My company has been evaluating Spring MVC to determine if we should use it in one of our next projects. So far I love what I've seen, and right now I'm taking a look at the Spring Security module to determine if it's something we can/should use.

Our security requirements are pretty basic; a user just needs to be able to provide a username and password to be able to access certain parts of the site (such as to get info about their account); and there are a handful of pages on the site (FAQs, Support, etc) where an anonymous user should be given access.

In the prototype I've been creating, I have been storing a "LoginCredentials" object (which just contains username and password) in Session for an authenticated user; some of the controllers check to see if this object is in session to get a reference to the logged-in username, for example. I'm looking to replace this home-grown logic with Spring Security instead, which would have the nice benefit of removing any sort of "how do we track logged in users?" and "how do we authenticate users?" from my controller/business code.

It seems like Spring Security provides a (per-thread) "context" object to be able to access the username/principal info from anywhere in your app...

Object principal = SecurityContextHolder.getContext().getAuthentication().getPrincipal();

... which seems very un-Spring like as this object is a (global) singleton, in a way.

My question is this: if this is the standard way to access information about the authenticated user in Spring Security, what is the accepted way to inject an Authentication object into the SecurityContext so that it is available for my unit tests when the unit tests require an authenticated user?

Do I need to wire this up in the initialization method of each test case?

protected void setUp() throws Exception {
        new UsernamePasswordAuthenticationToken(testUser.getLogin(), testUser.getPassword()));

This seems overly verbose. Is there an easier way?

The SecurityContextHolder object itself seems very un-Spring-like...

13 Answers 13


Just do it the usual way and then insert it using SecurityContextHolder.setContext() in your test class, for example:


Authentication a = SecurityContextHolder.getContext().getAuthentication();


Authentication authentication = Mockito.mock(Authentication.class);
// Mockito.whens() for your authorization object
SecurityContext securityContext = Mockito.mock(SecurityContext.class);
  • 3
    @Leonardo where should this Authentication a be added in the controller? As I can understand in each method invocation? Is it okay for "spring way" just to add it, instead of injecting?
    – Oleg Kuts
    Apr 25, 2016 at 20:14
  • But remember its not going to work with TestNG because SecurityContextHolder hold local thread variable so then you share this variable between tests ... Mar 14, 2017 at 9:46
  • 2
    Do it in @BeforeEach(JUnit5) or @Before(JUnit 4). Good and simple.
    – WesternGun
    Nov 26, 2019 at 11:37
  • Ecactly what i needed. Thanks!
    – jksevend
    Jul 1, 2021 at 17:17

Without answering the question about how to create and inject Authentication objects, Spring Security 4.0 provides some welcome alternatives when it comes to testing. The @WithMockUser annotation enables the developer to specify a mock user (with optional authorities, username, password and roles) in a neat way:

@WithMockUser(username = "admin", authorities = { "ADMIN", "USER" })
public void getMessageWithMockUserCustomAuthorities() {
    String message = messageService.getMessage();

There is also the option to use @WithUserDetails to emulate a UserDetails returned from the UserDetailsService, e.g.

public void getMessageWithUserDetailsCustomUsername() {
    String message = messageService.getMessage();

More details can be found in the @WithMockUser and the @WithUserDetails chapters in the Spring Security reference docs (from which the above examples were copied)

  • That's the most straight forward approach nowadays and works perfectly. Aug 24, 2021 at 7:45

The problem is that Spring Security does not make the Authentication object available as a bean in the container, so there is no way to easily inject or autowire it out of the box.

Before we started to use Spring Security, we would create a session-scoped bean in the container to store the Principal, inject this into an "AuthenticationService" (singleton) and then inject this bean into other services that needed knowledge of the current Principal.

If you are implementing your own authentication service, you could basically do the same thing: create a session-scoped bean with a "principal" property, inject this into your authentication service, have the auth service set the property on successful auth, and then make the auth service available to other beans as you need it.

I wouldn't feel too bad about using SecurityContextHolder. though. I know that it's a static / Singleton and that Spring discourages using such things but their implementation takes care to behave appropriately depending on the environment: session-scoped in a Servlet container, thread-scoped in a JUnit test, etc. The real limiting factor of a Singleton is when it provides an implementation that is inflexible to different environments.

