@openshift-console/dynamic-plugin-sdk-webpack v1.3.0
OpenShift Console Dynamic Plugins
Based on the concept of webpack module federation, dynamic plugins are loaded and interpreted from remote sources at runtime. The standard way to deliver and expose dynamic plugins to Console is through OLM operators.
Dynamic plugins are decoupled from the Console application, which means both plugins and Console can be released, installed and upgraded independently from each other. To ensure compatibility with Console and other plugins, each plugin must declare its dependencies using semantic version ranges.
Example project structure:
dynamic-demo-plugin/
├── src/
├── console-extensions.json
├── package.json
├── tsconfig.json
└── webpack.config.ts
Related Documentation
Extension Documentation - Detailed documentation of all available Console extension points.
API Documentation - Detailed documentation of React components, hooks and other APIs provided by Console to its dynamic plugins.
OpenShift Console Dynamic Plugins feature page - A high-level overview of dynamic plugins in relation to OLM operators and cluster administration.
Plugin project references
If you're new to dynamic plugins, we suggest to clone the Console plugin template repo and follow its instructions on setting up a local plugin development environment. We recommend running the Console application with a container image to avoid having to build Console locally.
The CronTab plugin is a sample plugin that uses the
CronTab
Custom Resource Definition (CRD) from
Kubernetes documentation
and implements basic CRD operations such as creating, editing and deleting.
The Console demo plugin located in the Console repo is primarily meant for testing the current Console plugin SDK features.
Here is a list of real world dynamic plugins that may serve as a further reference point:
Plugin Name | Git Repo |
---|---|
kubevirt-plugin (KubeVirt) | https://github.com/kubevirt-ui/kubevirt-plugin |
networking-console-plugin (OpenShift Networking) | https://github.com/openshift/networking-console-plugin |
netobserv-plugin (Network Observability) | https://github.com/netobserv/network-observability-console-plugin |
odf-console (OpenShift Data Foundation) | https://github.com/red-hat-storage/odf-console/tree/master/plugins/odf |
odf-multicluster-console (ODF MultiCluster Orchestrator) | https://github.com/red-hat-storage/odf-console/tree/master/plugins/mco |
pipelines-console-plugin (OpenShift Pipelines) | https://github.com/openshift-pipelines/console-plugin |
acm (Red Hat Advanced Cluster Management) | https://github.com/stolostron/console/tree/main/frontend/plugins/acm |
mce (MultiCluster Engine for Kubernetes) | https://github.com/stolostron/console/tree/main/frontend/plugins/mce |
ossmconsole (OpenShift Service Mesh) | https://github.com/kiali/openshift-servicemesh-plugin |
There's also the Cat Facts Operator which serves as a reference point for writing an OLM operator that ships with its own Console dynamic plugin.
Distributable SDK package overview
Package Name | Description |
---|---|
@openshift-console/dynamic-plugin-sdk | Provides core APIs, types and utilities used by dynamic plugins at runtime. |
@openshift-console/dynamic-plugin-sdk-webpack | Provides webpack ConsoleRemotePlugin used to build all dynamic plugin assets. |
@openshift-console/dynamic-plugin-sdk-internal | Internal package exposing additional code. |
@openshift-console/plugin-shared | Provides reusable components and utility functions to build OCP dynamic plugins. Compatible with multiple versions of OpenShift Console. |
OpenShift Console Versions vs SDK Versions
Not all NPM packages are fully compatible with all versions of the Console. This table will help align compatible versions of distributable SDK packages to versions of the OpenShift Console.
Console Version | SDK Package | Last Package Version |
---|---|---|
4.17.x | @openshift-console/dynamic-plugin-sdk | Latest |
@openshift-console/dynamic-plugin-sdk-webpack | Latest | |
4.16.x | @openshift-console/dynamic-plugin-sdk | 1.4.0 |
@openshift-console/dynamic-plugin-sdk-webpack | 1.1.1 | |
4.15.x | @openshift-console/dynamic-plugin-sdk | 1.0.0 |
@openshift-console/dynamic-plugin-sdk-webpack | 1.0.2 | |
4.14.x | @openshift-console/dynamic-plugin-sdk | 0.0.21 |
@openshift-console/dynamic-plugin-sdk-webpack | 0.0.11 | |
4.13.x | @openshift-console/dynamic-plugin-sdk | 0.0.19 |
@openshift-console/dynamic-plugin-sdk-webpack | 0.0.9 | |
4.12.x | @openshift-console/dynamic-plugin-sdk | 0.0.18 |
@openshift-console/dynamic-plugin-sdk-webpack | 0.0.9 |
Note: this table includes Console versions which currently receive technical support, as per Red Hat OpenShift Container Platform Life Cycle Policy.
