp directory oc extract configmap/nginx --to=/tmp --keys=nginx.conf
2.5.1.74. oc get
Display one or many resources
Example usage
# List all pods in ps output format oc get pods # List all pods in ps output format with more information (such as node name) oc get pods -o wide # List a single replication controller with specified NAME in ps output format oc get replicationcontroller web # List deployments in JSON output format, in the "v1" version of the "apps" API group oc get deployments.v1.apps -o json # List a single pod in JSON output format oc get -o json pod web-pod-13je7 # List a pod identified by type and name specified in "pod.yaml" in JSON output format oc get -f pod.yaml -o json # List resources from a directory with kustomization.yaml - e.g. dir/kustomization.yaml oc get -k dir/ # Return only the phase value of the specified pod oc get -o template pod/web-pod-13je7 --template={{.status.phase}} # List resource information in custom columns oc get pod test-pod -o custom-columns=CONTAINER:.spec.containers[0].name,IMAGE:.spec.containers[0].image # List all replication controllers and services together in ps output format oc get rc,services # List one or more resources by their type and names oc get rc/web service/frontend pods/web-pod-13je7
2.5.1.75. oc idle
Idle scalable resources
Example usage
# Idle the scalable controllers associated with the services listed in to-idle.txt $ oc idle --resource-names-file to-idle.txt
2.5.1.76. oc image append
Add layers to images and push them to a registry
Example usage
# Remove the entrypoint on the mysql:latest image oc image append --from mysql:latest --to myregistry.com/myimage:latest --image '{"Entrypoint":null}' # Add a new layer to the image oc image append --from mysql:latest --to myregistry.com/myimage:latest layer.tar.gz # Add a new layer to the image and store the result on disk # This results in $(pwd)/v2/mysql/blobs,manifests oc image append --from mysql:latest --to file://mysql:local layer.tar.gz # Add a new layer to the image and store the result on disk in a designated directory # This will result in $(pwd)/mysql-local/v2/mysql/blobs,manifests oc image append --from mysql:latest --to file://mysql:local --dir mysql-local layer.tar.gz # Add a new layer to an image that is stored on disk (~/mysql-local/v2/image exists) oc image append --from-dir ~/mysql-local --to myregistry.com/myimage:latest layer.tar.gz # Add a new layer to an image that was mirrored to the current directory on disk ($(pwd)/v2/image exists) oc image append --from-dir v2 --to myregistry.com/myimage:latest layer.tar.gz # Add a new layer to a multi-architecture image for an os/arch that is different from the system's os/arch # Note: Wildcard filter is not supported with append. Pass a single os/arch to append oc image append --from docker.io/library/busybox:latest --filter-by-os=linux/s390x --to myregistry.com/myimage:latest layer.tar.gz
2.5.1.77. oc image extract
Copy files from an image to the file system
Example usage
# Extract the busybox image into the current directory oc image extract docker.io/library/busybox:latest # Extract the busybox image into a designated directory (must exist) oc image extract docker.io/library/busybox:latest --path /:/tmp/busybox # Extract the busybox image into the current directory for linux/s390x platform # Note: Wildcard filter is not supported with extract. Pass a single os/arch to extract oc image extract docker.io/library/busybox:latest --filter-by-os=linux/s390x # Extract a single file from the image into the current directory oc image extract docker.io/library/centos:7 --path /bin/bash:. # Extract all .repo files from the image's /etc/yum.repos.d/ folder into the current directory oc image extract docker.io/library/centos:7 --path /etc/yum.repos.d/*.repo:. # Extract all .repo files from the image's /etc/yum.repos.d/ folder into a designated directory (must exist) # This results in /tmp/yum.repos.d/*.repo on local system oc image extract docker.io/library/centos:7 --path /etc/yum.repos.d/*.repo:/tmp/yum.repos.d # Extract an image stored on disk into the current directory ($(pwd)/v2/busybox/blobs,manifests exists) # --confirm is required because the current directory is not empty oc image extract file://busybox:local --confirm # Extract an image stored on disk in a directory other than $(pwd)/v2 into the current directory # --confirm is required because the current directory is not empty ($(pwd)/busybox-mirror-dir/v2/busybox exists) oc image extract file://busybox:local --dir busybox-mirror-dir --confirm # Extract an image stored on disk in a directory other than $(pwd)/v2 into a designated directory (must exist) oc image extract file://busybox:local --dir busybox-mirror-dir --path /:/tmp/busybox # Extract the last layer in the image oc image extract docker.io/library/centos:7[-1] # Extract the first three layers of the image oc image extract docker.io/library/centos:7[:3] # Extract the last three layers of the image oc image extract docker.io/library/centos:7[-3:]
2.5.1.78. oc image info
Display information about an image
Example usage
# Show information about an image oc image info quay.io/openshift/cli:latest # Show information about images matching a wildcard oc image info quay.io/openshift/cli:4.* # Show information about a file mirrored to disk under DIR oc image info --dir=DIR file://library/busybox:latest # Select which image from a multi-OS image to show oc image info library/busybox:latest --filter-by-os=linux/arm64
2.5.1.79. oc image mirror
Mirror images from one repository to another
Example usage
# Copy image to another tag oc image mirror myregistry.com/myimage:latest myregistry.com/myimage:stable # Copy image to another registry oc image mirror myregistry.com/myimage:latest docker.io/myrepository/myimage:stable # Copy all tags starting with mysql to the destination repository oc image mirror myregistry.com/myimage:mysql* docker.io/myrepository/myimage # Copy image to disk, creating a directory structure that can be served as a registry oc image mirror myregistry.com/myimage:latest file://myrepository/myimage:latest # Copy image to S3 (pull from <bucket>.s3.amazonaws.com/image:latest) oc image mirror myregistry.com/myimage:latest s3://s3.amazonaws.com/<region>/<bucket>/image:latest # Copy image to S3 without setting a tag (pull via @<digest>) oc image mirror myregistry.com/myimage:latest s3://s3.amazonaws.com/<region>/<bucket>/image # Copy image to multiple locations oc image mirror myregistry.com/myimage:latest docker.io/myrepository/myimage:stable \ docker.io/myrepository/myimage:dev # Copy multiple images oc image mirror myregistry.com/myimage:latest=myregistry.com/other:test \ myregistry.com/myimage:new=myregistry.com/other:target # Copy manifest list of a multi-architecture image, even if only a single image is found oc image mirror myregistry.com/myimage:latest=myregistry.com/other:test \ --keep-manifest-list=true # Copy specific os/arch manifest of a multi-architecture image # Run 'oc image info myregistry.com/myimage:latest' to see available os/arch for multi-arch images # Note that with multi-arch images, this results in a new manifest list digest that includes only # the filtered manifests oc image mirror myregistry.com/myimage:latest=myregistry.com/other:test \ --filter-by-os=os/arch # Copy all os/arch manifests of a multi-architecture image # Run 'oc image info myregistry.com/myimage:latest' to see list of os/arch manifests that will be mirrored oc image mirror myregistry.com/myimage:latest=myregistry.com/other:test \ --keep-manifest-list=true # Note the above command is equivalent to oc image mirror myregistry.com/myimage:latest=myregistry.com/other:test \ --filter-by-os=.*
2.5.1.80. oc import-image
Import images from a container image registry
Example usage
# Import tag latest into a new image stream oc import-image mystream --from=registry.io/repo/image:latest --confirm # Update imported data for tag latest in an already existing image stream oc import-image mystream # Update imported data for tag stable in an already existing image stream oc import-image mystream:stable # Update imported data for all tags in an existing image stream oc import-image mystream --all # Import all tags into a new image stream oc import-image mystream --from=registry.io/repo/image --all --confirm # Import all tags into a new image stream using a custom timeout oc --request-timeout=5m import-image mystream --from=registry.io/repo/image --all --confirm
2.5.1.81. oc kustomize
Build a kustomization target from a directory or URL.
Example usage
# Build the current working directory oc kustomize # Build some shared configuration directory oc kustomize /home/config/production # Build from github oc kustomize https://github.com/kubernetes-sigs/kustomize.git/examples/helloWorld?ref=v1.0.6
2.5.1.82. oc label
Update the labels on a resource
Example usage
# Update pod 'foo' with the label 'unhealthy' and the value 'true' oc label pods foo unhealthy=true # Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value oc label --overwrite pods foo status=unhealthy # Update all pods in the namespace oc label pods --all status=unhealthy # Update a pod identified by the type and name in "pod.json" oc label -f pod.json status=unhealthy # Update pod 'foo' only if the resource is unchanged from version 1 oc label pods foo status=unhealthy --resource-version=1 # Update pod 'foo' by removing a label named 'bar' if it exists # Does not require the --overwrite flag oc label pods foo bar-
2.5.1.83. oc login
Log in to a server
Example usage
# Log in interactively oc login --username=myuser # Log in to the given server with the given certificate authority file oc login localhost:8443 --certificate-authority=/path/to/cert.crt # Log in to the given server with the given credentials (will not prompt interactively) oc login localhost:8443 --username=myuser --password=mypass
2.5.1.84. oc logout
End the current server session
Example usage
# Log out oc logout
2.5.1.85. oc logs
Print the logs for a container in a pod
Example usage
# Start streaming the logs of the most recent build of the openldap build config oc logs -f bc/openldap # Start streaming the logs of the latest deployment of the mysql deployment config oc logs -f dc/mysql # Get the logs of the first deployment for the mysql deployment config. Note that logs # from older deployments may not exist either because the deployment was successful # or due to deployment pruning or manual deletion of the deployment oc logs --version=1 dc/mysql # Return a snapshot of ruby-container logs from pod backend oc logs backend -c ruby-container # Start streaming of ruby-container logs from pod backend oc logs -f pod/backend -c ruby-container
2.5.1.86. oc new-app
Create a new application
Example usage
# List all local templates and image streams that can be used to create an app oc new-app --list # Create an application based on the source code in the current git repository (with a public remote) and a container image oc new-app . --image=registry/repo/langimage # Create an application myapp with Docker based build strategy expecting binary input oc new-app --strategy=docker --binary --name myapp # Create a Ruby application based on the provided [image]~[source code] combination oc new-app centos/ruby-25-centos7~https://github.com/sclorg/ruby-ex.git # Use the public container registry MySQL image to create an app. Generated artifacts will be labeled with db=mysql oc new-app mysql MYSQL_USER=user MYSQL_PASSWORD=pass MYSQL_DATABASE=testdb -l db=mysql # Use a MySQL image in a private registry to create an app and override application artifacts' names oc new-app --image=myregistry.com/mycompany/mysql --name=private # Create an application from a remote repository using its beta4 branch oc new-app https://github.com/openshift/ruby-hello-world#beta4 # Create an application based on a stored template, explicitly setting a parameter value oc new-app --template=ruby-helloworld-sample --param=MYSQL_USER=admin # Create an application from a remote repository and specify a context directory oc new-app https://github.com/youruser/yourgitrepo --context-dir=src/build # Create an application from a remote private repository and specify which existing secret to use oc new-app https://github.com/youruser/yourgitrepo --source-secret=yoursecret # Create an application based on a template file, explicitly setting a parameter value oc new-app --file=./example/myapp/template.json --param=MYSQL_USER=admin # Search all templates, image streams, and container images for the ones that match "ruby" oc new-app --search ruby # Search for "ruby", but only in stored templates (--template, --image-stream and --image # can be used to filter search results) oc new-app --search --template=ruby # Search for "ruby" in stored templates and print the output as YAML oc new-app --search --template=ruby --output=yaml
2.5.1.87. oc new-build
Create a new build configuration
Example usage
# Create a build config based on the source code in the current git repository (with a public # remote) and a container image oc new-build . --image=repo/langimage # Create a NodeJS build config based on the provided [image]~[source code] combination oc new-build centos/nodejs-8-centos7~https://github.com/sclorg/nodejs-ex.git # Create a build config from a remote repository using its beta2 branch oc new-build https://github.com/openshift/ruby-hello-world#beta2 # Create a build config using a Dockerfile specified as an argument oc new-build -D $'FROM centos:7\nRUN yum install -y httpd' # Create a build config from a remote repository and add custom environment variables oc new-build https://github.com/openshift/ruby-hello-world -e RACK_ENV=development # Create a build config from a remote private repository and specify which existing secret to use oc new-build https://github.com/youruser/yourgitrepo --source-secret=yoursecret # Create a build config from a remote repository and inject the npmrc into a build oc new-build https://github.com/openshift/ruby-hello-world --build-secret npmrc:.npmrc # Create a build config from a remote repository and inject environment data into a build oc new-build https://github.com/openshift/ruby-hello-world --build-config-map env:config # Create a build config that gets its input from a remote repository and another container image oc new-build https://github.com/openshift/ruby-hello-world --source-image=openshift/jenkins-1-centos7 --source-image-path=/var/lib/jenkins:tmp
2.5.1.88. oc new-project
Request a new project
Example usage
# Create a new project with minimal information oc new-project web-team-dev # Create a new project with a display name and description oc new-project web-team-dev --display-name="Web Team Development" --description="Development project for the web team."
