dubbo源码解析(主流程版)

写在前面

dubbo是阿里巴巴开源的RPC框架,目前在github拥有34+k的star,可以说在java的微服务体系中,是dubbo和spring cloud共分了江山。因此网上对dubbo的源码分析层出不穷,dubbo也是我第一个看的开源项目,距今已经2年了,也想写一篇dubbo源码的解析,来总结dubbo的原理。

dubbo主要是三端的处理(消费者consumer、提供者provider、注册中心registry),monitor是控制台,不是dubbo的主流程,本文暂不分析。


dubbo调用处理图

废话不多说,马上开始源码解析。

consumer和provider的bean生成分析

我们知道,dubbo的使用需要在spring声明reference和service,就像下面一样:

<!-- 增加引用远程服务配置 -->
<dubbo:reference id=“xxxService” interface=“com.xxx.XxxService” />
<!-- 增加暴露远程服务配置 -->
<dubbo:service interface=“com.xxx.XxxService” ref=“xxxService” /> 

那么,dubbo需要怎么让spring去解析这样的dubbo声明,从而生成dubbobean呢?

DubboNamespaceHandler实现了spring的NamespaceHandlerSupport抽象类,这样就可以向spring注册dubbo专用的声明解析处理器DubboBeanDefinitionParser。

 @Override
    public void init() {
        registerBeanDefinitionParser("application", new DubboBeanDefinitionParser(ApplicationConfig.class, true));
        registerBeanDefinitionParser("module", new DubboBeanDefinitionParser(ModuleConfig.class, true));
        registerBeanDefinitionParser("registry", new DubboBeanDefinitionParser(RegistryConfig.class, true));
        registerBeanDefinitionParser("config-center", new DubboBeanDefinitionParser(ConfigCenterBean.class, true));
        registerBeanDefinitionParser("metadata-report", new DubboBeanDefinitionParser(MetadataReportConfig.class, true));
        registerBeanDefinitionParser("monitor", new DubboBeanDefinitionParser(MonitorConfig.class, true));
        registerBeanDefinitionParser("metrics", new DubboBeanDefinitionParser(MetricsConfig.class, true));
        registerBeanDefinitionParser("ssl", new DubboBeanDefinitionParser(SslConfig.class, true));
        registerBeanDefinitionParser("provider", new DubboBeanDefinitionParser(ProviderConfig.class, true));
        registerBeanDefinitionParser("consumer", new DubboBeanDefinitionParser(ConsumerConfig.class, true));
        registerBeanDefinitionParser("protocol", new DubboBeanDefinitionParser(ProtocolConfig.class, true));
        registerBeanDefinitionParser("service", new DubboBeanDefinitionParser(ServiceBean.class, true));
        registerBeanDefinitionParser("reference", new DubboBeanDefinitionParser(ReferenceBean.class, false));
        registerBeanDefinitionParser("annotation", new AnnotationBeanDefinitionParser());
    }

而上图的dubbo:reference和dubbo:service是通过DubboBeanDefinitionParser解析生成ReferenceBean和ServiceBean。
来到DubboBeanDefinitionParser的parse方法,方法有点长,主要是构造RootBeanDefinition,设置其中的字段依赖。

 @SuppressWarnings("unchecked")
    private static RootBeanDefinition parse(Element element, ParserContext parserContext, Class<?> beanClass, boolean required) {
        RootBeanDefinition beanDefinition = new RootBeanDefinition();
        beanDefinition.setBeanClass(beanClass);
        beanDefinition.setLazyInit(false);
        String id = resolveAttribute(element, "id", parserContext);
        if (StringUtils.isEmpty(id) && required) {
            String generatedBeanName = resolveAttribute(element, "name", parserContext);
            if (StringUtils.isEmpty(generatedBeanName)) {
                if (ProtocolConfig.class.equals(beanClass)) {
                    generatedBeanName = "dubbo";
                } else {
                    generatedBeanName = resolveAttribute(element, "interface", parserContext);
                }
            }
            if (StringUtils.isEmpty(generatedBeanName)) {
                generatedBeanName = beanClass.getName();
            }
            id = generatedBeanName;
            int counter = 2;
            while (parserContext.getRegistry().containsBeanDefinition(id)) {
                id = generatedBeanName + (counter++);
            }
        }
        if (StringUtils.isNotEmpty(id)) {
            if (parserContext.getRegistry().containsBeanDefinition(id)) {
                throw new IllegalStateException("Duplicate spring bean id " + id);
            }
            parserContext.getRegistry().registerBeanDefinition(id, beanDefinition);
            beanDefinition.getPropertyValues().addPropertyValue("id", id);
        }
        if (ProtocolConfig.class.equals(beanClass)) {
            for (String name : parserContext.getRegistry().getBeanDefinitionNames()) {
                BeanDefinition definition = parserContext.getRegistry().getBeanDefinition(name);
                PropertyValue property = definition.getPropertyValues().getPropertyValue("protocol");
                if (property != null) {
                    Object value = property.getValue();
                    if (value instanceof ProtocolConfig && id.equals(((ProtocolConfig) value).getName())) {
                        definition.getPropertyValues().addPropertyValue("protocol", new RuntimeBeanReference(id));
                    }
                }
            }
        } else if (ServiceBean.class.equals(beanClass)) {
            String className = resolveAttribute(element, "class", parserContext);
            if (StringUtils.isNotEmpty(className)) {
                RootBeanDefinition classDefinition = new RootBeanDefinition();
                classDefinition.setBeanClass(ReflectUtils.forName(className));
                classDefinition.setLazyInit(false);
                parseProperties(element.getChildNodes(), classDefinition, parserContext);
                beanDefinition.getPropertyValues().addPropertyValue("ref", new BeanDefinitionHolder(classDefinition, id + "Impl"));
            }
        } else if (ProviderConfig.class.equals(beanClass)) {
            parseNested(element, parserContext, ServiceBean.class, true, "service", "provider", id, beanDefinition);
        } else if (ConsumerConfig.class.equals(beanClass)) {
            parseNested(element, parserContext, ReferenceBean.class, false, "reference", "consumer", id, beanDefinition);
        }
        Set<String> props = new HashSet<>();
        ManagedMap parameters = null;
        for (Method setter : beanClass.getMethods()) {
            String name = setter.getName();
            if (name.length() > 3 && name.startsWith("set")
                    && Modifier.isPublic(setter.getModifiers())
                    && setter.getParameterTypes().length == 1) {
                Class<?> type = setter.getParameterTypes()[0];
                String beanProperty = name.substring(3, 4).toLowerCase() + name.substring(4);
                String property = StringUtils.camelToSplitName(beanProperty, "-");
                props.add(property);
                // check the setter/getter whether match
                Method getter = null;
                try {
                    getter = beanClass.getMethod("get" + name.substring(3), new Class<?>[0]);
                } catch (NoSuchMethodException e) {
                    try {
                        getter = beanClass.getMethod("is" + name.substring(3), new Class<?>[0]);
                    } catch (NoSuchMethodException e2) {
                        // ignore, there is no need any log here since some class implement the interface: EnvironmentAware,
                        // ApplicationAware, etc. They only have setter method, otherwise will cause the error log during application start up.
                    }
                }
                if (getter == null
                        || !Modifier.isPublic(getter.getModifiers())
                        || !type.equals(getter.getReturnType())) {
                    continue;
                }
                if ("parameters".equals(property)) {
                    parameters = parseParameters(element.getChildNodes(), beanDefinition, parserContext);
                } else if ("methods".equals(property)) {
                    parseMethods(id, element.getChildNodes(), beanDefinition, parserContext);
                } else if ("arguments".equals(property)) {
                    parseArguments(id, element.getChildNodes(), beanDefinition, parserContext);
                } else {
                    String value = resolveAttribute(element, property, parserContext);
                    if (value != null) {
                        value = value.trim();
                        if (value.length() > 0) {
                            if ("registry".equals(property) && RegistryConfig.NO_AVAILABLE.equalsIgnoreCase(value)) {
                                RegistryConfig registryConfig = new RegistryConfig();
                                registryConfig.setAddress(RegistryConfig.NO_AVAILABLE);
                                beanDefinition.getPropertyValues().addPropertyValue(beanProperty, registryConfig);
                            } else if ("provider".equals(property) || "registry".equals(property) || ("protocol".equals(property) && AbstractServiceConfig.class.isAssignableFrom(beanClass))) {
                                /**
                                 * For 'provider' 'protocol' 'registry', keep literal value (should be id/name) and set the value to 'registryIds' 'providerIds' protocolIds'
                                 * The following process should make sure each id refers to the corresponding instance, here's how to find the instance for different use cases:
                                 * 1. Spring, check existing bean by id, see{@link ServiceBean#afterPropertiesSet()}; then try to use id to find configs defined in remote Config Center
                                 * 2. API, directly use id to find configs defined in remote Config Center; if all config instances are defined locally, please use {@link ServiceConfig#setRegistries(List)}
                                 */
                                beanDefinition.getPropertyValues().addPropertyValue(beanProperty + "Ids", value);
                            } else {
                                Object reference;
                                if (isPrimitive(type)) {
                                    if ("async".equals(property) && "false".equals(value)
                                            || "timeout".equals(property) && "0".equals(value)
                                            || "delay".equals(property) && "0".equals(value)
                                            || "version".equals(property) && "0.0.0".equals(value)
                                            || "stat".equals(property) && "-1".equals(value)
                                            || "reliable".equals(property) && "false".equals(value)) {
                                        // backward compatibility for the default value in old version's xsd
                                        value = null;
                                    }
                                    reference = value;
                                } else if (ONRETURN.equals(property) || ONTHROW.equals(property) || ONINVOKE.equals(property)) {
                                    int index = value.lastIndexOf(".");
                                    String ref = value.substring(0, index);
                                    String method = value.substring(index + 1);
                                    reference = new RuntimeBeanReference(ref);
                                    beanDefinition.getPropertyValues().addPropertyValue(property + METHOD, method);
                                } else {
                                    if ("ref".equals(property) && parserContext.getRegistry().containsBeanDefinition(value)) {
                                        BeanDefinition refBean = parserContext.getRegistry().getBeanDefinition(value);
                                        if (!refBean.isSingleton()) {
                                            throw new IllegalStateException("The exported service ref " + value + " must be singleton! Please set the " + value + " bean scope to singleton, eg: <bean id=\"" + value + "\" scope=\"singleton\" ...>");
                                        }
                                    }
                                    reference = new RuntimeBeanReference(value);
                                }
                                beanDefinition.getPropertyValues().addPropertyValue(beanProperty, reference);
                            }
                        }
                    }
                }
            }
        }
        NamedNodeMap attributes = element.getAttributes();
        int len = attributes.getLength();
        for (int i = 0; i < len; i++) {
            Node node = attributes.item(i);
            String name = node.getLocalName();
            if (!props.contains(name)) {
                if (parameters == null) {
                    parameters = new ManagedMap();
                }
                String value = node.getNodeValue();
                parameters.put(name, new TypedStringValue(value, String.class));
            }
        }
        if (parameters != null) {
            beanDefinition.getPropertyValues().addPropertyValue("parameters", parameters);
        }
        return beanDefinition;
    }

来到ReferenceBean,初始化会调用afterPropertiesSet,里面首先会调用prepareDubboConfigBeans注册dubbo的配置bean到spring容器,然后调用getObject进行启动。

@Override
    @SuppressWarnings({"unchecked"})
    public void afterPropertiesSet() throws Exception {

        // Initializes Dubbo's Config Beans before @Reference bean autowiring
        prepareDubboConfigBeans();

        // lazy init by default.
        if (init == null) {
            init = false;
        }

        // eager init if necessary.
        if (shouldInit()) {
            getObject();
        }
    }

getObject会调用ReferenceConfig的get方法进行启动,启动后ref字段就会赋值成引用接口的动态代理实例。

   public synchronized T get() {
        if (destroyed) {
            throw new IllegalStateException("The invoker of ReferenceConfig(" + url + ") has already destroyed!");
        }
        if (ref == null) {
            init();
        }
        return ref;
    }

来到init方法,省去一些启动器初始化、参数与元数据的处理外,会调用createProxy创建引用接口的动态代理实例。

    public synchronized void init() {
        if (initialized) {
            return;
        }

        if (bootstrap == null) {
            bootstrap = DubboBootstrap.getInstance();
            bootstrap.initialize();
        }

        checkAndUpdateSubConfigs();

        checkStubAndLocal(interfaceClass);
        ConfigValidationUtils.checkMock(interfaceClass, this);

        Map<String, String> map = new HashMap<String, String>();
        map.put(SIDE_KEY, CONSUMER_SIDE);

        ReferenceConfigBase.appendRuntimeParameters(map);
        if (!ProtocolUtils.isGeneric(generic)) {
            String revision = Version.getVersion(interfaceClass, version);
            if (revision != null && revision.length() > 0) {
                map.put(REVISION_KEY, revision);
            }

            String[] methods = Wrapper.getWrapper(interfaceClass).getMethodNames();
            if (methods.length == 0) {
                logger.warn("No method found in service interface " + interfaceClass.getName());
                map.put(METHODS_KEY, ANY_VALUE);
            } else {
                map.put(METHODS_KEY, StringUtils.join(new HashSet<String>(Arrays.asList(methods)), COMMA_SEPARATOR));
            }
        }
        map.put(INTERFACE_KEY, interfaceName);
        AbstractConfig.appendParameters(map, getMetrics());
        AbstractConfig.appendParameters(map, getApplication());
        AbstractConfig.appendParameters(map, getModule());
        // remove 'default.' prefix for configs from ConsumerConfig
        // appendParameters(map, consumer, Constants.DEFAULT_KEY);
        AbstractConfig.appendParameters(map, consumer);
        AbstractConfig.appendParameters(map, this);
        MetadataReportConfig metadataReportConfig = getMetadataReportConfig();
        if (metadataReportConfig != null && metadataReportConfig.isValid()) {
            map.putIfAbsent(METADATA_KEY, REMOTE_METADATA_STORAGE_TYPE);
        }
        Map<String, AsyncMethodInfo> attributes = null;
        if (CollectionUtils.isNotEmpty(getMethods())) {
            attributes = new HashMap<>();
            for (MethodConfig methodConfig : getMethods()) {
                AbstractConfig.appendParameters(map, methodConfig, methodConfig.getName());
                String retryKey = methodConfig.getName() + ".retry";
                if (map.containsKey(retryKey)) {
                    String retryValue = map.remove(retryKey);
                    if ("false".equals(retryValue)) {
                        map.put(methodConfig.getName() + ".retries", "0");
                    }
                }
                AsyncMethodInfo asyncMethodInfo = AbstractConfig.convertMethodConfig2AsyncInfo(methodConfig);
                if (asyncMethodInfo != null) {
//                    consumerModel.getMethodModel(methodConfig.getName()).addAttribute(ASYNC_KEY, asyncMethodInfo);
                    attributes.put(methodConfig.getName(), asyncMethodInfo);
                }
            }
        }

