搭建基础环境
首先我们为示例搭建基本的开发环境,环境的搭建方式,可以参考我的另外一篇文章:
http://www.javaeye.com/wiki/struts2/1321-struts2-development-environment-to-build
整个环境的搭建包括:创建合适的目录结构、加入了合适的Library,加入了基本的Jetty启动类、加入基本的配置文件等。最终的项目结构,可以参考我的附件。
参考文档
这里主要的参考文档是Spring Security的自带的Reference。网络上有一个它的中文翻译,地址如下:
http://www.family168.com/tutorial/springsecurity/html/springsecurity.html
除此之外,springside有一个比较完整的例子,不过是基于Acegi的,我也参阅了其中的一些实现。
Spring Security基本配置
Spring Security是基于Spring的的权限认证框架,对于Spring和Acegi已经比较熟悉的同学对于之前的配置方式应该已经非常了解。接下来的例子,将向大家展示Spring Security基于schema的配置方式。
最小化配置
1. 在web.xml文件中加入Filter声明
-
- <filter>
- <filter-name>springSecurityFilterChain</filter-name>
- <filter-class>org.springframework.web.filter.DelegatingFilterProxy</filter-class>
- </filter>
- <filter-mapping>
- <filter-name>springSecurityFilterChain</filter-name>
- <url-pattern>/*</url-pattern>
- </filter-mapping>
<!-- Spring security Filter -->
<filter>
<filter-name>springSecurityFilterChain</filter-name>
<filter-class>org.springframework.web.filter.DelegatingFilterProxy</filter-class>
</filter>
<filter-mapping>
<filter-name>springSecurityFilterChain</filter-name>
<url-pattern>/*</url-pattern>
</filter-mapping>
这个Filter会拦截所有的URL请求,并且对这些URL请求进行Spring Security的验证。
注意,springSecurityFilterChain这个名称是由命名空间默认创建的用于处理web安全的一个内部的bean的id。所以你在你的Spring配置文件中,不应该再使用这个id作为你的bean。
与Acegi的配置不同,Acegi需要自行声明一个Spring的bean来作为Filter的实现,而使用Spring Security后,无需再额外定义bean,而是使用<http>元素进行配置。
2. 使用最小的<http>配置
- <http auto-config='true'>
- <intercept-url pattern="/**" access="ROLE_USER" />
- </http>
<http auto-config='true'>
<intercept-url pattern="/**" access="ROLE_USER" />
</http>
这段配置表示:我们要保护应用程序中的所有URL,只有拥有ROLE_USER角色的用户才能访问。你可以使用多个<intercept-url>元素为不同URL的集合定义不同的访问需求,它们会被归入一个有序队列中,每次取出最先匹配的一个元素使用。 所以你必须把期望使用的匹配条件放到最上边。
3. 配置UserDetailsService来指定用户和权限
接下来,我们来配置一个UserDetailsService来指定用户和权限:
- <authentication-provider>
- <user-service>
- <user name="downpour" password="downpour" authorities="ROLE_USER, ROLE_ADMIN" />
- <user name="robbin" password="robbin" authorities="ROLE_USER" />
- <user name="QuakeWang" password="QuakeWang" authorities="ROLE_ADMIN" />
- </user-service>
- </authentication-provider>
<authentication-provider>
<user-service>
<user name="downpour" password="downpour" authorities="ROLE_USER, ROLE_ADMIN" />
<user name="robbin" password="robbin" authorities="ROLE_USER" />
<user name="QuakeWang" password="QuakeWang" authorities="ROLE_ADMIN" />
</user-service>
</authentication-provider>
在这里,downpour拥有ROLE_USER和ROLE_ADMIN的权限,robbin拥有ROLE_USER权限,QuakeWang拥有ROLE_ADMIN的权限
4. 小结
有了以上的配置,你已经可以跑简单的Spring Security的应用了。只不过在这里,我们还缺乏很多基本的元素,所以我们尚不能对上面的代码进行完整性测试。
如果你具备Acegi的知识,你会发现,有很多Acegi中的元素,在Spring Security中都没有了,这些元素包括:表单和基本登录选项、密码编码器、Remember-Me认证等等。
接下来,我们就来详细剖析一下Spring Security中的这些基本元素。
剖析基本配置元素
1. 有关auto-config属性
在上面用到的auto-config属性,其实是下面这些配置的缩写:
- <http>
- <intercept-url pattern="/**" access="ROLE_USER" />
- <form-login />
- <anonymous />
- <http-basic />
- <logout />
- <remember-me />
- </http>
<http>
<intercept-url pattern="/**" access="ROLE_USER" />
<form-login />
<anonymous />
<http-basic />
<logout />
<remember-me />
</http>
这些元素分别与登录认证,匿名认证,基本认证,注销处理和remember-me对应。 他们拥有各自的属性,可以改变他们的具体行为。
这样,我们在Acegi中所熟悉的元素又浮现在我们的面前。只是在这里,我们使用的是命名空间而已。
2. 与Acegi的比较
我们仔细观察一下没有auto-config的那段XML配置,是不是熟悉多了?让我们来将基于命名空间的配置与传统的Acegi的bean的配置做一个比较,我们会发现以下的区别:
1) 基于命名空间的配置更加简洁,可维护性更强
例如,基于命名空间进行登录认证的配置代码,可能像这样:
- <form-login login-page="/login.jsp" authentication-failure-url="/login.jsp?error=true" default-target-url="/work" />
<form-login login-page="/login.jsp" authentication-failure-url="/login.jsp?error=true" default-target-url="/work" />
如果使用老的Acegi的Bean的定义方式,可能像这样:
- <bean id="authenticationProcessingFilter"
- class="org.acegisecurity.ui.webapp.AuthenticationProcessingFilter">
- <property name="authenticationManager"
- ref="authenticationManager"/>
- <property name="authenticationFailureUrl"
- value="/login.jsp?error=1"/>
- <property name="defaultTargetUrl" value="/work"/>
- <property name="filterProcessesUrl"
- value="/j_acegi_security_check"/>
- <property name="rememberMeServices" ref="rememberMeServices"/>
- </bean>
<bean id="authenticationProcessingFilter"
class="org.acegisecurity.ui.webapp.AuthenticationProcessingFilter">
<property name="authenticationManager"
ref="authenticationManager"/>
<property name="authenticationFailureUrl"
value="/login.jsp?error=1"/>
<property name="defaultTargetUrl" value="/work"/>
<property name="filterProcessesUrl"
