从服务间的一次调用分析整个springcloud的调用过程(二)

先看示例代码

 

@RestController
@RequestMapping("/students")
public class StudentController {

    @Autowired
    private TeacherFeignClient teacherFeignClient;

    @GetMapping("/{id}")
    public ResponseEntity getTeacher(@PathVariable("id") int id) {
        return ResponseEntity.ok(teacherFeignClient.findTeacher(5));
    }
}
@FeignClient(name = "teacher-service",path = "/teachers")
public interface TeacherFeignClient {

    @GetMapping("/{id}")
    Teacher findTeacher(@PathVariable("id") int id);

}

  1.  首先我们肯定知道spring会基于TeacherFeignClient生成代理类Proxy,代理类的代码如下

    public final Teacher findTeacher(int var1) throws  {
        try {
            return (Teacher)super.h.invoke(this, m3, new Object[]{var1});
        } catch (RuntimeException | Error var3) {
            throw var3;
        } catch (Throwable var4) {
            throw new UndeclaredThrowableException(var4);
        }
    }

      代理类中的invoke方法指向的是feign.ReflectiveFeign.invoke方法,之后会走向调用SynchronousMethodHandler invoke方法,其中SynchronousMethodHandler中的target属性就是包装了feignclient的相关属性,比如service,url等,然后会调用executeAndDecode方法,该方法第一步就会根据target构造Request对象,这个方法最终会调用Cilent接口的实现类LoadBalancerFeignClient。

        

@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);
        }
    }
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  2.  LoadBalancerFeignClient execute方法先构造RibbonRequest,然后会去获取IClientConfig,再去调用SpringClientFactory的getInstance方法,走到NamedContextFactory getInstance方法。

    @Override
    public  C getInstance(String name, Class type) {
        C instance = super.getInstance(name, type);
        if (instance != null) {
            return instance;
        }
        IClientConfig config = getInstance(name, IClientConfig.class);
        return instantiateWithConfig(getContext(name), type, config);
    }
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  3. 最终会通过AnnotationConfigApplicationContext getBean方法经过一些列流程走到 RibbonClientConfiguration 装载IClientConfig bean方法,最后就获得了当前service ribbon的相关配置

    @Bean
    @ConditionalOnMissingBean
    public IClientConfig ribbonClientConfig() {
        DefaultClientConfigImpl config = new DefaultClientConfigImpl();
        config.loadProperties(this.name);
        config.set(CommonClientConfigKey.ConnectTimeout, DEFAULT_CONNECT_TIMEOUT);
        config.set(CommonClientConfigKey.ReadTimeout, DEFAULT_READ_TIMEOUT);
        config.set(CommonClientConfigKey.GZipPayload, DEFAULT_GZIP_PAYLOAD);
        return config;
    }
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  4. 回到LoadBalancerFeignClient execute方法64行获取到IClientConfig后,此时有个核心步骤就是根据当前clientName获取到一个FeignLoadBalancer的实现,可以看到其中有一个cache属性,如果cache有的话就从cache返回,这也就feign第一次调用会慢的原因之一,因为首次需要去加载这个FeignLoadBalancer;首次加载的时候因为这里我们没有配置retryFactory,所以会返回一个 FeignLoadBalancer

    public FeignLoadBalancer create(String clientName) {
        FeignLoadBalancer client = this.cache.get(clientName);
        if(client != null) {
            return client;
        }
        IClientConfig config = this.factory.getClientConfig(clientName);
        ILoadBalancer lb = this.factory.getLoadBalancer(clientName);
        ServerIntrospector serverIntrospector = this.factory.getInstance(clientName, ServerIntrospector.class);
        client = loadBalancedRetryFactory != null ? new RetryableFeignLoadBalancer(lb, config, serverIntrospector,
            loadBalancedRetryFactory) : new FeignLoadBalancer(lb, config, serverIntrospector);
        this.cache.put(clientName, client);
        return client;
    }
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 5. 获取到FeignLoadBalancer会执行它父类AbstractLoadBalancerAwareClient中的executeWithLoadBalancer(该方法中牵扯到负载均衡的逻辑,会在下一篇中说到),该方法最终还是会执行FeignLoadBalancer的execute方法,方法中会获取request的client,该client默认是feign.Client.Default,实现就是通过构造HttpURLConnection发起http请求

    @Override
    public RibbonResponse execute(RibbonRequest request, IClientConfig configOverride)
            throws IOException {
        Request.Options options;
        if (configOverride != null) {
            RibbonProperties override = RibbonProperties.from(configOverride);
            options = new Request.Options(
                    override.connectTimeout(this.connectTimeout),
                    override.readTimeout(this.readTimeout));
        }
        else {
            options = new Request.Options(this.connectTimeout, this.readTimeout);
        }
        Response response = request.client().execute(request.toRequest(), options);
        return new RibbonResponse(request.getUri(), response);
    }
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