Build a Simple REST API in PHP
REST APIs are the backbone of modern web development. Most web applications these days are developed as single-page applications on the frontend, connected to backend APIs written in various languages. There are many great frameworks that can help you build REST APIs quickly. Laravel/Lumen and Symfony’s API platform are the most often used examples in the PHP ecosystem. They provide great tools to process requests and generate JSON responses with the correct HTTP status codes. They also make it easy to handle common issues like authentication/authorization, request validation, data transformation, pagination, filters, rate throttling, complex endpoints with sub-resources, and API documentation.
You certainly don’t need a complex framework to build a simple but secure API though. In this article, I’ll show you how to build a simple REST API in PHP from scratch. We’ll make the API secure by using Okta as our authorization provider and implementing the Client Credentials Flow. Okta is an API service that allows you to create, edit, and securely store user accounts and user account data, and connect them with one or more applications.
There are different authentication flows in OAuth 2.0, depending on if the client application is public or private and if there is a user involved or the communication is machine-to-machine only. The Client Credentials Flow is best suited for machine-to-machine communication where the client application is private (and can be trusted to hold a secret). At the end of the post, I’ll show you how to build a test client application as well.
Table of Contents
- Create the PHP Project Skeleton for Your REST API
- Configure a Database for Your PHP REST API
- Add a Gateway Class for the Person Table
- Implement the PHP REST API
- Secure Your PHP REST API with OAuth 2.0
- Add Authentication to Your PHP REST API
- Build a Sample Client Application (Command Line Script) to Test the PHP REST API
- Learn More About PHP, Secure REST APIs, and OAuth 2.0 Client Credentials Flow
Create the PHP Project Skeleton for Your REST API
We’ll start by creating a /src
directory and a simple composer.json
file in the top directory with just one dependency (for now): the DotEnv library which will allow us to keep our Okta authentication details in a .env
file outside our code repository:
composer.json
{
"require": {
"vlucas/phpdotenv": "^2.4"
},
"autoload": {
"psr-4": {
"Src\\": "src/"
}
}
}
We’ve also configured a PSR-4 autoloader which will automatically look for PHP classes in the /src
directory.
We can install our dependencies now:
composer install
We now have a /vendor
directory, and the DotEnv dependency is installed (we can also use our autoloader to load our classes from /src
with no include()
calls).
Let’s create a .gitignore
file for our project with two lines in it, so the /vendor
directory and our local .env
file will be ignored:
vendor/
.env
Next we’ll create a .env.example
file for our Okta authentication variables:
.env.example
OKTAAUDIENCE=api://default
OKTAISSUER=
SCOPE=
OKTACLIENTID=
OKTASECRET=
and a .env
file where we’ll fill in our actual details from our Okta account later (it will be ignored by Git so it won’t end up in our repository).
We’ll need a bootstrap.php
file which loads our environment variables (later it will also do some additional bootstrapping for our project).
bootstrap.php
<?php
require 'vendor/autoload.php';
use Dotenv\Dotenv;
$dotenv = new DotEnv(__DIR__);
$dotenv->load();
// test code, should output:
// api://default
// when you run $ php bootstrap.php
echo getenv('OKTAAUDIENCE');
Configure a Database for Your PHP REST API
We will use MySQL to power our simple API. We’ll create a new database and user for our app:
mysql -uroot -p
CREATE DATABASE api_example CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE USER 'api_user'@'localhost' identified by 'api_password';