value="/j_acegi_security_check"/>
<property name="rememberMeServices" ref="rememberMeServices"/>
</bean>
这样的例子很多,有兴趣的读者可以一一进行比较。
2) 基于命名空间的配置,我们无需再担心由于过滤器链的顺序而导致的错误
以前,Acegi在缺乏默认内置配置的情况下,你需要自己来定义所有的bean,并指定这些bean在过滤器链中的顺序。一旦顺序错了,很容易发生错误。而现在,过滤器链的顺序被默认指定,你不需要在担心由于顺序的错误而导致的错误。
3. 过滤器链在哪里
到目前为止,我们都还没有讨论过整个Spring Security的核心部分:过滤器链。在原本Acegi的配置中,我们大概是这样配置我们的过滤器链的:
- <bean id="filterChainProxy"
- class="org.acegisecurity.util.FilterChainProxy">
- <property name="filterInvocationDefinitionSource">
- <value>
- CONVERT_URL_TO_LOWERCASE_BEFORE_COMPARISON
- PATTERN_TYPE_APACHE_ANT
- /common/**=#NONE#
- /css/**=#NONE#
- /images/**=#NONE#
- /js/**=#NONE#
- /login.jsp=#NONE#
- /**=httpSessionContextIntegrationFilter,logoutFilter,authenticationProcessingFilter,securityContextHolderAwareRequestFilter,exceptionTranslationFilter,filterSecurityInterceptor
- </value>
- </property>
- </bean>
<bean id="filterChainProxy"
class="org.acegisecurity.util.FilterChainProxy">
<property name="filterInvocationDefinitionSource">
<value>
CONVERT_URL_TO_LOWERCASE_BEFORE_COMPARISON
PATTERN_TYPE_APACHE_ANT
/common/**=#NONE#
/css/**=#NONE#
/images/**=#NONE#
/js/**=#NONE#
/login.jsp=#NONE#
/**=httpSessionContextIntegrationFilter,logoutFilter,authenticationProcessingFilter,securityContextHolderAwareRequestFilter,exceptionTranslationFilter,filterSecurityInterceptor
</value>
</property>
</bean>
其中,每个过滤器链都将对应于Spring配置文件中的bean的id。
现在,在Spring Security中,我们将看不到这些配置,这些配置都被内置在<http>节点中。让我们来看看这些默认的,已经被内置的过滤器:
这些过滤器已经被Spring容器默认内置注册,这也就是我们不再需要在配置文件中定义那么多bean的原因。
同时,过滤器顺序在使用命名空间的时候是被严格执行的。它们在初始化的时候就预先被排好序。不仅如此,Spring Security规定,
你不能替换那些<http>元素自己使用而创建出的过滤器,比如HttpSessionContextIntegrationFilter, ExceptionTranslationFilter 或 FilterSecurityInterceptor。
当然,这样的规定是否合理,有待进一步讨论。因为实际上在很多时候,我们希望覆盖过滤器链中的某个过滤器的默认行为。而Spring Security的这种规定在一定程度上限制了我们的行为。
不过Spring Security允许你把你自己的过滤器添加到队列中,使用custom-filter元素,并且指定你的过滤器应该出现的位置:
- <beans:bean id="myFilter" class="com.mycompany.MySpecialAuthenticationFilter">
- <custom-filter position="AUTHENTICATION_PROCESSING_FILTER"/>
- </beans:bean>
<beans:bean id="myFilter" class="com.mycompany.MySpecialAuthenticationFilter">
<custom-filter position="AUTHENTICATION_PROCESSING_FILTER"/>
</beans:bean>
不仅如此,你还可以使用after或before属性,如果你想把你的过滤器添加到队列中另一个过滤器的前面或后面。 可以分别在position属性使用"FIRST"或"LAST"来指定你想让你的过滤器出现在队列元素的前面或后面。
这个特性或许能够在一定程度上弥补Spring Security的死板规定,而在之后的应用中,我也会把它作为切入点,对资源进行管理。
另外,我需要补充一点的是,
对于在http/intercept-url中没有进行定义的URL,将会默认使用系统内置的过滤器链进行权限认证。所以,你并不需要在http/intercept-url中额外定义一个类似/**的匹配规则。
使用数据库对用户和权限进行管理
一般来说,我们都有使用数据库对用户和权限进行管理的需求,而不会把用户写死在配置文件里。所以,我们接下来就重点讨论使用数据库对用户和权限进行管理的方法。
用户和权限的关系设计
在此之前,我们首先需要讨论一下用户(User)和权限(Role)之间的关系。Spring Security在默认情况下,把这两者当作一对多的关系进行处理。所以,在Spring Security中对这两个对象所采用的表结构关系大概像这样:
- CREATE TABLE users (
- username VARCHAR(50) NOT NULL PRIMARY KEY,
- password VARCHAR(50) NOT NULL,
- enabled BIT NOT NULL
- );
-
- CREATE TABLE authorities (
- username VARCHAR(50) NOT NULL,
- authority VARCHAR(50) NOT NULL
- );
CREATE TABLE users (
username VARCHAR(50) NOT NULL PRIMARY KEY,
password VARCHAR(50) NOT NULL,
enabled BIT NOT NULL
);
CREATE TABLE authorities (
username VARCHAR(50) NOT NULL,
authority VARCHAR(50) NOT NULL
);
不过这种设计方式在实际生产环境中基本上不会采用。一般来说,我们会使用逻辑主键ID来标示每个User和每个Authorities(Role)。而且从典型意义上讲,他们之间是一个多对多的关系,我们会采用3张表来表示,下面是我在MySQL中建立的3张表的schema示例:
- CREATE TABLE `user` (
- `id` int(11) NOT NULL auto_increment,
- `name` varchar(255) default NULL,
- `password` varchar(255) default NULL,
- `disabled` int(1) NOT NULL,
- PRIMARY KEY (`id`)
- ) ENGINE=InnoDB DEFAULT CHARSET=utf8;
-
- CREATE TABLE `role` (
- `id` int(11) NOT NULL auto_increment,
- `name` varchar(255) default NULL,
- PRIMARY KEY (`id`)
- ) ENGINE=InnoDB DEFAULT CHARSET=utf8;
-
- CREATE TABLE `user_role` (
- `user_id` int(11) NOT NULL,
- `role_id` int(11) NOT NULL,
- PRIMARY KEY (`user_id`,`role_id`),
- UNIQUE KEY `role_id` (`role_id`),
- KEY `FK143BF46AF6AD4381` (`user_id`),
- KEY `FK143BF46A51827FA1` (`role_id`),
- CONSTRAINT `FK143BF46A51827FA1` FOREIGN KEY (`role_id`) REFERENCES `role` (`id`),
- CONSTRAINT `FK143BF46AF6AD4381` FOREIGN KEY (`user_id`) REFERENCES `user` (`id`)
- ) ENGINE=InnoDB DEFAULT CHARSET=utf8;
CREATE TABLE `user` (
`id` int(11) NOT NULL auto_increment,
`name` varchar(255) default NULL,
`password` varchar(255) default NULL,
`disabled` int(1) NOT NULL,
PRIMARY KEY (`id`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8;
CREATE TABLE `role` (
