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Sourcecode: kdegames-kde4 version File versions  Download package

kmessageserver.cpp

/*
    This file is part of the KDE games library
    Copyright (C) 2001 Burkhard Lehner (Burkhard.Lehner@gmx.de)

    This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Library General Public
    License version 2 as published by the Free Software Foundation.

    This library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Library General Public License for more details.

    You should have received a copy of the GNU Library General Public License
    along with this library; see the file COPYING.LIB.  If not, write to
    the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
    Boston, MA 02110-1301, USA.
*/

#include "kmessageserver.h"
#include "kmessageserver_p.h"

#include <qiodevice.h>
#include <qbuffer.h>
#include <QList>
#include <QQueue>
#include <QTimer>
#include <QDataStream>

#include <kdebug.h>

#include "kmessageio.h"

// --------------- internal class KMessageServerSocket

KMessageServerSocket::KMessageServerSocket (quint16 port, QObject *parent)
  : QTcpServer (parent)
{
  listen ( QHostAddress::Any, port );
  connect(this,SIGNAL(newConnection()),this,SLOT(slotNewConnection()));
}


KMessageServerSocket::~KMessageServerSocket ()
{
}

void KMessageServerSocket::slotNewConnection ()
{
  if (hasPendingConnections())
  {
    emit newClientConnected (new KMessageSocket (nextPendingConnection()));
  }
}

// ---------------- class for storing an incoming message

class MessageBuffer
{
  public:
    MessageBuffer (quint32 clientID, const QByteArray &messageData)
      : id (clientID), data (messageData) { }
    ~MessageBuffer () {}
    quint32 id;
    QByteArray data;
};

// ---------------- KMessageServer's private class

class KMessageServerPrivate
{
public:
  KMessageServerPrivate()
    : mMaxClients (-1), mGameId (1), mUniqueClientNumber (1), mAdminID (0), mServerSocket (0) {}

  ~KMessageServerPrivate()
  {
    while (!mClientList.isEmpty())
    {
      delete mClientList.takeFirst();
    }
    while (!mMessageQueue.isEmpty())
    {
      delete mMessageQueue.dequeue();
    }
  }

  int mMaxClients;
  int mGameId;
  quint16 mCookie;
  quint32 mUniqueClientNumber;
  quint32 mAdminID;

  KMessageServerSocket* mServerSocket;

  QList<KMessageIO*> mClientList;
  QQueue <MessageBuffer*> mMessageQueue;
  QTimer mTimer;
  bool mIsRecursive;
};


// ------------------ KMessageServer

00105 KMessageServer::KMessageServer (quint16 cookie,QObject* parent)
  : QObject(parent)
{
  d = new KMessageServerPrivate;
  d->mIsRecursive=false;
  d->mCookie=cookie;
  connect (&(d->mTimer), SIGNAL (timeout()),
           this, SLOT (processOneMessage()));
  kDebug(11001) << "CREATE(KMessageServer="
            << this
            << ") cookie="
            << d->mCookie
            << "sizeof(this)="
            << sizeof(KMessageServer);
}

KMessageServer::~KMessageServer()
{
  kDebug(11001) << "this=" << this;
  Debug();
  stopNetwork();
  deleteClients();
  delete d;
  kDebug(11001) << "done";
}

//------------------------------------- TCP/IP server stuff

00133 bool KMessageServer::initNetwork (quint16 port)
{
  kDebug(11001) ;

  if (d->mServerSocket)
  {
    kDebug (11001) << ": We were already offering connections!";
    delete d->mServerSocket;
  }

  d->mServerSocket = new KMessageServerSocket (port);
  d->mIsRecursive = false;

  if (!d->mServerSocket 
    || !d->mServerSocket->isListening())
  {
    kError(11001) << ": Serversocket::ok() == false";
    delete d->mServerSocket;
    d->mServerSocket=0;
    return false;
  }

  kDebug (11001) << ": Now listening to port "
                  << d->mServerSocket->serverPort();
  connect (d->mServerSocket, SIGNAL (newClientConnected (KMessageIO*)),
           this, SLOT (addClient (KMessageIO*)));
  return true;
}

00162 quint16 KMessageServer::serverPort () const
{
  if (d->mServerSocket)
    return d->mServerSocket->serverPort();
  else
    return 0;
}

00170 void KMessageServer::stopNetwork()
{
  if (d->mServerSocket) 
  {
    delete d->mServerSocket;
    d->mServerSocket = 0;
  }
}

00179 bool KMessageServer::isOfferingConnections() const
{
  return d->mServerSocket != 0;
}

//----------------------------------------------- adding / removing clients

00186 void KMessageServer::addClient (KMessageIO* client)
{
  QByteArray msg;

  // maximum number of clients reached?
  if (d->mMaxClients >= 0 && d->mMaxClients <= clientCount())
  {
    kError (11001) << ": Maximum number of clients reached!";
    return;
  }

