Controller層代碼這么寫,簡(jiǎn)潔又優(yōu)雅!
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一個(gè)優(yōu)秀的Controller層邏輯
說到
Controller,相信大家都不陌生,它可以很方便地對(duì)外提供數(shù)據(jù)接口。它的定位,我認(rèn)為是「不可或缺的配角」,說它不可或缺是因?yàn)闊o論是傳統(tǒng)的三層架構(gòu)還是現(xiàn)在的COLA架構(gòu),Controller層依舊有一席之地,說明他的必要性;說它是配角是因?yàn)?Controller層的代碼一般是不負(fù)責(zé)具體的邏輯業(yè)務(wù)邏輯實(shí)現(xiàn),但是它負(fù)責(zé)接收和響應(yīng)請(qǐng)求
從現(xiàn)狀看問題
Controller 主要的工作有以下幾項(xiàng)
接收請(qǐng)求并解析參數(shù) 調(diào)用 Service 執(zhí)行具體的業(yè)務(wù)代碼(可能包含參數(shù)校驗(yàn)) 捕獲業(yè)務(wù)邏輯異常做出反饋 業(yè)務(wù)邏輯執(zhí)行成功做出響應(yīng)
//DTO
@Data
public class TestDTO {
private Integer num;
private String type;
}
//Service
@Service
public class TestService {
public Double service(TestDTO testDTO) throws Exception {
if (testDTO.getNum() <= 0) {
throw new Exception("輸入的數(shù)字需要大于0");
}
if (testDTO.getType().equals("square")) {
return Math.pow(testDTO.getNum(), 2);
}
if (testDTO.getType().equals("factorial")) {
double result = 1;
int num = testDTO.getNum();
while (num > 1) {
result = result * num;
num -= 1;
}
return result;
}
throw new Exception("未識(shí)別的算法");
}
}
//Controller
@RestController
public class TestController {
private TestService testService;
@PostMapping("/test")
public Double test(@RequestBody TestDTO testDTO) {
try {
Double result = this.testService.service(testDTO);
return result;
} catch (Exception e) {
throw new RuntimeException(e);
}
}
@Autowired
public DTOid setTestService(TestService testService) {
this.testService = testService;
}
}
如果真的按照上面所列的工作項(xiàng)來開發(fā) Controller 代碼會(huì)有幾個(gè)問題
參數(shù)校驗(yàn)過多地耦合了業(yè)務(wù)代碼,違背單一職責(zé)原則 可能在多個(gè)業(yè)務(wù)中都拋出同一個(gè)異常,導(dǎo)致代碼重復(fù) 各種異常反饋和成功響應(yīng)格式不統(tǒng)一,接口對(duì)接不友好
改造 Controller 層邏輯
統(tǒng)一返回結(jié)構(gòu)
統(tǒng)一返回值類型無論項(xiàng)目前后端是否分離都是非常必要的,方便對(duì)接接口的開發(fā)人員更加清晰地知道這個(gè)接口的調(diào)用是否成功(不能僅僅簡(jiǎn)單地看返回值是否為 null 就判斷成功與否,因?yàn)橛行┙涌诘脑O(shè)計(jì)就是如此),使用一個(gè)狀態(tài)碼、狀態(tài)信息就能清楚地了解接口調(diào)用情況
//定義返回?cái)?shù)據(jù)結(jié)構(gòu)
public interface IResult {
Integer getCode();
String getMessage();
}
//常用結(jié)果的枚舉
public enum ResultEnum implements IResult {
SUCCESS(2001, "接口調(diào)用成功"),
VALIDATE_FAILED(2002, "參數(shù)校驗(yàn)失敗"),
COMMON_FAILED(2003, "接口調(diào)用失敗"),
FORBIDDEN(2004, "沒有權(quán)限訪問資源");
private Integer code;
private String message;
//省略get、set方法和構(gòu)造方法
}
//統(tǒng)一返回?cái)?shù)據(jù)結(jié)構(gòu)
@Data
@NoArgsConstructor
@AllArgsConstructor
public class Result<T> {
private Integer code;
private String message;
private T data;
public static <T> Result<T> success(T data) {
return new Result<>(ResultEnum.SUCCESS.getCode(), ResultEnum.SUCCESS.getMessage(), data);
}
public static <T> Result<T> success(String message, T data) {
return new Result<>(ResultEnum.SUCCESS.getCode(), message, data);