GRANT ALL on api_example.* to 'api_user'@'localhost';
quit
Our rest API will deal with just a single entity: Person, with the following fields: id
, firstname
, lastname
, firstparent_id
, secondparent_id
. It will allow us to define people and up to two parents for each person (linking to other records in our database). Let’s create the database table in MySQL:
mysql -uapi_user -papi_password api_example
CREATE TABLE person (
id INT NOT NULL AUTO_INCREMENT,
firstname VARCHAR(100) NOT NULL,
lastname VARCHAR(100) NOT NULL,
firstparent_id INT DEFAULT NULL,
secondparent_id INT DEFAULT NULL,
PRIMARY KEY (id),
FOREIGN KEY (firstparent_id)
REFERENCES person(id)
ON DELETE SET NULL,
FOREIGN KEY (secondparent_id)
REFERENCES person(id)
ON DELETE SET NULL
) ENGINE=INNODB;
We’ll add the database connection variables to our .env.example
file:
.env.example
DB_HOST=localhost
DB_PORT=3306
DB_DATABASE=
DB_USERNAME=
DB_PASSWORD=
Then we’ll input our local credentials in the .env file (which is not stored in the repo, remember?):
.env
DB_HOST=localhost
DB_PORT=3306
DB_DATABASE=api_example
DB_USERNAME=api_user
DB_PASSWORD=api_password
We can now create a class to hold our database connection and add the initialization of the connection to our bootstrap.php file:
src/System/DatabaseConnector.php
<?php
namespace Src\System;
class DatabaseConnector {
private $dbConnection = null;
public function __construct()
{
$host = getenv('DB_HOST');
$port = getenv('DB_PORT');
$db = getenv('DB_DATABASE');
$user = getenv('DB_USERNAME');
$pass = getenv('DB_PASSWORD');
try {
$this->dbConnection = new \PDO(
"mysql:host=$host;port=$port;charset=utf8mb4;dbname=$db",
$user,
$pass
);
} catch (\PDOException $e) {
exit($e->getMessage());
}
}
public function getConnection()
{
return $this->dbConnection;
}
}
bootstrap.php
(full version)
<?php
require 'vendor/autoload.php';
use Dotenv\Dotenv;
use Src\System\DatabaseConnector;
$dotenv = new DotEnv(__DIR__);
$dotenv->load();
$dbConnection = (new DatabaseConnector())->getConnection();
Let’s create a dbseed.php
file which creates our Person
table and inserts some records in it for testing:
dbseed.php
<?php
require 'bootstrap.php';
$statement = <<<EOS
CREATE TABLE IF NOT EXISTS person (
id INT NOT NULL AUTO_INCREMENT,
firstname VARCHAR(100) NOT NULL,
lastname VARCHAR(100) NOT NULL,
firstparent_id INT DEFAULT NULL,
secondparent_id INT DEFAULT NULL,
PRIMARY KEY (id),
FOREIGN KEY (firstparent_id)
REFERENCES person(id)
ON DELETE SET NULL,
FOREIGN KEY (secondparent_id)
REFERENCES person(id)
ON DELETE SET NULL
) ENGINE=INNODB;
INSERT INTO person
(id, firstname, lastname, firstparent_id, secondparent_id)
VALUES
(1, 'Krasimir', 'Hristozov', null, null),
(2, 'Maria', 'Hristozova', null, null),
(3, 'Masha', 'Hristozova', 1, 2),
(4, 'Jane', 'Smith', null, null),
(5, 'John', 'Smith', null, null),
(6, 'Richard', 'Smith', 4, 5),
(7, 'Donna', 'Smith', 4, 5),
(8, 'Josh', 'Harrelson', null, null),
(9, 'Anna', 'Harrelson', 7, 8);
EOS;
try {
$createTable = $dbConnection->exec($statement);
echo "Success!\n";
} catch (\PDOException $e) {
exit($e->getMessage());
}
Our database is all set! If you want to reset it, just drop the person
table in MySQL and then run php dbseed.php
(I didn’t add the drop statement to the seeder as a precaution against running it by mistake).
Add a Gateway Class for the Person Table
There are many patterns for working with databases in an object-oriented context, ranging from simple execution of direct SQL statements when needed (in a procedural way) to complex ORM systems (two of the most popular ORM choices in PHP are Eloquent and Doctrine). For our simple API, it makes sense to use a simple pattern as well so we’ll go with a Table Gateway. We’ll even skip creating a Person
class (as the classical pattern would require) and just go with the PersonGateway
class. We’ll implement methods to return all records, return a specific person and add/update/delete a person.
