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#include "bluetoothBNEP_NN.h"
#include "bluetoothBNEP_NNI.h"
#include "bluetoothRFCOMM_NNI.h"
//
//
// BLUETOOTH PAN/NAP node
//
//
static const char * BluetoothBNEPNeeds[] =
{ 0
};
static const char * BluetoothBNEPProvides[] =
{ "device",
0
};
/**
* Constructor, find all of the possible interfaces
*/
BluetoothBNEPNetNode::BluetoothBNEPNetNode() :
ANetNode(tr("Bluetooth PAN/NAP")) {
InstanceCount = 7; // default
}
/**
* Delete any interfaces that we own.
*/
BluetoothBNEPNetNode::~BluetoothBNEPNetNode(){
}
const QString BluetoothBNEPNetNode::nodeDescription(){
return tr("\
<p>Sets up a bluetooth link using the bluetooth Network profile.</p>\
<p>Use this to connect two computing devices.</p>\
"
);
}
ANetNodeInstance * BluetoothBNEPNetNode::createInstance( void ) {
return new ABluetoothBNEP( this );
}
const char ** BluetoothBNEPNetNode::needs( void ) {
return BluetoothBNEPNeeds;
}
const char ** BluetoothBNEPNetNode::provides( void ) {
return BluetoothBNEPProvides;
}
QString BluetoothBNEPNetNode::genNic( long nr ) {
QString S;
return S.sprintf( "bnep%ld", nr );
}
void BluetoothBNEPNetNode::setSpecificAttribute( QString & A, QString & V ) {
if( A == "interfacecount" ) {
InstanceCount = V.toLong();
}
}
void BluetoothBNEPNetNode::saveSpecificAttribute( QTextStream & TS) {
TS << "interfacecount="
<< InstanceCount
<< endl;
}
extern "C" {
// create plugin registers both BT functions
void create_plugin( QList<ANetNode> & PNN ) {
PNN.append( new BluetoothBNEPNetNode() );
PNN.append( new BluetoothRFCOMMNetNode() );
}
}
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