// NeL - MMORPG Framework
// 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 .
#include "stdnet.h"
#include "nel/misc/entity_id.h" // for createMessage()
#include "nel/misc/variable.h"
#include "nel/misc/thread.h"
#include "nel/misc/mutex.h"
#include "nel/net/unified_network.h"
#include "nel/net/module_common.h"
#include "nel/net/naming_client.h"
#ifdef NL_OS_UNIX
#include
#endif
using namespace std;
using namespace NLMISC;
namespace NLNET {
static size_t ThreadCreator = 0;
static const uintptr_t AppIdDeadConnection = 0xDEAD;
uint32 TotalCallbackCalled = 0;
uint32 TimeInCallback =0;
#ifdef NL_OS_UNIX
/// Yield method (Unix only)
CVariable UseYieldMethod("nel", "UseYieldMethod", "0=select 1=usleep 2=nanosleep 3=sched_yield 4=none", 0, 0, true );
#endif
/// Reduce sending lag
CVariable FlushSendsBeforeSleep("nel", "FlushSendsBeforeSleep", "If true, send buffers will be flushed before sleep, not in next update", true, 0, true );
/// Network congestion monitoring
CVariable L5TotalBytesInLowLevelSendQueues("nel", "L5TotalBytesInLowLevelSendQueues", "Number of bytes pending in send queues (postponed by non-blocking send()) for network congestion monitoring. N/A if FlushSendsBeforeSleep disabled)", 0, 0, true );
/// Receiving size limit
CVariablePtr DefaultMaxExpectedBlockSize("nel", "DefaultMaxExpectedBlockSize", "If receiving more than this value in bytes, the connection will be dropped", &CBufNetBase::DefaultMaxExpectedBlockSize, true );
/// Sending size limit
CVariablePtr DefaultMaxSentBlockSize("nel", "DefaultMaxSentBlockSize", "If sending more than this value in bytes, the program may be stopped", &CBufNetBase::DefaultMaxSentBlockSize, true );
#define AUTOCHECK_DISPLAY nlwarning
//#define AUTOCHECK_DISPLAY CUnifiedNetwork::getInstance()->displayInternalTables (), nlerror
const TServiceId TServiceId::InvalidId = TServiceId(std::numeric_limits::max());
//
// Callbacks from NAMING SERVICE
//
// when a service registers
void uNetRegistrationBroadcast(const string &name, TServiceId sid, const vector &addr)
{
nldebug ("HNETL5: + naming %s-%u '%s'", name.c_str(), sid.get(), vectorCInetAddressToString(addr).c_str ());
CUnifiedNetwork *uni= CUnifiedNetwork::getInstance();
if (uni->_SId == sid)
{
// it's me! don't add me!!!
return;
}
// add the unified connection
if(sid.get() >= uni->_IdCnx.size ())
uni->_IdCnx.resize (sid.get()+1);
if (uni->_IdCnx[sid.get()].State == CUnifiedNetwork::CUnifiedConnection::NotUsed)
{
uni->_IdCnx[sid.get()] = CUnifiedNetwork::CUnifiedConnection(name, sid, false);
uni->_UsedConnection.push_back (sid);
}
if (!uni->_IdCnx[sid.get()].ExtAddress.empty ())
AUTOCHECK_DISPLAY ("HNETL5: %s-%u already inserted in the table with '%s'", name.c_str(), sid.get(), vectorCInetAddressToString (uni->_IdCnx[sid.get()].ExtAddress).c_str ());
// set the list of external addresses
nlassert (!addr.empty());
uni->_IdCnx[sid.get()].ExtAddress = addr;
// associate nid with ext address
uni->_IdCnx[sid.get()].setupNetworkAssociation (uni->_NetworkAssociations, uni->_DefaultNetwork);
}
// when a service unregisters
void uNetUnregistrationBroadcast(const string &name, TServiceId sid, const vector &addr)
{
nldebug ("HNETL5: - naming %s-%u '%s'", name.c_str(), sid.get(), vectorCInetAddressToString (addr).c_str ());
// get the service connection
CUnifiedNetwork *uni = CUnifiedNetwork::getInstance();
CUnifiedNetwork::CUnifiedConnection *uc = uni->getUnifiedConnection (sid);
if (uc == 0) return; // should never happen, the getUnifiedConnection() will generate a AUTOCHECK_DISPLAY
// call the user callback
uni->callServiceDownCallback(uc->ServiceName, uc->ServiceId);
if(!uc->Connections.empty ())
{
// set all connection to dead, now, all messages received on this socket will be ignored and closed
for (uint i = 0; i < uc->Connections.size (); ++i)
{
if (uc->Connections[i].valid())
uc->Connections[i].setAppId (AppIdDeadConnection);
}
//
// It's the first connection that added the _NamedCnx so if there's no connection, no need to
// remove entry in _NamedCnx
//
uni->removeNamedCnx (uc->ServiceName, uc->ServiceId);
}
// remove the _UsedConnection
bool found = false;
for (vector::iterator it = uni->_UsedConnection.begin (); it != uni->_UsedConnection.end(); it++)
{
if (*it == uc->ServiceId)
{
found = true;
uni->_UsedConnection.erase (it);
break;
}
}
if (!found)
AUTOCHECK_DISPLAY ("HNETL5: can't find the sid %hu in the _UsedConnection", uc->ServiceId.get());
// reset the unified connection
uc->reset ();
}
//
// Callbacks from connection/disconnection services
//
void uncbConnection(TSockId from, void * /* arg */)
{
nlinfo ("HNETL5: + connec '%s'", from->asString().c_str());
from->setAppId (AppIdDeadConnection);
}
void uncbDisconnection(TSockId from, void * /* arg */)
{
if(from->appId () == AppIdDeadConnection)
{
nlinfo ("HNETL5: - connec '%s'", from->asString().c_str());
}
else
{
CUnifiedNetwork *uni = CUnifiedNetwork::getInstance();
TServiceId sid(uint16(from->appId()));
CUnifiedNetwork::CUnifiedConnection *uc = uni->getUnifiedConnection (sid);
if (uc == 0)
{
nlinfo ("HNETL5: - connec '%s' sid %hu", from->asString().c_str(), sid.get());
}
else
{
nlinfo ("HNETL5: - connec '%s' %s-%hu", from->asString().c_str(), uc->ServiceName.c_str (), sid.get());
if (uc->IsExternal)
{
if (!uc->AutoRetry)
{
// If it s a external service with no auto retry, remove the connection
// call the user callback
uni->callServiceDownCallback(uc->ServiceName, uc->ServiceId);
uni->removeNamedCnx (uc->ServiceName, uc->ServiceId);
uni->_ConnectionToReset.push_back(uc->ServiceId);
}
else
{
// call the user callback
uni->callServiceDownCallback(uc->ServiceName, uc->ServiceId);
}
}
else
{
// reset the connection
uint i;
for (i = 0; i < uc->Connections.size (); i++)
{
if (uc->Connections[i].valid() && uc->Connections[i].CbNetBase->getSockId(uc->Connections[i].HostId) == from)
{
if (uc->Connections[i].IsServerConnection)
{
// we have to remove the stuffs now because HostId will not be accessible later
uc->Connections[i].reset();
}
else
{
// if it s a client, we can't delete now because the callback client is currently in use
// only disconnect
if(uc->Connections[i].CbNetBase->connected ())
{
uc->Connections[i].CbNetBase->disconnect (uc->Connections[i].HostId);
}
}
break;
}
}
if (i == uc->Connections.size ())
{
AUTOCHECK_DISPLAY ("HNETL5: received a disconnection from a service but the connection is not in my list!");
}
}
}
from->setAppId (AppIdDeadConnection);
}
}
//
// Callback from identification services
//
void uncbServiceIdentification(CMessage &msgin, TSockId from, CCallbackNetBase &netbase)
{
string inSName;
TServiceId inSid;
if (from->appId () != AppIdDeadConnection)
AUTOCHECK_DISPLAY ("HNETL5: received a connect ident from an unknown connection 0x%"NL_I64"X", from->appId ());
// recover the service name and id
msgin.serial(inSName);
msgin.serial(inSid);
uint8 pos;
msgin.serial (pos);
bool isExternal;
msgin.serial (isExternal);
nlinfo ("HNETL5: + connect ident '%s' %s-%hu pos %hu ext %d", from->asString().c_str(), inSName.c_str(), inSid.get(), (uint16)pos, (uint8)isExternal);
if(isExternal)
{
nlassert (pos == 0);
}
if (inSid.get() == 0)
{
if (isExternal)
{
inSid = CUnifiedNetwork::getInstance ()->_ExtSId;
CUnifiedNetwork::getInstance ()->_ExtSId.set(CUnifiedNetwork::getInstance ()->_ExtSId.get()+1);
// the following was an nlwarning but this is in fact desired behavior and not an error so we have changed to nlinfo
nlinfo ("HNETL5: Received a connection from a service with a SId 0, we give him the SId %d", inSid.get());
}
else
{
nlwarning ("HNETL5: Received a connection from a service with a SId 0 and wasn't external, disconnecting it");
netbase.disconnect();
return;
}
}
from->setAppId(inSid.get());
// add a new connection to the list
CUnifiedNetwork *uni= CUnifiedNetwork::getInstance();
if(inSid.get() >= uni->_IdCnx.size ())
{
uni->_IdCnx.resize (inSid.get()+1);
}
switch(uni->_IdCnx[inSid.get()].State)
{
case CUnifiedNetwork::CUnifiedConnection::NotUsed: // add the new unified connection
uni->_IdCnx[inSid.get()] = CUnifiedNetwork::CUnifiedConnection(inSName, inSid, isExternal);
uni->_UsedConnection.push_back (inSid);
