Create a minimal extension with backend (i.e. server) and frontend parts.
It is strongly recommended to read the basic hello-world example before diving into this one.
Writing a JupyterLab extension usually starts from a configurable template. It
can be downloaded with the copier
tool and the following command for an extension with a server part:
pip install "copier~=9.2" jinja2-time
mkdir my_extension
cd my_extension
copier copy --trust https://github.com/jupyterlab/extension-template .
You will be asked for some basic information that could for example be setup like this (be careful to pick server as kind):
🎤 What is your extension kind?
server
🎤 Extension author name
tuto
🎤 Extension author email
[email protected]
🎤 JavaScript package name
jlab-ext-example
🎤 Python package name
jlab_ext_example
🎤 Extension short description
A minimal JupyterLab extension with backend and frontend parts.
🎤 Does the extension have user settings?
No
🎤 Do you want to set up Binder example?
Yes
🎤 Do you want to set up tests for the extension?
Yes
🎤 Git remote repository URL
https://github.com/github_username/jlab-ext-example
The python name must be a valid Python module name (characters such
-
,@
or/
are not allowed). It is nice for user to test your extension online, so the set up Binder was set to Yes.
The template creates files in the current director that looks like this:
.
├── CHANGELOG.md
├── .gitignore
├── LICENSE # License of your code
├── README.md # Instructions to install and build
├── RELEASE.md
├── .copier-answers.yml # Answers given when executing the extension template
│
├── .github
│ └── workflows
│ ├── binder-on-pr.yml # Test PR online
│ ├── build.yml # Test extension on GitHub CI
│ ├── update-integration-tests.yml
│ │ # Handle package release as GitHub actions
│ ├── check-release.yml
│ ├── enforce-label.yml
│ ├── prep-release.yml
│ └── publish-release.yml
│
│ # Online extension demo
├── binder
│ ├── environment.yml
│ └── postBuild
│
│ # Backend (server) Files
├── conftest.py # Python unit tests configuration
├── install.json # Information retrieved by JupyterLab to help users know how to manage the extension
├── pyproject.toml # Python package configuration
├── setup.py # Optional - for backward compatibility if a tool does not support pyproject.toml
│
├── jlab_ext_example
│ ├── handlers.py # API handler (where things happen)
│ ├── __init__.py # Hook the extension in the server
│ └── tests # Python unit tests
│ ├── __init__.py
│ └── test_handlers.py
├── jupyter-config # Server extension auto-install
│ ├── nb-config
│ │ └── jlab_ext_example.json
│ └── server-config
│ └── jlab_ext_example.json
│
│ # Frontend Files
├── babel.config.js
├── jest.config.js
├── package.json # Information about the frontend package
├── .prettierignore
├── tsconfig.json # Typescript compilation configuration
├── tsconfig.test.json
├── .yarnrc.yml # Yarn package manager configuration
│
├── src # Actual code of the extension
│ ├── handler.ts
│ ├── index.ts
│ └── __tests__ # JavaScript unit tests
│ └── jupyterlab_examples_server.spec.ts
│
├── style # CSS styling
│ ├── base.css
│ ├── index.css
│ └── index.js
│
└── ui-tests # Integration tests
├── jupyter_server_test_config.py
├── package.json
├── playwright.config.js
├── README.md
├── tests
│ └── jupyterlab_examples_server.spec.ts
└── yarn.lock
There are two major parts in the extension:
- A Python package for the server extension and the packaging
- A NPM package for the frontend extension
In this example, you will see that the template code have been extended to demonstrate the use of GET and POST HTTP requests.
The entry point for the frontend extension is src/index.ts
. The
communication with the server extension is contained in another file
src/handler.ts
. So you need to import it:
// src/index.ts#L12-L12
import { requestAPI } from './handler';
In the activate
function, the server extension is first called through
a GET request on the endpoint /jlab-ext-example/hello. The response from the server
is printed in the web browser console:
// src/index.ts#L42-L50
requestAPI<any>('hello')
.then(data => {
console.log(data);
})
.catch(reason => {
console.error(
`The jupyterlab_examples_server server extension appears to be missing.\n${reason}`
);
});
As the server response is not instantaneous, the request is done asynchronously
using Promise.
