khanat-opennel-code/code/nel/src/net/transport_class.cpp

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2010-05-06 00:08:41 +00:00
// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
/*
* Limitations: Not threadsafe, not reentrant.
*/
//
// Includes
//
#include "stdnet.h"
#include "nel/misc/types_nl.h"
#include "nel/misc/debug.h"
#include "nel/misc/entity_id.h"
#include "nel/misc/sheet_id.h"
#include "nel/net/unified_network.h"
#include "nel/net/transport_class.h"
//
// Namespace
//
using namespace std;
using namespace NLMISC;
using namespace NLNET;
namespace NLNET {
//
// Globals
//
NLMISC::CVariable<bool> VerboseNETTC("nel","VerboseNETTC","Enable verbose logging in CTransportClass operations",true,0,true);
//
// Variables
//
uint CTransportClass::Mode = 0; // 0=nothing 1=read 2=write 3=register
map<string, CTransportClass::CRegisteredClass> CTransportClass::LocalRegisteredClass; // registered class that are in my program
CTransportClass::CRegisteredClass CTransportClass::TempRegisteredClass;
NLNET::CMessage CTransportClass::TempMessage;
vector<CTransportClass::CRegisteredBaseProp *> CTransportClass::DummyProp;
bool CTransportClass::Init = false;
//
// Functions
//
string typeToString (CTransportClass::TProp type)
{
string conv[] = {
"PropUInt8", "PropUInt16", "PropUInt32", "PropUInt64",
"PropSInt8", "PropSInt16", "PropSInt32", "PropSInt64",
"PropBool", "PropFloat", "PropDouble", "PropString", "PropDataSetRow", "PropSheetId", "PropUKN" };
// "PropBool", "PropFloat", "PropDouble", "PropString", "PropDataSetRow", "PropEntityId", "PropSheetId", "PropUKN" };
if (type > CTransportClass::PropUKN)
return "<InvalidType>";
return conv[type];
}
void CTransportClass::displayDifferentClass (TServiceId sid, const string &className, const vector<CRegisteredBaseProp> &otherClass, const vector<CRegisteredBaseProp *> &myClass)
{
NETTC_INFO ("NETTC: Service with sid %hu send me the TransportClass '%s' with differents properties:", sid.get(), className.c_str());
NETTC_INFO ("NETTC: My local TransportClass is:");
for (uint i = 0; i < myClass.size(); i++)
{
NETTC_INFO ("NETTC: Property: %d Name: '%s' type: '%s'", i, myClass[i]->Name.c_str(), typeToString(myClass[i]->Type).c_str());
}
NETTC_INFO ("NETTC: The other side TransportClass is:");
for (uint i = 0; i < otherClass.size(); i++)
{
NETTC_INFO ("NETTC: Property: %d Name: '%s' type: '%s'", i, otherClass[i].Name.c_str(), typeToString(otherClass[i].Type).c_str());
}
}
void CTransportClass::registerOtherSideClass (TServiceId sid, TOtherSideRegisteredClass &osrc)
{
for (TOtherSideRegisteredClass::iterator it = osrc.begin(); it != osrc.end (); it++)
{
// find the class name in the map
TRegisteredClass::iterator res = LocalRegisteredClass.find ((*it).first);
if (res == LocalRegisteredClass.end ())
{
// The other service knows a class that we don't
// there was previously an nlwarning here but that was wrong because it is quite normal for this to happen when one service
// ueses different transport classes to communicate with several different services, so the message has been changed to an nldebug
NETTC_DEBUG ("NETTC: the other side class '%s' declared from service %d is not registered in my system, skip it", (*it).first.c_str(),(uint32)sid.get());
continue;
}
if (sid.get() >= (*res).second.Instance->States.size ())
(*res).second.Instance->States.resize (sid.get()+1);
(*res).second.Instance->States[sid.get()].clear ();
for (sint j = 0; j < (sint)(*it).second.size (); j++)
{
// check each prop to see the correspondance
// try to find the prop name in the array
uint k;
for (k = 0; k < (*res).second.Instance->Prop.size(); k++)
{
if ((*it).second[j].Name == (*res).second.Instance->Prop[k]->Name)
{
if ((*it).second[j].Type != (*res).second.Instance->Prop[k]->Type)
{
nlwarning ("NETTC: Property '%s' of the class '%s' have not the same type in the 2 sides (%s %s)", (*it).second[j].Name.c_str(), (*it).first.c_str(), typeToString((*it).second[j].Type).c_str(), typeToString((*res).second.Instance->Prop[k]->Type).c_str());
}
break;
}
}
if (k == (*res).second.Instance->Prop.size())
{
// not found, put -1
(*res).second.Instance->States[sid.get()].push_back (make_pair (-1, (*it).second[j].Type));
}
else
{
// same, store the index
(*res).second.Instance->States[sid.get()].push_back (make_pair (k, PropUKN));
}
}
// check if the version are the same
if ((*it).second.size () != (*res).second.Instance->Prop.size ())
{
// 2 class don't have the same number of prop => different class => display class
displayDifferentClass (sid, (*it).first.c_str(), (*it).second, (*res).second.Instance->Prop);
