因为现在都是前后端分离的架构,不太需要视图解析器了,有兴趣的可以自己研究。
package cn.imlql.web.controller;
@Controller
public class HelloController {
public HelloController(){
System.out.println("HelloController.....");
}
@GetMapping("/hello")
public String sayHello(@RequestParam(name = "name",required = true) String name, Integer i) {
int x = 10 / i;
return "index.jsp";
}
}
什么参数都不传,肯定是会报异常的,因为@RequestParam那里我加了个required。
报了一个缺少参数的错误,下面看看怎么处理的
private void processDispatchResult(HttpServletRequest request, HttpServletResponse response,
@Nullable HandlerExecutionChain mappedHandler, @Nullable ModelAndView mv,
@Nullable Exception exception) throws Exception {
boolean errorView = false;
//如果有异常处理异常,以下if内全是异常处理环节
if (exception != null) {
if (exception instanceof ModelAndViewDefiningException) {
logger.debug("ModelAndViewDefiningException encountered", exception);
mv = ((ModelAndViewDefiningException) exception).getModelAndView();
}
else { //定义无数种异常解析器就会得到不同的异常解析效果
Object handler = (mappedHandler != null ? mappedHandler.getHandler() : null);
mv = processHandlerException(request, response, handler, exception); //处理异常,所有的异常解析器都不能干活,这个异常就抛出去了
errorView = (mv != null);
}
}
//上面所有的异常解析器都没能处理这个异常,下面直接炸....
// 动态策略。 Did the handler return a view to render? 为啥?@ResponseBody(提前在解析返回值的时候,就已经把数据写出去了,所以这一步就没有了)
if (mv != null && !mv.wasCleared()) {
render(mv, request, response); //渲染ModeAndView,来解析模型和视图;最终决定响应效果
if (errorView) {
WebUtils.clearErrorRequestAttributes(request);
}
}
else {
if (logger.isTraceEnabled()) {
logger.trace("No view rendering, null ModelAndView returned.");
}
}
if (WebAsyncUtils.getAsyncManager(request).isConcurrentHandlingStarted()) {
// Concurrent handling started during a forward
return;
}
if (mappedHandler != null) {
// Exception (if any) is already handled..
mappedHandler.triggerAfterCompletion(request, response, null);
}
}
protected ModelAndView processHandlerException(HttpServletRequest request, HttpServletResponse response,
@Nullable Object handler, Exception ex) throws Exception {
// Success and error responses may use different content types
request.removeAttribute(HandlerMapping.PRODUCIBLE_MEDIA_TYPES_ATTRIBUTE);
// Check registered HandlerExceptionResolvers...
ModelAndView exMv = null; //所有异常解析器继续解析
if (this.handlerExceptionResolvers != null) {
for (HandlerExceptionResolver resolver : this.handlerExceptionResolvers) {
exMv = resolver.resolveException(request, response, handler, ex);
if (exMv != null) {
break;
}
}
}
if (exMv != null) {
if (exMv.isEmpty()) {
request.setAttribute(EXCEPTION_ATTRIBUTE, ex);
return null;
}
// We might still need view name translation for a plain error model...
if (!exMv.hasView()) {
String defaultViewName = getDefaultViewName(request);
if (defaultViewName != null) {
exMv.setViewName(defaultViewName);
}
}
if (logger.isTraceEnabled()) {
logger.trace("Using resolved error view: " + exMv, ex);
}
else if (logger.isDebugEnabled()) {
logger.debug("Using resolved error view: " + exMv);
}
WebUtils.exposeErrorRequestAttributes(request, ex, getServletName());
return exMv;
}
throw ex; //如果所有的异常解析器都不能解析就直接抛出这个异常
}
-
ExceptionHandlerExceptionResolver:所有@ExceptionHandler注解方式的异常处理由他来做,启动扫描了容器中所有标了@ControllerAdvice的类以及这个类里面所有@Exceptionhandler标注的方法,并且缓存这个方法能处理什么异常
-
ResponseStatusExceptionResolver:找异常类上有没有@ResponseStatus注解
-
DefaultHandlerExceptionResolver:异常是否是spring内部指定的异常,如果是,直接响应错误页sendError以及错误代码, 并返回new的空的ModelAndView(注意这里返回的是空,不是null)
@Override
@Nullable //父类抽象类规定的模板
public ModelAndView resolveException(
HttpServletRequest request, HttpServletResponse response, @Nullable Object handler, Exception ex) {
if (shouldApplyTo(request, handler)) {
prepareResponse(ex, response);
ModelAndView result = doResolveException(request, response, handler, ex); //留给子类的模板方法
if (result != null) {
// Print debug message when warn logger is not enabled.
if (logger.isDebugEnabled() && (this.warnLogger == null || !this.warnLogger.isWarnEnabled())) {
logger.debug("Resolved [" + ex + "]" + (result.isEmpty() ? "" : " to " + result));
}
// Explicitly configured warn logger in logException method.
logException(ex, request);
}
return result;
}
else {
return null;
}
}
protected final ModelAndView doResolveException(
HttpServletRequest request, HttpServletResponse response, @Nullable Object handler, Exception ex) {
HandlerMethod handlerMethod = (handler instanceof HandlerMethod ? (HandlerMethod) handler : null);
return doResolveHandlerMethodException(request, response, handlerMethod, ex);
}
下面开始进入实现类,因为index=0的是ExceptionHandlerExceptionResolver,就会先进入这个异常解析器
protected ModelAndView doResolveHandlerMethodException(HttpServletRequest request,
HttpServletResponse response, @Nullable HandlerMethod handlerMethod, Exception exception) {
//为当前异常找一个处理方法??? @ExceptionHandler注解标注的方法
ServletInvocableHandlerMethod exceptionHandlerMethod = getExceptionHandlerMethod(handlerMethod, exception);
if (exceptionHandlerMethod == null) {
return null;
}
//异常解析器里面 还是利用了以前的 argumentResolvers和 returnValueHandlers扩展了异常解析的功能
if (this.argumentResolvers != null) {
exceptionHandlerMethod.setHandlerMethodArgumentResolvers(this.argumentResolvers);
}
if (this.returnValueHandlers != null) {
exceptionHandlerMethod.setHandlerMethodReturnValueHandlers(this.returnValueHandlers);
}
ServletWebRequest webRequest = new ServletWebRequest(request, response);
ModelAndViewContainer mavContainer = new ModelAndViewContainer();
ArrayList<Throwable> exceptions = new ArrayList<>();
try {
if (logger.isDebugEnabled()) {
logger.debug("Using @ExceptionHandler " + exceptionHandlerMethod);
}
// Expose causes as provided arguments as well
Throwable exToExpose = exception;
while (exToExpose != null) {
exceptions.add(exToExpose);
Throwable cause = exToExpose.getCause();
exToExpose = (cause != exToExpose ? cause : null);
}
Object[] arguments = new Object[exceptions.size() + 1];
exceptions.toArray(arguments); // efficient arraycopy call in ArrayList
arguments[arguments.length - 1] = handlerMethod;
exceptionHandlerMethod.invokeAndHandle(webRequest, mavContainer, arguments);
}
catch (Throwable invocationEx) {
// Any other than the original exception (or a cause) is unintended here,
// probably an accident (e.g. failed assertion or the like).
if (!exceptions.contains(invocationEx) && logger.isWarnEnabled()) {
logger.warn("Failure in @ExceptionHandler " + exceptionHandlerMethod, invocationEx);
}
// Continue with default processing of the original exception...
return null;
}
if (mavContainer.isRequestHandled()) {
return new ModelAndView();
}
else {
ModelMap model = mavContainer.getModel();
HttpStatus status = mavContainer.getStatus();
ModelAndView mav = new ModelAndView(mavContainer.getViewName(), model, status);
mav.setViewName(mavContainer.getViewName());
if (!mavContainer.isViewReference()) {
mav.setView((View) mavContainer.getView());
}
if (model instanceof RedirectAttributes) {
Map<String, ?> flashAttributes = ((RedirectAttributes) model).getFlashAttributes();
RequestContextUtils.getOutputFlashMap(request).putAll(flashAttributes);
}
return mav;
}
}
protected ServletInvocableHandlerMethod getExceptionHandlerMethod(
@Nullable HandlerMethod handlerMethod, Exception exception) {
Class<?> handlerType = null;
if (handlerMethod != null) {
// Local exception handler methods on the controller class itself.
// To be invoked through the proxy, even in case of an interface-based proxy.
handlerType = handlerMethod.getBeanType();
ExceptionHandlerMethodResolver resolver = this.exceptionHandlerCache.get(handlerType);
if (resolver == null) {
resolver = new ExceptionHandlerMethodResolver(handlerType);
this.exceptionHandlerCache.put(handlerType, resolver);
}
Method method = resolver.resolveMethod(exception);
if (method != null) {
return new ServletInvocableHandlerMethod(handlerMethod.getBean(), method);
}
// For advice applicability check below (involving base packages, assignable types
// and annotation presence), use target class instead of interface-based proxy.
if (Proxy.isProxyClass(handlerType)) {
handlerType = AopUtils.getTargetClass(handlerMethod.getBean());
}
}
//遍历所有的@ControllerAdvice,看哪个类的方法能处理这个异常
for (Map.Entry<ControllerAdviceBean, ExceptionHandlerMethodResolver> entry : this.exceptionHandlerAdviceCache.entrySet()) {
ControllerAdviceBean advice = entry.getKey();
if (advice.isApplicableToBeanType(handlerType)) {
ExceptionHandlerMethodResolver resolver = entry.getValue();
Method method = resolver.resolveMethod(exception);
if (method != null) {
return new ServletInvocableHandlerMethod(advice.resolveBean(), method);
}
}
}
return null;
}
因为咱们没有@ControllerAdvice标注的类,所以这里会返回空
接着返回
准备循环第二个异常解析器
接下来还是父类AbstractHandlerMethodExceptionResolver那个模板方法,前面写了,这里直接跳过
protected ModelAndView doResolveException(
HttpServletRequest request, HttpServletResponse response, @Nullable Object handler, Exception ex) {
try {
if (ex instanceof ResponseStatusException) {
return resolveResponseStatusException((ResponseStatusException) ex, request, response, handler);
}
//拿到 ResponseStatus 注解
ResponseStatus status = AnnotatedElementUtils.findMergedAnnotation(ex.getClass(), ResponseStatus.class);
if (status != null) {
return resolveResponseStatus(status, request, response, handler, ex);
}
if (ex.getCause() instanceof Exception) {
return doResolveException(request, response, handler, (Exception) ex.getCause());
}
}
catch (Exception resolveEx) {
if (logger.isWarnEnabled()) {
logger.warn("Failure while trying to resolve exception [" + ex.getClass().getName() + "]", resolveEx);
}
}
return null;
}
因为咱们也没有标注@ResponseStatus注解,所以也是空,直接来到第三个异常解析器
@Override
@Nullable
protected ModelAndView doResolveException(
HttpServletRequest request, HttpServletResponse response, @Nullable Object handler, Exception ex) {
try { //处理SpringMVC底层的异常
if (ex instanceof HttpRequestMethodNotSupportedException) {
return handleHttpRequestMethodNotSupported(
(HttpRequestMethodNotSupportedException) ex, request, response, handler);
}
else if (ex instanceof HttpMediaTypeNotSupportedException) {
return handleHttpMediaTypeNotSupported(
(HttpMediaTypeNotSupportedException) ex, request, response, handler);
}
else if (ex instanceof HttpMediaTypeNotAcceptableException) {
return handleHttpMediaTypeNotAcceptable(
(HttpMediaTypeNotAcceptableException) ex, request, response, handler);
}
else if (ex instanceof MissingPathVariableException) {
return handleMissingPathVariable(
(MissingPathVariableException) ex, request, response, handler);
}
else if (ex instanceof MissingServletRequestParameterException) {
return handleMissingServletRequestParameter(
(MissingServletRequestParameterException) ex, request, response, handler);
}
else if (ex instanceof ServletRequestBindingException) {
return handleServletRequestBindingException(
(ServletRequestBindingException) ex, request, response, handler);
}
else if (ex instanceof ConversionNotSupportedException) {
return handleConversionNotSupported(
(ConversionNotSupportedException) ex, request, response, handler);
}
else if (ex instanceof TypeMismatchException) {
return handleTypeMismatch(
(TypeMismatchException) ex, request, response, handler);
}
else if (ex instanceof HttpMessageNotReadableException) {
return handleHttpMessageNotReadable(
(HttpMessageNotReadableException) ex, request, response, handler);
}
else if (ex instanceof HttpMessageNotWritableException) {
return handleHttpMessageNotWritable(
(HttpMessageNotWritableException) ex, request, response, handler);
}
else if (ex instanceof MethodArgumentNotValidException) {
return handleMethodArgumentNotValidException(
(MethodArgumentNotValidException) ex, request, response, handler);
}
else if (ex instanceof MissingServletRequestPartException) {
return handleMissingServletRequestPartException(
(MissingServletRequestPartException) ex, request, response, handler);
}
else if (ex instanceof BindException) {
return handleBindException((BindException) ex, request, response, handler);
}
else if (ex instanceof NoHandlerFoundException) {
return handleNoHandlerFoundException(
(NoHandlerFoundException) ex, request, response, handler);
}
else if (ex instanceof AsyncRequestTimeoutException) {
return handleAsyncRequestTimeoutException(
(AsyncRequestTimeoutException) ex, request, response, handler);
}
}
catch (Exception handlerEx) {
if (logger.isWarnEnabled()) {
logger.warn("Failure while trying to resolve exception [" + ex.getClass().getName() + "]", handlerEx);
}
}
return null;
}
protected ModelAndView handleMissingServletRequestParameter(MissingServletRequestParameterException ex,
HttpServletRequest request, HttpServletResponse response, @Nullable Object handler) throws IOException {
//直接 sendError tomcat展示错误页
response.sendError(HttpServletResponse.SC_BAD_REQUEST, ex.getMessage());
return new ModelAndView();
}
这就是咱们刚刚报的错,缺少参数
看到这里返回了一个空的ModelAndView,并不是NULL
最后下面再处理下拦截器
最终结束
我们这样写:http://localhost:8080/springmvc_source_test/hello?name=zhangsan&i=0
前面讲的不再重复
到了第三个异常解析器也依然处理不了,于是出现了一个谁都处理不了的异常
然后就抛出此异常
在这一步抛出了异常,整个方法直接炸了,后面的逻辑全都不走了
private void triggerAfterCompletion(HttpServletRequest request, HttpServletResponse response,
@Nullable HandlerExecutionChain mappedHandler, Exception ex) throws Exception {
if (mappedHandler != null) {
mappedHandler.triggerAfterCompletion(request, response, ex);
}
throw ex; //抛出去
}
执行完拦截器,异常继续往上抛,一层一层往上抛,最终抛给了tomcat
这就是tomcat的默认错误页+堆栈页
@ResponseStatus(value = HttpStatus.CONFLICT, reason = "非法用户")
public class InvalidUserException extends RuntimeException {
private static final long serialVersionUID = -7034897190745766222L;
}
package cn.imlql.web.controller;
@Controller
public class HelloController {
public HelloController(){
System.out.println("HelloController.....");
}
@GetMapping("/hello")
public String sayHello(@RequestParam(name = "name",required = true) String name {
if ("abc".equals(name)) {
//非法的用户信息
throw new InvalidUserException();
}
return "index.jsp";
}
}
protected ModelAndView doResolveException(
HttpServletRequest request, HttpServletResponse response, @Nullable Object handler, Exception ex) {
try {
if (ex instanceof ResponseStatusException) {
return resolveResponseStatusException((ResponseStatusException) ex, request, response, handler);
}
//拿到 ResponseStatus 注解
ResponseStatus status = AnnotatedElementUtils.findMergedAnnotation(ex.getClass(), ResponseStatus.class);
if (status != null) {
return resolveResponseStatus(status, request, response, handler, ex);
}
if (ex.getCause() instanceof Exception) {
return doResolveException(request, response, handler, (Exception) ex.getCause());
}
}
catch (Exception resolveEx) {
if (logger.isWarnEnabled()) {
logger.warn("Failure while trying to resolve exception [" + ex.getClass().getName() + "]", resolveEx);
}
}
return null;
}
protected ModelAndView resolveResponseStatus(ResponseStatus responseStatus, HttpServletRequest request,
HttpServletResponse response, @Nullable Object handler, Exception ex) throws Exception {
//获取注解指定的响应状态码和错误原因
int statusCode = responseStatus.code().value();
String reason = responseStatus.reason();
return applyStatusAndReason(statusCode, reason, response);
}
protected ModelAndView applyStatusAndReason(int statusCode, @Nullable String reason, HttpServletResponse response)
throws IOException {
if (!StringUtils.hasLength(reason)) {
response.sendError(statusCode); //返回默认错误页
}
else {
String resolvedReason = (this.messageSource != null ?
this.messageSource.getMessage(reason, null, reason, LocaleContextHolder.getLocale()) :
reason);
response.sendError(statusCode, resolvedReason);
}
return new ModelAndView();
}
页面效果
@ControllerAdvice //专门处理所有controller异常的,它是一个复合注解,里面有@Component,所以默认加在容器中
public class MyExceptionHandler {
@ResponseBody
@ExceptionHandler(value = {ArithmeticException.class})
public String handleZeroException(Exception exception){
//参数位置 https://docs.spring.io/spring-framework/docs/current/reference/html/web.html#mvc-ann-exceptionhandler-args
//返回值 https://docs.spring.io/spring-framework/docs/current/reference/html/web.html#mvc-ann-exceptionhandler-return-values
return "Error";
}
}
异常处理器能写这么多参数和返回值,也是用了参数解析器,返回值处理器
package cn.imlql.web.controller;
@Controller
public class HelloController {
public HelloController(){
System.out.println("HelloController.....");
}
@GetMapping("/hello")
public String sayHello(Integer i) {
int x = 10 / i;
return "index.jsp";
}
}
protected ModelAndView doResolveHandlerMethodException(HttpServletRequest request,
HttpServletResponse response, @Nullable HandlerMethod handlerMethod, Exception exception) {
//为当前异常找一个处理方法??? @ExceptionHandler注解标注的方法
ServletInvocableHandlerMethod exceptionHandlerMethod = getExceptionHandlerMethod(handlerMethod, exception);
if (exceptionHandlerMethod == null) {
return null;
}
//异常解析器里面 还是利用了以前的 argumentResolvers和 returnValueHandlers扩展了异常解析的功能
if (this.argumentResolvers != null) {
exceptionHandlerMethod.setHandlerMethodArgumentResolvers(this.argumentResolvers);
}
if (this.returnValueHandlers != null) {
exceptionHandlerMethod.setHandlerMethodReturnValueHandlers(this.returnValueHandlers);
}
ServletWebRequest webRequest = new ServletWebRequest(request, response);
ModelAndViewContainer mavContainer = new ModelAndViewContainer();
ArrayList<Throwable> exceptions = new ArrayList<>();
try {
if (logger.isDebugEnabled()) {
logger.debug("Using @ExceptionHandler " + exceptionHandlerMethod);
}
// Expose causes as provided arguments as well
Throwable exToExpose = exception;
while (exToExpose != null) {
exceptions.add(exToExpose);
Throwable cause = exToExpose.getCause();
exToExpose = (cause != exToExpose ? cause : null);
}
Object[] arguments = new Object[exceptions.size() + 1];
exceptions.toArray(arguments); // efficient arraycopy call in ArrayList
arguments[arguments.length - 1] = handlerMethod;
exceptionHandlerMethod.invokeAndHandle(webRequest, mavContainer, arguments);
}
catch (Throwable invocationEx) {
// Any other than the original exception (or a cause) is unintended here,
// probably an accident (e.g. failed assertion or the like).
if (!exceptions.contains(invocationEx) && logger.isWarnEnabled()) {
logger.warn("Failure in @ExceptionHandler " + exceptionHandlerMethod, invocationEx);
}
// Continue with default processing of the original exception...
return null;
}
if (mavContainer.isRequestHandled()) {
return new ModelAndView();
}
else {
ModelMap model = mavContainer.getModel();
HttpStatus status = mavContainer.getStatus();
ModelAndView mav = new ModelAndView(mavContainer.getViewName(), model, status);
mav.setViewName(mavContainer.getViewName());
if (!mavContainer.isViewReference()) {
mav.setView((View) mavContainer.getView());
}
if (model instanceof RedirectAttributes) {
Map<String, ?> flashAttributes = ((RedirectAttributes) model).getFlashAttributes();
RequestContextUtils.getOutputFlashMap(request).putAll(flashAttributes);
}
return mav;
}
}
最终调到这里
private Method getMappedMethod(Class<? extends Throwable> exceptionType) {
List<Class<? extends Throwable>> matches = new ArrayList<>();
for (Class<? extends Throwable> mappedException : this.mappedMethods.keySet()) {
if (mappedException.isAssignableFrom(exceptionType)) {
matches.add(mappedException);
}
}
if (!matches.isEmpty()) {
if (matches.size() > 1) {
matches.sort(new ExceptionDepthComparator(exceptionType));
}
return this.mappedMethods.get(matches.get(0));
}
else {
return NO_MATCHING_EXCEPTION_HANDLER_METHOD;
}
}
- 可以看到异常处理的方法和springmvc的普通Controller方法最终走到了相同的反射执行逻辑
- 这也是为什么叫@ControllerAdvice,仅仅是Controller的增强
@Override //实现了 InitilazingBean 的组件,在容器创建完对象以后,会初始化调用 InitilazingBean
public void afterPropertiesSet() {
//初始化@ExceptionHandler 增强的缓存 Do this first, it may add ResponseBodyAdvice beans
initExceptionHandlerAdviceCache();
//准备好异常解析用的参数解析器
if (this.argumentResolvers == null) {
List<HandlerMethodArgumentResolver> resolvers = getDefaultArgumentResolvers();
this.argumentResolvers = new HandlerMethodArgumentResolverComposite().addResolvers(resolvers);
}
if (this.returnValueHandlers == null) {
List<HandlerMethodReturnValueHandler> handlers = getDefaultReturnValueHandlers();
this.returnValueHandlers = new HandlerMethodReturnValueHandlerComposite().addHandlers(handlers);
}
}
还是咱们的老朋友InitializingBean,一样的逻辑,不讲了
private void initExceptionHandlerAdviceCache() {
if (getApplicationContext() == null) {
return;
}
//找到所有的 ControllerAdviceBean(标注了@ControllerAdvice注解的类) 、
List<ControllerAdviceBean> adviceBeans = ControllerAdviceBean.findAnnotatedBeans(getApplicationContext());
for (ControllerAdviceBean adviceBean : adviceBeans) {
Class<?> beanType = adviceBean.getBeanType();
if (beanType == null) {
throw new IllegalStateException("Unresolvable type for ControllerAdviceBean: " + adviceBean);
}
ExceptionHandlerMethodResolver resolver = new ExceptionHandlerMethodResolver(beanType);
if (resolver.hasExceptionMappings()) {
this.exceptionHandlerAdviceCache.put(adviceBean, resolver);
}
if (ResponseBodyAdvice.class.isAssignableFrom(beanType)) {
this.responseBodyAdvice.add(adviceBean);
}
}
if (logger.isDebugEnabled()) {
int handlerSize = this.exceptionHandlerAdviceCache.size();
int adviceSize = this.responseBodyAdvice.size();
if (handlerSize == 0 && adviceSize == 0) {
logger.debug("ControllerAdvice beans: none");
}
else {
logger.debug("ControllerAdvice beans: " +
handlerSize + " @ExceptionHandler, " + adviceSize + " ResponseBodyAdvice");
}
}
}
public static List<ControllerAdviceBean> findAnnotatedBeans(ApplicationContext context) {
ListableBeanFactory beanFactory = context;
if (context instanceof ConfigurableApplicationContext) {
// Use internal BeanFactory for potential downcast to ConfigurableBeanFactory above
beanFactory = ((ConfigurableApplicationContext) context).getBeanFactory();
}
List<ControllerAdviceBean> adviceBeans = new ArrayList<>();
for (String name : BeanFactoryUtils.beanNamesForTypeIncludingAncestors(beanFactory, Object.class)) {
if (!ScopedProxyUtils.isScopedTarget(name)) { //拿到所有组件看谁标注了 @ControllerAdvice
ControllerAdvice controllerAdvice = beanFactory.findAnnotationOnBean(name, ControllerAdvice.class);
if (controllerAdvice != null) {
// Use the @ControllerAdvice annotation found by findAnnotationOnBean()
// in order to avoid a subsequent lookup of the same annotation.
adviceBeans.add(new ControllerAdviceBean(name, beanFactory, controllerAdvice));
}
}
}
OrderComparator.sort(adviceBeans);
return adviceBeans;
}
public static final MethodFilter EXCEPTION_HANDLER_METHODS = method ->
AnnotatedElementUtils.hasAnnotation(method, ExceptionHandler.class);
public ExceptionHandlerMethodResolver(Class<?> handlerType) { //扫描当前这个ControllerAdvice中所有标注了@ExceptionHandler的方法
for (Method method : MethodIntrospector.selectMethods(handlerType, EXCEPTION_HANDLER_METHODS)) {
for (Class<? extends Throwable> exceptionType : detectExceptionMappings(method)) {
addExceptionMapping(exceptionType, method);// 每一个方法能处理什么异常类型,放入到map里
}
}
}
//每一个方法能处理什么异常类型,缓存到Map中。
private void addExceptionMapping(Class<? extends Throwable> exceptionType, Method method) {
Method oldMethod = this.mappedMethods.put(exceptionType, method);
if (oldMethod != null && !oldMethod.equals(method)) {
throw new IllegalStateException("Ambiguous @ExceptionHandler method mapped for [" +
exceptionType + "]: {" + oldMethod + ", " + method + "}");
}
}
private final Map<Class<? extends Throwable>, Method> mappedMethods = new HashMap<>(16);