`id` int(11) NOT NULL auto_increment,
`name` varchar(255) default NULL,
PRIMARY KEY (`id`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8;
CREATE TABLE `user_role` (
`user_id` int(11) NOT NULL,
`role_id` int(11) NOT NULL,
PRIMARY KEY (`user_id`,`role_id`),
UNIQUE KEY `role_id` (`role_id`),
KEY `FK143BF46AF6AD4381` (`user_id`),
KEY `FK143BF46A51827FA1` (`role_id`),
CONSTRAINT `FK143BF46A51827FA1` FOREIGN KEY (`role_id`) REFERENCES `role` (`id`),
CONSTRAINT `FK143BF46AF6AD4381` FOREIGN KEY (`user_id`) REFERENCES `user` (`id`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8;
通过配置SQL来模拟用户和权限
有了数据库的表设计,我们就可以在Spring Security中,通过配置SQL,来模拟用户和权限,这依然通过<authentication-provider>来完成:
- <authentication-provider>
- <jdbc-user-service data-source-ref="dataSource"
- users-by-username-query="SELECT U.username, U.password, U.accountEnabled AS 'enabled' FROM User U where U.username=?"
- authorities-by-username-query="SELECT U.username, R.name as 'authority' FROM User U JOIN Authority A ON u.id = A.userId JOIN Role R ON R.id = A.roleId WHERE U.username=?"/>
- </authentication-provider>
<authentication-provider>
<jdbc-user-service data-source-ref="dataSource"
users-by-username-query="SELECT U.username, U.password, U.accountEnabled AS 'enabled' FROM User U where U.username=?"
authorities-by-username-query="SELECT U.username, R.name as 'authority' FROM User U JOIN Authority A ON u.id = A.userId JOIN Role R ON R.id = A.roleId WHERE U.username=?"/>
</authentication-provider>
这里给出的是一个使用SQL进行模拟用户和权限的示例。其中你需要为运行SQL准备相应的dataSource。这个dataSource应该对应于Spring中的某个bean的定义。
从这段配置模拟用户和权限的情况来看,实际上Spring Security对于用户,需要username,password,accountEnabled三个字段。对于权限,它需要的是username和authority2个字段。
也就是说,如果我们能够通过其他的方式,模拟上面的这些对象,并插入到Spring Security中去,我们同样能够实现用户和权限的认证。接下来,我们就来看看我们如何通过自己的实现,来完成这件事情。
通过扩展Spring Security的默认实现来进行用户和权限的管理
事实上,Spring Security提供了2个认证的接口,分别用于模拟用户和权限,以及读取用户和权限的操作方法。这两个接口分别是:UserDetails和UserDetailsService。
- public interface UserDetails extends Serializable {
-
- GrantedAuthority[] getAuthorities();
-
- String getPassword();
-
- String getUsername();
-
- boolean isAccountNonExpired();
-
- boolean isAccountNonLocked();
-
- boolean isCredentialsNonExpired();
-
- boolean isEnabled();
- }
public interface UserDetails extends Serializable {
GrantedAuthority[] getAuthorities();
String getPassword();
String getUsername();
boolean isAccountNonExpired();
boolean isAccountNonLocked();
boolean isCredentialsNonExpired();
boolean isEnabled();
}
- public interface UserDetailsService {
- UserDetails loadUserByUsername(String username)
- throws UsernameNotFoundException, DataAccessException;
- }
public interface UserDetailsService {
UserDetails loadUserByUsername(String username)
throws UsernameNotFoundException, DataAccessException;
}
非常清楚,一个接口用于模拟用户,另外一个用于模拟读取用户的过程。所以我们可以通过实现这两个接口,来完成使用数据库对用户和权限进行管理的需求。在这里,我将给出一个使用Hibernate来定义用户和权限之间关系的示例。
1. 定义User类和Role类,使他们之间形成多对多的关系
- @Entity
- @Proxy(lazy = false)
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
- public class User {
-
- private static final long serialVersionUID = 8026813053768023527L;
-
- @Id
- @GeneratedValue
- private Integer id;
-
- private String name;
-
- private String password;
-
- private boolean disabled;
-
- @ManyToMany(targetEntity = Role.class, fetch = FetchType.EAGER)
- @JoinTable(name = "user_role", joinColumns = @JoinColumn(name = "user_id"), inverseJoinColumns = @JoinColumn(name = "role_id"))
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
- private Set<Role> roles;
-
-
- }
@Entity
@Proxy(lazy = false)
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
public class User {
private static final long serialVersionUID = 8026813053768023527L;
@Id
@GeneratedValue
private Integer id;
private String name;
private String password;
private boolean disabled;
@ManyToMany(targetEntity = Role.class, fetch = FetchType.EAGER)
@JoinTable(name = "user_role", joinColumns = @JoinColumn(name = "user_id"), inverseJoinColumns = @JoinColumn(name = "role_id"))
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
private Set<Role> roles;
// setters and getters
}
- @Entity
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
- public class Role {
-
- @Id
- @GeneratedValue
- private Integer id;
-
- private String name;
-
-
- }
@Entity
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
public class Role {
@Id
@GeneratedValue
private Integer id;
private String name;
// setters and getters
