Apache Shiro是Java的一个安全框架。目前,使用Apache Shiro的人越来越多,因为它相当简单,对比Spring Security,可能没有Spring Security做的功能强大,但是在实际工作时可能并不需要那么复杂的东西,所以使用小而简单的Shiro就足够了。
因为我总结的是使用SpringMVC和Apache Shiro整合,注重的是整合和使用,至于基础,我这里就不细说了。我使用的是maven进行项目的构建,对于非maven的项目只要把这些JAR包下载下来放到相应的位置即可。因为这个项目是整合Spring的,所以除了Apache shiro的JAR之外,我们还需要shiro-web和shiro-spring的的JAR,下面是所需要的所有shiro架包,至于其他的架包,像缓存的架包,Spring和SpringMVC的架包等等还是平时那些通用JAR,没有多余的。
<dependency>
<groupId>org.apache.shiro</groupId>
<artifactId>shiro-core</artifactId>
<version>1.2.3</version>
</dependency>
<dependency>
<groupId>org.apache.shiro</groupId>
<artifactId>shiro-ehcache</artifactId>
<version>1.2.3</version>
</dependency>
<dependency>
<groupId>org.apache.shiro</groupId>
<artifactId>shiro-web</artifactId>
<version>1.2.3</version>
</dependency>
<dependency>
<groupId>org.apache.shiro</groupId>
<artifactId>shiro-spring</artifactId>
<version>1.2.3</version>
</dependency>
将JAR都准备好了之后,我们就可以开始正式搭建了。下面就分步骤来创建
1.
一:首先创建spring的配置文件,位置都在resource中(非maven的项目可以放到classpath或者是WEB-INF下面,只要保证最后编译之后能在classpath下即可),配置文件为spring-context.xml.
二:创建Apache Shiro的配置文件,名字是spring-context-shiro.xml,我们只需要和spring的配置文件放在同一级就可以了。
三:还有一个配置文件是springmvc的,配置文件是spring-mvc。前面两个文件都是以spring-context*开头是有原因的,因为这样我们就可以在web.xml中设置配置文件的时候,直接使用通配符扫描前两个但是又可以不扫描springmvc的配置文件
这是在web.xml里面配置:
<!-- 配置spring容器的路径 -->
<context-param>
<param-name>contextConfigLocation</param-name>
<param-value>classpath*:/spring-context-*.xml</param-value>
</context-param>
<!-- 对spring开始监听 -->
<listener>
<listener-class>org.springframework.web.context.ContextLoaderListener</listener-class>
</listener>
除了spring的配置,还有一个配置是非常重要的:shiroFilter。对于初次配置shiro的同学经常遇到一个问题:问题大概讲的是shiroFilter找不到,但是我们明明在web.xml和spring-context-shiro配置文件里面配置了呀,怎么回事?这是因为这个shiroFilter名字两边需要一致!!!(是不是很坑,但是其实是可以配置的,只是一般人不知道,这个后面讲)
<filter>
<filter-name>shiroFilter</filter-name>
<filter-class>org.springframework.web.filter.DelegatingFilterProxy</filter-class>
</filter>
<filter-mapping>
<filter-name>shiroFilter</filter-name>
<url-pattern>/*</url-pattern>
</filter-mapping>
3.
除了在web.xml中设置spring和spring-shiro配置文件位置之外,我们还需要在web.xml中设置spring-mvc的位置:
<!-- MVC Servlet
设置springmvc的Servlet
-->
<servlet>
<servlet-name>springServlet</servlet-name>
<servlet-class>org.springframework.web.servlet.DispatcherServlet</servlet-class>
<init-param>
<param-name>contextConfigLocation</param-name>
<param-value>classpath:springmvc.xml</param-value>
</init-param>
<load-on-startup>1</load-on-startup>
</servlet>
<servlet-mapping>
<servlet-name>springServlet</servlet-name>
<url-pattern>/</url-pattern>
</servlet-mapping>
4
在spring-context配置文件中,还有一个是需要配置-cacheManager,因为shiro的session是自己实现的,所以我们还需要一个缓存框架,所以在spring的配置文件一定要注意配置哦,用的是ehcache
<!-- 缓存 -->
<bean id="cacheManager" class="org.springframework.cache.ehcache.EhCacheManagerFactoryBean">
<property name="configLocation" value="classpath:${ehcache.file}"></property>
</bean>
Ehcache的maven地址:
<dependency>
<groupId>net.sf.ehcache</groupId>
<artifactId>ehcache-core</artifactId>
<version>2.6.9</version>
</dependency>
<dependency>
<groupId>org.apache.shiro</groupId>
<artifactId>shiro-ehcache</artifactId>
<version>1.2.3</version>
</dependency>
5
在项目中重点还是配置spring-context-shiro.xml:先把配置的贴出来,然后讲一下这几个配置的意义:
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:context="http://www.springframework.org/schema/context" xsi:schemaLocation="
http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-4.0.xsd
http://www.springframework.org/schema/context http://www.springframework.org/schema/context/spring-context-4.0.xsd"
default-lazy-init="true"> <description>Shiro Configuration</description> <!-- 加载配置属性文件 -->
