概述
目前dubbo支持多种注册中心:Zookeeper、Redis、Simple、Multicast、Etcd3。
本编文章是分析使用Zookeeper作为注册中心,dubbo如何整合Zookeeper进行服务注册和订阅服务。
首先dubbo将服务注册到Zookeeper后,目录结构如下所示:(注册接口名:com.bob.dubbo.service.CityDubboService)
在consumer和provider服务启动的时候,去把自身URL格式化成字符串,然后注册到zookeeper相应节点下,作为临时节点,断开连接后,节点删除;consumer启动时,不仅会订阅服务,同时也会将自己的URL注册到zookeeper中;
ZookeeperRegistry
ZookeeperRegistry:dubbo与zookeeper交互主要的类,已下结合源码进行分析,先来看
doSubcribe()
这个方法主要是用于订阅服务,添加监听器,动态监听提供者列表变化:
@Override
public void doSubscribe(final URL url, final NotifyListener listener) {
try {
// 处理所有service层发起的订阅,例如监控中心的订阅
if (Constants.ANY_VALUE.equals(url.getServiceInterface())) {
String root = toRootPath();
ConcurrentMap listeners = zkListeners.get(url);
if (listeners == null) {
zkListeners.putIfAbsent(url, new ConcurrentHashMap<>());
listeners = zkListeners.get(url);
}
ChildListener zkListener = listeners.get(listener);
if (zkListener == null) {
listeners.putIfAbsent(listener, (parentPath, currentChilds) -> {
for (String child : currentChilds) {
child = URL.decode(child);
if (!anyServices.contains(child)) {
anyServices.add(child);
subscribe(url.setPath(child).addParameters(Constants.INTERFACE_KEY, child,
Constants.CHECK_KEY, String.valueOf(false)), listener);
}
}
});
zkListener = listeners.get(listener);
}
zkClient.create(root, false);
List services = zkClient.addChildListener(root, zkListener);
if (services != null && !services.isEmpty()) {
for (String service : services) {
service = URL.decode(service);
anyServices.add(service);
subscribe(url.setPath(service).addParameters(Constants.INTERFACE_KEY, service,
Constants.CHECK_KEY, String.valueOf(false)), listener);
}
}
// 处理指定service层发起的订阅,例如服务消费者的订阅
} else {
List urls = new ArrayList<>();
// 循环分类数组 , router, configurator, provider
for (String path : toCategoriesPath(url)) {
// 获得 url 对应的监听器集合
ConcurrentMap listeners = zkListeners.get(url);
if (listeners == null) {// 不存在,进行创建
zkListeners.putIfAbsent(url, new ConcurrentHashMap<>());
listeners = zkListeners.get(url);
}
// 获得 ChildListener 对象
ChildListener zkListener = listeners.get(listener);
if (zkListener == null) {// 不存在子目录的监听器,进行创建 ChildListener 对象
// 订阅父级目录, 当有子节点发生变化时,触发此回调函数,回调listener中的notify()方法
listeners.putIfAbsent(listener, (parentPath, currentChilds) -> ZookeeperRegistry.this.notify(url, listener, toUrlsWithEmpty(url, parentPath, currentChilds)));
zkListener = listeners.get(listener);
}
创建Type节点,此节点为持久节点
zkClient.create(path, false);
// 向 Zookeeper ,PATH 节点,发起订阅,返回此节点下的所有子元素 path : /根节点/接口全名/providers, 比如 : /dubbo/com.bob.service.CityService/providers
List children = zkClient.addChildListener(path, zkListener);
if (children != null) {
urls.addAll(toUrlsWithEmpty(url, path, children));
}
}
// 首次全量数据获取完成时,调用 `#notify(...)` 方法,回调 NotifyListener, 在这一步从连接Provider,实例化Invoker
notify(url, listener, urls);
}
} catch (Throwable e) {
throw new RpcException("Failed to subscribe " + url + " to zookeeper " + getUrl() + ", cause: " + e.getMessage(), e);
}
}
register()
ZookeeperRegistry父类FailbackRegistry中的方法,用于将服务注册到zookeeper,具体代码如下:
@Override
public void register(URL url) {
// 调用父类AbstractRegistry中的register()方法,将url存储到注册集合中
super.register(url);
// 如果之前这个url注册失败,则会从注册失败集合中删除
removeFailedRegistered(url);
removeFailedUnregistered(url);
try {
// 像注册中心发送注册请求
doRegister(url);
} catch (Exception e) {
Throwable t = e;
// If the startup detection is opened, the Exception is thrown directly.