        String hostToRegistry = ConfigUtils.getSystemProperty(DUBBO_IP_TO_REGISTRY);
        if (StringUtils.isEmpty(hostToRegistry)) {
            hostToRegistry = NetUtils.getLocalHost();
        } else if (isInvalidLocalHost(hostToRegistry)) {
            throw new IllegalArgumentException("Specified invalid registry ip from property:" + DUBBO_IP_TO_REGISTRY + ", value:" + hostToRegistry);
        }
        map.put(REGISTER_IP_KEY, hostToRegistry);

        serviceMetadata.getAttachments().putAll(map);

        ref = createProxy(map);

        serviceMetadata.setTarget(ref);
        serviceMetadata.addAttribute(PROXY_CLASS_REF, ref);
        ConsumerModel consumerModel = repository.lookupReferredService(serviceMetadata.getServiceKey());
        consumerModel.setProxyObject(ref);
        consumerModel.init(attributes);

        initialized = true;

        checkInvokerAvailable();

        // dispatch a ReferenceConfigInitializedEvent since 2.7.4
        dispatch(new ReferenceConfigInitializedEvent(this, invoker));
    }

来到createProxy,方法也是很长,主要工作有三个,向注册中心订阅,获取到invoker,将invoker动态代理成引用接口实现类返回。

 @SuppressWarnings({"unchecked", "rawtypes", "deprecation"})
    private T createProxy(Map<String, String> map) {
        if (shouldJvmRefer(map)) {
            URL url = new URL(LOCAL_PROTOCOL, LOCALHOST_VALUE, 0, interfaceClass.getName()).addParameters(map);
            invoker = REF_PROTOCOL.refer(interfaceClass, url);
            if (logger.isInfoEnabled()) {
                logger.info("Using injvm service " + interfaceClass.getName());
            }
        } else {
            urls.clear();
            if (url != null && url.length() > 0) { // user specified URL, could be peer-to-peer address, or register center's address.
                String[] us = SEMICOLON_SPLIT_PATTERN.split(url);
                if (us != null && us.length > 0) {
                    for (String u : us) {
                        URL url = URL.valueOf(u);
                        if (StringUtils.isEmpty(url.getPath())) {
                            url = url.setPath(interfaceName);
                        }
                        if (UrlUtils.isRegistry(url)) {
                            urls.add(url.addParameterAndEncoded(REFER_KEY, StringUtils.toQueryString(map)));
                        } else {
                            urls.add(ClusterUtils.mergeUrl(url, map));
                        }
                    }
                }
            } else { // assemble URL from register center's configuration
                // if protocols not injvm checkRegistry
                if (!LOCAL_PROTOCOL.equalsIgnoreCase(getProtocol())) {
                    checkRegistry();
                    List<URL> us = ConfigValidationUtils.loadRegistries(this, false);
                    if (CollectionUtils.isNotEmpty(us)) {
                        for (URL u : us) {
                            URL monitorUrl = ConfigValidationUtils.loadMonitor(this, u);
                            if (monitorUrl != null) {
                                map.put(MONITOR_KEY, URL.encode(monitorUrl.toFullString()));
                            }
                            urls.add(u.addParameterAndEncoded(REFER_KEY, StringUtils.toQueryString(map)));
                        }
                    }
                    if (urls.isEmpty()) {
                        throw new IllegalStateException("No such any registry to reference " + interfaceName + " on the consumer " + NetUtils.getLocalHost() + " use dubbo version " + Version.getVersion() + ", please config <dubbo:registry address=\"...\" /> to your spring config.");
                    }
                }
            }

            if (urls.size() == 1) {
                invoker = REF_PROTOCOL.refer(interfaceClass, urls.get(0));
            } else {
                List<Invoker<?>> invokers = new ArrayList<Invoker<?>>();
                URL registryURL = null;
                for (URL url : urls) {
                    invokers.add(REF_PROTOCOL.refer(interfaceClass, url));
                    if (UrlUtils.isRegistry(url)) {
                        registryURL = url; // use last registry url
                    }
                }
                if (registryURL != null) { // registry url is available
                    // for multi-subscription scenario, use 'zone-aware' policy by default
                    String cluster = registryURL.getParameter(CLUSTER_KEY, ZoneAwareCluster.NAME);
                    // The invoker wrap sequence would be: ZoneAwareClusterInvoker(StaticDirectory) -> FailoverClusterInvoker(RegistryDirectory, routing happens here) -> Invoker
                    invoker = Cluster.getCluster(cluster, false).join(new StaticDirectory(registryURL, invokers));
                } else { // not a registry url, must be direct invoke.
                    String cluster = CollectionUtils.isNotEmpty(invokers)
                            ? (invokers.get(0).getUrl() != null ? invokers.get(0).getUrl().getParameter(CLUSTER_KEY, ZoneAwareCluster.NAME) : Cluster.DEFAULT)
                            : Cluster.DEFAULT;
                    invoker = Cluster.getCluster(cluster).join(new StaticDirectory(invokers));
                }
            }
        }

        if (logger.isInfoEnabled()) {
            logger.info("Refer dubbo service " + interfaceClass.getName() + " from url " + invoker.getUrl());
        }

        URL consumerURL = new URL(CONSUMER_PROTOCOL, map.remove(REGISTER_IP_KEY), 0, map.get(INTERFACE_KEY), map);
        MetadataUtils.publishServiceDefinition(consumerURL);

        // create service proxy
        return (T) PROXY_FACTORY.getProxy(invoker, ProtocolUtils.isGeneric(generic));
    }

