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Using the jupyterlab services API
This page describes how the Jupyter extension uses the @jupyterlab/services npm module to connect and control Jupyter kernels.
The Jupyter org has provided a @jupyterlab/services npm module to help clients connect to Jupyter servers and through the server, talk to Jupyter kernels.
The @jupyterlab/services npm module:
- Opens a websocket to the notebook server (see raw zmq for what we do when not using a Jupyter server)
- Creates an IKernelConnection interface for talking to the kernel
- Translates calls on the IKernelConnection to message structures
- Serializes the message structures into a specific wire-protocol that all kernels must implement
- Sends the serialized message over the websocket to the server. The server will multiplex the message to the correct 0MQ socket.
- Deserializes result messages from the wire-protocol back into messages, which in turn get changed into events in javascript.
The npm module essentially handles all communication to and from a kernel so that javascript can treat the kernel like a local object. Meaning the Jupyter extension really only needs to know about IKernelConnection
We started with the @jupyterlab/services because the first version of the Jupyter extension always talked to a notebook server, either by us starting one or the user providing one.
There were frequent issues with that and we switched to a more direct approach.
The direct (or raw as it's called elsewhere) doesn't talk to a notebook server though. Instead it talks directly to the kernels over zmq:
This means we don't have a websocket to connect to. However, since we were using the @jupyterlab/services::IKernelConnection as the standard way of communicating with kernels, we tricked
jupyterlab services into thinking it was still talking to a server.
Essentially this part here:
Raw changes the sequence diagram to look like so:
In the diagram, the Notebook Server
has now been replaced by a RawSocket
. The implementation for this can be found here.
Since the RawSocket
is talking directly to the kernel, it needs to serialize/deserialize on its own. To facilitate this, we replace the serialization in the @jupyterlab/services with empty functions. That happens in an npm post install hook.
In this part of the sequence diagram:
the Jupyter extension calling requestExecute
will generate something @jupyterlab/services calls a future
This kernel future
is one of the ways @jupyterlab/services signals messages as they come in for a request.
The other way is something called a signal. The kernel has a signal for messages on different channels.
In the sequence diagram, the signal
for an IOPubMessage (message on the iopub
channel) is handled by listening to the signal named onIOPubMessage
Futures and signals are how messages are handled from the kernel. That in itself is just an implementation detail, but it's important because of ipywidgets.
In this sequence diagram here, we needed to make sure the future
s used by widgets are setup correctly on the UI side:
That means understanding what drives a future
and what messages we needed to keep in sync so that the future
would behave correctly in the widgets. Most widgets also use the @jupyterlab/services npm module, and so we had to make sure the future
s on the UI side behaved like the ones on the extension side.
- Contribution
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- React Webviews: Variable Viewer, Data Viewer, and Plot Viewer
- FAQ
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- Jupyter issues in the Python Interactive Window or Notebook Editor
- Finding the code that is causing high CPU load in production
- How to install extensions from VSIX when using Remote VS Code
- How to connect to a jupyter server for running code in vscode.dev
- Jupyter Kernels and the Jupyter Extension