Dubbo服务发布
Dubbo服务发布影响流程的主要包括三个部分,依次是:
- 服务暴露
- 心跳
- 服务注册
服务暴露是对外提供服务及暴露端口,以便消费端可以正常调通服务。心跳机制保证服务器端及客户端正常长连接的保持,服务注册是向注册中心注册服务暴露服务的过程。
Dubbo服务暴露
此处只记录主要代码部分以便能快速定位到主要的核心代码:
ServiceConfig.java中代码
if (registryURLs != null && registryURLs.size() > 0
&& url.getParameter("register", true)) {
// 循环祖册中心 URL 数组 registryURLs
for (URL registryURL : registryURLs) {
// "dynamic" :服务是否动态注册,如果设为false,注册后将显示后disable状态,需人工启用,并且服务提供者停止时,也不会自动取消册,需人工禁用。
url = url.addParameterIfAbsent("dynamic", registryURL.getParameter("dynamic"));
// 获得监控中心 URL
URL monitorUrl = loadMonitor(registryURL);
if (monitorUrl != null) {
// 将监控中心的 URL 作为 "monitor" 参数添加到服务提供者的 URL 中,并且需要编码。通过这样的方式,服务提供者的 URL 中,包含了监控中心的配置。
url = url.addParameterAndEncoded(Constants.MONITOR_KEY, monitorUrl.toFullString());
}
if (logger.isInfoEnabled()) {
logger.info("Register dubbo service " + interfaceClass.getName() + " url " + url + " to registry " + registryURL);
}
// 使用 ProxyFactory 创建 Invoker 对象
// 调用 URL#addParameterAndEncoded(key, value) 方法,将服务体用这的 URL 作为 "export" 参数添加到注册中心的 URL 中。通过这样的方式,注册中心的 URL 中,包含了服务提供者的配置。
// 创建 Invoker 对象。该 Invoker 对象,执行 #invoke(invocation) 方法时,内部会调用 Service 对象( ref )对应的调用方法。
Invoker<?> invoker = proxyFactory.getInvoker(ref, (Class) interfaceClass, registryURL.addParameterAndEncoded(Constants.EXPORT_KEY, url.toFullString()));
// 使用 Protocol 暴露 Invoker 对象
/**
* Protocol$Adaptive => ProtocolFilterWrapper => ProtocolListenerWrapper => RegistryProtocol
* =>
* Protocol$Adaptive => ProtocolFilterWrapper => ProtocolListenerWrapper => DubboProtocol
*/
Exporter<?> exporter = protocol.export(invoker);
// 添加到 `exporters`
exporters.add(exporter);
}
}循环注册中心,对每个注册中心都执行代码块中的执行过程
1.如果url中没有dynamic 参数,则从registerUrl中取值,并赋予url
dynamic是服务动态注册的标识,默认为true,如果设置为false,则服务注册后显示disable状态,需人工启动
2.加载注册中心对应的监控中心配置
3.如果注册中心不为空则设置url的 monitor参数
4.Invoker proxyFactory.getInvoker proxyFactory 默认为JavassistProxyFactory对象,这段代码为创建 ref 服务对象的代理对象。
proxyFactory.getInvoker(ref, (Class) interfaceClass, registryURL.addParameterAndEncoded(Constants.EXPORT_KEY, url.toFullString())); 获取ref的代理对象并在registryURL 中添加export属性,代理对象中属性参数如下
5.protocol.export(invoker) 为暴露服务的核心实现部分,协议的调用链如下:
/**
* Protocol$Adaptive => ProtocolFilterWrapper => ProtocolListenerWrapper => RegistryProtocol
* =>
* Protocol$Adaptive => ProtocolFilterWrapper => ProtocolListenerWrapper => DubboProtocol
*/
其中DubboProtocol 实现了服务暴露及心跳检测功能
RegistryProtocol 调用了DubboProtocol及注册服务
接下来经过两个扩展类(包装器) ProtocolFilterWrapper和ProtocolListenerWrapper 进入RegistryProtocol 核心代码如下:
public <T> Exporter<T> export(final Invoker<T> originInvoker) throws RpcException {
// 暴露服务
//export invoker
final ExporterChangeableWrapper<T> exporter = doLocalExport(originInvoker);
//registry provider
final Registry registry = getRegistry(originInvoker);
// 获得服务提供者 URL
final URL registedProviderUrl = getRegistedProviderUrl(originInvoker);
registry.register(registedProviderUrl);
// 订阅override数据
// FIXME 提供者订阅时,会影响同一JVM即暴露服务,又引用同一服务的的场景,因为subscribed以服务名为缓存的key,导致订阅信息覆盖。
final URL overrideSubscribeUrl = getSubscribedOverrideUrl(registedProviderUrl);
final OverrideListener overrideSubscribeListener = new OverrideListener(overrideSubscribeUrl, originInvoker);
overrideListeners.put(overrideSubscribeUrl, overrideSubscribeListener);
registry.subscribe(overrideSubscribeUrl, overrideSubscribeListener);
//保证每次export都返回一个新的exporter实例
return new Exporter<T>() {
public Invoker<T> getInvoker() {
return exporter.getInvoker();
}
public void unexport() {
try {
exporter.unexport();
} catch (Throwable t) {
logger.warn(t.getMessage(), t);
}
try {
registry.unregister(registedProviderUrl);
} catch (Throwable t) {
logger.warn(t.getMessage(), t);
}
try {
overrideListeners.remove(overrideSubscribeUrl);
registry.unsubscribe(overrideSubscribeUrl, overrideSubscribeListener);
} catch (Throwable t) {
logger.warn(t.getMessage(), t);
}
}
};
}
/**
* 暴露服务。
*
* 此处的 Local 指的是,本地启动服务,但是不包括向注册中心注册服务的意思。
* @param originInvoker
* @param <T>
* @return
*/
@SuppressWarnings("unchecked")
private <T> ExporterChangeableWrapper<T> doLocalExport(final Invoker<T> originInvoker) {
// 获得在 `bounds` 中的缓存 Key
