zookeeper(10)源码分析-事件监听Watcher(3)

今天继续源码分析,分析一下org.apache.zookeeper.server下的WatchManager类。

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WatcherManager类用于管理watchers和相应的触发器。

类的属性

//watchTable表示从节点路径到watcher集合的映射
    private final HashMap> watchTable =
        new HashMap>();
    //watch3Paths则表示从watcher到所有节点路径集合的映射
    private final HashMap> watch3Paths =
        new HashMap>();

核心方法

1. size方法

size方法是同步的,因此在多线程环境下是安全的,其主要作用是获取watchTable的大小,即遍历watchTable的值集合,每个集合大小累加。

synchronized int size(){
        int result = 0;
        for(Set watches : watchTable.values()) {
            result += watches.size();
        }
        return result;
    }

2、addWatch方法

addWatch方法同样是同步的,主要用来更新类里面的上面提到的两个集合属性。

synchronized void addWatch(String path, Watcher watcher) {
        //通过传入的path(节点路径)从watchTable获取相应的watcher集合
        HashSet list = watchTable.get(path);
        if (list == null) { //watcher是否为空,若为空
            // don't waste memory if there are few watches on a node
            // rehash when the 4th entry is added, doubling size thereafter
            // seems like a good compromise
            //新生成watcher集合,并将路径path和此集合添加至watchTable中
            list = new HashSet(4);
            watchTable.put(path, list);
        }
        //将传入的watcher添加至watcher集合,即完成了path和watcher添加至watchTable的步骤
        list.add(watcher);
        //通过传入的watcher从watch3Paths中获取相应的path集合
        HashSet paths = watch3Paths.get(watcher);
        if (paths == null) {// 判断path集合是否为空,若为空
            // cnxns typically have many watches, so use default cap here
            //新生成path集合,并将watcher和paths添加至watch3Paths中
            paths = new HashSet();
            watch3Paths.put(watcher, paths);
        }
        // 将传入的path(节点路径)添加至path集合,即完成了path和watcher添加至watch3Paths的步骤
        paths.add(path);
    }

3、removeWatcher

removeWatcher用作从watch3Paths和watchTable中中移除该watcher

synchronized void removeWatcher(Watcher watcher) {
        //从wach3Paths中移除watcher,并返回watcher对应的path集合
        HashSet paths = watch3Paths.remove(watcher);
        if (paths == null) {
            return;
        }
        for (String p : paths) {
            //从watcherTable中根据路径取出相应的watcher集合
            HashSet list = watchTable.get(p);
            if (list != null) {
                // 从list中移除该watcher
                list.remove(watcher);
                // 移除后list为空,则从watchTable中移出path
                if (list.size() == 0) {
                    watchTable.remove(p);
                }
            }
        }
    }

4、triggerWatch

该方法主要用于触发watch事件,并对事件进行处理。

Set triggerWatch(String path, EventType type) {
        return triggerWatch(path, type, null);
    }

    Set triggerWatch(String path, EventType type, Set supress) {
        // 根据事件类型、连接状态、节点路径创建WatchedEvent
        WatchedEvent e = new WatchedEvent(type,
                KeeperState.SyncConnected, path);
        HashSet watchers;
        synchronized (this) {
            // 从watcher表中移除path,并返回其对应的watcher集合
            watchers = watchTable.remove(path);
            if (watchers == null || watchers.isEmpty()) {
                if (LOG.isTraceEnabled()) {
                    ZooTrace.logTraceMessage(LOG,
                            ZooTrace.EVENT_DELIVERY_TRACE_MASK,
                            "No watchers for " + path);
                }
                return null;
            }
            // 遍历watcher集合
            for (Watcher w : watchers) {
                // 根据watcher从watcher表中取出路径集合
                HashSet paths = watch3Paths.get(w);
                if (paths != null) {
                                // 如果paths不为空,则移除传入路径path
                    paths.remove(path);
                }
            }
        }
        // 遍历watcher集合
        for (Watcher w : watchers) {
            if (supress != null && supress.contains(w)) {
                continue;
            }
            // watcher进行处理
            w.process(e);
        }
        return watchers;
    }

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