Spring Security 是一个轻量级的安全框架,可以和 Spring 项目很好地集成,提供了丰富的身份认证和授权相关的功能,而且还能防止一些常见的网络攻击。
入门示例
我们先从一个简单的例子开始,这里我直接使用了 使用 Spring 项目脚手架 中的 Hello World 示例。为了让这个示例程序开启 Spring Security 功能,我们在 pom.xml
文件中引入 spring-boot-starter-security
依赖即可:
<dependency>`` ``<groupId>org.springframework.boot</groupId>`` ``<artifactId>spring-boot-starter-security</artifactId>``</dependency>
启动程序,会在控制台日志中看到类似下面这样的信息:
代码语言:javascript复制2023-05-15 06:52:52.418 INFO 8596 --- [ main] .s.s.UserDetailsServiceAutoConfiguration : ` `Using generated security password: eeb386a9-e16a-4b9b-bbc6-c054c8d263b0
这个是由 Spring Security 随机生成的密码。访问 /hello
页面,可以看到出现了一个登录页面:
输入用户名(默认为 user
)和密码(控制台日志)登录成功后我们才能正常访问页面。默认的用户名和密码可以使用下面的配置进行修改:
spring.security.user.name=admin``spring.security.user.password=123456
为了后续更好地对 Spring Security 进行配置,理解 Spring Security 的实现原理,我们需要进一步学习 Spring Security 的三大核心组件:
- 过滤器(Servlet Filters)
- 认证(Authentication)
- 授权(Authorization)
Servlet Filters
:Spring Security 的基础
我们知道,在 Spring MVC 框架中,DispatcherServlet
负责对用户的 Web 请求进行分发和处理,在请求到达 DispatcherServlet
之前,会经过一系列的 Servlet Filters
,这被称之为过滤器,主要作用是拦截请求并对请求做一些前置或后置处理。这些过滤器串在一起,形成一个过滤器链(FilterChain
):
我们可以在配置文件中加上下面的日志配置:
代码语言:javascript复制logging.level.org.springframework.boot.web.servlet.ServletContextInitializerBeans=TRACE
然后重新启动服务,会在控制台输出类似下面这样的日志(为了方便查看,我做了一点格式化):
代码语言:javascript复制2023-05-18 07:08:14.805 TRACE 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Added existing Filter initializer bean 'webMvcMetricsFilter'; order=-2147483647, `` ``resource=class path resource [org/springframework/boot/actuate/autoconfigure/metrics/web/servlet/WebMvcMetricsAutoConfiguration.class]``2023-05-18 07:08:14.806 TRACE 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Added existing Filter initializer bean 'securityFilterChainRegistration'; order=-100, `` ``resource=class path resource [org/springframework/boot/autoconfigure/security/servlet/SecurityFilterAutoConfiguration.class]``2023-05-18 07:08:14.808 TRACE 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Added existing Servlet initializer bean 'dispatcherServletRegistration'; order=2147483647, `` ``resource=class path resource [org/springframework/boot/autoconfigure/web/servlet/DispatcherServletAutoConfiguration$DispatcherServletRegistrationConfiguration.class]``2023-05-18 07:08:14.810 TRACE 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Added existing Filter initializer bean 'errorPageSecurityFilter'; order=2147483647, `` ``resource=class path resource [org/springframework/boot/autoconfigure/security/servlet/SpringBootWebSecurityConfiguration$ErrorPageSecurityFilterConfiguration.class]``2023-05-18 07:08:14.813 TRACE 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Added existing ServletContextInitializer initializer bean 'servletEndpointRegistrar'; order=2147483647, `` ``resource=class path resource [org/springframework/boot/actuate/autoconfigure/endpoint/web/ServletEndpointManagementContextConfiguration$WebMvcServletEndpointManagementContextConfiguration.class]``2023-05-18 07:08:14.828 TRACE 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Created Filter initializer for bean 'characterEncodingFilter'; order=-2147483648, `` ``resource=class path resource [org/springframework/boot/autoconfigure/web/servlet/HttpEncodingAutoConfiguration.class] ``2023-05-18 07:08:14.831 TRACE 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Created Filter initializer for bean 'formContentFilter'; order=-9900, `` ``resource=class path resource [org/springframework/boot/autoconfigure/web/servlet/WebMvcAutoConfiguration.class]``2023-05-18 07:08:14.834 TRACE 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Created Filter initializer for bean 'requestContextFilter'; order=-105, `` ``resource=class path resource [org/springframework/boot/autoconfigure/web/servlet/WebMvcAutoConfiguration$WebMvcAutoConfigurationAdapter.class]``2023-05-18 07:08:14.842 DEBUG 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Mapping filters: `` ``filterRegistrationBean urls=[/*] order=-2147483647, `` ``springSecurityFilterChain urls=[/*] order=-100, `` ``filterRegistrationBean urls=[/*] order=2147483647, `` ``characterEncodingFilter urls=[/*] order=-2147483648, `` ``formContentFilter urls=[/*] order=-9900, `` ``requestContextFilter urls=[/*] order=-105``2023-05-18 07:08:14.844 DEBUG 10020 --- [ main] o.s.b.w.s.ServletContextInitializerBeans : `` ``Mapping servlets: dispatcherServlet urls=[/]
这里显示了应用开启的所有 Filter
以及对应的自动配置类,可以看到 Spring Security 自动注入了两个 FilterRegistrationBean
:
- 来自配置类
SecurityFilterAutoConfiguration
的securityFilterChainRegistration
- 来自配置类
ErrorPageSecurityFilterConfiguration
的errorPageSecurityFilter
DelegatingFilterProxy
:Servlet Filter 与 Spring Bean 的桥梁
注意上面显示的并非 Filter
的名字,而是 FilterRegistrationBean
的名字,这是一种 RegistrationBean
,它实现了 ServletContextInitializer
接口,用于在程序启动时,将 Filter
或 Servlet
注入到 ServletContext
中:
public abstract class RegistrationBean implements ServletContextInitializer, Ordered {` ` ``@Override`` ``public final void onStartup(ServletContext servletContext) throws ServletException {`` ``...`` ``register(description, servletContext);`` ``}` `}
