This version is still in development and is not considered stable yet. For the latest stable version, please use Spring Security 6.1.12! |
Java Configuration
General support for Java configuration was added to Spring Framework in Spring 3.1. Spring Security 3.2 introduced Java configuration to let users configure Spring Security without the use of any XML.
If you are familiar with the Security Namespace Configuration, you should find quite a few similarities between it and Spring Security Java configuration.
Spring Security provides lots of sample applications to demonstrate the use of Spring Security Java Configuration. |
Hello Web Security Java Configuration
The first step is to create our Spring Security Java Configuration.
The configuration creates a Servlet Filter known as the springSecurityFilterChain
, which is responsible for all the security (protecting the application URLs, validating submitted username and passwords, redirecting to the log in form, and so on) within your application.
The following example shows the most basic example of a Spring Security Java Configuration:
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.context.annotation.*;
import org.springframework.security.config.annotation.authentication.builders.*;
import org.springframework.security.config.annotation.web.configuration.*;
@Configuration
@EnableWebSecurity
public class WebSecurityConfig {
@Bean
public UserDetailsService userDetailsService() {
InMemoryUserDetailsManager manager = new InMemoryUserDetailsManager();
manager.createUser(User.withDefaultPasswordEncoder().username("user").password("password").roles("USER").build());
return manager;
}
}
This configuration is not complex or extensive, but it does a lot:
-
Require authentication to every URL in your application
-
Generate a login form for you
-
Let the user with a Username of
user
and a Password ofpassword
authenticate with form based authentication -
Let the user logout
-
CSRF attack prevention
-
Session Fixation protection
-
Security Header integration:
-
HTTP Strict Transport Security for secure requests
-
X-Content-Type-Options integration
-
Cache Control (which you can override later in your application to allow caching of your static resources)
-
X-XSS-Protection integration
-
X-Frame-Options integration to help prevent Clickjacking
-
-
Integration with the following Servlet API methods:
AbstractSecurityWebApplicationInitializer
The next step is to register the springSecurityFilterChain
with the WAR file.
You can do so in Java configuration with Spring’s WebApplicationInitializer
support in a Servlet 3.0+ environment.
Not surprisingly, Spring Security provides a base class (AbstractSecurityWebApplicationInitializer
) to ensure that the springSecurityFilterChain
gets registered for you.
The way in which we use AbstractSecurityWebApplicationInitializer
differs depending on if we are already using Spring or if Spring Security is the only Spring component in our application.
-
AbstractSecurityWebApplicationInitializer without Existing Spring - Use these instructions if you are not already using Spring
-
AbstractSecurityWebApplicationInitializer with Spring MVC - Use these instructions if you are already using Spring
AbstractSecurityWebApplicationInitializer without Existing Spring
If you are not using Spring or Spring MVC, you need to pass the WebSecurityConfig
to the superclass to ensure the configuration is picked up:
import org.springframework.security.web.context.*;
public class SecurityWebApplicationInitializer
extends AbstractSecurityWebApplicationInitializer {
public SecurityWebApplicationInitializer() {
super(WebSecurityConfig.class);
}
}
The SecurityWebApplicationInitializer
:
-
Automatically registers the
springSecurityFilterChain
Filter for every URL in your application. -
Add a
ContextLoaderListener
that loads the WebSecurityConfig.
AbstractSecurityWebApplicationInitializer with Spring MVC
If we use Spring elsewhere in our application, we probably already have a WebApplicationInitializer
that is loading our Spring Configuration.
If we use the previous configuration, we would get an error.
Instead, we should register Spring Security with the existing ApplicationContext
.
For example, if we use Spring MVC, our SecurityWebApplicationInitializer
could look something like the following:
import org.springframework.security.web.context.*;
public class SecurityWebApplicationInitializer
extends AbstractSecurityWebApplicationInitializer {
}
This only registers the springSecurityFilterChain
for every URL in your application.
After that, we need to ensure that WebSecurityConfig
was loaded in our existing ApplicationInitializer
.
For example, if we use Spring MVC it is added in the getServletConfigClasses()
:
public class MvcWebApplicationInitializer extends
AbstractAnnotationConfigDispatcherServletInitializer {
@Override
protected Class<?>[] getServletConfigClasses() {
return new Class[] { WebSecurityConfig.class, WebMvcConfig.class };
}
// ... other overrides ...
}
The reason for this is that Spring Security needs to be able to inspect some Spring MVC configuration in order to appropriately configure underlying request matchers, so they need to be in the same application context.
Placing Spring Security in getRootConfigClasses
places it into a parent application context that may not be able to find Spring MVC’s HandlerMappingIntrospector
.
Configuring for Multiple Spring MVC Dispatchers
If desired, any Spring Security configuration that is unrelated to Spring MVC may be placed in a different configuration class like so:
public class MvcWebApplicationInitializer extends
AbstractAnnotationConfigDispatcherServletInitializer {
@Override
protected Class<?>[] getRootConfigClasses() {
return new Class[] { NonWebSecurityConfig.class };
}
@Override
protected Class<?>[] getServletConfigClasses() {
return new Class[] { WebSecurityConfig.class, WebMvcConfig.class };
}
// ... other overrides ...
}
This can be helpful if you have multiple instances of AbstractAnnotationConfigDispatcherServletInitializer
and don’t want to duplicate the general security configuration across both of them.
HttpSecurity
Thus far, our WebSecurityConfig
contains only information about how to authenticate our users.
How does Spring Security know that we want to require all users to be authenticated?
How does Spring Security know we want to support form-based authentication?
