Exemple #1
0
  private static StartupOption parseArguments(String args[]) {
    int argsLen = (args == null) ? 0 : args.length;
    StartupOption startOpt = StartupOption.REGULAR;
    for (int i = 0; i < argsLen; i++) {
      String cmd = args[i];
      if (StartupOption.FORMAT.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.FORMAT;
        for (i = i + 1; i < argsLen; i++) {
          if (args[i].equalsIgnoreCase(StartupOption.CLUSTERID.getName())) {
            i++;
            if (i >= argsLen) {
              // if no cluster id specified, return null
              LOG.fatal(
                  "Must specify a valid cluster ID after the "
                      + StartupOption.CLUSTERID.getName()
                      + " flag");
              return null;
            }
            String clusterId = args[i];
            // Make sure an id is specified and not another flag
            if (clusterId.isEmpty()
                || clusterId.equalsIgnoreCase(StartupOption.FORCE.getName())
                || clusterId.equalsIgnoreCase(StartupOption.NONINTERACTIVE.getName())) {
              LOG.fatal(
                  "Must specify a valid cluster ID after the "
                      + StartupOption.CLUSTERID.getName()
                      + " flag");
              return null;
            }
            startOpt.setClusterId(clusterId);
          }

          if (args[i].equalsIgnoreCase(StartupOption.FORCE.getName())) {
            startOpt.setForceFormat(true);
          }

          if (args[i].equalsIgnoreCase(StartupOption.NONINTERACTIVE.getName())) {
            startOpt.setInteractiveFormat(false);
          }
        }
      } else if (StartupOption.DROP_AND_CREATE_DB.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.DROP_AND_CREATE_DB;
      } else if (StartupOption.GENCLUSTERID.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.GENCLUSTERID;
      } else if (StartupOption.REGULAR.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.REGULAR;
      } else if (StartupOption.BACKUP.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.BACKUP;
      } else if (StartupOption.CHECKPOINT.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.CHECKPOINT;
      } else if (StartupOption.UPGRADE.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.UPGRADE;
        // might be followed by two args
        if (i + 2 < argsLen && args[i + 1].equalsIgnoreCase(StartupOption.CLUSTERID.getName())) {
          i += 2;
          startOpt.setClusterId(args[i]);
        }
      } else if (StartupOption.ROLLBACK.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.ROLLBACK;
      } else if (StartupOption.FINALIZE.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.FINALIZE;
      } else if (StartupOption.IMPORT.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.IMPORT;
      } else if (StartupOption.BOOTSTRAPSTANDBY.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.BOOTSTRAPSTANDBY;
        return startOpt;
      } else if (StartupOption.INITIALIZESHAREDEDITS.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.INITIALIZESHAREDEDITS;
        for (i = i + 1; i < argsLen; i++) {
          if (StartupOption.NONINTERACTIVE.getName().equals(args[i])) {
            startOpt.setInteractiveFormat(false);
          } else if (StartupOption.FORCE.getName().equals(args[i])) {
            startOpt.setForceFormat(true);
          } else {
            LOG.fatal("Invalid argument: " + args[i]);
            return null;
          }
        }
        return startOpt;
      } else if (StartupOption.RECOVER.getName().equalsIgnoreCase(cmd)) {
        if (startOpt != StartupOption.REGULAR) {
          throw new RuntimeException("Can't combine -recover with " + "other startup options.");
        }
        startOpt = StartupOption.RECOVER;
        while (++i < argsLen) {
          if (args[i].equalsIgnoreCase(StartupOption.FORCE.getName())) {
            startOpt.setForce(MetaRecoveryContext.FORCE_FIRST_CHOICE);
          } else {
            throw new RuntimeException(
                "Error parsing recovery options: " + "can't understand option \"" + args[i] + "\"");
          }
        }
      } else {
        return null;
      }
    }
    return startOpt;
  }
Exemple #2
0
/**
 * ******************************************************** NameNode serves as both directory
 * namespace manager and "inode table" for the Hadoop DFS. There is a single NameNode running in any
 * DFS deployment. (Well, except when there is a second backup/failover NameNode, or when using
 * federated NameNodes.)
 *
 * <p>The NameNode controls two critical tables: 1) filename->blocksequence (namespace) 2)
 * block->machinelist ("inodes")
 *
 * <p>The first table is stored on disk and is very precious. The second table is rebuilt every time
 * the NameNode comes up.
 *
 * <p>'NameNode' refers to both this class as well as the 'NameNode server'. The 'FSNamesystem'
 * class actually performs most of the filesystem management. The majority of the 'NameNode' class
 * itself is concerned with exposing the IPC interface and the HTTP server to the outside world,
 * plus some configuration management.
 *
 * <p>NameNode implements the {@link org.apache.hadoop.hdfs.protocol.ClientProtocol} interface,
 * which allows clients to ask for DFS services. {@link
 * org.apache.hadoop.hdfs.protocol.ClientProtocol} is not designed for direct use by authors of DFS
 * client code. End-users should instead use the {@link org.apache.hadoop.fs.FileSystem} class.
 *
 * <p>NameNode also implements the {@link org.apache.hadoop.hdfs.server.protocol.DatanodeProtocol}
 * interface, used by DataNodes that actually store DFS data blocks. These methods are invoked
 * repeatedly and automatically by all the DataNodes in a DFS deployment.
 *
 * <p>NameNode also implements the {@link org.apache.hadoop.hdfs.server.protocol.NamenodeProtocol}
 * interface, used by secondary namenodes or rebalancing processes to get partial NameNode state,
 * for example partial blocksMap etc. ********************************************************
 */
@InterfaceAudience.Private
public class NameNode {

