How to Call REST Services with WebClient in Spring Boot?

Representational State Transfer (REST) is an architectural style that defines a set of constraints to be used for creating web services. REST API is a way of accessing web services in a simple and flexible way without having any processing. Spring WebClient is a non-blocking and reactive web client to perform HTTP requests. It is also the replacement for the classic RestTemplate. If you have Spring WebFlux on your classpath, you can also choose to use WebClient to call remote REST services. Compared to RestTemplate, this client has a more functional feel and is fully reactive.

Example Code Snippet:

Create Bean for WebClient in the configuration file like below

@Bean
public WebClient webClient() {
  return WebClient.builder().baseUrl(addressBaseUrl).build();
}

Now it’s ready for use in the service class file. You can refer to the below code

@Service
public class EmployeeService {

    @Autowired
    private WebClient webClient;

    
    // Using WebClient
    AddressResponse addressResponse = webClient.get().uri("/address/" + id).retrieve().bodyToMono(AddressResponse.class).block();
    employeeResponse.setAddressResponse(addressResponse);

}

Let’s understand the whole thing by developing two Spring Boot applications.

Example Spring Boot Project

In this project, we are going to develop two Microservices/Spring Boot applications

1. employee-service
2. address-service

Developing employee-service Step by Step

Step 1: Create a New Spring Boot Project in Spring Initializr

To create a new Spring Boot project, please refer to How to Create a Spring Boot Project in Spring Initializr and Run it in IntelliJ IDEA. For this project choose the following things

• Project: Maven
• Language: Java
• Packaging: Jar
• Java: 17

 Please choose the following dependencies while creating the project.

• Spring Boot DevTools
• Spring Data JPA
• MySQL Driver
• Spring Web

Generate the project and run it in IntelliJ IDEA by referring to the above article.

Note: We have used the MySQL database in this project.

Step 2: Create Schema in MySQL Workbench and Put Some Sample Data

Go to your MySQL Workbench and create a schema named gfgmicroservicesdemo and inside that create a table called employee and put some sample data as shown in the below image. Here we have created 4 columns and put some sample data.

1. id
2. name
3. email
4. age

 

Now we are going to fetch Employee Data from Employee Table in our Spring Boot project. To do it refer to the following steps. Before moving to IntelliJ IDEA let’s have a look at the complete project structure for our Microservices.

 

Step 3: Make Changes in Your application.properties File

Now make the following changes in your application.properties file.

spring.datasource.url=jdbc:mysql://localhost:3306/gfgmicroservicesdemo
spring.datasource.username=put your username here
spring.datasource.password=put your password here

spring.application.name=employee-service
server.port=8080

# Set Your Context Path Here
server.servlet.context-path=/employee-service

addressservice.base.url=http://localhost:8081/address-service

Step 4: Create Your Entity/Model Class

Go to the src > main > java > entity and create a class Employee and put the below code. This is our model class.

Step 5: Create Your Repository Interface

Go to the src > main > java > repository and create an interface EmployeeRepo and put the below code. This is our repository where we write code for all the database-related stuff.

Note: Please refer to this article to know more about JpaRepository.

Step 6: Create an AddressResponse and EmployeeResponse Class

Go to the src > main > java > response and create a class AddressResponse and put the below code.

Go to the src > main > java > response and create a class EmployeeResponse and put the below code.

Step 7: Add the webflux dependency to the pom.xml file

Add this dependency to the pom.xml file.

<dependency>
    <groupId>org.springframework.boot</groupId>
    <artifactId>spring-boot-starter-webflux</artifactId>
</dependency>

Please cross-verify the pom.xml file if you have missed some dependencies.

Step 8: Create a Configuration Class

Go to the src > main > java > configuration and create a class EmployeeConfig and put the below code.

Note: You may refer to these two articles

• Spring @Configuration Annotation with Example
• Spring @Bean Annotation with Example

Step 9: Create Your Service Class

Go to the src > main > java > service and create a class EmployeeService and put the below code. This is our service class where we write our business logic. Here we are calling a REST service with WebClient.

Step 8: Create an Employee Controller

Go to the src > main > java > controller and create a class EmployeeController and put the below code. Here we are going to create an endpoint “/employees/{id}” to find an employee using id.

Developing address-service Step by Step

Step 1: Create a New Spring Boot Project in Spring Initializr

To create a new Spring Boot project, please refer to How to Create a Spring Boot Project in Spring Initializr and Run it in IntelliJ IDEA. For this project choose the following things

• Project: Maven
• Language: Java
• Packaging: Jar
• Java: 17

 Please choose the following dependencies while creating the project.

• Spring Boot DevTools
• Spring Data JPA
• MySQL Driver
• Spring Web

Generate the project and run it in IntelliJ IDEA by referring to the above article.

Note: We have used the MySQL database in this project.

Step 2: Create Schema in MySQL Workbench and Put Some Sample Data

Go to your MySQL Workbench and create a schema named gfgmicroservicesdemo and inside that create a table called address and put some sample data as shown in the below image. 

Address Table:

Here we have created 4 columns and put some sample data.

1. id
2. city
3. state
4. employee_id

Note: In the Address table, employee_id is a foreign key so create it accordingly. We are going to perform a SQL join operation in our native SQL query. So create tables carefully.

 

Before moving to IntelliJ IDEA let’s have a look at the complete project structure for our Microservices.

 

Step 3: Make Changes in Your application.properties File

Now make the following changes in your application.properties file.

spring.datasource.url=jdbc:mysql://localhost:3306/gfgmicroservicesdemo
spring.datasource.username=put your username here
spring.datasource.password=put your password here

spring.application.name=address-service
server.port=8081
server.servlet.context-path=/address-service

Step 4: Create Your Entity/Model Class

Go to the src > main > java > entity and create a class Address and put the below code. This is our model class.

Step 5: Create Your Repository Interface

Go to the src > main > java > repository and create an interface AddressRepo and put the below code. This is our repository where we write code for all the database-related stuff.

Note: Please refer to this article to know more about JpaRepository.

Step 6: Create an AddressResponse Class

Go to the src > main > java > response and create a class AddressResponse and put the below code.

Step 7: Create Your Service Class

Go to the src > main > java > service and create a class AddressService and put the below code. This is our service class where we write our business logic.

Step 8: Create an Address Controller

Go to the src > main > java > controller and create a class AddressController and put the below code. Here we are going to create an endpoint “/address/{employeeId}” to find the address using employee_id. Thats why we have created a foreign key in the Address table and we have performed the SQL join operation in the native query to get our desired result.

Step 9: Create a Configuration Class

Go to the src > main > java > configuration and create a class AddressConfig and put the below code.

Note: You may refer to these two articles

• Spring @Configuration Annotation with Example
• Spring @Bean Annotation with Example

Before running the Microservice below is the complete pom.xml file. Please cross-verify if you have missed some dependencies

Run Your Both Address and Employee Microservices

Now run your both Address and Employee Microservices. If everything goes well then you may see the following screen in your console. Please refer to the below image.

 

Test Your Endpoint in Postman

Now open Postman and hit the following URL

GET: http://localhost:8080/employee-service/employees/2

And you can see the following response

{
    "id": 2,
    "name": "Asish",
    "email": "asis@gmail",
    "age": "30",
    "addressResponse": {
        "id": 1,
        "city": "BLS",
        "state": "Odisha"
    }
}

Please refer to the below image.