Category Archives: Java

Spring Boot Actuator

In this post, we will look at how we can use the spring boot actuator to add some metrics related endpoints in Spring Boot based microservice or application. Spring boot helps to monitor your production-ready application by offering a number of metrics related endpoints.

What do you need:

  • Java 8
  • Spring Boot
  • IntelliJ
  • Gradle

What are Spring boot actuator endpoints?

I will not be showing how to create a Spring boot REST in this article. You can refer my post to create a REST API based on Spring boot here.

As Spring documentation says – “Spring boot actuator let you monitor and interact with your application.” The endpoints that we will be discussing, are built in Spring Boot. Of course, the first question that comes to mind, is how do we activate these endpoints and what different endpoints are available there for what purposes.

How to activate actuator endpoints?

To activate these endpoints in a gradle-based project, we have to add the following dependency

dependencies {
  compile("org.springframework.boot:spring-boot-starter-actuator")
}

If you are using maven, this will be like below:

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

All the actuator endpoints are enabled by default.

  • auditevents – Audit events of your application
  • info– Displays information about your application – you can customize to show version information.
  • health – application’s health status
  • metrics – various metrics information of application
  • loggers – Displays and modifies configured loggers
  • logfile – Shows the contents of the log file
  • httptrace – Displays HTTP trace info for the last 100 HTTP request/response
  • env – Displays current environment information
  • flyway – Shows Flyway database migrations details
  • liquidbase – Shows details of liquibase database migrations
  • shutdown – Allows to shut down the application gracefully
  • mappings– Displays a list of all @RequestMapping paths
  • scheduledtasks – Displays the scheduled tasks in the application
  • threaddump – Performs a thread dump
  • headdump – Returns JVM head dump

Another way these endpoints can be enabled or disabled, is to add properties in application.properties as shown below:

management.endpoint.health.enabled=true

Running the spring boot application with actuator

Once we have added the required spring-boot-starter-actuator dependency, we can build our application. There is still one more change we need to add in our gradle build file to get application version information.

springBoot{
     buildInfo()
}

If you are using maven, this can be added as below:

<plugin>
    <groupId>org.springframework.boot</groupId>
    <artifactId>spring-boot-maven-plugin</artifactId>
    <executions>
        <execution>
            <goals>
                <goal>build-info</goal>
            </goals>
        </execution>
    </executions>
</plugin>

If you want to add some additional properties, add following properties in application.properties as below:

info.app.name = Reusable-Rest-Module
info.app.version = 0.1.0-SNAPSHOT
management.security.enabled=false

Now once you build the application and run it, this will give us following results:

http://localhost:8080/health

http://localhost:8080/info

http://localhost:8080/loggers

Conclusion

In this post, we showed how we can use Spring Boot Actuator to get different metrics data for your spring boot based service.

 

Java Memory Management

One topic that I have always been curious, is java memory management. How JVM allocates the memory to different objects and frees up the memory when needed? In this post, I will talk about Java Heap Memory and Stack Memory. Heap and Stack are the memories that JVM allocates as per the application requirements.

Java Heap Space

The most basic question that arises during this discussion, is how do you define both of these memories. So I will start with Java Heap Space. When JVM starts, it creates Java Heap Space and it is used by the application till the time the application is running. Java runtime uses heap space to allocate memory to objects and JRE classes.

The heap size is adjusted according to when the application runs. When the heap gets full, garbage collection takes place. During garbage collection, objects that are not being used, get cleaned, in-process making space for new objects.

Java Stack Memory

Stack memory is like a RAM, used by an executing thread for method-specific values or operations. Most of the values or operations in the stack are short-lived. It can also contain references to objects that reside in heap.

Whenever a method is invoked, a block is allocated in the stack for a method to hold local variables. The block gets cleared once the method finishes execution.

From these earlier definitions, it is clear that Stack memory is smaller in size compared to heap space.

Stack Memory and Heap Space

Differences between Heap space and Stack memory

  1. Heap memory is used by the entire application while the stack is used by execution thread only.
  2. When an object is created, it is stored in heap space, while the reference for that object is stored in stack memory.
  3. Since stack memory is thread-specific, it can’t be accessed by multiple threads or other threads than the one thread that created it. Heap space is global.
  4. Heap space is available till the time application is running, stack memory is short-lived.
  5. JVM can throw errors if both memories are full or the application doesn’t have either of memory remaining to continue running the application. StackOverfFowError if JVM is out of stack memory. If the application stops running provided there is no memory to store objects, it will throw OutOfMemoryError: Java Heap Space Error.