  static {
    HdfsConfiguration.init();
  }

  /**
   * HDFS configuration can have three types of parameters:
   *
   * <ol>
   *   <li>Parameters that are common for all the name services in the cluster.
   *   <li>Parameters that are specific to a name service. These keys are suffixed with
   *       nameserviceId in the configuration. For example, "dfs.namenode.rpc-address.nameservice1".
   *   <li>Parameters that are specific to a single name node. These keys are suffixed with
   *       nameserviceId and namenodeId in the configuration. for example,
   *       "dfs.namenode.rpc-address.nameservice1.namenode1"
   * </ol>
   *
   * <p>In the latter cases, operators may specify the configuration without any suffix, with a
   * nameservice suffix, or with a nameservice and namenode suffix. The more specific suffix will
   * take precedence.
   *
   * <p>These keys are specific to a given namenode, and thus may be configured globally, for a
   * nameservice, or for a specific namenode within a nameservice.
   */
  public static final String[] NAMENODE_SPECIFIC_KEYS = {
    DFS_NAMENODE_RPC_ADDRESS_KEY,
    DFS_NAMENODE_SERVICE_RPC_ADDRESS_KEY,
    DFS_NAMENODE_HTTP_ADDRESS_KEY,
    DFS_NAMENODE_KEYTAB_FILE_KEY,
    DFS_NAMENODE_USER_NAME_KEY
  };

  private static final String USAGE =
      "Usage: java NameNode ["
          + StartupOption.BACKUP.getName()
          + "] | ["
          + StartupOption.CHECKPOINT.getName()
          + "] | ["
          + StartupOption.FORMAT.getName()
          + " ["
          + StartupOption.CLUSTERID.getName()
          + " cid ] | ["
          + StartupOption.DROP_AND_CREATE_DB.getName()
          + "] | ["
          + StartupOption.FORCE.getName()
          + "] ["
          + StartupOption.NONINTERACTIVE.getName()
          + "] ] | ["
          + StartupOption.UPGRADE.getName()
          + "] | ["
          + StartupOption.ROLLBACK.getName()
          + "] | ["
          + StartupOption.FINALIZE.getName()
          + "] | ["
          + StartupOption.IMPORT.getName()
          + "] | ["
          + StartupOption.INITIALIZESHAREDEDITS.getName()
          + "] | ["
          + StartupOption.BOOTSTRAPSTANDBY.getName()
          + "] | ["
          + StartupOption.RECOVER.getName()
          + " [ "
          + StartupOption.FORCE.getName()
          + " ] ]";

  public long getProtocolVersion(String protocol, long clientVersion) throws IOException {
    if (protocol.equals(ClientProtocol.class.getName())) {
      return ClientProtocol.versionID;
    } else if (protocol.equals(DatanodeProtocol.class.getName())) {
      return DatanodeProtocol.versionID;
    } else if (protocol.equals(NamenodeProtocol.class.getName())) {
      return NamenodeProtocol.versionID;
    } else if (protocol.equals(RefreshAuthorizationPolicyProtocol.class.getName())) {
      return RefreshAuthorizationPolicyProtocol.versionID;
    } else if (protocol.equals(RefreshUserMappingsProtocol.class.getName())) {
      return RefreshUserMappingsProtocol.versionID;
    } else if (protocol.equals(GetUserMappingsProtocol.class.getName())) {
      return GetUserMappingsProtocol.versionID;
    } else {
      throw new IOException("Unknown protocol to name node: " + protocol);
    }
  }

  public static final int DEFAULT_PORT = 8020;
  public static final Log LOG = LogFactory.getLog(NameNode.class.getName());
  public static final Log stateChangeLog = LogFactory.getLog("org.apache.hadoop.hdfs.StateChange");
  public static final Log blockStateChangeLog = LogFactory.getLog("BlockStateChange");

  protected FSNamesystem namesystem;
  protected final Configuration conf;

  /** httpServer */
  protected NameNodeHttpServer httpServer;

  private Thread emptier;
  /** only used for testing purposes */
  protected boolean stopRequested = false;
  /** Registration information of this name-node */
  protected NamenodeRegistration nodeRegistration;
  /** Activated plug-ins. */
  private List<ServicePlugin> plugins;

  private NameNodeRpcServer rpcServer;

  protected LeaderElection leaderElection;