其中 securityFilterChainRegistration
的定义如下:
@Bean``@ConditionalOnBean(name = DEFAULT_FILTER_NAME)``public DelegatingFilterProxyRegistrationBean securityFilterChainRegistration(`` ``SecurityProperties securityProperties) {`` ``DelegatingFilterProxyRegistrationBean registration = new DelegatingFilterProxyRegistrationBean(`` ``DEFAULT_FILTER_NAME);`` ``registration.setOrder(securityProperties.getFilter().getOrder());`` ``registration.setDispatcherTypes(getDispatcherTypes(securityProperties));`` ``return registration;``}
这个 RegistrationBean
的类型为 DelegatingFilterProxyRegistrationBean
,由它注入的 Filter
叫 DelegatingFilterProxy
:
public class DelegatingFilterProxyRegistrationBean extends AbstractFilterRegistrationBean<DelegatingFilterProxy> {`` ``...``}
这是一个非常重要的 Servlet Filter
,它充当着 Servlet 容器和 Spring 上下文之间的桥梁,由于 Servlet 容器有着它自己的标准,在注入 Filter
时并不知道 Spring Bean 的存在,所以我们可以通过 DelegatingFilterProxy
来实现 Bean Filter
的延迟加载:
看一下 DelegatingFilterProxy
的实现:
public class DelegatingFilterProxy extends GenericFilterBean {` ` ``@Override`` ``public void doFilter(ServletRequest request, ServletResponse response, FilterChain filterChain)`` ``throws ServletException, IOException {` ` ``// Lazily initialize the delegate if necessary.`` ``Filter delegateToUse = this.delegate;`` ``if (delegateToUse == null) {`` ``synchronized (this.delegateMonitor) {`` ``delegateToUse = this.delegate;`` ``if (delegateToUse == null) {`` ``WebApplicationContext wac = findWebApplicationContext();`` ``if (wac == null) {`` ``throw new IllegalStateException("No WebApplicationContext found: " `` ``"no ContextLoaderListener or DispatcherServlet registered?");`` ``}`` ``delegateToUse = initDelegate(wac);`` ``}`` ``this.delegate = delegateToUse;`` ``}`` ``}` ` ``// Let the delegate perform the actual doFilter operation.`` ``invokeDelegate(delegateToUse, request, response, filterChain);`` ``}``}
这段代码很容易理解,首先判断代理的 Bean Filter
是否存在,如果不存在则根据 findWebApplicationContext()
找到 Web 应用上下文,然后从上下文中获取 Bean Filter
并初始化,最后再调用该 Bean Filter
。
FilterChainProxy
:Spring Security 的统一入口
那么接下来的问题是,这个 DelegatingFilterProxy
代理的 Bean Filter
是什么呢?我们从上面定义 DelegatingFilterProxyRegistrationBean
的地方可以看出,代理的 Bean Filter
叫做 DEFAULT_FILTER_NAME
,查看它的定义就知道,实际上就是 springSecurityFilterChain
:
public static final String DEFAULT_FILTER_NAME = "springSecurityFilterChain";
那么这个 springSecurityFilterChain
是在哪定义的呢?我们可以在 WebSecurityConfiguration
配置类中找到答案:
public class WebSecurityConfiguration {` ` ``@Bean(name = AbstractSecurityWebApplicationInitializer.DEFAULT_FILTER_NAME)`` ``public Filter springSecurityFilterChain() throws Exception {`` ``boolean hasConfigurers = this.webSecurityConfigurers != null && !this.webSecurityConfigurers.isEmpty();`` ``boolean hasFilterChain = !this.securityFilterChains.isEmpty();`` ``if (!hasConfigurers && !hasFilterChain) {`` ``WebSecurityConfigurerAdapter adapter = this.objectObjectPostProcessor`` ``.postProcess(new WebSecurityConfigurerAdapter() {`` ``});`` ``this.webSecurity.apply(adapter);`` ``}`` ``for (SecurityFilterChain securityFilterChain : this.securityFilterChains) {`` ``this.webSecurity.addSecurityFilterChainBuilder(() -> securityFilterChain);`` ``for (Filter filter : securityFilterChain.getFilters()) {`` ``if (filter instanceof FilterSecurityInterceptor) {`` ``this.webSecurity.securityInterceptor((FilterSecurityInterceptor) filter);`` ``break;`` ``}`` ``}`` ``}`` ``for (WebSecurityCustomizer customizer : this.webSecurityCustomizers) {`` ``customizer.customize(this.webSecurity);`` ``}`` ``return this.webSecurity.build();`` ``}``}
很显然,springSecurityFilterChain
经过一系列的安全配置,最后通过 this.webSecurity.build()
构建出来的,进一步深入到 webSecurity
的源码我们就可以发现它的类型是 FilterChainProxy
:
public final class WebSecurity extends AbstractConfiguredSecurityBuilder<Filter, WebSecurity>`` ``implements SecurityBuilder<Filter>, ApplicationContextAware, ServletContextAware {` ` ``@Override`` ``protected Filter performBuild() throws Exception {` ` ``int chainSize = this.ignoredRequests.size() this.securityFilterChainBuilders.size();`` ``List<SecurityFilterChain> securityFilterChains = new ArrayList<>(chainSize);`` ``List<RequestMatcherEntry<List<WebInvocationPrivilegeEvaluator>>> requestMatcherPrivilegeEvaluatorsEntries = new ArrayList<>();`` ``for (RequestMatcher ignoredRequest : this.ignoredRequests) {`` ``SecurityFilterChain securityFilterChain = new DefaultSecurityFilterChain(ignoredRequest);`` ``securityFilterChains.add(securityFilterChain);`` ``requestMatcherPrivilegeEvaluatorsEntries`` ``.add(getRequestMatcherPrivilegeEvaluatorsEntry(securityFilterChain));`` ``}`` ``for (SecurityBuilder<? extends SecurityFilterChain> securityFilterChainBuilder : this.securityFilterChainBuilders) {`` ``SecurityFilterChain securityFilterChain = securityFilterChainBuilder.build();`` ``securityFilterChains.add(securityFilterChain);`` ``requestMatcherPrivilegeEvaluatorsEntries`` ``.add(getRequestMatcherPrivilegeEvaluatorsEntry(securityFilterChain));`` ``}` ` ``FilterChainProxy filterChainProxy = new FilterChainProxy(securityFilterChains);`` ``if (this.httpFirewall != null) {`` ``filterChainProxy.setFirewall(this.httpFirewall);`` ``}`` ``if (this.requestRejectedHandler != null) {`` ``filterChainProxy.setRequestRejectedHandler(this.requestRejectedHandler);`` ``}`` ``filterChainProxy.afterPropertiesSet();` ` ``Filter result = filterChainProxy;` ` ``this.postBuildAction.run();`` ``return result;`` ``}``}