  • Thanks, this is useful advice. What I've done so far is basically to proceed with calling SecurityContextHolder.getContext() (thru a few wrapper methods of my own, so at least it's only called from one class).
    – matt b
    Dec 16, 2008 at 19:56
  • 2
    Although just one note - I don't think ServletContextHolder has any concept of HttpSession or a way of knowing if it's operating in a web server environment - it uses ThreadLocal unless you configure it to use something else (the only other two builtin modes are InheritableThreadLocal and Global)
    – matt b
    Dec 16, 2008 at 19:57
  • The only drawback to using session/request-scoped beans in Spring is that they will fail in a JUnit test. What you can do is implement a custom scope that will use session/request if available and fall back to thread is necessary. My guess is that Spring Security is doing something similar... Dec 16, 2008 at 21:30
  • My goal is to build a Rest api without sessions. Perhaps with a refreshable token. While this did not answer my question it helped. Thanks Aug 16, 2017 at 14:12

You are quite right to be concerned - static method calls are particularly problematic for unit testing as you cannot easily mock your dependencies. What I am going to show you is how to let the Spring IoC container do the dirty work for you, leaving you with neat, testable code. SecurityContextHolder is a framework class and while it may be ok for your low-level security code to be tied to it, you probably want to expose a neater interface to your UI components (i.e. controllers).

cliff.meyers mentioned one way around it - create your own "principal" type and inject an instance into consumers. The Spring <aop:scoped-proxy/> tag introduced in 2.x combined with a request scope bean definition, and the factory-method support may be the ticket to the most readable code.

It could work like following:

public class MyUserDetails implements UserDetails {
    // this is your custom UserDetails implementation to serve as a principal
    // implement the Spring methods and add your own methods as appropriate

public class MyUserHolder {
    public static MyUserDetails getUserDetails() {
        Authentication a = SecurityContextHolder.getContext().getAuthentication();
        if (a == null) {
            return null;
        } else {
            return (MyUserDetails) a.getPrincipal();

public class MyUserAwareController {        
    MyUserDetails currentUser;

    public void setCurrentUser(MyUserDetails currentUser) { 
        this.currentUser = currentUser;

    // controller code

Nothing complicated so far, right? In fact you probably had to do most of this already. Next, in your bean context define a request-scoped bean to hold the principal:

<bean id="userDetails" class="MyUserHolder" factory-method="getUserDetails" scope="request">

<bean id="controller" class="MyUserAwareController">
    <property name="currentUser" ref="userDetails"/>
    <!-- other props -->

Thanks to the magic of the aop:scoped-proxy tag, the static method getUserDetails will be called every time a new HTTP request comes in and any references to the currentUser property will be resolved correctly. Now unit testing becomes trivial:

protected void setUp() {
    // existing init code

    MyUserDetails user = new MyUserDetails();
    // set up user as you wish

Hope this helps!


Personally I would just use Powermock along with Mockito or Easymock to mock the static SecurityContextHolder.getSecurityContext() in your unit/integration test e.g.

public class YourTestCase {

    @Mock SecurityContext mockSecurityContext;

    public void testMethodThatCallsStaticMethod() {
        // Set mock behaviour/expectations on the mockSecurityContext
        // Tell mockito to use Powermock to mock the SecurityContextHolder

        // use Mockito to set up your expectation on SecurityContextHolder.getSecurityContext()

Admittedly there is quite a bit of boiler plate code here i.e. mock an Authentication object, mock a SecurityContext to return the Authentication and finally mock the SecurityContextHolder to get the SecurityContext, however its very flexible and allows you to unit test for scenarios like null Authentication objects etc. without having to change your (non test) code

  • I know this is old but there is no point in using PowerMock when you can just call SecurityContextHolder.setContext() or .setStrategyName(className) to achieve the same thing.
    – Didier L
    Jan 20, 2022 at 17:52

Using a static in this case is the best way to write secure code.

Yes, statics are generally bad - generally, but in this case, the static is what you want. Since the security context associates a Principal with the currently running thread, the most secure code would access the static from the thread as directly as possible. Hiding the access behind a wrapper class that is injected provides an attacker with more points to attack. They wouldn't need access to the code (which they would have a hard time changing if the jar was signed), they just need a way to override the configuration, which can be done at runtime or slipping some XML onto the classpath. Even using annotation injection would be overridable with external XML. Such XML could inject the running system with a rogue principal.