<context:property-placeholder ignore-unresolvable="true" location="classpath:yonyou.properties" /> <!-- Shiro权限过滤过滤器定义 -->
<bean name="shiroFilterChainDefinitions" class="java.lang.String">
<constructor-arg>
<value>
/static/** = anon
/userfiles/** = anon
${adminPath}/login = authc
${adminPath}/logout = logout
${adminPath}/** = user
</value>
</constructor-arg>
</bean> <!-- 安全认证过滤器 -->
<bean id="shiroFilter" class="org.apache.shiro.spring.web.ShiroFilterFactoryBean">
<property name="securityManager" ref="securityManager" /><!--
<property name="loginUrl" value="${adminPath}/login" />
<property name="successUrl" value="${adminPath}?login" />
<property name="filters">
<map>
<entry key="cas" value-ref="casFilter"/>
<entry key="authc" value-ref="formAuthenticationFilter"/>
</map>
</property>
<property name="filterChainDefinitions">
<ref bean="shiroFilterChainDefinitions"/>
</property>
</bean> <!-- 定义Shiro安全管理配置 -->
<bean id="securityManager" class="org.apache.shiro.web.mgt.DefaultWebSecurityManager">
<property name="realm" ref="systemAuthorizingRealm" />
<property name="sessionManager" ref="sessionManager" />
<property name="cacheManager" ref="shiroCacheManager" />
</bean> <!-- 自定义会话管理配置 -->
<bean id="sessionManager" class="com.yonyou.hotusm.common.security.session.SessionManager">
<property name="sessionDAO" ref="sessionDAO"/> <!-- 会话超时时间,单位:毫秒 -->
<property name="globalSessionTimeout" value="${session.sessionTimeout}"/> <!-- 定时清理失效会话, 清理用户直接关闭浏览器造成的孤立会话 -->
<property name="sessionValidationInterval" value="${session.sessionTimeoutClean}"/>
<!-- <property name="sessionValidationSchedulerEnabled" value="false"/> -->
<property name="sessionValidationSchedulerEnabled" value="true"/> <property name="sessionIdCookie" ref="sessionIdCookie"/>
<property name="sessionIdCookieEnabled" value="true"/>
</bean> <!-- 指定本系统SESSIONID, 默认为: JSESSIONID 问题: 与SERVLET容器名冲突, 如JETTY, TOMCAT 等默认JSESSIONID,
当跳出SHIRO SERVLET时如ERROR-PAGE容器会为JSESSIONID重新分配值导致登录会话丢失! -->
<bean id="sessionIdCookie" class="org.apache.shiro.web.servlet.SimpleCookie">
<constructor-arg name="name" value="hotusm.session.id"/>
</bean> <bean id="sessionDAO" class="com.yonyou.hotusm.common.security.session.CacheSessionDAO">
<property name="sessionIdGenerator" ref="idGen" />
<property name="activeSessionsCacheName" value="activeSessionsCache" />
<property name="cacheManager" ref="shiroCacheManager" />
</bean> <!-- 定义授权缓存管理器 -->
<!-- <bean id="shiroCacheManager" class="com.thinkgem.jeesite.common.security.shiro.cache.SessionCacheManager" /> -->
<bean id="shiroCacheManager" class="org.apache.shiro.cache.ehcache.EhCacheManager">
<property name="cacheManager" ref="cacheManager"/>
</bean> <!-- 保证实现了Shiro内部lifecycle函数的bean执行 -->
<bean id="lifecycleBeanPostProcessor" class="org.apache.shiro.spring.LifecycleBeanPostProcessor"/> <!-- AOP式方法级权限检查 -->
<bean class="org.springframework.aop.framework.autoproxy.DefaultAdvisorAutoProxyCreator" depends-on="lifecycleBeanPostProcessor">
<property name="proxyTargetClass" value="true" />
</bean>
<bean class="org.apache.shiro.spring.security.interceptor.AuthorizationAttributeSourceAdvisor">
<property name="securityManager" ref="securityManager"/>
</bean> </beans>
这里从上往下进行解释:
1.shiroFilterChainDefinitions
可以看到类型是String,String内部的各个字符串是使用"\n\t"进行换行。这里的每一行代表了一个路由,而后面的anno,user等等,也就是相对应的Filter(这块我们是可以自己定义的,后面会讲,${adminPath} 是我在配置文件里面配置的路径而已,完全可以根据自己的路由进行设置。shiroFilterChainDefinitions最主要是在shiroFilter中作为一个参数注入。
===============权限过滤器及配置释义=======================
|
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
|
