首先还是Spring碰到dubbo的标签之后,会使用parseCustomElement解析dubbo标签,使用的解析器是dubbo的DubboBeanDefinitionParser,解析完成之后返回BeanDefinition给Spring管理。
服务消费者端对应的是ReferenceBean,实现了ApplicationContextAware接口,Spring会在Bean的实例化那一步回调setApplicationContext方法。也实现了InitializingBean接口,接着会回调afterPropertySet方法。还实现了FactoryBean接口,实现FactoryBean可以在后期获取bean的时候做一些操作,dubbo在这个时候做初始化。另外ReferenceBean还实现了DisposableBean,会在bean销毁的时候调用destory方法。
消费者的初始化是在ReferenceBean的init方法中执行,分为两种情况:
reference标签中没有配置init属性,此时是延迟初始化的,也就是只有等到bean引用被注入到其他Bean中,或者调用getBean获取这个Bean的时候,才会初始化。比如在这里的例子里reference没有配置init属性,只有等到HelloService helloService = (HelloService) applicationContext.getBean("helloService");
这句getBean的时候,才会开始调用init方法进行初始化。 另外一种情况是立即初始化,即是如果reference标签中init属性配置为true,会立即进行初始化(也就是上面说到的实现了FactoryBean接口)。 初始化开始 这里以没有配置init的reference为例,只要不注入bean或者不调用getBean获取bean的时候,就不会被初始化。HelloService helloService = (HelloService) applicationContext.getBean("helloService");
另外在ReferenceBean这个类在Spring中初始化的时候,有几个静态变量会被初始化:
1 2 3 4 5 private static final Protocol refprotocol = ExtensionLoader.getExtensionLoader(Protocol.class).getAdaptiveExtension(); private static final Cluster cluster = ExtensionLoader.getExtensionLoader(Cluster.class).getAdaptiveExtension(); private static final ProxyFactory proxyFactory = ExtensionLoader.getExtensionLoader(ProxyFactory.class).getAdaptiveExtension();
这几个变量的初始化是根据dubbo的SPI扩展机制动态生成的代码:
refprotocol:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 import com.alibaba.dubbo.common.extension.ExtensionLoader; public class Protocol$Adpative implements com.alibaba.dubbo.rpc.Protocol { public com.alibaba.dubbo.rpc.Invoker refer(java.lang.Class arg0, com.alibaba.dubbo.common.URL arg1) throws java.lang.Class { if (arg1 == null) throw new IllegalArgumentException("url == null"); com.alibaba.dubbo.common.URL url = arg1; String extName = ( url.getProtocol() == null ? "dubbo" : url.getProtocol() ); if(extName == null) throw new IllegalStateException("Fail to get extension(com.alibaba.dubbo.rpc.Protocol) name from url(" + url.toString() + ") use keys([protocol])"); com.alibaba.dubbo.rpc.Protocol extension = (com.alibaba.dubbo.rpc.Protocol)ExtensionLoader.getExtensionLoader(com.alibaba.dubbo.rpc.Protocol.class).getExtension(extName); return extension.refer(arg0, arg1); } public com.alibaba.dubbo.rpc.Exporter export(com.alibaba.dubbo.rpc.Invoker arg0) throws com.alibaba.dubbo.rpc.Invoker { if (arg0 == null) throw new IllegalArgumentException("com.alibaba.dubbo.rpc.Invoker argument == null"); if (arg0.getUrl() == null) throw new IllegalArgumentException("com.alibaba.dubbo.rpc.Invoker argument getUrl() == null");com.alibaba.dubbo.common.URL url = arg0.getUrl(); String extName = ( url.getProtocol() == null ? "dubbo" : url.getProtocol() ); if(extName == null) throw new IllegalStateException("Fail to get extension(com.alibaba.dubbo.rpc.Protocol) name from url(" + url.toString() + ") use keys([protocol])"); com.alibaba.dubbo.rpc.Protocol extension = (com.alibaba.dubbo.rpc.Protocol)ExtensionLoader.getExtensionLoader(com.alibaba.dubbo.rpc.Protocol.class).getExtension(extName); return extension.export(arg0); } public void destroy() { throw new UnsupportedOperationException("method public abstract void com.alibaba.dubbo.rpc.Protocol.destroy() of interface com.alibaba.dubbo.rpc.Protocol is not adaptive method!"); } public int getDefaultPort() { throw new UnsupportedOperationException("method public abstract int com.alibaba.dubbo.rpc.Protocol.getDefaultPort() of interface com.alibaba.dubbo.rpc.Protocol is not adaptive method!"); } }
cluster:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 import com.alibaba.dubbo.common.extension.ExtensionLoader; public class Cluster$Adpative implements com.alibaba.dubbo.rpc.cluster.Cluster { public com.alibaba.dubbo.rpc.Invoker join(com.alibaba.dubbo.rpc.cluster.Directory arg0) throws com.alibaba.dubbo.rpc.cluster.Directory { if (arg0 == null) throw new IllegalArgumentException("com.alibaba.dubbo.rpc.cluster.Directory argument == null"); if (arg0.getUrl() == null) throw new IllegalArgumentException("com.alibaba.dubbo.rpc.cluster.Directory argument getUrl() == null");com.alibaba.dubbo.common.URL url = arg0.getUrl(); String extName = url.getParameter("cluster", "failover"); if(extName == null) throw new IllegalStateException("Fail to get extension(com.alibaba.dubbo.rpc.cluster.Cluster) name from url(" + url.toString() + ") use keys([cluster])"); com.alibaba.dubbo.rpc.cluster.Cluster extension = (com.alibaba.dubbo.rpc.cluster.Cluster)ExtensionLoader.getExtensionLoader(com.alibaba.dubbo.rpc.cluster.Cluster.class).getExtension(extName); return extension.join(arg0); } }
proxyFactory:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 import com.alibaba.dubbo.common.extension.ExtensionLoader; public class ProxyFactory$Adpative implements com.alibaba.dubbo.rpc.ProxyFactory { public java.lang.Object getProxy(com.alibaba.dubbo.rpc.Invoker arg0) throws com.alibaba.dubbo.rpc.Invoker { if (arg0 == null) throw new IllegalArgumentException("com.alibaba.dubbo.rpc.Invoker argument == null"); if (arg0.getUrl() == null) throw new IllegalArgumentException("com.alibaba.dubbo.rpc.Invoker argument getUrl() == null");com.alibaba.dubbo.common.URL url = arg0.getUrl(); String extName = url.getParameter("proxy", "javassist"); if(extName == null) throw new IllegalStateException("Fail to get extension(com.alibaba.dubbo.rpc.ProxyFactory) name from url(" + url.toString() + ") use keys([proxy])"); com.alibaba.dubbo.rpc.ProxyFactory extension = (com.alibaba.dubbo.rpc.ProxyFactory)ExtensionLoader.getExtensionLoader(com.alibaba.dubbo.rpc.ProxyFactory.class).getExtension(extName); return extension.getProxy(arg0); } public com.alibaba.dubbo.rpc.Invoker getInvoker(java.lang.Object arg0, java.lang.Class arg1, com.alibaba.dubbo.common.URL arg2) throws java.lang.Object { if (arg2 == null) throw new IllegalArgumentException("url == null"); com.alibaba.dubbo.common.URL url = arg2; String extName = url.getParameter("proxy", "javassist"); if(extName == null) throw new IllegalStateException("Fail to get extension(com.alibaba.dubbo.rpc.ProxyFactory) name from url(" + url.toString() + ") use keys([proxy])"); com.alibaba.dubbo.rpc.ProxyFactory extension = (com.alibaba.dubbo.rpc.ProxyFactory)ExtensionLoader.getExtensionLoader(com.alibaba.dubbo.rpc.ProxyFactory.class).getExtension(extName); return extension.getInvoker(arg0, arg1, arg2); } }