OpenShift Console Versions vs PatternFly Versions
Each Console version supports specific version(s) of PatternFly in terms of CSS styling. This table will help align compatible versions of PatternFly to versions of the OpenShift Console.
Console Version | PatternFly Versions | Notes |
---|---|---|
4.16.x | 5.x + 4.x | New dynamic plugins should use PF 5.x |
4.15.x | 5.x + 4.x | New dynamic plugins should use PF 5.x |
4.14.x | 4.x | |
4.13.x | 4.x | |
4.12.x | 4.x |
Refer to PatternFly Upgrade Notes containing links to PatternFly documentation.
Shared modules
Console is configured to share specific modules with its dynamic plugins.
The following shared modules are provided by Console, without plugins providing their own fallback:
@openshift-console/dynamic-plugin-sdk
@openshift-console/dynamic-plugin-sdk-internal
react
react-i18next
react-redux
react-router
react-router-dom
react-router-dom-v5-compat
redux
redux-thunk
For backwards compatibility, Console also provides the following PatternFly 4.x shared modules:
@patternfly/react-core
@patternfly/react-table
@patternfly/quickstarts
Any shared modules provided by Console without plugin provided fallback are listed as dependencies
in the package.json
manifest of @openshift-console/dynamic-plugin-sdk
package.
Changes in shared modules
This section documents notable changes in the Console provided shared modules across Console versions.
Console 4.14.x
- Added
react-router-dom-v5-compat
module to allow plugins to migrate to React Router v6. Check the Official v5 to v6 Migration Guide (section "Migration Strategy" and beyond) for details.
Console 4.15.x
- The Console application now uses React Router v6 code internally. Plugins that only target OpenShift
Console 4.15 or later should fully upgrade to React Router v6 via
react-router-dom-v5-compat
module.
Console 4.16.x
- Removed
react-helmet
module. - All Console provided PatternFly 4.x shared modules are deprecated and will be removed in the future. See PatternFly Upgrade Notes for details on upgrading to PatternFly 5.
- All Console provided React Router v5 shared modules are deprecated and will be removed in the future.
Plugins should upgrade to React Router v6 via
react-router-dom-v5-compat
module.
PatternFly dynamic modules
Newer versions of @openshift-console/dynamic-plugin-sdk-webpack
package (1.0.0 and higher) include
support for automatic detection and sharing of individual PatternFly 5.x dynamic modules.
Plugins using PatternFly 5.x dependencies should generally avoid non-index imports for any PatternFly packages, for example:
// Do _not_ do this:
import { MonitoringIcon } from '@patternfly/react-icons/dist/esm/icons/monitoring-icon';
// Instead, do this:
import { MonitoringIcon } from '@patternfly/react-icons';
Content Security Policy
Console application uses Content Security Policy
(CSP) to detect and mitigate certain types of attacks. By default, the list of allowed
CSP sources
includes the document origin 'self'
and Console webpack dev server when running off-cluster.
All dynamic plugin assets should be loaded using /api/plugins/<plugin-name>
Bridge endpoint which
matches the 'self'
CSP source of Console application.
See cspSources
and cspDirectives
in
pkg/server/server.go
for details on the current Console CSP implementation.
Changes in Console CSP
This section documents notable changes in the Console Content Security Policy.
Console 4.18.x
Console CSP is deployed in report-only mode. CSP violations will be logged in the browser console but the associated CSP directives will not be enforced.
Plugin metadata
Older versions of webpack ConsoleRemotePlugin
assumed that the plugin metadata is specified via
consolePlugin
object within the package.json
file, for example:
{
"name": "dynamic-demo-plugin",
"version": "0.0.0",
// scripts, dependencies, devDependencies, ...
"consolePlugin": {
"name": "console-demo-plugin",
"version": "0.0.0",
"displayName": "Console Demo Plugin",
"description": "Plasma reactors online. Initiating hyper drive.",
"exposedModules": {
"barUtils": "./utils/bar"
},
"dependencies": {
"@console/pluginAPI": "~4.11.0"
}
}
}
Newer versions of webpack ConsoleRemotePlugin
allow passing the plugin metadata directly as an
object, for example:
new ConsoleRemotePlugin({
pluginMetadata: { /* same metadata like above */ },
})
name
serves as the plugin's unique identifier. Its value should be the same as metadata.name
of the corresponding ConsolePlugin
resource on the cluster. Therefore, it must be a valid
DNS subdomain name.
version
must be semver compliant version string.
