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Java Spring Boot Final

Welcome to the final project for the Java Spring Boot unit. In this project, you will be working with a Spring Boot application that includes a database for a web store and an already implemented authentication and authorization system. You will be responsible for implementing the REST endpoints that allow users to interact with the store, and securing those endpoints using Spring Boot's security annotations.

Getting Started

To get started, open the project file located in java-spring-boot-final/pom.xml in IntelliJ.

Project Overview

This project contains a Spring Boot application with the necessary dependencies to create a REST API backed by a mysql database with authentication and authorization. The application is already configured to use the database and the authentication and authorization system is already implemented. However, the REST endpoints that allow users to interact with the rest of the database are not yet implemented.

The application source contains the following directories:

  • src/main/java/org.example/models - Contains the model classes that represent the data in the database. You will not need to create any new model classes.
  • src/main/java/org.example/daos - Contains the data access objects that interact with the database. Currently, there is only one DAO class, UserDao, which interacts with the users table.
  • src/main/java/org.example/services - Contains the service classes that provide services that are not directly related to the database. The only service class currently is CustomUserDetailsService, which provides the authentication system and auth/login endpoint. You will not need to create any new service classes for this project.
  • src/main/java/org.example/controllers - Contains the controller classes that provide the REST endpoints for the application. Currently, there are two controller classes, UserController and ProfileController. The UserController class provides methods for ADMIN users to create, read, update, and delete users. The ProfileController class provides methods for users to read and update their own profiles.
  • src/main/java/org.example/exceptions - Contains the exception classes that are thrown by the application. Currently, there is only one exception class, DAOException, which is thrown when an error occurs in the DAO classes. You will not need to create any new exception classes for this project.

Initial Setup and Verification

Creating the Database

To create the database, you will need to run the create-database.sql script located in the sql directory. You can run this script by opening MySql Workbench and opening the script file. Then, you can execute the script by clicking on the lightning bolt icon in the toolbar.

Setting Database Connection Properties

To configure the application to connect to the database, you will need to modify the application.properties file located in the src/main/resources directory. You will need to set the following properties:

  • spring.datasource.username - The username for your mysql server.
  • spring.datasource.password - The password for your mysql server.

Running the Application

To run the application, you can right-click on the SpringBootApplication class in IntelliJ and select "Run WebStoreApplication". This will start the application and you should see output in the console indicating that the application has started.

If you see an error message in the console, you may need to check the application.properties file to make sure that the database connection properties are set correctly, and make sure that you have created the database using the create-database.sql script.

Loading the Postman Collection

To help you test the REST endpoints, a Postman collection has been provided that contains a set of requests that you can use to interact with the REST endpoints. You can find the Postman collection in the postman directory.

To load the Postman collection, open Postman and click on the "Import" button in the top left corner. Then, click on the "Choose Files" button and select the java-spring-boot-final/postman/web-store.postman_collection.json

Once you have imported the collection, you should see a new collection called "Web Store" in the left sidebar. You can expand the collection to see the requests that are available.

Make sure that the application is running before you try to execute the requests in Postman.

You should first execute the login request to authenticate as an admin user. Then, you can execute the other requests to interact with the REST endpoints.

The requests in the Profile folder and the User folder are already implemented and should work correctly as long as you run the login request first to authenticate as an admin user. The requests in the Products, Orders, and OrderItems folders are not yet implemented and will not work until you implement the REST endpoints.

Note

You should not need to modify the postman collection, but you may change the request bodies or parameters if you want to test different scenarios.

Exercise

Your task is to implement the REST endpoints that allow users to interact with the store. You will need to create a DAO class and a controller class for each of the tables in the database.

Stop the application and follow the steps below to complete the exercise.

Step 1: Review the Model Classes

In the models folder, notice that there is a class for each of the tables in the database. You will need to use these classes to interact with the database in the DAO classes and controller classes.

Step 2: Create the DAO Classes

In the daos folder, create a new DAO class for each of the tables in the database (other than the users and roles tables). Each DAO class should contain methods for creating, reading, updating, and deleting items in the table:

  • getAll - Retrieves all items from the table.
  • getById - Retrieves an item by its id.
  • create - Creates a new item in the table.
  • update - Updates an existing item in the table.
  • delete - Deletes an item from the table.

You can refer to the existing UserDao class for an example of what these classes should look like. However, note that the UserDao class contains an injected PasswordEncoder bean that is used to encode passwords. You will not need to use this bean in your DAO classes.

Note

Each DAO class should be annotated with @Component annotation so that it can be injected into the controller classes.

As in the UserDao class, each DAO class should contain a JdbcTemplate object that is created from a DataSource object that is injected through the constructor.

For example:

@Component
public class ProductDao {
    private JdbcTemplate jdbcTemplate;

    public ProductDao(DataSource dataSource) {
        this.jdbcTemplate = new JdbcTemplate(dataSource);
    }

    // ...
}

Each DAO class will also need a mapping method that maps a ResultSet object to a model object so that your SELECT queries can map the results to the appropriate model objects. You can refer to the UserDao class for an example of what this method should look like.