//dubbo://192.168.20.218:20880/com.alibaba.dubbo.demo.DemoService?anyhost=true&application=demo-provider&default.accepts=1000&default.threadpool=fixed&default.threads=100&default.timeout=5000&dubbo=2.0.0&generic=false&
// interface=com.alibaba.dubbo.demo.DemoService&methods=sayHello&owner=uce&pid=1760&side=provider×tamp=1530150456618
String key = getCacheKey(originInvoker);
ExporterChangeableWrapper<T> exporter = (ExporterChangeableWrapper<T>) bounds.get(key);
if (exporter == null) {
synchronized (bounds) {
exporter = (ExporterChangeableWrapper<T>) bounds.get(key);
// 未暴露过,进行暴露服务
if (exporter == null) {
// InvokerDelegete 实现 com.alibaba.dubbo.rpc.protocol.InvokerWrapper 类,主要增加了 #getInvoker() 方法,获得真实的,非 InvokerDelegete 的 Invoker 对象。
// 因为,可能会存在 InvokerDelegete.invoker 也是 InvokerDelegete 类型的情况。 getProviderUrl 同上 key = getCacheKey
final Invoker<?> invokerDelegete = new InvokerDelegete<T>(originInvoker, getProviderUrl(originInvoker));
// 暴露服务,创建 Exporter 对象
Exporter<T> export = (Exporter<T>) protocol.export(invokerDelegete);
// 使用 创建的Exporter对象 + originInvoker ,创建 ExporterChangeableWrapper 对象
exporter = new ExporterChangeableWrapper<T>(export, originInvoker);
bounds.put(key, exporter);
}
}
}
return exporter;
}1.代用同步锁+double-check的方式来保证同样的服务不重复暴露。
2.new InvokerDelegete<T>(originInvoker, getProviderUrl(originInvoker));
InvokerDelegete 实现 com.alibaba.dubbo.rpc.protocol.InvokerWrapper(invoke) 类,主要增加了 #getInvoker() 方法,获得真实的,非 InvokerDelegete 的 Invoker 对象。
3.调用protocol.export接口 经过ProtocolFilterWrapper.invoker方法 创过滤器链再暴露服务:
protocol.export(buildInvokerChain(invoker, Constants.SERVICE_FILTER_KEY, Constants.PROVIDER));
/**
* 构建过滤器链
* @param invoker injvm://127.0.0.1/com.alibaba.dubbo.demo.DemoService?anyhost=true&application=demo-provider&default.accepts=1000&default.threadpool=fixed&default.threads=100&default.timeout=5000&dubbo=2.0.0&generic=false&interface=com.alibaba.dubbo.demo.DemoService&methods=sayHello&owner=uce&pid=9932&side=provider×tamp=1527930395583
* @param key service.filter 该参数用于获得 ServiceConfig 或 ReferenceConfig 配置的自定义过滤器
* 以 ServiceConfig 举例子,例如 url = injvm://127.0.0.1/com.alibaba.dubbo.demo.DemoService?anyhost=true&application=demo-provider&bind.ip=192.168.3.17&bind.port=20880&default.delay=-1&default.retries=0&default.service.filter=demo&delay=-1&dubbo=2.0.0&generic=false&interface=com.alibaba.dubbo.demo.DemoService&methods=sayHello&pid=81844&qos.port=22222&service.filter=demo&side=provider×tamp=1520682156043 中,
* service.filter=demo,这是笔者配置自定义的 DemoFilter 过滤器。
* <dubbo:service interface="com.alibaba.dubbo.demo.DemoService" ref="demoService" filter="demo" />
* @param group provider 属性,分组
* 在暴露服务时,group = provider 。
* 在引用服务时,group = consumer 。
* @param <T>
* @return
*/
private static <T> Invoker<T> buildInvokerChain(final Invoker<T> invoker, String key, String group) {
Invoker<T> last = invoker;
List<Filter> filters = ExtensionLoader.getExtensionLoader(Filter.class).getActivateExtension(invoker.getUrl(), key, group);
/* EchoFilter
ClassLoaderFilter
GenericFilter
ContextFilter
TraceFilter
TimeoutFilter
MonitorFilter
ExceptionFilter
DemoFilter 【自定义】*/
//倒序循环 Filter ,创建带 Filter 链的 Invoker 对象。因为是通过嵌套声明匿名类循环调用的方式,所以要倒序。可以手工模拟下这个过程。通过这样的方式,实际过滤的顺序,还是我们上面看到的正序
if (filters.size() > 0) {
for (int i = filters.size() - 1; i >= 0; i--) {
final Filter filter = filters.get(i);
final Invoker<T> next = last;
last = new Invoker<T>() {
@Override
public Class<T> getInterface() {
return invoker.getInterface();
}
@Override
public URL getUrl() {
return invoker.getUrl();
}
@Override
public boolean isAvailable() {
return invoker.isAvailable();
}
@Override
public Result invoke(Invocation invocation) throws RpcException {
return filter.invoke(next, invocation);
}
@Override
public void destroy() {
invoker.destroy();
}
@Override
public String toString() {
return invoker.toString();
}
};
}
}
return last;
}List<Filter> filters = ExtensionLoader.getExtensionLoader(Filter.class).getActivateExtension(invoker.getUrl(), key, group);
获取Active的属于指定组的过过滤器列表
参考文章:https://my.oschina.net/LucasZhu/blog/1835048
接下来执行DubboProrocol进行服务暴露的过程。
public <T> Exporter<T> export(Invoker<T> invoker) throws RpcException {
URL url = invoker.getUrl();
// export service.
String key = serviceKey(url);
// 创建 DubboExporter 对象,并添加到 `exporterMap` 。
DubboExporter<T> exporter = new DubboExporter<T>(invoker, key, exporterMap);
exporterMap.put(key, exporter);
//export an stub service for dispaching event
Boolean isStubSupportEvent = url.getParameter(Constants.STUB_EVENT_KEY, Constants.DEFAULT_STUB_EVENT);
Boolean isCallbackservice = url.getParameter(Constants.IS_CALLBACK_SERVICE, false);
if (isStubSupportEvent && !isCallbackservice) {
String stubServiceMethods = url.getParameter(Constants.STUB_EVENT_METHODS_KEY);
if (stubServiceMethods == null || stubServiceMethods.length() == 0) {
if (logger.isWarnEnabled()) {
logger.warn(new IllegalStateException("consumer [" + url.getParameter(Constants.INTERFACE_KEY) +
"], has set stubproxy support event ,but no stub methods founded."));
}
} else {
stubServiceMethodsMap.put(url.getServiceKey(), stubServiceMethods);
}
}
// 启动服务器
openServer(url);
return exporter;
}1.获取invoker的 URL信息
2.获取key信息 为URL中interface与暴露端口的拼装字符串:com.alibaba.dubbo.demo.DemoService:20880
3.创建DubboExporter对象 并且入参为exporterMap
4.将exporter对象添加到exporterMap中
/**
* 启动服务器
*
* @param url URL
*/
private void openServer(URL url) {
// find server.
String key = url.getAddress();
//client 也可以暴露一个只有server可以调用的服务。
boolean isServer = url.getParameter(Constants.IS_SERVER_KEY, true);
if (isServer) {
ExchangeServer server = serverMap.get(key);
if (server == null) {
serverMap.put(key, createServer(url));
} else {
//server支持reset,配合override功能使用
server.reset(url);
}
}
}调用createServer()方法 并存入DubboProtocol的serverMap中
private ExchangeServer createServer(URL url) {
//默认开启server关闭时发送readonly事件
url = url.addParameterIfAbsent(Constants.CHANNEL_READONLYEVENT_SENT_KEY, Boolean.TRUE.toString());
//默认开启heartbeat
url = url.addParameterIfAbsent(Constants.HEARTBEAT_KEY, String.valueOf(Constants.DEFAULT_HEARTBEAT));
String str = url.getParameter(Constants.SERVER_KEY, Constants.DEFAULT_REMOTING_SERVER);
// 校验 Server 的 Dubbo SPI 拓展是否存在
if (str != null && str.length() > 0 && !ExtensionLoader.getExtensionLoader(Transporter.class).hasExtension(str))
throw new RpcException("Unsupported server type: " + str + ", url: " + url);
// 设置codec为 `"Dubbo"`
url = url.addParameter(Constants.CODEC_KEY, Version.isCompatibleVersion() ? COMPATIBLE_CODEC_NAME : DubboCodec.NAME);
ExchangeServer server;
try {
server = Exchangers.bind(url, requestHandler);
} catch (RemotingException e) {
throw new RpcException("Fail to start server(url: " + url + ") " + e.getMessage(), e);
}
str = url.getParameter(Constants.CLIENT_KEY);
if (str != null && str.length() > 0) {
Set<String> supportedTypes = ExtensionLoader.getExtensionLoader(Transporter.class).getSupportedExtensions();
if (!supportedTypes.contains(str)) {
throw new RpcException("Unsupported client type: " + str);
}
}
return server;
}1.默认开启server 关闭时发送readonly事件:channel.readonly.sent : true
2.默认开启 heartbeat
3.获取服务暴露的 server 传输 , 默认为netty
4.设置编码器为Dubbo也就是 DubboCountCodec
5.Exchangers#bind(url, requestHandler) 启动服务器,requestHandler结构如下
具体实现代码如下:
private ExchangeHandler requestHandler = new ExchangeHandlerAdapter() {
public Object reply(ExchangeChannel channel, Object message) throws RemotingException {
if (message instanceof Invocation) {
Invocation inv = (Invocation) message;
Invoker<?> invoker = getInvoker(channel, inv);
//如果是callback 需要处理高版本调用低版本的问题
if (Boolean.TRUE.toString().equals(inv.getAttachments().get(IS_CALLBACK_SERVICE_INVOKE))) {
String methodsStr = invoker.getUrl().getParameters().get("methods");
boolean hasMethod = false;
if (methodsStr == null || methodsStr.indexOf(",") == -1) {
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());
return invoker.invoke(inv);
}
throw new RemotingException(channel, "Unsupported request: " + message == null ? null : (message.getClass().getName() + ": " + message) + ", channel: consumer: " + channel.getRemoteAddress() + " --> provider: " + channel.getLocalAddress());
}
@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, Constants.ON_CONNECT_KEY);
}
@Override