你也可以自己写一个异常解析器,比如@YouthExceptionHandler,这个注解将异常信息存档,比如存到hdfs,实时看报错日志。下面是思路:
- 我们的@YouthExceptionHandler实现InitilazingBean接口,在PropertiesSet()时,分析所有标注了@YouthExceptionHandler注解的方法,在方法执行时进行hdfs存档
- 在以前如果我们自定义自己的组件之后,DispatcherServlet就不再用内部提供的默认组件,导致我们失去了很多默认功能。
- 比如在前面我们没讲的视图解析器,我在自己测试自定义视图解析器的时候,我发现只有自定义的视图解析器了,springmvc提供的默认视图解析器就没了。看下图
- 我们最想要的结果就是既有我们自定义的组件,也有springmvc默认提供的组件。spring也提供了解决方法@EnableWebMvc+WebMvcConfigurer
- 同时@EnableWebMvc+WebMvcConfigurer也使得扩展自定义组件变的很方便
@EnableWebMvc //启用SpringMVC功能
@Configuration //
public class MvcExtendConfiguration implements WebMvcConfigurer {
public void configureViewResolvers(ViewResolverRegistry registry) {
registry.viewResolver(new MeiNvViewResolver());
//不改源码就如下操作
InternalResourceViewResolver viewResolver = new InternalResourceViewResolver();
viewResolver.setPrefix("");
viewResolver.setSuffix(".jsp"); //controller的返回值就不用写jsp
registry.viewResolver(viewResolver);
}
}
WebMvcConfigurer就是给我们定制的,@EnableWebMvc就是启用默认的,下面讲讲原理
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.TYPE)
@Documented
@Import(DelegatingWebMvcConfiguration.class)
public @interface EnableWebMvc {
}
@Configuration(proxyBeanMethods = false)
public class DelegatingWebMvcConfiguration extends WebMvcConfigurationSupport {
//这里是个组合关系
private final WebMvcConfigurerComposite configurers = new WebMvcConfigurerComposite();
@Autowired(required = false) //拿到容器中所有的 WebMvcConfigurer
public void setConfigurers(List<WebMvcConfigurer> configurers) {
if (!CollectionUtils.isEmpty(configurers)) {
this.configurers.addWebMvcConfigurers(configurers);
}
}
@Override
protected void configureViewResolvers(ViewResolverRegistry registry) {
this.configurers.configureViewResolvers(registry);
}
@Override
protected void addArgumentResolvers(List<HandlerMethodArgumentResolver> argumentResolvers) {
this.configurers.addArgumentResolvers(argumentResolvers);
}
@Override
protected void addReturnValueHandlers(List<HandlerMethodReturnValueHandler> returnValueHandlers) {
this.configurers.addReturnValueHandlers(returnValueHandlers);
}
@Override
protected void configureMessageConverters(List<HttpMessageConverter<?>> converters) {
this.configurers.configureMessageConverters(converters);
}
@Override
protected void extendMessageConverters(List<HttpMessageConverter<?>> converters) {
this.configurers.extendMessageConverters(converters);
}
//...下面还有很多跟上面三个几乎一模一样的代码
}
我们以ViewResolvers为例
@Override
public void configureViewResolvers(ViewResolverRegistry registry) {
for (WebMvcConfigurer delegate : this.delegates) {
delegate.configureViewResolvers(registry); //最终这里会调到我们自定义的那个
}
}
@Override
public void addArgumentResolvers(List<HandlerMethodArgumentResolver> argumentResolvers) {
for (WebMvcConfigurer delegate : this.delegates) {
delegate.addArgumentResolvers(argumentResolvers);
}
}
@Override
public void addReturnValueHandlers(List<HandlerMethodReturnValueHandler> returnValueHandlers) {
for (WebMvcConfigurer delegate : this.delegates) {
delegate.addReturnValueHandlers(returnValueHandlers);
}
}
//......
- 这里最终都会调用子类的实现
- 那么@EnableWebMvc是如何导入很多默认组件。提供默认功能的呢?核心就是下面的WebMvcConfigurationSupport
WebMvcConfigurationSupport是DelegatingWebMvcConfiguration的父类
public class WebMvcConfigurationSupport implements ApplicationContextAware, ServletContextAware {
@Bean
public BeanNameUrlHandlerMapping beanNameHandlerMapping(
@Qualifier("mvcConversionService") FormattingConversionService conversionService,
@Qualifier("mvcResourceUrlProvider") ResourceUrlProvider resourceUrlProvider) {
//......
}
@Bean
public RequestMappingHandlerAdapter requestMappingHandlerAdapter(
@Qualifier("mvcContentNegotiationManager") ContentNegotiationManager contentNegotiationManager,
@Qualifier("mvcConversionService") FormattingConversionService conversionService,
@Qualifier("mvcValidator") Validator validator) {
//......
}
@Bean
public ViewResolver mvcViewResolver(
@Qualifier("mvcContentNegotiationManager") ContentNegotiationManager contentNegotiationManager) {
//......