RegistryProtocol的refer方法将生成一个带cluster->router->reference的封装的、能够根据注册中心注册service动态变化的强化版invoker,首先以注册中心生成ServiceDiscoveryRegistryDirectory,ServiceDiscoveryRegistryDirectory会通过注册service的变化维护服务的invoker列表。因此,一个invoker列表,怎么对外使用是只暴露一个invoker?这就要引入Cluster的概念,调用Cluster的join方法会使用directory生成一个invoker返回,cluster->router->reference下文会进行分析。

 protected <T> ClusterInvoker<T> getInvoker(Cluster cluster, Registry registry, Class<T> type, URL url) {
        DynamicDirectory<T> directory = createDirectory(type, url);
        directory.setRegistry(registry);
        directory.setProtocol(protocol);
        // all attributes of REFER_KEY
        Map<String, String> parameters = new HashMap<String, String>(directory.getConsumerUrl().getParameters());
        URL urlToRegistry = new URL(CONSUMER_PROTOCOL, parameters.remove(REGISTER_IP_KEY), 0, type.getName(), parameters);
        if (directory.isShouldRegister()) {
            directory.setRegisteredConsumerUrl(urlToRegistry);
            registry.register(directory.getRegisteredConsumerUrl());
        }
        directory.buildRouterChain(urlToRegistry);
        directory.subscribe(toSubscribeUrl(urlToRegistry));

        return (ClusterInvoker<T>) cluster.join(directory);
    }
Directory Cluster Router LoadBalace Invoker联动图

获取到经过强化的invoker之后,会调用ProxyFactory的getProxy方法,将invoker动态代理成引用接口的实现类。以JdkProxyFactory为例,会使用Proxy.newProxyInstance生成代理,由InvokerInvocationHandler处理。

    @Override
    @SuppressWarnings("unchecked")
    public <T> T getProxy(Invoker<T> invoker, Class<?>[] interfaces) {
        return (T) Proxy.newProxyInstance(Thread.currentThread().getContextClassLoader(), interfaces, new InvokerInvocationHandler(invoker));
    }

InvokerInvocationHandler的处理非常简单,调用invoker将经过InvokerInvocationHandler的invoke方法,对引用接口、方法名、协议、入参封装成RpcInvocation,并设置上下文,调用底层的invoker.invoke即可。

   @Override
    public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
        if (method.getDeclaringClass() == Object.class) {
            return method.invoke(invoker, args);
        }
        String methodName = method.getName();
        Class<?>[] parameterTypes = method.getParameterTypes();
        if (parameterTypes.length == 0) {
            if ("toString".equals(methodName)) {
                return invoker.toString();
            } else if ("$destroy".equals(methodName)) {
                invoker.destroy();
                return null;
            } else if ("hashCode".equals(methodName)) {
                return invoker.hashCode();
            }
        } else if (parameterTypes.length == 1 && "equals".equals(methodName)) {
            return invoker.equals(args[0]);
        }
        RpcInvocation rpcInvocation = new RpcInvocation(method, invoker.getInterface().getName(), protocolServiceKey, args);
        String serviceKey = invoker.getUrl().getServiceKey();
        rpcInvocation.setTargetServiceUniqueName(serviceKey);

        // invoker.getUrl() returns consumer url.
        RpcContext.setRpcContext(invoker.getUrl());

        if (consumerModel != null) {
            rpcInvocation.put(Constants.CONSUMER_MODEL, consumerModel);
            rpcInvocation.put(Constants.METHOD_MODEL, consumerModel.getMethodModel(method));
        }

        return invoker.invoke(rpcInvocation).recreate();
    }

分析完consumer一端,再来看provider一端,来到DubboBootstrapApplicationListener,它实现了OnceApplicationContextEventListener抽象类,因此当spring容器初始化完成后,会传ContextRefreshedEvent到onApplicationContextEvent进行调用。

@Override
    public void onApplicationContextEvent(ApplicationContextEvent event) {
        if (event instanceof ContextRefreshedEvent) {
            onContextRefreshedEvent((ContextRefreshedEvent) event);
        } else if (event instanceof ContextClosedEvent) {
            onContextClosedEvent((ContextClosedEvent) event);
        }
    }

来到onContextRefreshedEvent,会去调用dubboBootstrap.start方法,然后调用exportServices进行暴露service,就是调用ServiceConfig.export->doExport->doExportUrls->doExportUrlsFor1Protocol方法进行暴露。

 private void exportServices() {
        configManager.getServices().forEach(sc -> {
            // TODO, compatible with ServiceConfig.export()
            ServiceConfig serviceConfig = (ServiceConfig) sc;
            serviceConfig.setBootstrap(this);

            if (exportAsync) {
                ExecutorService executor = executorRepository.getServiceExporterExecutor();
                Future<?> future = executor.submit(() -> {
                    sc.export();
                    exportedServices.add(sc);
                });
                asyncExportingFutures.add(future);
            } else {
                sc.export();
                exportedServices.add(sc);
            }
        });
    }

来到doExportUrlsFor1Protocol,代码也是非常长,同样主要工作有三个,向注册中心注册,获取到invoker,将invoker暴露。

    private void doExportUrlsFor1Protocol(ProtocolConfig protocolConfig, List<URL> registryURLs) {
        String name = protocolConfig.getName();
        if (StringUtils.isEmpty(name)) {
            name = DUBBO;
        }

        Map<String, String> map = new HashMap<String, String>();
        map.put(SIDE_KEY, PROVIDER_SIDE);

        ServiceConfig.appendRuntimeParameters(map);
        AbstractConfig.appendParameters(map, getMetrics());
        AbstractConfig.appendParameters(map, getApplication());
        AbstractConfig.appendParameters(map, getModule());
        // remove 'default.' prefix for configs from ProviderConfig
        // appendParameters(map, provider, Constants.DEFAULT_KEY);
        AbstractConfig.appendParameters(map, provider);
        AbstractConfig.appendParameters(map, protocolConfig);
        AbstractConfig.appendParameters(map, this);
        MetadataReportConfig metadataReportConfig = getMetadataReportConfig();
        if (metadataReportConfig != null && metadataReportConfig.isValid()) {
            map.putIfAbsent(METADATA_KEY, REMOTE_METADATA_STORAGE_TYPE);
        }
        if (CollectionUtils.isNotEmpty(getMethods())) {
            for (MethodConfig method : getMethods()) {
                AbstractConfig.appendParameters(map, method, method.getName());
                String retryKey = method.getName() + ".retry";
                if (map.containsKey(retryKey)) {
                    String retryValue = map.remove(retryKey);
                    if ("false".equals(retryValue)) {
                        map.put(method.getName() + ".retries", "0");
                    }
                }
                List<ArgumentConfig> arguments = method.getArguments();
                if (CollectionUtils.isNotEmpty(arguments)) {
                    for (ArgumentConfig argument : arguments) {
                        // convert argument type
                        if (argument.getType() != null && argument.getType().length() > 0) {
                            Method[] methods = interfaceClass.getMethods();
                            // visit all methods
                            if (methods.length > 0) {
                                for (int i = 0; i < methods.length; i++) {
                                    String methodName = methods[i].getName();
                                    // target the method, and get its signature
                                    if (methodName.equals(method.getName())) {
                                        Class<?>[] argtypes = methods[i].getParameterTypes();
                                        // one callback in the method
                                        if (argument.getIndex() != -1) {
                                            if (argtypes[argument.getIndex()].getName().equals(argument.getType())) {
                                                AbstractConfig.appendParameters(map, argument, method.getName() + "." + argument.getIndex());
                                            } else {
                                                throw new IllegalArgumentException("Argument config error : the index attribute and type attribute not match :index :" + argument.getIndex() + ", type:" + argument.getType());
                                            }
                                        } else {
                                            // multiple callbacks in the method
                                            for (int j = 0; j < argtypes.length; j++) {
                                                Class<?> argclazz = argtypes[j];
                                                if (argclazz.getName().equals(argument.getType())) {
                                                    AbstractConfig.appendParameters(map, argument, method.getName() + "." + j);
                                                    if (argument.getIndex() != -1 && argument.getIndex() != j) {
                                                        throw new IllegalArgumentException("Argument config error : the index attribute and type attribute not match :index :" + argument.getIndex() + ", type:" + argument.getType());
                                                    }
                                                }
                                            }
                                        }
                                    }
                                }
                            }
                        } else if (argument.getIndex() != -1) {
                            AbstractConfig.appendParameters(map, argument, method.getName() + "." + argument.getIndex());
                        } else {
                            throw new IllegalArgumentException("Argument config must set index or type attribute.eg: <dubbo:argument index='0' .../> or <dubbo:argument type=xxx .../>");
                        }