public void disconnected(Channel channel) throws RemotingException {
if (logger.isInfoEnabled()) {
logger.info("disconected from " + channel.getRemoteAddress() + ",url:" + channel.getUrl());
}
invoke(channel, Constants.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);
}
}
}
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, new Class<?>[0], new Object[0]);
invocation.setAttachment(Constants.PATH_KEY, url.getPath());
invocation.setAttachment(Constants.GROUP_KEY, url.getParameter(Constants.GROUP_KEY));
invocation.setAttachment(Constants.INTERFACE_KEY, url.getParameter(Constants.INTERFACE_KEY));
invocation.setAttachment(Constants.VERSION_KEY, url.getParameter(Constants.VERSION_KEY));
if (url.getParameter(Constants.STUB_EVENT_KEY, false)) {
invocation.setAttachment(Constants.STUB_EVENT_KEY, Boolean.TRUE.toString());
}
return invocation;
}
};Exchangeers.bind(URL url, ExchangeHandler handler)
public static ExchangeServer bind(URL url, ExchangeHandler handler) throws RemotingException {
if (url == null) {
throw new IllegalArgumentException("url == null");
}
if (handler == null) {
throw new IllegalArgumentException("handler == null");
}
url = url.addParameterIfAbsent(Constants.CODEC_KEY, "exchange");
return getExchanger(url).bind(url, handler);
}
public static Exchanger getExchanger(URL url) {
String type = url.getParameter(Constants.EXCHANGER_KEY, Constants.DEFAULT_EXCHANGER);
return getExchanger(type);
}
public static Exchanger getExchanger(String type) {
return ExtensionLoader.getExtensionLoader(Exchanger.class).getExtension(type);
}接口作用是设置exchanger params为header 并且获取Exchanger.class的header扩展接口HeaderExchanger, 并调用bind方法:
public class HeaderExchanger implements Exchanger {
public static final String NAME = "header";
public ExchangeClient connect(URL url, ExchangeHandler handler) throws RemotingException {
return new HeaderExchangeClient(Transporters.connect(url, new DecodeHandler(new HeaderExchangeHandler(handler))), true);
}
public ExchangeServer bind(URL url, ExchangeHandler handler) throws RemotingException {
return new HeaderExchangeServer(Transporters.bind(url, new DecodeHandler(new HeaderExchangeHandler(handler))));
}
}先将 DubboProtocol入参 传过来的ExchangeHandler对象ExchangeHandlerAdapter() 进行包装组成handler链:最后返回ChannelHandler对象,接下来调用:Transporters.bind(url, new DecodeHandler(new HeaderExchangeHandler(handler)))
Server Transporters.bind(URL url, ChannelHandler... handlers)
Transpoter$Adaptive.bind()
数据透传 NettyTransporter.java
Server NettyTransporter.bind(URL url, ChannelHandler listener)
public Server bind(URL url, ChannelHandler listener) throws RemotingException {
return new NettyServer(url, listener);
}作用是:
返回一个NettyServer实例:
public NettyServer(URL url, ChannelHandler handler) throws RemotingException {
super(url, ChannelHandlers.wrap(handler, ExecutorUtil.setThreadName(url, SERVER_THREAD_POOL_NAME)));
}ExecutorUtil.setThreadName(url, SERVER_THREAD_POOL_NAME)) 只用是生成获取ThreadName的名称 为URL添加threadname的param
ChannelHandlers.wrap(ChannelHandler handler, URL url) 代码如下:
public class ChannelHandlers {
private static ChannelHandlers INSTANCE = new ChannelHandlers();
protected ChannelHandlers() {
}
public static ChannelHandler wrap(ChannelHandler handler, URL url) {
return ChannelHandlers.getInstance().wrapInternal(handler, url);
}
protected static ChannelHandlers getInstance() {
return INSTANCE;
}
static void setTestingChannelHandlers(ChannelHandlers instance) {
INSTANCE = instance;
}
protected ChannelHandler wrapInternal(ChannelHandler handler, URL url) {
return new MultiMessageHandler(new HeartbeatHandler(ExtensionLoader.getExtensionLoader(Dispatcher.class)
.getAdaptiveExtension().dispatch(handler, url)));
}
}ExtensionLoader.getExtensionLoader(Dispatcher.class).getAdaptiveExtension().dispatch(handler, url):
获取到AllDispatcher分发器进行透传:
public class AllDispatcher implements Dispatcher {
public static final String NAME = "all";
public ChannelHandler dispatch(ChannelHandler handler, URL url) {
return new AllChannelHandler(handler, url);
}
}结构如图所示:
调用WrappedChannelHandler的构造方法:
public WrappedChannelHandler(ChannelHandler handler, URL url) {
this.handler = handler;
this.url = url;
executor = (ExecutorService) ExtensionLoader.getExtensionLoader(ThreadPool.class).getAdaptiveExtension().getExecutor(url);
String componentKey = Constants.EXECUTOR_SERVICE_COMPONENT_KEY;
if (Constants.CONSUMER_SIDE.equalsIgnoreCase(url.getParameter(Constants.SIDE_KEY))) {
componentKey = Constants.CONSUMER_SIDE;
}
DataStore dataStore = ExtensionLoader.getExtensionLoader(DataStore.class).getDefaultExtension();
dataStore.put(componentKey, Integer.toString(url.getPort()), executor);
}这段代码的功能为:
1.将 之前头创的DecoderHandler对象再进包装 包装为AllChannelHandler
2.生成线程池对象Executor对象
3.获取默认的DataStore对象,并将线程池对象放入DataStore 中 key为 : java.util.concurrent.ExecutorService 字符串和服务暴露的端口 值为线程池对象
return new MultiMessageHandler(new HeartbeatHandler(ExtensionLoader.getExtensionLoader(Dispatcher.class)
.getAdaptiveExtension().dispatch(handler, url)));
接下来将返回的AllChannelHandler对象用HeartbeatHandler 和 MultiMessageHandler 进行包装处理并返回ChannelHandler.wrap() 的上一端。
NettyTransporter.bind(URL url, ChannelHandler listener) -> new NettyServer(URL url, ChannelHandler handler)
-> super(url, ChannelHandlers.wrap(handler, ExecutorUtil.setThreadName(url, SERVER_THREAD_POOL_NAME)));
接下来是创建NettyServer对象的最后一步:
NettyServer ==>
public NettyServer(URL url, ChannelHandler handler) throws RemotingException {
super(url, ChannelHandlers.wrap(handler, ExecutorUtil.setThreadName(url, SERVER_THREAD_POOL_NAME)));
}
AbstractServer==>
public AbstractServer(URL url, ChannelHandler handler) throws RemotingException {
super(url, handler);
localAddress = getUrl().toInetSocketAddress();
String host = url.getParameter(Constants.ANYHOST_KEY, false)
|| NetUtils.isInvalidLocalHost(getUrl().getHost())
? NetUtils.ANYHOST : getUrl().getHost();
bindAddress = new InetSocketAddress(host, getUrl().getPort());
this.accepts = url.getParameter(Constants.ACCEPTS_KEY, Constants.DEFAULT_ACCEPTS);
this.idleTimeout = url.getParameter(Constants.IDLE_TIMEOUT_KEY, Constants.DEFAULT_IDLE_TIMEOUT);
try {
doOpen();
if (logger.isInfoEnabled()) {
logger.info("Start " + getClass().getSimpleName() + " bind " + getBindAddress() + ", export " + getLocalAddress());
}
} catch (Throwable t) {
throw new RemotingException(url.toInetSocketAddress(), null, "Failed to bind " + getClass().getSimpleName()
+ " on " + getLocalAddress() + ", cause: " + t.getMessage(), t);
}
//fixme replace this with better method
DataStore dataStore = ExtensionLoader.getExtensionLoader(DataStore.class).getDefaultExtension();
executor = (ExecutorService) dataStore.get(Constants.EXECUTOR_SERVICE_COMPONENT_KEY, Integer.toString(url.getPort()));
}
AbstractEndpoint ==>
public AbstractEndpoint(URL url, ChannelHandler handler) {
super(url, handler);
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);
}
AbstractPeer==>
public AbstractPeer(URL url, ChannelHandler handler) {
if (url == null) {
throw new IllegalArgumentException("url == null");
}
if (handler == null) {
throw new IllegalArgumentException("handler == null");
}
this.url = url;
this.handler = handler;
}调用栈如上所示:
因为之前设置了codec为dubbo 所以返回DubboCountCodec实例
获取超时时间timeout ,和链接的超时时间connectTimeout
localAddress为本地IP:PORT port为服务暴露的端口
host 为0.0.0.0
bindAddress为 host:port port为服务暴露的端口
this.accept 为默认获取最大连接数
idleTimeout为 url中 idle.timeout
核心代码:doOpen()
@Override
protected void doOpen() throws Throwable {
NettyHelper.setNettyLoggerFactory();
ExecutorService boss = Executors.newCachedThreadPool(new NamedThreadFactory("NettyServerBoss", true));
ExecutorService worker = Executors.newCachedThreadPool(new NamedThreadFactory("NettyServerWorker", true));
ChannelFactory channelFactory = new NioServerSocketChannelFactory(boss, worker, getUrl().getPositiveParameter(Constants.IO_THREADS_KEY, Constants.DEFAULT_IO_THREADS));
bootstrap = new ServerBootstrap(channelFactory);
final NettyHandler nettyHandler = new NettyHandler(getUrl(), this);
channels = nettyHandler.getChannels();
// https://issues.jboss.org/browse/NETTY-365
// https://issues.jboss.org/browse/NETTY-379
