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https://port.numenaute.org/aleajactaest/khanat-opennel-code.git
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471 lines
12 KiB
C++
471 lines
12 KiB
C++
// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
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// Copyright (C) 2010 Winch Gate Property Limited
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as
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// published by the Free Software Foundation, either version 3 of the
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// License, or (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#include "stdnet.h"
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#include "nel/misc/hierarchical_timer.h"
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#include "nel/net/buf_client.h"
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#include "nel/misc/thread.h"
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#include "nel/net/dummy_tcp_sock.h"
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#include "nel/net/net_log.h"
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#ifdef NL_OS_WINDOWS
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# define NOMINMAX
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# include <windows.h>
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#elif defined NL_OS_UNIX
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# include <netinet/in.h>
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#endif
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using namespace NLMISC;
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using namespace std;
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namespace NLNET {
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uint32 NbClientReceiveTask = 0;
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/***************************************************************************************************
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* User main thread (initialization)
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**************************************************************************************************/
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/*
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* Constructor
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*/
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#ifdef NL_OS_UNIX
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CBufClient::CBufClient( bool nodelay, bool replaymode, bool initPipeForDataAvailable ) :
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CBufNetBase( initPipeForDataAvailable ),
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#else
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CBufClient::CBufClient( bool nodelay, bool replaymode, bool ) :
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CBufNetBase(),
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#endif
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_NoDelay( nodelay ),
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_PrevBytesDownloaded( 0 ),
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_PrevBytesUploaded( 0 ),
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_RecvTask( NULL ),
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_RecvThread( NULL )
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/*_PrevBytesReceived( 0 ),
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_PrevBytesSent( 0 )*/
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{
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nlnettrace( "CBufClient::CBufClient" ); // don't define a global object
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if ( replaymode )
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{
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_BufSock = new CNonBlockingBufSock( new CDummyTcpSock(), CBufNetBase::DefaultMaxExpectedBlockSize );
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}
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else
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{
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_BufSock = new CNonBlockingBufSock( NULL, CBufNetBase::DefaultMaxExpectedBlockSize );
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_RecvTask = new CClientReceiveTask( this, _BufSock );
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}
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}
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/*
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* Connects to the specified host
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* Precond: not connected
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*/
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void CBufClient::connect( const CInetAddress& addr )
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{
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nlnettrace( "CBufClient::connect" );
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nlassert( ! _BufSock->Sock->connected() );
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_BufSock->setMaxExpectedBlockSize( maxExpectedBlockSize() );
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_BufSock->connect( addr, _NoDelay, true );
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_BufSock->setNonBlocking(); // ADDED: non-blocking client connection
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_PrevBytesDownloaded = 0;
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_PrevBytesUploaded = 0;
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/*_PrevBytesReceived = 0;
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_PrevBytesSent = 0;*/
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// Allow reconnection
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if ( _RecvThread != NULL )
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{
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delete _RecvThread;
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}
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_RecvThread = IThread::create( _RecvTask, 1024*4*4 );
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_RecvThread->start();
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}
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/***************************************************************************************************
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* User main thread (running)
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**************************************************************************************************/
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void CBufClient::displayThreadStat (NLMISC::CLog *log)
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{
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log->displayNL ("client thread %p nbloop %d", _RecvTask, _RecvTask->NbLoop);
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}
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/*
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* Sends a message to the remote host
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*/
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void CBufClient::send( const NLMISC::CMemStream& buffer )
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{
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nlnettrace( "CBufClient::send" );
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nlassert( buffer.length() > 0 );
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nlassert( buffer.length() <= maxSentBlockSize() );
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// slow down the layer H_AUTO (CBufServer_send);
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if ( ! _BufSock->pushBuffer( buffer ) )
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{
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// Disconnection event if disconnected
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_BufSock->advertiseDisconnection( this, NULL );
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}
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}
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/*
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* Checks if there are some data to receive
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*/
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bool CBufClient::dataAvailable()
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{
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// slow down the layer H_AUTO (CBufClient_dataAvailable);
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{
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/* If no data available, enter the 'while' loop and return false (1 volatile test)
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* If there are user data available, enter the 'while' and return true immediately (1 volatile test + 1 short locking)
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* If there is a disconnection event (rare), call the callback and loop
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*/
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while ( dataAvailableFlag() )
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{
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// Because _DataAvailable is true, the receive queue is not empty at this point
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uint8 val;
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{
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CFifoAccessor recvfifo( &receiveQueue() );
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val = recvfifo.value().frontLast ();
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}
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#ifdef NL_OS_UNIX
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uint8 b;
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if ( read( _DataAvailablePipeHandle[PipeRead], &b, 1 ) == -1 )
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nlwarning( "LNETL1: Read pipe failed in dataAvailable" );
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//nldebug( "Pipe: 1 byte read (client %p)", this );