  // give it a unique ID
  client->setId (uniqueClientNumber());
  kDebug (11001) << ":" << client->id();

  // connect its signals
  connect (client, SIGNAL (connectionBroken()),
           this, SLOT (removeBrokenClient()));
  connect (client, SIGNAL (received (const QByteArray &)),
           this, SLOT (getReceivedMessage (const QByteArray &)));

  // Tell everyone about the new guest
  // Note: The new client doesn't get this message!
  QDataStream (&msg, QIODevice::WriteOnly) << quint32 (EVNT_CLIENT_CONNECTED) << client->id();
  broadcastMessage (msg);

  // add to our list
  d->mClientList.push_back(client);

  // tell it its ID
  QDataStream (&msg, QIODevice::WriteOnly) << quint32 (ANS_CLIENT_ID) << client->id();
  client->send (msg);

  // Give it the complete list of client IDs
  QDataStream (&msg, QIODevice::WriteOnly)  << quint32 (ANS_CLIENT_LIST) << clientIDs();
  client->send (msg);


  if (clientCount() == 1)
  {
    // if it is the first client, it becomes the admin
    setAdmin (client->id());
  }
  else
  {
    // otherwise tell it who is the admin
    QDataStream (&msg, QIODevice::WriteOnly) << quint32 (ANS_ADMIN_ID) << adminID();
    client->send (msg);
  }

  emit clientConnected (client);
}

00239 void KMessageServer::removeClient (KMessageIO* client, bool broken)
{
  quint32 clientID = client->id();
  if (!d->mClientList.removeAll(client))
  {
    kError(11001) << ": Deleting client that wasn't added before!";
    return;
  }

  // tell everyone about the removed client
  QByteArray msg;
  QDataStream (&msg, QIODevice::WriteOnly) << quint32 (EVNT_CLIENT_DISCONNECTED) << client->id() << (qint8)broken;
  broadcastMessage (msg);

  // If it was the admin, select a new admin.
  if (clientID == adminID())
  {
    if (!d->mClientList.isEmpty())
      setAdmin (d->mClientList.front()->id());
    else
      setAdmin (0);
  }
}

00263 void KMessageServer::deleteClients()
{
  while (!d->mClientList.isEmpty())
  {
    delete d->mClientList.takeFirst();
  }
  d->mAdminID = 0;
}

00272 void KMessageServer::removeBrokenClient ()
{
  KMessageIO *client = sender() ? qobject_cast<KMessageIO*>(sender()) : 0;
  if (!client)
  {
    kError (11001) << ": sender of the signal was not a KMessageIO object!";
    return;
  }

  emit connectionLost (client);
  removeClient (client, true);
}


00286 void KMessageServer::setMaxClients(int c)
{
  d->mMaxClients = c;
}

00291 int KMessageServer::maxClients() const
{
  return d->mMaxClients;
}

00296 int KMessageServer::clientCount() const
{
  return d->mClientList.count();
}

00301 QList <quint32> KMessageServer::clientIDs () const
{
  QList <quint32> list;
  for (QList<KMessageIO*>::iterator iter(d->mClientList.begin()); iter!=d->mClientList.end(); ++iter)
    list.append ((*iter)->id());
  return list;
}

00309 KMessageIO* KMessageServer::findClient (quint32 no) const
{
  if (no == 0)
    no = d->mAdminID;

  QList<KMessageIO*>::iterator iter = d->mClientList.begin();
  while (iter!=d->mClientList.end())
  {
    if ((*iter)->id() == no)
      return (*iter);
    ++iter;
  }
  return 0;
}

00324 quint32 KMessageServer::adminID () const
{
  return d->mAdminID;
}

00329 void KMessageServer::setAdmin (quint32 adminID)
{
  // Trying to set the the client that is already admin => nothing to do
  if (adminID == d->mAdminID)
    return;

  if (adminID > 0 && findClient (adminID) == 0)
  {
    kWarning (11001) << "Trying to set a new admin that doesn't exist!";
    return;
  }

  d->mAdminID = adminID;

  QByteArray msg;
  QDataStream (&msg, QIODevice::WriteOnly) << quint32 (ANS_ADMIN_ID) << adminID;

  // Tell everyone about the new master
  broadcastMessage (msg);
}


//------------------------------------------- ID stuff

00353 quint32 KMessageServer::uniqueClientNumber() const
{
  return d->mUniqueClientNumber++;
}

// --------------------- Messages ---------------------------

00360 void KMessageServer::broadcastMessage (const QByteArray &msg)
{
  for (QList<KMessageIO*>::iterator iter (d->mClientList.begin()); iter!=d->mClientList.end(); ++iter)
    (*iter)->send (msg);
}

00366 void KMessageServer::sendMessage (quint32 id, const QByteArray &msg)
{
  KMessageIO *client = findClient (id);
  if (client)
    client->send (msg);
}

00373 void KMessageServer::sendMessage (const QList <quint32> &ids, const QByteArray &msg)
{
  for (QList<quint32>::ConstIterator  iter = ids.begin(); iter != ids.end(); ++iter)
    sendMessage (*iter, msg);
}