}
public static Result<?> failed() {
return new Result<>(ResultEnum.COMMON_FAILED.getCode(), ResultEnum.COMMON_FAILED.getMessage(), null);
}
public static Result<?> failed(String message) {
return new Result<>(ResultEnum.COMMON_FAILED.getCode(), message, null);
}
public static Result<?> failed(IResult errorResult) {
return new Result<>(errorResult.getCode(), errorResult.getMessage(), null);
}
public static <T> Result<T> instance(Integer code, String message, T data) {
Result<T> result = new Result<>();
result.setCode(code);
result.setMessage(message);
result.setData(data);
return result;
}
}
統(tǒng)一返回結(jié)構(gòu)后,在 Controller 中就可以使用了,但是每一個(gè) Controller 都寫這么一段最終封裝的邏輯,這些都是很重復(fù)的工作,所以還要繼續(xù)想辦法進(jìn)一步處理統(tǒng)一返回結(jié)構(gòu)
統(tǒng)一包裝處理
Spring 中提供了一個(gè)類 ResponseBodyAdvice ,能幫助我們實(shí)現(xiàn)上述需求
ResponseBodyAdvice 是對(duì) Controller 返回的內(nèi)容在 HttpMessageConverter 進(jìn)行類型轉(zhuǎn)換之前攔截,進(jìn)行相應(yīng)的處理操作后,再將結(jié)果返回給客戶端。那這樣就可以把統(tǒng)一包裝的工作放到這個(gè)類里面。
public interface ResponseBodyAdvice<T> {
boolean supports(MethodParameter returnType, Class<? extends HttpMessageConverter<?>> converterType);
@Nullable
T beforeBodyWrite(@Nullable T body, MethodParameter returnType, MediaType selectedContentType, Class<? extends HttpMessageConverter<?>> selectedConverterType, ServerHttpRequest request, ServerHttpResponse response);
}
supports:判斷是否要交給beforeBodyWrite方法執(zhí)行,ture:需要;false:不需要beforeBodyWrite:對(duì)response進(jìn)行具體的處理
// 如果引入了swagger或knife4j的文檔生成組件,這里需要僅掃描自己項(xiàng)目的包,否則文檔無法正常生成
@RestControllerAdvice(basePackages = "com.example.demo")
public class ResponseAdvice implements ResponseBodyAdvice<Object> {
@Override
public boolean supports(MethodParameter returnType, Class<? extends HttpMessageConverter<?>> converterType) {
// 如果不需要進(jìn)行封裝的,可以添加一些校驗(yàn)手段,比如添加標(biāo)記排除的注解
return true;
}
@Override
public Object beforeBodyWrite(Object body, MethodParameter returnType, MediaType selectedContentType, Class<? extends HttpMessageConverter<?>> selectedConverterType, ServerHttpRequest request, ServerHttpResponse response) {
// 提供一定的靈活度,如果body已經(jīng)被包裝了,就不進(jìn)行包裝
if (body instanceof Result) {
return body;
}
return Result.success(body);
}
}
經(jīng)過這樣改造,既能實(shí)現(xiàn)對(duì) Controller 返回的數(shù)據(jù)進(jìn)行統(tǒng)一包裝,又不需要對(duì)原有代碼進(jìn)行大量的改動(dòng)
參數(shù)校驗(yàn)
Java API 的規(guī)范 JSR303 定義了校驗(yàn)的標(biāo)準(zhǔn) validation-api ,其中一個(gè)比較出名的實(shí)現(xiàn)是 hibernate validation ,spring validation 是對(duì)其的二次封裝,常用于 SpringMVC 的參數(shù)自動(dòng)校驗(yàn),參數(shù)校驗(yàn)的代碼就不需要再與業(yè)務(wù)邏輯代碼進(jìn)行耦合了
@PathVariable 和 @RequestParam 參數(shù)校驗(yàn)
Get 請(qǐng)求的參數(shù)接收一般依賴這兩個(gè)注解,但是處于 url 有長(zhǎng)度限制和代碼的可維護(hù)性,超過 5 個(gè)參數(shù)盡量用實(shí)體來傳參
對(duì) @PathVariable 和 @RequestParam 參數(shù)進(jìn)行校驗(yàn)需要在入?yún)⒙暶骷s束的注解
如果校驗(yàn)失敗,會(huì)拋出 MethodArgumentNotValidException 異常
@RestController(value = "prettyTestController")
@RequestMapping("/pretty")
@Validated
public class TestController {
private TestService testService;
@GetMapping("/{num}")
public Integer detail(@PathVariable("num") @Min(1) @Max(20) Integer num) {
return num * num;
}
@GetMapping("/getByEmail")
public TestDTO getByAccount(@RequestParam @NotBlank @Email String email) {
TestDTO testDTO = new TestDTO();
testDTO.setEmail(email);
return testDTO;
}
@Autowired
public void setTestService(TestService prettyTestService) {
this.testService = prettyTestService;
}
}
校驗(yàn)原理
在 SpringMVC 中,有一個(gè)類是 RequestResponseBodyMethodProcessor ,這個(gè)類有兩個(gè)作用(實(shí)際上可以從名字上得到一點(diǎn)啟發(fā))
用于解析 @RequestBody標(biāo)注的參數(shù)處理 @ResponseBody標(biāo)注方法的返回值
解析 @RequestBoyd 標(biāo)注參數(shù)的方法是 resolveArgument
public class RequestResponseBodyMethodProcessor extends AbstractMessageConverterMethodProcessor {
/**
* Throws MethodArgumentNotValidException if validation fails.
* @throws HttpMessageNotReadableException if {@link RequestBody#required()}
* is {@code true} and there is no body content or if there is no suitable
* converter to read the content with.
*/
@Override
public Object resolveArgument(MethodParameter parameter, @Nullable ModelAndViewContainer mavContainer,
NativeWebRequest webRequest, @Nullable WebDataBinderFactory binderFactory) throws Exception {
parameter = parameter.nestedIfOptional();
//把請(qǐng)求數(shù)據(jù)封裝成標(biāo)注的DTO對(duì)象
Object arg = readWithMessageConverters(webRequest, parameter, parameter.getNestedGenericParameterType());
String name = Conventions.getVariableNameForParameter(parameter);
if (binderFactory != null) {
WebDataBinder binder = binderFactory.createBinder(webRequest, arg, name);
if (arg != null) {
//執(zhí)行數(shù)據(jù)校驗(yàn)
validateIfApplicable(binder, parameter);
//如果校驗(yàn)不通過,就拋出MethodArgumentNotValidException異常
//如果我們不自己捕獲,那么最終會(huì)由DefaultHandlerExceptionResolver捕獲處理
if (binder.getBindingResult().hasErrors() && isBindExceptionRequired(binder, parameter)) {
throw new MethodArgumentNotValidException(parameter, binder.getBindingResult());
}
}
if (mavContainer != null) {
mavContainer.addAttribute(BindingResult.MODEL_KEY_PREFIX + name, binder.getBindingResult());
}
}
return adaptArgumentIfNecessary(arg, parameter);
}
}
public abstract class AbstractMessageConverterMethodArgumentResolver implements HandlerMethodArgumentResolver {
/**
* Validate the binding target if applicable.
* <p>The default implementation checks for {@code @javax.validation.Valid},
* Spring's {@link org.springframework.validation.annotation.Validated},
* and custom annotations whose name starts with "Valid".
* @param binder the DataBinder to be used
* @param parameter the method parameter descriptor
* @since 4.1.5
* @see #isBindExceptionRequired
*/
protected void validateIfApplicable(WebDataBinder binder, MethodParameter parameter) {
//獲取參數(shù)上的所有注解
Annotation[] annotations = parameter.getParameterAnnotations();
for (Annotation ann : annotations) {
//如果注解中包含了@Valid、@Validated或者是名字以Valid開頭的注解就進(jìn)行參數(shù)校驗(yàn)
Object[] validationHints = ValidationAnnotationUtils.determineValidationHints(ann);
if (validationHints != null) {
//實(shí)際校驗(yàn)邏輯,最終會(huì)調(diào)用Hibernate Validator執(zhí)行真正的校驗(yàn)
//所以Spring Validation是對(duì)Hibernate Validation的二次封裝
binder.validate(validationHints);
break;
}
}
}
}
@RequestBody 參數(shù)校驗(yàn)
Post、Put 請(qǐng)求的參數(shù)推薦使用 @RequestBody 請(qǐng)求體參數(shù)
對(duì) @RequestBody 參數(shù)進(jìn)行校驗(yàn)需要在 DTO 對(duì)象中加入校驗(yàn)條件后,再搭配 @Validated 即可完成自動(dòng)校驗(yàn)
如果校驗(yàn)失敗,會(huì)拋出 ConstraintViolationException 異常
//DTO
@Data
public class TestDTO {
@NotBlank
private String userName;
@NotBlank
@Length(min = 6, max = 20)
private String password;
@NotNull
@Email
private String email;
}
//Controller
@RestController(value = "prettyTestController")
@RequestMapping("/pretty")
public class TestController {
private TestService testService;
@PostMapping("/test-validation")
public void testValidation(@RequestBody @Validated TestDTO testDTO) {
this.testService.save(testDTO);
}
@Autowired
public void setTestService(TestService testService) {
this.testService = testService;
}
}
校驗(yàn)原理
聲明約束的方式,注解加到了參數(shù)上面,可以比較容易猜測(cè)到是使用了 AOP 對(duì)方法進(jìn)行增強(qiáng)
而實(shí)際上 Spring 也是通過 MethodValidationPostProcessor 動(dòng)態(tài)注冊(cè) AOP 切面,然后使用 MethodValidationInterceptor 對(duì)切點(diǎn)方法進(jìn)行織入增強(qiáng)
public class MethodValidationPostProcessor extends AbstractBeanFactoryAwareAdvisingPostProcessor implements InitializingBean {
//指定了創(chuàng)建切面的Bean的注解
private Class<? extends Annotation> validatedAnnotationType = Validated.class;
@Override
public void afterPropertiesSet() {
//為所有@Validated標(biāo)注的Bean創(chuàng)建切面
Pointcut pointcut = new AnnotationMatchingPointcut(this.validatedAnnotationType, true);
//創(chuàng)建Advisor進(jìn)行增強(qiáng)
this.advisor = new DefaultPointcutAdvisor(pointcut, createMethodValidationAdvice(this.validator));
}
//創(chuàng)建Advice,本質(zhì)就是一個(gè)方法攔截器
protected Advice createMethodValidationAdvice(@Nullable Validator validator) {
return (validator != null ? new MethodValidationInterceptor(validator) : new MethodValidationInterceptor());
}
}
public class MethodValidationInterceptor implements MethodInterceptor {
@Override
public Object invoke(MethodInvocation invocation) throws Throwable {
//無需增強(qiáng)的方法,直接跳過
if (isFactoryBeanMetadataMethod(invocation.getMethod())) {
return invocation.proceed();
}
Class<?>[] groups = determineValidationGroups(invocation);
ExecutableValidator execVal = this.validator.forExecutables();
Method methodToValidate = invocation.getMethod();
Set<ConstraintViolation<Object>> result;
try {
//方法入?yún)⑿r?yàn),最終還是委托給Hibernate Validator來校驗(yàn)
//所以Spring Validation是對(duì)Hibernate Validation的二次封裝
result = execVal.validateParameters(
invocation.getThis(), methodToValidate, invocation.getArguments(), groups);
}
catch (IllegalArgumentException ex) {
...