从 FilterChainProxy
的名字可以看出来,它也是一个代理类,它代理的类叫做 SecurityFilterChain
,它包含了多个 Security Filters
形成一个过滤器链,这和 Servlet Filters
有点类似,只不过这些 Security Filters
都是普通的 Spring Bean:
使用 FilterChainProxy
来代理 Security Filters
相比于直接使用 Servlet Filters
或使用 DelegatingFilterProxy
来代理有几个明显的好处:
FilterChainProxy
作为 Spring Security 对 Servlet 的支持入口,方便理解和调试;FilterChainProxy
可以对 Spring Security 做一些集中处理,比如统一清除SecurityContext
防止内存泄漏,以及统一使用HttpFirewall
对应用进行保护等;- 支持多个
SecurityFilterChain
,传统的Servlet Filters
只能通过 URL 来匹配,使用FilterChainProxy
可以配合RequestMatcher
更灵活地控制调用哪个SecurityFilterChain
;
构建 SecurityFilterChain
上面讲到,FilterChainProxy
是通过 webSecurity
构建的,一个 FilterChainProxy
里包含一个或多个 SecurityFilterChain
,那么 SecurityFilterChain
是由谁构建的呢?答案是 httpSecurity
。我们可以在 SecurityFilterChainConfiguration
配置类中看到 SecurityFilterChain
的构建过程:
@Configuration(proxyBeanMethods = false)``@ConditionalOnDefaultWebSecurity``static class SecurityFilterChainConfiguration {` ` ``@Bean`` ``@Order(SecurityProperties.BASIC_AUTH_ORDER)`` ``SecurityFilterChain defaultSecurityFilterChain(HttpSecurity http) throws Exception {`` ``http.authorizeRequests().anyRequest().authenticated();`` ``http.formLogin();`` ``http.httpBasic();`` ``return http.build();`` ``}``}
深入到 http.build()
的源码,可以看到过滤器链的默认实现为 DefaultSecurityFilterChain
:
public final class HttpSecurity extends AbstractConfiguredSecurityBuilder<DefaultSecurityFilterChain, HttpSecurity>`` ``implements SecurityBuilder<DefaultSecurityFilterChain>, HttpSecurityBuilder<HttpSecurity> {` ` ``@SuppressWarnings("unchecked")`` ``@Override`` ``protected DefaultSecurityFilterChain performBuild() {` ` ``this.filters.sort(OrderComparator.INSTANCE);`` ``List<Filter> sortedFilters = new ArrayList<>(this.filters.size());`` ``for (Filter filter : this.filters) {`` ``sortedFilters.add(((OrderedFilter) filter).filter);`` ``}`` ``return new DefaultSecurityFilterChain(this.requestMatcher, sortedFilters);`` ``}``}
构建 Security Filters
通过上面的梳理,我们大概清楚了 SecurityFilterChain
的构建过程,接下来,我们继续看 Security Filters
的构建过程。我们知道,一个SecurityFilterChain
中包含了多个 Security Filters
,那么这些 Security Filters
是从哪里来的呢?
在 HttpSecurity
的代码里可以找到这么几个方法:
public HttpSecurity addFilter(Filter filter)
public HttpSecurity addFilterBefore(Filter filter, Class<? extends Filter> beforeFilter)
public HttpSecurity addFilterAfter(Filter filter, Class<? extends Filter> afterFilter)
public HttpSecurity addFilterAt(Filter filter, Class<? extends Filter> atFilter)
我们不妨在 addFilter
方法内下个断点,然后以调试模式启动程序,每次触发断点时,我们将对应的 Filter
记录下来,并通过堆栈找到该 Filter
是从何处添加的:
序号 | Filter | 来源 |
---|---|---|
1 | WebAsyncManagerIntegrationFilter | HttpSecurityConfiguration.httpSecurity() |
2 | CsrfFilter | CsrfConfigurer.configure() |
3 | ExceptionTranslationFilter | ExceptionHandlingConfigurer.configure() |
4 | HeaderWriterFilter | HeadersConfigurer.configure() |
5 | SessionManagementFilter | SessionManagementConfigurer.configure() |
6 | DisableEncodeUrlFilter | SessionManagementConfigurer.configure() |
7 | SecurityContextPersistenceFilter | SecurityContextConfigurer.configure() |
8 | RequestCacheAwareFilter | RequestCacheConfigurer.configure() |
9 | AnonymousAuthenticationFilter | AnonymousConfigurer.configure() |
10 | SecurityContextHolderAwareRequestFilter | ServletApiConfigurer.configure() |
11 | DefaultLoginPageGeneratingFilter | DefaultLoginPageConfigurer.configure() |
12 | DefaultLogoutPageGeneratingFilter | DefaultLoginPageConfigurer.configure() |
13 | LogoutFilter | LogoutConfigurer.configure() |
14 | FilterSecurityInterceptor | AbstractInterceptUrlConfigurer.configure() |
15 | UsernamePasswordAuthenticationFilter | AbstractAuthenticationFilterConfigurer.configure() |
16 | BasicAuthenticationFilter | HttpBasicConfigurer.configure() |
除了第一个 WebAsyncManagerIntegrationFilter
是在创建 HttpSecurity
的时候直接添加的,其他的 Filter
都是通过 XXXConfigurer
这样的配置器添加的。我们继续深挖下去可以发现,生成这些配置器的地方有两个,第一个地方是在 HttpSecurityConfiguration
配置类中创建 HttpSecurity
时,如下所示:
class HttpSecurityConfiguration {` ` ``@Bean(HTTPSECURITY_BEAN_NAME)`` ``@Scope("prototype")`` ``HttpSecurity httpSecurity() throws Exception {`` ``WebSecurityConfigurerAdapter.LazyPasswordEncoder passwordEncoder = new WebSecurityConfigurerAdapter.LazyPasswordEncoder(`` ``this.context);`` ``AuthenticationManagerBuilder authenticationBuilder = new WebSecurityConfigurerAdapter.DefaultPasswordEncoderAuthenticationManagerBuilder(`` ``this.objectPostProcessor, passwordEncoder);`` ``authenticationBuilder.parentAuthenticationManager(authenticationManager());`` ``authenticationBuilder.authenticationEventPublisher(getAuthenticationEventPublisher());`` ``HttpSecurity http = new HttpSecurity(this.objectPostProcessor, authenticationBuilder, createSharedObjects());`` ``// @formatter:off`` ``http`` ``.csrf(withDefaults())`` ``.addFilter(new WebAsyncManagerIntegrationFilter())`` ``.exceptionHandling(withDefaults())`` ``.headers(withDefaults())`` ``.sessionManagement(withDefaults())`` ``.securityContext(withDefaults())`` ``.requestCache(withDefaults())`` ``.anonymous(withDefaults())`` ``.servletApi(withDefaults())`` ``.apply(new DefaultLoginPageConfigurer<>());`` ``http.logout(withDefaults());`` ``// @formatter:on`` ``applyDefaultConfigurers(http);`` ``return http;`` ``}``}
