Robot Assistant Demo (Node.js)

| January 01, 0001
| Reading time: 3 minutes

This guide provides an example of using @fluvio/client to write a fully functional robot assistant using Node.js.

To build the robot assistant one step at a time, checkout our blog:



Before starting on this tutorial, you’ll need to have completed the following

  • Install Node.js (v13 or above).
  • Have the Fluvio CLI installed and have access to a Fluvio cluster. See getting started guide.
  • Clone the fluvio-demo-apps-node repository.

Cloning the Repository

Start by cloning the repository:

$ git clone

Once cloned, navigate to the bot-assistant directory:

$ cd ./fluvio-demo-apps-node/bot-assistant

The rest of the commands are ran in the bot-assistant directory.


Application Overview

Robot assistant has a client and a server. The client runs in the web browser and controls the frontend user interaction, while the server manages the WebSocket proxy and the state machine. The client and the server communicate with each other through a WebSocket.

Bot Assistant  Architecture

The server uses @fluvio/client Node.js API to communicate with Fluvio. The API reference guide is available here.


Running the Robot Assistant App

In a terminal window, from bot-assistant directory, run the following command:

$ npm run setup

This command runs tools/ script, which creates bot-assist-messages topic. Next, install the packages:

$ npm install

With the packages installed, we are ready to start the server.


Run the Server

The server uses a state machine to control the robot assistant. The states are defined in a custom JSON file. There are a couple of template files available in the state-machine directory. For detailed information checkout add-state-machine section in the blog.

In the terminal window, run the following command:

$ PARAMS=state-machines/fluvio.json npm run start:server

The server reads the state machine, connects to Fluvio, and listens for client messages. If the server successfully started, you should see the following message:

Found 0 errors. Watching for file changes.
│ (iteration index) │ Key │ Values │
started bot assistant server at http://localhost:9998...

Open the web browser at http://localhost:9998 to interact with bot assistant.


Using the Application

Bot Assistant writes all messages to a debugging window to make the application easier to track. In the initial state, Bot Assistant displays a small icon on the bottom right side of the screen.

Bot Assistant Start

Just follow the instructions and the bot should guide you through the rest of the workflow.

Bot Assistant

Click restart to reset the session. Fluvio also offers persistence, reset the server and watch it initialize its internal state and resume from where it left off.


Fluvio Data Streaming

Fluvio stores messages/events in a topic:

  • bot-assist-messages

While Robot Assistant uses these events for persistence, they are also available for other purposes. For example, if another service is interested in user activity, the service can hook-up a consumer and receive real-time events.

The data stream can also serve as a mediation layer for other producers such as human operators. Adding human operator is relatively straightforward and left as an exercise for the user.

The messages can be viewed in Fluvio:

$ fluvio consume bot-assist-messages -B

Option -B display messages from the beginning:

{"sid":"5bf749550eb989aaeb924dc1b4c143daec71986f","payload":{"kind":"Request","message":{"kind":"BotText","content":"Hi, I'm Bot! Nice to meet you."}},"timestamp":"2021-03-11T22:29:19.077"}
{"sid":"5bf749550eb989aaeb924dc1b4c143daec71986f","payload":{"kind":"Request","message":{"kind":"ChoiceRequest","groupId":"lang","question":"What programming language do you use in your hobby projects?","choices":[{"itemId":"rust","content":"Rust"},{"itemId":"go","content":"Go"},{"itemId":"other","content":"Other"}]}},"timestamp":"2021-03-11T22:29:19.346"}
{"sid":"e34678b5ce0586560bfd034468f76c210e282855","payload":{"kind":"Request","message":{"kind":"BotText","content":"Hi, I'm Bot! Nice to meet you."}},"timestamp":"2021-03-11T22:35:44.438"}
{"sid":"e34678b5ce0586560bfd034468f76c210e282855","payload":{"kind":"Request","message":{"kind":"ChoiceRequest","groupId":"lang","question":"What programming language do you use in your hobby projects?","choices":[{"itemId":"rust","content":"Rust"},{"itemId":"go","content":"Go"},{"itemId":"other","content":"Other"}]}},"timestamp":"2021-03-11T22:35:44.716"}
{"sid":"e34678b5ce0586560bfd034468f76c210e282855","payload":{"kind":"Request","message":{"kind":"ChoiceRequest","groupId":"others","question":"Any other?","choices":[{"itemId":"yes","content":"Yes"},{"itemId":"no","content":"No"}]}},"timestamp":"2021-03-11T22:35:46.548"}

Each session exchanged are grouped by the session id.



Fluvio data streaming platform can turn simple prototypes into powerful event drive applications. In this example, we used Fluvio for persistence and inter service communication. When services communicate with each other in real-time, it opens the door for a new class of services beyond the capability of any database.

For additional information, checkout the following related articles: