Spring Security 提供如下几种认证机制:
- Username & Password
- OAuth2.0 Login
- SAML 2.0 Login
- Remember Me
- JAAS Authentication
- Pre-authentication Scenarios
- X509 Authentication
这里使用Spring Boot 2.7.4版本,对应Spring Security 5.7.3版本
Servlet Authentication Architecture
首先明确两个概念:
- Principle : This interface represents the abstract notion of a principal, which can be used to represent any entity, such as an individual, a corporation, and a login id. 简单来说 可以认为是 唯一确定用户的 一个 userId ,但这个Principle是一个接口,具体参考
java.security.Principal - Credential : 通常就是一个密码,但他不是接口,而是通过接口
Authentication#getCredentials来获取,返回一个Object类型。
Spring Security提供了以下几个核心类:
SecurityContextHolder: Spring Security用来保存被认证用户的详细信息(默认使用ThreadLocal保存);SecurityContext: 从SecurityContextHolder获取得到,该接口提供被认证用户的Authentication信息;Authentication: 代表"认证",其中包含Principle和Credential,通过AuthenticationManager#authenticate来认证一个Authentication,该方法接受一个未认证的Authentication并返回一个认证后的Authentication。GrantedAuthority: 认证后的Principle包含的权限AuthenticationManager: 实施认证行为的接口,该类为函数式接口,只有一个方法:Authentication authenticate(Authentication authentication) throws AuthenticationException;ProviderManager: the most common implementation of AuthenticationManager.AuthenticationProvider: 提供认证方式的接口,组合在ProviderManager中。
SecurityContextHolder
先来看一个使用SecurityContextHolder和SecurityContext完成认证的案例:
SecurityContext context = SecurityContextHolder.createEmptyContext();
// 手动生成一个Authentication,实际一般是通过数据库查出来生成的
Authentication authentication =
new TestingAuthenticationToken("username", "password", "ROLE_USER");
context.setAuthentication(authentication);
SecurityContextHolder.setContext(context);
默认 情况下 SecurityContext存储使用ThreadLocal方式,这个就是ThreadLocal的一个用处,避免函数间参数传递的复杂性,只要处于一个线程,就可以直接获取而不需要通过函数参数返回值来传递。
注意:在使用ThreadLocal时,由于键是其this本身,是一个弱引用,而值只能是强引用,所以ThreadLocal不用时需要手动clear。而Spring Security中,在 FilterChainProxy中完成这一清除工作,如下:
public class FilterChainProxy extends GenericFilterBean {
@Override
public void doFilter(ServletRequest request, ServletResponse response, FilterChain chain)
throws IOException, ServletException {
...
try {
...
// 执行Spring Security 的 SecurityFilterChain
doFilterInternal(request, response, chain);
}
catch (Exception ex) {
...
}
finally {
// ***************
// 清除ThreadLocal
// ***************
SecurityContextHolder.clearContext();
request.removeAttribute(FILTER_APPLIED);
}
}
}
但有些情形是用不了ThreadLocal的,For example, a Swing client might want all threads in a Java Virtual Machine to use the same security context 。针对其他情况,SecurityContextHolder提供了4种模式,当然也可以自定义:
- MODE_THREADLOCAL
- MODE_GLOBAL
- MODE_INHERITABLETHREADLOCAL
- MODE_PRE_INITIALIZED
可以通过2种方式去修改模式:
- set a system property
- a static method on
SecurityContextHolder
public class SecurityContextHolder {
// 存储SecurityContext的模式,默认 ThreadLocal存储
public static final String MODE_THREADLOCAL = "MODE_THREADLOCAL";
public static final String MODE_INHERITABLETHREADLOCAL = "MODE_INHERITABLETHREADLOCAL";
public static final String MODE_GLOBAL = "MODE_GLOBAL";
private static final String MODE_PRE_INITIALIZED = "MODE_PRE_INITIALIZED";
public static final String SYSTEM_PROPERTY = "spring.security.strategy";
// 通过系统参数指定 存储模式
private static String strategyName = System.getProperty(SYSTEM_PROPERTY);
// 实际存储SecurityContext的接口(类)
private static SecurityContextHolderStrategy strategy;
private static int initializeCount = 0;
static {
// 初始化
initialize();
}
private static void initialize() {
initializeStrategy();
initializeCount++;
}
private static void initializeStrategy() {
...
if (!StringUtils.hasText(strategyName)) {
// Set default 默认 ThreadLocal
strategyName = MODE_THREADLOCAL;
}
if (strategyName.equals(MODE_THREADLOCAL)) {
strategy = new ThreadLocalSecurityContextHolderStrategy();
return;
}
...