anon org.apache.shiro.web.filter.authc.AnonymousFilterauthc org.apache.shiro.web.filter.authc.FormAuthenticationFilterauthcBasic org.apache.shiro.web.filter.authc.BasicHttpAuthenticationFilterperms org.apache.shiro.web.filter.authz.PermissionsAuthorizationFilterport org.apache.shiro.web.filter.authz.PortFilterrest org.apache.shiro.web.filter.authz.HttpMethodPermissionFilterroles org.apache.shiro.web.filter.authz.RolesAuthorizationFilterssl org.apache.shiro.web.filter.authz.SslFilteruser org.apache.shiro.web.filter.authc.UserFilterlogout org.apache.shiro.web.filter.authc.LogoutFilter |
anon:例子/admins/**=anon 没有参数,表示可以匿名使用。
authc:例如/admins/user/**=authc表示需要认证(登录)才能使用,没有参数
roles:例子/admins/user/**=roles[admin],参数可以写多个,多个时必须加上引号,并且参数之间用逗号分割,当有多个参数时,例如admins/user/**=roles["admin,guest"],每个参数通过才算通过,相当于hasAllRoles()方法。
perms:例子/admins/user/**=perms[user:add:*],参数可以写多个,多个时必须加上引号,并且参数之间用逗号分割,例如/admins/user/**=perms["user:add:*,user:modify:*"],当有多个参数时必须每个参数都通过才通过,想当于isPermitedAll()方法。
rest:例子/admins/user/**=rest[user],根据请求的方法,相当于/admins/user/**=perms[user:method] ,其中method为post,get,delete等。
port:例子/admins/user/**=port[8081],当请求的url的端口不是8081是跳转到schemal://serverName:8081?queryString,其中schmal是协议http或https等,serverName是你访问的host,8081是url配置里port的端口,queryString
是你访问的url里的?后面的参数。
authcBasic:例如/admins/user/**=authcBasic没有参数表示httpBasic认证
ssl:例子/admins/user/**=ssl没有参数,表示安全的url请求,协议为https
user:例如/admins/user/**=user没有参数表示必须存在用户,当登入操作时不做检查
2.重点来了:shiroFilter(ShiroFilterFactoryBean),这里要非常小心!! 这里的bean的名字一定要和web.xml里面的那个Filter名字相同,具体可以见下面的源码:
DelegatingFilterProxy.java:
@Override
protected void initFilterBean() throws ServletException {
synchronized (this.delegateMonitor) {
if (this.delegate == null) {
// If no target bean name specified, use filter name.
if (this.targetBeanName == null) {
this.targetBeanName = getFilterName();
}
// Fetch Spring root application context and initialize the delegate early,
// if possible. If the root application context will be started after this
// filter proxy, we'll have to resort to lazy initialization.
WebApplicationContext wac = findWebApplicationContext();
if (wac != null) {
this.delegate = initDelegate(wac);
}
}
}
}
还记得我们web.xml里面配置的那个Filter吗, 其实我们配置的Filter只不过是起到一个代理的作用,那么它代理谁呢? 它也不能知道,它所能做的就是根据targetBeanName去容器中获取bean(这个bean是实现了Filter接口的),其中的targetBeanName就是bean的名称,如果没有设置的话,那么就默认使用的Filter名称。所以说前面说过的必须相同是不正确的,你只需要在Filter中设置targetBeanName和spring-context-shiro配置文件中ShiroFilterFactoryBean的bean名称一样即可。
除了上面需要注意的几个点之外,ShiroFilterFactoryBean还有一些属性:unauthorizedUrl,系统未认证时跳转的页面,loginUrl登录页面,successUrl登录成功的页面,filter属性就是和前面的shiroFilterChainDefinitions对应的。同时支持自定义,并且配置路由:像<entry key="outdate" value-ref="sessionOutDateFilter"/>这样的。最底层是过滤器,下面是我实现的一个filter:
package com.yonyou.kms.common.security.shiro.session; import java.io.PrintWriter; import javax.servlet.ServletRequest;
import javax.servlet.ServletResponse;
import javax.servlet.http.HttpServletRequest;
import javax.servlet.http.HttpServletResponse; import org.apache.shiro.web.servlet.AdviceFilter; import com.yonyou.kms.modules.sys.security.SystemAuthorizingRealm.Principal;
import com.yonyou.kms.modules.sys.utils.UserUtils; /**
*
* 自定义filter
* @author Hotusm
*
*/
public class SessionOutDateFilter extends AdviceFilter{ private String redirectUrl="http://url/portal";//session 失效之后需要跳转的页面
private String platformUrl="http://url/kms/a/login";
//排除这个链接 其他的链接都会进行拦截
private String loginUrl="/kms/a/login";
private String frontUrl="cms/f";
private String uploadUrl="cms/article/plupload";
private String appUrl="a/app"; protected boolean preHandle(ServletRequest request, ServletResponse response){
Principal principal = UserUtils.getPrincipal();
HttpServletRequest req=(HttpServletRequest) request;
String uri=req.getRequestURI();
if(checkUrl(uri, loginUrl,frontUrl,uploadUrl,appUrl)|(principal!=null&&!principal.isMobileLogin())){ return true;
} try {
issueRedirect(request,response,redirectUrl);
} catch (Exception e) {
e.printStackTrace();
}
return false;
} protected void issueRedirect(ServletRequest request, ServletResponse response, String redirectUrl)
throws Exception
{ String url="<a href="+redirectUrl+" target=\"_blank\" onclick=\"custom_close()\">重新登录<a/> ";
String platform="<a href="+platformUrl+" target=\"_blank\" onclick=\"custom_close()\">直接登录<a/> "; HttpServletResponse resp=(HttpServletResponse) response;
HttpServletRequest req=(HttpServletRequest) request;
response.setContentType("text/html;charset=UTF-8");
PrintWriter out=resp.getWriter();
out.print("<script language='javascript'>");
out.print("function custom_close(){" +
"self.opener=null;" +
"self.close();}");
out.print("</script>");
out.print("没有权限或者验证信息过期,请点击"+url+"登录portal<br/>");
out.print("直接登录"+platform);
} public String getRedirectUrl() {
return redirectUrl;
} public void setRedirectUrl(String redirectUrl) {
this.redirectUrl = redirectUrl;
} public String getLoginUrl() {
return loginUrl;
} public void setLoginUrl(String loginUrl) {
this.loginUrl = loginUrl;
} /**
* 排除一些url不进行拦截
* @param targetUrl
* @param urls
* @return
*/
private boolean checkUrl(String targetUrl,String ...urls){
for(int i=0;i<urls.length;i++){
if(targetUrl.contains(urls[i])){
return true;
}
} return false;
}
}
这个和springmvc的拦截器是相同的用法,返回true则表示验证通过(后面的逻辑继续执行),返回false就表示验证不通过。
最后在shiroFilter的filters进行配置我们自定义的bean:
<property name="filters">
<map>
<entry key="outdate" value-ref="sessionOutDateFilter"/>
</map>
</property>
这个sessionOutDateFilter我们需要注入(这里省略)。最后我们就将可以将这些东西加到shiroFilterChainDefinitions中去:
<bean name="shiroFilterChainDefinitions" class="java.lang.String">
<constructor-arg>
<value>
......
${adminPath}/** = outdate
.....
</value>
</constructor-arg>
</bean>
这样我们自己定义的叫做outdata的路由会拦截${adminPath}下的所以路径,并且进行验证。
3.
SecurityManager
它和我们前面讲的ShiroFilterFactoryBean的关系形象的将就是ShiroFilterFactoryBean是一个路由规则配置仓库和代理类,其实真正的逻辑都是在SecurityManager中进行的,下面来进行详讲SecurityManager的依赖类。
一:realm:域,Shiro从从Realm获取安全数据(如用户、角色、权限),就是说SecurityManager要验证用户身份,那么它需要从Realm获取相应的用户进行比较以确定用户身份是否合法;也需要从Realm得到用户相应的角色/权限进行验证用户是否能进行操作;可以把Realm看成DataSource,即安全数据源,下面是我重写的realm:
package com.yonyou.hotusm.module.sys.security; import com.yonyou.hotusm.common.utils.Encodes;
import com.yonyou.hotusm.module.sys.dao.UserDao;
import com.yonyou.hotusm.module.sys.entity.User;
import com.yonyou.hotusm.module.sys.service.UserService;
import com.yonyou.hotusm.module.sys.util.UserUtils;
import org.apache.shiro.authc.*;
import org.apache.shiro.authc.credential.HashedCredentialsMatcher;
import org.apache.shiro.authz.AuthorizationInfo;
import org.apache.shiro.authz.SimpleAuthorizationInfo;
import org.apache.shiro.authz.UnauthenticatedException;
import org.apache.shiro.realm.AuthorizingRealm;
import org.apache.shiro.subject.PrincipalCollection;
import org.apache.shiro.util.ByteSource;
import org.springframework.beans.factory.InitializingBean;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.stereotype.Service; import java.io.Serializable; @Service("systemAuthorizingRealm")
public class SystemAuthorizingRealm extends AuthorizingRealm implements InitializingBean{ @Autowired
private UserDao userDao; @Override
protected AuthorizationInfo doGetAuthorizationInfo(
PrincipalCollection principals) {
SimpleAuthorizationInfo info=new SimpleAuthorizationInfo();