2.5.1.89. oc observe
Observe changes to resources and react to them (experimental)
Example usage
# Observe changes to services oc observe services # Observe changes to services, including the clusterIP and invoke a script for each oc observe services --template '{ .spec.clusterIP }' -- register_dns.sh # Observe changes to services filtered by a label selector oc observe namespaces -l regist-dns=true --template '{ .spec.clusterIP }' -- register_dns.sh
2.5.1.90. oc patch
Update fields of a resource
Example usage
# Partially update a node using a strategic merge patch, specifying the patch as JSON oc patch node k8s-node-1 -p '{"spec":{"unschedulable":true}}' # Partially update a node using a strategic merge patch, specifying the patch as YAML oc patch node k8s-node-1 -p $'spec:\n unschedulable: true' # Partially update a node identified by the type and name specified in "node.json" using strategic merge patch oc patch -f node.json -p '{"spec":{"unschedulable":true}}' # Update a container's image; spec.containers[*].name is required because it's a merge key oc patch pod valid-pod -p '{"spec":{"containers":[{"name":"kubernetes-serve-hostname","image":"new image"}]}}' # Update a container's image using a JSON patch with positional arrays oc patch pod valid-pod --type='json' -p='[{"op": "replace", "path": "/spec/containers/0/image", "value":"new image"}]'
2.5.1.91. oc policy add-role-to-user
Add a role to users or service accounts for the current project
Example usage
# Add the 'view' role to user1 for the current project oc policy add-role-to-user view user1 # Add the 'edit' role to serviceaccount1 for the current project oc policy add-role-to-user edit -z serviceaccount1
2.5.1.92. oc policy scc-review
Check which service account can create a pod
Example usage
# Check whether service accounts sa1 and sa2 can admit a pod with a template pod spec specified in my_resource.yaml # Service Account specified in myresource.yaml file is ignored oc policy scc-review -z sa1,sa2 -f my_resource.yaml # Check whether service accounts system:serviceaccount:bob:default can admit a pod with a template pod spec specified in my_resource.yaml oc policy scc-review -z system:serviceaccount:bob:default -f my_resource.yaml # Check whether the service account specified in my_resource_with_sa.yaml can admit the pod oc policy scc-review -f my_resource_with_sa.yaml # Check whether the default service account can admit the pod; default is taken since no service account is defined in myresource_with_no_sa.yaml oc policy scc-review -f myresource_with_no_sa.yaml
2.5.1.93. oc policy scc-subject-review
Check whether a user or a service account can create a pod
Example usage
# Check whether user bob can create a pod specified in myresource.yaml oc policy scc-subject-review -u bob -f myresource.yaml # Check whether user bob who belongs to projectAdmin group can create a pod specified in myresource.yaml oc policy scc-subject-review -u bob -g projectAdmin -f myresource.yaml # Check whether a service account specified in the pod template spec in myresourcewithsa.yaml can create the pod oc policy scc-subject-review -f myresourcewithsa.yaml
2.5.1.94. oc port-forward
Forward one or more local ports to a pod
Example usage
# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod oc port-forward pod/mypod 5000 6000 # Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the deployment oc port-forward deployment/mydeployment 5000 6000 # Listen on port 8443 locally, forwarding to the targetPort of the service's port named "https" in a pod selected by the service oc port-forward service/myservice 8443:https # Listen on port 8888 locally, forwarding to 5000 in the pod oc port-forward pod/mypod 8888:5000 # Listen on port 8888 on all addresses, forwarding to 5000 in the pod oc port-forward --address 0.0.0.0 pod/mypod 8888:5000 # Listen on port 8888 on localhost and selected IP, forwarding to 5000 in the pod oc port-forward --address localhost,10.19.21.23 pod/mypod 8888:5000 # Listen on a random port locally, forwarding to 5000 in the pod oc port-forward pod/mypod :5000
2.5.1.95. oc process
Process a template into list of resources
Example usage
# Convert the template.json file into a resource list and pass to create oc process -f template.json | oc create -f - # Process a file locally instead of contacting the server oc process -f template.json --local -o yaml # Process template while passing a user-defined label oc process -f template.json -l name=mytemplate # Convert a stored template into a resource list oc process foo # Convert a stored template into a resource list by setting/overriding parameter values oc process foo PARM1=VALUE1 PARM2=VALUE2 # Convert a template stored in different namespace into a resource list oc process openshift//foo # Convert template.json into a resource list cat template.json | oc process -f -
2.5.1.96. oc project
Switch to another project
Example usage
# Switch to the 'myapp' project oc project myapp # Display the project currently in use oc project
2.5.1.97. oc projects
Display existing projects
Example usage
# List all projects oc projects
2.5.1.98. oc proxy
Run a proxy to the Kubernetes API server
Example usage
# To proxy all of the Kubernetes API and nothing else oc proxy --api-prefix=/ # To proxy only part of the Kubernetes API and also some static files # You can get pods info with 'curl localhost:8001/api/v1/pods' oc proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/ # To proxy the entire Kubernetes API at a different root # You can get pods info with 'curl localhost:8001/custom/api/v1/pods' oc proxy --api-prefix=/custom/ # Run a proxy to the Kubernetes API server on port 8011, serving static content from ./local/www/ oc proxy --port=8011 --www=./local/www/ # Run a proxy to the Kubernetes API server on an arbitrary local port # The chosen port for the server will be output to stdout oc proxy --port=0 # Run a proxy to the Kubernetes API server, changing the API prefix to k8s-api # This makes e.g. the pods API available at localhost:8001/k8s-api/v1/pods/ oc proxy --api-prefix=/k8s-api
2.5.1.99. oc registry info
Print information about the integrated registry
Example usage
# Display information about the integrated registry oc registry info
2.5.1.100. oc registry login
Log in to the integrated registry
Example usage
# Log in to the integrated registry oc registry login # Log in as the default service account in the current namespace oc registry login -z default # Log in to different registry using BASIC auth credentials oc registry login --registry quay.io/myregistry --auth-basic=USER:PASS
2.5.1.101. oc replace
Replace a resource by file name or stdin
Example usage
# Replace a pod using the data in pod.json oc replace -f ./pod.json # Replace a pod based on the JSON passed into stdin cat pod.json | oc replace -f - # Update a single-container pod's image version (tag) to v4 oc get pod mypod -o yaml | sed 's/\(image: myimage\):.*$/\1:v4/' | oc replace -f - # Force replace, delete and then re-create the resource oc replace --force -f ./pod.json
2.5.1.102. oc rollback
Revert part of an application back to a previous deployment
Example usage
# Perform a rollback to the last successfully completed deployment for a deployment config oc rollback frontend # See what a rollback to version 3 will look like, but do not perform the rollback oc rollback frontend --to-version=3 --dry-run # Perform a rollback to a specific deployment oc rollback frontend-2 # Perform the rollback manually by piping the JSON of the new config back to oc oc rollback frontend -o json | oc replace dc/frontend -f - # Print the updated deployment configuration in JSON format instead of performing the rollback oc rollback frontend -o json
2.5.1.103. oc rollout cancel
Cancel the in-progress deployment
Example usage
# Cancel the in-progress deployment based on 'nginx' oc rollout cancel dc/nginx
2.5.1.104. oc rollout history
View rollout history
Example usage
# View the rollout history of a deployment oc rollout history dc/nginx # View the details of deployment revision 3 oc rollout history dc/nginx --revision=3
2.5.1.105. oc rollout latest
Start a new rollout for a deployment config with the latest state from its triggers
Example usage
# Start a new rollout based on the latest images defined in the image change triggers oc rollout latest dc/nginx # Print the rolled out deployment config oc rollout latest dc/nginx -o json
2.5.1.106. oc rollout pause
Mark the provided resource as paused
Example usage
# Mark the nginx deployment as paused. Any current state of # the deployment will continue its function, new updates to the deployment will not # have an effect as long as the deployment is paused oc rollout pause dc/nginx
2.5.1.107. oc rollout restart
Restart a resource
Example usage
# Restart a deployment oc rollout restart deployment/nginx # Restart a daemon set oc rollout restart daemonset/abc
2.5.1.108. oc rollout resume
Resume a paused resource
Example usage
# Resume an already paused deployment oc rollout resume dc/nginx
2.5.1.109. oc rollout retry
Retry the latest failed rollout
Example usage
# Retry the latest failed deployment based on 'frontend' # The deployer pod and any hook pods are deleted for the latest failed deployment oc rollout retry dc/frontend
2.5.1.110. oc rollout status
Show the status of the rollout
Example usage
# Watch the status of the latest rollout oc rollout status dc/nginx
2.5.1.111. oc rollout undo
Undo a previous rollout
Example usage
# Roll back to the previous deployment oc rollout undo dc/nginx # Roll back to deployment revision 3. The replication controller for that version must exist oc rollout undo dc/nginx --to-revision=3
2.5.1.112. oc rsh
Start a shell session in a container
Example usage
# Open a shell session on the first container in pod 'foo' oc rsh foo # Open a shell session on the first container in pod 'foo' and namespace 'bar' # (Note that oc client specific arguments must come before the resource name and its arguments) oc rsh -n bar foo # Run the command 'cat /etc/resolv.conf' inside pod 'foo' oc rsh foo cat /etc/resolv.conf # See the configuration of your internal registry oc rsh dc/docker-registry cat config.yml # Open a shell session on the container named 'index' inside a pod of your job oc rsh -c index job/sheduled
2.5.1.113. oc rsync
Copy files between a local file system and a pod
Example usage
# Synchronize a local directory with a pod directory oc rsync ./local/dir/ POD:/remote/dir # Synchronize a pod directory with a local directory oc rsync POD:/remote/dir/ ./local/dir
2.5.1.114. oc run
Run a particular image on the cluster
Example usage
# Start a nginx pod oc run nginx --image=nginx # Start a hazelcast pod and let the container expose port 5701 oc run hazelcast --image=hazelcast/hazelcast --port=5701 # Start a hazelcast pod and set environment variables "DNS_DOMAIN=cluster" and "POD_NAMESPACE=default" in the container oc run hazelcast --image=hazelcast/hazelcast --env="DNS_DOMAIN=cluster" --env="POD_NAMESPACE=default" # Start a hazelcast pod and set labels "app=hazelcast" and "env=prod" in the container oc run hazelcast --image=hazelcast/hazelcast --labels="app=hazelcast,env=prod" # Dry run; print the corresponding API objects without creating them oc run nginx --image=nginx --dry-run=client # Start a nginx pod, but overload the spec with a partial set of values parsed from JSON oc run nginx --image=nginx --overrides='{ "apiVersion": "v1", "spec": { ... } }' # Start a busybox pod and keep it in the foreground, don't restart it if it exits oc run -i -t busybox --image=busybox --restart=Never # Start the nginx pod using the default command, but use custom arguments (arg1 .. argN) for that command oc run nginx --image=nginx -- <arg1> <arg2> ... <argN> # Start the nginx pod using a different command and custom arguments oc run nginx --image=nginx --command -- <cmd> <arg1> ... <argN>
2.5.1.115. oc scale
Set a new size for a deployment, replica set, or replication controller
Example usage
# Scale a replica set named 'foo' to 3 oc scale --replicas=3 rs/foo # Scale a resource identified by type and name specified in "foo.yaml" to 3 oc scale --replicas=3 -f foo.yaml # If the deployment named mysql's current size is 2, scale mysql to 3 oc scale --current-replicas=2 --replicas=3 deployment/mysql # Scale multiple replication controllers oc scale --replicas=5 rc/foo rc/bar rc/baz # Scale stateful set named 'web' to 3 oc scale --replicas=3 statefulset/web
2.5.1.116. oc secrets link
Link secrets to a service account
Example usage
# Add an image pull secret to a service account to automatically use it for pulling pod images oc secrets link serviceaccount-name pull-secret --for=pull # Add an image pull secret to a service account to automatically use it for both pulling and pushing build images oc secrets link builder builder-image-secret --for=pull,mount
2.5.1.117. oc secrets unlink
Detach secrets from a service account
Example usage
# Unlink a secret currently associated with a service account oc secrets unlink serviceaccount-name secret-name another-secret-name ...