初始化入口 初始化的入口在ReferenceConfig的get()方法:
1 2 3 4 5 6 7 8 9 public synchronized T get() { if (destroyed){ throw new IllegalStateException("Already destroyed!"); } if (ref == null) { init(); } return ref; }
init()方法会先检查初始化所有的配置信息,然后调用ref = createProxy(map);
创建代理,消费者最终得到的是服务的代理。初始化主要做的事情就是引用对应的远程服务,大概的步骤:
监听注册中心 连接服务提供者端进行服务引用 创建服务代理并返回 文档上关于Zookeeper作为注册中心时,服务消费者启动时要做的事情有:
订阅/dubbo/com.foo.BarService/providers目录下的提供者URL地址。 并向/dubbo/com.foo.BarService/consumers目录下写入自己的URL地址。
createProxy方法 init()中createProxy方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 private T createProxy(Map<String, String> map) { //先判断是否是本地服务引用injvm //判断是否是点对点直连 //判断是否是通过注册中心连接 //然后是服务的引用 //这里url为 //registry://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService? //application=dubbo-consumer&dubbo=2.5.3&pid=12272& //refer=application%3Ddubbo-consumer%26dubbo%3D2.5.3%26 //interface%3Ddubbo.common.hello.service.HelloService%26 //methods%3DsayHello%26pid%3D12272%26side%3D //consumer%26timeout%3D100000%26timestamp%3D1489318676447& //registry=zookeeper×tamp=1489318676641 //引用远程服务由Protocol的实现来处理 refprotocol.refer(interfaceClass, url); //最后返回服务代理 return (T) proxyFactory.getProxy(invoker); }
这里refprotocol是上面生成的代码,会根据协议不同选择不同的Protocol协议。
引用远程服务 对于服务引用refprotocol.refer(interfaceClass, url)
会首先进入ProtocolListenerWrapper的refer方法,然后在进入ProtocolFilterWrapper的refer方法,然后再进入RegistryProtocol的refer方法,这里的url协议是registry,所以上面两个Wrapper中不做处理,直接进入了RegistryProtocol,看下RegistryProtocol中:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 public <T> Invoker<T> refer(Class<T> type, URL url) throws RpcException { //这里获得的url是 //zookeeper://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService? //application=dubbo-consumer&dubbo=2.5.3&pid=12272& //refer=application%3Ddubbo-consumer%26dubbo%3D2.5.3%26 //interface%3Ddubbo.common.hello.service.HelloService%26 //methods%3DsayHello%26pid%3D12272%26side%3D //consumer%26timeout%3D100000%26 //timestamp%3D1489318676447×tamp=1489318676641 url = url.setProtocol(url.getParameter(Constants.REGISTRY_KEY, Constants.DEFAULT_REGISTRY)).removeParameter(Constants.REGISTRY_KEY); //根据url获取Registry对象 //先连接注册中心,把消费者注册到注册中心 Registry registry = registryFactory.getRegistry(url); //判断引用是否是注册中心RegistryService,如果是直接返回刚得到的注册中心服务 if (RegistryService.class.equals(type)) { return proxyFactory.getInvoker((T) registry, type, url); } //以下是普通服务,需要进入注册中心和集群下面的逻辑 // group="a,b" or group="*" //获取ref的各种属性 Map<String, String> qs = StringUtils.parseQueryString(url.getParameterAndDecoded(Constants.REFER_KEY)); //获取分组属性 String group = qs.get(Constants.GROUP_KEY); //先判断引用服务是否需要合并不同实现的返回结果 if (group != null && group.length() > 0 ) { if ( ( Constants.COMMA_SPLIT_PATTERN.split( group ) ).length > 1 || "*".equals( group ) ) { //使用默认的分组聚合集群策略 return doRefer( getMergeableCluster(), registry, type, url ); } } //选择配置的集群策略(cluster="failback")或者默认策略 return doRefer(cluster, registry, type, url); }
获取注册中心 连接注册中心Registry registry = registryFactory.getRegistry(url);
首先会到AbstractRegistryFactory的getRegistry方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 public Registry getRegistry(URL url) { //这里url是 //zookeeper://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService? //application=dubbo-consumer&dubbo=2.5.3& //interface=com.alibaba.dubbo.registry.RegistryService& //pid=12272×tamp=1489318676641 url = url.setPath(RegistryService.class.getName()) .addParameter(Constants.INTERFACE_KEY, RegistryService.class.getName()) .removeParameters(Constants.EXPORT_KEY, Constants.REFER_KEY); //这里key是 //zookeeper://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService String key = url.toServiceString(); // 锁定注册中心获取过程,保证注册中心单一实例 LOCK.lock(); try { Registry registry = REGISTRIES.get(key); if (registry != null) { return registry; } //这里用的是ZookeeperRegistryFactory //返回的Registry中封装了已经连接到Zookeeper的zkClient实例 registry = createRegistry(url); if (registry == null) { throw new IllegalStateException("Can not create registry " + url); } //放到缓存中 REGISTRIES.put(key, registry); return registry; } finally { // 释放锁 LOCK.unlock(); } }
ZookeeperRegistryFactory的createRegistry方法:
1 2 3 4 5 public Registry createRegistry(URL url) { //直接返回一个新的ZookeeperRegistry实例 //这里的zookeeperTransporter代码在下面,动态生成的适配类 return new ZookeeperRegistry(url, zookeeperTransporter); }
