void Nuria::RestfulHttpNode::registerAnnotatedHandlers () {
this->d_ptr->loaded = true;
if (!this->d_ptr->metaObject) {
this->d_ptr->metaObject = MetaObject::byName (metaObject ()->className ());
if (!this->d_ptr->metaObject) {
nError() << "Failed to auto-find meta object of class" << metaObject ()->className ();
return;
}
}
//
MetaObject *meta = this->d_ptr->metaObject;
for (int i = 0; i < meta->methodCount (); i++) {
MetaMethod method = meta->method (i);
registerMetaMethod (method);
}
}
void GwObjectHost::harvestServiceOriginatingObjects(Message& msg, TransportSocketPtr sender)
{
Signature signature;
{
boost::upgrade_lock<boost::shared_mutex> lock(_mutex);
MetaObject* metaObject = NULL;
const Signature& (MetaMethod::*signatureGetter)() const = NULL;
if (msg.type() == Message::Type_Reply || msg.type() == Message::Type_Error)
{
std::map<ServiceId, std::map<ObjectId, MetaObject> >::iterator sit = _servicesMetaObjects.find(msg.service());
if (msg.function() == Message::BoundObjectFunction_MetaObject &&
sit->second.find(msg.object()) == sit->second.end())
{
boost::upgrade_to_unique_lock<boost::shared_mutex> unique_lock(lock);
_servicesMetaObjects[msg.service()][Message::GenericObject_Main] = extractReturnedMetaObject(msg, sender);
return;
}
metaObject = &_servicesMetaObjects[msg.service()][msg.object()];
signatureGetter = &MetaMethod::returnSignature;
}
else if (msg.type() == Message::Type_Call || msg.type() == Message::Type_Post)
{
// if a service does a CALL, he does so on a user-supplied object.
std::map<GwObjectId, MetaObject>::iterator mit = _objectsMetaObjects.find(msg.object());
assert(mit != _objectsMetaObjects.end());
metaObject = &mit->second;
signatureGetter = &MetaMethod::parametersSignature;
}
const MetaMethod* method = metaObject->method(msg.function());
if (!method)
return;
signature = (method->*signatureGetter)();
}
if (!hasObjectsSomewhere(signature))
{
// no object can be here
return;
}
AnyReference passed = msg.value(signature, sender);
StreamContext filler;
MockObjectHost host(Message::Service_Server);
Message dummy;
// we don't want to pollute the original message and potentially change valid id
// of contained objects, so we do it in an unrelated message.
dummy.setValue(passed, signature, &host, &filler);
const ObjectHost::ObjectMap& objects = host.objects();
std::map<ObjectId, MetaObject> newServicesMetaObject;
for (ObjectHost::ObjectMap::const_iterator it = objects.begin(), end = objects.end(); it != end; ++it)
{
ServiceBoundObject* sbo = static_cast<ServiceBoundObject*>(it->second.get());
RemoteObject* ro = static_cast<RemoteObject*>(sbo->object().asGenericObject()->value);
// We set an empty transportsocket.
// Otherwise when we destroy `passed` below, the remoteobject
// will attempt to send back home a `terminate` message, which we don't want.
// By setting a null socket the object will stay alive on the remote end.
ro->setTransportSocket(TransportSocketPtr());
newServicesMetaObject[ro->object()] = ro->metaObject();
}
{
boost::upgrade_lock<boost::shared_mutex> lock(_mutex);
boost::upgrade_to_unique_lock<boost::shared_mutex> unique_lock(lock);
_servicesMetaObjects[msg.service()].insert(newServicesMetaObject.begin(), newServicesMetaObject.end());
}
passed.destroy();
}