2.5.1.118. oc serviceaccounts create-kubeconfig
Generate a kubeconfig file for a service account
Example usage
# Create a kubeconfig file for service account 'default' oc serviceaccounts create-kubeconfig 'default' > default.kubeconfig
2.5.1.119. oc serviceaccounts get-token
Get a token assigned to a service account
Example usage
# Get the service account token from service account 'default' oc serviceaccounts get-token 'default'
2.5.1.120. oc serviceaccounts new-token
Generate a new token for a service account
Example usage
# Generate a new token for service account 'default' oc serviceaccounts new-token 'default' # Generate a new token for service account 'default' and apply # labels 'foo' and 'bar' to the new token for identification oc serviceaccounts new-token 'default' --labels foo=foo-value,bar=bar-value
2.5.1.121. oc set build-hook
Update a build hook on a build config
Example usage
# Clear post-commit hook on a build config oc set build-hook bc/mybuild --post-commit --remove # Set the post-commit hook to execute a test suite using a new entrypoint oc set build-hook bc/mybuild --post-commit --command -- /bin/bash -c /var/lib/test-image.sh # Set the post-commit hook to execute a shell script oc set build-hook bc/mybuild --post-commit --script="/var/lib/test-image.sh param1 param2 && /var/lib/done.sh"
2.5.1.122. oc set build-secret
Update a build secret on a build config
Example usage
# Clear the push secret on a build config oc set build-secret --push --remove bc/mybuild # Set the pull secret on a build config oc set build-secret --pull bc/mybuild mysecret # Set the push and pull secret on a build config oc set build-secret --push --pull bc/mybuild mysecret # Set the source secret on a set of build configs matching a selector oc set build-secret --source -l app=myapp gitsecret
2.5.1.123. oc set data
Update the data within a config map or secret
Example usage
# Set the 'password' key of a secret oc set data secret/foo password=this_is_secret # Remove the 'password' key from a secret oc set data secret/foo password- # Update the 'haproxy.conf' key of a config map from a file on disk oc set data configmap/bar --from-file=../haproxy.conf # Update a secret with the contents of a directory, one key per file oc set data secret/foo --from-file=secret-dir
2.5.1.124. oc set deployment-hook
Update a deployment hook on a deployment config
Example usage
# Clear pre and post hooks on a deployment config oc set deployment-hook dc/myapp --remove --pre --post # Set the pre deployment hook to execute a db migration command for an application # using the data volume from the application oc set deployment-hook dc/myapp --pre --volumes=data -- /var/lib/migrate-db.sh # Set a mid deployment hook along with additional environment variables oc set deployment-hook dc/myapp --mid --volumes=data -e VAR1=value1 -e VAR2=value2 -- /var/lib/prepare-deploy.sh
2.5.1.125. oc set env
Update environment variables on a pod template
Example usage
# Update deployment config 'myapp' with a new environment variable oc set env dc/myapp STORAGE_DIR=/local # List the environment variables defined on a build config 'sample-build' oc set env bc/sample-build --list # List the environment variables defined on all pods oc set env pods --all --list # Output modified build config in YAML oc set env bc/sample-build STORAGE_DIR=/data -o yaml # Update all containers in all replication controllers in the project to have ENV=prod oc set env rc --all ENV=prod # Import environment from a secret oc set env --from=secret/mysecret dc/myapp # Import environment from a config map with a prefix oc set env --from=configmap/myconfigmap --prefix=MYSQL_ dc/myapp # Remove the environment variable ENV from container 'c1' in all deployment configs oc set env dc --all --containers="c1" ENV- # Remove the environment variable ENV from a deployment config definition on disk and # update the deployment config on the server oc set env -f dc.json ENV- # Set some of the local shell environment into a deployment config on the server oc set env | grep RAILS_ | oc env -e - dc/myapp
2.5.1.126. oc set image
Update the image of a pod template
Example usage
# Set a deployment configs's nginx container image to 'nginx:1.9.1', and its busybox container image to 'busybox'. oc set image dc/nginx busybox=busybox nginx=nginx:1.9.1 # Set a deployment configs's app container image to the image referenced by the imagestream tag 'openshift/ruby:2.3'. oc set image dc/myapp app=openshift/ruby:2.3 --source=imagestreamtag # Update all deployments' and rc's nginx container's image to 'nginx:1.9.1' oc set image deployments,rc nginx=nginx:1.9.1 --all # Update image of all containers of daemonset abc to 'nginx:1.9.1' oc set image daemonset abc *=nginx:1.9.1 # Print result (in yaml format) of updating nginx container image from local file, without hitting the server oc set image -f path/to/file.yaml nginx=nginx:1.9.1 --local -o yaml
2.5.1.127. oc set image-lookup
Change how images are resolved when deploying applications
Example usage
# Print all of the image streams and whether they resolve local names oc set image-lookup # Use local name lookup on image stream mysql oc set image-lookup mysql # Force a deployment to use local name lookup oc set image-lookup deploy/mysql # Show the current status of the deployment lookup oc set image-lookup deploy/mysql --list # Disable local name lookup on image stream mysql oc set image-lookup mysql --enabled=false # Set local name lookup on all image streams oc set image-lookup --all
2.5.1.128. oc set probe
Update a probe on a pod template
Example usage
# Clear both readiness and liveness probes off all containers oc set probe dc/myapp --remove --readiness --liveness # Set an exec action as a liveness probe to run 'echo ok' oc set probe dc/myapp --liveness -- echo ok # Set a readiness probe to try to open a TCP socket on 3306 oc set probe rc/mysql --readiness --open-tcp=3306 # Set an HTTP startup probe for port 8080 and path /healthz over HTTP on the pod IP oc set probe dc/webapp --startup --get-url=http://:8080/healthz # Set an HTTP readiness probe for port 8080 and path /healthz over HTTP on the pod IP oc set probe dc/webapp --readiness --get-url=http://:8080/healthz # Set an HTTP readiness probe over HTTPS on 127.0.0.1 for a hostNetwork pod oc set probe dc/router --readiness --get-url=https://127.0.0.1:1936/stats # Set only the initial-delay-seconds field on all deployments oc set probe dc --all --readiness --initial-delay-seconds=30
2.5.1.129. oc set resources
Update resource requests/limits on objects with pod templates
Example usage
# Set a deployments nginx container CPU limits to "200m and memory to 512Mi" oc set resources deployment nginx -c=nginx --limits=cpu=200m,memory=512Mi # Set the resource request and limits for all containers in nginx oc set resources deployment nginx --limits=cpu=200m,memory=512Mi --requests=cpu=100m,memory=256Mi # Remove the resource requests for resources on containers in nginx oc set resources deployment nginx --limits=cpu=0,memory=0 --requests=cpu=0,memory=0 # Print the result (in YAML format) of updating nginx container limits locally, without hitting the server oc set resources -f path/to/file.yaml --limits=cpu=200m,memory=512Mi --local -o yaml
2.5.1.130. oc set route-backends
Update the backends for a route
Example usage
# Print the backends on the route 'web' oc set route-backends web # Set two backend services on route 'web' with 2/3rds of traffic going to 'a' oc set route-backends web a=2 b=1 # Increase the traffic percentage going to b by 10%% relative to a oc set route-backends web --adjust b=+10%% # Set traffic percentage going to b to 10%% of the traffic going to a oc set route-backends web --adjust b=10%% # Set weight of b to 10 oc set route-backends web --adjust b=10 # Set the weight to all backends to zero oc set route-backends web --zero
2.5.1.131. oc set selector
Set the selector on a resource
Example usage
# Set the labels and selector before creating a deployment/service pair. oc create service clusterip my-svc --clusterip="None" -o yaml --dry-run | oc set selector --local -f - 'environment=qa' -o yaml | oc create -f - oc create deployment my-dep -o yaml --dry-run | oc label --local -f - environment=qa -o yaml | oc create -f -
2.5.1.132. oc set serviceaccount
Update the service account of a resource
Example usage
# Set deployment nginx-deployment's service account to serviceaccount1 oc set serviceaccount deployment nginx-deployment serviceaccount1 # Print the result (in YAML format) of updated nginx deployment with service account from a local file, without hitting the API server oc set sa -f nginx-deployment.yaml serviceaccount1 --local --dry-run -o yaml
2.5.1.133. oc set subject
Update the user, group, or service account in a role binding or cluster role binding
Example usage
# Update a cluster role binding for serviceaccount1 oc set subject clusterrolebinding admin --serviceaccount=namespace:serviceaccount1 # Update a role binding for user1, user2, and group1 oc set subject rolebinding admin --user=user1 --user=user2 --group=group1 # Print the result (in YAML format) of updating role binding subjects locally, without hitting the server oc create rolebinding admin --role=admin --user=admin -o yaml --dry-run | oc set subject --local -f - --user=foo -o yaml
2.5.1.134. oc set triggers
Update the triggers on one or more objects
Example usage
# Print the triggers on the deployment config 'myapp' oc set triggers dc/myapp # Set all triggers to manual oc set triggers dc/myapp --manual # Enable all automatic triggers oc set triggers dc/myapp --auto # Reset the GitHub webhook on a build to a new, generated secret oc set triggers bc/webapp --from-github oc set triggers bc/webapp --from-webhook # Remove all triggers oc set triggers bc/webapp --remove-all # Stop triggering on config change oc set triggers dc/myapp --from-config --remove # Add an image trigger to a build config oc set triggers bc/webapp --from-image=namespace1/image:latest # Add an image trigger to a stateful set on the main container oc set triggers statefulset/db --from-image=namespace1/image:latest -c main
2.5.1.135. oc set volumes
Update volumes on a pod template
Example usage
# List volumes defined on all deployment configs in the current project oc set volume dc --all # Add a new empty dir volume to deployment config (dc) 'myapp' mounted under # /var/lib/myapp oc set volume dc/myapp --add --mount-path=/var/lib/myapp # Use an existing persistent volume claim (pvc) to overwrite an existing volume 'v1' oc set volume dc/myapp --add --name=v1 -t pvc --claim-name=pvc1 --overwrite # Remove volume 'v1' from deployment config 'myapp' oc set volume dc/myapp --remove --name=v1 # Create a new persistent volume claim that overwrites an existing volume 'v1' oc set volume dc/myapp --add --name=v1 -t pvc --claim-size=1G --overwrite # Change the mount point for volume 'v1' to /data oc set volume dc/myapp --add --name=v1 -m /data --overwrite # Modify the deployment config by removing volume mount "v1" from container "c1" # (and by removing the volume "v1" if no other containers have volume mounts that reference it) oc set volume dc/myapp --remove --name=v1 --containers=c1 # Add new volume based on a more complex volume source (AWS EBS, GCE PD, # Ceph, Gluster, NFS, ISCSI, ...) oc set volume dc/myapp --add -m /data --source=<json-string>
2.5.1.136. oc start-build
Start a new build
Example usage