// final Timer timer = new HashedWheelTimer(new NamedThreadFactory("NettyIdleTimer", true));
bootstrap.setPipelineFactory(new ChannelPipelineFactory() {
public ChannelPipeline getPipeline() {
NettyCodecAdapter adapter = new NettyCodecAdapter(getCodec(), getUrl(), NettyServer.this);
ChannelPipeline pipeline = Channels.pipeline();
/*int idleTimeout = getIdleTimeout();
if (idleTimeout > 10000) {
pipeline.addLast("timer", new IdleStateHandler(timer, idleTimeout / 1000, 0, 0));
}*/
pipeline.addLast("decoder", adapter.getDecoder());
pipeline.addLast("encoder", adapter.getEncoder());
pipeline.addLast("handler", nettyHandler);
return pipeline;
}
});
// bind
channel = bootstrap.bind(getBindAddress());
}
1.首先进行Netty的日志配置
接下来先生成 NettyCodecAdapter 入参为之前生成的codec , URL信息(主要用到buffer属性配置Netty缓冲区)及 this (Handler) 对象
接下来就是设置Netty的Encoder Decoder 来进行数据的编码与解码 其会调用 this的handler链来进行数据处理。Dubbo2.5.6采用的是Netty3来进行通讯的,此处就不进行赘述。
AbstractServer 接下来获取到从DataStore对象中获取之前缓存的线程池 ,设置 NettyServer的 executor属性。
自此,Dubbo服务暴露的代码解析完毕,NettyServer的类结构图如下:
心跳服务
Dubbo provider的心跳服务是 HeaderExchanger bind代码执行的最后一步:参数是上面生成的Server对象 (NettyServer)。
public HeaderExchangeServer(Server server) {
if (server == null) {
throw new IllegalArgumentException("server == null");
}
this.server = server;
this.heartbeat = server.getUrl().getParameter(Constants.HEARTBEAT_KEY, 0);
this.heartbeatTimeout = server.getUrl().getParameter(Constants.HEARTBEAT_TIMEOUT_KEY, heartbeat * 3);
if (heartbeatTimeout < heartbeat * 2) {
throw new IllegalStateException("heartbeatTimeout < heartbeatInterval * 2");
}
startHeatbeatTimer();
}1.初始化 server信息
2.获取server URL中heartbeat信息 及心跳超时信息,默认为heartbeat的三倍
3.执行心跳代码 startHeatbeatTimer()
private void startHeatbeatTimer() {
stopHeartbeatTimer();
if (heartbeat > 0) {
heatbeatTimer = scheduled.scheduleWithFixedDelay(
new HeartBeatTask(new HeartBeatTask.ChannelProvider() {
public Collection<Channel> getChannels() {
return Collections.unmodifiableCollection(
HeaderExchangeServer.this.getChannels());
}
}, heartbeat, heartbeatTimeout),
heartbeat, heartbeat, TimeUnit.MILLISECONDS);
}
}1.停止定时任务——首先停止定时器中所有任务,置空 beatbeatTimer;
2.重新设置定时器 , 循环检测
接下来在DubboProtocol的openServer(URL) 方法中将创建的ExchangeServer对象放入 DubboProtocol的 serverMap 集合对象中
key为服务的ip:port 如 192.168.20.218:20880
value为之前创建的ExchangeServer对象
DubboProtocol export方法到此执行完毕,最终返回的是 DubboExporter对象包装了入参的invoker对象,serviceKey信息,及服务暴露的 exporterMap对象。
服务注册
我们接着来看RegistryProtocol 接下来的执行代码:
public <T> Exporter<T> export(final Invoker<T> originInvoker) throws RpcException {
// 暴露服务
//export invoker
final ExporterChangeableWrapper<T> exporter = doLocalExport(originInvoker);
//registry provider 添加定时任务 ping request response
final Registry registry = getRegistry(originInvoker);
// 获得服务提供者 URL
final URL registedProviderUrl = getRegistedProviderUrl(originInvoker);
registry.register(registedProviderUrl);
// 订阅override数据
// FIXME 提供者订阅时,会影响同一JVM即暴露服务,又引用同一服务的的场景,因为subscribed以服务名为缓存的key,导致订阅信息覆盖。
final URL overrideSubscribeUrl = getSubscribedOverrideUrl(registedProviderUrl);
final OverrideListener overrideSubscribeListener = new OverrideListener(overrideSubscribeUrl, originInvoker);
overrideListeners.put(overrideSubscribeUrl, overrideSubscribeListener);
registry.subscribe(overrideSubscribeUrl, overrideSubscribeListener);
//保证每次export都返回一个新的exporter实例
return new Exporter<T>() {
public Invoker<T> getInvoker() {
return exporter.getInvoker();
}
public void unexport() {
try {
exporter.unexport();
} catch (Throwable t) {
logger.warn(t.getMessage(), t);
}
try {
registry.unregister(registedProviderUrl);
} catch (Throwable t) {
logger.warn(t.getMessage(), t);
}
try {
overrideListeners.remove(overrideSubscribeUrl);
registry.unsubscribe(overrideSubscribeUrl, overrideSubscribeListener);
} catch (Throwable t) {
logger.warn(t.getMessage(), t);
}
}
};
}1.ExporterChangeableWrapper<T> doLocalExport(final Invoker<T> originInvoker) 为暴露服务的执行过程,上面流程已经走过。
返回的数据格式如下:
2.根据originInvoker中注册中心信息获取对应的Registry对象,因为这里是zookeeper协议,所以为ZookeeperRegistry对象
3.从注册中心的URL中获得 export 参数对应的值,即服务提供者的URL.
