Beispiel #1
0
/**
  * @return A null header if error.
  */
Common::MessageHeader UDPListener::readDatagramToBuffer(QUdpSocket& socket, QHostAddress& peerAddress)
{
   quint16 port;
   const qint64 datagramSize = socket.readDatagram(this->buffer, BUFFER_SIZE, &peerAddress, &port);
   if (datagramSize == -1)
   {
      L_WARN(QString("UDPListener::readDatagramToBuffer(..): Unable to read multicast datagram from address:port: %1:%2").arg(peerAddress.toString()).arg(port));
      return Common::MessageHeader();
   }

   Common::MessageHeader header = Common::MessageHeader::readHeader(buffer);

   if (header.getSize() > datagramSize - Common::MessageHeader::HEADER_SIZE)
   {
      L_ERRO("The message size (header.size) exceeds the datagram size received");
      header.setNull();
      return header;
   }

   if (header.getSenderID() == this->peerManager->getSelf()->getID())
   {
      // L_WARN("We receive a datagram from ourself, skip"); // Don't care . . .
      header.setNull();
      return header;
   }

   if (header.getType() != Common::MessageHeader::CORE_IM_ALIVE)
   {
      PM::IPeer* peer = this->peerManager->getPeer(header.getSenderID());
      if (!peer)
      {
          L_WARN(QString("We receive a datagram from an unknown peer (%1), skip").arg(peerAddress.toString()));
         header.setNull();
         return header;
      }

      if (!peer->isAlive())
      {
          L_WARN(QString("We receive a datagram from a dead peer (%1), skip").arg(peerAddress.toString()));
         header.setNull();
         return header;
      }

      L_DEBU(QString("Receive a datagram UDP from %1, %2").arg(peer->toStringLog()).arg(header.toStr()));
   }
   else
   {
      L_DEBU(QString("Receive a datagram UDP from %1, %2").arg(header.getSenderID().toStr()).arg(header.toStr()));
   }
   return header;
}
Beispiel #2
0
/**
  * @return A null header if error.
  */
Common::MessageHeader UDPListener::readDatagramToBuffer(QUdpSocket& socket, QHostAddress& peerAddress)
{
   qint64 datagramSize = socket.readDatagram(this->buffer, BUFFER_SIZE, &peerAddress);

   Common::MessageHeader header = Common::MessageHeader::readHeader(buffer);

   if (header.getSize() > datagramSize - Common::MessageHeader::HEADER_SIZE)
   {
      L_ERRO("header.getSize() > datagramSize");
      header.setNull();
      return header;
   }

   if (header.getSenderID() == this->peerManager->getID())
   {
      // L_WARN("We receive a datagram from ourself, skip"); // Don't care..
      header.setNull();
      return header;
   }

   if (header.getType() != Common::MessageHeader::CORE_IM_ALIVE)
   {
      PM::IPeer* peer = this->peerManager->getPeer(header.getSenderID());
      if (!peer)
      {
         L_WARN("We receive a datagram from an unknown peer, skip");
         header.setNull();
         return header;
      }

      if (!peer->isAlive())
      {
         L_WARN("We receive a datagram from a dead peer, skip");
         header.setNull();
         return header;
      }

      L_DEBU(QString("Receive a datagram UDP from %1, %2").arg(peer->toStringLog()).arg(header.toStr()));
   }
   else
   {
      L_DEBU(QString("Receive a datagram UDP from %1, %2").arg(header.getSenderID().toStr()).arg(header.toStr()));
   }
   return header;
}