Actually, there is a configuration class (called SecurityFilterChain
) that is being invoked behind the scenes.
It is configured with the following default implementation:
@Bean
public SecurityFilterChain filterChain(HttpSecurity http) throws Exception {
http
.authorizeHttpRequests(authorize -> authorize
.anyRequest().authenticated()
)
.formLogin(withDefaults())
.httpBasic(withDefaults());
return http.build();
}
The default configuration (shown in the preceding example):
-
Ensures that any request to our application requires the user to be authenticated
-
Lets users authenticate with form based login
-
Lets users authenticate with HTTP Basic authentication
Note that this configuration is parallels the XML Namespace configuration:
<http>
<intercept-url pattern="/**" access="authenticated"/>
<form-login />
<http-basic />
</http>
Multiple HttpSecurity Instances
We can configure multiple HttpSecurity
instances just as we can have multiple <http>
blocks in XML.
The key is to register multiple SecurityFilterChain
@Bean
s.
The following example has a different configuration for URLs that start with /api/
.
@Configuration
@EnableWebSecurity
public class MultiHttpSecurityConfig {
@Bean (1)
public UserDetailsService userDetailsService() throws Exception {
// ensure the passwords are encoded properly
UserBuilder users = User.withDefaultPasswordEncoder();
InMemoryUserDetailsManager manager = new InMemoryUserDetailsManager();
manager.createUser(users.username("user").password("password").roles("USER").build());
manager.createUser(users.username("admin").password("password").roles("USER","ADMIN").build());
return manager;
}
@Bean
@Order(1) (2)
public SecurityFilterChain apiFilterChain(HttpSecurity http) throws Exception {
http
.securityMatcher("/api/**") (3)
.authorizeHttpRequests(authorize -> authorize
.anyRequest().hasRole("ADMIN")
)
.httpBasic(withDefaults());
return http.build();
}
@Bean (4)
public SecurityFilterChain formLoginFilterChain(HttpSecurity http) throws Exception {
http
.authorizeHttpRequests(authorize -> authorize
.anyRequest().authenticated()
)
.formLogin(withDefaults());
return http.build();
}
}
1 | Configure Authentication as usual. |
2 | Create an instance of SecurityFilterChain that contains @Order to specify which SecurityFilterChain should be considered first. |
3 | The http.securityMatcher states that this HttpSecurity is applicable only to URLs that start with /api/ . |
4 | Create another instance of SecurityFilterChain .
If the URL does not start with /api/ , this configuration is used.
This configuration is considered after apiFilterChain , since it has an @Order value after 1 (no @Order defaults to last). |
Custom DSLs
You can provide your own custom DSLs in Spring Security:
public class MyCustomDsl extends AbstractHttpConfigurer<MyCustomDsl, HttpSecurity> {
private boolean flag;
@Override
public void init(HttpSecurity http) throws Exception {
// any method that adds another configurer
// must be done in the init method
http.csrf().disable();
}
@Override
public void configure(HttpSecurity http) throws Exception {
ApplicationContext context = http.getSharedObject(ApplicationContext.class);
// here we lookup from the ApplicationContext. You can also just create a new instance.
MyFilter myFilter = context.getBean(MyFilter.class);
myFilter.setFlag(flag);
http.addFilterBefore(myFilter, UsernamePasswordAuthenticationFilter.class);
}
public MyCustomDsl flag(boolean value) {
this.flag = value;
return this;
}
public static MyCustomDsl customDsl() {
return new MyCustomDsl();
}
}
This is actually how methods like |
You can then use the custom DSL:
@Configuration
@EnableWebSecurity
public class Config {
@Bean
public SecurityFilterChain filterChain(HttpSecurity http) throws Exception {
http
.apply(customDsl())
.flag(true)
.and()
...;
return http.build();
}
}
The code is invoked in the following order:
-
Code in the
Config.filterChain
method is invoked -
Code in the
MyCustomDsl.init
method is invoked -
Code in the
MyCustomDsl.configure
method is invoked
If you want, you can have HttpSecurity
add MyCustomDsl
by default by using SpringFactories
.
For example, you can create a resource on the classpath named META-INF/spring.factories
with the following contents:
org.springframework.security.config.annotation.web.configurers.AbstractHttpConfigurer = sample.MyCustomDsl
You can also explicit disable the default:
@Configuration
@EnableWebSecurity
public class Config {
@Bean
public SecurityFilterChain filterChain(HttpSecurity http) throws Exception {
http
.apply(customDsl()).disable()
...;
return http.build();
}
}
Post Processing Configured Objects
Spring Security’s Java configuration does not expose every property of every object that it configures. This simplifies the configuration for a majority of users. After all, if every property were exposed, users could use standard bean configuration.
While there are good reasons to not directly expose every property, users may still need more advanced configuration options.
To address this issue, Spring Security introduces the concept of an ObjectPostProcessor
, which can be used to modify or replace many of the Object
instances created by the Java Configuration.
For example, to configure the filterSecurityPublishAuthorizationSuccess
property on FilterSecurityInterceptor
, you can use the following:
@Bean
public SecurityFilterChain filterChain(HttpSecurity http) throws Exception {
http
.authorizeHttpRequests(authorize -> authorize
.anyRequest().authenticated()
.withObjectPostProcessor(new ObjectPostProcessor<FilterSecurityInterceptor>() {
public <O extends FilterSecurityInterceptor> O postProcess(
O fsi) {
fsi.setPublishAuthorizationSuccess(true);
return fsi;
}
})
);
return http.build();
}