Dynamic plugins can expose modules representing plugin code that can be referenced, loaded and executed
at runtime. A separate webpack chunk is generated for
each entry in the exposedModules
object. Exposed modules are resolved relative to the plugin's webpack
context
option.
The @console/pluginAPI
dependency is optional and refers to Console versions this dynamic plugin is
compatible with. The dependencies
object may also refer to other dynamic plugins that are required for
this plugin to work correctly. For dependencies where the version string may include a
semver pre-release identifier, adapt your semver range constraint
(dependency value) to include the relevant pre-release prefix, e.g. use ~4.11.0-0.ci
when targeting
pre-release versions like 4.11.0-0.ci-1234
.
Extensions contributed by the plugin
Older versions of webpack ConsoleRemotePlugin
assumed that the list of extensions contributed by the
plugin is specified via the console-extensions.json
file, for example:
// This file is parsed as JSONC (JSON with Comments)
[
{
"type": "console.flag",
"properties": {
"handler": { "$codeRef": "barUtils.testHandler" }
}
},
{
"type": "console.flag/model",
"properties": {
"flag": "EXAMPLE",
"model": {
"group": "kubevirt.io",
"version": "v1alpha3",
"kind": "ExampleModel"
}
}
}
]
Newer versions of webpack ConsoleRemotePlugin
allow passing the extension list directly as an array
of objects, for example:
new ConsoleRemotePlugin({
extensions: [ /* same extensions like above */ ],
})
Each extension a single instance of extending the Console application's functionality. Extensions are declarative and expressed as plain static objects.
Extension type
determines the kind of extension to perform, while any data and/or code necessary to
interpret such extensions are declared through their properties
.
Extensions may contain code references pointing to specific modules exposed by the plugin. For example:
{ $codeRef: 'barUtils' }
- refers todefault
export ofbarUtils
module{ $codeRef: 'barUtils.testHandler' }
- refers totestHandler
export ofbarUtils
module
When loading dynamic plugins, all encoded code references { $codeRef: string }
are transformed into
functions () => Promise<T>
used to load the referenced objects on demand. Only the plugin's exposed
modules (i.e. the keys of exposedModules
object) may be used in code references.
Webpack config
Dynamic plugins must be built with webpack in order for their modules to seamlessly integrate with Console application at runtime. Use webpack version 5+ which includes native support for module federation.
All dynamic plugin assets are generated via webpack ConsoleRemotePlugin
.
import { ConsoleRemotePlugin } from '@openshift-console/dynamic-plugin-sdk-webpack';
import { Configuration } from 'webpack';
const config: Configuration = {
entry: {}, // Plugin container entry is generated by DynamicRemotePlugin
plugins: [new ConsoleRemotePlugin()],
// ... rest of webpack configuration
};
export default config;
Refer to ConsoleRemotePluginOptions
type for details on supported Console plugin build options.
Generated assets
Building the above example plugin produces the following assets:
dynamic-demo-plugin/dist/
├── exposed-barUtils-chunk.js
├── plugin-entry.js
└── plugin-manifest.json
plugin-manifest.json
is the dynamic plugin manifest. It contains both plugin metadata and extension
declarations to be loaded and interpreted by Console at runtime. This is the first plugin asset loaded
by Console.
plugin-entry.js
is the
webpack container entry chunk.
It provides access to specific modules exposed by the plugin. It's loaded right after the plugin manifest.
exposed-barUtils-chunk.js
is the generated webpack chunk for barUtils
exposed module. It's loaded
via the plugin entry chunk (plugin-entry.js
) when needed.
Plugins may also include other assets, such as JSON localization files that follow the general pattern
locales/<lang>/plugin__<plugin-name>.json
or static images referenced from the plugin code.
Serving plugin assets
Dynamic plugins are deployed as workloads on the cluster. Each plugin deployment should include a web server that hosts the generated assets of the given plugin.
Console Bridge server adds X-Content-Type-Options: nosniff
HTTP response header to all plugin asset
requests for added security. Web browsers that comply with this security header will block <script>
initiated requests when the MIME type of requested asset is not valid.
Important! Make sure to provide valid JavaScript MIME type via the Content-Type
response header
for all assets served by your plugin web server.
Local plugin development
Clone Console repo and build the Bridge server by running build-backend.sh
script.
