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akintayo shedrack for Cloud Foundry Foundation

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Deploy a Nodejs App on Cloud Foundry Pt.3 - Hello World to Real World

Introduction

In the second part of this tutorial, I demonstrated how to deploy a Node.js application on Cloud Foundry, make a few changes to the deployed application to see how fast Cloud Foundry updates our application in the browser and finally, bind our application to a database service. I also gave an introduction to what services are in Cloud Foundry and how to get started with them.

In this tutorial, we will be deploying a full stack application on Cloud Foundry with a Node.js backend and a MongoDB database service. I'll demonstrate how to use a database service we will create in our application to read, write data to our application and also persist data.

We will also make a few changes to our deployed application and re-deploy our application to see how fast Cloud Foundry updates our application in the browser.

Prerequisites

  • Cloud Foundry CLI.

  • Any Cloud Foundry distribution account. (I'll be using anynines for the sake of this tutorial).

  • A Cloudinary account for storing images that'll be uploaded (API key and API Secret).

  • Basic Knowledge MongoDB, Node.js and Cloud Foundry

Tech Stack

  • The client-side of the application is written with EJS.

  • The server-side of the application is written in Node.js.

  • Cloudinary handles the storing of images that are uploaded.

  • MongoDB handles the storing of the image urls that are used to display the images on the client-side.

Setting Up Our Application

To get started, we have to clone our application from Github and install its dependencies on our machine. Run the following command to clone the application to your machine:

git clone https://github.com/hacktivist123/cloudfoundry-nodejs-tutorial-pt-3
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After cloning the application from Github, you can install the application on your local machine by running:

yarn install
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After installing the project, you'll need to create a .env file. There's a .env.sample file with the structure of how your .env file should look and what it should contain in the project root folder. For example

NODE_ENV = production
MONGO_URI = <your mongodb service connection uri>
CLOUDINARY_CLOUD_NAME = <your cloudinary cloud name>
CLOUDINARY_API_KEY = <your cloudinary API key>
CLOUDINARY_API_SECRET = <your cloudinary API Secret>
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Where:

  • NODE_ENV = The current deployment environment, i.e development or production.

  • MONGO_URI = MongoDB service connection URI (this will be provided when we create a Cloud Foundry database service).

  • CLOUDINARY_CLOUD_NAME = This will be available on your Cloudinary dashboard after registration.

  • CLOUDINARY_API_KEY = This will be available on your Cloudinary dashboard after registration.

  • CLOUDINARY_API_SECRET = This will be available on your Cloudinary dashboard after registration.

If you run the application by running yarn start on your local machine and with a local MongoDB server, you'll get the following in your browser when you navigate to localhost:8080or the PORT number you provided in the .env file.

While this works locally, we cannot use the local MongoDB server when we deploy our application on Cloud Foundry. We need a database service to help us manage the database when it's deployed live.

Let's test this theory by deploying our application on Cloud Foundry.

Deploying our Application

You can deploy to the application by running the following command:

cf push <app name>
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If you've not noticed already, when we push the application initially, it throws an error that looks like this:

We are getting this error because Cloud Foundry cannot recognize or see any connection URI for our MongoDB database.

We need to create a MongoDB database service to fix this error and use the connection URI it provides for us.

Creating our MongoDB Database Service

Why do we need a database service?

Well, we need a database service because we cannot use a local database server when we deploy our application live and also to persist data. When you cf push, an entirely new version of your application is deployed and all old data will be deleted.

What a database service will do for us is to persist data we've uploaded into our application so that even if we push our application on Cloud Foundry over and over again, we'll still have access to the existing data we've uploaded into our application database.