                    }
                }
            } // end of methods for
        }

        if (ProtocolUtils.isGeneric(generic)) {
            map.put(GENERIC_KEY, generic);
            map.put(METHODS_KEY, ANY_VALUE);
        } else {
            String revision = Version.getVersion(interfaceClass, version);
            if (revision != null && revision.length() > 0) {
                map.put(REVISION_KEY, revision);
            }

            String[] methods = Wrapper.getWrapper(interfaceClass).getMethodNames();
            if (methods.length == 0) {
                logger.warn("No method found in service interface " + interfaceClass.getName());
                map.put(METHODS_KEY, ANY_VALUE);
            } else {
                map.put(METHODS_KEY, StringUtils.join(new HashSet<String>(Arrays.asList(methods)), ","));
            }
        }

        /**
         * Here the token value configured by the provider is used to assign the value to ServiceConfig#token
         */
        if (ConfigUtils.isEmpty(token) && provider != null) {
            token = provider.getToken();
        }

        if (!ConfigUtils.isEmpty(token)) {
            if (ConfigUtils.isDefault(token)) {
                map.put(TOKEN_KEY, UUID.randomUUID().toString());
            } else {
                map.put(TOKEN_KEY, token);
            }
        }
        //init serviceMetadata attachments
        serviceMetadata.getAttachments().putAll(map);

        // export service
        String host = findConfigedHosts(protocolConfig, registryURLs, map);
        Integer port = findConfigedPorts(protocolConfig, name, map);
        URL url = new URL(name, host, port, getContextPath(protocolConfig).map(p -> p + "/" + path).orElse(path), map);

        // You can customize Configurator to append extra parameters
        if (ExtensionLoader.getExtensionLoader(ConfiguratorFactory.class)
                .hasExtension(url.getProtocol())) {
            url = ExtensionLoader.getExtensionLoader(ConfiguratorFactory.class)
                    .getExtension(url.getProtocol()).getConfigurator(url).configure(url);
        }

        String scope = url.getParameter(SCOPE_KEY);
        // don't export when none is configured
        if (!SCOPE_NONE.equalsIgnoreCase(scope)) {

            // export to local if the config is not remote (export to remote only when config is remote)
            if (!SCOPE_REMOTE.equalsIgnoreCase(scope)) {
                exportLocal(url);
            }
            // export to remote if the config is not local (export to local only when config is local)
            if (!SCOPE_LOCAL.equalsIgnoreCase(scope)) {
                if (CollectionUtils.isNotEmpty(registryURLs)) {
                    for (URL registryURL : registryURLs) {
                        //if protocol is only injvm ,not register
                        if (LOCAL_PROTOCOL.equalsIgnoreCase(url.getProtocol())) {
                            continue;
                        }
                        url = url.addParameterIfAbsent(DYNAMIC_KEY, registryURL.getParameter(DYNAMIC_KEY));
                        URL monitorUrl = ConfigValidationUtils.loadMonitor(this, registryURL);
                        if (monitorUrl != null) {
                            url = url.addParameterAndEncoded(MONITOR_KEY, monitorUrl.toFullString());
                        }
                        if (logger.isInfoEnabled()) {
                            if (url.getParameter(REGISTER_KEY, true)) {
                                logger.info("Register dubbo service " + interfaceClass.getName() + " url " + url + " to registry " + registryURL);
                            } else {
                                logger.info("Export dubbo service " + interfaceClass.getName() + " to url " + url);
                            }
                        }

                        // For providers, this is used to enable custom proxy to generate invoker
                        String proxy = url.getParameter(PROXY_KEY);
                        if (StringUtils.isNotEmpty(proxy)) {
                            registryURL = registryURL.addParameter(PROXY_KEY, proxy);
                        }

                        Invoker<?> invoker = PROXY_FACTORY.getInvoker(ref, (Class) interfaceClass, registryURL.addParameterAndEncoded(EXPORT_KEY, url.toFullString()));
                        DelegateProviderMetaDataInvoker wrapperInvoker = new DelegateProviderMetaDataInvoker(invoker, this);

                        Exporter<?> exporter = PROTOCOL.export(wrapperInvoker);
                        exporters.add(exporter);
                    }
                } else {
                    if (logger.isInfoEnabled()) {
                        logger.info("Export dubbo service " + interfaceClass.getName() + " to url " + url);
                    }
                    Invoker<?> invoker = PROXY_FACTORY.getInvoker(ref, (Class) interfaceClass, url);
                    DelegateProviderMetaDataInvoker wrapperInvoker = new DelegateProviderMetaDataInvoker(invoker, this);

                    Exporter<?> exporter = PROTOCOL.export(wrapperInvoker);
                    exporters.add(exporter);
                }

                MetadataUtils.publishServiceDefinition(url);
            }
        }
        this.urls.add(url);
    }

调用ProxyFactory的getProxy从实现类变成代理invoker,在consumer端invoker是methodargs->rpcInvocation,在provider则是rpcInvocation->methodargs,以JdkProxyFactory为例,可以见到以下处理。

    @Override
    public <T> Invoker<T> getInvoker(T proxy, Class<T> type, URL url) {
        return new AbstractProxyInvoker<T>(proxy, type, url) {
            @Override
            protected Object doInvoke(T proxy, String methodName,
                                      Class<?>[] parameterTypes,
                                      Object[] arguments) throws Throwable {
                Method method = proxy.getClass().getMethod(methodName, parameterTypes);
                return method.invoke(proxy, arguments);
            }
        };
    }

    @Override
    public Result invoke(Invocation invocation) throws RpcException {
        try {
            Object value = doInvoke(proxy, invocation.getMethodName(), invocation.getParameterTypes(), invocation.getArguments());
            CompletableFuture<Object> future = wrapWithFuture(value);
            CompletableFuture<AppResponse> appResponseFuture = future.handle((obj, t) -> {
                AppResponse result = new AppResponse();
                if (t != null) {
                    if (t instanceof CompletionException) {
                        result.setException(t.getCause());
                    } else {
                        result.setException(t);
                    }
                } else {
                    result.setValue(obj);
                }
                return result;
            });
            return new AsyncRpcResult(appResponseFuture, invocation);
        } catch (InvocationTargetException e) {
            if (RpcContext.getContext().isAsyncStarted() && !RpcContext.getContext().stopAsync()) {
                logger.error("Provider async started, but got an exception from the original method, cannot write the exception back to consumer because an async result may have returned the new thread.", e);
            }
            return AsyncRpcResult.newDefaultAsyncResult(null, e.getTargetException(), invocation);
        } catch (Throwable e) {
            throw new RpcException("Failed to invoke remote proxy method " + invocation.getMethodName() + " to " + getUrl() + ", cause: " + e.getMessage(), e);
        }
    }