# Starts build from build config "hello-world" oc start-build hello-world # Starts build from a previous build "hello-world-1" oc start-build --from-build=hello-world-1 # Use the contents of a directory as build input oc start-build hello-world --from-dir=src/ # Send the contents of a Git repository to the server from tag 'v2' oc start-build hello-world --from-repo=../hello-world --commit=v2 # Start a new build for build config "hello-world" and watch the logs until the build # completes or fails oc start-build hello-world --follow # Start a new build for build config "hello-world" and wait until the build completes. It # exits with a non-zero return code if the build fails oc start-build hello-world --wait
2.5.1.137. oc status
Show an overview of the current project
Example usage
# See an overview of the current project oc status # Export the overview of the current project in an svg file oc status -o dot | dot -T svg -o project.svg # See an overview of the current project including details for any identified issues oc status --suggest
2.5.1.138. oc tag
Tag existing images into image streams
Example usage
# Tag the current image for the image stream 'openshift/ruby' and tag '2.0' into the image stream 'yourproject/ruby with tag 'tip' oc tag openshift/ruby:2.0 yourproject/ruby:tip # Tag a specific image oc tag openshift/ruby@sha256:6b646fa6bf5e5e4c7fa41056c27910e679c03ebe7f93e361e6515a9da7e258cc yourproject/ruby:tip # Tag an external container image oc tag --source=docker openshift/origin-control-plane:latest yourproject/ruby:tip # Tag an external container image and request pullthrough for it oc tag --source=docker openshift/origin-control-plane:latest yourproject/ruby:tip --reference-policy=local # Remove the specified spec tag from an image stream oc tag openshift/origin-control-plane:latest -d
2.5.1.139. oc version
Print the client and server version information
Example usage
# Print the OpenShift client, kube-apiserver, and openshift-apiserver version information for the current context oc version # Print the OpenShift client, kube-apiserver, and openshift-apiserver version numbers for the current context oc version --short # Print the OpenShift client version information for the current context oc version --client
2.5.1.140. oc wait
Experimental: Wait for a specific condition on one or many resources
Example usage
# Wait for the pod "busybox1" to contain the status condition of type "Ready" oc wait --for=condition=Ready pod/busybox1 # The default value of status condition is true; you can set it to false oc wait --for=condition=Ready=false pod/busybox1 # Wait for the pod "busybox1" to contain the status phase to be "Running". oc wait --for=jsonpath='{.status.phase}'=Running pod/busybox1 # Wait for the pod "busybox1" to be deleted, with a timeout of 60s, after having issued the "delete" command oc delete pod/busybox1 oc wait --for=delete pod/busybox1 --timeout=60s
2.5.1.141. oc whoami
Return information about the current session
Example usage
# Display the currently authenticated user oc whoami
2.5.2. Additional resources
2.6. OpenShift CLI administrator command reference
This reference provides descriptions and example commands for OpenShift CLI (oc
) administrator commands. You must have cluster-admin
or equivalent permissions to use these commands.
For developer commands, see the OpenShift CLI developer command reference.
Run oc adm -h
to list all administrator commands or run oc <command> --help
to get additional details for a specific command.
2.6.1. OpenShift CLI (oc) administrator commands
2.6.1.1. oc adm build-chain
Output the inputs and dependencies of your builds
Example usage
# Build the dependency tree for the 'latest' tag in <image-stream> oc adm build-chain <image-stream> # Build the dependency tree for the 'v2' tag in dot format and visualize it via the dot utility oc adm build-chain <image-stream>:v2 -o dot | dot -T svg -o deps.svg # Build the dependency tree across all namespaces for the specified image stream tag found in the 'test' namespace oc adm build-chain <image-stream> -n test --all
2.6.1.2. oc adm catalog mirror
Mirror an operator-registry catalog
Example usage
# Mirror an operator-registry image and its contents to a registry oc adm catalog mirror quay.io/my/image:latest myregistry.com # Mirror an operator-registry image and its contents to a particular namespace in a registry oc adm catalog mirror quay.io/my/image:latest myregistry.com/my-namespace # Mirror to an airgapped registry by first mirroring to files oc adm catalog mirror quay.io/my/image:latest file:///local/index oc adm catalog mirror file:///local/index/my/image:latest my-airgapped-registry.com # Configure a cluster to use a mirrored registry oc apply -f manifests/imageContentSourcePolicy.yaml # Edit the mirroring mappings and mirror with "oc image mirror" manually oc adm catalog mirror --manifests-only quay.io/my/image:latest myregistry.com oc image mirror -f manifests/mapping.txt # Delete all ImageContentSourcePolicies generated by oc adm catalog mirror oc delete imagecontentsourcepolicy -l operators.openshift.org/catalog=true
2.6.1.3. oc adm certificate approve
Approve a certificate signing request
Example usage
# Approve CSR 'csr-sqgzp' oc adm certificate approve csr-sqgzp
2.6.1.4. oc adm certificate deny
Deny a certificate signing request
Example usage
# Deny CSR 'csr-sqgzp' oc adm certificate deny csr-sqgzp
2.6.1.5. oc adm cordon
Mark node as unschedulable
Example usage
# Mark node "foo" as unschedulable oc adm cordon foo
2.6.1.6. oc adm create-bootstrap-project-template
Create a bootstrap project template
Example usage
# Output a bootstrap project template in YAML format to stdout oc adm create-bootstrap-project-template -o yaml
2.6.1.7. oc adm create-error-template
Create an error page template
Example usage
# Output a template for the error page to stdout oc adm create-error-template
2.6.1.8. oc adm create-login-template
Create a login template
Example usage
# Output a template for the login page to stdout oc adm create-login-template
2.6.1.9. oc adm create-provider-selection-template
Create a provider selection template
Example usage
# Output a template for the provider selection page to stdout oc adm create-provider-selection-template
2.6.1.10. oc adm drain
Drain node in preparation for maintenance
Example usage
# Drain node "foo", even if there are pods not managed by a replication controller, replica set, job, daemon set or stateful set on it oc adm drain foo --force # As above, but abort if there are pods not managed by a replication controller, replica set, job, daemon set or stateful set, and use a grace period of 15 minutes oc adm drain foo --grace-period=900
2.6.1.11. oc adm groups add-users
Add users to a group
Example usage
# Add user1 and user2 to my-group oc adm groups add-users my-group user1 user2
2.6.1.12. oc adm groups new
Create a new group
Example usage
# Add a group with no users oc adm groups new my-group # Add a group with two users oc adm groups new my-group user1 user2 # Add a group with one user and shorter output oc adm groups new my-group user1 -o name
2.6.1.13. oc adm groups prune
Remove old OpenShift groups referencing missing records from an external provider
Example usage
# Prune all orphaned groups oc adm groups prune --sync-config=/path/to/ldap-sync-config.yaml --confirm # Prune all orphaned groups except the ones from the blacklist file oc adm groups prune --blacklist=/path/to/blacklist.txt --sync-config=/path/to/ldap-sync-config.yaml --confirm # Prune all orphaned groups from a list of specific groups specified in a whitelist file oc adm groups prune --whitelist=/path/to/whitelist.txt --sync-config=/path/to/ldap-sync-config.yaml --confirm # Prune all orphaned groups from a list of specific groups specified in a whitelist oc adm groups prune groups/group_name groups/other_name --sync-config=/path/to/ldap-sync-config.yaml --confirm
2.6.1.14. oc adm groups remove-users
Remove users from a group
Example usage
# Remove user1 and user2 from my-group oc adm groups remove-users my-group user1 user2
2.6.1.15. oc adm groups sync
Sync OpenShift groups with records from an external provider
Example usage
# Sync all groups with an LDAP server oc adm groups sync --sync-config=/path/to/ldap-sync-config.yaml --confirm # Sync all groups except the ones from the blacklist file with an LDAP server oc adm groups sync --blacklist=/path/to/blacklist.txt --sync-config=/path/to/ldap-sync-config.yaml --confirm # Sync specific groups specified in a whitelist file with an LDAP server oc adm groups sync --whitelist=/path/to/whitelist.txt --sync-config=/path/to/sync-config.yaml --confirm # Sync all OpenShift groups that have been synced previously with an LDAP server oc adm groups sync --type=openshift --sync-config=/path/to/ldap-sync-config.yaml --confirm # Sync specific OpenShift groups if they have been synced previously with an LDAP server oc adm groups sync groups/group1 groups/group2 groups/group3 --sync-config=/path/to/sync-config.yaml --confirm
2.6.1.16. oc adm inspect
Collect debugging data for a given resource
Example usage
# Collect debugging data for the "openshift-apiserver" clusteroperator oc adm inspect clusteroperator/openshift-apiserver # Collect debugging data for the "openshift-apiserver" and "kube-apiserver" clusteroperators oc adm inspect clusteroperator/openshift-apiserver clusteroperator/kube-apiserver # Collect debugging data for all clusteroperators oc adm inspect clusteroperator # Collect debugging data for all clusteroperators and clusterversions oc adm inspect clusteroperators,clusterversions
2.6.1.17. oc adm migrate template-instances
Update template instances to point to the latest group-version-kinds
Example usage
# Perform a dry-run of updating all objects oc adm migrate template-instances # To actually perform the update, the confirm flag must be appended oc adm migrate template-instances --confirm
2.6.1.18. oc adm must-gather
Launch a new instance of a pod for gathering debug information
Example usage
# Gather information using the default plug-in image and command, writing into ./must-gather.local.<rand> oc adm must-gather # Gather information with a specific local folder to copy to oc adm must-gather --dest-dir=/local/directory # Gather audit information oc adm must-gather -- /usr/bin/gather_audit_logs # Gather information using multiple plug-in images oc adm must-gather --image=quay.io/kubevirt/must-gather --image=quay.io/openshift/origin-must-gather # Gather information using a specific image stream plug-in oc adm must-gather --image-stream=openshift/must-gather:latest # Gather information using a specific image, command, and pod-dir oc adm must-gather --image=my/image:tag --source-dir=/pod/directory -- myspecial-command.sh
2.6.1.19. oc adm new-project
Create a new project
Example usage
# Create a new project using a node selector oc adm new-project myproject --node-selector='type=user-node,region=east'
2.6.1.20. oc adm node-logs
Display and filter node logs
Example usage
# Show kubelet logs from all masters oc adm node-logs --role master -u kubelet # See what logs are available in masters in /var/logs oc adm node-logs --role master --path=/ # Display cron log file from all masters oc adm node-logs --role master --path=cron
2.6.1.21. oc adm pod-network isolate-projects
Isolate project network
Example usage
# Provide isolation for project p1 oc adm pod-network isolate-projects <p1> # Allow all projects with label name=top-secret to have their own isolated project network oc adm pod-network isolate-projects --selector='name=top-secret'
2.6.1.22. oc adm pod-network join-projects
Join project network
Example usage
