How to build Microsoft Entra ID SAML enterprise SSO with Java Spring Boot

For our new friends:

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 Microsoft Entra ID SAML enterprise SSO 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 Microsoft Entra ID SAML enterprise SSO 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

ヒント:

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:

build.gradle
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:

pom.xml
<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:

application.properties
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).

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.

WebSecurityConfig.java
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.

WebSecurityConfig.java
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;
  }
}

We will redirect the user to the /user page after a successful login.

CustomSuccessHandler.java
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.

CustomLogoutHandler.java
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.

WebSecurityConfig.java
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)

HomeController.java
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.

resources/templates/home.html
<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:

UserController.java
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.

resources/templates/user.html
<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.

備考:

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:

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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:

application.properties

  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 Microsoft Entra ID SAML enterprise SSO connector

To simplify access management and gain enterprise-level safeguards for your big clients, connect with Java Spring Boot as a federated identity provider. The Logto enterprise SSO connector helps you establish this connection in minutes by allowing several parameter inputs.

To add an enterprise SSO connector, simply follow these steps:

Navigate to Logto console > Enterprise SSO.

Click "Add enterprise connector" button and choose your SSO provider type. Choose from prebuilt connectors for Microsoft Entra ID (Azure AD), Google Workspace, and Okta, or create a custom SSO connection using the standard OpenID Connect (OIDC) or SAML protocol.
Provide a unique name (e.g., SSO sign-in for Acme Company).

Configure the connection with your IdP in the "Connection" tab. Check the guides above for each connector types.

Customize the SSO experience and enterprise’s email domain in the "Experience" tab. Users sign in with the SSO-enabled email domain will be redirected to SSO authentication.

Save changes.

Set up Azure AD SSO application

Step 1: Create an Azure AD SSO application

Initiate the Azure AD SSO integration by creating an SSO application on the Azure AD side.

Go to the Azure portal and sign in as an administrator.
Select Microsoft Entra ID service.
Navigate to the Enterprise applications using the side menu. Click New application, and select Create your own application.

Enter the application name and select Integrate any other application you don't find in the gallery (Non-gallery).
Select Setup single sign-on > SAML.

Follow the instructions, as the first step, you will need to fill in the basic SAML configuration using the following information provided by Logto.

Audience URI(SP Entity ID): It represents as a globally unique identifier for your Logto service, functioning as the EntityId for SP during authentication requests to the IdP. This identifier is pivotal for the secure exchange of SAML assertions and other authentication-related data between the IdP and Logto.
ACS URL: The Assertion Consumer Service (ACS) URL is the location where the SAML assertion is sent with a POST request. This URL is used by the IdP to send the SAML assertion to Logto. It acts as a callback URL where Logto expects to receive and consume the SAML response containing the user's identity information.

Click Save to continue.

Step 2: Configure SAML SSO at Logto

To make the SAML SSO integration work, you will need to provide the IdP metadata back to Logto. Let's switch back to the Logto side, and navigate to the Connection tab of your Azure AD SSO connector.

Logto provides three different ways to configure the IdP metadata. The easiest way is by providing the metadata URL of the Azure AD SSO application.

Copy the App Federation Metadata Url from your Azure AD SSO application's SAML Certificates section and paste it into the Metadata URL field in Logto.

Logto will fetch the metadata from the URL and configure the SAML SSO integration automatically.

Step 3: Configure user attributes mapping

Logto provides a flexible way to map the user attributes returned from IdP to the user attributes in Logto. Logto will sync the following user attributes from IdP by default:

id: The unique identifier of the user. Logto will read the nameID claim from the SAML response as the user SSO identity id.
email: The email address of the user. Logto will read the email claim from the SAML response as the user primary email by default.
name: The name of the user.

You may manage the user attributes mapping logic either on the Azure AD side or Logto side.

Map the AzureAD user attributes to Logto user attributes on Logto side.

Visit the Attributes & Claims section of your Azure AD SSO application.

Copy the following attribute names (with namespace prefix) and paste them into the corresponding fields in Logto.
- http://schemas.xmlsoap.org/ws/2005/05/identity/claims/emailaddress
- http://schemas.xmlsoap.org/ws/2005/05/identity/claims/name (Recommendation: update this attribute value map to user.displayname for better user experience)a

Map the AzureAD user attributes to Logto user attributes at the AzureAD side.

Visit the Attributes & Claims section of your Azure AD SSO application.

Click on Edit, and update the Additional claims fields based on the Logto user attributes settings:
- update the claim name value based on the Logto user attributes settings.
- remove the namespace prefix.
- click Save to continue.
Should end up with the following settings:

You may also specify additional user attributes on the Azure AD side. Logto will keep a record of the original user attributes returned from IdP under the user's sso_identity field.

Step 4: Assign users to the Azure AD SSO application

Visit the Users and groups section of your Azure AD SSO application. Click on Add user/group to assign users to the Azure AD SSO application. Only users assigned to your Azure AD SSO application will be able to authenticate through the Azure AD SSO connector.

Step 5: Set email domains and enable the SSO connector

Provide the email domains of your organization at Logto's connector SSO experience tab. This will enable the SSO connector as an authentication method for those users.

Users with email addresses in the specified domains will be redirected to use the SAML SSO connector as their only authentication method.

Please check Azure AD's official documentation for more details about the Azure AD SSO integration.

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 Microsoft Entra ID SAML enterprise SSO connector should be available now.

You don’t need to configure enterprise connectors individually, Logto simplifies SSO integration into your applications with just one click.

Navigate to: Console > Sign-in experience > Sign-up and sign-in.
Enable the "Enterprise SSO" toggle.
Save changes.

Once enabled, a "Single Sign-On" button will appear on your sign-in page. Enterprise users with SSO-enabled email domains can access your services using their enterprise identity providers (IdPs).

Auto detect SSO sign-in via email domain

Navigate to SSO sign-in via manually click link button

To learn more about the SSO user experience, including SP-initiated SSO and IdP-initiated SSO, refer to User flows: Enterprise SSO.

Testing and Validation

Return to your Java Spring Boot app. You should now be able to sign in with Microsoft Entra ID SAML enterprise SSO. Enjoy!

Create an application in Logto​

Integrate Java Spring Boot with Logto​

Configure your Java Spring Boot application​

Adding dependencies​

OAuth2 Client Configuration​

Implementation​

Regarding redirect-based sign-in​

Configure redirect URIs​

Implement the WebSecurityConfig​

Create a new class WebSecurityConfig in your project​

Create a idTokenDecoderFactory bean​

Create a LoginSuccessHandler class to handle the login success event​

Create a LogoutSuccessHandler class to handle the logout success event​

Update the WebSecurityConfig class with a securityFilterChain​

Create a home page​

Create a user page​

Request additional claims​

Run and test the application​

Add Microsoft Entra ID SAML enterprise SSO connector​

Set up Azure AD SSO application​

Step 1: Create an Azure AD SSO application​

Step 2: Configure SAML SSO at Logto​

Step 3: Configure user attributes mapping​

Step 4: Assign users to the Azure AD SSO application​

Step 5: Set email domains and enable the SSO connector​

Save your configuration​

Enable Microsoft Entra ID SAML enterprise SSO connector in Sign-in Experience​

Testing and Validation​

Further readings​