}
请注意这里的Annotation的写法。同时,我为User和Role之间配置了缓存。并且将他们之间的关联关系设置的lazy属性设置成false,从而保证在User对象取出之后的使用不会因为脱离session的生命周期而产生lazy loading问题。
2. 使User类实现UserDetails接口
接下来,我们让User类去实现UserDetails接口:
- @Entity
- @Proxy(lazy = false)
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
- public class User implements UserDetails {
-
- private static final long serialVersionUID = 8026813053768023527L;
-
- @Id
- @GeneratedValue
- private Integer id;
-
- private String name;
-
- private String password;
-
- private boolean disabled;
-
- @ManyToMany(targetEntity = Role.class, fetch = FetchType.EAGER)
- @JoinTable(name = "user_role", joinColumns = @JoinColumn(name = "user_id"), inverseJoinColumns = @JoinColumn(name = "role_id"))
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
- private Set<Role> roles;
-
-
-
-
- public User() {
-
- }
-
-
-
-
- public GrantedAuthority[] getAuthorities() {
- List<GrantedAuthority> grantedAuthorities = new ArrayList<GrantedAuthority>(roles.size());
- for(Role role : roles) {
- grantedAuthorities.add(new GrantedAuthorityImpl(role.getName()));
- }
- return grantedAuthorities.toArray(new GrantedAuthority[roles.size()]);
- }
-
-
-
-
- public String getPassword() {
- return password;
- }
-
-
-
-
- public String getUsername() {
- return name;
- }
-
-
-
-
- public boolean isAccountNonExpired() {
- return true;
- }
-
-
-
-
- public boolean isAccountNonLocked() {
- return true;
- }
-
-
-
-
- public boolean isCredentialsNonExpired() {
- return true;
- }
-
-
-
-
- public boolean isEnabled() {
- return !this.disabled;
- }
-
-
- }
@Entity
@Proxy(lazy = false)
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
public class User implements UserDetails {
private static final long serialVersionUID = 8026813053768023527L;
@Id
@GeneratedValue
private Integer id;
private String name;
private String password;
private boolean disabled;
@ManyToMany(targetEntity = Role.class, fetch = FetchType.EAGER)
@JoinTable(name = "user_role", joinColumns = @JoinColumn(name = "user_id"), inverseJoinColumns = @JoinColumn(name = "role_id"))
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
private Set<Role> roles;
/**
* The default constructor
*/
public User() {
}
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#getAuthorities()
*/
public GrantedAuthority[] getAuthorities() {
List<GrantedAuthority> grantedAuthorities = new ArrayList<GrantedAuthority>(roles.size());
for(Role role : roles) {
grantedAuthorities.add(new GrantedAuthorityImpl(role.getName()));
}
return grantedAuthorities.toArray(new GrantedAuthority[roles.size()]);
}
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#getPassword()
*/
public String getPassword() {
return password;
}
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#getUsername()
*/
public String getUsername() {
return name;
}
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#isAccountNonExpired()
*/
public boolean isAccountNonExpired() {
return true;
}
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#isAccountNonLocked()
*/
public boolean isAccountNonLocked() {
return true;
}
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#isCredentialsNonExpired()
*/
public boolean isCredentialsNonExpired() {
return true;
}
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#isEnabled()
*/
public boolean isEnabled() {
return !this.disabled;
}
// setters and getters
}
实现UserDetails接口中的每个函数,其实没什么很大的难度,除了其中的一个函数我需要额外强调一下:
-
-
-
- public GrantedAuthority[] getAuthorities() {
- List<GrantedAuthority> grantedAuthorities = new ArrayList<GrantedAuthority>(roles.size());
- for(Role role : roles) {
- grantedAuthorities.add(new GrantedAuthorityImpl(role.getName()));
- }
- return grantedAuthorities.toArray(new GrantedAuthority[roles.size()]);
- }
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#getAuthorities()
*/
public GrantedAuthority[] getAuthorities() {
List<GrantedAuthority> grantedAuthorities = new ArrayList<GrantedAuthority>(roles.size());
for(Role role : roles) {
grantedAuthorities.add(new GrantedAuthorityImpl(role.getName()));
}
return grantedAuthorities.toArray(new GrantedAuthority[roles.size()]);
}
这个函数的实际作用是根据User返回这个User所拥有的权限列表。如果以上面曾经用过的例子来说,如果当前User是downpour,我需要得到ROLE_USER和ROLE_ADMIN;如果当前User是robbin,我需要得到ROLE_USER。
了解了含义,实现就变得简单了,由于User与Role是多对多的关系,我们可以通过User得到所有这个User所对应的Role,并把这些Role的name拼装起来返回。
由此可见,实现UserDetails接口,并没有什么神秘的地方,它只是实际上在一定程度上只是代替了使用配置文件的硬编码:
- <user name="downpour" password="downpour" authorities="ROLE_USER, ROLE_ADMIN" />
<user name="downpour" password="downpour" authorities="ROLE_USER, ROLE_ADMIN" />
3. 实现UserDetailsService接口
- @Repository("securityManager")
- public class SecurityManagerSupport extends HibernateDaoSupport implements UserDetailsService {
-
-
-
-
-
-
- @Autowired
- public void init(SessionFactory sessionFactory) {
- super.setSessionFactory(sessionFactory);
- }
-
- public UserDetails loadUserByUsername(String userName) throws UsernameNotFoundException, DataAccessException {
- List<User> users = getHibernateTemplate().find("FROM User user WHERE user.name = ? AND user.disabled = false", userName);
- if(users.isEmpty()) {
- throw new UsernameNotFoundException("User " + userName + " has no GrantedAuthority");
- }
- return users.get(0);
- }
- }
@Repository("securityManager")
public class SecurityManagerSupport extends HibernateDaoSupport implements UserDetailsService {
/**
* Init sessionFactory here because the annotation of Spring 2.5 can not support override inject
*
* @param sessionFactory
*/
@Autowired
public void init(SessionFactory sessionFactory) {
super.setSessionFactory(sessionFactory);
}
public UserDetails loadUserByUsername(String userName) throws UsernameNotFoundException, DataAccessException {
List<User> users = getHibernateTemplate().find("FROM User user WHERE user.name = ? AND user.disabled = false", userName);
if(users.isEmpty()) {
throw new UsernameNotFoundException("User " + userName + " has no GrantedAuthority");
}
return users.get(0);
}
}
这个实现非常简单,由于我们的User对象已经实现了UserDetails接口。所以我们只要使用Hibernate,根据userName取出相应的User对象即可。注意在这里,由于我们对于User的关联对象Roles都设置了lazy="false",所以我们无需担心lazy loading的问题。
4. 配置文件
有了上面的代码,一切都变得很简单,重新定义authentication-provider节点即可。如果你使用Spring 2.5的Annotation配置功能,你甚至可以不需要在配置文件中定义securityManager的bean。
- <authentication-provider user-service-ref="securityManager">
- <password-encoder hash="md5"/>
- </authentication-provider>
<authentication-provider user-service-ref="securityManager">
<password-encoder hash="md5"/>
</authentication-provider>
使用数据库对资源进行管理
在完成了使用数据库来进行用户和权限的管理之后,我们再来看看http配置的部分。在实际应用中,我们不可能使用类似/**的方式来指定URL与权限ROLE的对应关系,而是会针对某些URL,指定某些特定的ROLE。而URL与ROLE之间的映射关系最好可以进行扩展和配置。而URL属于资源的一种,所以接下来,我们就来看看如何使用数据库来对权限和资源的匹配关系进行管理,并且将认证匹配加入到Spring Security中去。
权限和资源的设计
上面我们讲到,用户(User)和权限(Role)之间是一个多对多的关系。那么权限(Role)和资源(Resource)之间呢?其实他们之间也是一个典型的多对多的关系,我们同样用3张表来表示:
- CREATE TABLE `role` (
- `id` int(11) NOT NULL auto_increment,
- `name` varchar(255) default NULL,
- `description` varchar(255) default NULL,
- PRIMARY KEY (`id`)
- ) ENGINE=InnoDB DEFAULT CHARSET=utf8;
-
- CREATE TABLE `resource` (
- `id` int(11) NOT NULL auto_increment,
- `type` varchar(255) default NULL,
- `value` varchar(255) default NULL,
- PRIMARY KEY (`id`)
- ) ENGINE=InnoDB DEFAULT CHARSET=utf8;
-
- CREATE TABLE `role_resource` (
- `role_id` int(11) NOT NULL,
- `resource_id` int(11) NOT NULL,
- PRIMARY KEY (`role_id`,`resource_id`),
- KEY `FKAEE599B751827FA1` (`role_id`),
- KEY `FKAEE599B7EFD18D21` (`resource_id`),
- CONSTRAINT `FKAEE599B751827FA1` FOREIGN KEY (`role_id`) REFERENCES `role` (`id`),
- CONSTRAINT `FKAEE599B7EFD18D21` FOREIGN KEY (`resource_id`) REFERENCES `resource` (`id`)
- ) ENGINE=InnoDB DEFAULT CHARSET=utf8;
CREATE TABLE `role` (
`id` int(11) NOT NULL auto_increment,
`name` varchar(255) default NULL,
`description` varchar(255) default NULL,
PRIMARY KEY (`id`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8;
CREATE TABLE `resource` (
`id` int(11) NOT NULL auto_increment,
`type` varchar(255) default NULL,
`value` varchar(255) default NULL,
PRIMARY KEY (`id`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8;
CREATE TABLE `role_resource` (
`role_id` int(11) NOT NULL,
`resource_id` int(11) NOT NULL,
PRIMARY KEY (`role_id`,`resource_id`),
KEY `FKAEE599B751827FA1` (`role_id`),
KEY `FKAEE599B7EFD18D21` (`resource_id`),
CONSTRAINT `FKAEE599B751827FA1` FOREIGN KEY (`role_id`) REFERENCES `role` (`id`),
CONSTRAINT `FKAEE599B7EFD18D21` FOREIGN KEY (`resource_id`) REFERENCES `resource` (`id`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8;
在这里Resource可能分成多种类型,比如MENU,URL,METHOD等等。
针对资源的认证
针对资源的认证,实际上应该由Spring Security中的FilterSecurityInterceptor这个过滤器来完成。不过内置的FilterSecurityInterceptor的实现往往无法满足我们的要求,所以传统的Acegi的方式,我们往往会替换FilterSecurityInterceptor的实现,从而对URL等资源进行认证。
不过在Spring Security中,由于默认的拦截器链内置了FilterSecurityInterceptor,而且上面我们也提到过,这个实现无法被替换。这就使我们犯了难。我们如何对资源进行认证呢?
