void AssignmentClientMonitor::checkSpares() {
    auto nodeList = DependencyManager::get<NodeList>();
    QUuid aSpareId = "";
    unsigned int spareCount = 0;
    unsigned int totalCount = 0;

    nodeList->removeSilentNodes();

    nodeList->eachNode([&](const SharedNodePointer& node) {
        AssignmentClientChildData* childData = static_cast<AssignmentClientChildData*>(node->getLinkedData());
        totalCount ++;
        if (childData->getChildType() == Assignment::Type::AllTypes) {
            ++spareCount;
            aSpareId = node->getUUID();
        }
    });

    // Spawn or kill children, as needed.  If --min or --max weren't specified, allow the child count
    // to drift up or down as far as needed.
    if (spareCount < 1 || totalCount < _minAssignmentClientForks) {
        if (!_maxAssignmentClientForks || totalCount < _maxAssignmentClientForks) {
            spawnChildClient();
        }
    }

    if (spareCount > 1) {
        if (!_minAssignmentClientForks || totalCount > _minAssignmentClientForks) {
            // kill aSpareId
            qDebug() << "asking child" << aSpareId << "to exit.";
            SharedNodePointer childNode = nodeList->nodeWithUUID(aSpareId);
            childNode->activateLocalSocket();

            auto diePacket = NLPacket::create(PacketType::StopNode, 0);
            nodeList->sendPacket(std::move(diePacket), *childNode);
        }
    }
}
Beispiel #2
0
void OctreeServer::run() {
    // Before we do anything else, create our tree...
    _tree = createTree();
    
    // change the logging target name while this is running
    Logging::setTargetName(getMyLoggingServerTargetName());

    // Now would be a good time to parse our arguments, if we got them as assignment
    if (getNumPayloadBytes() > 0) {
        parsePayload();
    }

    beforeRun(); // after payload has been processed

    qInstallMessageHandler(Logging::verboseMessageHandler);
    
    const char* STATUS_PORT = "--statusPort";
    const char* statusPort = getCmdOption(_argc, _argv, STATUS_PORT);
    if (statusPort) {
        int statusPortNumber = atoi(statusPort);
        initMongoose(statusPortNumber);
    }

    
    const char* JURISDICTION_FILE = "--jurisdictionFile";
    const char* jurisdictionFile = getCmdOption(_argc, _argv, JURISDICTION_FILE);
    if (jurisdictionFile) {
        qDebug("jurisdictionFile=%s\n", jurisdictionFile);

        qDebug("about to readFromFile().... jurisdictionFile=%s\n", jurisdictionFile);
        _jurisdiction = new JurisdictionMap(jurisdictionFile);
        qDebug("after readFromFile().... jurisdictionFile=%s\n", jurisdictionFile);
    } else {
        const char* JURISDICTION_ROOT = "--jurisdictionRoot";
        const char* jurisdictionRoot = getCmdOption(_argc, _argv, JURISDICTION_ROOT);
        if (jurisdictionRoot) {
            qDebug("jurisdictionRoot=%s\n", jurisdictionRoot);
        }

        const char* JURISDICTION_ENDNODES = "--jurisdictionEndNodes";
        const char* jurisdictionEndNodes = getCmdOption(_argc, _argv, JURISDICTION_ENDNODES);
        if (jurisdictionEndNodes) {
            qDebug("jurisdictionEndNodes=%s\n", jurisdictionEndNodes);
        }

        if (jurisdictionRoot || jurisdictionEndNodes) {
            _jurisdiction = new JurisdictionMap(jurisdictionRoot, jurisdictionEndNodes);
        }
    }

    NodeList* nodeList = NodeList::getInstance();
    nodeList->setOwnerType(getMyNodeType());
    
    // we need to ask the DS about agents so we can ping/reply with them
    const char nodeTypesOfInterest[] = { NODE_TYPE_AGENT, NODE_TYPE_ANIMATION_SERVER};
    nodeList->setNodeTypesOfInterest(nodeTypesOfInterest, sizeof(nodeTypesOfInterest));
    
    setvbuf(stdout, NULL, _IOLBF, 0);

    // tell our NodeList about our desire to get notifications
    nodeList->addHook(this);
    nodeList->linkedDataCreateCallback = &OctreeServer::attachQueryNodeToNode;

    srand((unsigned)time(0));
    
    const char* VERBOSE_DEBUG = "--verboseDebug";
    _verboseDebug =  cmdOptionExists(_argc, _argv, VERBOSE_DEBUG);
    qDebug("verboseDebug=%s\n", debug::valueOf(_verboseDebug));

    const char* DEBUG_SENDING = "--debugSending";
    _debugSending =  cmdOptionExists(_argc, _argv, DEBUG_SENDING);
    qDebug("debugSending=%s\n", debug::valueOf(_debugSending));

    const char* DEBUG_RECEIVING = "--debugReceiving";
    _debugReceiving =  cmdOptionExists(_argc, _argv, DEBUG_RECEIVING);
    qDebug("debugReceiving=%s\n", debug::valueOf(_debugReceiving));