Conclusion

In this post, I discussed the differences between Java heap space and stack memory as part of Java memory management.

References

  1. Stack vs Heap
  2. Understanding memory management

 

Where are we?

Hold on to it. This is going to be a rant about what I am thinking about ideas to post, but also an update about the web application Social KPI.

I am working on a few ideas that I would like to write about. But I am not sure. Lately I have been working on microservice architecture project and that had helped me to design Social KPI application. I would like to hear from my followers if they are interested in any particular topic that I should cover. Currently most of the interests are around Spring boot and microservices. That is too specific, but also equally too big of a topic to cover. I have covered bits and pieces of Spring boot.

Here are a few ideas that I have in mind that I would like to post about:

  1. Spring boot in android applications.
  2. How to use Spring boot and deploy in cloud infrastructure
  3. What is chaos engineering?
  4. Android application and details
  5. Microservices and Service-to-Service authentication
  6. Udemy course for Spring boot and microservices.

Please leave a comment if you want me to cover something new.

Where are we with Social KPI application?

So last, I posted about this application was back in May Twitter Client. After that there had been some progress as I did figure out how to use social login for authentication purposes, but it had not been added in the application. I will be reviving the work on this project and will try to contribute daily for 30-60 minutes. As part of my planning process, I will add here the tasks that need to be finished:

  1. Add Social login UI for the application
  2. Add UI Pages for displaying Social KPI reports and user navigation
  3. Connecting front-end to back-end REST APIs through clients.
  4. Use of Jasper reports for graphical reports.

These are the 4 big stories I am planning to finish by the end of October. Once I have all the code completed, I will launch the application through Heroku.

 

 

 

How to use Streams API

Java 8 added a new feature called Streams. Streams represent a sequence of objects from a source. In this post, I show how to use Streams API.

Previously, using collections API, we would have a collection of objects and then a developer would process this collection to manipulate further to query. With Streams feature, the developer will not have to do any processing operation over the collection of objects.

Streams

Firstly, streams provide a set of elements in a sequential manner. It provides a number of APIs for aggregate operation. Streams take Arrays, Collections, or I/O sources as an input.

How Streams Work

A stream represents a sequence of elements. Stream operations are either intermediate or terminal. Intermediate operations return streams to process further while terminal operations return either void or non-stream results.

List<String> myList =
    Arrays.asList("test1", "sameresult", "netresult", "grossprofit", "test2");

myList
    .stream()
    .filter(s -> s.startsWith("test"))
    .map(String::toUpperCase)
    .sorted()
    .forEach(System.out::println);

As shown above, filter, map, sorted are intermediate operations and forEach is a terminal operation. Javadocs provide the list of all operations on streams.

Most stream operations accept some kind of lambda expression parameter, a functional interface specifying the behavior of the operation.

Instead of using collections, you can also use Stream.Of() operation to create a stream from a bunch of objects.

Intermediate operations have a characteristic of laziness. To look at this, let’s check the example below:

Stream.of("n1", "n2", "n3", "n4", "n5")
    .filter(s -> {
        System.out.println("filter: " + s);
        return true;
    });

It will not print anything on the console. Intermediate operations will work only when there are terminal operations.

Once you call a terminal operation on streams, streams can not be reused.

Operations on Streams

Streams API offers aggregate operations that offer flexibility in using streams. I will show an example here about how to use streams

List<String> listOfStrings = new ArrayList<>();
listOfStrings.add("one");
listOfStrings.add("two");
listOfStrings.add("three");
listOfStrings.add("");
listOfStrings.add("four");

List<String> listOfNotEmptyStrings = listOfStrings.streams().filter(str -> !str.isEmpty()).collect(Collectors.toList());

In the example shown above, I have list of strings that I filter to get only a list containing non-empty strings.

Streams also offer forEach operation which can be used to iterate over the elements of the stream.

Collect is a terminal operation that can transform the elements of a stream into a different kind of result. Example – a List, Map, or a Set.

Map is an operation that allows us to transform objects of a stream into another type of object.

Reduce operation combines all elements of the stream into a single result.

ParallelStreams

Streams also offer something called ParallelStreams . Basically all operations performed over ParallelStreams ,are performed in parallel. Depending on your usage, use these streams carefully as they can cause concurrency issues.

Example – listOfStrings.parallelStream()

ParallelStreams can be used to improve the runtime performance on a large set of input elements.

