SpringSecurity原理是什么-创新互联
这篇文章主要介绍Spring Security原理是什么,文中介绍的非常详细,具有一定的参考价值,感兴趣的小伙伴们一定要看完!
创新互联建站公司2013年成立,先为平坝等服务建站,平坝等地企业,进行企业商务咨询服务。为平坝企业网站制作PC+手机+微官网三网同步一站式服务解决您的所有建站问题。知彼知己方能百战百胜,用 Spring Security 来满足我们的需求最好了解其原理,这样才能随意拓展,本篇文章主要记录 Spring Security 的基本运行流程。
过滤器
Spring Security 基本都是通过过滤器来完成配置的身份认证、权限认证以及登出。
Spring Security 在 Servlet 的过滤链(filter chain)中注册了一个过滤器 FilterChainProxy,它会把请求代理到 Spring Security 自己维护的多个过滤链,每个过滤链会匹配一些 URL,如果匹配则执行对应的过滤器。过滤链是有顺序的,一个请求只会执行第一条匹配的过滤链。Spring Security 的配置本质上就是新增、删除、修改过滤器。
默认情况下系统帮我们注入的这 15 个过滤器,分别对应配置不同的需求。接下来我们重点是分析下 UsernamePasswordAuthenticationFilter 这个过滤器,他是用来使用用户名和密码登录认证的过滤器,但是很多情况下我们的登录不止是简单的用户名和密码,又可能是用到第三方授权登录,这个时候我们就需要使用自定义过滤器,当然这里不做详细说明,只是说下自定义过滤器怎么注入。
@Override protected void configure(HttpSecurity http) throws Exception { http.addFilterAfter(...); ... }身份认证流程
在开始身份认证流程之前我们需要了解下几个基本概念
- SecurityContextHolder
SecurityContextHolder 存储 SecurityContext 对象。SecurityContextHolder 是一个存储代理,有三种存储模式分别是:
- MODE_THREADLOCAL:SecurityContext 存储在线程中。
- MODE_INHERITABLETHREADLOCAL:SecurityContext 存储在线程中,但子线程可以获取到父线程中的 SecurityContext。
- MODE_GLOBAL:SecurityContext 在所有线程中都相同。
SecurityContextHolder 默认使用 MODE_THREADLOCAL 模式,SecurityContext 存储在当前线程中。调用 SecurityContextHolder 时不需要显示的参数传递,在当前线程中可以直接获取到 SecurityContextHolder 对象。
SecurityContext context = SecurityContextHolder.getContext(); Authentication authentication = context.getAuthentication();2.Authentication
Authentication 即验证,表明当前用户是谁。什么是验证,比如一组用户名和密码就是验证,当然错误的用户名和密码也是验证,只不过 Spring Security 会校验失败。
Authentication 接口
public interface Authentication extends Principal, Serializable { //获取用户权限,一般情况下获取到的是用户的角色信息 Collection extends GrantedAuthority> getAuthorities(); //获取证明用户认证的信息,通常情况下获取到的是密码等信息,不过登录成功就会被移除 Object getCredentials(); //获取用户的额外信息,比如 IP 地址、经纬度等 Object getDetails(); //获取用户身份信息,在未认证的情况下获取到的是用户名,在已认证的情况下获取到的是 UserDetails (暂时理解为,当前应用用户对象的扩展) Object getPrincipal(); //获取当前 Authentication 是否已认证 boolean isAuthenticated(); //设置当前 Authentication 是否已认证 void setAuthenticated(boolean isAuthenticated); }3.AuthenticationManager ProviderManager AuthenticationProvider
其实这三者很好区分,AuthenticationManager 主要就是为了完成身份认证流程,ProviderManager 是 AuthenticationManager 接口的具体实现类,ProviderManager 里面有个记录 AuthenticationProvider 对象的集合属性 providers,AuthenticationProvider 接口类里有两个方法
public interface AuthenticationProvider { //实现具体的身份认证逻辑,认证失败抛出对应的异常 Authentication authenticate(Authentication authentication) throws AuthenticationException; //该认证类是否支持该 Authentication 的认证 boolean supports(Class> authentication); }
接下来就是遍历 ProviderManager 里面的 providers 集合,找到和合适的 AuthenticationProvider 完成身份认证。
4.UserDetailsService UserDetails
在 UserDetailsService 接口中只有一个简单的方法
public interface UserDetailsService { //根据用户名查到对应的 UserDetails 对象 UserDetails loadUserByUsername(String username) throws UsernameNotFoundException; }5.流程
对于上面概念有什么不明白的地方,在们在接下来的流程中慢慢分析
在运行到 UsernamePasswordAuthenticationFilter 过滤器的时候首先是进入其父类AbstractAuthenticationProcessingFilter的 doFilter() 方法中
public void doFilter(ServletRequest req, ServletResponse res, FilterChain chain) throws IOException, ServletException { ... //首先配对是不是配置的身份认证的URI,是则执行下面的认证,不是则跳过 if (!requiresAuthentication(request, response)) { chain.doFilter(request, response); return; } ... Authentication authResult; try { //关键方法, 实现认证逻辑并返回 Authentication, 由其子类 UsernamePasswordAuthenticationFilter 实现, 由下面 5.3 详解 authResult = attemptAuthentication(request, response); if (authResult == null) { // return immediately as subclass has indicated that it hasn't completed // authentication return; } sessionStrategy.onAuthentication(authResult, request, response); } catch (InternalAuthenticationServiceException failed) { //认证失败调用...