Ejemplo n.º 1
0
bool CHostIce::queryCtrl( const std::string & id, const ::Ice::Current & c )
{
    IceUtil::Mutex::Lock lock( m_mut );
    QLOG_TRACE() << "queryCtrl( "  << QString::fromStdString( id ) << " )";

    CClientDesc cd;
    if ( !client( id, cd ) )
        return false;
    
    for ( TClientsConstIter i = m_clients.begin();
          i != m_clients.end();
          i++ )
    {
        const CClientDesc & cd = i->second;
        if ( cd.access != TView )
        {
            QLOG_TRACE() << "query refused";
            return false;
        }
    }
    QLOG_TRACE() << "query granted";
    cd.access = TCtrl;
    updateClient( id, cd );
    validateClientList( c );
    sendClientList( c );
    return true;
}
Ejemplo n.º 2
0
//-------------------------------------------------------------------------------------
void SpaceViewer::timeout()
{
	switch (updateType_)
	{
	case 0: // 初始化
		initClient();
		break;
	default: // 更新实体
		updateClient();
	};
}
Ejemplo n.º 3
0
void takeGold(Unit* ptChar, DWORD amount)
{
	if (!active_sharedGold) return;
	log_msg("takeGold : %d\n", amount);

	DWORD maxGold =     D2GetMaxGold(ptChar) - D2GetPlayerStat(ptChar, STATS_GOLD, 0);
//	DWORD maxGoldBank = D2GetMaxGoldBank(ptChar) - D2GetPlayerStat(ptChar, STATS_GOLDBANK, 0);
	DWORD toAdd = maxGold < PCPY->sharedGold ? maxGold : PCPY->sharedGold;
	if (amount && (toAdd > amount))
		toAdd = amount;
	D2AddPlayerStat( ptChar, STATS_GOLD, toAdd, 0 );
	PCPY->sharedGold -= toAdd;
	updateClient(ptChar, UC_SHARED_GOLD, PCPY->sharedGold, 0, 0);
}
Ejemplo n.º 4
0
void CHostIce::releaseCtrl( const std::string & id, const ::Ice::Current & c )
{
    IceUtil::Mutex::Lock lock( m_mut );
    QLOG_TRACE() << "releaseCtrl( "  << QString::fromStdString( id ) << " )";
    
    CClientDesc cd;
    if ( !client( id, cd ) )
        return;
    
    cd.access = TView;
    updateClient( id, cd );
    validateClientList( c );
    sendClientList( c );
}
Ejemplo n.º 5
0
void putGold(Unit* ptChar, DWORD amount)
{
	if (!active_sharedGold) return;
	log_msg("putGold : %d\n", amount);

	DWORD playerGold = D2GetPlayerStat(ptChar, STATS_GOLD, 0);
	DWORD toAdd = 0xFFFFFFFF - PCPY->sharedGold;
	if (playerGold < toAdd)
		toAdd = playerGold;
	if (amount && (toAdd > amount))
		toAdd = amount;
	D2AddPlayerStat(ptChar, STATS_GOLD, 0-toAdd, 0);
	PCPY->sharedGold += toAdd;
	updateClient(ptChar, UC_SHARED_GOLD, PCPY->sharedGold, 0, 0);
}
Ejemplo n.º 6
0
void EngineClient::update() {
	mWorkManager.update();
	updateClient();
	mRenderTextService.update();
	mComputerInfo->update();

	if (!mConnectionRenewed && mReceiver.hasLostConnection()) {
		mConnectionRenewed = true;
		// This can happen because the network connection drops, so
		// refresh it, and let the world now I'm ready again.
		mReceiveConnection.renew();

