Logto is an Auth0 alternative designed for modern apps and SaaS products. It offers both Cloud and Open-source services to help you quickly launch your identity and management (IAM) system. Enjoy authentication, authorization, and multi-tenant management all in one.
We recommend starting with a free development tenant on Logto Cloud. This allows you to explore all the features easily.
In this article, we will go through the steps to quickly build the Google sign-in experience (user authentication) with Java Spring Boot and Logto.
Prerequisites
- A running Logto instance. Check out the introduction page to get started.
- Basic knowledge of Java Spring Boot.
- A usable Google account.
Create an application in Logto
Logto is based on OpenID Connect (OIDC) authentication and OAuth 2.0 authorization. It supports federated identity management across multiple applications, commonly called Single Sign-On (SSO).
To create your Traditional web application, simply follow these steps:
- Open the Logto Console. In the "Get started" section, click the "View all" link to open the application frameworks list. Alternatively, you can navigate to Logto Console > Applications, and click the "Create application" button.
- In the opening modal, click the "Traditional web" section or filter all the available "Traditional web" frameworks using the quick filter checkboxes on the left. Click the "Java Spring Boot" framework card to start creating your application.
- Enter the application name, e.g., "Bookstore," and click "Create application".
🎉 Ta-da! You just created your first application in Logto. You'll see a congrats page which includes a detailed integration guide. Follow the guide to see what the experience will be in your application.
Integrate Java Spring Boot with Logto
- You may find the sample code for this guide in our spring-boot-sample github repository.
- No official SDK is required to integrate Logto with your Java Spring Boot application. We will use the Spring Security and Spring Security OAuth2 libraries to handle the OIDC authentication flow with Logto.
Configure your Java Spring Boot application
Adding dependencies
For gradle users, add the following dependencies to your build.gradle file:
dependencies {
implementation 'org.springframework.boot:spring-boot-starter-thymeleaf'
implementation 'org.springframework.boot:spring-boot-starter-web'
implementation 'org.springframework.boot:spring-boot-starter-security'
implementation 'org.springframework.boot:spring-boot-starter-oauth2-client'
}
For maven users, add the following dependencies to your pom.xml file:
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-thymeleaf</artifactId>
</dependency>
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-web</artifactId>
</dependency>
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-security</artifactId>
</dependency>
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-oauth2-client</artifactId>
</dependency>
OAuth2 Client Configuration
Register a new Java Spring Boot application in Logto Console and get the client credential and IdP configurations for your web application.
Add the following configuration to your application.properties file:
spring.security.oauth2.client.registration.logto.client-name=logto
spring.security.oauth2.client.registration.logto.client-id={{YOUR_CLIENT_ID}}
spring.security.oauth2.client.registration.logto.client-secret={{YOUR_CLIENT_ID}}
spring.security.oauth2.client.registration.logto.redirect-uri={baseUrl}/login/oauth2/code/{registrationId}
spring.security.oauth2.client.registration.logto.authorization-grant-type=authorization_code
spring.security.oauth2.client.registration.logto.scope=openid,profile,offline_access
spring.security.oauth2.client.registration.logto.provider=logto
spring.security.oauth2.client.provider.logto.issuer-uri={{LOGTO_ENDPOINT}}/oidc
spring.security.oauth2.client.provider.logto.authorization-uri={{LOGTO_ENDPOINT}}/oidc/auth
spring.security.oauth2.client.provider.logto.jwk-set-uri={{LOGTO_ENDPOINT}}/oidc/jwks
Implementation
Before we dive into the details, here's a quick overview of the end-user experience. The sign-in process can be simplified as follows:
- Your app invokes the sign-in method.
- The user is redirected to the Logto sign-in page. For native apps, the system browser is opened.
- The user signs in and is redirected back to your app (configured as the redirect URI).
Regarding redirect-based sign-in
- This authentication process follows the OpenID Connect (OIDC) protocol, and Logto enforces strict security measures to protect user sign-in.
- If you have multiple apps, you can use the same identity provider (Logto). Once the user signs in to one app, Logto will automatically complete the sign-in process when the user accesses another app.
To learn more about the rationale and benefits of redirect-based sign-in, see Logto sign-in experience explained.
In order to redirect users back to your application after they sign in, you need to set the redirect URI using the client.registration.logto.redirect-uri property in the previous step.
Configure redirect URIs
Switch to the application details page of Logto Console. Add a redirect URI http://localhost:3000/callback.