info.addStringPermission("sys:manager");
info.addStringPermission("user");
System.out.println("开始授权");
return info;
} @Override
protected AuthenticationInfo doGetAuthenticationInfo(
AuthenticationToken token) throws AuthenticationException {
UsernamePasswordToken upToken=(UsernamePasswordToken) token;
String username=upToken.getUsername();
User user=new User();
user.setLoginName(username);
user=userDao.get(user); if(user!=null){
byte[] salt = Encodes.decodeHex(user.getPassword().substring(0,16));
return new SimpleAuthenticationInfo(username,
user.getPassword().substring(16), ByteSource.Util.bytes(salt), getName());
}else{
throw new UnauthenticatedException();
}
} public static class Principal implements Serializable { private static final long serialVersionUID = 1L; private String id; // 编号
private String loginName; // 登录名
private String name; // 姓名 public Principal(User user) {
this.id = user.getId();
this.loginName = user.getLoginName();
this.name = user.getName();
} public String getId() {
return id;
} public String getLoginName() {
return loginName;
} public String getName() {
return name;
} /**
* 获取SESSIONID
*/
public String getSessionid() {
try{
return (String) UserUtils.getSession().getId();
}catch (Exception e) {
return "";
}
} @Override
public String toString() {
return id;
} }
//在bean初始化完成以后 设置校验的规则
public void afterPropertiesSet() throws Exception {
HashedCredentialsMatcher matcher = new HashedCredentialsMatcher(UserService.HASH_ALGORITHM);
matcher.setHashIterations(UserService.HASH_INTERATIONS);
setCredentialsMatcher(matcher); } }
其他的几个类在这里不是重点,重要的是看这里面的逻辑。其中最重要的是doGetAuthorizationInfo和doGetAuthenticationInfo以及afterPropertiesSet这三个方法,doGetAuthorizationInfo是对当前的用户进行授权的,至于授权的时期,就是当用户需要验证的时候(框架进行回调),我这里只是简单的写死了,但是在实际项目开发中,我们一般会将权限存放在数据表中,所以真实情况是先到数据库中查出一个集合,然后迭代授权。
doGetAuthenticationInfo对于的是对用户验证,主要的一个点在于我们最后返回的那个SimpleAuthenticationInfo,这个是加密的策略,这里的密码是密文的(根据loginName数据中取得),下面是密码的加密策略:
//为明文密码加密
public String encryptionPassword(String plainPassword){
byte[] salt = Digests.generateSalt(SALT_SIZE); //SALT_SIZE=8
byte[] hashPassword = Digests.sha1(plainPassword.getBytes(), salt, HASH_INTERATIONS); //HASH_INTERATIONS=1024
return Encodes.encodeHex(salt)+Encodes.encodeHex(hashPassword); }
我这里是生成了了16位的salt,然后用来加密明文,最后两个加起来存入到数据中。根据上面说的,所以看到我们doGetAuthenticationInfo返回的是分开的两部分。这里也需要注意,这个密码最后的校验我们做的,而是框架!我们只是提供了校验类供它回调(下面我们使用的是默认的校验类,我们也可以自定义):
//在bean初始化完成以后 设置校验的规则
public void afterPropertiesSet() throws Exception {
HashedCredentialsMatcher matcher = new HashedCredentialsMatcher(UserService.HASH_ALGORITHM);
matcher.setHashIterations(UserService.HASH_INTERATIONS);
setCredentialsMatcher(matcher);
,那么在密码进行验证的时候,就会调用HashedCredentialsMatcher的
@Override
public boolean doCredentialsMatch(AuthenticationToken token, AuthenticationInfo info) {
Object tokenHashedCredentials = hashProvidedCredentials(token, info);
Object accountCredentials = getCredentials(info);
return equals(tokenHashedCredentials, accountCredentials);
}
方法,这个Info就是我们前面方法doGetAuthenticationInfo提供的,至于另外的一个Token,后面会讲(也是一个方法提供的)。
4
下面就是讲解SessionManager,因为Shiro有自己的一套session体系,有sessionManager就不奇怪了,sessionManager主要职责是管理session的创建和删除,特别提一下,sessionManager对session的操作,其实只是调用了sessionDAO,然再加上自己的一些操作。
看源码:
public class DefaultSessionManager extends AbstractValidatingSessionManager implements CacheManagerAware {
//TODO - complete JavaDoc
private static final Logger log = LoggerFactory.getLogger(DefaultSessionManager.class);
private SessionFactory sessionFactory;
protected SessionDAO sessionDAO; //todo - move SessionDAO up to AbstractValidatingSessionManager?