然后调用RegistryProtocol.export方法,创建本地server(createServer->HeaderExchangeServer->Transporters.bind->NettyServer)并且将invoker封装成ExporterChangeableWrapper,并且向注册中心注册。

 public <T> Exporter<T> export(final Invoker<T> originInvoker) throws RpcException {
        URL registryUrl = getRegistryUrl(originInvoker);
        // url to export locally
        URL providerUrl = getProviderUrl(originInvoker);

        // Subscribe the override data
        // FIXME When the provider subscribes, it will affect the scene : a certain JVM exposes the service and call
        //  the same service. Because the subscribed is cached key with the name of the service, it causes the
        //  subscription information to cover.
        final URL overrideSubscribeUrl = getSubscribedOverrideUrl(providerUrl);
        final OverrideListener overrideSubscribeListener = new OverrideListener(overrideSubscribeUrl, originInvoker);
        overrideListeners.put(overrideSubscribeUrl, overrideSubscribeListener);

        providerUrl = overrideUrlWithConfig(providerUrl, overrideSubscribeListener);
        //export invoker
        final ExporterChangeableWrapper<T> exporter = doLocalExport(originInvoker, providerUrl);

        // url to registry
        final Registry registry = getRegistry(originInvoker);
        final URL registeredProviderUrl = getUrlToRegistry(providerUrl, registryUrl);

        // decide if we need to delay publish
        boolean register = providerUrl.getParameter(REGISTER_KEY, true);
        if (register) {
            register(registryUrl, registeredProviderUrl);
        }

        // register stated url on provider model
        registerStatedUrl(registryUrl, registeredProviderUrl, register);


        exporter.setRegisterUrl(registeredProviderUrl);
        exporter.setSubscribeUrl(overrideSubscribeUrl);

        // Deprecated! Subscribe to override rules in 2.6.x or before.
        registry.subscribe(overrideSubscribeUrl, overrideSubscribeListener);

        notifyExport(exporter);
        //Ensure that a new exporter instance is returned every time export
        return new DestroyableExporter<>(exporter);
    }

    @SuppressWarnings("unchecked")
    private <T> ExporterChangeableWrapper<T> doLocalExport(final Invoker<T> originInvoker, URL providerUrl) {
        String key = getCacheKey(originInvoker);

        return (ExporterChangeableWrapper<T>) bounds.computeIfAbsent(key, s -> {
            Invoker<?> invokerDelegate = new InvokerDelegate<>(originInvoker, providerUrl);
            return new ExporterChangeableWrapper<>((Exporter<T>) protocol.export(invokerDelegate), originInvoker);
        });
    }

    @Override
    public <T> Exporter<T> export(Invoker<T> invoker) throws RpcException {
        URL url = invoker.getUrl();

        // export service.
        String key = serviceKey(url);
        DubboExporter<T> exporter = new DubboExporter<T>(invoker, key, exporterMap);
        exporterMap.put(key, exporter);

        //export an stub service for dispatching event
        Boolean isStubSupportEvent = url.getParameter(STUB_EVENT_KEY, DEFAULT_STUB_EVENT);
        Boolean isCallbackservice = url.getParameter(IS_CALLBACK_SERVICE, false);
        if (isStubSupportEvent && !isCallbackservice) {
            String stubServiceMethods = url.getParameter(STUB_EVENT_METHODS_KEY);
            if (stubServiceMethods == null || stubServiceMethods.length() == 0) {
                if (logger.isWarnEnabled()) {
                    logger.warn(new IllegalStateException("consumer [" + url.getParameter(INTERFACE_KEY) +
                            "], has set stubproxy support event ,but no stub methods founded."));
                }
            }
        }

        openServer(url);
        optimizeSerialization(url);

        return exporter;
    }

consumer调用provider分析

由上文分析到consumer端已经完成了动态代理强化版的invoker到spring,接下来就看强化版的invoker如何进行去调用provider端的服务。
选择一个默认的FailoverCluser,看看它是怎么进行调用的,可以看到,它会首先从ServiceDiscoveryRegistryDirectory的doList获取到invoker列表与loadbalance,再调用doInvoke方法。在doInvoke方法中,会调用select方法使用loadbalance获取到唯一的invoker进行调用。

  @Override
    public Result invoke(final Invocation invocation) throws RpcException {
        checkWhetherDestroyed();

        // binding attachments into invocation.
        Map<String, Object> contextAttachments = RpcContext.getContext().getObjectAttachments();
        if (contextAttachments != null && contextAttachments.size() != 0) {
            ((RpcInvocation) invocation).addObjectAttachments(contextAttachments);
        }

        List<Invoker<T>> invokers = list(invocation);
        LoadBalance loadbalance = initLoadBalance(invokers, invocation);
        RpcUtils.attachInvocationIdIfAsync(getUrl(), invocation);
        return doInvoke(invocation, invokers, loadbalance);
    }

@Override
    @SuppressWarnings({"unchecked", "rawtypes"})
    public Result doInvoke(Invocation invocation, final List<Invoker<T>> invokers, LoadBalance loadbalance) throws RpcException {
        List<Invoker<T>> copyInvokers = invokers;
        checkInvokers(copyInvokers, invocation);
        String methodName = RpcUtils.getMethodName(invocation);
        int len = getUrl().getMethodParameter(methodName, RETRIES_KEY, DEFAULT_RETRIES) + 1;
        if (len <= 0) {
            len = 1;
        }
        // retry loop.
        RpcException le = null; // last exception.
        List<Invoker<T>> invoked = new ArrayList<Invoker<T>>(copyInvokers.size()); // invoked invokers.
        Set<String> providers = new HashSet<String>(len);
        for (int i = 0; i < len; i++) {
            //Reselect before retry to avoid a change of candidate `invokers`.
            //NOTE: if `invokers` changed, then `invoked` also lose accuracy.
            if (i > 0) {
                checkWhetherDestroyed();
                copyInvokers = list(invocation);
                // check again
                checkInvokers(copyInvokers, invocation);
            }
            Invoker<T> invoker = select(loadbalance, invocation, copyInvokers, invoked);
            invoked.add(invoker);
            RpcContext.getContext().setInvokers((List) invoked);
            try {
                Result result = invoker.invoke(invocation);
                if (le != null && logger.isWarnEnabled()) {
                    logger.warn("Although retry the method " + methodName
                            + " in the service " + getInterface().getName()
                            + " was successful by the provider " + invoker.getUrl().getAddress()
                            + ", but there have been failed providers " + providers
                            + " (" + providers.size() + "/" + copyInvokers.size()
                            + ") from the registry " + directory.getUrl().getAddress()
                            + " on the consumer " + NetUtils.getLocalHost()
                            + " using the dubbo version " + Version.getVersion() + ". Last error is: "
                            + le.getMessage(), le);
                }
                return result;
            } catch (RpcException e) {
                if (e.isBiz()) { // biz exception.
                    throw e;
                }
                le = e;
            } catch (Throwable e) {
                le = new RpcException(e.getMessage(), e);
            } finally {
                providers.add(invoker.getUrl().getAddress());
            }
        }
        throw new RpcException(le.getCode(), "Failed to invoke the method "
                + methodName + " in the service " + getInterface().getName()
                + ". Tried " + len + " times of the providers " + providers
                + " (" + providers.size() + "/" + copyInvokers.size()
                + ") from the registry " + directory.getUrl().getAddress()
                + " on the consumer " + NetUtils.getLocalHost() + " using the dubbo version "
                + Version.getVersion() + ". Last error is: "
                + le.getMessage(), le.getCause() != null ? le.getCause() : le);
    }

