Introduction
Neon serverless Postgres stands out in the world of databases. It provides a fully managed service for PostgreSQL with unique features like autoscaling, branching, and a great serverless experience. Its architecture makes Neon serverless Postgres different from how users set up Postgres databases by separating storage and compute.
In this guide, we'll leverage the strengths of Neon serverless Postgres to establish a PostgREST API on DigitalOcean. With PostgREST, a PostgreSQL database is turned into a RESTful API.
As a practical illustration, we’ll walk through creating a mini project management application with complete create, read, update, and delete (CRUD) functionality. This application will allow users to create new projects, view existing details, update information, and delete projects as needed.
Ultimately, you’ll have a fully functional PostgREST API powered by Neon serverless Postgres, seamlessly incorporated into your DigitalOcean environment.
Prerequisites
To fully grasp the concepts presented in this tutorial, you’ll need the following:
- A Neon account
- A DigitalOcean account
- A basic understanding of PostgreSQL and REST APIs
- Node.js installed on your local machine
Create a Neon project
To set up a Neon project, let’s begin by registering for an account, assuming you don't have one already. With that done, we’ll create a new project by selecting a Project Name. We will use (Project Management), Database name (managementdata
), and Postgres version. For this demonstration, we’ll opt for 16 as the Postgres version and choose the region closest to where we would like to deploy our app.
Upon successfully creating the project, we will get a connection string for connecting to our database.
Project directory
To organize our project files and resources, let's create a new project directory using the following terminal command:
mkdir neonprojectappfolder
Loading demo data into the database
With the project directory in place, follow these steps to load the demo data into the database.
- To connect to our database, we will use the connection string provided by Neon and run it in the terminal:
psql 'postgresql://xxx:xxxx@ep-xxx-xxx-01196450.us-east-2.aws.neon.tech/xxx?sslmode=require'
The command connects to the database using the provided connection string.
- Now that we’re connected to the database, let’s upload our demo data by running the command below in the terminal:
psql 'postgresql://xxx:xxxx@ep-xxx-xxx-01196450.us-east-2.aws.neon.tech/xxx?sslmode=require < projects.sql
The demo data (projects.sql) can be downloaded here.
The demo data must be downloaded in our project directory before running the command above.
Upon successfully loading demo data into the database, we’ll see a response like the image below:
The output CREATE SEQUENCE
, CREATE TABLE
, and INSERT 0 5
indicate that the sequence, the table, and five rows were inserted into the table, respectively.
Next, we verify the demo data is present using the following steps:
- First, connect to the database again by running the command below:
psql 'postgresql://xxx:xxxx@ep-xxx-xxx-01196450.us-east-2.aws.neon.tech/xxx?sslmode=require'
(Just a note that we’re connecting to the database again because we exited the database when we loaded the demo data into the database.)
- Now, let us run the command below in our terminal:
select * FROM projects LIMIT 1
The SQL command SELECT * FROM projects LIMIT 1
retrieves data from the "projects" table.
We should get a response like the one in the image below.
As a result, our demo data has been successfully uploaded to our database.
PostgREST setup
Now that we have set up our database, the next step involves setting up PostgREST. First, we install PostgREST by following this installation guide.
After a successful installation, we can confirm everything works perfectly by typing postgrest -e
in the terminal. We should see a response similar to the image below, indicating a successful operation.
Granting CRUD access to a database user
Now, we can connect to the database using the connection string above.
(We’re connecting again because checking the PostgREST installation disconnected us from the database.)
After a successful connection, execute the command below:
GRANT SELECT, INSERT, UPDATE, DELETE ON TABLE public.projects TO femakin
The command grants femakin
user permissions for SELECT
, INSERT
, UPDATE
, and DELETE
operations (CRUD) on the projects table in the public schema.
PostgREST connection setup
The next step is to establish a PostgREST connection. To do this, exit the database terminal by typing \q
and then enter the following command: vi projects.config
.
The command vi projects.config
opens the projects.config
file using the vi text editor.
We then edit the projects.config
file by pasting the command below.
db-uri = psql 'postgresql://xxx:xxxx@ep-xxx-xxx-01196450.us-east-2.aws.neon.tech/xxx?sslmode=require'
db-schema = "public"
db-anon-role = "femakin"
This configuration specifies a PostgreSQL database connection string URI with credentials and connection details. It also defines the default database schema as public
and the anonymous role as femakin
for authentication purposes.
To ensure the proper setup of the PostgREST connection, we can run postgrest projects.config
in the terminal. This command should yield a response similar to the image below.
Testing the API routes
Now, let us employ a tool such as Postman to conduct tests. In the browser, navigate to the URL localhost:3000/projects
.
The connection is working if we find something like this in the browser.
Otherwise, we must review all the steps and ensure everything is present.
Bootstrapping VueJS application
The quickest approach to get started with our VueJS application is to clone this GitHub repository:
git clone https://github.com/femakin/Neo-Demo-PostgREST-DigitalOcean-App
Follow the instructions in the README file: Run npm install
to install dependencies and npm run dev
to start the application.
The application will appear like this in the browser:
The code in the src/App.vue
is a project management app using VueJS. It handles project data, loading status, and user interactions. It fetches project data and lets users view, add, update, and delete projects. The focus is on simplicity for managing projects in a web app.
Deploying to Digital Ocean
Thus far, we’ve created our database, set up PostgREST, and got our mini-application running in VueJS. Now, we need to deploy everything to DigitalOcean. To do this, log into the DigitalOcean dashboard and create a Droplet by following this guide.
DigitalOcean Droplets are Linux-based virtual machines (VMs) that operate on virtualized hardware.