zookeeperTransporter代码:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 package com.alibaba.dubbo.remoting.zookeeper; import com.alibaba.dubbo.common.extension.ExtensionLoader; public class ZookeeperTransporter$Adpative implements com.alibaba.dubbo.remoting.zookeeper.ZookeeperTransporter { public com.alibaba.dubbo.remoting.zookeeper.ZookeeperClient connect(com.alibaba.dubbo.common.URL arg0) { if (arg0 == null) throw new IllegalArgumentException("url == null"); com.alibaba.dubbo.common.URL url = arg0; String extName = url.getParameter("client", url.getParameter("transporter", "zkclient")); if(extName == null) throw new IllegalStateException("Fail to get extension(com.alibaba.dubbo.remoting.zookeeper.ZookeeperTransporter) name from url(" + url.toString() + ") use keys([client, transporter])"); com.alibaba.dubbo.remoting.zookeeper.ZookeeperTransporter extension = (com.alibaba.dubbo.remoting.zookeeper.ZookeeperTransporter)ExtensionLoader.getExtensionLoader(com.alibaba.dubbo.remoting.zookeeper.ZookeeperTransporter.class).getExtension(extName); return extension.connect(arg0); } }
上面代码中可以看到,如果我们没有指定Zookeeper的client属性,默认使用zkClient,所以上面的zookeeperTransporter是ZkclientZookeeperTransporter。
继续看new ZookeeperRegistry(url, zookeeperTransporter);
:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 public ZookeeperRegistry(URL url, ZookeeperTransporter zookeeperTransporter) { //这里会先经过AbstractRegistry的处理,然后经过FailbackRegistry的处理(解释在下面) super(url); if (url.isAnyHost()) { throw new IllegalStateException("registry address == null"); } //服务分组,默认dubbo String group = url.getParameter(Constants.GROUP_KEY, DEFAULT_ROOT); if (! group.startsWith(Constants.PATH_SEPARATOR)) { group = Constants.PATH_SEPARATOR + group; } //注册中心的节点 this.root = group; //ZkclientZookeeperTransporter的connect方法 //直接返回一个ZkclientZookeeperClient实例 //具体的步骤是,new一个ZkClient实例,然后订阅了一个状态变化的监听器 zkClient = zookeeperTransporter.connect(url); //添加一个状态改变的监听器 zkClient.addStateListener(new StateListener() { public void stateChanged(int state) { if (state == RECONNECTED) { try { recover(); } catch (Exception e) { logger.error(e.getMessage(), e); } } } }); }
AbstractRegistry的处理:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 public AbstractRegistry(URL url) { //设置registryUrl setUrl(url); // 启动文件保存定时器 syncSaveFile = url.getParameter(Constants.REGISTRY_FILESAVE_SYNC_KEY, false); //会先去用户主目录下的.dubbo目录下加载缓存注册中心的缓存文件比如:dubbo-registry-127.0.0.1.cache String filename = url.getParameter(Constants.FILE_KEY, System.getProperty("user.home") + "/.dubbo/dubbo-registry-" + url.getHost() + ".cache"); File file = null; if (ConfigUtils.isNotEmpty(filename)) { file = new File(filename); if(! file.exists() && file.getParentFile() != null && ! file.getParentFile().exists()){ if(! file.getParentFile().mkdirs()){ throw new IllegalArgumentException("Invalid registry store file " + file + ", cause: Failed to create directory " + file.getParentFile() + "!"); } } } this.file = file; //缓存文件存在的话就把文件读进内存中 loadProperties(); //先获取backup url //然后通知订阅 notify(url.getBackupUrls()); }
notify方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 protected void notify(List<URL> urls) { if(urls == null || urls.isEmpty()) return; //getSubscribed()方法获取订阅者列表 for (Map.Entry<URL, Set<NotifyListener>> entry : getSubscribed().entrySet()) { URL url = entry.getKey(); if(! UrlUtils.isMatch(url, urls.get(0))) { continue; } Set<NotifyListener> listeners = entry.getValue(); if (listeners != null) { for (NotifyListener listener : listeners) { try { //通知每个监听器 notify(url, listener, filterEmpty(url, urls)); } catch (Throwable t) { } } } } }
notify(url, listener, filterEmpty(url, urls));
代码:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 protected void notify(URL url, NotifyListener listener, List<URL> urls) { Map<String, List<URL>> result = new HashMap<String, List<URL>>(); for (URL u : urls) { if (UrlUtils.isMatch(url, u)) { //分类 String category = u.getParameter(Constants.CATEGORY_KEY, Constants.DEFAULT_CATEGORY); List<URL> categoryList = result.get(category); if (categoryList == null) { categoryList = new ArrayList<URL>(); result.put(category, categoryList); } categoryList.add(u); } } if (result.size() == 0) { return; } Map<String, List<URL>> categoryNotified = notified.get(url); if (categoryNotified == null) { notified.putIfAbsent(url, new ConcurrentHashMap<String, List<URL>>()); categoryNotified = notified.get(url); } for (Map.Entry<String, List<URL>> entry : result.entrySet()) { String category = entry.getKey(); List<URL> categoryList = entry.getValue(); categoryNotified.put(category, categoryList); saveProperties(url); //通知 listener.notify(categoryList); } }
AbstractRegistry构造完,接着是FailbackRegistry的处理:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 public FailbackRegistry(URL url) { super(url); int retryPeriod = url.getParameter(Constants.REGISTRY_RETRY_PERIOD_KEY, Constants.DEFAULT_REGISTRY_RETRY_PERIOD); //启动失败重试定时器 this.retryFuture = retryExecutor.scheduleWithFixedDelay(new Runnable() { public void run() { // 检测并连接注册中心 try { //重试方法由每个具体子类实现 //获取到注册失败的,然后尝试注册 retry(); } catch (Throwable t) { // 防御性容错 } } }, retryPeriod, retryPeriod, TimeUnit.MILLISECONDS); }
这里会启动一个新的定时线程,主要是有连接失败的话,会进行重试连接retry();,启动完之后返回ZookeeperRegistry中继续处理。接下来的处理在代码注释中,不再详细写,看下一步服务的引用。
引用远程服务 继续看ref方法中最后一步,服务的引用,返回的是一个Invoker,return doRefer(cluster, registry, type, url);