由下面 5.1 详解 unsuccessfulAuthentication(request, response, failed); return; } catch (AuthenticationException failed) { //认证失败调用...由下面 5.1 详解 unsuccessfulAuthentication(request, response, failed); return; } // Authentication success if (continueChainBeforeSuccessfulAuthentication) { chain.doFilter(request, response); } //认证成功调用...由下面 5.2 详解 successfulAuthentication(request, response, chain, authResult); }5.1 认证失败处理逻辑
protected void unsuccessfulAuthentication(HttpServletRequest request, HttpServletResponse response, AuthenticationException failed) throws IOException, ServletException { SecurityContextHolder.clearContext(); ... rememberMeServices.loginFail(request, response); //该 handler 处理失败界面跳转和响应逻辑 failureHandler.onAuthenticationFailure(request, response, failed); }
这里默认配置的失败处理 handler 是 SimpleUrlAuthenticationFailureHandler,可自定义。
public class SimpleUrlAuthenticationFailureHandler implements AuthenticationFailureHandler { ... public void onAuthenticationFailure(HttpServletRequest request, HttpServletResponse response, AuthenticationException exception) throws IOException, ServletException { //没有配置失败跳转的URL则直接响应错误 if (defaultFailureUrl == null) { logger.debug("No failure URL set, sending 401 Unauthorized error"); response.sendError(HttpStatus.UNAUTHORIZED.value(), HttpStatus.UNAUTHORIZED.getReasonPhrase()); } else { //否则 //缓存异常 saveException(request, exception); //根据配置的异常页面是重定向还是转发进行不同方式跳转 if (forwardToDestination) { logger.debug("Forwarding to " + defaultFailureUrl); request.getRequestDispatcher(defaultFailureUrl) .forward(request, response); } else { logger.debug("Redirecting to " + defaultFailureUrl); redirectStrategy.sendRedirect(request, response, defaultFailureUrl); } } } //缓存异常,转发则保存在request里面,重定向则保存在session里面 protected final void saveException(HttpServletRequest request, AuthenticationException exception) { if (forwardToDestination) { request.setAttribute(WebAttributes.AUTHENTICATION_EXCEPTION, exception); } else { HttpSession session = request.getSession(false); if (session != null || allowSessionCreation) { request.getSession().setAttribute(WebAttributes.AUTHENTICATION_EXCEPTION, exception); } } } }
这里做下小拓展:用系统的错误处理handler,指定认证失败跳转的URL,在MVC里面对应的URL方法里面可以通过key从request或session里面拿到错误信息,反馈给前端
5.2 认证成功处理逻辑protected void successfulAuthentication(HttpServletRequest request, HttpServletResponse response, FilterChain chain, Authentication authResult) throws IOException, ServletException { ... //这里要注意很重要,将认证完成返回的 Authentication 保存到线程对应的 `SecurityContext` 中 SecurityContextHolder.getContext().setAuthentication(authResult); rememberMeServices.loginSuccess(request, response, authResult); // Fire event if (this.eventPublisher != null) { eventPublisher.publishEvent(new InteractiveAuthenticationSuccessEvent( authResult, this.getClass())); } //该 handler 就是为了完成页面跳转 successHandler.onAuthenticationSuccess(request, response, authResult); }
这里默认配置的成功处理 handler 是 SavedRequestAwareAuthenticationSuccessHandler,里面的代码就不做具体展开了,反正是跳转到指定的认证成功之后的界面,可自定义。