另外一个地方则是在上面的 SecurityFilterChainConfiguration
配置类中使用 http.build()
构建 SecurityFilterChain
之前(参见上面 defaultSecurityFilterChain
的代码),至此,我们大概理清了所有的 Security Filters
是如何创建的,下面再以表格的形式重新整理下:
序号 | Filter | httpSecurity 配置 |
---|---|---|
1 | WebAsyncManagerIntegrationFilter | http.addFilter(new WebAsyncManagerIntegrationFilter()) |
2 | CsrfFilter | http.csrf(withDefaults()) |
3 | ExceptionTranslationFilter | http.exceptionHandling(withDefaults()) |
4 | HeaderWriterFilter | http.headers(withDefaults()) |
5 | SessionManagementFilter | http.sessionManagement(withDefaults()) |
6 | DisableEncodeUrlFilter | http.sessionManagement(withDefaults()) |
7 | SecurityContextPersistenceFilter | http.securityContext(withDefaults()) |
8 | RequestCacheAwareFilter | http.requestCache(withDefaults()) |
9 | AnonymousAuthenticationFilter | http.anonymous(withDefaults()) |
10 | SecurityContextHolderAwareRequestFilter | http.servletApi(withDefaults()) |
11 | DefaultLoginPageGeneratingFilter | http.apply(new DefaultLoginPageConfigurer<>()) |
12 | DefaultLogoutPageGeneratingFilter | http.apply(new DefaultLoginPageConfigurer<>()) |
13 | LogoutFilter | http.logout(withDefaults()) |
14 | FilterSecurityInterceptor | http.authorizeRequests().anyRequest().authenticated() |
15 | UsernamePasswordAuthenticationFilter | http.formLogin() |
16 | BasicAuthenticationFilter | http.httpBasic() |
其实,如果仔细观察我们的程序输出的日志,也可以看到 Spring Security 默认的过滤器链为 DefaultSecurityFilterChain
,以及它注入的所有 Security Filters
:
2023-05-17 08:16:18.173 INFO 3936 --- [ main] o.s.s.web.DefaultSecurityFilterChain : Will secure any request with [`` ``org.springframework.security.web.session.DisableEncodeUrlFilter@1d6751e3, `` ``org.springframework.security.web.context.request.async.WebAsyncManagerIntegrationFilter@2d258eff, `` ``org.springframework.security.web.context.SecurityContextPersistenceFilter@202898d7, `` ``org.springframework.security.web.header.HeaderWriterFilter@2c26ba07, `` ``org.springframework.security.web.csrf.CsrfFilter@52d3fafd, `` ``org.springframework.security.web.authentication.logout.LogoutFilter@235c997d, `` ``org.springframework.security.web.authentication.UsernamePasswordAuthenticationFilter@5d5c41e5, `` ``org.springframework.security.web.authentication.ui.DefaultLoginPageGeneratingFilter@50b93353, `` ``org.springframework.security.web.authentication.ui.DefaultLogoutPageGeneratingFilter@6dca31eb, `` ``org.springframework.security.web.authentication.www.BasicAuthenticationFilter@22825e1e, `` ``org.springframework.security.web.savedrequest.RequestCacheAwareFilter@2c719bd4, `` ``org.springframework.security.web.servletapi.SecurityContextHolderAwareRequestFilter@53aa38be, `` ``org.springframework.security.web.authentication.AnonymousAuthenticationFilter@4a058df8, `` ``org.springframework.security.web.session.SessionManagementFilter@42ea7565, `` ``org.springframework.security.web.access.ExceptionTranslationFilter@77cb452c, `` ``org.springframework.security.web.access.intercept.FilterSecurityInterceptor@8054fe2]
在某些低版本中,可能会显示
DefaultSecurityFilterChain: Will not secure any request
这样的日志,这可能是 Spring Security 的 BUG,升级到最新版本即可。
其中有几个 Security Filters
比较重要,是实现认证和授权的基础:
CsrfFilter
:默认开启对所有接口的 CSRF 防护,关于 CSRF 的详细信息,可以参考 Configuring CSRF/XSRF with Spring Security;DefaultLoginPageGeneratingFilter
:用于生成/login
登录页面;DefaultLogoutPageGeneratingFilter
:用于生成/login?logout
登出页面;LogoutFilter
:当用户退出应用时被调用,它通过注册的LogoutHandler
删除会话并清理SecurityContext
,然后通过LogoutSuccessHandler
将页面重定向到/login?logout
;UsernamePasswordAuthenticationFilter
:实现基于用户名和密码的安全认证,当认证失败,抛出AuthenticationException
异常;BasicAuthenticationFilter
:实现 Basic 安全认证,当认证失败,抛出AuthenticationException
异常;AnonymousAuthenticationFilter
:如果SecurityContext
中没有Authentication
对象时,它自动创建一个匿名用户anonymousUser
,角色为ROLE_ANONYMOUS
;FilterSecurityInterceptor
:这是 Spring Security 的最后一个Security Filters
,它从SecurityContext
中获取Authentication
对象,然后对请求的资源做权限判断,当授权失败,抛出AccessDeniedException
异常;ExceptionTranslationFilter
:用于处理过滤器链中抛出的AuthenticationException
和AccessDeniedException
异常,AuthenticationException
异常由AuthenticationEntryPoint
来处理,AccessDeniedException
异常由AccessDeniedHandler
来处理;
认证和授权
有了 Security Filters
,我们就可以实现各种 Spring Security 的相关功能了。应用程序的安全性归根结底包括了两个主要问题:认证(Authentication) 和 授权(Authorization)。认证解决的是 你是谁? 的问题,而授权负责解决 你被允许做什么?,授权也被称为 访问控制(Access Control)。这一节将深入学习 Spring Security 是如何实现认证和授权的。
跳转到 /login
页面
让我们回到第一节的例子,当访问 /hello
时,可以看到浏览器自动跳转到了 /login
登录页面,那么 Spring Security 是如何实现的呢?为了一探究竟,我们可以将 Spring Security 的日志级别调到 TRACE
:
logging.level.org.springframework.security=TRACE