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 private <T> Invoker<T> doRefer(Cluster cluster, Registry registry, Class<T> type, URL url) { //初始化Directory //组装Directory,可以看成一个消费端的List,可以随着注册中心的消息推送而动态的变化服务的Invoker //封装了所有服务真正引用逻辑,覆盖配置,路由规则等逻辑 //初始化时只需要向注册中心发起订阅请求,其他逻辑均是异步处理,包括服务的引用等 //缓存接口所有的提供者端Invoker以及注册中心接口相关的配置等 RegistryDirectory<T> directory = new RegistryDirectory<T>(type, url); directory.setRegistry(registry); directory.setProtocol(protocol); //此处的subscribeUrl为 //consumer://192.168.1.100/dubbo.common.hello.service.HelloService? //application=dubbo-consumer&dubbo=2.5.3& //interface=dubbo.common.hello.service.HelloService& //methods=sayHello&pid=16409& //side=consumer&timeout=100000×tamp=1489322133987 URL subscribeUrl = new URL(Constants.CONSUMER_PROTOCOL, NetUtils.getLocalHost(), 0, type.getName(), directory.getUrl().getParameters()); if (! Constants.ANY_VALUE.equals(url.getServiceInterface()) && url.getParameter(Constants.REGISTER_KEY, true)) { //到注册中心注册服务 //此处regist是上面一步获得的registry,即是ZookeeperRegistry,包含zkClient的实例 //会先经过AbstractRegistry的处理,然后经过FailbackRegistry的处理(解析在下面) registry.register(subscribeUrl.addParameters(Constants.CATEGORY_KEY, Constants.CONSUMERS_CATEGORY, Constants.CHECK_KEY, String.valueOf(false))); } //订阅服务 //有服务提供的时候,注册中心会推送服务消息给消费者,消费者再进行服务的引用。 directory.subscribe(subscribeUrl.addParameter(Constants.CATEGORY_KEY, Constants.PROVIDERS_CATEGORY + "," + Constants.CONFIGURATORS_CATEGORY + "," + Constants.ROUTERS_CATEGORY)); //服务的引用与变更全部由Directory异步完成 //集群策略会将Directory伪装成一个Invoker返回 //合并所有相同的invoker return cluster.join(directory); }
注册中心接收到消费者发送的订阅请求后,会根据提供者注册服务的列表,推送服务消息给消费者。消费者端接收到注册中心发来的提供者列表后,进行服务的引用。触发Directory监听器的可以是订阅请求,覆盖策略消息,路由策略消息。
AbstractRegistry的register方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 public void register(URL url) { //此时url是 //consumer://192.168.1.100/dubbo.common.hello.service.HelloService? //application=dubbo-consumer& //category=consumers&check=false&dubbo=2.5.3& //interface=dubbo.common.hello.service.HelloService&methods=sayHello //&pid=16409&side=consumer&timeout=100000×tamp=1489322133987 if (url == null) { throw new IllegalArgumentException("register url == null"); } if (logger.isInfoEnabled()){ logger.info("Register: " + url); } registered.add(url); }
上面只是把url添加到registered这个set中。
接着看FailbackRegistry的register方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 public void register(URL url) { super.register(url); failedRegistered.remove(url); failedUnregistered.remove(url); try { // 向服务器端发送注册请求 //这里调用的是ZookeeperRegistry中的doRegister方法 doRegister(url); } catch (Exception e) { Throwable t = e; // 如果开启了启动时检测,则直接抛出异常 boolean check = getUrl().getParameter(Constants.CHECK_KEY, true) && url.getParameter(Constants.CHECK_KEY, true) && ! Constants.CONSUMER_PROTOCOL.equals(url.getProtocol()); boolean skipFailback = t instanceof SkipFailbackWrapperException; if (check || skipFailback) { if(skipFailback) { t = t.getCause(); } throw new IllegalStateException("Failed to register " + url + " to registry " + getUrl().getAddress() + ", cause: " + t.getMessage(), t); } else { logger.error("Failed to register " + url + ", waiting for retry, cause: " + t.getMessage(), t); } // 将失败的注册请求记录到失败列表,定时重试 failedRegistered.add(url); } }
接着看下doRegister(url);方法,向服务器端发送注册请求,在ZookeeperRegistry中:
1 2 3 4 5 6 7 8 protected void doRegister(URL url) { try { //直接调用create,在AbstractZookeeperClient类中 zkClient.create(toUrlPath(url), url.getParameter(Constants.DYNAMIC_KEY, true)); } catch (Throwable e) { throw new RpcException("Failed to register " + url + " to zookeeper " + getUrl() + ", cause: " + e.getMessage(), e); } }
zkClient.create()方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 //path为 ///dubbo/dubbo.common.hello.service.HelloService/consumers/ //consumer%3A%2F%2F192.168.1.100%2F //dubbo.common.hello.service.HelloService%3Fapplication%3D //dubbo-consumer%26category%3Dconsumers%26check%3Dfalse%26 //dubbo%3D2.5.3%26interface%3D //dubbo.common.hello.service.HelloService%26 //methods%3DsayHello%26pid%3D28819%26 //side%3Dconsumer%26timeout%3D100000%26timestamp%3D1489332839677 public void create(String path, boolean ephemeral) { int i = path.lastIndexOf('/'); if (i > 0) { create(path.substring(0, i), false); } //循环完得到的path为/dubbo //dynamic=false 表示该数据为持久数据,当注册方退出时,数据依然保存在注册中心 if (ephemeral) { //创建临时的节点 createEphemeral(path); } else { //创建持久的节点,/dubbo/dubbo.common.hello.service.HelloService/consumers/ //consumer%3A%2F%2F192.168.110.197%2F //dubbo.common.hello.service.HelloService%3Fapplication%3Ddubbo-consumer%26 //category%3Dconsumers%26check%3Dfalse%26 //dubbo%3D2.5.3%26interface%3D //dubbo.common.hello.service.HelloService%26 //methods%3DsayHello%26pid%3D6370%26side%3D //consumer%26timeout%3D100000%26timestamp%3D1489367959659 createPersistent(path); } }
经过上面create之后,Zookeeper中就存在了消费者需要订阅的服务的节点:
1 2 3 4 5 6 7 8 9 10 11 12 13 /dubbo /dubbo.common.hello.service.HelloService /consumers /http://0.0.0.0:4550/?path=dubbo%2F dubbo.common.hello.service.HelloService%2F consumers%2Fconsumer%253A%252F%252F192.168.110.197%252F dubbo.common.hello.service.HelloService%253F application%253Ddubbo-consumer%2526category%253D consumers%2526check%253Dfalse%2526 dubbo%253D2.5.3%2526interface%253D dubbo.common.hello.service.HelloService%2526 methods%253DsayHello%2526pid%253D22392%2526side%253D consumer%2526timeout%253D100000%2526timestamp%253D1490063394184
消费者自己注册到注册中心之后,接着是订阅服务提供者,directory.subscribe():
1 2 3 4 5 6 public void subscribe(URL url) { //设置消费者url setConsumerUrl(url); //这里的registry是ZookeeperRegistry registry.subscribe(url, this); }
看下registry.subscribe(url, this);,这里registry是ZookeeperRegistry,会先经过AbstractRegistry的处理,然后是FailbackRegistry的处理。
在AbstractRegistry中:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 //此时url为consumer://192.168.1.100/dubbo.common.hello.service.HelloService?application=dubbo-consumer& //category=providers,configurators,routers&dubbo=2.5.3&interface=dubbo.common.hello.service.HelloService&methods= //sayHello&pid=28819&side=consumer&timeout=100000×tamp=1489332839677 public void subscribe(URL url, NotifyListener listener) { //先根据url获取已注册的监听器 Set<NotifyListener> listeners = subscribed.get(url); //没有监听器,就创建,并添加进去 if (listeners == null) { subscribed.putIfAbsent(url, new ConcurrentHashSet<NotifyListener>()); listeners = subscribed.get(url); } //有监听器,直接把当前RegistryDirectory添加进去 listeners.add(listener); }