Step 3: Create the Controller Classes

Create a new controller class for each of the tables in the database (other than the users and roles tables). Each controller class should contain methods providing REST endpoints for creating, reading, updating, and deleting items in the table. These endpoints are detailed below.

You can refer to the existing UserController and ProfileController classes for an example of what these classes should look like.

Note that each controller class injects its corresponding DAO class through an @Autowired class member. You will need to do the same for your controller classes.

For example:

@RestController
@RequestMapping("/products")
public class ProductController {
    @Autowired
    private ProductDao productDao;

    // ...
}

Note

Your "Get by Id" methods should return a 404 status code if the item is not found in the database. You can do this by throwing a ResponseStatusException with a HttpStatus.NOT_FOUND status code. (Refer to the UserController class for an example of how to do this.)

When you are finished, you should have implemented all of the REST endpoints in the Postman collection, and they should all function properly and return appropriate data.

Product Endpoints

  • GET /products - Retrieves all products.
  • GET /products/{id} - Retrieves a product by the id in the path, return a 404 NOT FOUND status code if the product is not found.
  • POST /products - Creates a new product from the request body and returns the created product with a 201 CREATED http status code.
  • PUT /products/{id} - Updates an existing product from the request body and returns the updated product, return a 404 NOT FOUND status code if the product is not found.
  • DELETE /products/{id} - Deletes a product by the id in the path and returns the number of rows affected, return a 404 NOT FOUND status code if the product is not found.

Order Endpoints

  • GET /orders - Retrieves all orders.
  • GET /orders/{id} - Retrieves an order by the id in the path, return a 404 NOT FOUND status code if the order is not found.
  • POST /orders - Creates a new order from the request body and returns the created order with a 201 CREATED http status code.
  • PUT /orders/{id} - Updates an existing order from the request body and returns the updated order, return a 404 NOT FOUND status code if the order is not found.
  • DELETE /orders/{id} - Deletes an order by the id in the path and returns the number of rows affected, return a 404 NOT FOUND status code if the order is not found.

Order Item Endpoints

  • GET /order-items - Retrieves all order items.
  • GET /order-items/{id} - Retrieves an order item by the id in the path, return a 404 NOT FOUND status code if the order item is not found.
  • POST /order-items - Creates a new order item from the request body and returns the created order item with a CREATED http 201 status code.
  • PUT /order-items/{id} - Updates an existing order item from the request body and returns the updated order item, return a 404 NOT FOUND status code if the order item is not found.
  • DELETE /order-items/{id} - Deletes an order item by the id in the path and returns the number of rows affected, return a 404 NOT FOUND status code if the order item is not found.

Testing with Postman

You can verify that the application is working correctly by running the application and then launching Postman to test the REST endpoints. You should be able to create, read, update, and delete items in the database using the REST endpoints that you created.

Testing with Included Unit Tests

You can also verify that the application is working correctly by running the included unit tests. The unit tests are located in the src/test/java directory. To run the unit tests, right-click on the src/test/java directory and select "Run All Tests".

Warning

DO NOT modify the unit tests. Your project will be evaluated based on the unit tests all passing. Modifying the unit tests will result in a failing grade.

Evaluation

Your project will be evaluated based on the unit tests all passing.

Bonus Steps

Bonus Step 1: Secure all REST endpoints by requiring authentication

Add the @PreAuthorize annotation to all of the REST endpoints in the controller classes to require that users be authenticated in order to access the endpoints. You can use the isAuthenticated() expression to require that users be authenticated.

Bonus Step 2: Constrain Order Creation and Update using Principal

Add a Principal argument to the create and update endpoints for the Order controller that will allow you to get the username of the user and overwrite the username field in the passed Order object. This will guaranatee that the username field is always set to the username of the user that created or updated the order.

For example:

@PostMapping
public void createOrder(@RequestBody Order order, Principal principal) {
    String username = principal.getName();
    order.setUsername(username);

    // ...
}

Bonus Step 3: Add optional query parameters to the Orders GET endpoint

Add optional user query parameters to the Orders GET endpoint that will allow users to only retrieve orders that belong to a specific user. If the user query parameter is not provided, the endpoint should return all orders.

@GetMapping
public List<Order> listOrders(@RequestParam(required = false) String username) {
    if (username != null) {
        return orderDao.getOrdersByUsername(username);
    } else {
        return orderDao.getOrders();
    }
}

Note

You will need to create a new method in the OrderDao class that retrieves orders by username.

Bonus Step 4: Add optional query parameters to the OrderItems GET endpoint

Add optional orderId query parameters to the OrderItems GET endpoint that will allow users to only retrieve order items that belong to a specific order. If the orderId query parameter is not provided, the endpoint should return all order items.

@GetMapping
public List<OrderItem> listOrderItems(@RequestParam(required = false) Long orderId) {
    if (orderId != null) {
        return orderItemDao.getOrderItemsByOrderId(orderId);
    } else {
        return orderItemDao.getOrderItems();
    }
}

Note

You will need to create a new method in the OrderItemDao class that retrieves order items by order id.

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