  /** Format a new filesystem. Destroys any filesystem that may already exist at this location. * */
  public static void format(Configuration conf) throws IOException {
    format(conf, false, true);
  }

  static NameNodeMetrics metrics;

  /**
   * Return the {@link FSNamesystem} object.
   *
   * @return {@link FSNamesystem} object.
   */
  public FSNamesystem getNamesystem() {
    return namesystem;
  }

  public NamenodeProtocols getRpcServer() {
    return rpcServer;
  }

  static void initMetrics(Configuration conf, NamenodeRole role) {
    metrics = NameNodeMetrics.create(conf, role);
  }

  public static NameNodeMetrics getNameNodeMetrics() {
    return metrics;
  }

  public static InetSocketAddress getAddress(String address) {
    return NetUtils.createSocketAddr(address, DEFAULT_PORT);
  }

  /** Set the configuration property for the service rpc address to address */
  public static void setServiceAddress(Configuration conf, String address) {
    LOG.info("Setting ADDRESS " + address);
    conf.set(DFS_NAMENODE_SERVICE_RPC_ADDRESS_KEY, address);
  }

  /**
   * Fetches the address for services to use when connecting to namenode based on the value of
   * fallback returns null if the special address is not specified or returns the default namenode
   * address to be used by both clients and services. Services here are datanodes, backup node, any
   * non client connection
   */
  public static InetSocketAddress getServiceAddress(Configuration conf, boolean fallback) {
    String addr = conf.get(DFS_NAMENODE_SERVICE_RPC_ADDRESS_KEY);
    if (addr == null || addr.isEmpty()) {
      return fallback ? getAddress(conf) : null;
    }
    return getAddress(addr);
  }

  public static InetSocketAddress getAddress(Configuration conf) {
    URI filesystemURI = FileSystem.getDefaultUri(conf);
    return getAddress(filesystemURI);
  }

  /**
   * TODO:FEDERATION
   *
   * @param filesystemURI
   * @return address of file system
   */
  public static InetSocketAddress getAddress(URI filesystemURI) {
    String authority = filesystemURI.getAuthority();
    if (authority == null) {
      throw new IllegalArgumentException(
          String.format(
              "Invalid URI for NameNode address (check %s): %s has no authority.",
              FileSystem.FS_DEFAULT_NAME_KEY, filesystemURI.toString()));
    }
    if (!HdfsConstants.HDFS_URI_SCHEME.equalsIgnoreCase(filesystemURI.getScheme())) {
      throw new IllegalArgumentException(
          String.format(
              "Invalid URI for NameNode address (check %s): %s is not of scheme '%s'.",
              FileSystem.FS_DEFAULT_NAME_KEY,
              filesystemURI.toString(),
              HdfsConstants.HDFS_URI_SCHEME));
    }
    return getAddress(authority);
  }

  public static URI getUri(InetSocketAddress namenode) {
    int port = namenode.getPort();
    String portString = port == DEFAULT_PORT ? "" : (":" + port);
    return URI.create(HdfsConstants.HDFS_URI_SCHEME + "://" + namenode.getHostName() + portString);
  }

  //
  // Common NameNode methods implementation for the active name-node role.
  //
  public NamenodeRole getRole() {
    if (leaderElection != null && leaderElection.isLeader()) {
      return NamenodeRole.LEADER_NAMENODE;
    }
    return NamenodeRole.NAMENODE;
  }

  boolean isRole(NamenodeRole that) {
    NamenodeRole currentRole = getRole();
    return currentRole.equals(that);
  }

  /**
   * Given a configuration get the address of the service rpc server If the service rpc is not
   * configured returns null
   */
  protected InetSocketAddress getServiceRpcServerAddress(Configuration conf) {
    return NameNode.getServiceAddress(conf, false);
  }

  protected InetSocketAddress getRpcServerAddress(Configuration conf) {
    return getAddress(conf);
  }

  /** Modifies the configuration passed to contain the service rpc address setting */
  protected void setRpcServiceServerAddress(
      Configuration conf, InetSocketAddress serviceRPCAddress) {
    setServiceAddress(conf, NetUtils.getHostPortString(serviceRPCAddress));
  }

  protected void setRpcServerAddress(Configuration conf, InetSocketAddress rpcAddress) {
    FileSystem.setDefaultUri(conf, getUri(rpcAddress));
  }

  protected InetSocketAddress getHttpServerAddress(Configuration conf) {
    return getHttpAddress(conf);
  }

  /** @return the NameNode HTTP address set in the conf. */
  public static InetSocketAddress getHttpAddress(Configuration conf) {
    return NetUtils.createSocketAddr(
        conf.get(DFS_NAMENODE_HTTP_ADDRESS_KEY, DFS_NAMENODE_HTTP_ADDRESS_DEFAULT));
  }

  protected void setHttpServerAddress(Configuration conf) {
    String hostPort = NetUtils.getHostPortString(getHttpAddress());
    conf.set(DFS_NAMENODE_HTTP_ADDRESS_KEY, hostPort);
    LOG.info("Web-server up at: " + hostPort);
  }

  protected void loadNamesystem(Configuration conf) throws IOException {
    this.namesystem = FSNamesystem.loadFromDisk(conf, this);
  }

