void Bind( const IpEndpointName& localEndpoint )
{
struct sockaddr_in bindSockAddr;
SockaddrFromIpEndpointName( bindSockAddr, localEndpoint );
{
IpEndpointName temp = IpEndpointNameFromSockaddr(bindSockAddr);
char address[30];
temp.AddressAndPortAsString(address);
}
if (bind(socket_, (struct sockaddr *)&bindSockAddr, sizeof(bindSockAddr)) < 0) {
throw std::runtime_error("unable to bind udp socket\n");
}
isBound_ = true;
}
void OscListener::ProcessMessage(const osc::ReceivedMessage& message, const IpEndpointName& endpoint)
{
char addressBuffer[256];
endpoint.AddressAsString(addressBuffer);
QList<QVariant> arguments;
for (osc::ReceivedMessage::const_iterator iterator = message.ArgumentsBegin(); iterator != message.ArgumentsEnd(); ++iterator)
{
const osc::ReceivedMessageArgument& argument = *iterator;
if (argument.IsBool())
arguments.push_back(argument.AsBool());
else if (argument.IsInt32())
arguments.push_back(QVariant::fromValue<qint32>(argument.AsInt32()));
else if (argument.IsInt64())
arguments.push_back(QVariant::fromValue<qint64>(argument.AsInt64()));
else if (argument.IsFloat())
arguments.push_back(argument.AsFloat());
else if (argument.IsDouble())
arguments.push_back(argument.AsDouble());
else if (argument.IsString())
arguments.push_back(argument.AsString());
}
QString eventPath = QString("%1%2").arg(addressBuffer).arg(message.AddressPattern());
QMutexLocker locker(&eventsMutex);
this->events[eventPath] = arguments;
}
//------------------------------------------------------------------------
void OSCListener::ProcessMessage( const osc::ReceivedMessage& m, const IpEndpointName& src )
{
string address(m.AddressPattern());
if (address == kGreensoundsAddr) {
ReceivedMessageArgumentIterator i = m.ArgumentsBegin();
while (i != m.ArgumentsEnd()) {
if (i->IsString()) {
string msg(i->AsStringUnchecked());
if (msg == "hello") {
char buff[120];
src.AddressAsString(buff);
fSensors->connect(buff);
}
else if (msg == "version") {
fSensors->send (kGreensoundsAddr, "version", kVersion);
}
}
else if (i->IsInt32()) {
}
else if (i->IsFloat()) {
}
i++;
}
}
}
void OscListener::ProcessMessage( const ::osc::ReceivedMessage &m, const IpEndpointName& remoteEndpoint ) {
Message* message = new Message();
message->setAddress(m.AddressPattern());
char endpoint_host[IpEndpointName::ADDRESS_STRING_LENGTH];
remoteEndpoint.AddressAsString(endpoint_host);
message->setRemoteEndpoint(endpoint_host, remoteEndpoint.port);
for (::osc::ReceivedMessage::const_iterator arg = m.ArgumentsBegin(); arg != m.ArgumentsEnd(); ++arg){
if (arg->IsInt32())
message->addIntArg( arg->AsInt32Unchecked());
else if (arg->IsFloat())
message->addFloatArg(arg->AsFloatUnchecked());
else if (arg->IsString())
message->addStringArg(arg->AsStringUnchecked());
else {
assert(false && "message argument type unknown");
}
}
lock_guard<mutex> lock(mMutex);
if( mMessageReceivedCbs.empty() ){
mMessages.push_back( message );
}else{
mMessageReceivedCbs.call( message );
delete message;
}
}
void Bind( const IpEndpointName& localEndpoint )
{
struct sockaddr_in bindSockAddr;
SockaddrFromIpEndpointName( bindSockAddr, localEndpoint );
// KEVIN: allow for multicast
SetAllowReuse(true);
struct ip_mreq group;
if (localEndpoint.IsMulticastAddress()) {
group.imr_interface.s_addr = htonl(INADDR_ANY);
group.imr_multiaddr.s_addr = bindSockAddr.sin_addr.s_addr;
if (setsockopt(socket_, IPPROTO_IP, IP_ADD_MEMBERSHIP, (char *)&group, sizeof(group)) < 0) {
throw std::runtime_error("error adding multicast group\n");
closesocket(socket_); // winsock2 equivalent of close()
exit(1);
}
}
bindSockAddr.sin_addr.s_addr = INADDR_ANY;
// KEVIN: the above line needs to be added for winsock2, otherwise bind
// will fail with error 10049 WSAEADDRNOTAVAIL