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url存入注册失败集合中,进行重试try()
addFailedRegistered(url);
}
}
doRegister()
ZookeeperRegistry类中的方法
@Override
public void doRegister(URL url) {
try {
// 通过zookeeper客户端向注册中心发送服务注册请求,在zookeeper下创建服务对应的节点
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);
}
}
在介绍注册registry()方法的时候,解析到了FailbackRegistry类,接下来咱们来分析一下这个类的作用:
FailbackRegistry
这个类是ZookeeperRegistry的父类,通过分析该类的结构,主要是用于服务的注册、订阅、重试,而服务具体的注册、订阅又在ZookeeperRegistry子类进行了实现,现在我们来分析重试这个功能,服务暴露和订阅的配置文件中一般会设置重试这个属性,如下所示:
上面是一个服务暴露的示例,设置了retries属性,表示重试的次数。接下来咱们就以注册重试进行分析(服务订阅是同样的原理):在注册registry()方法中(代码上面已提供),在异常catch{}代码块中有一个addFailedRegistered(url)方法,这个就是将注册失败的url添加到集合中,并创建一个重试的任务FailedRegisteredTask(url, this),代码如下:
private void addFailedRegistered(URL url) {
// 先从集合中获取,如果存在,直接返回
FailedRegisteredTask oldOne = failedRegistered.get(url);
if (oldOne != null) {
return;
}
// 本地集合不存在,则创建重试定时任务,默认每隔5s执行
FailedRegisteredTask newTask = new FailedRegisteredTask(url, this);
oldOne = failedRegistered.putIfAbsent(url, newTask);
if (oldOne == null) {
// 将定时任务放置在HashedWheelTimer这个处理定时任务的容器,(HashedWheelTimer执行原理,可以自行查找资料,这里就不介绍)
retryTimer.newTimeout(newTask, retryPeriod, TimeUnit.MILLISECONDS);
}
}
咱们下来看FailedRegisteredTask这个定时任务,有哪些东西,FailedRegisteredTask是AbstractRetryTask的子类,在执行new FailedRegisteredTask(url, this)代码时,其实调用的是父类构造函数,其中retryTimes表示重试的次数,在没有配置的情况下,默认重试三次:
AbstractRetryTask(URL url, FailbackRegistry registry, String taskName) {
if (url == null || StringUtils.isBlank(taskName)) {
throw new IllegalArgumentException();
}
this.url = url;
this.registry = registry;
this.taskName = taskName;
cancel = false;
this.retryPeriod = url.getParameter(Constants.REGISTRY_RETRY_PERIOD_KEY, Constants.DEFAULT_REGISTRY_RETRY_PERIOD);
// 重试次数,默认情况下重试三次
this.retryTimes = url.getParameter(Constants.REGISTRY_RETRY_TIMES_KEY, Constants.DEFAULT_REGISTRY_RETRY_TIMES);
}
在AbstractRetryTask类中有一个run()方法,在run()方法会根据XML配置文件中的retries属性值进行比较来进行重试,如果没有达到重试次数,则会调用doRetry(url, registry, timeout),而这个方法又在子类具体实现,这里我以注册FailedRegisteredTask举例:
@Override
public void run(Timeout timeout) throws Exception {
if (timeout.isCancelled() || timeout.timer().isStop() || isCancel()) {
// other thread cancel this timeout or stop the timer.
return;
}
// 重试次数与设置的retries进行比较,超过则不在进行重试
if (times > retryTimes) {
// reach the most times of retry.
logger.warn("Final failed to execute task " + taskName + ", url: " + url + ", retry " + retryTimes + " times.");
return;
}
if (logger.isInfoEnabled()) {
logger.info(taskName + " : " + url);
}
try {
// 调用子类实现,进行重试
doRetry(url, registry, timeout);
} catch (Throwable t) { // Ignore all the exceptions and wait for the next retry
logger.warn("Failed to execute task " + taskName + ", url: " + url + ", waiting for again, cause:" + t.getMessage(), t);
// reput this task when catch exception.
reput(timeout, retryPeriod);
}
}
在子类FailedRegisteredTask中doRetry()方法具体实现:
public final class FailedRegisteredTask extends AbstractRetryTask {
private static final String NAME = "retry register";
public FailedRegisteredTask(URL url, FailbackRegistry registry) {
super(url, registry, NAME);
}
@Override
protected void doRetry(URL url, FailbackRegistry registry, Timeout timeout) {
// 调用ZookeeperRegistry类中的doRegister()方法进行注册
registry.doRegister(url);
registry.removeFailedRegisteredTask(url);
}
}
分析到这里,有个疑问:重试任务已经封装了,任务什么时候去执行,怎么执行的?其实在上面咱们就分析到过,就是使用了HashedWheelTimer,这个类是在ZookeeperRegistry类初始化的时候就会去初始化:
public ZookeeperRegistry(URL url, ZookeeperTransporter zookeeperTransporter) {
// 这个地方进行初始化的:初始化父类FailbackRegistry
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(state -> {
if (state == StateListener.RECONNECTED) {
try {
recover();
} catch (Exception e) {
logger.error(e.getMessage(), e);
}
}
});
}
public FailbackRegistry(URL url) {
super(url);
this.retryPeriod = url.getParameter(Constants.REGISTRY_RETRY_PERIOD_KEY, Constants.DEFAULT_REGISTRY_RETRY_PERIOD);
// 创建HashedWheelTimer对象
retryTimer = new HashedWheelTimer(new NamedThreadFactory("DubboRegistryRetryTimer", true), retryPeriod, TimeUnit.MILLISECONDS, 128);
}
然后在addFailedRegistered()方法中有retryTimer.newTimeout(newTask, retryPeriod, TimeUnit.MILLISECONDS);这样的一条代码,这个就是执行任务的开始点:
@Override
public Timeout newTimeout(TimerTask task, long delay, TimeUnit unit) {
if (task == null) {
throw new NullPointerException("task");
}
if (unit == null) {
throw new NullPointerException("unit");
}
long pendingTimeoutsCount = pendingTimeouts.incrementAndGet();
if (maxPendingTimeouts > 0 && pendingTimeoutsCount > maxPendingTimeouts) {
pendingTimeouts.decrementAndGet();
throw new RejectedExecutionException("Number of pending timeouts ("
+ pendingTimeoutsCount + ") is greater than or equal to maximum allowed pending "
+ "timeouts (" + maxPendingTimeouts + ")");
}
// 开启轮询任务
start();
// Add the timeout to the timeout queue which will be processed on the next tick.