这样我们就能完整地看到这个请求经过 Security Filters
的处理过程:
/*
* 提示:该行代码过长,系统自动注释不进行高亮。一键复制会移除系统注释
* 2023-05-20 09:37:38.558 DEBUG 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Securing GET /hello``2023-05-20 09:37:38.559 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking DisableEncodeUrlFilter (1/17)``2023-05-20 09:37:38.559 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking WebAsyncManagerIntegrationFilter (2/17)``2023-05-20 09:37:38.560 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking SecurityContextPersistenceFilter (3/17)``2023-05-20 09:37:38.561 TRACE 6632 --- [nio-8080-exec-9] w.c.HttpSessionSecurityContextRepository : No HttpSession currently exists``2023-05-20 09:37:38.561 TRACE 6632 --- [nio-8080-exec-9] w.c.HttpSessionSecurityContextRepository : Created SecurityContextImpl [Null authentication]``2023-05-20 09:37:38.562 DEBUG 6632 --- [nio-8080-exec-9] s.s.w.c.SecurityContextPersistenceFilter : Set SecurityContextHolder to empty SecurityContext``2023-05-20 09:37:38.562 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking HeaderWriterFilter (4/17)``2023-05-20 09:37:38.562 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking CorsFilter (5/17)``2023-05-20 09:37:38.566 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking CsrfFilter (6/17)``2023-05-20 09:37:38.567 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.csrf.CsrfFilter : Did not protect against CSRF since request did not match CsrfNotRequired [TRACE, HEAD, GET, OPTIONS]``2023-05-20 09:37:38.568 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking LogoutFilter (7/17)``2023-05-20 09:37:38.571 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.a.logout.LogoutFilter : Did not match request to Ant [pattern='/logout', POST] ``2023-05-20 09:37:38.573 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking UsernamePasswordAuthenticationFilter (8/17)``2023-05-20 09:37:38.574 TRACE 6632 --- [nio-8080-exec-9] w.a.UsernamePasswordAuthenticationFilter : Did not match request to Ant [pattern='/login', POST]``2023-05-20 09:37:38.576 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking DefaultLoginPageGeneratingFilter (9/17)``2023-05-20 09:37:38.578 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking DefaultLogoutPageGeneratingFilter (10/17)``2023-05-20 09:37:38.582 TRACE 6632 --- [nio-8080-exec-9] .w.a.u.DefaultLogoutPageGeneratingFilter : Did not render default logout page since request did not match [Ant [pattern='/logout', GET]]``2023-05-20 09:37:38.583 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking BasicAuthenticationFilter (11/17)``2023-05-20 09:37:38.584 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.a.www.BasicAuthenticationFilter : Did not process authentication request since failed to find username and password in Basic Authorization header``2023-05-20 09:37:38.587 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking RequestCacheAwareFilter (12/17)``2023-05-20 09:37:38.588 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.s.HttpSessionRequestCache : No saved request``2023-05-20 09:37:38.590 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking SecurityContextHolderAwareRequestFilter (13/17) ``2023-05-20 09:37:38.591 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking AnonymousAuthenticationFilter (14/17)``2023-05-20 09:37:38.592 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.a.AnonymousAuthenticationFilter : Set SecurityContextHolder to AnonymousAuthenticationToken [Principal=anonymousUser, Credentials=[PROTECTED], Authenticated=true, Details=WebAuthenticationDetails [RemoteIpAddress=127.0.0.1, SessionId=null], Granted Authorities=[ROLE_ANONYMOUS]]``2023-05-20 09:37:38.593 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking SessionManagementFilter (15/17)``2023-05-20 09:37:38.593 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking ExceptionTranslationFilter (16/17)``2023-05-20 09:37:38.594 TRACE 6632 --- [nio-8080-exec-9] o.s.security.web.FilterChainProxy : Invoking FilterSecurityInterceptor (17/17)``2023-05-20 09:37:38.596 TRACE 6632 --- [nio-8080-exec-9] edFilterInvocationSecurityMetadataSource : Did not match request to EndpointRequestMatcher includes=[health], excludes=[], includeLinks=false - [permitAll] (1/2)``2023-05-20 09:37:38.610 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.a.i.FilterSecurityInterceptor : Did not re-authenticate AnonymousAuthenticationToken [Principal=anonymousUser, Credentials=[PROTECTED], Authenticated=true, Details=WebAuthenticationDetails [RemoteIpAddress=127.0.0.1, SessionId=null], Granted Authorities=[ROLE_ANONYMOUS]] before authorizing``2023-05-20 09:37:38.619 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.a.i.FilterSecurityInterceptor : Authorizing filter invocation [GET /hello] with attributes [authenticated]``2023-05-20 09:37:38.626 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.a.expression.WebExpressionVoter : Voted to deny authorization``2023-05-20 09:37:38.632 