深入理解Feign之源码解析

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本文出自方志朋的博客

什么是Feign

Feign是受到Retrofit,JAXRS-2.0和WebSocket的影响,它是一个jav的到http客户端绑定的开源项目。 Feign的主要目标是将Java Http 客户端变得简单。Feign的源码地址:https://github.com/OpenFeign/feign

写一个Feign

在我之前的博文有写到如何用Feign去消费服务,文章地址:http://blog.csdn.net/forezp/article/details/69808079 。

现在来简单的实现一个Feign客户端,首先通过@FeignClient,客户端,其中value为调用其他服务的名称,FeignConfig.class为FeignClient的配置文件,代码如下:


@FeignClient(value = "service-hi",configuration = FeignConfig.class)
public interface SchedualServiceHi {
    @GetMapping(value = "/hi")
    String sayHiFromClientOne(@RequestParam(value = "name") String name);
}

其自定义配置文件如下,当然也可以不写配置文件,用默认的即可:

@Configuration
public class FeignConfig {

    @Bean
    public Retryer feignRetryer() {
        return new Retryer.Default(100, SECONDS.toMillis(1), 5);
    }
    
}


查看FeignClient注解的源码,其代码如下:


@Target(ElementType.TYPE)
@Retention(RetentionPolicy.RUNTIME)
@Documented
public @interface FeignClient {

@AliasFor("name")
String value() default "";
    
@AliasFor("value")
String name() default "";
    
@AliasFor("value")
String name() default "";
String url() default "";
boolean decode404() default false;

Class[] configuration() default {};
Class fallback() default void.class;

Class fallbackFactory() default void.class;
}

String path() default "";

boolean primary() default true;

FeignClient注解被@Target(ElementType.TYPE)修饰,表示FeignClient注解的作用目标在接口上;
@Retention(RetentionPolicy.RUNTIME),注解会在class字节码文件中存在,在运行时可以通过反射获取到;@Documented表示该注解将被包含在javadoc中。

feign 用于声明具有该接口的REST客户端的接口的注释应该是创建(例如用于自动连接到另一个组件。 如果功能区可用,那将是
用于负载平衡后端请求,并且可以配置负载平衡器
使用与伪装客户端相同名称(即值)@RibbonClient 。

其中value()和name()一样,是被调用的 service的名称。
url(),直接填写硬编码的url,decode404()即404是否被解码,还是抛异常;configuration(),标明FeignClient的配置类,默认的配置类为FeignClientsConfiguration类,可以覆盖Decoder、Encoder和Contract等信息,进行自定义配置。fallback(),填写熔断器的信息类。

FeignClient的配置

默认的配置类为FeignClientsConfiguration,这个类在spring-cloud-netflix-core的jar包下,打开这个类,可以发现它是一个配置类,注入了很多的相关配置的bean,包括feignRetryer、FeignLoggerFactory、FormattingConversionService等,其中还包括了Decoder、Encoder、Contract,如果这三个bean在没有注入的情况下,会自动注入默认的配置。

  • Decoder feignDecoder: ResponseEntityDecoder(这是对SpringDecoder的封装)
  • Encoder feignEncoder: SpringEncoder
  • Logger feignLogger: Slf4jLogger
  • Contract feignContract: SpringMvcContract
  • Feign.Builder feignBuilder: HystrixFeign.Builder

代码如下:

@Configuration
public class FeignClientsConfiguration {

...//省略代码

@Bean
    @ConditionalOnMissingBean
    public Decoder feignDecoder() {
        return new ResponseEntityDecoder(new SpringDecoder(this.messageConverters));
    }

    @Bean
    @ConditionalOnMissingBean
    public Encoder feignEncoder() {
        return new SpringEncoder(this.messageConverters);
    }

    @Bean
    @ConditionalOnMissingBean
    public Contract feignContract(ConversionService feignConversionService) {
        return new SpringMvcContract(this.parameterProcessors, feignConversionService);
    }

...//省略代码
}


重写配置:

你可以重写FeignClientsConfiguration中的bean,从而达到自定义配置的目的,比如FeignClientsConfiguration的默认重试次数为Retryer.NEVER_RETRY,即不重试,那么希望做到重写,写个配置文件,注入feignRetryer的bean,代码如下:

@Configuration
public class FeignConfig {

    @Bean
    public Retryer feignRetryer() {
        return new Retryer.Default(100, SECONDS.toMillis(1), 5);
    }

}

在上述代码更改了该FeignClient的重试次数,重试间隔为100ms,最大重试时间为1s,重试次数为5次。

Feign的工作原理

feign是一个伪客户端,即它不做任何的请求处理。Feign通过处理注解生成request,从而实现简化HTTP API开发的目的,即开发人员可以使用注解的方式定制request api模板,在发送http request请求之前,feign通过处理注解的方式替换掉request模板中的参数,这种实现方式显得更为直接、可理解。