You could also use the keyword async
-await
.
But it is not recommended in a plugin activate
method as it may delay the application start
up time.
A GET request cannot carry data from the frontend to the server. To achieve that,
you will need to execute a POST request. In this example, a POST request
is sent to the /jlab-ext-example/hello endpoint with the data {name: 'George'}
:
// src/index.ts#L53-L65
const dataToSend = { name: 'George' };
requestAPI<any>('hello', {
body: JSON.stringify(dataToSend),
method: 'POST'
})
.then(reply => {
console.log(reply);
})
.catch(reason => {
console.error(
`Error on POST /jupyterlab-examples-server/hello ${dataToSend}.\n${reason}`
);
});
The difference with the GET request is the use of the body
option to send data
and the method
option to set the appropriate HTTP method.
The data sent from the frontend to the backend can have different types. In JupyterLab, the most common format is JSON. But JSON cannot directly be sent to the server, it needs to be stringified to be carried over by the request.
The communication logic with the server is hidden in the requestAPI
function.
Its definition is :
// src/handler.ts#L12-L46
export async function requestAPI<T>(
endPoint = '',
init: RequestInit = {}
): Promise<T> {
// Make request to Jupyter API
const settings = ServerConnection.makeSettings();
const requestUrl = URLExt.join(
settings.baseUrl,
'jupyterlab-examples-server', // API Namespace
endPoint
);
let response: Response;
try {
response = await ServerConnection.makeRequest(requestUrl, init, settings);
} catch (error) {
throw new ServerConnection.NetworkError(error as any);
}
let data: any = await response.text();
if (data.length > 0) {
try {
data = JSON.parse(data);
} catch (error) {
console.log('Not a JSON response body.', response);
}
}
if (!response.ok) {
throw new ServerConnection.ResponseError(response, data.message || data);
}
return data;
}
First the server settings are obtained from:
// src/handler.ts#L17-L17
const settings = ServerConnection.makeSettings();
This requires to add @jupyterlab/services
to the package dependencies:
jlpm add @jupyterlab/services
Then the class ServerConnection
can be imported:
// src/handler.ts#L3-L3
import { ServerConnection } from '@jupyterlab/services';
The next step is to build the full request URL:
// src/handler.ts#L18-L21
const requestUrl = URLExt.join(
settings.baseUrl,
'jupyterlab-examples-server', // API Namespace
endPoint
To concatenate the various parts, the URLExt
utility is imported:
// src/handler.ts#L1-L1
import { URLExt } from '@jupyterlab/coreutils';
This requires to add another dependency to the package:
jlpm add @jupyterlab/coreutils
You now have all the elements to make the request:
// src/handler.ts#L26-L26
response = await ServerConnection.makeRequest(requestUrl, init, settings);
Finally, once the server response is obtained, its body is interpreted as JSON. And the resulting data is returned.
// src/handler.ts#L31-L45
let data: any = await response.text();
if (data.length > 0) {
try {
data = JSON.parse(data);
} catch (error) {
console.log('Not a JSON response body.', response);
}
}
if (!response.ok) {
throw new ServerConnection.ResponseError(response, data.message || data);
}
return data;
This example also showcases how you can serve static files from the server extension.
// src/index.ts#L67-L88
const { commands, shell } = app;
const command = CommandIDs.get;
const category = 'Extension Examples';
commands.addCommand(command, {
label: 'Get Server Content in a IFrame Widget',
caption: 'Get Server Content in a IFrame Widget',
execute: () => {
const widget = new IFrameWidget();
shell.add(widget, 'main');
}
});
palette.addItem({ command, category: category });
if (launcher) {
// Add launcher
launcher.add({
command: command,
category: category
});
}
Invoking the command (via the command palette or the launcher) will open a new tab with
an IFrame
that will display static content fetched from the server extension.