		// GN: Trying out not clearing sprites on lost connections
		// It might be nice to keeping showing stuff until connection resumes...
		// clearAllSprites(false);

		setState(mClientStartedState);
		return;
	}

	// Every update, receive data
	mReceiver.setHeaderAndCommandOnly(mState->getHeaderAndCommandOnly());
	if (!mReceiver.receiveAndHandle(mBlobRegistry, mBlobReader)) {
		// If I didn't receive any data, then don't send any data. This is
		// pretty important -- 0MQ will buffer sent commands if there's
		// no one to receive them. There isn't a way to ask the socket how
		// many connections there are, so we rely on the fact that the
		// server sounds out data each frame to tell us if there's someone
		// to receive anything.
		return;
	}
	mConnectionRenewed = false;

	// Oh this is interesting... There can be more data in the pipe
	// after handling, so make sure to slurp it all up, or else you
	// can end up in a situation where the render lags behind the world
	// by a couple seconds. For now, limit the amount of blocks I might
	// slurp up, to guarantee I don't go into an infinite loop on some
	// weird condition.
	int32_t		limit = 10;
	while (mReceiveConnection.canRecv()) {
		mReceiver.receiveAndHandle(mBlobRegistry, mBlobReader);
		if (--limit <= 0) break;
	}

	mState->update(*this);
}
Ejemplo n.º 7
0
ConnectionManager::ConnectionManager(bool bModal)
        : ConnectionManagerBase(NULL, "manager", bModal)
{
    SET_WNDPROC("manager")
    setIcon(Pict("configure"));
    setButtonsPict(this);
    setCaption(caption());
    lstConnection->setHScrollBarMode(QScrollView::AlwaysOff);
    lstConnection->header()->hide();
    lstConnection->setSorting(1);
    fill();
    connect(btnAdd, SIGNAL(clicked()), this, SLOT(addClient()));
    connect(btnRemove, SIGNAL(clicked()), this, SLOT(removeClient()));
    connect(btnUp, SIGNAL(clicked()), this, SLOT(upClient()));
    connect(btnDown, SIGNAL(clicked()), this, SLOT(downClient()));
    connect(btnUpdate, SIGNAL(clicked()), this, SLOT(updateClient()));
    connect(lstConnection, SIGNAL(selectionChanged()), this, SLOT(selectionChanged()));
    m_bModal = bModal;
}
Ejemplo n.º 8
0
void rice::p2p::replication::ReplicationImpl::deliver(::rice::p2p::commonapi::Id* id, ::rice::p2p::commonapi::Message* message)
{
    if(npc(logger)->level <= ::rice::environment::logging::Logger::FINE)
        npc(logger)->log(::java::lang::StringBuilder().append(u"COUNT: Replication "_j)->append(instance)
            ->append(u" received message "_j)
            ->append(static_cast< ::java::lang::Object* >(message))->toString());

    if(dynamic_cast< ::rice::p2p::replication::messaging::RequestMessage* >(message) != nullptr) {
        auto const rm = java_cast< ::rice::p2p::replication::messaging::RequestMessage* >(message);
        auto continuation = new ::rice::Continuation_MultiContinuation(new ReplicationImpl_deliver_3(this, rm, u"Processing of RequestMessage"_j, environment), npc(npc(rm)->getRanges())->length);
        for (auto i = int32_t(0); i < npc(npc(rm)->getRanges())->length; i++) {
            auto const j = i;
            npc(endpoint)->process(new ReplicationImpl_deliver_4(this, j, rm), npc(continuation)->getSubContinuation(i));
        }
    } else if(dynamic_cast< ::rice::p2p::replication::messaging::ResponseMessage* >(message) != nullptr) {
        auto rm = java_cast< ::rice::p2p::replication::messaging::ResponseMessage* >(message);
        for (auto i = int32_t(0); i < npc(npc(rm)->getIdSets())->length; i++) {
            auto temp = npc(factory)->buildIdSet();
            auto tempA = (*npc(rm)->getIdSets())[i];
            for (auto j = int32_t(0); j < npc(tempA)->length; j++) {
                npc(temp)->addId((*tempA)[j]);
            }
            auto fetch = npc(policy)->difference(npc(client)->scan((*npc(rm)->getRanges())[i]), temp, factory);
            if(npc(logger)->level <= ::rice::environment::logging::Logger::FINE)
                npc(logger)->log(::java::lang::StringBuilder().append(u"COUNT: Was told to fetch "_j)->append(npc(fetch)->numElements())
                    ->append(u" in instance "_j)
                    ->append(instance)->toString());

            if(npc(fetch)->numElements() > 0)
                npc(client)->fetch(fetch, npc(rm)->getSource());