src/TableGateways/PersonGateway.php
<?php
namespace Src\TableGateways;
class PersonGateway {
private $db = null;
public function __construct($db)
{
$this->db = $db;
}
public function findAll()
{
$statement = "
SELECT
id, firstname, lastname, firstparent_id, secondparent_id
FROM
person;
";
try {
$statement = $this->db->query($statement);
$result = $statement->fetchAll(\PDO::FETCH_ASSOC);
return $result;
} catch (\PDOException $e) {
exit($e->getMessage());
}
}
public function find($id)
{
$statement = "
SELECT
id, firstname, lastname, firstparent_id, secondparent_id
FROM
person
WHERE id = ?;
";
try {
$statement = $this->db->prepare($statement);
$statement->execute(array($id));
$result = $statement->fetchAll(\PDO::FETCH_ASSOC);
return $result;
} catch (\PDOException $e) {
exit($e->getMessage());
}
}
public function insert(Array $input)
{
$statement = "
INSERT INTO person
(firstname, lastname, firstparent_id, secondparent_id)
VALUES
(:firstname, :lastname, :firstparent_id, :secondparent_id);
";
try {
$statement = $this->db->prepare($statement);
$statement->execute(array(
'firstname' => $input['firstname'],
'lastname' => $input['lastname'],
'firstparent_id' => $input['firstparent_id'] ?? null,
'secondparent_id' => $input['secondparent_id'] ?? null,
));
return $statement->rowCount();
} catch (\PDOException $e) {
exit($e->getMessage());
}
}
public function update($id, Array $input)
{
$statement = "
UPDATE person
SET
firstname = :firstname,
lastname = :lastname,
firstparent_id = :firstparent_id,
secondparent_id = :secondparent_id
WHERE id = :id;
";
try {
$statement = $this->db->prepare($statement);
$statement->execute(array(
'id' => (int) $id,
'firstname' => $input['firstname'],
'lastname' => $input['lastname'],
'firstparent_id' => $input['firstparent_id'] ?? null,
'secondparent_id' => $input['secondparent_id'] ?? null,
));
return $statement->rowCount();
} catch (\PDOException $e) {
exit($e->getMessage());
}
}
public function delete($id)
{
$statement = "
DELETE FROM person
WHERE id = :id;
";
try {
$statement = $this->db->prepare($statement);
$statement->execute(array('id' => $id));
return $statement->rowCount();
} catch (\PDOException $e) {
exit($e->getMessage());
}
}
}
Obviously, in a production system, you would want to handle the exceptions more gracefully instead of just exiting with an error message.
Here are some examples of using the gateway:
$personGateway = new PersonGateway($dbConnection);
// return all records
$result = $personGateway->findAll();
// return the record with id = 1
$result = $personGateway->find(1);
// insert a new record
$result = $personGateway->insert([
'firstname' => 'Doug',
'lastname' => 'Ellis'
]);
// update the record with id = 10
$result = $personGateway->update(10, [
'firstname' => 'Doug',
'lastname' => 'Ellis',
'secondparent_id' => 1
]);
// delete the record with id = 10
$result = $personGateway->delete(10);
Implement the PHP REST API
We will implement a REST API now with the following endpoints:
// return all records
GET /person
// return a specific record
GET /person/{id}
// create a new record
POST /person
// update an existing record
PUT /person/{id}
// delete an existing record
DELETE /person/{id}
We’ll create a /public/index.php
file to serve as our front controller and process the requests, and a src/Controller/PersonController.php
to handle the API endpoints (called from the front controller after validating the URI).