Just like signing in, users should be redirected to Logto for signing out of the shared session. Once finished, it would be great to redirect the user back to your website. For example, add http://localhost:3000/ as the post sign-out redirect URI section.
Then click "Save" to save the changes.
Implement the WebSecurityConfig
Create a new class WebSecurityConfig in your project
The WebSecurityConfig class will be used to configure the security settings for your application. It is the key class that will handle the authentication and authorization flow. Please check the Spring Security documentation for more details.
package com.example.securingweb;
import org.springframework.context.annotation.Configuration;
import org.springframework.security.config.annotation.web.configuration.EnableWebSecurity;
@Configuration
@EnableWebSecurity
public class WebSecurityConfig {
// ...
}
Create a idTokenDecoderFactory bean
This is required because Logto uses ES384 as the default algorithm, we need to overwrite the default OidcIdTokenDecoderFactory to use the same algorithm.
import org.springframework.context.annotation.Bean;
import org.springframework.security.oauth2.client.oidc.authentication.OidcIdTokenDecoderFactory;
import org.springframework.security.oauth2.client.registration.ClientRegistration;
import org.springframework.security.oauth2.jose.jws.SignatureAlgorithm;
import org.springframework.security.oauth2.jwt.JwtDecoderFactory;
public class WebSecurityConfig {
// ...
@Bean
public JwtDecoderFactory<ClientRegistration> idTokenDecoderFactory() {
OidcIdTokenDecoderFactory idTokenDecoderFactory = new OidcIdTokenDecoderFactory();
idTokenDecoderFactory.setJwsAlgorithmResolver(clientRegistration -> SignatureAlgorithm.ES384);
return idTokenDecoderFactory;
}
}
Create a LoginSuccessHandler class to handle the login success event
We will redirect the user to the /user page after a successful login.
package com.example.securingweb;
import java.io.IOException;
import org.springframework.security.core.Authentication;
import org.springframework.security.web.authentication.AuthenticationSuccessHandler;
import jakarta.servlet.ServletException;
import jakarta.servlet.http.HttpServletRequest;
import jakarta.servlet.http.HttpServletResponse;
public class CustomSuccessHandler implements AuthenticationSuccessHandler {
@Override
public void onAuthenticationSuccess(HttpServletRequest request, HttpServletResponse response,
Authentication authentication) throws IOException, ServletException {
response.sendRedirect("/user");
}
}
Create a LogoutSuccessHandler class to handle the logout success event
Clear the session and redirect the user to the home page.
package com.example.securingweb;
import java.io.IOException;
import org.springframework.security.core.Authentication;
import org.springframework.security.web.authentication.logout.LogoutSuccessHandler;
import jakarta.servlet.ServletException;
import jakarta.servlet.http.HttpServletRequest;
import jakarta.servlet.http.HttpServletResponse;
import jakarta.servlet.http.HttpSession;
public class CustomLogoutHandler implements LogoutSuccessHandler {
@Override
public void onLogoutSuccess(HttpServletRequest request, HttpServletResponse response, Authentication authentication)
throws IOException, ServletException {
HttpSession session = request.getSession();
if (session != null) {
session.invalidate();
}
response.sendRedirect("/home");
}
}
Update the WebSecurityConfig class with a securityFilterChain
securityFilterChain is a chain of filters that are responsible for processing the incoming requests and responses.
We will configure the securityFilterChain to allow access to the home page and require authentication for all other requests. Use the CustomSuccessHandler and CustomLogoutHandler to handle the login and logout events.
import org.springframework.context.annotation.Bean;
import org.springframework.security.config.annotation.web.builders.HttpSecurity;
import org.springframework.security.web.DefaultSecurityFilterChain;
public class WebSecurityConfig {
// ...
@Bean
public DefaultSecurityFilterChain securityFilterChain(HttpSecurity http) throws Exception {
http
.authorizeRequests(authorizeRequests ->
authorizeRequests
.antMatchers("/", "/home").permitAll() // Allow access to the home page
.anyRequest().authenticated() // All other requests require authentication
)
.oauth2Login(oauth2Login ->
oauth2Login
.successHandler(new CustomSuccessHandler())
)
.logout(logout ->
logout
.logoutSuccessHandler(new CustomLogoutHandler())
);
return http.build();
}
}
Create a home page
(You may skip this step if you already have a home page in your project)
package com.example.securingweb;
import java.security.Principal;
import org.springframework.stereotype.Controller;
import org.springframework.web.bind.annotation.GetMapping;
@Controller
public class HomeController {
@GetMapping({ "/", "/home" })
public String home(Principal principal) {
return principal != null ? "redirect:/user" : "home";
}
}
This controller will redirect the user to the user page if the user is authenticated, otherwise, it will show the home page. Add a sign-in link to the home page.