首先看一下ServiceDiscoveryRegistryDirectory的doList方法,这个方法会直接返回注册中心已经注册的所有provider的Invoker,会调用routerChain.route获取invoker列表,其实就是已经注册的所有provider的Invokers,需要经过routerChain过滤出来的最终列表。

    @Override
    public List<Invoker<T>> doList(Invocation invocation) {
        if (forbidden) {
            // 1. No service provider 2. Service providers are disabled
            throw new RpcException(RpcException.FORBIDDEN_EXCEPTION, "No provider available from registry " +
                    getUrl().getAddress() + " for service " + getConsumerUrl().getServiceKey() + " on consumer " +
                    NetUtils.getLocalHost() + " use dubbo version " + Version.getVersion() +
                    ", please check status of providers(disabled, not registered or in blacklist).");
        }

        if (multiGroup) {
            return this.invokers == null ? Collections.emptyList() : this.invokers;
        }

        List<Invoker<T>> invokers = null;
        try {
            // Get invokers from cache, only runtime routers will be executed.
            invokers = routerChain.route(getConsumerUrl(), invocation);
        } catch (Throwable t) {
            logger.error("Failed to execute router: " + getUrl() + ", cause: " + t.getMessage(), t);
        }

        return invokers == null ? Collections.emptyList() : invokers;
    }

经过Directory、router、loadbalance,还有cluster,其实cluster就是
调用invoker的策略,比如FailfastCluster调用invoker成功则返回,失败选取下一个invoker进行调用,直到所有invoker都失败则报错;FailfastCluster会只调用一个invoker,成功则返回,失败直接报错等等,不再细说。
那最终invoker是怎么调用provider的服务呢?再回到ServiceDiscoveryRegistryDirectory的refreshInvoker方法,此方法是获取到注册中心的url列表,由url列表转换成invoker列表。

  private Map<String, Invoker<T>> toInvokers(List<URL> urls) {
        Map<String, Invoker<T>> newUrlInvokerMap = new HashMap<>();
        if (urls == null || urls.isEmpty()) {
            return newUrlInvokerMap;
        }
        for (URL url : urls) {
            InstanceAddressURL instanceAddressURL = (InstanceAddressURL) url;
            if (EMPTY_PROTOCOL.equals(instanceAddressURL.getProtocol())) {
                continue;
            }
            if (!ExtensionLoader.getExtensionLoader(Protocol.class).hasExtension(instanceAddressURL.getProtocol())) {
                logger.error(new IllegalStateException("Unsupported protocol " + instanceAddressURL.getProtocol() +
                        " in notified url: " + instanceAddressURL + " from registry " + getUrl().getAddress() +
                        " to consumer " + NetUtils.getLocalHost() + ", supported protocol: " +
                        ExtensionLoader.getExtensionLoader(Protocol.class).getSupportedExtensions()));
                continue;
            }

            // FIXME, some keys may need to be removed.
            instanceAddressURL.addConsumerParams(getConsumerUrl().getProtocolServiceKey(), queryMap);

            Invoker<T> invoker = urlInvokerMap == null ? null : urlInvokerMap.get(instanceAddressURL.getAddress());
            if (invoker == null || urlChanged(invoker, instanceAddressURL)) { // Not in the cache, refer again
                try {
                    boolean enabled = true;
                    if (instanceAddressURL.hasParameter(DISABLED_KEY)) {
                        enabled = !instanceAddressURL.getParameter(DISABLED_KEY, false);
                    } else {
                        enabled = instanceAddressURL.getParameter(ENABLED_KEY, true);
                    }
                    if (enabled) {
                        invoker = protocol.refer(serviceType, instanceAddressURL);
                    }
                } catch (Throwable t) {
                    logger.error("Failed to refer invoker for interface:" + serviceType + ",url:(" + instanceAddressURL + ")" + t.getMessage(), t);
                }
                if (invoker != null) { // Put new invoker in cache
                    newUrlInvokerMap.put(instanceAddressURL.getAddress(), invoker);
                }
            } else {
                newUrlInvokerMap.put(instanceAddressURL.getAddress(), invoker);
            }
        }
        return newUrlInvokerMap;
    }

可以看到,其实是调用protocol.refer获取invoker,以DubboProtocol为例,此方法会调用DubboProtocol.protocolBindingRefer获取invoker,protocolBindingRefer会通过获取连接到provider的client(initClient->HeaderExchangeClient->Transporters.connect->NettyClient),封装成DubboInvoker,然后返回此invoker。

    @Override
    public <T> Invoker<T> protocolBindingRefer(Class<T> serviceType, URL url) throws RpcException {
        optimizeSerialization(url);

        // create rpc invoker.
        DubboInvoker<T> invoker = new DubboInvoker<T>(serviceType, url, getClients(url), invokers);
        invokers.add(invoker);

        return invoker;
    }

最后看到DubboInvoker的doInvoke方法,终于能看到发送的网络请求了,通过roundrobin的方式获取到当前client,如果是单向调用,则调用currentClient.send直接返回,否则调用currentClient.request获取到future,封装成AsyncRpcResult返回,上层会根据是否同步调用选择将异步转为同步。

   @Override
    protected Result doInvoke(final Invocation invocation) throws Throwable {
        RpcInvocation inv = (RpcInvocation) invocation;
        final String methodName = RpcUtils.getMethodName(invocation);
        inv.setAttachment(PATH_KEY, getUrl().getPath());
        inv.setAttachment(VERSION_KEY, version);