# Allow project p2 to use project p1 network oc adm pod-network join-projects --to=<p1> <p2> # Allow all projects with label name=top-secret to use project p1 network oc adm pod-network join-projects --to=<p1> --selector='name=top-secret'
2.6.1.23. oc adm pod-network make-projects-global
Make project network global
Example usage
# Allow project p1 to access all pods in the cluster and vice versa oc adm pod-network make-projects-global <p1> # Allow all projects with label name=share to access all pods in the cluster and vice versa oc adm pod-network make-projects-global --selector='name=share'
2.6.1.24. oc adm policy add-role-to-user
Add a role to users or service accounts for the current project
Example usage
# Add the 'view' role to user1 for the current project oc adm policy add-role-to-user view user1 # Add the 'edit' role to serviceaccount1 for the current project oc adm policy add-role-to-user edit -z serviceaccount1
2.6.1.25. oc adm policy add-scc-to-group
Add a security context constraint to groups
Example usage
# Add the 'restricted' security context constraint to group1 and group2 oc adm policy add-scc-to-group restricted group1 group2
2.6.1.26. oc adm policy add-scc-to-user
Add a security context constraint to users or a service account
Example usage
# Add the 'restricted' security context constraint to user1 and user2 oc adm policy add-scc-to-user restricted user1 user2 # Add the 'privileged' security context constraint to serviceaccount1 in the current namespace oc adm policy add-scc-to-user privileged -z serviceaccount1
2.6.1.27. oc adm policy scc-review
Check which service account can create a pod
Example usage
# Check whether service accounts sa1 and sa2 can admit a pod with a template pod spec specified in my_resource.yaml # Service Account specified in myresource.yaml file is ignored oc adm policy scc-review -z sa1,sa2 -f my_resource.yaml # Check whether service accounts system:serviceaccount:bob:default can admit a pod with a template pod spec specified in my_resource.yaml oc adm policy scc-review -z system:serviceaccount:bob:default -f my_resource.yaml # Check whether the service account specified in my_resource_with_sa.yaml can admit the pod oc adm policy scc-review -f my_resource_with_sa.yaml # Check whether the default service account can admit the pod; default is taken since no service account is defined in myresource_with_no_sa.yaml oc adm policy scc-review -f myresource_with_no_sa.yaml
2.6.1.28. oc adm policy scc-subject-review
Check whether a user or a service account can create a pod
Example usage
# Check whether user bob can create a pod specified in myresource.yaml oc adm policy scc-subject-review -u bob -f myresource.yaml # Check whether user bob who belongs to projectAdmin group can create a pod specified in myresource.yaml oc adm policy scc-subject-review -u bob -g projectAdmin -f myresource.yaml # Check whether a service account specified in the pod template spec in myresourcewithsa.yaml can create the pod oc adm policy scc-subject-review -f myresourcewithsa.yaml
2.6.1.29. oc adm prune builds
Remove old completed and failed builds
Example usage
# Dry run deleting older completed and failed builds and also including # all builds whose associated build config no longer exists oc adm prune builds --orphans # To actually perform the prune operation, the confirm flag must be appended oc adm prune builds --orphans --confirm
2.6.1.30. oc adm prune deployments
Remove old completed and failed deployment configs
Example usage
# Dry run deleting all but the last complete deployment for every deployment config oc adm prune deployments --keep-complete=1 # To actually perform the prune operation, the confirm flag must be appended oc adm prune deployments --keep-complete=1 --confirm
2.6.1.31. oc adm prune groups
Remove old OpenShift groups referencing missing records from an external provider
Example usage
# Prune all orphaned groups oc adm prune groups --sync-config=/path/to/ldap-sync-config.yaml --confirm # Prune all orphaned groups except the ones from the blacklist file oc adm prune groups --blacklist=/path/to/blacklist.txt --sync-config=/path/to/ldap-sync-config.yaml --confirm # Prune all orphaned groups from a list of specific groups specified in a whitelist file oc adm prune groups --whitelist=/path/to/whitelist.txt --sync-config=/path/to/ldap-sync-config.yaml --confirm # Prune all orphaned groups from a list of specific groups specified in a whitelist oc adm prune groups groups/group_name groups/other_name --sync-config=/path/to/ldap-sync-config.yaml --confirm
2.6.1.32. oc adm prune images
Remove unreferenced images
Example usage
# See what the prune command would delete if only images and their referrers were more than an hour old # and obsoleted by 3 newer revisions under the same tag were considered oc adm prune images --keep-tag-revisions=3 --keep-younger-than=60m # To actually perform the prune operation, the confirm flag must be appended oc adm prune images --keep-tag-revisions=3 --keep-younger-than=60m --confirm # See what the prune command would delete if we are interested in removing images # exceeding currently set limit ranges ('openshift.io/Image') oc adm prune images --prune-over-size-limit # To actually perform the prune operation, the confirm flag must be appended oc adm prune images --prune-over-size-limit --confirm # Force the insecure http protocol with the particular registry host name oc adm prune images --registry-url=http://registry.example.org --confirm # Force a secure connection with a custom certificate authority to the particular registry host name oc adm prune images --registry-url=registry.example.org --certificate-authority=/path/to/custom/ca.crt --confirm
2.6.1.33. oc adm release extract
Extract the contents of an update payload to disk
Example usage
# Use git to check out the source code for the current cluster release to DIR oc adm release extract --git=DIR # Extract cloud credential requests for AWS oc adm release extract --credentials-requests --cloud=aws
2.6.1.34. oc adm release info
Display information about a release
Example usage
# Show information about the cluster's current release oc adm release info # Show the source code that comprises a release oc adm release info 4.2.2 --commit-urls # Show the source code difference between two releases oc adm release info 4.2.0 4.2.2 --commits # Show where the images referenced by the release are located oc adm release info quay.io/openshift-release-dev/ocp-release:4.2.2 --pullspecs
2.6.1.35. oc adm release mirror
Mirror a release to a different image registry location
Example usage
# Perform a dry run showing what would be mirrored, including the mirror objects oc adm release mirror 4.3.0 --to myregistry.local/openshift/release \ --release-image-signature-to-dir /tmp/releases --dry-run # Mirror a release into the current directory oc adm release mirror 4.3.0 --to file://openshift/release \ --release-image-signature-to-dir /tmp/releases # Mirror a release to another directory in the default location oc adm release mirror 4.3.0 --to-dir /tmp/releases # Upload a release from the current directory to another server oc adm release mirror --from file://openshift/release --to myregistry.com/openshift/release \ --release-image-signature-to-dir /tmp/releases # Mirror the 4.3.0 release to repository registry.example.com and apply signatures to connected cluster oc adm release mirror --from=quay.io/openshift-release-dev/ocp-release:4.3.0-x86_64 \ --to=registry.example.com/your/repository --apply-release-image-signature
2.6.1.36. oc adm release new
Create a new OpenShift release
Example usage
# Create a release from the latest origin images and push to a DockerHub repo oc adm release new --from-image-stream=4.1 -n origin --to-image docker.io/mycompany/myrepo:latest # Create a new release with updated metadata from a previous release oc adm release new --from-release registry.svc.ci.openshift.org/origin/release:v4.1 --name 4.1.1 \ --previous 4.1.0 --metadata ... --to-image docker.io/mycompany/myrepo:latest # Create a new release and override a single image oc adm release new --from-release registry.svc.ci.openshift.org/origin/release:v4.1 \ cli=docker.io/mycompany/cli:latest --to-image docker.io/mycompany/myrepo:latest # Run a verification pass to ensure the release can be reproduced oc adm release new --from-release registry.svc.ci.openshift.org/origin/release:v4.1
2.6.1.37. oc adm taint
Update the taints on one or more nodes
Example usage
# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule' # If a taint with that key and effect already exists, its value is replaced as specified oc adm taint nodes foo dedicated=special-user:NoSchedule # Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists oc adm taint nodes foo dedicated:NoSchedule- # Remove from node 'foo' all the taints with key 'dedicated' oc adm taint nodes foo dedicated- # Add a taint with key 'dedicated' on nodes having label mylabel=X oc adm taint node -l myLabel=X dedicated=foo:PreferNoSchedule # Add to node 'foo' a taint with key 'bar' and no value oc adm taint nodes foo bar:NoSchedule
2.6.1.38. oc adm top images
Show usage statistics for images
Example usage
# Show usage statistics for images oc adm top images
2.6.1.39. oc adm top imagestreams
Show usage statistics for image streams
Example usage
# Show usage statistics for image streams oc adm top imagestreams
2.6.1.40. oc adm top node
Display resource (CPU/memory) usage of nodes
Example usage
# Show metrics for all nodes oc adm top node # Show metrics for a given node oc adm top node NODE_NAME
2.6.1.41. oc adm top pod
Display resource (CPU/memory) usage of pods
Example usage
# Show metrics for all pods in the default namespace oc adm top pod # Show metrics for all pods in the given namespace oc adm top pod --namespace=NAMESPACE # Show metrics for a given pod and its containers oc adm top pod POD_NAME --containers # Show metrics for the pods defined by label name=myLabel oc adm top pod -l name=myLabel
2.6.1.42. oc adm uncordon
Mark node as schedulable
Example usage
# Mark node "foo" as schedulable oc adm uncordon foo
2.6.1.43. oc adm upgrade
Upgrade a cluster
Example usage
# Review the available cluster updates oc adm upgrade # Update to the latest version oc adm upgrade --to-latest=true
2.6.1.44. oc adm verify-image-signature
Verify the image identity contained in the image signature
Example usage
# Verify the image signature and identity using the local GPG keychain oc adm verify-image-signature sha256:c841e9b64e4579bd56c794bdd7c36e1c257110fd2404bebbb8b613e4935228c4 \ --expected-identity=registry.local:5000/foo/bar:v1 # Verify the image signature and identity using the local GPG keychain and save the status oc adm verify-image-signature sha256:c841e9b64e4579bd56c794bdd7c36e1c257110fd2404bebbb8b613e4935228c4 \ --expected-identity=registry.local:5000/foo/bar:v1 --save # Verify the image signature and identity via exposed registry route oc adm verify-image-signature sha256:c841e9b64e4579bd56c794bdd7c36e1c257110fd2404bebbb8b613e4935228c4 \ --expected-identity=registry.local:5000/foo/bar:v1 \ --registry-url=docker-registry.foo.com # Remove all signature verifications from the image oc adm verify-image-signature sha256:c841e9b64e4579bd56c794bdd7c36e1c257110fd2404bebbb8b613e4935228c4 --remove-all
2.6.2. Additional resources
2.7. Usage of oc and kubectl commands
The Kubernetes command-line interface (CLI), kubectl
, can be used to run commands against a Kubernetes cluster. Because OpenShift Container Platform is a certified Kubernetes distribution, you can use the supported kubectl
binaries that ship with OpenShift Container Platform, or you can gain extended functionality by using the oc
binary.
