Spring Security系列之授权过程(七)

栏目: Java · 发布时间: 6年前

内容简介:本文是接上一章使用debug方式启动https://github.com/longfeizheng/logback该项目,浏览器输入http://localhost:8080/persons,用户名随意,密码123456即可;如图所示,显示了登录认证过程中的
Spring Security系列之授权过程(七)

前言

本文是接上一章 Spring Security系列之认证过程(六) 进一步分析Spring Security用户名密码登录授权是如何实现得;

类图

Spring Security系列之授权过程(七)

调试过程

使用debug方式启动https://github.com/longfeizheng/logback该项目,浏览器输入http://localhost:8080/persons,用户名随意,密码123456即可;

源码分析

如图所示,显示了登录认证过程中的 filters 相关的调用流程,将几个自认为重要的 filters 标注了出来,

Spring Security系列之授权过程(七)
从图中可以看出执行的顺序。来看看几个作者认为比较重要的 Filter 的处理逻辑, UsernamePasswordAuthenticationFilterAnonymousAuthenticationFilterExceptionTranslationFilterFilterSecurityInterceptor

以及相关的处理流程如下所述;

UsernamePasswordAuthenticationFilter

整个调用流程是,先调用其父类 AbstractAuthenticationProcessingFilter.doFilter() 方法,然后再执行 UsernamePasswordAuthenticationFilter.attemptAuthentication() 方法进行验证;

AbstractAuthenticationProcessingFilter

public void doFilter(ServletRequest req, ServletResponse res, FilterChain chain)
			throws IOException, ServletException {

		HttpServletRequest request = (HttpServletRequest) req;
		HttpServletResponse response = (HttpServletResponse) res;
		#1.判断当前的filter是否可以处理当前请求,不可以的话则交给下一个filter处理
		if (!requiresAuthentication(request, response)) {
			chain.doFilter(request, response);

			return;
		}

		if (logger.isDebugEnabled()) {
			logger.debug("Request is to process authentication");
		}

		Authentication authResult;

		try {
			#2.抽象方法由子类UsernamePasswordAuthenticationFilter实现
			authResult = attemptAuthentication(request, response);
			if (authResult == null) {
				// return immediately as subclass has indicated that it hasn't completed
				// authentication
				return;
			}
			#2.认证成功后,处理一些与session相关的方法 
			sessionStrategy.onAuthentication(authResult, request, response);
		}
		catch (InternalAuthenticationServiceException failed) {
			logger.error(
					"An internal error occurred while trying to authenticate the user.",
					failed);
			#3.认证失败后的的一些操作
			unsuccessfulAuthentication(request, response, failed);

			return;
		}
		catch (AuthenticationException failed) {
			// Authentication failed
			unsuccessfulAuthentication(request, response, failed);

			return;
		}

		// Authentication success
		if (continueChainBeforeSuccessfulAuthentication) {
			chain.doFilter(request, response);
		}
		#3. 认证成功后的相关回调方法 主要将当前的认证放到SecurityContextHolder中
		successfulAuthentication(request, response, chain, authResult);
	}
复制代码

整个程序的执行流程如下:

  1. 判断filter是否可以处理当前的请求,如果不可以则放行交给下一个filter
  2. 调用抽象方法attemptAuthentication进行验证,该方法由子类UsernamePasswordAuthenticationFilter实现
  3. 认证成功以后,回调一些与 session 相关的方法;
  4. 认证成功以后,认证成功后的相关回调方法;认证成功以后,认证成功后的相关回调方法;
    protected void successfulAuthentication(HttpServletRequest request,
             HttpServletResponse response, FilterChain chain, Authentication authResult)
             throws IOException, ServletException {
    
         if (logger.isDebugEnabled()) {
             logger.debug("Authentication success. Updating SecurityContextHolder to contain: "
                     + authResult);
         }
    
         SecurityContextHolder.getContext().setAuthentication(authResult);
    
         rememberMeServices.loginSuccess(request, response, authResult);
    
         // Fire event
         if (this.eventPublisher != null) {
             eventPublisher.publishEvent(new InteractiveAuthenticationSuccessEvent(
                     authResult, this.getClass()));
         }
    
         successHandler.onAuthenticationSuccess(request, response, authResult);
     }
    复制代码
    1. 将当前认证成功的 Authentication 放置到 SecurityContextHolder 中;
    2. 将当前认证成功的 Authentication 放置到 SecurityContextHolder 中;
    3. 调用其它可扩展的 handlers 继续处理该认证成功以后的回调事件;(实现AuthenticationSuccessHandler接口即可)