break;
default:
break;
}
if (uni->_IdCnx[inSid.get()].IsExternal != isExternal)
{
AUTOCHECK_DISPLAY ("HNETL5: Receive a connection that is not totally external %d %d", uni->_IdCnx[inSid.get()].IsExternal, isExternal);
return;
}
bool FirstConnection = (uni->_IdCnx[inSid.get()].Connections.size () == 0);
// add the connection to the already inserted unified connection
if (pos >= uni->_IdCnx[inSid.get()].Connections.size ())
{
uni->_IdCnx[inSid.get()].Connections.resize(pos+1);
}
uni->_IdCnx[inSid.get()].Connections[pos] = CUnifiedNetwork::CUnifiedConnection::TConnection(&netbase, from);
// If the connection is external, we'll never receive the ExtAddress by the naming service, so add it manually
if (isExternal)
{
uni->_IdCnx[inSid.get()].ExtAddress.push_back (netbase.hostAddress (from));
uni->_IdCnx[inSid.get()].setupNetworkAssociation (uni->_NetworkAssociations, uni->_DefaultNetwork);
}
// send the callback to the user with the first connection
if (FirstConnection)
{
// insert the name in the map to be able to send message with the name
uni->addNamedCnx (inSName, inSid);
uni->callServiceUpCallback (inSName, inSid);
}
}
// the callbacks wrapper
void uncbMsgProcessing(CMessage &msgin, TSockId from, CCallbackNetBase &/* netbase */)
{
if (from->appId() == AppIdDeadConnection)
{
AUTOCHECK_DISPLAY ("HNETL5: Receive a message from a dead connection");
return;
}
CUnifiedNetwork *uni = CUnifiedNetwork::getInstance();
TServiceId sid(uint16(from->appId()));
CUnifiedNetwork::TMsgMappedCallback::iterator itcb;
itcb = uni->_Callbacks.find(msgin.getName());
if (itcb == uni->_Callbacks.end())
{
// the callback doesn't exist
nlwarning ("HNETL5: Can't find callback '%s' called by service %hu", msgin.getName().c_str(), sid.get());
}
else
{
CUnifiedNetwork::CUnifiedConnection *uc = uni->getUnifiedConnection (sid);
if (uc == 0)
{
nlwarning ("HNETL5: Received a message from a service %hu that is not ready (bad appid? 0x%"NL_I64"X)", sid.get(), from->appId ());
return;
}
if((*itcb).second == 0)
{
nlwarning ("HNETL5: Received message %s from a service %hu but the associated callback is NULL", msgin.getName ().c_str(), sid.get());
return;
}
{
static map timers;
map::iterator it;
{
H_AUTO(L5UCHTimerOverhead);
string callbackName = "USRCB_" + msgin.getName();
it = timers.find(callbackName);
if(it == timers.end())
{
it = timers.insert(make_pair(callbackName, CHTimer(NULL))).first;
(*it).second.setName((*it).first.c_str());
}
}
{
H_AUTO(L5UserCallback);
TTime before = CTime::getLocalTime();
(*it).second.before();
// const std::string &cbName = itcb->first;
(*itcb).second (msgin, uc->ServiceName, sid);
(*it).second.after();
TTime after = CTime::getLocalTime();
// sum the time used to do callback
TimeInCallback += uint32((after-before));
}
}
uc->TotalCallbackCalled++;
TotalCallbackCalled++;
}
}
TCallbackItem unServerCbArray[] =
{
{ "UN_SIDENT", uncbServiceIdentification }
};
//
// Alive check thread
//
class CAliveCheck : public NLMISC::IRunnable
{
public:
CAliveCheck() : ExitRequired(false) { }
virtual void run();
virtual ~CAliveCheck() { }
volatile bool ExitRequired;
static CAliveCheck* Thread;
struct CCheckAddress
{
CCheckAddress() : ConnectionId(0xDEAD), NeedCheck(false), AddressValid(false) { }
CInetAddress Address;
std::string ServiceName;
TServiceId ServiceId;
uint ConnectionId;
uint ConnectionIndex;
volatile bool NeedCheck;
volatile bool AddressValid;
};
CCheckAddress CheckList[128];
void checkService(CInetAddress address, uint connectionId, uint connectionIndex, const std::string &service, TServiceId id);
};
CAliveCheck* CAliveCheck::Thread = NULL;
IThread* AliveThread = NULL;
void CAliveCheck::run()
{
// setup thread
Thread = this;
TTime t = CTime::getLocalTime();
while (!ExitRequired)
{
if (CTime::getLocalTime() - t < 10000)
{
nlSleep(100);
continue;
}
uint i;
for (i=0; i laddr = CInetAddress::localAddresses();
_RecordingState = rec;
_Name = shortName;
_SId = sid;
if (addr != 0)
_NamingServiceAddr = *addr;
// if the address isn't 0, uses the naming service
if (_NamingServiceAddr.isValid ())
{
// connect the callback to know when a new service comes in or goes down
CNamingClient::setRegistrationBroadcastCallback(uNetRegistrationBroadcast);
CNamingClient::setUnregistrationBroadcastCallback(uNetUnregistrationBroadcast);
// connect to the naming service (may generate a ESocketConnectionFailed exception)
CNamingClient::connect(_NamingServiceAddr, _RecordingState, laddr);
if (port == 0)
port = CNamingClient::queryServicePort ();
}
#ifdef NL_OS_UNIX
/// Init the main pipe to select() on data available
if ( ::pipe( _MainDataAvailablePipe ) != 0 )
nlwarning( "Unable to create main D.A. pipe" );
//nldebug( "Pipe: created" );
#endif
// setup the server callback only if server port != 0, otherwise there's no server callback
_ServerPort = port;
if(_ServerPort != 0)
{
nlassert (_CbServer == 0);
_CbServer = new CCallbackServer( CCallbackNetBase::Off, "", true, false ); // don't init one pipe per connection
#ifdef NL_OS_UNIX
_CbServer->setExternalPipeForDataAvailable( _MainDataAvailablePipe ); // the main pipe is shared for all connections
//nldebug( "Pipe: set (server %p)", _CbServer );
#endif
bool retry = false;
do
{
retry = false;
try
{
_CbServer->init(port);
}
catch (const ESocket &)
{
nlwarning("Failed to init the listen socket on port %u, is the service already running ?", port);
// wait a little before retrying
nlSleep(5000);
retry = true;
}
} while(retry);
_CbServer->addCallbackArray(unServerCbArray, 1); // the service ident callback
_CbServer->setDefaultCallback(uncbMsgProcessing); // the default callback wrapper
_CbServer->setConnectionCallback(uncbConnection, NULL);
_CbServer->setDisconnectionCallback(uncbDisconnection, NULL);
}
else
{
nlinfo ("HNETL5: ServerPort is 0 so I don't create a CCallbackServer");
}
if (CNamingClient::connected())
{
// register the service
for (uint i = 0; i < laddr.size(); i++)
laddr[i].setPort(_ServerPort);
if (_SId.get() == 0)
{
if ( ! CNamingClient::registerService(_Name, laddr, _SId) )
{
nlinfo ("HNETL5: Registration denied");
return false;
}
}
else
{
CNamingClient::registerServiceWithSId(_Name, laddr, _SId);
}
sid = _SId;
nlinfo ("HNETL5: Server '%s' added, registered and listen to port %hu", _Name.c_str (), _ServerPort);
}
AliveThread = IThread::create(new CAliveCheck(), 1024*4);
AliveThread->start();
_Initialised = true;
return true;
}
void CUnifiedNetwork::connect()
{
nlassertex(_Initialised == true, ("Try to CUnifiedNetwork::connect() whereas it is not initialised yet"));
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
if (CNamingClient::connected())
{
// get the services list
const list &services = CNamingClient::getRegisteredServices();
// connects to the registered services
list::const_iterator its;
// don't connect to itself
for (its = services.begin(); its != services.end(); ++its)
{
if (_SId != (*its).SId)
{
// add service with name, address, ident, not external, service id, and not autoretry (obsolete)
// we put the last true because the name callback should already inserted it by uNetRegistrationBroadcast()
addService((*its).Name, (*its).Addr, true, false, (*its).SId, false, true);
}
else
{
// don't process services received after mine because they'll connect to me
break;
}
}
}
}
void CUnifiedNetwork::release(bool mustFlushSendQueues, const std::vector& namesOfOnlyServiceToFlushSending)
{
if (!_Initialised)
return;
// the commands can't be invoked
unregisterCommandsHandler();
// terminate the auto reconnection thread
if (CAliveCheck::Thread)
{
CAliveCheck::Thread->ExitRequired = true;
AliveThread->wait();
delete CAliveCheck::Thread;
delete AliveThread;
}
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
// Ensure all outgoing data are sent before disconnecting, if requested
if ( mustFlushSendQueues )
{
nlinfo( "HNETL5: Flushing sending queues..." );
float totalBytes = 0;
uint bytesRemaining, i=0;
while ( (bytesRemaining = tryFlushAllQueues( namesOfOnlyServiceToFlushSending )) != 0 )
{
if ( i == 0 )
totalBytes = (float)bytesRemaining;
if ( i % 20 == 0 )
{
nldebug( "%.1f%% of %.3f KB flushed so far", // display without HNETL5 to bypass filters!