2.7.1. The oc binary
The oc
binary offers the same capabilities as the kubectl
binary, but it extends to natively support additional OpenShift Container Platform features, including:
Full support for OpenShift Container Platform resources
Resources such as
DeploymentConfig
,BuildConfig
,Route
,ImageStream
, andImageStreamTag
objects are specific to OpenShift Container Platform distributions, and build upon standard Kubernetes primitives.Authentication
The
oc
binary offers a built-inlogin
command that allows authentication and enables you to work with OpenShift Container Platform projects, which map Kubernetes namespaces to authenticated users. See Understanding authentication for more information.Additional commands
The additional command
oc new-app
, for example, makes it easier to get new applications started using existing source code or pre-built images. Similarly, the additional commandoc new-project
makes it easier to start a project that you can switch to as your default.
If you installed an earlier version of the oc
binary, you cannot use it to complete all of the commands in OpenShift Container Platform 4.10. If you want the latest features, you must download and install the latest version of the oc
binary corresponding to your OpenShift Container Platform server version.
Non-security API changes will involve, at minimum, two minor releases (4.1 to 4.2 to 4.3, for example) to allow older oc
binaries to update. Using new capabilities might require newer oc
binaries. A 4.3 server might have additional capabilities that a 4.2 oc
binary cannot use and a 4.3 oc
binary might have additional capabilities that are unsupported by a 4.2 server.
X.Y ( |
X.Y+N footnote:versionpolicyn[Where N is a number greater than or equal to 1.] ( | |
X.Y (Server) |
|
|
X.Y+N footnote:versionpolicyn[] (Server) |
|
|
Fully compatible.
oc
client might not be able to access server features.
oc
client might provide options and features that might not be compatible with the accessed server.
2.7.2. The kubectl binary
The kubectl
binary is provided as a means to support existing workflows and scripts for new OpenShift Container Platform users coming from a standard Kubernetes environment, or for those who prefer to use the kubectl
CLI. Existing users of kubectl
can continue to use the binary to interact with Kubernetes primitives, with no changes required to the OpenShift Container Platform cluster.
You can install the supported kubectl
binary by following the steps to Install the OpenShift CLI. The kubectl
binary is included in the archive if you download the binary, or is installed when you install the CLI by using an RPM.
For more information, see the kubectl documentation.
Chapter 3. Important update on odo
Red Hat does not provide information about odo
on the OpenShift Container Platform documentation site. See the documentation maintained by Red Hat and the upstream community for documentation information related to odo
.
For the materials maintained by the upstream community, Red Hat provides support under Cooperative Community Support.
Chapter 4. Knative CLI for use with OpenShift Serverless
The Knative (kn
) CLI enables simple interaction with Knative components on OpenShift Container Platform.
4.1. Key features
The Knative (kn
) CLI is designed to make serverless computing tasks simple and concise. Key features of the Knative CLI include:
- Deploy serverless applications from the command line.
- Manage features of Knative Serving, such as services, revisions, and traffic-splitting.
- Create and manage Knative Eventing components, such as event sources and triggers.
- Create sink bindings to connect existing Kubernetes applications and Knative services.
-
Extend the Knative CLI with flexible plugin architecture, similar to the
kubectl
CLI. - Configure autoscaling parameters for Knative services.
- Scripted usage, such as waiting for the results of an operation, or deploying custom rollout and rollback strategies.
4.2. Installing the Knative CLI
Chapter 5. Pipelines CLI (tkn)
5.1. Installing tkn
Use the tkn
CLI to manage Red Hat OpenShift Pipelines from a terminal. The following section describes how to install tkn
on different platforms.
You can also find the URL to the latest binaries from the OpenShift Container Platform web console by clicking the ? icon in the upper-right corner and selecting Command Line Tools.
5.1.1. Installing Red Hat OpenShift Pipelines CLI (tkn) on Linux
For Linux distributions, you can download the CLI directly as a tar.gz
archive.
Procedure
Download the relevant CLI.
Unpack the archive:
$ tar xvzf <file>
-
Place the
tkn
binary in a directory that is on yourPATH
. To check your
PATH
, run:$ echo $PATH
5.1.2. Installing Red Hat OpenShift Pipelines CLI (tkn) on Linux using an RPM
For Red Hat Enterprise Linux (RHEL) version 8, you can install the Red Hat OpenShift Pipelines CLI (tkn
) as an RPM.
Prerequisites
- You have an active OpenShift Container Platform subscription on your Red Hat account.
- You have root or sudo privileges on your local system.
Procedure
Register with Red Hat Subscription Manager:
# subscription-manager register
Pull the latest subscription data:
# subscription-manager refresh
List the available subscriptions:
# subscription-manager list --available --matches '*pipelines*'
In the output for the previous command, find the pool ID for your OpenShift Container Platform subscription and attach the subscription to the registered system:
# subscription-manager attach --pool=<pool_id>
Enable the repositories required by Red Hat OpenShift Pipelines:
Linux (x86_64, amd64)
# subscription-manager repos --enable="pipelines-1.7-for-rhel-8-x86_64-rpms"
Linux on IBM Z and LinuxONE (s390x)
# subscription-manager repos --enable="pipelines-1.7-for-rhel-8-s390x-rpms"
Linux on IBM Power Systems (ppc64le)
# subscription-manager repos --enable="pipelines-1.7-for-rhel-8-ppc64le-rpms"
Install the
openshift-pipelines-client
package:# yum install openshift-pipelines-client
After you install the CLI, it is available using the tkn
command:
$ tkn version
5.1.3. Installing Red Hat OpenShift Pipelines CLI (tkn) on Windows
For Windows, the tkn
CLI is provided as a zip
archive.
Procedure
- Download the CLI.
- Unzip the archive with a ZIP program.
-
Add the location of your
tkn.exe
file to yourPATH
environment variable. To check your
PATH
, open the command prompt and run the command:C:\> path
5.1.4. Installing Red Hat OpenShift Pipelines CLI (tkn) on macOS
For macOS, the tkn
CLI is provided as a tar.gz
archive.
Procedure
- Download the CLI.
- Unpack and unzip the archive.
-
Move the
tkn
binary to a directory on your PATH. To check your
PATH
, open a terminal window and run:$ echo $PATH
5.2. Configuring the OpenShift Pipelines tkn CLI
Configure the Red Hat OpenShift Pipelines tkn
CLI to enable tab completion.
5.2.1. Enabling tab completion
After you install the tkn
CLI, you can enable tab completion to automatically complete tkn
commands or suggest options when you press Tab.
Prerequisites
-
You must have the
tkn
CLI tool installed. -
You must have
bash-completion
installed on your local system.
Procedure
The following procedure enables tab completion for Bash.
Save the Bash completion code to a file:
$ tkn completion bash > tkn_bash_completion
Copy the file to
/etc/bash_completion.d/
:$ sudo cp tkn_bash_completion /etc/bash_completion.d/
Alternatively, you can save the file to a local directory and source it from your
.bashrc
file instead.
Tab completion is enabled when you open a new terminal.
5.3. OpenShift Pipelines tkn reference
This section lists the basic tkn
CLI commands.
5.3.1. Basic syntax
tkn [command or options] [arguments…]
5.3.2. Global options
--help, -h
5.3.3. Utility commands
5.3.3.1. tkn
Parent command for tkn
CLI.
Example: Display all options
$ tkn
5.3.3.2. completion [shell]
Print shell completion code which must be evaluated to provide interactive completion. Supported shells are bash
and zsh
.
Example: Completion code for bash
shell
$ tkn completion bash
5.3.3.3. version
Print version information of the tkn
CLI.
Example: Check the tkn
version
$ tkn version
5.3.4. Pipelines management commands
5.3.4.1. pipeline
Manage pipelines.
Example: Display help
$ tkn pipeline --help
5.3.4.2. pipeline delete
Delete a pipeline.
Example: Delete the mypipeline
pipeline from a namespace
$ tkn pipeline delete mypipeline -n myspace
5.3.4.3. pipeline describe
Describe a pipeline.
Example: Describe the mypipeline
pipeline
$ tkn pipeline describe mypipeline
5.3.4.4. pipeline list
Display a list of pipelines.
Example: Display a list of pipelines
$ tkn pipeline list
5.3.4.5. pipeline logs
Display the logs for a specific pipeline.
Example: Stream the live logs for the mypipeline
pipeline
$ tkn pipeline logs -f mypipeline
5.3.4.6. pipeline start
Start a pipeline.
Example: Start the mypipeline
pipeline
$ tkn pipeline start mypipeline
5.3.5. Pipeline run commands
5.3.5.1. pipelinerun
Manage pipeline runs.
Example: Display help
$ tkn pipelinerun -h
5.3.5.2. pipelinerun cancel
Cancel a pipeline run.
Example: Cancel the mypipelinerun
pipeline run from a namespace
$ tkn pipelinerun cancel mypipelinerun -n myspace
5.3.5.3. pipelinerun delete
Delete a pipeline run.
Example: Delete pipeline runs from a namespace
$ tkn pipelinerun delete mypipelinerun1 mypipelinerun2 -n myspace
Example: Delete all pipeline runs from a namespace, except the five most recently executed pipeline runs
$ tkn pipelinerun delete -n myspace --keep 5 1
- 1
- Replace
5
with the number of most recently executed pipeline runs you want to retain.
Example: Delete all pipelines
$ tkn pipelinerun delete --all
Starting with Red Hat OpenShift Pipelines 1.6, the tkn pipelinerun delete --all
command does not delete any resources that are in the running state.
5.3.5.4. pipelinerun describe
Describe a pipeline run.
Example: Describe the mypipelinerun
pipeline run in a namespace
$ tkn pipelinerun describe mypipelinerun -n myspace
5.3.5.5. pipelinerun list
List pipeline runs.
Example: Display a list of pipeline runs in a namespace
$ tkn pipelinerun list -n myspace
5.3.5.6. pipelinerun logs
Display the logs of a pipeline run.
Example: Display the logs of the mypipelinerun
pipeline run with all tasks and steps in a namespace
$ tkn pipelinerun logs mypipelinerun -a -n myspace
5.3.6. Task management commands
5.3.6.1. task
Manage tasks.
Example: Display help
$ tkn task -h
5.3.6.2. task delete
Delete a task.
Example: Delete mytask1
and mytask2
tasks from a namespace
$ tkn task delete mytask1 mytask2 -n myspace
5.3.6.3. task describe
Describe a task.
Example: Describe the mytask
task in a namespace
$ tkn task describe mytask -n myspace
5.3.6.4. task list
List tasks.
