Example #1
0
  /** Open a server connection. */
  public boolean openServerConnection() {
    if (myServer != null) {
      myServer.close();
      myServer = null;
    }

    try {
      // Opens the connection on any open port.
      ServerSocket s = new ServerSocket(0);
      myServer = new NetworkServer(this, s);

      // We don't want to reset our identifier after we've already
      // opened a connection, since someone else might identify us
      // through it.
      if (myServerHash == 0) {
        setServerHash(getHostIdentifier(InetAddress.getLocalHost(), myServer.getPort()));
      }
    } catch (IOException ioe) {
      // This means the socket could not be opened.
      myServer = null;
      error("Could not open server connection: " + ioe.getMessage());
      return false;
    }

    myServer.start();
    return true;
  }
Example #2
0
 public boolean isTimedOut() {
   if ((System.currentTimeMillis() - sentTime) > NetworkServer.timeoutLength()) {
     if (result != null) {
       // if we have a result stored, that means it returned before we checked timeout
       return false;
     }
     return true;
   } else {
     return false;
   }
 }
Example #3
0
  /** Close all connections and reset the server. */
  public void stop() {
    if (myServer != null) {
      myServer.close();
      myServer = null;
    }

    // Closes the underlying sockets, including outputs.
    for (NetworkConnection conn : myConnections.values()) {
      conn.close();
    }
    myConnections.clear();
  }
Example #4
0
 public int getServerPort() {
   return myServer.getPort();
 }
  @Override
  public void action() {
    /* what do we do? this is what we do...

        while not balanced:
            pick a segment group of the to put the new node in / remove the old node from
            run the reconfigureSegmentGroup() function

        when all reconfiguration is done:
            if (oldNodeIsUp):
                coordinator.attachDatanode(affectedNode)
            else
                coordinator.detachDatanode(affectedNode)

            signal that all reconfiguration is done (set the result and let the handler terminate)
    */

    if (affectedNodeIsUp) {
      server.attachDataNode(affectedNode);
    }

    while (coordinator.startReconfiguration()) {
      // spin!!!
    }

    if (!affectedNodeIsUp) {
      List<SegmentGroup> affectedGroups = volumeTable.getAllSegmentGroupsContaining(affectedNode);

      for (SegmentGroup eachGroup : affectedGroups) {
        DataNodeIdentifier replacementNode = pickReplacement(eachGroup, affectedNode);
        updateStatus(affectedNode, replacementNode);
        reconfigureSegmentGroup(eachGroup, affectedNode, replacementNode, false);
      }
    }

    if (affectedNodeIsUp) {
      System.out.println("Attached the node to the coordinator.");
      coordinator.attachDataNode(affectedNode);
    } else {
      coordinator.detachDataNode(affectedNode);
    }

    /*
        "while not balanced"
        balanced means that all nodes have close to the same number of segment groups assigned
        1. determine appropriate average load range (+- k segments)...
            this could be something like [0.95 * average - 1, 1.05 * average + 1] (the +/- 1 is for
            extremely low-load clusters, where not everything might have an assignment; like when you first
            turn on the cluster)
        2. if any nodes are below the range, assign them to a segment group
           else if any nodes are above the range, remove them from a group
           rinse-and-repeat until the cluster is balanced appropriately
    */

    float numberOfSegmentGroupsAssigned = 0.0f;
    int numberOfNodes = datanodes.size();
    for (DataNodeStatusPair eachPair : datanodeStatuses) {
      DataNodeStatus status = eachPair.getStatus();
      numberOfSegmentGroupsAssigned += status.getSegmentsStored();
    }

    int segmentsPerSegmentGroup = coordinator.getSegmentsPerSegmentGroup();
    float expectedLoad = numberOfSegmentGroupsAssigned / numberOfNodes;
    float lowerBound = (0.99f * expectedLoad) - segmentsPerSegmentGroup;
    float upperBound = (1.01f * expectedLoad) + segmentsPerSegmentGroup;

    System.out.println("lower: " + lowerBound);
    System.out.println("upper: " + upperBound);

    boolean balanced = false;

    while (!balanced) {
      for (DataNodeStatusPair eachPair : datanodeStatuses) {
        DataNodeStatus status = eachPair.getStatus();
        if (status.getSegmentsStored() < lowerBound) {
          DataNodeIdentifier replacementNode = eachPair.getIdentifier();
          DataNodeIdentifier oldNode = pickHeaviestLoad(replacementNode);
          SegmentGroup affectedGroup = volumeTable.getAllSegmentGroupsContaining(oldNode).get(0);
          updateStatus(oldNode, replacementNode);
          // TODO FIXME make this asynchronous so writes can occur concurrently
          System.out.println("Replacing " + oldNode + " with " + replacementNode);
          reconfigureSegmentGroup(affectedGroup, oldNode, replacementNode, true);
          break;
        } else if (status.getSegmentsStored() > upperBound) {
          DataNodeIdentifier oldNode = eachPair.getIdentifier();
          SegmentGroup affectedGroup = volumeTable.getAllSegmentGroupsContaining(oldNode).get(0);
          DataNodeIdentifier replacementNode = pickReplacement(affectedGroup, oldNode);
          updateStatus(oldNode, replacementNode);
          // TODO FIXME make this asynchronous so writes can occur concurrently
          System.out.println("Replacing " + oldNode + " with " + replacementNode);
          reconfigureSegmentGroup(affectedGroup, oldNode, replacementNode, true);
          break;
        } else {
          balanced = true;
        }
      }
    }

    coordinator.finishReconfiguration();

    requestResult = new ReconfigurationRequestResult(requestId, true, true);
    coordinator.setRequestResult(requestId, (RequestResult) requestResult);
  }