UsernamePasswordAuthenticationFilter

public Authentication attemptAuthentication(HttpServletRequest request,
			HttpServletResponse response) throws AuthenticationException {
		#1.判断请求的方法必须为POST请求
		if (postOnly && !request.getMethod().equals("POST")) {
			throw new AuthenticationServiceException(
					"Authentication method not supported: " + request.getMethod());
		}
		#2.从request中获取username和password
		String username = obtainUsername(request);
		String password = obtainPassword(request);

		if (username == null) {
			username = "";
		}

		if (password == null) {
			password = "";
		}

		username = username.trim();
		#3.构建UsernamePasswordAuthenticationToken(两个参数的构造方法setAuthenticated(false))
		UsernamePasswordAuthenticationToken authRequest = new UsernamePasswordAuthenticationToken(
				username, password);

		// Allow subclasses to set the "details" property
		setDetails(request, authRequest);
		#4. 调用 AuthenticationManager 进行验证(子类ProviderManager遍历所有的AuthenticationProvider认证)
		return this.getAuthenticationManager().authenticate(authRequest);
	}
复制代码
  1. 认证请求的方法必须为POST
  2. 从request中获取 username 和 password
  3. 封装Authenticaiton的实现类UsernamePasswordAuthenticationToken,(UsernamePasswordAuthenticationToken调用两个参数的构造方法setAuthenticated(false))
  4. 调用 AuthenticationManager 的 authenticate 方法进行验证;可参考ProviderManager部分;

AnonymousAuthenticationFilter

从上图中过滤器的执行顺序图中可以看出 AnonymousAuthenticationFilter 过滤器是在 UsernamePasswordAuthenticationFilter 等过滤器之后,如果它前面的过滤器都没有认证成功,Spring Security则为当前的 SecurityContextHolder 中添加一个 Authenticaiton 的匿名实现类 AnonymousAuthenticationToken ;

public void doFilter(ServletRequest req, ServletResponse res, FilterChain chain)
			throws IOException, ServletException {
		#1.如果前面的过滤器都没认证通过,则SecurityContextHolder中Authentication为空
		if (SecurityContextHolder.getContext().getAuthentication() == null) {
			#2.为当前的SecurityContextHolder中添加一个匿名的AnonymousAuthenticationToken
			SecurityContextHolder.getContext().setAuthentication(
					createAuthentication((HttpServletRequest) req));

			if (logger.isDebugEnabled()) {
				logger.debug("Populated SecurityContextHolder with anonymous token: '"
						+ SecurityContextHolder.getContext().getAuthentication() + "'");
			}
		}
		else {
			if (logger.isDebugEnabled()) {
				logger.debug("SecurityContextHolder not populated with anonymous token, as it already contained: '"
						+ SecurityContextHolder.getContext().getAuthentication() + "'");
			}
		}

		chain.doFilter(req, res);
	}

	#3.创建匿名的AnonymousAuthenticationToken
	protected Authentication createAuthentication(HttpServletRequest request) {
		AnonymousAuthenticationToken auth = new AnonymousAuthenticationToken(key,
				principal, authorities);
		auth.setDetails(authenticationDetailsSource.buildDetails(request));

		return auth;
	}
	
		/**
	 * Creates a filter with a principal named "anonymousUser" and the single authority
	 * "ROLE_ANONYMOUS".
	 *
	 * @param key the key to identify tokens created by this filter
	 */
	 ##.创建一个用户名为anonymousUser 授权为ROLE_ANONYMOUS
	public AnonymousAuthenticationFilter(String key) {
		this(key, "anonymousUser", AuthorityUtils.createAuthorityList("ROLE_ANONYMOUS"));
	}
复制代码
  1. 判断 SecurityContextHolderAuthentication 为否为空;
  2. 如果空则为当前的 SecurityContextHolder 中添加一个匿名的 AnonymousAuthenticationToken (用户名为 anonymousUser 的AnonymousAuthenticationToken)