I asked the same question myself over here, and just posted an answer that I recently found. Short answer is: inject a SecurityContext, and refer to SecurityContextHolder only in your Spring config to obtain the SecurityContext



In the meantime (since version 3.2, in the year 2013, thanks to SEC-2298) the authentication can be injected into MVC methods using the annotation @AuthenticationPrincipal:

class Controller {
  public void doStuff(@AuthenticationPrincipal UserDetails myUser) {


In your unit test you can obviously call this Method directly. In integration tests using org.springframework.test.web.servlet.MockMvc you can use org.springframework.security.test.web.servlet.request.SecurityMockMvcRequestPostProcessors.user() to inject the user like this:


This will however just directly fill the SecurityContext. If you want to make sure that the user is loaded from a session in your test, you can use this:

/* ... */
private static RequestPostProcessor sessionUser(final UserDetails userDetails) {
    return new RequestPostProcessor() {
        public MockHttpServletRequest postProcessRequest(final MockHttpServletRequest request) {
            final SecurityContext securityContext = new SecurityContextImpl();
                new UsernamePasswordAuthenticationToken(userDetails, null, userDetails.getAuthorities())
                HttpSessionSecurityContextRepository.SPRING_SECURITY_CONTEXT_KEY, securityContext
            return request;

I would take a look at Spring's abstract test classes and mock objects which are talked about here. They provide a powerful way of auto-wiring your Spring managed objects making unit and integration testing easier.

  • While those test classes are helpful, I'm not sure if they apply here. My tests have no concept of the ApplicationContext - they don't need one. All I need is to make sure that the SecurityContext is populated before the test method runs - it just feels dirty to have to set it in a ThreadLocal first
    – matt b
    Dec 11, 2008 at 19:31

Authentication is a property of a thread in server environment in the same way as it is a property of a process in OS. Having a bean instance for accessing authentication information would be inconvenient configuration and wiring overhead without any benefit.

Regarding test authentication there are several ways how you can make your life easier. My favourite is to make a custom annotation @Authenticated and test execution listener, which manages it. Check DirtiesContextTestExecutionListener for inspiration.


After quite a lot of work I was able to reproduce the desired behavior. I had emulated the login through MockMvc. It is too heavy for most unit tests but helpful for integration tests.

Of course I am willing to see those new features in Spring Security 4.0 that will make our testing easier.

package [myPackage]

import static org.junit.Assert.*;

import javax.inject.Inject;
import javax.servlet.http.HttpSession;

import org.junit.Before;
import org.junit.Test;
import org.junit.experimental.runners.Enclosed;
import org.junit.runner.RunWith;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.mock.web.MockHttpServletRequest;
import org.springframework.security.core.context.SecurityContext;
import org.springframework.security.core.context.SecurityContextHolder;
import org.springframework.security.web.FilterChainProxy;
import org.springframework.security.web.context.HttpSessionSecurityContextRepository;
import org.springframework.test.context.ContextConfiguration;
import org.springframework.test.context.junit4.SpringJUnit4ClassRunner;
import org.springframework.test.context.web.WebAppConfiguration;
import org.springframework.test.web.servlet.MockMvc;
import org.springframework.test.web.servlet.setup.MockMvcBuilders;
import org.springframework.web.context.WebApplicationContext;

import static org.springframework.test.web.servlet.request.MockMvcRequestBuilders.*;
import static org.springframework.test.web.servlet.result.MockMvcResultMatchers.*;
import static org.springframework.test.web.servlet.result.MockMvcResultHandlers.print;

@ContextConfiguration(locations={[my config file locations]})
public static class getUserConfigurationTester{

    private MockMvc mockMvc;

    private FilterChainProxy springSecurityFilterChain;

    private MockHttpServletRequest request;

    private WebApplicationContext webappContext;

    public void init() {  
        mockMvc = MockMvcBuilders.webAppContextSetup(webappContext)

    public void testTwoReads() throws Exception{                        

    HttpSession session  = mockMvc.perform(post("/j_spring_security_check")
                        .param("j_username", "admin_001")
                        .param("j_password", "secret007"))


    SecurityContext securityContext = (SecurityContext)   session.getAttribute(HttpSessionSecurityContextRepository.SPRING_SECURITY_CONTEXT_KEY);


        // Your test goes here. User is logged with 

Adding to the answer of @matsev, to write an fully functional integration test with TestRestTemplate or Webclient you can combine @SpringBootTest and @AutoconfigureMockMvc and do the following:

@SpringBootTest(webEnvironment = RANDOM_PORT)
public class UserControllerIntegrationTest {

    private WebTestClient webTestClient;

    @WithMockUser(username = "user", roles = {"USER"})
    public void testUserEndpoint() {

I handle like this

    User user = new User();
    AppUserDetails appUserDetails = new AppUserDetails("uName", null, user, privilegeList);
    Authentication auth = new UsernamePasswordAuthenticationToken(appUserDetails, null);

    SecurityContext securityContext = Mockito.mock(SecurityContext.class);

Get value from auth java class method

Authentication auth = SecurityContextHolder.getContext().getAuthentication();

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