<body>
<h1>Welcome!</h1>
<p><a th:href="@{/oauth2/authorization/logto}">Login with Logto</a></p>
</body>
Create a user page
Create a new controller to handle the user page:
package com.example.securingweb;
import java.security.Principal;
import java.util.Map;
import org.springframework.security.oauth2.client.authentication.OAuth2AuthenticationToken;
import org.springframework.security.oauth2.core.user.OAuth2User;
import org.springframework.stereotype.Controller;
import org.springframework.ui.Model;
import org.springframework.web.bind.annotation.GetMapping;
import org.springframework.web.bind.annotation.RequestMapping;
@Controller
@RequestMapping("/user")
public class UserController {
@GetMapping
public String user(Model model, Principal principal) {
if (principal instanceof OAuth2AuthenticationToken) {
OAuth2AuthenticationToken token = (OAuth2AuthenticationToken) principal;
OAuth2User oauth2User = token.getPrincipal();
Map<String, Object> attributes = oauth2User.getAttributes();
model.addAttribute("username", attributes.get("username"));
model.addAttribute("email", attributes.get("email"));
model.addAttribute("sub", attributes.get("sub"));
}
return "user";
}
}
Once the user is authenticated, we will retrieve the OAuth2User data from the authenticated principal object. Please refer OAuth2AuthenticationToken and OAuth2User for more details.
Read the user data and pass it to the user.html template.
<body>
<h1>User Details</h1>
<div>
<p>
<div><strong>name:</strong> <span th:text="${username}"></span></div>
<div><strong>email:</strong> <span th:text="${email}"></span></div>
<div><strong>id:</strong> <span th:text="${sub}"></span></div>
</p>
</div>
<form th:action="@{/logout}" method="post">
<input type="submit" value="Logout" />
</form>
</body>
Request additional claims
You may find some user information are missing in the returned object from principal (OAuth2AuthenticationToken). This is because OAuth 2.0 and OpenID Connect (OIDC) are designed to follow the principle of least privilege (PoLP), and Logto is built on top of these standards.
By default, limited claims are returned. If you need more information, you can request additional scopes to access more claims.
A "claim" is an assertion made about a subject; a "scope" is a group of claims. In the current case, a claim is a piece of information about the user.
Here's a non-normative example the scope - claim relationship:
The "sub" claim means "subject", which is the unique identifier of the user (i.e. user ID).
Logto SDK will always request three scopes: openid, profile, and offline_access.
To retrieve additional user information, you can add extra scopes to the application.properties file. For example, to request the email, phone, and urn:logto:scope:organizations scope, add the following line to the application.properties file:
spring.security.oauth2.client.registration.logto.scope=openid,profile,offline_access,email,phone,urn:logto:scope:organizations
Then you can access the additional claims in the OAuth2User object.
Run and test the application
Run the application and navigate to http://localhost:8080.
- You will see the home page with a sign-in link.
- Click on the link to sign in with Logto.
- After successful authentication, you will be redirected to the user page with your user details.
- Click on the logout button to sign out. You will be redirected back to the home page.
Add Google connector
To enable quick sign-in and improve user conversion, connect with Java Spring Boot as an identity provider. The Logto social connector helps you establish this connection in minutes by allowing several parameter inputs.
To add a social connector, simply follow these steps:
- Navigate to Console > Connectors > Social Connectors.
- Click "Add social connector" and select "Google".
- Follow the README guide and complete required fields and customize settings.
If you are following the in-place Connector guide, you can skip the next section.
Set up Google OAuth app
Set up a project in the Google API Console
- Visit the Google API Console and sign in with your Google account.
- Click the Select a project button on the top menu bar, and click the New Project button to create a project.
- In your newly created project, click the APIs & Services to enter the APIs & Services menu.
Configure your consent screen
Configure and register your application
- On the left APIs & Services menu, click the OAuth consent screen button.
- Choose the User Type you want, and click the Create button. (Note: If you select External as your User Type, you will need to add test users later.)
Now you will be on the Edit app registration page.
Edit app registration
Config OAuth consent screen
- Follow the instructions to fill out the OAuth consent screen form.
- Click SAVE AND CONTINUE to continue.