ExceptionTranslationFilter

ExceptionTranslationFilter 异常处理过滤器,该过滤器用来处理在系统认证授权过程中抛出的异常(也就是下一个过滤器 FilterSecurityInterceptor ),主要是处理 AuthenticationExceptionAccessDeniedException

public void doFilter(ServletRequest req, ServletResponse res, FilterChain chain)
			throws IOException, ServletException {
		HttpServletRequest request = (HttpServletRequest) req;
		HttpServletResponse response = (HttpServletResponse) res;

		try {
			chain.doFilter(request, response);

			logger.debug("Chain processed normally");
		}
		catch (IOException ex) {
			throw ex;
		}
		catch (Exception ex) {
			// Try to extract a SpringSecurityException from the stacktrace
			#.判断是不是AuthenticationException
			Throwable[] causeChain = throwableAnalyzer.determineCauseChain(ex);
			RuntimeException ase = (AuthenticationException) throwableAnalyzer
					.getFirstThrowableOfType(AuthenticationException.class, causeChain);

			if (ase == null) {
				#. 判断是不是AccessDeniedException
				ase = (AccessDeniedException) throwableAnalyzer.getFirstThrowableOfType(
						AccessDeniedException.class, causeChain);
			}

			if (ase != null) {
				handleSpringSecurityException(request, response, chain, ase);
			}
			else {
				// Rethrow ServletExceptions and RuntimeExceptions as-is
				if (ex instanceof ServletException) {
					throw (ServletException) ex;
				}
				else if (ex instanceof RuntimeException) {
					throw (RuntimeException) ex;
				}

				// Wrap other Exceptions. This shouldn't actually happen
				// as we've already covered all the possibilities for doFilter
				throw new RuntimeException(ex);
			}
		}
	}
复制代码

FilterSecurityInterceptor

此过滤器为认证授权过滤器链中最后一个过滤器,该过滤器之后就是请求真正的 /persons 服务

public void doFilter(ServletRequest request, ServletResponse response,
			FilterChain chain) throws IOException, ServletException {
		FilterInvocation fi = new FilterInvocation(request, response, chain);
		invoke(fi);
	}

public void invoke(FilterInvocation fi) throws IOException, ServletException {
		if ((fi.getRequest() != null)
				&& (fi.getRequest().getAttribute(FILTER_APPLIED) != null)
				&& observeOncePerRequest) {
			// filter already applied to this request and user wants us to observe
			// once-per-request handling, so don't re-do security checking
			fi.getChain().doFilter(fi.getRequest(), fi.getResponse());
		}
		else {
			// first time this request being called, so perform security checking
			if (fi.getRequest() != null) {
				fi.getRequest().setAttribute(FILTER_APPLIED, Boolean.TRUE);
			}
			#1. before invocation重要
			InterceptorStatusToken token = super.beforeInvocation(fi);

			try {
				#2. 可以理解开始请求真正的 /persons 服务
				fi.getChain().doFilter(fi.getRequest(), fi.getResponse());
			}
			finally {
				super.finallyInvocation(token);
			}
			#3. after Invocation
			super.afterInvocation(token, null);
		}
	}
复制代码
  1. before invocation重要
  2. 请求真正的 /persons 服务
  3. after Invocation

三个部分中,最重要的是 #1,该过程中会调用 AccessDecisionManager 来验证当前已认证成功的用户是否有权限访问该资源;

AccessDecisionManager: beforeInvocation

protected InterceptorStatusToken beforeInvocation(Object object) {
		...

		Collection<ConfigAttribute> attributes = this.obtainSecurityMetadataSource()
				.getAttributes(object);

		...
		Authentication authenticated = authenticateIfRequired();

		// Attempt authorization
		try {
			#1.重点
			this.accessDecisionManager.decide(authenticated, object, attributes);
		}
		catch (AccessDeniedException accessDeniedException) {
			publishEvent(new AuthorizationFailureEvent(object, attributes, authenticated,accessDeniedException));

			throw accessDeniedException;
		}

		...
	}
复制代码

authenticated 就是当前认证的 Authentication ,那么object 和attributes又是什么呢?

attributes和object 是什么?

Collection<ConfigAttribute> attributes = this.obtainSecurityMetadataSource()
				.getAttributes(object);
复制代码

调试

Spring Security系列之授权过程(七)
我们发现 object 为当前请求的 url:/persons , 那么 getAttributes

方法就是使用当前的访问资源路径去匹配我们自己定义的匹配规则。

protected void configure(HttpSecurity http) throws Exception {
        http.formLogin()//使用表单登录,不再使用默认httpBasic方式
                .loginPage(SecurityConstants.DEFAULT_UNAUTHENTICATION_URL)//如果请求的URL需要认证则跳转的URL
                .loginProcessingUrl(SecurityConstants.DEFAULT_SIGN_IN_PROCESSING_URL_FORM)//处理表单中自定义的登录URL
                .and()
                .authorizeRequests().antMatchers(SecurityConstants.DEFAULT_UNAUTHENTICATION_URL,
                SecurityConstants.DEFAULT_SIGN_IN_PROCESSING_URL_FORM,
                SecurityConstants.DEFAULT_REGISTER_URL,
                "/**/*.js",
                "/**/*.css",
                "/**/*.jpg",
                "/**/*.png",
                "/**/*.woff2")
                .permitAll()//以上的请求都不需要认证
                .anyRequest()//剩下的请求
                .authenticated()//都需要认证
                .and()
                .csrf().disable()//关闭csrd拦截
        ;
    }
复制代码

0-7 返回 permitALL 即不需要认证 , 8 对应 anyRequest 返回 authenticated 即当前请求需要认证;

Spring Security系列之授权过程(七)
可以看到当前的 authenticated 为匿名 AnonymousAuthentication 用户名为 anonymousUser

AccessDecisionManager 是如何授权的?