private CacheManager cacheManager;
private boolean deleteInvalidSessions;
public DefaultSessionManager() {
this.deleteInvalidSessions = true;
this.sessionFactory = new SimpleSessionFactory();
this.sessionDAO = new MemorySessionDAO();
}
.......
protected void create(Session session) {
if (log.isDebugEnabled()) {
log.debug("Creating new EIS record for new session instance [" + session + "]");
}
sessionDAO.create(session);
}
这上面的源码中就知道SessionManager就是对SessionDAO进行了代理的作用。
我们就明白了sessionManager依赖sessionDAO(后面实现自己的SessionDAO需要注入到SessionManager中),下面是自己实现的sessionManager:
package com.yonyou.hotusm.common.security.session; import org.apache.shiro.session.InvalidSessionException;
import org.apache.shiro.session.Session;
import org.apache.shiro.session.UnknownSessionException;
import org.apache.shiro.session.mgt.SessionContext;
import org.apache.shiro.session.mgt.SessionKey;
import org.apache.shiro.session.mgt.SimpleSession;
import org.apache.shiro.web.servlet.Cookie;
import org.apache.shiro.web.servlet.ShiroHttpServletRequest;
import org.apache.shiro.web.servlet.SimpleCookie;
import org.apache.shiro.web.session.mgt.DefaultWebSessionManager;
import org.apache.shiro.web.util.WebUtils; import javax.servlet.ServletRequest;
import javax.servlet.ServletResponse;
import javax.servlet.http.HttpServletRequest;
import javax.servlet.http.HttpServletResponse;
import java.io.Serializable;
import java.util.Collection;
import java.util.Date; /***
*
* @author Hotusm
* v2015-11-04
*/
public class SessionManager extends DefaultWebSessionManager{ /*
*DefaultWebSessionManager 实现了DefaultSessionManager的功能 并在其上实现了web的功能
* 也就是在上面实现了将SessionId 存到了Cookie中
* */
@Override
protected Serializable getSessionId(ServletRequest request,
ServletResponse response) {
String sid=request.getParameter("_sid");
if(org.apache.commons.lang.StringUtils.isNotBlank(sid)){
if(WebUtils.isTrue(request, "_cookie")){
HttpServletRequest req=(HttpServletRequest) request;
HttpServletResponse resp=(HttpServletResponse) response;
Cookie template=getSessionIdCookie();
Cookie cookie=new SimpleCookie(template);
cookie.setValue(sid);
cookie.saveTo(req, resp);
}
request.setAttribute(ShiroHttpServletRequest.REFERENCED_SESSION_ID_SOURCE,ShiroHttpServletRequest.URL_SESSION_ID_SOURCE);
request.setAttribute(ShiroHttpServletRequest.REFERENCED_SESSION_ID, sid);
request.setAttribute(ShiroHttpServletRequest.REFERENCED_SESSION_ID_IS_VALID, Boolean.TRUE);
return sid;
} return super.getSessionId(request, response);
} @Override
protected Session doCreateSession(SessionContext context) {
try {
return super.doCreateSession(context);
} catch (Exception e) {
return null;
} } @Override
protected Session newSessionInstance(SessionContext context) { Session session=super.newSessionInstance(context);
session.setTimeout(getGlobalSessionTimeout());
return session;
} @Override
protected Session retrieveSession(SessionKey sessionKey)
throws UnknownSessionException { try {
return super.retrieveSession(sessionKey);
} catch (Exception e) {
//获取不到SESSION不报错
return null;
} } @Override
public void validateSessions() {
super.validateSessions();
} @Override
public Session start(SessionContext context) {
try {
return super.start(context);
} catch (Exception e) {
SimpleSession session=new SimpleSession();
session.setId(0);
return session;
}
} @Override
public Date getStartTimestamp(SessionKey key) {
try {
return super.getStartTimestamp(key);
} catch (Exception e) {
return null;
} } @Override
public Date getLastAccessTime(SessionKey key) {
try {
return super.getLastAccessTime(key);
} catch (Exception e) {
return null;
}
} @Override
public long getTimeout(SessionKey key) throws InvalidSessionException {
try {
return super.getTimeout(key);
} catch (Exception e) {
return 0;
} } @Override
public void setTimeout(SessionKey key, long maxIdleTimeInMillis)
throws InvalidSessionException {
try {
super.setTimeout(key, maxIdleTimeInMillis);
} catch (Exception e) { }
} @Override
public void touch(SessionKey key) throws InvalidSessionException {
try {
super.touch(key);
} catch (Exception e) {
} } @Override
public String getHost(SessionKey key) {
try {
return super.getHost(key);
} catch (Exception e) {
return null;
} } @Override
public Collection<Object> getAttributeKeys(SessionKey key) {
try {
return super.getAttributeKeys(key);
} catch (Exception e) {
return null;
} } @Override
public Object getAttribute(SessionKey sessionKey, Object attributeKey)
throws InvalidSessionException {
try {
return super.getAttribute(sessionKey, attributeKey);
} catch (Exception e) {
return null;
} } @Override
public Object removeAttribute(SessionKey sessionKey, Object attributeKey)
throws InvalidSessionException {
try {
return super.removeAttribute(sessionKey, attributeKey);
} catch (Exception e) {
return null;
}
//
} @Override
public void stop(SessionKey key) throws InvalidSessionException {
try {
super.stop(key);
} catch (Exception e) { } } @Override
public void checkValid(SessionKey key) throws InvalidSessionException {
try {
super.checkValid(key);
} catch (Exception e) {
}
}
}
上面就是对session的操作.