Creating the Service

It's very easy to create a database service with Cloud Foundry; we can do that by running the following command:

cf create-service SERVICE PLAN SERVICE_INSTANCE
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The service and plan depend on the distribution of Cloud Foundry you're using. Cloud Foundry distributions provide different types of services. For the sake of this tutorial, I'll be using the anynines MongoDB service by running the following command:

cf create-service a9s-mongodb34 mongodb-nano cf-database
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Where:

  • a9s-mongodb34 = The service name

  • mongodb-nano = The service plan

  • cf-database = The service instance name

When I run the above command, the following will be displayed:

To know if the service has been created successfully, run the following command:

cf service cf-database
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The above command will display the following details about the service:

On a side note, you can only make use of the service when the status of the service is "create succeeded."

Now that our service has been created successfully, we have to bind the service to our application so that our application can use the service. We can do that by running the following command:

cf bind-service APP_NAME SERVICE_INSTANCE
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When we run the above command according to our app name and service name, we will see the following in our terminal:

We have successfully bound the database service we created to our application.

The next step is to use the URI provided by the MongoDB service as our MONGO_URI in our .env file.

We can find the URI by running the following command:

cf env <APP_NAME>
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After running the above command, you should see the following displayed in your terminal:

If you look closely at the JSON file generated by the command, you'll see the database URI, username and also password.

Now we need to grab the database URI and use it on our application. We can do that by copying the URI from our terminal and pasting it into our .env file.

For example:

MONGO_URI = mongodb://a9s-brk-usr-5fce266678f7b5d5061399d079c7cb58e3541b95:a9sfa381ca6ba0d48f166c0299b1ce4d119ff6321e1@mod22bb57-mongodb-0.node.dc1.a9ssvc:27017/mod22bb57
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Why is this working?

In our index.js file, we are grabbing the MONGO_URIvariable from the .env file and using it to start the database connection like so:

try {
 mongoose.connect(process.env.MONGO_URI, {
 useNewUrlParser: true,
 useUnifiedTopology: true
 })
} catch (error) {
 if (isDevelopment) throw error
}
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Pushing our app live with the database service

Now let's try to push our application again and see whether it throws an error. We can do that by running:

cf push <APP_NAME>
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If we run the above command and wait for a while for it to finish deploying, we'll see the following message in our terminal:

If we navigate to the route that was created after the deploy, we'll see our application deployed live without any errors.

Making a change in our application

Now let's make a change to our application, re-deploy and see if the images in the database will still remain the same. For the change, let's make the color of the header text "mini-instagram" to blue.

Navigate to the css directory inside the project folder and locate the style.css file. Paste the following code in the file:

h1 {
 color: blue
}
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After adding the above piece of code, we will push our application again so that we can see the changes.

We can do that by running cf push <APP_ NAME>.

After pushing, wait for it to deploy and navigate/refresh to the generated route link to see the changes happen.

If you did the above instructions correctly, you should see the header text color change from black to blue like so:

We made a change and redeployed our application and we can still see our images (data) available.

Now if you try to upload a random image and also refresh the page, we'd still have the image available to us along with the rest of the existing images.

Here's a link to the visual representation of the process:

https://drive.google.com/file/d/1XT7ux9Fktt8HbdW_D7DAdiQX5tqI-cDz/view?usp=sharing

In the above media, I uploaded a new photo and then refreshed the application over and over again to check if we lost any data but we didn't. This is the power of the database service we used.

You can find the supporting Repo for this tutorial, here and you can also find the video tutorial here if you prefer watching videos instead.

Conclusion

In this tutorial we took an application, deployed it on Cloud Foundry, created a MongoDB database service for the application and then re-deployed it on Cloud Foundry.

We also made a few changes to the application and redeployed it to see if we would lose any data but we didn't, thanks to the power of the database service we used.

Services in Cloud Foundry are really powerful. We can do a whole lot of things with various services that are available to Cloud Foundry users.

Did you enjoy this tutorial? Let me know by dropping comments about your favourite aspect of the tutorial in the comments section. Also, if you have any questions, you can drop one in the comment section and I'll definitely give a reply.


The best way to connect with the Cloud Foundry community is to join our Slack Workspace at https://slack.cloudfoundry.org/. Those in the Slack community help you get quickly connected with other members or someone from the Cloud Foundry Foundation.

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