5.3 身份认证详情public class UsernamePasswordAuthenticationFilter extends AbstractAuthenticationProcessingFilter { ... public static final String SPRING_SECURITY_FORM_USERNAME_KEY = "username"; public static final String SPRING_SECURITY_FORM_PASSWORD_KEY = "password"; private String usernameParameter = SPRING_SECURITY_FORM_USERNAME_KEY; private String passwordParameter = SPRING_SECURITY_FORM_PASSWORD_KEY; private boolean postOnly = true; ... //开始身份认证逻辑 public Authentication attemptAuthentication(HttpServletRequest request, HttpServletResponse response) throws AuthenticationException { if (postOnly && !request.getMethod().equals("POST")) { throw new AuthenticationServiceException( "Authentication method not supported: " + request.getMethod()); } String username = obtainUsername(request); String password = obtainPassword(request); if (username == null) { username = ""; } if (password == null) { password = ""; } username = username.trim(); //先用前端提交过来的 username 和 password 封装一个简易的 AuthenticationToken UsernamePasswordAuthenticationToken authRequest = new UsernamePasswordAuthenticationToken( username, password); // Allow subclasses to set the "details" property setDetails(request, authRequest); //具体的认证逻辑还是交给 AuthenticationManager 对象的 authenticate(..) 方法完成,接着往下看 return this.getAuthenticationManager().authenticate(authRequest); } }
由源码断点跟踪得知,最终解析是由 AuthenticationManager 接口实现类 ProviderManager 来完成
public class ProviderManager implements AuthenticationManager, MessageSourceAware, InitializingBean { ... private Listproviders = Collections.emptyList(); ... public Authentication authenticate(Authentication authentication) throws AuthenticationException { .... //遍历所有的 AuthenticationProvider, 找到合适的完成身份验证 for (AuthenticationProvider provider : getProviders()) { if (!provider.supports(toTest)) { continue; } ... try { //进行具体的身份验证逻辑, 这里使用到的是 DaoAuthenticationProvider, 具体逻辑记着往下看 result = provider.authenticate(authentication); if (result != null) { copyDetails(authentication, result); break; } } catch ... } ... throw lastException; } }
DaoAuthenticationProvider
继承自 AbstractUserDetailsAuthenticationProvider
实现了 AuthenticationProvider
接口
public abstract class AbstractUserDetailsAuthenticationProvider implements AuthenticationProvider, InitializingBean, MessageSourceAware { ... private UserDetailsChecker preAuthenticationChecks = new DefaultPreAuthenticationChecks(); private UserDetailsChecker postAuthenticationChecks = new DefaultPostAuthenticationChecks(); ... public Authentication authenticate(Authentication authentication) throws AuthenticationException { ... // 获得提交过来的用户名 String username = (authentication.getPrincipal() == null) ? "NONE_PROVIDED" : authentication.getName(); //根据用户名从缓存中查找 UserDetails boolean cacheWasUsed = true; UserDetails user = this.userCache.getUserFromCache(username); if (user == null) { cacheWasUsed = false; try { //缓存中没有则通过 retrieveUser(..) 方法查找 (看下面 DaoAuthenticationProvider 的实现) user = retrieveUser(username, (UsernamePasswordAuthenticationToken) authentication); } catch ... } try { //比对前的检查,例如账户以一些状态信息(是否锁定, 过期...) preAuthenticationChecks.check(user); //子类实现比对规则 (看下面 DaoAuthenticationProvider 的实现) additionalAuthenticationChecks(user, (UsernamePasswordAuthenticationToken) authentication); } catch (AuthenticationException exception) { if (cacheWasUsed) { // There was a problem, so try again after checking // we're using latest data (i.e. not from the cache) cacheWasUsed = false; user = retrieveUser(username, (UsernamePasswordAuthenticationToken) authentication); preAuthenticationChecks.check(user); additionalAuthenticationChecks(user, (UsernamePasswordAuthenticationToken) authentication); } else { throw exception; } } postAuthenticationChecks.check(user); if (!cacheWasUsed) { this.userCache.putUserInCache(user); } Object