((float)(bytesRemaining-totalBytes))/totalBytes, totalBytes / 1024.0f );
}
++i;
nlSleep( 100 );
}
nldebug( "HNETL5: Flush done in %u steps", i+1 );
}
// disconnect all clients
if(_CbServer)
{
_CbServer->disconnect(InvalidSockId);
delete _CbServer;
_CbServer = 0;
}
// disconnect all connections to servers
for (uint i = 0; i<_IdCnx.size(); ++i)
{
if (_IdCnx[i].State != CUnifiedNetwork::CUnifiedConnection::NotUsed)
{
for(uint j = 0 ; j < _IdCnx[i].Connections.size (); j++)
{
if (_IdCnx[i].Connections[j].valid() && !_IdCnx[i].Connections[j].IsServerConnection)
{
if (_IdCnx[i].Connections[j].CbNetBase->connected ())
_IdCnx[i].Connections[j].CbNetBase->disconnect();
delete _IdCnx[i].Connections[j].CbNetBase;
}
}
_IdCnx[i].Connections.clear ();
}
}
// clear all other data
_IdCnx.clear();
_UsedConnection.clear ();
_NamedCnx.clear();
_UpCallbacks.clear();
_DownCallbacks.clear();
_Callbacks.clear();
// disconnect the connection with the naming service
if (CNamingClient::connected ())
CNamingClient::disconnect ();
#ifdef NL_OS_UNIX
::close( _MainDataAvailablePipe[PipeRead] );
::close( _MainDataAvailablePipe[PipeWrite] );
#endif
}
void CUnifiedNetwork::addService(const string &name, const CInetAddress &addr, bool sendId, bool external, TServiceId sid, bool autoRetry, bool shouldBeAlreayInserted)
{
vector addrs;
addrs.push_back (addr);
addService (name, addrs, sendId, external, sid, autoRetry, shouldBeAlreayInserted);
}
void CUnifiedNetwork::addService(const string &name, const vector &addr, bool sendId, bool external, TServiceId sid, bool autoRetry, bool shouldBeAlreayInserted)
{
nlassertex(_Initialised == true, ("Try to CUnifiedNetwork::addService() whereas it is not initialised yet"));
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
if (external)
{
sid = _ExtSId;
_ExtSId.set(_ExtSId.get()+1);
}
nlinfo("HNETL5: addService %s-%hu '%s'", name.c_str(), sid.get(), vectorCInetAddressToString(addr).c_str());
if (external && addr.size () != 1)
{
AUTOCHECK_DISPLAY ("HNETL5: Can't add external service with more than one connection");
}
// add the entry in the unified connection table
if (sid.get() >= _IdCnx.size())
_IdCnx.resize(sid.get()+1);
CUnifiedConnection *uc = &_IdCnx[sid.get()];
// at this point it s possible that the service already added in the _IdCnx by the uNetRegistrationBroadcast()
if (shouldBeAlreayInserted && _IdCnx[sid.get()].State == CUnifiedNetwork::CUnifiedConnection::NotUsed) AUTOCHECK_DISPLAY ("HNETL5: the unified connection should already set by the naming reg broadcast and is not (%hu)", sid.get());
if (!shouldBeAlreayInserted && _IdCnx[sid.get()].State == CUnifiedNetwork::CUnifiedConnection::Ready) AUTOCHECK_DISPLAY ("HNETL5: the unified connection should not already set but is (%hu)", sid.get());
if (_IdCnx[sid.get()].State == CUnifiedNetwork::CUnifiedConnection::NotUsed)
{
*uc = CUnifiedConnection(name, sid, external);
_UsedConnection.push_back (sid);
}
else
{
// If the entry already set, check that all is correct
if (name != uc->ServiceName) AUTOCHECK_DISPLAY ("HNETL5: name are different in addService %s %s", name.c_str (), uc->ServiceName.c_str ());
if (sid != uc->ServiceId) AUTOCHECK_DISPLAY ("HNETL5: sid are different in addService %hu %hu", sid.get(), uc->ServiceId.get());
if (addr != uc->ExtAddress) AUTOCHECK_DISPLAY ("HNETL5: external addr are different in addService '%s' '%s'", vectorCInetAddressToString(addr).c_str(), vectorCInetAddressToString(uc->ExtAddress).c_str ());
}
uc->AutoRetry = autoRetry;
uc->SendId = sendId;
uc->ExtAddress = addr;
nlassert (!addr.empty());
// associate nid with ext address
uc->setupNetworkAssociation (_NetworkAssociations, _DefaultNetwork);
// connect to all connection
bool connectSuccess;
if (uc->Connections.size () < addr.size ())
{
uc->Connections.resize (addr.size ());
}
vector laddr = CInetAddress::localAddresses();
for (uint i = 0; i < addr.size(); i++)
{
// first we have to look if we have a network that can established the connection
uint j = 0;
// it s 127.0.0.1, it s ok
if (!addr[i].is127001 ())
{
for (j = 0; j < laddr.size (); j++)
{
if (laddr[j].internalNetAddress () == addr[i].internalNetAddress ())
{
// it's ok, we can try
break;
}
}
// If we don't found a valid network, we'll try with the first one.
// It's happen, for example, when you try to connect to a service that is not in the network but use IP translation
if (j == laddr.size ())
{
nlwarning ("HNETL5: I can't access '%s' because I haven't a net card on this network, we'll use the first network", addr[i].asString ().c_str ());
j = 0;
}
}
// Create a new connection with the service, setup callback and connect
CCallbackClient *cbc = new CCallbackClient( CCallbackNetBase::Off, "", true, false ); // don't init one pipe per connection
#ifdef NL_OS_UNIX
cbc->setExternalPipeForDataAvailable( _MainDataAvailablePipe ); // the main pipe is shared for all connections
//nldebug( "Pipe: set (client %p)", cbc );
#endif
cbc->setDisconnectionCallback(uncbDisconnection, NULL);
cbc->setDefaultCallback(uncbMsgProcessing);
cbc->getSockId()->setAppId(sid.get());
try
{
cbc->connect(addr[i]);
connectSuccess = true;
}
catch (const ESocketConnectionFailed &e)
{
nlwarning ("HNETL5: can't connect to %s (sid %u) now (%s) '%s'", name.c_str(), sid.get(), e.what (), addr[i].asString ().c_str());
connectSuccess = false;
}
if (!connectSuccess && !autoRetry)
{
nlwarning ("HNETL5: Can't add service because no retry and can't connect");
delete cbc;
}
else
{
uc->Connections[i] = CUnifiedNetwork::CUnifiedConnection::TConnection(cbc);
}
if (connectSuccess && sendId)
{
// send identification to the service
CMessage msg("UN_SIDENT");
msg.serial(_Name);
TServiceId ssid = _SId;
if (uc->IsExternal)
{
// in the case that the service is external, we can't send our sid because the external service can
// have other connection with the same sid (for example, LS can have 2 WS with same sid => sid = 0 and leave
// the other side to find a good number
ssid.set(0);
}
msg.serial(ssid); // serializes a 16 bits service id
uint8 pos = uint8(j);
msg.serial(pos); // send the position in the connection table
msg.serial (uc->IsExternal);
cbc->send (msg);
}
}
if (addr.size () != uc->Connections.size())
{
nlwarning ("HNETL5: Can't connect to all connections to the service %d/%d", addr.size (), uc->Connections.size());
}
bool cntok = false;
for (uint j = 0; j < uc->Connections.size(); j++)
{
if (uc->Connections[j].CbNetBase != NULL)
{
if (uc->Connections[j].CbNetBase->connected ())
{
cntok = true;
break;
}
}
}
if (cntok)
{
// add the name only if at least one connection is ok
addNamedCnx (name, sid);
callServiceUpCallback (name, sid); // global callback ("*") will be called even for external service
}
nldebug ("HNETL5: addService was successful");
}
//
//
//
#define TIME_BLOCK(tick, instr) \
{ \
TTicks _time_block_before = CTime::getPerformanceTime(); \
instr ; \
TTicks _time_block_after = CTime::getPerformanceTime(); \
tick += (_time_block_after - _before); \
}
/*
*
*/
void CUnifiedNetwork::update(TTime timeout)
{
H_AUTO(CUnifiedNetworkUpdate);
H_BEFORE(UNMisc1);
nlassertex(_Initialised == true, ("Try to CUnifiedNetwork::update() whereas it is not initialised yet"));
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
bool enableRetry; // true every 5 seconds to reconnect if necessary
// Compute the real timeout based on the next update timeout
TTime t0 = CTime::getLocalTime ();
if (timeout > 0)
{
if (_NextUpdateTime == 0)
{
_NextUpdateTime = t0 + timeout;
}
else
{
TTime err = t0 - _NextUpdateTime;
_NextUpdateTime += timeout;
// if we are too late, resync to the next value
while (err > timeout)
{
err -= timeout;
_NextUpdateTime += timeout;
}
timeout -= err;
if (timeout < 0) timeout = 0;
}
}
TTime remainingTime = timeout;
// check if we need to retry to connect to the client
enableRetry = (t0-_LastRetry > 5000);
if (enableRetry)
_LastRetry = t0;
H_AFTER(UNMisc1);
H_BEFORE(UNNamingCheck);
// Try to reconnect to the naming service if connection lost
if (_NamingServiceAddr.isValid ())
{
if (CNamingClient::connected ())
{
CNamingClient::update ();
}
else if (enableRetry)
{
H_AUTO(L5NSReconnect);
try
{
vector laddr = CInetAddress::localAddresses();
CNamingClient::connect (_NamingServiceAddr, _RecordingState, laddr);
// re-register the service
for (uint i = 0; i < laddr.size(); i++)
laddr[i].setPort(_ServerPort);
CNamingClient::resendRegisteration (_Name, laddr, _SId);
}
catch (const ESocketConnectionFailed &)
{
nlwarning ("HNETL5: Could not connect to the Naming Service (%s). Retrying in a few seconds...", _NamingServiceAddr.asString().c_str());
}
}
}
H_AFTER(UNNamingCheck);
H_BEFORE(UNUpdateCnx);
for(;;)
{
H_AUTO(L5OneLoopUpdate);
if (CAliveCheck::Thread)
{
uint i;
for (i=0; iCheckList)/sizeof(CAliveCheck::Thread->CheckList[0]); ++i)
{
CAliveCheck::CCheckAddress &address = CAliveCheck::Thread->CheckList[i];
if (address.NeedCheck && address.AddressValid)
{
CUnifiedConnection &uc = _IdCnx[address.ConnectionId];
if (uc.ServiceName == address.ServiceName &&
uc.ServiceId == address.ServiceId &&
uc.ValidRequested)
{
uc.ValidRequested = false;
uc.ValidExternal = true;
}
address.NeedCheck = false;
address.AddressValid = false;
}
}
}
// update all server connections
if (_CbServer)
{
_CbServer->update2((sint32)remainingTime, 0);
}
// update all client connections
for (uint k = 0; k<_UsedConnection.size(); ++k)
{
H_AUTO(UNBrowseConnections);
nlassert (_IdCnx[_UsedConnection[k].get()].State == CUnifiedNetwork::CUnifiedConnection::Ready);
for (uint j = 0; j < _IdCnx[_UsedConnection[k].get()].Connections.size (); j++)
{
// WARNING : don't take a reference in the outside loop because
// _IdCnx can be resized by execution of a callback
CUnifiedConnection &uc = _IdCnx[_UsedConnection[k].get()];
nlassert(_IdCnx[_UsedConnection[k].get()].Connections.size() > j);
CUnifiedConnection::TConnection &conn = _IdCnx[_UsedConnection[k].get()].Connections[j];
H_AUTO(UNBrowseSubConnections);
if (!conn.valid())
continue;
if (conn.IsServerConnection)
continue;
nlassert(uc.Connections.size() > j);
if (conn.CbNetBase->connected ())
{
nlassert(uc.Connections.size() > j);
conn.CbNetBase->update2((sint32)remainingTime, 0);
}
else if (enableRetry && uc.AutoRetry)
{
if (uc.ValidExternal)
{
uc.ValidExternal = false;
uc.ValidRequested = false;
autoReconnect( uc, j );
}
else if (!uc.ValidRequested && CAliveCheck::Thread)
{
uc.ValidRequested = true;
CAliveCheck::Thread->checkService(uc.ExtAddress[j], _UsedConnection[k].get(), j, uc.ServiceName, uc.ServiceId);
}
}
}
}
// reset closed client connection
for (uint i=0; i<_ConnectionToReset.size(); ++i)
{
// remove the _UsedConnection
bool found = false;
for (vector::iterator it = _UsedConnection.begin (); it != _UsedConnection.end(); it++)
{
if (*it == _IdCnx[_ConnectionToReset[i].get()].ServiceId)
{
found = true;
_UsedConnection.erase (it);
break;
}
}
if (!found)
AUTOCHECK_DISPLAY ("HNETL5: can't find the sid %hu in the _UsedConnection", _IdCnx[_ConnectionToReset[i].get()].ServiceId.get());
_IdCnx[_ConnectionToReset[i].get()].reset();
}
_ConnectionToReset.clear();
enableRetry = false;
if ( FlushSendsBeforeSleep.get() )
{
// Flush all connections
L5TotalBytesInLowLevelSendQueues = tryFlushAllQueues();
}
// t0 --------- previousTime -------------------------- t0 + timeout
// prevRemainingTime
//
// t0 -------------- currentTime ---------------------- t0 + timeout
// remainingTime
TTime prevRemainingTime = remainingTime;
TTime currentTime = CTime::getLocalTime();
remainingTime = t0 + timeout - currentTime;
// If it's the end (or if the Unix system time was changed forwards), don't sleep (currentTime > t0 + timeout)
if ( remainingTime <= 0 )
break;
// If the Unix system time was changed backwards, don't wait more than requested and don't provide an erroneous time to the sleep function that would fail (currentTime < previousTime)
if ( remainingTime > prevRemainingTime )
{
// Restart at previousTime
nldebug( "Backward time sync detected (at least -%"NL_I64"d ms)", remainingTime - prevRemainingTime );
remainingTime = prevRemainingTime;
t0 = currentTime - (timeout - remainingTime);
}
#ifdef NL_OS_UNIX
// Sleep until the time expires or we receive a message
H_BEFORE(L5UpdateSleep);
switch ( UseYieldMethod.get() )
{
case 0: sleepUntilDataAvailable( remainingTime ); break; // accurate sleep with select()
case 1: ::usleep(1000); break; // 20 ms
case 2: nlSleep(1); break; // 10 ms (by nanosleep, but 20 ms measured on kernel 2.4.20)
case 3: ::sched_yield(); break; // makes all slow (at least on kernel 2.4.20) !