  NamenodeRegistration getRegistration() {
    return nodeRegistration;
  }

  NamenodeRegistration setRegistration() throws IOException {
    nodeRegistration =
        new NamenodeRegistration(
            NetUtils.getHostPortString(rpcServer.getRpcAddress()),
            NetUtils.getHostPortString(getHttpAddress()),
            StorageInfo.getStorageInfoFromDB(),
            getRole()); // HOP change. previous code was getFSImage().getStorage()
    return nodeRegistration;
  }

  /** Login as the configured user for the NameNode. */
  void loginAsNameNodeUser(Configuration conf) throws IOException {
    InetSocketAddress socAddr = getRpcServerAddress(conf);
    SecurityUtil.login(
        conf, DFS_NAMENODE_KEYTAB_FILE_KEY, DFS_NAMENODE_USER_NAME_KEY, socAddr.getHostName());
  }

  /**
   * Initialize name-node.
   *
   * @param conf the configuration
   */
  protected void initialize(Configuration conf) throws IOException {
    UserGroupInformation.setConfiguration(conf);
    loginAsNameNodeUser(conf);

    HdfsStorageFactory.setConfiguration(conf);

    NameNode.initMetrics(conf, this.getRole());
    loadNamesystem(conf);

    rpcServer = createRpcServer(conf);

    try {
      validateConfigurationSettings(conf);
    } catch (IOException e) {
      LOG.fatal(e.toString());
      throw e;
    }

    startCommonServices(conf);
  }

  /** Create the RPC server implementation. Used as an extension point for the BackupNode. */
  protected NameNodeRpcServer createRpcServer(Configuration conf) throws IOException {
    return new NameNodeRpcServer(conf, this);
  }

  /**
   * Verifies that the final Configuration Settings look ok for the NameNode to properly start up
   * Things to check for include: - HTTP Server Port does not equal the RPC Server Port
   *
   * @param conf
   * @throws IOException
   */
  protected void validateConfigurationSettings(final Configuration conf) throws IOException {
    // check to make sure the web port and rpc port do not match
    if (getHttpServerAddress(conf).getPort() == getRpcServerAddress(conf).getPort()) {
      String errMsg =
          "dfs.namenode.rpc-address "
              + "("
              + getRpcServerAddress(conf)
              + ") and "
              + "dfs.namenode.http-address ("
              + getHttpServerAddress(conf)
              + ") "
              + "configuration keys are bound to the same port, unable to start "
              + "NameNode. Port: "
              + getRpcServerAddress(conf).getPort();
      throw new IOException(errMsg);
    }
  }

  /** Start the services common to active and standby states */
  private void startCommonServices(Configuration conf) throws IOException {
    startHttpServer(conf);

    startLeaderElectionService();

    namesystem.startCommonServices(conf);

    rpcServer.start();
    plugins = conf.getInstances(DFS_NAMENODE_PLUGINS_KEY, ServicePlugin.class);
    for (ServicePlugin p : plugins) {
      try {
        p.start(this);
      } catch (Throwable t) {
        LOG.warn("ServicePlugin " + p + " could not be started", t);
      }
    }
    LOG.info(getRole() + " RPC up at: " + rpcServer.getRpcAddress());
    if (rpcServer.getServiceRpcAddress() != null) {
      LOG.info(getRole() + " service RPC up at: " + rpcServer.getServiceRpcAddress());
    }
  }

  private void stopCommonServices() {
    if (namesystem != null) {
      namesystem.close();
    }
    if (rpcServer != null) {
      rpcServer.stop();
    }
    if (leaderElection != null && leaderElection.isRunning()) {
      leaderElection.stopElectionThread();
    }
    if (plugins != null) {
      for (ServicePlugin p : plugins) {
        try {
          p.stop();
        } catch (Throwable t) {
          LOG.warn("ServicePlugin " + p + " could not be stopped", t);
        }
      }
    }
    stopHttpServer();
  }

  private void startTrashEmptier(final Configuration conf) throws IOException {
    long trashInterval = conf.getLong(FS_TRASH_INTERVAL_KEY, FS_TRASH_INTERVAL_DEFAULT);
    if (trashInterval == 0) {
      return;
    } else if (trashInterval < 0) {
      throw new IOException(
          "Cannot start tresh emptier with negative interval."
              + " Set "
              + FS_TRASH_INTERVAL_KEY
              + " to a positive value.");
    }