Now, let’s access our droplet. First, copy the created droplet's IP
address, as shown in the image below, and then use it to SSH
into the droplet.
Note: Keep this IP address handy; we’ll need it for future steps.
Next, log into the droplet by using the copied droplet's IP
and running the command below in the terminal:
Next, log into the droplet by using the copied droplet's IP
and running the command below in the terminal:
ssh root@copied_droplet_IP
This will prompt us to enter a passphrase for the key.
Next, we will update the apt cache
to get the latest packages by running the below command:
sudo apt update
A runtime library, an essential component of the PostgreSQL database system, must be installed. This library is a connection and communication interface for PostgreSQL database servers.
Let’s run the following command in the terminal to install the PostgreSQL runtime library, libpq5
:
sudo apt install libpq5
This command will ensure that the necessary runtime components for PostgreSQL are installed on the system.
Now, we’ll install PostgREST from the release page available here. Choose a version compatible with your operating system; for example, we will install postgrest-v11.2.0-linux-static-x64.tar.xz
.
wget 'https://github.com/PostgREST/postgrest/releases/download/v11.2.0/postgrest-v11.2.0-linux-static-x64.tar.xz'
Next is to extract the compressed file to obtain the executable. Run the command below in the terminal:
root@project-management:~# tar vxf postgrest-v11.2.1-linux-static-x64.tar.xz
postgrest
To ensure everything works, let's run the following command:
./postgrest -e
We should expect a response similar to the image below.
Configuring PostgREST on Droplet
Let us configure PostgREST by following the steps below.
- Move PostgREST to
usr/bin
by executing the following command:
sudo mv postgrest /usr/bin
- Navigate to
/usr/bin
using the command
cd /usr/bin
- Confirm that everything is in order by running
./postgrest -e
- Now, create a directory using the command
mkdir projectsmanagement
Let's return to our local machine within the project directory and copy the config file using:
cat projects.config
We previously created the config file in the section above. We’ll see a configuration similar to the one below:
db-uri = psql 'postgresql://xxx:xxxx@ep-xxx-xxx-01196450.us-east-2.aws.neon.tech/xxx?sslmode=require'
db-schema = "public"
db-anon-role = "femakin"
Then, return to our droplet and create a new config using:
vi projects.config
Paste the copied projects.config
, and save the file.
Now, we can connect to our database using postgrest postgrest.config
.
You should now see a response stating that the connection is successful, as shown in the image below:
Now, we can test the API using the command curl localhost:3000/projects
, and observe a response from our database, like the illustration below.
Creating systemd
Now, let's create a system service for a PostgREST. We need to go back to PostgREST documentation here.
We can now go back to our droplet and create the system file using the command below:
vi /etc/systemd/system/postgrest.service
and paste the code below:
[Unit]
Description=REST API for any PostgreSQL database
After=postgresql.service
[Service]
ExecStart=/usr/bin/postgrest /usr/bin/postgrest.config
ExecReload=/bin/kill -SIGUSR1 $MAINPID
User=nobody
Group=nogroup
[Install]
WantedBy=multi-user.target
Here, we’ll reload, start, and check the status of the systemd
using the command below.
sudo systemctl daemon-reload
sudo systemctl start postgrest
sudo systemctl status postgrest
Testing the API using curl localhost:3000/projects
gives us our expected response, as shown below:
Uploading the Vue app into Droplet
It's time to upload our project management application into the droplet. Return to your local machine to upload the application into the droplet and run npm run build
inside the project directory.
Now that we have our production Vue App, we can copy it into the droplet using the command below:
scp -r dist root@copied_droplet_IP:/usr/bin/vueapp
Next is to install a web server to serve the files.
sudo apt install nginx
Next is to create a virtual host using:
sudo vi /etc/nginx/sites-available/copied_droplet_IP
Paste the code below and save.
We can now create a link using.
sudo ln -s /etc/nginx/sites-available/copied_droplet_IP /etc/nginx/sites-enabled/
Then reload nginx
using
sudo systemctl reload nginx
Testing deployment
We can now go to the browser and paste the copied_droplet_IP. We should see our project management app on the page.
However, we will see an error if we look at the console. This error is there because we have not set up the API server.
To take care of this, we must use nginx
to proxy /API
to the PostgREST instance running on our droplet, as described in this PostgREST documentation.
We can now edit our nginx
configuration using
sudo vi /etc/nginx/sites-available/Copied_IP
Then, update the configuration with the command below.
location /api/ {
default_type application/json;
proxy_hide_header Content-Location;
add_header Content-Location /api/$upstream_http_content_location;
proxy_set_header Connection "";
proxy_http_version 1.1;
proxy_pass http://localhost:3000/;
}
Then reload nginx
using:
sudo systemctl reload nginx
We can now return to the browser and paste the copied Droplet IP. Now, we can see our application without any errors.
Congratulations! You successfully created a mini-project management application by seamlessly integrating PostgREST and DigitalOcean, backed by Neon serverless Postgres.
Here are a few recommendations to take it further.
- Add a domain to the Droplet
- Configure HTTPS
- Add more features to the applications
The possibilities are endless when it comes to Neon serverless Postgres.
Conclusion
We covered a lot in this tutorial. Let’s recap! You accomplished the following:
- Leveraged Neon serverless Postgres to establish a PostgREST API on DigitalOcean.
- Transformed a PostgreSQL database into a functional RESTful API using PostgREST.
- Created a mini-project management application as a practical illustration using VueJS.
- Demonstrated seamless integration between Neon serverless Postgres, PostgREST, and DigitalOcean.
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