default: break; // don't sleep at all, makes all slow!
}
H_AFTER(L5UpdateSleep);
#else
// Enable windows multithreading before rescanning all connections
H_TIME(L5UpdateSleep, nlSleep(1);); // 0 (yield) would be too harmful to other applications
#endif
}
H_AFTER(UNUpdateCnx);
H_TIME(UNAutoCheck, autoCheck(););
}
/*
* Auto-reconnect
*/
void CUnifiedNetwork::autoReconnect( CUnifiedConnection &uc, uint connectionIndex )
{
H_AUTO(L5AutoReconnect);
try
{
CCallbackClient *cbc = (CCallbackClient *)uc.Connections[connectionIndex].CbNetBase;
cbc->connect(uc.ExtAddress[connectionIndex]);
uc.Connections[connectionIndex].CbNetBase->getSockId()->setAppId(uc.ServiceId.get());
nlinfo ("HNETL5: reconnection to %s-%hu success", uc.ServiceName.c_str(), uc.ServiceId.get());
// add the name only if at least one connection is ok
if (!haveNamedCnx (uc.ServiceName, uc.ServiceId))
addNamedCnx (uc.ServiceName, uc.ServiceId);
// resend the identification is necessary
if (uc.SendId)
{
// send identification to the service
CMessage msg("UN_SIDENT");
msg.serial(_Name);
TServiceId ssid = _SId;
if (uc.IsExternal)
{
// in the case that the service is external, we can't send our sid because the external service can
// have other connection with the same sid (for example, LS can have 2 WS with same sid => sid = 0 and leave
// the other side to find a good number
ssid.set(0);
}
msg.serial(ssid); // serializes a 16 bits service id
uint8 pos = uint8(connectionIndex);
msg.serial(pos); // send the position in the connection table
msg.serial (uc.IsExternal);
uc.Connections[connectionIndex].CbNetBase->send (msg, uc.Connections[connectionIndex].HostId);
}
// call the user callback
callServiceUpCallback (uc.ServiceName, uc.ServiceId);
}
catch (const ESocketConnectionFailed &e)
{
#if FINAL_VERSION
nlinfo ("HNETL5: can't connect to %s-%hu now (%s)", uc.ServiceName.c_str(), uc.ServiceId.get(), e.what ());
#else
nlwarning ("HNETL5: can't connect to %s-%hu now (%s)", uc.ServiceName.c_str(), uc.ServiceId.get(), e.what ());
#endif
}
}
#ifdef NL_OS_UNIX
/*
*
*/
void CUnifiedNetwork::sleepUntilDataAvailable( TTime msecMax )
{
// Prevent looping infinitely if an erroneous time was provided
if ( msecMax > 999 ) // limit not told in Linux man but here: http://docs.hp.com/en/B9106-90009/select.2.html
msecMax = 999;
// Prepare for select()
fd_set readers;
FD_ZERO( &readers );
FD_SET( _MainDataAvailablePipe[PipeRead], &readers );
SOCKET descmax = _MainDataAvailablePipe[PipeRead] + 1;
// Select
timeval tv;
tv.tv_sec = 0;
tv.tv_usec = msecMax * 1000;
//nldebug( "Select %u ms", (uint)msecMax );
//TTime before = CTime::getLocalTime();
int res = ::select( descmax+1, &readers, NULL, NULL, &tv );
if ( res == -1 )
nlwarning( "HNETL5: Select failed in sleepUntilDataAvailable");
//nldebug( "Slept %u ms", (uint)(CTime::getLocalTime()-before) );
}
#endif
bool CUnifiedNetwork::isConnectionConnected(TServiceId sid) const
{
// a Connected connection is a connection that is Ready but that is not yet connected (serverUp will be called latter via L5).
return sid.get() < _IdCnx.size()
&& _IdCnx[sid.get()].State == CUnifiedConnection::Ready
&& !_IdCnx[sid.get()].Connections.empty();
}
//
//
//
uint8 CUnifiedNetwork::findConnectionId (TServiceId sid, uint8 nid)
{
if (_IdCnx[sid.get()].Connections.size () == 0)
{
nlwarning ("HNETL5: Can't send message to %s because no connection are available", _IdCnx[sid.get()].ServiceName.c_str ());
return 0xFF;
}
// by default, connection id will be the default one
uint8 connectionId = _IdCnx[sid.get()].DefaultNetwork;
if (nid == 0xFF)
{
// it s often happen because they didn't set a good network configuration, so it s in debug to disable it easily
//nldebug ("HNETL5: nid %hu, will use the default connection %hu", (uint16)nid, (uint16)connectionId);
}
else if (nid >= _IdCnx[sid.get()].NetworkConnectionAssociations.size())
{
nlwarning ("HNETL5: No net association for nid %hu, use the default connection %hu", (uint16)nid, (uint16)connectionId);
}
else
{
if (_IdCnx[sid.get()].NetworkConnectionAssociations[nid] >= _IdCnx[sid.get()].Connections.size ())
{
nlwarning ("HNETL5: Can't send message to %s because nid %d point on a bad connection (%d and only have %d cnx), use default connection", _IdCnx[sid.get()].ServiceName.c_str (), nid, connectionId, _IdCnx[sid.get()].Connections.size ());
}
else
{
connectionId = _IdCnx[sid.get()].NetworkConnectionAssociations[nid];
}
}
if (connectionId >= _IdCnx[sid.get()].Connections.size() || !_IdCnx[sid.get()].Connections[connectionId].valid() || !_IdCnx[sid.get()].Connections[connectionId].CbNetBase->connected())
{
// there's a problem with the selected connectionID, so try to find a valid one
nlwarning ("HNETL5: Can't find selected connection id %hu to send message to %s because connection is not valid or connected, find a valid connection id", (uint16)connectionId, _IdCnx[sid.get()].ServiceName.c_str ());
for (connectionId = 0; connectionId < _IdCnx[sid.get()].Connections.size(); connectionId++)
{
if (_IdCnx[sid.get()].Connections[connectionId].valid() && _IdCnx[sid.get()].Connections[connectionId].CbNetBase->connected())
{
// we found one at last, use this one
//nldebug ("HNETL5: Ok, we found a valid connectionid, use %hu", (uint16)connectionId);
break;
}
}
if (connectionId == _IdCnx[sid.get()].Connections.size())
{
nlwarning ("HNETL5: Can't send message to %s because default connection is not exist, valid or connected", _IdCnx[sid.get()].ServiceName.c_str ());
return 0xFF;
}
}
return connectionId;
}
//
//
//
uint CUnifiedNetwork::send(const string &serviceName, const CMessage &msgout, bool warnIfNotFound, uint8 nid)
{
nlassertex(_Initialised == true, ("Try to CUnifiedNetwork::send(const string&, const CMessage&) whereas it is not initialised yet"));
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
TNameMappedConnection::const_iterator it;
pair range;
range = _NamedCnx.equal_range(serviceName);
uint found = 0;
if (range.first != _NamedCnx.end())
{
for (it=range.first; it!=range.second; ++it)
{
TServiceId sid = it->second;
if (sid.get() >= _IdCnx.size () || _IdCnx[sid.get()].State != CUnifiedNetwork::CUnifiedConnection::Ready)
{
// It often happen when the service is down (connection broke and the naming not already say that it s down)
// In this case, just warn
nlwarning ("HNETL5: Can't send %s to the service '%s' because it was in the _NamedCnx but not in _IdCnx (means that the service is down)", msgout.getName().c_str(), serviceName.c_str ());
return false;
}
++found;
uint8 connectionId = findConnectionId (sid, nid);
if (connectionId == 0xff) // failed
{
nlwarning ("HNETL5: Can't send %s message to %hu because no connection available", msgout.getName().c_str(), sid.get());
continue;
}
_IdCnx[sid.get()].Connections[connectionId].CbNetBase->send (msgout, _IdCnx[sid.get()].Connections[connectionId].HostId);
}
}
if (!found && warnIfNotFound)
nlwarning ("HNETL5: can't find service %s to send message %s", serviceName.c_str(), msgout.getName().c_str());
return found;
}
bool CUnifiedNetwork::send(TServiceId sid, const CMessage &msgout, uint8 nid)
{
nlassertex(_Initialised == true, ("Try to CUnifiedNetwork::send(TServiceId, const CMessage&) whereas it is not initialised yet"));
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
if (sid.get() >= _IdCnx.size () || _IdCnx[sid.get()].State != CUnifiedNetwork::CUnifiedConnection::Ready)
{
// Happens when trying to send a message to an unknown service id
nlwarning ("HNETL5: Can't send %s to the service '%hu' because not in _IdCnx", msgout.getName().c_str(), sid.get());
return false;
}
uint8 connectionId = findConnectionId (sid, nid);
if (connectionId == 0xff) // failed
{
nlwarning ("HNETL5: Can't send %s to the service '%hu' because no connection available", msgout.getName().c_str(), sid.get());
return false;
}
_IdCnx[sid.get()].Connections[connectionId].CbNetBase->send (msgout, _IdCnx[sid.get()].Connections[connectionId].HostId);
return true;
}
void CUnifiedNetwork::sendAll(const CMessage &msgout, uint8 nid)
{
nlassertex(_Initialised == true, ("Try to CUnifiedNetwork::send(const CMessage&) whereas it is not initialised yet"));
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
for (TServiceId::size_type i=0; i<_IdCnx.size(); ++i)
{
if (_IdCnx[i].State == CUnifiedNetwork::CUnifiedConnection::Ready)
{
uint8 connectionId = findConnectionId (TServiceId(i), nid);
if (connectionId == 0xff) // failed
{
nlwarning ("HNETL5: Can't send message to %u because no connection available", i);
continue;
}
_IdCnx[i].Connections[connectionId].CbNetBase->send (msgout, _IdCnx[i].Connections[connectionId].HostId);
}
}
}
/* Flush all the sending queues, and report the number of bytes still pending.