}
// 修改Strategy
public static void setStrategyName(String strategyName) {
SecurityContextHolder.strategyName = strategyName;
initialize();
}
// 自定义Strategy
public static void setContextHolderStrategy(SecurityContextHolderStrategy strategy) {
Assert.notNull(strategy, "securityContextHolderStrategy cannot be null");
SecurityContextHolder.strategyName = MODE_PRE_INITIALIZED;
SecurityContextHolder.strategy = strategy;
initialize();
}
public static SecurityContext getContext() {
return strategy.getContext();
}
public static void setContext(SecurityContext context) {
strategy.setContext(context);
}
public static void clearContext() {
strategy.clearContext();
}
可以看到,SecurityContextHolder实际上是一个门面,具体的Context存储在SecurityContextHolderStrategy中,来看看该接口默认的实现 ThreadLocalSecurityContextHolderStrategy :
final class ThreadLocalSecurityContextHolderStrategy implements SecurityContextHolderStrategy {
// ThreadLocal
private static final ThreadLocal<SecurityContext> contextHolder = new ThreadLocal<>();
@Override
public void clearContext() {
contextHolder.remove();
}
@Override
public SecurityContext getContext() {
SecurityContext ctx = contextHolder.get();
if (ctx == null) {
ctx = createEmptyContext();
contextHolder.set(ctx);
}
return ctx;
}
@Override
public void setContext(SecurityContext context) {
Assert.notNull(context, "Only non-null SecurityContext instances are permitted");
contextHolder.set(context);
}
@Override
public SecurityContext createEmptyContext() {
return new SecurityContextImpl();
}
}
AuthenticationManager
public interface AuthenticationManager {
// 传入一个待认证的Authentication
// 返回 a fully authenticated object including credentials
Authentication authenticate(Authentication authentication) throws AuthenticationException;
}
AuthenticationManager的最常用实现类 ProviderManager,ProviderManager调用多个AuthenticationProvider来认证传入的Authentication,只要有一个认证成功即可返回(返回nonNull),否则会抛出异常,AuthenticationManager默认支持三种异常:
- DisabledException : 用户账号被disabled
- LockedException : 用户账号被locked
- BadCredentialsException : credentials错误(密码错误)
/**
* ProviderManager中的List<AuthenticationProvider>会按顺序认证,知道有一个返回非空。
* 如果后面的 AuthenticationProvider返回非空认证结果,前面抛出的异常统统清除;如果后面还有异常,以第一个异常为准
*
* 该类中有一个 parent 的字段,类型也为AuthenticationManager,
* 如果该类中的List<AuthenticationProvider>都不能认证,会调用parent认证,这个不常用。
*
* 事件发布:
* ProviderManager中认证事件发布委托给 AuthenticationEventPublisher 实现,默认是空实现。
* parent 的 ProviderManager中不要实现 Publisher,否则会重复发布。
**/
public class ProviderManager implements AuthenticationManager, MessageSourceAware, InitializingBean {
// 事件发布,默认空实现
private AuthenticationEventPublisher eventPublisher = new NullEventPublisher();
// 实际认证的AuthenticationProvider
private List<AuthenticationProvider> providers = Collections.emptyList();
// 父级认证Manager
private AuthenticationManager parent;
@Override
public Authentication authenticate(Authentication authentication) throws AuthenticationException {
for (AuthenticationProvider provider : getProviders()) {
if (!provider.supports(toTest)) {
continue;
}
...
result = provider.authenticate(authentication);
if (result != null) {
copyDetails(authentication, result);
break;
}
...
}
// 该类中AuthenticationManager都判断完了,结果还是空,调用parent开始认证
if (result == null && this.parent != null) {
// Allow the parent to try.
parentResult = this.parent.authenticate(authentication);
}
...
// AbstractAuthenticationToken就是Authentication接口的实现类,模板模式
// 常用的UsernamePasswordAuthenticationToken和OAuth2AuthenticationToken都extends这个Abstract类
private void copyDetails(Authentication source, Authentication dest) {
if ((dest instanceof AbstractAuthenticationToken) && (dest.getDetails() == null)) {
AbstractAuthenticationToken token = (AbstractAuthenticationToken) dest;
token.setDetails(source.getDetails());
}
}
}
可以看到 ProviderManager implements AuthenticationManager将认证工作进一步分配给 AuthenticationProvider,而这个AuthenticationProvider会根据支持的认证方式来认证,所以这个接口除了认证方法还有一个是否支持认证的判断方法:
public interface AuthenticationProvider {
Authentication authenticate(Authentication authentication) throws AuthenticationException;
boolean supports(Class<?> authentication);
AuthenticationProvider常见的实现类有:
DaoAuthenticationProvider: An AuthenticationProvider implementation that retrieves user details from aUserDetailsService. 用于UsernamePassword认证方式OAuth2AuthorizationCodeAuthenticationProvider: 在授权服务器上认证authorization_code,拿着code换accessTokenOAuth2LoginAuthenticationProvider: 在授权服务器上认证authorization_code,拿着code换accessToken(这一步委托给上面的OAuth2AuthorizationCodeAuthenticationProvider执行了),此外,还会拿着accessToken换取UserInfo,属于上面的加强版,OAuth2.0 Login一般都是调用这个Provider。OidcAuthorizationCodeAuthenticationProvider: 同上,不过在OAuth2.0基础上加了OpenID Connect协议。