Run the following commands to log in as kubeadmin
user and start a local Bridge server instance.
The -plugins
argument tells Bridge to force load your plugin upon Console application startup.
The -i18n-namespaces
argument registers the corresponding i18n namespace for your plugin in Console.
oc login https://example.openshift.com:6443 -u kubeadmin -p example-password
source ./contrib/oc-environment.sh
# Note: the plugin web server URL should include a trailing slash
./bin/bridge -plugins foo-plugin=http://localhost:9001/ -i18n-namespaces=plugin__foo-plugin
To work with multiple plugins, provide multiple arguments to Bridge server:
./bin/bridge \
-plugins foo-plugin=http://localhost:9001/ -i18n-namespaces=plugin__foo-plugin \
-plugins bar-plugin=http://localhost:9002/ -i18n-namespaces=plugin__bar-plugin
Once the Bridge server is running, start your plugin web server(s), and ensure that plugin assets can
be fetched via /api/plugins/<plugin-name>
Bridge endpoint. For example, the following URLs should
provide the same content:
- http://localhost:9000/api/plugins/foo-plugin/plugin-manifest.json
- http://localhost:9001/plugin-manifest.json
Open the Console in your web browser and inspect the value of window.SERVER_FLAGS.consolePlugins
to
see the list of dynamic plugins the Console loads at runtime. For local development, this should only
include plugin(s) listed via -plugins
Bridge argument.
Console development builds allow you to interact with the PluginStore
object that manages all
plugins and their extensions directly in your web browser with window.pluginStore
. Please note
that this is not a public API and is meant only for debugging local Console development builds.
Using local Console plugin SDK code
If you need to make modifications to Console dynamic plugin SDK code and reflect them in your plugin builds, follow these steps:
- Make changes in Console repo. Run
yarn build
infrontend/packages/console-dynamic-plugin-sdk
directory to rebuild plugin SDK files atfrontend/packages/console-dynamic-plugin-sdk/dist
. - Make sure your plugin's
package.json
dependencies refer to local plugin SDK files, for example:
"@openshift-console/dynamic-plugin-sdk": "file:../openshift/console/frontend/packages/console-dynamic-plugin-sdk/dist/core",
"@openshift-console/dynamic-plugin-sdk-webpack": "file:../openshift/console/frontend/packages/console-dynamic-plugin-sdk/dist/webpack",
- Refresh your plugin's
node_modules
whenever you change local plugin SDK files:
rm -rf node_modules/@openshift-console && yarn --check-files
- Build your plugin as usual. The build should now use the current local plugin SDK files.
Plugin detection and management
Console operator detects available plugins through
ConsolePlugin
resources on the cluster. It also maintains a cluster-wide list of currently enabled
plugins via spec.plugins
field in its config (Console
resource instance named cluster
).
When the spec.plugins
value in Console operator config changes, Console operator computes the actual
list of plugins to load in Console as an intersection between all available plugins vs. plugins marked
as enabled. Updating Console operator config triggers a new rollout of the Console (Bridge) deployment.
Bridge reads the computed list of plugins upon its startup and injects this list into Console web page
via SERVER_FLAGS
object.
Disabling plugins in the browser
Console users can disable specific or all dynamic plugins that would normally get loaded upon Console
startup via disable-plugins
query parameter. The value of this parameter is either a comma separated
list of plugin names (disable specific plugins) or an empty string (disable all plugins).
Runtime constraints and specifics
- Loading multiple plugins with the same
name
(but with a differentversion
) is not allowed. - Console will override certain modules to ensure a single version of React etc. is loaded and used by the application.
- Enabling a plugin makes all of its extensions available for consumption. Individual extensions cannot be enabled or disabled separately.
Publishing SDK packages
To see the latest published version of the given package:
yarn info <package-name> dist-tags --json | jq .data.latest
Before publishing, it's recommended to log into your npm user account:
npm login
Build all distributable SDK packages into dist
directory:
yarn build
Finally, publish relevant packages to npm registry:
yarn publish dist/<pkg> --no-git-tag-version --new-version <version>
If the given package doesn't exist in npm registry, add --access public
to yarn publish
command.
If the newly published version comes before the latest published version in terms of semver rules
(e.g. hotfix release 1.0.2 for an older minor version stream 1.0.x), ensure the latest
dist-tag
still applies to the appropriate package version:
npm dist-tag add <package-name>@<version> latest
Future Deprecations in Shared Plugin Dependencies
Console provides certain packages as shared modules to all of its dynamic plugins. Some of these shared modules may be removed in the future. Plugin authors will need to manually add these items to their webpack configs or choose other options.
