# 启动 ## createDataNode DataNode核心启动类是从createDataNode开始的。 ```java public static DataNode createDataNode(String args[], Configuration conf, SecureResources resources) throws IOException { // 初始化DataNode,核心函数在makeInstance里面的new DataNode()进行初始化。 DataNode dn = instantiateDataNode(args, conf, resources); if (dn != null) { // 启动DataNode dn.runDatanodeDaemon(); } return dn; } ``` ### makeInstance ```java static DataNode makeInstance(Collection dataDirs, Configuration conf, SecureResources resources) throws IOException { List locations; StorageLocationChecker storageLocationChecker = new StorageLocationChecker(conf, new Timer()); try { // 对存储路径进行检查。返回可用的位置。 locations = storageLocationChecker.check(conf, dataDirs); } catch (InterruptedException ie) { throw new IOException("Failed to instantiate DataNode", ie); } DefaultMetricsSystem.initialize("DataNode"); assert locations.size() > 0 : "number of data directories should be > 0"; // 初始化DataNode实例。在构造函数里面startDataNode比较重要,是启动DataNode的核心函数,需要重点关注。 return new DataNode(conf, locations, storageLocationChecker, resources); } ``` ### startDataNode ```java void startDataNode(List dataDirectories, SecureResources resources ) throws IOException { // settings global for all BPs in the Data Node this.secureResources = resources; synchronized (this) { this.dataDirs = dataDirectories; } this.dnConf = new DNConf(this); checkSecureConfig(dnConf, getConf(), resources); // ... 省略 .... storage = new DataStorage(); // global DN settings registerMXBean(); // 初始化dataXceiver服务:用于DN接受客户端和其他DN发送过来的数据的服务。 initDataXceiver(); // 初始化HTTP服务。 startInfoServer(); //TODO 待定。 pauseMonitor = new JvmPauseMonitor(); pauseMonitor.init(getConf()); pauseMonitor.start(); // BlockPoolTokenSecretManager is required to create ipc server. this.blockPoolTokenSecretManager = new BlockPoolTokenSecretManager(); // Login is done by now. Set the DN user name. dnUserName = UserGroupInformation.getCurrentUser().getUserName(); LOG.info("dnUserName = {}", dnUserName); LOG.info("supergroup = {}", supergroup); // 初始化DN的RPC调用服务。 initIpcServer(); metrics = DataNodeMetrics.create(getConf(), getDisplayName()); peerMetrics = dnConf.peerStatsEnabled ? DataNodePeerMetrics.create(getDisplayName(), getConf()) : null; metrics.getJvmMetrics().setPauseMonitor(pauseMonitor); ecWorker = new ErasureCodingWorker(getConf(), this); blockRecoveryWorker = new BlockRecoveryWorker(this); blockPoolManager = new BlockPoolManager(this); // DN向NN注册,其中核心的函数为doRefreshNamenodes blockPoolManager.refreshNamenodes(getConf()); // Create the ReadaheadPool from the DataNode context so we can // exit without having to explicitly shutdown its thread pool. readaheadPool = ReadaheadPool.getInstance(); saslClient = new SaslDataTransferClient(dnConf.getConf(), dnConf.saslPropsResolver, dnConf.trustedChannelResolver); saslServer = new SaslDataTransferServer(dnConf, blockPoolTokenSecretManager); startMetricsLogger(); if (dnConf.diskStatsEnabled) { diskMetrics = new DataNodeDiskMetrics(this, dnConf.outliersReportIntervalMs, getConf()); } } ``` ### doRefreshNamenodes 主要是向NN注册当前DN。 ```java private void doRefreshNamenodes( Map> addrMap, Map> lifelineAddrMap) throws IOException { Set toRefresh = Sets.newLinkedHashSet(); Set toAdd = Sets.newLinkedHashSet(); Set toRemove; synchronized (this) { // Step 1. For each of the new nameservices, figure out whether // it's an update of the set of NNs for an existing NS, // or an entirely new nameservice. // 判断当前DN中的nameservice是否已经存在:如果已经存在则需要刷新;否则需要添加。 for (String nameserviceId : addrMap.keySet()) { if (bpByNameserviceId.containsKey(nameserviceId)) { toRefresh.add(nameserviceId); } else { toAdd.add(nameserviceId); } } // Step 2. Any nameservices we currently have but are no longer present // need to be removed. // 计算当前DN需要删除的nameservice toRemove = Sets.newHashSet(Sets.difference( bpByNameserviceId.keySet(), addrMap.keySet())); // Step 3. 启动新的nameservice if (!toAdd.isEmpty()) { for (String nsToAdd : toAdd) { Map nnIdToAddr = addrMap.get(nsToAdd); Map nnIdToLifelineAddr = lifelineAddrMap.get(nsToAdd); ArrayList addrs = Lists.newArrayListWithCapacity(nnIdToAddr.size()); ArrayList nnIds = Lists.newArrayListWithCapacity(nnIdToAddr.size()); ArrayList lifelineAddrs = Lists.newArrayListWithCapacity(nnIdToAddr.size()); for (String nnId : nnIdToAddr.keySet()) { addrs.add(nnIdToAddr.get(nnId)); nnIds.add(nnId); lifelineAddrs.add(nnIdToLifelineAddr != null ? nnIdToLifelineAddr.get(nnId) : null); } BPOfferService bpos = createBPOS(nsToAdd, nnIds, addrs, lifelineAddrs); bpByNameserviceId.put(nsToAdd, bpos); offerServices.add(bpos); } } startAll(); } // Step 4. 停止掉老的nameservice. This happens outside // of the synchronized(this) lock since they need to call // back to .remove() from another thread if (!toRemove.isEmpty()) { for (String nsToRemove : toRemove) { BPOfferService bpos = bpByNameserviceId.get(nsToRemove); bpos.stop(); bpos.join(); // they will call remove on their own } } // Step 5. Update nameservices whose NN list has changed // 更新nameservices if (!toRefresh.isEmpty()) { for (String nsToRefresh : toRefresh) { BPOfferService bpos = bpByNameserviceId.get(nsToRefresh); Map nnIdToAddr = addrMap.get(nsToRefresh); Map nnIdToLifelineAddr = lifelineAddrMap.get(nsToRefresh); ArrayList addrs = Lists.newArrayListWithCapacity(nnIdToAddr.size()); ArrayList lifelineAddrs = Lists.newArrayListWithCapacity(nnIdToAddr.size()); ArrayList nnIds = Lists.newArrayListWithCapacity( nnIdToAddr.size()); for (String nnId : nnIdToAddr.keySet()) { addrs.add(nnIdToAddr.get(nnId)); lifelineAddrs.add(nnIdToLifelineAddr != null ? nnIdToLifelineAddr.get(nnId) : null); nnIds.add(nnId); } try { UserGroupInformation.getLoginUser() .doAs(new PrivilegedExceptionAction() { @Override public Object run() throws Exception { // 刷新NNList 核心实现. bpos.refreshNNList(nsToRefresh, nnIds, addrs, lifelineAddrs); return null; } }); } catch (InterruptedException ex) { IOException ioe = new IOException(); ioe.initCause(ex.getCause()); throw ioe; } } } } ```