    // This may be called from the transitionToActive code path, in which
    // case the current user is the administrator, not the NN. The trash
    // emptier needs to run as the NN. See HDFS-3972.
    FileSystem fs =
        SecurityUtil.doAsLoginUser(
            new PrivilegedExceptionAction<FileSystem>() {
              @Override
              public FileSystem run() throws IOException {
                return FileSystem.get(conf);
              }
            });
    this.emptier = new Thread(new Trash(fs, conf).getEmptier(), "Trash Emptier");
    this.emptier.setDaemon(true);
    this.emptier.start();
  }

  private void stopTrashEmptier() {
    if (this.emptier != null) {
      emptier.interrupt();
      emptier = null;
    }
  }

  private void startHttpServer(final Configuration conf) throws IOException {
    httpServer = new NameNodeHttpServer(conf, this, getHttpServerAddress(conf));
    httpServer.start();
    setHttpServerAddress(conf);
  }

  private void stopHttpServer() {
    try {
      if (httpServer != null) {
        httpServer.stop();
      }
    } catch (Exception e) {
      LOG.error("Exception while stopping httpserver", e);
    }
  }

  /**
   * Start NameNode.
   *
   * <p>The name-node can be started with one of the following startup options:
   *
   * <ul>
   *   <li>{@link StartupOption#REGULAR REGULAR} - normal name node startup
   *   <li>{@link StartupOption#FORMAT FORMAT} - format name node
   *   <li>{@link StartupOption#BACKUP BACKUP} - start backup node
   *   <li>{@link StartupOption#CHECKPOINT CHECKPOINT} - start checkpoint node
   *   <li>{@link StartupOption#UPGRADE UPGRADE} - start the cluster upgrade and create a snapshot
   *       of the current file system state
   *   <li>{@link StartupOption#RECOVERY RECOVERY} - recover name node metadata
   *   <li>{@link StartupOption#ROLLBACK ROLLBACK} - roll the cluster back to the previous state
   *   <li>{@link StartupOption#FINALIZE FINALIZE} - finalize previous upgrade
   *   <li>{@link StartupOption#IMPORT IMPORT} - import checkpoint
   * </ul>
   *
   * The option is passed via configuration field: <tt>dfs.namenode.startup</tt>
   *
   * <p>The conf will be modified to reflect the actual ports on which the NameNode is up and
   * running if the user passes the port as <code>zero</code> in the conf.
   *
   * @param conf confirguration
   * @throws IOException
   */
  public NameNode(Configuration conf) throws IOException {
    this(conf, NamenodeRole.NAMENODE);
  }

  protected NameNode(Configuration conf, NamenodeRole role) throws IOException {
    this.conf = conf;
    try {
      initializeGenericKeys(conf);
      initialize(conf);
      enterActiveState();
    } catch (IOException e) {
      this.stop();
      throw e;
    } catch (HadoopIllegalArgumentException e) {
      this.stop();
      throw e;
    }
  }

  /** Wait for service to finish. (Normally, it runs forever.) */
  public void join() {
    try {
      rpcServer.join();
    } catch (InterruptedException ie) {
      LOG.info("Caught interrupted exception ", ie);
    }
  }

  /** Stop all NameNode threads and wait for all to finish. */
  public void stop() {
    synchronized (this) {
      if (stopRequested) {
        return;
      }
      stopRequested = true;
    }
    try {
      exitActiveServices();
    } catch (ServiceFailedException e) {
      LOG.warn("Encountered exception while exiting state ", e);
    } finally {
      stopCommonServices();
      if (metrics != null) {
        metrics.shutdown();
      }
      if (namesystem != null) {
        namesystem.shutdown();
      }
    }
  }

  synchronized boolean isStopRequested() {
    return stopRequested;
  }

  /** Is the cluster currently in safe mode? */
  public boolean isInSafeMode() throws IOException {
    return namesystem.isInSafeMode();
  }

  /** @return NameNode RPC address */
  public InetSocketAddress getNameNodeAddress() {
    return rpcServer.getRpcAddress();
  }

  /** @return NameNode RPC address in "host:port" string form */
  public String getNameNodeAddressHostPortString() {
    return NetUtils.getHostPortString(rpcServer.getRpcAddress());
  }

  /** @return NameNode service RPC address if configured, the NameNode RPC address otherwise */
  public InetSocketAddress getServiceRpcAddress() {
    final InetSocketAddress serviceAddr = rpcServer.getServiceRpcAddress();
    return serviceAddr == null ? rpcServer.getRpcAddress() : serviceAddr;
  }

  /**
   * @return NameNode HTTP address, used by the Web UI, image transfer, and HTTP-based file system
   *     clients like Hftp and WebHDFS
   */
  public InetSocketAddress getHttpAddress() {
    return httpServer.getHttpAddress();
  }

  /**
   * Verify that configured directories exist, then Interactively confirm that formatting is desired
   * for each existing directory and format them.
   *
   * @param conf
   * @param force
   * @return true if formatting was aborted, false otherwise
   * @throws IOException
   */
  private static boolean format(Configuration conf, boolean force, boolean isInteractive)
      throws IOException {
    initializeGenericKeys(conf);
    checkAllowFormat(conf);

    if (UserGroupInformation.isSecurityEnabled()) {
      InetSocketAddress socAddr = getAddress(conf);
      SecurityUtil.login(
          conf, DFS_NAMENODE_KEYTAB_FILE_KEY, DFS_NAMENODE_USER_NAME_KEY, socAddr.getHostName());
    }