// solution suggested from: http://www.sockets.com/err_lst1.htm#WSAEADDRNOTAVAIL
if (bind(socket_, (struct sockaddr *)&bindSockAddr, sizeof(bindSockAddr)) < 0) {
throw std::runtime_error("unable to bind udp socket\n");
}
isBound_ = true;
}
void oscReceiver::ProcessMessage(const osc::ReceivedMessage &_m, const IpEndpointName &remoteEndpoint)
{
boost::mutex::scoped_lock lock(listenerMutex);
if (retrievalMode == SIGNAL_PARSER_ONLY_AFTER_RELEASE)
{
if (currentMessage != 0) return;
}
osc::ReceivedMessage::const_iterator arg = _m.ArgumentsBegin();
currentMessage = new oscMessage(_m.AddressPattern(), oscMessage::NO_BUFFER);
// set source IP
char sourceString[ IpEndpointName::ADDRESS_STRING_LENGTH ];
remoteEndpoint.AddressAsString( sourceString );
currentMessage->sourceIP = sourceString;
while ( arg != _m.ArgumentsEnd() )
{
if ( arg->IsBool() ) { currentMessage->AppendBoolean (arg->AsBool());}
else if ( arg->IsInt32() ) { currentMessage->AppendInteger (arg->AsInt32());}
else if ( arg->IsFloat() ) { currentMessage->AppendFloat (arg->AsFloat());}
else if ( arg->IsString() ) { currentMessage->AppendString (arg->AsString());}
else { std::cout << "Unrecognized osc argument type\n"; }
arg++;
}
signalNewOscMessageReceived(currentMessage);
}
void ofxOscReceiver::ProcessMessage( const osc::ReceivedMessage &m, const IpEndpointName& remoteEndpoint )
{
// convert the message to an ofxOscMessage
ofxOscMessage* ofMessage = new ofxOscMessage();
// set the address
ofMessage->setAddress( m.AddressPattern() );
// set the sender ip/host
char endpoint_host[ IpEndpointName::ADDRESS_STRING_LENGTH ];
remoteEndpoint.AddressAsString( endpoint_host );
ofMessage->setRemoteEndpoint( endpoint_host, remoteEndpoint.port );
// transfer the arguments
for ( osc::ReceivedMessage::const_iterator arg = m.ArgumentsBegin();
arg != m.ArgumentsEnd();
++arg )
{
if ( arg->IsInt32() )
ofMessage->addIntArg( arg->AsInt32Unchecked() );
else if ( arg->IsFloat() )
ofMessage->addFloatArg( arg->AsFloatUnchecked() );
else if ( arg->IsString() )
ofMessage->addStringArg( arg->AsStringUnchecked() );
else if ( arg->IsBlob() )
{
osc::Blob blob;
arg->AsBlobUnchecked( blob.data, blob.size );
ofMessage->addBlobArg( blob );
}
else
{
assert( false && "message argument is not int, float, string, or blob" );
}
}
// now add to the queue
// at this point we are running inside the thread created by startThread,
// so anyone who calls hasWaitingMessages() or getNextMessage() is coming
// from a different thread
// so we have to practise shared memory management
// grab a lock on the queue
grabMutex();
// add incoming message on to the queue
messages.push_back( ofMessage );
// release the lock
releaseMutex();
}
static void UpdateEndpoint( IpEndpointName& dest, const IpEndpointName& src,
const char *userName, const char *whichEndpoint )
{
if( dest != src ){
char endpointString[ IpEndpointName::ADDRESS_AND_PORT_STRING_LENGTH ];
src.AddressAndPortAsString( endpointString );
Log() << "updating " << whichEndpoint << " endpoint for user '"
<< userName << "' to " << endpointString << "." << std::endl;
dest = src;
}
}
void Bind( const IpEndpointName& localEndpoint )
{
struct sockaddr_in bindSockAddr;
SockaddrFromIpEndpointName( bindSockAddr, localEndpoint );
if (localEndpoint.IsMulticastAddress()) {
group.imr_interface.s_addr = htonl(INADDR_ANY);
group.imr_multiaddr.s_addr = bindSockAddr.sin_addr.s_addr;
if (setsockopt(socket_, IPPROTO_IP, IP_ADD_MEMBERSHIP, (char *)&group, sizeof(group)) < 0) {
throw std::runtime_error("error adding multicast group\n");
close(socket_);
}
}
if (bind(socket_, (struct sockaddr *)&bindSockAddr, sizeof(bindSockAddr)) < 0) {
throw std::runtime_error("unable to bind udp socket\n");
}
isBound_ = true;
}