Example: List all the tasks in a namespace
$ tkn task list -n myspace
5.3.6.5. task logs
Display task logs.
Example: Display logs for the mytaskrun
task run of the mytask
task
$ tkn task logs mytask mytaskrun -n myspace
5.3.6.6. task start
Start a task.
Example: Start the mytask
task in a namespace
$ tkn task start mytask -s <ServiceAccountName> -n myspace
5.3.7. Task run commands
5.3.7.1. taskrun
Manage task runs.
Example: Display help
$ tkn taskrun -h
5.3.7.2. taskrun cancel
Cancel a task run.
Example: Cancel the mytaskrun
task run from a namespace
$ tkn taskrun cancel mytaskrun -n myspace
5.3.7.3. taskrun delete
Delete a TaskRun.
Example: Delete the mytaskrun1
and mytaskrun2
task runs from a namespace
$ tkn taskrun delete mytaskrun1 mytaskrun2 -n myspace
Example: Delete all but the five most recently executed task runs from a namespace
$ tkn taskrun delete -n myspace --keep 5 1
- 1
- Replace
5
with the number of most recently executed task runs you want to retain.
5.3.7.4. taskrun describe
Describe a task run.
Example: Describe the mytaskrun
task run in a namespace
$ tkn taskrun describe mytaskrun -n myspace
5.3.7.5. taskrun list
List task runs.
Example: List all the task runs in a namespace
$ tkn taskrun list -n myspace
5.3.7.6. taskrun logs
Display task run logs.
Example: Display live logs for the mytaskrun
task run in a namespace
$ tkn taskrun logs -f mytaskrun -n myspace
5.3.8. Condition management commands
5.3.8.1. condition
Manage Conditions.
Example: Display help
$ tkn condition --help
5.3.8.2. condition delete
Delete a Condition.
Example: Delete the mycondition1
Condition from a namespace
$ tkn condition delete mycondition1 -n myspace
5.3.8.3. condition describe
Describe a Condition.
Example: Describe the mycondition1
Condition in a namespace
$ tkn condition describe mycondition1 -n myspace
5.3.8.4. condition list
List Conditions.
Example: List Conditions in a namespace
$ tkn condition list -n myspace
5.3.9. Pipeline Resource management commands
5.3.9.1. resource
Manage Pipeline Resources.
Example: Display help
$ tkn resource -h
5.3.9.2. resource create
Create a Pipeline Resource.
Example: Create a Pipeline Resource in a namespace
$ tkn resource create -n myspace
This is an interactive command that asks for input on the name of the Resource, type of the Resource, and the values based on the type of the Resource.
5.3.9.3. resource delete
Delete a Pipeline Resource.
Example: Delete the myresource
Pipeline Resource from a namespace
$ tkn resource delete myresource -n myspace
5.3.9.4. resource describe
Describe a Pipeline Resource.
Example: Describe the myresource
Pipeline Resource
$ tkn resource describe myresource -n myspace
5.3.9.5. resource list
List Pipeline Resources.
Example: List all Pipeline Resources in a namespace
$ tkn resource list -n myspace
5.3.10. ClusterTask management commands
5.3.10.1. clustertask
Manage ClusterTasks.
Example: Display help
$ tkn clustertask --help
5.3.10.2. clustertask delete
Delete a ClusterTask resource in a cluster.
Example: Delete mytask1
and mytask2
ClusterTasks
$ tkn clustertask delete mytask1 mytask2
5.3.10.3. clustertask describe
Describe a ClusterTask.
Example: Describe the mytask
ClusterTask
$ tkn clustertask describe mytask1
5.3.10.4. clustertask list
List ClusterTasks.
Example: List ClusterTasks
$ tkn clustertask list
5.3.10.5. clustertask start
Start ClusterTasks.
Example: Start the mytask
ClusterTask
$ tkn clustertask start mytask
5.3.11. Trigger management commands
5.3.11.1. eventlistener
Manage EventListeners.
Example: Display help
$ tkn eventlistener -h
5.3.11.2. eventlistener delete
Delete an EventListener.
Example: Delete mylistener1
and mylistener2
EventListeners in a namespace
$ tkn eventlistener delete mylistener1 mylistener2 -n myspace
5.3.11.3. eventlistener describe
Describe an EventListener.
Example: Describe the mylistener
EventListener in a namespace
$ tkn eventlistener describe mylistener -n myspace
5.3.11.4. eventlistener list
List EventListeners.
Example: List all the EventListeners in a namespace
$ tkn eventlistener list -n myspace
5.3.11.5. eventlistener logs
Display logs of an EventListener.
Example: Display the logs of the mylistener
EventListener in a namespace
$ tkn eventlistener logs mylistener -n myspace
5.3.11.6. triggerbinding
Manage TriggerBindings.
Example: Display TriggerBindings help
$ tkn triggerbinding -h
5.3.11.7. triggerbinding delete
Delete a TriggerBinding.
Example: Delete mybinding1
and mybinding2
TriggerBindings in a namespace
$ tkn triggerbinding delete mybinding1 mybinding2 -n myspace
5.3.11.8. triggerbinding describe
Describe a TriggerBinding.
Example: Describe the mybinding
TriggerBinding in a namespace
$ tkn triggerbinding describe mybinding -n myspace
5.3.11.9. triggerbinding list
List TriggerBindings.
Example: List all the TriggerBindings in a namespace
$ tkn triggerbinding list -n myspace
5.3.11.10. triggertemplate
Manage TriggerTemplates.
Example: Display TriggerTemplate help
$ tkn triggertemplate -h
5.3.11.11. triggertemplate delete
Delete a TriggerTemplate.
Example: Delete mytemplate1
and mytemplate2
TriggerTemplates in a namespace
$ tkn triggertemplate delete mytemplate1 mytemplate2 -n `myspace`
5.3.11.12. triggertemplate describe
Describe a TriggerTemplate.
Example: Describe the mytemplate
TriggerTemplate in a namespace
$ tkn triggertemplate describe mytemplate -n `myspace`
5.3.11.13. triggertemplate list
List TriggerTemplates.
Example: List all the TriggerTemplates in a namespace
$ tkn triggertemplate list -n myspace
5.3.11.14. clustertriggerbinding
Manage ClusterTriggerBindings.
Example: Display ClusterTriggerBindings help
$ tkn clustertriggerbinding -h
5.3.11.15. clustertriggerbinding delete
Delete a ClusterTriggerBinding.
Example: Delete myclusterbinding1
and myclusterbinding2
ClusterTriggerBindings
$ tkn clustertriggerbinding delete myclusterbinding1 myclusterbinding2
5.3.11.16. clustertriggerbinding describe
Describe a ClusterTriggerBinding.
Example: Describe the myclusterbinding
ClusterTriggerBinding
$ tkn clustertriggerbinding describe myclusterbinding
5.3.11.17. clustertriggerbinding list
List ClusterTriggerBindings.
Example: List all ClusterTriggerBindings
$ tkn clustertriggerbinding list
5.3.12. Hub interaction commands
Interact with Tekton Hub for resources such as tasks and pipelines.
5.3.12.1. hub
Interact with hub.
Example: Display help
$ tkn hub -h
Example: Interact with a hub API server
$ tkn hub --api-server https://api.hub.tekton.dev
For each example, to get the corresponding sub-commands and flags, run tkn hub <command> --help
.
5.3.12.2. hub downgrade
Downgrade an installed resource.
Example: Downgrade the mytask
task in the mynamespace
namespace to it’s older version
$ tkn hub downgrade task mytask --to version -n mynamespace
5.3.12.3. hub get
Get a resource manifest by its name, kind, catalog, and version.
Example: Get the manifest for a specific version of the myresource
pipeline or task from the tekton
catalog
$ tkn hub get [pipeline | task] myresource --from tekton --version version
5.3.12.4. hub info
Display information about a resource by its name, kind, catalog, and version.
Example: Display information about a specific version of the mytask
task from the tekton
catalog
$ tkn hub info task mytask --from tekton --version version
5.3.12.5. hub install
Install a resource from a catalog by its kind, name, and version.
Example: Install a specific version of the mytask
task from the tekton
catalog in the mynamespace
namespace
$ tkn hub install task mytask --from tekton --version version -n mynamespace
5.3.12.6. hub reinstall
Reinstall a resource by its kind and name.
Example: Reinstall a specific version of the mytask
task from the tekton
catalog in the mynamespace
namespace
$ tkn hub reinstall task mytask --from tekton --version version -n mynamespace
5.3.12.7. hub search
Search a resource by a combination of name, kind, and tags.
Example: Search a resource with a tag cli
$ tkn hub search --tags cli
5.3.12.8. hub upgrade
Upgrade an installed resource.
Example: Upgrade the installed mytask
task in the mynamespace
namespace to a new version
$ tkn hub upgrade task mytask --to version -n mynamespace
Chapter 6. opm CLI
6.1. Installing the opm CLI
6.1.1. About the opm CLI
The opm
CLI tool is provided by the Operator Framework for use with the Operator bundle format. This tool allows you to create and maintain catalogs of Operators from a list of Operator bundles that are similar to software repositories. The result is a container image which can be stored in a container registry and then installed on a cluster.
A catalog contains a database of pointers to Operator manifest content that can be queried through an included API that is served when the container image is run. On OpenShift Container Platform, Operator Lifecycle Manager (OLM) can reference the image in a catalog source, defined by a CatalogSource
object, which polls the image at regular intervals to enable frequent updates to installed Operators on the cluster.
Additional resources
- See Operator Framework packaging format for more information about the bundle format.
- To create a bundle image using the Operator SDK, see Working with bundle images.
6.1.2. Installing the opm CLI
You can install the opm
CLI tool on your Linux, macOS, or Windows workstation.
Prerequisites
For Linux, you must provide the following packages. RHEL 8 meets these requirements:
-
podman
version 1.9.3+ (version 2.0+ recommended) -
glibc
version 2.28+
-
Procedure
- Navigate to the OpenShift mirror site and download the latest version of the tarball that matches your operating system.
Unpack the archive.
For Linux or macOS:
$ tar xvf <file>
- For Windows, unzip the archive with a ZIP program.
Place the file anywhere in your
PATH
.For Linux or macOS:
Check your
PATH
:$ echo $PATH
Move the file. For example:
$ sudo mv ./opm /usr/local/bin/
For Windows:
Check your
PATH
:C:\> path
Move the file:
C:\> move opm.exe <directory>
Verification
After you install the
opm
CLI, verify that it is available:$ opm version
6.1.3. Additional resources
-
See Managing custom catalogs for
opm
procedures including creating, updating, and pruning catalogs.
6.2. opm CLI reference
The opm
command-line interface (CLI) is a tool for creating and maintaining Operator catalogs.
opm
CLI syntax
$ opm <command> [<subcommand>] [<argument>] [<flags>]
Flag | Description |
---|---|
| Skip TLS certificate verification for container image registries while pulling bundles or indexes. |
The SQLite-based catalog format, including the related CLI commands, is a deprecated feature. Deprecated functionality is still included in OpenShift Container Platform and continues to be supported; however, it will be removed in a future release of this product and is not recommended for new deployments.
For the most recent list of major functionality that has been deprecated or removed within OpenShift Container Platform, refer to the Deprecated and removed features section of the OpenShift Container Platform release notes.
6.2.1. index
Generate Operator index container images from pre-existing Operator bundles.