Conclusion

In this post, I showed how to use Streams API in Java 8. Streams make it handy in many cases where we have a list of objects and we are processing these objects. If you enjoyed this post, subscribe to my blog here.

 

Social login with Spring Boot

In this post, I will show how to use social login in a Spring Boot application. So we build an application, but we use a form-based login which is the most basic and most insecure authentication mechanism out there. How do we get over this hunch and use the latest more secure mechanism?

Social login – Tada.

Yes, with an increasing number of social networks, it has become increasingly popular and easier to build an OAuth based login mechanism using social networks. In other words, spring boot offers a solution with a social login plugin and in this post, we will show how to use social login to authenticate your users.

What will you need

  • IntelliJ
  • Java 8
  • Twitter/Facebook/Google/Linkedin/Github accounts
  • Spring Boot
  • Gradle

Spring Social Core

Spring offers a spring-social-core project that contains APIs to connect to user’s social accounts. Nevertheless, this library includes a connect framework that offers a solution to manage connections with social service providers. It offers support for OAuth1a and OAuth2. The simplest way to understand this library is that you create a connection factory for each social provider. A connection factory locator finds a factory to create a Sign In Provider. I will provide more details as we go along in implementing this module.

 

Create a Social Login Gradle Project

If you haven’t noticed from my blog posts, but I have switched from eclipse to IntelliJ for programming editor. Intellij is just smarter and easy to write code editor. So first create a Gradle project for spring boot. (Side note – if you are using IntelliJ ultimate edition, it offers a feature to create spring project.) We will be using the latest version of Spring Boot (2.0.3.RELEASE) to build this project.

The gradle file will look like below:

buildscript {
  ext {
    springBootVersion = '2.0.3.RELEASE'
  }
  repositories {
    mavenCentral()
  }
  dependencies {
    classpath("org.springframework.boot:spring-boot-gradle-plugin:${springBootVersion}")
  }
}

apply plugin: 'java'
apply plugin: 'eclipse'
apply plugin: 'org.springframework.boot'
apply plugin: 'io.spring.dependency-management'

group = 'com.betterjavacode'
version = '0.0.1-SNAPSHOT'
sourceCompatibility = 1.8

repositories {
  mavenCentral()
  maven {
    url 'https://repo.spring.io/libs-milestone'
  }
}


dependencies {
  compile('org.springframework.boot:spring-boot-starter-thymeleaf')
  compile("org.springframework.boot:spring-boot-starter-web")
  compile("org.springframework.social:spring-social-security:1.1.6.RELEASE")
  compile("org.springframework.social:spring-social-config:1.1.6.RELEASE")
  compile("org.springframework.social:spring-social-core:1.1.6.RELEASE")
  compile('org.springframework.boot:spring-boot-starter-security')
  compile('org.springframework.boot:spring-boot-starter-data-jpa')
  compile("com.fasterxml.jackson.core:jackson-databind:2.9.6")
  compile('mysql:mysql-connector-java:5.1.6')
  compile("org.springframework.social:spring-social-twitter:1.1.2.RELEASE")
  compile("org.springframework.social:spring-social-facebook:2.0.3.RELEASE")
  compile("org.springframework.social:spring-social-google:1.0.0.RELEASE")
  compile("org.springframework.social:spring-social-github:1.0.0.M4")
  compile("org.springframework.social:spring-social-linkedin:1.0.2.RELEASE")
  testCompile('org.springframework.boot:spring-boot-starter-test')
}

I will explain each dependency added in Gradle file as we go along.

Create an entity class

We will be using a simple entity class for User with just one field name.  This will look like below:

@JsonIgnoreProperties(ignoreUnknown = true)
public class User
{
    public String name;

    public String getName() 
    {
        return name;
    }
    public void setName(String name) 
    {
        this.name = name;
    }
}