        }
    } else if(dynamic_cast< ::rice::p2p::replication::messaging::ReminderMessage* >(message) != nullptr) {
        replicate();
        updateClient();
    } else {
        if(npc(logger)->level <= ::rice::environment::logging::Logger::WARNING)
            npc(logger)->log(::java::lang::StringBuilder().append(u"Received unknown message "_j)->append(static_cast< ::java::lang::Object* >(message))
                ->append(u" - dropping on floor."_j)->toString());

    }
}
Ejemplo n.º 9
0
void maxGold(Unit* ptChar)
{
	log_msg("maxGold\n");

	DWORD maxGold =     D2GetMaxGold(ptChar);
	DWORD maxGoldBank = D2GetMaxGoldBank(ptChar);
	DWORD playerGold = D2GetPlayerStat(ptChar, STATS_GOLD, 0);
	DWORD playerGoldBank = D2GetPlayerStat(ptChar, STATS_GOLDBANK, 0);
	if ( (playerGold < maxGold) || (playerGoldBank < maxGoldBank) ) {
		D2AddPlayerStat( ptChar, STATS_GOLD,	 maxGold-playerGold, 0 );
		D2AddPlayerStat( ptChar, STATS_GOLDBANK, maxGoldBank-playerGoldBank, 0 );
	} else {
		D2AddPlayerStat( ptChar, STATS_GOLD,	 100000, 0 );
	}
	if (active_sharedGold)
	{
		PCPY->sharedGold = 0xFFFFFFFF;
		updateClient(ptChar, UC_SHARED_GOLD, PCPY->sharedGold, 0, 0);
	}
}
Ejemplo n.º 10
0
bool CHostIce::querySuper( const std::string & id, const ::std::string & passwd, const ::Ice::Current & c )
{
    IceUtil::Mutex::Lock lock( m_mut );
    QLOG_TRACE() << "querySuper( "  << QString::fromStdString( id ) << " )";
    
    if ( m_owner->m_passwd != passwd )
    {
        QLOG_TRACE() << "wrong password";
        return false;
    }

    CClientDesc cd;
    if ( !client( id, cd ) )
        return false;
    
    bool modified;
    do {
        modified = false;
        for ( TClientsIter i = m_clients.begin();
              i != m_clients.end();
              i++ )
        {
            if ( id != i->first )
            {
                CClientDesc & cd = i->second;
                if ( cd.access != TView )
                {
                    cd.access = TView;
                    modified = true;
                }
            }
        }
    } while ( modified );
    
    QLOG_TRACE() << "super privilegies granted";
    cd.access = TSuper;
    updateClient( id, cd );
    validateClientList( c );
    sendClientList( c );
    return true;
}
Ejemplo n.º 11
0
std::vector<MonitorEntry> EntriesManager::fetchEntriesForClient(RequestContext::ClientId clientId,
                                                                bool force) {
    auto regClientIt = m_registeredClients.find(clientId);
    if (regClientIt == m_registeredClients.end()) {
        LOGW("Client <" << clientId << "> not registered");
        return {};
    }
    auto clientIt = regClientIt->second;
    auto &clientInfo = clientIt->second;
    if (!force && !isClientFilled(clientInfo)) {
        LOGW("Not enough entries for client " << clientId);
        return {};
    }

    int entriesToFetch = std::min(m_container.sizeFrom(clientInfo.from), clientInfo.bufferSize);
    std::vector<MonitorEntry> entries;
    auto nextNotFetchedEntry = m_container.fetch(clientInfo.from, entriesToFetch, entries);

    updateClient(clientIt, nextNotFetchedEntry);
    //When entries are fetched for client, client is removed from waiting queue
    unregisterClient(clientId);
    cleanup();
    return entries;
}
Ejemplo n.º 12
0
void Application::run()
{
    // set game state
    _p_gameState->setState( GameState::Running );