}
else
{
// check if the prop are same
for (uint i = 0; i < (*res).second.Instance->Prop.size (); i++)
{
if ((*res).second.Instance->Prop[i]->Name != (*it).second[i].Name)
{
// different name => different class => display class
displayDifferentClass (sid, (*it).first.c_str(), (*it).second, (*res).second.Instance->Prop);
break;
}
else if ((*res).second.Instance->Prop[i]->Type != (*it).second[i].Type)
{
// different type => different class => display class
displayDifferentClass (sid, (*it).first.c_str(), (*it).second, (*res).second.Instance->Prop);
break;
}
}
}
}
displayLocalRegisteredClass ();
}
void CTransportClass::registerClass (CTransportClass &instance)
{
nlassert (Init);
nlassert (Mode == 0);
// set the mode to register
Mode = 3;
// clear the current class
TempRegisteredClass.clear ();
// set the instance pointer
TempRegisteredClass.Instance = &instance;
// fill name and props
TempRegisteredClass.Instance->description ();
// add the new registered class in the array
LocalRegisteredClass[TempRegisteredClass.Instance->Name] = TempRegisteredClass;
// set to mode none
Mode = 0;
}
void CTransportClass::unregisterClass ()
{
for (TRegisteredClass::iterator it = LocalRegisteredClass.begin(); it != LocalRegisteredClass.end (); it++)
{
for (uint j = 0; j < (*it).second.Instance->Prop.size (); j++)
{
delete (*it).second.Instance->Prop[j];
}
(*it).second.Instance->Prop.clear ();
(*it).second.Instance = NULL;
}
LocalRegisteredClass.clear ();
}
void CTransportClass::displayLocalRegisteredClass (CRegisteredClass &c)
{
NETTC_DEBUG ("NETTC: > %s", c.Instance->Name.c_str());
for (uint j = 0; j < c.Instance->Prop.size (); j++)
{
NETTC_DEBUG ("NETTC: > %s %s", c.Instance->Prop[j]->Name.c_str(), typeToString(c.Instance->Prop[j]->Type).c_str());
}
for (uint l = 0; l < c.Instance->States.size (); l++)
{
if (c.Instance->States[l].size () != 0)
{
NETTC_DEBUG ("NETTC: > sid: %u", l);
for (uint k = 0; k < c.Instance->States[l].size (); k++)
{
NETTC_DEBUG ("NETTC: - %d type : %s", c.Instance->States[l][k].first, typeToString(c.Instance->States[l][k].second).c_str());
}
}
}
}
void CTransportClass::displayLocalRegisteredClass ()
{
NETTC_DEBUG ("NETTC:> LocalRegisteredClass:");
for (TRegisteredClass::iterator it = LocalRegisteredClass.begin(); it != LocalRegisteredClass.end (); it++)
{
displayLocalRegisteredClass ((*it).second);
}
}
void cbTCReceiveMessage (CMessage &msgin, const string &name, TServiceId sid)
{
NETTC_DEBUG ("NETTC: cbReceiveMessage");
CTransportClass::TempMessage.clear();
CTransportClass::TempMessage.assignFromSubMessage( msgin );
string className;
CTransportClass::readHeader(CTransportClass::TempMessage, className);
CTransportClass::TRegisteredClass::iterator it = CTransportClass::LocalRegisteredClass.find (className);
if (it == CTransportClass::LocalRegisteredClass.end ())
{
nlwarning ("NETTC: Receive unknown transport class '%s' received from %s-%hu", className.c_str(), name.c_str(), sid.get());
return;
}
nlassert ((*it).second.Instance != NULL);
if (!(*it).second.Instance->read (name, sid))
{
nlwarning ("NETTC: Can't read the transportclass '%s' received from %s-%hu (probably not registered on sender service)", className.c_str(), name.c_str(), sid.get());
}
}
void cbTCReceiveOtherSideClass (CMessage &msgin, const string &/* name */, TServiceId sid)
{
NETTC_DEBUG ("NETTC: cbReceiveOtherSideClass");
CTransportClass::TOtherSideRegisteredClass osrc;
uint32 nbClass;
msgin.serial (nbClass);
NETTC_DEBUG ("NETTC: %d class", nbClass);
for (uint i = 0; i < nbClass; i++)
{
string className;
msgin.serial (className);
osrc.push_back(make_pair (className, vector<CTransportClass::CRegisteredBaseProp>()));
uint32 nbProp;
msgin.serial (nbProp);
NETTC_DEBUG ("NETTC: %s (%d prop)", className.c_str(), nbProp);
for (uint j = 0; j < nbProp; j++)
{
CTransportClass::CRegisteredBaseProp prop;
msgin.serial (prop.Name);
msgin.serialEnum (prop.Type);
NETTC_DEBUG ("NETTC: %s %s", prop.Name.c_str(), typeToString(prop.Type).c_str());
osrc[osrc.size()-1].second.push_back (prop);
}
}
// we have the good structure
CTransportClass::registerOtherSideClass (sid, osrc);
}
static TUnifiedCallbackItem CallbackArray[] =
{
{ "CT_LRC", cbTCReceiveOtherSideClass },
{ "CT_MSG", cbTCReceiveMessage },
};
void cbTCUpService (const std::string &serviceName, TServiceId sid, void * /* arg */)
{
NETTC_DEBUG ("NETTC: CTransportClass Service %s %hu is up", serviceName.c_str(), sid.get());
if (sid.get() >= 256)
return;
CTransportClass::sendLocalRegisteredClass (sid);
}
void CTransportClass::init ()
{
// this isn't an error!