5
还有就是sessionDAO了,这个sessionDAO才是真正对session操作的bean:
package com.yonyou.hotusm.common.security.session; import com.google.common.collect.Sets;
import com.yonyou.hotusm.common.config.Global;
import com.yonyou.hotusm.common.web.Servlets;
import org.apache.shiro.session.Session;
import org.apache.shiro.session.UnknownSessionException;
import org.apache.shiro.session.mgt.eis.EnterpriseCacheSessionDAO; import javax.servlet.http.HttpServletRequest;
import java.io.Serializable;
import java.util.Collection;
import java.util.Set; /**
* @author Hotusm
* v-2015-10-28
*/
public class CacheSessionDAO extends EnterpriseCacheSessionDAO implements SessionDAO { @Override
protected Serializable doCreate(Session session) {
HttpServletRequest request = Servlets.getRequest();
if (request != null) {
String uri = request.getRequestURI();
if (Servlets.isStaticFile(uri)) {
return null;
}
}
super.doCreate(session);
//System.out.println("doCreate:"+" sessionId"+session.getId());
return session.getId();
} @Override
public Session readSession(Serializable sessionId) throws UnknownSessionException {
//System.out.println("readSession:"+" sessionId"+sessionId);
//System.out.println();
try {
Session s = null;
HttpServletRequest request = Servlets.getRequest();
if (request != null) {
String uri = request.getRequestURI();
if (Servlets.isStaticFile(uri)) {
return null;
}
s = (Session) request.getAttribute("session_" + sessionId);
} if (s != null) {
return s;
}
Session session = super.readSession(sessionId);
if (request != null && session != null) {
request.setAttribute("session_" + sessionId, session);
}
return session;
} catch (Exception e) { return null;
} } @Override
protected Session doReadSession(Serializable sessionId) {
//System.out.println("doReadSession:"+" sessionId"+sessionId);
return super.doReadSession(sessionId);
} @Override
protected void doUpdate(Session session) {
// System.out.println("doUpdate"+" sessionId"+session.getId());
if (session == null || session.getId() == null) {
return;
}
HttpServletRequest request = Servlets.getRequest();
if (request != null) {
String uri = request.getRequestURI();
if (Servlets.isStaticFile(uri)) {
return;
}
if (org.apache.commons.lang.StringUtils.startsWith(uri, Global.getConfig("web.view.prefix"))
&& org.apache.commons.lang.StringUtils.endsWith(uri, Global.getConfig("web.view.suffix"))) {
return;
}
//手动控制不更新session
String updateSession = request.getParameter("updateSession");
if (Global.FALSE.equals(updateSession) || Global.NO.equals(updateSession)) {
return;
}
}
super.doUpdate(session);
} @Override
protected void doDelete(Session session) {
//System.out.println("doDelete");
if (session == null || session.getId() == null) {
return;
}
super.doUpdate(session);
} public Collection<Session> getActiveSessions(boolean includeLeave) { return null;
} public Collection<Session> getActiveSessions(boolean includeLeave,
Object principal, Session filterSession) { if (includeLeave && principal == null) {
return this.getActiveSessions();
}
Set<Session> sessions = Sets.newHashSet();
for (Session session : getActiveSessions()) {
boolean isActiveSession = true; }
return null;
} }
6.