    // store sound manager reference for faster access in loop
    _p_soundManager = SoundManager::get();

    osg::Timer       timer;
    float            deltaTime = 0;
    osg::Timer_t     curTick   = 0;
    osg::Timer_t     lastTick  = 0;

    // now the network can start
    if ( GameState::get()->getMode() == GameState::Client )
    {
        // try to start client networking
        try
        {
            _p_networkDevice->startClient();
        }
        catch ( const NetworkExpection& e )
        {
            log_error << "Application: error starting client networking, reason: " << e.what() << std::endl;
            _p_gameState->setState( GameState::Quitting );
        }

        _p_networkDevice->unlockObjects();
    }
    else if ( GameState::get()->getMode() == GameState::Server )
    {
        _p_networkDevice->unlockObjects();
    }

    // check heap if enabled ( used for detecting heap corruptions )
    YAF3D_CHECK_HEAP();

    // begin game loop
    while( _p_gameState->getState() != GameState::Quitting )
    {
        lastTick  = curTick;
        curTick   = timer.tick();
        deltaTime = timer.delta_s( lastTick, curTick );

        // limit the deltaTime as we have to be carefull with stability of physics calculation etc.
        if ( deltaTime > UPPER_UPDATE_PERIOD_LIMIT ) 
        {
            deltaTime = UPPER_UPDATE_PERIOD_LIMIT;
        }
        else if ( deltaTime < LOWER_UPDATE_PERIOD_LIMIT )
        {

            // limit the upper fps to about 60 frames / second ( there are crash problems in some gpu cards when vsynch is disabled )
            do
            {
                OpenThreads::Thread::microSleep( 100 );
                curTick   = timer.tick();
                deltaTime = timer.delta_s( lastTick, curTick );
            } 
            while ( deltaTime < LOWER_UPDATE_PERIOD_LIMIT );
        }

        // update game
        if ( GameState::get()->getMode() == GameState::Server )
            updateServer( deltaTime );
        else if ( GameState::get()->getMode() == GameState::Client )
            updateClient( deltaTime );
        else updateStandalone( deltaTime );

        // check heap if enabled ( used for detecting heap corruptions )
        YAF3D_CHECK_HEAP();
    }
}
Ejemplo n.º 13
0
void CSceneMatch::update()
{
    // replay mode
    if(bReplayMode)
    {
        renderReplay();
        return;
    }

    // multiplayer: wait for connection
    if(sGlobal->bMultiplayer)
    {
        // wait for client
        if(sGlobal->bServer && !bClientReady)
        {
            if(cServer->receiveMessage(&sClientAddress, sUDPBuffer, MSG_SIZE) > 0 && sUDPBuffer[0] == MSG_REQ)
            {
                sUDPBuffer[0] = MSG_ACK;
                cServer->sendMessage(sClientAddress, sUDPBuffer, MSG_SIZE);

                bClientReady = true;
                return;
            }

            sprintf(sMessage, "Waiting for client...");
            render();
            return;
        }

        // wait for server
        if(!sGlobal->bServer && !bServerReady)
        {
            if(cClient->receiveMessage(sUDPBuffer, MSG_SIZE) > 0 && sUDPBuffer[0] == MSG_ACK)
            {
                bServerReady = true;
                return;
            }

            // new request to the server
            if(iCurrentFrame % sGlobal->iFPS == 0)
            {
                sUDPBuffer[0] = MSG_REQ;
                cClient->sendMessage(sUDPBuffer, MSG_SIZE);
            }

            sprintf(sMessage, "Waiting for server...");
            render();
            return;
        }
    }

    sprintf(sMessage, "");
    iCurrentFrame++;