}
//校驗(yàn)不通過拋出ConstraintViolationException異常
if (!result.isEmpty()) {
throw new ConstraintViolationException(result);
}
//Controller方法調(diào)用
Object returnValue = invocation.proceed();
//下面是對(duì)返回值做校驗(yàn),流程和上面大概一樣
result = execVal.validateReturnValue(invocation.getThis(), methodToValidate, returnValue, groups);
if (!result.isEmpty()) {
throw new ConstraintViolationException(result);
}
return returnValue;
}
}
自定義校驗(yàn)規(guī)則
有些時(shí)候 JSR303 標(biāo)準(zhǔn)中提供的校驗(yàn)規(guī)則不滿足復(fù)雜的業(yè)務(wù)需求,也可以自定義校驗(yàn)規(guī)則
自定義校驗(yàn)規(guī)則需要做兩件事情
自定義注解類,定義錯(cuò)誤信息和一些其他需要的內(nèi)容 注解校驗(yàn)器,定義判定規(guī)則
//自定義注解類
@Target({ElementType.METHOD, ElementType.FIELD, ElementType.ANNOTATION_TYPE, ElementType.CONSTRUCTOR, ElementType.PARAMETER})
@Retention(RetentionPolicy.RUNTIME)
@Documented
@Constraint(validatedBy = MobileValidator.class)
public @interface Mobile {
/**
* 是否允許為空
*/
boolean required() default true;
/**
* 校驗(yàn)不通過返回的提示信息
*/
String message() default "不是一個(gè)手機(jī)號(hào)碼格式";
/**
* Constraint要求的屬性,用于分組校驗(yàn)和擴(kuò)展,留空就好
*/
Class<?>[] groups() default {};
Class<? extends Payload>[] payload() default {};
}
//注解校驗(yàn)器
public class MobileValidator implements ConstraintValidator<Mobile, CharSequence> {
private boolean required = false;
private final Pattern pattern = Pattern.compile("^1[34578][0-9]{9}$"); // 驗(yàn)證手機(jī)號(hào)
/**
* 在驗(yàn)證開始前調(diào)用注解里的方法,從而獲取到一些注解里的參數(shù)
*
* @param constraintAnnotation annotation instance for a given constraint declaration
*/
@Override
public void initialize(Mobile constraintAnnotation) {
this.required = constraintAnnotation.required();
}
/**
* 判斷參數(shù)是否合法
*
* @param value object to validate
* @param context context in which the constraint is evaluated
*/
@Override
public boolean isValid(CharSequence value, ConstraintValidatorContext context) {
if (this.required) {
// 驗(yàn)證
return isMobile(value);
}
if (StringUtils.hasText(value)) {
// 驗(yàn)證
return isMobile(value);
}
return true;
}
private boolean isMobile(final CharSequence str) {
Matcher m = pattern.matcher(str);
return m.matches();
}
}
自動(dòng)校驗(yàn)參數(shù)真的是一項(xiàng)非常必要、非常有意義的工作。JSR303 提供了豐富的參數(shù)校驗(yàn)規(guī)則,再加上復(fù)雜業(yè)務(wù)的自定義校驗(yàn)規(guī)則,完全把參數(shù)校驗(yàn)和業(yè)務(wù)邏輯解耦開,代碼更加簡(jiǎn)潔,符合單一職責(zé)原則。
更多關(guān)于 Spring 參數(shù)校驗(yàn)請(qǐng)參考:
https://juejin.cn/post/6856541106626363399
自定義異常與統(tǒng)一攔截異常
原來的代碼中可以看到有幾個(gè)問題
拋出的異常不夠具體,只是簡(jiǎn)單地把錯(cuò)誤信息放到了 Exception中拋出異常后, Controller不能具體地根據(jù)異常做出反饋雖然做了參數(shù)自動(dòng)校驗(yàn),但是異常返回結(jié)構(gòu)和正常返回結(jié)構(gòu)不一致