Command syntax
$ opm index <subcommand> [<flags>]
Subcommand | Description |
---|---|
| Add Operator bundles to an index. |
| Prune an index of all but specified packages. |
| Prune an index of stranded bundles, which are bundles that are not associated with a particular image. |
| Delete an entire Operator from an index. |
6.2.1.1. add
Add Operator bundles to an index.
Command syntax
$ opm index add [<flags>]
Flag | Description |
---|---|
|
Container image for on-image |
|
Tool to build container images: |
| Comma-separated list of bundles to add. |
|
Tool to interact with container images, such as for saving and building: |
| Previous index to add to. |
| If enabled, only creates the Dockerfile and saves it to local disk. |
|
Graph update mode that defines how channel graphs are updated: |
| Optional: If generating the Dockerfile, specify a file name. |
| Allow registry load errors. |
|
Tool to pull container images: |
| Custom tag for container image being built. |
6.2.1.2. prune
Prune an index of all but specified packages.
Command syntax
$ opm index prune [<flags>]
Flag | Description |
---|---|
|
Container image for on-image |
|
Tool to interact with container images, such as for saving and building: |
| Index to prune. |
| If enabled, only creates the Dockerfile and saves it to local disk. |
| Optional: If generating the Dockerfile, specify a file name. |
| Comma-separated list of packages to keep. |
| Allow registry load errors. |
| Custom tag for container image being built. |
6.2.1.3. prune-stranded
Prune an index of stranded bundles, which are bundles that are not associated with a particular image.
Command syntax
$ opm index prune-stranded [<flags>]
Flag | Description |
---|---|
|
Container image for on-image |
|
Tool to interact with container images, such as for saving and building: |
| Index to prune. |
| If enabled, only creates the Dockerfile and saves it to local disk. |
| Optional: If generating the Dockerfile, specify a file name. |
| Comma-separated list of packages to keep. |
| Allow registry load errors. |
| Custom tag for container image being built. |
6.2.1.4. rm
Delete an entire Operator from an index.
Command syntax
$ opm index rm [<flags>]
Flag | Description |
---|---|
|
Container image for on-image |
|
Tool to build container images: |
|
Tool to interact with container images, such as for saving and building: |
| Previous index to delete from. |
| If enabled, only creates the Dockerfile and saves it to local disk. |
| Comma-separated list of Operators to delete. |
| Optional: If generating the Dockerfile, specify a file name. |
| Comma-separated list of packages to keep. |
| Allow registry load errors. |
|
Tool to pull container images: |
| Custom tag for container image being built. |
6.2.2. init
Generate an olm.package
declarative config blob.
Command syntax
$ opm init <package_name> [<flags>]
Flag | Description |
---|---|
| The channel that subscriptions will default to if unspecified. |
|
Path to the Operator’s |
| Path to package’s icon. |
|
Output format: |
6.2.3. render
Generate a declarative config blob from the provided index images, bundle images, and SQLite database files.
Command syntax
$ opm render <index_image | bundle_image | sqlite_file> [<flags>]
Flag | Description |
---|---|
|
Output format: |
6.2.4. validate
Validate the declarative config JSON file(s) in a given directory.
Command syntax
$ opm validate <directory> [<flags>]
6.2.5. serve
Serve declarative configs via a GRPC server.
The declarative config directory is loaded by the serve
command at startup. Changes made to the declarative config after this command starts are not reflected in the served content.
Command syntax
$ opm serve <source_path> [<flags>]
Flag | Description |
---|---|
| Enable debug logging. |
|
Port number to serve on. Default: |
|
Path to a container termination log file. Default: |
Chapter 7. Operator SDK
7.1. Installing the Operator SDK CLI
The Operator SDK provides a command-line interface (CLI) tool that Operator developers can use to build, test, and deploy an Operator. You can install the Operator SDK CLI on your workstation so that you are prepared to start authoring your own Operators.
Operator authors with cluster administrator access to a Kubernetes-based cluster, such as OpenShift Container Platform, can use the Operator SDK CLI to develop their own Operators based on Go, Ansible, or Helm. Kubebuilder is embedded into the Operator SDK as the scaffolding solution for Go-based Operators, which means existing Kubebuilder projects can be used as is with the Operator SDK and continue to work.
See Developing Operators for full documentation on the Operator SDK.
OpenShift Container Platform 4.10 supports Operator SDK v1.16.0.
7.1.1. Installing the Operator SDK CLI
You can install the OpenShift SDK CLI tool on Linux.
Prerequisites
- Go v1.16+
-
docker
v17.03+,podman
v1.9.3+, orbuildah
v1.7+
Procedure
- Navigate to the OpenShift mirror site.
- From the latest 4.10 directory, download the latest version of the tarball for Linux.
Unpack the archive:
$ tar xvf operator-sdk-v1.16.0-ocp-linux-x86_64.tar.gz
Make the file executable:
$ chmod +x operator-sdk
Move the extracted
operator-sdk
binary to a directory that is on yourPATH
.TipTo check your
PATH
:$ echo $PATH
$ sudo mv ./operator-sdk /usr/local/bin/operator-sdk
Verification
After you install the Operator SDK CLI, verify that it is available:
$ operator-sdk version
Example output
operator-sdk version: "v1.16.0-ocp", ...
7.2. Operator SDK CLI reference
The Operator SDK command-line interface (CLI) is a development kit designed to make writing Operators easier.
Operator SDK CLI syntax
$ operator-sdk <command> [<subcommand>] [<argument>] [<flags>]
See Developing Operators for full documentation on the Operator SDK.
7.2.1. bundle
The operator-sdk bundle
command manages Operator bundle metadata.
7.2.1.1. validate
The bundle validate
subcommand validates an Operator bundle.
Flag | Description |
---|---|
|
Help output for the |
|
Tool to pull and unpack bundle images. Only used when validating a bundle image. Available options are |
| List all optional validators available. When set, no validators are run. |
|
Label selector to select optional validators to run. When run with the |
7.2.2. cleanup
The operator-sdk cleanup
command destroys and removes resources that were created for an Operator that was deployed with the run
command.
Flag | Description |
---|---|
|
Help output for the |
|
Path to the |
| If present, namespace in which to run the CLI request. |
|
Time to wait for the command to complete before failing. The default value is |
7.2.3. completion
The operator-sdk completion
command generates shell completions to make issuing CLI commands quicker and easier.
Subcommand | Description |
---|---|
| Generate bash completions. |
| Generate zsh completions. |
Flag | Description |
---|---|
| Usage help output. |
For example:
$ operator-sdk completion bash
Example output
# bash completion for operator-sdk -*- shell-script -*- ... # ex: ts=4 sw=4 et filetype=sh
7.2.4. create
The operator-sdk create
command is used to create, or scaffold, a Kubernetes API.
7.2.4.1. api
The create api
subcommand scaffolds a Kubernetes API. The subcommand must be run in a project that was initialized with the init
command.
Flag | Description |
---|---|
|
Help output for the |
7.2.5. generate
The operator-sdk generate
command invokes a specific generator to generate code or manifests.
7.2.5.1. bundle
The generate bundle
subcommand generates a set of bundle manifests, metadata, and a bundle.Dockerfile
file for your Operator project.
Typically, you run the generate kustomize manifests
subcommand first to generate the input Kustomize bases that are used by the generate bundle
subcommand. However, you can use the make bundle
command in an initialized project to automate running these commands in sequence.
Flag | Description |
---|---|
|
Comma-separated list of channels to which the bundle belongs. The default value is |
|
Root directory for |
| The default channel for the bundle. |
|
Root directory for Operator manifests, such as deployments and RBAC. This directory is different from the directory passed to the |
|
Help for |
|
Directory from which to read an existing bundle. This directory is the parent of your bundle |
|
Directory containing Kustomize bases and a |
| Generate bundle manifests. |
| Generate bundle metadata and Dockerfile. |
| Directory to write the bundle to. |
|
Overwrite the bundle metadata and Dockerfile if they exist. The default value is |
| Package name for the bundle. |
| Run in quiet mode. |
| Write bundle manifest to standard out. |
| Semantic version of the Operator in the generated bundle. Set only when creating a new bundle or upgrading the Operator. |
Additional resources
-
See Bundling an Operator and deploying with Operator Lifecycle Manager for a full procedure that includes using the
make bundle
command to call thegenerate bundle
subcommand.
7.2.5.2. kustomize
The generate kustomize
subcommand contains subcommands that generate Kustomize data for the Operator.
7.2.5.2.1. manifests
The generate kustomize manifests
subcommand generates or regenerates Kustomize bases and a kustomization.yaml
file in the config/manifests
directory, which are used to build bundle manifests by other Operator SDK commands. This command interactively asks for UI metadata, an important component of manifest bases, by default unless a base already exists or you set the --interactive=false
flag.
Flag | Description |
---|---|
| Root directory for API type definitions. |
|
Help for |
| Directory containing existing Kustomize files. |
|
When set to |
| Directory where to write Kustomize files. |
| Package name. |
| Run in quiet mode. |
7.2.6. init
The operator-sdk init
command initializes an Operator project and generates, or scaffolds, a default project directory layout for the given plugin.
This command writes the following files:
- Boilerplate license file
-
PROJECT
file with the domain and repository -
Makefile
to build the project -
go.mod
file with project dependencies -
kustomization.yaml
file for customizing manifests - Patch file for customizing images for manager manifests
- Patch file for enabling Prometheus metrics
-
main.go
file to run
Flag | Description |
---|---|
|
Help output for the |
|
Name and optionally version of the plugin to initialize the project with. Available plugins are |
|
Project version. Available values are |
7.2.7. run
The operator-sdk run
command provides options that can launch the Operator in various environments.
7.2.7.1. bundle
The run bundle
subcommand deploys an Operator in the bundle format with Operator Lifecycle Manager (OLM).
Flag | Description |
---|---|
|
Index image in which to inject a bundle. The default image is |
|
Install mode supported by the cluster service version (CSV) of the Operator, for example |
|
Install timeout. The default value is |
|
Path to the |
| If present, namespace in which to run the CLI request. |
|
Help output for the |
Additional resources
- See Operator group membership for details on possible install modes.
7.2.7.2. bundle-upgrade
The run bundle-upgrade
subcommand upgrades an Operator that was previously installed in the bundle format with Operator Lifecycle Manager (OLM).
Flag | Description |
---|---|
|
Upgrade timeout. The default value is |
|
Path to the |
| If present, namespace in which to run the CLI request. |
|
Help output for the |
7.2.8. scorecard
The operator-sdk scorecard
command runs the scorecard tool to validate an Operator bundle and provide suggestions for improvements. The command takes one argument, either a bundle image or directory containing manifests and metadata. If the argument holds an image tag, the image must be present remotely.
Flag | Description |
---|---|
|
Path to scorecard configuration file. The default path is |
|
Help output for the |
|
Path to |
| List which tests are available to run. |
| Namespace in which to run the test images. |
|
Output format for results. Available values are |
| Label selector to determine which tests are run. |
|
Service account to use for tests. The default value is |
| Disable resource cleanup after tests are run. |
|
Seconds to wait for tests to complete, for example |
Additional resources
- See Validating Operators using the scorecard tool for details about running the scorecard tool.
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OpenShift documentation is licensed under the Apache License 2.0 (https://www.apache.org/licenses/LICENSE-2.0).
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Portions adapted from https://github.com/kubernetes-incubator/service-catalog/ with modifications by Red Hat.
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