public/index.php
<?php
require "../bootstrap.php";
use Src\Controller\PersonController;
header("Access-Control-Allow-Origin: *");
header("Content-Type: application/json; charset=UTF-8");
header("Access-Control-Allow-Methods: OPTIONS,GET,POST,PUT,DELETE");
header("Access-Control-Max-Age: 3600");
header("Access-Control-Allow-Headers: Content-Type, Access-Control-Allow-Headers, Authorization, X-Requested-With");
$uri = parse_url($_SERVER['REQUEST_URI'], PHP_URL_PATH);
$uri = explode( '/', $uri );
// all of our endpoints start with /person
// everything else results in a 404 Not Found
if ($uri[1] !== 'person') {
header("HTTP/1.1 404 Not Found");
exit();
}
// the user id is, of course, optional and must be a number:
$userId = null;
if (isset($uri[2])) {
$userId = (int) $uri[2];
}
$requestMethod = $_SERVER["REQUEST_METHOD"];
// pass the request method and user ID to the PersonController and process the HTTP request:
$controller = new PersonController($dbConnection, $requestMethod, $userId);
$controller->processRequest();
src/Controller/PersonController.php
<?php
namespace Src\Controller;
use Src\TableGateways\PersonGateway;
class PersonController {
private $db;
private $requestMethod;
private $userId;
private $personGateway;
public function __construct($db, $requestMethod, $userId)
{
$this->db = $db;
$this->requestMethod = $requestMethod;
$this->userId = $userId;
$this->personGateway = new PersonGateway($db);
}
public function processRequest()
{
switch ($this->requestMethod) {
case 'GET':
if ($this->userId) {
$response = $this->getUser($this->userId);
} else {
$response = $this->getAllUsers();
};
break;
case 'POST':
$response = $this->createUserFromRequest();
break;
case 'PUT':
$response = $this->updateUserFromRequest($this->userId);
break;
case 'DELETE':
$response = $this->deleteUser($this->userId);
break;
default:
$response = $this->notFoundResponse();
break;
}
header($response['status_code_header']);
if ($response['body']) {
echo $response['body'];
}
}
private function getAllUsers()
{
$result = $this->personGateway->findAll();
$response['status_code_header'] = 'HTTP/1.1 200 OK';
$response['body'] = json_encode($result);
return $response;
}
private function getUser($id)
{
$result = $this->personGateway->find($id);
if (! $result) {
return $this->notFoundResponse();
}
$response['status_code_header'] = 'HTTP/1.1 200 OK';
$response['body'] = json_encode($result);
return $response;
}
private function createUserFromRequest()
{
$input = (array) json_decode(file_get_contents('php://input'), TRUE);
if (! $this->validatePerson($input)) {
return $this->unprocessableEntityResponse();
}
$this->personGateway->insert($input);
$response['status_code_header'] = 'HTTP/1.1 201 Created';
$response['body'] = null;
return $response;
}
private function updateUserFromRequest($id)
{
$result = $this->personGateway->find($id);
if (! $result) {
return $this->notFoundResponse();
}
$input = (array) json_decode(file_get_contents('php://input'), TRUE);
if (! $this->validatePerson($input)) {
return $this->unprocessableEntityResponse();
}
$this->personGateway->update($id, $input);
$response['status_code_header'] = 'HTTP/1.1 200 OK';
$response['body'] = null;
return $response;
}
private function deleteUser($id)
{
$result = $this->personGateway->find($id);
if (! $result) {
return $this->notFoundResponse();
}
$this->personGateway->delete($id);
$response['status_code_header'] = 'HTTP/1.1 200 OK';
$response['body'] = null;
return $response;
}
private function validatePerson($input)
{
if (! isset($input['firstname'])) {
return false;
}
if (! isset($input['lastname'])) {
return false;
}
return true;
}
private function unprocessableEntityResponse()
{
$response['status_code_header'] = 'HTTP/1.1 422 Unprocessable Entity';
$response['body'] = json_encode([
'error' => 'Invalid input'
]);
return $response;
}
private function notFoundResponse()
{
$response['status_code_header'] = 'HTTP/1.1 404 Not Found';
$response['body'] = null;
return $response;
}
}
You can test the API with a tool like Postman. First, go to the project directory and start the PHP server:
php -S 127.0.0.1:8000 -t public
Then connect to 127.0.0.1:8000
with Postman and send http requests. Note: when making PUT and POST requests, make sure to set the Body type to raw
, then paste the payload in JSON format and set the content type to JSON (application/json).
Secure Your PHP REST API with OAuth 2.0
We’ll use Okta as our authorization server and we’ll implement the Client Credentials Flow. The flow is recommended for machine-to-machine authentication when the client is private and works like this: The client application holds a Client ID and a Secret; The client passes these credentials to Okta and obtains an access token; The client sends the access token to the REST API server; The server asks Okta for some metadata that allows it to verify tokens and validates the token (alternatively, it can just ask Okta to verify the token); The server then provides the API resource if the token is valid, or responds with a 401 Unauthorized status code if the token is missing, expired or invalid.