if (Init) return;
CUnifiedNetwork::getInstance()->addCallbackArray (CallbackArray, sizeof (CallbackArray) / sizeof (CallbackArray[0]));
// create an instance of all d'ifferent prop types
DummyProp.resize (PropUKN);
nlassert (PropUInt8 < PropUKN); DummyProp[PropUInt8] = new CTransportClass::CRegisteredProp<uint8>;
nlassert (PropUInt16 < PropUKN); DummyProp[PropUInt16] = new CTransportClass::CRegisteredProp<uint16>;
nlassert (PropUInt32 < PropUKN); DummyProp[PropUInt32] = new CTransportClass::CRegisteredProp<uint32>;
nlassert (PropUInt64 < PropUKN); DummyProp[PropUInt64] = new CTransportClass::CRegisteredProp<uint64>;
nlassert (PropSInt8 < PropUKN); DummyProp[PropSInt8] = new CTransportClass::CRegisteredProp<sint8>;
nlassert (PropSInt16 < PropUKN); DummyProp[PropSInt16] = new CTransportClass::CRegisteredProp<sint16>;
nlassert (PropSInt32 < PropUKN); DummyProp[PropSInt32] = new CTransportClass::CRegisteredProp<sint32>;
nlassert (PropSInt64 < PropUKN); DummyProp[PropSInt64] = new CTransportClass::CRegisteredProp<sint64>;
nlassert (PropBool < PropUKN); DummyProp[PropBool] = new CTransportClass::CRegisteredProp<bool>;
nlassert (PropFloat < PropUKN); DummyProp[PropFloat] = new CTransportClass::CRegisteredProp<float>;
nlassert (PropDouble < PropUKN); DummyProp[PropDouble] = new CTransportClass::CRegisteredProp<double>;
nlassert (PropString < PropUKN); DummyProp[PropString] = new CTransportClass::CRegisteredProp<string>;
// nlassert (PropDataSetRow < PropUKN); DummyProp[PropDataSetRow] = new CTransportClass::CRegisteredProp<TDataSetRow>;
// nlassert (PropEntityId < PropUKN); DummyProp[PropEntityId] = new CTransportClass::CRegisteredProp<CEntityId>;
nlassert (PropSheetId < PropUKN); DummyProp[PropSheetId] = new CTransportClass::CRegisteredProp<CSheetId>;
// we have to know when a service comes, so add callback (put the callback before all other one because we have to send this message first)
CUnifiedNetwork::getInstance()->setServiceUpCallback("*", cbTCUpService, NULL, false);
Init = true;
}
void CTransportClass::release ()
{
unregisterClass ();
for (uint i = 0; i < DummyProp.size (); i++)
{
delete DummyProp[i];
}
DummyProp.clear ();
}
void CTransportClass::createLocalRegisteredClassMessage ()
{
TempMessage.clear ();
if (TempMessage.isReading())
TempMessage.invert();
TempMessage.setType ("CT_LRC");
uint32 nbClass = (uint32)LocalRegisteredClass.size ();
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TempMessage.serial (nbClass);
for (TRegisteredClass::iterator it = LocalRegisteredClass.begin(); it != LocalRegisteredClass.end (); it++)
{
nlassert ((*it).first == (*it).second.Instance->Name);
TempMessage.serial ((*it).second.Instance->Name);
uint32 nbProp = (uint32)(*it).second.Instance->Prop.size ();
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TempMessage.serial (nbProp);
for (uint j = 0; j < (*it).second.Instance->Prop.size (); j++)
{
// send the name and the type of the prop
TempMessage.serial ((*it).second.Instance->Prop[j]->Name);
TempMessage.serialEnum ((*it).second.Instance->Prop[j]->Type);
}
}
}
/*
* Get the name of message (for displaying), or extract the class name if it is a transport class.
*
* Preconditions:
* - msgin is an input message that contains a valid message
*
* Postconditions:
* - the pos in msgin was modified
* - msgName contains "msg %s" or "transport class %s" where %s is the name of message, or the name
* transport class is the message is a CT_MSG.
*/
void getNameOfMessageOrTransportClass( NLNET::CMessage& msgin, std::string& msgName )
{
if ( msgin.getName() == "CT_MSG" )
{
try
{
msgin.seek( msgin.getHeaderSize(), NLMISC::IStream::begin );
msgin.serial( msgName );
}
catch ( EStreamOverflow& )
{
msgName = "<Name not found>";
}
msgName = "transport class " + msgName;
}
else
{
msgName = "msg " + msgin.getName();
}
}
} // NLNET