实际上,我们虽然无法替换FilterSecurityInterceptor的默认实现,不过
我们可以再实现一个类似的过滤器,并将我们自己的过滤器作为一个customer-filter,加到默认的过滤器链的最后,从而完成整个过滤检查。
接下来我们就来看看一个完整的例子:
1. 建立权限(Role)和资源(Resource)之间的关联关系
修改上面的权限(Role)的Entity定义:
- @Entity
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
- public class Role {
-
- @Id
- @GeneratedValue
- private Integer id;
-
- private String name;
-
- @ManyToMany(targetEntity = Resource.class, fetch = FetchType.EAGER)
- @JoinTable(name = "role_resource", joinColumns = @JoinColumn(name = "role_id"), inverseJoinColumns = @JoinColumn(name = "resource_id"))
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
- private Set<Resource> resources;
-
-
- }
@Entity
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
public class Role {
@Id
@GeneratedValue
private Integer id;
private String name;
@ManyToMany(targetEntity = Resource.class, fetch = FetchType.EAGER)
@JoinTable(name = "role_resource", joinColumns = @JoinColumn(name = "role_id"), inverseJoinColumns = @JoinColumn(name = "resource_id"))
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
private Set<Resource> resources;
// setters and getter
}
增加资源(Resource)的Entity定义:
- @Entity
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
-
- public class Resource {
-
- @Id
- @GeneratedValue
- private Integer id;
-
- private String type;
-
- private String value;
-
- @ManyToMany(mappedBy = "resources", targetEntity = Role.class, fetch = FetchType.EAGER)
- @Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
- private Set<Role> roles;
-
-
-
-
- public Resource() {
-
- }
- }
@Entity
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
public class Resource {
@Id
@GeneratedValue
private Integer id;
private String type;
private String value;
@ManyToMany(mappedBy = "resources", targetEntity = Role.class, fetch = FetchType.EAGER)
@Cache(usage = CacheConcurrencyStrategy.READ_WRITE)
private Set<Role> roles;
/**
* The default constructor
*/
public Resource() {
}
}
注意他们之间的多对多关系,以及他们之间关联关系的缓存和lazy属性设置。
2. 在系统启动的时候,把所有的资源load到内存作为缓存
由于资源信息对于每个项目来说,相对固定,所以我们可以将他们在系统启动的时候就load到内存作为缓存。这里做法很多,我给出的示例是将资源的存放在servletContext中。
- public class ServletContextLoaderListener implements ServletContextListener {
-
-
-
-
- public void contextInitialized(ServletContextEvent servletContextEvent) {
- ServletContext servletContext = servletContextEvent.getServletContext();
- SecurityManager securityManager = this.getSecurityManager(servletContext);
-
- Map<String, String> urlAuthorities = securityManager.loadUrlAuthorities();
- servletContext.setAttribute("urlAuthorities", urlAuthorities);
- }
-
-
-
-
-
- public void contextDestroyed(ServletContextEvent servletContextEvent) {
- servletContextEvent.getServletContext().removeAttribute("urlAuthorities");
- }
-
-
-
-
-
-
-
- protected SecurityManager getSecurityManager(ServletContext servletContext) {
- return (SecurityManager) WebApplicationContextUtils.getWebApplicationContext(servletContext).getBean("securityManager");
- }
-
- }
public class ServletContextLoaderListener implements ServletContextListener {
/* (non-Javadoc)
* @see javax.servlet.ServletContextListener#contextInitialized(javax.servlet.ServletContextEvent)
*/
public void contextInitialized(ServletContextEvent servletContextEvent) {
ServletContext servletContext = servletContextEvent.getServletContext();
SecurityManager securityManager = this.getSecurityManager(servletContext);
Map<String, String> urlAuthorities = securityManager.loadUrlAuthorities();
servletContext.setAttribute("urlAuthorities", urlAuthorities);
}
/* (non-Javadoc)
* @see javax.servlet.ServletContextListener#contextDestroyed(javax.servlet.ServletContextEvent)
*/
public void contextDestroyed(ServletContextEvent servletContextEvent) {
servletContextEvent.getServletContext().removeAttribute("urlAuthorities");
}
/**
* Get SecurityManager from ApplicationContext
*
* @param servletContext
* @return
*/
protected SecurityManager getSecurityManager(ServletContext servletContext) {
return (SecurityManager) WebApplicationContextUtils.getWebApplicationContext(servletContext).getBean("securityManager");
}
}
这里,我们看到了SecurityManager,这是一个接口,用于权限相关的逻辑处理。还记得之前我们使用数据库管理User的时候所使用的一个实现类SecurityManagerSupport嘛?我们不妨依然借用这个类,让它实现SecurityManager接口,来同时完成url的读取工作。
- @Service("securityManager")
- public class SecurityManagerSupport extends HibernateDaoSupport implements UserDetailsService, SecurityManager {
-
-
-
-
-
-
- @Autowired
- public void init(SessionFactory sessionFactory) {
- super.setSessionFactory(sessionFactory);
- }
-
-
-
-
- public UserDetails loadUserByUsername(String userName) throws UsernameNotFoundException, DataAccessException {
- List<User> users = getHibernateTemplate().find("FROM User user WHERE user.name = ? AND user.disabled = false", userName);
- if(users.isEmpty()) {
- throw new UsernameNotFoundException("User " + userName + " has no GrantedAuthority");
- }
- return users.get(0);
- }
-
-
-
-
- public Map<String, String> loadUrlAuthorities() {
- Map<String, String> urlAuthorities = new HashMap<String, String>();
- List<Resource> urlResources = getHibernateTemplate().find("FROM Resource resource WHERE resource.type = ?", "URL");
- for(Resource resource : urlResources) {
- urlAuthorities.put(resource.getValue(), resource.getRoleAuthorities());
- }
- return urlAuthorities;
- }
- }
@Service("securityManager")
public class SecurityManagerSupport extends HibernateDaoSupport implements UserDetailsService, SecurityManager {
/**
* Init sessionFactory here because the annotation of Spring 2.5 can not support override inject
*
* @param sessionFactory
*/
@Autowired
public void init(SessionFactory sessionFactory) {
super.setSessionFactory(sessionFactory);
}
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetailsService#loadUserByUsername(java.lang.String)
*/
public UserDetails loadUserByUsername(String userName) throws UsernameNotFoundException, DataAccessException {