        ExchangeClient currentClient;
        if (clients.length == 1) {
            currentClient = clients[0];
        } else {
            currentClient = clients[index.getAndIncrement() % clients.length];
        }
        try {
            boolean isOneway = RpcUtils.isOneway(getUrl(), invocation);
            int timeout = calculateTimeout(invocation, methodName);
            invocation.put(TIMEOUT_KEY, timeout);
            if (isOneway) {
                boolean isSent = getUrl().getMethodParameter(methodName, Constants.SENT_KEY, false);
                currentClient.send(inv, isSent);
                return AsyncRpcResult.newDefaultAsyncResult(invocation);
            } else {
                ExecutorService executor = getCallbackExecutor(getUrl(), inv);
                CompletableFuture<AppResponse> appResponseFuture =
                        currentClient.request(inv, timeout, executor).thenApply(obj -> (AppResponse) obj);
                // save for 2.6.x compatibility, for example, TraceFilter in Zipkin uses com.alibaba.xxx.FutureAdapter
                FutureContext.getContext().setCompatibleFuture(appResponseFuture);
                AsyncRpcResult result = new AsyncRpcResult(appResponseFuture, inv);
                result.setExecutor(executor);
                return result;
            }
        } catch (TimeoutException e) {
            throw new RpcException(RpcException.TIMEOUT_EXCEPTION, "Invoke remote method timeout. method: " + invocation.getMethodName() + ", provider: " + getUrl() + ", cause: " + e.getMessage(), e);
        } catch (RemotingException e) {
            throw new RpcException(RpcException.NETWORK_EXCEPTION, "Failed to invoke remote method: " + invocation.getMethodName() + ", provider: " + getUrl() + ", cause: " + e.getMessage(), e);
        }
    }

再次回到provider端,由上文可知provider端会创建server去接收来自consumer的请求,请求将由DubboProtocol中注册到server的ExchangeHandlerAdapter进行处理。

private ExchangeHandler requestHandler = new ExchangeHandlerAdapter() {

        @Override
        public CompletableFuture<Object> reply(ExchangeChannel channel, Object message) throws RemotingException {

            if (!(message instanceof Invocation)) {
                throw new RemotingException(channel, "Unsupported request: "
                        + (message == null ? null : (message.getClass().getName() + ": " + message))
                        + ", channel: consumer: " + channel.getRemoteAddress() + " --> provider: " + channel.getLocalAddress());
            }

            Invocation inv = (Invocation) message;
            Invoker<?> invoker = getInvoker(channel, inv);
            // need to consider backward-compatibility if it's a callback
            if (Boolean.TRUE.toString().equals(inv.getObjectAttachments().get(IS_CALLBACK_SERVICE_INVOKE))) {
                String methodsStr = invoker.getUrl().getParameters().get("methods");
                boolean hasMethod = false;
                if (methodsStr == null || !methodsStr.contains(",")) {
                    hasMethod = inv.getMethodName().equals(methodsStr);
                } else {
                    String[] methods = methodsStr.split(",");
                    for (String method : methods) {
                        if (inv.getMethodName().equals(method)) {
                            hasMethod = true;
                            break;
                        }
                    }
                }
                if (!hasMethod) {
                    logger.warn(new IllegalStateException("The methodName " + inv.getMethodName()
                            + " not found in callback service interface ,invoke will be ignored."
                            + " please update the api interface. url is:"
                            + invoker.getUrl()) + " ,invocation is :" + inv);
                    return null;
                }
            }
            RpcContext.getContext().setRemoteAddress(channel.getRemoteAddress());
            Result result = invoker.invoke(inv);
            return result.thenApply(Function.identity());
        }

        @Override
        public void received(Channel channel, Object message) throws RemotingException {
            if (message instanceof Invocation) {
                reply((ExchangeChannel) channel, message);

            } else {
                super.received(channel, message);
            }
        }

        @Override
        public void connected(Channel channel) throws RemotingException {
            invoke(channel, ON_CONNECT_KEY);
        }

        @Override
        public void disconnected(Channel channel) throws RemotingException {
            if (logger.isDebugEnabled()) {
                logger.debug("disconnected from " + channel.getRemoteAddress() + ",url:" + channel.getUrl());
            }
            invoke(channel, ON_DISCONNECT_KEY);
        }

        private void invoke(Channel channel, String methodKey) {
            Invocation invocation = createInvocation(channel, channel.getUrl(), methodKey);
            if (invocation != null) {
                try {
                    received(channel, invocation);
                } catch (Throwable t) {
                    logger.warn("Failed to invoke event method " + invocation.getMethodName() + "(), cause: " + t.getMessage(), t);
                }
            }
        }

        /**
         * FIXME channel.getUrl() always binds to a fixed service, and this service is random.
         * we can choose to use a common service to carry onConnect event if there's no easy way to get the specific
         * service this connection is binding to.
         * @param channel
         * @param url
         * @param methodKey
         * @return
         */
        private Invocation createInvocation(Channel channel, URL url, String methodKey) {
            String method = url.getParameter(methodKey);
            if (method == null || method.length() == 0) {
                return null;
            }

            RpcInvocation invocation = new RpcInvocation(method, url.getParameter(INTERFACE_KEY), "", new Class<?>[0], new Object[0]);
            invocation.setAttachment(PATH_KEY, url.getPath());
            invocation.setAttachment(GROUP_KEY, url.getParameter(GROUP_KEY));
            invocation.setAttachment(INTERFACE_KEY, url.getParameter(INTERFACE_KEY));
            invocation.setAttachment(VERSION_KEY, url.getParameter(VERSION_KEY));
            if (url.getParameter(STUB_EVENT_KEY, false)) {
                invocation.setAttachment(STUB_EVENT_KEY, Boolean.TRUE.toString());
            }

            return invocation;
        }
    };

Invoker<?> getInvoker(Channel channel, Invocation inv) throws RemotingException {
        boolean isCallBackServiceInvoke = false;
        boolean isStubServiceInvoke = false;
        int port = channel.getLocalAddress().getPort();
        String path = (String) inv.getObjectAttachments().get(PATH_KEY);

        // if it's callback service on client side
        isStubServiceInvoke = Boolean.TRUE.toString().equals(inv.getObjectAttachments().get(STUB_EVENT_KEY));
        if (isStubServiceInvoke) {
            port = channel.getRemoteAddress().getPort();
        }

        //callback
        isCallBackServiceInvoke = isClientSide(channel) && !isStubServiceInvoke;
        if (isCallBackServiceInvoke) {
            path += "." + inv.getObjectAttachments().get(CALLBACK_SERVICE_KEY);
            inv.getObjectAttachments().put(IS_CALLBACK_SERVICE_INVOKE, Boolean.TRUE.toString());
        }

        String serviceKey = serviceKey(
                port,
                path,
                (String) inv.getObjectAttachments().get(VERSION_KEY),
                (String) inv.getObjectAttachments().get(GROUP_KEY)
        );
        DubboExporter<?> exporter = (DubboExporter<?>) exporterMap.get(serviceKey);

        if (exporter == null) {
            throw new RemotingException(channel, "Not found exported service: " + serviceKey + " in " + exporterMap.keySet() + ", may be version or group mismatch " +
                    ", channel: consumer: " + channel.getRemoteAddress() + " --> provider: " + channel.getLocalAddress() + ", message:" + getInvocationWithoutData(inv));
        }

        return exporter.getInvoker();
    }

收到请求会调用received方法,如果请求是Invocaion,则调用reply进行处理,调用getInvoker方法,从exporterMap中获取到对应的exporter,取出invoker就返回,剩下的就是调用invoker生成结果返回到consumer端了。
至此,终于完成了从consumer调用provider的全流程。

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