// During processing all the queued HashedWheelTimeouts will be added to the correct HashedWheelBucket.
long deadline = System.nanoTime() + unit.toNanos(delay) - startTime;
// Guard against overflow.
if (delay > 0 && deadline < 0) {
deadline = Long.MAX_VALUE;
}
HashedWheelTimeout timeout = new HashedWheelTimeout(this, task, deadline);
timeouts.add(timeout);
return timeout;
}
调用start()方法时,开启一个线程work去轮询存储到HashedWheelTimer容器的任务,然后调用任务中的run()方法,
public void start() {
switch (WORKER_STATE_UPDATER.get(this)) {
case WORKER_STATE_INIT:
if (WORKER_STATE_UPDATER.compareAndSet(this, WORKER_STATE_INIT, WORKER_STATE_STARTED)) {
// 开启work线程,执行work线程中的run()方法
workerThread.start();
}
break;
case WORKER_STATE_STARTED:
break;
case WORKER_STATE_SHUTDOWN:
throw new IllegalStateException("cannot be started once stopped");
default:
throw new Error("Invalid WorkerState");
}
// Wait until the startTime is initialized by the worker.
while (startTime == 0) {
try {
startTimeInitialized.await();
} catch (InterruptedException ignore) {
// Ignore - it will be ready very soon.
}
}
}
@Override
public void run() {
// Initialize the startTime.
startTime = System.nanoTime();
if (startTime == 0) {
// We use 0 as an indicator for the uninitialized value here, so make sure it's not 0 when initialized.
startTime = 1;
}
// Notify the other threads waiting for the initialization at start().
startTimeInitialized.countDown();
do {
final long deadline = waitForNextTick();
if (deadline > 0) {
int idx = (int) (tick & mask);
processCancelledTasks();
HashedWheelBucket bucket =
wheel[idx];
transferTimeoutsToBuckets();
// 执行重试任务
bucket.expireTimeouts(deadline);
tick++;
}
} while (WORKER_STATE_UPDATER.get(HashedWheelTimer.this) == WORKER_STATE_STARTED);
// Fill the unprocessedTimeouts so we can return them from stop() method.
for (HashedWheelBucket bucket : wheel) {
bucket.clearTimeouts(unprocessedTimeouts);
}
for (; ; ) {
HashedWheelTimeout timeout = timeouts.poll();
if (timeout == null) {
break;
}
if (!timeout.isCancelled()) {
unprocessedTimeouts.add(timeout);
}
}
processCancelledTasks();
}
void expireTimeouts(long deadline) {
HashedWheelTimeout timeout = head;
// process all timeouts
while (timeout != null) {
// 轮询获取重试任务
HashedWheelTimeout next = timeout.next;
if (timeout.remainingRounds <= 0) {
next = remove(timeout);
if (timeout.deadline <= deadline) {
// 执行重试任务
timeout.expire();
} else {
// The timeout was placed into a wrong slot. This should never happen.
throw new IllegalStateException(String.format(
"timeout.deadline (%d) > deadline (%d)", timeout.deadline, deadline));
}
} else if (timeout.isCancelled()) {
next = remove(timeout);
} else {
timeout.remainingRounds--;
}
timeout = next;
}
}
public void expire() {
if (!compareAndSetState(ST_INIT, ST_EXPIRED)) {
return;
}
try {
// 调用任务中的run()方法,(如:AbstractRetryTask任务中的run()方法,在去调用子类FailedRegisteredTask中的doRetry()方法进行重试注册)
task.run(this);
} catch (Throwable t) {
if (logger.isWarnEnabled()) {
logger.warn("An exception was thrown by " + TimerTask.class.getSimpleName() + '.', t);
}
}
}
在上面对于HashedWheelTimer的具体实现原理,并没有进行详细的进行分析,如果想了解的和学习的话,可以自行查找资料。
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