    // if clusterID is not provided - see if you can find the current one
    String clusterId = StartupOption.FORMAT.getClusterId();
    if (clusterId == null || clusterId.equals("")) {
      // Generate a new cluster id
      clusterId = StorageInfo.newClusterID();
    }
    System.out.println("Formatting using clusterid: " + clusterId);

    try {
      HdfsStorageFactory.setConfiguration(conf);
      if (force) {
        HdfsStorageFactory.formatStorageNonTransactional();
      } else {
        HdfsStorageFactory.formatStorage();
      }
      StorageInfo.storeStorageInfoToDB(clusterId); // this adds new row to the db
    } catch (StorageException e) {
      throw new RuntimeException(e.getMessage());
    }

    return false;
  }

  public static void checkAllowFormat(Configuration conf) throws IOException {
    if (!conf.getBoolean(
        DFS_NAMENODE_SUPPORT_ALLOW_FORMAT_KEY, DFS_NAMENODE_SUPPORT_ALLOW_FORMAT_DEFAULT)) {
      throw new IOException(
          "The option "
              + DFS_NAMENODE_SUPPORT_ALLOW_FORMAT_KEY
              + " is set to false for this filesystem, so it "
              + "cannot be formatted. You will need to set "
              + DFS_NAMENODE_SUPPORT_ALLOW_FORMAT_KEY
              + " parameter "
              + "to true in order to format this filesystem");
    }
  }

  private static void printUsage(PrintStream out) {
    out.println(USAGE + "\n");
  }

  private static StartupOption parseArguments(String args[]) {
    int argsLen = (args == null) ? 0 : args.length;
    StartupOption startOpt = StartupOption.REGULAR;
    for (int i = 0; i < argsLen; i++) {
      String cmd = args[i];
      if (StartupOption.FORMAT.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.FORMAT;
        for (i = i + 1; i < argsLen; i++) {
          if (args[i].equalsIgnoreCase(StartupOption.CLUSTERID.getName())) {
            i++;
            if (i >= argsLen) {
              // if no cluster id specified, return null
              LOG.fatal(
                  "Must specify a valid cluster ID after the "
                      + StartupOption.CLUSTERID.getName()
                      + " flag");
              return null;
            }
            String clusterId = args[i];
            // Make sure an id is specified and not another flag
            if (clusterId.isEmpty()
                || clusterId.equalsIgnoreCase(StartupOption.FORCE.getName())
                || clusterId.equalsIgnoreCase(StartupOption.NONINTERACTIVE.getName())) {
              LOG.fatal(
                  "Must specify a valid cluster ID after the "
                      + StartupOption.CLUSTERID.getName()
                      + " flag");
              return null;
            }
            startOpt.setClusterId(clusterId);
          }

          if (args[i].equalsIgnoreCase(StartupOption.FORCE.getName())) {
            startOpt.setForceFormat(true);
          }

          if (args[i].equalsIgnoreCase(StartupOption.NONINTERACTIVE.getName())) {
            startOpt.setInteractiveFormat(false);
          }
        }
      } else if (StartupOption.DROP_AND_CREATE_DB.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.DROP_AND_CREATE_DB;
      } else if (StartupOption.GENCLUSTERID.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.GENCLUSTERID;
      } else if (StartupOption.REGULAR.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.REGULAR;
      } else if (StartupOption.BACKUP.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.BACKUP;
      } else if (StartupOption.CHECKPOINT.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.CHECKPOINT;
      } else if (StartupOption.UPGRADE.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.UPGRADE;
        // might be followed by two args
        if (i + 2 < argsLen && args[i + 1].equalsIgnoreCase(StartupOption.CLUSTERID.getName())) {
          i += 2;
          startOpt.setClusterId(args[i]);
        }
      } else if (StartupOption.ROLLBACK.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.ROLLBACK;
      } else if (StartupOption.FINALIZE.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.FINALIZE;
      } else if (StartupOption.IMPORT.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.IMPORT;
      } else if (StartupOption.BOOTSTRAPSTANDBY.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.BOOTSTRAPSTANDBY;
        return startOpt;
      } else if (StartupOption.INITIALIZESHAREDEDITS.getName().equalsIgnoreCase(cmd)) {
        startOpt = StartupOption.INITIALIZESHAREDEDITS;
        for (i = i + 1; i < argsLen; i++) {
          if (StartupOption.NONINTERACTIVE.getName().equals(args[i])) {
            startOpt.setInteractiveFormat(false);
          } else if (StartupOption.FORCE.getName().equals(args[i])) {
            startOpt.setForceFormat(true);
          } else {
            LOG.fatal("Invalid argument: " + args[i]);
            return null;
          }
        }
        return startOpt;
      } else if (StartupOption.RECOVER.getName().equalsIgnoreCase(cmd)) {
        if (startOpt != StartupOption.REGULAR) {
          throw new RuntimeException("Can't combine -recover with " + "other startup options.");
        }
        startOpt = StartupOption.RECOVER;
        while (++i < argsLen) {
          if (args[i].equalsIgnoreCase(StartupOption.FORCE.getName())) {
            startOpt.setForce(MetaRecoveryContext.FORCE_FIRST_CHOICE);
          } else {
            throw new RuntimeException(
                "Error parsing recovery options: " + "can't understand option \"" + args[i] + "\"");
          }
        }
      } else {
        return null;
      }
    }
    return startOpt;
  }