}
@Bean
@Lazy
public HandlerMappingIntrospector mvcHandlerMappingIntrospector() {
return new HandlerMappingIntrospector();
}
@Bean
public LocaleResolver localeResolver() {
return new AcceptHeaderLocaleResolver();
}
@Bean
public ThemeResolver themeResolver() {
return new FixedThemeResolver();
}
@Bean
public FlashMapManager flashMapManager() {
return new SessionFlashMapManager();
}
@Bean
public RequestToViewNameTranslator viewNameTranslator() {
return new DefaultRequestToViewNameTranslator();
}
@Bean
@SuppressWarnings("deprecation")
public RequestMappingHandlerMapping requestMappingHandlerMapping(@Qualifier("mvcContentNegotiationManager") ContentNegotiationManager contentNegotiationManager,
@Qualifier("mvcConversionService") FormattingConversionService conversionService,
@Qualifier("mvcResourceUrlProvider") ResourceUrlProvider resourceUrlProvider){
RequestMappingHandlerMapping mapping = createRequestMappingHandlerMapping();
mapping.setOrder(0);
mapping.setInterceptors(getInterceptors(conversionService, resourceUrlProvider));
mapping.setContentNegotiationManager(contentNegotiationManager);
mapping.setCorsConfigurations(getCorsConfigurations());
//...
}
//......
}
- 此类里面放了很多默认组件,包括九大组件还有很多我没列举出来的
protected final Object[] getInterceptors(
FormattingConversionService mvcConversionService,
ResourceUrlProvider mvcResourceUrlProvider) {
if (this.interceptors == null) {
InterceptorRegistry registry = new InterceptorRegistry();
addInterceptors(registry); //子类模板先来修改 registry
registry.addInterceptor(new ConversionServiceExposingInterceptor(mvcConversionService));
registry.addInterceptor(new ResourceUrlProviderExposingInterceptor(mvcResourceUrlProvider));
this.interceptors = registry.getInterceptors();
}
return this.interceptors.toArray();
}
- 导入了这么多组件,这些组件在关键时刻会调用子类重写的方法,比如上面面的addInterceptors(registry);会先调用
子类DelegatingWebMvcConfiguration#addInterceptors()
@Override
protected void addInterceptors(InterceptorRegistry registry) {
this.configurers.addInterceptors(registry); //如果我们继承了WebMvcConfigurer,并且重写了addInterceptors,这里就会加进来
}
- 也就是每一个组件的关键核心位置都留给了子类来重写
@Bean //给容器中放了视图解析器,容器中一开始就有mvcViewResolver这个bean的定义信息
public ViewResolver mvcViewResolver(
@Qualifier("mvcContentNegotiationManager") ContentNegotiationManager contentNegotiationManager) {
ViewResolverRegistry registry =
new ViewResolverRegistry(contentNegotiationManager, this.applicationContext);
configureViewResolvers(registry); //前面自己扩展配置视图解析器,
//只有不自定义视图解析器,才会给容器放入默认视图解析器
if (registry.getViewResolvers().isEmpty() || this.applicationContext != null) {
String[] names = BeanFactoryUtils.beanNamesForTypeIncludingAncestors( //容器中只有一个组件的定义
this.applicationContext, ViewResolver.class, true, false);
if (true || names.length == 1) { //容器中有视图解析器,会把 InternalResourceViewResolver 放在容器中
registry.getViewResolvers().add(new InternalResourceViewResolver()); //总是把默认的加入进去
}
}
//我们如果扩展配置了,完全按照我们configureViewResolvers,如果没有配置,用默认
ViewResolverComposite composite = new ViewResolverComposite();
composite.setOrder(registry.getOrder());
composite.setViewResolvers(registry.getViewResolvers());
if (this.applicationContext != null) {
composite.setApplicationContext(this.applicationContext);
}
if (this.servletContext != null) {
composite.setServletContext(this.servletContext);
}
return composite;
}
所以如果即想要自定义视图解析器,又想要默认的,就下面这样写
@EnableWebMvc //启用SpringMVC功能
@Configuration //
public class MvcExtendConfiguration implements WebMvcConfigurer {
public void configureViewResolvers(ViewResolverRegistry registry) {
registry.viewResolver(new MeiNvViewResolver());
//不改源码就如下操作
InternalResourceViewResolver viewResolver = new InternalResourceViewResolver();
viewResolver.setPrefix("");
viewResolver.setSuffix(".jsp"); //controller的返回值就不用写jsp
registry.viewResolver(viewResolver);
}
}
其它组件可能也会有默认组件失效的情况,可以触类旁通看下源码
- @EnableWebMvc导入的类会加入SpringMVC的很多核心默认组件,拥有默认功能
- 这些默认组件在扩展的时候都是留给接口 WebMvcConfigurer(访问者模式,拿到真正的内容,比如上面的registry进行修改) 4、MeiNvViewResolver+InternalResourceViewResolver 5、@EnableWebMvc只是开启了SpringMVC最基本的功能,即使是以前自己也要配置默认视图解析器