Fission WebSocket Sample

Write a serverless broadcast function with NodeJS

By Gaurav Gahlot | Friday, June 11, 2021

Introduction

In this post we will look into how we can develop a simple a web socket based chat application using Fission functions. Fission’s NodeJS environment now has built in support for WebSocket. So, we are going to use this environment to power our simple web based chat application.

Let’s first understand how this is going to work.

architecture

We start by creating a NodeJS environment using the fission/nodejs-env Docker image.
Then we create a fission function for with broadcast.js. It is this piece of code that will broadcast a message to all connected clients.
Next, we will create an HTTP trigger for the above created function.
We then update our chat application to connect over the route, we just created.
We will also create a function to host the this chat application.
As you send a message from one chat window, the function will be triggered and the message will be broadcasted to all connected clients.

We will cover two approaches using which you can test this setup.

Prerequisites

You will need a Kubernetes cluster with Fission installed. Please follow the instructions here for installing Fission in your Kubernetes cluster. Then, verify that the fission cli is working by using the fission version command. Please note that the example works with fission version v1.13 and higher.

Try it out

In order to try it out, you can either use fission specs provided with the example or manually generate the specs. We will cover both the approaches in this blog.

Get router details

The fission router is exposed as a service. If you are running a kind cluster, you must get the node internal IP and router service node port.

kubectl get nodes -o wide
kubectl get svc -n fission -l application=fission-router

Edit the web/app.html and update the connection URL at line 32.

...
conn = new WebSocket("ws://<node-internal-ip>:<router-svc-node-port>/broadcast");
...

Use existing specs

Clone the fission/examples repository and navigate to websocket sample code.

git clone https://github.com/fission/examples.git
cd examples/samples/websocket

There you must have the specs directory. We are going to use these specs and deploy our function.

fission spec apply

DeployUID: 1df9464b-5f73-4623-8187-a2f431d5c828
Resources:
 * 2 Functions
 * 2 Environments
 * 2 Packages
 * 2 Http Triggers
 * 0 MessageQueue Triggers
 * 0 Time Triggers
 * 0 Kube Watchers
 * 2 ArchiveUploadSpec
Validation Successful
Spec doesn't belong to Git Tree.
2 environments created: nodejs, python
2 packages created: broadcast-pkg, web-pkg
2 functions created: broadcast, web
2 HTTPTriggers created: broadcast, web

Now that we have deployed the function, let’s test our chat application. Open multiple browser windows and go to http://<router-ip:router-svc-port>/chat/app.html to access the application. Send message from either of the window, it will be broadcasted to all others.

Manually generate specs

Clone the fission/examples repository and navigate to websocket sample code.

git clone https://github.com/fission/examples.git
cd examples/samples/websocket

Remove the existing specs directory

rmdir specs

Create an initial declarative application specification. The command will recreate a specs directory and a fission deployment config spec file.

fission spec init

Spec for broadcast function

Create fission environment for the broadcast function.

fission env create \
 --name=nodejs \
 --image=fission/node-env:latest \
 --spec

Create spec for the broadcast function.

fission fn create \
 --name=broadcast \
 --env=nodejs \
 --rpp=5 \
 --deploy=broadcast.js \
 --spec

Create spec for HTTP trigger.

fission httptrigger create \
 --name=broadcast \
 --url=/broadcast \
 --function=broadcast \
 --spec

Spec for web function

Create fission environment for the web function.

fission env create \
 --name=python \
 --image=fission/python-env:latest \
 --spec

Create fission package for the web function.

fission package create \
 --name=web-pkg \
 --env=python \
 --deploy="web/*" \
 --spec

Create spec for the web function.

fission fn create \
 --name=web \
 --env=python \
 --pkg=web-pkg \
 --entrypoint=app.main \
 --spec

Create spec for HTTP trigger.

fission httptrigger create \
 --name=web \
 --url='/chat/{html:[a-zA-Z0-9\.\/]+}' \
 --function=web \
 --spec

Now, we can validate and apply the generated declarative application specifications.

fission spec apply

In order to test the application, open multiple browser windows and go to http://<router-ip:router-svc-port>/chat/app.html to access the application. Send message from either of the window, it will be broadcasted to all others.
One important thing to note here is that when the WebSocket is idle for a certain duration, the function pod(s) will be cleaned up. It means that we are not running the function pod(s) all time, but only when there are requests.
You can set this timeout while creating a function by setting the --idletimeout (in seconds) flag. The default value is 120.
You can cleanup and delete all Fission resources in the application specification by executing the command:

fission spec destroy

Congratulations! You just deployed your serverless chat application. If you run into any issues, please feel free to reach out at Fission slack.

Follow us on Twitter for more updates! @fissionio

Author:

Gaurav Gahlot | Fission Contributor | Software Engineer - InfraCloud Technologies

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