    // set player 1 position
    if(sGlobal->bKinect)
    {
        // check Kinect status
        // two players
        if(sGlobal->iHumanPlayers == 2 && (!kHandPosition.PlayerReady[0] || !kHandPosition.PlayerReady[1]))
        {
            if(!kHandPosition.PlayerReady[0] || !kHandPosition.PlayerReady[1])
            {
                if(!kHandPosition.PlayerReady[0] && !kHandPosition.PlayerReady[1])
                    sprintf(sMessage, "Kinect: waiting for the players...");
                else if(!kHandPosition.PlayerReady[0])
                    sprintf(sMessage, "Kinect: waiting for player 1...");
                else
                    sprintf(sMessage, "Kinect: waiting for player 2...");

                render();
                return;
            }
        }

        // single player
        else if(!kHandPosition.PlayerReady[0])
        {
            sprintf(sMessage, "Kinect: waiting for player...");

            if(!kHandPosition.PlayerReady[0])
            {
                render();
                return;
            }
        }

        // Kinect (two players)
        if(sGlobal->iHumanPlayers == 2)
        {
            cGame->setMouseRatio(-kCalibration.Width * 2 - 50, -50, 
                                 kCalibration.MinimumDistance, kCalibration.MaximumDistance);
            cGame->setMousePositionPlayer1(kHandPosition.x[0], kHandPosition.z[0]);

            cGame->setMouseRatio(kCalibration.Width * 2 + 50, 50, 
                                 kCalibration.MinimumDistance, kCalibration.MaximumDistance);
            cGame->setMousePositionPlayer2(kHandPosition.x[1], kHandPosition.z[1]);
        }

        // Kinect (single player)
        else
        {
            cGame->setMousePositionPlayer1(kHandPosition.x[0], kHandPosition.z[0]);
        }
    }
    else
    {
        // mouse
        cGame->setMousePositionPlayer1((float)iMouseX, (float)iMouseY);
    }

    // multiplayer: client
    if(sGlobal->bMultiplayer && !sGlobal->bServer)
    {
        updateClient();
        return;
    }

    // game time
    if(iCurrentFrame % sGlobal->iFPS == 0)
    {
        iTimeSec--;

        if(iTimeSec < 0)
        {
            iTimeSec = 59;
            iTimeMin--;
        }

        if(iTimeMin < 0)
        {
            iTimeMin = 0;
            iTimeSec = 0;
            endOfTheMatch();
        }

        // send time to client
        if(sGlobal->bMultiplayer)
        {
            sUDPBuffer[0] = MSG_TIME;
            sUDPBuffer[1] = (char)iTimeMin;
            sUDPBuffer[2] = (char)iTimeSec;
            cServer->sendMessage(sClientAddress, sUDPBuffer, MSG_SIZE);
        }
    }

    // set player 2 position (CPU)
    if(sGlobal->iHumanPlayers == 1 && !sGlobal->bMultiplayer)
        cGame->setTablePositionPlayer2(cPlayer2AI->update());
    
    // check goals
    bPuckVisible = true;

    if(cGame->checkEvent() == AH_EVENT_GOAL_P1 || cGame->checkEvent() == AH_EVENT_GOAL_P2)
    {
        bPuckVisible = false;

        // send "goal" to client
        if(sGlobal->bMultiplayer)
        {
            sUDPBuffer[0] = MSG_GOAL;
            sUDPBuffer[1] = (char)cGame->getGoalsPlayer2();
            sUDPBuffer[2] = (char)cGame->getGoalsPlayer1();
            cServer->sendMessage(sClientAddress, sUDPBuffer, MSG_SIZE);
        }

        // automatic replay
        if(sGlobal->bAutomaticReplay && !sGlobal->bMultiplayer)
        {
            // only goals without rebounds
            if((cGame->checkEvent() == AH_EVENT_GOAL_P1 && cGame->getLastPlayerWhoHitThePuck() == 1) ||
               (cGame->checkEvent() == AH_EVENT_GOAL_P2 && cGame->getLastPlayerWhoHitThePuck() == 2))
            {
                replayMode();
                return;
            }
        }