principalToReturn = user; if (forcePrincipalAsString) { principalToReturn = user.getUsername(); } //根据最终user的一些信息重新生成具体详细的 Authentication 对象并返回 return createSuccessAuthentication(principalToReturn, authentication, user); } //具体生成还是看子类实现 protected Authentication createSuccessAuthentication(Object principal, Authentication authentication, UserDetails user) { // Ensure we return the original credentials the user supplied, // so subsequent attempts are successful even with encoded passwords. // Also ensure we return the original getDetails(), so that future // authentication events after cache expiry contain the details UsernamePasswordAuthenticationToken result = new UsernamePasswordAuthenticationToken( principal, authentication.getCredentials(), authoritiesMapper.mapAuthorities(user.getAuthorities())); result.setDetails(authentication.getDetails()); return result; } }
接下来我们来看下 DaoAuthenticationProvider 里面的三个重要的方法,比对方式、获取需要比对的 UserDetails 对象以及生产最终返回 Authentication 的方法。
public class DaoAuthenticationProvider extends AbstractUserDetailsAuthenticationProvider { ... //密码比对 @SuppressWarnings("deprecation") protected void additionalAuthenticationChecks(UserDetails userDetails, UsernamePasswordAuthenticationToken authentication) throws AuthenticationException { if (authentication.getCredentials() == null) { logger.debug("Authentication failed: no credentials provided"); throw new BadCredentialsException(messages.getMessage( "AbstractUserDetailsAuthenticationProvider.badCredentials", "Bad credentials")); } String presentedPassword = authentication.getCredentials().toString(); //通过 PasswordEncoder 进行密码比对, 注: 可自定义 if (!passwordEncoder.matches(presentedPassword, userDetails.getPassword())) { logger.debug("Authentication failed: password does not match stored value"); throw new BadCredentialsException(messages.getMessage( "AbstractUserDetailsAuthenticationProvider.badCredentials", "Bad credentials")); } } //通过 UserDetailsService 获取 UserDetails protected final UserDetails retrieveUser(String username, UsernamePasswordAuthenticationToken authentication) throws AuthenticationException { prepareTimingAttackProtection(); try { //通过 UserDetailsService 获取 UserDetails UserDetails loadedUser = this.getUserDetailsService().loadUserByUsername(username); if (loadedUser == null) { throw new InternalAuthenticationServiceException( "UserDetailsService returned null, which is an interface contract violation"); } return loadedUser; } catch (UsernameNotFoundException ex) { mitigateAgainstTimingAttack(authentication); throw ex; } catch (InternalAuthenticationServiceException ex) { throw ex; } catch (Exception ex) { throw new InternalAuthenticationServiceException(ex.getMessage(), ex); } } //生成身份认证通过后最终返回的 Authentication, 记录认证的身份信息 @Override protected Authentication createSuccessAuthentication(Object principal, Authentication authentication, UserDetails user) { boolean upgradeEncoding = this.userDetailsPasswordService != null && this.passwordEncoder.upgradeEncoding(user.getPassword()); if (upgradeEncoding) { String presentedPassword = authentication.getCredentials().toString(); String newPassword = this.passwordEncoder.encode(presentedPassword); user = this.userDetailsPasswordService.updatePassword(user, newPassword); } return super.createSuccessAuthentication(principal, authentication, user); } }
以上是Spring Security原理是什么的所有内容,感谢各位的阅读!希望分享的内容对大家有帮助,更多相关知识,欢迎关注创新互联行业资讯频道!
分享名称:SpringSecurity原理是什么-创新互联
网页路径:http://ybzwz.com/article/hisdp.html