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#endif
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// Test if it the next block is a system event
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switch ( val )
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{
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// Normal message available
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case CBufNetBase::User:
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return true; // return immediatly, do not extract the message
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// Process disconnection event
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case CBufNetBase::Disconnection:
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LNETL1_DEBUG( "LNETL1: Disconnection event" );
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_BufSock->setConnectedState( false );
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// Call callback if needed
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if ( disconnectionCallback() != NULL )
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{
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disconnectionCallback()( id(), argOfDisconnectionCallback() );
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}
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// Unlike the server version, we do not delete the CBufSock object here,
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// it will be done in the destructor of CBufClient
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break;
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default: // should not occur
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{
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CFifoAccessor recvfifo( &receiveQueue() );
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vector<uint8> buffer;
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recvfifo.value().front (buffer);
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LNETL1_INFO( "LNETL1: Invalid block type: %hu (should be = %hu)", (uint16)(buffer[buffer.size()-1]), (uint16)val );
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LNETL1_INFO( "LNETL1: Buffer (%d B): [%s]", buffer.size(), stringFromVector(buffer).c_str() );
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LNETL1_INFO( "LNETL1: Receive queue:" );
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recvfifo.value().display();
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nlerror( "LNETL1: Invalid system event type in client receive queue" );
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}
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}
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// Extract system event
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{
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CFifoAccessor recvfifo( &receiveQueue() );
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recvfifo.value().pop();
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setDataAvailableFlag( ! recvfifo.value().empty() );
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}
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}
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// _DataAvailable is false here
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return false;
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}
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}
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#ifdef NL_OS_UNIX
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/* Wait until the receive queue contains something to read (implemented with a select()).
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* This is where the connection/disconnection callbacks can be called.
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* \param usecMax Max time to wait in microsecond (up to 1 sec)
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*/
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void CBufClient::sleepUntilDataAvailable( uint usecMax )
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{
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// Prevent looping infinitely if the system time was changed
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if ( usecMax > 999999 ) // limit not told in Linux man but here: http://docs.hp.com/en/B9106-90009/select.2.html
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usecMax = 999999;
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fd_set readers;
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timeval tv;
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do
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{
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FD_ZERO( &readers );
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FD_SET( _DataAvailablePipeHandle[PipeRead], &readers );
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tv.tv_sec = 0;
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tv.tv_usec = usecMax;
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int res = ::select( _DataAvailablePipeHandle[PipeRead]+1, &readers, NULL, NULL, &tv );
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if ( res == -1 )
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nlerror( "LNETL1: Select failed in sleepUntilDataAvailable (code %u)", CSock::getLastError() );
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}
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while ( ! dataAvailable() ); // will loop if only a connection/disconnection event was read
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}
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#endif
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/*
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* Receives next block of data in the specified buffer (resizes the vector)
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* Precond: dataAvailable() has returned true
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*/
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void CBufClient::receive( NLMISC::CMemStream& buffer )
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{
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nlnettrace( "CBufClient::receive" );
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//nlassert( dataAvailable() );
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// Extract buffer from the receive queue
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{
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CFifoAccessor recvfifo( &receiveQueue() );
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nlassert( ! recvfifo.value().empty() );
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recvfifo.value().front( buffer );
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recvfifo.value().pop();
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setDataAvailableFlag( ! recvfifo.value().empty() );
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}
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// Extract event type
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nlassert( buffer.buffer()[buffer.size()-1] == CBufNetBase::User );
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//commented for optimisation LNETL1_DEBUG( "LNETL1: Client read buffer (%d+%d B)", buffer.size(), sizeof(TSockId)+1 );
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buffer.resize( buffer.size()-1 );
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}
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/*
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* Update the network (call this method evenly)
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*/
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void CBufClient::update()
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{
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//nlnettrace( "CBufClient::update" );
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// Update sending
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bool sendingok = _BufSock->update();
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// Disconnection event if disconnected
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if ( ! ( _BufSock->Sock->connected() && sendingok ) )
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{
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if ( _BufSock->Sock->connected() )
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{
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_BufSock->Sock->disconnect();
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}
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_BufSock->advertiseDisconnection( this, NULL );
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}
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}
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/*
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* Disconnect the remote host
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*/
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void CBufClient::disconnect( bool quick )
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{
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nlnettrace( "CBufClient::disconnect" );
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// Do not allow to disconnect a socket that is not connected
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nlassert( _BufSock->connectedState() );
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// When the NS tells us to remove this connection AND the connection has physically
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// disconnected but not yet logically (i.e. disconnection event not processed yet),
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// skip flushing and physical active disconnection
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if ( _BufSock->Sock->connected() )
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{
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// Flush sending is asked for
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if ( ! quick )
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{
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_BufSock->flush();