Create A Social Configuration to adapt Spring Social library

Firstly, we will implement an interface SocialConfigurer that Spring social library offers. For instance, as part of this implementation, we will create connection factories for different social service providers. Also for this module, we are using InMemoryUsersConnectionRepository. You can always implement a JDBC based database user connection repository. This class will look like below:

package com.betterjavacode.reusablesociallogin;


import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.context.annotation.*;
import org.springframework.core.env.Environment;
import org.springframework.security.core.Authentication;
import org.springframework.security.core.context.SecurityContextHolder;
import org.springframework.security.crypto.encrypt.Encryptors;
import org.springframework.security.web.savedrequest.HttpSessionRequestCache;
import org.springframework.social.UserIdSource;
import org.springframework.social.config.annotation.ConnectionFactoryConfigurer;
import org.springframework.social.config.annotation.EnableSocial;
import org.springframework.social.config.annotation.SocialConfigurer;
import org.springframework.social.config.annotation.SocialConfigurerAdapter;
import org.springframework.social.connect.Connection;
import org.springframework.social.connect.ConnectionFactoryLocator;
import org.springframework.social.connect.ConnectionRepository;
import org.springframework.social.connect.UsersConnectionRepository;
import org.springframework.social.connect.jdbc.JdbcUsersConnectionRepository;
import org.springframework.social.connect.mem.InMemoryUsersConnectionRepository;
import org.springframework.social.connect.support.ConnectionFactoryRegistry;
import org.springframework.social.connect.web.ProviderSignInController;
import org.springframework.social.facebook.connect.FacebookConnectionFactory;
import org.springframework.social.github.connect.GitHubConnectionFactory;
import org.springframework.social.google.connect.GoogleConnectionFactory;
import org.springframework.social.linkedin.connect.LinkedInConnectionFactory;
import org.springframework.social.security.AuthenticationNameUserIdSource;
import org.springframework.social.twitter.api.Twitter;
import org.springframework.social.twitter.api.impl.TwitterTemplate;
import org.springframework.social.twitter.connect.TwitterConnectionFactory;

import javax.inject.Inject;
import javax.sql.DataSource;

@Configuration
@PropertySource("classpath:application.properties")
@EnableSocial
public class SocialConfig implements SocialConfigurer
{

    @Autowired
    private DataSource dataSource;

    @Override
    public void addConnectionFactories(ConnectionFactoryConfigurer connectionFactoryConfigurer, Environment environment)
    {
        connectionFactoryConfigurer.addConnectionFactory(new TwitterConnectionFactory(environment.getProperty("spring.social.twitter.consumerKey"), environment.getProperty("spring.social.twitter.consumerSecret")));
        connectionFactoryConfigurer.addConnectionFactory(new FacebookConnectionFactory(environment.getProperty("spring.social.facebook.appId"),environment.getProperty("spring.social.facebook.appSecret")));
        GoogleConnectionFactory googleConnectionFactory = new GoogleConnectionFactory(environment.getProperty("spring.social.google.appId"),environment.getProperty("spring.social.google.appSecret"));
        googleConnectionFactory.setScope("profile");
        connectionFactoryConfigurer.addConnectionFactory(googleConnectionFactory);
        connectionFactoryConfigurer.addConnectionFactory(new GitHubConnectionFactory(environment.getProperty("spring.social.github.appId"), environment.getProperty("spring.social.github.appSecret")));
        connectionFactoryConfigurer.addConnectionFactory(new LinkedInConnectionFactory(environment.getProperty("spring.social.linkedin.appId"), environment.getProperty("spring.social.linkedin.appSecret")));
    }

    @Override
    public UserIdSource getUserIdSource()
    {
        return new UserIdSource() {
            @Override
            public String getUserId() {
                Authentication authentication = SecurityContextHolder.getContext().getAuthentication();
                if (authentication == null) {
                    throw new IllegalStateException("Unable to get a ConnectionRepository: no user signed in");
                }
                return authentication.getName();
            }
        };
    }

    @Override
    public UsersConnectionRepository getUsersConnectionRepository(ConnectionFactoryLocator connectionFactoryLocator)
    {
        InMemoryUsersConnectionRepository usersConnectionRepository = new InMemoryUsersConnectionRepository(
                connectionFactoryLocator);
        return usersConnectionRepository;
    }

}

As you see in this class, I am referring to application.properties . The application.properties will look like below:

spring.social.twitter.consumerKey=[Twitter consumer key]
spring.social.twitter.consumerSecret=[Twitter consumer secret]
spring.social.facebook.appId=[Facebook client id]
spring.social.facebook.appSecret=[Facebook client secret]
spring.social.google.appId=[Google client id]
spring.social.google.appSecret=[Google client secret]
spring.social.github.appId=[Github client id]
spring.social.github.appSecret=[Github client secret]
spring.social.linkedin.appId=[Linkedin client id]
spring.social.linkedin.appSecret=[Linkedin client secret]
server.port = 8448

In other words, to get clientid and clientsecret , you will have to register your application with each social service provider. We will not be covering that in this post.