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.a.i.FilterSecurityInterceptor : Failed to authorize filter invocation [GET /hello] with attributes [authenticated] using AffirmativeBased [DecisionVoters=[org.springframework.security.web.access.expression.WebExpressionVoter@f613067], AllowIfAllAbstainDecisions=false]``2023-05-20 09:37:38.640 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.a.ExceptionTranslationFilter : Sending AnonymousAuthenticationToken [Principal=anonymousUser, Credentials=[PROTECTED], Authenticated=true, Details=WebAuthenticationDetails [RemoteIpAddress=127.0.0.1, SessionId=null], Granted Authorities=[ROLE_ANONYMOUS]] ``to authentication entry point since access is denied` `org.springframework.security.access.AccessDeniedException: Access is denied`` ``at org.springframework.security.access.vote.AffirmativeBased.decide(AffirmativeBased.java:73) ~[spring-security-core-5.7.8.jar:5.7.8]` `2023-05-20 09:37:38.691 DEBUG 6632 --- [nio-8080-exec-9] o.s.s.w.s.HttpSessionRequestCache : Saved request http://localhost:8080/hello to session``2023-05-20 09:37:38.693 DEBUG 6632 --- [nio-8080-exec-9] s.w.a.DelegatingAuthenticationEntryPoint : Trying to match using And [Not [RequestHeaderRequestMatcher [expectedHeaderName=X-Requested-With, expectedHeaderValue=XMLHttpRequest]], MediaTypeRequestMatcher [contentNegotiationStrategy=org.springframework.web.accept.HeaderContentNegotiationStrategy@4b95451, matchingMediaTypes=[application/xhtml xml, image/*, text/html, text/plain], useEquals=false, ignoredMediaTypes=[*/*]]] ``2023-05-20 09:37:38.701 DEBUG 6632 --- [nio-8080-exec-9] s.w.a.DelegatingAuthenticationEntryPoint : Match found! Executing org.springframework.security.web.authentication.LoginUrlAuthenticationEntryPoint@168ad26f``2023-05-20 09:37:38.709 DEBUG 6632 --- [nio-8080-exec-9] o.s.s.web.DefaultRedirectStrategy : Redirecting to http://localhost:8080/login``2023-05-20 09:37:38.712 TRACE 6632 --- [nio-8080-exec-9] o.s.s.w.header.writers.HstsHeaderWriter : Not injecting HSTS header since it did not match request to [Is Secure]``2023-05-20 09:37:38.720 DEBUG 6632 --- [nio-8080-exec-9] w.c.HttpSessionSecurityContextRepository : Did not store empty SecurityContext``2023-05-20 09:37:38.730 DEBUG 6632 --- [nio-8080-exec-9] w.c.HttpSessionSecurityContextRepository : Did not store empty SecurityContext``2023-05-20 09:37:38.731 DEBUG 6632 --- [nio-8080-exec-9] s.s.w.c.SecurityContextPersistenceFilter : Cleared SecurityContextHolder to complete request
*/
这个过程中有两点比较重要:第一点是经过 AnonymousAuthenticationFilter
时,将当前用户设置为 anonymousUser
,角色为 ROLE_ANONYMOUS
;第二点是经过 FilterSecurityInterceptor
时,校验当前用户是否有访问 /hello
页面的权限,在上面的 defaultSecurityFilterChain
中,可以看到 http.authorizeRequests().anyRequest().authenticated()
这样的代码,这说明 Spring Security 默认对所有的页面都开启了鉴权,所以会抛出 AccessDeniedException
异常,而这个异常被 ExceptionTranslationFilter
拦截,并将这个异常交给 LoginUrlAuthenticationEntryPoint
处理,从而重定向到 /login
页面,整个过程的示意图如下:
接下来,浏览器开始访问重定向后的 /login
页面,这时请求又会再一次经历一系列的 Security Filters
,和上面的 /hello
请求不一样的是,/login
请求经过 DefaultLoginPageGeneratingFilter
时,会生成上面我们看到的登录页面并结束整个调用链:
public class DefaultLoginPageGeneratingFilter extends GenericFilterBean {` ` ``private void doFilter(HttpServletRequest request, HttpServletResponse response, FilterChain chain)`` ``throws IOException, ServletException {`` ``boolean loginError = isErrorPage(request);`` ``boolean logoutSuccess = isLogoutSuccess(request);`` ``if (isLoginUrlRequest(request) || loginError || logoutSuccess) {`` ``String loginPageHtml = generateLoginPageHtml(request, loginError, logoutSuccess);`` ``response.setContentType("text/html;charset=UTF-8");`` ``response.setContentLength(loginPageHtml.getBytes(StandardCharsets.UTF_8).length);`` ``response.getWriter().write(loginPageHtml);`` ``return;`` ``}`` ``chain.doFilter(request, response);`` ``}``}
AuthenticationManager
:剖析认证流程
接下来,输入用户名和密码并提交,请求会再一次经历 Security Filters
,这一次,请求在 UsernamePasswordAuthenticationFilter
这里被拦截下来,并开始了用户名和密码的认证过程:
public class UsernamePasswordAuthenticationFilter extends AbstractAuthenticationProcessingFilter {` ` ``@Override`` ``public Authentication attemptAuthentication(HttpServletRequest request, HttpServletResponse response)`` ``throws AuthenticationException {`` ``if (this.postOnly && !request.getMethod().equals("POST")) {`` ``throw new AuthenticationServiceException("Authentication method not supported: " request.getMethod());`` ``}`` ``String username = obtainUsername(request);`` ``username = (username != null) ? username.trim() : "";`` ``String password = obtainPassword(request);`` ``password = (password != null) ? password : "";`` ``UsernamePasswordAuthenticationToken authRequest = UsernamePasswordAuthenticationToken.unauthenticated(username,`` ``password);`` ``// Allow subclasses to set the "details" property`` ``setDetails(request, authRequest);`` ``return this.getAuthenticationManager().authenticate(authRequest);`` ``}``}
这里将遇到 Spring Security 中处理认证的核心接口:AuthenticationManager
:
public interface AuthenticationManager {` ` ``Authentication authenticate(Authentication authentication) throws AuthenticationException;``}