Config scopes
- Click ADD OR REMOVE SCOPES and select
../auth/userinfo.email,../auth/userinfo.profileandopenidin the popup drawer, and click UPDATE to finish. It is recommended that you consider adding all the scopes you may use, otherwise some scopes you added in the configuration may not work. - Fill out the form as you need.
- Click SAVE AND CONTINUE to continue.
Add test users (External user type only)
- Click ADD USERS and add test users to allow these users to access your application while testing.
- Click SAVE AND CONTINUE to continue.
Now you should have the Google OAuth 2.0 consent screen configured.
Obtain OAuth 2.0 credentials
- On the left APIs & Services menu, click the Credentials button.
- On the Credentials page, click the + CREATE CREDENTIALS button on the top menu bar, and select OAuth client ID.
- On the Create OAuth client ID page, select Web application as the application type.
- Fill out the basic information for your application.
- Click + Add URI to add an authorized domain to the Authorized JavaScript origins section. This is the domain that your logto authorization page will be served from. In our case, this will be
${your_logto_origin}. e.g.https://logto.dev. - Click + Add URI in the **Authorized redirect URIs** section to set up the **Authorized redirect URIs**, which redirect the user to the application after logging in. In our case, this will be
${your_logto_endpoint}/callback/${connector_id}. e.g.https://logto.dev/callback/${connector_id}. Theconnector_idcan be found on the top bar of the Logto Admin Console connector details page. - Click Create to finish and then you will get the Client ID and Client Secret.
Configure your connector
Fill out the clientId and clientSecret field with Client ID and Client Secret you've got from OAuth app detail pages mentioned in the previous section.
scope is a space-delimited list of scopes. If not provided, scope defaults to be openid profile email.
prompts is an array of strings that specifies the type of user interaction that is required. The string can be one of the following values:
none: The authorization server does not display any authentication or user consent screens; it will return an error if the user is not already authenticated and has not pre-configured consent for the requested scopes. You can use none to check for existing authentication and/or consent.consent: The authorization server prompts the user for consent before returning information to the client.select_account: The authorization server prompts the user to select a user account. This allows a user who has multiple accounts at the authorization server to select amongst the multiple accounts that they may have current sessions for.
Config types
| Name | Type |
|---|---|
| clientId | string |
| clientSecret | string |
| scope | string |
| prompts | string[] |
Enable Google One Tap
Google One Tap is a secure and easy way to let users sign in to your website or app with their Google account.
Once you have the Google connector set up, you'll see a card for Google One Tap in the connector details page. You can enable Google One Tap in your sign-up and sign-in pages by toggling the switch.
When you enable Google One Tap, you can configure the following options:
- Auto-select credential if possible: Automatically sign in the user with the Google account if certain conditions are met.
- Cancel the prompt if user click/tap outside: Close the Google One Tap prompt if the user clicks or taps outside the prompt. If disabled, the user must click the close button to dismiss the prompt.
- Enable Upgraded One Tap UX on ITP browsers: Enable the upgraded Google One Tap user experience on Intelligent Tracking Prevention (ITP) browsers. Please refer to this page for more information.
To enable Google One Tap in your website (beyond the Logto sign-in experience), this feature is under development. Please stay tuned for updates.
Save your configuration
Double check you have filled out necessary values in the Logto connector configuration area. Click "Save and Done" (or "Save changes") and the Google connector should be available now.
Enable Google connector in Sign-in Experience
Once you create a social connector successfully, you can enable it as a "Continue with Google" button in Sign-in Experience.
- Navigate to Console > Sign-in experience > Sign-up and sign-in.
- (Optional) Choose "Not applicable" for sign-up identifier if you need social login only.
- Add configured Google connector to the "Social sign-in" section.
Testing and Validation
Return to your Java Spring Boot app. You should now be able to sign in with Google. Enjoy!
Further readings
End-user flows: Logto provides a out-of-the-box authentication flows including MFA and enterprise SSO, along with powerful APIs for flexible implementation of account settings, security verification, and multi-tenant experience.
Authorization: Authorization defines the actions a user can do or resources they can access after being authenticated. Explore how to protect your API for native and single-page applications and implement Role-based Access Control (RBAC).
Organizations: Particularly effective in multi-tenant SaaS and B2B apps, the organization feature enable tenant creation, member management, organization-level RBAC, and just-in-time-provisioning.
Customer IAM series Our serial blog posts about Customer (or Consumer) Identity and Access Management, from 101 to advanced topics and beyond.