然后是FailbackRegistry中:
1 2 3 4 5 6 7 8 public void subscribe(URL url, NotifyListener listener) { super.subscribe(url, listener); removeFailedSubscribed(url, listener); try { // 向服务器端发送订阅请求 doSubscribe(url, listener); } catch (Exception e) {...} }
继续看doSubscribe(url, listener);向服务端发送订阅请求,在ZookeeperRegistry中:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 protected void doSubscribe(final URL url, final NotifyListener listener) { try { if (Constants.ANY_VALUE.equals(url.getServiceInterface())) {... } else { List<URL> urls = new ArrayList<URL>(); for (String path : toCategoriesPath(url)) { ConcurrentMap<NotifyListener, ChildListener> listeners = zkListeners.get(url); if (listeners == null) { zkListeners.putIfAbsent(url, new ConcurrentHashMap<NotifyListener, ChildListener>()); listeners = zkListeners.get(url); } //将zkClient的事件IZkChildListener转换到registry事件NotifyListener ChildListener zkListener = listeners.get(listener); if (zkListener == null) { listeners.putIfAbsent(listener, new ChildListener() { public void childChanged(String parentPath, List<String> currentChilds) { ZookeeperRegistry.this.notify(url, listener, toUrlsWithEmpty(url, parentPath, currentChilds)); } }); zkListener = listeners.get(listener); } //创建三个节点 // /dubbo/dubbo.common.hello.service.HelloService/providers/ // /dubbo/dubbo.common.hello.service.HelloService/configurators/ // /dubbo/dubbo.common.hello.service.HelloService/routers/ //上面三个路径会被消费者端监听,当提供者,配置,路由发生变化之后, //注册中心会通知消费者刷新本地缓存。 zkClient.create(path, false); List<String> children = zkClient.addChildListener(path, zkListener); if (children != null) { urls.addAll(toUrlsWithEmpty(url, path, children)); } } notify(url, listener, urls); } } catch (Throwable e) { throw new RpcException("Failed to subscribe " + url + " to zookeeper " + getUrl() + ", cause: " + e.getMessage(), e); } }
服务订阅完成之后,接着就是notify(url, listener, urls);:
会先经过FailbackRegistry将失败的通知请求记录到失败列表,定时重试。
1 2 3 4 5 6 7 8 9 10 11 12 13 14 protected void notify(URL url, NotifyListener listener, List<URL> urls) { try { doNotify(url, listener, urls); } catch (Exception t) { // 将失败的通知请求记录到失败列表,定时重试 Map<NotifyListener, List<URL>> listeners = failedNotified.get(url); if (listeners == null) { failedNotified.putIfAbsent(url, new ConcurrentHashMap<NotifyListener, List<URL>>()); listeners = failedNotified.get(url); } listeners.put(listener, urls); logger.error("Failed to notify for subscribe " + url + ", waiting for retry, cause: " + t.getMessage(), t); } }
doNotify(url, listener, urls);:
1 2 3 4 protected void doNotify(URL url, NotifyListener listener, List<URL> urls) { //父类实现 super.notify(url, listener, urls); }
AbstractRegistry中的doNotify实现:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 protected void notify(URL url, NotifyListener listener, List<URL> urls) { Map<String, List<URL>> result = new HashMap<String, List<URL>>(); for (URL u : urls) { if (UrlUtils.isMatch(url, u)) { //不同类型的数据分开通知,providers,consumers,routers,overrides //允许只通知其中一种类型,但该类型的数据必须是全量的,不是增量的。 String category = u.getParameter(Constants.CATEGORY_KEY, Constants.DEFAULT_CATEGORY); List<URL> categoryList = result.get(category); if (categoryList == null) { categoryList = new ArrayList<URL>(); result.put(category, categoryList); } categoryList.add(u); } } if (result.size() == 0) { return; } Map<String, List<URL>> categoryNotified = notified.get(url); if (categoryNotified == null) { notified.putIfAbsent(url, new ConcurrentHashMap<String, List<URL>>()); categoryNotified = notified.get(url); } //对这里得到的providers,configurators,routers分别进行通知 for (Map.Entry<String, List<URL>> entry : result.entrySet()) { String category = entry.getKey(); List<URL> categoryList = entry.getValue(); categoryNotified.put(category, categoryList); saveProperties(url); //这里的listener是RegistryDirectory listener.notify(categoryList); } }
到RegistryDirectory中查看notify方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 public synchronized void notify(List<URL> urls) { List<URL> invokerUrls = new ArrayList<URL>(); List<URL> routerUrls = new ArrayList<URL>(); List<URL> configuratorUrls = new ArrayList<URL>(); for (URL url : urls) { String protocol = url.getProtocol(); String category = url.getParameter(Constants.CATEGORY_KEY, Constants.DEFAULT_CATEGORY); if (Constants.ROUTERS_CATEGORY.equals(category) || Constants.ROUTE_PROTOCOL.equals(protocol)) { routerUrls.add(url); } else if (Constants.CONFIGURATORS_CATEGORY.equals(category) || Constants.OVERRIDE_PROTOCOL.equals(protocol)) { configuratorUrls.add(url); } else if (Constants.PROVIDERS_CATEGORY.equals(category)) { invokerUrls.add(url); } else { logger.warn("Unsupported category " + category + " in notified url: " + url + " from registry " + getUrl().getAddress() + " to consumer " + NetUtils.getLocalHost()); } } // configurators 更新缓存的服务提供方配置 if (configuratorUrls != null && configuratorUrls.size() >0 ){ this.configurators = toConfigurators(configuratorUrls); } // routers//更新缓存的路由规则配置 if (routerUrls != null && routerUrls.size() >0 ){ List<Router> routers = toRouters(routerUrls); if(routers != null){ // null - do nothing setRouters(routers); } } List<Configurator> localConfigurators = this.configurators; // local reference // 合并override参数 this.overrideDirectoryUrl = directoryUrl; if (localConfigurators != null && localConfigurators.size() > 0) { for (Configurator configurator : localConfigurators) { this.overrideDirectoryUrl = configurator.configure(overrideDirectoryUrl); } } // providers //重建invoker实例 refreshInvoker(invokerUrls); }