* To ensure all data are sent before stopping a service, you may want to repeat
* calling this method evenly until it returns 0.
* \param namesOfOnlyServiceToFlushSending If not empty, only the send queues to the
* services specified (by short name) will be flushed.
*/
uint CUnifiedNetwork::tryFlushAllQueues(const std::vector& namesOfOnlyServiceToFlushSending)
{
H_AUTO(L5FlushAll);
uint bytesRemaining = 0;
for (uint k = 0; k<_UsedConnection.size(); ++k)
{
H_AUTO(UNFABrowseConnections);
CUnifiedConnection &uc = _IdCnx[_UsedConnection[k].get()];
// Skip the connection if it is not found in the 'only' list (except if the list is empty)
if ( (! namesOfOnlyServiceToFlushSending.empty()) &&
(std::find( namesOfOnlyServiceToFlushSending.begin(), namesOfOnlyServiceToFlushSending.end(), uc.ServiceName ) == namesOfOnlyServiceToFlushSending.end()) )
continue;
nlassert (uc.State == CUnifiedNetwork::CUnifiedConnection::Ready);
for (uint j = 0; j < uc.Connections.size (); j++)
{
H_AUTO(UNFABrowseSubConnections);
if (!uc.Connections[j].valid())
continue;
if (uc.Connections[j].CbNetBase->connected ())
{
uint bytesRemainingLocal;
uc.Connections[j].CbNetBase->flush(uc.Connections[j].HostId, &bytesRemainingLocal);
bytesRemaining += bytesRemainingLocal;
}
}
}
return bytesRemaining;
}
//
//
//
void CUnifiedNetwork::addCallbackArray (const TUnifiedCallbackItem *callbackarray, sint arraysize)
{
uint i;
for (i=0; i<(uint)arraysize; ++i)
_Callbacks.insert(make_pair(string(callbackarray[i].Key),callbackarray[i].Callback));
}
void CUnifiedNetwork::setServiceUpCallback (const string &serviceName, TUnifiedNetCallback cb, void *arg, bool back)
{
nlassert (cb != NULL);
if (serviceName == "*")
{
if (back)
_UpUniCallback.push_back (make_pair(cb, arg));
else
_UpUniCallback.insert (_UpUniCallback.begin(), make_pair(cb, arg));
}
else
{
if (back)
_UpCallbacks[serviceName].push_back (make_pair(cb, arg));
else
_UpCallbacks[serviceName].insert (_UpCallbacks[serviceName].begin(), make_pair(cb, arg));
}
}
void CUnifiedNetwork::removeServiceUpCallback (const string &serviceName, TUnifiedNetCallback cb, void *arg)
{
if (serviceName == "*")
{
uint i;
for (i=0; i<_UpUniCallback.size(); ++i)
{
if (_UpUniCallback[i].first == cb && _UpUniCallback[i].second == arg)
{
// we found it
_UpUniCallback.erase(_UpUniCallback.begin()+i);
break;
}
}
if (i == _UpUniCallback.size())
{
nlwarning("HNETL5 : can't remove service up callback, not found");
}
}
else
{
if (_UpCallbacks.find(serviceName) != _UpCallbacks.end())
{
std::list &list = _UpCallbacks[serviceName];
std::list::iterator first(list.begin()), last(list.end());
for (; first != last; ++first)
{
if (first->first == cb && first->second == arg)
{
list.erase(first);
break;
}
}
if (first == last)
{
nlwarning("HNETL5 : can't remove service up callback, not found");
}
if (list.empty())
{
// no more callback for this service
_UpCallbacks.erase(serviceName);
}
}
else
{
nlwarning("HNETL5 : can't remove service up callback, not found");
}
}
}
void CUnifiedNetwork::setServiceDownCallback (const string &serviceName, TUnifiedNetCallback cb, void *arg, bool back)
{
nlassert (cb != NULL);
if (serviceName == "*")
{
if (back)
_DownUniCallback.push_back (make_pair(cb, arg));
else
_DownUniCallback.insert (_DownUniCallback.begin(), make_pair(cb, arg));
}
else
{
if (back)
_DownCallbacks[serviceName].push_back (make_pair(cb, arg));
else
_DownCallbacks[serviceName].insert (_DownCallbacks[serviceName].begin(), make_pair(cb, arg));
}
}
void CUnifiedNetwork::removeServiceDownCallback (const string &serviceName, TUnifiedNetCallback cb, void *arg)
{
if (serviceName == "*")
{
uint i;
for (i=0; i<_DownUniCallback.size(); ++i)
{
if (_DownUniCallback[i].first == cb && _DownUniCallback[i].second == arg)
{
// we found it
_DownUniCallback.erase(_DownUniCallback.begin()+i);
break;
}
}
if (i == _DownUniCallback.size())
{
nlwarning("HNETL5 : can't remove service down callback, not found");
}
}
else
{
if (_DownCallbacks.find(serviceName) != _DownCallbacks.end())
{
std::list &list = _DownCallbacks[serviceName];
std::list::iterator first(list.begin()), last(list.end());
for (; first != last; ++first)
{
if (first->first == cb && first->second == arg)
{
list.erase(first);
break;
}
}
if (first == last)
{
nlwarning("HNETL5 : can't remove service down callback, not found");
}
if (list.empty())
{
// no more callback for this service
_DownCallbacks.erase(serviceName);
}
}
else
{
nlwarning("HNETL5 : can't remove service down callback, not found");
}
}
}
//
//
//
uint64 CUnifiedNetwork::getBytesSent ()
{
uint64 sent = 0;
uint j;
for (vector::iterator it = _UsedConnection.begin (); it != _UsedConnection.end(); it++)
{
if (_IdCnx[it->get()].State == CUnifiedNetwork::CUnifiedConnection::Ready)
for (j=0; j<_IdCnx[it->get()].Connections.size (); ++j)
if(_IdCnx[it->get()].Connections[j].valid () && !_IdCnx[it->get()].Connections[j].IsServerConnection)
sent += _IdCnx[it->get()].Connections[j].CbNetBase->getBytesSent();
}
if(_CbServer)
sent += _CbServer->getBytesSent();
return sent;
}
uint64 CUnifiedNetwork::getBytesReceived ()
{
uint64 received = 0;
uint j;
for (vector::iterator it = _UsedConnection.begin (); it != _UsedConnection.end(); it++)
{
if (_IdCnx[it->get()].State == CUnifiedNetwork::CUnifiedConnection::Ready)
for (j=0; j<_IdCnx[it->get()].Connections.size (); ++j)
if(_IdCnx[it->get()].Connections[j].valid () && !_IdCnx[it->get()].Connections[j].IsServerConnection)
received += _IdCnx[it->get()].Connections[j].CbNetBase->getBytesReceived();
}
if (_CbServer)
received += _CbServer->getBytesReceived();
return received;
}
uint64 CUnifiedNetwork::getSendQueueSize ()
{
uint64 sent = 0;
uint j;
for (vector::iterator it = _UsedConnection.begin (); it != _UsedConnection.end(); it++)
{
if (_IdCnx[it->get()].State == CUnifiedNetwork::CUnifiedConnection::Ready)
for (j=0; j<_IdCnx[it->get()].Connections.size (); ++j)
if(_IdCnx[it->get()].Connections[j].valid () && !_IdCnx[it->get()].Connections[j].IsServerConnection)
sent += _IdCnx[it->get()].Connections[j].CbNetBase->getSendQueueSize();
}
if (_CbServer)
sent += _CbServer->getSendQueueSize();
return sent;
}
uint64 CUnifiedNetwork::getReceiveQueueSize ()
{
uint64 received = 0;
uint j;
for (vector::iterator it = _UsedConnection.begin (); it != _UsedConnection.end(); it++)
{
if (_IdCnx[it->get()].State == CUnifiedNetwork::CUnifiedConnection::Ready)
for (j=0; j<_IdCnx[it->get()].Connections.size (); ++j)
if(_IdCnx[it->get()].Connections[j].valid () && !_IdCnx[it->get()].Connections[j].IsServerConnection)
received += _IdCnx[it->get()].Connections[j].CbNetBase->getReceiveQueueSize();
}
if (_CbServer)
received += _CbServer->getReceiveQueueSize();
return received;
}
CCallbackNetBase *CUnifiedNetwork::getNetBase(const std::string &name, TSockId &host, uint8 nid)
{
nlassertex(_Initialised == true, ("Try to CUnifiedNetwork::getNetBase() whereas it is not initialised yet"));
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
sint count = (sint)_NamedCnx.count(name);
if (count <= 0)
{
nlwarning ("HNETL5: couldn't access the service %s", name.c_str());
host = InvalidSockId;
return NULL;
}
else if (count > 1)
{
nlwarning ("HNETL5: %d services %s to getNetBase, returns the first valid", count, name.c_str());
}
TNameMappedConnection::const_iterator itnmc = _NamedCnx.find(name);
uint8 connectionId = findConnectionId ((*itnmc).second, nid);
if (connectionId == 0xff) // failed
{
nlwarning ("HNETL5: Can't getNetBase %s because no connection available", name.c_str());
host = InvalidSockId;
return NULL;
}
host = _IdCnx[itnmc->second.get()].Connections[connectionId].HostId;
return _IdCnx[itnmc->second.get()].Connections[connectionId].CbNetBase;
}
CCallbackNetBase *CUnifiedNetwork::getNetBase(TServiceId sid, TSockId &host, uint8 nid)
{
nlassertex(_Initialised == true, ("Try to CUnifiedNetwork::getNetBase() whereas it is not initialised yet"));
if (ThreadCreator != NLMISC::getThreadId()) nlwarning ("HNETL5: Multithread access but this class is not thread safe thread creator = %u thread used = %u", ThreadCreator, NLMISC::getThreadId());
if (sid.get() >= _IdCnx.size () || _IdCnx[sid.get()].State != CUnifiedNetwork::CUnifiedConnection::Ready)