Create a spring web security configuration

In this class, we will extend websecurityconfigureradapter and configure HTTP security as part of spring security implementation. We also add a bean to create Sign In Providers which are part of Spring Social. In addition, we will implement this Sign In Provider to provide a facility to users to sign in with their social provider.

package com.betterjavacode.reusablesociallogin;


import com.betterjavacode.reusablesociallogin.social.SocialConnectionSignup;
import com.betterjavacode.reusablesociallogin.social.SocialSignInAdapter;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
import org.springframework.security.config.annotation.web.builders.HttpSecurity;
import org.springframework.security.config.annotation.web.configuration.EnableWebSecurity;
import org.springframework.security.config.annotation.web.configuration.WebSecurityConfigurerAdapter;
import org.springframework.social.connect.ConnectionFactoryLocator;
import org.springframework.social.connect.UsersConnectionRepository;
import org.springframework.social.connect.mem.InMemoryUsersConnectionRepository;
import org.springframework.social.connect.web.ProviderSignInController;
import org.springframework.social.security.SpringSocialConfigurer;

@Configuration
@EnableWebSecurity
public class SecurityConfiguration extends WebSecurityConfigurerAdapter
{

    @Autowired
    private ConnectionFactoryLocator connectionFactoryLocator;

    @Autowired
    private UsersConnectionRepository usersConnectionRepository;

    @Autowired
    private SocialConnectionSignup socialConnectionSignup;

    @Override
    protected void configure(HttpSecurity http) throws Exception
    {
        http
                .csrf().disable()
                .authorizeRequests()
                .antMatchers("/","/socialloginhome","/signin/**").permitAll()
                .anyRequest().authenticated()
                .and()
                .formLogin()
                .loginPage("/login")
                .permitAll()
                .and()
                .logout()
                .permitAll();
    }

    @Bean
    public ProviderSignInController providerSignInController()
    {
        ((InMemoryUsersConnectionRepository) usersConnectionRepository)
                .setConnectionSignUp(socialConnectionSignup);

        return new ProviderSignInController(
                connectionFactoryLocator,
                usersConnectionRepository,
                new SocialSignInAdapter());
    }
}

As you see in this class, we have a bean ProviderSignInController which will use SocialSignInAdapter.

Implement a Sign In Adapter

Above all, this is the heart of our implementation where authentication will take place and the user will be assigned a role to access the application. The user will be redirected to the application if the user successfully authenticates. This class will look like below:

package com.betterjavacode.reusablesociallogin.social;

import com.betterjavacode.reusablesociallogin.util.ConnectionHelper;
import com.betterjavacode.reusablesociallogin.util.ConnectionType;
import org.springframework.security.authentication.UsernamePasswordAuthenticationToken;
import org.springframework.security.core.Authentication;
import org.springframework.security.core.GrantedAuthority;
import org.springframework.security.core.authority.SimpleGrantedAuthority;
import org.springframework.security.core.context.SecurityContextHolder;
import org.springframework.social.connect.Connection;
import org.springframework.social.connect.web.SignInAdapter;
import org.springframework.stereotype.Service;
import org.springframework.web.context.request.NativeWebRequest;

import java.util.ArrayList;
import java.util.List;

@Service
public class SocialSignInAdapter implements SignInAdapter
{
    @Override
    public String signIn(String userId, Connection<?> connection, NativeWebRequest request)
    {
        Authentication authentication = getAuthentication(userId, connection);

        SecurityContextHolder.getContext().setAuthentication(authentication);

        return "/socialloginsuccess";
    }

    private Authentication getAuthentication(String localUserId, Connection<?> connection)
    {
        List<GrantedAuthority> roles = getRoles(connection);

        String password = null;

        Authentication authentication = new UsernamePasswordAuthenticationToken(localUserId, password, roles);

        return authentication;
    }

    private List<GrantedAuthority> getRoles(Connection<?> connection)
    {
        List<GrantedAuthority> roles = new ArrayList<GrantedAuthority>();

        ConnectionType type = ConnectionHelper.getConnectionType(connection);

        String role = type.toString();

        roles.add(new SimpleGrantedAuthority(role));

        return roles;
    }
}

As you see in getAuthentication, we pass userId and roles for token-based authentication.