refreshInvoker(invokerUrls);:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 /** * 根据invokerURL列表转换为invoker列表。转换规则如下: * 1.如果url已经被转换为invoker,则不在重新引用,直接从缓存中获取,注意如果url中任何一个参数变更也会重新引用 * 2.如果传入的invoker列表不为空,则表示最新的invoker列表 * 3.如果传入的invokerUrl列表是空,则表示只是下发的override规则或route规则,需要重新交叉对比,决定是否需要重新引用。 * @param invokerUrls 传入的参数不能为null */ private void refreshInvoker(List<URL> invokerUrls){ if (invokerUrls != null && invokerUrls.size() == 1 && invokerUrls.get(0) != null && Constants.EMPTY_PROTOCOL.equals(invokerUrls.get(0).getProtocol())) { this.forbidden = true; // 禁止访问 this.methodInvokerMap = null; // 置空列表 destroyAllInvokers(); // 关闭所有Invoker } else { this.forbidden = false; // 允许访问 Map<String, Invoker<T>> oldUrlInvokerMap = this.urlInvokerMap; // local reference if (invokerUrls.size() == 0 && this.cachedInvokerUrls != null){ invokerUrls.addAll(this.cachedInvokerUrls); } else { this.cachedInvokerUrls = new HashSet<URL>(); this.cachedInvokerUrls.addAll(invokerUrls);//缓存invokerUrls列表,便于交叉对比 } if (invokerUrls.size() ==0 ){ return; } //会重新走一遍服务的引用过程 //给每个提供者创建一个Invoker Map<String, Invoker<T>> newUrlInvokerMap = toInvokers(invokerUrls) ;// 将URL列表转成Invoker列表 Map<String, List<Invoker<T>>> newMethodInvokerMap = toMethodInvokers(newUrlInvokerMap); // 换方法名映射Invoker列表 // state change //如果计算错误,则不进行处理. if (newUrlInvokerMap == null || newUrlInvokerMap.size() == 0 ){ logger.error(new IllegalStateException("urls to invokers error .invokerUrls.size :"+invokerUrls.size() + ", invoker.size :0. urls :"+invokerUrls.toString())); return ; } //服务提供者Invoker保存在这个map中 this.methodInvokerMap = multiGroup ? toMergeMethodInvokerMap(newMethodInvokerMap) : newMethodInvokerMap; this.urlInvokerMap = newUrlInvokerMap; try{ destroyUnusedInvokers(oldUrlInvokerMap,newUrlInvokerMap); // 关闭未使用的Invoker }catch (Exception e) { logger.warn("destroyUnusedInvokers error. ", e); } } }
toInvokers(invokerUrls) 方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 private Map<String, Invoker<T>> toInvokers(List<URL> urls) { Map<String, Invoker<T>> newUrlInvokerMap = new HashMap<String, Invoker<T>>(); if(urls == null || urls.size() == 0){ return newUrlInvokerMap; } Set<String> keys = new HashSet<String>(); String queryProtocols = this.queryMap.get(Constants.PROTOCOL_KEY); for (URL providerUrl : urls) { //此时url是dubbo://192.168.110.197:20880/dubbo.common.hello.service.HelloService?anyhost=true& //application=dubbo-provider&application.version=1.0&dubbo=2.5.3&environment=product& //interface=dubbo.common.hello.service.HelloService&methods=sayHello&organization=china& //owner=cheng.xi&pid=5631&side=provider×tamp=1489367571986 //从注册中心获取到的携带提供者信息的url //如果reference端配置了protocol,则只选择匹配的protocol if (queryProtocols != null && queryProtocols.length() >0) { boolean accept = false; String[] acceptProtocols = queryProtocols.split(","); for (String acceptProtocol : acceptProtocols) { if (providerUrl.getProtocol().equals(acceptProtocol)) { accept = true; break; } } if (!accept) { continue; } } if (Constants.EMPTY_PROTOCOL.equals(providerUrl.getProtocol())) { continue; } if (! ExtensionLoader.getExtensionLoader(Protocol.class).hasExtension(providerUrl.getProtocol())) { logger.error(new IllegalStateException("Unsupported protocol " + providerUrl.getProtocol() + " in notified url: " + providerUrl + " from registry " + getUrl().getAddress() + " to consumer " + NetUtils.getLocalHost() + ", supported protocol: "+ExtensionLoader.getExtensionLoader(Protocol.class).getSupportedExtensions())); continue; } URL url = mergeUrl(providerUrl); String key = url.toFullString(); // URL参数是排序的 if (keys.contains(key)) { // 重复URL continue; } keys.add(key); // 缓存key为没有合并消费端参数的URL,不管消费端如何合并参数,如果服务端URL发生变化,则重新refer Map<String, Invoker<T>> localUrlInvokerMap = this.urlInvokerMap; // local reference Invoker<T> invoker = localUrlInvokerMap == null ? null : localUrlInvokerMap.get(key); if (invoker == null) { // 缓存中没有,重新refer try { boolean enabled = true; if (url.hasParameter(Constants.DISABLED_KEY)) { enabled = ! url.getParameter(Constants.DISABLED_KEY, false); } else { enabled = url.getParameter(Constants.ENABLED_KEY, true); } if (enabled) { //根据扩展点加载机制,这里使用的protocol是DubboProtocol invoker = new InvokerDelegete<T>(protocol.refer(serviceType, url), url, providerUrl); } } catch (Throwable t) { logger.error("Failed to refer invoker for interface:"+serviceType+",url:("+url+")" + t.getMessage(), t); } if (invoker != null) { // 将新的引用放入缓存 newUrlInvokerMap.put(key, invoker); } }else { newUrlInvokerMap.put(key, invoker); } } keys.clear(); return newUrlInvokerMap; }
创建invoker invoker = new InvokerDelegete<T>(protocol.refer(serviceType, url), url, providerUrl);
:
先使用DubboProtocol的refer方法,这一步会依次调用ProtocolFIlterListenerWrapper,ProtocolFilterWrapper,DubboProtocol中的refer方法。经过两个Wrapper中,会添加对应的InvokerListener并构建Invoker Filter链,在DubboProtocol中会创建一个DubboInvoker对象,该Invoker对象持有服务Class,providerUrl,负责和服务提供端通信的ExchangeClient。 接着使用得到的Invoker创建一个InvokerDelegete 在DubboProtocol中创建DubboInvoker的时候代码如下:
1 2 3 4 5 6 7 public <T> Invoker<T> refer(Class<T> serviceType, URL url) throws RpcException { // create rpc invoker. //这里有一个getClients方法 DubboInvoker<T> invoker = new DubboInvoker<T>(serviceType, url, getClients(url), invokers); invokers.add(invoker); return invoker; }
查看getClients方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 private ExchangeClient[] getClients(URL url){ //是否共享连接 boolean service_share_connect = false; int connections = url.getParameter(Constants.CONNECTIONS_KEY, 0); //如果connections不配置,则共享连接,否则每服务每连接 if (connections == 0){ service_share_connect = true; connections = 1; } ExchangeClient[] clients = new ExchangeClient[connections]; for (int i = 0; i < clients.length; i++) { if (service_share_connect){ //这里没有配置connections,就使用getSharedClient //getSharedClient中先去缓存中查找,没有的话就会新建,也是调用initClient方法 clients[i] = getSharedClient(url); } else { clients[i] = initClient(url); } } return clients; }