        // pause and then back to the game
        render();
        Sleep(1000);
    }

    // end of the match?
    if(cGame->getGoalsPlayer1() == sGlobal->iGameMaxGoals || cGame->getGoalsPlayer2() == sGlobal->iGameMaxGoals)
    {
        endOfTheMatch();
        return;
    }

    // replay data
    sReplayFrame[iCurrentReplayRecordFrame].PositionPlayer1 = cGame->getRenderPositionPlayer1();
    sReplayFrame[iCurrentReplayRecordFrame].PositionPlayer2 = cGame->getRenderPositionPlayer2();
    sReplayFrame[iCurrentReplayRecordFrame].PositionPuck = cGame->getRenderPositionPuck();
    sReplayFrame[iCurrentReplayRecordFrame].PuckVisible = bPuckVisible;
    sReplayFrame[iCurrentReplayRecordFrame].Interpolate = !(cGame->checkEvent() == AH_EVENT_GOAL_P1 || 
                                                            cGame->checkEvent() == AH_EVENT_GOAL_P2);
    iCurrentReplayRecordFrame++;

    if(iCurrentReplayRecordFrame == REPLAY_FRAMES)
        iCurrentReplayRecordFrame = 0;

    // game status update
    cGame->update();

    // send game data to client
    if(sGlobal->bMultiplayer && (iCurrentFrame % MULTIPLAYER_DATA_RATE) == 0)
        sendDataToClient();

    // video and audio
    render();
    playSounds(cGame->checkEvent());
}
Ejemplo n.º 14
0
void Application::run()
{
    // set game state
    _p_gameState->setState( GameState::StartRunning );

    // now the network can start
    if ( GameState::get()->getMode() == GameState::Client )
    {
        // try to start client networking
        try
        {
            _p_networkDevice->startClient();
            // send the notification on established network session
            EntityNotification ennotify( YAF3D_NOTIFY_NETWORKING_ESTABLISHED );
            EntityManager::get()->sendNotification( ennotify );
        }
        catch ( const NetworkException& e )
        {
            log_error << "Application: error starting client networking, reason: " << e.what() << std::endl;
            _p_gameState->setState( GameState::Quitting );
        }
    }

    // check heap if enabled ( used for detecting heap corruptions )
    YAF3D_CHECK_HEAP();

    osg::Timer       timer;
    osg::Timer_t     curTick   = timer.tick();
    osg::Timer_t     lastTick  = curTick;
    float            deltaTime = LOWER_UPDATE_PERIOD_LIMIT;

    // set game state
    _p_gameState->setState( GameState::MainLoop );

    // begin game loop
    while( _p_gameState->getState() != GameState::Quitting )
    {
        // limit the deltaTime as we have to be carefull with stability of physics calculation etc.
        if ( deltaTime > UPPER_UPDATE_PERIOD_LIMIT )
        {
            deltaTime = UPPER_UPDATE_PERIOD_LIMIT;
        }
        else if ( deltaTime < LOWER_UPDATE_PERIOD_LIMIT )
        {
            // limit the upper fps to about 60 frames / second ( there are crash problems in some gpu cards when vsync is disabled )
            do
            {
                OpenThreads::Thread::microSleep( 100 );
                curTick   = timer.tick();
                deltaTime = timer.delta_s( lastTick, curTick );
            }
            while ( deltaTime < LOWER_UPDATE_PERIOD_LIMIT );
        }

        // update the simulation, lock it in order to give a chance to asynchronous threads for accessing resources
        if ( !_updateMutex.trylock() )
        {
            // update game
            if ( GameState::get()->getMode() == GameState::Server )
                updateServer( deltaTime );
            else if ( GameState::get()->getMode() == GameState::Client )
                updateClient( deltaTime );
            else updateStandalone( deltaTime );

            // calculate new delta-time
            lastTick  = curTick;
            curTick   = timer.tick();
            deltaTime = timer.delta_s( lastTick, curTick );

            // we handle Ctrl+C in main thread context
            if ( _ctrlCPressed )
            {
                _p_gameState->setState( GameState::Quitting );
            }