If the user has not signed up with a social provider before, he will be asked to sign up and will be redirected to the application after the first time sign up.

package com.betterjavacode.reusablesociallogin.social;

import com.betterjavacode.reusablesociallogin.entity.User;
import com.betterjavacode.reusablesociallogin.util.UserHelper;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.social.connect.Connection;
import org.springframework.social.connect.ConnectionSignUp;
import org.springframework.stereotype.Service;

@Service
public class SocialConnectionSignup implements ConnectionSignUp
{
    @Autowired
    UserHelper userHelper;

    @Override
    public String execute(Connection<?> connection)
    {
        User user = userHelper.getUser(connection);

        return user.getName();
    }
}

As you see in this class, we have Autowired a userHelper class, this class will have an implementation to get user details from each social provider.

Therefore, this UserHelper will look like below:

package com.betterjavacode.reusablesociallogin.util;

import com.betterjavacode.reusablesociallogin.entity.User;

import org.springframework.social.connect.Connection;
import org.springframework.social.facebook.api.Facebook;
import org.springframework.social.github.api.GitHub;
import org.springframework.social.google.api.Google;
import org.springframework.social.linkedin.api.LinkedIn;
import org.springframework.social.twitter.api.Twitter;
import org.springframework.stereotype.Component;

@Component
public class UserHelper
{
    public User getUser(Connection<?> connection)
    {
        User user = null;

        //get the connection type
        ConnectionType type = ConnectionHelper.getConnectionType(connection);

        if (type.equals(ConnectionType.TWITTER)) {
            user = getTwitterUser(connection);
        } else if (type.equals(ConnectionType.FACEBOOK)) {
            user = getFacebookUser(connection);
        } else if (type.equals(ConnectionType.GOOGLE)) {
            user = getGoogleUser(connection);
        } else if (type.equals(ConnectionType.GITHUB)) {
            user = getGithubUser(connection);
        } else if (type.equals(ConnectionType.LINKEDIN)){
            user = getLinkedInUser(connection);
        }

        return user;
    }

    private User getTwitterUser(Connection<?> connection)
    {
        User user = new User();
        Twitter twitterApi = (Twitter)connection.getApi();

        String name = twitterApi.userOperations().getUserProfile().getName();

        user.setName(name);

        return user;
    }

    private User getFacebookUser(Connection<?> connection)
    {
        User user = new User();
        Facebook facebookApi = (Facebook)connection.getApi();
        String [] fields = { "name" };
        User userProfile = facebookApi.fetchObject("me", User.class, fields);

        String name = userProfile.getName();

        user.setName(name);

        return user;
    }

    private User getGoogleUser(Connection<?> connection)
    {
        User user = new User();
        Google googleApi = (Google) connection.getApi();
        String name = googleApi.plusOperations().getGoogleProfile().getDisplayName();
        user.setName(name);
        return user;
    }

    private User getGithubUser(Connection<?> connection)
    {
        User user = new User();
        GitHub githubApi = (GitHub) connection.getApi();
        String name = githubApi.userOperations().getUserProfile().getName();
        user.setName(name);
        return user;
    }

    private User getLinkedInUser(Connection<?> connection)
    {
        User user = new User();
        LinkedIn linkedInApi = (LinkedIn) connection.getApi();
        String name = linkedInApi.profileOperations().getUserProfile().getFirstName();
        user.setName(name);
        return user;
    }
}

Implementing a controller and views

Similarly, the last piece in this puzzle is to add a controller and corresponding views so when the user accesses the application, the user will be challenged for authentication.

However, we will add a login controller which will have three views for login, sociallogin and socialloginsuccess . This will look like below:

@Controller
public class LoginController
{
    @RequestMapping(value="/login", method= RequestMethod.GET)
    public String login(Model model)
    {
        return "login";
    }

    @RequestMapping(value ="/socialloginhome", method = RequestMethod.GET)
    public String socialloginhome(Model model)
    {
        return "socialloginhome";
    }

    @RequestMapping(value="/socialloginsuccess", method= RequestMethod.GET)
    public String socialloginsuccess(Model model)
    {
        return "socialloginsuccess";
    }
}

 

Running the application

Once I build the application and run it, the flow will look like below:

You click on hereit will take you to social login screen as below:

I will choose Facebook and server-side code will redirect me to Facebook login screen. Once I enter my credentials, Facebook will redirect back me to my application as below:

Hence, we showed successful social authentication. Lastly, social login is part of any saas application you are building.

Conclusion

In conclusion, we showed how to create a social login module using the Spring boot social feature. Moreover, the code for this will be available to download here.

References

  1. Spring Social Overview – Spring Social
  2. Spring Social development – Spring Social Development
  3. Spring Social tutorial – Spring Social Tutorial