直接看initClient方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 //创建新连接 private ExchangeClient initClient(URL url) { // client type setting. String str = url.getParameter(Constants.CLIENT_KEY, url.getParameter(Constants.SERVER_KEY, Constants.DEFAULT_REMOTING_CLIENT)); String version = url.getParameter(Constants.DUBBO_VERSION_KEY); boolean compatible = (version != null && version.startsWith("1.0.")); url = url.addParameter(Constants.CODEC_KEY, Version.isCompatibleVersion() && compatible ? COMPATIBLE_CODEC_NAME : DubboCodec.NAME); //默认开启heartbeat url = url.addParameterIfAbsent(Constants.HEARTBEAT_KEY, String.valueOf(Constants.DEFAULT_HEARTBEAT)); // BIO存在严重性能问题,暂时不允许使用 if (str != null && str.length() > 0 && ! ExtensionLoader.getExtensionLoader(Transporter.class).hasExtension(str)) { throw new RpcException("Unsupported client type: " + str + "," + " supported client type is " + StringUtils.join(ExtensionLoader.getExtensionLoader(Transporter.class).getSupportedExtensions(), " ")); } ExchangeClient client ; try { //如果lazy属性没有配置为true(我们没有配置,默认为false)ExchangeClient会马上和服务端建立连接 //设置连接应该是lazy的 if (url.getParameter(Constants.LAZY_CONNECT_KEY, false)){ client = new LazyConnectExchangeClient(url ,requestHandler); } else { //立即和服务端建立连接 client = Exchangers.connect(url ,requestHandler); } } catch (RemotingException e) { throw new RpcException("Fail to create remoting client for service(" + url + "): " + e.getMessage(), e); } return client; }
和服务端建立连接,Exchangers.connect(url ,requestHandler);,其实最后使用的是HeaderExchanger,Exchanger目前只有这一个实现:
1 2 3 4 5 6 7 public ExchangeClient connect(URL url, ExchangeHandler handler) throws RemotingException { //先经过HeaderExchangeHandler包装 //然后是DecodeHandler //然后是Transporters.connect //返回一个HeaderExchangerClient,这里封装了client,channel,启动心跳的定时器等 return new HeaderExchangeClient(Transporters.connect(url, new DecodeHandler(new HeaderExchangeHandler(handler)))); }
Transporters.connect中也是根据SPI扩展获取Transport的具体实现,这里默认使用NettyTransporter.connect(),在NettyTransporter的connect方法中直接返回一个NettyClient(url, listener);,下面看下具体的NettyClient初始化细节,会先初始化AbstractPeer这里只是吧url和handler赋值;然后是AbstractEndpoint初始化:
1 2 3 4 5 6 7 public AbstractEndpoint(URL url, ChannelHandler handler) { super(url, handler); //获取编解码器,这里是DubboCountCodec this.codec = getChannelCodec(url); this.timeout = url.getPositiveParameter(Constants.TIMEOUT_KEY, Constants.DEFAULT_TIMEOUT); this.connectTimeout = url.getPositiveParameter(Constants.CONNECT_TIMEOUT_KEY, Constants.DEFAULT_CONNECT_TIMEOUT); }
接着是AbstractClient的初始化:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 public AbstractClient(URL url, ChannelHandler handler) throws RemotingException { super(url, handler); send_reconnect = url.getParameter(Constants.SEND_RECONNECT_KEY, false); shutdown_timeout = url.getParameter(Constants.SHUTDOWN_TIMEOUT_KEY, Constants.DEFAULT_SHUTDOWN_TIMEOUT); //默认重连间隔2s,1800表示1小时warning一次. reconnect_warning_period = url.getParameter("reconnect.waring.period", 1800); try { //具体实现在子类中 doOpen(); } catch (Throwable t) {。。。 } try { // 连接 connect(); } catch (RemotingException t) {。。。} // TODO暂没理解 executor = (ExecutorService) ExtensionLoader.getExtensionLoader(DataStore.class) .getDefaultExtension().get(Constants.CONSUMER_SIDE, Integer.toString(url.getPort())); ExtensionLoader.getExtensionLoader(DataStore.class) .getDefaultExtension().remove(Constants.CONSUMER_SIDE, Integer.toString(url.getPort())); }
看下在NettyClient中doOpen()的实现:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 protected void doOpen() throws Throwable { NettyHelper.setNettyLoggerFactory(); bootstrap = new ClientBootstrap(channelFactory); // config // @see org.jboss.netty.channel.socket.SocketChannelConfig bootstrap.setOption("keepAlive", true); bootstrap.setOption("tcpNoDelay", true); bootstrap.setOption("connectTimeoutMillis", getTimeout()); final NettyHandler nettyHandler = new NettyHandler(getUrl(), this); bootstrap.setPipelineFactory(new ChannelPipelineFactory() { public ChannelPipeline getPipeline() { NettyCodecAdapter adapter = new NettyCodecAdapter(getCodec(), getUrl(), NettyClient.this); ChannelPipeline pipeline = Channels.pipeline(); pipeline.addLast("decoder", adapter.getDecoder()); pipeline.addLast("encoder", adapter.getEncoder()); pipeline.addLast("handler", nettyHandler); return pipeline; } }); }
这里是Netty3中的客户端连接的一些常规步骤,暂不做具体解析。open之后,就是真正连接服务端的操作了,connect():
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 protected void connect() throws RemotingException { connectLock.lock(); try { if (isConnected()) { return; } //初始化重连的线程 initConnectStatusCheckCommand(); //连接,在子类中实现 doConnect(); reconnect_count.set(0); reconnect_error_log_flag.set(false); } catch (RemotingException e) {。。。} finally { connectLock.unlock(); } }
NettyClient中的doConnect方法:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 protected void doConnect() throws Throwable { long start = System.currentTimeMillis(); //消费者端开始连接,这一步的时候,服务提供者端就接到了连接请求,开始处理了 ChannelFuture future = bootstrap.connect(getConnectAddress()); try{ boolean ret = future.awaitUninterruptibly(getConnectTimeout(), TimeUnit.MILLISECONDS); if (ret && future.isSuccess()) { Channel newChannel = future.getChannel(); newChannel.setInterestOps(Channel.OP_READ_WRITE); try { // 关闭旧的连接 Channel oldChannel = NettyClient.this.channel; // copy reference if (oldChannel != null) { try { oldChannel.close(); } finally { NettyChannel.removeChannelIfDisconnected(oldChannel); } } } finally { if (NettyClient.this.isClosed()) { try { newChannel.close(); } finally { NettyClient.this.channel = null; NettyChannel.removeChannelIfDisconnected(newChannel); } } else { NettyClient.this.channel = newChannel; } } } else if (future.getCause() != null) { throw。。。 } else {throw 。。。 } }finally{ if (! isConnected()) { future.cancel(); } } }