Note
- If the response is not ok (i.e. status code not in range 200-399),
a
ResponseError
is thrown. - The response body is interpreted as JSON even in case the response is not
ok. In JupyterLab, it is a good practice in case of error on the server
side to return a response with a JSON body. It should at least define a
message
key providing nice error message for the user.
The server part of the extension is going to be presented in this section.
JupyterLab server is built on top of the Tornado Python package. To extend the server, your extension needs to be defined as a proper Python package with some hook functions:
# jupyterlab_examples_server/__init__.py
try:
from ._version import __version__
except ImportError:
# Fallback when using the package in dev mode without installing
# in editable mode with pip. It is highly recommended to install
# the package from a stable release or in editable mode: https://pip.pypa.io/en/stable/topics/local-project-installs/#editable-installs
import warnings
warnings.warn("Importing 'jupyterlab_examples_server' outside a proper installation.")
__version__ = "dev"
from .handlers import setup_handlers
def _jupyter_labextension_paths():
return [{
"src": "labextension",
"dest": "@jupyterlab-examples/server-extension"
}]
def _jupyter_server_extension_points():
return [{
"module": "jupyterlab_examples_server"
}]
def _load_jupyter_server_extension(server_app):
"""Registers the API handler to receive HTTP requests from the frontend extension.
Parameters
----------
server_app: jupyterlab.labapp.LabApp
JupyterLab application instance
"""
setup_handlers(server_app.web_app)
name = "jupyterlab_examples_server"
server_app.log.info(f"Registered {name} server extension")
The _jupyter_server_extension_points
provides the Python package name
to the server. But the most important one is _load_jupyter_server_extension
that register new handlers.
# jupyterlab_examples_server/__init__.py#L34-L34
setup_handlers(server_app.web_app)
A handler is registered in the web application by linking an url to a class. In this
example the url is base_server_url/jlab-ext-example/hello
and the class handler is RouteHandler
:
# jupyterlab_examples_server/handlers.py#L29-L35
host_pattern = ".*$"
base_url = web_app.settings["base_url"]
# Prepend the base_url so that it works in a JupyterHub setting
route_pattern = url_path_join(base_url, "jupyterlab-examples-server", "hello")
handlers = [(route_pattern, RouteHandler)]
web_app.add_handlers(host_pattern, handlers)
For Jupyter server, the handler class must inherit from the APIHandler
and it should
implement the wanted HTTP verbs. For example, here, /jlab-ext-example/hello
can be requested
by a GET or a POST request. They will call the get
or post
method respectively.
# jupyterlab_examples_server/handlers.py#L10-L25
class RouteHandler(APIHandler):
# The following decorator should be present on all verb methods (head, get, post,
# patch, put, delete, options) to ensure only authorized user can request the
# Jupyter server
@tornado.web.authenticated
def get(self):
self.finish(json.dumps({
"data": "This is /jupyterlab-examples-server/hello endpoint!"
}))
@tornado.web.authenticated
def post(self):
# input_data is a dictionary with a key "name"
input_data = self.get_json_body()
data = {"greetings": "Hello {}, enjoy JupyterLab!".format(input_data["name"])}
self.finish(json.dumps(data))
Security Note
The methods to handle request like
get
,post
, etc. must be decorated withtornado.web.authenticated
to ensure only authenticated users can request the Jupyter server.
Once the server has carried out the appropriate task, the handler should finish the request
by calling the finish
method. That method can optionally take an argument that will
become the response body of the request in the frontend.
# jupyterlab_examples_server/handlers.py#L15-L18
def get(self):
self.finish(json.dumps({
"data": "This is /jupyterlab-examples-server/hello endpoint!"
}))
In Jupyter, it is common to use JSON as format between the frontend and the backend.