这个接口只有一个 authenticate()
方法,它的入参是一个未认证的 Authentication
,从 UsernamePasswordAuthenticationFilter
的代码中可以看到使用了 UsernamePasswordAuthenticationToken
,它的返回有三种情况:
- 如果认证成功,则返回认证成功后的
Authentication
(通常带有authenticated=true
); - 如果认证失败,则抛出
AuthenticationException
异常; - 如果无法判断,则返回
null
;
AuthenticationManager
接口最常用的一个实现是 ProviderManager
类,它包含了一个或多个 AuthenticationProvider
实例:
public class ProviderManager implements AuthenticationManager {` ` ``private List<AuthenticationProvider> providers;``}
AuthenticationProvider
有点像 AuthenticationManager
,但它有一个额外的方法 boolean supports(Class<?> authentication)
:
public interface AuthenticationProvider {` ` ``Authentication authenticate(Authentication authentication) throws AuthenticationException;` ` ``boolean supports(Class<?> authentication);``}
Spring Security 会遍历列表中所有的 AuthenticationProvider
,并通过 supports()
方法来选取合适的 AuthenticationProvider
实例来实现认证,从上文中我们知道,UsernamePasswordAuthenticationFilter
在认证时使用的 Authentication
类型为 UsernamePasswordAuthenticationToken
,对于这个 Authentication
,默认使用的 AuthenticationProvider
是 DaoAuthenticationProvider
,它继承自抽象类 AbstractUserDetailsAuthenticationProvider
:
public abstract class AbstractUserDetailsAuthenticationProvider`` ``implements AuthenticationProvider, InitializingBean, MessageSourceAware {` ` ``@Override`` ``public Authentication authenticate(Authentication authentication) throws AuthenticationException {` ` ``String username = determineUsername(authentication);`` ``UserDetails user = retrieveUser(username, (UsernamePasswordAuthenticationToken) authentication);`` ` ` ``this.preAuthenticationChecks.check(user);`` ``additionalAuthenticationChecks(user, (UsernamePasswordAuthenticationToken) authentication);`` ``this.postAuthenticationChecks.check(user);`` ` ` ``Object principalToReturn = user;`` ``if (this.forcePrincipalAsString) {`` ``principalToReturn = user.getUsername();`` ``}`` ``return createSuccessAuthentication(principalToReturn, authentication, user);`` ``}``}
其中,最关键的代码有两行,第一行是通过 retrieveUser()
方法获取 UserDetails
:
public class DaoAuthenticationProvider extends AbstractUserDetailsAuthenticationProvider {` ` ``@Override`` ``protected final UserDetails retrieveUser(String username, UsernamePasswordAuthenticationToken authentication)`` ``throws AuthenticationException {`` ` ` ``UserDetails loadedUser = this.getUserDetailsService().loadUserByUsername(username);`` ``return loadedUser;`` ``}``}
进入 retrieveUser()
方法内部,可以看到它是通过 UserDetailsService
的 loadUserByUsername()
方法来获取 UserDetails
的,而这个 UserDetailsService
默认实现是 InMemoryUserDetailsManager
:
public class InMemoryUserDetailsManager implements UserDetailsManager, UserDetailsPasswordService {` ` ``@Override`` ``public UserDetails loadUserByUsername(String username) throws UsernameNotFoundException {`` ``UserDetails user = this.users.get(username.toLowerCase());`` ``if (user == null) {`` ``throw new UsernameNotFoundException(username);`` ``}`` ``return new User(user.getUsername(), user.getPassword(), user.isEnabled(), user.isAccountNonExpired(),`` ``user.isCredentialsNonExpired(), user.isAccountNonLocked(), user.getAuthorities());`` ``}``}
它的实现非常简单,就是从 users
这个 Map 中直接获取 UserDetails
,那么 users
这个 Map 又是从哪来的呢? 答案就是我们在配置文件中配置的 spring.security.user
,我们可以从自动配置类 UserDetailsServiceAutoConfiguration
中找到 InMemoryUserDetailsManager
的初始化代码:
public class UserDetailsServiceAutoConfiguration {` ` ``@Bean`` ``@Lazy`` ``public InMemoryUserDetailsManager inMemoryUserDetailsManager(SecurityProperties properties,`` ``ObjectProvider<PasswordEncoder> passwordEncoder) {`` ``SecurityProperties.User user = properties.getUser();`` ``List<String> roles = user.getRoles();`` ``return new InMemoryUserDetailsManager(User.withUsername(user.getName())`` ``.password(getOrDeducePassword(user, passwordEncoder.getIfAvailable()))`` ``.roles(StringUtils.toStringArray(roles))`` ``.build());`` ``}``}
另一行关键代码是通过 additionalAuthenticationChecks()
方法对 UserDetails
和 UsernamePasswordAuthenticationToken
进行校验,一般来说,就是验证密码是否正确:
public class DaoAuthenticationProvider extends AbstractUserDetailsAuthenticationProvider {` ` ``@Override`` ``protected void additionalAuthenticationChecks(UserDetails userDetails,`` ``UsernamePasswordAuthenticationToken authentication) throws AuthenticationException {`` ` ` ``String presentedPassword = authentication.getCredentials().toString();`` ``if (!this.passwordEncoder.matches(presentedPassword, userDetails.getPassword())) {`` ``this.logger.debug("Failed to authenticate since password does not match stored value");`` ``throw new BadCredentialsException(this.messages`` ``.getMessage("AbstractUserDetailsAuthenticationProvider.badCredentials", "Bad credentials"));`` ``}`` ``}``}
一旦用户名和密码都验证通过,就调用 createSuccessAuthentication()
方法创建并返回一个认证成功后的 Authentication
,然后经过一系列的后处理,整个认证的流程如下所示:
其中,SecurityContextHolder
将认证成功后的 Authentication
保存到安全上下文中供后续 Filter
使用;AuthenticationSuccessHandler
用于定义一些认证成功后的自定义逻辑,默认实现为 SimpleUrlAuthenticationSuccessHandler
,它返回一个重定向,将浏览器转到登录之前用户访问的页面。
在我的测试中,
SimpleUrlAuthenticationSuccessHandler
貌似并没有触发,新版本的逻辑有变动?