自定義異常是為了后面統(tǒng)一攔截異常時(shí),對(duì)業(yè)務(wù)中的異常有更加細(xì)顆粒度的區(qū)分,攔截時(shí)針對(duì)不同的異常作出不同的響應(yīng)
而統(tǒng)一攔截異常的目的一個(gè)是為了可以與前面定義下來的統(tǒng)一包裝返回結(jié)構(gòu)能對(duì)應(yīng)上,另一個(gè)是我們希望無論系統(tǒng)發(fā)生什么異常,Http 的狀態(tài)碼都要是 200 ,盡可能由業(yè)務(wù)來區(qū)分系統(tǒng)的異常
//自定義異常
public class ForbiddenException extends RuntimeException {
public ForbiddenException(String message) {
super(message);
}
}
//自定義異常
public class BusinessException extends RuntimeException {
public BusinessException(String message) {
super(message);
}
}
//統(tǒng)一攔截異常
@RestControllerAdvice(basePackages = "com.example.demo")
public class ExceptionAdvice {
/**
* 捕獲 {@code BusinessException} 異常
*/
@ExceptionHandler({BusinessException.class})
public Result<?> handleBusinessException(BusinessException ex) {
return Result.failed(ex.getMessage());
}
/**
* 捕獲 {@code ForbiddenException} 異常
*/
@ExceptionHandler({ForbiddenException.class})
public Result<?> handleForbiddenException(ForbiddenException ex) {
return Result.failed(ResultEnum.FORBIDDEN);
}
/**
* {@code @RequestBody} 參數(shù)校驗(yàn)不通過時(shí)拋出的異常處理
*/
@ExceptionHandler({MethodArgumentNotValidException.class})
public Result<?> handleMethodArgumentNotValidException(MethodArgumentNotValidException ex) {
BindingResult bindingResult = ex.getBindingResult();
StringBuilder sb = new StringBuilder("校驗(yàn)失敗:");
for (FieldError fieldError : bindingResult.getFieldErrors()) {
sb.append(fieldError.getField()).append(":").append(fieldError.getDefaultMessage()).append(", ");
}
String msg = sb.toString();
if (StringUtils.hasText(msg)) {
return Result.failed(ResultEnum.VALIDATE_FAILED.getCode(), msg);
}
return Result.failed(ResultEnum.VALIDATE_FAILED);
}
/**
* {@code @PathVariable} 和 {@code @RequestParam} 參數(shù)校驗(yàn)不通過時(shí)拋出的異常處理
*/
@ExceptionHandler({ConstraintViolationException.class})
public Result<?> handleConstraintViolationException(ConstraintViolationException ex) {
if (StringUtils.hasText(ex.getMessage())) {
return Result.failed(ResultEnum.VALIDATE_FAILED.getCode(), ex.getMessage());
}
return Result.failed(ResultEnum.VALIDATE_FAILED);
}
/**
* 頂級(jí)異常捕獲并統(tǒng)一處理,當(dāng)其他異常無法處理時(shí)候選擇使用
*/
@ExceptionHandler({Exception.class})
public Result<?> handle(Exception ex) {
return Result.failed(ex.getMessage());
}
}
總結(jié)
做好了這一切改動(dòng)后,可以發(fā)現(xiàn) Controller 的代碼變得非常簡(jiǎn)潔,可以很清楚地知道每一個(gè)參數(shù)、每一個(gè) DTO 的校驗(yàn)規(guī)則,可以很明確地看到每一個(gè) Controller 方法返回的是什么數(shù)據(jù),也可以方便每一個(gè)異常應(yīng)該如何進(jìn)行反饋
這一套操作下來后,我們能更加專注于業(yè)務(wù)邏輯的開發(fā),代碼簡(jiǎn)潔、功能完善,何樂而不為呢?
轉(zhuǎn)自:juejin.cn/post/7123091045071454238
評(píng)論
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