  private static void setStartupOption(Configuration conf, StartupOption opt) {
    conf.set(DFS_NAMENODE_STARTUP_KEY, opt.toString());
  }

  static StartupOption getStartupOption(Configuration conf) {
    return StartupOption.valueOf(
        conf.get(DFS_NAMENODE_STARTUP_KEY, StartupOption.REGULAR.toString()));
  }

  public static NameNode createNameNode(String argv[], Configuration conf) throws IOException {
    if (conf == null) {
      conf = new HdfsConfiguration();
    }
    StartupOption startOpt = parseArguments(argv);
    if (startOpt == null) {
      printUsage(System.err);
      return null;
    }
    setStartupOption(conf, startOpt);

    switch (startOpt) {
        // HOP
      case DROP_AND_CREATE_DB:
        { // delete everything other than inode and blocks table. this is tmp fix for safe mode
          dropAndCreateDB(conf);
          return null;
        }
      case FORMAT:
        {
          boolean aborted =
              format(conf, startOpt.getForceFormat(), startOpt.getInteractiveFormat());
          terminate(aborted ? 1 : 0);
          return null; // avoid javac warning
        }
      case GENCLUSTERID:
        {
          System.err.println("Generating new cluster id:");
          System.out.println(StorageInfo.newClusterID());
          terminate(0);
          return null;
        }
      case FINALIZE:
        {
          throw new UnsupportedOperationException("HOP: FINALIZE is not supported anymore");
        }
      case BOOTSTRAPSTANDBY:
        {
          throw new UnsupportedOperationException("HOP: BOOTSTRAPSTANDBY is not supported anymore");
        }
      case INITIALIZESHAREDEDITS:
        {
          throw new UnsupportedOperationException(
              "HOP: INITIALIZESHAREDEDITS is not supported anymore");
        }
      case BACKUP:
      case CHECKPOINT:
        {
          throw new UnsupportedOperationException(
              "HOP: BACKUP/CHECKPOINT is not supported anymore");
        }
      case RECOVER:
        {
          new UnsupportedOperationException("Hops. Metadata recovery is not supported");
          return null;
        }
      default:
        {
          DefaultMetricsSystem.initialize("NameNode");
          return new NameNode(conf);
        }
    }
  }

  /**
   * In federation configuration is set for a set of namenode and secondary
   * namenode/backup/checkpointer, which are grouped under a logical nameservice ID. The
   * configuration keys specific to them have suffix set to configured nameserviceId.
   *
   * <p>This method copies the value from specific key of format key.nameserviceId to key, to set up
   * the generic configuration. Once this is done, only generic version of the configuration is read
   * in rest of the code, for backward compatibility and simpler code changes.
   *
   * @param conf Configuration object to lookup specific key and to set the value to the key passed.
   *     Note the conf object is modified
   * @param nameserviceId name service Id (to distinguish federated NNs)
   * @param namenodeId the namenode ID (to distinguish HA NNs)
   * @see DFSUtil#setGenericConf(Configuration, String, String, String...)
   */
  public static void initializeGenericKeys(Configuration conf) {
    // If the RPC address is set use it to (re-)configure the default FS
    if (conf.get(DFS_NAMENODE_RPC_ADDRESS_KEY) != null) {
      URI defaultUri =
          URI.create(
              HdfsConstants.HDFS_URI_SCHEME + "://" + conf.get(DFS_NAMENODE_RPC_ADDRESS_KEY));
      conf.set(FS_DEFAULT_NAME_KEY, defaultUri.toString());
      LOG.debug("Setting " + FS_DEFAULT_NAME_KEY + " to " + defaultUri.toString());
    }
  }

  /** */
  public static void main(String argv[]) throws Exception {
    if (DFSUtil.parseHelpArgument(argv, NameNode.USAGE, System.out, true)) {
      System.exit(0);
    }

    try {
      StringUtils.startupShutdownMessage(NameNode.class, argv, LOG);
      NameNode namenode = createNameNode(argv, null);
      if (namenode != null) {
        namenode.join();
      }
    } catch (Throwable e) {
      LOG.fatal("Exception in namenode join", e);
      terminate(1, e);
    }
  }

  private void enterActiveState() throws ServiceFailedException {
    try {
      startActiveServicesInternal();
    } catch (IOException e) {
      throw new ServiceFailedException("Failed to start active services", e);
    }
  }

  private void startActiveServicesInternal() throws IOException {
    try {
      namesystem.startActiveServices();
      startTrashEmptier(conf);
    } catch (Throwable t) {
      doImmediateShutdown(t);
    }
  }

  private void exitActiveServices() throws ServiceFailedException {
    try {
      stopActiveServicesInternal();
    } catch (IOException e) {
      throw new ServiceFailedException("Failed to stop active services", e);
    }
  }

  private void stopActiveServicesInternal() throws IOException {
    try {
      if (namesystem != null) {
        namesystem.stopActiveServices();
      }
      stopTrashEmptier();
    } catch (Throwable t) {
      doImmediateShutdown(t);
    }
  }