4.registry.register(registedProviderUrl); 用之前创建的注册中心对象注册服务
5.
// TODO
上面提到 Registry getRegistry(final Invoker<?> originInvoker) 是根据invoker的地址获取registry实例代码如下:
private Registry getRegistry(final Invoker<?> originInvoker) {
// registry://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService?application=demo-provider&dubbo=2.0.0&export=dubbo%3A%2F%2F192.168.20.218%3A20880%2Fcom.alibaba.dubbo.demo.DemoService%3Fanyhost%3Dtrue%26application%3Ddemo-provider%26default.accepts%3D1000%26default.threadpool%3Dfixed%26default.threads%3D100%26default.timeout%3D5000%26dubbo%3D2.0.0%26generic%3Dfalse%26interface%3Dcom.alibaba.dubbo.demo.DemoService%26methods%3DsayHello%26owner%3Duce%26pid%3D12028%26side%3Dprovider%26timestamp%3D1531912729429&owner=uce&pid=12028®istry=zookeeper×tamp=1531912729343
URL registryUrl = originInvoker.getUrl();
if (Constants.REGISTRY_PROTOCOL.equals(registryUrl.getProtocol())) {
String protocol = registryUrl.getParameter(Constants.REGISTRY_KEY, Constants.DEFAULT_DIRECTORY);
registryUrl = registryUrl.setProtocol(protocol).removeParameter(Constants.REGISTRY_KEY);
}
// zookeeper://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService?application=demo-provider&dubbo=2.0.0&export=dubbo%3A%2F%2F192.168.20.218%3A20880%2Fcom.alibaba.dubbo.demo.DemoService%3Fanyhost%3Dtrue%26application%3Ddemo-provider%26default.accepts%3D1000%26default.threadpool%3Dfixed%26default.threads%3D100%26default.timeout%3D5000%26dubbo%3D2.0.0%26generic%3Dfalse%26interface%3Dcom.alibaba.dubbo.demo.DemoService%26methods%3DsayHello%26owner%3Duce%26pid%3D12028%26side%3Dprovider%26timestamp%3D1531912729429&owner=uce&pid=12028×tamp=1531912729343
return registryFactory.getRegistry(registryUrl);
}上面代码的意思是:
1.获取originalInvoker中的URL信息 (注册中心的配置信息)
2.将URL中信息中Param中registry参数获取到,并替换URL中的protocol属性,并删除Param中的registry信息,上面代码中的注释为执行前和执行后的的结果。
3.获取protocol 为 zookeeper对应的RegistryFactory接口的扩展对象 ZookeeperRegistryFactory 并执行getRegistry 方法:
ZookeeperRegistryFactory的继承结构和对应类中属性如下图所示:
其中REGISTRIES = new ConcurrentHashMap<String, Registry>(); 代表注册中心的配置,其中可以有多个注册中心配置
AbstractRegistryFactory.getRegistry执行代码如下:
public Registry getRegistry(URL url) {
url = url.setPath(RegistryService.class.getName())
.addParameter(Constants.INTERFACE_KEY, RegistryService.class.getName())
.removeParameters(Constants.EXPORT_KEY, Constants.REFER_KEY);
String key = url.toServiceString(); // zookeeper://192.168.1.157:2181/com.alibaba.dubbo.registry.RegistryService
// 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;
}
registry = createRegistry(url);
if (registry == null) {
throw new IllegalStateException("Can not create registry " + url);
}
REGISTRIES.put(key, registry);
return registry;
} finally {
// 释放锁
LOCK.unlock();
}
}1.设置Path属性,添加interface参数信息,及移除export 和 refer 参数信息。执行结果如下:
zookeeper://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService?application=demo-provider&dubbo=2.0.0&interface=com.alibaba.dubbo.registry.RegistryService&owner=uce&pid=12028×tamp=1531912729343
2.获取url对应的serviceString信息:zookeeper://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService,由于我使用的是本地的zookeeper 所以IP为 127.0.0.1
3.顺序地创建注册中心:Registry ZookeeperRegistryFactory.createRegistry(URL url);
public Registry createRegistry(URL url) {
return new ZookeeperRegistry(url, zookeeperTransporter);
}
// 构造ZookeeperRegistry的调用链如下所示
public ZookeeperRegistry(URL url, ZookeeperTransporter zookeeperTransporter) {
super(url);
if (url.isAnyHost()) {
throw new IllegalStateException("registry address == null");
}
String group = url.getParameter(Constants.GROUP_KEY, DEFAULT_ROOT);
if (!group.startsWith(Constants.PATH_SEPARATOR)) {
group = Constants.PATH_SEPARATOR + group;
}