    // By default we will persist, if you want to disable this, then pass in this parameter
    const char* NO_PERSIST = "--NoPersist";
    if (cmdOptionExists(_argc, _argv, NO_PERSIST)) {
        _wantPersist = false;
    }
    qDebug("wantPersist=%s\n", debug::valueOf(_wantPersist));

    // if we want Persistence, set up the local file and persist thread
    if (_wantPersist) {

        // Check to see if the user passed in a command line option for setting packet send rate
        const char* PERSIST_FILENAME = "--persistFilename";
        const char* persistFilenameParameter = getCmdOption(_argc, _argv, PERSIST_FILENAME);
        if (persistFilenameParameter) {
            strcpy(_persistFilename, persistFilenameParameter);
        } else {
            strcpy(_persistFilename, getMyDefaultPersistFilename());
        }

        qDebug("persistFilename=%s\n", _persistFilename);

        // now set up PersistThread
        _persistThread = new OctreePersistThread(_tree, _persistFilename);
        if (_persistThread) {
            _persistThread->initialize(true);
        }
    }
    
    // Debug option to demonstrate that the server's local time does not 
    // need to be in sync with any other network node. This forces clock 
    // skew for the individual server node
    const char* CLOCK_SKEW = "--clockSkew";
    const char* clockSkewOption = getCmdOption(_argc, _argv, CLOCK_SKEW);
    if (clockSkewOption) {
        int clockSkew = atoi(clockSkewOption);
        usecTimestampNowForceClockSkew(clockSkew);
        qDebug("clockSkewOption=%s clockSkew=%d\n", clockSkewOption, clockSkew);
    }

    // Check to see if the user passed in a command line option for setting packet send rate
    const char* PACKETS_PER_SECOND = "--packetsPerSecond";
    const char* packetsPerSecond = getCmdOption(_argc, _argv, PACKETS_PER_SECOND);
    if (packetsPerSecond) {
        _packetsPerClientPerInterval = atoi(packetsPerSecond) / INTERVALS_PER_SECOND;
        if (_packetsPerClientPerInterval < 1) {
            _packetsPerClientPerInterval = 1;
        }
        qDebug("packetsPerSecond=%s PACKETS_PER_CLIENT_PER_INTERVAL=%d\n", packetsPerSecond, _packetsPerClientPerInterval);
    }

    HifiSockAddr senderSockAddr;
    
    // set up our jurisdiction broadcaster...
    if (_jurisdiction) {
        _jurisdiction->setNodeType(getMyNodeType());
    }
    _jurisdictionSender = new JurisdictionSender(_jurisdiction, getMyNodeType());
    _jurisdictionSender->initialize(true);
    
    // set up our OctreeServerPacketProcessor
    _octreeInboundPacketProcessor = new OctreeInboundPacketProcessor(this);
    _octreeInboundPacketProcessor->initialize(true);

    // Convert now to tm struct for local timezone
    tm* localtm = localtime(&_started);
    const int MAX_TIME_LENGTH = 128;
    char localBuffer[MAX_TIME_LENGTH] = { 0 };
    char utcBuffer[MAX_TIME_LENGTH] = { 0 };
    strftime(localBuffer, MAX_TIME_LENGTH, "%m/%d/%Y %X", localtm);
    // Convert now to tm struct for UTC
    tm* gmtm = gmtime(&_started);
    if (gmtm != NULL) {
        strftime(utcBuffer, MAX_TIME_LENGTH, " [%m/%d/%Y %X UTC]", gmtm);
    }
    qDebug() << "Now running... started at: " << localBuffer << utcBuffer << "\n";
    
    QTimer* domainServerTimer = new QTimer(this);
    connect(domainServerTimer, SIGNAL(timeout()), this, SLOT(checkInWithDomainServerOrExit()));
    domainServerTimer->start(DOMAIN_SERVER_CHECK_IN_USECS / 1000);
    
    QTimer* silentNodeTimer = new QTimer(this);
    connect(silentNodeTimer, SIGNAL(timeout()), nodeList, SLOT(removeSilentNodes()));
    silentNodeTimer->start(NODE_SILENCE_THRESHOLD_USECS / 1000);
    
    QTimer* pingNodesTimer = new QTimer(this);
    connect(pingNodesTimer, SIGNAL(timeout()), nodeList, SLOT(pingInactiveNodes()));
    pingNodesTimer->start(PING_INACTIVE_NODE_INTERVAL_USECS / 1000);
}