  /**
   * Shutdown the NN immediately in an ungraceful way. Used when it would be unsafe for the NN to
   * continue operating, e.g. during a failed HA state transition.
   *
   * @param t exception which warrants the shutdown. Printed to the NN log before exit.
   * @throws ExitException thrown only for testing.
   */
  protected synchronized void doImmediateShutdown(Throwable t) throws ExitException {
    String message = "Error encountered requiring NN shutdown. " + "Shutting down immediately.";
    try {
      LOG.fatal(message, t);
    } catch (Throwable ignored) {
      // This is unlikely to happen, but there's nothing we can do if it does.
    }
    terminate(1, t);
  }

  /** Returns the id of this namenode */
  public long getId() {
    return leaderElection.getCurrentId();
  }

  /**
   * Return the {@link LeaderElection} object.
   *
   * @return {@link LeaderElection} object.
   */
  public LeaderElection getLeaderElectionInstance() {
    return leaderElection;
  }

  public boolean isLeader() {
    if (leaderElection != null) {
      return leaderElection.isLeader();
    } else {
      return false;
    }
  }

  protected volatile int nnIndex = 0;

  public ActiveNode getNextNamenodeToSendBlockReport() throws IOException {
    List<ActiveNode> allNodes = getActiveNameNodes().getActiveNodes();
    if (this.isLeader()) {
      // Use the modulo to roundrobin b/w namenodes
      nnIndex = ++nnIndex % allNodes.size();
      ActiveNode ann = allNodes.get(nnIndex);
      return ann;
    } else {
      // random allocation of NN
      Random rand = new Random();
      rand.setSeed(System.currentTimeMillis());
      ActiveNode ann = allNodes.get(rand.nextInt(allNodes.size()));
      LOG.debug("XXX Returning " + ann.getIpAddress() + " for Next Block report");
      return ann;
    }
  }

  private static void dropAndCreateDB(Configuration conf) throws IOException {
    HdfsStorageFactory.setConfiguration(conf);
    HdfsStorageFactory.getConnector().dropAndRecreateDB();
  }

  public boolean isNameNodeAlive(long namenodeId) {
    List<ActiveNode> activeNamenodes = getActiveNameNodes().getActiveNodes();
    return isNameNodeAlive(activeNamenodes, namenodeId);
  }

  public static boolean isNameNodeAlive(Collection<ActiveNode> activeNamenodes, long namenodeId) {
    if (activeNamenodes == null) {
      // We do not know yet, be conservative
      return true;
    }

    for (ActiveNode namenode : activeNamenodes) {
      if (namenode.getId() == namenodeId) {
        return true;
      }
    }
    return false;
  }

  public long getLeCurrentId() {
    return leaderElection.getCurrentId();
  }

  public SortedActiveNodeList getActiveNameNodes() {
    return leaderElection.getActiveNamenodes();
  }

  private void startLeaderElectionService() throws IOException {
    // Initialize the leader election algorithm (only once rpc server is
    // created and httpserver is started)
    long leadercheckInterval =
        conf.getInt(
            DFSConfigKeys.DFS_LEADER_CHECK_INTERVAL_IN_MS_KEY,
            DFSConfigKeys.DFS_LEADER_CHECK_INTERVAL_IN_MS_DEFAULT);
    int missedHeartBeatThreshold =
        conf.getInt(
            DFSConfigKeys.DFS_LEADER_MISSED_HB_THRESHOLD_KEY,
            DFSConfigKeys.DFS_LEADER_MISSED_HB_THRESHOLD_DEFAULT);
    int leIncrement =
        conf.getInt(
            DFSConfigKeys.DFS_LEADER_TP_INCREMENT_KEY,
            DFSConfigKeys.DFS_LEADER_TP_INCREMENT_DEFAULT);

    leaderElection =
        new LeaderElection(
            new HdfsLeDescriptorFactory(),
            leadercheckInterval,
            missedHeartBeatThreshold,
            leIncrement,
            httpServer.getHttpAddress().getAddress().getHostAddress()
                + ":"
                + httpServer.getHttpAddress().getPort(),
            rpcServer.getRpcAddress().getAddress().getHostAddress()
                + ":"
                + rpcServer.getRpcAddress().getPort());
    leaderElection.start();

    try {
      leaderElection.waitActive();
    } catch (InterruptedException e) {
      LOG.warn("NN was interrupted");
    }
  }
}