00379 void KMessageServer::getReceivedMessage (const QByteArray &msg)
{
  KMessageIO *client = sender() ? qobject_cast<KMessageIO*>(sender()) : 0;
  if (!client)
  {
    kError (11001) << ": slot was not called from KMessageIO!";
    return;
  }
  //kDebug(11001) << ": size=" << msg.size();
  quint32 clientID = client->id();

  //QByteArray *ta=new QByteArray;
  //ta->duplicate(msg);
  //d->mMessageQueue.enqueue (new MessageBuffer (clientID, *ta));

  
  d->mMessageQueue.enqueue (new MessageBuffer (clientID, msg));
  if (!d->mTimer.isActive())
    d->mTimer.start(0); // AB: should be , TRUE i guess
}

00400 void KMessageServer::processOneMessage ()
{
  // This shouldn't happen, since the timer should be stopped before. But only to be sure!
  if (d->mMessageQueue.isEmpty())
  {
    d->mTimer.stop();
    return;
  }
  if (d->mIsRecursive)
  {
    return;
  }
  d->mIsRecursive = true;

  MessageBuffer *msg_buf = d->mMessageQueue.head();

  quint32 clientID = msg_buf->id;
  QBuffer in_buffer (&msg_buf->data);
  in_buffer.open (QIODevice::ReadOnly);
  QDataStream in_stream (&in_buffer);

  QByteArray out_msg;
  QBuffer out_buffer (&out_msg);
  out_buffer.open (QIODevice::WriteOnly);
  QDataStream out_stream (&out_buffer);

  bool unknown = false;

  QByteArray ttt=in_buffer.buffer();
  quint32 messageID;
  in_stream >> messageID;
  //kDebug(11001) << ": got message with messageID=" << messageID;
  switch (messageID)
  {
    case REQ_BROADCAST:
      out_stream << quint32 (MSG_BROADCAST) << clientID;
      // FIXME, compiler bug?
      // this should be okay, since QBuffer is subclass of QIODevice! :
      // out_buffer.write (in_buffer.readAll());
      out_buffer.QIODevice::write (in_buffer.readAll());
      broadcastMessage (out_msg);
      break;

    case REQ_FORWARD:
      {
        QList <quint32> clients;
        in_stream >> clients;
        out_stream << quint32 (MSG_FORWARD) << clientID << clients;
        // see above!
        out_buffer.QIODevice::write (in_buffer.readAll());
        sendMessage (clients, out_msg);
      }
      break;

    case REQ_CLIENT_ID:
      out_stream << quint32 (ANS_CLIENT_ID) << clientID;
      sendMessage (clientID, out_msg);
      break;

    case REQ_ADMIN_ID:
      out_stream << quint32 (ANS_ADMIN_ID) << d->mAdminID;
      sendMessage (clientID, out_msg);
      break;

    case REQ_ADMIN_CHANGE:
      if (clientID == d->mAdminID)
      {
        quint32 newAdmin;
        in_stream >> newAdmin;
        setAdmin (newAdmin);
      }
      break;

    case REQ_REMOVE_CLIENT:
      if (clientID == d->mAdminID)
      {
        QList <quint32> client_list;
        in_stream >> client_list;
        for (QList<quint32>::Iterator  iter = client_list.begin(); iter != client_list.end(); ++iter)
        {
          KMessageIO *client = findClient (*iter);
          if (client)
            removeClient (client, false);
          else
            kWarning (11001) << ": removing non-existing clientID";
        }
      }
      break;

    case REQ_MAX_NUM_CLIENTS:
      if (clientID == d->mAdminID)
      {
        qint32 maximum_clients;
        in_stream >> maximum_clients;
        setMaxClients (maximum_clients);
      }
      break;

    case REQ_CLIENT_LIST:
      {
        out_stream << quint32 (ANS_CLIENT_LIST) << clientIDs();
        sendMessage (clientID, out_msg);
      }
      break;

    default:
      unknown = true;
  }

  // check if all the data has been used
  if (!unknown && !in_buffer.atEnd())
    kWarning (11001) << ": Extra data received for message ID" << messageID;

  emit messageReceived (msg_buf->data, clientID, unknown);

  if (unknown)
    kWarning (11001) << ": received unknown message ID" << messageID;

  // remove the message, since we are ready with it
  d->mMessageQueue.dequeue();
  if (d->mMessageQueue.isEmpty())
    d->mTimer.stop();
  d->mIsRecursive = false;
}

00525 void KMessageServer::Debug()
{
   kDebug(11001) << "------------------ KMESSAGESERVER -----------------------";
   kDebug(11001) << "MaxClients :   " << maxClients();
   kDebug(11001) << "NoOfClients :  " << clientCount();
   kDebug(11001) << "---------------------------------------------------";
}

#include "kmessageserver.moc"
#include "kmessageserver_p.moc"

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