But it should first be stringified to be a valid response body. This can be done using
json.dumps
on a dictionary.
A POST request is similar to a GET request except it may have a body containing data
sent by the frontend. When using JSON as communication format, you can directly use the
get_json_body
helper method to convert the request body into a Python dictionary.
# jupyterlab_examples_server/handlers.py#L23-L24
input_data = self.get_json_body()
data = {"greetings": "Hello {}, enjoy JupyterLab!".format(input_data["name"])}
The part responsible to serve static content with a StaticFileHandler
handler
is the following:
# jupyterlab_examples_server/handlers.py#L38-L44
doc_url = url_path_join(base_url, "jupyterlab-examples-server", "public")
doc_dir = os.getenv(
"JLAB_SERVER_EXAMPLE_STATIC_DIR",
os.path.join(os.path.dirname(__file__), "public"),
)
handlers = [("{}/(.*)".format(doc_url), StaticFileHandler, {"path": doc_dir})]
web_app.add_handlers(host_pattern, handlers)
Security Note
The
StaticFileHandler
is not secured. For enhanced security, please consider usingAuthenticatedFileHandler
.
Note
Server extensions can be used for different frontends (like JupyterLab and Jupyter Notebook). Some additional documentation is available in the Jupyter Server documentation
In the previous sections, the acting code has been described. But there are other files
with the sole purpose of packaging the full extension nicely to help its distribution
through package managers like pip
.
To deploy simultaneously the frontend and the backend, the frontend NPM package needs to be built and inserted in the Python package. This is done using hatch builder with some additional plugins:
- hatch-nodejs-version: Get package metadata from
package.json
to align Python and JavaScript metadata. - hatch-jupyter-builder: Builder plugin to build Jupyter JavaScript assets as part of the Python package.
Its configuration is done in
pyproject.toml
:
# pyproject.toml
[build-system]
requires = ["hatchling>=1.5.0", "jupyterlab>=4.0.0,<5", "hatch-nodejs-version"]
build-backend = "hatchling.build"
[project]
name = "jupyterlab_examples_server"
readme = "README.md"
license = {text = "BSD-3-Clause License"}
requires-python = ">=3.8"
classifiers = [
"Framework :: Jupyter",
"Framework :: Jupyter :: JupyterLab",
"Framework :: Jupyter :: JupyterLab :: 4",
"Framework :: Jupyter :: JupyterLab :: Extensions",
"Framework :: Jupyter :: JupyterLab :: Extensions :: Prebuilt",
"License :: OSI Approved :: BSD License",
"Programming Language :: Python",
"Programming Language :: Python :: 3",
"Programming Language :: Python :: 3.8",
"Programming Language :: Python :: 3.9",
"Programming Language :: Python :: 3.10",
"Programming Language :: Python :: 3.11",
]
dependencies = [
"jupyter_server>=2.0.1,<3"
]
dynamic = ["version", "description", "authors", "urls", "keywords"]
[project.optional-dependencies]
test = [
"coverage",
"pytest",
"pytest-asyncio",
"pytest-cov",
"pytest-jupyter[server]>=0.6.0"
]
[tool.hatch.version]
source = "nodejs"
[tool.hatch.metadata.hooks.nodejs]
fields = ["description", "authors", "urls"]
[tool.hatch.build.targets.sdist]
artifacts = ["jupyterlab_examples_server/labextension"]
exclude = [".github", "binder"]
[tool.hatch.build.targets.wheel.shared-data]
"jupyterlab_examples_server/labextension" = "share/jupyter/labextensions/@jupyterlab-examples/server-extension"
"install.json" = "share/jupyter/labextensions/@jupyterlab-examples/server-extension/install.json"
"jupyter-config/server-config" = "etc/jupyter/jupyter_server_config.d"
[tool.hatch.build.hooks.version]
path = "jupyterlab_examples_server/_version.py"
[tool.hatch.build.hooks.jupyter-builder]
dependencies = ["hatch-jupyter-builder>=0.5"]
build-function = "hatch_jupyter_builder.npm_builder"
