文章目录
- springmvc 全局异常处理器配置的三种方式&深入底层源码分析原理
- 配置全局异常处理器的三种方式
- 实现接口HandlerExceptionResolver并配置到WebMvcConfigurer
- 注解式配置@ExceptionHandler
- controller里方法上定义@ExceptionHandler
- 深入源码分析
- 进入DispatcherServlet
- 执行handler方法并catch异常
springmvc 全局异常处理器配置的三种方式&深入底层源码分析原理
配置全局异常处理器的三种方式
实现接口HandlerExceptionResolver并配置到WebMvcConfigurer
定义一个类实现这个接口
/**
* Interface to be implemented by objects that can resolve exceptions thrown during
* handler mapping or execution, in the typical case to error views. Implementors are
* typically registered as beans in the application context.
*
* <p>Error views are analogous to JSP error pages but can be used with any kind of
* exception including any checked exception, with potentially fine-grained mappings for
* specific handlers.
*
* @author Juergen Hoeller
* @since 22.11.2003
*/
public interface HandlerExceptionResolver {
/**
* Try to resolve the given exception that got thrown during handler execution,
* returning a {@link ModelAndView} that represents a specific error page if appropriate.
* <p>The returned {@code ModelAndView} may be {@linkplain ModelAndView#isEmpty() empty}
* to indicate that the exception has been resolved successfully but that no view
* should be rendered, for instance by setting a status code.
* @param request current HTTP request
* @param response current HTTP response
* @param handler the executed handler, or {@code null} if none chosen at the
* time of the exception (for example, if multipart resolution failed)
* @param ex the exception that got thrown during handler execution
* @return a corresponding {@code ModelAndView} to forward to,
* or {@code null} for default processing in the resolution chain
*/
@Nullable
ModelAndView resolveException(
HttpServletRequest request, HttpServletResponse response, @Nullable Object handler, Exception ex);
}
定义一个配置类实现接口 WebMvcConfigurer 并重写方法configureHandlerExceptionResolvers将你定义的这个resolver加入到resolvers这个List即可
注解式配置@ExceptionHandler
要让spring扫描到这个类,一种方式是直接把这个类放到springboot能扫描的目录下(启动类当前目录或者子目录,或者在启动类手动配置的扫描组件目录),另一种方式是放在工具类里,定义到spring.factories里让spring扫描到,注意设置个@Order(0)让这个优先于springmvc注解错误处理器之前注入到容器,否则会无效,因为那个处理器只加载一次,后续不会再扫容器里的实例了。
/**
* @author humorchen
* date: 2024/6/11
* description: 认证全局异常配置
**/
@Slf4j
@RestControllerAdvice
@Order(0)
public class AuthExceptionResolver {
public static final int TOKEN_ERROR_CODE = HttpStatus.HTTP_UNAUTHORIZED;
public static final String ERROR_MSG = "未登录或登录已失效!";
/**
* TOKEN相关异常
*
* @param e
* @return
*/
@ExceptionHandler({SaTokenException.class, JWTVerificationException.class})
public Result<String> resolveAuthTokenException(Exception e) {
log.info("handleSaTokenException {}: {}", e.getClass().getName(), e.getMessage());
return Result.fail(TOKEN_ERROR_CODE, ERROR_MSG);
}
}
看到上面代码,你会有一个疑问,要是定义了多个,它怎么确定该用哪个呢,源码中使用ExceptionDepthComparator排序,排序规则是按照继承顺序来(继承关系越靠近数值越小,当前类最小为0,顶级父类Throwable为int最大值),排序之后选取继承关系最靠近的那个,并且ExceptionHandlerMethodResolver的exceptionLookupCache中,key为当前抛出的异常,value为解析出来的匹配method.
org.springframework.core.ExceptionDepthComparator
controller里方法上定义@ExceptionHandler
@RestController
public class ExceptionController {
@ExceptionHandler(Exception.class)
public ResponseEntity<String> handleException(Exception ex) {
return ResponseEntity.status(HttpStatus.INTERNAL_SERVER_ERROR)
.body("An error occurred: " + ex.getMessage());
}
@RequestMapping("/test")
public String test() throws Exception {
throw new Exception("Test exception!");
}
}
深入源码分析
进入DispatcherServlet
执行handler方法并catch异常
调用processDispatchResult处理分发处理结果
发现有异常则调用processHandlerException 处理handler异常
如果有handlerExceptionResovlers就循环调用,直到有一个resolver返回了非空值就跳出循环
默认resolver,就是把这个异常放到了request.attribute里头去了
HandlerExceptionResolverComposite,是handler异常处理器的复合类,把这些resolver放到它内部一个集合
点开这个类源码看下,其实就是在我们在webmvcconfigurer里配置这个方法的时候,把配置的所有resolver设置进这个类里的this.resolvers 集合去了,进调试可以看到有两个resolver,一个是我自定义并配置上的ExceptionResolver,另一个是个Http请求异常处理器(seata的HttpHandlerExceptionResolver)
分布式事务用来清理ID的,不用管
第三个也是我注入的那个错误处理器
如果经过这些处理器,有一个返回了非空的结果,这个异常 处理就会被结束
执行完所有的resolver,有一个返回了ModelAndView的话就返回这个ModelAndView,否则继续抛出异常往上层传递。然后触发请求handler的triggerAfterCompletion,也就是执行你所有跟这个handler绑定的HandlerInterceptor的afterCompletion
前面看的都是HandlerExceptionResolver的实现,还有那个注解式的实现,我们也一起看下这个ExceptionHandlerExceptionResolver 类的源码,就是用来处理 @ExceptionHandler的
/**
* An {@link AbstractHandlerMethodExceptionResolver} that resolves exceptions
* through {@code @ExceptionHandler} methods.
*
* <p>Support for custom argument and return value types can be added via
* {@link #setCustomArgumentResolvers} and {@link #setCustomReturnValueHandlers}.
* Or alternatively to re-configure all argument and return value types use
* {@link #setArgumentResolvers} and {@link #setReturnValueHandlers(List)}.
*
* @author Rossen Stoyanchev
* @author Juergen Hoeller
* @since 3.1
*/
public class ExceptionHandlerExceptionResolver extends AbstractHandlerMethodExceptionResolver
implements ApplicationContextAware, InitializingBean {
@Nullable
private List<HandlerMethodArgumentResolver> customArgumentResolvers;
@Nullable
private HandlerMethodArgumentResolverComposite argumentResolvers;
@Nullable
private List<HandlerMethodReturnValueHandler> customReturnValueHandlers;
@Nullable
private HandlerMethodReturnValueHandlerComposite returnValueHandlers;
private List<HttpMessageConverter<?>> messageConverters;
private ContentNegotiationManager contentNegotiationManager = new ContentNegotiationManager();
private final List<Object> responseBodyAdvice = new ArrayList<>();
@Nullable
private ApplicationContext applicationContext;
private final Map<Class<?>, ExceptionHandlerMethodResolver> exceptionHandlerCache =
new ConcurrentHashMap<>(64);
private final Map<ControllerAdviceBean, ExceptionHandlerMethodResolver> exceptionHandlerAdviceCache =
new LinkedHashMap<>();
在这个bean执行到afterPropertiesSet这个时间点的时候进行了 @ExceptionHandler实现的扫描initExceptionHandlerAdviceCache(),如果你的 @ExceptionHandler配置bean在这个时间点之后注入进IOC容器的话,那么恭喜你,你的配置不会生效,因此前面我说要让自己的这个配置优先级变高,才能生效。
ControllerAdviceBean.findAnnotatedBeans(getApplicationContext())
把所有的标注了@ControllerAdvice注解的bean全部找出来并根据order排序返回了
看到这你会疑问还有个@RestControllerAdvice,来看源码,@RestControllerAdvice上标注了@ControllerAdvice
前面已经看了加载过程,现在看执行处理异常的代码,其实就是拿着加载好的处理器,去调用处理,然后参数呢又是可选的,随便你定义,那个其实是反射拿到你方法定义的参数,然后跟现有能给你的一些参数比对类型,然后组成一个参数数组,传入执行对象、参数反射执行方法,然后就拿到了异常处理结果
组装生成调用参数数组的方法就在这org.springframework.web.method.support.InvocableHandlerMethod#getMethodArgumentValues
也就是把异常对象和当前的handlerMethod给你了,你自己可以写到参数里它会注入给你的
ExceptionHandler原理另一个作者也写的不错:
从源码角度去深入分析关于Spring的异常处理ExceptionHandler的实现原理