Before you begin, you’ll need a free Okta developer account. Install the Okta CLI and run okta register
to sign up for a new account. If you already have an account, run okta login
.
Then, run okta apps create service
. Select the default app name, or change it as you see fit.
What does the Okta CLI do?
The Okta CLI will create an OAuth 2.0 Service App in your Okta Org. You will see output like the following when it’s finished:
Okta application configuration has been written to: /path/to/app/.okta.env
Run cat .okta.env
(or type .okta.env
on Windows) to see the issuer and credentials for your app.
export OKTA_OAUTH2_ISSUER="https://dev-133337.okta.com/oauth2/default"
export OKTA_OAUTH2_CLIENT_ID="0oab8eb55Kb9jdMIr5d6"
export OKTA_OAUTH2_CLIENT_SECRET="NEVER-SHOW-SECRETS"
Your Okta domain is the first part of your issuer, before /oauth2/default
.
NOTE: You can also use the Okta Admin Console to create your app. See Create a Service App for more information.
These are the credentials that your client application will need in order to authenticate. For this example, the client and server code will be in the same repository, so we will add these credentials to our .env
file as well (make sure to replace {yourClientId}
and {yourClientSecret}
with the values from this page):
Add to .env.example
:
OKTAISSUER=
OKTACLIENTID=
OKTASECRET=
Add these keys and values to .env
:
OKTAISSUER=https://{yourOktaDomain}/oauth2/default
OKTACLIENTID={yourClientId}
OKTASECRET={yourClientSecret}
Log in to the Okta Admin Console (tip: run okta login
, open URL in a browser). Navigate to Security > API. Select your default Authorization Server. Click the Edit icon, go to the Scopes tab and click Add Scope to add a scope for the REST API. Name it person_api
and check Set as a default scope.
Add the scope to .env.example
:
SCOPE=
and the key with the value to .env
:
SCOPE=person_api
Add Authentication to Your PHP REST API
We’ll use the Okta JWT Verifier library. It requires a JWT library (we’ll use firebase/php-jwt
) and a PSR-7 compliant library (we’ll use guzzlehttp/psr7
). We’ll install everything through composer:
composer require okta/jwt-verifier:"^1.1" firebase/php-jwt:"^5.2" guzzlehttp/psr7:"^1.8" mailgun/mailgun-php:"^3.5" kriswallsmith/buzz:"^1.2" nyholm/psr7:"^1.4"
Now we can add the authorization code to our front controller (if using a framework, we’ll do this in a middleware instead):
public/index.php
(full version for clarity)
<?php
require "../bootstrap.php";
use Src\Controller\PersonController;
header("Access-Control-Allow-Origin: *");
header("Content-Type: application/json; charset=UTF-8");
header("Access-Control-Allow-Methods: OPTIONS,GET,POST,PUT,DELETE");
header("Access-Control-Max-Age: 3600");
header("Access-Control-Allow-Headers: Content-Type, Access-Control-Allow-Headers, Authorization, X-Requested-With");
$uri = parse_url($_SERVER['REQUEST_URI'], PHP_URL_PATH);
$uri = explode('/', $uri);
// all of our endpoints start with /person
// everything else results in a 404 Not Found
if ($uri[1] !== 'person') {
header("HTTP/1.1 404 Not Found");
exit();
}
// the user id is, of course, optional and must be a number:
$userId = null;
if (isset($uri[2])) {
$userId = (int) $uri[2];
}
// authenticate the request with Okta:
if (! authenticate()) {
header("HTTP/1.1 401 Unauthorized");
exit('Unauthorized');
}
$requestMethod = $_SERVER["REQUEST_METHOD"];
// pass the request method and user ID to the PersonController:
$controller = new PersonController($dbConnection, $requestMethod, $userId);
$controller->processRequest();
function authenticate() {
try {
switch(true) {
case array_key_exists('HTTP_AUTHORIZATION', $_SERVER) :
$authHeader = $_SERVER['HTTP_AUTHORIZATION'];
break;
case array_key_exists('Authorization', $_SERVER) :
$authHeader = $_SERVER['Authorization'];
break;
default :
$authHeader = null;
break;
}
preg_match('/Bearer\s(\S+)/', $authHeader, $matches);
if(!isset($matches[1])) {
throw new \Exception('No Bearer Token');
}
$jwtVerifier = (new \Okta\JwtVerifier\JwtVerifierBuilder())
->setIssuer(getenv('OKTAISSUER'))
->setAudience('api://default')
->setClientId(getenv('OKTACLIENTID'))
->build();
return $jwtVerifier->verify($matches[1]);
} catch (\Exception $e) {
return false;
}
}
Build a Sample Client Application (Command Line Script) to Test the PHP REST API
In this section, we will add a simple client application (a command line script using curl) to test the REST API. We’ll create a new php file ‘public/clients.php’ with a very simple flow: it will retrieve the Okta details (issuer, scope, client id and secret) from the .env file, then it will obtain an access token from Okta and it will run API calls to get all users and get a specific user (passing the Okta access token in the Authorization header).