The list of shared modules planned for deprecation:
Console provided PatternFly 4.x shared modules
@patternfly/react-core
@patternfly/react-table
@patternfly/quickstarts
Console provided React Router v5 shared modules
react-router
react-router-dom
i18n translations for messages
The following demonstrates how to translate messages in the console plugin using the i18next and react-i18next libraries. Also included are the instructions for uploading/downloading strings to/from the Phrase Translation Memory System (TMS).
Step 1: Mark strings with t
function for translation
You can use the useTranslation
hook within the component, or the i18next
function outside the component, along with the namespace. The i18n namespace must match the name of the ConsolePlugin
resource with the plugin__
prefix to avoid naming conflicts. For example, a console plugin named console-crontab-plugin use the plugin__console-crontab-plugin
namespace. See the following for examples:
import i18next from 'i18next';
import { useTranslation } from 'react-i18next';
const helloWorldMessages = {
Foo: {
title: i18next.t('plugin__console-crontab-plugin~Foo'),
message: i18next.t(
'plugin__console-crontab-plugin~This is foo description...',
),
},
Bar: {
title: i18next.t('plugin__console-crontab-plugin~Bar'),
message: i18next.t(
'plugin__console-crontab-plugin~This is bar description...',
),
},
}
const Header: React.FC = () => {
const { t } = useTranslation('plugin__console-crontab-plugin');
return <h1>{t('Hello, World!')}</h1>;
};
For labels in console-extensions.json
, you can use the format %plugin__console-crontab-plugin~My Label%
. Console will replace the value with the string for the current language from the plugin__console-crontab-plugin
namespace. For example:
{
"type": "console.navigation/section",
"properties": {
"id": "admin-demo-section",
"perspective": "admin",
"name": "%plugin__console-crontab-plugin~Hello World%"
}
}
Then, run yarn i18n
to update the JSON files in the locales
folder of the plugin console after adding or updating strings.
Step 2: Request a Phrase Translation Memory System (TMS) user account
i. Request an account from the localization team for the console plugin project. ii. Create a Project Template to include the supported language in the Phrase TMS portal. Refer to the Phrase Project Templates on how to create/update the Project Template. You must have Phrase project owner permissions to perform this task. The localization team can help with creating the Project Template and setup.
Step 3: Create utility scripts to automate i18n-related tasks
Create scripts for uploading and downloading the i18n JSON files to/from the Phrase portal. See the console repository or Advanced Cluster Management (ACM) console plugin repository for similar scripts.
Step 4: Upload to Phrase portal
i. Install the unofficial Memsource CLI client. This client is a command-line tool designed for interacting with the Phrase portal. See the following link for details: The unofficial Memsource CLI client
ii. Configure the Memsource client using the account credentials. Create a file named ~/.memsourcerc in any location, for example, /Users/.../, and paste the following content into the file:
export MEMSOURCE_URL="https://cloud.memsource.com/web"
export MEMSOURCE_USERNAME=username
export MEMSOURCE_PASSWORD=password
export MEMSOURCE_TOKEN=$(memsource auth login --user-name $MEMSOURCE_USERNAME --password "${MEMSOURCE_PASSWORD}" -c token -f value)
See the following link for details:The RHEL instructions for MacOS
iii. Change directory to the root of the console plugin, and then run the upload script created earlier in step 3, for example: yarn memsource-upload -v PLUGIN_VERSION_NUMBER
. Take note of the generated PROJECT_ID
.
iv. Notify the localization team of the upload and wait for a reply from them on when the translated strings are ready for download.
Step 5: Download from Phrase portal
i. Use the PROJECT_ID
generated during the upload task, or visit the Phrase TMS portal. Find the URL of the previously uploaded project, then copy the PROJECT_ID
from the URL path following ../show/<PROJECT_ID>
ii. Use the download script created earlier in step 3 with PROJECT_ID
to download the translated strings. Change the directory to the root of the console plugin, and then run the download script.
For example: yarn memsource-download -v PLUGIN_VERSION_NUMBER
. This should download the updated locale files, which contain the translated strings in the languages that were configured earlier in the Project Template and upload utility script.
iii. Commit, review and merge the changes accordingly.
iv. Reach out to the localization team if you have any questions or concerns regarding the translated strings.
For more information on OpenShift Internationalization, see the console Internationalization README page.
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