通过包扫描注入FeignClient的bean,该源码在FeignClientsRegistrar类:
首先在启动配置上检查是否有@EnableFeignClients注解,如果有该注解,则开启包扫描,扫描被@FeignClient注解接口。代码如下:

private void registerDefaultConfiguration(AnnotationMetadata metadata,
            BeanDefinitionRegistry registry) {
        Map defaultAttrs = metadata
                .getAnnotationAttributes(EnableFeignClients.class.getName(), true);

        if (defaultAttrs != null && defaultAttrs.containsKey("defaultConfiguration")) {
            String name;
            if (metadata.hasEnclosingClass()) {
                name = "default." + metadata.getEnclosingClassName();
            }
            else {
                name = "default." + metadata.getClassName();
            }
            registerClientConfiguration(registry, name,
                    defaultAttrs.get("defaultConfiguration"));
        }
    }


程序启动后通过包扫描,当类有@FeignClient注解,将注解的信息取出,连同类名一起取出,赋给BeanDefinitionBuilder,然后根据BeanDefinitionBuilder得到beanDefinition,最后beanDefinition式注入到ioc容器中,源码如下:

public void registerFeignClients(AnnotationMetadata metadata,
            BeanDefinitionRegistry registry) {
        ClassPathScanningCandidateComponentProvider scanner = getScanner();
        scanner.setResourceLoader(this.resourceLoader);

        Set basePackages;

        Map attrs = metadata
                .getAnnotationAttributes(EnableFeignClients.class.getName());
        AnnotationTypeFilter annotationTypeFilter = new AnnotationTypeFilter(
                FeignClient.class);
        final Class[] clients = attrs == null ? null
                : (Class[]) attrs.get("clients");
        if (clients == null || clients.length == 0) {
            scanner.addIncludeFilter(annotationTypeFilter);
            basePackages = getBasePackages(metadata);
        }
        else {
            final Set clientClasses = new HashSet<>();
            basePackages = new HashSet<>();
            for (Class clazz : clients) {
                basePackages.add(ClassUtils.getPackageName(clazz));
                clientClasses.add(clazz.getCanonicalName());
            }
            AbstractClassTestingTypeFilter filter = new AbstractClassTestingTypeFilter() {
                @Override
                protected boolean match(ClassMetadata metadata) {
                    String cleaned = metadata.getClassName().replaceAll("\\$", ".");
                    return clientClasses.contains(cleaned);
                }
            };
            scanner.addIncludeFilter(
                    new AllTypeFilter(Arrays.asList(filter, annotationTypeFilter)));
        }

        for (String basePackage : basePackages) {
            Set candidateComponents = scanner
                    .findCandidateComponents(basePackage);
            for (BeanDefinition candidateComponent : candidateComponents) {
                if (candidateComponent instanceof AnnotatedBeanDefinition) {
                    // verify annotated class is an interface
                    AnnotatedBeanDefinition beanDefinition = (AnnotatedBeanDefinition) candidateComponent;
                    AnnotationMetadata annotationMetadata = beanDefinition.getMetadata();
                    Assert.isTrue(annotationMetadata.isInterface(),
                            "@FeignClient can only be specified on an interface");

                    Map attributes = annotationMetadata
                            .getAnnotationAttributes(
                                    FeignClient.class.getCanonicalName());

                    String name = getClientName(attributes);
                    registerClientConfiguration(registry, name,
                            attributes.get("configuration"));

                    registerFeignClient(registry, annotationMetadata, attributes);
                }
            }
        }
    }


private void registerFeignClient(BeanDefinitionRegistry registry,
            AnnotationMetadata annotationMetadata, Map attributes) {
        String className = annotationMetadata.getClassName();
        BeanDefinitionBuilder definition = BeanDefinitionBuilder
                .genericBeanDefinition(FeignClientFactoryBean.class);
        validate(attributes);
        definition.addPropertyValue("url", getUrl(attributes));
        definition.addPropertyValue("path", getPath(attributes));
        String name = getName(attributes);
        definition.addPropertyValue("name", name);
        definition.addPropertyValue("type", className);
        definition.addPropertyValue("decode404", attributes.get("decode404"));
        definition.addPropertyValue("fallback", attributes.get("fallback"));
        definition.addPropertyValue("fallbackFactory", attributes.get("fallbackFactory"));
        definition.setAutowireMode(AbstractBeanDefinition.AUTOWIRE_BY_TYPE);

        String alias = name + "FeignClient";
        AbstractBeanDefinition beanDefinition = definition.getBeanDefinition();

        boolean primary = (Boolean)attributes.get("primary"); // has a default, won't be null

        beanDefinition.setPrimary(primary);