ensured-targets = [
"jupyterlab_examples_server/labextension/static/style.js",
"jupyterlab_examples_server/labextension/package.json",
]
skip-if-exists = ["jupyterlab_examples_server/labextension/static/style.js"]
[tool.hatch.build.hooks.jupyter-builder.build-kwargs]
build_cmd = "build:prod"
npm = ["jlpm"]
[tool.hatch.build.hooks.jupyter-builder.editable-build-kwargs]
build_cmd = "install:extension"
npm = ["jlpm"]
source_dir = "src"
build_dir = "jupyterlab_examples_server/labextension"
[tool.jupyter-releaser.options]
version_cmd = "hatch version"
[tool.jupyter-releaser.hooks]
before-build-npm = [
"python -m pip install 'jupyterlab>=4.0.0,<5'",
"jlpm",
"jlpm build:prod"
]
before-build-python = ["jlpm clean:all"]
[tool.check-wheel-contents]
ignore = ["W002"]
It will build the frontend NPM package through its factory, and will ensure one of the
generated files is jupyterlab_examples_server/labextension/package.json
:
# pyproject.toml#L57-L68
[tool.hatch.build.hooks.jupyter-builder]
dependencies = ["hatch-jupyter-builder>=0.5"]
build-function = "hatch_jupyter_builder.npm_builder"
ensured-targets = [
"jupyterlab_examples_server/labextension/static/style.js",
"jupyterlab_examples_server/labextension/package.json",
]
skip-if-exists = ["jupyterlab_examples_server/labextension/static/style.js"]
[tool.hatch.build.hooks.jupyter-builder.build-kwargs]
build_cmd = "build:prod"
npm = ["jlpm"]
It will copy the NPM package in the Python package and force it to be copied in a place JupyterLab is looking for frontend extensions when the Python package is installed:
# pyproject.toml#L49-L50
[tool.hatch.build.targets.wheel.shared-data]
"jupyterlab_examples_server/labextension" = "share/jupyter/labextensions/@jupyterlab-examples/server-extension"
The last piece of configuration needed is the enabling of the server extension. This is done by copying the following JSON file:
// jupyter-config/server-config/jupyterlab_examples_server.json
{
"ServerApp": {
"jpserver_extensions": {
"jupyterlab_examples_server": true
}
}
}
in the appropriate jupyter folder (etc/jupyter/jupyter_server_config.d
):
# pyproject.toml#L52-L52
"jupyter-config/server-config" = "etc/jupyter/jupyter_server_config.d"
The distribution as a Python package has been described in the previous subsection. But
in JupyterLab, users have an extension manager at their disposal to find extensions. If,
like in this example, your extension needs a server extension, you should inform the
user about that dependency by adding the discovery
metadata to your package.json
file:
// package.json#L97-L107
"jupyterlab": {
"discovery": {
"server": {
"managers": [
"pip"
],
"base": {
"name": "jupyterlab_examples_server"
}
}
},
In this example, the extension requires a server
extension:
// package.json#L98-L98
"discovery": {
And that server extension is available through pip
:
// package.json#L99-L101
"server": {
"managers": [
"pip"
For more information on the discovery
metadata, please refer to the documentation.
With the packaging described above, installing the extension is done in one command once the package is published on pypi.org:
# Install the server extension and
# copy the frontend extension where JupyterLab can find it
pip install jupyterlab_examples_server
As developer, you might want to install the package in local editable mode. This will shunt the installation machinery described above. Therefore the commands to get you set are:
# Install package in development mode
pip install -e .
# Link your development version of the extension with JupyterLab
jupyter labextension develop . --overwrite
# Enable the server extension
jupyter server extension enable jupyterlab_examples_server
# Rebuild extension Typescript source after making changes
jlpm run build