{
nlwarning ("HNETL5: Can't get net base to the service '%hu' because not in _IdCnx", sid.get());
host = InvalidSockId;
return NULL;
}
uint8 connectionId = findConnectionId (sid, nid);
if (connectionId == 0xff) // failed
{
nlwarning ("HNETL5: Can't getNetBase %hu because no connection available", sid.get());
host = InvalidSockId;
return NULL;
}
host = _IdCnx[sid.get()].Connections[connectionId].HostId;
return _IdCnx[sid.get()].Connections[connectionId].CbNetBase;
}
TUnifiedMsgCallback CUnifiedNetwork::findCallback (const std::string &callbackName)
{
TMsgMappedCallback::iterator itcb = _Callbacks.find(callbackName);
if (itcb == _Callbacks.end())
return NULL;
else
return (*itcb).second;
}
bool CUnifiedNetwork::isServiceLocal (const std::string &serviceName)
{
// it s me, of course we are local
if (serviceName == _Name)
return true;
pair range;
range = _NamedCnx.equal_range(serviceName);
if (range.first != _NamedCnx.end())
{
TServiceId sid = (*(range.first)).second;
return isServiceLocal (sid);
}
return false;
}
bool CUnifiedNetwork::isServiceLocal (TServiceId sid)
{
// it s me, of course we are local
if (sid == _SId)
return true;
if (sid.get() >= _IdCnx.size () || _IdCnx[sid.get()].State != CUnifiedNetwork::CUnifiedConnection::Ready)
{
return false;
}
vector laddr = CInetAddress::localAddresses();
for (uint i = 0; i < laddr.size(); i++)
{
for (uint j = 0; j < _IdCnx[sid.get()].ExtAddress.size(); j++)
{
if (_IdCnx[sid.get()].ExtAddress[j].is127001 ())
return true;
if (_IdCnx[sid.get()].ExtAddress[j].internalIPAddress () == laddr[i].internalIPAddress ())
return true;
}
}
return false;
}
/*
* Return the name of the specified service, or "" if not found
*/
std::string CUnifiedNetwork::getServiceName(TServiceId sid)
{
string s;
CUnifiedConnection *c = getUnifiedConnection(sid, false);
if (c)
s = c->ServiceName;
return s;
}
/*
* Return a string identifying the service, using the format "NAME-sid" (or "sid" only if not found)
*/
std::string CUnifiedNetwork::getServiceUnifiedName(TServiceId sid)
{
string s;
CUnifiedConnection *c = getUnifiedConnection(sid, false);
if (c)
s = c->ServiceName + "-";
s += toString(sid.get());
return s;
}
//
//
//
//CUnifiedNetwork *CUnifiedNetwork::_Instance = NULL;
NLMISC_SAFE_SINGLETON_IMPL(CUnifiedNetwork);
bool CUnifiedNetwork::isUsed ()
{
return (_Instance != NULL);
}
//
//
//
CUnifiedNetwork::CUnifiedConnection *CUnifiedNetwork::getUnifiedConnection (TServiceId sid, bool warn)
{
if (sid.get() < _IdCnx.size () && _IdCnx[sid.get()].State == CUnifiedConnection::Ready)
{
if (sid != _IdCnx[sid.get()].ServiceId)
{
AUTOCHECK_DISPLAY ("HNETL5: Sid index %hu is not the same that in the entry %hu", sid.get(), _IdCnx[sid.get()].ServiceId.get());
return NULL;
}
return &_IdCnx[sid.get()];
}
else
{
if ( warn )
nlwarning ("HNETL5: Try to get a bad unified connection (sid %hu is not in the table)", sid.get());
return NULL;
}
}
void CUnifiedNetwork::autoCheck()
{
H_AUTO(L5UpdateAutoCheck);
uint i, j;
for (i = 0; i < _IdCnx.size (); i++)
{
if (_IdCnx[i].State == CUnifiedNetwork::CUnifiedConnection::Ready)
{
_IdCnx[i].AutoCheck = 1;
}
else
{
_IdCnx[i].AutoCheck = 0;
}
}
TNameMappedConnection::iterator itn;
for (itn = _NamedCnx.begin(); itn != _NamedCnx.end(); ++itn)
{
if ((*itn).first != _IdCnx[itn->second.get()].ServiceName)
AUTOCHECK_DISPLAY ("HLNET5: problem with name synchro between _NameCnx '%s' and _IdCnx '%s' '%hd'",
(*itn).first.c_str(),
_IdCnx[itn->second.get()].ServiceName.c_str (),
itn->second.get());
if (_IdCnx[itn->second.get()].AutoCheck == 0)
AUTOCHECK_DISPLAY ("HLNET5: problem with name synchro between _NameCnx '%s' and _IdCnx '%s' '%hd'",
(*itn).first.c_str(),
_IdCnx[itn->second.get()].ServiceName.c_str (),
itn->second.get());
if (_IdCnx[itn->second.get()].AutoCheck > 1)
AUTOCHECK_DISPLAY ("HLNET5: problem with name synchro between _NameCnx '%s' and _IdCnx '%s' '%hd' more than one entry is named with the same name",
(*itn).first.c_str(),
_IdCnx[itn->second.get()].ServiceName.c_str (),
itn->second.get());
_IdCnx[itn->second.get()].AutoCheck++;
}
for (i = 0; i < _UsedConnection.size (); i++)
{
if (_IdCnx[_UsedConnection[i].get()].State != CUnifiedNetwork::CUnifiedConnection::Ready)
AUTOCHECK_DISPLAY ("HLNET5: problem with the _UsedConnection syncro sid %d is not used in _IdCnx", _UsedConnection[i].get());
}
for (i = 0; i < _IdCnx.size (); i++)
{
if (_IdCnx[i].State == CUnifiedNetwork::CUnifiedConnection::Ready)
{
for (j = 0; j < _UsedConnection.size (); j++)
{
if (_UsedConnection[j].get() == i) break;
}
if (j == _UsedConnection.size ()) AUTOCHECK_DISPLAY ("HLNET5: problem with the _UsedConnection syncro sid %d is not in _UsedConnection", i);
}
}
for (i = 0; i < _IdCnx.size (); i++)
{
if (_IdCnx[i].State == CUnifiedNetwork::CUnifiedConnection::NotUsed)
{
if (_IdCnx[i].ServiceName != "DEAD") AUTOCHECK_DISPLAY ("HLNET5: sid %d name should be DEAD and is '%s'", i, _IdCnx[i].ServiceName.c_str ());
if (_IdCnx[i].ServiceId.get() != 0xDEAD) AUTOCHECK_DISPLAY ("HLNET5: sid %d sid should be 0xDEAD and is 0x%X", i, _IdCnx[i].ServiceId.get());
if (!_IdCnx[i].Connections.empty ()) AUTOCHECK_DISPLAY ("HLNET5: sid %d connection size should be 0 and is %d", i, _IdCnx[i].Connections.size ());
if (!_IdCnx[i].ExtAddress.empty ()) AUTOCHECK_DISPLAY ("HLNET5: sid %d ext addr size should be 0 and is %d", i, _IdCnx[i].ExtAddress.size ());
if (_IdCnx[i].AutoCheck != 0) AUTOCHECK_DISPLAY ("HLNET5: sid %d prob with syncro with _NamedCnx", i);
}
else if (_IdCnx[i].State == CUnifiedNetwork::CUnifiedConnection::Ready)
{
if (_IdCnx[i].ServiceId.get() != i) AUTOCHECK_DISPLAY ("HNETL5: Bad syncro sid index sid entry for %d %d", i, _IdCnx[i].ServiceId.get());
if (_IdCnx[i].ServiceName == "DEAD") AUTOCHECK_DISPLAY ("HLNET5: sid %d name should not be DEAD and is '%s'", i, _IdCnx[i].ServiceName.c_str ());
if (_IdCnx[i].ServiceId.get() == 0xDEAD) AUTOCHECK_DISPLAY ("HLNET5: sid %d sid should not be 0xDEAD and is 0x%X", i, _IdCnx[i].ServiceId.get());
if (!_IdCnx[i].ExtAddress.empty () && _IdCnx[i].Connections.size () > _IdCnx[i].ExtAddress.size()) AUTOCHECK_DISPLAY ("HLNET5: sid %d ext addr size should not be 0 and is %d", i, _IdCnx[i].ExtAddress.size ());
if (_IdCnx[i].AutoRetry == true && _IdCnx[i].Connections.size () > 1) AUTOCHECK_DISPLAY ("HLNET5: sid %d auto retry with more than one connection %d", i, _IdCnx[i].Connections.size ());
if (_IdCnx[i].AutoRetry == true && _IdCnx[i].IsExternal == false) AUTOCHECK_DISPLAY ("HLNET5: sid %d auto retry with internal connection", i);
if (_IdCnx[i].AutoRetry == true && _IdCnx[i].Connections[0].valid() == false) AUTOCHECK_DISPLAY ("HLNET5: sid %d auto retry with invalid connection", i);
for (j = 0; j < _IdCnx[i].Connections.size (); j++)
{
if (_IdCnx[i].Connections[j].valid() && !_IdCnx[i].Connections[j].IsServerConnection && _IdCnx[i].Connections[j].CbNetBase->connected () && _IdCnx[i].Connections[j].getAppId() != i) AUTOCHECK_DISPLAY ("HLNET5: sid %d bad appid %"NL_I64"X", i, _IdCnx[i].Connections[j].getAppId());
}
for (j = 0; j < _IdCnx[i].NetworkConnectionAssociations.size (); j++)
{
if (_IdCnx[i].NetworkConnectionAssociations[j] != 0)
{
if (_NetworkAssociations[j] != _IdCnx[i].ExtAddress[_IdCnx[i].NetworkConnectionAssociations[j]].internalNetAddress ()) AUTOCHECK_DISPLAY ("HLNET5: sid %d nid %d have address 0x%08x and is not the good connection net 0x%08x", i, j, _NetworkAssociations[j], _IdCnx[i].ExtAddress[_IdCnx[i].NetworkConnectionAssociations[j]].internalNetAddress ());
}
}
}
}
}
void CUnifiedNetwork::displayInternalTables (NLMISC::CLog *log)
{
uint i, j;
log->displayNL ("%d Named Connections:", _NamedCnx.size ());
for (TNameMappedConnection::iterator it = _NamedCnx.begin(); it != _NamedCnx.end (); it++)
{
log->displayNL ("> '%s' -> %hu", (*it).first.c_str(), it->second.get());
}
uint nbused = 0;
for (i = 0; i < _IdCnx.size (); i++)
{
if(_IdCnx[i].State != CUnifiedNetwork::CUnifiedConnection::NotUsed)
nbused++;
}
log->displayNL ("%u/%u Unified Connections:", nbused, _IdCnx.size ());
for (i = 0; i < _IdCnx.size (); i++)
{
if(_IdCnx[i].State != CUnifiedNetwork::CUnifiedConnection::NotUsed)
{