        String qualifier = getQualifier(attributes);
        if (StringUtils.hasText(qualifier)) {
            alias = qualifier;
        }

        BeanDefinitionHolder holder = new BeanDefinitionHolder(beanDefinition, className,
                new String[] { alias });
        BeanDefinitionReaderUtils.registerBeanDefinition(holder, registry);
    }



注入bean之后,通过jdk的代理,当请求Feign Client的方法时会被拦截,代码在ReflectiveFeign类,代码如下:

 public  T newInstance(Target target) {
    Map nameToHandler = targetToHandlersByName.apply(target);
    Map methodToHandler = new LinkedHashMap();
    List defaultMethodHandlers = new LinkedList();

    for (Method method : target.type().getMethods()) {
      if (method.getDeclaringClass() == Object.class) {
        continue;
      } else if(Util.isDefault(method)) {
        DefaultMethodHandler handler = new DefaultMethodHandler(method);
        defaultMethodHandlers.add(handler);
        methodToHandler.put(method, handler);
      } else {
        methodToHandler.put(method, nameToHandler.get(Feign.configKey(target.type(), method)));
      }
    }
    InvocationHandler handler = factory.create(target, methodToHandler);
    T proxy = (T) Proxy.newProxyInstance(target.type().getClassLoader(), new Class[]{target.type()}, handler);

    for(DefaultMethodHandler defaultMethodHandler : defaultMethodHandlers) {
      defaultMethodHandler.bindTo(proxy);
    }
    return proxy;
  }

在SynchronousMethodHandler类进行拦截处理,当被FeignClient的方法被拦截会根据参数生成RequestTemplate对象,该对象就是http请求的模板,代码如下:

 @Override
  public Object invoke(Object[] argv) throws Throwable {
    RequestTemplate template = buildTemplateFromArgs.create(argv);
    Retryer retryer = this.retryer.clone();
    while (true) {
      try {
        return executeAndDecode(template);
      } catch (RetryableException e) {
        retryer.continueOrPropagate(e);
        if (logLevel != Logger.Level.NONE) {
          logger.logRetry(metadata.configKey(), logLevel);
        }
        continue;
      }
    }
  }

其中有个executeAndDecode()方法,该方法是通RequestTemplate生成Request请求对象,然后根据用client获取response。

  Object executeAndDecode(RequestTemplate template) throws Throwable {
    Request request = targetRequest(template);
    ...//省略代码
    response = client.execute(request, options);
    ...//省略代码

}

Client组件

其中Client组件是一个非常重要的组件,Feign最终发送request请求以及接收response响应,都是由Client组件完成的,其中Client的实现类,只要有Client.Default,该类由HttpURLConnnection实现网络请求,另外还支持HttpClient、Okhttp.

首先来看以下在FeignRibbonClient的自动配置类,FeignRibbonClientAutoConfiguration ,主要在工程启动的时候注入一些bean,其代码如下:

@ConditionalOnClass({ ILoadBalancer.class, Feign.class })
@Configuration
@AutoConfigureBefore(FeignAutoConfiguration.class)
public class FeignRibbonClientAutoConfiguration {

@Bean
    @ConditionalOnMissingBean
    public Client feignClient(CachingSpringLoadBalancerFactory cachingFactory,
            SpringClientFactory clientFactory) {
        return new LoadBalancerFeignClient(new Client.Default(null, null),
                cachingFactory, clientFactory);
    }

}

在缺失配置feignClient的情况下,会自动注入new Client.Default(),跟踪Client.Default()源码,它使用的网络请求框架为HttpURLConnection,代码如下:

  @Override
    public Response execute(Request request, Options options) throws IOException {
      HttpURLConnection connection = convertAndSend(request, options);
      return convertResponse(connection).toBuilder().request(request).build();
    }

怎么在feign中使用HttpClient,查看FeignRibbonClientAutoConfiguration的源码

@ConditionalOnClass({ ILoadBalancer.class, Feign.class })
@Configuration
@AutoConfigureBefore(FeignAutoConfiguration.class)
public class FeignRibbonClientAutoConfiguration {
...//省略代码

@Configuration
    @ConditionalOnClass(ApacheHttpClient.class)
    @ConditionalOnProperty(value = "feign.httpclient.enabled", matchIfMissing = true)
    protected static class HttpClientFeignLoadBalancedConfiguration {

        @Autowired(required = false)
        private HttpClient httpClient;

        @Bean
        @ConditionalOnMissingBean(Client.class)
        public Client feignClient(CachingSpringLoadBalancerFactory cachingFactory,
                SpringClientFactory clientFactory) {
            ApacheHttpClient delegate;
            if (this.httpClient != null) {
                delegate = new ApacheHttpClient(this.httpClient);
            }
            else {
                delegate = new ApacheHttpClient();
            }
            return new LoadBalancerFeignClient(delegate, cachingFactory, clientFactory);
        }
    }

...//省略代码
}

从代码@ConditionalOnClass(ApacheHttpClient.class)注解可知道,只需要在pom文件加上HttpClient的classpath就行了,另外需要在配置文件上加上feign.httpclient.enabled为true,从 @ConditionalOnProperty注解可知,这个可以不写,在默认的情况下就为true.

