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Create a Consumer App

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Create a Consumer App
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Create a Consumer App


Create a web-based app that connects to a RabbitMQ message queue and subscribes to event queues.

You will learn

  • How to subscribe to a message queue
  • How to parse the received messages

Step 1: Define and install the dependencies

Before you can start the actual development of the application, you need to define the dependencies and metadata of the consumer app. To do this, create a new package.json file in the root folder of your project:

  "name": "consumer",
  "scripts": {
    "start": "node app.js"
  "engines": {
    "node": "10.x"
  "description": "This is the sample project to demonstrate how to consume rabbitmq messages on SAP Cloud Platform",
  "dependencies": {
    "amqplib": "^0.5.2",
    "body-parser": "^1.18.3",
    "cfenv": "^1.1.0",
    "express": "4.14.0"

This file defines four dependencies:

  • Express and body-parser
    A popular web framework that hosts the web server and parses the parameters of the incoming HTTP requests

  • amqplib
    RabbitMQ (and other message broker) speak the AMQP protocol. This module wraps the required protocol and makes it easy to consume from Node.js.

  • cfenv
    Reads the Cloud Foundry specific environment variables

Now that you defined all dependencies, you can install them with npm install.

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Step 2: Create a simple web server

First, you need the specify the core file of your application, the app.js file. This code snippet will create a new web server, similar to the Create a Producer App tutorial.

const path = require('path'),
    express = require('express'),
    bodyParser = require('body-parser'),
    cfenv = require('cfenv'),
    appEnv = cfenv.getAppEnv();

var app = express();

app.use('/', express.static(path.join(__dirname, 'webapp')));
    extended: true


const iPort = appEnv.isLocal ? 3001: appEnv.port;

app.listen(iPort, function () {
    console.log(`Congrats, your consumer app is listening on port ${iPort}!`);
Why does it make sense to use port 3001 for the local development setup?
Step 3: Add a new endpoint to the web server

Replace the placeholder INSERT CODE IN STEP 3 with both listed snippets

  1. Use an object to map the queue names to an array of messages, which will be used to cache all received messages.

    var oQueueCaches = {
      'Queue_1': [],
      'Queue_2': [],
      'Queue_3': []
  2. Add a new endpoint to the web server. This endpoint will return the cached messages of a given queue (specified as the query parameter queue of the HTTP request).

    app.get('/inbox', function (oReq, oRes) {
Which URLs contain a valid query parameter?
Step 4: Consume a queue of the message broker service instance
  1. Establish a connection to the RabbitMQ service instance and create a channel to consume messages. Use the callback_api sub-module to use the callback API. This API won’t use promises (as the producer app does), but make use of callback function which may contain an error object.

    const amqp = require('amqplib/callback_api');
    const sMessagingserviceUri = appEnv.isLocal ?
      'amqp://guest:guest@localhost:5672' :
    (function connectToRabbitMQ() {
      amqp.connect(sMessagingserviceUri, function(err, conn) {
    if (err) {
      process.exit(0); //fail gracefully
    conn.createChannel(function(err, ch) {
  2. Replace placeholder STEP 4.2 in the code above with the following snippet to assert that the required RabbitMQ queues exists. Use the channel to consume, acknowledge and store all messages, which are transferred to those queue.

    Object.keys(oQueueCaches).forEach(function(sQueueName) {
      oChannel = ch;
      oChannel.assertQueue(sQueueName, {
    durable: false
      console.log(`Waiting for messages in ${sQueueName}.`);
      oChannel.consume(sQueueName, function(msg) {
      message: msg.content.toString()
      console.log(`Received ${msg.content.toString()} in queue ${sQueueName}`);
When will the function `connectToRabbitMQ` initially be executed?
Step 5: Reply to received messages

Create a second endpoint to accept responses and return them (via the replyTo queue) back to the sender of the original message. Use the correlation id to identify this original sender. Also, store the response in the cached message. Use placeholder STEP 5 to paste the following snippet.'/respond', function(oReq, oRes) {
  const oMessage = oReq.body;
  oChannel.sendToQueue(oMessage.replyTo, Buffer.from(oMessage.response), {
      correlationId: oMessage.correlationId
  console.log(`Sent "${oMessage.response}" with correlation id "${oMessage.correlationId}" back to the original sender`)

  const oCachedItem = oQueueCaches[oMessage.queue].find(( oItem) => oItem.correlationId === oMessage.correlationId);
  oCachedItem.response = oMessage.response;
Which statement regarding the correlation id is true?
Step 6: Test your consumer application locally

Make sure to run the producer application (on port 3000) as well as a local RabbitMQ instance before you start the app locally.

docker run -it --rm -p 5672:5672 -p 15672:15672 rabbitmq

Run npm start from the root directory of your project to test your application.

  1. The console output should tell that the application started successfully.

started app
2. Open the web-based UI of the producer app at http://localhost:3000 and send a message to the local RabbitMQ service.

producer app
3. Verify that the consumer received the sent message.

received app

You noticed that messages sent to `Queue_4` (via the web-based producer UI) aren't displayed in the console. Why?
Step 7: Deploy your consumer application to SAP Cloud Platform

Specify the deployment information in a manifest.yml file in the root folder:


- name: consumer
random-route: true
memory: 128MB
disk_quota: 128MB
instances: 1
buildpack: nodejs_buildpack
command: node app.js

- pubsub-messagingservice
`` >The propertyrandom-route` will generate a route that does not conflict with any other application in the same Cloud Foundry instance.

The command cf push reads this file and deploys the application to SAP Cloud Platform. You can find the generated route / URL in the console, once the deployment has finished.

Now you can consume message queues and print them in the log of the consumer app!

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Step 8: Troubleshooting

Problem: I see the following error message when I execute npm start: “Error: Cannot find module ‘express’”

Solution: This means that there are some missing dependencies. Please run npm install to install them.

Problem: I see the following error message when I execute cf push: “Server error, status code: 400, error code: 210003, message: The host is taken”

Solution: This means this application name is already use in the current Cloud Foundry environment (probably by another user). Please change the property ‘name’ in the manifest.yml file.

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Next Steps

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