看sessionDAO还有一个idGen依赖bean,指的是sessionId值的生成策略,这个bean也是自己定义的,但是需要继承SessionIdGenerator:
public class IdGen implements SessionIdGenerator{
private static SecureRandom secureRandom;
/**
* 封装JDK自带的UUID,通过random生成
*/
public static String uuid(){
return UUID.randomUUID().toString().replace("-", "");
}
public static long randomLong(){
return Math.abs(secureRandom.nextLong());
}
public Serializable generateId(Session session) {
return IdGen.uuid();
}
}
返回的就是session的值,至于shiroCacheManager就是session缓存的储存位置(它依赖的是我们在spring-context定义的cacheManager)。
3.需要注意一点是formAuthenticationFilter是登陆以后,身份验证的入口,但是只拦截POST方式的loginUrl,就是我们前面配置的那个url,成功以后会跳到我们配置的那个成功页面,一般我们都是设置一个虚拟路径,然后在controller跳转页面:
/**
* 登录成功,进入管理首页
*/
@RequiresPermissions("user")
@RequestMapping(value = "${adminPath}")
public String index(HttpServletRequest request, HttpServletResponse response) {
Principal principal = UserUtils.getPrincipal();
List<String> str=commentService.commentList(null);
//System.out.println(JsonMapper.toJsonString(str));
// 登录成功后,验证码计算器清零
isValidateCodeLogin(principal.getLoginName(), false, true); if (logger.isDebugEnabled()){ logger.debug("show index, active session size: {}", sessionDAO.getActiveSessions(false).size());
} // 如果已登录,再次访问主页,则退出原账号。
if (Global.TRUE.equals(Global.getConfig("notAllowRefreshIndex"))){ String logined = CookieUtils.getCookie(request, "LOGINED");
if (org.apache.commons.lang3.StringUtils.isBlank(logined) || "false".equals(logined)){ CookieUtils.setCookie(response, "LOGINED", "true");
}else if (org.apache.commons.lang3.StringUtils.equals(logined, "true")){
UserUtils.getSubject().logout(); return "redirect:" + adminPath + "/login";
}
}
/
return "modules/sys/sysIndex";
}
下面是authc对应的那个filter的代码,
@Service
public class FormAuthenticationFilter extends org.apache.shiro.web.filter.authc.FormAuthenticationFilter { public static final String DEFAULT_CAPTCHA_PARAM = "validateCode";
public static final String DEFAULT_MOBILE_PARAM = "mobileLogin";
public static final String DEFAULT_MESSAGE_PARAM = "message"; private String captchaParam = DEFAULT_CAPTCHA_PARAM;
private String mobileLoginParam = DEFAULT_MOBILE_PARAM;
private String messageParam = DEFAULT_MESSAGE_PARAM; @Override
protected AuthenticationToken createToken(ServletRequest request, ServletResponse response) { String username = getUsername(request);
String password = getPassword(request);boolean rememberMe = isRememberMe(request); String host = StringUtils.getRemoteAddr((HttpServletRequest)request);
boolean mobile = isMobileLogin(request);
return new UsernamePasswordToken(username, password.toCharArray(), rememberMe, host, mobile);
//end
} public String getCaptchaParam() {
return captchaParam;
} protected String getCaptcha(ServletRequest request) {
return WebUtils.getCleanParam(request, getCaptchaParam());
} public String getMobileLoginParam() {
return mobileLoginParam;
} protected boolean isMobileLogin(ServletRequest request) {
return WebUtils.isTrue(request, getMobileLoginParam());
} public String getMessageParam() {
return messageParam;
} /**
* 登录成功之后跳转URL
*/
@Override
public String getSuccessUrl() {
return super.getSuccessUrl();
} @Override
protected void issueSuccessRedirect(ServletRequest request,
ServletResponse response) throws Exception {
// Principal p = UserUtils.getPrincipal();
// if (p != null && !p.isMobileLogin()){
WebUtils.issueRedirect(request, response, getSuccessUrl(), null, true);
// }else{
// super.issueSuccessRedirect(request, response);
// }
} /**
* 登录失败调用事件
*/
@Override
protected boolean onLoginFailure(AuthenticationToken token,
AuthenticationException e, ServletRequest request, ServletResponse response) {
String className = e.getClass().getName(), message = "";
if (IncorrectCredentialsException.class.getName().equals(className)
|| UnknownAccountException.class.getName().equals(className)){
message = "用户或密码错误, 请重试.";
}
else if (e.getMessage() != null && org.apache.commons.lang3.StringUtils.startsWith(e.getMessage(), "msg:")){
message = org.apache.commons.lang3.StringUtils.replace(e.getMessage(), "msg:", "");
}
else{
message = "系统出现点问题,请稍后再试!";
e.printStackTrace(); // 输出到控制台
}
request.setAttribute(getFailureKeyAttribute(), className);
request.setAttribute(getMessageParam(), message);
return true;
} }
这里的Token就是我们前面所讲的Info一起来做明文和密文进行校验的。
经过上面的一些操作,shiro登录和授权就可以做好了,对于退出,我们只要设置退出按钮的链接地址是我们前面filterChainDefinitions配置的路径就可以了,我的是: ${adminPath}/logout = logout;
具体的代码在我github:https://github.com/Housum/blog.git 有