            // check for stopping application
            if ( _stopApplication )
                _p_gameState->setState( GameState::Quitting );

            // unlock the update mutex
            _updateMutex.unlock();
        }

        // check heap if enabled ( used for detecting heap corruptions )
        YAF3D_CHECK_HEAP();
    }
}
Ejemplo n.º 15
0
void rice::p2p::replication::ReplicationImpl::update(::rice::p2p::commonapi::NodeHandle* handle, bool joined)
{
    updateClient();
}
Ejemplo n.º 16
0
void intrupt(void)
{
    if (testtime == -1) {
        struct reserved_spacket sp;

        /* Give a reasonable period of time to respond to query (and test code
           if they need to) */
#define RSAREPLYTIMER 30

#ifdef RSA
        RSA_Client = 0;
#endif
        testtime = RSAREPLYTIMER * 10;
        makeReservedPacket(&sp);
        memcpy(testdata, sp.data, RESERVED_SIZE);
        sendClientPacket(&sp);
    } else if (testtime != 0) {
        testtime--;
        if (testtime==0) {
            if (report_ident)
                pmessage2(0, MALL | MJOIN, "GOD->ALL", me->p_no,
                          "%s using %s", me->p_mapchars, me->p_ident);
#if defined(RSA) && defined(SHOW_RSA) && defined(SHOW_RSA_FAILURE)
            if (!hidden && !whitelisted && !bypassed)
                pmessage2(0, MALL | MJOIN, "GOD->ALL", me->p_no,
                          "%s %.16s is not using a trusted client",
                          ranks[me->p_stats.st_rank].name,
                          me->p_name);
#endif
            if (bypassed) {                     /* Deal with .bypass entries */
                ERROR(3,(".bypass person : %s - logged on\n",me->p_login));
                me->p_stats.st_flags |= ST_CYBORG; /* mark for reference */
                new_warning(UNDEF,"You are in the .bypass file, be good");
            } else {
                /* User failed to respond to verification query.  Bye! */
                if (!binconfirm)
                    me->p_stats.st_flags |= ST_CYBORG; /* mark for reference 7/27/91 TC */
                else {
                    me->p_explode = 10;
                    me->p_whydead = KQUIT;
                    me->p_status = PEXPLODE;
                    ERROR(3,("User binary failed to verify\n"));
#ifdef RSA
#ifdef SHOW_RSA
                    pmessage2(0, MALL | MJOIN, "GOD->ALL", me->p_no,
                              "%s %.16s failed to verify",
                              ranks[me->p_stats.st_rank].name,
                              me->p_name);
#endif
                    if (RSA_Client==1)
                        new_warning(UNDEF,"No customized binaries.  Please use a blessed one.");
                    else if (RSA_Client==2)
                        new_warning(UNDEF,"Wrong Client Version Number!");
                    else
                        new_warning(UNDEF,"You need a spiffy new RSA client for this server!");
#else
                    new_warning(UNDEF,"No customized binaries. Please use a blessed one.");
#endif
                }
            }
        }
    }
    if (me->p_status == PFREE) {
	ERROR(1,("intrupt: exitGame() on PFREE (pid %i)\n",getpid()));
	exitGame(0);
    }

    if (!Observer || me->p_status == PEXPLODE)
    {
	if (me->p_status == PEXPLODE || me->p_status == PDEAD) {
	    FD_ZERO(&inputMask);
	}
	if (((me->p_status == PDEAD) || (me->p_status == POUTFIT))
	      && (me->p_ntorp <= 0) && (me->p_nplasmatorp <= 0)) {
	    death();
            return;
	}
    }

    if (clue) {
        if (RECHECK_CLUE && (clueFuse > CLUEINTERVAL)) {
            clueVerified = 0;
            clueFuse = 0;
            clueCount = 0;
        }
        if (!clueVerified && (inl_mode || (queues[QU_PICKUP].count != 0))) {
            clueFuse++;
            clue_check();
        }
    }
    auto_features();
    updateClient();
}