Spring Security默认使用 AffirmativeBased 实现 AccessDecisionManagerdecide 方法来实现授权

public void decide(Authentication authentication, Object object,
			Collection<ConfigAttribute> configAttributes) throws AccessDeniedException {
		int deny = 0;
		#1.调用AccessDecisionVoter 进行vote(投票)
		for (AccessDecisionVoter voter : getDecisionVoters()) {
			int result = voter.vote(authentication, object, configAttributes);

			if (logger.isDebugEnabled()) {
				logger.debug("Voter: " + voter + ", returned: " + result);
			}

			switch (result) {
			#1.1只要有voter投票为ACCESS_GRANTED,则通过 直接返回
			case AccessDecisionVoter.ACCESS_GRANTED://1
				return;
			@#1.2只要有voter投票为ACCESS_DENIED,则记录一下
			case AccessDecisionVoter.ACCESS_DENIED://-1
				deny++;

				break;

			default:
				break;
			}
		}

		if (deny > 0) {
		#2.如果有两个及以上AccessDecisionVoter(姑且称之为投票者吧)都投ACCESS_DENIED,则直接就不通过了
			throw new AccessDeniedException(messages.getMessage(
					"AbstractAccessDecisionManager.accessDenied", "Access is denied"));
		}

		// To get this far, every AccessDecisionVoter abstained
		checkAllowIfAllAbstainDecisions();
	}
复制代码
  1. 调用AccessDecisionVoter 进行vote(投票)
  2. 只要有投通过(ACCESS_GRANTED)票,则直接判为通过。
  3. 如果没有投通过则 deny++ ,最后判断if(deny>0 抛出AccessDeniedException(未授权)

WebExpressionVoter.vote()

public int vote(Authentication authentication, FilterInvocation fi,
			Collection<ConfigAttribute> attributes) {
		assert authentication != null;
		assert fi != null;
		assert attributes != null;

		WebExpressionConfigAttribute weca = findConfigAttribute(attributes);

		if (weca == null) {
			return ACCESS_ABSTAIN;
		}

		EvaluationContext ctx = expressionHandler.createEvaluationContext(authentication,
				fi);
		ctx = weca.postProcess(ctx, fi);

		return ExpressionUtils.evaluateAsBoolean(weca.getAuthorizeExpression(), ctx) ? ACCESS_GRANTED
				: ACCESS_DENIED;
	}
复制代码

到此位置 authentication 当前用户信息, fl 当前访问的资源路径及 attributes 当前资源路径的决策(即是否需要认证)。剩下就是判断当前用户的角色 Authentication.authorites 是否权限访问决策访问当前资源fi。


以上所述就是小编给大家介绍的《Spring Security系列之授权过程(七)》,希望对大家有所帮助,如果大家有任何疑问请给我留言,小编会及时回复大家的。在此也非常感谢大家对 码农网 的支持!

查看所有标签

猜你喜欢:

本站部分资源来源于网络,本站转载出于传递更多信息之目的,版权归原作者或者来源机构所有,如转载稿涉及版权问题,请联系我们

链接

链接

[美] 巴拉巴西 / 徐彬 / 湖南科技出版社 / 2007-04-01 / 28.00

从鸡尾酒会到恐怖分子的巢穴,从远古的细菌到国际组织——所有这一切各自都是一种网络,都是一个令人惊讶的科学革新的一部分。21世纪初,有科学家发现,网络具有深层的秩序,依据简单而强有力的规则运行。这一领域的知识帮助我们了解时尚、病毒等的传播机制,了解生态系统的稳健性,以及经济体系的脆弱性——甚至是民主的未来。 一位致力于研究“链接和节点”的科学家将首次带领我们领略网络革新的内幕。在本书中,作者生......一起来看看 《链接》 这本书的介绍吧!

MD5 加密
MD5 加密

MD5 加密工具

SHA 加密
SHA 加密

SHA 加密工具

XML 在线格式化
XML 在线格式化

在线 XML 格式化压缩工具