AccessDecisionManager
:剖析授权流程
其实,在上面分析重定向 /login
页面的流程时已经大致了解了实现授权的逻辑,请求经过 FilterSecurityInterceptor
时,校验当前用户是否有访问页面的权限,如果没有,则会抛出 AccessDeniedException
异常。FilterSecurityInterceptor
的核心代码如下:
public class FilterSecurityInterceptor extends AbstractSecurityInterceptor implements Filter {`` ` ` ``public void invoke(FilterInvocation filterInvocation) throws IOException, ServletException {` ` ``InterceptorStatusToken token = super.beforeInvocation(filterInvocation);`` ``try {`` ``filterInvocation.getChain().doFilter(filterInvocation.getRequest(), filterInvocation.getResponse());`` ``}`` ``finally {`` ``super.finallyInvocation(token);`` ``}`` ``super.afterInvocation(token, null);`` ``}``}
可以看到,主要逻辑就包含在 beforeInvocation()
、finallyInvocation()
和 afterInvocation()
这三个方法中,而对授权相关的部分则位于 beforeInvocation()
方法中:
public abstract class AbstractSecurityInterceptor`` ``implements InitializingBean, ApplicationEventPublisherAware, MessageSourceAware {` ` ``protected InterceptorStatusToken beforeInvocation(Object object) {`` ` ` ``Collection<ConfigAttribute> attributes = this.obtainSecurityMetadataSource().getAttributes(object);`` ` ` ``Authentication authenticated = authenticateIfRequired();`` ` ` ``// Attempt authorization`` ``attemptAuthorization(object, attributes, authenticated);`` ` ` ``if (this.publishAuthorizationSuccess) {`` ``publishEvent(new AuthorizedEvent(object, attributes, authenticated));`` ``}` ` ``return new InterceptorStatusToken(SecurityContextHolder.getContext(), false, attributes, object);`` ``}` ` ``private void attemptAuthorization(Object object, Collection<ConfigAttribute> attributes,`` ``Authentication authenticated) {`` ``try {`` ``this.accessDecisionManager.decide(authenticated, object, attributes);`` ``}`` ``catch (AccessDeniedException ex) {`` ``publishEvent(new AuthorizationFailureEvent(object, attributes, authenticated, ex));`` ``throw ex;`` ``}`` ``}``}
在这里,我们遇到了 Spring Security 实现授权的核心接口:AccessDecisionManager
,Spring Security 就是通过该接口的 decide()
方法来决定用户是否有访问某个资源的权限。AccessDecisionManager
接口的默认实现为 AffirmativeBased
,可以从 AbstractInterceptUrlConfigurer
中找到它的踪影:
public abstract class AbstractInterceptUrlConfigurer<C extends AbstractInterceptUrlConfigurer<C, H>, H extends HttpSecurityBuilder<H>>`` ``extends AbstractHttpConfigurer<C, H> {`` ` ` ``private AccessDecisionManager createDefaultAccessDecisionManager(H http) {`` ``AffirmativeBased result = new AffirmativeBased(getDecisionVoters(http));`` ``return postProcess(result);`` ``}``}
AffirmativeBased
实例中包含一个或多个 AccessDecisionVoter
,它通过遍历所有的 AccessDecisionVoter
依次投票决定授权是否允许,只要有一个 AccessDecisionVoter
拒绝,则抛出 AccessDeniedException
异常:
public class AffirmativeBased extends AbstractAccessDecisionManager {` ` ``@Override`` ``@SuppressWarnings({ "rawtypes", "unchecked" })`` ``public void decide(Authentication authentication, Object object, Collection<ConfigAttribute> configAttributes)`` ``throws AccessDeniedException {`` ``int deny = 0;`` ``for (AccessDecisionVoter voter : getDecisionVoters()) {`` ``int result = voter.vote(authentication, object, configAttributes);`` ``switch (result) {`` ``case AccessDecisionVoter.ACCESS_GRANTED:`` ``return;`` ``case AccessDecisionVoter.ACCESS_DENIED:`` ``deny ;`` ``break;`` ``default:`` ``break;`` ``}`` ``}`` ``if (deny > 0) {`` ``throw new AccessDeniedException(`` ``this.messages.getMessage("AbstractAccessDecisionManager.accessDenied", "Access is denied"));`` ``}`` ``// To get this far, every AccessDecisionVoter abstained`` ``checkAllowIfAllAbstainDecisions();`` ``}``}
默认情况下,AffirmativeBased
实例中只有一个 AccessDecisionVoter
,那就是 WebExpressionVoter
:
public class WebExpressionVoter implements AccessDecisionVoter<FilterInvocation> {` ` ``@Override`` ``public int vote(Authentication authentication, FilterInvocation filterInvocation,`` ``Collection<ConfigAttribute> attributes) {`` ` ` ``WebExpressionConfigAttribute webExpressionConfigAttribute = findConfigAttribute(attributes);`` ` ` ``EvaluationContext ctx = webExpressionConfigAttribute.postProcess(`` ``this.expressionHandler.createEvaluationContext(authentication, filterInvocation), filterInvocation);` ` ``boolean granted = ExpressionUtils.evaluateAsBoolean(webExpressionConfigAttribute.getAuthorizeExpression(), ctx);`` ``if (granted) {`` ``return ACCESS_GRANTED;`` ``}`` ``return ACCESS_DENIED;`` ``}``}
WebExpressionVoter
将授权转换为 SpEL
表达式,检查授权是否通过,就是看执行 SpEL
表达式的结果是否为 true
,这里的细节还有很多,详细内容还是参考 官方文档 吧。