在pom文件加上:



    com.netflix.feign
    feign-httpclient
    RELEASE


同理,如果想要feign使用Okhttp,则只需要在pom文件上加上feign-okhttp的依赖:


    com.netflix.feign
    feign-okhttp
    RELEASE


feign的负载均衡是怎么样实现的呢?

通过上述的FeignRibbonClientAutoConfiguration类配置Client的类型(httpurlconnection,okhttp和httpclient)时候,可知最终向容器注入的是LoadBalancerFeignClient,即负载均衡客户端。现在来看下LoadBalancerFeignClient的代码:

    @Override
    public Response execute(Request request, Request.Options options) throws IOException {
        try {
            URI asUri = URI.create(request.url());
            String clientName = asUri.getHost();
            URI uriWithoutHost = cleanUrl(request.url(), clientName);
            FeignLoadBalancer.RibbonRequest ribbonRequest = new FeignLoadBalancer.RibbonRequest(
                    this.delegate, request, uriWithoutHost);

            IClientConfig requestConfig = getClientConfig(options, clientName);
            return lbClient(clientName).executeWithLoadBalancer(ribbonRequest,
                    requestConfig).toResponse();
        }
        catch (ClientException e) {
            IOException io = findIOException(e);
            if (io != null) {
                throw io;
            }
            throw new RuntimeException(e);
        }
    }

其中有个executeWithLoadBalancer()方法,即通过负载均衡的方式请求。

  public T executeWithLoadBalancer(final S request, final IClientConfig requestConfig) throws ClientException {
        RequestSpecificRetryHandler handler = getRequestSpecificRetryHandler(request, requestConfig);
        LoadBalancerCommand command = LoadBalancerCommand.builder()
                .withLoadBalancerContext(this)
                .withRetryHandler(handler)
                .withLoadBalancerURI(request.getUri())
                .build();

        try {
            return command.submit(
                new ServerOperation() {
                    @Override
                    public Observable call(Server server) {
                        URI finalUri = reconstructURIWithServer(server, request.getUri());
                        S requestForServer = (S) request.replaceUri(finalUri);
                        try {
                            return Observable.just(AbstractLoadBalancerAwareClient.this.execute(requestForServer, requestConfig));
                        } 
                        catch (Exception e) {
                            return Observable.error(e);
                        }
                    }
                })
                .toBlocking()
                .single();
        } catch (Exception e) {
            Throwable t = e.getCause();
            if (t instanceof ClientException) {
                throw (ClientException) t;
            } else {
                throw new ClientException(e);
            }
        }
        
    }   

其中服务在submit()方法上,点击submit进入具体的方法,这个方法是LoadBalancerCommand的方法:

     Observable o = 
                (server == null ? selectServer() : Observable.just(server))
                .concatMap(new Func1>() {
                    @Override
                    // Called for each server being selected
                    public Observable call(Server server) {
                        context.setServer(server);
    
        }}

上述代码中有个selectServe(),该方法是选择服务的进行负载均衡的方法,代码如下:

    private Observable selectServer() {
        return Observable.create(new OnSubscribe() {
            @Override
            public void call(Subscriber next) {
                try {
                    Server server = loadBalancerContext.getServerFromLoadBalancer(loadBalancerURI, loadBalancerKey);   
                    next.onNext(server);
                    next.onCompleted();
                } catch (Exception e) {
                    next.onError(e);
                }
            }
        });
    }

最终负载均衡交给loadBalancerContext来处理,即之前讲述的Ribbon,在这里不再重复。

总结

总到来说,Feign的源码实现的过程如下:

  • 首先通过@EnableFeignCleints注解开启FeignCleint
  • 根据Feign的规则实现接口,并加@FeignCleint注解
  • 程序启动后,会进行包扫描,扫描所有的@ FeignCleint的注解的类,并将这些信息注入到ioc容器中。
  • 当接口的方法被调用,通过jdk的代理,来生成具体的RequesTemplate
  • RequesTemplate在生成Request
  • Request交给Client去处理,其中Client可以是HttpUrlConnection、HttpClient也可以是Okhttp
  • 最后Client被封装到LoadBalanceClient类,这个类结合类Ribbon做到了负载均衡。

参考资料

https://github.com/OpenFeign/feign

https://blog.de-swaef.eu/the-netflix-stack-using-spring-boot-part-3-feign/

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