List<User> users = getHibernateTemplate().find("FROM User user WHERE user.name = ? AND user.disabled = false", userName);
if(users.isEmpty()) {
throw new UsernameNotFoundException("User " + userName + " has no GrantedAuthority");
}
return users.get(0);
}
/* (non-Javadoc)
* @see com.javaeye.sample.security.SecurityManager#loadUrlAuthorities()
*/
public Map<String, String> loadUrlAuthorities() {
Map<String, String> urlAuthorities = new HashMap<String, String>();
List<Resource> urlResources = getHibernateTemplate().find("FROM Resource resource WHERE resource.type = ?", "URL");
for(Resource resource : urlResources) {
urlAuthorities.put(resource.getValue(), resource.getRoleAuthorities());
}
return urlAuthorities;
}
}
3. 编写自己的FilterInvocationDefinitionSource实现类,对资源进行认证
public class SecureResourceFilterInvocationDefinitionSource implements FilterInvocationDefinitionSource, InitializingBean {
private UrlMatcher urlMatcher;
private boolean useAntPath = true;
private boolean lowercaseComparisons = true;
/**
* @param useAntPath the useAntPath to set
*/
public void setUseAntPath(boolean useAntPath) {
this.useAntPath = useAntPath;
}
/**
* @param lowercaseComparisons
*/
public void setLowercaseComparisons(boolean lowercaseComparisons) {
this.lowercaseComparisons = lowercaseComparisons;
}
/* (non-Javadoc)
* @see org.springframework.beans.factory.InitializingBean#afterPropertiesSet()
*/
public void afterPropertiesSet() throws Exception {
// default url matcher will be RegexUrlPathMatcher
this.urlMatcher = new RegexUrlPathMatcher();
if (useAntPath) { // change the implementation if required
this.urlMatcher = new AntUrlPathMatcher();
}
// Only change from the defaults if the attribute has been set
if ("true".equals(lowercaseComparisons)) {
if (!this.useAntPath) {
((RegexUrlPathMatcher) this.urlMatcher).setRequiresLowerCaseUrl(true);
}
} else if ("false".equals(lowercaseComparisons)) {
if (this.useAntPath) {
((AntUrlPathMatcher) this.urlMatcher).setRequiresLowerCaseUrl(false);
}
}
}
/* (non-Javadoc)
* @see org.springframework.security.intercept.ObjectDefinitionSource#getAttributes(java.lang.Object)
*/
public ConfigAttributeDefinition getAttributes(Object filter) throws IllegalArgumentException {
FilterInvocation filterInvocation = (FilterInvocation) filter;
String requestURI = filterInvocation.getRequestUrl();
Map<String, String> urlAuthorities = this.getUrlAuthorities(filterInvocation);
String grantedAuthorities = null;
for(Iterator<Map.Entry<String, String>> iter = urlAuthorities.entrySet().iterator(); iter.hasNext();) {
Map.Entry<String, String> entry = iter.next();
String url = entry.getKey();
if(urlMatcher.pathMatchesUrl(url, requestURI)) {
grantedAuthorities = entry.getValue();
break;
}
}
if(grantedAuthorities != null) {
ConfigAttributeEditor configAttrEditor = new ConfigAttributeEditor();
configAttrEditor.setAsText(grantedAuthorities);
return (ConfigAttributeDefinition) configAttrEditor.getValue();
}
return null;
}
/* (non-Javadoc)
* @see org.springframework.security.intercept.ObjectDefinitionSource#getConfigAttributeDefinitions()
*/
@SuppressWarnings("unchecked")
public Collection getConfigAttributeDefinitions() {
return null;
}
/* (non-Javadoc)
* @see org.springframework.security.intercept.ObjectDefinitionSource#supports(java.lang.Class)
*/
@SuppressWarnings("unchecked")
public boolean supports(Class clazz) {
return true;
}
/**
*
* @param filterInvocation
* @return
*/
@SuppressWarnings("unchecked")
private Map<String, String> getUrlAuthorities(FilterInvocation filterInvocation) {
ServletContext servletContext = filterInvocation.getHttpRequest().getSession().getServletContext();
return (Map<String, String>)servletContext.getAttribute("urlAuthorities");
}
}
4. 配置文件修改
接下来,我们来修改一下Spring Security的配置文件,把我们自定义的这个过滤器插入到过滤器链中去。
- <beans:beans xmlns="http://www.springframework.org/schema/security"
- xmlns:beans="http://www.springframework.org/schema/beans"
- xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
- xsi:schemaLocation="http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-2.5.xsd
- http://www.springframework.org/schema/security http://www.springframework.org/schema/security/spring-security-2.0.4.xsd">
-
- <beans:bean id="loggerListener" class="org.springframework.security.event.authentication.LoggerListener" />
-
- <http access-denied-page="/403.jsp" >
- <intercept-url pattern="/static/**" filters="none" />
- <intercept-url pattern="/template/**" filters="none" />
- <intercept-url pattern="/" filters="none" />
- <intercept-url pattern="/login.jsp" filters="none" />
- <form-login login-page="/login.jsp" authentication-failure-url="/login.jsp?error=true" default-target-url="/index" />
- <logout logout-success-url="/login.jsp"/>
- <http-basic />
- </http>
-
- <authentication-manager alias="authenticationManager"/>
-
- <authentication-provider user-service-ref="securityManager">
- <password-encoder hash="md5"/>
- </authentication-provider>
-
- <beans:bean id="accessDecisionManager" class="org.springframework.security.vote.AffirmativeBased">
- <beans:property name="allowIfAllAbstainDecisions" value="false"/>
- <beans:property name="decisionVoters">
- <beans:list>
- <beans:bean class="org.springframework.security.vote.RoleVoter"/>
- <beans:bean class="org.springframework.security.vote.AuthenticatedVoter"/>
- </beans:list>
- </beans:property>
- </beans:bean>
-
- <beans:bean id="resourceSecurityInterceptor" class="org.springframework.security.intercept.web.FilterSecurityInterceptor">
- <beans:property name="authenticationManager" ref="authenticationManager"/>
- <beans:property name="accessDecisionManager" ref="accessDecisionManager"/>
- <beans:property name="objectDefinitionSource" ref="secureResourceFilterInvocationDefinitionSource" />