这里连接的细节都交给了netty。
NettyClient初始化完成之后,返回给Transporters,再返回给HeaderExchanger,HeaderExchanger中将NettyClient包装成HeaderExchangeClient返回给DubboProtocol的initClient方法中,到此在getSharedClient中就获取到了一个ExchangeClient,然后包装一下返回client = new ReferenceCountExchangeClient(exchagneclient, ghostClientMap);
。
到这里在DubboProtocol的refer方法中这句DubboInvoker<T> invoker = new DubboInvoker<T>(serviceType, url, getClients(url), invokers);
创建DubboInvoker就已经解析完成,创建过程中连接了服务端,包含一个ExchangeClient等:
1 2 3 4 5 6 7 8 public <T> Invoker<T> refer(Class<T> serviceType, URL url) throws RpcException { // create rpc invoker. DubboInvoker<T> invoker = new DubboInvoker<T>(serviceType, url, getClients(url), invokers); //将invoker缓存 invokers.add(invoker); //返回invoker return invoker; }
接着返回ProtocolFilterWrapper的refer方法,在这里会构建invoker链:
1 2 3 4 5 6 public <T> Invoker<T> refer(Class<T> type, URL url) throws RpcException { if (Constants.REGISTRY_PROTOCOL.equals(url.getProtocol())) { return protocol.refer(type, url); } return buildInvokerChain(protocol.refer(type, url), Constants.REFERENCE_FILTER_KEY, Constants.CONSUMER); }
接着再返回到ProtocolListenerWrapper的refer方法,这里会初始化监听器,包装:
1 2 3 4 5 6 7 8 9 public <T> Invoker<T> refer(Class<T> type, URL url) throws RpcException { if (Constants.REGISTRY_PROTOCOL.equals(url.getProtocol())) { return protocol.refer(type, url); } return new ListenerInvokerWrapper<T>(protocol.refer(type, url), Collections.unmodifiableList( ExtensionLoader.getExtensionLoader(InvokerListener.class) .getActivateExtension(url, Constants.INVOKER_LISTENER_KEY))); }
接着在返回到toInvokers方法,然后返回refreshInvoker方法的Map<String, Invoker<T>> newUrlInvokerMap = toInvokers(invokerUrls) ;
这就获得了Invoker,接着就是方法名映射Invoker列表:Map<String, List<Invoker<T>>> newMethodInvokerMap = toMethodInvokers(newUrlInvokerMap);
这里将invokers列表转成与方法的映射关系。到这里refreshInvoker方法就完成了,在往上就返回到AbstractRegistry的notify方法,到这里也完成了。
创建服务代理 到这里有关消费者端注册到注册中心和订阅注册中心就完事儿了,这部分是在RegistryProtocol.doRefer方法中,这个方法最后一句是return cluster.join(directory);
,这里由Cluster组件创建一个Invoker并返回,这里的cluster默认是用FailoverCluster,最后返回的是经过MockClusterInvoker包装过的FailoverCluster。继续返回到ReferenceConfig中createProxy方法,这时候我们已经完成了消费者端引用服务的Invoker。然后最后返回的是根据我们得到的invoker创建的服务代理return (T) proxyFactory.getProxy(invoker);
。这里proxyFactory是我们在最上面列出的动态生成的代码。
首先经过AbstractProxyFactory的处理:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 public <T> T getProxy(Invoker<T> invoker) throws RpcException { Class<?>[] interfaces = null; String config = invoker.getUrl().getParameter("interfaces"); if (config != null && config.length() > 0) { String[] types = Constants.COMMA_SPLIT_PATTERN.split(config); if (types != null && types.length > 0) { interfaces = new Class<?>[types.length + 2]; interfaces[0] = invoker.getInterface(); interfaces[1] = EchoService.class; for (int i = 0; i < types.length; i ++) { interfaces[i + 1] = ReflectUtils.forName(types[i]); } } } if (interfaces == null) { interfaces = new Class<?>[] {invoker.getInterface(), EchoService.class}; } //这里默认使用的是JavassistProxyFactory的实现 return getProxy(invoker, interfaces); }
然后经过StubProxyFactoryWrapper的处理:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 public <T> T getProxy(Invoker<T> invoker) throws RpcException { T proxy = proxyFactory.getProxy(invoker); if (GenericService.class != invoker.getInterface()) { String stub = invoker.getUrl().getParameter(Constants.STUB_KEY, invoker.getUrl().getParameter(Constants.LOCAL_KEY)); if (ConfigUtils.isNotEmpty(stub)) { Class<?> serviceType = invoker.getInterface(); if (ConfigUtils.isDefault(stub)) { if (invoker.getUrl().hasParameter(Constants.STUB_KEY)) { stub = serviceType.getName() + "Stub"; } else { stub = serviceType.getName() + "Local"; } } try { Class<?> stubClass = ReflectUtils.forName(stub); if (! serviceType.isAssignableFrom(stubClass)) { throw new IllegalStateException("The stub implemention class " + stubClass.getName() + " not implement interface " + serviceType.getName()); } try { Constructor<?> constructor = ReflectUtils.findConstructor(stubClass, serviceType); proxy = (T) constructor.newInstance(new Object[] {proxy}); //export stub service URL url = invoker.getUrl(); if (url.getParameter(Constants.STUB_EVENT_KEY, Constants.DEFAULT_STUB_EVENT)){ url = url.addParameter(Constants.STUB_EVENT_METHODS_KEY, StringUtils.join(Wrapper.getWrapper(proxy.getClass()).getDeclaredMethodNames(), ",")); url = url.addParameter(Constants.IS_SERVER_KEY, Boolean.FALSE.toString()); try{ export(proxy, (Class)invoker.getInterface(), url); }catch (Exception e) { LOGGER.error("export a stub service error.", e); } } } catch (NoSuchMethodException e) { throw new IllegalStateException("No such constructor "public " + stubClass.getSimpleName() + "(" + serviceType.getName() + ")" in stub implemention class " + stubClass.getName(), e); } } catch (Throwable t) { LOGGER.error("Failed to create stub implemention class " + stub + " in consumer " + NetUtils.getLocalHost() + " use dubbo version " + Version.getVersion() + ", cause: " + t.getMessage(), t); // ignore } } } return proxy; }
返回代理。到此HelloService helloService = (HelloService) applicationContext.getBean("helloService");
就解析完成了,得到了服务的代理,代理会被注册到Spring容器中,可以调用服务方法了。接下来的方法调用过程,是消费者发送请求,提供者处理,然后消费者接受处理结果的请求。
初始化的过程:主要做了注册到注册中心,监听注册中心,连接到服务提供者端,创建代理。这些都是为了下面消费者和提供者之间的通信做准备。