this.root = group;
zkClient = zookeeperTransporter.connect(url);
zkClient.addStateListener(new StateListener() {
public void stateChanged(int state) {
if (state == RECONNECTED) {
try {
recover();
} catch (Exception e) {
logger.error(e.getMessage(), e);
}
}
}
});
}
public FailbackRegistry(URL url) {
super(url);
int retryPeriod = url.getParameter(Constants.REGISTRY_RETRY_PERIOD_KEY, Constants.DEFAULT_REGISTRY_RETRY_PERIOD);
this.retryFuture = retryExecutor.scheduleWithFixedDelay(new Runnable() {
public void run() {
// 检测并连接注册中心
try {
retry();
} catch (Throwable t) { // 防御性容错
logger.error("Unexpected error occur at failed retry, cause: " + t.getMessage(), t);
}
}
}, retryPeriod, retryPeriod, TimeUnit.MILLISECONDS);
}
public AbstractRegistry(URL url) {
setUrl(url);
// 启动文件保存定时器
syncSaveFile = url.getParameter(Constants.REGISTRY_FILESAVE_SYNC_KEY, false);
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;
loadProperties();
notify(url.getBackupUrls());
}ZookeeperRegistry 的类继承结构图如图所示:
ZooKeeperRegistry.FailbackRegistry.AbstractRegistry中
1.setUrl设置url属性信息
2.是否启用文件的异步保存
3.注册中心对应的本地文件保存的位置信息:如C:\Users\Administrator/.dubbo/dubbo-registry-127.0.0.1.cache
4.给file赋值 并且加载文件信息到properties属性中
5.notify(url.getBackupUrls) 这段代码不知道什么意思。
ZooKeeperRegistry.FailbackRegistry中
1.获取定时任务的时间间隔。
2.开启定时任务定时检测失败的注册,并重新注册。
ZooKeeperRegistry 中
1.获取注册中心的group参数 ,默认为/dubbo , 并未root赋予group值
2.zkClient = zookeeperTransporter.connect(url); 链接zookeeper信息并添加状态监听事件,具体再更文详述吧,代码如下:
public ZkclientZookeeperClient(URL url) {
super(url);
client = new ZkClient(url.getBackupAddress());
client.subscribeStateChanges(new IZkStateListener() {
@Override
public void handleStateChanged(KeeperState state) throws Exception {
ZkclientZookeeperClient.this.state = state;
if (state == KeeperState.Disconnected) {
stateChanged(StateListener.DISCONNECTED);
} else if (state == KeeperState.SyncConnected) {
stateChanged(StateListener.CONNECTED);
}
}
@Override
public void handleNewSession() throws Exception {
stateChanged(StateListener.RECONNECTED);
}
});
}3.添加重连状态的状态监听事件 调用 recover()方法。
至此 ZookeeperRegistry创建完毕。
ZookeeperRegistryFactory中最后将registry放入 ZookeeperRegistryFactory.REGISTRIES中
key 为zookeeper://127.0.0.1:2181/com.alibaba.dubbo.registry.RegistryService
value 为之前创建的ZookeeperRegistry对象。
接着返回RegistryProtocol 的export方法 ,
1.上面说到了调用doLocalExport(originInvoker);进行服务暴露的过程及调用getRegistry(originInvoker)方法通过ZookeeperRegistryFactory 工厂生成 ZookeeperRegistry 方法,然后加入到工厂REGISTRIES 缓存中,并返回ZookeeperRegistry 实例的过程。
2.接下来RegistryProtocol 的export方法中调用 final URL registedProviderUrl = getRegistedProviderUrl(originInvoker); 获取服务提供者的URL信息 , 它是从注册中心的URL中获得export参数对应的值转换的URL信息。(去除掉不需要在注册中心上看到的字段)
3.接下来调用registry.register(registedProviderUrl); 进行服务的注册将暴露的服务信息注册到注册中心,并且将已经注册的服务URL缓存到ZookeeperRegistry.registered 已注册服务的缓存中。
FailbackRegistry.register
/**
* 进行服务注册逻辑的实现
*/
@Override
public void register(URL url) {
if (destroyed.get()){
return;
}
// 调用AbstractRegistry.register进行服务对应URL的缓存
super.register(url);
failedRegistered.remove(url);
failedUnregistered.remove(url);
try {
// 向服务器端发送注册请求,将服务注册到注册中心,可以使用各个注册协议(注册中心)的实现 此处使用zookeeper ZookeeperRegistry.doRegister
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);
}
}
AbstractRegistry.register
public void register(URL url) {
if (url == null) {
throw new IllegalArgumentException("register url == null");
}
if (logger.isInfoEnabled()) {
logger.info("Register: " + url);
}
// 缓存已经注册的服务
registered.add(url);
}
ZookeeperRegistry.doRegister
protected void doRegister(URL url) {
try {
// 此处为具体服务暴露的代码 toUrlPath 根据URL生成写入zk的路径信息
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);
}
}4.由registryProviderUrl获取overrideSubscribeUrl 再构建OverrideListener