_IdCnx[i].display (false, log);
for (j = 0; j < _IdCnx[i].NetworkConnectionAssociations.size (); j++)
{
log->displayNL (" * nid %d -> cnxn %hu", j, (uint16)_IdCnx[i].NetworkConnectionAssociations[j]);
}
}
}
log->displayNL ("%u Used Unified Connections:", _UsedConnection.size());
for (i = 0; i < _UsedConnection.size (); i++)
{
log->displayNL ("> %hu", _UsedConnection[i].get());
}
log->displayNL ("%u Network Associations:", _NetworkAssociations.size());
for (i = 0; i < _NetworkAssociations.size (); i++)
{
log->displayNL ("> 0x%08x -> '%s'", _NetworkAssociations[i], internalIPAddressToString (_NetworkAssociations[i]).c_str ());
}
}
bool CUnifiedNetwork::haveNamedCnx (const std::string &name, TServiceId sid)
{
CUnifiedNetwork::TNameMappedConnection::iterator it;
pair range;
range = _NamedCnx.equal_range(name);
if (range.first != range.second)
{
for (it=range.first; it!=range.second && (*it).second!=sid; ++it)
;
return (it != range.second);
}
return false;
}
void CUnifiedNetwork::addNamedCnx (const std::string &name, TServiceId sid)
{
// check if not already inserted
CUnifiedNetwork::TNameMappedConnection::iterator it;
pair range;
range = _NamedCnx.equal_range(name);
if (range.first != range.second)
{
for (it=range.first; it!=range.second && (*it).second!=sid; ++it)
;
if (it != range.second)
{
AUTOCHECK_DISPLAY ("HNETL5: Try to add 2 times the same connection %s-%hu", name.c_str(), sid.get());
return;
}
}
// insert the name in the map to be able to send message with the name
_NamedCnx.insert(make_pair(name, sid));
}
void CUnifiedNetwork::removeNamedCnx (const std::string &name, TServiceId sid)
{
// get all map nodes of that service name
CUnifiedNetwork::TNameMappedConnection::iterator it;
pair range;
range = _NamedCnx.equal_range(name);
// assume not empty
if (range.first == range.second)
{
AUTOCHECK_DISPLAY ("HNETL5: The unified connection %s-%hu wasn't on the _NamedCnx", name.c_str(), sid.get());
return;
}
// select good service id
for (it=range.first; it!=range.second && (*it).second!=sid; ++it)
;
// assume id exists
if (it == range.second)
{
AUTOCHECK_DISPLAY ("HNETL5: The unified connection %s-%hu wasn't on the _NamedCnx", name.c_str(), sid.get());
return;
}
// remove service for map
_NamedCnx.erase(it);
}
void CUnifiedNetwork::addNetworkAssociation (const string &networkName, uint8 nid)
{
if (nid >= _NetworkAssociations.size ())
_NetworkAssociations.resize (nid+1, 0xFF);
_NetworkAssociations[nid] = stringToInternalIPAddress (networkName);
nlinfo ("HNETL5: Associate network '%s' 0x%08x '%s' to nid %hu", networkName.c_str(), _NetworkAssociations[nid], internalIPAddressToString (_NetworkAssociations[nid]).c_str(), (uint16)nid);
}
void CUnifiedNetwork::callServiceUpCallback (const std::string &serviceName, TServiceId sid, bool callGlobalCallback)
{
// now we warn the user
CUnifiedNetwork::TNameMappedCallback::iterator it = _UpCallbacks.find(serviceName);
if (it != _UpCallbacks.end())
{
// call it
for (list::iterator it2 = (*it).second.begin(); it2 != (*it).second.end(); it2++)
{
TUnifiedNetCallback cb = (*it2).first;
if (cb)
cb(serviceName, sid, (*it2).second);
else
nlwarning ("HNETL5: User set an empty callback for '%s' service up", serviceName.c_str());
}
}
if(callGlobalCallback)
{
for (uint c = 0; c < _UpUniCallback.size (); c++)
{
if (_UpUniCallback[c].first != NULL)
_UpUniCallback[c].first (serviceName, sid, _UpUniCallback[c].second);
else
nlwarning ("HNETL5: User set an empty callback for '*' service up");
}
}
}
void CUnifiedNetwork::callServiceDownCallback (const std::string &serviceName, TServiceId sid, bool callGlobalCallback)
{
// now we warn the user
CUnifiedNetwork::TNameMappedCallback::iterator it = _DownCallbacks.find(serviceName);
if (it != _DownCallbacks.end())
{
// call it
for (list::iterator it2 = (*it).second.begin(); it2 != (*it).second.end(); it2++)
{
TUnifiedNetCallback cb = (*it2).first;
if (cb)
cb(serviceName, sid, (*it2).second);
else
nlwarning ("HNETL5: User set an empty callback for '%s' service down", serviceName.c_str());
}
}
if(callGlobalCallback)
{
for (uint c = 0; c < _DownUniCallback.size (); c++)
{
if (_DownUniCallback[c].first != NULL)
_DownUniCallback[c].first (serviceName, sid, _DownUniCallback[c].second);
else
nlwarning ("HNETL5: User set an empty callback for '*' service down");
}
}
}
void CUnifiedNetwork::CUnifiedConnection::display (bool full, CLog *log)
{
log->displayNL ("> %s-%hu %s %s %s (%d ExtAddr %d Cnx) TotalCb %d", ServiceName.c_str (), ServiceId.get(), IsExternal?"External":"NotExternal",
AutoRetry?"AutoRetry":"NoAutoRetry", SendId?"SendId":"NoSendId", ExtAddress.size (), Connections.size (), TotalCallbackCalled);
uint maxc = (uint)std::max (ExtAddress.size (), Connections.size ());
for (uint j = 0; j < maxc; j++)
{
string base;
if(j < ExtAddress.size ())
{
base += ExtAddress[j].asString ();
}
else
{
base += "NotValid";
}
string ext;
if(j < Connections.size () && Connections[j].valid())
{
if(Connections[j].IsServerConnection)
{
ext += "Server ";
}
else
{
ext += "Client ";
}
ext += Connections[j].CbNetBase->getSockId (Connections[j].HostId)->asString ();
ext += " AppId:" + toString(Connections[j].getAppId());
if (Connections[j].CbNetBase->connected ())
ext += " Connected";
else
ext += " NotConnected";
}
else
{
ext += "NotValid";
}
log->displayNL (" - %s %s", base.c_str (), ext.c_str ());
if(full)
{
log->displayNL (" * ReceiveQueueStat");
Connections[j].CbNetBase->displayReceiveQueueStat(log);
log->displayNL (" * SendQueueStat");
Connections[j].CbNetBase->displaySendQueueStat(log, Connections[j].HostId);
log->displayNL (" * ThreadStat");
Connections[j].CbNetBase->displayThreadStat(log);
}
}
}
//
// Commands
//
bool createMessage (CMessage &msgout, const vector &args, CLog &log)
{
for (uint i = 2; i < args.size (); i+=2)
{
string type = args[i+0];
string value = args[i+1];
if (type == "s8") { sint8 v; fromString(value, v); msgout.serial (v); }
else if (type == "s16") { sint16 v; fromString(value, v); msgout.serial (v); }
else if (type == "s32") { sint32 v; fromString(value, v); msgout.serial (v); }
else if (type == "s64") { sint64 v; fromString(value, v); msgout.serial (v); }
else if (type == "u8") { uint8 v; fromString(value, v); msgout.serial (v); }
else if (type == "u16") { uint16 v; fromString(value, v); msgout.serial (v); }
else if (type == "u32") { uint32 v; fromString(value, v); msgout.serial (v); }
else if (type == "u64") { uint64 v; fromString(value, v); msgout.serial (v); }
else if (type == "f") { float v; fromString(value, v); msgout.serial (v); }
else if (type == "d") { double v; fromString(value, v); msgout.serial (v); }
else if (type == "b") { bool v; fromString(value, v); msgout.serial (v); }
else if (type == "s") { msgout.serial (value); }
else if (type == "e") { CEntityId e; e.fromString(value.c_str()); msgout.serial(e); }
else { log.displayNL ("type '%s' is not a valid type", type.c_str()); return false; }
}
return true;
}
//
// Commands and Variables
//
NLMISC_CATEGORISED_VARIABLE(nel, uint32, TotalCallbackCalled, "Total callback called number on layer 5");
NLMISC_CATEGORISED_DYNVARIABLE(nel, uint64, SendQueueSize, "current size in bytes of all send queues")
{
nlunreferenced(human);
if (get)
{
if (!CUnifiedNetwork::isUsed ())
*pointer = 0;
else
*pointer = CUnifiedNetwork::getInstance()->getSendQueueSize();
}
}
NLMISC_CATEGORISED_DYNVARIABLE(nel, uint64, ReceiveQueueSize, "current size in bytes of all receive queues")
{
nlunreferenced(human);
if (get)
{
if (!CUnifiedNetwork::isUsed ())
*pointer = 0;
else
*pointer = CUnifiedNetwork::getInstance()->getReceiveQueueSize();
}
}
NLMISC_CATEGORISED_DYNVARIABLE(nel, uint64, ReceivedBytes, "total of bytes received by this service")
{
nlunreferenced(human);
if (get)
{
if (!CUnifiedNetwork::isUsed ())
*pointer = 0;
else
*pointer = CUnifiedNetwork::getInstance()->getBytesReceived ();
}
}
NLMISC_CATEGORISED_DYNVARIABLE(nel, uint64, SentBytes, "total of bytes sent by this service")
{
nlunreferenced(human);
if (get)
{
if (!CUnifiedNetwork::isUsed ())
*pointer = 0;
else
*pointer = CUnifiedNetwork::getInstance()->getBytesSent ();
}
}
/*
* Simulate a message that comes from the network.