- <beans:property name="observeOncePerRequest" value="false" />
- <custom-filter after="LAST" />
- </beans:bean>
-
- <beans:bean id="secureResourceFilterInvocationDefinitionSource" class="com.javaeye.sample.security.interceptor.SecureResourceFilterInvocationDefinitionSource" />
-
- </beans:beans>
<beans:beans xmlns="http://www.springframework.org/schema/security"
xmlns:beans="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-2.5.xsd
http://www.springframework.org/schema/security http://www.springframework.org/schema/security/spring-security-2.0.4.xsd">
<beans:bean id="loggerListener" class="org.springframework.security.event.authentication.LoggerListener" />
<http access-denied-page="/403.jsp" >
<intercept-url pattern="/static/**" filters="none" />
<intercept-url pattern="/template/**" filters="none" />
<intercept-url pattern="/" filters="none" />
<intercept-url pattern="/login.jsp" filters="none" />
<form-login login-page="/login.jsp" authentication-failure-url="/login.jsp?error=true" default-target-url="/index" />
<logout logout-success-url="/login.jsp"/>
<http-basic />
</http>
<authentication-manager alias="authenticationManager"/>
<authentication-provider user-service-ref="securityManager">
<password-encoder hash="md5"/>
</authentication-provider>
<beans:bean id="accessDecisionManager" class="org.springframework.security.vote.AffirmativeBased">
<beans:property name="allowIfAllAbstainDecisions" value="false"/>
<beans:property name="decisionVoters">
<beans:list>
<beans:bean class="org.springframework.security.vote.RoleVoter"/>
<beans:bean class="org.springframework.security.vote.AuthenticatedVoter"/>
</beans:list>
</beans:property>
</beans:bean>
<beans:bean id="resourceSecurityInterceptor" class="org.springframework.security.intercept.web.FilterSecurityInterceptor">
<beans:property name="authenticationManager" ref="authenticationManager"/>
<beans:property name="accessDecisionManager" ref="accessDecisionManager"/>
<beans:property name="objectDefinitionSource" ref="secureResourceFilterInvocationDefinitionSource" />
<beans:property name="observeOncePerRequest" value="false" />
<custom-filter after="LAST" />
</beans:bean>
<beans:bean id="secureResourceFilterInvocationDefinitionSource" class="com.javaeye.sample.security.interceptor.SecureResourceFilterInvocationDefinitionSource" />
</beans:beans>
请注意,由于我们所实现的,是FilterSecurityInterceptor中的一个开放接口,所以我们实际上定义了一个新的bean,并通过<custom-filter after="LAST" />插入到过滤器链中去。
Spring Security对象的访问
1. 访问当前登录用户
Spring Security提供了一个线程安全的对象:SecurityContextHolder,通过这个对象,我们可以访问当前的登录用户。我写了一个类,可以通过静态方法去读取:
- public class SecurityUserHolder {
-
-
-
-
-
-
- public static User getCurrentUser() {
- return (User) SecurityContextHolder.getContext().getAuthentication().getPrincipal();
- }
-
- }
public class SecurityUserHolder {
/**
* Returns the current user
*
* @return
*/
public static User getCurrentUser() {
return (User) SecurityContextHolder.getContext().getAuthentication().getPrincipal();
}
}
2. 访问当前登录用户所拥有的权限
通过上面的分析,我们知道,用户所拥有的所有权限,其实是通过UserDetails接口中的getAuthorities()方法获得的。只要实现这个接口,就能实现需求。在我的代码中,不仅实现了这个接口,还在上面做了点小文章,这样我们可以获得一个用户所拥有权限的字符串表示:
-
-
-
- public GrantedAuthority[] getAuthorities() {
- List<GrantedAuthority> grantedAuthorities = new ArrayList<GrantedAuthority>(roles.size());
- for(Role role : roles) {
- grantedAuthorities.add(new GrantedAuthorityImpl(role.getName()));
- }
- return grantedAuthorities.toArray(new GrantedAuthority[roles.size()]);
- }
-
-
-
-
-
-
-
-
-
-
- public String getAuthoritiesString() {
- List<String> authorities = new ArrayList<String>();
- for(GrantedAuthority authority : this.getAuthorities()) {
- authorities.add(authority.getAuthority());
- }
- return StringUtils.join(authorities, ",");
- }
/* (non-Javadoc)
* @see org.springframework.security.userdetails.UserDetails#getAuthorities()
*/
public GrantedAuthority[] getAuthorities() {
List<GrantedAuthority> grantedAuthorities = new ArrayList<GrantedAuthority>(roles.size());
for(Role role : roles) {
grantedAuthorities.add(new GrantedAuthorityImpl(role.getName()));
}
return grantedAuthorities.toArray(new GrantedAuthority[roles.size()]);
}
/**
* Returns the authorites string
*
* eg.
* downpour --- ROLE_ADMIN,ROLE_USER
* robbin --- ROLE_ADMIN
*
* @return
*/
public String getAuthoritiesString() {
List<String> authorities = new ArrayList<String>();
for(GrantedAuthority authority : this.getAuthorities()) {
authorities.add(authority.getAuthority());
}
return StringUtils.join(authorities, ",");
}
3. 访问当前登录用户能够访问的资源
这就涉及到用户(User),权限(Role)和资源(Resource)三者之间的对应关系。我同样在User对象中实现了一个方法:
-
-
-
- public Map<String, List<Resource>> getRoleResources() {
-
- if(this.roleResources == null) {
- this.roleResources = new HashMap<String, List<Resource>>();
-
- for(Role role : this.roles) {
- String roleName = role.getName();
- Set<Resource> resources = role.getResources();
- for(Resource resource : resources) {
- String key = roleName + "_" + resource.getType();
- if(!this.roleResources.containsKey(key)) {
- this.roleResources.put(key, new ArrayList<Resource>());
- }
- this.roleResources.get(key).add(resource);
- }
- }
-
- }
- return this.roleResources;
- }
/**
* @return the roleResources
*/
public Map<String, List<Resource>> getRoleResources() {
// init roleResources for the first time
if(this.roleResources == null) {
this.roleResources = new HashMap<String, List<Resource>>();
for(Role role : this.roles) {
String roleName = role.getName();
Set<Resource> resources = role.getResources();
for(Resource resource : resources) {
String key = roleName + "_" + resource.getType();
if(!this.roleResources.containsKey(key)) {
this.roleResources.put(key, new ArrayList<Resource>());
}
this.roleResources.get(key).add(resource);
}
}
}
return this.roleResources;
}
这里,会在User对象中设置一个缓存机制,在第一次取的时候,通过遍历User所有的Role,获取相应的Resource信息。
转自:http://www.javaeye.com/topic/319965