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}
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// Disconnect and prevent from advertising the disconnection
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_BufSock->disconnect( false );
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}
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// Empty the receive queue
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{
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CFifoAccessor recvfifo( &receiveQueue() );
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recvfifo.value().clear();
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setDataAvailableFlag( false );
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}
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}
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// Utility function for newBytes...()
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inline uint64 updateStatCounter( uint64& counter, uint64 newvalue )
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{
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uint64 result = newvalue - counter;
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counter = newvalue;
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return result;
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}
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/*
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* Returns the number of bytes downloaded since the previous call to this method
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*/
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uint64 CBufClient::newBytesDownloaded()
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{
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return updateStatCounter( _PrevBytesDownloaded, bytesDownloaded() );
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}
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/*
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* Returns the number of bytes uploaded since the previous call to this method
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*/
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uint64 CBufClient::newBytesUploaded()
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{
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return updateStatCounter( _PrevBytesUploaded, bytesUploaded() );
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}
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/*
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* Returns the number of bytes popped by receive() since the previous call to this method
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*/
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/*uint64 CBufClient::newBytesReceived()
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{
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return updateStatCounter( _PrevBytesReceived, bytesReceived() );
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}*/
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/*
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* Returns the number of bytes pushed by send() since the previous call to this method
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*/
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/*uint64 CBufClient::newBytesSent()
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{
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return updateStatCounter( _PrevBytesSent, bytesSent() );
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}*/
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/*
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* Destructor
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*/
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CBufClient::~CBufClient()
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{
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nlnettrace( "CBufClient::~CBufClient" );
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// Disconnect if not done
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if ( _BufSock->Sock->connected() )
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{
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nlassert( _BufSock->connectedState() );
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disconnect( true );
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}
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// Clean thread termination
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if ( _RecvThread != NULL )
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{
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LNETL1_DEBUG( "LNETL1: Waiting for the end of the receive thread..." );
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_RecvThread->wait();
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}
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if ( _RecvTask != NULL )
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delete _RecvTask;
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if ( _RecvThread != NULL )
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delete _RecvThread;
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if ( _BufSock != NULL )
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delete _BufSock;
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nlnettrace( "Exiting CBufClient::~CBufClient" );
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}
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/***************************************************************************************************
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* Receive thread
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**************************************************************************************************/
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/*
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* Code of receiving thread for clients
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*/
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void CClientReceiveTask::run()
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{
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NbClientReceiveTask++;
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NbNetworkTask++;
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nlnettrace( "CClientReceiveTask::run" );
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// 18/08/2005 : sonix : Changed time out from 60s to 1s, in some case, it
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// can generate a 60 s wait on destruction of the CBufSock
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// By the way, checking every 1s is not a time consuming
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_NBBufSock->Sock->setTimeOutValue( 1, 0 );
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bool connected = true;
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while ( connected && _NBBufSock->Sock->connected())
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{
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try
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{
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// ADDED: non-blocking client connection
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// Wait until some data are received (sleepin' select inside)
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while ( ! _NBBufSock->Sock->dataAvailable() )
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{
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if ( ! _NBBufSock->Sock->connected() )
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{
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LNETL1_DEBUG( "LNETL1: Client connection %s closed", sockId()->asString().c_str() );
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// The socket went to _Connected=false when throwing the exception
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connected = false;
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break;
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}
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}
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// Process the data received
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if ( _NBBufSock->receivePart( 1 ) ) // 1 for the event type
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{
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//commented out for optimisation: LNETL1_DEBUG( "LNETL1: Client %s received buffer (%u bytes)", _SockId->asString().c_str(), buffer.size()/*, stringFromVector(buffer).c_str()*/ );
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// Add event type
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_NBBufSock->fillEventTypeOnly();
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// Push message into receive queue
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_Client->pushMessageIntoReceiveQueue( _NBBufSock->receivedBuffer() );
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}
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NbLoop++;
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}
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catch (const ESocket&)
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{
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LNETL1_DEBUG( "LNETL1: Client connection %s broken", sockId()->asString().c_str() );
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sockId()->Sock->disconnect();
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connected = false;
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}
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}
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nlnettrace( "Exiting CClientReceiveTask::run()" );
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NbClientReceiveTask--;
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NbNetworkTask--;
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}
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NLMISC_CATEGORISED_VARIABLE(nel, uint32, NbClientReceiveTask, "Number of client receive thread");
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} // NLNET
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