*
* for the bool (b type), you must set the value to 1 or 0
* for the string (s type), we don't manage space inside a string
* for stl containers, you have first to put a u32 type that is the size of the container and after all elements
* (ex: if you want to put a vector that have 3 elements: u32 3 u16 10 u16 11 u16 12)
*
* ex: msgin 128 REGISTER u32 10 u32 541 u32 45
* You'll receive a fake message REGISTER that seems to come from the service number 128 with 3 uint32.
*
*/
NLMISC_CATEGORISED_COMMAND(nel, msgin, "Simulate an input message from another service (ex: msgin 128 REGISTER u32 10 b 1 f 1.5)", "| [ ]*")
{
nlunreferenced(rawCommandString);
nlunreferenced(quiet);
nlunreferenced(human);
if(args.size() < 2) return false;
if (!CUnifiedNetwork::isUsed ())
{
log.displayNL("Can't do that because the service doesn't use CUnifiedNetwork");
return false;
}
uint16 sId;
fromString(args[0], sId);
TServiceId serviceId(sId);
string serviceName = args[0].c_str();
string messageName = args[1].c_str();
if (serviceId.get() > 255)
{
log.displayNL ("Service Id %d must be between [1;255]", serviceId.get());
return false;
}
if ((args.size()-2) % 2 != 0)
{
log.displayNL ("The number of parameter must be a multiple of 2");
return false;
}
CMessage msg (messageName);
if (!createMessage (msg, args, log))
return false;
msg.invert ();
TUnifiedMsgCallback cb = CUnifiedNetwork::getInstance()->findCallback (messageName);
if (cb == NULL)
{
log.displayNL ("Callback for message '%s' is not found", messageName.c_str());
}
else
{
cb (msg, serviceName, serviceId);
}
return true;
}
/*
* Create a message and send it to the specified service
*
* for the bool (b type), you must set the value to 1 or 0
* for the string (s type), we don't manage space inside a string
* for stl containers, you have first to put a u32 type that is the size of the container and after all elements
* (ex: if you want to put a vector that have 3 elements: u32 3 u16 10 u16 11 u16 12)
*
* ex: msgout 128 REGISTER u32 10 u32 541 u32 45
* You'll send a real message REGISTER to the service number 128 with 3 uint32.
*
*/
NLMISC_CATEGORISED_COMMAND(nel, msgout, "Send a message to a specified service (ex: msgout 128 REGISTER u32 10 b 1 f 1.5)", "| [ ]*")
{
nlunreferenced(rawCommandString);
nlunreferenced(quiet);
nlunreferenced(human);
if(args.size() < 2) return false;
if (!CUnifiedNetwork::isUsed ())
{
log.displayNL("Can't do that because the service doesn't use CUnifiedNetwork");
return false;
}
uint16 nId;
fromString(args[0], nId);
TServiceId serviceId(nId);
string serviceName = args[0].c_str();
string messageName = args[1].c_str();
if (serviceId.get() > 255)
{
log.displayNL ("Service Id %d must be between [1;255]", serviceId.get());
return false;
}
if ((args.size()-2) % 2 != 0)
{
log.displayNL ("The number of parameter must be a multiple of 2");
return false;
}
CMessage msg (messageName);
if (!createMessage (msg, args, log))
return false;
TSockId host = InvalidSockId;
CCallbackNetBase *cnb = NULL;
if (serviceId.get() != 0)
cnb = CUnifiedNetwork::getInstance()->getNetBase (serviceId, host);
else
cnb = CUnifiedNetwork::getInstance()->getNetBase (serviceName, host);
if (cnb == NULL)
{
log.displayNL ("'%s' is a bad or ", args[0].c_str());
return false;
}
cnb->send (msg, host);
return true;
}
NLMISC_CATEGORISED_COMMAND(nel, l5QueuesStats, "Displays queues stats of network layer5", "")
{
nlunreferenced(rawCommandString);
nlunreferenced(quiet);
nlunreferenced(human);
if(args.size() != 0) return false;
if (!CUnifiedNetwork::isUsed ())
{
log.displayNL("Can't display internal table because layer5 is not used");
return false;
}
log.displayNL ("%u Unified Connections:", CUnifiedNetwork::getInstance()->_IdCnx.size ());
for (uint i = 0; i < CUnifiedNetwork::getInstance()->_IdCnx.size (); i++)
{
if(CUnifiedNetwork::getInstance()->_IdCnx[i].State != CUnifiedNetwork::CUnifiedConnection::NotUsed)
{
CUnifiedNetwork::getInstance()->_IdCnx[i].display (true, &log);
}
}
return true;
}
NLMISC_CATEGORISED_COMMAND(nel, l5InternalTables, "Displays internal table of network layer5", "")
{
nlunreferenced(rawCommandString);
nlunreferenced(quiet);
nlunreferenced(human);
if(args.size() != 0) return false;
if (!CUnifiedNetwork::isUsed ())
{
log.displayNL("Can't display internal table because layer5 is not used");
return false;
}
CUnifiedNetwork::getInstance ()->displayInternalTables(&log);
return true;
}
NLMISC_CATEGORISED_COMMAND(nel, l5Callback, "Displays all callback registered in layer5", "")
{
nlunreferenced(rawCommandString);
nlunreferenced(quiet);
nlunreferenced(human);
if(args.size() != 0) return false;
if (!CUnifiedNetwork::isUsed ())
{
log.displayNL("Can't display internal table because layer5 is not used");
return false;
}
log.displayNL ("There're %d registered callbacks:", CUnifiedNetwork::getInstance()->_Callbacks.size());
uint i = 0;
for (CUnifiedNetwork::TMsgMappedCallback::iterator it = CUnifiedNetwork::getInstance()->_Callbacks.begin(); it != CUnifiedNetwork::getInstance()->_Callbacks.end(); it++)
{
log.displayNL (" %d '%s' %s", i++, (*it).first.c_str(), ((*it).second == NULL?"have a NULL address":""));
}
return true;
}
NLMISC_CATEGORISED_COMMAND(nel, isServiceLocal, "Says if a service is local or not compare with this service", "|")
{
nlunreferenced(human);
nlunreferenced(quiet);
nlunreferenced(rawCommandString);
if(args.size() != 1) return false;
if (!CUnifiedNetwork::isUsed ())
{
log.displayNL("Can't do that because the service doesn't use CUnifiedNetwork");
return false;
}
uint16 nId;
fromString(args[0], nId);
TServiceId sid(nId);
if (sid.get() > 0)
{
log.displayNL ("Service %s-%hu and sid %s are %son the same computer", CUnifiedNetwork::getInstance ()->_Name.c_str(), CUnifiedNetwork::getInstance ()->_SId.get(), args[0].c_str(), CUnifiedNetwork::getInstance ()->isServiceLocal (sid)?"":"not ");
}
else
{
log.displayNL ("Service %s-%hu and %s are %son the same computer", CUnifiedNetwork::getInstance ()->_Name.c_str(), CUnifiedNetwork::getInstance ()->_SId.get(), args[0].c_str(), CUnifiedNetwork::getInstance ()->isServiceLocal (args[0])?"":"not ");
}
return true;
}
NLMISC_CLASS_COMMAND_IMPL(CUnifiedNetwork, addService)
{
nlunreferenced(human);
nlunreferenced(quiet);
nlunreferenced(args);
TParsedCommandLine pcl;
pcl.parseParamList(rawCommandString);
if (pcl.SubParams.size() != 2)
return false;
// syntax is as follow :
// ( address= [sid=] [sendId] [external] [autoRetry] )
TParsedCommandLine * serviceInfo = pcl.SubParams[1];
const TParsedCommandLine *address = serviceInfo->getParam("address");
if (address == NULL)
{
log.displayNL("Can't find param 'address'");
return false;
}
CInetAddress ia(address->ParamValue);;
if (!ia.isValid())
{
log.displayNL("Can't parse internet address in '%s'", address->ParamValue.c_str());
return false;
}
TServiceId serviceId(0);
const TParsedCommandLine *sid = serviceInfo->getParam("sid");
if (sid != NULL)
{
uint16 nId;
fromString(sid->ParamValue, nId);
serviceId.set(nId);
}
bool sendId = serviceInfo->getParam("sendId") != NULL;
bool external = serviceInfo->getParam("external") != NULL;
bool autoRetry = serviceInfo->getParam("autoRetry") != NULL;
log.displayNL("Adding service '%s' as sid %u with [sendId = %s], [external = %s], [autoRetry = %s]",
serviceInfo->ParamName.c_str(),
sid,
sendId ? "YES" : "NO",
external ? "YES" : "NO",
autoRetry ? "YES" : "NO"
);
addService(serviceInfo->ParamName,
ia,
sendId,
external,
serviceId,
autoRetry,
false);
return true;
}
} // NLNET