public/client.php
<?php
require "../bootstrap.php";
$clientId = getenv('OKTACLIENTID');
$clientSecret = getenv('OKTASECRET');
$scope = getenv('SCOPE');
$issuer = getenv('OKTAISSUER');
// obtain an access token
$token = obtainToken($issuer, $clientId, $clientSecret, $scope);
// test requests
getAllUsers($token);
getUser($token, 1);
// end of client.php flow
function obtainToken($issuer, $clientId, $clientSecret, $scope) {
echo "Obtaining token...";
// prepare the request
$uri = $issuer . '/v1/token';
$token = base64_encode("$clientId:$clientSecret");
$payload = http_build_query([
'grant_type' => 'client_credentials',
'scope' => $scope
]);
// build the curl request
$ch = curl_init();
curl_setopt($ch, CURLOPT_URL, $uri);
curl_setopt( $ch, CURLOPT_HTTPHEADER, [
'Content-Type: application/x-www-form-urlencoded',
"Authorization: Basic $token"
]);
curl_setopt($ch, CURLOPT_POST, 1);
curl_setopt($ch, CURLOPT_POSTFIELDS, $payload);
curl_setopt($ch, CURLOPT_RETURNTRANSFER, true);
// process and return the response
$response = curl_exec($ch);
$response = json_decode($response, true);
if (! isset($response['access_token'])
|| ! isset($response['token_type'])) {
exit('failed, exiting.');
}
echo "success!\n";
// here's your token to use in API requests
return $response['token_type'] . " " . $response['access_token'];
}
function getAllUsers($token) {
echo "Getting all users...";
$ch = curl_init();
curl_setopt($ch, CURLOPT_URL, "http://127.0.0.1:8000/person");
curl_setopt( $ch, CURLOPT_HTTPHEADER, [
'Content-Type: application/json',
"Authorization: $token"
]);
curl_setopt($ch, CURLOPT_RETURNTRANSFER, true);
$response = curl_exec($ch);
var_dump($response);
}
function getUser($token, $id) {
echo "Getting user with id#$id...";
$ch = curl_init();
curl_setopt($ch, CURLOPT_URL, "http://127.0.0.1:8000/person/" . $id);
curl_setopt( $ch, CURLOPT_HTTPHEADER, [
'Content-Type: application/json',
"Authorization: $token"
]);
curl_setopt($ch, CURLOPT_RETURNTRANSFER, true);
$response = curl_exec($ch);
var_dump($response);
}
You can run the application from the command line by going to the /public
directory and running:
php client.php
(Don’t forget to start the server if you haven’t already!)
php -S 127.0.0.1:8000 -t public
That’s it!
Learn More About PHP, Secure REST APIs, and OAuth 2.0 Client Credentials Flow
You can find all the code from this example on GitHub, in the oktadeveloper/okta-php-core-rest-api-example repository.
If you would like to dig deeper into the topics covered in this article, the following resources are a great starting point:
- Our Vue/PHP Quickstart Guide
- Okta Authentication Overview
- Add Authentication to your PHP App in 5 Minutes
- Build Simple Login in PHP
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